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5ae9153cac75ae905b4f6d3098ed440ffb9fe069 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?David=20H=C3=B6gberg?= Date: Wed, 17 Apr 2019 13:03:10 +0200 Subject: [PATCH 2/4] add code for quantitative index and for KM/kcat data --- code/cheminfo/.DS_Store | Bin 0 -> 6148 bytes .../EC-data-checkpoint.ipynb | 1315 + .../.ipynb_checkpoints/Test-checkpoint.ipynb | 6 + .../activities-checkpoint.ipynb | 499 + code/cheminfo/data/.DS_Store | Bin 0 -> 6148 bytes .../data/2019-04-17_substrate_cache.json | 1 + code/quantitative_index/activities.ipynb | 499 + code/quantitative_index/max_KCAT.txt | 30162 +++++++ code/quantitative_index/min_KM.txt | 66898 ++++++++++++++++ code/quantitative_index/qindex.py | 65 + 10 files changed, 99445 insertions(+) create mode 100644 code/cheminfo/.DS_Store create mode 100644 code/cheminfo/.ipynb_checkpoints/EC-data-checkpoint.ipynb create mode 100644 code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb create mode 100644 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ECsubstrateorganismkcatKMe
01.1.1.1(+)-1-indanolthermus thermophilus61.4004.20014.619048
11.1.1.1(+)-alpha-tetraolthermus thermophilus57.0004.20013.571429
21.1.1.1(-)-1-phenylethanolthermus thermophilus1.10018.1000.060773
31.1.1.1(2e)-but-2-en-1-olyokenella sp.101.0009.10011.098901
41.1.1.1(2e)-but-2-enalyokenella sp.405.0003.300122.727273
51.1.1.11-butanolaeropyrum pernix0.4100.5960.687919
61.1.1.11-butanolmesocricetus auratus7.500NaNNaN
71.1.1.11-butanolrattus norvegicus48.8000.170287.058824
81.1.1.11-butanolsulfolobus solfataricus3.1000.08038.750000
91.1.1.11-heptanolsulfolobus solfataricus1.6000.03842.105263
101.1.1.11-hexanolaeropyrum pernix0.3700.1472.517007
111.1.1.11-hexanolmesocricetus auratus3.030NaNNaN
121.1.1.11-hexanolsulfolobus solfataricus2.0000.03557.142857
131.1.1.11-indanolsulfolobus acidocaldarius13.7002.4005.708333
141.1.1.11-indanolthermus thermophilus61.4004.20014.619048
151.1.1.11-indanonethermus thermophilus8.30027.6000.300725
161.1.1.11-octanolgeobacillus thermodenitrificans260.7003.88067.190722
171.1.1.11-octanolhomo sapiens2.8300.3907.256410
181.1.1.11-octanolrattus norvegicus60.8000.0252432.000000
191.1.1.11-pentanolaeropyrum pernix0.4500.3961.136364
201.1.1.11-pentanolhomo sapiens0.18327.0000.006778
211.1.1.11-pentanolrattus norvegicus48.8000.080610.000000
221.1.1.11-pentanolsulfolobus solfataricus2.5000.02792.592593
231.1.1.11-phenyl-1,2-propandionethermus thermophilus17.1005.9002.898305
241.1.1.11-phenyl-1,2-propanedionesulfolobus acidocaldarius5.3005.0001.060000
251.1.1.11-phenyl-1,2-propanedionethermus thermophilus17.1005.9002.898305
261.1.1.11-phenylethanolthermococcus kodakarensis35.700244.0000.146311
271.1.1.11-phenylethanolthermus thermophilus1.10018.1000.060773
281.1.1.11-propanolaeropyrum pernix0.2601.0300.252427
291.1.1.11-propanolsulfolobus solfataricus2.6000.24010.833333
\n", + "" + ], + "text/plain": [ + " EC substrate organism \\\n", + "0 1.1.1.1 (+)-1-indanol thermus thermophilus \n", + "1 1.1.1.1 (+)-alpha-tetraol thermus thermophilus \n", + "2 1.1.1.1 (-)-1-phenylethanol thermus thermophilus \n", + "3 1.1.1.1 (2e)-but-2-en-1-ol yokenella sp. \n", + "4 1.1.1.1 (2e)-but-2-enal yokenella sp. \n", + "5 1.1.1.1 1-butanol aeropyrum pernix \n", + "6 1.1.1.1 1-butanol mesocricetus auratus \n", + "7 1.1.1.1 1-butanol rattus norvegicus \n", + "8 1.1.1.1 1-butanol sulfolobus solfataricus \n", + "9 1.1.1.1 1-heptanol sulfolobus solfataricus \n", + "10 1.1.1.1 1-hexanol aeropyrum pernix \n", + "11 1.1.1.1 1-hexanol mesocricetus auratus \n", + "12 1.1.1.1 1-hexanol sulfolobus solfataricus \n", + "13 1.1.1.1 1-indanol sulfolobus acidocaldarius \n", + "14 1.1.1.1 1-indanol thermus thermophilus \n", + "15 1.1.1.1 1-indanone thermus thermophilus \n", + "16 1.1.1.1 1-octanol geobacillus thermodenitrificans \n", + "17 1.1.1.1 1-octanol homo sapiens \n", + "18 1.1.1.1 1-octanol rattus norvegicus \n", + "19 1.1.1.1 1-pentanol aeropyrum pernix \n", + "20 1.1.1.1 1-pentanol homo sapiens \n", + "21 1.1.1.1 1-pentanol rattus norvegicus \n", + "22 1.1.1.1 1-pentanol sulfolobus solfataricus \n", + "23 1.1.1.1 1-phenyl-1,2-propandione thermus thermophilus \n", + "24 1.1.1.1 1-phenyl-1,2-propanedione sulfolobus acidocaldarius \n", + "25 1.1.1.1 1-phenyl-1,2-propanedione thermus thermophilus \n", + "26 1.1.1.1 1-phenylethanol thermococcus kodakarensis \n", + "27 1.1.1.1 1-phenylethanol thermus thermophilus \n", + "28 1.1.1.1 1-propanol aeropyrum pernix \n", + "29 1.1.1.1 1-propanol sulfolobus solfataricus \n", + "\n", + " kcat KM e \n", + "0 61.400 4.200 14.619048 \n", + "1 57.000 4.200 13.571429 \n", + "2 1.100 18.100 0.060773 \n", + "3 101.000 9.100 11.098901 \n", + "4 405.000 3.300 122.727273 \n", + "5 0.410 0.596 0.687919 \n", + "6 7.500 NaN NaN \n", + "7 48.800 0.170 287.058824 \n", + "8 3.100 0.080 38.750000 \n", + "9 1.600 0.038 42.105263 \n", + "10 0.370 0.147 2.517007 \n", + "11 3.030 NaN NaN \n", + "12 2.000 0.035 57.142857 \n", + "13 13.700 2.400 5.708333 \n", + "14 61.400 4.200 14.619048 \n", + "15 8.300 27.600 0.300725 \n", + "16 260.700 3.880 67.190722 \n", + "17 2.830 0.390 7.256410 \n", + "18 60.800 0.025 2432.000000 \n", + "19 0.450 0.396 1.136364 \n", + "20 0.183 27.000 0.006778 \n", + "21 48.800 0.080 610.000000 \n", + "22 2.500 0.027 92.592593 \n", + "23 17.100 5.900 2.898305 \n", + "24 5.300 5.000 1.060000 \n", + "25 17.100 5.900 2.898305 \n", + "26 35.700 244.000 0.146311 \n", + "27 1.100 18.100 0.060773 \n", + "28 0.260 1.030 0.252427 \n", + "29 2.600 0.240 10.833333 " + ] + }, + "execution_count": 11, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "df['e'] = df['kcat']/df['KM']\n", + "df.head(20)" + ] + }, + { + "cell_type": "code", + "execution_count": 12, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "46898\n", + "71516\n" + ] + }, + { + "data": { + "text/html": [ + "
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" + ], + "text/plain": [ + " index NaN\n", + "0 EC 0\n", + "1 substrate 0\n", + "2 organism 0\n", + "3 kcat 41625\n", + "4 KM 5273\n", + "5 e 46898" + ] + }, + "execution_count": 12, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "print(len(df))\n", + "\n", + "# NaN-values for each coumn\n", + "df.isnull().sum().reset_index(name='NaN')" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "metadata": {}, + "outputs": [], + "source": [ + "with open(\"data/substrates_filtered.json\",'r') as f:\n", + " data = json.loads(f.read())\n", + "\n", + "EC_KM = df_KM.EC.unique()\n", + "EC_Kcat = df_kcat.EC.unique()\n", + "EC = df.EC.unique()\n" + ] + }, + { + "cell_type": "code", + "execution_count": 24, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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ECsubstrateorganismkcatKMe
120932.7.1.2atphomo sapiens68.42.300000e-072.973913e+08
120942.7.1.2atpleishmania major317.03.500000e-019.057143e+02
120952.7.1.2atptrypanosoma cruzi1492.03.600000e-014.144444e+03
120962.7.1.2beta-d-glucosehomo sapiens166.0NaNNaN
120972.7.1.2glucoseescherichia coli k-12410.0NaNNaN
120982.7.1.2glucosehomo sapiens67.61.500000e-014.506667e+02
120992.7.1.2glucoseleishmania major317.0NaNNaN
121002.7.1.2glucosethermotoga maritima92.6NaNNaN
121012.7.1.2glucosetrypanosoma cruzi1492.01.000000e+001.492000e+03
520682.7.1.22-deoxy-d-glucosehomo sapiensNaN1.900000e+00NaN
520692.7.1.22-deoxyglucosehomo sapiensNaN1.800000e+01NaN
520702.7.1.26-n-(carboxyethyl)atpgeobacillus stearothermophilusNaN6.700000e-01NaN
520712.7.1.26-n-(carboxyethyl)atpzymomonas mobilisNaN5.000000e-01NaN
520722.7.1.26-n-(carboxymethyl)atpgeobacillus stearothermophilusNaN6.500000e-01NaN
520732.7.1.26-n-(carboxymethyl)atpzymomonas mobilisNaN5.500000e-01NaN
520742.7.1.26-n-(succinyl)atpgeobacillus stearothermophilusNaN1.000000e+00NaN
520752.7.1.26-n-(succinyl)atpzymomonas mobilisNaN3.800000e-01NaN
520762.7.1.26-n-[n-(6-aminohexhyl)carbamoyl]atpgeobacillus stearothermophilusNaN5.000000e-01NaN
520772.7.1.26-n-[n-(6-aminohexhyl)carbamoyl]atpzymomonas mobilisNaN1.250000e+00NaN
520782.7.1.2alpha-d-glucosegeobacillus stearothermophilusNaN1.500000e-01NaN
520792.7.1.2atpaeropyrum pernixNaN5.000000e-01NaN
520802.7.1.2atpdictyostelium discoideumNaN1.100000e+00NaN
520812.7.1.2atpescherichia coliNaN5.000000e-01NaN
520822.7.1.2atpgeobacillus stearothermophilusNaN1.300000e-01NaN
520832.7.1.2atplysinibacillus sphaericus c3-41NaN5.200000e-01NaN
520842.7.1.2atpparacoccus versutusNaN7.800000e-01NaN
520852.7.1.2atpsaccharomyces cerevisiaeNaN5.000000e-02NaN
520862.7.1.2atpstreptococcus mutansNaN2.100000e-01NaN
520872.7.1.2atpyarrowia lipolyticaNaN2.100000e-01NaN
520882.7.1.2atpzymomonas mobilisNaN4.000000e-01NaN
520892.7.1.2ctpzymomonas mobilisNaN5.600000e-01NaN
520902.7.1.2fructosehomo sapiensNaN4.700000e+00NaN
520912.7.1.2glucoseaeropyrum pernixNaN5.400000e-02NaN
520922.7.1.2glucoseaspergillus nigerNaN6.300000e-02NaN
520932.7.1.2glucosebotrytis cinereaNaN4.800000e-02NaN
520942.7.1.2glucosecaldanaerobacter subterraneus subsp. tengconge...NaN2.400000e+00NaN
520952.7.1.2glucosedictyostelium discoideumNaN1.200000e-01NaN
520962.7.1.2glucoseescherichia coliNaN1.500000e-01NaN
520972.7.1.2glucoselysinibacillus sphaericus c3-41NaN3.100000e-01NaN
520982.7.1.2glucoseparacoccus versutusNaN8.600000e-01NaN
520992.7.1.2glucoserattus norvegicusNaN7.400000e+00NaN
521002.7.1.2glucosesaccharomyces cerevisiaeNaN2.800000e-02NaN
521012.7.1.2glucosestreptococcus mutansNaN6.100000e-01NaN
521022.7.1.2glucoseurocitellus undulatusNaN2.000000e+00NaN
521032.7.1.2glucosezymomonas mobilisNaN9.500000e-02NaN
521042.7.1.2gtpzymomonas mobilisNaN2.500000e-01NaN
521052.7.1.2itpzymomonas mobilisNaN3.600000e-01NaN
521062.7.1.2mannosehomo sapiensNaN8.000000e-02NaN
521072.7.1.2mgatp2-zymomonas mobilisNaN1.900000e-01NaN
521082.7.1.2utpzymomonas mobilisNaN6.300000e-01NaN
\n", + "
" + ], + "text/plain": [ + " EC substrate \\\n", + "12093 2.7.1.2 atp \n", + "12094 2.7.1.2 atp \n", + "12095 2.7.1.2 atp \n", + "12096 2.7.1.2 beta-d-glucose \n", + "12097 2.7.1.2 glucose \n", + "12098 2.7.1.2 glucose \n", + "12099 2.7.1.2 glucose \n", + "12100 2.7.1.2 glucose \n", + "12101 2.7.1.2 glucose \n", + "52068 2.7.1.2 2-deoxy-d-glucose \n", + "52069 2.7.1.2 2-deoxyglucose \n", + "52070 2.7.1.2 6-n-(carboxyethyl)atp \n", + "52071 2.7.1.2 6-n-(carboxyethyl)atp \n", + "52072 2.7.1.2 6-n-(carboxymethyl)atp \n", + "52073 2.7.1.2 6-n-(carboxymethyl)atp \n", + "52074 2.7.1.2 6-n-(succinyl)atp \n", + "52075 2.7.1.2 6-n-(succinyl)atp \n", + "52076 2.7.1.2 6-n-[n-(6-aminohexhyl)carbamoyl]atp \n", + "52077 2.7.1.2 6-n-[n-(6-aminohexhyl)carbamoyl]atp \n", + "52078 2.7.1.2 alpha-d-glucose \n", + "52079 2.7.1.2 atp \n", + "52080 2.7.1.2 atp \n", + "52081 2.7.1.2 atp \n", + "52082 2.7.1.2 atp \n", + "52083 2.7.1.2 atp \n", + "52084 2.7.1.2 atp \n", + "52085 2.7.1.2 atp \n", + "52086 2.7.1.2 atp \n", + "52087 2.7.1.2 atp \n", + "52088 2.7.1.2 atp \n", + "52089 2.7.1.2 ctp \n", + "52090 2.7.1.2 fructose \n", + "52091 2.7.1.2 glucose \n", + "52092 2.7.1.2 glucose \n", + "52093 2.7.1.2 glucose \n", + "52094 2.7.1.2 glucose \n", + "52095 2.7.1.2 glucose \n", + "52096 2.7.1.2 glucose \n", + "52097 2.7.1.2 glucose \n", + "52098 2.7.1.2 glucose \n", + "52099 2.7.1.2 glucose \n", + "52100 2.7.1.2 glucose \n", + "52101 2.7.1.2 glucose \n", + "52102 2.7.1.2 glucose \n", + "52103 2.7.1.2 glucose \n", + "52104 2.7.1.2 gtp \n", + "52105 2.7.1.2 itp \n", + "52106 2.7.1.2 mannose \n", + "52107 2.7.1.2 mgatp2- \n", + "52108 2.7.1.2 utp \n", + "\n", + " organism kcat \\\n", + "12093 homo sapiens 68.4 \n", + "12094 leishmania major 317.0 \n", + "12095 trypanosoma cruzi 1492.0 \n", + "12096 homo sapiens 166.0 \n", + "12097 escherichia coli k-12 410.0 \n", + "12098 homo sapiens 67.6 \n", + "12099 leishmania major 317.0 \n", + "12100 thermotoga maritima 92.6 \n", + "12101 trypanosoma cruzi 1492.0 \n", + "52068 homo sapiens NaN \n", + "52069 homo sapiens NaN \n", + "52070 geobacillus stearothermophilus NaN \n", + "52071 zymomonas mobilis NaN \n", + "52072 geobacillus stearothermophilus NaN \n", + "52073 zymomonas mobilis NaN \n", + "52074 geobacillus stearothermophilus NaN \n", + "52075 zymomonas mobilis NaN \n", + "52076 geobacillus stearothermophilus NaN \n", + "52077 zymomonas mobilis NaN \n", + "52078 geobacillus stearothermophilus NaN \n", + "52079 aeropyrum pernix NaN \n", + "52080 dictyostelium discoideum NaN \n", + "52081 escherichia coli NaN \n", + "52082 geobacillus stearothermophilus NaN \n", + "52083 lysinibacillus sphaericus c3-41 NaN \n", + "52084 paracoccus versutus NaN \n", + "52085 saccharomyces cerevisiae NaN \n", + "52086 streptococcus mutans NaN \n", + "52087 yarrowia lipolytica NaN \n", + "52088 zymomonas mobilis NaN \n", + "52089 zymomonas mobilis NaN \n", + "52090 homo sapiens NaN \n", + "52091 aeropyrum pernix NaN \n", + "52092 aspergillus niger NaN \n", + "52093 botrytis cinerea NaN \n", + "52094 caldanaerobacter subterraneus subsp. tengconge... NaN \n", + "52095 dictyostelium discoideum NaN \n", + "52096 escherichia coli NaN \n", + "52097 lysinibacillus sphaericus c3-41 NaN \n", + "52098 paracoccus versutus NaN \n", + "52099 rattus norvegicus NaN \n", + "52100 saccharomyces cerevisiae NaN \n", + "52101 streptococcus mutans NaN \n", + "52102 urocitellus undulatus NaN \n", + "52103 zymomonas mobilis NaN \n", + "52104 zymomonas mobilis NaN \n", + "52105 zymomonas mobilis NaN \n", + "52106 homo sapiens NaN \n", + "52107 zymomonas mobilis NaN \n", + "52108 zymomonas mobilis NaN \n", + "\n", + " KM e \n", + "12093 2.300000e-07 2.973913e+08 \n", + "12094 3.500000e-01 9.057143e+02 \n", + "12095 3.600000e-01 4.144444e+03 \n", + "12096 NaN NaN \n", + "12097 NaN NaN \n", + "12098 1.500000e-01 4.506667e+02 \n", + "12099 NaN NaN \n", + "12100 NaN NaN \n", + "12101 1.000000e+00 1.492000e+03 \n", + "52068 1.900000e+00 NaN \n", + "52069 1.800000e+01 NaN \n", + "52070 6.700000e-01 NaN \n", + "52071 5.000000e-01 NaN \n", + "52072 6.500000e-01 NaN \n", + "52073 5.500000e-01 NaN \n", + "52074 1.000000e+00 NaN \n", + "52075 3.800000e-01 NaN \n", + "52076 5.000000e-01 NaN \n", + "52077 1.250000e+00 NaN \n", + "52078 1.500000e-01 NaN \n", + "52079 5.000000e-01 NaN \n", + "52080 1.100000e+00 NaN \n", + "52081 5.000000e-01 NaN \n", + "52082 1.300000e-01 NaN \n", + "52083 5.200000e-01 NaN \n", + "52084 7.800000e-01 NaN \n", + "52085 5.000000e-02 NaN \n", + "52086 2.100000e-01 NaN \n", + "52087 2.100000e-01 NaN \n", + "52088 4.000000e-01 NaN \n", + "52089 5.600000e-01 NaN \n", + "52090 4.700000e+00 NaN \n", + "52091 5.400000e-02 NaN \n", + "52092 6.300000e-02 NaN \n", + "52093 4.800000e-02 NaN \n", + "52094 2.400000e+00 NaN \n", + "52095 1.200000e-01 NaN \n", + "52096 1.500000e-01 NaN \n", + "52097 3.100000e-01 NaN \n", + "52098 8.600000e-01 NaN \n", + "52099 7.400000e+00 NaN \n", + "52100 2.800000e-02 NaN \n", + "52101 6.100000e-01 NaN \n", + "52102 2.000000e+00 NaN \n", + "52103 9.500000e-02 NaN \n", + "52104 2.500000e-01 NaN \n", + "52105 3.600000e-01 NaN \n", + "52106 8.000000e-02 NaN \n", + "52107 1.900000e-01 NaN \n", + "52108 6.300000e-01 NaN " + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + "\n", + "['6-n-(carboxyethyl)atp', '6-n-(carboxymethyl)atp', '6-n-(succinyl)atp', '6-n-[n-(6-aminohexhyl)carbamoyl]atp', 'adp', 'atp', 'ctp', 'd-glucose', 'gtp', 'itp', 'utp', \"adenosine 5'-triphosphate-polyamidoamine dendrimer\"]\n" + ] + } + ], + "source": [ + "import random\n", + "ec = random.choice(EC)\n", + "display(df[df['EC'] == ec])\n", + "\n", + "print('\\n')\n", + "substrates = [x.lower() for x in data[ec]['first_substrate']]\n", + "print(substrates)" + ] + }, + { + "cell_type": "code", + "execution_count": 60, + "metadata": {}, + "outputs": [], + "source": [ + "\n", + "counter_KM = 0 \n", + "for ec in EC_KM:\n", + " try:\n", + " natural = [x.lower() for x in data[ec]['first_substrate']]\n", + " df_tmp = df_KM[df_KM['EC'] == ec]\n", + " indexNames = df_tmp[~df_tmp['substrate'].isin(natural)].index\n", + " df_KM.drop(indexNames, inplace=True)\n", + " except:\n", + " counter_KM += 1\n", + "\n", + "counter_Kcat = 0\n", + "for ec in EC_Kcat:\n", + " try: \n", + " natural = [x.lower() for x in data[ec]['first_substrate']]\n", + " df_tmp = df_Kcat[df_Kcat['EC'] == ec]\n", + " indexNames = df_tmp[~df_tmp['substrate'].isin(natural)].index\n", + " df_Kcat.drop(indexNames, inplace=True)\n", + " except:\n", + " counter_Kcat += 1" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.7.2" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb new file mode 100644 index 0000000..2fd6442 --- /dev/null +++ b/code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb @@ -0,0 +1,6 @@ +{ + "cells": [], + "metadata": {}, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb new file mode 100644 index 0000000..dc7160c --- /dev/null +++ b/code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb @@ -0,0 +1,499 @@ +{ + "cells": [ + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "import pandas as pd, re, json\n", + "\n", + "# read data\n", + "df_KM = pd.read_csv(\"data/min_KM.txt\", sep='\\t', names=[\"EC\",\"substrate\",\"organism\",\"KM\",\"star\"])\n", + "df_kcat = pd.read_csv(\"data/max_KCAT.txt\", sep='\\t', names=[\"EC\",\"substrate\",\"organism\",\"kcat\",\"star\"])" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [], + "source": [ + "# delete star column\n", + "del df_KM['star']\n", + "del df_kcat['star']" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [], + "source": [ + "# remove 'EC'\n", + "trim = lambda x: x.split('EC')[1]\n", + "df_KM['EC'] = df_KM['EC'].apply(trim)\n", + "df_kcat['EC'] = df_kcat['EC'].apply(trim)" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [], + "source": [ + "# filter organism\n", + "trim = lambda x: x.split('//')[0]\n", + "df_KM['organism'] = df_KM['organism'].apply(trim)\n", + "df_kcat['organism'] = df_kcat['organism'].apply(trim)" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [], + "source": [ + "# Remove D-, L-, DL- and similar from the beginning of substrates\n", + "def remove_dl(substrate):\n", + " regex = '^d-|^l-|^dl-|^\\(r\\)-|^\\(s\\)-|^\\(\\+\\)-|^\\(\\-\\)-'\n", + " return re.sub(regex, '', substrate)\n", + "\n", + "# remove dl-info\n", + "df_KM['substrate'] = df_KM['substrate'].apply(remove_dl)\n", + "df_kcat['substrate'] = df_kcat['substrate'].apply(remove_dl)" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": {}, + "outputs": [], + "source": [ + "# sort by ascending KM and save only minimum value (?)\n", + "df_KM = df_KM.sort_values(by=['EC','substrate','organism','KM'])\n", + "keep_min = ~df_KM[['EC','substrate','organism']].duplicated() # False for duplicates with higher KM\n", + "df_KM = df_KM[keep_min].reset_index(drop=True)" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": {}, + "outputs": [], + "source": [ + "# sort by descending kcat and save only maximum value (?)\n", + "df_kcat = df_kcat.sort_values(by=['EC','substrate','organism','kcat'], ascending=[1, 1, 1, 0])\n", + "keep_max = ~df_kcat[['EC','substrate','organism']].duplicated() # False for duplicates with lower kcat\n", + "df_kcat = df_kcat[keep_max].reset_index(drop=True)" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "metadata": {}, + "outputs": [], + "source": [ + "# merge dataframes\n", + "df = pd.merge(df_kcat, df_KM, how='outer')" + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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ECsubstrateorganismkcatKMe
01.1.1.1(+)-1-indanolthermus thermophilus61.404.20014.619048
11.1.1.1(+)-alpha-tetraolthermus thermophilus57.004.20013.571429
21.1.1.1(-)-1-phenylethanolthermus thermophilus1.1018.1000.060773
31.1.1.1(2e)-but-2-en-1-olyokenella sp.101.009.10011.098901
41.1.1.1(2e)-but-2-enalyokenella sp.405.003.300122.727273
51.1.1.11-butanolaeropyrum pernix0.410.5960.687919
61.1.1.11-butanolmesocricetus auratus7.50NaNNaN
71.1.1.11-butanolrattus norvegicus48.800.170287.058824
81.1.1.11-butanolsulfolobus solfataricus3.100.08038.750000
91.1.1.11-heptanolsulfolobus solfataricus1.600.03842.105263
101.1.1.11-hexanolaeropyrum pernix0.370.1472.517007
111.1.1.11-hexanolmesocricetus auratus3.03NaNNaN
121.1.1.11-hexanolsulfolobus solfataricus2.000.03557.142857
131.1.1.11-indanolsulfolobus acidocaldarius13.702.4005.708333
141.1.1.11-indanolthermus thermophilus61.404.20014.619048
151.1.1.11-indanonethermus thermophilus8.3027.6000.300725
161.1.1.11-octanolgeobacillus thermodenitrificans260.703.88067.190722
171.1.1.11-octanolhomo sapiens2.830.3907.256410
181.1.1.11-octanolrattus norvegicus60.800.0252432.000000
191.1.1.11-pentanolaeropyrum pernix0.450.3961.136364
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" + ], + "text/plain": [ + " EC substrate organism kcat \\\n", + "0 1.1.1.1 (+)-1-indanol thermus thermophilus 61.40 \n", + "1 1.1.1.1 (+)-alpha-tetraol thermus thermophilus 57.00 \n", + "2 1.1.1.1 (-)-1-phenylethanol thermus thermophilus 1.10 \n", + "3 1.1.1.1 (2e)-but-2-en-1-ol yokenella sp. 101.00 \n", + "4 1.1.1.1 (2e)-but-2-enal yokenella sp. 405.00 \n", + "5 1.1.1.1 1-butanol aeropyrum pernix 0.41 \n", + "6 1.1.1.1 1-butanol mesocricetus auratus 7.50 \n", + "7 1.1.1.1 1-butanol rattus norvegicus 48.80 \n", + "8 1.1.1.1 1-butanol sulfolobus solfataricus 3.10 \n", + "9 1.1.1.1 1-heptanol sulfolobus solfataricus 1.60 \n", + "10 1.1.1.1 1-hexanol aeropyrum pernix 0.37 \n", + "11 1.1.1.1 1-hexanol mesocricetus auratus 3.03 \n", + "12 1.1.1.1 1-hexanol sulfolobus solfataricus 2.00 \n", + "13 1.1.1.1 1-indanol sulfolobus acidocaldarius 13.70 \n", + "14 1.1.1.1 1-indanol thermus thermophilus 61.40 \n", + "15 1.1.1.1 1-indanone thermus thermophilus 8.30 \n", + "16 1.1.1.1 1-octanol geobacillus thermodenitrificans 260.70 \n", + "17 1.1.1.1 1-octanol homo sapiens 2.83 \n", + "18 1.1.1.1 1-octanol rattus norvegicus 60.80 \n", + "19 1.1.1.1 1-pentanol aeropyrum pernix 0.45 \n", + "\n", + " KM e \n", + "0 4.200 14.619048 \n", + "1 4.200 13.571429 \n", + "2 18.100 0.060773 \n", + "3 9.100 11.098901 \n", + "4 3.300 122.727273 \n", + "5 0.596 0.687919 \n", + "6 NaN NaN \n", + "7 0.170 287.058824 \n", + "8 0.080 38.750000 \n", + "9 0.038 42.105263 \n", + "10 0.147 2.517007 \n", + "11 NaN NaN \n", + "12 0.035 57.142857 \n", + "13 2.400 5.708333 \n", + "14 4.200 14.619048 \n", + "15 27.600 0.300725 \n", + "16 3.880 67.190722 \n", + "17 0.390 7.256410 \n", + "18 0.025 2432.000000 \n", + "19 0.396 1.136364 " + ] + }, + "execution_count": 9, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "df['e'] = df['kcat']/df['KM']\n", + "df.head(20)" + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "71516\n" + ] + }, + { + "data": { + "text/html": [ + "
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" + ], + "text/plain": [ + " index NaN\n", + "0 EC 0\n", + "1 substrate 0\n", + "2 organism 0\n", + "3 kcat 41625\n", + "4 KM 5273\n", + "5 e 46898" + ] + }, + "execution_count": 10, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "print(len(df))\n", + "\n", + "# NaN-values for each coumn\n", + "df.isnull().sum().reset_index(name='NaN')" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.7.2" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/code/cheminfo/data/.DS_Store b/code/cheminfo/data/.DS_Store new file mode 100644 index 0000000000000000000000000000000000000000..5008ddfcf53c02e82d7eee2e57c38e5672ef89f6 GIT binary patch literal 6148 zcmeH~Jr2S!425mzP>H1@V-^m;4Wg<&0T*E43hX&L&p$$qDprKhvt+--jT7}7np#A3 zem<@ulZcFPQ@L2!n>{z**++&mCkOWA81W14cNZlEfg7;MkzE(HCqgga^y>{tEnwC%0;vJ&^%eQ zLs35+`xjp>T0\n", + "\n", + "\n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + "
ECsubstrateorganismkcatKMe
01.1.1.1(+)-1-indanolthermus thermophilus61.404.20014.619048
11.1.1.1(+)-alpha-tetraolthermus thermophilus57.004.20013.571429
21.1.1.1(-)-1-phenylethanolthermus thermophilus1.1018.1000.060773
31.1.1.1(2e)-but-2-en-1-olyokenella sp.101.009.10011.098901
41.1.1.1(2e)-but-2-enalyokenella sp.405.003.300122.727273
51.1.1.11-butanolaeropyrum pernix0.410.5960.687919
61.1.1.11-butanolmesocricetus auratus7.50NaNNaN
71.1.1.11-butanolrattus norvegicus48.800.170287.058824
81.1.1.11-butanolsulfolobus solfataricus3.100.08038.750000
91.1.1.11-heptanolsulfolobus solfataricus1.600.03842.105263
101.1.1.11-hexanolaeropyrum pernix0.370.1472.517007
111.1.1.11-hexanolmesocricetus auratus3.03NaNNaN
121.1.1.11-hexanolsulfolobus solfataricus2.000.03557.142857
131.1.1.11-indanolsulfolobus acidocaldarius13.702.4005.708333
141.1.1.11-indanolthermus thermophilus61.404.20014.619048
151.1.1.11-indanonethermus thermophilus8.3027.6000.300725
161.1.1.11-octanolgeobacillus thermodenitrificans260.703.88067.190722
171.1.1.11-octanolhomo sapiens2.830.3907.256410
181.1.1.11-octanolrattus norvegicus60.800.0252432.000000
191.1.1.11-pentanolaeropyrum pernix0.450.3961.136364
\n", + "" + ], + "text/plain": [ + " EC substrate organism kcat \\\n", + "0 1.1.1.1 (+)-1-indanol thermus thermophilus 61.40 \n", + "1 1.1.1.1 (+)-alpha-tetraol thermus thermophilus 57.00 \n", + "2 1.1.1.1 (-)-1-phenylethanol thermus thermophilus 1.10 \n", + "3 1.1.1.1 (2e)-but-2-en-1-ol yokenella sp. 101.00 \n", + "4 1.1.1.1 (2e)-but-2-enal yokenella sp. 405.00 \n", + "5 1.1.1.1 1-butanol aeropyrum pernix 0.41 \n", + "6 1.1.1.1 1-butanol mesocricetus auratus 7.50 \n", + "7 1.1.1.1 1-butanol rattus norvegicus 48.80 \n", + "8 1.1.1.1 1-butanol sulfolobus solfataricus 3.10 \n", + "9 1.1.1.1 1-heptanol sulfolobus solfataricus 1.60 \n", + "10 1.1.1.1 1-hexanol aeropyrum pernix 0.37 \n", + "11 1.1.1.1 1-hexanol mesocricetus auratus 3.03 \n", + "12 1.1.1.1 1-hexanol sulfolobus solfataricus 2.00 \n", + "13 1.1.1.1 1-indanol sulfolobus acidocaldarius 13.70 \n", + "14 1.1.1.1 1-indanol thermus thermophilus 61.40 \n", + "15 1.1.1.1 1-indanone thermus thermophilus 8.30 \n", + "16 1.1.1.1 1-octanol geobacillus thermodenitrificans 260.70 \n", + "17 1.1.1.1 1-octanol homo sapiens 2.83 \n", + "18 1.1.1.1 1-octanol rattus norvegicus 60.80 \n", + "19 1.1.1.1 1-pentanol aeropyrum pernix 0.45 \n", + "\n", + " KM e \n", + "0 4.200 14.619048 \n", + "1 4.200 13.571429 \n", + "2 18.100 0.060773 \n", + "3 9.100 11.098901 \n", + "4 3.300 122.727273 \n", + "5 0.596 0.687919 \n", + "6 NaN NaN \n", + "7 0.170 287.058824 \n", + "8 0.080 38.750000 \n", + "9 0.038 42.105263 \n", + "10 0.147 2.517007 \n", + "11 NaN NaN \n", + "12 0.035 57.142857 \n", + "13 2.400 5.708333 \n", + "14 4.200 14.619048 \n", + "15 27.600 0.300725 \n", + "16 3.880 67.190722 \n", + "17 0.390 7.256410 \n", + "18 0.025 2432.000000 \n", + "19 0.396 1.136364 " + ] + }, + "execution_count": 9, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "df['e'] = df['kcat']/df['KM']\n", + "df.head(20)" + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "71516\n" + ] + }, + { + "data": { + "text/html": [ + "
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" + ], + "text/plain": [ + " index NaN\n", + "0 EC 0\n", + "1 substrate 0\n", + "2 organism 0\n", + "3 kcat 41625\n", + "4 KM 5273\n", + "5 e 46898" + ] + }, + "execution_count": 10, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "print(len(df))\n", + "\n", + "# NaN-values for each coumn\n", + "df.isnull().sum().reset_index(name='NaN')" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.7.2" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/code/quantitative_index/max_KCAT.txt b/code/quantitative_index/max_KCAT.txt new file mode 100644 index 0000000..cbc8412 --- /dev/null +++ b/code/quantitative_index/max_KCAT.txt @@ -0,0 +1,30162 @@ +EC1.1.1.1 (2e)-but-2-en-1-ol yokenella sp.//*//* 101.0 * +EC1.1.1.1 (2e)-but-2-enal yokenella sp.//*//* 405.0 * +EC1.1.1.1 (r)-1-indanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 7.1 * +EC1.1.1.1 (r)-2-butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.0 * +EC1.1.1.1 (r)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.0 * +EC1.1.1.1 (r)-2-octanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.053 * +EC1.1.1.1 (r)-2-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.01 * +EC1.1.1.1 (r)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1 * +EC1.1.1.1 (r)-alpha-tetralol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 13.5 * +EC1.1.1.1 (s)-(+)-1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 61.4 * +EC1.1.1.1 (s)-(+)-alpha-tetraol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 57.0 * +EC1.1.1.1 (s)-(-)-1-phenylethanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.1 * +EC1.1.1.1 (s)-1-indanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 13.7 * +EC1.1.1.1 (s)-1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 61.4 * +EC1.1.1.1 (s)-1-phenylethanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.1 * +EC1.1.1.1 (s)-2-butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.0 * +EC1.1.1.1 (s)-2-butanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.17 * +EC1.1.1.1 (s)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.1 (s)-2-octanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.52 * +EC1.1.1.1 (s)-2-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.87 * +EC1.1.1.1 (s)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.6 * +EC1.1.1.1 (s)-alpha-tetralol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.1 * +EC1.1.1.1 (s)-alpha-tetralol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 57.0 * +EC1.1.1.1 1-butanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.41 * +EC1.1.1.1 1-butanol mesocricetus auratus//*//* 7.5 * +EC1.1.1.1 1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 48.8 * +EC1.1.1.1 1-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.1 * +EC1.1.1.1 1-heptanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.6 * +EC1.1.1.1 1-hexanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.37 * +EC1.1.1.1 1-hexanol mesocricetus auratus//*//* 3.03 * +EC1.1.1.1 1-hexanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC1.1.1.1 1-indanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 6.2 * +EC1.1.1.1 1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 45.7 * +EC1.1.1.1 1-indanone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 8.3 * +EC1.1.1.1 1-octanol geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 260.7 * +EC1.1.1.1 1-octanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.83 * +EC1.1.1.1 1-octanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.8 * +EC1.1.1.1 1-pentanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.45 * +EC1.1.1.1 1-pentanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.183 * +EC1.1.1.1 1-pentanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 48.8 * +EC1.1.1.1 1-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.5 * +EC1.1.1.1 1-phenyl-1,2-propandione thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 17.1 * +EC1.1.1.1 1-phenyl-1,2-propanedione sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 5.3 * +EC1.1.1.1 1-phenyl-1,2-propanedione thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 17.1 * +EC1.1.1.1 1-phenylethanol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 35.7 * +EC1.1.1.1 1-propanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.26 * +EC1.1.1.1 1-propanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.6 * +EC1.1.1.1 11-cis-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.021 * +EC1.1.1.1 11-cis-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.022 * +EC1.1.1.1 12-hydroxydodecanoate coturnix coturnix//*//* 1.45 * +EC1.1.1.1 12-hydroxydodecanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.1.1.1 12-hydroxydodecanoate mesocricetus auratus//*//* 2.77 * +EC1.1.1.1 12-hydroxydodecanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 20.0 * +EC1.1.1.1 12-hydroxydodecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.333 * +EC1.1.1.1 12-hydroxylauric acid methyl ester geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 27.6 * +EC1.1.1.1 12-oxolauric acid methyl ester geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 308.0 * +EC1.1.1.1 13-cis-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.018 * +EC1.1.1.1 13-cis-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.018 * +EC1.1.1.1 16-hydroxyhexadecanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.17 * +EC1.1.1.1 2',3',4',5',6'-pentafluoroacetophenone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 3.2 * +EC1.1.1.1 2,2,2-trifluoroacetophenone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 10.0 * +EC1.1.1.1 2,2,2-trifluoroacetophenone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 25.5 * +EC1.1.1.1 2,2-dichloroacetophenone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.65 * +EC1.1.1.1 2,3-butanediol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 43.8 * +EC1.1.1.1 2-butanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.48 * +EC1.1.1.1 2-butanol mesocricetus auratus//*//* 4.75 * +EC1.1.1.1 2-butanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.12 * +EC1.1.1.1 2-buten-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 213.0 * +EC1.1.1.1 2-decanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.4 * +EC1.1.1.1 2-deoxy-d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.83 * +EC1.1.1.1 2-ethoxyethanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.6 * +EC1.1.1.1 2-heptanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.73 * +EC1.1.1.1 2-hexanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.08 * +EC1.1.1.1 2-nonanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.7 * +EC1.1.1.1 2-octanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.74 * +EC1.1.1.1 2-pentanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.6 * +EC1.1.1.1 2-pentanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.77 * +EC1.1.1.1 2-pentanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0713 * +EC1.1.1.1 2-propanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.24 * +EC1.1.1.1 2-propanol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 287.0 * +EC1.1.1.1 2-propanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC1.1.1.1 2-propanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.45 * +EC1.1.1.1 3,4-dihydro-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.22 * +EC1.1.1.1 3,4-dihydro-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.1.1.1 3-bromobenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC1.1.1.1 3-bromobenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.1 3-methoxybenzaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.1 * +EC1.1.1.1 3-methoxybenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 16.0 * +EC1.1.1.1 3-methoxybenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.4 * +EC1.1.1.1 3-methyl-1-butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.27 * +EC1.1.1.1 3-methyl-cyclohexanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.72 * +EC1.1.1.1 3-methylbutan-2-one sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.22 * +EC1.1.1.1 3-methylcyclohexanone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 3.8 * +EC1.1.1.1 3-methylcyclohexanone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.17 * +EC1.1.1.1 3-oxo-5beta-androstan-17beta-ol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.05 * +EC1.1.1.1 3-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.26 * +EC1.1.1.1 3-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.5 * +EC1.1.1.1 3-pentanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.36 * +EC1.1.1.1 3-phenyl-1-propanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC1.1.1.1 3-pyridylcarbinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.683 * +EC1.1.1.1 4-bromobenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.5 * +EC1.1.1.1 4-bromobenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1 * +EC1.1.1.1 4-carboxybenzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.7 * +EC1.1.1.1 4-chloroacetophenone rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 432.0 * +EC1.1.1.1 4-hydroxy-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.2 * +EC1.1.1.1 4-methoxybenzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.3 * +EC1.1.1.1 4-methoxybenzaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.1 * +EC1.1.1.1 4-methoxybenzyl alcohol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.6 * +EC1.1.1.1 4-methoxybenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 20.5 * +EC1.1.1.1 4-methoxybenzyl alcohol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.6 * +EC1.1.1.1 4-methoxybenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.5 * +EC1.1.1.1 4-methoxyphenylacetone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.071 * +EC1.1.1.1 4-methyl-1-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 6.7 * +EC1.1.1.1 4-nitrobenzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.6 * +EC1.1.1.1 4-oxo-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC1.1.1.1 5beta-pregnan-21-ol-3,20-dione hemisuccinate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.9 * +EC1.1.1.1 9-cis-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.023 * +EC1.1.1.1 9-cis-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.025 * +EC1.1.1.1 acetaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 31.8 * +EC1.1.1.1 acetaldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 681.0 * +EC1.1.1.1 acetaldehyde geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 404.8 * +EC1.1.1.1 acetaldehyde kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 283.0 * +EC1.1.1.1 acetaldehyde natronomonas pharaonis//prokaryotes;archaea;euryarchaeota;natronomonas//nph 5.4 * +EC1.1.1.1 acetaldehyde ogataea angusta//*//* 3500.0 * +EC1.1.1.1 acetaldehyde parageobacillus thermoglucosidans//*//* 350.0 * +EC1.1.1.1 acetaldehyde saimiri sciureus//*//* 16.7 * +EC1.1.1.1 acetoin thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 13.7 * +EC1.1.1.1 acetone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.33 * +EC1.1.1.1 acetone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.317 * +EC1.1.1.1 acetophenone rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 288.0 * +EC1.1.1.1 all-trans retinol mesocricetus auratus//*//* 1.9 * +EC1.1.1.1 all-trans-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.5 * +EC1.1.1.1 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.83 * +EC1.1.1.1 all-trans-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.55 * +EC1.1.1.1 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC1.1.1.1 alpha-tetralol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 48.1 * +EC1.1.1.1 alpha-tetralone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.7 * +EC1.1.1.1 anisaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.983 * +EC1.1.1.1 benzaldehyde aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.22 * +EC1.1.1.1 benzaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 29.5 * +EC1.1.1.1 benzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 11.3 * +EC1.1.1.1 benzaldehyde yokenella sp.//*//* 360.0 * +EC1.1.1.1 benzil sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.6 * +EC1.1.1.1 benzyl alcohol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.02 * +EC1.1.1.1 benzyl alcohol coturnix coturnix//*//* 2.52 * +EC1.1.1.1 benzyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.78 * +EC1.1.1.1 benzyl alcohol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 24.9 * +EC1.1.1.1 benzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.17 * +EC1.1.1.1 benzyl alcohol mesocricetus auratus//*//* 1.37 * +EC1.1.1.1 benzyl alcohol moraxella sp.//*//* 6.9 * +EC1.1.1.1 benzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 89.7 * +EC1.1.1.1 benzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 14.5 * +EC1.1.1.1 benzyl alcohol yokenella sp.//*//* 93.3 * +EC1.1.1.1 benzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.4 * +EC1.1.1.1 butan-1-ol coturnix coturnix//*//* 7.22 * +EC1.1.1.1 butan-1-ol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 2.0 * +EC1.1.1.1 butan-1-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.97 * +EC1.1.1.1 butan-2-ol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 11.9 * +EC1.1.1.1 butan-2-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.55 * +EC1.1.1.1 butan-2-one sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.93 * +EC1.1.1.1 butanal mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 102.0 * +EC1.1.1.1 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.99 * +EC1.1.1.1 butanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 1.1 * +EC1.1.1.1 butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 118.0 * +EC1.1.1.1 butanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.8 * +EC1.1.1.1 butanol saimiri sciureus//*//* 0.45 * +EC1.1.1.1 butyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.94 * +EC1.1.1.1 butyraldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 35.4 * +EC1.1.1.1 butyraldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 931.0 * +EC1.1.1.1 capronaldehyde rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 576.0 * +EC1.1.1.1 cinnamaldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 55.0 * +EC1.1.1.1 cinnamyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 133.0 * +EC1.1.1.1 cinnamyl alcohol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 43.0 * +EC1.1.1.1 cis-decahydro-1-naphthol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.98 * +EC1.1.1.1 cycloheptanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 7.0 * +EC1.1.1.1 cyclohexanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.52 * +EC1.1.1.1 cyclohexanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.167 * +EC1.1.1.1 cyclohexanol coturnix coturnix//*//* 3.55 * +EC1.1.1.1 cyclohexanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.583 * +EC1.1.1.1 cyclohexanol mesocricetus auratus//*//* 8.5 * +EC1.1.1.1 cyclohexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.75 * +EC1.1.1.1 cyclohexanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.1 cyclohexanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.27 * +EC1.1.1.1 cyclohexanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 5.9 * +EC1.1.1.1 cyclopentanone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.02 * +EC1.1.1.1 ethanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.23 * +EC1.1.1.1 ethanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.467 * +EC1.1.1.1 ethanol coturnix coturnix//*//* 6.63 * +EC1.1.1.1 ethanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 308.0 * +EC1.1.1.1 ethanol flavobacterium frigidimaris//*//* 474.9 * +EC1.1.1.1 ethanol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 305.0 * +EC1.1.1.1 ethanol geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 638.7 * +EC1.1.1.1 ethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.7 * +EC1.1.1.1 ethanol kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 158.0 * +EC1.1.1.1 ethanol mesocricetus auratus//*//* 9.58 * +EC1.1.1.1 ethanol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 215.0 * +EC1.1.1.1 ethanol natronomonas pharaonis//prokaryotes;archaea;euryarchaeota;natronomonas//nph 8.2 * +EC1.1.1.1 ethanol ogataea angusta//*//* 3000.0 * +EC1.1.1.1 ethanol picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.00086 * +EC1.1.1.1 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 62.7 * +EC1.1.1.1 ethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 895.4 * +EC1.1.1.1 ethanol saimiri sciureus//*//* 0.567 * +EC1.1.1.1 ethanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.1 * +EC1.1.1.1 ethyl 3-methyl-2-oxobutyrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 26.0 * +EC1.1.1.1 ethyl benzoylformate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.35 * +EC1.1.1.1 ethyl benzoylformate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 50.1 * +EC1.1.1.1 ethyl oxo(phenyl)acetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 50.1 * +EC1.1.1.1 ethyl pyruvate carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 3.97 * +EC1.1.1.1 ethylene glycol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC1.1.1.1 ethylene glycol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.5 * +EC1.1.1.1 formaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.28 * +EC1.1.1.1 furfural saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.58 * +EC1.1.1.1 glycolaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.65 * +EC1.1.1.1 hexaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 56.6 * +EC1.1.1.1 hexanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.167 * +EC1.1.1.1 hexanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 29.6 * +EC1.1.1.1 hexanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.5 * +EC1.1.1.1 hexanol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 86.5 * +EC1.1.1.1 hexyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.99 * +EC1.1.1.1 isatin sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 22.0 * +EC1.1.1.1 isoborneol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 16.6 * +EC1.1.1.1 isobutyraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 29.0 * +EC1.1.1.1 isopropanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.58 * +EC1.1.1.1 methanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.05 * +EC1.1.1.1 methanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC1.1.1.1 methanol saimiri sciureus//*//* 0.217 * +EC1.1.1.1 methanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.1 * +EC1.1.1.1 methyl benzoylformate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 6.2 * +EC1.1.1.1 methyl o-chlorobenzoylformate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 9.2 * +EC1.1.1.1 methyl oxo(phenyl)acetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 38.1 * +EC1.1.1.1 methylbenzoylformate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 38.1 * +EC1.1.1.1 methylcrotonyl alcohol mesocricetus auratus//*//* 8.58 * +EC1.1.1.1 n-butanol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 195.0 * +EC1.1.1.1 n-butanol mesocricetus auratus//*//* 7.18 * +EC1.1.1.1 n-hexanol mesocricetus auratus//*//* 4.08 * +EC1.1.1.1 nad+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.4 * +EC1.1.1.1 nad+ coturnix coturnix//*//* 6.18 * +EC1.1.1.1 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 34.2 * +EC1.1.1.1 nad+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 443.1 * +EC1.1.1.1 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.717 * +EC1.1.1.1 nad+ mesocricetus auratus//*//* 7.75 * +EC1.1.1.1 nad+ mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 1.0 * +EC1.1.1.1 nad+ sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 19.3 * +EC1.1.1.1 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 18.5 * +EC1.1.1.1 nad+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 30.8 * +EC1.1.1.1 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.84 * +EC1.1.1.1 nadh aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.41 * +EC1.1.1.1 nadh coturnix coturnix//*//* 8.88 * +EC1.1.1.1 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 326.0 * +EC1.1.1.1 nadh geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 1646.0 * +EC1.1.1.1 nadh mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 153.0 * +EC1.1.1.1 nadh sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 26.2 * +EC1.1.1.1 nadh sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.3 * +EC1.1.1.1 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 17.3 * +EC1.1.1.1 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 52.4 * +EC1.1.1.1 nadp+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 283.1 * +EC1.1.1.1 nadp+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 30.0 * +EC1.1.1.1 nadp+ yokenella sp.//*//* 194.0 * +EC1.1.1.1 nadph geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 4808.0 * +EC1.1.1.1 nadph yokenella sp.//*//* 433.0 * +EC1.1.1.1 octan-1-ol coturnix coturnix//*//* 1.85 * +EC1.1.1.1 octanal coturnix coturnix//*//* 17.0 * +EC1.1.1.1 octanal geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 518.4 * +EC1.1.1.1 octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.33 * +EC1.1.1.1 octanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.15 * +EC1.1.1.1 octanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.33 * +EC1.1.1.1 octanol scyliorhinus canicula//*//* 3.17 * +EC1.1.1.1 p-nitrophenyl octanoate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.24 * +EC1.1.1.1 pentan-1-ol coturnix coturnix//*//* 2.92 * +EC1.1.1.1 pentan-3-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.92 * +EC1.1.1.1 pentan2-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.82 * +EC1.1.1.1 pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 56.2 * +EC1.1.1.1 pentanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC1.1.1.1 pentanol saimiri sciureus//*//* 0.333 * +EC1.1.1.1 phenylacetaldehyde rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 303.0 * +EC1.1.1.1 propan-1-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.03 * +EC1.1.1.1 propan-2-ol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 53.1 * +EC1.1.1.1 propan-2-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.92 * +EC1.1.1.1 propanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.73 * +EC1.1.1.1 propanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.2 * +EC1.1.1.1 propionaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 41.9 * +EC1.1.1.1 propyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.17 * +EC1.1.1.1 retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.1.1.1 tert-butyl acetoacetate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.072 * +EC1.1.1.1 tetralin-1-ol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 9.6 * +EC1.1.1.1 trans-cinnamaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.1 * +EC1.1.1.1 tryptophol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.83 * +EC1.1.1.1 valeraldehyde rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 528.0 * +EC1.1.1.1 vanillyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.67 * +EC1.1.1.10 acetoin cavia porcellus//*//* 6.9 * +EC1.1.1.10 acetoin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC1.1.1.10 acetoin mesocricetus auratus//*//* 6.9 * +EC1.1.1.10 acetoin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.0 * +EC1.1.1.10 acetoin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.9 * +EC1.1.1.10 d-erythrose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.8 * +EC1.1.1.10 d-erythrose cavia porcellus//*//* 2.0 * +EC1.1.1.10 d-erythrose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC1.1.1.10 d-erythrose mesocricetus auratus//*//* 23.0 * +EC1.1.1.10 d-erythrose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 18.0 * +EC1.1.1.10 d-erythrose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.0 * +EC1.1.1.10 d-ribulose cavia porcellus//*//* 7.8 * +EC1.1.1.10 d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC1.1.1.10 d-ribulose mesocricetus auratus//*//* 31.0 * +EC1.1.1.10 d-ribulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.0 * +EC1.1.1.10 d-ribulose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 119.0 * +EC1.1.1.10 d-ribulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC1.1.1.10 d-ribulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 8.24 * +EC1.1.1.10 d-sorbitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.8 * +EC1.1.1.10 d-threitol cavia porcellus//*//* 15.0 * +EC1.1.1.10 d-threitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC1.1.1.10 d-threitol mesocricetus auratus//*//* 16.0 * +EC1.1.1.10 d-threitol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.0 * +EC1.1.1.10 d-threitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC1.1.1.10 d-threose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.32 * +EC1.1.1.10 d-threose cavia porcellus//*//* 32.0 * +EC1.1.1.10 d-threose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC1.1.1.10 d-threose mesocricetus auratus//*//* 31.0 * +EC1.1.1.10 d-threose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 23.0 * +EC1.1.1.10 d-threose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.1.1.10 d-xylulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.22 * +EC1.1.1.10 d-xylulose cavia porcellus//*//* 19.0 * +EC1.1.1.10 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.1.1.10 d-xylulose mesocricetus auratus//*//* 6.9 * +EC1.1.1.10 d-xylulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.4 * +EC1.1.1.10 d-xylulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.0 * +EC1.1.1.10 diacetyl cavia porcellus//*//* 24.0 * +EC1.1.1.10 diacetyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC1.1.1.10 diacetyl mesocricetus auratus//*//* 30.0 * +EC1.1.1.10 diacetyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 41.0 * +EC1.1.1.10 diacetyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC1.1.1.10 dihydroxyacetone cavia porcellus//*//* 3.8 * +EC1.1.1.10 dihydroxyacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC1.1.1.10 dihydroxyacetone mesocricetus auratus//*//* 8.7 * +EC1.1.1.10 dihydroxyacetone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.3 * +EC1.1.1.10 dihydroxyacetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.1 * +EC1.1.1.10 dl-glyceraldehyde cavia porcellus//*//* 20.0 * +EC1.1.1.10 dl-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC1.1.1.10 dl-glyceraldehyde mesocricetus auratus//*//* 22.0 * +EC1.1.1.10 dl-glyceraldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 24.0 * +EC1.1.1.10 dl-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 21.0 * +EC1.1.1.10 l-erythrulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 3.32 * +EC1.1.1.10 l-erythrulose cavia porcellus//*//* 24.0 * +EC1.1.1.10 l-erythrulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC1.1.1.10 l-erythrulose mesocricetus auratus//*//* 25.0 * +EC1.1.1.10 l-erythrulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 23.0 * +EC1.1.1.10 l-erythrulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC1.1.1.10 l-ribulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.49 * +EC1.1.1.10 l-threose cavia porcellus//*//* 27.0 * +EC1.1.1.10 l-threose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC1.1.1.10 l-threose mesocricetus auratus//*//* 23.0 * +EC1.1.1.10 l-threose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.0 * +EC1.1.1.10 l-threose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC1.1.1.10 l-xylulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 4.98 * +EC1.1.1.10 l-xylulose cavia porcellus//*//* 37.0 * +EC1.1.1.10 l-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC1.1.1.10 l-xylulose mesocricetus auratus//*//* 3.0 * +EC1.1.1.10 l-xylulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 37.0 * +EC1.1.1.10 l-xylulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 39.0 * +EC1.1.1.10 l-xylulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 11.4 * +EC1.1.1.10 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.1.1.10 nad+ mesocricetus auratus//*//* 44.0 * +EC1.1.1.10 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 55.0 * +EC1.1.1.10 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 41.0 * +EC1.1.1.10 nadh cavia porcellus//*//* 76.0 * +EC1.1.1.10 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC1.1.1.10 nadh mesocricetus auratus//*//* 2.0 * +EC1.1.1.10 nadh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 41.0 * +EC1.1.1.10 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.0 * +EC1.1.1.10 nadp+ cavia porcellus//*//* 23.0 * +EC1.1.1.10 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC1.1.1.10 nadp+ mesocricetus auratus//*//* 26.0 * +EC1.1.1.10 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.0 * +EC1.1.1.10 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC1.1.1.10 nadph cavia porcellus//*//* 26.0 * +EC1.1.1.10 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.1.1.10 nadph mesocricetus auratus//*//* 27.0 * +EC1.1.1.10 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.0 * +EC1.1.1.10 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC1.1.1.10 nadph trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 7.75 * +EC1.1.1.10 xylitol cavia porcellus//*//* 20.0 * +EC1.1.1.10 xylitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC1.1.1.10 xylitol mesocricetus auratus//*//* 2.0 * +EC1.1.1.10 xylitol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 17.0 * +EC1.1.1.10 xylitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 5.6 * +EC1.1.1.10 xylitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC1.1.1.10 xylitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.0 * +EC1.1.1.100 acetoacetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 102.0 * +EC1.1.1.100 acetoacetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.0 * +EC1.1.1.100 acetoacetyl-coa plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 265.0 * +EC1.1.1.100 acetoacetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 117.5 * +EC1.1.1.100 acetoacetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 11.0 * +EC1.1.1.100 ethyl acetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.1.1.100 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 102.0 * +EC1.1.1.100 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC1.1.1.100 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.0 * +EC1.1.1.100 nadph plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 344.7 * +EC1.1.1.100 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 117.5 * +EC1.1.1.100 nadph streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 11.0 * +EC1.1.1.101 nadph cavia porcellus//*//* 100.0 * +EC1.1.1.102 3-dehydrosphinganine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.07 * +EC1.1.1.103 l-threonine cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 50.0 * +EC1.1.1.103 l-threonine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 135.0 * +EC1.1.1.103 l-threonine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 47.3 * +EC1.1.1.103 l-threonine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 551.7 * +EC1.1.1.103 l-threonine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 23.3 * +EC1.1.1.103 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 38.0 * +EC1.1.1.103 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 551.7 * +EC1.1.1.105 all-trans-retinal kangiella koreensis//prokaryotes;bacteria;gammaproteobacteria - others;kangiella//kko 0.028 * +EC1.1.1.105 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.107 d-arabinose microbacterium luteolum//*//* 175.0 * +EC1.1.1.107 l-fucose microbacterium luteolum//*//* 125.0 * +EC1.1.1.107 l-xylose microbacterium luteolum//*//* 214.0 * +EC1.1.1.107 nad+ mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 136.0 * +EC1.1.1.107 pyridoxal mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 149.0 * +EC1.1.1.107 pyridoxal microbacterium luteolum//*//* 59.2 * +EC1.1.1.108 carnitine rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 11.77 * +EC1.1.1.108 carnitine xanthomonas translucens//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xtn 1.97 * +EC1.1.1.11 d-arabinitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 876.0 * +EC1.1.1.11 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 876.0 * +EC1.1.1.11 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 35.3 * +EC1.1.1.11 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 19.7 * +EC1.1.1.11 glycerol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 16.3 * +EC1.1.1.11 ribitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 13.4 * +EC1.1.1.11 xylitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 177.2 * +EC1.1.1.119 d-glucose haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.5 * +EC1.1.1.119 d-glucose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 10.1 * +EC1.1.1.119 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 10.1 * +EC1.1.1.12 adonitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 18.0 * +EC1.1.1.12 d-sorbitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 809.0 * +EC1.1.1.12 d-sorbitol rasamsonia emersonii//*//* 3.7 * +EC1.1.1.12 l-arabinitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 14.4 * +EC1.1.1.12 l-arabinitol meyerozyma caribbica//*//* 0.108 * +EC1.1.1.12 l-arabinitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 20.2 * +EC1.1.1.12 l-arabinitol penicillium chrysogenum//*//* 18.1 * +EC1.1.1.12 l-arabinitol rasamsonia emersonii//*//* 5.3 * +EC1.1.1.12 l-arabinitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 70.0 * +EC1.1.1.12 l-arabitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 863.0 * +EC1.1.1.12 nad+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 8.23 * +EC1.1.1.12 nad+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 20.1 * +EC1.1.1.12 nad+ penicillium chrysogenum//*//* 17.3 * +EC1.1.1.12 nad+ rasamsonia emersonii//*//* 4.7 * +EC1.1.1.12 nad+ trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 7.26 * +EC1.1.1.12 xylitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1180.0 * +EC1.1.1.12 xylitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 15.0 * +EC1.1.1.12 xylitol rasamsonia emersonii//*//* 3.25 * +EC1.1.1.120 d-galactose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 69.9 * +EC1.1.1.121 (r)-indanol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.167 * +EC1.1.1.121 (r)-tetralol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.075 * +EC1.1.1.121 (s)-indanol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 138.7 * +EC1.1.1.121 (s)-tetralol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 161.7 * +EC1.1.1.121 1-acenaphthenol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 433.3 * +EC1.1.1.121 2-cyclohexen-1-ol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 3.5 * +EC1.1.1.121 2-deoxy-d-galactose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 12.8 * +EC1.1.1.121 2-deoxy-d-glucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 6.93 * +EC1.1.1.121 4-chromanol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 40.3 * +EC1.1.1.121 6-deoxy-d-glucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 6.35 * +EC1.1.1.121 alpha-tetralone thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 3.9 * +EC1.1.1.121 cellobiose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 5.767 * +EC1.1.1.121 cis-benzene dihydrodiol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 7.383 * +EC1.1.1.121 d-fucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 8.73 * +EC1.1.1.121 d-galactosamine thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.3117 * +EC1.1.1.121 d-galactose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 8.25 * +EC1.1.1.121 d-glucosamine thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.6217 * +EC1.1.1.121 d-glucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 3.85 * +EC1.1.1.121 d-talose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 3.017 * +EC1.1.1.121 d-xylose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.423 * +EC1.1.1.121 isatin thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 981.7 * +EC1.1.1.121 l-arabinose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 4.55 * +EC1.1.1.121 l-fucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.1067 * +EC1.1.1.121 lactose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 9.23 * +EC1.1.1.121 phenyl-1,2-propanedione thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 16.83 * +EC1.1.1.127 nadh pectobacterium carotovorum subsp. carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.024 * +EC1.1.1.127 nadph pectobacterium carotovorum subsp. carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.021 * +EC1.1.1.133 nadh salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 25.0 * +EC1.1.1.133 nadph salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 29.0 * +EC1.1.1.136 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.41 * +EC1.1.1.136 nad+ salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 15.5 * +EC1.1.1.136 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.97 * +EC1.1.1.136 udp-n-acetyl-d-glucosamine salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 15.5 * +EC1.1.1.14 3-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 441.0 * +EC1.1.1.14 3-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 350.0 * +EC1.1.1.14 4-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 129.0 * +EC1.1.1.14 4-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 354.0 * +EC1.1.1.14 6-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 274.0 * +EC1.1.1.14 6-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 559.0 * +EC1.1.1.14 d-sorbitol candida sp. ha 167//*//* 161.0 * +EC1.1.1.14 d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 506.0 * +EC1.1.1.14 d-sorbitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.71 * +EC1.1.1.14 d-xylitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC1.1.1.14 nad+ deinococcus geothermalis//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dge 2.7 * +EC1.1.1.14 nadp+ deinococcus geothermalis//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dge 1.42 * +EC1.1.1.141 (5z,13e)-(15s)-11alpha,15-dihydroxy-9-oxoprost-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC1.1.1.141 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 47.0 * +EC1.1.1.141 prostaglandin e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.1 * +EC1.1.1.145 (s)-1-indanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.1.1.145 (s)-1-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.1.1.145 (s)-phenyl-1-butanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC1.1.1.145 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC1.1.1.145 1-phenylisatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 41.7 * +EC1.1.1.145 16alpha-hydroxy-dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC1.1.1.145 16beta-hydroxy-dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC1.1.1.145 2,3-heptanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.2 * +EC1.1.1.145 2,3-hexanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.3 * +EC1.1.1.145 2,3-pentanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.7 * +EC1.1.1.145 4,4'-dimethylbenzil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC1.1.1.145 4-benzoylpyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.1.1.145 4-hexanoylpyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.3 * +EC1.1.1.145 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.7 * +EC1.1.1.145 5alpha-androstane-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC1.1.1.145 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC1.1.1.145 5beta-androstan-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC1.1.1.145 5beta-androstan-3beta-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.1.1.145 5beta-androstane-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC1.1.1.145 5beta-androstane-3beta,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.1.1.145 5beta-pregnan-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.1.1.145 5beta-pregnan-3beta-ol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC1.1.1.145 5beta-pregnane-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC1.1.1.145 5beta-pregnane-3beta,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.1.1.145 6-tert-butyl-2,3-epoxy-5-cyclohexene-1,4-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.1.1.145 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC1.1.1.145 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.1.1.145 allopregnanolone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0233 * +EC1.1.1.145 androstenediol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0333 * +EC1.1.1.145 benzil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.7 * +EC1.1.1.145 dehydroepiandrosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0333 * +EC1.1.1.145 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.145 * +EC1.1.1.145 dehydroepiandrosterone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11.6 * +EC1.1.1.145 dehydrolithocholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC1.1.1.145 diacetyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.3 * +EC1.1.1.145 dimethyl-2-oxo-glutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.3 * +EC1.1.1.145 hexanophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC1.1.1.145 isatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.7 * +EC1.1.1.145 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC1.1.1.145 n-butyrophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC1.1.1.145 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.1.1.145 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.65 * +EC1.1.1.145 pregnenolone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.1.1.145 pregnenolone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.48 * +EC1.1.1.145 pyridine-4-aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC1.1.1.145 valerophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.1.1.146 11beta,21-dihydroxypregn-4-en-3,20-dione rattus sp.//*//* 0.000228 * +EC1.1.1.146 21-hydroxy-pregn-4-en-3,11,20-trione rattus sp.//*//* 0.000183 * +EC1.1.1.146 cortisol cavia porcellus//*//* 0.04 * +EC1.1.1.146 cortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC1.1.1.146 cortisone cavia porcellus//*//* 0.3 * +EC1.1.1.146 cortisone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC1.1.1.149 (s)-1-indanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC1.1.1.149 (s)-1-tetralol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.217 * +EC1.1.1.149 17alpha-hydroxyprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.178 * +EC1.1.1.149 17beta-estradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.011 * +EC1.1.1.149 2-tert-butyl-1,4-benzoquinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.183 * +EC1.1.1.149 20alpha-hydroxy-5alpha-pregnan-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.785 * +EC1.1.1.149 20alpha-hydroxyprogesterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.048 * +EC1.1.1.149 20alpha-hydroxyprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.17 * +EC1.1.1.149 3-deoxyglucosone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.183 * +EC1.1.1.149 3alpha-hydroxy-pregnan-20-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.208 * +EC1.1.1.149 4-androstene-3,17-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.043 * +EC1.1.1.149 4-chromanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.068 * +EC1.1.1.149 4-hydroxy-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.009 * +EC1.1.1.149 4-nitroacetophenone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.112 * +EC1.1.1.149 4-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.91 * +EC1.1.1.149 4-oxo-2-hexenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0115 * +EC1.1.1.149 4-oxo-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.112 * +EC1.1.1.149 4-pregnen-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.032 * +EC1.1.1.149 5-androstene-3beta,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC1.1.1.149 5alpha-androstan-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.27 * +EC1.1.1.149 5alpha-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.085 * +EC1.1.1.149 5alpha-androstan-3beta,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.032 * +EC1.1.1.149 5alpha-androstan-3beta-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.083 * +EC1.1.1.149 5alpha-dihydrotestosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.047 * +EC1.1.1.149 5alpha-pregnan-20alpha-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.158 * +EC1.1.1.149 5alpha-pregnan-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.1.1.149 5alpha-pregnan-3alpha,20alpha-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.025 * +EC1.1.1.149 5alpha-pregnan-3alpha,21-diol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.1.1.149 5alpha-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.032 * +EC1.1.1.149 5beta-androstan-17beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.153 * +EC1.1.1.149 5beta-androstan-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC1.1.1.149 5beta-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.067 * +EC1.1.1.149 5beta-androstan-3beta,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.033 * +EC1.1.1.149 5beta-androstan-3beta-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.045 * +EC1.1.1.149 5beta-pregnan-20alpha-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.153 * +EC1.1.1.149 5beta-pregnan-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.028 * +EC1.1.1.149 5beta-pregnan-3alpha,20alpha-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.283 * +EC1.1.1.149 5beta-pregnan-3alpha,21-diol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.017 * +EC1.1.1.149 5beta-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC1.1.1.149 6-tert-butyl-2,3-epoxy-5-cyclohexen-1,4-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.167 * +EC1.1.1.149 7alpha-hydroxy-dehydroepiandrosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.043 * +EC1.1.1.149 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC1.1.1.149 acetoin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.097 * +EC1.1.1.149 acrolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC1.1.1.149 all-trans-retinal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0085 * +EC1.1.1.149 alpha-tetralone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.053 * +EC1.1.1.149 befunolol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.117 * +EC1.1.1.149 beta-ionol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.233 * +EC1.1.1.149 d,l-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.215 * +EC1.1.1.149 dehydroepiandrosterone 3-sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.08 * +EC1.1.1.149 dehydroepiandrosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.155 * +EC1.1.1.149 diacetyl oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.158 * +EC1.1.1.149 estrone 3-sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.098 * +EC1.1.1.149 estrone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.017 * +EC1.1.1.149 geraniol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.033 * +EC1.1.1.149 hexanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.043 * +EC1.1.1.149 isatin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.137 * +EC1.1.1.149 isocaproaldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.023 * +EC1.1.1.149 ketotifen oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC1.1.1.149 menadione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.125 * +EC1.1.1.149 methylglyoxal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC1.1.1.149 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.52 * +EC1.1.1.149 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.43 * +EC1.1.1.149 nonanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.032 * +EC1.1.1.149 progesterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC1.1.1.149 progesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.65 * +EC1.1.1.149 pyridine 3-aldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.132 * +EC1.1.1.149 testosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.057 * +EC1.1.1.149 trans-2-hexenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.025 * +EC1.1.1.149 trans-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC1.1.1.149 trans-benzene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.108 * +EC1.1.1.153 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.627 * +EC1.1.1.153 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC1.1.1.153 2,3-dimethoxynaphthalene-1,4-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC1.1.1.153 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.627 * +EC1.1.1.153 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.45 * +EC1.1.1.153 sepiapterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.61 * +EC1.1.1.154 (s)-ureidoglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.0 * +EC1.1.1.154 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.0 * +EC1.1.1.159 chenodeoxycholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.18 * +EC1.1.1.159 cholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 151.0 * +EC1.1.1.159 glycocholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.417 * +EC1.1.1.159 nadp+ clostridium sardiniense//*//* 13.76 * +EC1.1.1.159 taurochenodeoxycholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.43 * +EC1.1.1.159 taurocholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.13 * +EC1.1.1.16 galactitol rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 13.91 * +EC1.1.1.169 (r)-4-dehydropantoate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 16.6 * +EC1.1.1.169 (r)-pantoate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.8 * +EC1.1.1.169 2-dehydropantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC1.1.1.169 2-dehydropantoate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 23.1 * +EC1.1.1.169 ketopantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC1.1.1.169 nad+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.41 * +EC1.1.1.169 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 19.7 * +EC1.1.1.169 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC1.1.1.169 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 16.8 * +EC1.1.1.169 nadph thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.22 * +EC1.1.1.17 d-fructose 6-phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 132.0 * +EC1.1.1.17 d-mannitol 1-phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 10.6 * +EC1.1.1.173 l-rhamnose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 2860.0 * +EC1.1.1.173 l-rhamnose scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 1510.0 * +EC1.1.1.175 d-xylose caulobacter vibrioides//*//* 30.3 * +EC1.1.1.175 l-arabinose caulobacter vibrioides//*//* 29.2 * +EC1.1.1.175 nad+ caulobacter vibrioides//*//* 35.7 * +EC1.1.1.179 2-deoxy-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 22.0 * +EC1.1.1.179 d-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.0 * +EC1.1.1.179 d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.0 * +EC1.1.1.179 d-glucose haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 273.0 * +EC1.1.1.179 d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC1.1.1.179 d-glucose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 5.7 * +EC1.1.1.179 d-ribose haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 360.0 * +EC1.1.1.179 d-ribose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 40.0 * +EC1.1.1.179 d-xylose haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 356.0 * +EC1.1.1.179 d-xylose macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 2.6 * +EC1.1.1.179 d-xylose paenarthrobacter nicotinovorans//*//* 14.9 * +EC1.1.1.179 d-xylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 58.0 * +EC1.1.1.179 d-xylose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 21.8 * +EC1.1.1.179 l-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 45.0 * +EC1.1.1.179 nad+ paenarthrobacter nicotinovorans//*//* 1.5 * +EC1.1.1.179 nadp+ paenarthrobacter nicotinovorans//*//* 10.5 * +EC1.1.1.18 myo-inositol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 58.0 * +EC1.1.1.183 geraniol zingiber officinale//*//* 5.4 * +EC1.1.1.183 nadp+ zingiber officinale//*//* 5.0 * +EC1.1.1.183 nerol zingiber officinale//*//* 4.6 * +EC1.1.1.184 (r)-2-butanol methanobacterium palustre//*//* 177.0 * +EC1.1.1.184 (s)-2-butanol methanobacterium palustre//*//* 123.0 * +EC1.1.1.184 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC1.1.1.184 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.1.1.184 1-(3-methyl-1,4-dioxidoquinoxalin-2-yl)ethanone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00062 * +EC1.1.1.184 1-(3-methyl-1,4-dioxidoquinoxalin-2-yl)ethanone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00027 * +EC1.1.1.184 1-(3-methyl-4-oxidoquinoxalin-2-yl)ethanone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.72 * +EC1.1.1.184 1-(3-methyl-4-oxidoquinoxalin-2-yl)ethanone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.89 * +EC1.1.1.184 1-phenylisatin canis lupus familiaris//*//* 17.0 * +EC1.1.1.184 16-ketoestrone canis lupus familiaris//*//* 20.0 * +EC1.1.1.184 2,2,2-trifluoroacetophenone thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 16.4 * +EC1.1.1.184 2,3-butanediol methanobacterium palustre//*//* 26.0 * +EC1.1.1.184 2,3-heptanedione canis lupus familiaris//*//* 23.0 * +EC1.1.1.184 2,3-hexanedione canis lupus familiaris//*//* 24.0 * +EC1.1.1.184 2,3-hexanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.13 * +EC1.1.1.184 2,3-pentanedione canis lupus familiaris//*//* 23.0 * +EC1.1.1.184 2,3-pentanedione gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 36.7 * +EC1.1.1.184 2-butanol methanobacterium palustre//*//* 149.0 * +EC1.1.1.184 2-butanone methanobacterium palustre//*//* 86.0 * +EC1.1.1.184 2-hydroxyacetophenone candida parapsilosis//*//* 1.48 * +EC1.1.1.184 2-pentanol methanobacterium palustre//*//* 5.0 * +EC1.1.1.184 2-pentanone methanobacterium palustre//*//* 18.0 * +EC1.1.1.184 2-propanol methanobacterium palustre//*//* 243.0 * +EC1.1.1.184 3-glutathionyl-4-hydroxynonanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.75 * +EC1.1.1.184 3-glutathionyl-hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.5 * +EC1.1.1.184 3-glutathionyl-nonanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.8 * +EC1.1.1.184 3-glutathionyl-propanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 190.8 * +EC1.1.1.184 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.02 * +EC1.1.1.184 4-benzoylpyridine canis lupus familiaris//*//* 17.0 * +EC1.1.1.184 4-benzoylpyridine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.967 * +EC1.1.1.184 4-benzoylpyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.1.1.184 4-benzoylpyridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.1.1.184 4-hexanoylpyridine canis lupus familiaris//*//* 17.0 * +EC1.1.1.184 4-nitrobenzaldehyde cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.087 * +EC1.1.1.184 4-nitrobenzaldehyde gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.48 * +EC1.1.1.184 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0098 * +EC1.1.1.184 4-oxonon-2-enal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 220.0 * +EC1.1.1.184 9,10-phenanthrenequinone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.27 * +EC1.1.1.184 9,10-phenanthrenequinone canis lupus familiaris//*//* 20.0 * +EC1.1.1.184 9,10-phenanthrenequinone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.33 * +EC1.1.1.184 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.77 * +EC1.1.1.184 9-cis-retinal canis lupus familiaris//*//* 0.07 * +EC1.1.1.184 acenaphthenequinone canis lupus familiaris//*//* 13.0 * +EC1.1.1.184 acetoin methanobacterium palustre//*//* 183.0 * +EC1.1.1.184 acetone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.18 * +EC1.1.1.184 all-trans-retinal canis lupus familiaris//*//* 0.08 * +EC1.1.1.184 all-trans-retinol canis lupus familiaris//*//* 0.01 * +EC1.1.1.184 benzoylformic acid ethyl ester canis lupus familiaris//*//* 32.0 * +EC1.1.1.184 cycloheptanone methanobacterium palustre//*//* 6.0 * +EC1.1.1.184 cyclohexanol methanobacterium palustre//*//* 5.0 * +EC1.1.1.184 cyclohexanone methanobacterium palustre//*//* 86.0 * +EC1.1.1.184 cyclopentanol methanobacterium palustre//*//* 106.0 * +EC1.1.1.184 cyclopentanone methanobacterium palustre//*//* 80.0 * +EC1.1.1.184 daunorubicin canis lupus familiaris//*//* 3.52 * +EC1.1.1.184 daunorubicin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.0 * +EC1.1.1.184 diacetyl methanobacterium palustre//*//* 609.0 * +EC1.1.1.184 doxorubicin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.1.1.184 estrone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.45 * +EC1.1.1.184 ethyl 2-methylacetoacetate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 12.5 * +EC1.1.1.184 ethyl 2-oxo-4-phenylbutyrate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 11.2 * +EC1.1.1.184 ethyl 4-chloro-3-oxobutanoate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.05 * +EC1.1.1.184 glutathione-4-oxonon-2-enal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6 * +EC1.1.1.184 heptanophenone canis lupus familiaris//*//* 10.0 * +EC1.1.1.184 hexanophenone canis lupus familiaris//*//* 25.0 * +EC1.1.1.184 isatin canis lupus familiaris//*//* 14.0 * +EC1.1.1.184 isatin cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.225 * +EC1.1.1.184 isatin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.55 * +EC1.1.1.184 isatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.77 * +EC1.1.1.184 menadione canis lupus familiaris//*//* 8.48 * +EC1.1.1.184 menadione cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0483 * +EC1.1.1.184 menadione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.17 * +EC1.1.1.184 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 246.0 * +EC1.1.1.184 menadione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC1.1.1.184 methyl glyoxal kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 4.0 * +EC1.1.1.184 methylglyoxal gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 23.8 * +EC1.1.1.184 n-butyrophenone canis lupus familiaris//*//* 15.0 * +EC1.1.1.184 nadh candida parapsilosis//*//* 1.32 * +EC1.1.1.184 nadp+ methanobacterium palustre//*//* 243.0 * +EC1.1.1.184 nadph candida magnoliae//*//* 870.0 * +EC1.1.1.184 nadph candida parapsilosis//*//* 1.48 * +EC1.1.1.184 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 179.0 * +EC1.1.1.184 nadph kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 3.67 * +EC1.1.1.184 nadph methanobacterium palustre//*//* 129.0 * +EC1.1.1.184 oracin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC1.1.1.184 p-toluquinone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 2.5 * +EC1.1.1.184 p-toluquinone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.28 * +EC1.1.1.184 phenylglyoxal gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 39.3 * +EC1.1.1.184 propanone methanobacterium palustre//*//* 129.0 * +EC1.1.1.184 prostaglandin e2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.68 * +EC1.1.1.184 prostaglandin e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.0 * +EC1.1.1.184 s-1-phenyl-1-butanol canis lupus familiaris//*//* 3.5 * +EC1.1.1.184 s-nitrosoglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.62 * +EC1.1.1.184 testosterone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.6 * +EC1.1.1.184 valerophenone canis lupus familiaris//*//* 11.0 * +EC1.1.1.188 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC1.1.1.188 androst-4-ene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.1.1.188 prostaglandin h2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2467 * +EC1.1.1.188 prostaglandin h2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2467 * +EC1.1.1.192 nad+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 38.5 * +EC1.1.1.192 nadp+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 283.1 * +EC1.1.1.192 nadph geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 4808.0 * +EC1.1.1.194 coniferyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 25.8 * +EC1.1.1.195 3-phenyl-1-propanol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 11.2 * +EC1.1.1.195 4-coumaraldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.8 * +EC1.1.1.195 4-coumarylaldehyde plagiochasma appendiculatum//*//* 0.367 * +EC1.1.1.195 5-hydroxyconiferylaldehyde plagiochasma appendiculatum//*//* 0.007 * +EC1.1.1.195 acetaldehyde helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 16.7 * +EC1.1.1.195 allyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 32.9 * +EC1.1.1.195 benzaldehyde helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.5 * +EC1.1.1.195 benzyl alcohol helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 8.4 * +EC1.1.1.195 butanol helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 5.7 * +EC1.1.1.195 caffeylaldehyde plagiochasma appendiculatum//*//* 0.072 * +EC1.1.1.195 cinnamaldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 55.0 * +EC1.1.1.195 cinnamaldehyde hibiscus cannabinus//*//* 1437.0 * +EC1.1.1.195 cinnamaldehyde leucaena leucocephala//*//* 18.0 * +EC1.1.1.195 cinnamaldehyde streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 14.4 * +EC1.1.1.195 cinnamaldehyde synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 107.9 * +EC1.1.1.195 cinnamyl alcohol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 43.0 * +EC1.1.1.195 cinnamyl alcohol helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 13.3 * +EC1.1.1.195 cinnamyl alcohol leucaena leucocephala//*//* 16.2 * +EC1.1.1.195 cinnamyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 18.1 * +EC1.1.1.195 cinnamyl alcohol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 60.78 * +EC1.1.1.195 cinnamyl aldehyde helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 7.7 * +EC1.1.1.195 coniferaldehyde plagiochasma appendiculatum//*//* 0.085 * +EC1.1.1.195 coniferaldehyde sinopodophyllum hexandrum//*//* 12.0 * +EC1.1.1.195 coniferyl alcohol helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.5 * +EC1.1.1.195 coniferyl alcohol leucaena leucocephala//*//* 16.3 * +EC1.1.1.195 coniferyl alcohol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.99 * +EC1.1.1.195 coniferyl alcohol panicum virgatum//*//* 13.2 * +EC1.1.1.195 coniferyl aldehyde carthamus tinctorius//*//* 0.032 * +EC1.1.1.195 coniferyl aldehyde helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 27.4 * +EC1.1.1.195 coniferyl aldehyde hibiscus cannabinus//*//* 7564.0 * +EC1.1.1.195 coniferyl aldehyde leucaena leucocephala//*//* 16.56 * +EC1.1.1.195 coniferyl aldehyde medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 9.1 * +EC1.1.1.195 coniferyl aldehyde nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.24 * +EC1.1.1.195 coniferyl aldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.3 * +EC1.1.1.195 coniferyl aldehyde panicum virgatum//*//* 138.0 * +EC1.1.1.195 coniferyl aldehyde populus tomentosa//*//* 45.42 * +EC1.1.1.195 coumaryl alcohol panicum virgatum//*//* 24.7 * +EC1.1.1.195 ethanol helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 7.1 * +EC1.1.1.195 nad+ eucalyptus gunnii//*//* 0.0242 * +EC1.1.1.195 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 33.0 * +EC1.1.1.195 nad+ streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 19.9 * +EC1.1.1.195 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 43.0 * +EC1.1.1.195 nadp+ eucalyptus gunnii//*//* 0.0555 * +EC1.1.1.195 nadp+ helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 15.5 * +EC1.1.1.195 nadp+ leucaena leucocephala//*//* 23.3 * +EC1.1.1.195 nadph eucalyptus gunnii//*//* 0.49 * +EC1.1.1.195 nadph helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 25.2 * +EC1.1.1.195 nadph leucaena leucocephala//*//* 28.8 * +EC1.1.1.195 p-coumaryl aldehyde leucaena leucocephala//*//* 22.5 * +EC1.1.1.195 p-coumaryl aldehyde medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 15.6 * +EC1.1.1.195 propanol helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 12.8 * +EC1.1.1.195 sinapaldehyde plagiochasma appendiculatum//*//* 0.006 * +EC1.1.1.195 sinapaldehyde sinopodophyllum hexandrum//*//* 8.3 * +EC1.1.1.195 sinapyl alcohol leucaena leucocephala//*//* 16.0 * +EC1.1.1.195 sinapyl alcohol panicum virgatum//*//* 46.4 * +EC1.1.1.195 sinapyl aldehyde carthamus tinctorius//*//* 0.041 * +EC1.1.1.195 sinapyl aldehyde hibiscus cannabinus//*//* 9368.0 * +EC1.1.1.195 sinapyl aldehyde leucaena leucocephala//*//* 32.2 * +EC1.1.1.195 sinapyl aldehyde medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 10.2 * +EC1.1.1.195 sinapyl aldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.4 * +EC1.1.1.195 sinapyl aldehyde panicum virgatum//*//* 196.0 * +EC1.1.1.195 sinapyl aldehyde populus tomentosa//*//* 16.59 * +EC1.1.1.198 (+)-borneol artemisia annua//*//* 0.0058 * +EC1.1.1.198 (+)-borneol lavandula x intermedia//*//* 0.0004 * +EC1.1.1.198 (+)-borneol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.75 * +EC1.1.1.2 (+)-camphorquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.6 * +EC1.1.1.2 (2r,3r)-2,3-butanediol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 740.0 * +EC1.1.1.2 (2s,3s)-2,3-butanediol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 512.0 * +EC1.1.1.2 1,5-pentanediol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 5.31 * +EC1.1.1.2 1-pentanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 918.0 * +EC1.1.1.2 2-butanol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 833.0 * +EC1.1.1.2 2-butanone thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 190.0 * +EC1.1.1.2 2-propanol thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.53 * +EC1.1.1.2 3-methyl-1,5-pentanediol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 7.84 * +EC1.1.1.2 3-methyl-1-butanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2866.0 * +EC1.1.1.2 3-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9581.0 * +EC1.1.1.2 3-pyridinecarboxaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 26.8 * +EC1.1.1.2 3-pyridinemethanol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.07 * +EC1.1.1.2 4-carboxybenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 21.7 * +EC1.1.1.2 4-cyanobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.6 * +EC1.1.1.2 4-hydroxy-3-methoxybenzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC1.1.1.2 4-nitrobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 22.0 * +EC1.1.1.2 4-pyridinecarboxaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 19.3 * +EC1.1.1.2 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 53.5 * +EC1.1.1.2 acetaldehyde pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 15.0 * +EC1.1.1.2 acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.5 * +EC1.1.1.2 acetaldehyde synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 157.6 * +EC1.1.1.2 acetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 23.6 * +EC1.1.1.2 acetoin thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 142.0 * +EC1.1.1.2 acetophenone lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 44.5 * +EC1.1.1.2 acrolein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.5 * +EC1.1.1.2 benzylalcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0733 * +EC1.1.1.2 butan-1-ol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 7.02 * +EC1.1.1.2 butanal pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 20.1 * +EC1.1.1.2 butanal synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 156.6 * +EC1.1.1.2 butanaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 59.5 * +EC1.1.1.2 butanol pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 48.0 * +EC1.1.1.2 butanol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 17.05 * +EC1.1.1.2 butyraldehyde pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 48.0 * +EC1.1.1.2 cinnamaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7913.0 * +EC1.1.1.2 cinnamaldehyde synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 107.9 * +EC1.1.1.2 cinnamyl alcohol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3404.0 * +EC1.1.1.2 cinnamyl alcohol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 60.78 * +EC1.1.1.2 d-glucuronate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.6 * +EC1.1.1.2 d-glyceraldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.4 * +EC1.1.1.2 d-lactaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.7 * +EC1.1.1.2 d-xylose thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.7 * +EC1.1.1.2 diacetyl thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 202.0 * +EC1.1.1.2 ethanol pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 14.0 * +EC1.1.1.2 ethanol pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 19.2 * +EC1.1.1.2 ethanol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 27.35 * +EC1.1.1.2 ethanol thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 84.0 * +EC1.1.1.2 glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0283 * +EC1.1.1.2 glycerol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.612 * +EC1.1.1.2 hexanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 359.0 * +EC1.1.1.2 hexanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.7 * +EC1.1.1.2 l-arabitol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.77 * +EC1.1.1.2 malondialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.1 * +EC1.1.1.2 meso-2,3-butanediol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 952.0 * +EC1.1.1.2 methylglyoxal pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.7 * +EC1.1.1.2 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.4 * +EC1.1.1.2 nadh scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 6.23 * +EC1.1.1.2 nadp+ lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 4.4 * +EC1.1.1.2 nadp+ mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 13.41 * +EC1.1.1.2 nadp+ pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 50.0 * +EC1.1.1.2 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 15.8 * +EC1.1.1.2 nadp+ thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 1333.0 * +EC1.1.1.2 nadp+ thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.45 * +EC1.1.1.2 nadp+ thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 84.0 * +EC1.1.1.2 nadph lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 38.1 * +EC1.1.1.2 nadph pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 52.0 * +EC1.1.1.2 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.3 * +EC1.1.1.2 nadph scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 6.5 * +EC1.1.1.2 nadph thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 158.0 * +EC1.1.1.2 nadph thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 1.51 * +EC1.1.1.2 nadph thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 24.0 * +EC1.1.1.2 p-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.5 * +EC1.1.1.2 pentanal pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 49.2 * +EC1.1.1.2 pentanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11920.0 * +EC1.1.1.2 pentanal synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 159.1 * +EC1.1.1.2 pentanol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 13.15 * +EC1.1.1.2 phenylacetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 10.4 * +EC1.1.1.2 phenylethanediol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.1.1.2 phenylethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0283 * +EC1.1.1.2 phenylethanol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 5.4 * +EC1.1.1.2 phenylethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1132.0 * +EC1.1.1.2 propane-1,2-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0433 * +EC1.1.1.2 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 45.1 * +EC1.1.1.2 pyruvaldehyde thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 2.04 * +EC1.1.1.2 veratraldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6000.0 * +EC1.1.1.200 d-glucitol-6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.222 * +EC1.1.1.200 d-glucose 6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.7 * +EC1.1.1.201 7-ketolithocholic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 15.8 * +EC1.1.1.201 dehydrocholic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 14.6 * +EC1.1.1.201 nadp+ collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 15.7 * +EC1.1.1.201 nadph collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 17.2 * +EC1.1.1.201 ursodeoxycholic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 19.6 * +EC1.1.1.202 3-hydroxypropanal klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 59.4 * +EC1.1.1.202 acetaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 5.2 * +EC1.1.1.202 butyraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 8.7 * +EC1.1.1.202 formaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.6 * +EC1.1.1.202 nad+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 51.99 * +EC1.1.1.202 nadh klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 90.64 * +EC1.1.1.202 propane-1,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 9.98 * +EC1.1.1.202 propionaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.1 * +EC1.1.1.202 valeraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.0 * +EC1.1.1.203 beta-d-galacturonate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 76.0 * +EC1.1.1.203 beta-d-galacturonate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 15.3 * +EC1.1.1.203 beta-d-galacturonate fulvimarina pelagi//*//* 13.0 * +EC1.1.1.203 beta-d-galacturonate oceanicola granulosus//*//* 4.0 * +EC1.1.1.203 beta-d-galacturonate polaromonas naphthalenivorans//prokaryotes;bacteria;betaproteobacteria;polaromonas//pna 51.6 * +EC1.1.1.203 beta-d-galacturonate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 17.1 * +EC1.1.1.203 beta-d-galacturonate pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 17.9 * +EC1.1.1.203 beta-d-galacturonate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 29.0 * +EC1.1.1.203 beta-d-galacturonate streptomyces viridochromogenes//*//* 23.0 * +EC1.1.1.203 beta-d-glucuronate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 333.0 * +EC1.1.1.203 beta-d-glucuronate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 119.0 * +EC1.1.1.203 beta-d-glucuronate fulvimarina pelagi//*//* 82.0 * +EC1.1.1.203 beta-d-glucuronate oceanicola granulosus//*//* 7.0 * +EC1.1.1.203 beta-d-glucuronate polaromonas naphthalenivorans//prokaryotes;bacteria;betaproteobacteria;polaromonas//pna 274.0 * +EC1.1.1.203 beta-d-glucuronate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 152.0 * +EC1.1.1.203 beta-d-glucuronate pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 159.0 * +EC1.1.1.203 beta-d-glucuronate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 217.0 * +EC1.1.1.203 beta-d-glucuronate streptomyces viridochromogenes//*//* 75.0 * +EC1.1.1.203 d-galacturonate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.92 * +EC1.1.1.203 d-galacturonate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.3 * +EC1.1.1.203 d-galacturonate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.24 * +EC1.1.1.203 d-galacturonate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 26.7 * +EC1.1.1.203 d-glucuronate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.9 * +EC1.1.1.203 d-glucuronate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.55 * +EC1.1.1.203 d-glucuronate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.74 * +EC1.1.1.203 d-glucuronate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 80.0 * +EC1.1.1.203 d-mannuronate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 92.0 * +EC1.1.1.203 d-mannuronate fulvimarina pelagi//*//* 107.0 * +EC1.1.1.203 d-mannuronate oceanicola granulosus//*//* 4.0 * +EC1.1.1.203 d-mannuronate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 7.0 * +EC1.1.1.203 d-mannuronate streptomyces viridochromogenes//*//* 9.0 * +EC1.1.1.203 nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 144.0 * +EC1.1.1.203 nad+ fulvimarina pelagi//*//* 113.0 * +EC1.1.1.203 nad+ oceanicola granulosus//*//* 7.0 * +EC1.1.1.203 nad+ pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 215.0 * +EC1.1.1.203 nad+ streptomyces viridochromogenes//*//* 62.0 * +EC1.1.1.205 3-acetylpyridine adenine dinucleotide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 3.0 * +EC1.1.1.205 acetylpyridine adenine dinucleotide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 3.0 * +EC1.1.1.205 imp bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 5.1 * +EC1.1.1.205 imp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 5.3 * +EC1.1.1.205 imp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 2.2 * +EC1.1.1.205 imp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 2.9 * +EC1.1.1.205 imp eremothecium gossypii//*//* 2.46 * +EC1.1.1.205 imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.1.1.205 imp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.53 * +EC1.1.1.205 imp streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.4 * +EC1.1.1.205 imp vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 2.1 * +EC1.1.1.205 inosine 5'-diphosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.4 * +EC1.1.1.205 inosine 5'-diphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.28 * +EC1.1.1.205 inosine 5'-phosphate borreliella burgdorferi//*//* 2.6 * +EC1.1.1.205 inosine 5'-phosphate cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 3.3 * +EC1.1.1.205 inosine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC1.1.1.205 inosine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC1.1.1.205 inosine 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.53 * +EC1.1.1.205 inosine 5'-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 24.0 * +EC1.1.1.205 inosine 5'-phosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.98 * +EC1.1.1.205 inosine 5'-phosphate tritrichomonas suis//*//* 1.9 * +EC1.1.1.205 nad+ borreliella burgdorferi//*//* 0.0433 * +EC1.1.1.205 nad+ cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 2.6 * +EC1.1.1.205 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.1.1.205 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.1 * +EC1.1.1.205 nad+ toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.98 * +EC1.1.1.205 nad+ tritrichomonas suis//*//* 1.9 * +EC1.1.1.206 3-methylcyclohexanone withania somnifera//*//* 8.97 * +EC1.1.1.206 3-quinuclidinone brugmansia arborea//*//* 0.54 * +EC1.1.1.206 4-methylcyclohexanone brugmansia arborea//*//* 4.67 * +EC1.1.1.206 n-methylpiperidine withania somnifera//*//* 9.23 * +EC1.1.1.206 nadp+ withania coagulans//*//* 2.94 * +EC1.1.1.206 nadp+ withania somnifera//*//* 0.54 * +EC1.1.1.206 nadph withania coagulans//*//* 6.76 * +EC1.1.1.206 nadph withania somnifera//*//* 33.34 * +EC1.1.1.206 tropine brugmansia arborea//*//* 5.69 * +EC1.1.1.206 tropine datura stramonium//*//* 3.3 * +EC1.1.1.206 tropine withania coagulans//*//* 1.87 * +EC1.1.1.206 tropine withania somnifera//*//* 1.67 * +EC1.1.1.206 tropinone brugmansia arborea//*//* 2.93 * +EC1.1.1.206 tropinone datura stramonium//*//* 25.6 * +EC1.1.1.206 tropinone withania coagulans//*//* 16.74 * +EC1.1.1.206 tropinone withania somnifera//*//* 9.51 * +EC1.1.1.207 (-)-menthone mentha x piperita//*//* 0.6 * +EC1.1.1.207 (2r,5r)-isomenthone mentha x piperita//*//* 2.0 * +EC1.1.1.207 (2s,5r)-menthone mentha x piperita//*//* 1.63 * +EC1.1.1.207 nadph mentha x piperita//*//* 0.6 * +EC1.1.1.208 (+)-neomenthol artemisia annua//*//* 0.91 * +EC1.1.1.208 (-)-menthone artemisia annua//*//* 0.6 * +EC1.1.1.208 (-)-menthone mentha x piperita//*//* 0.06 * +EC1.1.1.208 (2r,5r)-isomenthone mentha x piperita//*//* 0.2 * +EC1.1.1.208 (2s,5r)-menthone mentha x piperita//*//* 0.96 * +EC1.1.1.208 nadph mentha x piperita//*//* 0.06 * +EC1.1.1.209 (2z)-2-(5-hydroxy-4,6-dimethyl-2-oxo-1,2-dihydro-3h-indol-3-ylidene)-n,n-di(prop-2-en-1-yl)hydrazinecarbothioamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00617 * +EC1.1.1.209 4-androstene-3,17-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.167 * +EC1.1.1.209 5alpha-androstan-17alpha-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.167 * +EC1.1.1.209 5alpha-androstan-17beta-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.167 * +EC1.1.1.209 5alpha-androstan-3alpha-ol-17-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.073 * +EC1.1.1.209 5alpha-androstan-3beta,17beta-diol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.167 * +EC1.1.1.209 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.209 5alpha-pregnane-3alpha,20alpha-diol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.105 * +EC1.1.1.209 5beta-androstan-17alpha-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC1.1.1.209 5beta-pregnane-20alpha-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.383 * +EC1.1.1.209 5beta-pregnane-3,20-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC1.1.1.209 5beta-pregnane-3alpha,20alpha-diol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.217 * +EC1.1.1.209 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000367 * +EC1.1.1.209 epitestosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC1.1.1.209 lithocholic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.047 * +EC1.1.1.209 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.1.1.21 (1s)-camphorquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.333 * +EC1.1.1.21 (s)-1-indanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.1.1.21 (s)-1-teralol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.1.1.21 1-butanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.1.1.21 1-butanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC1.1.1.21 1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.137 * +EC1.1.1.21 1-decanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC1.1.1.21 1-decanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.1.1.21 1-decanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.1.1.21 1-dodecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC1.1.1.21 1-heptanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.1.1.21 1-hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.37 * +EC1.1.1.21 1-hexanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC1.1.1.21 1-hexanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.158 * +EC1.1.1.21 1-hexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.068 * +EC1.1.1.21 1-nonanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.38 * +EC1.1.1.21 1-nonanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.57 * +EC1.1.1.21 1-nonanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC1.1.1.21 1-nonanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.062 * +EC1.1.1.21 1-octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.37 * +EC1.1.1.21 1-octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC1.1.1.21 1-palmitoyl-2-(5-oxovaleryl)sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC1.1.1.21 1-propanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC1.1.1.21 1-tetradecanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.1.1.21 16-ketoestrone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC1.1.1.21 2,3-butanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.333 * +EC1.1.1.21 2,3-heptanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC1.1.1.21 2,3-hexanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.32 * +EC1.1.1.21 2,3-hexanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC1.1.1.21 2,3-pentanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.383 * +EC1.1.1.21 2,4-decadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 2,4-nonadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 2-decenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.145 * +EC1.1.1.21 2-deoxy-2-fluoro-galactose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.183 * +EC1.1.1.21 2-hexenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC1.1.1.21 2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.155 * +EC1.1.1.21 2-phenyl-1-propanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.1.1.21 2-phenyl-2-propenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC1.1.1.21 20alpha-hydroxyprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.21 20alpha-isocorticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.64 * +EC1.1.1.21 21-dehydrocortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC1.1.1.21 21-dehydrocortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 3,4-hexanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.233 * +EC1.1.1.21 3-deoxyglucosone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC1.1.1.21 3-deoxyglucosone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 4-hydroxynonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC1.1.1.21 4-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.57 * +EC1.1.1.21 5-pregnene-3beta,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.1.1.21 5alpha-pregnan-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.21 5alpha-pregnane-3beta,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.1.1.21 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.6 * +EC1.1.1.21 acrolein candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 2.4 * +EC1.1.1.21 acrolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC1.1.1.21 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.73 * +EC1.1.1.21 benzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.1.1.21 benzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC1.1.1.21 benzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0383 * +EC1.1.1.21 d-galactose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 1.1 * +EC1.1.1.21 d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.525 * +EC1.1.1.21 d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 29.0 * +EC1.1.1.21 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 126.0 * +EC1.1.1.21 d-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC1.1.1.21 d-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.1.1.21 d-lactoaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.87 * +EC1.1.1.21 d-lactoaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.283 * +EC1.1.1.21 d-xylose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.283 * +EC1.1.1.21 d-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC1.1.1.21 dl-glyceraldehyde candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 155.0 * +EC1.1.1.21 dl-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.76 * +EC1.1.1.21 dl-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.583 * +EC1.1.1.21 dl-glyceraldehyde xerophyta viscosa//*//* 5.8 * +EC1.1.1.21 geraniol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.567 * +EC1.1.1.21 geranylgeraniol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.165 * +EC1.1.1.21 glycoaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 glycolaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC1.1.1.21 glyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.12 * +EC1.1.1.21 glyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 isatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.12 * +EC1.1.1.21 isatin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.283 * +EC1.1.1.21 isobutyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC1.1.1.21 isocaproaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC1.1.1.21 l-idose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 30.0 * +EC1.1.1.21 l-idose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 143.0 * +EC1.1.1.21 methylglyoxal candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 266.0 * +EC1.1.1.21 methylglyoxal leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 78.4 * +EC1.1.1.21 methylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC1.1.1.21 methylglyoxal xerophyta viscosa//*//* 14.5 * +EC1.1.1.21 nerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.117 * +EC1.1.1.21 phenyl-1,2-propanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.383 * +EC1.1.1.21 phenylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.76 * +EC1.1.1.21 phenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.1.1.21 propanal candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 13.0 * +EC1.1.1.21 pyridine-3-aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.1.1.21 pyridine-3-aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.52 * +EC1.1.1.21 pyridine-3-methanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC1.1.1.21 pyridine-3-methanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.1.1.21 pyridine-4-aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC1.1.1.21 trans,trans-farnesol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.1.1.21 trans-2-buten-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.78 * +EC1.1.1.21 trans-2-decen-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.83 * +EC1.1.1.21 trans-2-hexen-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC1.1.1.21 trans-2-nonen-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.34 * +EC1.1.1.213 (2z)-2-(5-hydroxy-4,6-dimethyl-2-oxo-1,2-dihydro-3h-indol-3-ylidene)-n,n-di(prop-2-en-1-yl)hydrazinecarbothioamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.85 * +EC1.1.1.213 (5beta,20r)-20-hydroxypregnan-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.115 * +EC1.1.1.213 3alpha-androstanediol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.213 3alpha-hydroxy-5alpha-androstan-17-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.25 * +EC1.1.1.213 4-oxo-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC1.1.1.213 5alpha-androstan-17beta-ol-3-one mesocricetus auratus//*//* 0.35 * +EC1.1.1.213 5alpha-androstan-3,17-dione mesocricetus auratus//*//* 0.567 * +EC1.1.1.213 5alpha-androstan-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.283 * +EC1.1.1.213 5alpha-androstan-3alpha,17beta-diol mesocricetus auratus//*//* 1.33 * +EC1.1.1.213 5alpha-androstan-3alpha-ol-17-one mesocricetus auratus//*//* 2.72 * +EC1.1.1.213 5alpha-androstane-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.1.1.213 5alpha-dihydroprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC1.1.1.213 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1339.0 * +EC1.1.1.213 5alpha-pregnan-21-ol-3,20-one mesocricetus auratus//*//* 0.767 * +EC1.1.1.213 5alpha-pregnan-3alpha,21-diol-20-one mesocricetus auratus//*//* 0.233 * +EC1.1.1.213 5beta-androstan-3,17-dione mesocricetus auratus//*//* 0.45 * +EC1.1.1.213 5beta-androstan-3alpha,17beta-diol mesocricetus auratus//*//* 1.2 * +EC1.1.1.213 5beta-androstan-3alpha-ol-17-one mesocricetus auratus//*//* 1.33 * +EC1.1.1.213 5beta-androstane-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.047 * +EC1.1.1.213 5beta-dihydrocortisone mesocricetus auratus//*//* 0.433 * +EC1.1.1.213 5beta-pregnan-3,20-dione mesocricetus auratus//*//* 0.417 * +EC1.1.1.213 5beta-pregnan-3alpha,21-diol-20-one mesocricetus auratus//*//* 0.633 * +EC1.1.1.213 5beta-pregnan-3alpha-ol-20-one mesocricetus auratus//*//* 0.767 * +EC1.1.1.213 5beta-pregnane-3,20-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.105 * +EC1.1.1.213 6-tert-butyl-2,3-epoxy-4-hydroxy-5-cyclohexen-1-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.1.1.213 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.17 * +EC1.1.1.213 androsterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 318.0 * +EC1.1.1.213 androsterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.83 * +EC1.1.1.213 dehydrolithocholic acid mesocricetus auratus//*//* 0.733 * +EC1.1.1.213 dehydrolithocholic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.1.1.213 diacetyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.167 * +EC1.1.1.213 glycochenodeoxycholic acid mesocricetus auratus//*//* 0.2 * +EC1.1.1.213 glycolithocholic acid mesocricetus auratus//*//* 0.233 * +EC1.1.1.213 isatin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.283 * +EC1.1.1.213 lithocholic acid mesocricetus auratus//*//* 0.217 * +EC1.1.1.213 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.43 * +EC1.1.1.213 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.367 * +EC1.1.1.215 2-oxo-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 48.2 * +EC1.1.1.218 morphine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.49 * +EC1.1.1.218 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.004 * +EC1.1.1.218 trans-naphthalene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.067 * +EC1.1.1.219 (4s)-5,5,5-trifluoro-4-hydroxy-4-phenylpentan-2-one komagataella phaffii//eukaryotes;fungi;ascomycetes;saccharomycetes//ppa 44.5 * +EC1.1.1.219 benzaldehyde komagataella phaffii//eukaryotes;fungi;ascomycetes;saccharomycetes//ppa 54.4 * +EC1.1.1.219 dihydrokaempferol fragaria x ananassa//*//* 11.4 * +EC1.1.1.219 dihydromyricetin fragaria x ananassa//*//* 11.2 * +EC1.1.1.219 dihydroquercetin fragaria x ananassa//*//* 3.1 * +EC1.1.1.219 nadph komagataella phaffii//eukaryotes;fungi;ascomycetes;saccharomycetes//ppa 58.4 * +EC1.1.1.22 aldehyde intermediate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.9 * +EC1.1.1.22 nad+ burkholderia cenocepacia j2315//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcj 0.156 * +EC1.1.1.22 nad+ burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 6.7 * +EC1.1.1.22 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 56.2 * +EC1.1.1.22 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC1.1.1.22 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.35 * +EC1.1.1.22 nad+ sphingomonas elodea//*//* 7.6 * +EC1.1.1.22 nad+ sphingomonas sanxanigenens//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//ssan 50.2 * +EC1.1.1.22 udp-alpha-d-glucose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 6.9 * +EC1.1.1.22 udp-alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC1.1.1.22 udp-alpha-d-glucose sphingomonas sanxanigenens//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//ssan 57.9 * +EC1.1.1.22 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.53 * +EC1.1.1.22 udp-glucose burkholderia cenocepacia j2315//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcj 0.133 * +EC1.1.1.22 udp-glucose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.81 * +EC1.1.1.22 udp-glucose sphingomonas elodea//*//* 8.73 * +EC1.1.1.22 udp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 105.0 * +EC1.1.1.22 udpglucose streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.117 * +EC1.1.1.227 (-)-borneol lavandula x intermedia//*//* 0.0004 * +EC1.1.1.227 (-)-borneol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.53 * +EC1.1.1.23 l-histidinal salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 9.34 * +EC1.1.1.23 l-histidinol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 35.0 * +EC1.1.1.23 l-histidinol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.45 * +EC1.1.1.23 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.361 * +EC1.1.1.236 nadph datura stramonium//*//* 71.4 * +EC1.1.1.236 tropinone datura stramonium//*//* 71.4 * +EC1.1.1.237 glyoxylate wickerhamia fluorescens//*//* 19.0 * +EC1.1.1.237 hydroxyphenylpyruvate wickerhamia fluorescens//*//* 73.0 * +EC1.1.1.237 hydroxypyruvate wickerhamia fluorescens//*//* 9.1 * +EC1.1.1.237 nadh wickerhamia fluorescens//*//* 31.0 * +EC1.1.1.237 nadph wickerhamia fluorescens//*//* 121.0 * +EC1.1.1.237 phenylpyruvate wickerhamia fluorescens//*//* 150.0 * +EC1.1.1.239 (r)-1,2,3,4-tetrahydro-1-naphthol mesocricetus auratus//*//* 0.0075 * +EC1.1.1.239 (s)-1,2,3,4-tetrahydro-1-naphthol mesocricetus auratus//*//* 0.105 * +EC1.1.1.239 (s)-1,2,3,4-tetrahydro-1-naphthol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.367 * +EC1.1.1.239 (s)-1-indanol mesocricetus auratus//*//* 0.1 * +EC1.1.1.239 (s)-1-indanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC1.1.1.239 (s)-camphorquinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.98 * +EC1.1.1.239 1-acenaphthenol mesocricetus auratus//*//* 0.283 * +EC1.1.1.239 1-phenyl-1,2-propanedione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.45 * +EC1.1.1.239 16-oxoestrone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.867 * +EC1.1.1.239 17beta-estradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0217 * +EC1.1.1.239 2,3-butanedione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.55 * +EC1.1.1.239 2-cyclohexen-1-ol mesocricetus auratus//*//* 0.028 * +EC1.1.1.239 2-cyclohexen-1-ol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.16 * +EC1.1.1.239 4-oxo-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC1.1.1.239 4-pregnen-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC1.1.1.239 5alpha-androstan-17beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.065 * +EC1.1.1.239 5alpha-androstan-3alpha,17beta-diol mesocricetus auratus//*//* 0.45 * +EC1.1.1.239 5alpha-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.058 * +EC1.1.1.239 5alpha-androstane-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.055 * +EC1.1.1.239 5alpha-pregnan-3alpha,21-diol-20-one mesocricetus auratus//*//* 0.267 * +EC1.1.1.239 5alpha-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0072 * +EC1.1.1.239 5beta-androstan-17beta-ol-3-one mesocricetus auratus//*//* 0.367 * +EC1.1.1.239 5beta-androstan-17beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0167 * +EC1.1.1.239 5beta-androstan-3,17-dione mesocricetus auratus//*//* 0.167 * +EC1.1.1.239 5beta-androstan-3alpha,17beta-diol mesocricetus auratus//*//* 0.85 * +EC1.1.1.239 5beta-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.052 * +EC1.1.1.239 5beta-androstane-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0122 * +EC1.1.1.239 5beta-pregnan-3,20-dione mesocricetus auratus//*//* 0.158 * +EC1.1.1.239 5beta-pregnan-3alpha,21-diol-20-one mesocricetus auratus//*//* 0.367 * +EC1.1.1.239 5beta-pregnan-3alpha-ol-20-one mesocricetus auratus//*//* 0.233 * +EC1.1.1.239 5beta-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.023 * +EC1.1.1.239 6-tert-butyl-2,3-epoxy-4-hydroxy-5-cyclohexen-1-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.108 * +EC1.1.1.239 9,10-phenanthrenequinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.617 * +EC1.1.1.239 alpha-3-hydroxyhexobarbital mesocricetus auratus//*//* 0.04 * +EC1.1.1.239 alpha-tetralone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC1.1.1.239 benzene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC1.1.1.239 beta-3-hydroxyhexobarbital mesocricetus auratus//*//* 0.0967 * +EC1.1.1.239 beta-ionol mesocricetus auratus//*//* 0.053 * +EC1.1.1.239 beta-ionol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.028 * +EC1.1.1.239 cis-benzene dihydrodiol mesocricetus auratus//*//* 0.032 * +EC1.1.1.239 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.1.1.239 farnesol mesocricetus auratus//*//* 0.0045 * +EC1.1.1.239 farnesol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC1.1.1.239 geraniol mesocricetus auratus//*//* 0.0153 * +EC1.1.1.239 geraniol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.028 * +EC1.1.1.239 geranylgeraniol mesocricetus auratus//*//* 0.038 * +EC1.1.1.239 geranylgeraniol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0127 * +EC1.1.1.239 glycochenodeoxycholic acid mesocricetus auratus//*//* 0.02 * +EC1.1.1.239 glycolithocholic acid mesocricetus auratus//*//* 0.25 * +EC1.1.1.239 isatin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.65 * +EC1.1.1.239 lithocholic acid mesocricetus auratus//*//* 0.05 * +EC1.1.1.239 lithocholic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.1.1.239 morphine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.49 * +EC1.1.1.239 nad+ mesocricetus auratus//*//* 0.025 * +EC1.1.1.239 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.283 * +EC1.1.1.239 nadh mesocricetus auratus//*//* 0.167 * +EC1.1.1.239 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.683 * +EC1.1.1.239 nadp+ mesocricetus auratus//*//* 0.0917 * +EC1.1.1.239 naphthalene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.067 * +EC1.1.1.239 nerol mesocricetus auratus//*//* 0.115 * +EC1.1.1.239 pyridine-3-aldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC1.1.1.239 testosterone mesocricetus auratus//*//* 0.417 * +EC1.1.1.239 testosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.098 * +EC1.1.1.239 trans-benzene dihydrodiol mesocricetus auratus//*//* 0.045 * +EC1.1.1.24 l-quinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 104.9 * +EC1.1.1.24 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 223.1 * +EC1.1.1.24 shikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 214.1 * +EC1.1.1.240 n-acetyl-d-galactosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 932.0 * +EC1.1.1.240 n-acetyl-d-glucosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 655.0 * +EC1.1.1.248 (7s)-salutaridinol papaver bracteatum//*//* 21.6 * +EC1.1.1.248 nadh papaver bracteatum//*//* 3.7 * +EC1.1.1.248 nadp+ papaver bracteatum//*//* 21.9 * +EC1.1.1.248 nadph papaver bracteatum//*//* 2.1 * +EC1.1.1.248 salutaridine papaver bracteatum//*//* 2.3 * +EC1.1.1.248 salutaridine papaver somniferum//*//* 1.306 * +EC1.1.1.25 3-dehydroquinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 114.0 * +EC1.1.1.25 3-dehydroshikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 329.0 * +EC1.1.1.25 3-dehydroshikimate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 50.0 * +EC1.1.1.25 3-dehydroshikimate vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 95.85 * +EC1.1.1.25 nad+ helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 5.2 * +EC1.1.1.25 nad+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 97.1 * +EC1.1.1.25 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 97.1 * +EC1.1.1.25 nad+ staphylococcus epidermidis rp62a//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ser 87.0 * +EC1.1.1.25 nadp+ aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 55.5 * +EC1.1.1.25 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 399.0 * +EC1.1.1.25 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 390.0 * +EC1.1.1.25 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 237.0 * +EC1.1.1.25 nadp+ helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 7.1 * +EC1.1.1.25 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 399.0 * +EC1.1.1.25 nadp+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 261.5 * +EC1.1.1.25 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 302.0 * +EC1.1.1.25 nadp+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 146.2 * +EC1.1.1.25 nadp+ staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 22.8 * +EC1.1.1.25 nadp+ toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 2.77 * +EC1.1.1.25 nadp+ vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 239.0 * +EC1.1.1.25 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 50.0 * +EC1.1.1.25 quinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 61.9 * +EC1.1.1.25 quinate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.16 * +EC1.1.1.25 quinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 37.7 * +EC1.1.1.25 shikimate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 55.5 * +EC1.1.1.25 shikimate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 428.0 * +EC1.1.1.25 shikimate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.5 * +EC1.1.1.25 shikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 234.0 * +EC1.1.1.25 shikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 237.0 * +EC1.1.1.25 shikimate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 7.7 * +EC1.1.1.25 shikimate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 399.0 * +EC1.1.1.25 shikimate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 266.2 * +EC1.1.1.25 shikimate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 307.0 * +EC1.1.1.25 shikimate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 135.8 * +EC1.1.1.25 shikimate staphylococcus epidermidis rp62a//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ser 22.8 * +EC1.1.1.25 shikimate staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 22.8 * +EC1.1.1.25 shikimate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 2.78 * +EC1.1.1.25 shikimate vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 94.55 * +EC1.1.1.250 d-arabinitol thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 18.7 * +EC1.1.1.250 d-ribulose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 193.2 * +EC1.1.1.250 d-xylitol thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 16.6 * +EC1.1.1.252 2,3-dihydro-2,5-dihydroxy-4h-benzopyran-4-one magnaporthe grisea//*//* 14.0 * +EC1.1.1.252 phenanthrenequinone magnaporthe grisea//*//* 13.0 * +EC1.1.1.252 scytalone magnaporthe grisea//*//* 0.38 * +EC1.1.1.26 2-oxobutyrate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.5 * +EC1.1.1.26 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 13.0 * +EC1.1.1.26 glyoxylate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 1.35 * +EC1.1.1.26 hydroxypyruvate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.25 * +EC1.1.1.26 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.1 * +EC1.1.1.26 phenylpyruvate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.37 * +EC1.1.1.261 dihydroxyacetone phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 4.998 * +EC1.1.1.261 dihydroxyacetone phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.78 * +EC1.1.1.261 dihydroxyacetone phosphate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.3 * +EC1.1.1.261 nad+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.09 * +EC1.1.1.261 nadh aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 2.4 * +EC1.1.1.261 nadh methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.33 * +EC1.1.1.261 nadh pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 11.0 * +EC1.1.1.261 nadph aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.044 * +EC1.1.1.261 nadph methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.23 * +EC1.1.1.261 nadph pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.26 * +EC1.1.1.261 sn-glycerol-1-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.09 * +EC1.1.1.262 4-(phosphohydroxy)-l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC1.1.1.263 1,5-anhydro-d-fructose ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 1300.0 * +EC1.1.1.263 1,5-anhydro-d-fructose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.7 * +EC1.1.1.263 d-glucosone ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 63.2 * +EC1.1.1.265 2-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 113.0 * +EC1.1.1.265 3-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 91.8 * +EC1.1.1.265 acetaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.6 * +EC1.1.1.265 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 57.0 * +EC1.1.1.265 heptanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 101.0 * +EC1.1.1.265 hexanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 71.1 * +EC1.1.1.265 hexanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.55 * +EC1.1.1.265 pentanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 81.6 * +EC1.1.1.265 propanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 84.0 * +EC1.1.1.265 trans-2-hexenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.0 * +EC1.1.1.266 dtdp-4-keto-6-deoxy-d-glucose aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 43.5 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.4 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.0 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 2.0 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.3 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 17.0 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate synthetic construct//*//* 16.1 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 1.7 * +EC1.1.1.267 1-deoxy-l-erythrulose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00155 * +EC1.1.1.267 1-fluoro-1-deoxy-d-xylulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 37.0 * +EC1.1.1.267 2-c-methyl-d-erythritol 4-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.6 * +EC1.1.1.267 2-c-methyl-d-erythritol 4-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.95 * +EC1.1.1.267 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.6 * +EC1.1.1.267 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.95 * +EC1.1.1.267 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.4 * +EC1.1.1.267 nadph francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 1.3 * +EC1.1.1.267 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.3 * +EC1.1.1.267 nadph thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.5 * +EC1.1.1.267 nadph yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 1.0 * +EC1.1.1.268 (r)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.9 * +EC1.1.1.268 (r)-2-heptanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.8 * +EC1.1.1.268 (r)-2-hexanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.7 * +EC1.1.1.268 (r)-2-octanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.7 * +EC1.1.1.268 (r)-2-pentanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.1 * +EC1.1.1.268 (s)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 9.3 * +EC1.1.1.268 (s)-2-pentanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.9 * +EC1.1.1.268 2-(2-hydroxyethylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.55 * +EC1.1.1.268 2-(2-hydroxyethylthio)ethanesulfonate xanthobacter sp.//*//* 0.29 * +EC1.1.1.268 2-(2-ketopropylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 24.5 * +EC1.1.1.268 2-(r)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 49.0 * +EC1.1.1.268 2-(r)-hydroxypropyl-com xanthobacter sp.//*//* 25.8 * +EC1.1.1.268 2-(s)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.12 * +EC1.1.1.268 2-[(r)-2-hydroxypropylthio]ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 26.8 * +EC1.1.1.268 2-[(s)-2-hydroxypropylthio]ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.044 * +EC1.1.1.268 2-butanone xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.027 * +EC1.1.1.268 2-oxopropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 29.0 * +EC1.1.1.268 2-oxopropyl-com xanthobacter sp.//*//* 24.5 * +EC1.1.1.268 2-propanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.9 * +EC1.1.1.269 (r)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.0 * +EC1.1.1.269 (s)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.6 * +EC1.1.1.269 2-(2-hydroxyethylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 3.8 * +EC1.1.1.269 2-(r)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 49.0 * +EC1.1.1.269 2-(s)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 25.0 * +EC1.1.1.269 2-butanone xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.044 * +EC1.1.1.269 2-oxopropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 29.0 * +EC1.1.1.269 2-propanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.0 * +EC1.1.1.27 (s)-lactate cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 4.5e-05 * +EC1.1.1.27 (s)-lactate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 65.0 * +EC1.1.1.27 (s)-lactate plasmodium malariae//*//* 38.33 * +EC1.1.1.27 (s)-lactate plasmodium ovale//*//* 25.0 * +EC1.1.1.27 (s)-lactate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 12.33 * +EC1.1.1.27 2-oxobutyrate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 80.0 * +EC1.1.1.27 2-oxovalerate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.64 * +EC1.1.1.27 3-acetylpyridine adenine dinucleotide anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 1.4 * +EC1.1.1.27 3-acetylpyridine adenine dinucleotide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 16.0 * +EC1.1.1.27 3-acetylpyridine adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 250.0 * +EC1.1.1.27 3-acetylpyridine adenine dinucleotide plasmodium malariae//*//* 233.3 * +EC1.1.1.27 3-acetylpyridine adenine dinucleotide plasmodium ovale//*//* 153.3 * +EC1.1.1.27 3-acetylpyridine adenine dinucleotide plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 333.3 * +EC1.1.1.27 4-methyl-2-oxopentanoate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.33 * +EC1.1.1.27 apad+ cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.000248 * +EC1.1.1.27 apadh cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.00386 * +EC1.1.1.27 bromopyruvate anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 269.0 * +EC1.1.1.27 epsilon-nad+ anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 6.2 * +EC1.1.1.27 fluoropyruvate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 98.0 * +EC1.1.1.27 l-lactate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 40.0 * +EC1.1.1.27 nad+ anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 6.9 * +EC1.1.1.27 nad+ cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 5.5e-05 * +EC1.1.1.27 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 60.0 * +EC1.1.1.27 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 32.0 * +EC1.1.1.27 nad+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 65.0 * +EC1.1.1.27 nad+ plasmodium malariae//*//* 38.33 * +EC1.1.1.27 nad+ plasmodium ovale//*//* 25.0 * +EC1.1.1.27 nad+ plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 12.33 * +EC1.1.1.27 nadh babesia bovis//eukaryotes;protists;alveolates;apicomplexans//bbo 216.7 * +EC1.1.1.27 nadh cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.00208 * +EC1.1.1.27 nadh homarus americanus//*//* 2330.0 * +EC1.1.1.27 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 148.3 * +EC1.1.1.27 nadh plasmodium malariae//*//* 125.0 * +EC1.1.1.27 nadh plasmodium ovale//*//* 266.7 * +EC1.1.1.27 nadh plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 126.7 * +EC1.1.1.27 nicotinamide hypoxanthine dinucleotide anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 18.8 * +EC1.1.1.27 nicotinamide hypoxanthine dinucleotide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.1 * +EC1.1.1.27 phenylpyruvate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 39.5 * +EC1.1.1.27 pyruvate ethyl ester anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 176.0 * +EC1.1.1.27 pyruvate methyl ester anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 227.0 * +EC1.1.1.27 pyruvate anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 204.0 * +EC1.1.1.27 pyruvate champsocephalus gunnari//*//* 230.0 * +EC1.1.1.27 pyruvate cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.00209 * +EC1.1.1.27 pyruvate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 884.0 * +EC1.1.1.27 pyruvate enterococcus mundtii//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//emu 1600.0 * +EC1.1.1.27 pyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 327.2 * +EC1.1.1.27 pyruvate lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 643.0 * +EC1.1.1.27 pyruvate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 276.5 * +EC1.1.1.27 pyruvate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 106.0 * +EC1.1.1.27 pyruvate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 180.0 * +EC1.1.1.27 pyruvate plasmodium malariae//*//* 125.0 * +EC1.1.1.27 pyruvate plasmodium ovale//*//* 266.7 * +EC1.1.1.27 pyruvate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 126.7 * +EC1.1.1.27 pyruvate rhizopus delemar//*//* 350.0 * +EC1.1.1.27 pyruvate rhizopus oryzae nrrl 395//*//* 320.0 * +EC1.1.1.27 pyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 676.0 * +EC1.1.1.270 17beta-hydroxy-5alpha-androstan-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC1.1.1.270 5beta-dihydrotestosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.113 * +EC1.1.1.270 5beta-pregnane-21-ol-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.092 * +EC1.1.1.270 methylglyoxal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.3 * +EC1.1.1.270 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.73 * +EC1.1.1.270 pyridine-3-aldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.72 * +EC1.1.1.271 gdp-4-keto-6-deoxy-d-mannose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.75 * +EC1.1.1.274 2,5-didehydro-d-gluconate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 8.33 * +EC1.1.1.274 ethyl 2-methylacetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC1.1.1.274 ethyl-2-methylacetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC1.1.1.274 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 81.0 * +EC1.1.1.274 nadh corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 2.83 * +EC1.1.1.276 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.76 * +EC1.1.1.276 l-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 43.8 * +EC1.1.1.276 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC1.1.1.276 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.0 * +EC1.1.1.28 (r)-lactate bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.07 * +EC1.1.1.28 (r)-lactate leuconostoc mesenteroides subsp. mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 2280.0 * +EC1.1.1.28 2-ketobutyrate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 118.0 * +EC1.1.1.28 2-ketocaproate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 21.0 * +EC1.1.1.28 2-ketoglutarate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.51 * +EC1.1.1.28 2-ketoisocaproate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 11.1 * +EC1.1.1.28 2-ketoisovalerate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 27.0 * +EC1.1.1.28 2-ketovalerate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 5.7 * +EC1.1.1.28 2-oxobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 31.0 * +EC1.1.1.28 2-oxobutyrate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 140.0 * +EC1.1.1.28 2-oxobutyrate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 120.0 * +EC1.1.1.28 2-oxobutyrate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 100.0 * +EC1.1.1.28 2-oxocaproate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 230.0 * +EC1.1.1.28 2-oxocaproate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 160.0 * +EC1.1.1.28 2-oxoisocaproate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 200.0 * +EC1.1.1.28 2-oxoisocaproate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 39.0 * +EC1.1.1.28 2-oxoisovalerate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 120.0 * +EC1.1.1.28 2-oxovalerate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 140.0 * +EC1.1.1.28 2-oxovalerate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 69.0 * +EC1.1.1.28 glyoxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC1.1.1.28 glyoxylate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 11.0 * +EC1.1.1.28 glyoxylate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 270.0 * +EC1.1.1.28 glyoxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 880.0 * +EC1.1.1.28 hydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC1.1.1.28 hydroxypyruvate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 160.0 * +EC1.1.1.28 hydroxypyruvate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 260.0 * +EC1.1.1.28 hydroxypyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 420.0 * +EC1.1.1.28 nad+ lactobacillus jensenii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lje 4.42 * +EC1.1.1.28 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 730.0 * +EC1.1.1.28 nadh fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 110.0 * +EC1.1.1.28 nadh lactobacillus jensenii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lje 516.4 * +EC1.1.1.28 nadh limulus polyphemus//*//* 633.0 * +EC1.1.1.28 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 310.0 * +EC1.1.1.28 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1100.0 * +EC1.1.1.28 oxaloacetate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 80.0 * +EC1.1.1.28 oxaloacetate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 280.0 * +EC1.1.1.28 oxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 410.0 * +EC1.1.1.28 phenylpyruvate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 120.0 * +EC1.1.1.28 phenylpyruvate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 11.3 * +EC1.1.1.28 phenylpyruvate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 40.0 * +EC1.1.1.28 phenylpyruvate pediococcus acidilactici//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//paci 305.0 * +EC1.1.1.28 phenylpyruvate pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 173.0 * +EC1.1.1.28 phenylpyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 18.0 * +EC1.1.1.28 pyruvate bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 11.3 * +EC1.1.1.28 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 410.0 * +EC1.1.1.28 pyruvate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 100.0 * +EC1.1.1.28 pyruvate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 235.5 * +EC1.1.1.28 pyruvate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 321.0 * +EC1.1.1.28 pyruvate lactobacillus plantarum subsp. plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lps 91.3 * +EC1.1.1.28 pyruvate leuconostoc mesenteroides subsp. mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 29000.0 * +EC1.1.1.28 pyruvate pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 320.0 * +EC1.1.1.28 pyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 400.0 * +EC1.1.1.28 pyruvate sporolactobacillus inulinus//*//* 512.2 * +EC1.1.1.282 3-dehydroquinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 114.0 * +EC1.1.1.282 3-dehydroshikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 329.0 * +EC1.1.1.282 l-quinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 104.9 * +EC1.1.1.282 l-quinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.113 * +EC1.1.1.282 l-quinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0063 * +EC1.1.1.282 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 223.1 * +EC1.1.1.282 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.142 * +EC1.1.1.282 nad+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 61.1 * +EC1.1.1.282 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.8 * +EC1.1.1.282 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.117 * +EC1.1.1.282 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.022 * +EC1.1.1.282 quinate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 37.7 * +EC1.1.1.282 shikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 214.1 * +EC1.1.1.282 shikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.117 * +EC1.1.1.282 shikimate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 55.7 * +EC1.1.1.282 shikimate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.9 * +EC1.1.1.283 2-nitrobenzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.31 * +EC1.1.1.283 3-nitrobenzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.12 * +EC1.1.1.283 4-nitrobenzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.24 * +EC1.1.1.283 benzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.05 * +EC1.1.1.283 d-galactose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.68 * +EC1.1.1.283 d-glucose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.62 * +EC1.1.1.283 d-xylose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.22 * +EC1.1.1.283 dl-glyceraldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.52 * +EC1.1.1.283 isopentaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.65 * +EC1.1.1.283 l-arabinose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.27 * +EC1.1.1.283 methyl glyoxal kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 4.0 * +EC1.1.1.283 methylglyoxal synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.85 * +EC1.1.1.283 nadph kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 3.67 * +EC1.1.1.284 12-hydroxydodecanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.6 * +EC1.1.1.284 12-hydroxydodecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.217 * +EC1.1.1.284 3-nitrotyrosine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.1 * +EC1.1.1.284 cinnamyl alcohol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 20.33 * +EC1.1.1.284 farnesol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.1 * +EC1.1.1.284 formaldehyde komagataella pastoris//*//* 0.267 * +EC1.1.1.284 geraniol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 20.0 * +EC1.1.1.284 glutathione komagataella pastoris//*//* 0.233 * +EC1.1.1.284 metronidazole helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.6 * +EC1.1.1.284 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.1.1.284 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.5 * +EC1.1.1.284 nitrofurantoin helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.5 * +EC1.1.1.284 nitrofurazone helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.0 * +EC1.1.1.284 s-(hydroxymethyl)glutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 22.5 * +EC1.1.1.284 s-hydroxymethyl glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.42 * +EC1.1.1.284 s-hydroxymethyl glutathione drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 16.0 * +EC1.1.1.284 s-hydroxymethyl glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 156.0 * +EC1.1.1.284 s-hydroxymethyl glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.33 * +EC1.1.1.284 s-hydroxymethyl glutathione pisum sativum//*//* 6.33 * +EC1.1.1.284 s-hydroxymethyl glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.6 * +EC1.1.1.284 s-hydroxymethyl glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 88.3 * +EC1.1.1.284 s-hydroxymethylglutathione branchiostoma floridae//eukaryotes;animals;lancelets//bfo 2.5 * +EC1.1.1.284 s-hydroxymethylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.1.1.284 s-hydroxymethylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 51.7 * +EC1.1.1.284 s-nitrosocysteine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.6 * +EC1.1.1.284 s-nitrosoglutathione branchiostoma floridae//eukaryotes;animals;lancelets//bfo 16.7 * +EC1.1.1.284 s-nitrosoglutathione helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.5 * +EC1.1.1.284 s-nitrosoglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 72000.0 * +EC1.1.1.284 s-nitrosoglutathione staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.02 * +EC1.1.1.286 3-isopropylmalate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.371 * +EC1.1.1.286 3-isopropylmalate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 4.8 * +EC1.1.1.286 homoisocitrate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 46.2 * +EC1.1.1.286 homoisocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.7 * +EC1.1.1.286 homoisocitrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 37.0 * +EC1.1.1.286 homoisocitrate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 17.0 * +EC1.1.1.286 homoisocitrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 171.0 * +EC1.1.1.286 isocitrate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 42.8 * +EC1.1.1.286 isocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 14.8 * +EC1.1.1.286 isocitrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 61.0 * +EC1.1.1.286 isocitrate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 5.0 * +EC1.1.1.286 isocitrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 171.0 * +EC1.1.1.286 nad+ deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 30.3 * +EC1.1.1.286 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 21.8 * +EC1.1.1.287 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 876.0 * +EC1.1.1.287 d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 224.0 * +EC1.1.1.287 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 243.0 * +EC1.1.1.287 d-ribitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 13.4 * +EC1.1.1.287 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 19.7 * +EC1.1.1.287 d-xylulose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 196.0 * +EC1.1.1.287 glycerol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 16.3 * +EC1.1.1.287 meso-erythritol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.28 * +EC1.1.1.287 xylitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 177.2 * +EC1.1.1.289 d-fructose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 154.0 * +EC1.1.1.289 l-sorbose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 782.0 * +EC1.1.1.290 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.290 4-phospho-d-erythronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC1.1.1.290 oxaloacetic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC1.1.1.290 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC1.1.1.292 1,5-anhydro-d-fructose ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 1300.0 * +EC1.1.1.292 1,5-anhydro-d-fructose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.3 * +EC1.1.1.292 d-glucosone ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 63.2 * +EC1.1.1.295 3beta-hydroxy-9beta-pimara-7,15-diene-19,6beta-olide oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.4 * +EC1.1.1.295 oryzalexin a oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.023 * +EC1.1.1.298 3-hydroxypropanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.21 * +EC1.1.1.298 3-hydroxypropionate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.21 * +EC1.1.1.298 malonate semialdehyde metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 115.0 * +EC1.1.1.298 nadph metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 115.0 * +EC1.1.1.299 l-malate flavobacterium frigidimaris//*//* 138.0 * +EC1.1.1.299 nad+ flavobacterium frigidimaris//*//* 139.0 * +EC1.1.1.3 l-aspartate 4-semialdehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 22.58 * +EC1.1.1.3 l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC1.1.1.3 l-homoserine glycine max//eukaryotes;plants;eudicots;pea family//gmx 10.15 * +EC1.1.1.3 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 70.1 * +EC1.1.1.30 (r)-3-hydroxybutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1382.0 * +EC1.1.1.30 (r)-3-hydroxybutanoate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 310.0 * +EC1.1.1.30 acetoacetate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 97.16 * +EC1.1.1.30 acetoacetate pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 120.0 * +EC1.1.1.30 acetoacetate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 150.0 * +EC1.1.1.30 d-3-hydroxybutyrate pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 370.0 * +EC1.1.1.30 d-3-hydroxybutyrate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 500.0 * +EC1.1.1.30 levulinic acid alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00768 * +EC1.1.1.30 nad+ ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 360.0 * +EC1.1.1.30 nadh ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 740.0 * +EC1.1.1.300 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.1.1.300 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.1.1.300 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0017 * +EC1.1.1.300 nadp+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0018 * +EC1.1.1.300 nadph bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.00055 * +EC1.1.1.300 retinal bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0047 * +EC1.1.1.304 (2s,3s)-2,3-butanediol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 591.0 * +EC1.1.1.304 (3s)-acetoin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 202.0 * +EC1.1.1.304 diacetyl bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1222.0 * +EC1.1.1.304 diacetyl mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 163.0 * +EC1.1.1.304 nad+ bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 748.0 * +EC1.1.1.304 nadh bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1274.0 * +EC1.1.1.304 nadh mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 110.0 * +EC1.1.1.305 nad+ ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 0.32 * +EC1.1.1.305 udp-glucuronic acid ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 0.285 * +EC1.1.1.307 2-deoxy-d-galactose candida intermedia//*//* 8.4 * +EC1.1.1.307 2-deoxy-d-glucose candida intermedia//*//* 6.8 * +EC1.1.1.307 2-deoxy-d-ribose candida intermedia//*//* 1.4 * +EC1.1.1.307 9,10-phenanthrenequinone candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 12.0 * +EC1.1.1.307 butanal candida intermedia//*//* 21.2 * +EC1.1.1.307 d-erythrose candida intermedia//*//* 27.5 * +EC1.1.1.307 d-fucose candida intermedia//*//* 20.7 * +EC1.1.1.307 d-galactose candida intermedia//*//* 15.2 * +EC1.1.1.307 d-galactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1800.0 * +EC1.1.1.307 d-glucose candida intermedia//*//* 8.2 * +EC1.1.1.307 d-glucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1320.0 * +EC1.1.1.307 d-ribose candida intermedia//*//* 12.2 * +EC1.1.1.307 d-ribose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3120.0 * +EC1.1.1.307 d-xylose candida intermedia//*//* 23.5 * +EC1.1.1.307 d-xylose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 21.5 * +EC1.1.1.307 d-xylose candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 240.0 * +EC1.1.1.307 d-xylose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4638.0 * +EC1.1.1.307 d-xylose rasamsonia emersonii//*//* 324000.0 * +EC1.1.1.307 d-xylose rhizomucor pusillus//*//* 21.3 * +EC1.1.1.307 d-xylose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.1 * +EC1.1.1.307 d-xylose scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 27.5 * +EC1.1.1.307 dl-glyceraldehyde candida intermedia//*//* 24.3 * +EC1.1.1.307 l-arabinose candida intermedia//*//* 24.5 * +EC1.1.1.307 l-arabinose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1800.0 * +EC1.1.1.307 l-idose candida intermedia//*//* 5.6 * +EC1.1.1.307 l-lyxose candida intermedia//*//* 18.4 * +EC1.1.1.307 nad+ candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.92 * +EC1.1.1.307 nadh candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 18.1 * +EC1.1.1.307 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 310.0 * +EC1.1.1.307 nadh rasamsonia emersonii//*//* 15750.0 * +EC1.1.1.307 nadh scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 15.4 * +EC1.1.1.307 nadp+ candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.82 * +EC1.1.1.307 nadph candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 21.9 * +EC1.1.1.307 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3600.0 * +EC1.1.1.307 nadph rasamsonia emersonii//*//* 324000.0 * +EC1.1.1.307 nadph scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 40.27 * +EC1.1.1.307 pentanal candida intermedia//*//* 20.7 * +EC1.1.1.307 propionaldehyde candida intermedia//*//* 6.9 * +EC1.1.1.307 xylitol candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.92 * +EC1.1.1.309 phosphonoacetaldehyde streptomyces viridochromogenes//*//* 0.41 * +EC1.1.1.31 (r)-3-hydroxyisobutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.49 * +EC1.1.1.31 (s)-3-hydroxyisobutyrate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 24.1 * +EC1.1.1.31 (s)-3-hydroxyisobutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 7.1 * +EC1.1.1.31 (s)-3-hydroxyisobutyrate pseudomonas denitrificans (nomen rejiciendum)//*//* 80.79 * +EC1.1.1.31 3-hydroxypropionate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.21 * +EC1.1.1.31 3-hydroxypropionic acid pseudomonas denitrificans (nomen rejiciendum)//*//* 32.17 * +EC1.1.1.31 l-serine pseudomonas denitrificans (nomen rejiciendum)//*//* 47.55 * +EC1.1.1.31 methyl (2s)-3-hydroxy-2-methylpropanoate pseudomonas denitrificans (nomen rejiciendum)//*//* 41.35 * +EC1.1.1.31 methyl dl-serine pseudomonas denitrificans (nomen rejiciendum)//*//* 7.94 * +EC1.1.1.31 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 15.1 * +EC1.1.1.31 nad+ pseudomonas denitrificans (nomen rejiciendum)//*//* 6.717 * +EC1.1.1.311 (s)-1-phenylethanol azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 2.0 * +EC1.1.1.311 acetophenone azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 1.6 * +EC1.1.1.311 nad+ azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 2.0 * +EC1.1.1.311 nadh azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 1.6 * +EC1.1.1.317 4-nitrobenzaldehyde rauvolfia serpentina//*//* 8.26 * +EC1.1.1.317 perakine rauvolfia serpentina//*//* 0.014 * +EC1.1.1.318 4-coumaryl acetate larrea tridentata//*//* 6.8 * +EC1.1.1.318 4-coumaryl acetate ocimum gratissimum//*//* 0.003 * +EC1.1.1.318 4-coumaryl acetate ocimum kilimandscharicum//*//* 0.011 * +EC1.1.1.318 4-coumaryl acetate ocimum tenuiflorum//*//* 0.013 * +EC1.1.1.318 coniferyl acetate clarkia breweri//*//* 0.26 * +EC1.1.1.318 coniferyl acetate larrea tridentata//*//* 6.46 * +EC1.1.1.318 coniferyl acetate ocimum basilicum//*//* 0.004 * +EC1.1.1.318 coniferyl acetate ocimum gratissimum//*//* 0.011 * +EC1.1.1.318 coniferyl acetate ocimum kilimandscharicum//*//* 0.003 * +EC1.1.1.318 coniferyl acetate ocimum tenuiflorum//*//* 0.028 * +EC1.1.1.318 coniferyl acetate petunia x hybrida//*//* 0.6 * +EC1.1.1.319 4-coumaryl acetate pimpinella anisum//*//* 0.07 * +EC1.1.1.319 coniferyl acetate clarkia breweri//*//* 0.99 * +EC1.1.1.319 coniferyl acetate petunia x hybrida//*//* 1.3 * +EC1.1.1.319 coniferyl acetate pimpinella anisum//*//* 1.02 * +EC1.1.1.320 1-phenyl-1,2-propanedione bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.75 * +EC1.1.1.320 benzil bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.07 * +EC1.1.1.320 benzil ogataea glucozyma//*//* 0.14 * +EC1.1.1.325 nadph chlorobaculum tepidum//*//* 5.0 * +EC1.1.1.325 sepiapterin chlorobaculum tepidum//*//* 5.0 * +EC1.1.1.326 10-hydroxy-alpha-humulene zingiber zerumbet//*//* 1.3 * +EC1.1.1.326 nad+ zingiber zerumbet//*//* 3.8 * +EC1.1.1.332 chanoclavine-i aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.38 * +EC1.1.1.332 chanoclavine-i trichophyton benhamiae//eukaryotes;fungi;ascomycetes;eurotiomycetes//abe 0.76 * +EC1.1.1.335 udp-2-acetamido-2-deoxy-alpha-d-glucuronate bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.0047 * +EC1.1.1.335 udp-2-acetamido-2-deoxy-alpha-d-glucuronate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.00076 * +EC1.1.1.335 udp-alpha-d-glucuronate bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.0021 * +EC1.1.1.335 udp-alpha-d-glucuronate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.00015 * +EC1.1.1.336 nad+ methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.4 * +EC1.1.1.337 2-oxocaproate weissella confusa//*//* 360000.0 * +EC1.1.1.337 2-oxoisocaproate weissella confusa//*//* 2400.0 * +EC1.1.1.337 4-methyl-2-oxopentanoate weissella confusa//*//* 2400.0 * +EC1.1.1.337 oxo-tert-leucine weissella confusa//*//* 52.0 * +EC1.1.1.337 phenylglyoxylate weissella confusa//*//* 18000.0 * +EC1.1.1.337 phenylpyruvate weissella confusa//*//* 7300.0 * +EC1.1.1.337 pyruvate weissella confusa//*//* 90.0 * +EC1.1.1.34 hydroxymethylglutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.1.1.340 1-deoxy-11beta-hydroxypentalenic acid streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.65 * +EC1.1.1.343 6-phospho-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 23.0 * +EC1.1.1.343 nad+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 12.6 * +EC1.1.1.343 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 23.3 * +EC1.1.1.345 (r)-2-hydroxy-4-methylpentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 43.0 * +EC1.1.1.345 2-hydroxyhexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 26.0 * +EC1.1.1.345 2-hydroxyoctanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 15.0 * +EC1.1.1.345 2-hydroxypentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 24.0 * +EC1.1.1.345 2-oxohexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 139.0 * +EC1.1.1.345 2-oxooctanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1200.0 * +EC1.1.1.345 2-oxopentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 197.0 * +EC1.1.1.345 3-(4-hydroxyphenyl)-2-oxopropanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 788.0 * +EC1.1.1.345 4-methyl-2-oxopentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 84.0 * +EC1.1.1.345 phenylpyruvate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 968.0 * +EC1.1.1.346 2,5-didehydro-d-gluconate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 8.3 * +EC1.1.1.346 ethyl 2-methylacetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC1.1.1.347 geraniol carpoglyphus lactis//*//* 2996.0 * +EC1.1.1.35 (3beta,5alpha,17beta)-androstane-3,17-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.093 * +EC1.1.1.35 (r)-3-hydroxyacyl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 45.0 * +EC1.1.1.35 (s)-3-hydroxybutanoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 15.0 * +EC1.1.1.35 (s)-3-hydroxybutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1420.0 * +EC1.1.1.35 (s)-3-hydroxybutyryl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.012 * +EC1.1.1.35 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.35 3-acetoacetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.011 * +EC1.1.1.35 3-ketohexadecanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 45.0 * +EC1.1.1.35 3-ketohexdecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.0 * +EC1.1.1.35 3-ketooctanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.0 * +EC1.1.1.35 3-ketooctanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 102.0 * +EC1.1.1.35 acetoacetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 45500.0 * +EC1.1.1.35 acetoacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1287.0 * +EC1.1.1.35 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 569.0 * +EC1.1.1.35 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 330.0 * +EC1.1.1.35 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.35 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1817.0 * +EC1.1.1.35 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC1.1.1.35 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 510.0 * +EC1.1.1.35 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.189 * +EC1.1.1.350 (s)-ureidoglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.06 * +EC1.1.1.350 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.39 * +EC1.1.1.351 6-phospho-d-gluconate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 325.0 * +EC1.1.1.354 geraniol carpoglyphus lactis//*//* 2996.0 * +EC1.1.1.357 (r)-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.1.1.357 (s)-1,2,3,4-tetrahydronaphth-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC1.1.1.357 (s)-indan-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.1.1.357 (s)-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.1.1.357 3alpha-androstanediol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.1.1.357 5alpha-androstan-17-beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.367 * +EC1.1.1.357 5alpha-androstan-3alpha-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.1.1.357 5alpha-androstane-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.1.1.357 5alpha-androstane-3alpha,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC1.1.1.357 5alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.357 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.1.1.357 5alpha-pregnan-20alpha-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC1.1.1.357 5beta-androstan-3,17-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC1.1.1.357 5beta-androstan-3alpha-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC1.1.1.357 5beta-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.113 * +EC1.1.1.357 5beta-androstane-3alpha,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC1.1.1.357 5beta-pregnane-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.053 * +EC1.1.1.357 5beta-pregnane-3alpha,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.357 9alpha,11beta-prostaglandin f2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC1.1.1.357 allopregnanolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7e-05 * +EC1.1.1.357 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC1.1.1.357 chenodeoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.1.1.357 cholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.1.1.357 dehydrolithocholic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.037 * +EC1.1.1.357 deoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC1.1.1.357 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.1.1.357 lithocholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.1.1.357 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.1.1.357 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.1.1.357 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.85 * +EC1.1.1.357 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.077 * +EC1.1.1.359 beta-d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 75.0 * +EC1.1.1.359 d-galactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 61.3 * +EC1.1.1.359 d-xylose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 61.0 * +EC1.1.1.359 l-arabinose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 41.0 * +EC1.1.1.36 (3r)-3-hydroxydecanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 53.0 * +EC1.1.1.36 (3r)-hydroxybutyryl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 31.0 * +EC1.1.1.36 (3r)-hydroxyhexadecanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 41.0 * +EC1.1.1.36 2-methylacetoacetyl-coa zoogloea ramigera//*//* 27.0 * +EC1.1.1.36 acetoacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.1.1.36 acetoacetyl-coa zoogloea ramigera//*//* 300.0 * +EC1.1.1.36 acetoacetyl-s-(d-pantetheine)11-pivalate zoogloea ramigera//*//* 267.0 * +EC1.1.1.36 butyrylacetyl-coa zoogloea ramigera//*//* 9.0 * +EC1.1.1.36 d-3-hydroxybutyryl-coa zoogloea ramigera//*//* 90.0 * +EC1.1.1.36 propionylacetyl-coa zoogloea ramigera//*//* 124.0 * +EC1.1.1.363 d-glucose 6-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 1125.0 * +EC1.1.1.363 nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 1125.0 * +EC1.1.1.363 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 277.0 * +EC1.1.1.363 nadp+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 522.0 * +EC1.1.1.363 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 102.0 * +EC1.1.1.365 d-galacturonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 6.88 * +EC1.1.1.365 d-galacturonate euglena gracilis//*//* 0.19 * +EC1.1.1.365 d-glucuronate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.11 * +EC1.1.1.365 d-glucuronate euglena gracilis//*//* 0.19 * +EC1.1.1.365 d-xylose euglena gracilis//*//* 0.06 * +EC1.1.1.365 l-galactonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC1.1.1.365 nadh aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.98 * +EC1.1.1.365 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 7.11 * +EC1.1.1.368 6-hydroxycyclohex-1-ene-1-carbonyl-coa thauera aromatica//*//* 7.0 * +EC1.1.1.369 1d-chiro-inositol thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.0 * +EC1.1.1.37 (s)-malate flavobacterium frigidimaris//*//* 138.0 * +EC1.1.1.37 (s)-malate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 9.91 * +EC1.1.1.37 (s)-malate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 621.0 * +EC1.1.1.37 (s)-malate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 1141.0 * +EC1.1.1.37 (s)-malate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 302.0 * +EC1.1.1.37 (s)-malate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 4.71 * +EC1.1.1.37 (s)-malate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.0 * +EC1.1.1.37 (s)-malate taenia solium//*//* 47.4 * +EC1.1.1.37 3-acetylpyridine-adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7300.0 * +EC1.1.1.37 acetylpyridine adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1010.0 * +EC1.1.1.37 alpha-ketomalonate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 674.0 * +EC1.1.1.37 l-malate rasamsonia emersonii//*//* 3500.0 * +EC1.1.1.37 l-malate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 76.7 * +EC1.1.1.37 malate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 250.0 * +EC1.1.1.37 malate triticum aestivum//*//* 4729.0 * +EC1.1.1.37 nad+ flavobacterium frigidimaris//*//* 139.0 * +EC1.1.1.37 nad+ malus domestica//eukaryotes;plants;eudicots;rose family//mdm 3.21 * +EC1.1.1.37 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 320.0 * +EC1.1.1.37 nad+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 150.0 * +EC1.1.1.37 nad+ rasamsonia emersonii//*//* 3100.0 * +EC1.1.1.37 nad+ streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 3.66 * +EC1.1.1.37 nad+ taenia solium//*//* 385.6 * +EC1.1.1.37 nadh malus domestica//eukaryotes;plants;eudicots;rose family//mdm 609.5 * +EC1.1.1.37 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3330.0 * +EC1.1.1.37 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7880.0 * +EC1.1.1.37 nadh rasamsonia emersonii//*//* 110000.0 * +EC1.1.1.37 nadh streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 542.0 * +EC1.1.1.37 nadh taenia solium//*//* 962.7 * +EC1.1.1.37 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 931.0 * +EC1.1.1.37 oxaloacetate haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 197.0 * +EC1.1.1.37 oxaloacetate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 4553.0 * +EC1.1.1.37 oxaloacetate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 870.0 * +EC1.1.1.37 oxaloacetate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 516.0 * +EC1.1.1.37 oxaloacetate moritella sp.//*//* 0.00483 * +EC1.1.1.37 oxaloacetate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2437.0 * +EC1.1.1.37 oxaloacetate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 8570.0 * +EC1.1.1.37 oxaloacetate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 77.0 * +EC1.1.1.37 oxaloacetate rasamsonia emersonii//*//* 91000.0 * +EC1.1.1.37 oxaloacetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1870.0 * +EC1.1.1.37 oxaloacetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.62 * +EC1.1.1.37 oxaloacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 377.0 * +EC1.1.1.37 oxaloacetate taenia solium//*//* 665.3 * +EC1.1.1.37 oxaloacetate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 1.8 * +EC1.1.1.37 oxaloacetate triticum aestivum//*//* 121600.0 * +EC1.1.1.37 reduced acetylpyridine adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 175.0 * +EC1.1.1.374 nad+ methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.99 * +EC1.1.1.374 udp-n-acetyl-alpha-d-glucosamine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.9 * +EC1.1.1.376 d-fucose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 120.4 * +EC1.1.1.376 d-galactose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 26.0 * +EC1.1.1.376 d-galactose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 69.9 * +EC1.1.1.376 d-talose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 9.7 * +EC1.1.1.376 d-talose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 99.52 * +EC1.1.1.376 d-xylose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 12.0 * +EC1.1.1.376 l-arabinose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 33.3 * +EC1.1.1.376 l-arabinose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 65.55 * +EC1.1.1.376 nad+ rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 85.73 * +EC1.1.1.376 nadp+ rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 35.45 * +EC1.1.1.377 l-lyxose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 23.77 * +EC1.1.1.377 l-mannose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 14.88 * +EC1.1.1.377 l-rhamnose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 22.36 * +EC1.1.1.377 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 18.08 * +EC1.1.1.378 l-fucose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 9.2 * +EC1.1.1.378 l-lyxose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 79.7 * +EC1.1.1.378 l-mannose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 17.0 * +EC1.1.1.378 l-rhamnose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 74.8 * +EC1.1.1.38 (s)-malate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 134.4 * +EC1.1.1.38 (s)-malate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.0 * +EC1.1.1.38 l-malate ascaris suum//*//* 130.0 * +EC1.1.1.38 oxaloacetate ascaris suum//*//* 30.0 * +EC1.1.1.38 pyruvate ascaris suum//*//* 0.09 * +EC1.1.1.380 l-gulonate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 1.8 * +EC1.1.1.381 d-3-hydroxyisobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.78 * +EC1.1.1.381 d-3-hydroxyisobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.61 * +EC1.1.1.381 d-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.01 * +EC1.1.1.381 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC1.1.1.381 d-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.84 * +EC1.1.1.381 d-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.55 * +EC1.1.1.381 d-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 52.8 * +EC1.1.1.381 l-3-hydroxybutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.38 * +EC1.1.1.381 l-3-hydroxyisobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.03 * +EC1.1.1.381 l-3-hydroxyisobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.1 * +EC1.1.1.381 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.76 * +EC1.1.1.381 l-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 43.8 * +EC1.1.1.381 l-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.17 * +EC1.1.1.381 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC1.1.1.381 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.0 * +EC1.1.1.382 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.1 * +EC1.1.1.382 nadh desulfococcus oleovorans//prokaryotes;bacteria;deltaproteobacteria;desulfococcus//dol 0.25 * +EC1.1.1.382 nadh thermacetogenium phaeum//prokaryotes;bacteria;firmicutes - clostridia;thermacetogenium//tpz 0.46 * +EC1.1.1.382 nadh uncultured archaeon//*//* 0.22 * +EC1.1.1.383 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.1.1.383 nadh hydrogenobaculum sp. y04aas1//prokaryotes;bacteria;aquificae;hydrogenobaculum//hya 0.12 * +EC1.1.1.383 nadh ignisphaera aggregans//prokaryotes;archaea;crenarchaeota;ignisphaera//iag 0.02 * +EC1.1.1.383 nadh lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.1 * +EC1.1.1.383 nadh metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.06 * +EC1.1.1.383 nadh shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 1.1 * +EC1.1.1.383 nadh slackia exigua//*//* 0.41 * +EC1.1.1.383 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC1.1.1.383 nadph hydrogenobaculum sp. y04aas1//prokaryotes;bacteria;aquificae;hydrogenobaculum//hya 0.12 * +EC1.1.1.383 nadph ignisphaera aggregans//prokaryotes;archaea;crenarchaeota;ignisphaera//iag 0.03 * +EC1.1.1.383 nadph lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.8 * +EC1.1.1.383 nadph metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.07 * +EC1.1.1.383 nadph shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 4.5 * +EC1.1.1.383 nadph slackia exigua//*//* 0.8 * +EC1.1.1.387 d-glycerate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.8 * +EC1.1.1.387 dl-threonine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 9.6 * +EC1.1.1.387 l-serine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.4 * +EC1.1.1.387 methyl 2,2-dimethyl-3-hydroxypropionate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.6 * +EC1.1.1.387 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.6 * +EC1.1.1.388 d-glucose 6-phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 5.4 * +EC1.1.1.388 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.18 * +EC1.1.1.39 (s)-malate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 46.0 * +EC1.1.1.39 (s)-malate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 770.0 * +EC1.1.1.39 (s)-malate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 617.0 * +EC1.1.1.39 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 46.0 * +EC1.1.1.39 nad+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 720.0 * +EC1.1.1.39 nadp+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 520.0 * +EC1.1.1.390 sulfoquinovose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 33.8 * +EC1.1.1.391 12alpha-hydroxy-3-oxo-5-beta-cholan-24-oic acid eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 29.71 * +EC1.1.1.391 3beta,7alpha-dihydroxy-5beta-cholan-24-oic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC1.1.1.391 3beta,7beta-dihydroxy-5beta-cholan-24-oic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.1.1.391 3beta-hydroxy-5beta-cholan-24-oic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC1.1.1.392 12alpha-hydroxy-3-oxo-5beta-cholan-24-oic acid eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 4.85 * +EC1.1.1.393 12alpha-hydroxy-3-oxo-5beta-cholan-24-oic acid ruminococcus gnavus//*//* 157.2 * +EC1.1.1.395 3-oxochenodeoxycholoyl-coa clostridium scindens//*//* 0.4 * +EC1.1.1.395 3-oxocholoyl-coa clostridium scindens//*//* 0.55 * +EC1.1.1.395 3-oxodeoxycholoyl-coa clostridium scindens//*//* 0.73 * +EC1.1.1.395 3-oxolithocholoyl-coa clostridium scindens//*//* 0.7 * +EC1.1.1.395 chenodeoxycholic acid clostridium scindens//*//* 0.25 * +EC1.1.1.395 chenodeoxycholoyl-coa clostridium scindens//*//* 0.82 * +EC1.1.1.395 cholic acid clostridium scindens//*//* 0.27 * +EC1.1.1.395 choloyl-coa clostridium scindens//*//* 1.23 * +EC1.1.1.395 deoxycholoyl-coa clostridium scindens//*//* 0.87 * +EC1.1.1.395 glycocholic acid clostridium scindens//*//* 0.42 * +EC1.1.1.395 lithocholoyl-coa clostridium scindens//*//* 0.73 * +EC1.1.1.395 nad+ clostridium scindens//*//* 0.3 * +EC1.1.1.395 nadp+ clostridium scindens//*//* 0.11 * +EC1.1.1.395 taurocholic acid clostridium scindens//*//* 0.4 * +EC1.1.1.399 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.3 * +EC1.1.1.4 (2r,3r)-2,3-butanediol clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 2.1 * +EC1.1.1.4 (2r,3r)-butane-2,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 5.8 * +EC1.1.1.4 (2r,3r)-butane-2,3-diol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 4.28 * +EC1.1.1.4 (3r,3s)-butane-2,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 10.38 * +EC1.1.1.4 (r)-acetoin clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 150.0 * +EC1.1.1.4 2-butanone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 37.0 * +EC1.1.1.4 acetaldehyde clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 93.0 * +EC1.1.1.4 acetoin clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 145.0 * +EC1.1.1.4 acetoin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC1.1.1.4 acetone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 55.0 * +EC1.1.1.4 butanone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 44.0 * +EC1.1.1.4 diacetyl rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 6.11 * +EC1.1.1.4 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 18.88 * +EC1.1.1.4 meso-butane-2,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 15.33 * +EC1.1.1.4 nad+ rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 10.27 * +EC1.1.1.4 nadh rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 5.73 * +EC1.1.1.4 nadph clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 68.0 * +EC1.1.1.40 (s)-malate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 324.1 * +EC1.1.1.40 (s)-malate columba livia//eukaryotes;animals;vertebrates;birds//clv 34.83 * +EC1.1.1.40 (s)-malate columba sp.//*//* 140.1 * +EC1.1.1.40 (s)-malate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.9 * +EC1.1.1.40 (s)-malate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 177.0 * +EC1.1.1.40 (s)-malate oryza sativa//eukaryotes;plants;monocots;grass family//osa 181.6 * +EC1.1.1.40 (s)-malate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 19.1 * +EC1.1.1.40 (s)-malate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 275.7 * +EC1.1.1.40 (s)-malate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 376.0 * +EC1.1.1.40 (s)-malate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1132.0 * +EC1.1.1.40 (s)-malate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 683.0 * +EC1.1.1.40 (s)-malate zea mays//eukaryotes;plants;monocots;grass family//zma 269.0 * +EC1.1.1.40 l-malate anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 160.0 * +EC1.1.1.40 l-malate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 582.0 * +EC1.1.1.40 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 51.0 * +EC1.1.1.40 nad+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 4.69 * +EC1.1.1.40 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 13.5 * +EC1.1.1.40 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4670.0 * +EC1.1.1.40 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 66.6 * +EC1.1.1.40 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 135.8 * +EC1.1.1.40 nadp+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 98.3 * +EC1.1.1.40 nadp+ populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 19.5 * +EC1.1.1.40 nadp+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 31.1 * +EC1.1.1.40 nadp+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1206.0 * +EC1.1.1.40 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 691.0 * +EC1.1.1.40 nadp+ zea mays//eukaryotes;plants;monocots;grass family//zma 269.0 * +EC1.1.1.40 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 284.1 * +EC1.1.1.40 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 158.4 * +EC1.1.1.40 pyruvate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 113.0 * +EC1.1.1.40 pyruvate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 39.0 * +EC1.1.1.401 2-dehydro-3-deoxy-l-lyxonate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.18 * +EC1.1.1.401 2-dehydro-3-deoxy-l-mannonate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.012 * +EC1.1.1.401 2-dehydro-3-deoxy-l-rhamnonate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.86 * +EC1.1.1.404 2,6-dichloroindophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 14.1 * +EC1.1.1.404 cytochrome c sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 9.1 * +EC1.1.1.404 nadh sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 20.1 * +EC1.1.1.404 nadph sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 3.7 * +EC1.1.1.405 d-arabinose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 2.3 * +EC1.1.1.405 d-erythrose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.5 * +EC1.1.1.405 d-ribose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.1 * +EC1.1.1.405 d-ribulose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 22.0 * +EC1.1.1.405 d-ribulose 5-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.5 * +EC1.1.1.405 d-ribulose haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.6 * +EC1.1.1.405 d-xylulose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.6 * +EC1.1.1.405 nadph haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 22.0 * +EC1.1.1.405 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.08 * +EC1.1.1.407 d-altritol agrobacterium fabrum//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atu 1.9 * +EC1.1.1.408 4-hydroxy-l-threonine 4-phosphate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.35 * +EC1.1.1.408 4-hydroxy-l-threonine 4-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.37 * +EC1.1.1.408 4-phospho-d-threonate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.4 * +EC1.1.1.408 4-phospho-d-threonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 8.9 * +EC1.1.1.41 d-isocitrate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 73.0 * +EC1.1.1.41 d-isocitrate colwellia maris//*//* 57.5 * +EC1.1.1.41 d-isocitrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC1.1.1.41 dl-isocitrate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 124.0 * +EC1.1.1.41 homoisocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.7 * +EC1.1.1.41 isocitrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC1.1.1.41 isocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 14.8 * +EC1.1.1.41 nad+ acidithiobacillus thiooxidans//*//* 45.1 * +EC1.1.1.41 nad+ campylobacter curvus//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//ccv 10.8 * +EC1.1.1.41 nad+ campylobacter sp.//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//camr 7.0 * +EC1.1.1.41 nad+ congregibacter litoralis//*//* 84.7 * +EC1.1.1.41 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC1.1.1.41 nad+ micromonas commoda//eukaryotes;plants;green algae//mis 22.5 * +EC1.1.1.41 nad+ ostreococcus 'lucimarinus'//*//* 60.6 * +EC1.1.1.41 nad+ ostreococcus tauri//eukaryotes;plants;green algae//ota 115.0 * +EC1.1.1.41 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 60.4 * +EC1.1.1.41 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 21.8 * +EC1.1.1.41 nad+ streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 56.0 * +EC1.1.1.41 nad+ zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 112.0 * +EC1.1.1.41 nadp+ acidithiobacillus thiooxidans//*//* 21.3 * +EC1.1.1.41 nadp+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 92.6 * +EC1.1.1.41 nadp+ campylobacter curvus//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//ccv 2.0 * +EC1.1.1.41 nadp+ campylobacter sp.//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//camr 1.9 * +EC1.1.1.41 nadp+ colwellia maris//*//* 61.3 * +EC1.1.1.41 nadp+ micromonas commoda//eukaryotes;plants;green algae//mis 1.4 * +EC1.1.1.41 nadp+ ostreococcus 'lucimarinus'//*//* 10.0 * +EC1.1.1.41 nadp+ ostreococcus tauri//eukaryotes;plants;green algae//ota 46.0 * +EC1.1.1.41 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 93.0 * +EC1.1.1.41 nadp+ zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 25.0 * +EC1.1.1.410 d-erythronate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 19.0 * +EC1.1.1.411 l-threonate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 29.0 * +EC1.1.1.411 l-threonate pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 54.0 * +EC1.1.1.42 d-isocitrate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 138.0 * +EC1.1.1.42 dl-isocitrate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.0023 * +EC1.1.1.42 dl-isocitrate microcystis aeruginosa//prokaryotes;bacteria;cyanobacteria;microcystis//mar 43.21 * +EC1.1.1.42 dl-isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 19.6 * +EC1.1.1.42 isocitrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 255.0 * +EC1.1.1.42 isocitrate desulfotalea psychrophila//prokaryotes;bacteria;deltaproteobacteria;desulfotalea//dps 31.4 * +EC1.1.1.42 isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 106.4 * +EC1.1.1.42 isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 33.0 * +EC1.1.1.42 isocitrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 58.3 * +EC1.1.1.42 nad+ bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 11.7 * +EC1.1.1.42 nad+ streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 2.11 * +EC1.1.1.42 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.76 * +EC1.1.1.42 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 219.0 * +EC1.1.1.42 nadp+ bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 36.4 * +EC1.1.1.42 nadp+ desulfotalea psychrophila//prokaryotes;bacteria;deltaproteobacteria;desulfotalea//dps 31.4 * +EC1.1.1.42 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 88.1 * +EC1.1.1.42 nadp+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.003 * +EC1.1.1.42 nadp+ microcystis aeruginosa//prokaryotes;bacteria;cyanobacteria;microcystis//mar 48.88 * +EC1.1.1.42 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 37.4 * +EC1.1.1.42 nadp+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 138.0 * +EC1.1.1.42 nadp+ streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 27.6 * +EC1.1.1.42 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 32.2 * +EC1.1.1.42 nadp+ yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 72.0 * +EC1.1.1.44 6,7-dideoxy-7-phosphono-d-glucoheptonate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.53 * +EC1.1.1.44 6,7-dideoxy-7-phosphono-d-glucoheptonate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.4 * +EC1.1.1.44 6-phospho-d-gluconate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 22.1 * +EC1.1.1.44 6-phospho-d-gluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 73.0 * +EC1.1.1.44 6-phosphogluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.217 * +EC1.1.1.44 6-phosphono-d-gluconate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 9.0 * +EC1.1.1.44 6-phosphono-d-gluconate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 31.8 * +EC1.1.1.44 6-phosphono-d-gluconate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 98.0 * +EC1.1.1.44 nad+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 12.6 * +EC1.1.1.44 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 23.3 * +EC1.1.1.44 nadp+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 22.1 * +EC1.1.1.44 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 71.0 * +EC1.1.1.44 nadp+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 8.73 * +EC1.1.1.44 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 17.6 * +EC1.1.1.44 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 98.0 * +EC1.1.1.45 dl-3-hydroxybutanoate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.733 * +EC1.1.1.45 l-gulonate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7.4 * +EC1.1.1.47 beta-d-galactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 61.0 * +EC1.1.1.47 beta-d-glucose bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 802.0 * +EC1.1.1.47 beta-d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 75.0 * +EC1.1.1.47 d-glucose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC1.1.1.47 d-glucose 6-phosphate oncorhynchus mykiss//*//* 14.2 * +EC1.1.1.47 d-glucose bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 70.0 * +EC1.1.1.47 d-glucose bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 395.0 * +EC1.1.1.47 d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 45.9 * +EC1.1.1.47 d-glucose oncorhynchus mykiss//*//* 14.7 * +EC1.1.1.47 d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 68.23 * +EC1.1.1.47 d-xylose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 61.0 * +EC1.1.1.47 nad+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 390.0 * +EC1.1.1.47 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 521000.0 * +EC1.1.1.47 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 115.0 * +EC1.1.1.47 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 105.4 * +EC1.1.1.47 nadp+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 260.0 * +EC1.1.1.47 nadp+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 93.0 * +EC1.1.1.47 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 47.7 * +EC1.1.1.48 d-galactose pelomonas saccharophila//*//* 358.0 * +EC1.1.1.48 d-galactose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1180.0 * +EC1.1.1.49 2-deoxy-d-glucose 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1800.0 * +EC1.1.1.49 2-deoxyglucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.0 * +EC1.1.1.49 d-galactose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 157.0 * +EC1.1.1.49 d-glucose 6-phosphate aspergillus aculeatus//*//* 83.0 * +EC1.1.1.49 d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 571.0 * +EC1.1.1.49 d-glucose 6-phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 22.2 * +EC1.1.1.49 d-glucose 6-phosphate taenia crassiceps//*//* 34.0 * +EC1.1.1.49 d-glucose 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3500.0 * +EC1.1.1.49 d-glucose 6-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 16.4 * +EC1.1.1.49 d-glucose 6-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 62.0 * +EC1.1.1.49 deamino-nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 98.0 * +EC1.1.1.49 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 288.0 * +EC1.1.1.49 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1380.0 * +EC1.1.1.49 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1100.0 * +EC1.1.1.49 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 174.0 * +EC1.1.1.49 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 251.0 * +EC1.1.1.49 nadp+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1120.0 * +EC1.1.1.49 nadp+ taenia crassiceps//*//* 34.0 * +EC1.1.1.49 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3500.0 * +EC1.1.1.49 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 52.0 * +EC1.1.1.49 thio-nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2100.0 * +EC1.1.1.49 thio-nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 8000.0 * +EC1.1.1.50 (2z)-2-(5-hydroxy-4,6-dimethyl-2-oxo-1,2-dihydro-3h-indol-3-ylidene)-n,n-di(prop-2-en-1-yl)hydrazinecarbothioamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.507 * +EC1.1.1.50 (3alpha,5beta,7beta)-3,7-dihydroxycholan-24-oic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 82.0 * +EC1.1.1.50 (5beta,20r)-20-hydroxypregnan-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.115 * +EC1.1.1.50 1-acenaphthenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.59 * +EC1.1.1.50 1-indanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.1.1.50 3alpha-adiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.183 * +EC1.1.1.50 3alpha-adiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0833 * +EC1.1.1.50 3alpha-androstanediol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.50 3alpha-hydroxytibolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.1.1.50 3beta-hydroxytibolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.1.1.50 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC1.1.1.50 4-pregnen-3alpha,20beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0735 * +EC1.1.1.50 5alpha-androstane-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.1.1.50 5alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.1.1.50 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.114 * +EC1.1.1.50 5alpha-dihydrotestosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC1.1.1.50 5beta-androstane-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.047 * +EC1.1.1.50 5beta-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.1.1.50 5beta-pregnane-3,20-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.105 * +EC1.1.1.50 6-tert-butyl-2,3-epoxy-4-hydroxy-5-cyclohexen-1-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.1.1.50 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.9 * +EC1.1.1.50 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC1.1.1.50 allopregnanolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC1.1.1.50 androstanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC1.1.1.50 androsterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 318.0 * +EC1.1.1.50 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.133 * +EC1.1.1.50 androsterone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 134.0 * +EC1.1.1.50 androsterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC1.1.1.50 benzenedihydrodiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.1.1.50 chenodeoxycholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 76.0 * +EC1.1.1.50 cholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 75.0 * +EC1.1.1.50 dehydrolithocholic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.1.1.50 diacetyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.167 * +EC1.1.1.50 fusidic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 25.0 * +EC1.1.1.50 glycocholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 77.0 * +EC1.1.1.50 isatin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.283 * +EC1.1.1.50 lithocholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 72.0 * +EC1.1.1.50 nadh comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 63.0 * +EC1.1.1.50 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC1.1.1.50 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.50 oxidized 8-acetyl-2,3,5,6-tetrahydro-1h,4h-11-oxa-3a-azabenzo[de]anthracen-10-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC1.1.1.50 pregn-4-en-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC1.1.1.50 stanolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0167 * +EC1.1.1.50 taurocholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 74.0 * +EC1.1.1.50 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0757 * +EC1.1.1.51 (r)-1,2,3,4-tetrahydro-1-naphthol mesocricetus auratus//*//* 0.022 * +EC1.1.1.51 (s)-1,2,3,4-tetrahydro-1-naphthol mesocricetus auratus//*//* 0.025 * +EC1.1.1.51 (s)-1-indanol mesocricetus auratus//*//* 0.028 * +EC1.1.1.51 1-acenaphthenol mesocricetus auratus//*//* 0.022 * +EC1.1.1.51 17beta-estradiol mesocricetus auratus//*//* 0.022 * +EC1.1.1.51 2-cyclohexen-1-ol mesocricetus auratus//*//* 0.04 * +EC1.1.1.51 20alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.78 * +EC1.1.1.51 3beta-hydroxyprogesterone mesocricetus auratus//*//* 0.056 * +EC1.1.1.51 4-androstene-3alpha,17beta-diol mesocricetus auratus//*//* 0.043 * +EC1.1.1.51 5-androstene-3beta,17beta-diol mesocricetus auratus//*//* 0.043 * +EC1.1.1.51 5alpha-androstan-3beta-ol-17-one mesocricetus auratus//*//* 0.027 * +EC1.1.1.51 5alpha-dihydrotestosterone mesocricetus auratus//*//* 0.057 * +EC1.1.1.51 5alpha-pregnan-3beta-ol-20-one mesocricetus auratus//*//* 0.013 * +EC1.1.1.51 5beta-androstan-3beta-ol-17-one mesocricetus auratus//*//* 0.022 * +EC1.1.1.51 5beta-androstane-3alpha,17beta-diol mesocricetus auratus//*//* 0.012 * +EC1.1.1.51 5beta-androstane-3beta,17beta-diol mesocricetus auratus//*//* 0.036 * +EC1.1.1.51 5beta-dihydrotestosterone mesocricetus auratus//*//* 0.032 * +EC1.1.1.51 5beta-pregnan-3beta,21-diol-20-one mesocricetus auratus//*//* 0.0043 * +EC1.1.1.51 5beta-pregnan-3beta-ol-20-one mesocricetus auratus//*//* 0.0028 * +EC1.1.1.51 alpha-3-hydroxyhexobarbital mesocricetus auratus//*//* 0.018 * +EC1.1.1.51 beta-3-hydroxyhexobarbital mesocricetus auratus//*//* 0.025 * +EC1.1.1.51 beta-ionol mesocricetus auratus//*//* 0.022 * +EC1.1.1.51 cis-benzene dihydrodiol mesocricetus auratus//*//* 0.025 * +EC1.1.1.51 cyclohexanol mesocricetus auratus//*//* 0.009 * +EC1.1.1.51 dehydroepiandrosterone mesocricetus auratus//*//* 0.01 * +EC1.1.1.51 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC1.1.1.51 estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC1.1.1.51 farnesol mesocricetus auratus//*//* 0.018 * +EC1.1.1.51 geraniol mesocricetus auratus//*//* 0.023 * +EC1.1.1.51 geranylgeraniol mesocricetus auratus//*//* 0.008 * +EC1.1.1.51 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC1.1.1.51 nad+ mesocricetus auratus//*//* 0.11 * +EC1.1.1.51 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC1.1.1.51 nadh mesocricetus auratus//*//* 0.1 * +EC1.1.1.51 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.1.1.51 nadp+ mesocricetus auratus//*//* 0.15 * +EC1.1.1.51 nerol mesocricetus auratus//*//* 0.023 * +EC1.1.1.51 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC1.1.1.51 testosterone mesocricetus auratus//*//* 0.0078 * +EC1.1.1.51 trans-benzene dihydrodiol mesocricetus auratus//*//* 0.033 * +EC1.1.1.53 20beta-hydroxyprogesterone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 258.0 * +EC1.1.1.53 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC1.1.1.53 androsterone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 456.0 * +EC1.1.1.53 cortisone streptomyces exfoliatus//*//* 0.333 * +EC1.1.1.53 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.53 progesterone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 72.0 * +EC1.1.1.53 progesterone streptomyces exfoliatus//*//* 6.67 * +EC1.1.1.54 (r)-pulegone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.3 * +EC1.1.1.54 (s)-pulegone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.8 * +EC1.1.1.56 l-arabitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 28.0 * +EC1.1.1.56 ribitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 299.0 * +EC1.1.1.56 ribitol providencia alcalifaciens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//pala 10.0 * +EC1.1.1.56 xylitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 36.0 * +EC1.1.1.59 (r)-3-hydroxyisobutyrate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.31 * +EC1.1.1.59 (s)-3-hydroxyisobutyrate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.48 * +EC1.1.1.59 3-hydroxypropanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.21 * +EC1.1.1.59 3-hydroxypropanoate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 30.97 * +EC1.1.1.59 3-hydroxypropionate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.21 * +EC1.1.1.59 l-serine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 9.41 * +EC1.1.1.6 1,3-butanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC1.1.1.6 1,3-butanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.6 * +EC1.1.1.6 1,3-butanediol salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 2.7 * +EC1.1.1.6 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.36 * +EC1.1.1.6 glycerol thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 1.89 * +EC1.1.1.6 glycerone thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 98.44 * +EC1.1.1.60 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 243.0 * +EC1.1.1.61 succinate semialdehyde porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1329.0 * +EC1.1.1.62 (s)-indan-1-ol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.2 * +EC1.1.1.62 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.1.1.62 5-androstene-3beta,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00032 * +EC1.1.1.62 5alpha-adrostane-3alpha,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC1.1.1.62 5alpha-dihydrotestosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.13 * +EC1.1.1.62 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC1.1.1.62 benzene diohydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.433 * +EC1.1.1.62 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.1.1.62 delta4-3,17-androstendione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC1.1.1.62 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC1.1.1.62 estradiol-17beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC1.1.1.62 estradiol-17beta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.95 * +EC1.1.1.62 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC1.1.1.62 nadp+ curvularia lunata//*//* 0.65 * +EC1.1.1.62 nadph curvularia lunata//*//* 3.8 * +EC1.1.1.62 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC1.1.1.62 testosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.73 * +EC1.1.1.64 4-oxo-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC1.1.1.67 d-arabinitol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 162.0 * +EC1.1.1.67 d-arabitol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.59 * +EC1.1.1.67 d-fructose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 86.0 * +EC1.1.1.67 d-fructose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 61.0 * +EC1.1.1.67 d-fructose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 180.0 * +EC1.1.1.67 d-mannitol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 212.0 * +EC1.1.1.67 d-mannitol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 40.0 * +EC1.1.1.67 d-xylulose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 64.0 * +EC1.1.1.67 l-sorbitol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 60.0 * +EC1.1.1.67 meso-erythritol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.599 * +EC1.1.1.67 nad(p)h pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.0 * +EC1.1.1.67 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 40.0 * +EC1.1.1.67 nadh pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 61.0 * +EC1.1.1.71 (2s,5s)-2,5-hexanediol thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 2.2 * +EC1.1.1.71 (rs)-1-phenylethanol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 35.7 * +EC1.1.1.71 2,3-pentanedione thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 1.4 * +EC1.1.1.71 2-propanol thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.53 * +EC1.1.1.71 acetaldehyde ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 240.0 * +EC1.1.1.71 acetoin thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 13.7 * +EC1.1.1.71 butan-1-ol acinetobacter calcoaceticus//*//* 38.3 * +EC1.1.1.71 butan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 50.6 * +EC1.1.1.71 butanal acinetobacter calcoaceticus//*//* 26.3 * +EC1.1.1.71 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 19.6 * +EC1.1.1.71 d-xylose thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.7 * +EC1.1.1.71 ethanol acinetobacter calcoaceticus//*//* 13.9 * +EC1.1.1.71 ethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 35.1 * +EC1.1.1.71 heptan-1-ol acinetobacter calcoaceticus//*//* 38.9 * +EC1.1.1.71 hexan-1-ol acinetobacter calcoaceticus//*//* 39.4 * +EC1.1.1.71 hexan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 40.3 * +EC1.1.1.71 meso-2,3-butanediol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 43.8 * +EC1.1.1.71 nad+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 30.8 * +EC1.1.1.71 nadh ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 240.0 * +EC1.1.1.71 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 15.6 * +EC1.1.1.71 nadp+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 30.0 * +EC1.1.1.71 nadp+ thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 2.02 * +EC1.1.1.71 nadph ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 280.0 * +EC1.1.1.71 nadph thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 17.3 * +EC1.1.1.71 nadph thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 1.51 * +EC1.1.1.71 octan-1-ol acinetobacter calcoaceticus//*//* 25.4 * +EC1.1.1.71 octan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 39.8 * +EC1.1.1.71 pentan-1-ol acinetobacter calcoaceticus//*//* 44.7 * +EC1.1.1.71 pentan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 62.9 * +EC1.1.1.71 pyruvaldehyde thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 2.04 * +EC1.1.1.72 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 57.2 * +EC1.1.1.76 (2s)-acetoin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 202.0 * +EC1.1.1.76 (r,r)-butane-2,3-diol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 591.0 * +EC1.1.1.76 (r,s)-acetoin mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 6.0 * +EC1.1.1.76 diacetyl bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1222.0 * +EC1.1.1.79 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3407.0 * +EC1.1.1.79 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.0 * +EC1.1.1.79 glyoxylate thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 760000.0 * +EC1.1.1.79 glyoxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 76000.0 * +EC1.1.1.79 hydroxypyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 65.0 * +EC1.1.1.79 nadh pyrococcus horikoshii ot3//*//* 11.0 * +EC1.1.1.79 nadh thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 220000.0 * +EC1.1.1.79 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 22000.0 * +EC1.1.1.79 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 84.1 * +EC1.1.1.79 nadph pyrococcus horikoshii ot3//*//* 2.4 * +EC1.1.1.79 nadph thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 300000.0 * +EC1.1.1.79 nadph thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 30000.0 * +EC1.1.1.79 succinic semialdehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.0 * +EC1.1.1.8 dihydroxyacetone phosphate ceratitis capitata//*//* 188.0 * +EC1.1.1.8 dihydroxyacetone phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 240.0 * +EC1.1.1.8 dihydroxyacetone phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 390.0 * +EC1.1.1.8 glycerone phosphate eidolon helvum//*//* 19000.0 * +EC1.1.1.8 glycerone phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 240.0 * +EC1.1.1.8 l-glycerol-3-phosphate ceratitis capitata//*//* 32.0 * +EC1.1.1.8 l-glycerol-3-phosphate eidolon helvum//*//* 78.0 * +EC1.1.1.81 hydroxypyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 10.0 * +EC1.1.1.81 hydroxypyruvate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 4.5 * +EC1.1.1.81 hydroxypyruvate pyrococcus yayanosii//prokaryotes;archaea;euryarchaeota;pyrococcus//pya 25.0 * +EC1.1.1.81 nadh pyrococcus horikoshii ot3//*//* 11.0 * +EC1.1.1.81 nadph pyrococcus horikoshii ot3//*//* 2.4 * +EC1.1.1.82 (2s,3r)-tartrate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.2 * +EC1.1.1.82 (2s,3s)-tartrate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 4.1 * +EC1.1.1.82 (s)-malate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 2.6 * +EC1.1.1.82 (s)-malate sorghum sp.//*//* 233.0 * +EC1.1.1.82 oxaloacetate sorghum sp.//*//* 1520.0 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.05 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate shewanella benthica//*//* 17.0 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 17.4 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 8.5 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 40.0 * +EC1.1.1.85 3-(2'-methylthio)ethylmalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.85 * +EC1.1.1.85 3-ethylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 38.0 * +EC1.1.1.85 3-isoamylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 20.0 * +EC1.1.1.85 3-isopropylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 28.0 * +EC1.1.1.85 3-isopropylmalate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 14.9 * +EC1.1.1.85 3-isopropylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.9 * +EC1.1.1.85 3-methylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 28.0 * +EC1.1.1.85 3-tert-butylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 2.7 * +EC1.1.1.85 d-3-ethylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.1 * +EC1.1.1.85 d-3-isobutylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.1 * +EC1.1.1.85 d-3-isopentylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.7 * +EC1.1.1.85 d-3-isopropylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.6 * +EC1.1.1.85 d-3-isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 107.0 * +EC1.1.1.85 d-3-methylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.5 * +EC1.1.1.85 d-3-t-butylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.96 * +EC1.1.1.85 ethylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC1.1.1.85 homoisocitrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.26 * +EC1.1.1.85 isopropylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC1.1.1.85 isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 19.0 * +EC1.1.1.85 malate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 5.0 * +EC1.1.1.85 malate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 4.0 * +EC1.1.1.85 malate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 10.6 * +EC1.1.1.85 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC1.1.1.85 nad+ shewanella benthica//*//* 18.7 * +EC1.1.1.85 nad+ shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 17.1 * +EC1.1.1.85 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 107.0 * +EC1.1.1.85 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.69 * +EC1.1.1.85 tartrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.19 * +EC1.1.1.85 tert-butylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.0 * +EC1.1.1.86 (s)-2-acetolactate meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 1.09 * +EC1.1.1.86 (s)-2-acetolactate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.4 * +EC1.1.1.86 2,3-dihydroxy-3-methylbutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00417 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 78.3 * +EC1.1.1.86 2-acetolactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.231 * +EC1.1.1.86 2-acetolactate oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.4 * +EC1.1.1.86 2-acetolactate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 18.3 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.9 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 1.3 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.4 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 3.2 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.44 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 3.6 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 0.18 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces viridifaciens//*//* 0.3 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.2 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 0.63 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.24 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.1 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.42 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.7 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 3.6 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces viridifaciens//*//* 2.0 * +EC1.1.1.86 2-ketobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.167 * +EC1.1.1.86 2-ketoisovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.182 * +EC1.1.1.86 2-ketopantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.194 * +EC1.1.1.86 2-ketovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.1.1.86 2-methylacetoacetate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC1.1.1.86 2-methylacetoacetate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 1.2 * +EC1.1.1.86 2-methylacetoacetate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 1.8 * +EC1.1.1.86 2-methylacetoacetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.05 * +EC1.1.1.86 2-methylacetoacetate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.67 * +EC1.1.1.86 2-methylacetoacetate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 2.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces viridifaciens//*//* 2.0 * +EC1.1.1.86 3-hydroxy-2-ketobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.594 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.18 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.8 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 0.9 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.8 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.8 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 1.3 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 1.4 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces viridifaciens//*//* 0.5 * +EC1.1.1.86 3-hydroxy-3-methyl-2-ketobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.511 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.9 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 0.8 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 1.2 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.2 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.5 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 2.8 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 5.2 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces viridifaciens//*//* 2.5 * +EC1.1.1.86 3-hydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC1.1.1.86 3-hydroxypyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 12.5 * +EC1.1.1.86 3-hydroxypyruvate oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.5 * +EC1.1.1.86 hydroxypyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.5 * +EC1.1.1.86 hydroxypyruvate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 1.0 * +EC1.1.1.86 hydroxypyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 2.0 * +EC1.1.1.86 hydroxypyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.5 * +EC1.1.1.86 hydroxypyruvate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.5 * +EC1.1.1.86 hydroxypyruvate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.7 * +EC1.1.1.86 hydroxypyruvate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 2.0 * +EC1.1.1.86 hydroxypyruvate streptomyces viridifaciens//*//* 2.0 * +EC1.1.1.86 nadh alicyclobacillus acidocaldarius subsp. acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.26 * +EC1.1.1.86 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00183 * +EC1.1.1.86 nadh methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.3 * +EC1.1.1.86 nadph alicyclobacillus acidocaldarius subsp. acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.66 * +EC1.1.1.86 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC1.1.1.86 nadph meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 0.98 * +EC1.1.1.86 nadph methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.7 * +EC1.1.1.86 pyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 8.6 * +EC1.1.1.86 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC1.1.1.86 pyruvate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 6.3 * +EC1.1.1.86 pyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 3.6 * +EC1.1.1.86 pyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 5.6 * +EC1.1.1.86 pyruvate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.0 * +EC1.1.1.86 pyruvate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 6.7 * +EC1.1.1.86 pyruvate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 3.0 * +EC1.1.1.86 pyruvate streptomyces viridifaciens//*//* 5.7 * +EC1.1.1.87 (1r,2s)-1-hydroxybutane-1,2,4-tricarboxylate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.4 * +EC1.1.1.87 (2r,3s)-3-(2-hydroxyethyl)malate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 25.0 * +EC1.1.1.87 (2r,3s)-3-(2-hydroxyethyl)malate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.78 * +EC1.1.1.87 (2r,3s)-3-(3-hydroxypropyl)malate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 29.0 * +EC1.1.1.87 (2r,3s)-3-(3-hydroxypropyl)malate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.8 * +EC1.1.1.87 (2r,3s)-3-(4-hydroxybutyl)malate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 2.0 * +EC1.1.1.87 (2r,3s)-3-(4-hydroxybutyl)malate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC1.1.1.87 (2r,3s)-3-(4-pentenyl)malic acid deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 3.0 * +EC1.1.1.87 (2r,3s)-3-(4-pentenyl)malic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC1.1.1.87 (2r,3s)-3-allylmalic acid deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 37.0 * +EC1.1.1.87 (2r,3s)-3-allylmalic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.34 * +EC1.1.1.87 (2r,3s)-3-propylmalic acid deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 53.0 * +EC1.1.1.87 (2r,3s)-3-propylmalic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.7 * +EC1.1.1.87 1-hydroxy-1,2,3-propanetricarboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 171.0 * +EC1.1.1.87 1-hydroxy-1,2,4-butanetricarboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 171.0 * +EC1.1.1.87 3-isopropylmalate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.371 * +EC1.1.1.87 3-vinylmalate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.77 * +EC1.1.1.87 3-vinylmalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC1.1.1.87 ethylmalate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 43.0 * +EC1.1.1.87 ethylmalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.61 * +EC1.1.1.87 homoisocitrate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 46.2 * +EC1.1.1.87 homoisocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.7 * +EC1.1.1.87 homoisocitrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.0 * +EC1.1.1.87 isocitrate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 43.0 * +EC1.1.1.87 isocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 14.8 * +EC1.1.1.87 isocitrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 438.0 * +EC1.1.1.87 isopropylmalate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.37 * +EC1.1.1.87 nad+ candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.4 * +EC1.1.1.87 trisodium (2s,3r)-2-(carboxylatomethoxy)-3-hydroxybutanedioate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.59 * +EC1.1.1.87 trisodium (2s,3r)-2-[(carboxylatomethyl)amino]-3-hydroxybutanedioate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC1.1.1.9 d-fructose candida sp. ha 167//*//* 920.0 * +EC1.1.1.9 d-ribulose blastobotrys adeninivorans//*//* 74.0 * +EC1.1.1.9 d-sorbitol blastobotrys adeninivorans//*//* 528.0 * +EC1.1.1.9 d-sorbitol candida sp. ha 167//*//* 114.0 * +EC1.1.1.9 d-sorbitol meyerozyma caribbica//*//* 8.28 * +EC1.1.1.9 d-xylulose blastobotrys adeninivorans//*//* 302.9 * +EC1.1.1.9 d-xylulose candida sp. ha 167//*//* 1800.0 * +EC1.1.1.9 l-arabitol meyerozyma caribbica//*//* 3.35 * +EC1.1.1.9 l-sorbose blastobotrys adeninivorans//*//* 216.0 * +EC1.1.1.9 nad+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 27.2 * +EC1.1.1.9 nad+ rhizomucor pusillus//*//* 6.35 * +EC1.1.1.9 nad+ scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 17.5 * +EC1.1.1.9 nadp+ rhizomucor pusillus//*//* 0.185 * +EC1.1.1.9 nadp+ scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 1.83 * +EC1.1.1.9 ribitol meyerozyma caribbica//*//* 4.5 * +EC1.1.1.9 sorbitol candida sp. ha 167//*//* 161.0 * +EC1.1.1.9 sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.0 * +EC1.1.1.9 xylitol blastobotrys adeninivorans//*//* 2644.0 * +EC1.1.1.9 xylitol candida sp. ha 167//*//* 170.0 * +EC1.1.1.9 xylitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 24.6 * +EC1.1.1.9 xylitol meyerozyma caribbica//*//* 18.0 * +EC1.1.1.90 3-methoxybenzyl alcohol acinetobacter calcoaceticus//*//* 156.0 * +EC1.1.1.90 3-methyl-2-buten-1-ol acinetobacter calcoaceticus//*//* 41.0 * +EC1.1.1.90 4-hydroxybenzyl alcohol acinetobacter calcoaceticus//*//* 80.0 * +EC1.1.1.90 4-isopropylbenzyl alcohol acinetobacter calcoaceticus//*//* 144.0 * +EC1.1.1.90 4-methoxybenzyl alcohol acinetobacter calcoaceticus//*//* 116.0 * +EC1.1.1.90 benzaldehyde acinetobacter baylyi//*//* 12940.0 * +EC1.1.1.90 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 622.0 * +EC1.1.1.90 benzyl alcohol acinetobacter calcoaceticus//*//* 131.0 * +EC1.1.1.90 benzyl alcohol lactobacillus plantarum wcfs1//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 3.4 * +EC1.1.1.90 benzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 228.0 * +EC1.1.1.90 benzyl alcohol thauera sp.//prokaryotes;bacteria;betaproteobacteria;thauera//tmz 85.0 * +EC1.1.1.90 cinnamyl alcohol acinetobacter calcoaceticus//*//* 141.0 * +EC1.1.1.90 cinnamyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 116.0 * +EC1.1.1.90 coniferyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 69.7 * +EC1.1.1.90 coniferyl aldehyde streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 354.0 * +EC1.1.1.90 nad+ streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 53.7 * +EC1.1.1.90 nadh acinetobacter baylyi//*//* 8920.0 * +EC1.1.1.90 perillyl alcohol acinetobacter calcoaceticus//*//* 83.0 * +EC1.1.1.91 (r)-1-phenylethanol ralstonia sp.//*//* 0.0047 * +EC1.1.1.91 (s)-1-phenylethanol ralstonia sp.//*//* 0.0115 * +EC1.1.1.91 (s)-2-octanol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 13.7 * +EC1.1.1.91 3,4-dimethoxybenzaldehyde phanerochaete chrysosporium//*//* 8.833 * +EC1.1.1.91 3,4-dimethoxybenzyl alcohol phanerochaete chrysosporium//*//* 2.55 * +EC1.1.1.91 3,5-dimethoxybenzaldehyde phanerochaete chrysosporium//*//* 9.83 * +EC1.1.1.91 3-hydroxy-4-methoxy-benzaldehyde phanerochaete chrysosporium//*//* 3.83 * +EC1.1.1.91 4-hydroxy-3-methoxy-benzaldehyde phanerochaete chrysosporium//*//* 3.33 * +EC1.1.1.91 4-hydroxy-3-methoxy-benzyl alcohol phanerochaete chrysosporium//*//* 4.33 * +EC1.1.1.91 4-methoxybenzaldehyde phanerochaete chrysosporium//*//* 8.16 * +EC1.1.1.91 5-(hydroxymethyl)-2-furaldehyde phanerochaete chrysosporium//*//* 2.93 * +EC1.1.1.91 benzaldehyde phanerochaete chrysosporium//*//* 7.16 * +EC1.1.1.91 benzaldehyde yokenella sp. wzy002//*//* 360.0 * +EC1.1.1.91 benzyl alcohol yokenella sp. wzy002//*//* 93.3 * +EC1.1.1.91 crotonaldehyde yokenella sp. wzy002//*//* 405.0 * +EC1.1.1.91 crotonyl alcohol yokenella sp. wzy002//*//* 101.0 * +EC1.1.1.91 nad+ ralstonia sp.//*//* 0.022 * +EC1.1.1.91 nadh phanerochaete chrysosporium//*//* 2.0 * +EC1.1.1.91 nadp+ phanerochaete chrysosporium//*//* 2.56 * +EC1.1.1.91 nadp+ ralstonia sp.//*//* 1.65 * +EC1.1.1.91 nadp+ yokenella sp. wzy002//*//* 433.0 * +EC1.1.1.91 nadph phanerochaete chrysosporium//*//* 11.33 * +EC1.1.1.91 phenylacetaldehyde phanerochaete chrysosporium//*//* 11.16 * +EC1.1.1.91 trans-cinnamaldehyde phanerochaete chrysosporium//*//* 11.16 * +EC1.1.1.93 d-malate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.7 * +EC1.1.1.93 isopropylmalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC1.1.1.93 l-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.483 * +EC1.1.1.93 meso-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.617 * +EC1.1.1.93 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.5 * +EC1.1.1.95 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC1.1.1.95 3-phospho-d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 147.4 * +EC1.1.1.95 3-phospho-d-glycerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 567.0 * +EC1.1.1.95 3-phospho-d-glycerate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 350.0 * +EC1.1.1.95 3-phospho-d-glycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 16.28 * +EC1.1.1.95 3-phospho-d-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.5 * +EC1.1.1.95 3-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 311.0 * +EC1.1.1.95 3-phospho-d-glycerate mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 608.0 * +EC1.1.1.95 3-phospho-d-glycerate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 3850.0 * +EC1.1.1.95 3-phospho-d-glycerate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2425.0 * +EC1.1.1.95 3-phospho-d-glycerate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 576.0 * +EC1.1.1.95 3-phosphohydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.463 * +EC1.1.1.95 3-phosphohydroxypyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2461.0 * +EC1.1.1.95 alpha-ketoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.555 * +EC1.1.1.95 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 147.4 * +EC1.1.1.95 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2461.0 * +EC1.1.1.95 oxaloacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.177 * +EC1.1.1.B19 d-arabitol aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 0.695 * +EC1.1.1.B19 d-threitol aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 2.75 * +EC1.1.1.B19 l-xylulose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 1.11 * +EC1.1.1.B19 xylitol aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 2.75 * +EC1.1.1.B20 (2s,3s)-2,3-butanediol serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1.02 * +EC1.1.1.B20 (3r)-acetoin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 19.7 * +EC1.1.1.B20 diacetyl serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 11.5 * +EC1.1.1.B20 meso-2,3-butanediol serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 6.2 * +EC1.1.1.B28 dtdp-4-dehydro-6-deoxy-alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.78 * +EC1.1.1.B28 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.67 * +EC1.1.1.B28 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.76 * +EC1.1.1.B3 (s)-1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 61.4 * +EC1.1.1.B3 (s)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.B3 (s)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.6 * +EC1.1.1.B3 1-chloroacetophenone debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 3.95 * +EC1.1.1.B3 1-indanone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 8.3 * +EC1.1.1.B3 alpha-tetralone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.7 * +EC1.1.1.B3 rac-1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 45.7 * +EC1.1.1.B3 rac-alpha-tetralol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 48.1 * +EC1.1.1.B35 d-arabinose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 23.8 * +EC1.1.1.B35 d-ribose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.7 * +EC1.1.1.B35 l-fucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 26.8 * +EC1.1.1.B35 l-galactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.7 * +EC1.1.1.B38 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.1 * +EC1.1.1.B38 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.08 * +EC1.1.1.B38 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 6.8 * +EC1.1.1.B38 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.0 * +EC1.1.1.B4 (r)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.0 * +EC1.1.1.B4 (r)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1 * +EC1.1.1.B4 2,2,2-trifluoroacetophenone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 25.5 * +EC1.1.1.B4 2,3-butanedione gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 36.1 * +EC1.1.1.B4 3,5-bis(trifluoromethyl)acetophenone leifsonia xyli//prokaryotes;bacteria;actinobacteria;leifsonia//lxx 21.1 * +EC1.1.1.B4 ethyl 2-oxopropanoate carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 3.97 * +EC1.1.1.B4 ethyl 4-chloro-3-oxobutanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 5.2 * +EC1.1.1.B4 ethylbenzoylformate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 50.1 * +EC1.1.1.B4 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.84 * +EC1.1.1.B4 nadh leifsonia xyli//prokaryotes;bacteria;actinobacteria;leifsonia//lxx 23.6 * +EC1.1.1.B4 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 52.4 * +EC1.1.1.B47 nadph metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 440.0 * +EC1.1.1.B47 succinate semialdehyde metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 440.0 * +EC1.1.1.B51 3-quinuclidinone rhodotorula mucilaginosa//*//* 15.1 * +EC1.1.1.B57 3,4-dihydro-1(2h)-naphthalenone pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 1719.0 * +EC1.1.1.B60 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 3820.0 * +EC1.1.1.B61 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 399.0 * +EC1.1.1.B61 shikimate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 428.0 * +EC1.1.2.3 (s)-lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 372.0 * +EC1.1.2.3 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 155.0 * +EC1.1.2.3 ferricytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 207.0 * +EC1.1.2.3 fluoropyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.8 * +EC1.1.2.3 l-lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 473.0 * +EC1.1.2.3 l-mandelate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC1.1.2.3 phenyllactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.5 * +EC1.1.2.4 d-2-hydroxybutyrate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.467 * +EC1.1.2.4 d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC1.1.2.4 d-lactate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.083 * +EC1.1.2.4 d-lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1500.0 * +EC1.1.2.4 glycolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00167 * +EC1.1.2.4 l-lactate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1167 * +EC1.1.2.7 ferricytochrome cl hyphomicrobium denitrificans//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hdn 0.87 * +EC1.1.2.7 methanol hyphomicrobium denitrificans//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hdn 0.87 * +EC1.1.2.7 methanol methylophaga aminisulfidivorans//*//* 4.51 * +EC1.1.2.B5 d-arabinose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 35.5 * +EC1.1.2.B5 d-glucosone coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 74.1 * +EC1.1.2.B5 d-lyxose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 12.9 * +EC1.1.2.B5 d-talose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 17.8 * +EC1.1.2.B5 ferricytochrome c coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 53.5 * +EC1.1.2.B5 l-fucose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 56.4 * +EC1.1.2.B5 l-galactose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 56.1 * +EC1.1.2.B5 l-glucose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 24.9 * +EC1.1.2.B5 l-gulose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 53.3 * +EC1.1.2.B5 l-xylose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 22.4 * +EC1.1.3.10 1,4-benzoquinone aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 186.0 * +EC1.1.3.10 1,4-benzoquinone aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.04 * +EC1.1.3.10 1,4-benzoquinone lyophyllum shimeji//*//* 92.3 * +EC1.1.3.10 1,4-benzoquinone phanerochaete chrysosporium//*//* 477.0 * +EC1.1.3.10 1,4-benzoquinone pseudarthrobacter siccitolerans//*//* 0.39 * +EC1.1.3.10 1,4-benzoquinone trametes ochracea//*//* 324.0 * +EC1.1.3.10 1,5-anhydro-d-glucitol tricholoma matsutake//*//* 76.7 * +EC1.1.3.10 2,2'-azinobis(3-ethylbenzthiazolinesulfonic acid) cation radical phanerochaete chrysosporium//*//* 1.33 * +EC1.1.3.10 2,6-dichloroindophenol aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 13.1 * +EC1.1.3.10 2,6-dichloroindophenol lyophyllum shimeji//*//* 67.3 * +EC1.1.3.10 2,6-dichloroindophenol phanerochaete chrysosporium//*//* 108.0 * +EC1.1.3.10 2,6-dimethyl-1,4-benzoquinone aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.4 * +EC1.1.3.10 2,6-dimethyl-1,4-benzoquinone phanerochaete chrysosporium//*//* 8.69 * +EC1.1.3.10 2-chloro-1,4-benzoquinone aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 16.3 * +EC1.1.3.10 2-chloro-1,4-benzoquinone phanerochaete chrysosporium//*//* 0.15 * +EC1.1.3.10 2-methoxy-1,4-benzoquinone aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 47.2 * +EC1.1.3.10 2-methoxy-1,4-benzoquinone phanerochaete chrysosporium//*//* 40.1 * +EC1.1.3.10 2-methyl-1,4-benzoquinone aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 10.1 * +EC1.1.3.10 2-methyl-1,4-benzoquinone phanerochaete chrysosporium//*//* 0.12 * +EC1.1.3.10 cellobiose irpex lacteus//*//* 6.01 * +EC1.1.3.10 d-arabinose tricholoma matsutake//*//* 7.79 * +EC1.1.3.10 d-fructose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 5.55 * +EC1.1.3.10 d-fructose irpex lacteus//*//* 4.19 * +EC1.1.3.10 d-fructose phanerochaete chrysosporium//*//* 1.88 * +EC1.1.3.10 d-galactose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.95 * +EC1.1.3.10 d-galactose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.02 * +EC1.1.3.10 d-galactose irpex lacteus//*//* 13.1 * +EC1.1.3.10 d-galactose lyophyllum shimeji//*//* 1.02 * +EC1.1.3.10 d-galactose phanerochaete chrysosporium//*//* 4.87 * +EC1.1.3.10 d-galactose pseudarthrobacter siccitolerans//*//* 0.57 * +EC1.1.3.10 d-galactose trametes ochracea//*//* 2.73 * +EC1.1.3.10 d-galactose tricholoma matsutake//*//* 22.5 * +EC1.1.3.10 d-glucono-1,5-lactone irpex lacteus//*//* 36.1 * +EC1.1.3.10 d-glucose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 35.44 * +EC1.1.3.10 d-glucose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.48 * +EC1.1.3.10 d-glucose irpex lacteus//*//* 33.8 * +EC1.1.3.10 d-glucose lyophyllum shimeji//*//* 6.92 * +EC1.1.3.10 d-glucose phanerochaete chrysosporium//*//* 83.1 * +EC1.1.3.10 d-glucose pseudarthrobacter siccitolerans//*//* 0.48 * +EC1.1.3.10 d-glucose trametes ochracea//*//* 152.0 * +EC1.1.3.10 d-glucose tricholoma matsutake//*//* 111.0 * +EC1.1.3.10 d-maltose tricholoma matsutake//*//* 62.9 * +EC1.1.3.10 d-mannose irpex lacteus//*//* 6.2 * +EC1.1.3.10 d-mannose tricholoma matsutake//*//* 25.1 * +EC1.1.3.10 d-melibiose trametes ochracea//*//* 7.6 * +EC1.1.3.10 d-ribose pseudarthrobacter siccitolerans//*//* 0.38 * +EC1.1.3.10 d-xylose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.39 * +EC1.1.3.10 d-xylose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.27 * +EC1.1.3.10 d-xylose irpex lacteus//*//* 25.4 * +EC1.1.3.10 d-xylose lyophyllum shimeji//*//* 5.48 * +EC1.1.3.10 d-xylose phanerochaete chrysosporium//*//* 44.9 * +EC1.1.3.10 d-xylose pseudarthrobacter siccitolerans//*//* 0.91 * +EC1.1.3.10 d-xylose tricholoma matsutake//*//* 55.8 * +EC1.1.3.10 ferricenium hexafluorophosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 158.0 * +EC1.1.3.10 ferricenium hexafluorophosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.7 * +EC1.1.3.10 ferricenium hexafluorophosphate phanerochaete chrysosporium//*//* 549.0 * +EC1.1.3.10 ferricenium ion trametes ochracea//*//* 151.0 * +EC1.1.3.10 ferricyanide phanerochaete chrysosporium//*//* 0.3 * +EC1.1.3.10 ferrocenium hexafluorophosphate trametes ochracea//*//* 210.0 * +EC1.1.3.10 ferrocenium ion lyophyllum shimeji//*//* 39.9 * +EC1.1.3.10 glucose trametes ochracea//*//* 49.0 * +EC1.1.3.10 l-arabinose pseudarthrobacter siccitolerans//*//* 0.19 * +EC1.1.3.10 l-sorbose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 9.66 * +EC1.1.3.10 l-sorbose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.59 * +EC1.1.3.10 l-sorbose irpex lacteus//*//* 41.4 * +EC1.1.3.10 l-sorbose lyophyllum shimeji//*//* 7.7 * +EC1.1.3.10 l-sorbose phanerochaete chrysosporium//*//* 58.8 * +EC1.1.3.10 l-sorbose tricholoma matsutake//*//* 74.6 * +EC1.1.3.10 maltose irpex lacteus//*//* 31.1 * +EC1.1.3.10 melibiose lyophyllum shimeji//*//* 0.839 * +EC1.1.3.10 o2 phanerochaete chrysosporium//*//* 109.0 * +EC1.1.3.10 o2 trametes ochracea//*//* 70.0 * +EC1.1.3.10 sucrose irpex lacteus//*//* 27.9 * +EC1.1.3.10 tetrafluoro-1,4-benzoquinone aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 129.0 * +EC1.1.3.10 tetrafluoro-1,4-benzoquinone phanerochaete chrysosporium//*//* 6.61 * +EC1.1.3.10 trehalose tricholoma matsutake//*//* 59.6 * +EC1.1.3.12 pyridoxine mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 19.9 * +EC1.1.3.13 ethanol ogataea angusta//*//* 58.0 * +EC1.1.3.13 formaldehyde ogataea angusta//*//* 32.0 * +EC1.1.3.13 methanol gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 15.6 * +EC1.1.3.13 methanol komagataella pastoris//*//* 5.72 * +EC1.1.3.13 methanol ogataea angusta//*//* 60.0 * +EC1.1.3.13 n-heptanol aspergillus terreus//*//* 270.0 * +EC1.1.3.15 2-oxo-octanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.1.3.15 bromopyruvate rattus sp.//*//* 0.36 * +EC1.1.3.15 dl-2-hydroxy-4-methylthiobutanoic acid rattus sp.//*//* 2.1 * +EC1.1.3.15 dl-2-hydroxybutyrate rattus sp.//*//* 0.76 * +EC1.1.3.15 dl-hydroxybutyrate rattus sp.//*//* 2.0 * +EC1.1.3.15 flavin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.1 * +EC1.1.3.15 glycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.04 * +EC1.1.3.15 glycolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.2 * +EC1.1.3.15 glycolate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.33 * +EC1.1.3.15 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC1.1.3.15 l-2-hydroxy octanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.99 * +EC1.1.3.15 l-2-hydroxy palmitate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC1.1.3.15 l-2-hydroxy-4-methylthiobutanoic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.74 * +EC1.1.3.15 l-2-hydroxyisocaproate rattus sp.//*//* 2.4 * +EC1.1.3.15 l-lactate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 4.7 * +EC1.1.3.15 l-lactate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC1.1.3.15 l-lactate rattus sp.//*//* 0.433 * +EC1.1.3.15 l-leucine rattus sp.//*//* 0.014 * +EC1.1.3.15 l-mandelate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.1.3.15 l-mandelate rattus sp.//*//* 2.51 * +EC1.1.3.15 l-phenyllactate rattus sp.//*//* 0.7 * +EC1.1.3.15 o2 aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 4.7 * +EC1.1.3.15 o2 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.1 * +EC1.1.3.17 3,3-dimethyl-1-butanol arthrobacter globiformis//*//* 8.0 * +EC1.1.3.17 betaine aldehyde arthrobacter globiformis//*//* 133.0 * +EC1.1.3.17 betaine-aldehyde arthrobacter globiformis//*//* 11.6 * +EC1.1.3.17 choline alcaligenes sp.//*//* 3.0 * +EC1.1.3.17 choline arthrobacter globiformis//*//* 86.0 * +EC1.1.3.17 n,n-dimethylethanolamine arthrobacter globiformis//*//* 5.9 * +EC1.1.3.17 n-methylethanolamine arthrobacter globiformis//*//* 0.37 * +EC1.1.3.17 o2 arthrobacter globiformis//*//* 15.0 * +EC1.1.3.21 l-alpha-glycerophosphate streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 17.9 * +EC1.1.3.21 l-glycerophosphate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 23.8 * +EC1.1.3.23 h+ unidentified soil bacterium//*//* 5.0 * +EC1.1.3.23 thiamine unidentified soil bacterium//*//* 1.67 * +EC1.1.3.37 d-arabinono-1,4-lactone candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 20.9 * +EC1.1.3.37 d-arabinono-1,4-lactone leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 10.8 * +EC1.1.3.37 l-galactono-1,4-lactone candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 18.3 * +EC1.1.3.38 (r)-1-(4'-hydroxyphenol)ethanol penicillium simplicissimum//*//* 0.7 * +EC1.1.3.38 (r,s)-1-(4'-hydroxyphenyl)propanol penicillium simplicissimum//*//* 3.0 * +EC1.1.3.38 (s)-1-(4'-hydroxyphenyl)ethanol penicillium simplicissimum//*//* 4.4 * +EC1.1.3.38 1-(4'-hydroxyphenol)-2-butanone penicillium simplicissimum//*//* 0.3 * +EC1.1.3.38 2-(4'-hydroxyphenyl)ethanol penicillium simplicissimum//*//* 0.004 * +EC1.1.3.38 2-amino-p-cresol penicillium simplicissimum//*//* 0.017 * +EC1.1.3.38 2-methoxy-4-n-propylphenol penicillium simplicissimum//*//* 3.2 * +EC1.1.3.38 2-methoxy-4-propylphenol penicillium simplicissimum//*//* 4.8 * +EC1.1.3.38 2-methyl-p-cresol penicillium simplicissimum//*//* 0.031 * +EC1.1.3.38 3-(4'-hydroxyphenol)propanol penicillium simplicissimum//*//* 0.1 * +EC1.1.3.38 4-(3'-methylcrotyl)phenol penicillium simplicissimum//*//* 1.4 * +EC1.1.3.38 4-(methoxymethyl)-phenol penicillium simplicissimum//*//* 5.3 * +EC1.1.3.38 4-(methoxymethyl)phenol penicillium simplicissimum//*//* 3.9 * +EC1.1.3.38 4-ethylphenol penicillium simplicissimum//*//* 2.6 * +EC1.1.3.38 4-hydroxy-3-methoxybenzylamine penicillium simplicissimum//*//* 1.3 * +EC1.1.3.38 4-hydroxy-3-methoxyphenylglycol penicillium simplicissimum//*//* 3.6 * +EC1.1.3.38 4-isopropylphenol penicillium simplicissimum//*//* 1.3 * +EC1.1.3.38 4-methylphenol penicillium simplicissimum//*//* 0.005 * +EC1.1.3.38 4-n-butylphenol penicillium simplicissimum//*//* 1.2 * +EC1.1.3.38 4-n-pentylphenol penicillium simplicissimum//*//* 0.3 * +EC1.1.3.38 4-n-propylphenol penicillium simplicissimum//*//* 4.2 * +EC1.1.3.38 4-propylphenol penicillium simplicissimum//*//* 3.9 * +EC1.1.3.38 4-sec-butylphenol penicillium simplicissimum//*//* 0.5 * +EC1.1.3.38 5,6,7,8-tetrahydro-2-naphthol penicillium simplicissimum//*//* 0.7 * +EC1.1.3.38 5-indanol penicillium simplicissimum//*//* 0.5 * +EC1.1.3.38 chavicol penicillium simplicissimum//*//* 6.5 * +EC1.1.3.38 creosol penicillium simplicissimum//*//* 0.07 * +EC1.1.3.38 ethylphenol penicillium simplicissimum//*//* 2.7 * +EC1.1.3.38 eugenol penicillium simplicissimum//*//* 39.0 * +EC1.1.3.38 metanephrine penicillium simplicissimum//*//* 0.8 * +EC1.1.3.38 norepinephrine penicillium simplicissimum//*//* 0.3 * +EC1.1.3.38 normetanephrine penicillium simplicissimum//*//* 0.7 * +EC1.1.3.38 vanillyl alcohol penicillium simplicissimum//*//* 5.4 * +EC1.1.3.38 vanillylamine penicillium simplicissimum//*//* 0.02 * +EC1.1.3.41 (r)-1-phenyl-1,2-ethanediol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.1 * +EC1.1.3.41 (r)-1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.74 * +EC1.1.3.41 (s)-1-phenyl-1,2-ethanediol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.0004 * +EC1.1.3.41 (s)-1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.008 * +EC1.1.3.41 1,2,4-butanetriol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 4.4 * +EC1.1.3.41 1,2-butanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.29 * +EC1.1.3.41 1,2-hexanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.0 * +EC1.1.3.41 1,2-pentanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.85 * +EC1.1.3.41 1-phenyl-1,2-ethanediol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.1 * +EC1.1.3.41 1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.36 * +EC1.1.3.41 2-amino-1-pentanol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.017 * +EC1.1.3.41 3-butene-1,2-diol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.34 * +EC1.1.3.41 3-butenol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.1 * +EC1.1.3.41 4-pentene-1,2-diol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.35 * +EC1.1.3.41 d-mannitol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 2.5 * +EC1.1.3.41 d-mannitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 9.2 * +EC1.1.3.41 d-sorbitol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 1.2 * +EC1.1.3.41 d-sorbitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 17.0 * +EC1.1.3.41 glycerol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 1.3 * +EC1.1.3.41 glycerol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.6 * +EC1.1.3.41 l-arabinose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.7 * +EC1.1.3.41 l-threitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 6.3 * +EC1.1.3.41 xylitol acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 1.9 * +EC1.1.3.41 xylitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 13.0 * +EC1.1.3.46 (s)-4-hydroxymandelate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 3.5 * +EC1.1.3.46 l-mandelate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.2 * +EC1.1.3.47 4-(hydroxymethyl)benzaldehyde methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 8.6 * +EC1.1.3.47 4-hydroxy-3-methoxybenzyl alcohol methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 21.0 * +EC1.1.3.47 5-(hydroxymethyl)furfural methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 9.9 * +EC1.1.3.47 furan-2,5-dicarbaldehyde methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 1.6 * +EC1.1.3.47 terephthaldehyde methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 1.3 * +EC1.1.3.6 3beta-hydroxy-5-androsten-17-one brevibacterium sterolicum//*//* 0.8 * +EC1.1.3.6 3beta-hydroxy-androst-5-en-17-one brevibacterium sterolicum//*//* 0.8 * +EC1.1.3.6 3beta-hydroxy-androst-5-en-17-one streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 8.2 * +EC1.1.3.6 5-cholesten-3-one brevibacterium sterolicum//*//* 278.0 * +EC1.1.3.6 5-cholesten-3-one streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 670.0 * +EC1.1.3.6 cholestanol brevibacterium sterolicum//*//* 40.0 * +EC1.1.3.6 cholestanol streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 37.0 * +EC1.1.3.6 cholesterol brevibacterium sterolicum//*//* 105.0 * +EC1.1.3.6 cholesterol streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 345.0 * +EC1.1.3.6 cholesterol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 47.3 * +EC1.1.3.6 dehydroepiandrosterone streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.69 * +EC1.1.3.6 epiandrosterone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 7.0 * +EC1.1.3.6 pregnenolone brevibacterium sterolicum//*//* 35.0 * +EC1.1.3.6 pregnenolone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 24.0 * +EC1.1.3.6 pregnenolone streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 30.0 * +EC1.1.3.6 trans-androsterone brevibacterium sterolicum//*//* 0.8 * +EC1.1.3.6 trans-androsterone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 7.0 * +EC1.1.3.6 trans-dehydroandrosterone brevibacterium sterolicum//*//* 1.0 * +EC1.1.3.6 trans-dehydroandrosterone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 8.2 * +EC1.1.3.7 2,4-hexadien-1-ol pleurotus eryngii//*//* 161.0 * +EC1.1.3.7 2,4-hexadienal pleurotus eryngii//*//* 0.33 * +EC1.1.3.7 3,4-difluorobenzaldehyde pleurotus eryngii//*//* 0.867 * +EC1.1.3.7 3,4-dimethoxybenzyl alcohol aspergillus terreus//*//* 105.7 * +EC1.1.3.7 3,4-dimethoxybenzyl alcohol lentinus sajor-caju//*//* 82.2 * +EC1.1.3.7 3,4-dimethoxybenzyl alcohol pleurotus pulmonarius//*//* 30.0 * +EC1.1.3.7 3-anisyl alcohol pleurotus eryngii//*//* 15.0 * +EC1.1.3.7 3-chloro-4-anisaldehyde pleurotus eryngii//*//* 0.057 * +EC1.1.3.7 3-chloro-4-anisyl alcohol pleurotus eryngii//*//* 46.0 * +EC1.1.3.7 3-chlorobenzaldehyde pleurotus eryngii//*//* 0.85 * +EC1.1.3.7 3-chlorobenzyl alcohol pleurotus eryngii//*//* 22.0 * +EC1.1.3.7 3-fluorobenzaldehyde pleurotus eryngii//*//* 0.883 * +EC1.1.3.7 3-fluorobenzyl alcohol pleurotus eryngii//*//* 6.0 * +EC1.1.3.7 3-methoxybenzyl alcohol aspergillus terreus//*//* 115.4 * +EC1.1.3.7 4-anisaldehyde pleurotus eryngii//*//* 0.05 * +EC1.1.3.7 4-anisyl alcohol pleurotus eryngii//*//* 142.0 * +EC1.1.3.7 4-chlorobenzaldehyde pleurotus eryngii//*//* 1.05 * +EC1.1.3.7 4-chlorobenzyl alcohol pleurotus eryngii//*//* 51.0 * +EC1.1.3.7 4-fluorobenzaldehyde pleurotus eryngii//*//* 0.367 * +EC1.1.3.7 4-fluorobenzyl alcohol pleurotus eryngii//*//* 32.0 * +EC1.1.3.7 4-methoxybenzyl alcohol aspergillus terreus//*//* 140.9 * +EC1.1.3.7 4-methoxybenzyl alcohol pleurotus eryngii//*//* 208.0 * +EC1.1.3.7 4-nitrobenzaldehyde pleurotus eryngii//*//* 1.633 * +EC1.1.3.7 benzaldehyde pleurotus eryngii//*//* 0.5 * +EC1.1.3.7 benzyl alcohol aspergillus terreus//*//* 2.2 * +EC1.1.3.7 benzyl alcohol pleurotus eryngii//*//* 30.0 * +EC1.1.3.7 cinnamyl alcohol pleurotus eryngii//*//* 65.0 * +EC1.1.3.7 isovanillyl alcohol pleurotus eryngii//*//* 127.0 * +EC1.1.3.7 m-anisyl alcohol pleurotus pulmonarius//*//* 8.27 * +EC1.1.3.7 p-anisyl alcohol pleurotus pulmonarius//*//* 48.5 * +EC1.1.3.7 veratraldehyde pleurotus eryngii//*//* 0.13 * +EC1.1.3.7 veratryl alcohol pleurotus eryngii//*//* 114.0 * +EC1.1.3.9 1-methyl-alpha-d-galactopyranoside fusarium sp.//*//* 995.0 * +EC1.1.3.9 1-o-methyl beta-d-galactopyranoside hypomyces rosellus//*//* 325.0 * +EC1.1.3.9 1-o-methyl-alpha-d-galactopyranoside hypomyces rosellus//*//* 1165.0 * +EC1.1.3.9 1-o-methyl-beta-d-galactopyranoside hypomyces rosellus//*//* 1440.0 * +EC1.1.3.9 2-methylene-1,3-propanediol fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 283.0 * +EC1.1.3.9 d-galactose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 503.0 * +EC1.1.3.9 d-galactose fusarium sp.//*//* 1090.0 * +EC1.1.3.9 d-galactose hypomyces rosellus//*//* 1180.0 * +EC1.1.3.9 guar fusarium sp.//*//* 42.8 * +EC1.1.5.2 2-deoxy-d-glucose acinetobacter calcoaceticus//*//* 331.0 * +EC1.1.5.2 2-deoxy-d-glucose gluconacetobacter diazotrophicus//prokaryotes;bacteria;alphaproteobacteria;gluconacetobacter//gdi 180.6 * +EC1.1.5.2 3-o-methyl-d-glucose acinetobacter calcoaceticus//*//* 3011.0 * +EC1.1.5.2 3-o-methyl-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3011.0 * +EC1.1.5.2 allose acinetobacter calcoaceticus//*//* 2509.0 * +EC1.1.5.2 allose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2509.0 * +EC1.1.5.2 cellobiose acinetobacter calcoaceticus//*//* 1355.0 * +EC1.1.5.2 d-allose acinetobacter calcoaceticus//*//* 1440.0 * +EC1.1.5.2 d-galactose acinetobacter calcoaceticus//*//* 232.0 * +EC1.1.5.2 d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 232.0 * +EC1.1.5.2 d-galactose gluconacetobacter diazotrophicus//prokaryotes;bacteria;alphaproteobacteria;gluconacetobacter//gdi 160.5 * +EC1.1.5.2 d-galactose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 4.3 * +EC1.1.5.2 d-glucose acinetobacter calcoaceticus//*//* 3860.0 * +EC1.1.5.2 d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3860.0 * +EC1.1.5.2 d-glucose gluconacetobacter diazotrophicus//prokaryotes;bacteria;alphaproteobacteria;gluconacetobacter//gdi 186.3 * +EC1.1.5.2 d-glucose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 4.1 * +EC1.1.5.2 d-glucose sorangium cellulosum//prokaryotes;bacteria;deltaproteobacteria;sorangium//scl 1779.0 * +EC1.1.5.2 d-mannose acinetobacter calcoaceticus//*//* 267.0 * +EC1.1.5.2 d-mannose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 3.1 * +EC1.1.5.2 d-xylose acinetobacter calcoaceticus//*//* 201.0 * +EC1.1.5.2 d-xylose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 3.2 * +EC1.1.5.2 lactose acinetobacter calcoaceticus//*//* 1659.0 * +EC1.1.5.2 lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1659.0 * +EC1.1.5.2 maltose acinetobacter calcoaceticus//*//* 1930.0 * +EC1.1.5.2 maltose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2870.0 * +EC1.1.5.2 maltose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 2.3 * +EC1.1.5.2 maltotriose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2270.0 * +EC1.1.5.3 glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.3 * +EC1.1.5.5 1-propanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 73.1 * +EC1.1.5.5 acetaldehyde komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 30.8 * +EC1.1.5.5 acetaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 31.1 * +EC1.1.5.5 allylic alcohol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 67.5 * +EC1.1.5.5 ethanol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 71.0 * +EC1.1.5.5 ethanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 56.6 * +EC1.1.5.5 n-butanol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 52.3 * +EC1.1.5.5 propionaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 22.0 * +EC1.1.5.5 ubiquinone-1 komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 76.3 * +EC1.1.5.6 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 563.0 * +EC1.1.5.9 d-glucose acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 5330.0 * +EC1.1.5.9 d-glucose aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 780.0 * +EC1.1.5.9 d-glucose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 69.54 * +EC1.1.5.9 d-glucose glomerella cingulata//*//* 418.0 * +EC1.1.5.9 d-glucose mucor prainii//*//* 749.7 * +EC1.1.5.9 d-xylose glomerella cingulata//*//* 61.0 * +EC1.1.5.9 fe(cn)63- aspergillus terreus//*//* 230.0 * +EC1.1.9.1 (r)-3-bromo-2-methyl-1-propanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 20.3 * +EC1.1.9.1 (r)-solketal aldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 8.3 * +EC1.1.9.1 (r)-solketal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.12 * +EC1.1.9.1 (s)-solketal aldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 17.1 * +EC1.1.9.1 (s)-solketal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.18 * +EC1.1.9.1 ethanal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 19.9 * +EC1.1.9.1 ethanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 17.9 * +EC1.1.98.2 d-glucose 6-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.4 * +EC1.1.98.2 d-glucose 6-phosphate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 17.0 * +EC1.1.98.2 oxidized coenzyme f420 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.4 * +EC1.1.98.5 (r)-2-butanol methanofollis liminatans//*//* 51.3 * +EC1.1.98.5 (s)-2-butanol methanofollis liminatans//*//* 38.5 * +EC1.1.98.5 2-butanol methanofollis liminatans//*//* 49.0 * +EC1.1.98.5 2-butanone methanofollis liminatans//*//* 2.1 * +EC1.1.98.5 2-pentanol methanofollis liminatans//*//* 23.1 * +EC1.1.98.5 2-pentanone methanofollis liminatans//*//* 1.3 * +EC1.1.98.5 2-propanol methanofollis liminatans//*//* 85.0 * +EC1.1.98.5 cyclopentanol methanofollis liminatans//*//* 12.8 * +EC1.1.98.5 cyclopentanone methanofollis liminatans//*//* 4.4 * +EC1.1.98.5 oxidized coenzyme f420 methanofollis liminatans//*//* 85.0 * +EC1.1.98.5 propanone methanofollis liminatans//*//* 161.5 * +EC1.1.98.5 reduced coenzyme f420 methanofollis liminatans//*//* 161.5 * +EC1.1.99.11 d-fructose gluconobacter sp.//*//* 250.0 * +EC1.1.99.11 ferricyanide gluconobacter sp.//*//* 162.0 * +EC1.1.99.13 d-cellobiose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 141.0 * +EC1.1.99.13 d-galactose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 145.0 * +EC1.1.99.13 d-glucose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 143.0 * +EC1.1.99.13 d-maltose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 154.0 * +EC1.1.99.13 d-xylose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 200.0 * +EC1.1.99.13 l-arabinose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 239.0 * +EC1.1.99.13 sucrose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 59.0 * +EC1.1.99.14 d-lactate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 5.42 * +EC1.1.99.14 glycolate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 1.93 * +EC1.1.99.14 l-lactate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 5.42 * +EC1.1.99.18 1,4-benzoquinone crassicarpon hotsonii//*//* 43.0 * +EC1.1.99.18 1,4-benzoquinone gelatoporia subvermispora//*//* 45.0 * +EC1.1.99.18 1,4-benzoquinone trametes pubescens//*//* 27.5 * +EC1.1.99.18 1,4-benzoquinone trametes villosa//*//* 20.8 * +EC1.1.99.18 2,6-dichloroindophenol crassicarpon hotsonii//*//* 16.8 * +EC1.1.99.18 2,6-dichloroindophenol gelatoporia subvermispora//*//* 29.0 * +EC1.1.99.18 2,6-dichlorophenol indophenol chaetomium atrobrunneum//*//* 17.0 * +EC1.1.99.18 2,6-dichlorophenol indophenol crassicarpon hotsonii//*//* 4.1 * +EC1.1.99.18 2,6-dichlorophenol indophenol crassicarpon thermophilum//*//* 53.8 * +EC1.1.99.18 2,6-dichlorophenol indophenol dichomera saubinetii//*//* 22.6 * +EC1.1.99.18 2,6-dichlorophenol indophenol fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 11.3 * +EC1.1.99.18 2,6-dichlorophenol indophenol hypoxylon haematostroma//*//* 13.5 * +EC1.1.99.18 2,6-dichlorophenol indophenol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 24.8 * +EC1.1.99.18 2,6-dichlorophenol indophenol phanerochaete chrysosporium//*//* 27.0 * +EC1.1.99.18 2,6-dichlorophenol indophenol stachybotrys bisbyi//*//* 4.0 * +EC1.1.99.18 2,6-dichlorophenol indophenol termitomyces clypeatus//*//* 16.01 * +EC1.1.99.18 2,6-dichlorophenol indophenol trametes pubescens//*//* 25.6 * +EC1.1.99.18 2,6-dichlorophenol indophenol trametes villosa//*//* 38.1 * +EC1.1.99.18 2,6-dichlorophenol-indophenol phanerochaete chrysosporium//*//* 33.0 * +EC1.1.99.18 2,6-dichlorophenol-indophenol thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 2.05 * +EC1.1.99.18 2,6-dichlorophenolindophenol thermothelomyces heterothallica//*//* 18.3 * +EC1.1.99.18 2,6-dichlorphenolindophenol humicola insolens//*//* 17.0 * +EC1.1.99.18 2,6-dichlorphenolindophenol schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 63.0 * +EC1.1.99.18 3,5 di-tert-butyl-o-benzoquinone phanerochaete chrysosporium//*//* 17.0 * +EC1.1.99.18 3,5-di-tert-butyl-1,2-benzoquinone phanerochaete chrysosporium//*//* 27.0 * +EC1.1.99.18 3,5-di-tert-butyl-1,2-benzoquinone trametes pubescens//*//* 24.2 * +EC1.1.99.18 3,5-di-tert-butyl-1,2-benzoquinone trametes villosa//*//* 16.9 * +EC1.1.99.18 6'-azido-6'-deoxy-beta-d-glucopyranosyl-(1->4)-d-glucopyranose athelia rolfsii//*//* 17.7 * +EC1.1.99.18 alpha-lactose athelia rolfsii//*//* 17.0 * +EC1.1.99.18 alpha-lactose termitomyces clypeatus//*//* 14.22 * +EC1.1.99.18 benzoquinone humicola insolens//*//* 21.0 * +EC1.1.99.18 beta-d-glucopyranosyl-(1->4)-2-azido-2-deoxy-d-glucopyranose athelia rolfsii//*//* 0.9 * +EC1.1.99.18 beta-d-glucopyranosyl-(1->4)-6-azido-6-deoxy-d-glucopyranose athelia rolfsii//*//* 9.1 * +EC1.1.99.18 cellobiose athelia rolfsii//*//* 37.0 * +EC1.1.99.18 cellobiose cerrena unicolor//*//* 19.06 * +EC1.1.99.18 cellobiose chaetomium atrobrunneum//*//* 20.1 * +EC1.1.99.18 cellobiose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 96.9 * +EC1.1.99.18 cellobiose crassicarpon hotsonii//*//* 4.11 * +EC1.1.99.18 cellobiose crassicarpon thermophilum//*//* 15.5 * +EC1.1.99.18 cellobiose dichomera saubinetii//*//* 27.8 * +EC1.1.99.18 cellobiose fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 8.9 * +EC1.1.99.18 cellobiose gelatoporia subvermispora//*//* 26.0 * +EC1.1.99.18 cellobiose humicola insolens//*//* 14.0 * +EC1.1.99.18 cellobiose hypoxylon haematostroma//*//* 21.8 * +EC1.1.99.18 cellobiose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 53.1 * +EC1.1.99.18 cellobiose phanerochaete chrysosporium//*//* 40.0 * +EC1.1.99.18 cellobiose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 8.56 * +EC1.1.99.18 cellobiose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 13.0 * +EC1.1.99.18 cellobiose stachybotrys bisbyi//*//* 19.9 * +EC1.1.99.18 cellobiose termitomyces clypeatus//*//* 17.65 * +EC1.1.99.18 cellobiose thermothelomyces heterothallica//*//* 16.1 * +EC1.1.99.18 cellobiose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1.23 * +EC1.1.99.18 cellobiose trametes pubescens//*//* 21.9 * +EC1.1.99.18 cellobiose trametes villosa//*//* 23.6 * +EC1.1.99.18 cellohexaose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 24.7 * +EC1.1.99.18 cellopentaose athelia rolfsii//*//* 24.0 * +EC1.1.99.18 cellopentaose humicola insolens//*//* 12.0 * +EC1.1.99.18 cellopentaose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 46.6 * +EC1.1.99.18 cellopentaose phanerochaete chrysosporium//*//* 21.5 * +EC1.1.99.18 cellopentaose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 10.0 * +EC1.1.99.18 cellopentaose termitomyces clypeatus//*//* 9.31 * +EC1.1.99.18 cellopentaose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1.23 * +EC1.1.99.18 cellopentaose trametes pubescens//*//* 13.9 * +EC1.1.99.18 cellopentaose trametes villosa//*//* 14.7 * +EC1.1.99.18 cellotetraose athelia rolfsii//*//* 24.0 * +EC1.1.99.18 cellotetraose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 101.6 * +EC1.1.99.18 cellotetraose crassicarpon hotsonii//*//* 2.7 * +EC1.1.99.18 cellotetraose humicola insolens//*//* 12.0 * +EC1.1.99.18 cellotetraose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 46.0 * +EC1.1.99.18 cellotetraose phanerochaete chrysosporium//*//* 20.7 * +EC1.1.99.18 cellotetraose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 4.0 * +EC1.1.99.18 cellotetraose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 12.0 * +EC1.1.99.18 cellotetraose termitomyces clypeatus//*//* 8.88 * +EC1.1.99.18 cellotetraose thermothelomyces heterothallica//*//* 15.1 * +EC1.1.99.18 cellotetraose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1.23 * +EC1.1.99.18 cellotetraose trametes pubescens//*//* 15.0 * +EC1.1.99.18 cellotetraose trametes villosa//*//* 14.2 * +EC1.1.99.18 cellotriose athelia rolfsii//*//* 26.0 * +EC1.1.99.18 cellotriose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 156.0 * +EC1.1.99.18 cellotriose humicola insolens//*//* 12.0 * +EC1.1.99.18 cellotriose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 49.7 * +EC1.1.99.18 cellotriose phanerochaete chrysosporium//*//* 24.0 * +EC1.1.99.18 cellotriose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 3.8 * +EC1.1.99.18 cellotriose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 12.0 * +EC1.1.99.18 cellotriose termitomyces clypeatus//*//* 8.88 * +EC1.1.99.18 cellotriose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1.25 * +EC1.1.99.18 cellulose phanerochaete chrysosporium//*//* 0.4 * +EC1.1.99.18 cytochrome c chaetomium atrobrunneum//*//* 21.3 * +EC1.1.99.18 cytochrome c crassicarpon thermophilum//*//* 21.4 * +EC1.1.99.18 cytochrome c dichomera saubinetii//*//* 25.2 * +EC1.1.99.18 cytochrome c fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 11.3 * +EC1.1.99.18 cytochrome c gelatoporia subvermispora//*//* 60.0 * +EC1.1.99.18 cytochrome c humicola insolens//*//* 27.0 * +EC1.1.99.18 cytochrome c hypoxylon haematostroma//*//* 18.1 * +EC1.1.99.18 cytochrome c neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 28.7 * +EC1.1.99.18 cytochrome c phanerochaete chrysosporium//*//* 37.3 * +EC1.1.99.18 cytochrome c schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 25.0 * +EC1.1.99.18 cytochrome c stachybotrys bisbyi//*//* 4.9 * +EC1.1.99.18 cytochrome c termitomyces clypeatus//*//* 19.69 * +EC1.1.99.18 cytochrome c thermothelomyces heterothallica//*//* 20.8 * +EC1.1.99.18 cytochrome c trametes pubescens//*//* 29.4 * +EC1.1.99.18 cytochrome c trametes villosa//*//* 32.5 * +EC1.1.99.18 d-galactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.6 * +EC1.1.99.18 d-glucose chaetomium atrobrunneum//*//* 16.8 * +EC1.1.99.18 d-glucose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 34.4 * +EC1.1.99.18 d-glucose crassicarpon hotsonii//*//* 4.8 * +EC1.1.99.18 d-glucose crassicarpon thermophilum//*//* 25.6 * +EC1.1.99.18 d-glucose dichomera saubinetii//*//* 23.6 * +EC1.1.99.18 d-glucose gelatoporia subvermispora//*//* 3.8 * +EC1.1.99.18 d-glucose hypoxylon haematostroma//*//* 18.4 * +EC1.1.99.18 d-glucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 55.0 * +EC1.1.99.18 d-glucose phanerochaete chrysosporium//*//* 1.22 * +EC1.1.99.18 d-glucose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 1.6 * +EC1.1.99.18 d-glucose stachybotrys bisbyi//*//* 24.2 * +EC1.1.99.18 d-glucose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1.01 * +EC1.1.99.18 d-glucose trametes pubescens//*//* 1.31 * +EC1.1.99.18 d-mannose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.7 * +EC1.1.99.18 d-xylose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.9 * +EC1.1.99.18 d-xylose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.33 * +EC1.1.99.18 fad phanerochaete chrysosporium//*//* 74.0 * +EC1.1.99.18 ferricenium ion trametes pubescens//*//* 34.7 * +EC1.1.99.18 ferricenium ion trametes villosa//*//* 35.6 * +EC1.1.99.18 ferricenium gelatoporia subvermispora//*//* 58.0 * +EC1.1.99.18 ferricyanide gelatoporia subvermispora//*//* 61.0 * +EC1.1.99.18 ferricyanide humicola insolens//*//* 14.0 * +EC1.1.99.18 ferricyanide phanerochaete chrysosporium//*//* 22.0 * +EC1.1.99.18 ferricyanide schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 13.5 * +EC1.1.99.18 ferricyanide termitomyces clypeatus//*//* 31.36 * +EC1.1.99.18 ferricyanide thermothelomyces heterothallica//*//* 24.1 * +EC1.1.99.18 ferricytochrome c crassicarpon hotsonii//*//* 2.1 * +EC1.1.99.18 galactobiose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.4 * +EC1.1.99.18 galactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.1 * +EC1.1.99.18 glucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 7.6 * +EC1.1.99.18 glucose trametes villosa//*//* 1.92 * +EC1.1.99.18 k3fe(cn)6 trametes pubescens//*//* 27.8 * +EC1.1.99.18 k3fe(cn)6 trametes villosa//*//* 36.9 * +EC1.1.99.18 lactose athelia rolfsii//*//* 26.0 * +EC1.1.99.18 lactose cerrena unicolor//*//* 20.86 * +EC1.1.99.18 lactose chaetomium atrobrunneum//*//* 33.7 * +EC1.1.99.18 lactose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 136.3 * +EC1.1.99.18 lactose crassicarpon hotsonii//*//* 17.2 * +EC1.1.99.18 lactose crassicarpon thermophilum//*//* 24.7 * +EC1.1.99.18 lactose dichomera saubinetii//*//* 28.9 * +EC1.1.99.18 lactose fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 14.0 * +EC1.1.99.18 lactose gelatoporia subvermispora//*//* 27.0 * +EC1.1.99.18 lactose humicola insolens//*//* 14.0 * +EC1.1.99.18 lactose hypoxylon haematostroma//*//* 25.0 * +EC1.1.99.18 lactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 51.8 * +EC1.1.99.18 lactose phanerochaete chrysosporium//*//* 28.8 * +EC1.1.99.18 lactose phanerochaete sordida//*//* 14.0 * +EC1.1.99.18 lactose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 2.6 * +EC1.1.99.18 lactose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 6.0 * +EC1.1.99.18 lactose stachybotrys bisbyi//*//* 20.2 * +EC1.1.99.18 lactose thermothelomyces heterothallica//*//* 16.8 * +EC1.1.99.18 lactose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1.4 * +EC1.1.99.18 lactose trametes pubescens//*//* 25.8 * +EC1.1.99.18 lactose trametes villosa//*//* 26.9 * +EC1.1.99.18 maltose chaetomium atrobrunneum//*//* 4.0 * +EC1.1.99.18 maltose crassicarpon hotsonii//*//* 0.315 * +EC1.1.99.18 maltose crassicarpon thermophilum//*//* 5.0 * +EC1.1.99.18 maltose dichomera saubinetii//*//* 1.38 * +EC1.1.99.18 maltose gelatoporia subvermispora//*//* 1.03 * +EC1.1.99.18 maltose humicola insolens//*//* 1.2 * +EC1.1.99.18 maltose hypoxylon haematostroma//*//* 3.6 * +EC1.1.99.18 maltose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 20.5 * +EC1.1.99.18 maltose stachybotrys bisbyi//*//* 0.51 * +EC1.1.99.18 maltose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.17 * +EC1.1.99.18 maltose trametes pubescens//*//* 1.92 * +EC1.1.99.18 maltose trametes villosa//*//* 2.08 * +EC1.1.99.18 maltotetraose crassicarpon hotsonii//*//* 0.48 * +EC1.1.99.18 maltotetraose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.2 * +EC1.1.99.18 maltotriose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.8 * +EC1.1.99.18 mannobiose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.1 * +EC1.1.99.18 mannopentaose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 19.8 * +EC1.1.99.18 mannose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 10.2 * +EC1.1.99.18 mn3+-malonate phanerochaete chrysosporium//*//* 14.0 * +EC1.1.99.18 o2 crassicarpon hotsonii//*//* 0.16 * +EC1.1.99.18 thiocellobiose athelia rolfsii//*//* 27.0 * +EC1.1.99.18 thiocellobiose trametes pubescens//*//* 19.4 * +EC1.1.99.18 thiocellobiose trametes villosa//*//* 21.4 * +EC1.1.99.18 triiodide ion phanerochaete chrysosporium//*//* 17.0 * +EC1.1.99.18 ubiquinone phanerochaete chrysosporium//*//* 44.2 * +EC1.1.99.18 xylobiose athelia rolfsii//*//* 27.0 * +EC1.1.99.18 xylobiose humicola insolens//*//* 3.0 * +EC1.1.99.18 xylobiose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 45.4 * +EC1.1.99.18 xylobiose trametes pubescens//*//* 18.3 * +EC1.1.99.18 xylobiose trametes villosa//*//* 17.2 * +EC1.1.99.18 xylose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.6 * +EC1.1.99.18 xylotriose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6.0 * +EC1.1.99.2 (s)-2-hydroxyglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 613.0 * +EC1.1.99.2 l-2-hydroxyglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC1.1.99.20 peg-1000 ensifer sp. as08//*//* 12.0 * +EC1.1.99.20 peg-mono-4-nonylphenyl ether, averaging 10 ethoxy units ensifer sp. as08//*//* 11.0 * +EC1.1.99.21 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 3820.0 * +EC1.1.99.28 d-fructose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 200.0 * +EC1.1.99.28 d-glucose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 200.0 * +EC1.1.99.28 gluconolactone zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.8 * +EC1.1.99.28 sorbitol zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.8 * +EC1.1.99.29 1,4-benzoquinone agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 44.2 * +EC1.1.99.29 1,4-benzoquinone agaricus campestris//*//* 34.82 * +EC1.1.99.29 1,4-benzoquinone agaricus xanthodermus//*//* 12.89 * +EC1.1.99.29 1,4-benzoquinone leucoagaricus meleagris//*//* 76.0 * +EC1.1.99.29 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 101.2 * +EC1.1.99.29 2,2'-azino-bis[3-ethylbenzothiazoline]-6-sulfonic acid leucoagaricus meleagris//*//* 7.57 * +EC1.1.99.29 2,6-dichlorophenolindophenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 57.6 * +EC1.1.99.29 2,6-dichlorophenolindophenol agaricus campestris//*//* 10.56 * +EC1.1.99.29 2,6-dichlorophenolindophenol agaricus xanthodermus//*//* 7.65 * +EC1.1.99.29 2,6-dichlorophenolindophenol leucoagaricus meleagris//*//* 40.7 * +EC1.1.99.29 2-chloro-1,4-benzoquinone leucoagaricus meleagris//*//* 15.1 * +EC1.1.99.29 cellobiose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 25.63 * +EC1.1.99.29 cellobiose leucoagaricus meleagris//*//* 38.4 * +EC1.1.99.29 d-allose leucoagaricus meleagris//*//* 40.2 * +EC1.1.99.29 d-fructose leucoagaricus meleagris//*//* 16.5 * +EC1.1.99.29 d-galactose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 28.7 * +EC1.1.99.29 d-galactose agaricus campestris//*//* 5.23 * +EC1.1.99.29 d-galactose agaricus xanthodermus//*//* 24.77 * +EC1.1.99.29 d-galactose leucoagaricus meleagris//*//* 137.0 * +EC1.1.99.29 d-glucose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 33.7 * +EC1.1.99.29 d-glucose agaricus campestris//*//* 4.1 * +EC1.1.99.29 d-glucose agaricus xanthodermus//*//* 13.02 * +EC1.1.99.29 d-glucose leucoagaricus meleagris//*//* 48.06 * +EC1.1.99.29 d-maltose leucoagaricus meleagris//*//* 43.2 * +EC1.1.99.29 d-mannose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 13.31 * +EC1.1.99.29 d-mannose leucoagaricus meleagris//*//* 109.0 * +EC1.1.99.29 d-ribose leucoagaricus meleagris//*//* 31.4 * +EC1.1.99.29 d-sorbose leucoagaricus meleagris//*//* 15.7 * +EC1.1.99.29 d-talose leucoagaricus meleagris//*//* 21.3 * +EC1.1.99.29 d-xylose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 36.9 * +EC1.1.99.29 d-xylose agaricus campestris//*//* 6.37 * +EC1.1.99.29 d-xylose agaricus xanthodermus//*//* 29.16 * +EC1.1.99.29 d-xylose leucoagaricus meleagris//*//* 146.0 * +EC1.1.99.29 ferricenium ion leucoagaricus meleagris//*//* 203.0 * +EC1.1.99.29 ferrocenium ion agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 111.1 * +EC1.1.99.29 ferrocenium ion agaricus campestris//*//* 19.92 * +EC1.1.99.29 ferrocenium ion agaricus xanthodermus//*//* 22.07 * +EC1.1.99.29 ferrocenium ion leucoagaricus meleagris//*//* 130.0 * +EC1.1.99.29 l-arabinose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 29.6 * +EC1.1.99.29 l-arabinose agaricus campestris//*//* 3.05 * +EC1.1.99.29 l-arabinose agaricus xanthodermus//*//* 22.9 * +EC1.1.99.29 l-arabinose leucoagaricus meleagris//*//* 45.7 * +EC1.1.99.29 l-sorbose leucoagaricus meleagris//*//* 15.7 * +EC1.1.99.29 lactose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 15.95 * +EC1.1.99.29 lactose agaricus campestris//*//* 3.12 * +EC1.1.99.29 lactose agaricus xanthodermus//*//* 24.65 * +EC1.1.99.29 lactose leucoagaricus meleagris//*//* 209.0 * +EC1.1.99.29 maltose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 27.26 * +EC1.1.99.29 maltose leucoagaricus meleagris//*//* 44.7 * +EC1.1.99.29 maltotriose leucoagaricus meleagris//*//* 35.9 * +EC1.1.99.29 methyl-alpha-d-glucopyranoside leucoagaricus meleagris//*//* 85.0 * +EC1.1.99.29 raffinose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 19.61 * +EC1.1.99.29 xylobiose leucoagaricus meleagris//*//* 50.4 * +EC1.1.99.31 (s)-3-phenyllactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 270.0 * +EC1.1.99.31 (s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 402.0 * +EC1.1.99.31 (s)-mandelate rhodotorula graminis//*//* 109.0 * +EC1.1.99.31 2-hydroxy-3-butynoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.9 * +EC1.1.99.31 2-hydroxybutyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.1.99.31 2-hydroxyhexanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.34 * +EC1.1.99.31 2-hydroxyisocaproate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.8 * +EC1.1.99.31 2-hydroxyoctanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC1.1.99.31 2-hydroxyvalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.36 * +EC1.1.99.31 2-oxo-2-phenylacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 313.0 * +EC1.1.99.31 3-hydroxy-dl-mandelate rhodotorula graminis//*//* 108.0 * +EC1.1.99.31 3-indolelactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.9 * +EC1.1.99.31 3-methoxy-dl-mandelate rhodotorula graminis//*//* 68.0 * +EC1.1.99.31 3-phenyllactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.52 * +EC1.1.99.31 4-bromo-dl-mandelate rhodotorula graminis//*//* 108.0 * +EC1.1.99.31 4-chloro-dl-mandelate rhodotorula graminis//*//* 116.0 * +EC1.1.99.31 4-chloromandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 334.0 * +EC1.1.99.31 4-fluoro-dl-mandelate rhodotorula graminis//*//* 98.0 * +EC1.1.99.31 4-hydroxy-dl-mandelate rhodotorula graminis//*//* 146.0 * +EC1.1.99.31 4-methoxy-dl-mandelate rhodotorula graminis//*//* 106.0 * +EC1.1.99.31 4-methyl-dl-mandelate rhodotorula graminis//*//* 80.0 * +EC1.1.99.31 cytochrome c rhodotorula graminis//*//* 225.0 * +EC1.1.99.31 d,l-mandelate rhodotorula graminis//*//* 94.0 * +EC1.1.99.31 dl-[2-1h]-mandelate rhodotorula graminis//*//* 316.0 * +EC1.1.99.31 dl-[2-2h]-mandelate rhodotorula graminis//*//* 99.0 * +EC1.1.99.31 ethyl-(s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 204.0 * +EC1.1.99.31 ferricyanide rhodotorula graminis//*//* 550.0 * +EC1.1.99.31 indoleglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 122.0 * +EC1.1.99.31 l-mandelate rhodotorula graminis//*//* 114.0 * +EC1.1.99.31 mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 350.0 * +EC1.1.99.31 methyl-(s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 151.0 * +EC1.1.99.31 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC1.1.99.32 1,5-anhydro-d-glucitol sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 14.1 * +EC1.1.99.32 l-sorbose sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 11.2 * +EC1.1.99.33 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2833.0 * +EC1.1.99.35 2-deoxy-d-glucose acinetobacter calcoaceticus//*//* 331.0 * +EC1.1.99.35 3-o-methyl-d-glucose acinetobacter calcoaceticus//*//* 3011.0 * +EC1.1.99.35 d-allose acinetobacter calcoaceticus//*//* 2509.0 * +EC1.1.99.35 d-galactose acinetobacter calcoaceticus//*//* 232.0 * +EC1.1.99.35 d-glucose acinetobacter calcoaceticus//*//* 3860.0 * +EC1.1.99.35 d-lactose acinetobacter calcoaceticus//*//* 1659.0 * +EC1.1.99.35 d-maltose acinetobacter calcoaceticus//*//* 1930.0 * +EC1.1.99.35 d-mannose acinetobacter calcoaceticus//*//* 267.0 * +EC1.1.99.35 d-xylose acinetobacter calcoaceticus//*//* 669.0 * +EC1.1.99.38 2-deoxy-scyllo-inosamine bacillus circulans//*//* 0.033 * +EC1.1.99.38 s-adenosyl-l-methionine bacillus circulans//*//* 0.021 * +EC1.1.99.39 (r)-2-hydroxyglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.8 * +EC1.1.99.40 d-2-hydroxyglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC1.1.99.40 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.9 * +EC1.1.99.9 pyridoxine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 22.0 * +EC1.1.99.B3 4-o-methyl-alpha-d-glucopyranosyl uronic acid-(1->2)-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-d-xylose sarocladium strictum//*//* 11.0 * +EC1.1.99.B3 6-deoxy-d-glucose paraconiothyrium sp.//*//* 0.81 * +EC1.1.99.B3 alpha-l-arabinofuranosyl-(1->2)-[alpha-l-arabinofuranosyl-(1->3)]-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-d-xylose sarocladium strictum//*//* 9.0 * +EC1.1.99.B3 alpha-l-arabinofuranosyl-(1->3)-beta-d-xylopyranosyl-(1->4)-d-xylose sarocladium strictum//*//* 8.8 * +EC1.1.99.B3 cellobiose paraconiothyrium sp.//*//* 9.0 * +EC1.1.99.B3 cellobiose sarocladium strictum//*//* 11.9 * +EC1.1.99.B3 cellohexaose paraconiothyrium sp.//*//* 10.0 * +EC1.1.99.B3 cellohexaose sarocladium strictum//*//* 7.2 * +EC1.1.99.B3 cellopentaose paraconiothyrium sp.//*//* 9.0 * +EC1.1.99.B3 cellopentaose sarocladium strictum//*//* 8.3 * +EC1.1.99.B3 cellotetraose paraconiothyrium sp.//*//* 11.0 * +EC1.1.99.B3 cellotetraose sarocladium strictum//*//* 9.9 * +EC1.1.99.B3 cellotriose paraconiothyrium sp.//*//* 7.5 * +EC1.1.99.B3 cellotriose sarocladium strictum//*//* 6.9 * +EC1.1.99.B3 d-galactose paraconiothyrium sp.//*//* 1.5 * +EC1.1.99.B3 d-galactose sarocladium strictum//*//* 7.2 * +EC1.1.99.B3 d-glucose paraconiothyrium sp.//*//* 2.1 * +EC1.1.99.B3 d-glucose sarocladium strictum//*//* 7.5 * +EC1.1.99.B3 d-xylose paraconiothyrium sp.//*//* 1.7 * +EC1.1.99.B3 d-xylose sarocladium strictum//*//* 7.4 * +EC1.1.99.B3 l-arabinose paraconiothyrium sp.//*//* 1.1 * +EC1.1.99.B3 lactose paraconiothyrium sp.//*//* 6.3 * +EC1.1.99.B3 maltohexaose paraconiothyrium sp.//*//* 0.57 * +EC1.1.99.B3 maltopentaose paraconiothyrium sp.//*//* 1.8 * +EC1.1.99.B3 maltose paraconiothyrium sp.//*//* 2.0 * +EC1.1.99.B3 maltose sarocladium strictum//*//* 6.0 * +EC1.1.99.B3 maltotetraose paraconiothyrium sp.//*//* 2.6 * +EC1.1.99.B3 maltotriose paraconiothyrium sp.//*//* 2.3 * +EC1.1.99.B3 n-acetyl-d-glucosamine sarocladium strictum//*//* 8.1 * +EC1.1.99.B3 xylobiose paraconiothyrium sp.//*//* 3.3 * +EC1.1.99.B3 xylobiose sarocladium strictum//*//* 8.8 * +EC1.1.99.B3 xylohexaose sarocladium strictum//*//* 8.6 * +EC1.1.99.B3 xylopentaose sarocladium strictum//*//* 10.4 * +EC1.1.99.B3 xylotetraose sarocladium strictum//*//* 9.7 * +EC1.1.99.B3 xylotriose sarocladium strictum//*//* 10.3 * +EC1.1.99.B6 phosphonoacetaldehyde streptomyces wedmorensis//*//* 1.3 * +EC1.10.2.2 2,3-dimethoxy-5-methyl-6-(10-bromodecyl)-1,4-benzoquinol rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 66.7 * +EC1.10.2.2 abz-vaa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 140.0 * +EC1.10.2.2 cytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 25.0 * +EC1.10.2.2 cytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 919.0 * +EC1.10.2.2 cytochrome c rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 25.0 * +EC1.10.2.2 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 82.0 * +EC1.10.2.2 cytochrome c1 anabaena variabilis//*//* 0.333 * +EC1.10.2.2 cytochrome c1 bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.833 * +EC1.10.2.2 cytochrome c1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 66.7 * +EC1.10.2.2 cytochrome c1 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.333 * +EC1.10.2.2 cytochrome c1 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.07 * +EC1.10.2.2 cytochrome c1 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.13 * +EC1.10.2.2 cytochrome c1 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 3.9 * +EC1.10.2.2 cytochrome c1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.67 * +EC1.10.2.2 decylubiquinol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 143.0 * +EC1.10.2.2 horse heart cytochrome c1 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 4.17 * +EC1.10.2.2 rhodoquinol-3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 76.0 * +EC1.10.2.2 ubihydroquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 28.3 * +EC1.10.2.2 ubiquinol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 140.0 * +EC1.10.3.1 1-tert-butyl-catechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 641.0 * +EC1.10.3.1 2,3,4-trihydroxybenzoic acid lablab purpureus//*//* 3.05 * +EC1.10.3.1 3,4-dihydroxyphenyl acetic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 631.6 * +EC1.10.3.1 3,4-dihydroxyphenyl acetic acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 850.0 * +EC1.10.3.1 3,4-dihydroxyphenyl acetic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 142.0 * +EC1.10.3.1 3,4-dihydroxyphenyl propionic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 553.5 * +EC1.10.3.1 3,4-dihydroxyphenyl propionic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1830.0 * +EC1.10.3.1 3,4-dihydroxyphenylacetic acid lablab purpureus//*//* 11.48 * +EC1.10.3.1 4-hydroxyphenylpropionic acid streptomyces antibioticus//*//* 66.7 * +EC1.10.3.1 4-methylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 842.0 * +EC1.10.3.1 4-methylcatechol lablab purpureus//*//* 26.66 * +EC1.10.3.1 4-methylcatechol streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 2340.0 * +EC1.10.3.1 4-tert-butylcatechol lablab purpureus//*//* 48.05 * +EC1.10.3.1 caffeic acid lycopus europaeus//*//* 106.0 * +EC1.10.3.1 catechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 878.0 * +EC1.10.3.1 catechol lablab purpureus//*//* 7.48 * +EC1.10.3.1 catechol lycopus europaeus//*//* 160.0 * +EC1.10.3.1 catechol streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 395.0 * +EC1.10.3.1 chlorogenic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 176.0 * +EC1.10.3.1 chlorogenic acid lycopus europaeus//*//* 156.0 * +EC1.10.3.1 chlorogenic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 785.0 * +EC1.10.3.1 d-2-methyl-3,4-dihydroxyphenylalanine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 44.3 * +EC1.10.3.1 d-dopa agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 107.4 * +EC1.10.3.1 d-dopa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000338 * +EC1.10.3.1 d-dopa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 340.0 * +EC1.10.3.1 d-dopa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 184.0 * +EC1.10.3.1 d-isoproterenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 29.8 * +EC1.10.3.1 digallol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1263.0 * +EC1.10.3.1 dihydrocaffeic acid lycopus europaeus//*//* 113.0 * +EC1.10.3.1 dopamine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 439.0 * +EC1.10.3.1 dopamine aphonopelma californicum (nomen dubium)//*//* 6.0 * +EC1.10.3.1 dopamine lablab purpureus//*//* 4.9 * +EC1.10.3.1 dopamine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1350.0 * +EC1.10.3.1 dopamine scyllarides latus//*//* 282.0 * +EC1.10.3.1 dopamine streptomyces antibioticus//*//* 439.0 * +EC1.10.3.1 dopamine streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 875.0 * +EC1.10.3.1 l-2-methyl-3,4-dihydroxyphenylalanine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 44.3 * +EC1.10.3.1 l-3,4-dihydroxyphenylalanine methyl ester agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 35.5 * +EC1.10.3.1 l-adrenaline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.48e-06 * +EC1.10.3.1 l-dopa agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 107.4 * +EC1.10.3.1 l-dopa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000459 * +EC1.10.3.1 l-dopa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1070.0 * +EC1.10.3.1 l-dopa streptomyces antibioticus//*//* 141.1 * +EC1.10.3.1 l-dopa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1445.0 * +EC1.10.3.1 l-isoproterenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 29.4 * +EC1.10.3.1 l-noradrenaline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.12e-08 * +EC1.10.3.1 luteolin-7-glycoside lycopus europaeus//*//* 22.7 * +EC1.10.3.1 methyl 3-hydroxy-l-tyrosinate streptomyces antibioticus//*//* 8.9 * +EC1.10.3.1 myricetin lycopus europaeus//*//* 213.0 * +EC1.10.3.1 quercetin lycopus europaeus//*//* 193.0 * +EC1.10.3.1 rosmarinic acid lycopus europaeus//*//* 109.0 * +EC1.10.3.1 tert-butylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 641.8 * +EC1.10.3.1 tert-butylcatechol streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 3320.0 * +EC1.10.3.1 tyramine streptomyces antibioticus//*//* 25.9 * +EC1.10.3.1 verbascosid lycopus europaeus//*//* 150.0 * +EC1.10.3.10 ubiquinol-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 341.0 * +EC1.10.3.12 2,3-dimethyl-1,4-naphthoquinone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 65.0 * +EC1.10.3.13 caldariellaquinol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 393.0 * +EC1.10.3.13 ferrocytochrome c aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.5 * +EC1.10.3.13 n,n,n',n'-tetramethyl-1,4-phenylenediamine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 66.9 * +EC1.10.3.13 n,n,n',n'-tetramethyl-1,4-phenylenediamine sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 404.0 * +EC1.10.3.15 2-amino-4-methylphenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 18.0 * +EC1.10.3.15 3,4-dihydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.8 * +EC1.10.3.15 3-amino-4-hydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 14.0 * +EC1.10.3.15 catechol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 12.0 * +EC1.10.3.15 l-dopa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.066 * +EC1.10.3.15 o-aminophenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 20.0 * +EC1.10.3.2 1-hydroxybenzotriazole lentinus tigrinus//*//* 2.6 * +EC1.10.3.2 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 322.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) melanocarpus albomyces//*//* 28.1 * +EC1.10.3.2 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) phoma sp.//*//* 10.6 * +EC1.10.3.2 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) shigella dysenteriae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sdy 18.2 * +EC1.10.3.2 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) trametes hirsuta//*//* 197.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) trametes sanguinea//*//* 59.3 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzathiazoline-6-sulfonate) ceriporiopsis rivulosa//*//* 409.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonate) bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 83.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonate) perenniporia fraxinea//*//* 208.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonate) myrioconium sp.//*//* 0.29 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 291.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 127.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) cerrena sp. wr1//*//* 934.6 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 4.22 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) coprinus comatus//*//* 15.93 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) fusarium solani//*//* 107.1 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) ganoderma fornicatum//*//* 65.6 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) melanocarpus albomyces//*//* 109.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) mycothermus thermophilus//*//* 0.14 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) pleurotus ostreatus//*//* 20.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 1372.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) shiraia sp. super-h168//*//* 7109.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) toxicodendron vernicifluum//*//* 10.1 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) trametes cinnabarina//*//* 144.6 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) trametes hirsuta//*//* 196.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) trametes polyzona//*//* 594.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 130.0 * +EC1.10.3.2 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) tricholoma mongolicum//*//* 1480.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) agaricus blazei//*//* 21.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 22.4 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) basidiomycota//*//* 778.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) chaetomiaceae//*//* 26.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) cyathus bulleri//*//* 204.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) fomes sclerodermeus//*//* 199.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) melanocarpus albomyces//*//* 78.3 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) pleurotus ostreatus//*//* 158300.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) pleurotus pulmonarius//*//* 1520.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) trametes cinnabarina//*//* 272.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) trametes sanguinea//*//* 68.87 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) trametes sp.//*//* 2277.0 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 1.3 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) trichophyton rubrum//*//* 10.3 * +EC1.10.3.2 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonate) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 322.0 * +EC1.10.3.2 2,2,6,6-tetramethylpiperidin-n-oxide radical lentinus tigrinus//*//* 7.8 * +EC1.10.3.2 2,2-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 10.0 * +EC1.10.3.2 2,6-dimethoxyphenol agaricus blazei//*//* 15.0 * +EC1.10.3.2 2,6-dimethoxyphenol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.0 * +EC1.10.3.2 2,6-dimethoxyphenol bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 11.0 * +EC1.10.3.2 2,6-dimethoxyphenol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.0 * +EC1.10.3.2 2,6-dimethoxyphenol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 29.0 * +EC1.10.3.2 2,6-dimethoxyphenol ceriporiopsis rivulosa//*//* 481.0 * +EC1.10.3.2 2,6-dimethoxyphenol cerrena sp. wr1//*//* 109.2 * +EC1.10.3.2 2,6-dimethoxyphenol chaetomiaceae//*//* 34.0 * +EC1.10.3.2 2,6-dimethoxyphenol cyathus bulleri//*//* 180.0 * +EC1.10.3.2 2,6-dimethoxyphenol fomes sclerodermeus//*//* 218.0 * +EC1.10.3.2 2,6-dimethoxyphenol fusarium solani//*//* 121.0 * +EC1.10.3.2 2,6-dimethoxyphenol ganoderma fornicatum//*//* 38.5 * +EC1.10.3.2 2,6-dimethoxyphenol lentinus tigrinus//*//* 365.6 * +EC1.10.3.2 2,6-dimethoxyphenol melanocarpus albomyces//*//* 67.0 * +EC1.10.3.2 2,6-dimethoxyphenol mycothermus thermophilus//*//* 0.35 * +EC1.10.3.2 2,6-dimethoxyphenol myrioconium sp.//*//* 3.18 * +EC1.10.3.2 2,6-dimethoxyphenol perenniporia fraxinea//*//* 103.0 * +EC1.10.3.2 2,6-dimethoxyphenol phoma sp.//*//* 4.3 * +EC1.10.3.2 2,6-dimethoxyphenol pleurotus ostreatus//*//* 23800.0 * +EC1.10.3.2 2,6-dimethoxyphenol shiraia sp. super-h168//*//* 1476.0 * +EC1.10.3.2 2,6-dimethoxyphenol trametes cinnabarina//*//* 26.4 * +EC1.10.3.2 2,6-dimethoxyphenol trametes hirsuta//*//* 50.0 * +EC1.10.3.2 2,6-dimethoxyphenol trametes polyzona//*//* 38.2 * +EC1.10.3.2 2,6-dimethoxyphenol trametes sanguinea//*//* 6.91 * +EC1.10.3.2 2,6-dimethoxyphenol trametes sp.//*//* 189.0 * +EC1.10.3.2 2,6-dimethoxyphenol trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.51 * +EC1.10.3.2 2-dianisidine pleurotus ostreatus//*//* 20.7 * +EC1.10.3.2 2-dianisidine trametes sanguinea//*//* 9.4 * +EC1.10.3.2 2-methoxyphenol lentinus tigrinus//*//* 22.8 * +EC1.10.3.2 3-dimethylaminobenzoic acid basidiomycota//*//* 368.0 * +EC1.10.3.2 4-hydroxy-3,5-dimethoxybenzaldehyde azine melanocarpus albomyces//*//* 140.0 * +EC1.10.3.2 4-hydroxy-3,5-dimethoxybenzaldehyde azine toxicodendron vernicifluum//*//* 0.32 * +EC1.10.3.2 4-hydroxy-3,5-dimethoxybenzaldehyde azine trametes hirsuta//*//* 122.0 * +EC1.10.3.2 4-hydroxy-3,5-dimethoxybenzaldehyde azine trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 77.0 * +EC1.10.3.2 4-hydroxyindole chaetomiaceae//*//* 128.0 * +EC1.10.3.2 4-methoxyphenol lentinus tigrinus//*//* 36.3 * +EC1.10.3.2 4-methyl catechol lentinus tigrinus//*//* 93.9 * +EC1.10.3.2 anthraquinonic dye acid blue 62 phoma sp.//*//* 32.2 * +EC1.10.3.2 bilirubin haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 29.0 * +EC1.10.3.2 catechol cerrena sp. wr1//*//* 115.5 * +EC1.10.3.2 catechol chaetomiaceae//*//* 46.0 * +EC1.10.3.2 catechol fusarium solani//*//* 44.9 * +EC1.10.3.2 catechol lentinus tigrinus//*//* 34.4 * +EC1.10.3.2 catechol melanocarpus albomyces//*//* 88.0 * +EC1.10.3.2 catechol toxicodendron vernicifluum//*//* 2.6 * +EC1.10.3.2 catechol trametes hirsuta//*//* 202.0 * +EC1.10.3.2 catechol trametes polyzona//*//* 125.0 * +EC1.10.3.2 catechol trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 115.0 * +EC1.10.3.2 diamond black pv 200 athelia rolfsii//*//* 80.4 * +EC1.10.3.2 dicatechol pleurotus ostreatus//*//* 21.98 * +EC1.10.3.2 dicatechol trametes hirsuta//*//* 403.0 * +EC1.10.3.2 dopamine melanocarpus albomyces//*//* 116.0 * +EC1.10.3.2 dopamine toxicodendron vernicifluum//*//* 4.4 * +EC1.10.3.2 dopamine trametes hirsuta//*//* 184.0 * +EC1.10.3.2 dopamine trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 186.0 * +EC1.10.3.2 eugenol trametes hirsuta//*//* 428.0 * +EC1.10.3.2 ferrocenemonocarboxylic acid melanocarpus albomyces//*//* 75.0 * +EC1.10.3.2 ferrocenemonocarboxylic acid toxicodendron vernicifluum//*//* 0.92 * +EC1.10.3.2 ferrocenemonocarboxylic acid trametes hirsuta//*//* 137.0 * +EC1.10.3.2 ferrocenemonocarboxylic acid trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 83.0 * +EC1.10.3.2 ferrocyanide melanocarpus albomyces//*//* 64.0 * +EC1.10.3.2 ferrocyanide toxicodendron vernicifluum//*//* 0.1 * +EC1.10.3.2 ferrocyanide trametes hirsuta//*//* 108.0 * +EC1.10.3.2 ferrocyanide trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 215.0 * +EC1.10.3.2 ferulic acid cyathus bulleri//*//* 5.2 * +EC1.10.3.2 guaiacol agaricus blazei//*//* 159.0 * +EC1.10.3.2 guaiacol basidiomycota//*//* 42.1 * +EC1.10.3.2 guaiacol ceriporiopsis rivulosa//*//* 82.0 * +EC1.10.3.2 guaiacol cerrena sp. wr1//*//* 147.9 * +EC1.10.3.2 guaiacol chaetomiaceae//*//* 3.0 * +EC1.10.3.2 guaiacol coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.211 * +EC1.10.3.2 guaiacol cyathus bulleri//*//* 95.6 * +EC1.10.3.2 guaiacol fusarium solani//*//* 28.4 * +EC1.10.3.2 guaiacol ganoderma fornicatum//*//* 5.0 * +EC1.10.3.2 guaiacol melanocarpus albomyces//*//* 31.7 * +EC1.10.3.2 guaiacol phoma sp.//*//* 4.6 * +EC1.10.3.2 guaiacol pleurotus ostreatus//*//* 3.9 * +EC1.10.3.2 guaiacol pleurotus pulmonarius//*//* 310.0 * +EC1.10.3.2 guaiacol shiraia sp. super-h168//*//* 30.44 * +EC1.10.3.2 guaiacol trametes hirsuta//*//* 424.0 * +EC1.10.3.2 guaiacol trametes polyzona//*//* 92.2 * +EC1.10.3.2 guaiacol trametes sanguinea//*//* 3.0 * +EC1.10.3.2 guaiacol trametes sp.//*//* 140.0 * +EC1.10.3.2 homovanillic acid trametes hirsuta//*//* 408.0 * +EC1.10.3.2 hydroquinone chaetomiaceae//*//* 55.0 * +EC1.10.3.2 hydroquinone trametes hirsuta//*//* 455.0 * +EC1.10.3.2 k4(fecn6) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 54.5 * +EC1.10.3.2 k4[fe(cn)]6 trametes hirsuta//*//* 404.0 * +EC1.10.3.2 k4fe(cn)6 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 529.0 * +EC1.10.3.2 l-dopa trametes polyzona//*//* 83.2 * +EC1.10.3.2 methyl syringate trichophyton rubrum//*//* 5.5 * +EC1.10.3.2 n,n-dimethyl-1,4-phenylenediamine chaetomiaceae//*//* 18.0 * +EC1.10.3.2 n,n-dimethyl-4-phenylenediamine toxicodendron vernicifluum//*//* 350.0 * +EC1.10.3.2 n-acetyldopamine manduca sexta//*//* 4.83 * +EC1.10.3.2 n-beta-alanyldopamine manduca sexta//*//* 3.33 * +EC1.10.3.2 n-hydroxyacetanilide trichophyton rubrum//*//* 18.3 * +EC1.10.3.2 phenol trametes hirsuta//*//* 38.0 * +EC1.10.3.2 pyrogallol chaetomiaceae//*//* 10.0 * +EC1.10.3.2 sinapic acid trametes cinnabarina//*//* 52.8 * +EC1.10.3.2 sinapic acid trametes hirsuta//*//* 578.0 * +EC1.10.3.2 syringaldazine agaricus blazei//*//* 5.0 * +EC1.10.3.2 syringaldazine bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 100.0 * +EC1.10.3.2 syringaldazine bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 66.0 * +EC1.10.3.2 syringaldazine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 20.0 * +EC1.10.3.2 syringaldazine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 80.0 * +EC1.10.3.2 syringaldazine ceriporiopsis rivulosa//*//* 282.0 * +EC1.10.3.2 syringaldazine chaetomiaceae//*//* 4.0 * +EC1.10.3.2 syringaldazine haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 22.0 * +EC1.10.3.2 syringaldazine melanocarpus albomyces//*//* 92.0 * +EC1.10.3.2 syringaldazine myrioconium sp.//*//* 2.96 * +EC1.10.3.2 syringaldazine phoma sp.//*//* 1.5 * +EC1.10.3.2 syringaldazine pleurotus ostreatus//*//* 11670.0 * +EC1.10.3.2 syringaldazine pleurotus pulmonarius//*//* 654.0 * +EC1.10.3.2 syringaldazine podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 1.29 * +EC1.10.3.2 syringaldazine shiraia sp. super-h168//*//* 938.1 * +EC1.10.3.2 syringaldazine trametes sanguinea//*//* 65.8 * +EC1.10.3.2 syringaldazine trametes sp.//*//* 600.0 * +EC1.10.3.2 syringic acid basidiomycota//*//* 10.1 * +EC1.10.3.2 vanillic acid trametes hirsuta//*//* 102.0 * +EC1.10.3.2 vanillic alcohol trametes hirsuta//*//* 352.0 * +EC1.10.3.2 violuric acid lentinus tigrinus//*//* 8.4 * +EC1.10.3.2 violuric acid trichophyton rubrum//*//* 10.0 * +EC1.10.3.3 5,6-ene-l-ascorbate cucurbita pepo medullosa//*//* 639.0 * +EC1.10.3.3 5,6-isopropylidene-l-ascorbate cucurbita pepo medullosa//*//* 623.0 * +EC1.10.3.3 5-methyl-5-o-(alpha-d-glucopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.55 * +EC1.10.3.3 5-methyl-5-o-(alpha-d-xylopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.24 * +EC1.10.3.3 5-o-(alpha-d-glucopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.6 * +EC1.10.3.3 5-o-(alpha-d-xylopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 1.29 * +EC1.10.3.3 6-amino-l-ascorbate cucurbita pepo medullosa//*//* 546.0 * +EC1.10.3.3 6-bromo-l-ascorbate cucurbita pepo medullosa//*//* 702.0 * +EC1.10.3.3 6-deoxy-l-ascorbate cucurbita pepo medullosa//*//* 969.0 * +EC1.10.3.3 6-o-phenyl-l-ascorbate cucurbita pepo medullosa//*//* 473.0 * +EC1.10.3.3 6-s-phenyl-l-ascorbate cucurbita pepo medullosa//*//* 526.0 * +EC1.10.3.3 d-erythroascorbic acid pleurotus ostreatus//*//* 1.12 * +EC1.10.3.3 d-isoascorbate cucurbita pepo medullosa//*//* 804.0 * +EC1.10.3.3 l-ascorbate acremonium//eukaryotes;fungi;ascomycetes;sordariomycetes//tmn 3110.0 * +EC1.10.3.3 l-ascorbate cucurbita pepo condensa//*//* 10800.0 * +EC1.10.3.3 l-ascorbate cucurbita pepo medullosa//*//* 682.0 * +EC1.10.3.3 l-ascorbic acid pleurotus ostreatus//*//* 0.66 * +EC1.10.3.3 o2 acremonium//eukaryotes;fungi;ascomycetes;sordariomycetes//tmn 1130.0 * +EC1.10.3.4 2-amino-4-methylphenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 18.0 * +EC1.10.3.4 3,4-dihydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.8 * +EC1.10.3.4 3-amino-4-hydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 14.0 * +EC1.10.3.4 catechol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 12.0 * +EC1.10.3.4 l-dopa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.066 * +EC1.10.3.4 o-aminophenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 20.0 * +EC1.10.5.1 2,6-dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.8 * +EC1.10.5.1 3-(4,5-dimethylthiazaol-2-yl)-2,5-diphenyltetrazolium homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC1.10.5.1 5-(aziridin-1-yl)-2,4-dinitrobenzamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.10.5.1 cb 1954 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.10.5.1 dihydronicotinamide riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.33 * +EC1.10.5.1 menadione/3-(4,5-dimethylthiazaol-2-yl)-2,5-diphenyltetrazolium homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.33 * +EC1.10.5.1 methyl red homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.83 * +EC1.10.5.1 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC1.10.9.1 cytochrome c1 anabaena variabilis//*//* 0.333 * +EC1.10.9.1 cytochrome f chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 4.17 * +EC1.10.9.1 cytochrome f spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 14.0 * +EC1.11.1.1 h2o2 enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 66.7 * +EC1.11.1.1 nadh enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 83.3 * +EC1.11.1.10 (r)-limonene leptoxyphium fumago//*//* 18.7 * +EC1.11.1.10 2,3,5,6-tetrachloroaniline leptoxyphium fumago//*//* 35.95 * +EC1.11.1.10 2,3,5,6-tetrachlorophenol leptoxyphium fumago//*//* 60.8 * +EC1.11.1.10 2,4,6-trichlorophenol leptoxyphium fumago//*//* 11.28 * +EC1.11.1.10 4,6-dimethyldibenzothiophene leptoxyphium fumago//*//* 661.1 * +EC1.11.1.10 anthracene leptoxyphium fumago//*//* 8.0 * +EC1.11.1.10 chlorite leptoxyphium fumago//*//* 70000.0 * +EC1.11.1.10 monochlorodimedone musa x paradisiaca//*//* 1.64 * +EC1.11.1.10 naphthalene leptoxyphium fumago//*//* 4.5 * +EC1.11.1.10 pentachlorophenol leptoxyphium fumago//*//* 46.97 * +EC1.11.1.10 pyrene leptoxyphium fumago//*//* 56.6 * +EC1.11.1.10 pyrogallol musa x paradisiaca//*//* 26.56 * +EC1.11.1.10 styrene leptoxyphium fumago//*//* 30.9 * +EC1.11.1.11 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) panicum virgatum//*//* 0.4 * +EC1.11.1.11 ascorbate chlorella vulgaris//*//* 696.0 * +EC1.11.1.11 ascorbate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.53 * +EC1.11.1.11 ascorbate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC1.11.1.11 cytochrome c leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.83 * +EC1.11.1.11 guaiacol leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 2.5 * +EC1.11.1.11 guaiacol pisum sativum//*//* 66.0 * +EC1.11.1.11 h2o2 citrus limon//*//* 84.5 * +EC1.11.1.11 h2o2 euglena gracilis//*//* 577.0 * +EC1.11.1.11 h2o2 galdieria partita//*//* 2190.0 * +EC1.11.1.11 h2o2 gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 46.71 * +EC1.11.1.11 h2o2 nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1800.0 * +EC1.11.1.11 h2o2 populus tomentosa//*//* 2.03 * +EC1.11.1.11 l-ascorbate citrus limon//*//* 71.5 * +EC1.11.1.11 l-ascorbate euglena gracilis//*//* 754.0 * +EC1.11.1.11 l-ascorbate galdieria partita//*//* 1980.0 * +EC1.11.1.11 l-ascorbate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 260.0 * +EC1.11.1.11 l-ascorbate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2510.0 * +EC1.11.1.11 l-ascorbate pallavicinia lyellii//*//* 760.0 * +EC1.11.1.11 l-ascorbate panicum virgatum//*//* 161.0 * +EC1.11.1.11 l-ascorbate pisum sativum//*//* 248.0 * +EC1.11.1.11 l-ascorbate populus tomentosa//*//* 1.74 * +EC1.11.1.12 (beta-(13-hydroperoxy-cis-9,trans-11-octadecadienoyl)-gamma-palmitoyl)-l-alpha-phosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.0 * +EC1.11.1.13 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) schizophyllum sp.//*//* 87.1 * +EC1.11.1.13 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) lentinus tigrinus//*//* 20.2 * +EC1.11.1.13 2,2'-azinobis(3-ethylbenzthiazoline)-6-sulfonic acid lentinus tigrinus//*//* 20.2 * +EC1.11.1.13 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) mn2+ lentinus tigrinus//*//* 1.87 * +EC1.11.1.13 2,2-azino-di-3-ethylbenzothiazoline-6-sulfonate bjerkandera adusta//*//* 139.0 * +EC1.11.1.13 2,6-dimethoxyphenol bjerkandera adusta//*//* 320.0 * +EC1.11.1.13 2,6-dimethoxyphenol lentinus tigrinus//*//* 26.26 * +EC1.11.1.13 2,6-dimethoxyphenol phanerochaete flavidoalba//*//* 3.98 * +EC1.11.1.13 2,6-dimethoxyphenol pleurotus ostreatus//*//* 200.0 * +EC1.11.1.13 2,6-dimethoxyphenol schizophyllum sp.//*//* 69.0 * +EC1.11.1.13 ferrocyanide phanerochaete chrysosporium//*//* 4.0 * +EC1.11.1.13 guaiacol bjerkandera adusta//*//* 31.7 * +EC1.11.1.13 guaiacol lentinus tigrinus//*//* 8.92 * +EC1.11.1.13 guaiacol phanerochaete chrysosporium//*//* 56.0 * +EC1.11.1.13 guaiacol schizophyllum sp.//*//* 17.3 * +EC1.11.1.13 h2o2 bjerkandera adusta//*//* 225.0 * +EC1.11.1.13 h2o2 lentinus tigrinus//*//* 121.0 * +EC1.11.1.13 h2o2 phanerochaete chrysosporium//*//* 252.0 * +EC1.11.1.13 h2o2 pleurotus ostreatus//*//* 230.0 * +EC1.11.1.13 h2o2 schizophyllum sp.//*//* 373.0 * +EC1.11.1.13 h2o2 trichophyton rubrum//*//* 272.4 * +EC1.11.1.13 mn(ii) musa x paradisiaca//*//* 6.7 * +EC1.11.1.13 mn2+ bjerkandera adusta//*//* 150.0 * +EC1.11.1.13 mn2+ deuteromycotina sp.//*//* 161.0 * +EC1.11.1.13 mn2+ lentinus tigrinus//*//* 242.4 * +EC1.11.1.13 mn2+ phanerochaete chrysosporium//*//* 290.0 * +EC1.11.1.13 mn2+ phanerochaete flavidoalba//*//* 0.22 * +EC1.11.1.13 mn2+ pleurotus ostreatus//*//* 230.0 * +EC1.11.1.13 mn2+ schizophyllum sp.//*//* 479.7 * +EC1.11.1.13 mn2+ trichophyton rubrum//*//* 304.8 * +EC1.11.1.13 mn3+-tartrate phanerochaete chrysosporium//*//* 118.0 * +EC1.11.1.13 phenol red phanerochaete chrysosporium//*//* 66.0 * +EC1.11.1.13 pyrogallol lentinus tigrinus//*//* 20.95 * +EC1.11.1.13 vanillylacetone phanerochaete chrysosporium//*//* 97.0 * +EC1.11.1.13 veratryl alcohol bjerkandera adusta//*//* 39.5 * +EC1.11.1.13 veratryl alcohol lentinus tigrinus//*//* 0.45 * +EC1.11.1.14 2,4-dichlorophenol phanerochaete chrysosporium//*//* 37.2 * +EC1.11.1.14 h2o2 phanerochaete chrysosporium//*//* 10.83 * +EC1.11.1.14 h2o2 trametes sanguinea//*//* 2.13 * +EC1.11.1.14 methylene blue bjerkandera adusta//*//* 0.18 * +EC1.11.1.14 veratryl alcohol bjerkandera sp.//*//* 0.185 * +EC1.11.1.14 veratryl alcohol lenzites betulinus//*//* 2.3 * +EC1.11.1.14 veratryl alcohol loweporus lividus//*//* 2.5 * +EC1.11.1.14 veratryl alcohol trametes sanguinea//*//* 2.13 * +EC1.11.1.14 veratryl alcohol trametopsis cervina//*//* 17.7 * +EC1.11.1.15 cumene hydroperoxide fasciola hepatica//*//* 6.3 * +EC1.11.1.15 cumene hydroperoxide populus x canadensis//*//* 0.9 * +EC1.11.1.15 cumene hydroperoxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.281 * +EC1.11.1.15 cumene hydroperoxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 52.0 * +EC1.11.1.15 cumene hydroperoxide seriola lalandi//*//* 15.2 * +EC1.11.1.15 cumene hydroperoxide treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 9.8 * +EC1.11.1.15 cumene hydroperoxide xylella fastidiosa//prokaryotes;bacteria;gammaproteobacteria - others;xylella//xfa 0.41 * +EC1.11.1.15 ethyl hydroperoxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 52.7 * +EC1.11.1.15 h2o2 fasciola hepatica//*//* 15.8 * +EC1.11.1.15 h2o2 pisum sativum//*//* 10.6 * +EC1.11.1.15 h2o2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.67 * +EC1.11.1.15 h2o2 populus x canadensis//*//* 2.6 * +EC1.11.1.15 h2o2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.285 * +EC1.11.1.15 h2o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 957.0 * +EC1.11.1.15 h2o2 salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 55.1 * +EC1.11.1.15 h2o2 seriola lalandi//*//* 24.6 * +EC1.11.1.15 h2o2 toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.83 * +EC1.11.1.15 h2o2 treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 17.0 * +EC1.11.1.15 h2o2 xylella fastidiosa//prokaryotes;bacteria;gammaproteobacteria - others;xylella//xfa 1.1 * +EC1.11.1.15 phosphatidylcholine hydroperoxide populus x canadensis//*//* 2.1 * +EC1.11.1.15 reduced thioredoxin a vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 2.9 * +EC1.11.1.15 s128w ntd escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 52.2 * +EC1.11.1.15 t-butyl hydroperoxide seriola lalandi//*//* 10.4 * +EC1.11.1.15 t-butyl hydroperoxide treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 20.9 * +EC1.11.1.15 t-butyl hydroperoxide xylella fastidiosa//prokaryotes;bacteria;gammaproteobacteria - others;xylella//xfa 2.0 * +EC1.11.1.15 tert-butyl hydroperoxide fasciola hepatica//*//* 7.6 * +EC1.11.1.15 tert-butyl hydroperoxide populus x canadensis//*//* 1.5 * +EC1.11.1.15 tert-butyl hydroperoxide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 368.0 * +EC1.11.1.15 tert-butyl hydroperoxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 54.7 * +EC1.11.1.15 tert-butyl hydroperoxide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 2.79 * +EC1.11.1.15 thioredoxin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 9.65 * +EC1.11.1.15 thioredoxin treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 20.9 * +EC1.11.1.15 tryparedoxin 2 leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 37.0 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) bjerkandera fumosa//*//* 6.2 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) bjerkandera sp.//*//* 1.3 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) pleurotus eryngii//*//* 220.0 * +EC1.11.1.16 2,6-dimethoxyphenol bjerkandera fumosa//*//* 30.0 * +EC1.11.1.16 2,6-dimethoxyphenol bjerkandera sp.//*//* 2.3 * +EC1.11.1.16 2,6-dimethoxyphenol pleurotus eryngii//*//* 98.0 * +EC1.11.1.16 2,7-diaminofluorene bjerkandera fumosa//*//* 0.83 * +EC1.11.1.16 2-methylanthracene bjerkandera adusta//*//* 2.4 * +EC1.11.1.16 4-hydroquinone pleurotus eryngii//*//* 35.1 * +EC1.11.1.16 catechol pleurotus eryngii//*//* 185.0 * +EC1.11.1.16 guaiacol pleurotus eryngii//*//* 22.7 * +EC1.11.1.16 h2o2 bjerkandera sp.//*//* 75.0 * +EC1.11.1.16 h2o2 pleurotus eryngii//*//* 135.0 * +EC1.11.1.16 h2o2 rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 3.2 * +EC1.11.1.16 manganese(ii)-substituted polyoxometalate pleurotus eryngii//*//* 47.0 * +EC1.11.1.16 methoxyhydroquinone pleurotus eryngii//*//* 19.0 * +EC1.11.1.16 methylene blue bjerkandera adusta//*//* 2.92 * +EC1.11.1.16 mn2+ bjerkandera fumosa//*//* 3.9 * +EC1.11.1.16 mn2+ bjerkandera sp.//*//* 59.0 * +EC1.11.1.16 mn2+ pleurotus eryngii//*//* 298.0 * +EC1.11.1.16 p-dimethoxybenzene pleurotus eryngii//*//* 4.0 * +EC1.11.1.16 reactive black 5 bjerkandera adusta//*//* 4.8 * +EC1.11.1.16 reactive black 5 pleurotus eryngii//*//* 11.8 * +EC1.11.1.16 reactive blue 38 bjerkandera adusta//*//* 19.8 * +EC1.11.1.16 reactive blue 72 bjerkandera adusta//*//* 10.0 * +EC1.11.1.16 reactive violet 5 bjerkandera adusta//*//* 16.9 * +EC1.11.1.16 syringaldazine bjerkandera fumosa//*//* 6.1 * +EC1.11.1.16 syringol pleurotus eryngii//*//* 6.0 * +EC1.11.1.16 veratryl alcohol bjerkandera fumosa//*//* 26.8 * +EC1.11.1.16 veratryl alcohol bjerkandera sp.//*//* 2.8 * +EC1.11.1.16 veratryl alcohol pleurotus eryngii//*//* 13.0 * +EC1.11.1.19 1-amino-4-methylamino-2-sodium anthraquinone sulfonate geotrichum candidum//*//* 270.0 * +EC1.11.1.19 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) auricularia auricula-judae//*//* 368.0 * +EC1.11.1.19 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) irpex lacteus//*//* 224.0 * +EC1.11.1.19 2,6-dimethoxyphenol auricularia auricula-judae//*//* 90.0 * +EC1.11.1.19 2,6-dimethoxyphenol irpex lacteus//*//* 70.9 * +EC1.11.1.19 h2o2 anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 384.0 * +EC1.11.1.19 h2o2 auricularia auricula-judae//*//* 268.0 * +EC1.11.1.19 h2o2 geotrichum candidum//*//* 270.0 * +EC1.11.1.19 h2o2 irpex lacteus//*//* 419.0 * +EC1.11.1.19 h2o2 thermobifida fusca yx//*//* 9.0 * +EC1.11.1.19 reactive black 5 auricularia auricula-judae//*//* 3.0 * +EC1.11.1.19 reactive black 5 irpex lacteus//*//* 11.9 * +EC1.11.1.19 reactive blue 19 irpex lacteus//*//* 79.9 * +EC1.11.1.19 reactive blue 19 thermobifida fusca yx//*//* 10.0 * +EC1.11.1.19 reactive blue 5 anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 384.0 * +EC1.11.1.19 reactive blue 5 auricularia auricula-judae//*//* 256.0 * +EC1.11.1.19 reactive blue 5 geotrichum candidum//*//* 260.0 * +EC1.11.1.19 reactive blue 5 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0235 * +EC1.11.1.19 reactive blue 5 shewanella oneidensis mr-1//*//* 5.9 * +EC1.11.1.19 veratryl alcohol auricularia auricula-judae//*//* 0.86 * +EC1.11.1.19 veratryl alcohol irpex lacteus//*//* 2.7 * +EC1.11.1.20 (5z)-n-(2-hydroxyethyl)-7-[(1r,4s,5r,6r)-6-[(1e,3s)-3-hydroxyoct-1-en-1-yl]-2,3-dioxabicyclo[2.2.1]hept-5-yl]hept-5-enamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.11.1.20 (5z,9alpha,11alpha,13e,15s)-9,11-epidioxy-15-hydroxy-prosta-5,13-dienoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC1.11.1.20 cumene hydroperoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC1.11.1.20 h2o2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC1.11.1.20 prostaglandin h2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC1.11.1.20 prostamide h2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.11.1.20 t-butyl hydroperoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.11.1.20 tert-butyl hydroperoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.11.1.20 thioredoxin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 17.0 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 7.9 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17000.0 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 11.0 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11500.0 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 7.7 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 13.0 * +EC1.11.1.21 2-dianisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.48 * +EC1.11.1.21 3,3',5,5'-tetramethylbenzidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5220.0 * +EC1.11.1.21 ascorbate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 520.0 * +EC1.11.1.21 chlorpromazine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7940.0 * +EC1.11.1.21 h2o2 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 15680.0 * +EC1.11.1.21 h2o2 burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 15900.0 * +EC1.11.1.21 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18000.0 * +EC1.11.1.21 h2o2 geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 7600.0 * +EC1.11.1.21 h2o2 magnaporthe grisea//*//* 7010.0 * +EC1.11.1.21 h2o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 10200.0 * +EC1.11.1.21 h2o2 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 14100.0 * +EC1.11.1.21 h2o2 synechococcus elongatus pcc 7942//*//* 7200.0 * +EC1.11.1.21 h2o2 synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3500.0 * +EC1.11.1.21 h2o2 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 8000.0 * +EC1.11.1.21 isoniazid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.057 * +EC1.11.1.21 n,n,n',n'-tetramethyl-p-phenylenediamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7012.0 * +EC1.11.1.21 o-dianisidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 71.0 * +EC1.11.1.21 o-dianisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5600.0 * +EC1.11.1.21 pyrogallol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC1.11.1.21 pyrogallol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 630.0 * +EC1.11.1.23 (s)-2-hydroxypropylphosphonic acid pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.0028 * +EC1.11.1.5 1-methoxynaphthalene saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7e-05 * +EC1.11.1.5 2,2-azinobis(3-ethylbenzthiazolinesulfonic acid) shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 23.1 * +EC1.11.1.5 ascorbate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC1.11.1.5 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1510.0 * +EC1.11.1.5 ferrocytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 17.2 * +EC1.11.1.5 ferrocytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 23.6 * +EC1.11.1.5 ferrocytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2000.0 * +EC1.11.1.5 ferrocytochrome c2 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 17.7 * +EC1.11.1.5 ferrocytochrome c555 methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 3.05 * +EC1.11.1.5 guaiacol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.4 * +EC1.11.1.5 h2o2 geobacter sulfurreducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gsu 15.5 * +EC1.11.1.5 horse cytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 40.0 * +EC1.11.1.5 horse heart cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 850.3 * +EC1.11.1.5 pyrogallol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.0 * +EC1.11.1.5 rhodobacter capsulatus cytochrome c2 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 40.0 * +EC1.11.1.5 yeast cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1362.0 * +EC1.11.1.6 h2o2 bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 175000.0 * +EC1.11.1.6 h2o2 capra capra//*//* 217000.0 * +EC1.11.1.6 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26000.0 * +EC1.11.1.6 h2o2 gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 62800.0 * +EC1.11.1.6 h2o2 haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 3000.0 * +EC1.11.1.6 h2o2 komagataella pastoris//*//* 850000.0 * +EC1.11.1.6 h2o2 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 125000.0 * +EC1.11.1.6 h2o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 80000.0 * +EC1.11.1.6 h2o2 pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 29000.0 * +EC1.11.1.6 h2o2 talaromyces piceae//*//* 2830000.0 * +EC1.11.1.6 h2o2 thermus brockianus//prokaryotes;bacteria;deinococcus-thermus;thermus//tbc 360000.0 * +EC1.11.1.6 h2o2 xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 255000.0 * +EC1.11.1.6 h2o2 zavarzinia compransoris//*//* 23300.0 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) armoracia rusticana//*//* 810.0 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) glycine max//eukaryotes;plants;eudicots;pea family//gmx 2663.0 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.3 * +EC1.11.1.7 2,3-dimethoxyphenol armoracia rusticana//*//* 100.0 * +EC1.11.1.7 2-chloro-4-methoxyphenol armoracia rusticana//*//* 1900.0 * +EC1.11.1.7 3,3',5,5'-tetramethylbenzidine armoracia rusticana//*//* 790.0 * +EC1.11.1.7 3,3',5,5'-tetramethylbezidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.11.1.7 3,4-dimethoxyphenol armoracia rusticana//*//* 1800.0 * +EC1.11.1.7 3,5-dibromo-4-hydroxybenzonitrile bjerkandera adusta//*//* 6.8 * +EC1.11.1.7 3,5-dimethoxyphenol armoracia rusticana//*//* 90.0 * +EC1.11.1.7 3-(4-hydroxyphenyl)propanoic acid armoracia rusticana//*//* 300.0 * +EC1.11.1.7 3-methyltyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.8 * +EC1.11.1.7 4-aminophenol armoracia rusticana//*//* 1272.0 * +EC1.11.1.7 amplex red armoracia rusticana//*//* 240.0 * +EC1.11.1.7 br- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC1.11.1.7 cumene hydroperoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.1 * +EC1.11.1.7 cumene hydroperoxide mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 330.0 * +EC1.11.1.7 esculetin armoracia rusticana//*//* 890.0 * +EC1.11.1.7 guaiacol armoracia rusticana//*//* 990.0 * +EC1.11.1.7 guaiacol plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.3 * +EC1.11.1.7 h2o2 armoracia rusticana//*//* 201.8 * +EC1.11.1.7 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 76.0 * +EC1.11.1.7 h2o2 mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 13.0 * +EC1.11.1.7 h2o2 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.3 * +EC1.11.1.7 h2o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.13 * +EC1.11.1.7 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.3 * +EC1.11.1.7 m-hydroxyanisol armoracia rusticana//*//* 430.0 * +EC1.11.1.7 mn2+ pleurotus eryngii//*//* 298.0 * +EC1.11.1.7 n,n,n',n'-tetramethyl-p-phenylenediamine armoracia rusticana//*//* 650.0 * +EC1.11.1.7 o-phenylenediamine armoracia rusticana//*//* 528.0 * +EC1.11.1.7 o-phenylenediamine chromolaena odorata//*//* 744.6 * +EC1.11.1.7 o-toluidine armoracia rusticana//*//* 270.0 * +EC1.11.1.7 p-hydroxybenzoic acid armoracia rusticana//*//* 311.7 * +EC1.11.1.7 pentachlorophenol bjerkandera adusta//*//* 3.2 * +EC1.11.1.7 phenol armoracia rusticana//*//* 691.7 * +EC1.11.1.7 pyrogallol chromolaena odorata//*//* 102.5 * +EC1.11.1.7 reactive black 5 pleurotus eryngii//*//* 5.0 * +EC1.11.1.7 reduced 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) chromolaena odorata//*//* 2383.0 * +EC1.11.1.7 scn- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.6 * +EC1.11.1.7 tert-butyl hydroperoxide mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 320.0 * +EC1.11.1.7 veratryl alcohol pleurotus eryngii//*//* 8.0 * +EC1.11.1.8 3,3',5,5'-tetramethylbenzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.6 * +EC1.11.1.8 3,3'-dimethoxybenzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.9 * +EC1.11.1.8 3,3'-dimethylbenzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.5 * +EC1.11.1.8 benzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.11.1.8 br- ascophyllum nodosum//*//* 71.0 * +EC1.11.1.8 i- ascophyllum nodosum//*//* 75.0 * +EC1.11.1.9 cumene peroxide lucilia cuprina//*//* 35.78 * +EC1.11.1.9 gsh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 408.3 * +EC1.11.1.9 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 670.0 * +EC1.11.1.9 h2o2 lucilia cuprina//*//* 44.03 * +EC1.11.1.9 tert-butyl hydroperoxide lucilia cuprina//*//* 25.3 * +EC1.11.1.B2 br- curvularia inaequalis//*//* 200.0 * +EC1.11.1.B2 cl- curvularia inaequalis//*//* 23.0 * +EC1.11.1.B2 h2o2 curvularia inaequalis//*//* 183.0 * +EC1.11.1.B6 i- laminaria digitata//*//* 462.0 * +EC1.11.2.1 1,2-dimethoxy-4-(methoxymethyl)benzene agrocybe aegerita//*//* 720.0 * +EC1.11.2.1 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) agrocybe aegerita//*//* 283.0 * +EC1.11.2.1 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) marasmius rotula//*//* 25.0 * +EC1.11.2.1 2,2'-azinobis-(3-ethylbenzothiazoline-6-sulfonate) agrocybe aegerita//*//* 283.0 * +EC1.11.2.1 2,2'-azinobis-(3-ethylbenzothiazoline-6-sulfonate) coprinellus radians//*//* 123.0 * +EC1.11.2.1 2,6-dimethoxyphenol agrocybe aegerita//*//* 108.0 * +EC1.11.2.1 2,6-dimethoxyphenol coprinellus radians//*//* 2.0 * +EC1.11.2.1 2,6-dimethoxyphenol marasmius rotula//*//* 70.0 * +EC1.11.2.1 2-methyl-2-butene agrocybe aegerita//*//* 1257.0 * +EC1.11.2.1 benzene agrocybe aegerita//*//* 8.0 * +EC1.11.2.1 benzyl alcohol agrocybe aegerita//*//* 269.0 * +EC1.11.2.1 benzyl alcohol coprinellus radians//*//* 176.0 * +EC1.11.2.1 benzyl alcohol marasmius rotula//*//* 62.0 * +EC1.11.2.1 cyclohexane agrocybe aegerita//*//* 37.0 * +EC1.11.2.1 ethylbenzene agrocybe aegerita//*//* 410.0 * +EC1.11.2.1 h2o2 agrocybe aegerita//*//* 367.0 * +EC1.11.2.1 h2o2 coprinellus radians//*//* 471.0 * +EC1.11.2.1 h2o2 marasmius rotula//*//* 76.0 * +EC1.11.2.1 h2o2 sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.16 * +EC1.11.2.1 methyl 3,4-dimethoxybenzyl ether agrocybe aegerita//*//* 720.0 * +EC1.11.2.1 naphthalene agrocybe aegerita//*//* 166.0 * +EC1.11.2.1 naphthalene coprinellus radians//*//* 15.0 * +EC1.11.2.1 naphthalene marasmius rotula//*//* 33.0 * +EC1.11.2.1 propylbenzene agrocybe aegerita//*//* 194.0 * +EC1.11.2.1 pyridine agrocybe aegerita//*//* 0.21 * +EC1.11.2.1 tetrahydrofuran agrocybe aegerita//*//* 33.0 * +EC1.11.2.1 veratryl alcohol agrocybe aegerita//*//* 85.0 * +EC1.11.2.1 veratryl alcohol coprinellus radians//*//* 34.0 * +EC1.11.2.1 veratryl alcohol marasmius rotula//*//* 49.0 * +EC1.11.2.2 1-acetyl-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.0 * +EC1.11.2.2 1-chloro-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC1.11.2.2 1-methoxy-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.11.2.2 1-methyl-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC1.11.2.2 1-nitro-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC1.11.2.2 4-(methylsulfanyl)aniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC1.11.2.2 benzothiophene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC1.11.2.2 benzyl methyl sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC1.11.2.2 catechol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.2e-05 * +EC1.11.2.2 catechol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2e-05 * +EC1.11.2.2 cl- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.5 * +EC1.11.2.2 dopamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6e-06 * +EC1.11.2.2 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1e-07 * +EC1.11.2.2 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 320.0 * +EC1.11.2.2 nitrite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC1.11.2.2 phenyl propan-2-yl sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC1.11.2.2 scn- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.3e-06 * +EC1.11.2.2 scn- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6e-07 * +EC1.11.2.2 thioanisole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC1.11.2.2 thiocyanate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.5 * +EC1.11.2.5 3-methyl-l-tyrosine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.476 * +EC1.11.2.5 l-tyrosine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.205 * +EC1.12.1.2 ferrocyanide cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 372.0 * +EC1.12.1.2 h2 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 372.0 * +EC1.12.1.2 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 143.0 * +EC1.12.1.2 nadh cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 222.0 * +EC1.12.1.2 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 2.0 * +EC1.12.1.2 oxidized benzyl viologen cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 120.0 * +EC1.12.2.1 [fe] hydrogenase-cytochrome c3 complex desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 462.0 * +EC1.12.2.1 [fe] hydrogenase-cytochrome c3-cytochrome hmc complex desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 2.3 * +EC1.12.2.1 [fe] hydrogenase-cytochrome hmc complex desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.15 * +EC1.12.2.1 ferricytochrome c desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 49.0 * +EC1.12.2.1 ferricytochrome c3 desulfomicrobium norvegicum//*//* 38.0 * +EC1.12.2.1 ferricytochrome c3 desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 490.0 * +EC1.12.2.1 methyl viologen bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 3.6 * +EC1.12.2.1 mutant cytochrome c k101m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 51.0 * +EC1.12.2.1 mutant cytochrome c k15m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 45.0 * +EC1.12.2.1 mutant cytochrome c k26m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 44.0 * +EC1.12.2.1 mutant cytochrome c k57m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 48.0 * +EC1.12.2.1 mutant cytochrome c k58m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 45.0 * +EC1.12.2.1 mutant cytochrome c k60m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 46.0 * +EC1.12.2.1 mutant cytochrome c k72m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 42.0 * +EC1.12.2.1 mutant cytochrome c k94m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 45.0 * +EC1.12.2.1 mutant cytochrome c k95m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 45.0 * +EC1.12.2.1 mutant cytochrome c y65a desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 49.0 * +EC1.12.2.1 mutant cytochrome c y66l desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 47.0 * +EC1.12.2.1 mutant cytochrome c3 k10m desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 48.0 * +EC1.12.7.2 h2 clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 483.0 * +EC1.12.7.2 h2 sporomusa sphaeroides//*//* 0.683 * +EC1.12.98.1 coenzyme f0 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 2250.0 * +EC1.12.98.1 coenzyme f420 methanococcus voltae//prokaryotes;archaea;euryarchaeota;methanococcus//mvo 17.5 * +EC1.12.98.1 coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 2050.0 * +EC1.12.98.1 methyl viologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 4000.0 * +EC1.12.98.1 oxidized coenzyme f420 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 353.0 * +EC1.12.98.1 oxidized methyl viologen methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 9226.0 * +EC1.12.98.2 5,10-methenyltetrahydromethanopterin methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 975.0 * +EC1.12.98.2 5,10-methylenetetrahydromethanopterin methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 1462.0 * +EC1.12.99.6 abz-vaa allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 1500.0 * +EC1.12.99.6 benzyl viologen hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 240.0 * +EC1.12.99.6 cr6+ desulfomicrobium norvegicum//*//* 0.23 * +EC1.12.99.6 cr6+ desulfovibrio fructosivorans//*//* 0.09 * +EC1.12.99.6 cr6+ desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 1.3 * +EC1.12.99.6 methionaquinone hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 48.3 * +EC1.12.99.6 methyl viologen hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 20.0 * +EC1.12.99.6 methylene blue hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 560.0 * +EC1.13.11.1 2,3-dihydroxybenzoic acid rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.28 * +EC1.13.11.1 3-chlorocatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.18 * +EC1.13.11.1 3-methylcatechol acinetobacter radioresistens//*//* 1.59 * +EC1.13.11.1 3-methylcatechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.1 * +EC1.13.11.1 3-methylcatechol pseudomonas reinekei//*//* 2.3 * +EC1.13.11.1 3-methylcatechol ralstonia sp.//*//* 0.4 * +EC1.13.11.1 3-methylcatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 10.62 * +EC1.13.11.1 3-methylcatechol rhodococcus rhodochrous//*//* 9.5 * +EC1.13.11.1 4,5-dichlorocatechol acinetobacter radioresistens//*//* 0.18 * +EC1.13.11.1 4,5-difluorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.13.11.1 4-bromocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.63 * +EC1.13.11.1 4-chloro-5-fluorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.13.11.1 4-chlorocatechol acinetobacter radioresistens//*//* 0.83 * +EC1.13.11.1 4-chlorocatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 1.0 * +EC1.13.11.1 4-chlorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC1.13.11.1 4-chlorocatechol pseudomonas reinekei//*//* 1.7 * +EC1.13.11.1 4-chlorocatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.27 * +EC1.13.11.1 4-fluorocatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.0 * +EC1.13.11.1 4-fluorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.4 * +EC1.13.11.1 4-methylcatechol acinetobacter radioresistens//*//* 5.45 * +EC1.13.11.1 4-methylcatechol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 5.6 * +EC1.13.11.1 4-methylcatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.0 * +EC1.13.11.1 4-methylcatechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.6 * +EC1.13.11.1 4-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 12.0 * +EC1.13.11.1 4-methylcatechol pseudomonas reinekei//*//* 20.7 * +EC1.13.11.1 4-methylcatechol ralstonia sp.//*//* 1.6 * +EC1.13.11.1 4-methylcatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 7.32 * +EC1.13.11.1 4-methylcatechol rhodococcus rhodochrous//*//* 6.3 * +EC1.13.11.1 catechol acinetobacter radioresistens//*//* 48.7 * +EC1.13.11.1 catechol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.0 * +EC1.13.11.1 catechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 20.0 * +EC1.13.11.1 catechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.2 * +EC1.13.11.1 catechol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 26.7 * +EC1.13.11.1 catechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 54.0 * +EC1.13.11.1 catechol pseudomonas reinekei//*//* 8.7 * +EC1.13.11.1 catechol ralstonia sp.//*//* 9.6 * +EC1.13.11.1 catechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 10.23 * +EC1.13.11.1 catechol rhodococcus rhodochrous//*//* 11.6 * +EC1.13.11.1 hydroxyquinol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.28 * +EC1.13.11.1 protocatechuate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.04 * +EC1.13.11.1 pyrogallol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 2.41 * +EC1.13.11.11 5-fluoro-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.4 * +EC1.13.11.11 5-fluoro-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.13.11.11 5-hydroxy-d-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00967 * +EC1.13.11.11 5-hydroxy-l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC1.13.11.11 5-hydroxy-l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0433 * +EC1.13.11.11 5-methyl-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 3.59 * +EC1.13.11.11 6-fluoro-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 37.3 * +EC1.13.11.11 6-methyl-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 41.0 * +EC1.13.11.11 d-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.07 * +EC1.13.11.11 d-trp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.18 * +EC1.13.11.11 d-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.13.11.11 d-tryptophan micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 0.0068 * +EC1.13.11.11 indole micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 0.248 * +EC1.13.11.11 l-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.55 * +EC1.13.11.11 l-trp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.65 * +EC1.13.11.11 l-trp xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 19.5 * +EC1.13.11.11 l-tryptophan anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 2.03 * +EC1.13.11.11 l-tryptophan danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.6 * +EC1.13.11.11 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.12 * +EC1.13.11.11 l-tryptophan micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 0.045 * +EC1.13.11.11 l-tryptophan monodelphis domestica//eukaryotes;animals;vertebrates;mammals//mdo 19.0 * +EC1.13.11.11 l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.8 * +EC1.13.11.11 l-tryptophan ornithorhynchus anatinus//eukaryotes;animals;vertebrates;mammals//oaa 4.3 * +EC1.13.11.11 l-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 35.4 * +EC1.13.11.11 l-tryptophan xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 2.2 * +EC1.13.11.11 o2 xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 35.4 * +EC1.13.11.11 serotonin micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 0.028 * +EC1.13.11.11 serotonin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00283 * +EC1.13.11.11 tryptamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00483 * +EC1.13.11.12 (5z,8z,11z,14z)-eicosatetra-5,8,11,14-enoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.71 * +EC1.13.11.12 (6z,9z,12z)-octadeca-6,9,12-trienoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 18.58 * +EC1.13.11.12 (9z,12z)-octadeca-9,12-dienoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 2.611 * +EC1.13.11.12 (9z,12z,15z)-9,12,15-octadecatrienoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.566 * +EC1.13.11.12 linoleic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 64.0 * +EC1.13.11.12 linoleic acid olea europaea//eukaryotes;plants;eudicots;olive family//oeu 48.16 * +EC1.13.11.12 linolenic acid olea europaea//eukaryotes;plants;eudicots;olive family//oeu 47.78 * +EC1.13.11.15 2,3-dihydroxybenzoate brevibacterium fuscum//*//* 0.02 * +EC1.13.11.15 3,4-dihydroxyphenylacetate arthrobacter globiformis//*//* 4.6 * +EC1.13.11.15 3,4-dihydroxyphenylacetate brevibacterium fuscum//*//* 10.0 * +EC1.13.11.15 4-nitrocatechol brevibacterium fuscum//*//* 0.4 * +EC1.13.11.16 3-(2,3-dihydroxyphenyl)propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC1.13.11.16 3-methylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC1.13.11.16 catechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC1.13.11.2 3,5-dimethylcatechol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.66 * +EC1.13.11.2 3-methylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 190.0 * +EC1.13.11.2 3-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 490.0 * +EC1.13.11.2 3-methylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 25.0 * +EC1.13.11.2 3-methylcatechol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 118.0 * +EC1.13.11.2 3-methylcatechol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.2 * +EC1.13.11.2 4-chlorocatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 45.0 * +EC1.13.11.2 4-methylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 930.0 * +EC1.13.11.2 4-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 930.0 * +EC1.13.11.2 4-methylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 64.0 * +EC1.13.11.2 4-methylcatechol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.7 * +EC1.13.11.2 catechol acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 31.3 * +EC1.13.11.2 catechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 690.0 * +EC1.13.11.2 catechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 930.0 * +EC1.13.11.2 catechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 493.0 * +EC1.13.11.2 catechol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 200.0 * +EC1.13.11.2 catechol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 238.0 * +EC1.13.11.2 catechol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.8 * +EC1.13.11.20 l-cysteine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.0 * +EC1.13.11.20 l-cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.39 * +EC1.13.11.20 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC1.13.11.20 l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.6 * +EC1.13.11.20 l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.62 * +EC1.13.11.20 l-cysteine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.33 * +EC1.13.11.24 fisetin penicillium olsonii//*//* 56.7 * +EC1.13.11.24 galangin penicillium olsonii//*//* 33.3 * +EC1.13.11.24 kaempferol penicillium olsonii//*//* 466.7 * +EC1.13.11.24 o2 streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 19.0 * +EC1.13.11.24 quercetin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 25.0 * +EC1.13.11.24 quercetin penicillium olsonii//*//* 166.7 * +EC1.13.11.24 quercetin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 40.1 * +EC1.13.11.27 (4-hydroxyphenyl)-pyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 6.8 * +EC1.13.11.27 4-hydroxyphenylpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.8 * +EC1.13.11.27 4-hydroxyphenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC1.13.11.27 4-hydroxyphenylpyruvate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 9.9 * +EC1.13.11.27 4-hydroxyphenylpyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 6.8 * +EC1.13.11.3 3,4-dihydroxybenzoate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 120.0 * +EC1.13.11.3 3,4-dihydroxybenzoate brevibacterium fuscum//*//* 417.0 * +EC1.13.11.3 3,4-dihydroxybenzoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 758.0 * +EC1.13.11.3 3,4-dihydroxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 68.0 * +EC1.13.11.3 4-sulfocatechol agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 14.6 * +EC1.13.11.3 o2 acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 120.0 * +EC1.13.11.3 o2 brevibacterium fuscum//*//* 69.5 * +EC1.13.11.3 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 68.0 * +EC1.13.11.3 protocatechuate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 89.5 * +EC1.13.11.3 protocatechuate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 100.0 * +EC1.13.11.31 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC1.13.11.31 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC1.13.11.31 linoleic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 47.23 * +EC1.13.11.31 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.1 * +EC1.13.11.31 o2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 13.7 * +EC1.13.11.33 (16(s),5z,8z,11z,14z)-16-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.51 * +EC1.13.11.33 (17(r),5z,8z,11z,14z)-17-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC1.13.11.33 (17(s),5z,8z,11z,14z)-17-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.24 * +EC1.13.11.33 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC1.13.11.33 arachidonic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 97.0 * +EC1.13.11.33 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.93 * +EC1.13.11.33 arachidonic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.16 * +EC1.13.11.33 linoleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.8 * +EC1.13.11.33 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC1.13.11.33 o2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 13.7 * +EC1.13.11.34 arachidonic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 25.0 * +EC1.13.11.34 linoleic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 138.0 * +EC1.13.11.36 catechol phenylobacterium immobile//*//* 13.3 * +EC1.13.11.37 6-chlorohydroxyquinol streptomyces rochei//*//* 72.3 * +EC1.13.11.37 benzene-1,2,4-triol pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 29.0 * +EC1.13.11.37 hydroxyquinol burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 6.35 * +EC1.13.11.37 hydroxyquinol streptomyces rochei//*//* 11.4 * +EC1.13.11.38 1-hydroxy-2-naphthoate nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 114.0 * +EC1.13.11.38 1-hydroxy-2-naphthoate pseudaminobacter salicylatoxidans//*//* 44.0 * +EC1.13.11.38 2-hydroxy-1-naphthoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 70.4 * +EC1.13.11.39 2'-chloro-2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 7.5 * +EC1.13.11.39 2,3-dihydroxybiphenyl dyella ginsengisoli//*//* 84.1 * +EC1.13.11.39 2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 16.5 * +EC1.13.11.39 2,3-dihydroxybiphenyl rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 40.0 * +EC1.13.11.39 3'-chloro-2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 12.0 * +EC1.13.11.39 3-chlorocatechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 15.0 * +EC1.13.11.39 3-formylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.8 * +EC1.13.11.39 3-methylcatechol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 21.63 * +EC1.13.11.39 3-methylcatechol dyella ginsengisoli//*//* 16.0 * +EC1.13.11.39 3-methylcatechol rhodococcus globerulus//*//* 13.6 * +EC1.13.11.39 3-methylcatechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 14.0 * +EC1.13.11.39 3-methylcatechol uncultured bacterium//*//* 44.0 * +EC1.13.11.39 4'-chloro-2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 18.8 * +EC1.13.11.39 4-chlorocatechol dyella ginsengisoli//*//* 1.0 * +EC1.13.11.39 4-methylcatechol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 43.2 * +EC1.13.11.39 4-methylcatechol dyella ginsengisoli//*//* 0.7 * +EC1.13.11.39 4-methylcatechol rhodococcus globerulus//*//* 0.36 * +EC1.13.11.39 4-methylcatechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 2.0 * +EC1.13.11.39 biphenyl-2,3-diol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 86.32 * +EC1.13.11.39 biphenyl-2,3-diol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 115.0 * +EC1.13.11.39 biphenyl-2,3-diol uncultured bacterium//*//* 165.0 * +EC1.13.11.39 catechol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 52.56 * +EC1.13.11.39 catechol dyella ginsengisoli//*//* 6.7 * +EC1.13.11.39 catechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 32.5 * +EC1.13.11.39 catechol rhodococcus globerulus//*//* 0.92 * +EC1.13.11.39 catechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 50.0 * +EC1.13.11.39 catechol uncultured bacterium//*//* 38.0 * +EC1.13.11.4 1-hydroxy 2 naphthoate xanthobacter polyaromaticivorans//*//* 6.08 * +EC1.13.11.4 1-hydroxy-2-naphthoate pseudaminobacter salicylatoxidans//*//* 44.0 * +EC1.13.11.4 1-hydroxynaphthalene-2-carboxylic acid pseudaminobacter salicylatoxidans//*//* 24.0 * +EC1.13.11.4 2,5-dihydroxybenzoate xanthobacter polyaromaticivorans//*//* 5.5 * +EC1.13.11.4 3,4-dichlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.2 * +EC1.13.11.4 3,5-dibromosalicylate pseudaminobacter salicylatoxidans//*//* 0.02 * +EC1.13.11.4 3-aminosalicylate pseudaminobacter salicylatoxidans//*//* 4.0 * +EC1.13.11.4 3-bromosalicylate pseudaminobacter salicylatoxidans//*//* 0.3 * +EC1.13.11.4 3-chlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.4 * +EC1.13.11.4 3-hydroxysalicylate pseudaminobacter salicylatoxidans//*//* 0.5 * +EC1.13.11.4 3-methylsalicylate pseudaminobacter salicylatoxidans//*//* 2.9 * +EC1.13.11.4 4-bromosalicylate pseudaminobacter salicylatoxidans//*//* 0.7 * +EC1.13.11.4 4-chlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.8 * +EC1.13.11.4 4-hydroxysalicylate pseudaminobacter salicylatoxidans//*//* 0.2 * +EC1.13.11.4 4-methylsalicylate pseudaminobacter salicylatoxidans//*//* 0.3 * +EC1.13.11.4 5-aminosalicylate pseudaminobacter salicylatoxidans//*//* 59.3 * +EC1.13.11.4 5-bromosalicylate pseudaminobacter salicylatoxidans//*//* 0.1 * +EC1.13.11.4 5-chlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.5 * +EC1.13.11.4 5-fluorosalicylate pseudaminobacter salicylatoxidans//*//* 3.6 * +EC1.13.11.4 5-methylsalicylate pseudaminobacter salicylatoxidans//*//* 14.3 * +EC1.13.11.4 gentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 367.0 * +EC1.13.11.4 gentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 322.0 * +EC1.13.11.4 gentisate pseudaminobacter salicylatoxidans//*//* 225.0 * +EC1.13.11.4 salicylate pseudaminobacter salicylatoxidans//*//* 2.3 * +EC1.13.11.40 (15s)-hydroperoxyeicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC1.13.11.40 (15s)-hydroxyeicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC1.13.11.40 (8r)-8-hydroperoxy-5,9,11,14-eicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.0 * +EC1.13.11.40 (8s)-hydroxyeicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.5 * +EC1.13.11.40 arachidonate plexaura homomalla//*//* 206.0 * +EC1.13.11.40 arachidonic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC1.13.11.40 arachidonic acid plexaura homomalla//*//* 66.7 * +EC1.13.11.45 alpha-linolenic acid gaeumannomyces graminis//*//* 40.0 * +EC1.13.11.45 linoleate gaeumannomyces graminis//*//* 40.0 * +EC1.13.11.45 linoleic acid gaeumannomyces graminis//*//* 18.3 * +EC1.13.11.45 o2 gaeumannomyces graminis//*//* 23.3 * +EC1.13.11.46 2-oxo-4-phenylbutanoic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.17 * +EC1.13.11.46 4-fluorophenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.077 * +EC1.13.11.46 4-hydroxyphenylpyruvate amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 3.7 * +EC1.13.11.46 4-hydroxyphenylpyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 4.5 * +EC1.13.11.46 4-methoxyphenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.96 * +EC1.13.11.46 4-methylphenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.13 * +EC1.13.11.46 4-nitrophenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.035 * +EC1.13.11.46 phenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.88 * +EC1.13.11.47 1h-3-hydroxy-4-oxoquinaldine paenarthrobacter nitroguajacolicus//*//* 38.4 * +EC1.13.11.47 1h-3-hydroxy-4-oxoquinoline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 20.6 * +EC1.13.11.48 3-hydroxy-2-methyl-1h-quinolin-4-one paenarthrobacter ilicis//*//* 145.0 * +EC1.13.11.48 o2 paenarthrobacter nitroguajacolicus//*//* 42.0 * +EC1.13.11.49 chlorite dechloromonas agitata//*//* 7550.0 * +EC1.13.11.49 chlorite dechloromonas aromatica//prokaryotes;bacteria;betaproteobacteria;dechloromonas//dar 200000.0 * +EC1.13.11.49 chlorite ideonella dechloratans//*//* 1800.0 * +EC1.13.11.49 chlorite nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 190.0 * +EC1.13.11.49 chlorite nitrospira defluvii//prokaryotes;bacteria;nitrospirae;nitrospira//nde 960.0 * +EC1.13.11.5 3-chlorohomogentisate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC1.13.11.5 3-methylhomogentisate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC1.13.11.5 homogentisate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 64.3 * +EC1.13.11.5 homogentisate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 79.5 * +EC1.13.11.50 1,1,1-trifluoro-2,4-pentanedione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.0049 * +EC1.13.11.50 1,1,1-trifluoro-pentane-2,4-dione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 6.6 * +EC1.13.11.50 1,1-difluoro-2,4-pentanedione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.036 * +EC1.13.11.50 1,1-difluoropentane-2,4-dione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.036 * +EC1.13.11.50 4,4-difluoro-1-phenyl-1,3-butanedione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.00043 * +EC1.13.11.50 acetylacetate acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 8.5 * +EC1.13.11.50 pentane-2,4-dione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 8.5 * +EC1.13.11.52 1-methyl-l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC1.13.11.52 5-fluoro-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.76 * +EC1.13.11.52 5-hydroxy-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.13.11.52 5-methyl-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.78 * +EC1.13.11.52 d-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC1.13.11.52 kynurenine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC1.13.11.52 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC1.13.11.52 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC1.13.11.53 1,2-dihydroxy-3-keto-1-hexene klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 500.0 * +EC1.13.11.53 o2 klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 500.0 * +EC1.13.11.54 1,2-dihydroxy-3-oxopent-1-ene oryza sativa//eukaryotes;plants;monocots;grass family//osa 11.7 * +EC1.13.11.54 1,2-dihydroxyhex-1-en-3-one klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 260.0 * +EC1.13.11.54 o2 klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 260.0 * +EC1.13.11.54 o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 11.8 * +EC1.13.11.55 sulfur acidianus ambivalens//*//* 2.2 * +EC1.13.11.58 9e,11z,14z-20:3omega6 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC1.13.11.58 arachidonate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 1.3 * +EC1.13.11.58 linoleate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 310.0 * +EC1.13.11.58 linoleate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 8.7 * +EC1.13.11.58 linoleate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 390.0 * +EC1.13.11.6 3-hydroxyanthranilate cupriavidus metallidurans//prokaryotes;bacteria;betaproteobacteria;cupriavidus//rme 25.0 * +EC1.13.11.60 (11z)-icos-11-enoic acid aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 5.9 * +EC1.13.11.60 linoleate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 6.3 * +EC1.13.11.60 linoleate gaeumannomyces graminis//*//* 15.0 * +EC1.13.11.60 oleate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 4.95 * +EC1.13.11.60 palmitoleate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 3.5 * +EC1.13.11.63 alpha-carotene galleria mellonella//*//* 0.00817 * +EC1.13.11.63 alpha-carotene gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0083 * +EC1.13.11.63 alpha-carotene uncultured marine bacterium//*//* 0.001 * +EC1.13.11.63 beta-apo-4'-carotenal gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.015 * +EC1.13.11.63 beta-apo-4'-carotenal uncultured marine bacterium//*//* 0.01 * +EC1.13.11.63 beta-apo-8'-carotenal gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0183 * +EC1.13.11.63 beta-carotene galleria mellonella//*//* 0.00867 * +EC1.13.11.63 beta-carotene gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0275 * +EC1.13.11.63 beta-carotene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC1.13.11.63 beta-carotene mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0001 * +EC1.13.11.63 beta-carotene uncultured marine bacterium//*//* 0.037 * +EC1.13.11.63 beta-cryptoxanthin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0333 * +EC1.13.11.63 beta-cryptoxanthin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.668 * +EC1.13.11.63 beta-cryptoxanthin uncultured marine bacterium//*//* 0.013 * +EC1.13.11.63 gamma-carotene gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0082 * +EC1.13.11.63 gamma-carotene uncultured marine bacterium//*//* 0.0003 * +EC1.13.11.65 3-hydroxy-beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 764.3 * +EC1.13.11.65 3-hydroxy-beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1308.0 * +EC1.13.11.65 alpha-carotene galleria mellonella//*//* 0.0082 * +EC1.13.11.65 apo-8'-carotenal plesiocystis pacifica sir-1//*//* 4.9 * +EC1.13.11.65 apo-8'-carotenal sphingopyxis alaskensis//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sal 4.9 * +EC1.13.11.65 beta,beta-carotene galleria mellonella//*//* 0.0087 * +EC1.13.11.65 beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 561.7 * +EC1.13.11.65 beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 392.7 * +EC1.13.11.66 2,6-dibromohydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.61 * +EC1.13.11.66 2,6-dichloro-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 2.1 * +EC1.13.11.66 2,6-dichlorohydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 3.05 * +EC1.13.11.66 2,6-dimethylhydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.25 * +EC1.13.11.66 2-chloro-6-methylhydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 2.41 * +EC1.13.11.66 hydroquinone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.1 * +EC1.13.11.66 hydroquinone sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 13.5 * +EC1.13.11.66 o2 sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 4.8 * +EC1.13.11.71 beta-carotene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC1.13.11.72 2-hydroxyethylphosphonate streptomyces viridochromogenes//*//* 0.35 * +EC1.13.11.73 (r)-2-hydroxyethylphosphonate nitrosopumilus maritimus//prokaryotes;archaea;thaumarchaeota;nitrosopumilus//nmr 0.17 * +EC1.13.11.73 (s)-2-hydroxyethylphosphonate nitrosopumilus maritimus//prokaryotes;archaea;thaumarchaeota;nitrosopumilus//nmr 0.17 * +EC1.13.11.73 2-hydroxyethylphosphonate nitrosopumilus maritimus//prokaryotes;archaea;thaumarchaeota;nitrosopumilus//nmr 0.18 * +EC1.13.11.74 2-aminophenol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 147.0 * +EC1.13.11.75 3-hydroxy-beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 764.0 * +EC1.13.11.75 3-hydroxy-beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1307.0 * +EC1.13.11.75 beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 561.0 * +EC1.13.11.75 beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 392.0 * +EC1.13.11.79 fmnh2 sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.018 * +EC1.13.11.79 nadh sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.002 * +EC1.13.11.79 nadph sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.002 * +EC1.13.11.8 protocatechuate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 350.0 * +EC1.13.11.80 (3,5-dihydroxyphenyl)acetyl-coa amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.17 * +EC1.13.11.80 (3,5-dihydroxyphenyl)acetyl-coa streptomyces toyocaensis//*//* 0.172 * +EC1.13.11.80 (3-hydroxyphenyl)acetyl-coa streptomyces toyocaensis//*//* 0.222 * +EC1.13.11.80 (5-hydroxyphenyl)acetyl-coa streptomyces toyocaensis//*//* 0.125 * +EC1.13.11.80 phenylacetyl-coa amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.017 * +EC1.13.11.80 phenylacetyl-coa streptomyces toyocaensis//*//* 0.064 * +EC1.13.11.81 7,8-dihydroneopterin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0011 * +EC1.13.11.B6 (9z,12z)-octadeca-9,12-dienoic acid nakataea oryzae//*//* 8.3 * +EC1.13.11.B6 linoleate olea europaea//eukaryotes;plants;eudicots;olive family//oeu 48.6 * +EC1.13.11.B6 linoleate pisum sativum//*//* 78.0 * +EC1.13.11.B6 linoleate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 106.0 * +EC1.13.11.B6 linolenate olea europaea//eukaryotes;plants;eudicots;olive family//oeu 47.8 * +EC1.13.12.15 3,4-dihydroxy-l-phenylalanine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.68 * +EC1.13.12.16 1-nitrobutane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6.2 * +EC1.13.12.16 1-nitrohexane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.7 * +EC1.13.12.16 1-nitropentane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.3 * +EC1.13.12.16 1-nitropropane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1300.0 * +EC1.13.12.16 2-nitropropane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6400.0 * +EC1.13.12.16 3-nitropropionate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.4 * +EC1.13.12.16 butyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 56.0 * +EC1.13.12.16 ethyl nitronate cyberlindnera saturnus//*//* 4100.0 * +EC1.13.12.16 ethyl nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2000.0 * +EC1.13.12.16 ethylnitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 57.0 * +EC1.13.12.16 hexyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 22.0 * +EC1.13.12.16 nitroethane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2000.0 * +EC1.13.12.16 pentyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 35.0 * +EC1.13.12.16 propionate 3-nitronate cyberlindnera saturnus//*//* 860.0 * +EC1.13.12.16 propionate-3-nitronate cyberlindnera saturnus//*//* 775.0 * +EC1.13.12.16 propionate-3-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 430.0 * +EC1.13.12.16 propyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1300.0 * +EC1.13.12.16 propyl-2-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6400.0 * +EC1.13.12.19 2-oxoglutarate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.5 * +EC1.13.12.2 l-lysine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 34.7 * +EC1.13.12.22 [4,5-dihydroxy-10-oxo-3-(3-oxobutanoyl)-9,10-dihydroanthracen-2-yl]acetate streptomyces nogalater//*//* 1.5 * +EC1.13.12.3 d,l-3-phenyl-2-hydrazinopropanoic acid pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 1.67e-05 * +EC1.13.12.3 d,l-3-pyridylalanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.00075 * +EC1.13.12.3 d,l-n-methyl-phenylalanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.000317 * +EC1.13.12.3 l-alanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.000317 * +EC1.13.12.3 l-methionine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.00155 * +EC1.13.12.3 l-phenylalanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.00305 * +EC1.13.12.3 l-tryptophan pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 13.2 * +EC1.13.12.3 tryptophan pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 13.2 * +EC1.13.12.4 (s)-lactate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0148 * +EC1.13.12.5 benzylluciferin methyl ether renilla reniformis//*//* 0.983 * +EC1.13.12.5 benzylluciferin renilla reniformis//*//* 1.85 * +EC1.13.12.5 coelenterazine renilla sp.//*//* 3.9 * +EC1.13.12.5 luciferin renilla reniformis//*//* 1.85 * +EC1.13.12.5 methyl luciferin renilla reniformis//*//* 0.0167 * +EC1.13.12.6 cypridina luciferin vargula hilgendorfii//*//* 26.7 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1,3-benzoxazol-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.0018 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1-benzofuran-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.00063 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1-benzothiophen-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.0067 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1h-benzimidazol-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.00051 * +EC1.13.12.7 d-luciferin photinus pyralis//*//* 0.19 * +EC1.13.12.7 d-luciferyl-o-adenosine monophosphate photinus pyralis//*//* 0.23 * +EC1.13.12.7 lauric acid luciola cruciata//*//* 0.651 * +EC1.13.12.7 lauric acid photinus pyralis//*//* 0.278 * +EC1.13.12.7 linolenic acid photinus pyralis//*//* 0.13 * +EC1.13.12.7 luciferin photinus pyralis//*//* 1.6 * +EC1.13.12.7 mgatp2- photinus pyralis//*//* 0.167 * +EC1.13.12.9 l-phenylalanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 115.0 * +EC1.13.99.1 inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.22 * +EC1.13.99.1 myo-inositol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.183 * +EC1.14.11.1 (3s)-3-fluoro-4-(trimethylammonio)butanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC1.14.11.1 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC1.14.11.1 4-(trimethylammonio)butanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC1.14.11.1 gamma-butyrobetaine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 34.0 * +EC1.14.11.16 first epidermal growth factor-like domain bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0317 * +EC1.14.11.17 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC1.14.11.17 taurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC1.14.11.2 (pro-pro-gly)10 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 7.0 * +EC1.14.11.2 (pro-pro-gly)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC1.14.11.2 (ser-pro)5 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 19.0 * +EC1.14.11.2 daltllapaagdtiisldyg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0103 * +EC1.14.11.2 dansyl-gly-phe-pro-gly-oet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC1.14.11.2 dldlealapyipadddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.14.11.2 peg-gly-tyr-4-fluoroproline-glyoet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.14.11.2 poly(ethylene glycol)-gly-l-tyr-(2s)-4-thiaproline-gly-och2ch2oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.8 * +EC1.14.11.2 poly(ethylene glycol)-gly-l-tyr-l-(2s,4s)-4-fluoroproline-gly-och2ch2oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC1.14.11.2 poly(ethylene glycol)-gly-l-tyr-l-pro-gly-och2ch2oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.14.11.2 poly(l-pro) chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 70.0 * +EC1.14.11.2 poly(l-proline) chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 30.0 * +EC1.14.11.2 procollagen l-proline gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.8 * +EC1.14.11.2 protocollagen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.0 * +EC1.14.11.2 tert-butyloxycarbonyl-gly-val-pro-gly-val-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.33 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-ala-pro-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.11 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gln-pro-och3 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.07 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gly-pro-nhch3 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.38 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gly-pro-pro-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.79 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gly-pro gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC1.14.11.2 tert-butyloxycarbonyl-val-pro-gly-val-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.88 * +EC1.14.11.21 (2s,3r)-proclavaminate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.765 * +EC1.14.11.21 n-alpha-acetyl-l-arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 6.4 * +EC1.14.11.21 rac-proclavaminate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.725 * +EC1.14.11.23 dihydrokaempferol zea mays//eukaryotes;plants;monocots;grass family//zma 6.6 * +EC1.14.11.23 dihydroquercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.056 * +EC1.14.11.23 dihydroquercetin camellia sinensis//*//* 0.16 * +EC1.14.11.23 dihydroquercetin zea mays//eukaryotes;plants;monocots;grass family//zma 3.9 * +EC1.14.11.26 penicillin n streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.307 * +EC1.14.11.27 trimethyl-histone 3 l-lysine 36 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC1.14.11.28 l-proline streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.2 * +EC1.14.11.29 hypoxia-inducible factor1alpha c-terminal oxygen-dependent degradation domain-l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC1.14.11.29 hypoxia-inducible factor2alpha c-terminal oxygen-dependent degradation domain-l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.14.11.31 2-oxoglutarate papaver somniferum//*//* 0.0081 * +EC1.14.11.31 oripavine papaver somniferum//*//* 0.0191 * +EC1.14.11.31 thebaine papaver somniferum//*//* 0.017 * +EC1.14.11.32 2-oxoglutarate papaver somniferum//*//* 0.011 * +EC1.14.11.32 codeine papaver somniferum//*//* 0.0161 * +EC1.14.11.32 thebaine papaver somniferum//*//* 0.0099 * +EC1.14.11.33 1-methyl-adenine in 5'-daaaa-1mea-yyaaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.14.11.33 1-methyl-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.14.11.33 1-methyl-datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC1.14.11.33 2'-deoxy-1-methyl-adenosine 3'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC1.14.11.33 d(tpm1a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.14.11.33 d(tpm1apt) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC1.14.11.33 double-stranded dna-1-methyladenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC1.14.11.33 double-stranded dna-3-methylcytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.055 * +EC1.14.11.33 n1-methyl-atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.14.11.33 poly(dm1a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.14.11.33 single-stranded dna-1-methyladenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.062 * +EC1.14.11.33 single-stranded dna-3-methylcytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.037 * +EC1.14.11.34 2-oxoglutarate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.5 * +EC1.14.11.35 (+/-)-1-deoxypentalenic acid streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 4.2 * +EC1.14.11.38 fumitremorgin b aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.19 * +EC1.14.11.39 l-asparagine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 4.98 * +EC1.14.11.4 lysine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.6 * +EC1.14.11.41 l-arginine streptomyces vinaceus//*//* 43.5 * +EC1.14.11.41 l-canavanine streptomyces vinaceus//*//* 1.22 * +EC1.14.11.41 l-homoarginine streptomyces vinaceus//*//* 13.85 * +EC1.14.11.43 (s)-2-(4-chloro-2-methylphenoxy)propanoate sphingobium herbicidovorans//*//* 16.83 * +EC1.14.11.44 (r)-2-(4-chloro-2-methylphenoxy)propanoate sphingobium herbicidovorans//*//* 4.2 * +EC1.14.11.45 l-isoleucine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 6.0 * +EC1.14.11.45 l-leucine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 7.5 * +EC1.14.11.45 l-methionine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 33.0 * +EC1.14.11.48 2-oxoadipate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 7.6 * +EC1.14.11.48 2-oxoglutarate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 67.0 * +EC1.14.11.48 9-methylxanthine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 3.8 * +EC1.14.11.48 xanthine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 72.0 * +EC1.14.11.49 2-oxoglutarate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.53 * +EC1.14.11.49 ump streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.27 * +EC1.14.11.52 2-oxoglutarate streptomyces hygroscopicus subsp. limoneus//*//* 0.97 * +EC1.14.11.52 validamycin a streptomyces hygroscopicus subsp. limoneus//*//* 0.97 * +EC1.14.11.53 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.14.11.53 cccc(m6a)ccccccccc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.14.11.53 ga(m6a)ca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.14.11.53 gcgg(m6a)cuccagaug homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC1.14.11.53 gg(m6a)cu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.14.11.53 n3-methylthymine in single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000117 * +EC1.14.11.53 n3-methylthymine in single-stranded dna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00148 * +EC1.14.11.53 n3-methyluracil in single-stranded mrna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC1.14.11.53 n3-methyluracil in single-stranded mrna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0033 * +EC1.14.11.53 n6-methyladenine in mrna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC1.14.11.55 ectoine acidiphilium cryptum//prokaryotes;bacteria;alphaproteobacteria;acidiphilium//acr 3.4 * +EC1.14.11.55 ectoine alkalilimnicola ehrlichii//prokaryotes;bacteria;gammaproteobacteria - others;alkalilimnicola//aeh 1.2 * +EC1.14.11.55 ectoine halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 2.8 * +EC1.14.11.55 ectoine paenibacillus lautus//*//* 1.6 * +EC1.14.11.55 ectoine pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 8.9 * +EC1.14.11.55 ectoine sphingopyxis alaskensis//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sal 1.2 * +EC1.14.11.55 ectoine virgibacillus salexigens//*//* 7.7 * +EC1.14.11.56 l-proline mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 24.0 * +EC1.14.11.56 l-proline sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 25.0 * +EC1.14.11.6 5-formyluracil rhodotorula glutinis//*//* 1.13 * +EC1.14.11.6 5-hydroxymethyluracil rhodotorula glutinis//*//* 0.42 * +EC1.14.11.6 n1-methylthymine rhodotorula glutinis//*//* 0.43 * +EC1.14.11.6 n1-methyluracil rhodotorula glutinis//*//* 0.27 * +EC1.14.11.6 thymine rhodotorula glutinis//*//* 16.7 * +EC1.14.11.B1 [histone h3 peptide 21mer p16a]-n6-methyl-l-lysine4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0043 * +EC1.14.11.B1 [histone h3 peptide 21mer]-n6,n6-dimethyl-l-lysine4-dimethyl-l-lysine9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0222 * +EC1.14.11.B1 [histone h3 peptide 21mer]-n6-methyl-l-lysine4-acetyl-l-lysine9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0058 * +EC1.14.11.B1 [histone h3 peptide 21mer]-n6-methyl-l-lysine4-methyl-l-arginine17 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC1.14.11.B1 [histone h3 peptide 21mer]-n6-methyl-l-lysine4-methyl-l-lysine9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC1.14.11.B1 [histone h3 peptide 21mer]-n6-methyl-l-lysine4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.033 * +EC1.14.11.B1 [histone h3 peptide 30mer]-n6-methyl-l-lysine4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0068 * +EC1.14.11.B1 [histone h3 peptide]-n6,n6-dimethyl-l-lysine4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.199 * +EC1.14.11.B1 [histone h3]-n6,n6-dimethyl-l-lysine4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.011 * +EC1.14.11.B1 [histone h3]-n6-methyl-l-lysine4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.008 * +EC1.14.11.B1 dimethyl-histone 3 l-lysine 9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-05 * +EC1.14.11.B1 histone h3 n6,n6,n6-trimethyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC1.14.11.B1 histone h3 n6,n6-dimethyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 mutant a7h homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 mutant a7r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 mutant g12p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00012 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC1.14.11.B11 l-asparagine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 4.98 * +EC1.14.11.B3 2-oxoglutarate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 24.0 * +EC1.14.11.B3 2-oxoglutarate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 25.0 * +EC1.14.11.B3 l-proline mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 24.0 * +EC1.14.11.B3 l-proline sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 25.0 * +EC1.14.12.10 2-methylbenzoate acinetobacter calcoaceticus//*//* 4.2 * +EC1.14.12.10 3-chlorobenzoate acinetobacter calcoaceticus//*//* 3.0 * +EC1.14.12.10 3-methylbenzoate acinetobacter calcoaceticus//*//* 7.0 * +EC1.14.12.10 benzoate acinetobacter calcoaceticus//*//* 8.6 * +EC1.14.12.10 benzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 367.0 * +EC1.14.12.11 phenol arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2137.0 * +EC1.14.12.12 biphenyl sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 1.01 * +EC1.14.12.12 naphthalene sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 1.82 * +EC1.14.12.17 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 83.0 * +EC1.14.12.17 no escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 670.0 * +EC1.14.12.18 benzene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.056 * +EC1.14.12.18 biphenyl pandoraea pnomenusa//prokaryotes;bacteria;betaproteobacteria;pandoraea//ppk 4.1 * +EC1.14.12.18 biphenyl paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.4 * +EC1.14.12.18 biphenyl pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.168 * +EC1.14.12.18 biphenyl pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.6 * +EC1.14.12.18 ethylbenzene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.219 * +EC1.14.12.18 toluene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.115 * +EC1.14.12.23 2-nitrotoluene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 2.3 * +EC1.14.12.23 3-nitrotoluene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.15 * +EC1.14.12.23 naphthalene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 2.4 * +EC1.14.12.23 nitrobenzene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.3 * +EC1.14.13.1 3-chlorosalicylate pseudomonas reinekei//*//* 1.3 * +EC1.14.13.1 3-methylsalicylate pseudomonas reinekei//*//* 2.2 * +EC1.14.13.1 4-(3-benzothiazol-2-yl-4-cyano-2-oxo-2h-chromen-7-yloxymethyl)-2-hydroxy-benzoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00075 * +EC1.14.13.1 4-chlorosalicylate pseudomonas reinekei//*//* 2.9 * +EC1.14.13.1 4-methylsalicylate pseudomonas reinekei//*//* 6.4 * +EC1.14.13.1 5-chlorosalicylate pseudomonas reinekei//*//* 1.6 * +EC1.14.13.1 5-methylsalicylate pseudomonas reinekei//*//* 7.8 * +EC1.14.13.1 nadh pseudomonas reinekei//*//* 5.4 * +EC1.14.13.1 salicylate pseudomonas reinekei//*//* 4.6 * +EC1.14.13.101 atropine zonocerus variegatus//*//* 0.37 * +EC1.14.13.101 heliotrine zonocerus variegatus//*//* 0.12 * +EC1.14.13.101 monocrotaline zonocerus variegatus//*//* 0.96 * +EC1.14.13.101 phalaenopsine zonocerus variegatus//*//* 0.13 * +EC1.14.13.101 senecionine zonocerus variegatus//*//* 0.99 * +EC1.14.13.102 (+)-marmesin ammi majus//*//* 340.0 * +EC1.14.13.105 (1r,4s)-1-hydroxy-2-oxolimonene rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 4.9 * +EC1.14.13.105 (1r,4s)-menthone rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 3.6 * +EC1.14.13.105 (1s,4r)-1-hydroxy-2-oxolimonene rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 3.9 * +EC1.14.13.105 (1s,4r)-menthone rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 6.0 * +EC1.14.13.105 (4r)-dihydrocarvone rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 3.9 * +EC1.14.13.11 7-ethoxycoumarin helianthus tuberosus//*//* 0.0567 * +EC1.14.13.11 7-methoxycoumarin helianthus tuberosus//*//* 0.19 * +EC1.14.13.11 chlorotoluron helianthus tuberosus//*//* 0.000233 * +EC1.14.13.11 p-chloro-n-methylaniline helianthus tuberosus//*//* 2.37 * +EC1.14.13.11 trans-cinnamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.72 * +EC1.14.13.11 trans-cinnamate helianthus tuberosus//*//* 129.1 * +EC1.14.13.11 trans-cinnamate ruta graveolens//*//* 161.8 * +EC1.14.13.112 (22s)-22-hydroxycampest-4-en-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.023 * +EC1.14.13.112 (22s)-22-hydroxycampesterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.002 * +EC1.14.13.112 (22s,24r)-22-hydroxy-5alpha-ergostan-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.046 * +EC1.14.13.112 3-epi-6-deoxocathasterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC1.14.13.112 6-deoxocathasterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0048 * +EC1.14.13.113 nadh klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 42.0 * +EC1.14.13.113 nadh xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.19 * +EC1.14.13.113 nadph xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 1.14 * +EC1.14.13.113 urate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 42.0 * +EC1.14.13.113 urate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 1.06 * +EC1.14.13.115 (+)-columbianetin pastinaca sativa//*//* 1.9 * +EC1.14.13.115 syn-[3'd]columbianetin pastinaca sativa//*//* 3.9 * +EC1.14.13.119 1beta-hydroxy-5-epiaristolochene nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.582 * +EC1.14.13.119 5-epiaristolochene nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.493 * +EC1.14.13.12 2-chlorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.33 * +EC1.14.13.12 2-fluorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.33 * +EC1.14.13.12 2-hydroxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.17 * +EC1.14.13.12 2-methylbenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.67 * +EC1.14.13.12 3-chlorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 6.17 * +EC1.14.13.12 3-fluorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.83 * +EC1.14.13.12 3-hydroxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.5 * +EC1.14.13.12 3-methoxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.0 * +EC1.14.13.12 3-methylbenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 6.17 * +EC1.14.13.12 benzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.5 * +EC1.14.13.12 benzoate cystobasidium minutum//*//* 1.0 * +EC1.14.13.12 cinnamate cystobasidium minutum//*//* 0.005 * +EC1.14.13.12 nicotinate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.0 * +EC1.14.13.12 picolinate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.83 * +EC1.14.13.121 (-)-vetispiradiene hyoscyamus muticus//*//* 2.1 * +EC1.14.13.121 5-epiaristolochene hyoscyamus muticus//*//* 0.2 * +EC1.14.13.121 valencene hyoscyamus muticus//*//* 1.9 * +EC1.14.13.128 1,7-dimethylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.14.13.128 7-methylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.58 * +EC1.14.13.131 dimethyl sulfide hyphomicrobium sulfonivorans//*//* 5.45 * +EC1.14.13.133 (+/-)-pentalenene streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.00838 * +EC1.14.13.141 cholest-4-en-3-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.92 * +EC1.14.13.141 cholesterol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.47 * +EC1.14.13.142 1,4-androstadiene-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.8 * +EC1.14.13.142 3-oxo-23,24-bisnorchol-4-en-22-oic acid-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.61 * +EC1.14.13.142 3-oxo-23,24-bisnorchol-4-en-22-oic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC1.14.13.142 3-oxo-23,24-bisnorchola-1,4-dien-22-oic acid-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC1.14.13.142 3-oxo-23,24-bisnorchola-1,4-dien-22-oic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.25 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-1,4-dien-22-oate-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-1,4-dien-22-oate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.25 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-4-ene-22-oate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-4-ene-22-oyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.61 * +EC1.14.13.142 4-androstene-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.07 * +EC1.14.13.142 androsta-1,4-diene-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.8 * +EC1.14.13.142 o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.0 * +EC1.14.13.143 ent-isokaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.01 * +EC1.14.13.144 syn-pimara-7,15-diene oryza sativa//eukaryotes;plants;monocots;grass family//osa 46.0 * +EC1.14.13.144 syn-stemod-13(17)-ene oryza sativa//eukaryotes;plants;monocots;grass family//osa 49.0 * +EC1.14.13.148 ethionamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.973 * +EC1.14.13.148 ethionamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.01 * +EC1.14.13.151 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 43.0 * +EC1.14.13.152 geraniol catharanthus roseus//*//* 0.131 * +EC1.14.13.154 erythromycin d saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 1.8 * +EC1.14.13.158 artemisinic aldehyde artemisia annua//*//* 1.53 * +EC1.14.13.158 dihydroartemisinic aldehyde artemisia annua//*//* 7.74 * +EC1.14.13.160 2-methylcyclohexanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.9 * +EC1.14.13.160 2-n-hexylcyclopentanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 13.6 * +EC1.14.13.160 2-oxo-delta3-4,5,5-trimethylcyclopentenylacetic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.13 * +EC1.14.13.160 2-oxo-delta3-4,5,5-trimethylcyclopentenylacetyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.8 * +EC1.14.13.160 2-oxocyclopentyl acetic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC1.14.13.160 2-oxocyclopentyl ethyl acetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.9 * +EC1.14.13.160 4-methylcyclohexanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.6 * +EC1.14.13.162 fad pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 650.0 * +EC1.14.13.162 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 317.0 * +EC1.14.13.163 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.14.13.168 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.31 * +EC1.14.13.178 1-methylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.14.13.178 caffeine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.17 * +EC1.14.13.178 paraxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.17 * +EC1.14.13.178 theophylline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.38 * +EC1.14.13.179 3-methylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.53 * +EC1.14.13.179 caffeine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0038 * +EC1.14.13.179 theobromine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.77 * +EC1.14.13.179 theophylline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0045 * +EC1.14.13.181 13-deoxycarminomycin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00026 * +EC1.14.13.181 13-deoxydaunorubicin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.024 * +EC1.14.13.181 13-dihydrodaunorubicin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.63 * +EC1.14.13.181 daunorubicin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00012 * +EC1.14.13.182 2-heptyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.7 * +EC1.14.13.182 2-nonyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.5 * +EC1.14.13.182 2-pentyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.0 * +EC1.14.13.182 2-propyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.3 * +EC1.14.13.182 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.2 * +EC1.14.13.182 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.8 * +EC1.14.13.182 o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2 * +EC1.14.13.189 nadph streptomyces sahachiroi//*//* 0.013 * +EC1.14.13.191 ent-cassadiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.017 * +EC1.14.13.191 ent-kaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.022 * +EC1.14.13.191 ent-sandaracopimaradiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.013 * +EC1.14.13.193 ent-cassadiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.006 * +EC1.14.13.193 ent-isokaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.015 * +EC1.14.13.193 ent-kaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.009 * +EC1.14.13.193 ent-pimaradiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.009 * +EC1.14.13.193 ent-sandaracopimaradien-3beta-ol oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.011 * +EC1.14.13.193 syn-pimaradiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.006 * +EC1.14.13.194 3-hydroxypalmitate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.458 * +EC1.14.13.194 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.14.13.194 oleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.14.13.194 palmitic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.14.13.195 l-ornithine saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.327 * +EC1.14.13.195 nadh aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.73 * +EC1.14.13.195 nadph aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.6 * +EC1.14.13.196 l-ornithine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.87 * +EC1.14.13.196 nadh aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.36 * +EC1.14.13.196 nadph aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.25 * +EC1.14.13.2 4-hydroxybenzoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.8 * +EC1.14.13.2 4-hydroxybenzoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.7 * +EC1.14.13.2 4-hydroxybenzoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 63.0 * +EC1.14.13.2 4-hydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.4 * +EC1.14.13.2 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 16.9 * +EC1.14.13.2 nadph corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 7.8 * +EC1.14.13.2 nadph pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 63.0 * +EC1.14.13.2 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 13.3 * +EC1.14.13.2 p-hydroxybenzoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.5 * +EC1.14.13.20 2,4-dichlorophenol acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 6.83 * +EC1.14.13.202 methyl (2e,6e)-farnesoate diploptera punctata//*//* 0.003 * +EC1.14.13.205 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.13.205 arachidonic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.13.205 lauric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC1.14.13.205 lauric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.8 * +EC1.14.13.205 myristic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC1.14.13.205 myristic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC1.14.13.205 oleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.13.205 oleic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.14.13.205 palmitic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.002 * +EC1.14.13.205 palmitic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC1.14.13.205 palmitic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC1.14.13.210 4-nitrophenol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.014 * +EC1.14.13.212 1,3,7-trimethylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.48 * +EC1.14.13.212 1,3-dimethylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.08 * +EC1.14.13.212 1-methylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.485 * +EC1.14.13.212 3,7-dimethylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.97 * +EC1.14.13.215 nadh streptomyces nodosus//*//* 0.113 * +EC1.14.13.215 nadph streptomyces nodosus//*//* 0.324 * +EC1.14.13.215 protoasukamycin streptomyces nodosus//*//* 16.67 * +EC1.14.13.22 2-hydroxycyclobutanone ilyonectria destructans//*//* 4.5 * +EC1.14.13.22 2-methylcyclohexyl boronic acid acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 8.4 * +EC1.14.13.22 2-phenylcyclohexanone ilyonectria destructans//*//* 0.73 * +EC1.14.13.22 cis-hex-2-enyl phenyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.683 * +EC1.14.13.22 cyclobutanone ilyonectria destructans//*//* 6.8 * +EC1.14.13.22 cycloheptanone ilyonectria destructans//*//* 4.3 * +EC1.14.13.22 cyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 30.3 * +EC1.14.13.22 cyclohexanone ilyonectria destructans//*//* 9.8 * +EC1.14.13.22 cyclooctanone ilyonectria destructans//*//* 0.68 * +EC1.14.13.22 cyclopentanone ilyonectria destructans//*//* 5.9 * +EC1.14.13.22 delta-thiovalerolactone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.24 * +EC1.14.13.22 epsilon-thiocaprolactone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.227 * +EC1.14.13.22 ethylene monothiocarbonate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 2.38 * +EC1.14.13.22 gamma-thiobutyrolactone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.683 * +EC1.14.13.22 phenyl propargyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 9.75 * +EC1.14.13.22 trans-hex-2-enyl phenyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.917 * +EC1.14.13.221 cholest-4-en-3-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.4 * +EC1.14.13.221 cholesterol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.278 * +EC1.14.13.223 3-hydroxy-4-methylanthranilyl-[aryl-carrier protein] streptosporangium sibiricum//*//* 1.48 * +EC1.14.13.225 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC1.14.13.225 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.14.13.230 butane thauera butanivorans//*//* 0.48 * +EC1.14.13.230 ethane thauera butanivorans//*//* 0.76 * +EC1.14.13.230 methane thauera butanivorans//*//* 1.3 * +EC1.14.13.230 pentane thauera butanivorans//*//* 0.34 * +EC1.14.13.230 propane thauera butanivorans//*//* 0.98 * +EC1.14.13.231 anhydrotetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.7 * +EC1.14.13.231 chlorotetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.3 * +EC1.14.13.231 chlortetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.3 * +EC1.14.13.231 chlortetracycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.3 * +EC1.14.13.231 demeclocycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.2 * +EC1.14.13.231 demeclocycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.2 * +EC1.14.13.231 doxycycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.63 * +EC1.14.13.231 doxycycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.63 * +EC1.14.13.231 minocycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.12 * +EC1.14.13.231 minocycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.12 * +EC1.14.13.231 nadph bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 1.11 * +EC1.14.13.231 nadph bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.11 * +EC1.14.13.231 oxycycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.3 * +EC1.14.13.231 oxytetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 1.3 * +EC1.14.13.231 tetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.32 * +EC1.14.13.231 tetracycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.32 * +EC1.14.13.231 tigecycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.36 * +EC1.14.13.236 anisole pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.16 * +EC1.14.13.236 benzene pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.1 * +EC1.14.13.236 chlorobenzene pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.075 * +EC1.14.13.236 nitrobenzene pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.013 * +EC1.14.13.236 norcarane pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.49 * +EC1.14.13.236 toluene pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 3.3 * +EC1.14.13.24 2,3-dihydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 10.0 * +EC1.14.13.24 2,5-dihydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 7.0 * +EC1.14.13.24 3,5-dihydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 13.0 * +EC1.14.13.24 3-hydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 35.0 * +EC1.14.13.25 furan methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 7.6 * +EC1.14.13.25 methane methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 3.7 * +EC1.14.13.25 propene methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 4.4 * +EC1.14.13.25 propylene methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.23 * +EC1.14.13.29 4-nitrophenol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.127 * +EC1.14.13.4 3-(2-hydroxyphenyl)propanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.87 * +EC1.14.13.40 2-aminobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 70.8 * +EC1.14.13.44 2,2'-dihydroxybiphenyl pseudomonas nitroreducens//*//* 9.4 * +EC1.14.13.44 2-hydroxybiphenyl pseudomonas nitroreducens//*//* 15.6 * +EC1.14.13.44 2-sec-butylphenol pseudomonas nitroreducens//*//* 15.8 * +EC1.14.13.44 guaiacol pseudomonas nitroreducens//*//* 0.95 * +EC1.14.13.44 indole pseudomonas nitroreducens//*//* 0.005 * +EC1.14.13.44 nadh pseudomonas nitroreducens//*//* 16.2 * +EC1.14.13.44 nadph pseudomonas nitroreducens//*//* 18.8 * +EC1.14.13.44 o2 pseudomonas nitroreducens//*//* 16.2 * +EC1.14.13.5 imidazoleacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 37.7 * +EC1.14.13.50 2,3,5,6-tetrachlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.32 * +EC1.14.13.50 2,6-dichlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.046 * +EC1.14.13.50 3,4,5-trichlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.01 * +EC1.14.13.50 3,5-dichlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.01 * +EC1.14.13.50 pentachlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 9300.0 * +EC1.14.13.52 biochanin a medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.1 * +EC1.14.13.52 formononetin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.028 * +EC1.14.13.54 phenylacetone rhodococcus rhodochrous//*//* 1.5 * +EC1.14.13.59 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.405 * +EC1.14.13.59 l-lysine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.08 * +EC1.14.13.6 orcinol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 26.0 * +EC1.14.13.63 3,4-dihydroxyphenylacetate flavobacterium sp.//*//* 15.6 * +EC1.14.13.63 3-hydroxyphenylacetate flavobacterium sp.//*//* 22.4 * +EC1.14.13.63 nadh flavobacterium sp.//*//* 36.0 * +EC1.14.13.63 nadph flavobacterium sp.//*//* 35.8 * +EC1.14.13.64 2,3,5,6-tetrafluoro-4-hydroxybenzoate candida parapsilosis//*//* 7.5 * +EC1.14.13.64 2,4-dihydroxybenzoate candida parapsilosis//*//* 19.8 * +EC1.14.13.64 2,5-difluoro-4-hydroxybenzoate candida parapsilosis//*//* 12.0 * +EC1.14.13.64 2,6-difluoro-4-hydroxybenzoate candida parapsilosis//*//* 8.5 * +EC1.14.13.64 2-chloro-4-hydroxybenzoate candida parapsilosis//*//* 9.6 * +EC1.14.13.64 2-fluoro-4-hydroxybenzoate candida parapsilosis//*//* 14.0 * +EC1.14.13.64 3,4-dihydroxybenzoate candida parapsilosis//*//* 16.8 * +EC1.14.13.64 3,5-difluoro-4-hydroxybenzoate candida parapsilosis//*//* 6.5 * +EC1.14.13.64 3-amino-4-hydroxybenzoate candida parapsilosis//*//* 8.3 * +EC1.14.13.64 3-chloro-4-hydroxybenzoate candida parapsilosis//*//* 17.0 * +EC1.14.13.64 3-fluoro-4-hydroxybenzoate candida parapsilosis//*//* 18.1 * +EC1.14.13.64 4-hydroxy-3-methoxybenzoate candida parapsilosis//*//* 11.8 * +EC1.14.13.64 4-hydroxy-3-nitrobenzoate candida parapsilosis//*//* 19.8 * +EC1.14.13.64 4-hydroxybenzoate candida parapsilosis//*//* 10.0 * +EC1.14.13.67 quinine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC1.14.13.7 2-cresol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.95 * +EC1.14.13.7 2-xylene pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.125 * +EC1.14.13.7 3-cresol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.61 * +EC1.14.13.7 4-cresol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.77 * +EC1.14.13.7 benzene pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.1 * +EC1.14.13.7 nadh acinetobacter radioresistens//*//* 1980.0 * +EC1.14.13.7 nadph cutaneotrichosporon cutaneum//*//* 2.08 * +EC1.14.13.7 phenol acinetobacter radioresistens//*//* 1980.0 * +EC1.14.13.7 phenol cutaneotrichosporon cutaneum//*//* 12.0 * +EC1.14.13.7 phenol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 1.02 * +EC1.14.13.7 toluene pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.15 * +EC1.14.13.7 various phenolic substrates cutaneotrichosporon cutaneum//*//* 4.5 * +EC1.14.13.8 10-[(n,n-dimethylaminooctyl)-2-(trifluoromethyl)]phenothiazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC1.14.13.8 ethionamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.14.13.8 ethionamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.45 * +EC1.14.13.8 ethylenethiourea homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.14.13.8 indole methylophaga aminisulfidivorans//*//* 0.7 * +EC1.14.13.8 methimazole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.525 * +EC1.14.13.8 methimazole methylophaga aminisulfidivorans//*//* 1.0 * +EC1.14.13.8 methimazole methylophaga sp.//*//* 2.7 * +EC1.14.13.8 methyl p-tolyl sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.3 * +EC1.14.13.8 methyl p-tolyl sulfide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.9 * +EC1.14.13.8 n,n-dimethylaniline methylophaga aminisulfidivorans//*//* 1.8 * +EC1.14.13.8 n-methyl-tamoxifen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC1.14.13.8 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.6 * +EC1.14.13.8 nadph methylophaga aminisulfidivorans//*//* 0.06 * +EC1.14.13.8 nadph methylophaga sp.//*//* 7.3 * +EC1.14.13.8 nicotine methylophaga aminisulfidivorans//*//* 3.0 * +EC1.14.13.8 o2 methylophaga sp.//*//* 7.7 * +EC1.14.13.8 sulindac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC1.14.13.8 tamoxifen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.18 * +EC1.14.13.8 thiacetazone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.335 * +EC1.14.13.8 thiacetazone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.085 * +EC1.14.13.8 trimethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC1.14.13.8 trimethylamine methylophaga aminisulfidivorans//*//* 6.1 * +EC1.14.13.8 trimethylamine methylophaga sp.//*//* 6.1 * +EC1.14.13.84 2'-hydroxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 21.2 * +EC1.14.13.84 2,4-pentanedione pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.1 * +EC1.14.13.84 2,4-pentanedione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.5 * +EC1.14.13.84 2-acetylpyridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 7.8 * +EC1.14.13.84 2-acetylpyrrole pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 9.4 * +EC1.14.13.84 2-acetylpyrrole pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.3 * +EC1.14.13.84 2-decanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.2 * +EC1.14.13.84 2-hydroxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.7 * +EC1.14.13.84 2-phenylpropionaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.7 * +EC1.14.13.84 2-pyrrole carboxaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 8.6 * +EC1.14.13.84 3'-hydroxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.1 * +EC1.14.13.84 3-aminoacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC1.14.13.84 3-chloro-2-butanone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 7.4 * +EC1.14.13.84 3-hydroxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.8 * +EC1.14.13.84 3-methoxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.14.13.84 3-nitroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC1.14.13.84 4-acetylpyridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.5 * +EC1.14.13.84 4-aminoacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 12.7 * +EC1.14.13.84 4-aminoacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.2 * +EC1.14.13.84 4-chloroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.6 * +EC1.14.13.84 4-fluoroacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.6 * +EC1.14.13.84 4-fluoroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC1.14.13.84 4-hydroxy-3-methylacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 5.4 * +EC1.14.13.84 4-hydroxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 12.6 * +EC1.14.13.84 4-hydroxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 9.8 * +EC1.14.13.84 4-hydroxybenzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 7.6 * +EC1.14.13.84 4-hydroxypropiophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 11.9 * +EC1.14.13.84 4-methoxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.7 * +EC1.14.13.84 4-methoxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC1.14.13.84 4-methylacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.3 * +EC1.14.13.84 4-methylacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.4 * +EC1.14.13.84 4-nitroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.6 * +EC1.14.13.84 acetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 13.2 * +EC1.14.13.84 acetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.3 * +EC1.14.13.84 acetylcyclohexane pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.9 * +EC1.14.13.84 benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.2 * +EC1.14.13.84 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.2 * +EC1.14.13.84 bicyclohept-2-en-6-one pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.7 * +EC1.14.13.84 butyrophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.2 * +EC1.14.13.84 butyrophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.9 * +EC1.14.13.84 cyclohexane carboxaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 5.0 * +EC1.14.13.84 hydroxyacetone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.1 * +EC1.14.13.84 isobutyrophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.5 * +EC1.14.13.84 methyl 4-tolyl sulfide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 7.3 * +EC1.14.13.84 methyl-4-tolyl sulfide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 20.0 * +EC1.14.13.84 methylphenyl sulfide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.7 * +EC1.14.13.84 nadh pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.7 * +EC1.14.13.84 nadph pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 10.1 * +EC1.14.13.84 propiophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 11.0 * +EC1.14.13.84 propiophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.6 * +EC1.14.13.84 trifluoroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 15.4 * +EC1.14.13.89 biochanin a medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.033 * +EC1.14.13.89 formononetin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.015 * +EC1.14.13.9 kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.9 * +EC1.14.13.9 l-kynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.88 * +EC1.14.13.9 nadh aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.85 * +EC1.14.13.9 nadph aedes aegypti//eukaryotes;animals;arthropods;insects//aag 2.03 * +EC1.14.13.92 (2-methylphenyl)acetone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 2.0 * +EC1.14.13.92 2-dodecanone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.023 * +EC1.14.13.92 2-dodecanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.23 * +EC1.14.13.92 2-octanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 1.0 * +EC1.14.13.92 2-phenylcyclohexanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.07 * +EC1.14.13.92 4-hydroxyacetophenone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.34 * +EC1.14.13.92 benzylacetone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.021 * +EC1.14.13.92 benzylacetone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 1.8 * +EC1.14.13.92 bicyclohept-2-en-6-one thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 1.1 * +EC1.14.13.92 cyclopentanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.9 * +EC1.14.13.92 ethionamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.027 * +EC1.14.13.92 methyl 4-tolylsulfide thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 2.1 * +EC1.14.13.92 nadph thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 3.1 * +EC1.14.13.92 phenylacetone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.26 * +EC1.14.13.92 phenylacetone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 3.0 * +EC1.14.13.B14 (3s)-(e)-nerolidol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC1.14.13.B14 (3s)-(e,e)-geranyllinalool arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC1.14.13.B14 (3s,6e)-nerolidol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC1.14.13.B14 (e,e)-geranyllinalool arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC1.14.13.B28 nadh sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 7.6e-05 * +EC1.14.13.B28 styrene sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.1e-05 * +EC1.14.14.1 12-methyl-tetradecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 13.9 * +EC1.14.14.1 13-methyl-tetradecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 21.1 * +EC1.14.14.1 avermectin streptomyces tubercidicus//*//* 0.048 * +EC1.14.14.1 cytochrome c bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 122.4 * +EC1.14.14.1 dodecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 27.7 * +EC1.14.14.1 hexadecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 25.65 * +EC1.14.14.1 linoleic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 29.3 * +EC1.14.14.1 nadh rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 6.0 * +EC1.14.14.1 nadph bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.45 * +EC1.14.14.1 nadph rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 12.75 * +EC1.14.14.1 omega-(p-nitrophenyl)decanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.5 * +EC1.14.14.1 omega-(p-nitrophenyl)dodecanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.1 * +EC1.14.14.1 omega-(p-nitrophenyl)octanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC1.14.14.1 palmitoleic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 22.8 * +EC1.14.14.1 stearic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 16.18 * +EC1.14.14.1 tetradecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 59.8 * +EC1.14.14.11 styrene pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC1.14.14.12 3,17-dihydroxy-9,10-seconandrost-1,3,5(10)-triene-9-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.24 * +EC1.14.14.12 3-hydroxy-9,10-seconandrost-1,3,5(10)-triene-9,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC1.14.14.12 3-hydroxybiphenyl mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.11 * +EC1.14.14.12 o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.031 * +EC1.14.14.15 s-((3s)-3-amino-3-(3-chloro-4-hydroxyphenyl)propanoyl)-[peptidyl-carrier protein sgcc2] streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.023 * +EC1.14.14.16 17a-hydroxyprogesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.322 * +EC1.14.14.16 17alpha-hydroxyprogesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.67 * +EC1.14.14.16 17alpha-hydroxyprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.14.14.16 progesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.172 * +EC1.14.14.16 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC1.14.14.17 (3s)-squalene-2,3-epoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0075 * +EC1.14.14.17 squalene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0183 * +EC1.14.14.17 squalene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC1.14.14.18 heme bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0583 * +EC1.14.14.18 heme gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.32 * +EC1.14.14.19 17alpha-hydroxypregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00283 * +EC1.14.14.19 pregnenolone danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.85 * +EC1.14.14.19 progesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.55 * +EC1.14.14.19 progesterone danio rerio//eukaryotes;animals;vertebrates;fishes//dre 1.6 * +EC1.14.14.19 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0483 * +EC1.14.14.19 progesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.258 * +EC1.14.14.20 fad parageobacillus thermoglucosidans//*//* 43.0 * +EC1.14.14.20 fmn parageobacillus thermoglucosidans//*//* 180.0 * +EC1.14.14.20 riboflavin parageobacillus thermoglucosidans//*//* 147.0 * +EC1.14.14.23 25-hydroxycholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.14.14.23 27-hydroxycholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0685 * +EC1.14.14.23 7-dehydrocholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.14.14.23 cholest-4-en-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.14.14.23 cholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.14.14.23 cholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.833 * +EC1.14.14.23 lathosterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.14.14.24 1alpha-hydroxycholecalciferol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC1.14.14.24 1alpha-hydroxyvitamin d2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.14.14.24 1alpha-hydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC1.14.14.24 1alpha-hydroxyvitamin d3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.0 * +EC1.14.14.24 vitamin d2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.14.14.24 vitamin d2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.14.14.24 vitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.14.14.24 vitamin d3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC1.14.14.25 (24s)-24-hydroxycholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0153 * +EC1.14.14.25 cholesterol 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC1.14.14.25 cholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.14.14.28 hexadecane geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.02 * +EC1.14.14.29 5alpha-androstane-3beta,17beta-diol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0166 * +EC1.14.14.29 dehydroepiandrosterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC1.14.14.3 fmnh photorhabdus luminescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;photorhabdus//plu 3.17e-05 * +EC1.14.14.3 fmnh2 vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.1 * +EC1.14.14.32 17alpha-hydroxypregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 128.0 * +EC1.14.14.33 ethylenediaminetetraacetate edta-degrading bacterium bnc1//*//* 47.1 * +EC1.14.14.36 l-tyrosine sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 5.83 * +EC1.14.14.38 l-isoleucine manihot esculenta//*//* 0.103 * +EC1.14.14.38 l-valine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 1.23 * +EC1.14.14.38 l-valine manihot esculenta//*//* 0.162 * +EC1.14.14.39 l-isoleucine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 3.67 * +EC1.14.14.39 l-isoleucine manihot esculenta//*//* 0.1 * +EC1.14.14.39 l-valine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.83 * +EC1.14.14.41 (e)-2-methylbutanal oxime manihot esculenta//*//* 0.28 * +EC1.14.14.41 (e)-2-methylpropanal oxime manihot esculenta//*//* 0.35 * +EC1.14.14.41 n-hydroxy-2-(4-hydroxypheny)-lethanimine manihot esculenta//*//* 0.13 * +EC1.14.14.41 n-hydroxy-2-phenylethanimine manihot esculenta//*//* 0.02 * +EC1.14.14.43 (e)-4-hydroxyphenylacetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.43 * +EC1.14.14.43 (e)-phenylacetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.78 * +EC1.14.14.43 indole-3-acetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.33 * +EC1.14.14.44 (e)-phenylacetaldehyde oxime prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.77 * +EC1.14.14.44 4-hydroxyphenylacetaldoxime prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.62 * +EC1.14.14.44 4-hydroxyphenylacetonitrile prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.57 * +EC1.14.14.44 indole-3-acetaldoxime prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.028 * +EC1.14.14.44 indole-3-acetonitrile prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.1 * +EC1.14.14.44 phenylacetonitrile prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.4 * +EC1.14.14.45 (e)-indol-3-ylacetaldehyde oxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.87 * +EC1.14.14.45 (e)-p-hydroxyphenylacetaldehyde oxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.23 * +EC1.14.14.45 (e)-phenylacetaldehyde oxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.78 * +EC1.14.14.45 indole-3-acetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.88 * +EC1.14.14.45 p-hydroxyphenylacetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.27 * +EC1.14.14.47 adriamycin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 95.0 * +EC1.14.14.47 l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.08 * +EC1.14.14.47 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 96.0 * +EC1.14.14.47 mitomycin c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC1.14.14.47 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.57 * +EC1.14.14.47 nitric oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.23 * +EC1.14.14.47 nitroblue tetrazolium rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC1.14.14.47 reduced tetrahydrobiopterin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.183 * +EC1.14.14.5 octanesulfonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.86 * +EC1.14.14.9 4-hydroxyphenylacetate acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 389.0 * +EC1.14.14.9 4-hydroxyphenylacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.833 * +EC1.14.15.1 (+)-camphor pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.067 * +EC1.14.15.1 5,5-difluorocamphor pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.833 * +EC1.14.15.1 camphor pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 51.0 * +EC1.14.15.1 cytochrome m pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 34.0 * +EC1.14.15.1 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 66.0 * +EC1.14.15.1 putidaredoxin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.14.15.14 cholest-4-en-3-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.195 * +EC1.14.15.14 farnesol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.258 * +EC1.14.15.15 (24s)-3beta-hydroxy-24-methyl-5alpha-cholesta-8(14),22-dien-15-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0183 * +EC1.14.15.15 1alpha-hydroxyvitamin d3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0233 * +EC1.14.15.15 3beta-hydroxy-5alpha-cholest-8(14)-en-15-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.073 * +EC1.14.15.15 5beta-cholestane-3alpha,7alpha,12alpha-triol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC1.14.15.15 5beta-cholestane-3alpha,7alpha-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.217 * +EC1.14.15.15 cholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0117 * +EC1.14.15.16 1alpha,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.15.16 2-methylene-19-nor-(20r)-1,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.14.15.16 2-methylene-19-nor-(20s)-1,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC1.14.15.16 25-hydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.14.15.18 (24r),25-dihydroxyvitamin d3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC1.14.15.18 1alpha-hydroxyvitamin d mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC1.14.15.18 20-hydroxyvitamin d3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC1.14.15.18 25-hydroxycholecalciferol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0733 * +EC1.14.15.18 25-hydroxyvitamin d mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.385 * +EC1.14.15.18 25-hydroxyvitamin d2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.82 * +EC1.14.15.18 25-hydroxyvitamin d3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.92 * +EC1.14.15.3 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00917 * +EC1.14.15.3 arachidonic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.783 * +EC1.14.15.3 laurate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.245 * +EC1.14.15.3 laurate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.767 * +EC1.14.15.3 lauric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.163 * +EC1.14.15.3 palmitate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC1.14.15.3 palmitic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0367 * +EC1.14.15.3 pga1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00133 * +EC1.14.15.3 prostaglandin e1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.383 * +EC1.14.15.4 11-deoxycorticosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.83 * +EC1.14.15.4 11-deoxycorticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC1.14.15.4 11-deoxycortisol curvularia lunata//*//* 3.45 * +EC1.14.15.4 11-deoxycortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC1.14.15.4 adrenal ferredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.48 * +EC1.14.15.4 corticosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0378 * +EC1.14.15.6 20-hydroxyvitamin d3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.123 * +EC1.14.15.6 cholesterol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.417 * +EC1.14.15.6 vitamin d3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC1.14.15.8 ferredoxin bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 3.3 * +EC1.14.15.8 flavodoxin bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.34 * +EC1.14.16.1 6,7-dimethyl-5,6,7,8-tetrahydrobiopterin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 3.0 * +EC1.14.16.1 6,7-dimethyltetrahydropterin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 1.4 * +EC1.14.16.1 6-methyltetrahydropterin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 1.6 * +EC1.14.16.1 l-phenylalanine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 18.0 * +EC1.14.16.1 l-phenylalanine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 8.93 * +EC1.14.16.1 l-tryptophan chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.4 * +EC1.14.16.1 phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.58 * +EC1.14.16.1 phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC1.14.16.2 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.33 * +EC1.14.16.2 l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC1.14.16.2 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC1.14.16.4 2-azaisotryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.217 * +EC1.14.16.4 4-azatryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.358 * +EC1.14.16.4 4-methyltryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.273 * +EC1.14.16.4 6-azatryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.533 * +EC1.14.16.4 6-methyltryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0733 * +EC1.14.16.4 7-azatryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.252 * +EC1.14.16.4 7-methyltryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.315 * +EC1.14.16.4 l-tryptophan gallus gallus//eukaryotes;animals;vertebrates;birds//gga 32.0 * +EC1.14.16.4 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.03 * +EC1.14.16.4 l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.207 * +EC1.14.16.4 o2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 22.8 * +EC1.14.16.4 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.73 * +EC1.14.16.4 tetrahydrobiopterin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 43.0 * +EC1.14.16.4 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.567 * +EC1.14.16.7 6-methyltetrahydropterin streptomyces coeruleorubidus//*//* 0.021 * +EC1.14.16.7 l-phenylalanine streptomyces coeruleorubidus//*//* 0.022 * +EC1.14.17.1 1-(4-hydroxybenzyl)imidazole bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.5 * +EC1.14.17.1 1-phenyl-1-aminomethylethene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.0 * +EC1.14.17.1 1-phenylethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 65.0 * +EC1.14.17.1 2-(4-hydroxphenyl)prop-2-enylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 56.0 * +EC1.14.17.1 2-bromo-3-(p-hydroxyphenyl)-1-propene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.223 * +EC1.14.17.1 2-chlorophenethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC1.14.17.1 2-hydroxyphenethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.2 * +EC1.14.17.1 2-phenylprop-2-enylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.0 * +EC1.14.17.1 3-phenylpropylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 20.4 * +EC1.14.17.1 4-hydroxy-alpha-methylstyrene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC1.14.17.1 dopamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 110.0 * +EC1.14.17.1 n-phenylethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.0 * +EC1.14.17.1 octopamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 33.0 * +EC1.14.17.1 phenylacetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7 * +EC1.14.17.1 phenylaminoethyl sulfide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 68.0 * +EC1.14.17.1 tyramine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 121.0 * +EC1.14.17.3 acetyl-tyr-phe-gly xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.02 * +EC1.14.17.3 alpha-hydroxyhippuric acid cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 51.0 * +EC1.14.17.3 d-tyr-val-gly frog//*//* 0.13 * +EC1.14.17.3 dansyl-gly-gly-ser-co-nh-ch2-cooh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC1.14.17.3 dansyl-l-tyr-l-val-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.8 * +EC1.14.17.3 dansyl-tyr-val-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.143 * +EC1.14.17.3 dansyl-tyr-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.983 * +EC1.14.17.3 hippuric acid frog//*//* 0.02 * +EC1.14.17.3 hippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 39.1 * +EC1.14.17.3 hooc-nh-ch2-cooh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 37.0 * +EC1.14.17.3 n-acetyl-tyr-val-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC1.14.17.3 n-benzoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.5 * +EC1.14.17.3 n-dansyl-tyr-val-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC1.14.17.3 n-dansyl-tyr-val-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC1.14.17.3 n-trinitrophenyl-d-tyr-val-gly frog//*//* 1.4 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.07 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 5.9 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylic acid malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0914 * +EC1.14.17.4 alpha-aminoisobutyrate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.07 * +EC1.14.17.4 ascorbate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.2 * +EC1.14.19.1 n-hydroxy-benzenecarboximidamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.9e-06 * +EC1.14.19.1 stearoyl-acyl-carrier protein spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.5 * +EC1.14.19.1 stearoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC1.14.19.11 oleoyl-[acyl-carrier protein] hedera helix//*//* 0.004 * +EC1.14.19.11 palmitoleoyl-[acyl-carrier protein] hedera helix//*//* 0.048 * +EC1.14.19.11 palmitoyl-[acyl-carrier protein] hedera helix//*//* 0.25 * +EC1.14.19.11 stearoyl-[acyl-carrier protein] hedera helix//*//* 0.17 * +EC1.14.19.2 10-(heptyloxy)-decanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.5 * +EC1.14.19.2 7-(decyloxy)-heptanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.2 * +EC1.14.19.2 8-(nonyloxy)-octanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.04 * +EC1.14.19.2 9-(octyloxy)-nonanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.02 * +EC1.14.19.2 heptadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.233 * +EC1.14.19.2 hexadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.095 * +EC1.14.19.2 nonadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.2 * +EC1.14.19.2 octadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.817 * +EC1.14.19.2 pentadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0317 * +EC1.14.19.2 stearoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.333 * +EC1.14.19.2 tetradecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.817 * +EC1.14.19.41 beta-sitosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC1.14.19.41 beta-sitosterol physcomitrella patens//eukaryotes;plants;mosses//ppp 0.015 * +EC1.14.19.41 beta-sitosterol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.17 * +EC1.14.19.49 (4s)-tetracycline kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.0085 * +EC1.14.19.50 (r)-coclaurine narcissus sp. aff. pseudonarcissus//*//* 0.035 * +EC1.14.19.50 (s)-coclaurine narcissus sp. aff. pseudonarcissus//*//* 0.022 * +EC1.14.19.50 4'-o-methyl-n-methylnorbelladine narcissus sp. aff. pseudonarcissus//*//* 0.041 * +EC1.14.19.50 4'-o-methylnorbelladine narcissus sp. aff. pseudonarcissus//*//* 0.25 * +EC1.14.19.8 pentalenolactone f streptomyces arenae//*//* 8.8 * +EC1.14.19.8 pentalenolactone f streptomyces exfoliatus//*//* 10.5 * +EC1.14.19.9 fadh2 lechevalieria aerocolonigenes//*//* 0.12 * +EC1.14.19.9 l-tryptophan lechevalieria aerocolonigenes//*//* 0.023 * +EC1.14.19.9 tryptophan lechevalieria aerocolonigenes//*//* 0.05 * +EC1.14.19.9 tryptophan pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.11 * +EC1.14.19.B5 7-chloro-l-tryptophan kutzneria sp. 744//*//* 0.023 * +EC1.14.19.B5 l-tryptophan kutzneria sp. 744//*//* 0.0013 * +EC1.14.19.B6 l-tryptophan streptomyces toxytricini//*//* 0.0255 * +EC1.14.19.B7 l-tryptophan streptomyces rugosporus//*//* 0.00813 * +EC1.14.20.1 acetyl-6-aminopenicillanic acid streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.06 * +EC1.14.20.1 adipyl 6-aminopenicillanic acid streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.073 * +EC1.14.20.1 ampicillin streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.12 * +EC1.14.20.1 penicillin g acremonium chrysogenum//*//* 0.077 * +EC1.14.20.1 penicillin g streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.079 * +EC1.14.20.1 penicillin n streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.42 * +EC1.14.20.2 (2r)-4-hydroxy-3-oxo-3,4-dihydro-2h-1,4-benzoxazin-2-yl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 2.1 * +EC1.14.21.4 (r)-reticuline papaver somniferum//*//* 0.027 * +EC1.14.21.7 flaviolin streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.017 * +EC1.14.99.12 testololactone ilyonectria destructans//*//* 0.45 * +EC1.14.99.14 progesterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.3 * +EC1.14.99.15 4-methoxybenzoate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 37.9 * +EC1.14.99.20 phe-leu-glu-glu-leu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00667 * +EC1.14.99.51 hercynine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.27 * +EC1.14.99.52 d-histidine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.78 * +EC1.14.99.52 histamine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.36 * +EC1.14.99.52 l-cysteine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 3.3 * +EC1.14.99.52 l-histidinamide erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.57 * +EC1.14.99.52 l-histidine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 3.4 * +EC1.14.99.56 cellotetraose lentinus similis//*//* 0.11 * +EC1.14.99.B1 campestanol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00082 * +EC1.14.99.B1 campesterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC1.15.1.1 o2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40000.0 * +EC1.15.1.1 o2.- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 100000.0 * +EC1.16.1.1 hg2+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 12.0 * +EC1.16.1.1 hg2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.5 * +EC1.16.1.1 hg2+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.7 * +EC1.16.1.1 hgcl2 acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 12.4 * +EC1.16.1.8 2,6-dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC1.16.1.8 3-acetylpyridine adenine dinucleotide phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC1.16.1.8 doxorubicin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.61 * +EC1.16.1.8 ferricyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.24 * +EC1.16.1.8 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.61 * +EC1.16.1.8 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.92 * +EC1.16.1.9 fe(iii)-citrate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.11 * +EC1.16.1.9 fe(iii)-edta synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 2.0 * +EC1.16.3.1 2,2'-azino-bis(3-ethylbenzthiazoline)-6-sulphonic acid rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 22.15 * +EC1.16.3.1 4-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC1.16.3.1 cu+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.8 * +EC1.16.3.1 cu+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.375 * +EC1.16.3.1 cu+ rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.155 * +EC1.16.3.1 cu+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC1.16.3.1 fe(ii) saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.66 * +EC1.16.3.1 fe2+ candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.06 * +EC1.16.3.1 fe2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.91 * +EC1.16.3.1 fe2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.505 * +EC1.16.3.1 fe2+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.06 * +EC1.16.3.1 hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.2 * +EC1.16.3.1 p-phenylenediamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.92 * +EC1.17.1.4 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1097.0 * +EC1.17.1.4 cytochrome c veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 0.717 * +EC1.17.1.4 dichloroindophenol veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 5.67 * +EC1.17.1.4 ferredoxin veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 20.2 * +EC1.17.1.4 ferricyanide veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 18.2 * +EC1.17.1.4 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC1.17.1.4 hypoxanthine veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 0.75 * +EC1.17.1.4 nitro blue tetrazolium veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 9.55 * +EC1.17.1.4 oxygen veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 0.8 * +EC1.17.1.4 purine veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 0.7 * +EC1.17.1.4 salicylaldehyde veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 0.1 * +EC1.17.1.4 xanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.0 * +EC1.17.1.4 xanthine delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 120.0 * +EC1.17.1.4 xanthine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 31.0 * +EC1.17.1.4 xanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.33 * +EC1.17.1.4 xanthine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 108.0 * +EC1.17.1.4 xanthine veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 2.5 * +EC1.17.1.8 (2s,4s)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 21.0 * +EC1.17.1.8 2,3-dihydrodipicolinate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 19.0 * +EC1.17.1.8 nadh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 21.0 * +EC1.17.1.8 nadh thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.49 * +EC1.17.1.8 nadph thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 17.0 * +EC1.17.2.2 lupanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 217.0 * +EC1.17.2.2 sparteine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.8 * +EC1.17.3.2 2-mercaptopurine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.98 * +EC1.17.3.2 2-thioxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.32 * +EC1.17.3.2 6-mercaptopurine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.17.3.2 6-thioxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.76 * +EC1.17.3.2 hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.35 * +EC1.17.3.2 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC1.17.3.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.57 * +EC1.17.3.2 xanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 108.0 * +EC1.17.3.2 xanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.3 * +EC1.17.4.1 cdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.9 * +EC1.17.4.1 cdp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.29 * +EC1.17.4.2 atp lactobacillus leichmannii//*//* 0.0145 * +EC1.17.4.2 ctp lactobacillus leichmannii//*//* 0.03 * +EC1.17.4.2 utp lactobacillus leichmannii//*//* 0.0158 * +EC1.17.4.4 2,3-epoxy-2,3-dihydro-2-methyl-3-phytyl-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC1.17.5.1 phenylacetyl-coa thauera aromatica//*//* 12.0 * +EC1.17.5.2 caffeine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.167 * +EC1.17.7.4 (e)-4-hydroxy-3-methylbut-2-en-1-yl diphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 3.7 * +EC1.17.7.4 (e)-4-hydroxy-3-methylbut-2-en-1-yl diphosphate burkholderia glumae//prokaryotes;bacteria;betaproteobacteria;burkholderia//bgl 3.11 * +EC1.18.1.1 desulfovibrio gigas rubredoxin desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 8.42 * +EC1.18.1.2 2,6-dichlorophenolindophenol chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 37.0 * +EC1.18.1.2 2,6-dichlorophenolindophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 25.6 * +EC1.18.1.2 dibromothymoquinone spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 25.0 * +EC1.18.1.2 fe(cn)63- mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 63.0 * +EC1.18.1.2 fe(iii)-edta escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.53 * +EC1.18.1.2 ferredoxin i equisetum arvense//*//* 177.0 * +EC1.18.1.2 ferredoxin i spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 115.0 * +EC1.18.1.2 ferredoxin ii equisetum arvense//*//* 32.2 * +EC1.18.1.2 ferredoxin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 225.0 * +EC1.18.1.2 ferredoxin azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.0 * +EC1.18.1.2 ferredoxin chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 174.0 * +EC1.18.1.2 ferredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.18.1.2 ferredoxin pisum sativum//*//* 139.0 * +EC1.18.1.2 ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 200.0 * +EC1.18.1.2 ferredoxin toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 260.0 * +EC1.18.1.2 ferricytochrome c triticum aestivum//*//* 104.0 * +EC1.18.1.2 flavodoxin i escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0042 * +EC1.18.1.2 flavodoxin ii escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC1.18.1.2 flavodoxin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 24.0 * +EC1.18.1.2 flavodoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.18.1.2 flavodoxin pisum sativum//*//* 30.6 * +EC1.18.1.2 nadh anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.16 * +EC1.18.1.2 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC1.18.1.2 nadh pisum sativum//*//* 7.0 * +EC1.18.1.2 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.24 * +EC1.18.1.2 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 9.6 * +EC1.18.1.2 nadh xanthomonas axonopodis//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xax 3.2 * +EC1.18.1.2 nadph anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 225.0 * +EC1.18.1.2 nadph anabaena variabilis//*//* 517.0 * +EC1.18.1.2 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 35.4 * +EC1.18.1.2 nadph cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 21.71 * +EC1.18.1.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 520.0 * +EC1.18.1.2 nadph leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 258.0 * +EC1.18.1.2 nadph pisum sativum//*//* 374.3 * +EC1.18.1.2 nadph plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 125.0 * +EC1.18.1.2 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 37.61 * +EC1.18.1.2 nadph rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 222.0 * +EC1.18.1.2 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 560.0 * +EC1.18.1.2 nadph toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 540.0 * +EC1.18.1.2 nadph xanthomonas axonopodis//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xax 121.9 * +EC1.18.1.2 oxidized ferredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.8 * +EC1.18.1.2 oxidized ferredoxin pisum sativum//*//* 75.0 * +EC1.18.1.2 reduced ferredoxin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 200.0 * +EC1.18.1.2 reduced ferredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.18.1.2 reduced ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 600.0 * +EC1.18.1.2 reduced flavodoxin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.25 * +EC1.18.1.3 cytochrome c mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 4.5 * +EC1.18.1.3 ferricyanide mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 60.2 * +EC1.18.1.4 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 498.0 * +EC1.18.1.4 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 341.0 * +EC1.18.1.4 oxidized benzyl viologen pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1236.0 * +EC1.18.1.4 oxidized rubredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 15000.0 * +EC1.18.1.5 fe(cn)62- pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 671.0 * +EC1.18.1.5 fe(cn)63- pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 982.0 * +EC1.18.1.5 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 806.0 * +EC1.18.1.5 oxidized 2,6-dichlorophenolindolphenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 385.0 * +EC1.18.1.5 reduced putidaredoxin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 264.0 * +EC1.18.1.6 2,6-dichlorophenolindophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.011 * +EC1.18.1.6 ferricyanide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 33.7 * +EC1.18.1.6 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 25.6 * +EC1.18.1.6 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 50.6 * +EC1.18.6.1 flavodoxin hydroquinone azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 400.0 * +EC1.18.6.1 scn- azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.3 * +EC1.19.1.1 ferricyanide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.8 * +EC1.19.1.1 ferricytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.25 * +EC1.19.1.1 ferricytochrome c2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.35 * +EC1.19.1.1 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC1.19.1.1 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.65 * +EC1.19.1.1 nadph rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 222.0 * +EC1.19.1.1 reduced flavodoxin i escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0042 * +EC1.19.1.1 reduced flavodoxin ii escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC1.19.1.1 reduced flavodoxin nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 23.3 * +EC1.19.1.1 reduced flavodoxin pisum sativum//*//* 30.6 * +EC1.19.6.1 flavodoxin hydroquinone azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 400.0 * +EC1.2.1.10 acetaldehyde citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 13.0 * +EC1.2.1.10 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.7 * +EC1.2.1.10 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 17.2 * +EC1.2.1.10 butyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 9.5 * +EC1.2.1.10 picolinaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 2.8 * +EC1.2.1.10 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 16.3 * +EC1.2.1.11 aspartyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.6 * +EC1.2.1.11 l-aspartate 4-semialdehyde candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.12 * +EC1.2.1.11 l-aspartate 4-semialdehyde haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 330.0 * +EC1.2.1.11 l-aspartate 4-semialdehyde pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 160.0 * +EC1.2.1.11 l-aspartate 4-semialdehyde vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 120.0 * +EC1.2.1.11 l-aspartate-4-semialdehyde haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 330.0 * +EC1.2.1.11 l-aspartate-semialdehyde streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.0 * +EC1.2.1.11 nadp+ haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 330.0 * +EC1.2.1.11 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.49 * +EC1.2.1.11 phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 330.0 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 73.56 * +EC1.2.1.12 acetaldehyde neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 4.03 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 70.0 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 234.0 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 24.51 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 122.2 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 29.0 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 50.0 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 70.0 * +EC1.2.1.12 d-glyceraldehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 442.0 * +EC1.2.1.12 glyceraldehyde neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 4.35 * +EC1.2.1.12 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 6.45 * +EC1.2.1.12 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 65.0 * +EC1.2.1.12 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 199.0 * +EC1.2.1.12 nad+ lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 70.0 * +EC1.2.1.12 nad+ oryza sativa japonica group//*//* 122.0 * +EC1.2.1.12 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 20.0 * +EC1.2.1.12 nadh oryza sativa japonica group//*//* 73.6 * +EC1.2.1.13 3-phospho-d-glyceroyl phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 419.0 * +EC1.2.1.13 nadh chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 104.0 * +EC1.2.1.13 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 41.0 * +EC1.2.1.13 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 430.0 * +EC1.2.1.13 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 61.0 * +EC1.2.1.16 2-oxoglutarate semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.1 * +EC1.2.1.16 2-oxoglutarate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 27.3 * +EC1.2.1.16 benzaldehyde pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 57.0 * +EC1.2.1.16 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.26 * +EC1.2.1.16 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC1.2.1.16 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC1.2.1.16 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 66.0 * +EC1.2.1.16 nad+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 176.0 * +EC1.2.1.16 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 46.0 * +EC1.2.1.16 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 136.3 * +EC1.2.1.16 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 51.2 * +EC1.2.1.16 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 9.93 * +EC1.2.1.16 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.3 * +EC1.2.1.16 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 21.1 * +EC1.2.1.16 nadp+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 40.0 * +EC1.2.1.16 nadp+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 46.0 * +EC1.2.1.16 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 16.5 * +EC1.2.1.16 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 27.6 * +EC1.2.1.16 succinate semialdehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.24 * +EC1.2.1.16 succinate semialdehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.7 * +EC1.2.1.16 succinate semialdehyde salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 83.0 * +EC1.2.1.16 succinate semialdehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 30.0 * +EC1.2.1.16 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.6 * +EC1.2.1.16 succinic semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 18.4 * +EC1.2.1.19 4-aminobutyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC1.2.1.19 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.2.1.2 co2 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 46.6 * +EC1.2.1.2 co2 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.5 * +EC1.2.1.2 formate candida boidinii//*//* 5.6 * +EC1.2.1.2 formate candida methylica//*//* 1.31 * +EC1.2.1.2 formate chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 2.039 * +EC1.2.1.2 formate citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 76.0 * +EC1.2.1.2 formate desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 543.0 * +EC1.2.1.2 formate glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.9 * +EC1.2.1.2 formate lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 1.3 * +EC1.2.1.2 formate moraxella sp.//*//* 7.3 * +EC1.2.1.2 formate ogataea angusta//*//* 2.32 * +EC1.2.1.2 formate paracoccus sp.//prokaryotes;bacteria;alphaproteobacteria;paracoccus//paro 6.1 * +EC1.2.1.2 formate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.0 * +EC1.2.1.2 formate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 39.7 * +EC1.2.1.2 formate thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.77 * +EC1.2.1.2 glyoxylate paracoccus sp.//prokaryotes;bacteria;alphaproteobacteria;paracoccus//paro 0.007 * +EC1.2.1.2 hco3- candida methylica//*//* 0.023 * +EC1.2.1.2 hco3- chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.023 * +EC1.2.1.2 nad+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.67 * +EC1.2.1.2 nad+ candida boidinii//*//* 1300.0 * +EC1.2.1.2 nad+ candida methylica//*//* 1.4 * +EC1.2.1.2 nad+ chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.65 * +EC1.2.1.2 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.9 * +EC1.2.1.2 nad+ lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 1.2 * +EC1.2.1.2 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.5 * +EC1.2.1.2 nadh clostridium carboxidivorans//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cck 0.08 * +EC1.2.1.2 nadp+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.07 * +EC1.2.1.2 nadp+ candida boidinii//*//* 4e-05 * +EC1.2.1.2 nadp+ lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.005 * +EC1.2.1.2 reduced 1,1'-diaminoethyl-4,4'-bipyridinium salt candida boidinii//*//* 0.072 * +EC1.2.1.2 reduced 1,1'-dicarboxyl-4,4'-bipyridinium salt candida boidinii//*//* 0.005 * +EC1.2.1.2 reduced 1-methyl-1'-aminoethyl-4,4'-bipyridinium salt candida boidinii//*//* 0.038 * +EC1.2.1.2 reduced 1-methyl-1'-carboxymethyl-4,4'-bipyridinium salt candida boidinii//*//* 0.025 * +EC1.2.1.2 reduced methyl viologen candida boidinii//*//* 0.032 * +EC1.2.1.22 (s)-lactaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 761.5 * +EC1.2.1.22 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC1.2.1.22 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC1.2.1.22 d-lactaldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.0 * +EC1.2.1.22 glycoaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.3 * +EC1.2.1.22 phenaylacetaldehyd escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.2.1.22 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC1.2.1.22 propionaldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.0 * +EC1.2.1.24 2,5-dioxopentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.1 * +EC1.2.1.24 alpha-ketoglutaric semialdehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 51.2 * +EC1.2.1.24 glutaraldehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 12.3 * +EC1.2.1.24 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 69.0 * +EC1.2.1.24 succinate semialdehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 31.7 * +EC1.2.1.24 succinate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 22.6 * +EC1.2.1.26 2,5-dioxopentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.6 * +EC1.2.1.26 acetaldehyde acinetobacter baylyi//*//* 0.41 * +EC1.2.1.26 alpha-ketoglutaric semialdehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 53.9 * +EC1.2.1.26 alpha-ketoglutaric semialdehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.75 * +EC1.2.1.26 alpha-ketoglutaric semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 197.0 * +EC1.2.1.26 butylaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.35 * +EC1.2.1.26 dl-glyceraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.8 * +EC1.2.1.26 glutaraldehyde acinetobacter baylyi//*//* 4.13 * +EC1.2.1.26 glycolaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.3 * +EC1.2.1.26 heptaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.87 * +EC1.2.1.26 hexylaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.47 * +EC1.2.1.26 nad+ acinetobacter baylyi//*//* 57.0 * +EC1.2.1.26 nad+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 52.3 * +EC1.2.1.26 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.74 * +EC1.2.1.26 nadp+ acinetobacter baylyi//*//* 55.0 * +EC1.2.1.26 nadp+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 15.3 * +EC1.2.1.26 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.08 * +EC1.2.1.26 octylaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.97 * +EC1.2.1.26 propanal acinetobacter baylyi//*//* 2.07 * +EC1.2.1.26 propionaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.29 * +EC1.2.1.26 succinate semialdehyde acinetobacter baylyi//*//* 0.06 * +EC1.2.1.26 valeraldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.1 * +EC1.2.1.27 2-methyl-3-oxopropanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.1 * +EC1.2.1.27 2-methyl-3-oxopropanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.003 * +EC1.2.1.27 coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 12.6 * +EC1.2.1.27 malonate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.02 * +EC1.2.1.27 methylmalonate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.003 * +EC1.2.1.27 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.2 * +EC1.2.1.27 propionaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.2.1.28 2-hydroxybenzaldehyde acinetobacter calcoaceticus//*//* 41.0 * +EC1.2.1.28 2-hydroxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 33.0 * +EC1.2.1.28 2-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 39.0 * +EC1.2.1.28 2-naphthaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 56.0 * +EC1.2.1.28 3-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.0 * +EC1.2.1.28 3-fluorobenzaldehyde acinetobacter calcoaceticus//*//* 41.0 * +EC1.2.1.28 3-hydroxybenzaldehyde acinetobacter calcoaceticus//*//* 29.0 * +EC1.2.1.28 3-hydroxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 24.0 * +EC1.2.1.28 3-methoxybenzaldehyde acinetobacter calcoaceticus//*//* 33.0 * +EC1.2.1.28 3-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 885.0 * +EC1.2.1.28 3-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 23.0 * +EC1.2.1.28 4-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 67.0 * +EC1.2.1.28 4-fluorobenzaldehyde acinetobacter calcoaceticus//*//* 64.0 * +EC1.2.1.28 4-hydroxybenzaldehyde acinetobacter calcoaceticus//*//* 20.0 * +EC1.2.1.28 4-methoxybenzaldehyde acinetobacter calcoaceticus//*//* 49.0 * +EC1.2.1.28 4-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 101.0 * +EC1.2.1.28 4-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 120.0 * +EC1.2.1.28 acetaldehyde antirrhinum majus//*//* 2.08 * +EC1.2.1.28 benzaldehyde acinetobacter calcoaceticus//*//* 72.0 * +EC1.2.1.28 benzaldehyde antirrhinum majus//*//* 0.31 * +EC1.2.1.28 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 14.0 * +EC1.2.1.28 cinnamaldehyde acinetobacter calcoaceticus//*//* 26.0 * +EC1.2.1.28 furan-2-carboxaldehyde acinetobacter calcoaceticus//*//* 46.0 * +EC1.2.1.28 hexan-1-al acinetobacter calcoaceticus//*//* 29.0 * +EC1.2.1.28 octan-1-al acinetobacter calcoaceticus//*//* 26.0 * +EC1.2.1.28 perillaldehyde acinetobacter calcoaceticus//*//* 17.0 * +EC1.2.1.28 phenylacetaldehyde antirrhinum majus//*//* 0.23 * +EC1.2.1.28 pyridine-3-carboxaldehyde acinetobacter calcoaceticus//*//* 68.0 * +EC1.2.1.28 pyridine-4-carboxaldehyde acinetobacter calcoaceticus//*//* 66.0 * +EC1.2.1.28 thiophen-2-carboxyaldehyde acinetobacter calcoaceticus//*//* 52.0 * +EC1.2.1.3 (r)-trans-4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.039 * +EC1.2.1.3 (s)-trans-4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.2.1.3 2,4-dinitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.667 * +EC1.2.1.3 2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.2.1.3 2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.57 * +EC1.2.1.3 3,4-dimethoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.42 * +EC1.2.1.3 3-hydroxypropionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.54 * +EC1.2.1.3 3-hydroxypropionic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC1.2.1.3 3-pyridinecarboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.7 * +EC1.2.1.3 4-methoxy-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.42 * +EC1.2.1.3 5-(dimethylamino)-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.67 * +EC1.2.1.3 5-bromo-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.2.1.3 5-nitro-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.833 * +EC1.2.1.3 6,7-dimethoxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.983 * +EC1.2.1.3 6-(dimethylamino)-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.617 * +EC1.2.1.3 6-methoxy-2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.983 * +EC1.2.1.3 7-(dimethylamino)-2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.17 * +EC1.2.1.3 7-(dimethylamino)-coumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.2.1.3 7-(dimethylamino)coumarin-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.9 * +EC1.2.1.3 7-acetoxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC1.2.1.3 7-hydroxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.33 * +EC1.2.1.3 7-methoxy-2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.33 * +EC1.2.1.3 7-methoxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.17 * +EC1.2.1.3 acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.86 * +EC1.2.1.3 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.03 * +EC1.2.1.3 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.7 * +EC1.2.1.3 acetaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.62 * +EC1.2.1.3 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.5 * +EC1.2.1.3 acetaldehyde ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 240.0 * +EC1.2.1.3 acetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.14 * +EC1.2.1.3 alpha-phenylpropanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.2 * +EC1.2.1.3 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.37 * +EC1.2.1.3 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.83 * +EC1.2.1.3 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.137 * +EC1.2.1.3 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.95 * +EC1.2.1.3 butyraldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 3.44 * +EC1.2.1.3 decanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.7 * +EC1.2.1.3 dl-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.83 * +EC1.2.1.3 dl-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.92 * +EC1.2.1.3 fluorene-2-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.2.1.3 formaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.5 * +EC1.2.1.3 glutathione-4-oxonon-2-enal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.2.1.3 glyceraldehyde 3-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.28 * +EC1.2.1.3 glyceraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.29 * +EC1.2.1.3 glycolaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC1.2.1.3 heptanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.7 * +EC1.2.1.3 hexanal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 11.2 * +EC1.2.1.3 hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.5 * +EC1.2.1.3 hexanaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 5.61 * +EC1.2.1.3 hydrocinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.3 * +EC1.2.1.3 indole-3-acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.3 * +EC1.2.1.3 isovaleraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.31 * +EC1.2.1.3 m-hydroxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.2.1.3 m-methoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.83 * +EC1.2.1.3 m-methylbenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC1.2.1.3 malondialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.19 * +EC1.2.1.3 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.2 * +EC1.2.1.3 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC1.2.1.3 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.05 * +EC1.2.1.3 nadh ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 240.0 * +EC1.2.1.3 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.71 * +EC1.2.1.3 nonanal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.9 * +EC1.2.1.3 o-methoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.367 * +EC1.2.1.3 o-methylbenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.75 * +EC1.2.1.3 o-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.23 * +EC1.2.1.3 octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC1.2.1.3 p-(dimethylamino)-benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.33 * +EC1.2.1.3 p-(dimethylamino)benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.13 * +EC1.2.1.3 p-(dimethylamino)cinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.17 * +EC1.2.1.3 p-methoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.2.1.3 p-methylbenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC1.2.1.3 p-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC1.2.1.3 p-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.17 * +EC1.2.1.3 p-nitrocinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC1.2.1.3 p-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.26 * +EC1.2.1.3 pentanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.8 * +EC1.2.1.3 pentanaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 5.44 * +EC1.2.1.3 phenanthrene-9-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.2.1.3 phenylacetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.39 * +EC1.2.1.3 phenylacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC1.2.1.3 phosphonoacetaldehyde sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.2 * +EC1.2.1.3 propanal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.85 * +EC1.2.1.3 propanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.7 * +EC1.2.1.3 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.35 * +EC1.2.1.3 propionaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 3.45 * +EC1.2.1.3 quinoline-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.2 * +EC1.2.1.3 quinoline-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.67 * +EC1.2.1.3 succinic semialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.76 * +EC1.2.1.3 trans-2-hexenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.2 * +EC1.2.1.3 trans-2-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.7 * +EC1.2.1.3 trans-cinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.83 * +EC1.2.1.3 valeraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.24 * +EC1.2.1.31 alpha-aminoadipate semialdehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.2 * +EC1.2.1.31 l-2-aminoadipate penicillium chrysogenum//*//* 66.0 * +EC1.2.1.32 2-hydroxy-5-methyl-muconic-6-semialdehyde burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 99300.0 * +EC1.2.1.32 2-hydroxymuconate-6-semialdehyde burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 21900.0 * +EC1.2.1.32 5-chloro-2-hydroxymuconic-6-semialdehyde burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 2300.0 * +EC1.2.1.36 2,4-decadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.2.1.36 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC1.2.1.36 citral rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.2.1.36 decanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC1.2.1.36 decanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC1.2.1.36 hexanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC1.2.1.36 hexanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.2.1.36 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.3 * +EC1.2.1.36 octanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.8 * +EC1.2.1.36 retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.2.1.36 retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.9 * +EC1.2.1.36 retinal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.2.1.39 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.5 * +EC1.2.1.39 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC1.2.1.39 heptanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.7 * +EC1.2.1.39 hexanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.8 * +EC1.2.1.39 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.17 * +EC1.2.1.39 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC1.2.1.39 phenylacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 96.8 * +EC1.2.1.39 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.8 * +EC1.2.1.4 acetaldehyde paenarthrobacter nicotinovorans//*//* 0.75 * +EC1.2.1.4 benzaldehyde paenarthrobacter nicotinovorans//*//* 4.52 * +EC1.2.1.4 butyraldehyde paenarthrobacter nicotinovorans//*//* 0.65 * +EC1.2.1.4 formaldehyde paenarthrobacter nicotinovorans//*//* 0.33 * +EC1.2.1.4 glutaraldehyde paenarthrobacter nicotinovorans//*//* 3.92 * +EC1.2.1.4 glyceraldehyde paenarthrobacter nicotinovorans//*//* 1.35 * +EC1.2.1.4 glyceraldehyde pyrobaculum ferrireducens//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyr 1.2 * +EC1.2.1.4 isobutyraldehyde pyrobaculum ferrireducens//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyr 4.1 * +EC1.2.1.4 nad+ paenarthrobacter nicotinovorans//*//* 3.1 * +EC1.2.1.4 nadp+ paenarthrobacter nicotinovorans//*//* 1.02 * +EC1.2.1.4 propionaldehyde paenarthrobacter nicotinovorans//*//* 1.2 * +EC1.2.1.4 propionaldehyde pyrobaculum ferrireducens//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyr 2.9 * +EC1.2.1.43 nad+ burkholderia stabilis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bstl 1.66 * +EC1.2.1.43 nad+ granulicella mallensis//prokaryotes;bacteria;acidobacteria;granulicella//gma 5.77 * +EC1.2.1.43 nadp+ burkholderia stabilis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bstl 4.75 * +EC1.2.1.43 nadp+ granulicella mallensis//prokaryotes;bacteria;acidobacteria;granulicella//gma 3.96 * +EC1.2.1.44 4-coumaroyl-coa panicum virgatum//*//* 0.32 * +EC1.2.1.44 5-hydroxyferuloyl-coa populus tremuloides//*//* 4.9 * +EC1.2.1.44 caffeoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0363 * +EC1.2.1.44 caffeoyl-coa leucaena leucocephala//*//* 113.0 * +EC1.2.1.44 caffeoyl-coa panicum virgatum//*//* 0.23 * +EC1.2.1.44 caffeoyl-coa populus tremuloides//*//* 0.7 * +EC1.2.1.44 caffeoyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.33 * +EC1.2.1.44 coniferaldehyde leucaena leucocephala//*//* 236.0 * +EC1.2.1.44 coumaroyl-coa leucaena leucocephala//*//* 105.0 * +EC1.2.1.44 coumaroyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.43 * +EC1.2.1.44 feruloyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.9 * +EC1.2.1.44 feruloyl-coa leucaena leucocephala//*//* 164.0 * +EC1.2.1.44 feruloyl-coa panicum virgatum//*//* 2.01 * +EC1.2.1.44 feruloyl-coa populus tremuloides//*//* 7.8 * +EC1.2.1.44 feruloyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 14.2 * +EC1.2.1.44 p-coumaroyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.63 * +EC1.2.1.44 sinapaldehyde leucaena leucocephala//*//* 210.0 * +EC1.2.1.44 sinapoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.67 * +EC1.2.1.44 sinapoyl-coa leucaena leucocephala//*//* 131.0 * +EC1.2.1.44 sinapoyl-coa panicum virgatum//*//* 0.2 * +EC1.2.1.44 sinapoyl-coa populus tremuloides//*//* 5.3 * +EC1.2.1.44 sinapoyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.96 * +EC1.2.1.48 (11z)-hexadec-11-enal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC1.2.1.48 decanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.18 * +EC1.2.1.48 dodecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.23 * +EC1.2.1.48 farnesal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.93 * +EC1.2.1.48 hexadecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.95 * +EC1.2.1.48 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28 * +EC1.2.1.48 octadecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.52 * +EC1.2.1.48 tetradecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC1.2.1.5 4-hydroxynonenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.1 * +EC1.2.1.5 acetaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.183 * +EC1.2.1.5 acetaldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 4.46 * +EC1.2.1.5 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.9 * +EC1.2.1.5 acetaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33.5 * +EC1.2.1.5 acetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.14 * +EC1.2.1.5 all-trans-retinal bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.005 * +EC1.2.1.5 benzaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.217 * +EC1.2.1.5 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 51.0 * +EC1.2.1.5 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.9 * +EC1.2.1.5 butyraldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 32.8 * +EC1.2.1.5 chloroacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC1.2.1.5 d-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.83 * +EC1.2.1.5 d-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.92 * +EC1.2.1.5 hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.0 * +EC1.2.1.5 hexanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.0 * +EC1.2.1.5 isovaleraldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 3.58 * +EC1.2.1.5 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0017 * +EC1.2.1.5 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.3 * +EC1.2.1.5 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 18.8 * +EC1.2.1.5 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.05 * +EC1.2.1.5 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.8 * +EC1.2.1.5 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33.1 * +EC1.2.1.5 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.71 * +EC1.2.1.5 propionaldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 49.38 * +EC1.2.1.5 trans-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.0 * +EC1.2.1.5 trans-2-hexenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 35.1 * +EC1.2.1.5 valeraldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 30.99 * +EC1.2.1.58 benzyl viologen azoarcus evansii//*//* 46.0 * +EC1.2.1.60 5-carboxymethyl-2-hydroxymuconate semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 40.0 * +EC1.2.1.7 3,4-dihydroxybenzaldehyde acinetobacter baylyi//*//* 25.0 * +EC1.2.1.7 4-hydroxy-3-methoxybenzaldehyde acinetobacter baylyi//*//* 18.0 * +EC1.2.1.7 4-hydroxybenzaldehyde acinetobacter baylyi//*//* 4.0 * +EC1.2.1.7 benzaldehyde acinetobacter baylyi//*//* 4.6 * +EC1.2.1.7 nad+ acinetobacter baylyi//*//* 14.0 * +EC1.2.1.70 l-glutamyl-trnaglu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC1.2.1.70 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.2.1.72 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 200.0 * +EC1.2.1.72 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 169.0 * +EC1.2.1.75 malonyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 50.0 * +EC1.2.1.75 malonyl-coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.0 * +EC1.2.1.75 nadph chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 18.6 * +EC1.2.1.77 3,4-dehydroadipyl-coa semialdehyde azoarcus evansii//*//* 45.0 * +EC1.2.1.77 benzaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.019 * +EC1.2.1.77 formaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.046 * +EC1.2.1.77 heptaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 29.9 * +EC1.2.1.77 isovaleraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.074 * +EC1.2.1.77 nad+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.501 * +EC1.2.1.77 nadp+ azoarcus evansii//*//* 45.0 * +EC1.2.1.77 nadp+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.04 * +EC1.2.1.77 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 162.0 * +EC1.2.1.77 valeraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 5.16 * +EC1.2.1.78 2-carboxybenzaldehyde nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 39.0 * +EC1.2.1.78 2-nitrobenzaldehyde nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 48.0 * +EC1.2.1.78 nad+ nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 32.0 * +EC1.2.1.79 2,5-dioxopentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 27.3 * +EC1.2.1.79 nad+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.94 * +EC1.2.1.79 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 136.3 * +EC1.2.1.79 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC1.2.1.79 nadp+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 7.2 * +EC1.2.1.79 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 16.5 * +EC1.2.1.79 nadp+ synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 5.0 * +EC1.2.1.79 succinate semialdehyde streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.69 * +EC1.2.1.79 succinate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 18.4 * +EC1.2.1.79 succinic semialdehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.7 * +EC1.2.1.8 betaine aldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.36 * +EC1.2.1.8 betaine aldehyde staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 11.0 * +EC1.2.1.8 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 261.0 * +EC1.2.1.8 nad+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 4.25 * +EC1.2.1.8 nad+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.18 * +EC1.2.1.8 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 276.0 * +EC1.2.1.8 nadp+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.56 * +EC1.2.1.80 hexacosanoyl-coa cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.077 * +EC1.2.1.80 stearoyl-[acyl-carrier protein] nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0028 * +EC1.2.1.87 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 17.2 * +EC1.2.1.87 acetaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 17.2 * +EC1.2.1.87 butyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 9.5 * +EC1.2.1.87 isobutyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 11.2 * +EC1.2.1.87 nad+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 14.1 * +EC1.2.1.87 nadp+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 12.9 * +EC1.2.1.87 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 16.3 * +EC1.2.1.87 propionaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 16.3 * +EC1.2.1.88 1-pyrroline-5-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.16 * +EC1.2.1.88 1-pyrroline-5-carboxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC1.2.1.88 1-pyrroline-5-carboxylate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 25.0 * +EC1.2.1.88 1-pyrroline-5-carboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.6 * +EC1.2.1.88 l-glutamate 5-semialdehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 7.0 * +EC1.2.1.88 nad+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 12.0 * +EC1.2.1.88 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.6 * +EC1.2.1.88 nad+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 7.5 * +EC1.2.1.88 nadp+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.0 * +EC1.2.1.88 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.42 * +EC1.2.1.88 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.2 * +EC1.2.1.89 d-glyceraldehyde picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 10.0 * +EC1.2.1.89 d-glyceraldehyde thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 26.0 * +EC1.2.1.89 d-glycerate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 12.0 * +EC1.2.1.89 d-glycerate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 20.0 * +EC1.2.1.89 glycolaldehyde picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 20.0 * +EC1.2.1.89 glycolaldehyde thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 37.0 * +EC1.2.1.89 nad+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 1.64 * +EC1.2.1.89 nadp+ picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 10.0 * +EC1.2.1.89 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 25.0 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 15.0 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 341.0 * +EC1.2.1.9 d-glyceraldehyde-3-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 60.0 * +EC1.2.1.95 adipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0045 * +EC1.2.1.95 d-2-aminoadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.63 * +EC1.2.1.95 l-2-aminoadipate penicillium chrysogenum//*//* 1.1 * +EC1.2.1.95 l-2-aminoadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 41.7 * +EC1.2.1.95 s-carboxymethyl-l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.0 * +EC1.2.1.96 4-hydroxy-3-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.071 * +EC1.2.1.96 4-hydroxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.26 * +EC1.2.1.97 (2s)-3-sulfolactaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.8 * +EC1.2.1.99 3-hydroxypropionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.54 * +EC1.2.1.99 3-hydroxypropionaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 19.81 * +EC1.2.1.99 3-hydroxypropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC1.2.1.99 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.03 * +EC1.2.1.99 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.37 * +EC1.2.1.99 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.95 * +EC1.2.1.99 butyraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 30.34 * +EC1.2.1.99 isovaleraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.31 * +EC1.2.1.99 isovaleraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 25.47 * +EC1.2.1.99 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.35 * +EC1.2.1.99 valeraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.24 * +EC1.2.1.99 valeraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 29.61 * +EC1.2.2.3 ferri-ssc desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 27.0 * +EC1.2.2.3 ferri-tpic3 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 17.1 * +EC1.2.2.3 ferricytochrome c-553 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 239.0 * +EC1.2.2.3 formate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 1.85 * +EC1.2.2.B1 cytochrome b559/569 methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 266.0 * +EC1.2.2.B1 dichloroindophenol methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 290.0 * +EC1.2.3.1 2-hydroxypyrimidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 21.32 * +EC1.2.3.1 acetaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.66 * +EC1.2.3.1 benzaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 95.2 * +EC1.2.3.1 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.29 * +EC1.2.3.1 butanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.4 * +EC1.2.3.1 cinnamylaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 436.5 * +EC1.2.3.1 indole-3-acetaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1904.0 * +EC1.2.3.1 methotrexate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.2.3.1 methotrexate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 84.0 * +EC1.2.3.1 n-methylnicotinamide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.97 * +EC1.2.3.1 n1-methyl-nicotineamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC1.2.3.1 n1-methylnicotinamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.245 * +EC1.2.3.1 phenanthridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.862 * +EC1.2.3.1 phthalazine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC1.2.3.1 retinaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.83 * +EC1.2.3.15 methylglyoxal phanerochaete chrysosporium//*//* 198.0 * +EC1.2.3.3 pyruvate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 26.0 * +EC1.2.3.4 oxalate gelatoporia subvermispora//*//* 20.0 * +EC1.2.3.4 oxalate hordeum vulgare//*//* 9.7 * +EC1.2.3.4 oxalate ochrobactrum intermedium//*//* 85.0 * +EC1.2.4.1 2-keto-4-methylhexanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.4 * +EC1.2.4.1 2-ketobutanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 320.0 * +EC1.2.4.1 2-ketohexanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.0 * +EC1.2.4.1 2-ketopentanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 53.0 * +EC1.2.4.1 2-oxobutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.2.4.1 2-oxovalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.128 * +EC1.2.4.1 e2p lipoyl domain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 95.0 * +EC1.2.4.1 lipoyl domain azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.1 * +EC1.2.4.1 n-acetyl-gdllaeietdk(lipoylated)atig-amide mammalia//*//* 5.0 * +EC1.2.4.1 n-terminal lipoyl domain mammalia//*//* 70.0 * +EC1.2.4.1 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 37.9 * +EC1.2.4.1 pyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.48 * +EC1.2.4.1 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 69.9 * +EC1.2.4.1 pyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC1.2.4.1 pyruvate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 486.0 * +EC1.2.4.1 thiamine diphosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.46 * +EC1.2.4.4 2-oxo-isovalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.4 * +EC1.2.4.4 alpha-ketoisovaleric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1983 * +EC1.2.4.4 thiamine diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.38 * +EC1.2.5.1 ferricyanide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 883.0 * +EC1.2.5.1 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 167.0 * +EC1.2.5.2 acetic acid gluconacetobacter diazotrophicus//prokaryotes;bacteria;alphaproteobacteria;gluconacetobacter//gdi 22000.0 * +EC1.2.5.3 co oligotropha carboxidovorans//prokaryotes;bacteria;alphaproteobacteria;oligotropha//oca 93.3 * +EC1.2.7.1 2-oxobutyrate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 13.0 * +EC1.2.7.1 coa citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 109.0 * +EC1.2.7.1 oxaloacetate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 18.0 * +EC1.2.7.1 pyruvate citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 94.0 * +EC1.2.7.1 pyruvate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 27.0 * +EC1.2.7.10 oxalate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.09 * +EC1.2.7.11 2-oxobutanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.5 * +EC1.2.7.11 2-oxobutyrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.55 * +EC1.2.7.11 2-oxoglutarate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.53 * +EC1.2.7.11 2-oxoglutarate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 19.0 * +EC1.2.7.11 pyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.4 * +EC1.2.7.11 pyruvate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 51.0 * +EC1.2.7.12 formylmethanofuran methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 640.0 * +EC1.2.7.3 2-oxoglutarate thauera aromatica//*//* 17.0 * +EC1.2.7.4 co carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 15900.0 * +EC1.2.7.4 co moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 3250.0 * +EC1.2.7.4 methylene blue oligotropha carboxidovorans//prokaryotes;bacteria;alphaproteobacteria;oligotropha//oca 93.3 * +EC1.2.7.5 acetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 343.0 * +EC1.2.7.5 acetate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.6 * +EC1.2.7.5 benzaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 720.0 * +EC1.2.7.5 benzyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 250.0 * +EC1.2.7.5 crotonaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 269.0 * +EC1.2.7.5 ferredoxin thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 270.0 * +EC1.2.7.5 formaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 950.0 * +EC1.2.7.5 glyceraldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 2.8 * +EC1.2.7.5 indoleacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 55.0 * +EC1.2.7.5 isovalerylaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 272.0 * +EC1.2.7.5 methyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 62.0 * +EC1.2.7.5 phenylacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 960.0 * +EC1.2.7.5 propionaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1100.0 * +EC1.2.7.5 salicylaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 13.0 * +EC1.2.7.7 2-keto-3-methylvalerate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2.07 * +EC1.2.7.7 2-keto-3-methylvalerate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.27 * +EC1.2.7.7 2-ketobutyrate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 1.47 * +EC1.2.7.7 2-ketobutyrate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 22.3 * +EC1.2.7.7 2-ketocaproate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.933 * +EC1.2.7.7 2-ketocaproate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.0 * +EC1.2.7.7 2-ketoisocaproate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2.47 * +EC1.2.7.7 2-ketoisocaproate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 2.0 * +EC1.2.7.7 2-ketoisovalerate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 3.67 * +EC1.2.7.7 2-ketoisovalerate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 3.0 * +EC1.2.7.7 2-ketomethylisobutyrate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 1.07 * +EC1.2.7.7 4-methylthio-2-oxobutanoate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.667 * +EC1.2.7.7 coa pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 5.6 * +EC1.2.7.7 coa thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 5.0 * +EC1.2.7.7 ferredoxin thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.53 * +EC1.2.7.7 glyoxylate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.0133 * +EC1.2.7.7 hydroxyphenylpyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.833 * +EC1.2.7.7 indolpyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.433 * +EC1.2.7.7 phenylglyoxalate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.833 * +EC1.2.7.7 phenylglyoxylate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 1.33 * +EC1.2.7.7 phenylpyruvate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.467 * +EC1.2.7.7 phenylpyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.6 * +EC1.2.7.7 pyruvate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 1.73 * +EC1.2.7.7 pyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.267 * +EC1.2.7.B2 acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 44000.0 * +EC1.2.7.B2 formaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 71000.0 * +EC1.2.7.B2 glutaric dialdehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 42000.0 * +EC1.2.7.B2 indole-3-acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2300.0 * +EC1.2.7.B2 phenylpropionaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 25000.0 * +EC1.2.7.B2 propionaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 11000.0 * +EC1.2.7.B2 succinic semialdehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5700.0 * +EC1.2.98.1 butanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.7 * +EC1.2.99.6 acetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 343.0 * +EC1.2.99.6 benzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 1.35 * +EC1.2.99.6 benzaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 720.0 * +EC1.2.99.6 benzyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 250.0 * +EC1.2.99.6 crotonaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 269.0 * +EC1.2.99.6 decylaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 1.22 * +EC1.2.99.6 es-1 ferredoxin thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 270.0 * +EC1.2.99.6 glyceraldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 10.5 * +EC1.2.99.6 indolecetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 55.0 * +EC1.2.99.6 isovaleraldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 272.0 * +EC1.2.99.6 methanal thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 950.0 * +EC1.2.99.6 methyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 62.0 * +EC1.2.99.6 octaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 1.2 * +EC1.2.99.6 phenylacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 960.0 * +EC1.2.99.6 propanal thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1100.0 * +EC1.2.99.6 salicylaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 13.0 * +EC1.2.99.7 2,3-dihydroxybenzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.87 * +EC1.2.99.7 2,5-dihydroxybenzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 3.3 * +EC1.2.99.7 2-phenylacetaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 4.4 * +EC1.2.99.7 3-hydroxybenzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 3.6 * +EC1.2.99.7 3-phenylpropanal desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 2.1 * +EC1.2.99.7 acetaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 1.14 * +EC1.2.99.7 benzaldehyde desulfovibrio alaskensis//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dde 0.96 * +EC1.2.99.7 benzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 5.7 * +EC1.2.99.7 cinnamaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.58 * +EC1.2.99.7 propionaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.44 * +EC1.2.99.7 salicylaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.44 * +EC1.2.99.8 acetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.38 * +EC1.2.99.8 d-glyceraldehyde-3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.98 * +EC1.2.99.8 d-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 50.5 * +EC1.2.99.8 indoleacetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.58 * +EC1.2.99.8 indolepyruvate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 11.0 * +EC1.20.1.1 nad+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 2.93 * +EC1.20.1.1 nadp+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 1.41 * +EC1.20.1.1 phosphite pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 7.33 * +EC1.20.1.1 phosphonate cupriavidus metallidurans//prokaryotes;bacteria;betaproteobacteria;cupriavidus//rme 6.83 * +EC1.20.1.1 phosphonate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 5.1 * +EC1.20.1.1 phosphonate nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 3.36 * +EC1.20.1.1 phosphonate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 6.57 * +EC1.20.2.1 arsenite arsenite-oxidising bacterium nt-26//*//* 8.6 * +EC1.20.2.1 arsenite arsenite-oxidising bacterium//*//* 8.6 * +EC1.20.2.1 arsenite hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 30.4 * +EC1.20.4.1 glutaredoxin 1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.20.4.1 glutaredoxin 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC1.20.4.1 glutaredoxin 3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC1.20.4.4 arsenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC1.20.4.4 arsenate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.09 * +EC1.20.4.4 arsenate desulfovibrio alaskensis//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dde 3.2 * +EC1.20.4.4 arsenate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.65 * +EC1.20.4.4 arsenate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.75 * +EC1.20.4.4 thioredoxin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.9 * +EC1.20.9.1 arsenate chrysiogenes arsenatis//*//* 14400.0 * +EC1.20.9.1 azurin alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 27.0 * +EC1.20.99.1 arsenate chrysiogenes arsenatis//*//* 14400.0 * +EC1.20.99.1 arsenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.20.99.1 arsenate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.33 * +EC1.20.99.1 arsenite hydrogenophaga sp. nt-14//*//* 30.4 * +EC1.20.99.1 reduced glutaredoxin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.26 * +EC1.21.1.1 3,5-diiodo-l-tyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.0 * +EC1.21.1.1 3,5-diiodo-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC1.21.1.1 3-iodo-l-tyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.0 * +EC1.21.1.1 3-iodo-l-tyrosine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.07 * +EC1.21.1.1 3-iodo-l-tyrosine daphnia pulex//eukaryotes;animals;arthropods;crustaceans//dpx 0.29 * +EC1.21.1.1 3-iodo-l-tyrosine haliscomenobacter hydrossis//prokaryotes;bacteria;bacteroidetes;haliscomenobacter//hhy 0.09 * +EC1.21.1.1 3-iodo-l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.208 * +EC1.21.1.1 3-iodo-l-tyrosine hydra magnipapillata//*//* 0.23 * +EC1.21.1.1 3-iodo-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC1.21.3.1 n-[(5s)-5-amino-5-carboxypentanoyl]-l-cysteinyl-d-valine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 4.1 * +EC1.21.3.3 (s)-reticuline eschscholzia californica//*//* 103.0 * +EC1.21.3.3 (s)-scoulerine eschscholzia californica//*//* 0.0025 * +EC1.21.3.3 o2 eschscholzia californica//*//* 10.5 * +EC1.21.3.7 cannabigerolate cannabis sativa//*//* 0.888 * +EC1.21.3.8 cannabigerolate cannabis sativa//*//* 0.19 * +EC1.21.3.8 cannabinerolate cannabis sativa//*//* 0.03 * +EC1.21.99.4 3,3',5'-triiodothyronine rattus sp.//*//* 0.00107 * +EC1.21.99.5 tetrachloroethene sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 20.4 * +EC1.3.1.1 5,6-dihydrouracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.65 * +EC1.3.1.1 dihydrothymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC1.3.1.1 thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.39 * +EC1.3.1.1 uracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC1.3.1.10 crotonyl-[acyl-carrier protein] staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.51 * +EC1.3.1.10 crotonyl-[staphylococcus aureus acyl carrier protein] staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 11.6 * +EC1.3.1.10 crotonyl-n-acetyl-cysteamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.5 * +EC1.3.1.10 dodec-2-enoyl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 18.0 * +EC1.3.1.10 dodecenoyl-[staphylococcus aureus acyl carrier protein] staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 130.2 * +EC1.3.1.10 dodecenoyl-n-acetyl-cysteamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 30.4 * +EC1.3.1.10 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 130.2 * +EC1.3.1.100 chanoclavine-i aldehyde aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 38.5 * +EC1.3.1.102 (1r,2s,4s)-neoisodihydrocarveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.003 * +EC1.3.1.102 (1r,4s)-isodihydrocarvone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.003 * +EC1.3.1.102 (2e)-3-methylpent-2-enal nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 9.2 * +EC1.3.1.102 (2r,4r)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.02 * +EC1.3.1.102 (2r,4s)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.025 * +EC1.3.1.102 (2s,4r)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.097 * +EC1.3.1.102 (2s,4s)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.077 * +EC1.3.1.102 (r)-carvone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.032 * +EC1.3.1.102 (r)-pulegone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.3 * +EC1.3.1.102 (s)-carvone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.025 * +EC1.3.1.102 (s)-pulegone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.8 * +EC1.3.1.102 1-nitrocyclohexene nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 11.0 * +EC1.3.1.102 1-octen-3-one nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.17 * +EC1.3.1.102 nadph nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.3 * +EC1.3.1.102 trans-2-nonenal nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.92 * +EC1.3.1.102 trans-cinnamaldehyde nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.5 * +EC1.3.1.105 (2e)-2-butylidene-4-hydroxy-5-methyl-3(2h)-furanone fragaria x ananassa//*//* 1.43 * +EC1.3.1.105 (2e)-2-butylidene-4-hydroxy-5-methyl-3(2h)-furanone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.15 * +EC1.3.1.105 (2e)-4-hydroxy-5-methyl-2-propylidene-3(2h)-furanone fragaria x ananassa//*//* 2.69 * +EC1.3.1.105 (2e)-4-hydroxy-5-methyl-2-propylidene-3(2h)-furanone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.34 * +EC1.3.1.105 (2e)-ethylidene-4-hydroxy-5-methyl-3(2h)-furanone fragaria x ananassa//*//* 1.94 * +EC1.3.1.105 (2e)-ethylidene-4-hydroxy-5-methyl-3(2h)-furanone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.39 * +EC1.3.1.109 butanoyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 2.0 * +EC1.3.1.12 l-arogenate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 68.0 * +EC1.3.1.12 nad+ aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 62.0 * +EC1.3.1.12 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC1.3.1.12 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 356.1 * +EC1.3.1.12 nad+ streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 7.4 * +EC1.3.1.12 prephenate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 68.0 * +EC1.3.1.12 prephenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 135.0 * +EC1.3.1.12 prephenate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 35.0 * +EC1.3.1.12 prephenate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 170.4 * +EC1.3.1.12 prephenate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 10.5 * +EC1.3.1.12 prephenate uncultured bacterium//*//* 10.08 * +EC1.3.1.13 prephenate glycine max//eukaryotes;plants;eudicots;pea family//gmx 26.3 * +EC1.3.1.13 prephenate ignicoccus hospitalis//prokaryotes;archaea;crenarchaeota;ignicoccus//iho 15.0 * +EC1.3.1.13 prephenate medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 21.8 * +EC1.3.1.14 (s)-dihydroorotate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 49.3 * +EC1.3.1.14 l-dihydroorotate faecalicatena orotica//*//* 45.0 * +EC1.3.1.14 nadh lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 25.7 * +EC1.3.1.14 orotate faecalicatena orotica//*//* 3.97 * +EC1.3.1.14 orotate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 25.7 * +EC1.3.1.15 orotate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 8.33 * +EC1.3.1.2 5,6-dihydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC1.3.1.2 uracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC1.3.1.2 uracil sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.242 * +EC1.3.1.20 (r)-tetralol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 84.0 * +EC1.3.1.20 (r)-tetralol macaca fuscata fuscata//*//* 2520.0 * +EC1.3.1.20 (s)-1-indanol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.417 * +EC1.3.1.20 (s)-indan-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.417 * +EC1.3.1.20 (s)-indan-1-ol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 2040.0 * +EC1.3.1.20 (s)-indan-1-ol macaca fuscata fuscata//*//* 1200.0 * +EC1.3.1.20 (s)-tetralol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 1320.0 * +EC1.3.1.20 (s)-tetralol macaca fuscata fuscata//*//* 2160.0 * +EC1.3.1.20 1-acenaphthenol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC1.3.1.20 1-acenaphthenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.585 * +EC1.3.1.20 4-chromanol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 2880.0 * +EC1.3.1.20 4-chromanol macaca fuscata fuscata//*//* 150.0 * +EC1.3.1.20 4-nitrobenzaldehyde macaca fuscata//*//* 11.3 * +EC1.3.1.20 5beta-androstan-3alpha,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC1.3.1.20 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0183 * +EC1.3.1.20 camphorquinone macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 20.0 * +EC1.3.1.20 camphorquinone macaca fuscata//*//* 62.5 * +EC1.3.1.20 chenodeoxycholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0115 * +EC1.3.1.20 cholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.045 * +EC1.3.1.20 cholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.233 * +EC1.3.1.20 d-glyceraldehyde macaca fuscata//*//* 31.4 * +EC1.3.1.20 d-xylose macaca fuscata//*//* 2.6 * +EC1.3.1.20 deoxycholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.133 * +EC1.3.1.20 dihydroxyacetone phosphate macaca fuscata//*//* 4.3 * +EC1.3.1.20 dihydroxyacetone macaca fuscata//*//* 5.5 * +EC1.3.1.20 dl-glyceraldehyde-3-phosphate macaca fuscata//*//* 8.0 * +EC1.3.1.20 l-glyceraldehyde macaca fuscata//*//* 9.1 * +EC1.3.1.20 lithocholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0867 * +EC1.3.1.20 taurochenodeoxycholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.783 * +EC1.3.1.20 taurocholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC1.3.1.20 taurolithocholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.217 * +EC1.3.1.20 trans-benzene dihydrodiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.583 * +EC1.3.1.20 trans-benzene dihydrodiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.145 * +EC1.3.1.20 trans-benzene dihydrodiol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 24.6 * +EC1.3.1.20 trans-benzene dihydrodiol macaca fuscata fuscata//*//* 90.0 * +EC1.3.1.20 trans-benzene dihydrodiol macaca fuscata//*//* 14.0 * +EC1.3.1.20 trans-naphthalene dihydrodiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.65 * +EC1.3.1.20 trans-naphthalene dihydrodiol macaca fuscata//*//* 34.0 * +EC1.3.1.24 biliverdin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 94.8 * +EC1.3.1.24 biliverdin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 69.3 * +EC1.3.1.24 biliverdin synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 7.1 * +EC1.3.1.24 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.6 * +EC1.3.1.24 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.171 * +EC1.3.1.27 2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.113 * +EC1.3.1.27 3-buten-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC1.3.1.27 4-hydroxy-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33 * +EC1.3.1.27 4-hydroxy-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.15 * +EC1.3.1.28 2,3-dihydo-2,3-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.3 * +EC1.3.1.28 2-cyclohexen-1-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.3.1.28 cis-3,5-cyclohexadiene-1,2-diol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.7 * +EC1.3.1.28 cis-3-hydroxy-4-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC1.3.1.28 cis-3-hydroxycyclohexane-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC1.3.1.28 methyl 2,3-dihydro-2,3-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.5 * +EC1.3.1.28 methyl-3-hydroxy-1,4-cyclohexadiene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC1.3.1.28 trans-2,3-dihydro-2,3-dihydroxy-benzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 92.5 * +EC1.3.1.28 trans-3,5-cyclohexadiene-1,2-diol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.3.1.28 trans-3-hydroxy-2-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC1.3.1.28 trans-3-hydroxycyclohexane-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.733 * +EC1.3.1.29 (1r,2s)-1,2-dihydronaphthalene-1,2-diol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 26.4 * +EC1.3.1.29 3,4-dihydro-3,4-dihydroxy-2,2',5,5'-tetrachlorobiphenyl pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.3.1.29 anthracene 1,2-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 21.6 * +EC1.3.1.29 benzo(a)anthracene 1,2-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 9.1 * +EC1.3.1.29 benzo(a)pyrene dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 7.9 * +EC1.3.1.29 biphenyl 2,3-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 321.0 * +EC1.3.1.29 chrysene 3,4-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 218.0 * +EC1.3.1.29 cis-2,3-dihydro-2,3-dihydroxybiphenyl pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 51.7 * +EC1.3.1.29 cis-naphthalene dihydrodiol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 149.0 * +EC1.3.1.29 fluoranthene 2,3-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 5.25 * +EC1.3.1.29 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 36.6 * +EC1.3.1.29 naphthalene 1,2-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 28.2 * +EC1.3.1.29 phenanthrene 3,4-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 16.7 * +EC1.3.1.29 pyrene 4,5-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 6.35 * +EC1.3.1.3 1,4-androstadien-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.3.1.3 2-cyclohexen-1-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.11 * +EC1.3.1.3 2-cyclohexen-1-one digitalis lanata//*//* 0.49 * +EC1.3.1.3 4-androstene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.3.1.3 4-androstene-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0337 * +EC1.3.1.3 4-cholesten-7alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.3.1.3 4-estren-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.3.1.3 7alpha,12alpha-dihydroxy-4-cholesten-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0128 * +EC1.3.1.3 7alpha-hydroxy-4-cholesten-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.3.1.3 aldosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC1.3.1.3 androstenedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC1.3.1.3 cholestenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.3.1.3 corticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.3.1.3 cortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.3.1.3 cortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00817 * +EC1.3.1.3 cortisone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.195 * +EC1.3.1.3 cortisone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0375 * +EC1.3.1.3 epitestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.3.1.3 progesterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC1.3.1.3 progesterone digitalis lanata//*//* 0.019 * +EC1.3.1.3 progesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC1.3.1.3 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC1.3.1.3 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC1.3.1.31 2-cyclohexen-1-one lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 8400.0 * +EC1.3.1.31 2-methyl-n-phenylmaleimide achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 5.9 * +EC1.3.1.31 nadh achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 38.6 * +EC1.3.1.31 nadh lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3200.0 * +EC1.3.1.31 nadph achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 19.2 * +EC1.3.1.31 nadph yersinia bercovieri//*//* 1.97 * +EC1.3.1.32 maleylacetate pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 114.0 * +EC1.3.1.32 maleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 13.9 * +EC1.3.1.32 maleylacetate sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.2 * +EC1.3.1.33 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.043 * +EC1.3.1.33 nadph cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 0.042 * +EC1.3.1.33 nadph daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.058 * +EC1.3.1.33 nadph lyngbya majuscula//*//* 0.102 * +EC1.3.1.33 nadph marchantia paleacea//*//* 0.019 * +EC1.3.1.33 nadph nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.017 * +EC1.3.1.33 nadph nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.035 * +EC1.3.1.33 nadph physcomitrella patens//eukaryotes;plants;mosses//ppp 0.019 * +EC1.3.1.33 nadph pinus mugo//*//* 0.02 * +EC1.3.1.33 nadph thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.165 * +EC1.3.1.33 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.026 * +EC1.3.1.33 protochlorophyllide thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.165 * +EC1.3.1.34 2-trans,4-trans-decadienoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC1.3.1.34 2-trans,4-trans-hexadienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC1.3.1.34 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.5 * +EC1.3.1.38 2-dodecenoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.17 * +EC1.3.1.42 2-cyclohexen-1-ol oryza sativa//eukaryotes;plants;monocots;grass family//osa 10.22 * +EC1.3.1.42 trans-hex-2-enal solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 14.0 * +EC1.3.1.44 2-dodecenoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 90.0 * +EC1.3.1.44 crotonyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 91.0 * +EC1.3.1.44 hexanoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 112.0 * +EC1.3.1.44 nadh clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 28.2 * +EC1.3.1.44 nadh treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 385.9 * +EC1.3.1.44 trans-2-dodecenoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 90.0 * +EC1.3.1.44 trans-2-hexenoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 112.0 * +EC1.3.1.45 2'-hydroxyformononetin medicago sativa//*//* 0.215 * +EC1.3.1.48 15-ketoprostaglandin e bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC1.3.1.48 15-ketoprostaglandin e1 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC1.3.1.48 15-ketoprostaglandin e1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.52 * +EC1.3.1.48 15-ketoprostaglandin e2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.19 * +EC1.3.1.48 15-ketoprostaglandin f1alpha mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC1.3.1.48 15-ketoprostaglandin f2alpha mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC1.3.1.48 15-oxoprostaglandin e1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC1.3.1.48 3-nonen-2-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.8 * +EC1.3.1.48 3-penten-2-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.5 * +EC1.3.1.48 4-hydroxy-2-hexenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.4 * +EC1.3.1.48 4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 67.3 * +EC1.3.1.48 acrolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.72 * +EC1.3.1.48 alpha-methylcinnamaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.1 * +EC1.3.1.48 benzylidene acetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 54.7 * +EC1.3.1.48 chalcone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 32.3 * +EC1.3.1.48 cinnamaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.7 * +EC1.3.1.48 crotonaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.05 * +EC1.3.1.48 ethylvinylketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 160.0 * +EC1.3.1.48 methylvinylketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 156.0 * +EC1.3.1.48 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC1.3.1.48 trans,trans-2,4-nonadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.2 * +EC1.3.1.48 trans-2-decenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 70.8 * +EC1.3.1.48 trans-2-dodecenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.2 * +EC1.3.1.48 trans-2-hexenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 28.8 * +EC1.3.1.48 trans-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 94.5 * +EC1.3.1.48 trans-2-octenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 89.7 * +EC1.3.1.48 trans-2-pentenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.8 * +EC1.3.1.56 3,4-dihydro-3,4-dihydroxy-2,2',5,5'-tetrachlorobiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.123 * +EC1.3.1.56 cis-1,2-dihydro-1,2-dihydroxynaphthalene comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.9 * +EC1.3.1.56 cis-2,3-dihydro-2,3-dihydroxybiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.38 * +EC1.3.1.6 fumarate shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 658.0 * +EC1.3.1.7 (+)-tartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.417 * +EC1.3.1.7 d-malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.3 * +EC1.3.1.74 (2e)-hexenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.05 * +EC1.3.1.74 (2e)-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.85 * +EC1.3.1.74 (2e)-pentenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.583 * +EC1.3.1.74 (2e,6z)-nonadienal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 33.9 * +EC1.3.1.74 1-penten-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.0 * +EC1.3.1.74 1-penten-3-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 61.0 * +EC1.3.1.74 13-oxo-(9e,11z)-octadecadienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.1 * +EC1.3.1.74 15-deoxy-delta12,14-prostaglandin j2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.308 * +EC1.3.1.74 15-oxoprostaglandin e1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC1.3.1.74 3-buten-2-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5 * +EC1.3.1.74 3-buten-2-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 74.0 * +EC1.3.1.74 3-nonen-2-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 18.9 * +EC1.3.1.74 3-penten-2-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.72 * +EC1.3.1.74 3-penten-2-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 22.0 * +EC1.3.1.74 4-hexen-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.3 * +EC1.3.1.74 4-hexen-3-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 68.0 * +EC1.3.1.74 4-hydroxy-(2e)-hexenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC1.3.1.74 4-hydroxy-(2e)-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 88.1 * +EC1.3.1.74 4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 66.7 * +EC1.3.1.74 4-oxo-(2e)-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 20.1 * +EC1.3.1.74 9-oxo-(10e,12z)-octadecadienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.94 * +EC1.3.1.74 acrolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.67 * +EC1.3.1.74 crotonaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.3 * +EC1.3.1.74 crotonaldehyde cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 42.0 * +EC1.3.1.74 diamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.58 * +EC1.3.1.74 ethyl vinyl ketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 160.0 * +EC1.3.1.74 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 23.0 * +EC1.3.1.74 nadh cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 75.0 * +EC1.3.1.74 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 23.0 * +EC1.3.1.74 nadph cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 75.0 * +EC1.3.1.74 propenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 22.0 * +EC1.3.1.74 propenal cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 63.0 * +EC1.3.1.74 trans-2-pentenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.83 * +EC1.3.1.77 cyanidin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.045 * +EC1.3.1.77 cyanidin camellia sinensis//*//* 0.0028 * +EC1.3.1.77 cyanidin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.18 * +EC1.3.1.77 cyanidin vitis bellula//*//* 1.66 * +EC1.3.1.77 delphinidin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.058 * +EC1.3.1.77 delphinidin camellia sinensis//*//* 0.0026 * +EC1.3.1.77 delphinidin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 1.34 * +EC1.3.1.77 delphinidin vitis bellula//*//* 2.01 * +EC1.3.1.77 pelargonidin vitis bellula//*//* 2.0 * +EC1.3.1.78 arogenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 84.2 * +EC1.3.1.78 l-arogenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 37.3 * +EC1.3.1.78 prephenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.4 * +EC1.3.1.81 (+)-pulegone mentha x piperita//*//* 1.8 * +EC1.3.1.81 nadph mentha x piperita//*//* 1.8 * +EC1.3.1.82 (-)-isopiperitenone mentha x piperita//*//* 1.3 * +EC1.3.1.82 nadph mentha x piperita//*//* 1.3 * +EC1.3.1.84 acrylyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 45.0 * +EC1.3.1.84 acrylyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 80.0 * +EC1.3.1.84 acrylyl-coa ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 60.0 * +EC1.3.1.84 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 13.0 * +EC1.3.1.85 (2s)-ethylmalonyl-coa rhodobacter sphaeroides 2.4.1//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 104.0 * +EC1.3.1.85 cinnamoyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0688 * +EC1.3.1.85 crotonyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.1755 * +EC1.3.1.86 butyryl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 2.0 * +EC1.3.1.86 crotonyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 19.0 * +EC1.3.1.86 ferredoxin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 37.0 * +EC1.3.1.86 nadh clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 3.0 * +EC1.3.1.9 (2e)-2-dodecenoyl-coa burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 28.8 * +EC1.3.1.9 crotonyl coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00278 * +EC1.3.1.9 crotonyl-[acyl-carrier-protein] burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 4.0 * +EC1.3.1.9 crotonyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 3.6 * +EC1.3.1.9 crotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3 * +EC1.3.1.9 crotonyl-coa plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.2 * +EC1.3.1.9 crotonyl-coa xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 22.25 * +EC1.3.1.9 trans-2-decenoyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 5.6 * +EC1.3.1.9 trans-2-decenoyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 5.53 * +EC1.3.1.9 trans-2-dodecenoyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 8.4 * +EC1.3.1.9 trans-2-dodecenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.9 * +EC1.3.1.9 trans-2-dodecenoyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 91.13 * +EC1.3.1.9 trans-2-octenoyl-[acyl-carrier protein] yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 14.92 * +EC1.3.1.9 trans-2-octenoyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 28.3 * +EC1.3.1.9 trans-2-octenoyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.27 * +EC1.3.1.9 trans-but-2-enoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.62 * +EC1.3.1.9 trans-but-2-enoyl-[acyl-carrier protein] rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.65 * +EC1.3.1.9 trans-but-2-enoyl-[acyl-carrier protein] streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 70.0 * +EC1.3.1.92 (+)-carvone artemisia annua//*//* 0.86 * +EC1.3.1.92 2-cyclohexen-1-one artemisia annua//*//* 1.8 * +EC1.3.1.92 artemisinic aldehyde artemisia annua//*//* 2.6 * +EC1.3.1.92 nadh artemisia annua//*//* 1.3 * +EC1.3.1.92 nadph artemisia annua//*//* 2.5 * +EC1.3.1.95 3-buten-2-one anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 29.0 * +EC1.3.1.95 acryloyl-coa anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 4.5 * +EC1.3.1.95 acryloyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 13.0 * +EC1.3.1.95 acryloyl-coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 13.0 * +EC1.3.1.95 nadh anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 3.5 * +EC1.3.1.B7 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0344 * +EC1.3.2.3 1,4-benzoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 108.0 * +EC1.3.2.3 cytochrome c arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 151.0 * +EC1.3.2.3 d-arabinono-1,4-lactone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 51.0 * +EC1.3.2.3 l-galactono-1,4-lactone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 134.0 * +EC1.3.2.3 l-gulono-1,4-lactone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.0 * +EC1.3.2.3 phenazine methosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 64.0 * +EC1.3.3.10 adrenocorticotropic hormone chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.283 * +EC1.3.3.10 indole-3-propionate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.785 * +EC1.3.3.10 l-tryptophan chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.66 * +EC1.3.3.10 l-tryptophanamide chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.593 * +EC1.3.3.10 luteinizing hormone-releasing hormone chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.333 * +EC1.3.3.10 n-acetyl-l-tryptophan chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.79 * +EC1.3.3.10 n-acetyl-l-tryptophanamide chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.753 * +EC1.3.3.10 pentagastrin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.533 * +EC1.3.3.12 d-arabinono-1,4-lactone trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.285 * +EC1.3.3.12 l-galactono-1,4-lactone trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.161 * +EC1.3.3.13 cyclo(l-leu-l-phe) streptomyces noursei//prokaryotes;bacteria;actinobacteria;streptomyces//snr 0.69 * +EC1.3.3.13 cyclo(l-phe-l-his) streptomyces noursei//prokaryotes;bacteria;actinobacteria;streptomyces//snr 0.453 * +EC1.3.3.15 coproporphyrinogen iii staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.46 * +EC1.3.3.15 protoporphyrinogen ix staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.44 * +EC1.3.3.3 3-[7,13-di(2-carboxy-ethyl)-17-ethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.3.3.3 3-[7,17-di(2-carboxy-ethyl)-13-ethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0283 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-dibutyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-06 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-diethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-dipropyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000165 * +EC1.3.3.3 coproporphyrinogen iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.3.3.3 coproporphyrinogen-iii escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC1.3.3.3 coproporphyrinogen-iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC1.3.3.3 coproporphyrinogen-iv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC1.3.3.3 harderoporphyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC1.3.3.3 harderoporphyrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1317 * +EC1.3.3.3 mesoporphyrin-vi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00633 * +EC1.3.3.3 mesoporphyrinogen-vi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC1.3.3.3 pentacarboxylate porphyrinogen 5dab homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.3.3.4 coproporphyrinogen-iii bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.000833 * +EC1.3.3.4 mesoporphyrinogen-ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0448 * +EC1.3.3.4 protoporphyrinogen ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0131 * +EC1.3.3.4 protoporphyrinogen ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.3.3.4 protoporphyrinogen ix nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 6.0 * +EC1.3.3.4 protoporphyrinogen-ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 14.1 * +EC1.3.3.4 protoporphyrinogen-ix desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.295 * +EC1.3.3.4 protoporphyrinogen-ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.95 * +EC1.3.3.4 protoporphyrinogen-ix mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.124 * +EC1.3.3.4 protoporphyrinogen-ix myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0867 * +EC1.3.3.4 protoporphyrinogen-ix nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 6.0 * +EC1.3.3.5 2,2'-azino-bis(3-ethylbenzthioline-6-sulfonic acid) myrothecium verrucaria//*//* 7.17 * +EC1.3.3.5 2,2'-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) myrothecium verrucaria//*//* 164.0 * +EC1.3.3.5 bilirubin aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.93 * +EC1.3.3.5 bilirubin bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 70.0 * +EC1.3.3.5 bilirubin magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 29.0 * +EC1.3.3.5 bilirubin myrothecium verrucaria//*//* 583.0 * +EC1.3.3.5 biliverdin myrothecium verrucaria//*//* 20.0 * +EC1.3.3.5 ditaurobilirubin myrothecium verrucaria//*//* 233.0 * +EC1.3.3.5 k4[fe(cn)6] myrothecium verrucaria//*//* 374.0 * +EC1.3.3.5 p-phenylenediamine myrothecium verrucaria//*//* 90.0 * +EC1.3.3.5 syringaldazine myrothecium verrucaria//*//* 2.08 * +EC1.3.3.6 butyryl-coa glutamicibacter nicotianae//*//* 0.225 * +EC1.3.3.6 cis-3-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06167 * +EC1.3.3.6 cis-3-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC1.3.3.6 cis-3-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.075 * +EC1.3.3.6 decanoyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 1.53 * +EC1.3.3.6 hexanoyl-coa glutamicibacter nicotianae//*//* 0.203 * +EC1.3.3.6 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.089 * +EC1.3.3.6 hexanoyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 8.59 * +EC1.3.3.6 octanoyl-coa glutamicibacter nicotianae//*//* 0.07 * +EC1.3.3.6 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.47 * +EC1.3.3.6 palmitoyl-coa paenarthrobacter ureafaciens//*//* 78.0 * +EC1.3.3.6 trans-3-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01567 * +EC1.3.3.6 trans-3-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.3.3.6 trans-3-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC1.3.5.1 1,4-naphthoquinone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.67 * +EC1.3.5.1 2,3-dimethoxy-5-methyl-1,4-benzoquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 182.0 * +EC1.3.5.1 2,3-dimethoxy-5-methyl-6-decyl-1,4-benzoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 60.0 * +EC1.3.5.1 2,6-dichlorophenolindophenol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.83 * +EC1.3.5.1 2-(4,5-dimethyl-2-thiazolyl)-3,5-diphenyl-2h-tetrazolium bromide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.9 * +EC1.3.5.1 d-malate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.283 * +EC1.3.5.1 duroquinone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.167 * +EC1.3.5.1 fumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC1.3.5.1 fumarate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 79.6 * +EC1.3.5.1 l-malate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.142 * +EC1.3.5.1 menadione thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.67 * +EC1.3.5.1 naphthoquinol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 2.0 * +EC1.3.5.1 phenazine methosulfate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 8.33 * +EC1.3.5.1 reduced plumbagin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.9 * +EC1.3.5.1 succinate-phenazine ethosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 82.0 * +EC1.3.5.1 succinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 167.0 * +EC1.3.5.1 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 167.0 * +EC1.3.5.1 succinate mammalia//*//* 167.0 * +EC1.3.5.1 succinate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 260.0 * +EC1.3.5.1 succinate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 66.7 * +EC1.3.5.1 ubiquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 167.0 * +EC1.3.5.1 ubiquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 37.9 * +EC1.3.5.2 (s)-dihydroorotate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 86.0 * +EC1.3.5.2 1,4-naphthoquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 29.0 * +EC1.3.5.2 2,3-dimethoxy-5-methyl-1,4-benzoquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 32.0 * +EC1.3.5.2 2,5-dimethyl-p-benzoquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 44.0 * +EC1.3.5.2 coenzyme q1 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.8 * +EC1.3.5.2 coenzyme q6 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 44.2 * +EC1.3.5.2 coenzyme qd plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.0 * +EC1.3.5.2 decylubiquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.8 * +EC1.3.5.2 decylubiquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 89.0 * +EC1.3.5.2 dihydroorotate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.2 * +EC1.3.5.2 dihydroorotate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 50.4 * +EC1.3.5.2 dihydroorotate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.2 * +EC1.3.5.2 dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 15.8 * +EC1.3.5.2 l-dihydroorotate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7.5 * +EC1.3.5.2 l-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 15.8 * +EC1.3.5.2 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.3 * +EC1.3.5.2 methyl-dihydroorotate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 45.4 * +EC1.3.5.2 o2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.42 * +EC1.3.5.2 s-dihydroorotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.7 * +EC1.3.5.2 s-dihydroorotate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 75.0 * +EC1.3.5.2 s-dihydroorotate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 71.0 * +EC1.3.5.2 s-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.25 * +EC1.3.5.2 s-dihydroorotate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 95.0 * +EC1.3.5.2 ubiquinone-30 toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 21.0 * +EC1.3.5.2 ubiquinone-4 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.8 * +EC1.3.5.2 ubiquinone-50 toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 61.0 * +EC1.3.5.2 ubiquinone-6 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.0 * +EC1.3.5.2 ubiquinone6 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.36 * +EC1.3.5.3 menadione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.281 * +EC1.3.5.3 protoporphyrinogen ix escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.292 * +EC1.3.5.4 fumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 250.0 * +EC1.3.5.4 fumarate wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 133.0 * +EC1.3.5.4 phenazine methosulfate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 77.0 * +EC1.3.5.4 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC1.3.5.4 succinate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 80.0 * +EC1.3.5.4 succinate wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 13.0 * +EC1.3.7.4 biliverdin ixa avena sativa//*//* 1.67 * +EC1.3.8.1 2-methylbutanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.3.8.1 butanoyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 2.0 * +EC1.3.8.1 butanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.6 * +EC1.3.8.1 butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 33.3 * +EC1.3.8.1 butyryl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 2.0 * +EC1.3.8.1 butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.8 * +EC1.3.8.1 butyryl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 20.8 * +EC1.3.8.1 butyryl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.743 * +EC1.3.8.1 butyryl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.17 * +EC1.3.8.1 crotonyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 19.0 * +EC1.3.8.1 heptanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC1.3.8.1 heptanoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00567 * +EC1.3.8.1 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.35 * +EC1.3.8.1 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.5 * +EC1.3.8.1 hexanoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2992 * +EC1.3.8.1 nadh clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 3.0 * +EC1.3.8.1 octanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC1.3.8.1 octanoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00183 * +EC1.3.8.1 pentanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.3 * +EC1.3.8.1 pentanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.5 * +EC1.3.8.1 propionyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.3.8.1 propionyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.0333 * +EC1.3.8.1 reduced ferredoxin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 37.0 * +EC1.3.8.1 valeryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.7 * +EC1.3.8.1 valeryl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.403 * +EC1.3.8.4 butyryl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.133 * +EC1.3.8.4 hexanoyl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.533 * +EC1.3.8.4 isovaleryl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.37 * +EC1.3.8.4 isovaleryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC1.3.8.4 isovaleryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC1.3.8.4 isovaleryl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.98 * +EC1.3.8.4 valeryl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.267 * +EC1.3.8.6 4-nitrobutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.3.8.6 dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC1.3.8.6 electron transfer flavoprotein paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 16.0 * +EC1.3.8.6 electron transfer flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.3 * +EC1.3.8.6 electron transfer protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC1.3.8.6 ferrocenium hexafluorophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC1.3.8.6 glutaconyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC1.3.8.6 glutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.2 * +EC1.3.8.6 glutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.3.8.6 glutaryl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.45 * +EC1.3.8.6 human electron transfer protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC1.3.8.6 phenazine methosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC1.3.8.6 phenylmethylsulfonyl fluoride paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 16.0 * +EC1.3.8.7 [4-(dimethylamino)phenyl]propionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC1.3.8.7 [4-(dimethylamino)phenyl]propionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.61 * +EC1.3.8.7 butanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.5 * +EC1.3.8.7 butanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.33 * +EC1.3.8.7 crotonyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00233 * +EC1.3.8.7 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.7 * +EC1.3.8.7 decanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.6 * +EC1.3.8.7 dodecadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC1.3.8.7 dodecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.17 * +EC1.3.8.7 electron transfer flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.6 * +EC1.3.8.7 electron transferring flavoprotein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.17 * +EC1.3.8.7 electron transferring flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.33 * +EC1.3.8.7 electron transferring protein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.0 * +EC1.3.8.7 ferricenium hexafluorophosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.3 * +EC1.3.8.7 furylpropionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.6 * +EC1.3.8.7 furylpropionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.2 * +EC1.3.8.7 hexadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.33 * +EC1.3.8.7 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.8 * +EC1.3.8.7 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 31.2 * +EC1.3.8.7 hexanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.8 * +EC1.3.8.7 indolepropionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC1.3.8.7 indolepropionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.46 * +EC1.3.8.7 meldola's blue sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.3.8.7 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.2 * +EC1.3.8.7 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 35.7 * +EC1.3.8.7 octanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 33.3 * +EC1.3.8.7 octanoyl-pantetheine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.235 * +EC1.3.8.7 phenazine ethosulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.75 * +EC1.3.8.7 phenazine methosulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC1.3.8.7 recombinant beta-y16l electron transferring flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.3 * +EC1.3.8.7 recombinant electron transferring flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.7 * +EC1.3.8.7 tetradecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.3.8.7 tetradecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC1.3.8.8 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.25 * +EC1.3.8.8 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.25 * +EC1.3.8.8 palmitoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.67 * +EC1.3.8.8 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.17 * +EC1.3.8.8 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.4 * +EC1.3.98.1 dihydrooxonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 39.0 * +EC1.3.98.1 ferricyanide lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 157.0 * +EC1.3.98.1 fumarate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.5 * +EC1.3.98.1 l-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.8 * +EC1.3.98.1 s-dihydroorotate crithidia fasciculata//*//* 231.0 * +EC1.3.98.1 s-dihydroorotate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 2.7 * +EC1.3.98.1 s-dihydroorotate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 190.0 * +EC1.3.98.3 2-deoxy-scyllo-inosamine bacillus circulans//*//* 0.038 * +EC1.3.98.3 coproporphyrinogen iii vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 900.0 * +EC1.3.98.3 s-adenosyl-l-methionine bacillus circulans//*//* 0.022 * +EC1.3.99.11 2,3-dimethoxy-5-methyl-6-(3-methyl-2-butenyl)-1,4-benzoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.15 * +EC1.3.99.11 l-dihydroorotate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.1 * +EC1.3.99.12 (s)-2-methylbutanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9700.0 * +EC1.3.99.12 (s)-2-methylbutanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3000.0 * +EC1.3.99.12 2-methylbutanoyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.77 * +EC1.3.99.12 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7600.0 * +EC1.3.99.12 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1800.0 * +EC1.3.99.12 isobutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2900.0 * +EC1.3.99.12 isobutyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8500.0 * +EC1.3.99.17 quinoline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 85.4 * +EC1.3.99.24 2-amino-2-deoxyisochorismate streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 15.0 * +EC1.3.99.24 fmn streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 17.0 * +EC1.3.99.33 urocanate shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 360.0 * +EC1.3.99.5 (5alpha)-androst-1-en-3,17-dione rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 2.4 * +EC1.4.1.1 2-oxobutyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 143.0 * +EC1.4.1.1 l-2-aminobutyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 9.6 * +EC1.4.1.1 l-ala archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 6.1 * +EC1.4.1.1 l-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 126.0 * +EC1.4.1.1 l-ala shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 228.0 * +EC1.4.1.1 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 6.1 * +EC1.4.1.1 nad+ phormidium lapideum//*//* 95.5 * +EC1.4.1.1 nad+ shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 211.0 * +EC1.4.1.1 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 118.0 * +EC1.4.1.1 nadh shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2871.0 * +EC1.4.1.1 nadp+ shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 1.6 * +EC1.4.1.1 nh4+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 118.0 * +EC1.4.1.1 nh4+ shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2472.0 * +EC1.4.1.1 oxaloacetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 113.0 * +EC1.4.1.1 pyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 118.0 * +EC1.4.1.1 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 694.0 * +EC1.4.1.1 pyruvate shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2562.0 * +EC1.4.1.12 nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 34.0 * +EC1.4.1.12 nadp+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 5.0 * +EC1.4.1.13 ferricyanide azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 41.9 * +EC1.4.1.13 iodonitrotetrazolium azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 32.0 * +EC1.4.1.13 menadione azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 25.3 * +EC1.4.1.13 nadph azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 30.8 * +EC1.4.1.13 nadph pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 26.8 * +EC1.4.1.14 3-acetylpyridine adenine dinucleotide lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 51.0 * +EC1.4.1.14 l-glutamine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 70.0 * +EC1.4.1.14 l-glutamine oryza sativa//eukaryotes;plants;monocots;grass family//osa 32.0 * +EC1.4.1.14 nadh lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 70.0 * +EC1.4.1.16 meso-2,6-diaminoheptanedioate symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 127000.0 * +EC1.4.1.16 phenylpyruvate symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 0.11 * +EC1.4.1.16 pyruvate symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 7850.0 * +EC1.4.1.2 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 344.0 * +EC1.4.1.2 2-oxoglutarate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 56.0 * +EC1.4.1.2 2-oxoglutarate peptoniphilus asaccharolyticus//*//* 20.3 * +EC1.4.1.2 2-oxoglutarate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 65.0 * +EC1.4.1.2 glutamate peptoniphilus asaccharolyticus//*//* 6.7 * +EC1.4.1.2 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 18.1 * +EC1.4.1.2 l-glutamate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 24.0 * +EC1.4.1.2 l-glutamate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 17.0 * +EC1.4.1.2 nad+ halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 16.0 * +EC1.4.1.2 nad+ peptoniphilus asaccharolyticus//*//* 6.0 * +EC1.4.1.2 nad+ pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 14.0 * +EC1.4.1.2 nadh clostridium symbiosum//*//* 232.0 * +EC1.4.1.2 nadh halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 47.0 * +EC1.4.1.2 nadh peptoniphilus asaccharolyticus//*//* 31.4 * +EC1.4.1.2 nadh pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 58.0 * +EC1.4.1.2 nadp+ peptoniphilus asaccharolyticus//*//* 0.16 * +EC1.4.1.2 nadph peptoniphilus asaccharolyticus//*//* 12.0 * +EC1.4.1.2 nh3 halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 85.0 * +EC1.4.1.2 nh3 pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 58.0 * +EC1.4.1.2 nh4+ peptoniphilus asaccharolyticus//*//* 20.4 * +EC1.4.1.20 2-oxo-4-methylpentanoate thermoactinomyces intermedius//*//* 26.0 * +EC1.4.1.20 2-oxo-4-methylthiobutanoate thermoactinomyces intermedius//*//* 37.0 * +EC1.4.1.20 2-oxohexanoate thermoactinomyces intermedius//*//* 79.0 * +EC1.4.1.20 2-oxoisohexanoate thermoactinomyces intermedius//*//* 57.0 * +EC1.4.1.20 2-oxopentanoate thermoactinomyces intermedius//*//* 82.0 * +EC1.4.1.20 alpha-keto-gamma-methiobutyrate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 27.0 * +EC1.4.1.20 alpha-ketocaproate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 51.0 * +EC1.4.1.20 alpha-ketoisocaproate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 27.0 * +EC1.4.1.20 alpha-ketovalerate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 33.0 * +EC1.4.1.20 dl-alpha-keto-beta-methyl-n-valerate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 7.2 * +EC1.4.1.20 dl-propargylglycine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.82 * +EC1.4.1.20 l-ethionine thermoactinomyces intermedius//*//* 1.1 * +EC1.4.1.20 l-ile thermoactinomyces intermedius//*//* 0.24 * +EC1.4.1.20 l-isoleucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.14 * +EC1.4.1.20 l-leu thermoactinomyces intermedius//*//* 3.6 * +EC1.4.1.20 l-leucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.7 * +EC1.4.1.20 l-met thermoactinomyces intermedius//*//* 0.84 * +EC1.4.1.20 l-methionine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.2 * +EC1.4.1.20 l-norleucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 3.2 * +EC1.4.1.20 l-norleucine thermoactinomyces intermedius//*//* 1.9 * +EC1.4.1.20 l-norvaline lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.4 * +EC1.4.1.20 l-norvaline thermoactinomyces intermedius//*//* 0.59 * +EC1.4.1.20 l-phe bacillus badius//*//* 816.0 * +EC1.4.1.20 l-phe thermoactinomyces intermedius//*//* 45.0 * +EC1.4.1.20 l-phenylalanine bacillus badius//*//* 39.0 * +EC1.4.1.20 l-phenylalanine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 68.01 * +EC1.4.1.20 l-phenylalanine sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 49.56 * +EC1.4.1.20 l-tyrosine bacillus badius//*//* 34.0 * +EC1.4.1.20 l-tyrosine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 68.0 * +EC1.4.1.20 l-valine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.91 * +EC1.4.1.20 p-hydroxy-phenylpyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 90.0 * +EC1.4.1.20 phenylpyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 113.0 * +EC1.4.1.20 phenylpyruvate thermoactinomyces intermedius//*//* 91.0 * +EC1.4.1.21 l-asp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.9 * +EC1.4.1.21 l-aspartate with nad thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.78 * +EC1.4.1.21 l-aspartate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 7.3 * +EC1.4.1.21 l-aspartate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 59.7 * +EC1.4.1.21 l-aspartate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 2.86 * +EC1.4.1.21 l-aspartate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.9 * +EC1.4.1.21 nad+ bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 3.3 * +EC1.4.1.21 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 62.9 * +EC1.4.1.21 nad+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.59 * +EC1.4.1.21 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.2 * +EC1.4.1.21 nadh bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 26.2 * +EC1.4.1.21 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 70.5 * +EC1.4.1.21 nadh rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 5.2 * +EC1.4.1.21 nadp+ bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 6.2 * +EC1.4.1.21 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 46.1 * +EC1.4.1.21 nadp+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 2.33 * +EC1.4.1.21 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 7.2 * +EC1.4.1.21 nadph bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 41.0 * +EC1.4.1.21 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 80.2 * +EC1.4.1.21 nadph rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 19.0 * +EC1.4.1.21 nh3 bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 24.7 * +EC1.4.1.21 nh3 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 77.6 * +EC1.4.1.21 nh3 rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 10.3 * +EC1.4.1.21 oxaloacetate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 48.0 * +EC1.4.1.21 oxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 71.6 * +EC1.4.1.21 oxaloacetate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 14.2 * +EC1.4.1.23 2-oxobutanoate streptomyces cinnamonensis//*//* 99.0 * +EC1.4.1.23 2-oxohexanoate streptomyces cinnamonensis//*//* 107.0 * +EC1.4.1.23 2-oxoisohexanoate streptomyces cinnamonensis//*//* 71.9 * +EC1.4.1.23 2-oxoisovalerate streptomyces cinnamonensis//*//* 226.0 * +EC1.4.1.23 2-oxovalerate streptomyces cinnamonensis//*//* 164.0 * +EC1.4.1.23 l-2-aminobutanoate streptomyces cinnamonensis//*//* 104.0 * +EC1.4.1.23 l-isoleucine streptomyces cinnamonensis//*//* 5.8 * +EC1.4.1.23 l-leucine streptomyces cinnamonensis//*//* 11.9 * +EC1.4.1.23 l-norleucine streptomyces cinnamonensis//*//* 17.9 * +EC1.4.1.23 l-norvaline streptomyces cinnamonensis//*//* 18.0 * +EC1.4.1.23 l-valine streptomyces cinnamonensis//*//* 28.3 * +EC1.4.1.23 pyruvate streptomyces cinnamonensis//*//* 114.0 * +EC1.4.1.3 2-oxoglutarate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 183.0 * +EC1.4.1.3 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 50.0 * +EC1.4.1.3 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC1.4.1.3 2-oxoglutarate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 165.3 * +EC1.4.1.3 2-oxoglutarate pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 195.0 * +EC1.4.1.3 2-oxoglutarate thunnus thynnus//*//* 510.0 * +EC1.4.1.3 glutamate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 61.0 * +EC1.4.1.3 glutamate pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 162.0 * +EC1.4.1.3 glutamate tenebrio molitor//*//* 714.0 * +EC1.4.1.3 glutamate thunnus thynnus//*//* 25.0 * +EC1.4.1.3 l-glutamate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 3.33 * +EC1.4.1.3 l-glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.83 * +EC1.4.1.3 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.0 * +EC1.4.1.3 l-glutamate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 121.2 * +EC1.4.1.3 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.0 * +EC1.4.1.3 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC1.4.1.3 nadh pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 374.5 * +EC1.4.1.3 nadh pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 90.0 * +EC1.4.1.3 nadp+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 399.6 * +EC1.4.1.3 nadp+ pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 102.0 * +EC1.4.1.3 nadph azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 200.0 * +EC1.4.1.3 nadph pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 387.5 * +EC1.4.1.3 nadph pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 112.0 * +EC1.4.1.3 nh4+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 43.8 * +EC1.4.1.3 nh4+ pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 168.0 * +EC1.4.1.4 2-oxoglutarate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 53.33 * +EC1.4.1.4 2-oxoglutarate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 95.0 * +EC1.4.1.4 2-oxoglutarate thermococcus waiotapuensis//*//* 2530.0 * +EC1.4.1.4 l-glutamate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 78.33 * +EC1.4.1.4 l-glutamate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 13.0 * +EC1.4.1.4 l-glutamate thermococcus waiotapuensis//*//* 141.0 * +EC1.4.1.4 nad+ symbiobacterium toebii//*//* 1.5 * +EC1.4.1.4 nadh symbiobacterium toebii//*//* 6144.0 * +EC1.4.1.4 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 37.3 * +EC1.4.1.4 nadp+ pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 9.9 * +EC1.4.1.4 nadp+ symbiobacterium toebii//*//* 2136.0 * +EC1.4.1.4 nadp+ thermococcus waiotapuensis//*//* 1209.0 * +EC1.4.1.4 nadph pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 92.0 * +EC1.4.1.4 nadph sphaerostilbe repens//*//* 1100.0 * +EC1.4.1.4 nadph symbiobacterium toebii//*//* 28650.0 * +EC1.4.1.4 nadph thermococcus waiotapuensis//*//* 14710.0 * +EC1.4.1.4 nh3 pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 100.0 * +EC1.4.1.4 nh3 thermococcus waiotapuensis//*//* 163.0 * +EC1.4.1.5 l-glutamine proteus sp.//*//* 1.15 * +EC1.4.1.5 l-isoleucine citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 2.84 * +EC1.4.1.5 l-methionine proteus sp.//*//* 2.11 * +EC1.4.1.5 l-valine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.95 * +EC1.4.1.7 3-methyl-dl-serine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 9.6 * +EC1.4.1.7 dl-glycerate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.8 * +EC1.4.1.7 l-serine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.4 * +EC1.4.1.7 methyl 2,2-dimethyl-3-hydroxypropionic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.6 * +EC1.4.1.7 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.6 * +EC1.4.1.8 2-oxobutyrate streptomyces cinnamonensis//*//* 99.0 * +EC1.4.1.8 2-oxocaproate streptomyces cinnamonensis//*//* 107.0 * +EC1.4.1.8 2-oxoisocaproate streptomyces cinnamonensis//*//* 71.9 * +EC1.4.1.8 2-oxoisovalerate streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 315.0 * +EC1.4.1.8 2-oxoisovalerate streptomyces cinnamonensis//*//* 226.0 * +EC1.4.1.8 2-oxovalerate streptomyces cinnamonensis//*//* 164.0 * +EC1.4.1.8 l-2-aminobutyrate streptomyces cinnamonensis//*//* 104.0 * +EC1.4.1.8 l-isoleucine streptomyces cinnamonensis//*//* 5.75 * +EC1.4.1.8 l-leucine streptomyces cinnamonensis//*//* 11.9 * +EC1.4.1.8 l-norleucine streptomyces cinnamonensis//*//* 17.9 * +EC1.4.1.8 l-norvaline streptomyces cinnamonensis//*//* 18.0 * +EC1.4.1.8 l-valine streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 47.5 * +EC1.4.1.8 l-valine streptomyces cinnamonensis//*//* 28.3 * +EC1.4.1.8 pyruvate streptomyces cinnamonensis//*//* 114.0 * +EC1.4.1.9 2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 47.69 * +EC1.4.1.9 3-methyl-2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 27.63 * +EC1.4.1.9 4-methyl-2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 99.38 * +EC1.4.1.9 alpha-keto-beta-methylvalerate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 280.0 * +EC1.4.1.9 alpha-keto-caproate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 110.0 * +EC1.4.1.9 alpha-keto-isocaproate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 280.0 * +EC1.4.1.9 l-ile geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.0 * +EC1.4.1.9 l-ile lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 3.31 * +EC1.4.1.9 l-leu geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 50.0 * +EC1.4.1.9 l-leu lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 10.83 * +EC1.4.1.9 l-leucine sporosarcina psychrophila//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//spsy 10.0 * +EC1.4.1.9 l-norleucine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.3 * +EC1.4.1.9 l-norleucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.18 * +EC1.4.1.9 l-norvaline geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 13.0 * +EC1.4.1.9 l-norvaline lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.53 * +EC1.4.1.9 nad+ thermoactinomyces intermedius//*//* 90.0 * +EC1.4.3.1 d-alanine vanrija humicola//*//* 1.62 * +EC1.4.3.1 d-asp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 26.1 * +EC1.4.3.1 d-asp vanrija humicola//*//* 74.5 * +EC1.4.3.1 d-asparagine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 4.29 * +EC1.4.3.1 d-aspartate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.725 * +EC1.4.3.1 d-aspartate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 3.13 * +EC1.4.3.1 d-aspartate vanrija humicola//*//* 82.6 * +EC1.4.3.1 d-glu caenorhabditis elegans//eukaryotes;animals;nematodes//cel 35.4 * +EC1.4.3.1 d-glutamate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 5.31 * +EC1.4.3.1 d-glutamate vanrija humicola//*//* 2.0 * +EC1.4.3.1 n-methyl-d-asp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 84.5 * +EC1.4.3.1 n-methyl-d-asparagine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 6.13 * +EC1.4.3.1 n-methyl-d-aspartate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 6.13 * +EC1.4.3.1 n-methyl-d-aspartate vanrija humicola//*//* 38.1 * +EC1.4.3.1 o2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 635.0 * +EC1.4.3.10 1,6-diaminohexane rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.37 * +EC1.4.3.10 2-hydroxyputrescine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 7.5 * +EC1.4.3.10 cadaverine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 1.72 * +EC1.4.3.10 cadaverine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 3.9 * +EC1.4.3.10 l-ornithine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0198 * +EC1.4.3.10 putrescine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 31.8 * +EC1.4.3.10 putrescine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 26.4 * +EC1.4.3.10 spermidine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.29 * +EC1.4.3.10 spermidine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 1.4 * +EC1.4.3.10 spermine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.18 * +EC1.4.3.11 l-glutamate streptomyces sp. x-119-6//*//* 75.0 * +EC1.4.3.11 l-glutamate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 85.8 * +EC1.4.3.12 (s)-1-aminotetraline microbacterium oxydans//*//* 5.72 * +EC1.4.3.12 cyclohexylamine microbacterium oxydans//*//* 11.48 * +EC1.4.3.12 cyclooctanamine microbacterium oxydans//*//* 3.03 * +EC1.4.3.15 d-glutamate aspergillus ustus//*//* 0.0833 * +EC1.4.3.16 3-hydroxy-erythro-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.173 * +EC1.4.3.16 fumarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.5 * +EC1.4.3.16 l-aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.18 * +EC1.4.3.16 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.55 * +EC1.4.3.16 l-aspartate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 10.6 * +EC1.4.3.16 l-aspartate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.05 * +EC1.4.3.16 n-acetyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0035 * +EC1.4.3.16 n-formyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0077 * +EC1.4.3.19 cyclopropylglycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.14 * +EC1.4.3.19 d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.1 * +EC1.4.3.19 d-alanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.92 * +EC1.4.3.19 d-pro bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.5 * +EC1.4.3.19 d-proline bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.5 * +EC1.4.3.19 gly bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.0 * +EC1.4.3.19 glycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.1 * +EC1.4.3.19 glyphosate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.91 * +EC1.4.3.19 n-ethylglycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.4 * +EC1.4.3.19 sarcosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.2 * +EC1.4.3.2 l-ala bungarus fasciatus//*//* 293.0 * +EC1.4.3.2 l-alanine gloydius ussuriensis//*//* 26.89 * +EC1.4.3.2 l-alanine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.057 * +EC1.4.3.2 l-arg bungarus fasciatus//*//* 228.8 * +EC1.4.3.2 l-arginine gloydius ussuriensis//*//* 22.54 * +EC1.4.3.2 l-asn bungarus fasciatus//*//* 84.08 * +EC1.4.3.2 l-asp bungarus fasciatus//*//* 47.49 * +EC1.4.3.2 l-asparagine gloydius ussuriensis//*//* 5.26 * +EC1.4.3.2 l-gln bungarus fasciatus//*//* 430.4 * +EC1.4.3.2 l-glu bungarus fasciatus//*//* 790.5 * +EC1.4.3.2 l-his bungarus fasciatus//*//* 483.1 * +EC1.4.3.2 l-histidine gloydius ussuriensis//*//* 4.15 * +EC1.4.3.2 l-ile bungarus fasciatus//*//* 66.7 * +EC1.4.3.2 l-isoleucine gloydius ussuriensis//*//* 6.33 * +EC1.4.3.2 l-lactic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.0 * +EC1.4.3.2 l-leu bungarus fasciatus//*//* 1025.0 * +EC1.4.3.2 l-leu gloydius halys//*//* 31.1 * +EC1.4.3.2 l-leucine crotalus durissus cumanensis//*//* 1.8 * +EC1.4.3.2 l-leucine gloydius ussuriensis//*//* 48.22 * +EC1.4.3.2 l-leucine macrovipera lebetina//*//* 52.0 * +EC1.4.3.2 l-leucine naja oxiana//*//* 47.98 * +EC1.4.3.2 l-leucine ophiophagus hannah//*//* 86.6 * +EC1.4.3.2 l-leucine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC1.4.3.2 l-lys bungarus fasciatus//*//* 318.9 * +EC1.4.3.2 l-lys myoxocephalus polyacanthocephalus//*//* 4.7 * +EC1.4.3.2 l-lysine gloydius ussuriensis//*//* 10.51 * +EC1.4.3.2 l-lysine sebastes schlegelii//*//* 57.1 * +EC1.4.3.2 l-met bungarus fasciatus//*//* 589.3 * +EC1.4.3.2 l-methionine gloydius ussuriensis//*//* 24.13 * +EC1.4.3.2 l-methionine macrovipera lebetina//*//* 80.3 * +EC1.4.3.2 l-methionine naja oxiana//*//* 66.26 * +EC1.4.3.2 l-phe bungarus fasciatus//*//* 142.6 * +EC1.4.3.2 l-phenylalanine crotalus adamanteus//*//* 6.27 * +EC1.4.3.2 l-phenylalanine crotalus atrox//*//* 6.78 * +EC1.4.3.2 l-phenylalanine gloydius ussuriensis//*//* 48.23 * +EC1.4.3.2 l-phenylalanine naja oxiana//*//* 17.18 * +EC1.4.3.2 l-phenylalanine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.4 * +EC1.4.3.2 l-phenylalanine trichoderma harzianum//*//* 0.025 * +EC1.4.3.2 l-propargylglycine crotalus adamanteus//*//* 9.62 * +EC1.4.3.2 l-propargylglycine crotalus atrox//*//* 7.75 * +EC1.4.3.2 l-trp bungarus fasciatus//*//* 98.82 * +EC1.4.3.2 l-tryptophan gloydius ussuriensis//*//* 6.58 * +EC1.4.3.2 l-tryptophan macrovipera lebetina//*//* 42.6 * +EC1.4.3.2 l-tryptophan naja oxiana//*//* 81.04 * +EC1.4.3.2 l-tyr bungarus fasciatus//*//* 100.6 * +EC1.4.3.2 l-tyrosine gloydius ussuriensis//*//* 8.42 * +EC1.4.3.2 l-valine gloydius ussuriensis//*//* 5.08 * +EC1.4.3.21 2-aminoethylpyridine huperzia serrata//*//* 2.9 * +EC1.4.3.21 2-phenylethylamine arthrobacter globiformis//*//* 76.0 * +EC1.4.3.21 2-phenylethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.4 * +EC1.4.3.21 2-phenylethylamine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 5.12 * +EC1.4.3.21 3-aminomethylpyridine huperzia serrata//*//* 1.9 * +EC1.4.3.21 4-aminomethylpyridine huperzia serrata//*//* 3.1 * +EC1.4.3.21 4-fluorobenzylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 17.3 * +EC1.4.3.21 aminoacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.46 * +EC1.4.3.21 amylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.33 * +EC1.4.3.21 amylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 12.7 * +EC1.4.3.21 benzylamine arthrobacter globiformis//*//* 0.24 * +EC1.4.3.21 benzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.42 * +EC1.4.3.21 benzylamine huperzia serrata//*//* 1.4 * +EC1.4.3.21 benzylamine ogataea angusta//*//* 8.1 * +EC1.4.3.21 benzylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 12.1 * +EC1.4.3.21 benzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 188.0 * +EC1.4.3.21 beta-phenylethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.77 * +EC1.4.3.21 butylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.31 * +EC1.4.3.21 butylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 15.3 * +EC1.4.3.21 cadaverine huperzia serrata//*//* 1.0 * +EC1.4.3.21 cadaverine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.0619 * +EC1.4.3.21 cyclohexanemethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.36 * +EC1.4.3.21 cysteamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.11 * +EC1.4.3.21 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.54 * +EC1.4.3.21 dopamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 1.9 * +EC1.4.3.21 ethanolamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 3.3 * +EC1.4.3.21 ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.12 * +EC1.4.3.21 ethylamine ogataea angusta//*//* 20.0 * +EC1.4.3.21 ethylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 7.2 * +EC1.4.3.21 histamine huperzia serrata//*//* 1.8 * +EC1.4.3.21 histamine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 5.91 * +EC1.4.3.21 histamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 13.2 * +EC1.4.3.21 isoamylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.89 * +EC1.4.3.21 isobutylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.4 * +EC1.4.3.21 methylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC1.4.3.21 methylamine ogataea angusta//*//* 6.2 * +EC1.4.3.21 methylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.4 * +EC1.4.3.21 o2 arthrobacter globiformis//*//* 110.0 * +EC1.4.3.21 o2 ogataea angusta//*//* 7.8 * +EC1.4.3.21 o2 pisum sativum//*//* 152.0 * +EC1.4.3.21 octopamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 3.5 * +EC1.4.3.21 phenethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.12 * +EC1.4.3.21 phenylethylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 20.9 * +EC1.4.3.21 propylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC1.4.3.21 propylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 18.9 * +EC1.4.3.21 putrescine huperzia serrata//*//* 1.9 * +EC1.4.3.21 putrescine pisum sativum//*//* 160.0 * +EC1.4.3.21 spermidine huperzia serrata//*//* 2.3 * +EC1.4.3.21 spermidine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.0429 * +EC1.4.3.21 tryptamine lens culinaris//*//* 2.7 * +EC1.4.3.21 tyramine arthrobacter globiformis//*//* 35.0 * +EC1.4.3.21 tyramine lens culinaris//*//* 12.8 * +EC1.4.3.21 tyramine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 3.95 * +EC1.4.3.21 tyramine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 16.1 * +EC1.4.3.21 vanillylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 1.0 * +EC1.4.3.22 1,3-diaminopropane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC1.4.3.22 1,3-diaminopropane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29220.0 * +EC1.4.3.22 1,4-methylhistamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 68.0 * +EC1.4.3.22 1,6-diaminohexane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17580.0 * +EC1.4.3.22 1,8-diaminooctane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC1.4.3.22 1-aminobutane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC1.4.3.22 1-aminononane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC1.4.3.22 1-methylhistamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6180.0 * +EC1.4.3.22 2-aminoethylpyridine lathyrus cicera//*//* 1.03 * +EC1.4.3.22 2-aminomethylpyridine lathyrus cicera//*//* 0.47 * +EC1.4.3.22 2-phenylethylamine arthrobacter globiformis//*//* 44.0 * +EC1.4.3.22 2-phenylethylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 137.0 * +EC1.4.3.22 2-phenylethylamine komagataella pastoris//*//* 11.2 * +EC1.4.3.22 3-aminomethylpyridine lathyrus cicera//*//* 7.6 * +EC1.4.3.22 4-aminomethylpyridine lathyrus cicera//*//* 3.72 * +EC1.4.3.22 4-aminomethylpyridine pisum sativum//*//* 4.46 * +EC1.4.3.22 agmatine lathyrus cicera//*//* 45.9 * +EC1.4.3.22 aminobutane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 132.0 * +EC1.4.3.22 aminohexane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 159.0 * +EC1.4.3.22 aminopentane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 142.0 * +EC1.4.3.22 aminopropane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 132.0 * +EC1.4.3.22 benzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.35 * +EC1.4.3.22 benzaldehyde euphorbia characias//*//* 0.17 * +EC1.4.3.22 benzaldehyde lens culinaris//*//* 1.0 * +EC1.4.3.22 benzaldehyde pisum sativum//*//* 0.5 * +EC1.4.3.22 benzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC1.4.3.22 benzylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 37.0 * +EC1.4.3.22 benzylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC1.4.3.22 benzylamine lathyrus cicera//*//* 4.45 * +EC1.4.3.22 benzylamine pisum sativum//*//* 4.87 * +EC1.4.3.22 cadaverine glycine max//eukaryotes;plants;eudicots;pea family//gmx 498.0 * +EC1.4.3.22 cadaverine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27180.0 * +EC1.4.3.22 cadaverine lathyrus cicera//*//* 159.0 * +EC1.4.3.22 cadaverine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.5 * +EC1.4.3.22 dopamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 135.0 * +EC1.4.3.22 ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7560.0 * +EC1.4.3.22 histamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 95.0 * +EC1.4.3.22 histamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8340.0 * +EC1.4.3.22 histamine lathyrus cicera//*//* 10.3 * +EC1.4.3.22 l-lysine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20700.0 * +EC1.4.3.22 n8-acetylspermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC1.4.3.22 norepinephrine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 65.0 * +EC1.4.3.22 o2 arthrobacter globiformis//*//* 53.0 * +EC1.4.3.22 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.4.3.22 o2 komagataella pastoris//*//* 12.6 * +EC1.4.3.22 o2 pisum sativum//*//* 0.308 * +EC1.4.3.22 octopamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 122.0 * +EC1.4.3.22 p-(dimethylamino)benzylamine lens culinaris//*//* 0.000233 * +EC1.4.3.22 p-dimethylaminomethylbenzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32880.0 * +EC1.4.3.22 phenylethylamine lathyrus cicera//*//* 30.9 * +EC1.4.3.22 phenylethylamine pisum sativum//*//* 39.8 * +EC1.4.3.22 putrescine euphorbia characias//*//* 13.3 * +EC1.4.3.22 putrescine glycine max//eukaryotes;plants;eudicots;pea family//gmx 163.0 * +EC1.4.3.22 putrescine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28500.0 * +EC1.4.3.22 putrescine lathyrus cicera//*//* 262.0 * +EC1.4.3.22 putrescine lens culinaris//*//* 155.0 * +EC1.4.3.22 putrescine pisum sativum//*//* 281.0 * +EC1.4.3.22 serotonin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 136.0 * +EC1.4.3.22 spermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.8 * +EC1.4.3.22 spermidine glycine max//eukaryotes;plants;eudicots;pea family//gmx 193.0 * +EC1.4.3.22 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11220.0 * +EC1.4.3.22 spermidine lathyrus cicera//*//* 100.0 * +EC1.4.3.22 spermidine pisum sativum//*//* 115.0 * +EC1.4.3.22 spermine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.1 * +EC1.4.3.22 spermine lathyrus cicera//*//* 28.3 * +EC1.4.3.22 tryptamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 100.0 * +EC1.4.3.22 tyramine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 80.0 * +EC1.4.3.22 tyramine lathyrus cicera//*//* 32.9 * +EC1.4.3.22 tyramine pisum sativum//*//* 27.7 * +EC1.4.3.23 1-methyl-l-tryptophan lechevalieria aerocolonigenes//*//* 0.0255 * +EC1.4.3.23 5-fluoro-l-tryptophan lechevalieria aerocolonigenes//*//* 0.239 * +EC1.4.3.23 7-chloro-l-tryptophan lechevalieria aerocolonigenes//*//* 0.664 * +EC1.4.3.23 l-trp lechevalieria aerocolonigenes//*//* 0.202 * +EC1.4.3.24 4-(methylamino)-1-(pyridin-3-yl)butan-1-one pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 151.0 * +EC1.4.3.3 cephalosporin c rhodotorula toruloides//*//* 4400.0 * +EC1.4.3.3 cephalosporin c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 39.0 * +EC1.4.3.3 cephalosporin c trigonopsis variabilis//*//* 4300.0 * +EC1.4.3.3 d-ala caenorhabditis elegans//eukaryotes;animals;nematodes//cel 14.9 * +EC1.4.3.3 d-ala cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 190.0 * +EC1.4.3.3 d-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC1.4.3.3 d-ala rhodotorula toruloides//*//* 5000.0 * +EC1.4.3.3 d-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 440.0 * +EC1.4.3.3 d-ala trigonopsis variabilis//*//* 2740.0 * +EC1.4.3.3 d-alanine candida boidinii//*//* 80.0 * +EC1.4.3.3 d-alanine cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 95.0 * +EC1.4.3.3 d-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.7 * +EC1.4.3.3 d-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 27.0 * +EC1.4.3.3 d-alanine rhodotorula toruloides//*//* 721.0 * +EC1.4.3.3 d-alanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.7 * +EC1.4.3.3 d-alanine trigonopsis variabilis//*//* 300.0 * +EC1.4.3.3 d-arg caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.83 * +EC1.4.3.3 d-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.5 * +EC1.4.3.3 d-arginine rhodotorula toruloides//*//* 20.0 * +EC1.4.3.3 d-asn rhodotorula toruloides//*//* 1300.0 * +EC1.4.3.3 d-asn trigonopsis variabilis//*//* 62.4 * +EC1.4.3.3 d-asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC1.4.3.3 d-asp rhodotorula toruloides//*//* 29.0 * +EC1.4.3.3 d-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC1.4.3.3 d-dopa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.7 * +EC1.4.3.3 d-gln rhodotorula toruloides//*//* 1135.0 * +EC1.4.3.3 d-glu rhodotorula toruloides//*//* 60.0 * +EC1.4.3.3 d-his caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.51 * +EC1.4.3.3 d-ile cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 76.7 * +EC1.4.3.3 d-leu cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 116.0 * +EC1.4.3.3 d-leu trigonopsis variabilis//*//* 29.1 * +EC1.4.3.3 d-lys cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 42.3 * +EC1.4.3.3 d-lys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC1.4.3.3 d-lys trigonopsis variabilis//*//* 3.54 * +EC1.4.3.3 d-met rhodotorula toruloides//*//* 4600.0 * +EC1.4.3.3 d-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.83 * +EC1.4.3.3 d-met trigonopsis variabilis//*//* 80.5 * +EC1.4.3.3 d-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 143.0 * +EC1.4.3.3 d-methionine trigonopsis variabilis//*//* 200.0 * +EC1.4.3.3 d-phe caenorhabditis elegans//eukaryotes;animals;nematodes//cel 25.1 * +EC1.4.3.3 d-phe cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 119.0 * +EC1.4.3.3 d-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.7 * +EC1.4.3.3 d-phe trigonopsis variabilis//*//* 27.2 * +EC1.4.3.3 d-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.5 * +EC1.4.3.3 d-phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.5 * +EC1.4.3.3 d-phenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 55.9 * +EC1.4.3.3 d-pro cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 142.0 * +EC1.4.3.3 d-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC1.4.3.3 d-pro rhodotorula toruloides//*//* 4640.0 * +EC1.4.3.3 d-pro sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.33 * +EC1.4.3.3 d-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.2 * +EC1.4.3.3 d-proline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 47.0 * +EC1.4.3.3 d-proline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 87.2 * +EC1.4.3.3 d-ser caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.51 * +EC1.4.3.3 d-ser cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 34.5 * +EC1.4.3.3 d-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC1.4.3.3 d-ser sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC1.4.3.3 d-ser trigonopsis variabilis//*//* 20.5 * +EC1.4.3.3 d-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.4.3.3 d-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.4 * +EC1.4.3.3 d-serine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.7 * +EC1.4.3.3 d-thr trigonopsis variabilis//*//* 1.75 * +EC1.4.3.3 d-trp trigonopsis variabilis//*//* 42.4 * +EC1.4.3.3 d-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC1.4.3.3 d-tryptophan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC1.4.3.3 d-tyr cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 117.0 * +EC1.4.3.3 d-tyr trigonopsis variabilis//*//* 22.5 * +EC1.4.3.3 d-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.83 * +EC1.4.3.3 d-val cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 170.0 * +EC1.4.3.3 d-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC1.4.3.3 d-val trigonopsis variabilis//*//* 85.3 * +EC1.4.3.3 d-valine rhodotorula toruloides//*//* 523.0 * +EC1.4.3.3 d-valine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC1.4.3.3 d-valine trigonopsis variabilis//*//* 41.7 * +EC1.4.3.3 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC1.4.3.3 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC1.4.3.3 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC1.4.3.3 o2 rhodotorula toruloides//*//* 350.0 * +EC1.4.3.4 1-(4-bromophenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.67 * +EC1.4.3.4 1-(4-bromophenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.85 * +EC1.4.3.4 1-(4-chlorophenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.58 * +EC1.4.3.4 1-(4-chlorophenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.4.3.4 1-(4-fluorophenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.25 * +EC1.4.3.4 1-(4-fluorophenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.98 * +EC1.4.3.4 1-(4-methoxyphenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.14 * +EC1.4.3.4 1-(4-methoxyphenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC1.4.3.4 1-(4-methylphenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.12 * +EC1.4.3.4 1-(4-methylphenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC1.4.3.4 1-[4-(trifluoromethyl)phenyl]methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 1.57 * +EC1.4.3.4 1-[4-(trifluoromethyl)phenyl]methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.52 * +EC1.4.3.4 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.241 * +EC1.4.3.4 2-phenylethylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 3.4 * +EC1.4.3.4 2-phenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.82 * +EC1.4.3.4 2-phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.4.3.4 3-phenyl-3-pyrroline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 834.0 * +EC1.4.3.4 4-carboxybenzylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.088 * +EC1.4.3.4 4-phenylbutylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.07 * +EC1.4.3.4 benzylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 10.3 * +EC1.4.3.4 benzylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC1.4.3.4 benzylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.08 * +EC1.4.3.4 benzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC1.4.3.4 benzylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC1.4.3.4 dopamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 4.03 * +EC1.4.3.4 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.249 * +EC1.4.3.4 ethylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 11.1 * +EC1.4.3.4 kynuramine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 1.25 * +EC1.4.3.4 kynuramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.4.3.4 kynuramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.485 * +EC1.4.3.4 n-butylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 18.0 * +EC1.4.3.4 o2 danio rerio//eukaryotes;animals;vertebrates;fishes//dre 5.4 * +EC1.4.3.4 p-nitrobenzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.185 * +EC1.4.3.4 p-nitrophenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.85 * +EC1.4.3.4 phenethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.481 * +EC1.4.3.4 phenylbutylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.83 * +EC1.4.3.4 phenylethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 20.8 * +EC1.4.3.4 phenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC1.4.3.4 phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.42 * +EC1.4.3.4 serotonin danio rerio//eukaryotes;animals;vertebrates;fishes//dre 3.12 * +EC1.4.3.4 serotonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.6 * +EC1.4.3.4 serotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.98 * +EC1.4.3.4 tryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.5 * +EC1.4.3.4 tyramine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 7.78 * +EC1.4.3.4 tyramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC1.4.3.4 tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.83 * +EC1.4.3.5 5'-phospho-pyridoxyl-3-alanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.4.3.5 5'-phospho-pyridoxyl-4-aminobutyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.4.3.5 5'-phospho-pyridoxyl-5-aminovalerate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC1.4.3.5 5'-phospho-pyridoxyl-aniline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC1.4.3.5 5'-phospho-pyridoxyl-m-aminobenzoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.4.3.5 5'-phospho-pyridoxyl-p-aminonitrobenzene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.4.3.5 5'-phospho-pyridoxyl-p-aminophenol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.004 * +EC1.4.3.5 pyridoxal 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC1.4.3.5 pyridoxamine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.0 * +EC1.4.3.5 pyridoxamine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.4.3.5 pyridoxamine 5'-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.103 * +EC1.4.3.5 pyridoxamine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.103 * +EC1.4.3.5 pyridoxamine 5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.009 * +EC1.4.3.5 pyridoxine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.76 * +EC1.4.3.5 pyridoxine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC1.4.3.5 pyridoxine 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01 * +EC1.4.3.5 pyridoxine 5'-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.7 * +EC1.4.3.5 pyridoxine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.7 * +EC1.4.3.5 pyridoxine 5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC1.4.4.2 lipoamide trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 6.08 * +EC1.4.4.2 rtvh1 protein trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.84 * +EC1.4.4.2 rtvh2 protein trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 2.08 * +EC1.4.5.1 d-2-amino butyrate escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 15.7 * +EC1.4.5.1 d-alanine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 15.5 * +EC1.4.5.1 d-glutamine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 3.17 * +EC1.4.5.1 d-methionine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 16.0 * +EC1.4.5.1 d-phenylalanine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 14.7 * +EC1.4.5.1 d-proline escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 8.33 * +EC1.4.5.1 d-serine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 5.33 * +EC1.4.7.1 l-glutamate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.67 * +EC1.4.7.1 l-glutamine oryza sativa//eukaryotes;plants;monocots;grass family//osa 137.0 * +EC1.4.9.1 1,6-diaminohexane paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 17.0 * +EC1.4.9.1 1,7-diaminoheptane paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 27.0 * +EC1.4.9.1 1-aminopentane paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 17.0 * +EC1.4.9.1 2,6-dichloroindophenol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.5 * +EC1.4.9.1 2-phenylethylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 3.1 * +EC1.4.9.1 amicyanin paracoccus versutus//*//* 74.0 * +EC1.4.9.1 benzylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 22.0 * +EC1.4.9.1 butylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 22.0 * +EC1.4.9.1 cytochrome c-550 paracoccus versutus//*//* 2.3 * +EC1.4.9.1 ethylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 24.0 * +EC1.4.9.1 k3fe(cn)6 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 15.0 * +EC1.4.9.1 methylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 48.5 * +EC1.4.9.1 methylamine paracoccus versutus//*//* 55.0 * +EC1.4.9.1 phenazine ethosulfate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 7.1 * +EC1.4.9.1 phenethylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 26.0 * +EC1.4.9.1 propylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 27.0 * +EC1.4.9.2 azurin alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 91.0 * +EC1.4.9.2 benzylamine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 1.14 * +EC1.4.9.2 dopamine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 27.1 * +EC1.4.99.6 2-oxo-4-methylvaleric acid ureibacillus thermosphaericus//*//* 5700.0 * +EC1.4.99.6 d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.74 * +EC1.4.99.6 d-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.27 * +EC1.4.99.6 d-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 204.0 * +EC1.4.99.6 d-his pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.84 * +EC1.4.99.6 d-histidine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 35.0 * +EC1.4.99.6 d-leucine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 55.0 * +EC1.4.99.6 d-lysine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 550.0 * +EC1.4.99.6 d-methionine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 190.0 * +EC1.4.99.6 d-ornithine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.2 * +EC1.4.99.6 d-phe pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.1 * +EC1.4.99.6 d-phenylalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 75.0 * +EC1.4.99.6 d-pro pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.97 * +EC1.4.99.6 d-ser pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.8 * +EC1.4.99.6 d-thr pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.68 * +EC1.4.99.6 d-tyr pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.1 * +EC1.4.99.6 d-tyrosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 23.0 * +EC1.4.99.6 d-val pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.78 * +EC1.4.99.B3 l-phenylalanine cosenzaea myxofaciens//*//* 8.5 * +EC1.5.1.11 2-oxobutanoate pecten maximus//*//* 526.0 * +EC1.5.1.11 2-oxovalerate pecten maximus//*//* 272.0 * +EC1.5.1.11 l-arg pecten maximus//*//* 640.0 * +EC1.5.1.11 nadh pecten maximus//*//* 652.0 * +EC1.5.1.11 pyruvate pecten maximus//*//* 775.0 * +EC1.5.1.15 l-5,10-methenyltetrahydrofolate acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 1.58 * +EC1.5.1.15 l-5,10-methylenetetrahydrofolate acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 1.63 * +EC1.5.1.2 1-pyrroline-5-carboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC1.5.1.2 1-pyrroline-5-carboxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 451.7 * +EC1.5.1.2 3,4-dehydro-l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC1.5.1.2 l-proline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 212.8 * +EC1.5.1.2 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3049.0 * +EC1.5.1.2 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 218.0 * +EC1.5.1.2 nadh medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 2.972 * +EC1.5.1.2 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4170.0 * +EC1.5.1.2 nadh streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 620.0 * +EC1.5.1.2 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.0 * +EC1.5.1.2 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 137.9 * +EC1.5.1.2 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 694.0 * +EC1.5.1.2 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 74.0 * +EC1.5.1.2 nadph medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 1.113 * +EC1.5.1.2 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4000.0 * +EC1.5.1.2 nadph streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 340.0 * +EC1.5.1.2 pyrroline-5-carboxylate hordeum vulgare//*//* 1270.0 * +EC1.5.1.20 methylenetetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC1.5.1.20 methylenetetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC1.5.1.20 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 55.0 * +EC1.5.1.20 nadh leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 87.0 * +EC1.5.1.20 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 160.0 * +EC1.5.1.20 nadph leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 140.0 * +EC1.5.1.20 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 160.0 * +EC1.5.1.22 2-ketobutyrate marphysa sanguinea//*//* 23.2 * +EC1.5.1.22 d-strombine marphysa sanguinea//*//* 4.99 * +EC1.5.1.22 gly marphysa sanguinea//*//* 50.08 * +EC1.5.1.22 l-ala marphysa sanguinea//*//* 51.7 * +EC1.5.1.22 l-ser marphysa sanguinea//*//* 23.64 * +EC1.5.1.22 meso-alanopine marphysa sanguinea//*//* 5.12 * +EC1.5.1.22 nad+ marphysa sanguinea//*//* 3.96 * +EC1.5.1.22 nadh marphysa sanguinea//*//* 44.7 * +EC1.5.1.22 oxaloacetate marphysa sanguinea//*//* 44.25 * +EC1.5.1.22 pyruvate marphysa sanguinea//*//* 47.78 * +EC1.5.1.3 7,8-dihydrofolate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 9.3 * +EC1.5.1.3 7,8-dihydrofolate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.65 * +EC1.5.1.3 7,8-dihydrofolate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 133.0 * +EC1.5.1.3 7,8-dihydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.8 * +EC1.5.1.3 7,8-dihydrofolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 5.0 * +EC1.5.1.3 7,8-dihydrofolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.95 * +EC1.5.1.3 7,8-dihydrofolate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 3.14 * +EC1.5.1.3 7,8-dihydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.8 * +EC1.5.1.3 7,8-dihydrofolate human gammaherpesvirus 8//*//* 7.0 * +EC1.5.1.3 7,8-dihydrofolate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 4.0 * +EC1.5.1.3 7,8-dihydrofolate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 29.0 * +EC1.5.1.3 7,8-dihydrofolate moritella profunda//*//* 39.6 * +EC1.5.1.3 7,8-dihydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.67 * +EC1.5.1.3 7,8-dihydrofolate mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 20.5 * +EC1.5.1.3 7,8-dihydrofolate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.3 * +EC1.5.1.3 7,8-dihydrofolate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 88.0 * +EC1.5.1.3 7,8-dihydrofolate pneumocystis carinii//*//* 284.0 * +EC1.5.1.3 7,8-dihydrofolate pneumocystis jirovecii//*//* 53.0 * +EC1.5.1.3 7,8-dihydrofolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.5 * +EC1.5.1.3 7,8-dihydrofolate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 123.0 * +EC1.5.1.3 7,8-dihydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.5 * +EC1.5.1.3 7,8-dihydrofolate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.0 * +EC1.5.1.3 acetylpyridine adenine nucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC1.5.1.3 dihydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.4 * +EC1.5.1.3 dihydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 51.0 * +EC1.5.1.3 dihydrofolate moritella japonica//*//* 144.0 * +EC1.5.1.3 dihydrofolate moritella yayanosii//*//* 83.8 * +EC1.5.1.3 dihydrofolate photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 156.0 * +EC1.5.1.3 dihydrofolate shewanella violacea//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//svo 90.0 * +EC1.5.1.3 dihydrofolate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 31.5 * +EC1.5.1.3 folate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC1.5.1.3 folate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.02 * +EC1.5.1.3 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.1 * +EC1.5.1.3 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.2 * +EC1.5.1.3 nadph geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 218.0 * +EC1.5.1.3 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 51.0 * +EC1.5.1.3 nadph lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.67 * +EC1.5.1.3 nadph moritella japonica//*//* 109.0 * +EC1.5.1.3 nadph moritella yayanosii//*//* 80.3 * +EC1.5.1.3 nadph mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 26.8 * +EC1.5.1.3 nadph photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 150.5 * +EC1.5.1.3 nadph plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 60.9 * +EC1.5.1.3 nadph shewanella violacea//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//svo 86.8 * +EC1.5.1.30 cibacron marine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.7 * +EC1.5.1.30 fad homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.5.1.30 fad streptomyces viridifaciens//*//* 51.0 * +EC1.5.1.30 fmn bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 60.0 * +EC1.5.1.30 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC1.5.1.30 fmn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.099 * +EC1.5.1.30 fmn rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 54.38 * +EC1.5.1.30 fmn streptomyces viridifaciens//*//* 45.0 * +EC1.5.1.30 fmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 37.5 * +EC1.5.1.30 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 70.0 * +EC1.5.1.30 nadph streptomyces viridifaciens//*//* 62.0 * +EC1.5.1.30 nadph vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 69.5 * +EC1.5.1.30 oxidized riboflavin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.5.1.30 riboflavin streptomyces viridifaciens//*//* 6.7 * +EC1.5.1.33 biopterin leishmania tarentolae//*//* 0.23 * +EC1.5.1.33 dihydrobiopterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.57 * +EC1.5.1.33 dihydrobiopterin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 4.7 * +EC1.5.1.33 quinonoid 6,7-dimethyl-7,8-dihydropterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.44 * +EC1.5.1.33 quinonoid 6,7-dimethyl-7,8-dihydropterin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.43 * +EC1.5.1.33 quinonoid dihydrobiopterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.84 * +EC1.5.1.33 quinonoid dihydrobiopterin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.54 * +EC1.5.1.34 2-amino-4-hydroxy-6,7-dimethyl-5,6,7,8-tetrahydropteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 510.0 * +EC1.5.1.34 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 280.0 * +EC1.5.1.34 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 158.0 * +EC1.5.1.34 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC1.5.1.34 quinoid 2-amino-4-hydroxy-6,7-dimethyl-7,8-dihydropteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 162.0 * +EC1.5.1.34 quinoid 6,7-dimethyldihydropteridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 153.0 * +EC1.5.1.34 quinoid 6-methyl-7,8-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 227.0 * +EC1.5.1.34 quinoid 7,8-dihydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.5 * +EC1.5.1.34 quinoid 7,8-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.5 * +EC1.5.1.34 quinoid dihydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 153.0 * +EC1.5.1.34 quinonoid 7,8(6h)-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 113.0 * +EC1.5.1.34 quinonoid 7,8-(6h)-dihydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 113.0 * +EC1.5.1.34 quinonoid dihydrobiopterin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.0 * +EC1.5.1.34 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 200.0 * +EC1.5.1.36 fmn photobacterium leiognathi//*//* 1.7 * +EC1.5.1.37 fad paraburkholderia phenoliruptrix//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bpx 16.6 * +EC1.5.1.37 fad streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 4.5 * +EC1.5.1.37 fmn paraburkholderia phenoliruptrix//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bpx 18.5 * +EC1.5.1.37 nadh paraburkholderia phenoliruptrix//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bpx 30.1 * +EC1.5.1.37 nadh streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 3.1 * +EC1.5.1.38 nadph vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 34.0 * +EC1.5.1.40 1,5-dihydro-8-hydroxy-5-deazaflavin methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 7.37 * +EC1.5.1.40 5'-o-methyl-7,8-didemethyl-8-hydroxyflavin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 6.5 * +EC1.5.1.40 5-deaza-8-hydroxyisoalloxazine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 4.4 * +EC1.5.1.40 7,8-didemethyl-8-hydroxy-5-deazariboflavin 5'-phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 35.57 * +EC1.5.1.40 8-hydroxy-5-deazaflavin methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 175.0 * +EC1.5.1.40 8-hydroxypyrimido[4,5-b]-2,4-(3h,10h)-dione streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 10.23 * +EC1.5.1.40 coenzyme f0 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 12.15 * +EC1.5.1.40 coenzyme f420 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 17.22 * +EC1.5.1.40 nadp+ methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 7.37 * +EC1.5.1.40 nadph methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 175.0 * +EC1.5.1.40 reduced coenzyme f420 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.0 * +EC1.5.1.42 nadph vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 15.5 * +EC1.5.1.49 delta1-pyrroline-2-carboxylate colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 124.5 * +EC1.5.1.49 l-proline colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 1.01 * +EC1.5.1.5 5,10-methylene tetrahydrofolate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 14.0 * +EC1.5.1.5 5,10-methylene-tetrahydrofolate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 14.0 * +EC1.5.1.5 methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.4 * +EC1.5.1.5 nad+ photobacterium phosphoreum//*//* 136.0 * +EC1.5.1.5 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC1.5.1.5 nadp+ leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 10.0 * +EC1.5.1.5 nadp+ photobacterium phosphoreum//*//* 113.0 * +EC1.5.1.6 10-formyltetrahydrofolate danio rerio//eukaryotes;animals;vertebrates;fishes//dre 97.0 * +EC1.5.1.6 10-formyltetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.967 * +EC1.5.1.6 10-formyltetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC1.5.1.6 10-formyltetrahydropteroylpentaglutamate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.9 * +EC1.5.1.7 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.8 * +EC1.5.1.B1 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 178.0 * +EC1.5.1.B1 fad pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 65.0 * +EC1.5.1.B1 fmn pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 72.4 * +EC1.5.1.B1 lumiflavin pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 66.5 * +EC1.5.1.B1 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 178.0 * +EC1.5.1.B1 nadh pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 62.6 * +EC1.5.1.B1 riboflavin pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 68.2 * +EC1.5.1.B5 delta1-pyrroline-2-carboxylate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 16.6 * +EC1.5.1.B5 l-pipecolate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.2 * +EC1.5.1.B5 l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.23 * +EC1.5.3.1 n-ethylglycine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 2.2 * +EC1.5.3.1 n-methyl-dl-alanine paenarthrobacter ureafaciens//*//* 4.1 * +EC1.5.3.1 n-methyl-l-alanine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.4 * +EC1.5.3.1 oxygen corynebacterium sp. u-96//*//* 18.9 * +EC1.5.3.1 sarcosine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 101.0 * +EC1.5.3.1 sarcosine corynebacterium sp. u-96//*//* 18.5 * +EC1.5.3.1 sarcosine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 5.8 * +EC1.5.3.1 sarcosine paenarthrobacter ureafaciens//*//* 5.8 * +EC1.5.3.10 n,n-dimethylglycine arthrobacter globiformis//*//* 14.3 * +EC1.5.3.13 n1,n11-bis(ethyl)-norspermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.415 * +EC1.5.3.13 n1,n11-diacetylnorspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC1.5.3.13 n1,n12-bis(ethyl)-spermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.93 * +EC1.5.3.13 n1-acetylspermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC1.5.3.13 n1-acetylspermidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.85 * +EC1.5.3.13 n1-acetylspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.7 * +EC1.5.3.13 n1-acetylspermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.53 * +EC1.5.3.13 spermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.5.3.13 spermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.175 * +EC1.5.3.14 spermidine zea mays//eukaryotes;plants;monocots;grass family//zma 55.1 * +EC1.5.3.14 spermine zea mays//eukaryotes;plants;monocots;grass family//zma 39.3 * +EC1.5.3.16 n1-acetylspermidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 684.0 * +EC1.5.3.16 n1-acetylspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC1.5.3.16 n1-acetylspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC1.5.3.16 n1-acetylspermine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 47.0 * +EC1.5.3.16 n8-acetylspermidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 22.4 * +EC1.5.3.16 norspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.9 * +EC1.5.3.16 spermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.6 * +EC1.5.3.16 spermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.55 * +EC1.5.3.16 spermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.8 * +EC1.5.3.16 spermine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 165.0 * +EC1.5.3.16 thermospermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.7 * +EC1.5.3.17 n,n'-dibenzyl-1,4-diaminobutane mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC1.5.3.17 n1-acetylspermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC1.5.3.17 n1-acetylspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.0 * +EC1.5.3.17 n1-acetylspermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 49.0 * +EC1.5.3.17 n1-acetylspermine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.1 * +EC1.5.3.17 norspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.9 * +EC1.5.3.17 spermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.6 * +EC1.5.3.17 spermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.6 * +EC1.5.3.17 spermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.7 * +EC1.5.3.17 spermine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 39.0 * +EC1.5.3.17 thermospermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC1.5.3.19 4-methylaminobutanoate paenarthrobacter nicotinovorans//*//* 800.0 * +EC1.5.3.19 sarcosine paenarthrobacter nicotinovorans//*//* 4.0 * +EC1.5.3.21 4-aminobutanoate paenarthrobacter nicotinovorans//*//* 878.0 * +EC1.5.3.21 4-methylaminobutanoate paenarthrobacter nicotinovorans//*//* 1230.0 * +EC1.5.3.5 6-hydroxy-l-nicotine paenarthrobacter nicotinovorans//*//* 29.3 * +EC1.5.3.6 6-hydroxy-d-nicotine paenarthrobacter nicotinovorans//*//* 19.8 * +EC1.5.5.1 6-(10-bromodecyl)ubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 210.0 * +EC1.5.5.1 6-(10-hydroxydecyl)ubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 132.0 * +EC1.5.5.1 6-bis(isoprenyl)ubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 68.7 * +EC1.5.5.1 6-heptylubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 182.0 * +EC1.5.5.1 6-isoprenylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.5 * +EC1.5.5.1 6-nonylubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 246.0 * +EC1.5.5.1 bromodecylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.8 * +EC1.5.5.1 decylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 74.3 * +EC1.5.5.1 duroquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.1 * +EC1.5.5.1 electron-transferring flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.4 * +EC1.5.5.1 electron-transferring flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 200.0 * +EC1.5.5.1 heptylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.0 * +EC1.5.5.1 hydroxydecylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.0 * +EC1.5.5.1 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.6 * +EC1.5.5.1 nonylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.3 * +EC1.5.5.1 pentadecylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.4 * +EC1.5.5.1 reduced electron-transferring flavoprotein rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 8.0 * +EC1.5.5.1 semiquinone electron-transferring flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 81.4 * +EC1.5.5.1 tridecylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.5 * +EC1.5.5.1 ubiqinone-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 78.8 * +EC1.5.5.1 ubiquinone-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.5 * +EC1.5.5.1 ubiquinone-1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 115.0 * +EC1.5.5.1 ubiquinone-2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 162.0 * +EC1.5.5.1 ubiquinone-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.5 * +EC1.5.5.2 l-proline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC1.5.5.2 l-proline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 33.5 * +EC1.5.5.2 trans-4-hydroxy-l-proline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC1.5.8.2 alphar237k mutant electron transferring flavoprotein methylophilus methylotrophus//*//* 1.46 * +EC1.5.8.2 electron transferring flavoprotein methylophilus methylotrophus//*//* 9.67 * +EC1.5.8.2 trimethylamine methylophilus methylotrophus//*//* 40.0 * +EC1.5.8.3 sarcosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC1.5.8.4 n,n-dimethylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.5.8.4 n,n-dimethylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC1.5.98.2 n5,n10-methylenetetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 275.0 * +EC1.5.98.2 reduced coenzyme f420 methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 275.0 * +EC1.5.99.12 1,4-naphthoquinone zea mays//eukaryotes;plants;monocots;grass family//zma 169.6 * +EC1.5.99.12 2,3-dimethoxy-5-methyl-1,4-benzoquinone zea mays//eukaryotes;plants;monocots;grass family//zma 143.6 * +EC1.5.99.12 2,6-dichlorophenolindophenol zea mays//eukaryotes;plants;monocots;grass family//zma 278.0 * +EC1.5.99.12 caffeic acid zea mays//eukaryotes;plants;monocots;grass family//zma 0.3 * +EC1.5.99.12 coenzyme q1 zea mays//eukaryotes;plants;monocots;grass family//zma 123.1 * +EC1.5.99.12 cytochrome c zea mays//eukaryotes;plants;monocots;grass family//zma 0.8 * +EC1.5.99.12 daphnoretin zea mays//eukaryotes;plants;monocots;grass family//zma 1.0 * +EC1.5.99.12 kinetin zea mays//eukaryotes;plants;monocots;grass family//zma 1.9 * +EC1.5.99.12 n-methyl-isopentenyladenine zea mays//eukaryotes;plants;monocots;grass family//zma 0.13 * +EC1.5.99.12 n6-(2-isopentenyl)adenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.4 * +EC1.5.99.12 n6-(2-isopentenyl)adenine zea mays//eukaryotes;plants;monocots;grass family//zma 143.6 * +EC1.5.99.12 n6-(2-isopentenyl)adenosine zea mays//eukaryotes;plants;monocots;grass family//zma 129.8 * +EC1.5.99.12 n6-isopentenyladenine zea mays//eukaryotes;plants;monocots;grass family//zma 128.0 * +EC1.5.99.12 n6-isopentenyladenosine zea mays//eukaryotes;plants;monocots;grass family//zma 62.0 * +EC1.5.99.12 o-coumaric acid zea mays//eukaryotes;plants;monocots;grass family//zma 0.3 * +EC1.5.99.12 o2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.6 * +EC1.5.99.12 p-topolin zea mays//eukaryotes;plants;monocots;grass family//zma 0.23 * +EC1.5.99.12 rosmarinic acid zea mays//eukaryotes;plants;monocots;grass family//zma 0.4 * +EC1.5.99.12 scopoletin zea mays//eukaryotes;plants;monocots;grass family//zma 1.4 * +EC1.5.99.12 spinach plantacyanine zea mays//eukaryotes;plants;monocots;grass family//zma 0.9 * +EC1.5.99.12 vitamin k1 zea mays//eukaryotes;plants;monocots;grass family//zma 2.3 * +EC1.5.99.12 vitamin k3 zea mays//eukaryotes;plants;monocots;grass family//zma 85.4 * +EC1.5.99.12 zeatin riboside zea mays//eukaryotes;plants;monocots;grass family//zma 21.0 * +EC1.5.99.12 zeatin zea mays//eukaryotes;plants;monocots;grass family//zma 135.0 * +EC1.5.99.4 (s)-nicotine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.597 * +EC1.5.99.5 n-methyl-l-glutamate aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.7 * +EC1.5.99.B2 3,4-dehydro-l-proline thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 75.0 * +EC1.5.99.B2 coenzyme q1 deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 14.0 * +EC1.5.99.B2 l-pipecolic acid pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.4 * +EC1.5.99.B2 l-proline deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 8.7 * +EC1.5.99.B2 l-proline pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 18.01 * +EC1.5.99.B2 l-proline pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 11.0 * +EC1.5.99.B2 l-proline thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 27.6 * +EC1.5.99.B2 l-proline thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 27.9 * +EC1.5.99.B2 l-proline thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 13.0 * +EC1.6.1.1 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 167.9 * +EC1.6.1.1 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 233.0 * +EC1.6.1.1 thio-nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 259.5 * +EC1.6.1.2 oxidized acetylpyridine adenine dinucleotide rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 1.44 * +EC1.6.1.2 reduced acetylpyridine adenine dinucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 81.7 * +EC1.6.2.2 2,6-dichlorophenolindophenol musca domestica//eukaryotes;animals;arthropods;insects//mde 50.2 * +EC1.6.2.2 cytochrome b5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 872.0 * +EC1.6.2.2 cytochrome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 270.0 * +EC1.6.2.2 cytochrome b5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 661.0 * +EC1.6.2.2 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC1.6.2.2 ferricyanide canis lupus familiaris//*//* 767.0 * +EC1.6.2.2 ferricyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 827.0 * +EC1.6.2.2 ferricyanide musca domestica//eukaryotes;animals;arthropods;insects//mde 307.0 * +EC1.6.2.2 ferricyanide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 667.0 * +EC1.6.2.2 ferricyanide pisum sativum//*//* 367.0 * +EC1.6.2.2 ferricyanide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 800.0 * +EC1.6.2.2 ferricyanide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 822.0 * +EC1.6.2.2 ferricytochome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 417.0 * +EC1.6.2.2 ferricytochrome b5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 600.0 * +EC1.6.2.2 ferricytochrome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 400.0 * +EC1.6.2.2 ferricytochrome b5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 911.0 * +EC1.6.2.2 ferrocytochrome b5 canis lupus familiaris//*//* 600.0 * +EC1.6.2.2 ferrocytochrome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 400.0 * +EC1.6.2.2 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 500.0 * +EC1.6.2.2 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.733 * +EC1.6.2.2 nadh musca domestica//eukaryotes;animals;arthropods;insects//mde 332.0 * +EC1.6.2.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 800.0 * +EC1.6.2.2 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1100.0 * +EC1.6.2.2 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC1.6.2.2 nadph musca domestica//eukaryotes;animals;arthropods;insects//mde 297.0 * +EC1.6.2.2 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.0 * +EC1.6.2.4 2,6-dichlorophenolindophenol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 7.63 * +EC1.6.2.4 5-cyano-2,3-ditolyl tetrazolium chloride rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 42.0 * +EC1.6.2.4 cytochrome c bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 417.0 * +EC1.6.2.4 cytochrome c candida apicola//*//* 31.92 * +EC1.6.2.4 cytochrome c candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 102.0 * +EC1.6.2.4 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.0 * +EC1.6.2.4 cytochrome c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.8 * +EC1.6.2.4 cytochrome c trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 15.0 * +EC1.6.2.4 ferricyanide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 64.5 * +EC1.6.2.4 ferricytochrome c gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 10.1 * +EC1.6.2.4 ferricytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.47 * +EC1.6.2.4 ferricytochrome c phanerochaete chrysosporium//*//* 42.0 * +EC1.6.2.4 ferricytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 35.0 * +EC1.6.2.4 menadione trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.45 * +EC1.6.2.4 nadph gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 10.2 * +EC1.6.2.4 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.87 * +EC1.6.2.4 oxidized 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 28.3 * +EC1.6.2.6 ferrileghemoglobin glycine max//eukaryotes;plants;eudicots;pea family//gmx 6.2 * +EC1.6.2.6 ferrileghemoglobin vigna unguiculata//*//* 3.1 * +EC1.6.2.6 lipoamide glycine max//eukaryotes;plants;eudicots;pea family//gmx 392.0 * +EC1.6.2.6 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 137.0 * +EC1.6.3.1 nadh sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.4 * +EC1.6.3.1 nadph helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.8 * +EC1.6.3.2 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 68.0 * +EC1.6.3.2 nadh thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 6.2 * +EC1.6.3.2 nadph thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 2.5 * +EC1.6.3.3 beta-nadh pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 115.0 * +EC1.6.5.10 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.6.5.10 1,2-naphthoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.2 * +EC1.6.5.10 1,4-benzoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.207 * +EC1.6.5.10 1,4-benzoquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 15833.0 * +EC1.6.5.10 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.195 * +EC1.6.5.10 2,3-dichloro-5,6-dicyano-1,4-benzoquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 520.0 * +EC1.6.5.10 2,3-dimethoxy-5-methyl-1,4-benzoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC1.6.5.10 2,5-dimethyl-4-benzoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 36.7 * +EC1.6.5.10 2-hydroxy-1,4-naphthoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 11.0 * +EC1.6.5.10 5-hydroxy-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC1.6.5.10 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.305 * +EC1.6.5.10 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.85 * +EC1.6.5.10 9,10-phenanthrenequinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.2 * +EC1.6.5.10 anthraquinone-2-sulfonate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 9.4 * +EC1.6.5.10 coenzyme q10 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 5.0 * +EC1.6.5.10 dibromothymoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 35.0 * +EC1.6.5.10 duroquinone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.67 * +EC1.6.5.10 duroquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 25.0 * +EC1.6.5.10 hydroquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1600.0 * +EC1.6.5.10 menadione bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.04 * +EC1.6.5.10 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.212 * +EC1.6.5.10 menadione synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 26.0 * +EC1.6.5.10 phenyl-1,4-benzoquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 360.0 * +EC1.6.5.11 1,4-benzoquinone methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 9.74 * +EC1.6.5.11 2,3-dimethoxy-5-methyl-1,4-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 5300.0 * +EC1.6.5.11 2,5-dimethoxy-1,4-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 1100.0 * +EC1.6.5.11 2,6-dichlorophenolindophenol gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 2200.0 * +EC1.6.5.11 2,6-dimethoxy-1,4-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 1000.0 * +EC1.6.5.11 4,5-dimethoxy-1,2-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 1100.0 * +EC1.6.5.11 benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 4000.0 * +EC1.6.5.11 fe(cn)63- gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 2600.0 * +EC1.6.5.11 ferricyanide methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 14.3 * +EC1.6.5.11 ferrocenium hexafluorophosphate methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 11.2 * +EC1.6.5.11 nadh gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 1200.0 * +EC1.6.5.11 nadh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1500.0 * +EC1.6.5.11 oxidized 2,6-dichloroindophenol methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 4.95 * +EC1.6.5.11 ubiquinone-1 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 15.6 * +EC1.6.5.11 ubiquinone-10 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 6.86 * +EC1.6.5.2 1,4-benzoquinone archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3200.0 * +EC1.6.5.2 1,4-benzoquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 370.0 * +EC1.6.5.2 1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 769.0 * +EC1.6.5.2 1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 431.0 * +EC1.6.5.2 1,8-dihydroxy-9,10-anthraquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC1.6.5.2 2,3-diglutathionyl-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC1.6.5.2 2,5-bis(ethylamine)-3,6-diaziridinyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC1.6.5.2 2,5-diaziridinyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2331.0 * +EC1.6.5.2 2,5-diaziridinyl-3-(hydroxymethyl)-6-methyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2000.0 * +EC1.6.5.2 2,5-dimethyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 500.0 * +EC1.6.5.2 2,5-dimethyl-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 500.0 * +EC1.6.5.2 2,5-dimethyl-3,6-diaziridinyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 222.0 * +EC1.6.5.2 2,6-dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 600.0 * +EC1.6.5.2 2,6-dimethyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 625.0 * +EC1.6.5.2 2-hydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 232.0 * +EC1.6.5.2 2-methyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 287.0 * +EC1.6.5.2 2-methyl-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 380.0 * +EC1.6.5.2 2-methyl-3-glutathionyl-5-hydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.3 * +EC1.6.5.2 2-methyl-5-aziridinyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1540.0 * +EC1.6.5.2 2-methyl-5-hydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 500.0 * +EC1.6.5.2 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC1.6.5.2 5,8-dihydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 71.0 * +EC1.6.5.2 5-(aziridin-1-yl)-2,4-dinitrobenzamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.6.5.2 5-hydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 242.0 * +EC1.6.5.2 9,10-anthraquinone-2,6-disulfonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC1.6.5.2 9,10-phenanthrene quinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 52.0 * +EC1.6.5.2 benzoquinone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 930.0 * +EC1.6.5.2 chromate(iv) pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.8 * +EC1.6.5.2 chromate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC1.6.5.2 coenzyme q1 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.4 * +EC1.6.5.2 dihydronicotinamide riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 517.0 * +EC1.6.5.2 duroquinone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 25.0 * +EC1.6.5.2 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11700.0 * +EC1.6.5.2 menadione giardia intestinalis//*//* 34.8 * +EC1.6.5.2 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 550.0 * +EC1.6.5.2 menadione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 440.0 * +EC1.6.5.2 menadione ralstonia eutropha jmp134//prokaryotes;bacteria;betaproteobacteria;cupriavidus//reu 350.7 * +EC1.6.5.2 menadione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC1.6.5.2 methyl red homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.83 * +EC1.6.5.2 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 120.0 * +EC1.6.5.2 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.9 * +EC1.6.5.2 nadh giardia intestinalis//*//* 62.7 * +EC1.6.5.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 192.0 * +EC1.6.5.2 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 170.0 * +EC1.6.5.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 34.2 * +EC1.6.5.2 nadph giardia intestinalis//*//* 52.7 * +EC1.6.5.2 naphthoquinone giardia intestinalis//*//* 39.3 * +EC1.6.5.2 reduced nicotinamide 2-azidoadenine dinucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 167.0 * +EC1.6.5.2 reduced nicotinamide 8-azidoadenine dinucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 91.0 * +EC1.6.5.2 tetramethyl-1,4-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1000.0 * +EC1.6.5.3 2,3-dimethoxy-5-methyl-6-[(6-methyl-2,3-dihydroimidazo[2,1-b][1,3]thiazol-5-yl)methyl]benzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.33 * +EC1.6.5.3 2,3-dimethoxy-5-methyl-6-[(6-methylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]benzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 81.73 * +EC1.6.5.3 2,3-dimethoxy-5-methyl-6-[(6-phenylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]benzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 23.88 * +EC1.6.5.3 2-[(2,6-dimethylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11.22 * +EC1.6.5.3 2-[(2-chloro-6-methylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 42.95 * +EC1.6.5.3 2-[(2-chloro-6-phenylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 25.8 * +EC1.6.5.3 2-[(6-chloro-2,3-dihydroimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 63.46 * +EC1.6.5.3 2-[(6-chloro-2-methylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 76.28 * +EC1.6.5.3 2-[(6-chloroimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 62.82 * +EC1.6.5.3 coenzyme q0 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 47.69 * +EC1.6.5.3 coenzyme q1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 211.5 * +EC1.6.5.3 hexaammineruthenium-iii-chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1500.0 * +EC1.6.5.3 menadione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.077 * +EC1.6.5.3 menaquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 423.0 * +EC1.6.5.3 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.7 * +EC1.6.5.3 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC1.6.5.3 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 500.0 * +EC1.6.5.3 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC1.6.5.3 oxidized dichlorophenolindophenol plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.032 * +EC1.6.5.3 ubiquinone-0 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 480.0 * +EC1.6.5.3 ubiquinone-0 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.33 * +EC1.6.5.3 ubiquinone-1 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.015 * +EC1.6.5.3 ubiquinone-2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 640.0 * +EC1.6.5.4 nadh cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 200.0 * +EC1.6.5.4 nadh physcomitrella patens//eukaryotes;plants;mosses//ppp 170.0 * +EC1.6.5.4 nadh solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 126.6 * +EC1.6.5.4 nadph cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 150.0 * +EC1.6.5.5 1,2-naphthoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 54.0 * +EC1.6.5.5 1,2-naphthoquinone cavia porcellus//*//* 39.0 * +EC1.6.5.5 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC1.6.5.5 1,2-naphthoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.17 * +EC1.6.5.5 1,4-benzoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.0 * +EC1.6.5.5 1,4-benzoquinone cavia porcellus//*//* 5.9 * +EC1.6.5.5 1,4-naphthoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.0 * +EC1.6.5.5 1,4-naphthoquinone cavia porcellus//*//* 1.0 * +EC1.6.5.5 2,5-dimethyl-4-benzoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 36.7 * +EC1.6.5.5 2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC1.6.5.5 2-hydroxy-1,4-naphthoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 11.0 * +EC1.6.5.5 2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.6.5.5 2-pentenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.6.5.5 3-buten-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.6.5.5 3-nonen-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.6.5.5 3-penten-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.6.5.5 4-hydroxy-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33 * +EC1.6.5.5 4-hydroxy-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.15 * +EC1.6.5.5 5-hydroxy-1,4-naphthoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.9 * +EC1.6.5.5 5-hydroxy-1,4-naphthoquinone cavia porcellus//*//* 4.9 * +EC1.6.5.5 5-hydroxy-2-methyl-1,4-naphthoquinone cavia porcellus//*//* 0.37 * +EC1.6.5.5 5-hydroxy-2-methyl-1,4-naphtoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.8 * +EC1.6.5.5 9,10-phenanthrenequinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 98.0 * +EC1.6.5.5 9,10-phenanthrenequinone cavia porcellus//*//* 19.0 * +EC1.6.5.5 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC1.6.5.5 9,10-phenanthrenequinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.17 * +EC1.6.5.5 anthraquinone-2-sulfonate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 9.4 * +EC1.6.5.5 coenzyme q10 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 5.0 * +EC1.6.5.5 decyl-plastoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC1.6.5.5 dibromothymoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 35.0 * +EC1.6.5.5 dichlorophenolindophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.5 * +EC1.6.5.5 dichlorophenolindophenol cavia porcellus//*//* 1.5 * +EC1.6.5.5 duroquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 25.0 * +EC1.6.5.5 ferricytochrome arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC1.6.5.5 menadione synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 26.0 * +EC1.6.5.5 propenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.66 * +EC1.6.5.8 n li+/in vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 180.0 * +EC1.6.5.8 n na+/in vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 500.0 * +EC1.6.5.8 nadh vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 600.1 * +EC1.6.5.8 ubiquinone-1 vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 528.5 * +EC1.6.5.8 ubiquinone vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 525.0 * +EC1.6.5.9 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.031 * +EC1.6.99.1 2,4,6-trinitrotoluene bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.19 * +EC1.6.99.1 2-cyclohexen-1-one shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 4.75 * +EC1.6.99.1 acrolein shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 11.66 * +EC1.6.99.1 cyclohex-2-enone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.38 * +EC1.6.99.1 n-ethylmaleimide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.07 * +EC1.6.99.1 nem shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 9.54 * +EC1.6.99.1 nitroglycerin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.72 * +EC1.6.99.1 nitroglycerin shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 6.84 * +EC1.6.99.1 trans-hex-2-enal bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.68 * +EC1.6.99.3 ferricyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 677.0 * +EC1.6.99.3 nadh trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1170.0 * +EC1.7.1.1 ferricyanide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 835.0 * +EC1.7.1.1 ferricyanide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1300.0 * +EC1.7.1.1 ferricyanide zea mays//eukaryotes;plants;monocots;grass family//zma 897.0 * +EC1.7.1.1 ferricytochrome c spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.5 * +EC1.7.1.1 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 210.0 * +EC1.7.1.1 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1400.0 * +EC1.7.1.1 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 200.0 * +EC1.7.1.1 nitrate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 33.0 * +EC1.7.1.1 nitrate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.5 * +EC1.7.1.11 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC1.7.1.13 2-amino-5-cyanopyrrolo[2,3-d]pyrimidin-4-one escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC1.7.1.13 5-cyanopyrrolo[2,3-d]pyrimidin-4-one escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.7.1.13 7-cyano-7-deazaguanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.127 * +EC1.7.1.13 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.142 * +EC1.7.1.14 no fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1200.0 * +EC1.7.1.14 no histoplasma capsulatum//eukaryotes;fungi;ascomycetes;eurotiomycetes//aje 83.3 * +EC1.7.1.16 (2e)-2-[(5-nitrofuran-2-yl)methylidene]hydrazine-1-carboxamide gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.1 * +EC1.7.1.16 1,3-dinitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.24 * +EC1.7.1.16 2-chloronitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.15 * +EC1.7.1.16 3-nitrotoluene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.18 * +EC1.7.1.16 4-chloronitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.12 * +EC1.7.1.16 4-nitrotoluene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.13 * +EC1.7.1.16 5-(aziridin-1-yl)-2,4-dinitrobenzamide gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.06 * +EC1.7.1.16 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.05 * +EC1.7.1.16 nitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.18 * +EC1.7.1.2 nadph ankistrodesmus braunii//*//* 470.0 * +EC1.7.1.3 ferricyanide ogataea angusta//*//* 618.0 * +EC1.7.1.3 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 290.0 * +EC1.7.1.3 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1400.0 * +EC1.7.1.3 nadph ogataea angusta//*//* 215.0 * +EC1.7.1.4 no2- neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 130.0 * +EC1.7.1.7 guanosine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC1.7.2.1 abz-vaa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.0 * +EC1.7.2.1 azurin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.2 * +EC1.7.2.1 cytochrome c pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.33 * +EC1.7.2.1 cytochrome c551 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.8 * +EC1.7.2.1 ferrocytochrome c-551 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.025 * +EC1.7.2.1 ferrocytochrome c2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 5.0 * +EC1.7.2.1 ferrocytochrome v(gamma) rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.1 * +EC1.7.2.1 hydroxylamine paracoccus pantotrophus//*//* 6.4 * +EC1.7.2.1 nh2oh paracoccus pantotrophus//*//* 6.4 * +EC1.7.2.1 nh2oh pseudomonas denitrificans (nomen rejiciendum)//*//* 2.58 * +EC1.7.2.1 nitrite achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 172.0 * +EC1.7.2.1 nitrite alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 1478.0 * +EC1.7.2.1 nitrite hyphomicrobium denitrificans//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hdn 320.0 * +EC1.7.2.1 nitrite paracoccus pantotrophus//*//* 144.0 * +EC1.7.2.1 nitrite pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.0 * +EC1.7.2.1 nitrite pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 243.0 * +EC1.7.2.1 no alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 125.0 * +EC1.7.2.1 no2- magnetospirillum magnetotacticum//*//* 80.0 * +EC1.7.2.1 no2- paracoccus pantotrophus//*//* 144.0 * +EC1.7.2.1 no2- pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 80.0 * +EC1.7.2.1 no2- pseudomonas denitrificans (nomen rejiciendum)//*//* 9.68 * +EC1.7.2.1 o2 paracoccus pantotrophus//*//* 6.4 * +EC1.7.2.1 o2 pseudomonas denitrificans (nomen rejiciendum)//*//* 1.48 * +EC1.7.2.2 nitric oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 390.0 * +EC1.7.2.2 nitrite desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 340.0 * +EC1.7.2.2 nitrite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 700.0 * +EC1.7.2.2 nitrite shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 7.0 * +EC1.7.2.2 nitrite thioalkalivibrio nitratireducens//prokaryotes;bacteria;gammaproteobacteria - others;thioalkalivibrio//tni 2860.0 * +EC1.7.2.2 no radical escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 840.0 * +EC1.7.2.2 reduced diquat desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 1064.0 * +EC1.7.2.2 reduced methyl viologen desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 738.0 * +EC1.7.2.2 reduced phenosafranine desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 79.0 * +EC1.7.2.2 sulfite thioalkalivibrio nitratireducens//prokaryotes;bacteria;gammaproteobacteria - others;thioalkalivibrio//tni 0.039 * +EC1.7.2.3 2-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 101.0 * +EC1.7.2.3 3-hydroxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 49.2 * +EC1.7.2.3 3-picoline n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 137.0 * +EC1.7.2.3 4-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 66.7 * +EC1.7.2.3 4-methylmorpholine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 96.5 * +EC1.7.2.3 4-methylmorpholine n-oxide shewanella massilia//*//* 109.0 * +EC1.7.2.3 alpha-picoline n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 102.0 * +EC1.7.2.3 alpha-picoline n-oxide shewanella massilia//*//* 78.0 * +EC1.7.2.3 dibutylsulfoxide shewanella massilia//*//* 4.0 * +EC1.7.2.3 dimethylsulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.2 * +EC1.7.2.3 dimethylsulfoxide shewanella massilia//*//* 4.0 * +EC1.7.2.3 diphenylsulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.8 * +EC1.7.2.3 diphenylsulfoxide shewanella massilia//*//* 4.0 * +EC1.7.2.3 dl-methioninesulfoxide shewanella massilia//*//* 4.0 * +EC1.7.2.3 gamma-picoline n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.2 * +EC1.7.2.3 hydroxylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.6 * +EC1.7.2.3 n,n-dimethyldodecylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 155.0 * +EC1.7.2.3 n,n-dimethyldodecylamine n-oxide shewanella massilia//*//* 151.0 * +EC1.7.2.3 n,n-dimethylhexylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.8 * +EC1.7.2.3 n-cyclohexyldimethylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 45.6 * +EC1.7.2.3 pyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 53.5 * +EC1.7.2.3 tetramethylene sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 56.0 * +EC1.7.2.3 trimethylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 258.0 * +EC1.7.2.3 trimethylamine n-oxide shewanella massilia//*//* 120.0 * +EC1.7.2.4 n2o pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 8.0 * +EC1.7.2.4 reduced benzyl viologen achromobacter cycloclastes//*//* 162.9 * +EC1.7.2.4 reduced pseudoazurin achromobacter cycloclastes//*//* 89.3 * +EC1.7.2.5 nitric oxide desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 12.0 * +EC1.7.2.5 nitric oxide paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 40.0 * +EC1.7.2.5 no aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 166.7 * +EC1.7.2.5 no bacillus azotoformans//*//* 150.0 * +EC1.7.2.5 no escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.9 * +EC1.7.2.5 no fusarium lichenicola//*//* 667.0 * +EC1.7.2.5 no fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 525.0 * +EC1.7.2.5 no moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 48.0 * +EC1.7.2.5 no paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 33.33 * +EC1.7.2.5 pseudoazurin paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 70.38 * +EC1.7.2.6 ferricyanide nitrosococcus oceani//prokaryotes;bacteria;gammaproteobacteria - others;nitrosococcus//noc 111.0 * +EC1.7.2.6 ferricytochrome c-554 nitrosococcus oceani//prokaryotes;bacteria;gammaproteobacteria - others;nitrosococcus//noc 3.4 * +EC1.7.2.6 hydroxylamine nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 383.0 * +EC1.7.2.6 nitrite nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 158.0 * +EC1.7.2.8 hydrazine candidatus kuenenia stuttgartiensis//*//* 3.0 * +EC1.7.3.1 1-nitrohexane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 2.0 * +EC1.7.3.1 1-nitrooctane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 4.4 * +EC1.7.3.1 nitroethane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 15.0 * +EC1.7.3.1 nitroethane podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 15.0 * +EC1.7.3.1 o2 podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 15.0 * +EC1.7.3.3 urate aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 18.1 * +EC1.7.3.3 urate canis lupus familiaris//*//* 13.6 * +EC1.7.3.3 urate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 3.01 * +EC1.7.3.3 uric acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 31.3 * +EC1.7.3.5 3-nitropropanoate penicillium atrovenetum//*//* 350.0 * +EC1.7.3.6 hydroxylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.53 * +EC1.7.5.1 2-hydroxy-3-(3-methyl-2-butenyl)-1,4-naphthoquinol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 68.0 * +EC1.7.5.1 5-hydroxy-2-methyl-1,4-naphthoquinol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 120.0 * +EC1.7.5.1 nitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 68.0 * +EC1.7.5.2 nitric oxide bacillus azotoformans//*//* 153.0 * +EC1.7.7.1 nitrite chlorella fusca//*//* 54.0 * +EC1.7.7.1 nitrite cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 89.0 * +EC1.7.7.1 nitrite nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 200.0 * +EC1.7.7.1 nitrite pyropia yezoensis//*//* 10.0 * +EC1.7.7.1 nitrite spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 110.0 * +EC1.7.7.1 reduced ferredoxin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 138.2 * +EC1.7.7.2 nitrate synechococcus elongatus pcc 7942//*//* 1090.0 * +EC1.7.7.2 nitrate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 80.0 * +EC1.7.99.1 hydroxylamine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.8 * +EC1.8.1.10 coa disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1100.0 * +EC1.8.1.12 (e,z)-ajoene trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.67 * +EC1.8.1.12 1,4-benzoquinone trypanosoma congolense//*//* 4.8 * +EC1.8.1.12 4-aminobutyryl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 21.8 * +EC1.8.1.12 5,5'-dithiobis(n-[3-(4-methylpiperazin-1-yl)propyl]-2-nitrobenzamide) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 125.0 * +EC1.8.1.12 5,5'-dithiobis(n-[3-(dimethylamino)propyl]-2-nitrobenzamide) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 125.0 * +EC1.8.1.12 9,10-phenanthrenequinone trypanosoma congolense//*//* 2.9 * +EC1.8.1.12 benzyloxycarbonyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 109.0 * +EC1.8.1.12 deazatrypanothione disulfide trypanosoma congolense//*//* 83.3 * +EC1.8.1.12 glutathionylspermidine disulfide euglena gracilis//*//* 242.0 * +EC1.8.1.12 glutathionylspermidine disulfide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 85.4 * +EC1.8.1.12 l-beta-aspartyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 61.3 * +EC1.8.1.12 l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 53.2 * +EC1.8.1.12 l-gamma-glutamyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 818.0 * +EC1.8.1.12 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 6.33 * +EC1.8.1.12 tert-butyloxycarbonyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 101.0 * +EC1.8.1.12 thio-nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 7.02 * +EC1.8.1.12 trypanothione disulfide crithidia fasciculata//*//* 517.0 * +EC1.8.1.12 trypanothione disulfide euglena gracilis//*//* 283.0 * +EC1.8.1.12 trypanothione disulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.8 * +EC1.8.1.12 trypanothione disulfide leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 179.0 * +EC1.8.1.12 trypanothione disulfide leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 30.2 * +EC1.8.1.12 trypanothione disulfide trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 46.8 * +EC1.8.1.12 trypanothione disulfide trypanosoma congolense//*//* 160.0 * +EC1.8.1.12 trypanothione disulfide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 240.0 * +EC1.8.1.13 bis-gamma-glutamylcystine halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 54.0 * +EC1.8.1.13 fad halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 28.3 * +EC1.8.1.14 coa-disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 27.0 * +EC1.8.1.14 coa-ethyl disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.7 * +EC1.8.1.14 coa-methyl disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.3 * +EC1.8.1.14 coa-sec-butyl disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.95 * +EC1.8.1.14 methyl methanethiolsulfonate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.4 * +EC1.8.1.14 nadh bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 27.0 * +EC1.8.1.14 nadph bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 2.0 * +EC1.8.1.14 nadph pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 8.1 * +EC1.8.1.15 2-(-n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 70.05 * +EC1.8.1.15 5-(benzyl 2-(n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside)-dithio-2-nitrobenzoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 115.0 * +EC1.8.1.15 7-methyljuglone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.254 * +EC1.8.1.15 8-chloro-5-methoxy-7-methyl-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.435 * +EC1.8.1.15 benzyl 2-(-n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 36.99 * +EC1.8.1.15 benzyl 2-(n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 37.0 * +EC1.8.1.15 diospyrin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.033 * +EC1.8.1.15 juglone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.324 * +EC1.8.1.15 menadione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.483 * +EC1.8.1.15 methyl 2-(-n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 25.54 * +EC1.8.1.15 mycothione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 69.0 * +EC1.8.1.15 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 30.0 * +EC1.8.1.15 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 190.0 * +EC1.8.1.15 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 129.0 * +EC1.8.1.15 neodiospyrin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.063 * +EC1.8.1.16 glutathione amide disulfide marichromatium gracile//*//* 249.7 * +EC1.8.1.16 glutathione disulfide marichromatium gracile//*//* 146.0 * +EC1.8.1.16 nadh marichromatium gracile//*//* 186.8 * +EC1.8.1.16 nadph marichromatium gracile//*//* 0.14 * +EC1.8.1.2 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 150.0 * +EC1.8.1.2 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 98.3 * +EC1.8.1.2 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 605.0 * +EC1.8.1.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 468.0 * +EC1.8.1.2 nitrite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 43.3 * +EC1.8.1.2 reduced methyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 605.0 * +EC1.8.1.2 sulfite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 65.0 * +EC1.8.1.4 1,4-benzoquinone streptomyces seoulensis//*//* 108.0 * +EC1.8.1.4 2,6-dimethyl-1,4-benzoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 190.0 * +EC1.8.1.4 dihydrolipoamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 899.0 * +EC1.8.1.4 dihydrolipoamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 448.0 * +EC1.8.1.4 dl-lipoylpentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 220.0 * +EC1.8.1.4 h-protein pisum sativum//*//* 345.0 * +EC1.8.1.4 lipoamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 649.0 * +EC1.8.1.4 lipoamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 135.5 * +EC1.8.1.4 lipoamide streptomyces seoulensis//*//* 88.0 * +EC1.8.1.4 lipoic acid streptomyces seoulensis//*//* 70.0 * +EC1.8.1.4 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 574.0 * +EC1.8.1.4 nad+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 135.5 * +EC1.8.1.4 nad+ streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 506.0 * +EC1.8.1.4 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 340.0 * +EC1.8.1.4 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 448.0 * +EC1.8.1.4 o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.25 * +EC1.8.1.4 r,s-lipoamide pisum sativum//*//* 190.0 * +EC1.8.1.4 ubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 300.0 * +EC1.8.1.5 2-(2-oxopropylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.22 * +EC1.8.1.5 acetoacetate xanthobacter sp.//*//* 0.263 * +EC1.8.1.7 (e)-ajoene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.47 * +EC1.8.1.7 (z)-ajoene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC1.8.1.7 1,4-dihydroxy-9,10-anthraquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.11 * +EC1.8.1.7 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC1.8.1.7 1,4-naphthoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.08 * +EC1.8.1.7 1,8-dihydroxy-9,10-anthraquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.1 * +EC1.8.1.7 2,5-bis(aziridin-1-yl)cyclohexa-2,5-diene-1,4-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.0 * +EC1.8.1.7 2,6-dimethyl-1,4-benzoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC1.8.1.7 2-methyl-1,4-naphthoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.14 * +EC1.8.1.7 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma mansoni//eukaryotes;animals;flatworms//smm 16.0 * +EC1.8.1.7 5,8-dihydroxy-1,4-naphthoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.0 * +EC1.8.1.7 5-hydroxy-1,4-naphthoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.5 * +EC1.8.1.7 6,7-dimethylquinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.8.1.7 6,7-dimethylquinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.08 * +EC1.8.1.7 6-methylquinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC1.8.1.7 6-methylquinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.35 * +EC1.8.1.7 7-methylquinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.8.1.7 7-methylquinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.39 * +EC1.8.1.7 9,10-phenanthrene quinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.22 * +EC1.8.1.7 diallyl trisulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.8.1.7 diethyl [2,5-bis(aziridin-1-yl)-3,6-dioxocyclohexa-1,4-diene-1,4-diyl]biscarbamate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.1 * +EC1.8.1.7 glutathione disulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 165.0 * +EC1.8.1.7 glutathione disulfide ipomoea batatas//*//* 50.14 * +EC1.8.1.7 glutathione disulfide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 120.0 * +EC1.8.1.7 gssg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 733.3 * +EC1.8.1.7 gssg euglena gracilis//*//* 317.0 * +EC1.8.1.7 gssg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 210.0 * +EC1.8.1.7 gssg schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.19 * +EC1.8.1.7 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.8.1.7 menadione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.16 * +EC1.8.1.7 nadh anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 38.0 * +EC1.8.1.7 nadh xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 32.5 * +EC1.8.1.7 nadph anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 367.0 * +EC1.8.1.7 nadph ipomoea batatas//*//* 53.72 * +EC1.8.1.7 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 900.0 * +EC1.8.1.7 nadph xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 37.5 * +EC1.8.1.7 quinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.23 * +EC1.8.1.7 quinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.55 * +EC1.8.1.7 quinoxaline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC1.8.1.7 quinoxaline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.35 * +EC1.8.1.7 tetramethyl-1,4-benzoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.3 * +EC1.8.1.7 trimethyl-1,4-benzoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.2 * +EC1.8.1.7 trypanothione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 101.7 * +EC1.8.1.7 trypanothione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.8 * +EC1.8.1.8 2,6-dimethyl-1,4-benzoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.8 * +EC1.8.1.8 5-hydroxy-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.5 * +EC1.8.1.8 nad(p)h mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0087 * +EC1.8.1.8 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.6 * +EC1.8.1.8 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0079 * +EC1.8.1.8 thio-nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.6 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 9.0 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 5.5 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.53 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 21.6 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.25 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.33 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.62 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 48.42 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 106.3 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma mansoni//eukaryotes;animals;flatworms//smm 16.0 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.77 * +EC1.8.1.9 5-hydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.1 * +EC1.8.1.9 alloxan bos taurus//eukaryotes;animals;vertebrates;mammals//bta 167.0 * +EC1.8.1.9 dtnb homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.5 * +EC1.8.1.9 dtnb plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.58 * +EC1.8.1.9 dtnb rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 66.7 * +EC1.8.1.9 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC1.8.1.9 glutaredoxin 4 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC1.8.1.9 gssg taenia crassiceps//*//* 5.1 * +EC1.8.1.9 hordeum vulgare thioredoxin disulfide h1 hordeum vulgare//*//* 3.26 * +EC1.8.1.9 hordeum vulgare thioredoxin disulfide h2 hordeum vulgare//*//* 2.98 * +EC1.8.1.9 hydrogen peroxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.08 * +EC1.8.1.9 lipoamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC1.8.1.9 lipoamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.8.1.9 lipoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC1.8.1.9 methaneseleninic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.05 * +EC1.8.1.9 methylseleninate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 12.0 * +EC1.8.1.9 methylseleninate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC1.8.1.9 methylseleninate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 14.0 * +EC1.8.1.9 methylseleninate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 31.0 * +EC1.8.1.9 nadh entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.2 * +EC1.8.1.9 nadh methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.817 * +EC1.8.1.9 nadh solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.06 * +EC1.8.1.9 nadph entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.25 * +EC1.8.1.9 nadph methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.65 * +EC1.8.1.9 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 33.3 * +EC1.8.1.9 nadph solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.35 * +EC1.8.1.9 nadph sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.61 * +EC1.8.1.9 protein disulfide-isomerase bos taurus//eukaryotes;animals;vertebrates;mammals//bta 500.0 * +EC1.8.1.9 rat thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.83 * +EC1.8.1.9 selenocysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1600.0 * +EC1.8.1.9 thioredoxin 1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 43.7 * +EC1.8.1.9 thioredoxin 2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 42.9 * +EC1.8.1.9 thioredoxin 3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 34.0 * +EC1.8.1.9 thioredoxin 41 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.2 * +EC1.8.1.9 thioredoxin 8 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.7 * +EC1.8.1.9 thioredoxin disulfide 41 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.2 * +EC1.8.1.9 thioredoxin disulfide 8 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.43 * +EC1.8.1.9 thioredoxin disulfide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 5.8 * +EC1.8.1.9 thioredoxin disulfide methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 1.175 * +EC1.8.1.9 thioredoxin disulfide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 37.0 * +EC1.8.1.9 thioredoxin disulfide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 114.1 * +EC1.8.1.9 thioredoxin disulfide schistosoma mansoni//eukaryotes;animals;flatworms//smm 30.0 * +EC1.8.1.9 thioredoxin disulfide taenia crassiceps//*//* 19.2 * +EC1.8.1.9 thioredoxin aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 63.2 * +EC1.8.1.9 thioredoxin anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 15.7 * +EC1.8.1.9 thioredoxin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1300.0 * +EC1.8.1.9 thioredoxin caenorhabditis elegans//eukaryotes;animals;nematodes//cel 10.17 * +EC1.8.1.9 thioredoxin entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.25 * +EC1.8.1.9 thioredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.8 * +EC1.8.1.9 thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.57 * +EC1.8.1.9 thioredoxin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 37.88 * +EC1.8.1.9 thioredoxin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.0 * +EC1.8.1.9 thioredoxin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.38 * +EC1.8.1.9 thioredoxin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.3 * +EC1.8.1.B1 2-hydroxyethyl disulfide schistosoma japonicum//*//* 8.65 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) echinococcus granulosus//*//* 118.0 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma japonicum//*//* 8.16 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma mansoni//eukaryotes;animals;flatworms//smm 16.0 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) taenia crassiceps//*//* 0.3 * +EC1.8.1.B1 cytosolic thioredoxin echinococcus granulosus//*//* 197.0 * +EC1.8.1.B1 gsh schistosoma japonicum//*//* 15.78 * +EC1.8.1.B1 gssg schistosoma japonicum//*//* 5.35 * +EC1.8.1.B1 gssg schistosoma mansoni//eukaryotes;animals;flatworms//smm 21.7 * +EC1.8.1.B1 gssg taenia crassiceps//*//* 5.1 * +EC1.8.1.B1 mitochondial thioredoxin echinococcus granulosus//*//* 131.0 * +EC1.8.1.B1 nadph schistosoma japonicum//*//* 14.93 * +EC1.8.1.B1 nadph schistosoma mansoni//eukaryotes;animals;flatworms//smm 20.1 * +EC1.8.1.B1 thioredoxin disulfide schistosoma japonicum//*//* 4.78 * +EC1.8.1.B1 thioredoxin disulfide taenia crassiceps//*//* 0.47 * +EC1.8.1.B1 thioredoxin taenia crassiceps//*//* 19.2 * +EC1.8.2.1 cytochrome c starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 10880.0 * +EC1.8.2.1 sulfite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.9 * +EC1.8.2.1 sulfite starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 10880.0 * +EC1.8.2.2 ferricyanide allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 17000.0 * +EC1.8.2.2 thiosulfate acidiphilium acidophilum//*//* 250000.0 * +EC1.8.2.2 thiosulfate allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 14000.0 * +EC1.8.2.2 thiosulfate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 604.0 * +EC1.8.2.2 thiosulfate thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2300.0 * +EC1.8.2.3 oxidized heart cytochrome c paracoccus pantotrophus//*//* 3.9 * +EC1.8.3.1 cytochrome c gallus gallus//eukaryotes;animals;vertebrates;birds//gga 85.0 * +EC1.8.3.1 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.9 * +EC1.8.3.1 sulfite arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4500.0 * +EC1.8.3.1 sulfite gallus gallus//eukaryotes;animals;vertebrates;birds//gga 73.0 * +EC1.8.3.1 sulfite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.1 * +EC1.8.3.1 sulfite thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 53.32 * +EC1.8.3.2 2-mercaptoethanol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 55400.0 * +EC1.8.3.2 2-mercaptoethanol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 20.3 * +EC1.8.3.2 d-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 78600.0 * +EC1.8.3.2 dithiothreitol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 337800.0 * +EC1.8.3.2 dithiothreitol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 17.2 * +EC1.8.3.2 dithiothreitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC1.8.3.2 dithiothreitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.43 * +EC1.8.3.2 dithiothreitol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 45.0 * +EC1.8.3.2 dtt gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1013.0 * +EC1.8.3.2 dtt saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC1.8.3.2 glutathione aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 66.67 * +EC1.8.3.2 glutathione aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3600000.0 * +EC1.8.3.2 gsh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 23.1 * +EC1.8.3.2 l-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 52300.0 * +EC1.8.3.2 l-cys gallus gallus//eukaryotes;animals;vertebrates;birds//gga 21.3 * +EC1.8.3.2 o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC1.8.3.2 rnase a aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.002 * +EC1.8.3.2 rrnasea trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 22.0 * +EC1.8.3.3 2-mercaptoethanol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 50.0 * +EC1.8.3.3 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC1.8.3.3 d-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 5950.0 * +EC1.8.3.3 dithiothreitol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 309000.0 * +EC1.8.3.3 dithiothreitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC1.8.3.3 glutathione aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3600000.0 * +EC1.8.3.3 l-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 52300.0 * +EC1.8.3.5 farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000133 * +EC1.8.3.B2 abz-salcsptra-nh2 thermomonospora curvata//prokaryotes;bacteria;actinobacteria;thermomonospora//tcu 0.027 * +EC1.8.4.10 adenosine-5'-phosphosulfate catharanthus roseus//*//* 3.4 * +EC1.8.4.11 9-fluorenylmethyl chloroformate-labeled l-methionine-(s)-s-oxide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.59 * +EC1.8.4.11 dabsyl l-methionine-(s)-sulfoxide caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.06 * +EC1.8.4.11 dabsyl-l-methionine-(s)-s-oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.78 * +EC1.8.4.11 dabsylated l-methionine (s)-sulfoxide clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 84.0 * +EC1.8.4.11 l-methionine (s)-sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC1.8.4.11 l-methionine (s)-sulfoxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 7.0 * +EC1.8.4.11 l-methionine (s)-sulfoxide trypanosoma sp.//*//* 0.52 * +EC1.8.4.11 l-methionine (s,r)-sulfoxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.7 * +EC1.8.4.11 thioredoxin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.048 * +EC1.8.4.11 thioredoxin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.15 * +EC1.8.4.11 tryparedoxin i trypanosoma sp.//*//* 0.52 * +EC1.8.4.12 (s)-1-nonen-4-ol neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.1 * +EC1.8.4.12 abz-vaa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.8.4.12 cdsp32 arabidopsis sp.//*//* 0.035 * +EC1.8.4.12 dabsyl-l-methionine (r)-sulfoxide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.075 * +EC1.8.4.12 dithiothreitol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.09 * +EC1.8.4.12 glutaredoxin c4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.48 * +EC1.8.4.12 glutaredoxin s12 arabidopsis sp.//*//* 0.17 * +EC1.8.4.12 glutaredoxin s12 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.58 * +EC1.8.4.12 l-methionine (r)-sulfoxide glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.86 * +EC1.8.4.12 l-methionine (r,s)-sulfoxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.8 * +EC1.8.4.12 l-methionine-(r)-s-oxide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC1.8.4.12 l-methionine-(r)-s-oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC1.8.4.12 l-methionine-(r)-s-oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.46 * +EC1.8.4.12 n-acetyl-l-methionine (r)-sulfoxide glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.04 * +EC1.8.4.12 thioredoxin h1 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.28 * +EC1.8.4.14 l-methionine (r)-s-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.9 * +EC1.8.4.14 l-methionine (r)-s-oxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 14.0 * +EC1.8.4.14 l-methionine (r)-s-oxide thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 2.8 * +EC1.8.4.8 3'-phosphoadenylyl sulfate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.335 * +EC1.8.4.8 3'-phosphoadenylyl-sulfate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.382 * +EC1.8.4.8 3'-phosphoadenylyl-sulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC1.8.4.8 glutaredoxin 1 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.421 * +EC1.8.4.8 thioredoxin 1 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.219 * +EC1.8.4.9 3'-phosphoadenosine 5'-phosphosulfate physcomitrella patens//eukaryotes;plants;mosses//ppp 0.00075 * +EC1.8.4.9 3'-phosphoadenosine-5'-phosphosulfate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.012 * +EC1.8.4.9 5'-adenylyl sulfate glycine max//eukaryotes;plants;eudicots;pea family//gmx 11.3 * +EC1.8.4.9 5'-adenylylsulfate catharanthus roseus//*//* 3.4 * +EC1.8.4.9 5'-adenylylsulfate lemna minor//*//* 56.0 * +EC1.8.4.9 5'-adenylylsulfate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.153 * +EC1.8.4.9 adenosine 5'-phosphosulfate physcomitrella patens//eukaryotes;plants;mosses//ppp 0.176 * +EC1.8.4.9 dithiothreitol glycine max//eukaryotes;plants;eudicots;pea family//gmx 10.1 * +EC1.8.4.9 glutathione glycine max//eukaryotes;plants;eudicots;pea family//gmx 8.4 * +EC1.8.5.1 dehydroascorbate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.27 * +EC1.8.5.1 dehydroascorbate ipomoea batatas//*//* 368.2 * +EC1.8.5.1 dehydroascorbate pinus bungeana//*//* 10.15 * +EC1.8.5.1 dehydroascorbate populus tomentosa//*//* 21150.0 * +EC1.8.5.1 dehydroascorbate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 490.0 * +EC1.8.5.1 dehydroascorbate taiwanofungus camphoratus//*//* 21.51 * +EC1.8.5.1 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0175 * +EC1.8.5.1 glutathione ipomoea batatas//*//* 100.6 * +EC1.8.5.1 glutathione pinus bungeana//*//* 40.53 * +EC1.8.5.1 glutathione populus tomentosa//*//* 99830.0 * +EC1.8.5.1 gsh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 490.0 * +EC1.8.5.2 thiosulfate acidianus ambivalens//*//* 167.0 * +EC1.8.5.3 2-carboxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC1.8.5.3 2-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 307.0 * +EC1.8.5.3 2-hydroxymethylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 89.3 * +EC1.8.5.3 2-mercaptopyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC1.8.5.3 2-methylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 247.0 * +EC1.8.5.3 3-amidopyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 237.0 * +EC1.8.5.3 3-carboxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 168.0 * +EC1.8.5.3 3-hydroxymethylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 214.0 * +EC1.8.5.3 3-hydroxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 429.0 * +EC1.8.5.3 3-methylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 231.0 * +EC1.8.5.3 3alpha-hydroxybenzylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 229.0 * +EC1.8.5.3 4-carboxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.3 * +EC1.8.5.3 4-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 212.0 * +EC1.8.5.3 4-hydroxymethylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 226.0 * +EC1.8.5.3 4-methylmorpholine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 573.0 * +EC1.8.5.3 4-methylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 268.0 * +EC1.8.5.3 4-phenylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 297.0 * +EC1.8.5.3 adenosine-1n-oxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 110.0 * +EC1.8.5.3 dimethyl sulfoxide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 470.0 * +EC1.8.5.3 dimethyldodecylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 239.0 * +EC1.8.5.3 dimethylsulfide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 8.0 * +EC1.8.5.3 dimethylsulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 79.9 * +EC1.8.5.3 dimethylsulfoxide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 42.9 * +EC1.8.5.3 dimethylsulfoxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 50.0 * +EC1.8.5.3 dithane 1-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.4 * +EC1.8.5.3 dl-methyl phenyl sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 99.6 * +EC1.8.5.3 methionine sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 61.1 * +EC1.8.5.3 methionine sulfoxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 58.0 * +EC1.8.5.3 pyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 243.0 * +EC1.8.5.3 reduced benzyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 61.0 * +EC1.8.5.3 reduced benzyl viologen rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 17.0 * +EC1.8.5.3 reduced methyl viologen rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 27.0 * +EC1.8.5.3 tetramethylene sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 119.0 * +EC1.8.5.3 trimethylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1203.0 * +EC1.8.5.3 trimethylamine n-oxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2300.0 * +EC1.8.5.3 trimethylamine-n-oxide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 134.5 * +EC1.8.5.4 2,3-dimethyl-1,4-naphthoquinone acidianus ambivalens//*//* 0.1 * +EC1.8.5.4 caldariella quinone acidianus ambivalens//*//* 0.43 * +EC1.8.5.4 cyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 330.0 * +EC1.8.5.4 cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 94.0 * +EC1.8.5.4 decylubiquinone acidianus ambivalens//*//* 0.38 * +EC1.8.5.4 decylubiquinone caldivirga maquilingensis//prokaryotes;archaea;crenarchaeota;caldivirga//cma 0.6 * +EC1.8.5.4 homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 92.0 * +EC1.8.5.4 menadione acidianus ambivalens//*//* 0.15 * +EC1.8.5.4 reduced glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 113.0 * +EC1.8.5.4 sulfide caldivirga maquilingensis//prokaryotes;archaea;crenarchaeota;caldivirga//cma 0.6 * +EC1.8.5.4 sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 379.0 * +EC1.8.5.4 sulfite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 368.0 * +EC1.8.5.4 ubiquinone-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 364.0 * +EC1.8.5.7 (glutathione-s-yl)-2-chloro-1,4-benzoquinone populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 7.96 * +EC1.8.5.7 2-(glutathione-s-yl)-1,4-benzoquinone populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 1.62 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 22.0 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.0 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 11.0 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.4 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.2 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.1 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 19.0 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 13.0 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 9.42 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.0 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 4.6 * +EC1.8.5.7 2-(glutathione-s-yl)-menadione populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 4.75 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 31.0 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.4 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 14.0 * +EC1.8.5.7 2-(glutathione-s-yl)-quercetin populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.013 * +EC1.8.5.7 2-mercaptoethanol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.09 * +EC1.8.5.7 dithiothreitol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.89 * +EC1.8.5.7 glutathione cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 37.0 * +EC1.8.5.7 glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC1.8.5.7 glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.5 * +EC1.8.5.7 glutathione sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 14.0 * +EC1.8.5.7 l-cysteine sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.37 * +EC1.8.7.1 ferredoxin brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 6.0 * +EC1.8.7.1 nitrite cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 243.0 * +EC1.8.7.1 reduced ferredoxin zea mays//eukaryotes;plants;monocots;grass family//zma 3.65 * +EC1.8.7.1 sulfite brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 9.1 * +EC1.8.7.1 sulfite cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 4.7 * +EC1.8.98.1 dihydromethanophenazine methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 74.0 * +EC1.8.98.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC1.8.98.2 gamma-s-atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC1.8.98.2 peroxiredoxin-(s-hydroxy-s-oxocysteine) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.011 * +EC1.8.98.2 peroxiredoxin-(s-hydroxy-s-oxocysteine) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.8.99.5 hydroxylamine desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 29.0 * +EC1.8.99.5 nitrite desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.038 * +EC1.8.99.5 sulfite desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.31 * +EC1.8.99.B2 tetrathionate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 426.0 * +EC1.9.3.1 cytochrome c bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.3 * +EC1.9.3.1 cytochrome c bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 50.0 * +EC1.9.3.1 cytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 400.0 * +EC1.9.3.1 cytochrome c carcharhinus acronotus//*//* 360.0 * +EC1.9.3.1 cytochrome c carcharhinus limbatus//*//* 350.0 * +EC1.9.3.1 cytochrome c crithidia fasciculata//*//* 111.0 * +EC1.9.3.1 cytochrome c dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 300.0 * +EC1.9.3.1 cytochrome c erythrobacter longus//*//* 66.0 * +EC1.9.3.1 cytochrome c eukaryota//*//* 50.0 * +EC1.9.3.1 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 80.0 * +EC1.9.3.1 cytochrome c magnetospirillum magnetotacticum//*//* 187.0 * +EC1.9.3.1 cytochrome c micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 9.38 * +EC1.9.3.1 cytochrome c nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 290.0 * +EC1.9.3.1 cytochrome c nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 336.0 * +EC1.9.3.1 cytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 90.0 * +EC1.9.3.1 cytochrome c pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 91.0 * +EC1.9.3.1 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 200.0 * +EC1.9.3.1 cytochrome c rhizoprionodon terraenovae//*//* 410.0 * +EC1.9.3.1 cytochrome c rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2000.0 * +EC1.9.3.1 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1500.0 * +EC1.9.3.1 cytochrome c sphyrna lewini//*//* 36.0 * +EC1.9.3.1 cytochrome c squalus acanthias//*//* 11.0 * +EC1.9.3.1 cytochrome c starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 45.8 * +EC1.9.3.1 cytochrome c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 550.0 * +EC1.9.3.1 cytochrome c thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 53.0 * +EC1.9.3.1 cytochrome c triticum aestivum//*//* 1000.0 * +EC1.9.3.1 cytochrome c549 erythrobacter longus//*//* 8.0 * +EC1.9.3.1 cytochrome c550 erythrobacter longus//*//* 1.3 * +EC1.9.3.1 cytochrome c550 magnetospirillum magnetotacticum//*//* 37.4 * +EC1.9.3.1 cytochrome c552 nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 4.0 * +EC1.9.3.1 cytochrome c552 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 9.78 * +EC1.9.3.1 cytochrome c553 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 252.0 * +EC1.9.3.1 diaminodurene micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 15.3 * +EC1.9.3.1 ferrocytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.0 * +EC1.9.3.1 n,n,n',n'-tetramethyl-p-phenylendiamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 220.0 * +EC1.9.3.1 n,n,n',n'-tetramethyl-p-phenylendiamine micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 3.93 * +EC1.9.3.1 n,n,n',n'-tetramethyl-p-phenylendiamine pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 180.0 * +EC1.9.3.1 n,n,n',n'-tetramethyl-p-phenylendiamine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 60.0 * +EC1.9.3.1 phenazine methosulfate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 24.3 * +EC1.9.3.1 reduced cytochrome c551 geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 295.0 * +EC1.97.1.1 chlorate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 46.0 * +EC1.97.1.9 selenate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 5.0 * +EC1.97.1.9 selenate thauera selenatis//*//* 387.0 * +EC2.1.1.1 nicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.02 * +EC2.1.1.10 dl-homocysteine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0375 * +EC2.1.1.10 l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC2.1.1.100 biotin-s-farnesyl-l-cysteine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.93 * +EC2.1.1.100 s-adenosyl-l-methionine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.5 * +EC2.1.1.100 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC2.1.1.103 ethanolamine phosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.052 * +EC2.1.1.103 ethanolamine phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.82 * +EC2.1.1.103 n,n-dimethylethanolamine phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.08 * +EC2.1.1.103 phosphodimethylethanolamine haemonchus contortus//*//* 4.13 * +EC2.1.1.103 phosphodimethylethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.08 * +EC2.1.1.103 phosphoethanolamine haemonchus contortus//*//* 8.63 * +EC2.1.1.103 phosphoethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.82 * +EC2.1.1.103 phosphomonomethylethanolamine haemonchus contortus//*//* 4.9 * +EC2.1.1.103 phosphomonomethylethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.63 * +EC2.1.1.103 s-adenosyl-l-methionine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.058 * +EC2.1.1.103 s-adenosyl-l-methionine haemonchus contortus//*//* 5.82 * +EC2.1.1.103 s-adenosyl-l-methionine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.49 * +EC2.1.1.104 3,4-dihydroxybenzoic acid ammi majus//*//* 0.013 * +EC2.1.1.104 5-hydroxyferulic acid ammi majus//*//* 0.143 * +EC2.1.1.104 caffeic acid ammi majus//*//* 0.068 * +EC2.1.1.104 caffeoyl-coa ammi majus//*//* 6.08 * +EC2.1.1.104 caffeoyl-d-glucose ammi majus//*//* 6.08 * +EC2.1.1.104 epigallocatechin-3-o-gallate camellia sinensis//*//* 0.184 * +EC2.1.1.104 eriodictyol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC2.1.1.104 eriodictyol mesembryanthemum crystallinum//*//* 0.1 * +EC2.1.1.104 quercetagetin ammi majus//*//* 0.071 * +EC2.1.1.104 quercetagetin mesembryanthemum crystallinum//*//* 0.078 * +EC2.1.1.104 quercetin ammi majus//*//* 6.08 * +EC2.1.1.104 s-adenosyl-l-methionine camellia sinensis//*//* 0.049 * +EC2.1.1.104 tricetin vanilla planifolia//*//* 0.0913 * +EC2.1.1.107 uroporphyrinogen iii pseudomonas denitrificans (nomen rejiciendum)//*//* 38.0 * +EC2.1.1.11 magnesium deuteroporphyrin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.003 * +EC2.1.1.11 magnesium protoporphyrin chlorobaculum tepidum//*//* 0.14 * +EC2.1.1.11 magnesium protoporphyrin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.04 * +EC2.1.1.11 protoporphyrin chlorobaculum tepidum//*//* 0.0002 * +EC2.1.1.11 zinc protoporphyrin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.018 * +EC2.1.1.110 sterigmatocystin aspergillus parasiticus//*//* 2.2 * +EC2.1.1.127 l-lys pisum sativum//*//* 6.2e-05 * +EC2.1.1.127 methyl-l-lys pisum sativum//*//* 0.00025 * +EC2.1.1.13 5-methyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.33 * +EC2.1.1.13 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0367 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamyl-gamma-glutamylglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.417 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamyl-gamma-glutamylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.6 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamylglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.49 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamylglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.533 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamylglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.35 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.283 * +EC2.1.1.14 l-homocysteine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.45 * +EC2.1.1.14 l-homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.1.1.141 benzoate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.003 * +EC2.1.1.141 jasmonate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 25.0 * +EC2.1.1.141 jasmonate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.013 * +EC2.1.1.141 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 70.0 * +EC2.1.1.142 24(28)-methylenelophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.001 * +EC2.1.1.142 24(28)methylene lophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.013 * +EC2.1.1.142 24,25-dehydro-27-methylene-cycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 8.3e-07 * +EC2.1.1.142 24-fluorocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00033 * +EC2.1.1.142 26,27-dehydrocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00033 * +EC2.1.1.142 26,27-dehydrozymosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.001 * +EC2.1.1.142 cycloartenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC2.1.1.142 cycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01 * +EC2.1.1.142 cyclobranol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0001 * +EC2.1.1.142 lanosterol paracoccidioides brasiliensis//eukaryotes;fungi;ascomycetes;eurotiomycetes//pbn 0.0023 * +EC2.1.1.143 24(28)-methylene lophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.022 * +EC2.1.1.143 24-methylenelophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.001 * +EC2.1.1.146 chavicol ocimum basilicum//*//* 0.00087 * +EC2.1.1.146 eugenol ocimum basilicum//*//* 0.0031 * +EC2.1.1.146 eugenol rosa chinensis//*//* 0.019 * +EC2.1.1.146 isoeugenol pimpinella anisum//*//* 0.015 * +EC2.1.1.146 isoeugenol rosa chinensis//*//* 0.031 * +EC2.1.1.146 t-isoeugenol ocimum basilicum//*//* 0.0013 * +EC2.1.1.148 dump helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0072 * +EC2.1.1.15 3-hydroxydecanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 1600.0 * +EC2.1.1.15 3-hydroxydodecanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 1346.0 * +EC2.1.1.15 3-hydroxyoctanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 358.0 * +EC2.1.1.15 decanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 489.0 * +EC2.1.1.15 dodecanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 1165.0 * +EC2.1.1.15 octanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 510.0 * +EC2.1.1.15 s-adenosyl-l-methionine mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.598 * +EC2.1.1.157 n,n-dimethylglycine galdieria sulphuraria//eukaryotes;plants;red algae//gsl 1.4 * +EC2.1.1.157 n,n-dimethylglycine methanohalophilus portucalensis//*//* 2.68 * +EC2.1.1.157 sarcosine galdieria sulphuraria//eukaryotes;plants;red algae//gsl 1.07 * +EC2.1.1.157 sarcosine methanohalophilus portucalensis//*//* 0.44 * +EC2.1.1.164 dechlorinated 4'-demethyl-rebeccamycin lechevalieria aerocolonigenes//*//* 0.047 * +EC2.1.1.164 s-adenosyl-l-methionine lechevalieria aerocolonigenes//*//* 0.047 * +EC2.1.1.166 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.1.1.176 cytosine967 in 16s rrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.1.1.184 adenine2085 in 23s rrna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.64 * +EC2.1.1.184 s-adenosyl-l-methionine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.066 * +EC2.1.1.193 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0007 * +EC2.1.1.193 uracil1498 in 16s rrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.1.1.197 malonyl-[acyl-carrier protein] bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 225.0 * +EC2.1.1.197 s-adenosyl-l-methionine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 173.0 * +EC2.1.1.2 guanidinoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.081 * +EC2.1.1.2 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC2.1.1.20 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC2.1.1.20 gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.1.1.20 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 51.9 * +EC2.1.1.20 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC2.1.1.20 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.1.1.200 nucleoside32 in ectrnafmet1(cau) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0253 * +EC2.1.1.200 nucleoside32 in ectrnafmet2(cau) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0237 * +EC2.1.1.200 nucleoside32 in ectrnagln1(uug) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.1.1.200 nucleoside32 in ectrnagln2(cug) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0235 * +EC2.1.1.200 nucleoside32 in ectrnaser1(uga) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0383 * +EC2.1.1.200 nucleoside32 in ectrnatrp1(cca) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0218 * +EC2.1.1.21 l-glutamate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.347 * +EC2.1.1.22 carnosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.008 * +EC2.1.1.22 carnosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.1.1.22 carnosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC2.1.1.22 s-adenosyl-l-methionine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.042 * +EC2.1.1.22 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC2.1.1.22 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC2.1.1.221 guanine9 in trnagly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0028 * +EC2.1.1.221 guanine9 in trnagly schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0027 * +EC2.1.1.221 guanine9 in trnaglygcc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC2.1.1.221 guanine9 in trnaglygcc saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC2.1.1.221 guanine9 in trnavaluac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.1.1.221 guanine9 in trnavaluac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0052 * +EC2.1.1.225 adenosine4 in trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC2.1.1.228 guanine37 in escherichia coli trnapro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trna(cys) methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.01 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trnacys methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0083 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trnapro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trnapro methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0086 * +EC2.1.1.228 guanine37 in trnaarg haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.078 * +EC2.1.1.228 guanine37 in trnacys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.1.1.228 guanine37 in trnaglncug haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.34 * +EC2.1.1.228 guanine37 in trnaglng36a haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.36 * +EC2.1.1.228 guanine37 in trnaglng36c haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.36 * +EC2.1.1.228 guanine37 in trnaglng36u haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.17 * +EC2.1.1.228 guanine37 in trnaleu(gac) streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.25 * +EC2.1.1.228 guanine37 in trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.1.1.228 guanine37 in trnaleu haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.32 * +EC2.1.1.228 guanine37 in trnapro haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.13 * +EC2.1.1.228 s-adenosyl-l-homocysteine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.25 * +EC2.1.1.228 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC2.1.1.228 s-adenosyl-l-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.02 * +EC2.1.1.232 (2s)-naringenin oryza sativa//eukaryotes;plants;monocots;grass family//osa 25.0 * +EC2.1.1.234 dtdp-3-amino-3,4,6-trideoxy-alpha-d-glucose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 1.533 * +EC2.1.1.234 dtdp-3-amino-3,6-dideoxy-alpha-d-glucopyranose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.07 * +EC2.1.1.235 dtdp-3-amino-3,6-dideoxy-alpha-d-glucopyranose streptomyces fradiae//*//* 0.75 * +EC2.1.1.235 dtdp-3-methylamino-3,6-dideoxy-alpha-d-glucopyranose streptomyces fradiae//*//* 0.54 * +EC2.1.1.235 s-adenosyl-l-methionine streptomyces fradiae//*//* 0.86 * +EC2.1.1.236 dtdp-3-amino-3,6-dideoxy-alpha-d-galactopyranose streptomyces fradiae//*//* 0.61 * +EC2.1.1.237 mycinamicin iii micromonospora griseorubida//*//* 0.225 * +EC2.1.1.238 mycinamicin vi micromonospora griseorubida//*//* 0.083 * +EC2.1.1.240 3-methoxy-4',5-dihydroxy-trans-stilbene vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.086 * +EC2.1.1.240 resveratrol vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.062 * +EC2.1.1.244 n-terminal-dimethyl-spkriakrrs-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0098 * +EC2.1.1.244 n-terminal-lpkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.1.1.244 n-terminal-methyl-spkriakrrs-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC2.1.1.244 n-terminal-ppkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.1.1.244 n-terminal-rpkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.1.1.244 n-terminal-spkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC2.1.1.244 n-terminal-spkriakrr-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC2.1.1.244 n-terminal-spkriakrrs-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC2.1.1.244 n-terminal-spkriakrrspp-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC2.1.1.244 n-terminal-wpkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00167 * +EC2.1.1.244 n-terminal-ypkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00067 * +EC2.1.1.245 a [methyl-co(iii) corrinoid fe-s protein] moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 14.7 * +EC2.1.1.245 tetrahydrosarcinapterin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 14.7 * +EC2.1.1.255 (e)-2-methylgeranyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.039 * +EC2.1.1.255 geranyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0075 * +EC2.1.1.255 s-adenosyl-l-methionine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0075 * +EC2.1.1.258 5-methyltetrahydrofolate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 14.7 * +EC2.1.1.258 [co(i) corrinoid fe-s protein] moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 18.0 * +EC2.1.1.258 [methyl-co(iii) corrinoid fe-s protein] moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.02 * +EC2.1.1.258 cobalamin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 37.2 * +EC2.1.1.258 hydroxocobalamin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.1 * +EC2.1.1.258 hydroxycobalamin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 77.6 * +EC2.1.1.258 methylcobalamin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 2.2 * +EC2.1.1.259 [large subunit of spinach rubisco-human carbonic anhydrase ii fusion protein]-l-lysine pisum sativum//*//* 0.011 * +EC2.1.1.259 s-adenosyl-l-methionine pisum sativum//*//* 0.019 * +EC2.1.1.261 4-dimethylallyl-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.0 * +EC2.1.1.261 s-adenosyl-l-methionine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.0 * +EC2.1.1.267 delphinidin 3-o-beta-d-glucoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.025 * +EC2.1.1.267 eriodictyol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.055 * +EC2.1.1.267 luteolin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.03 * +EC2.1.1.267 quercetin 3-o-beta-d-glucoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.014 * +EC2.1.1.267 quercetin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.026 * +EC2.1.1.269 3-(s,s-dimethylsulfonio)propanoate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 8.1 * +EC2.1.1.269 3-(s,s-dimethylsulfonio)propanoate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 2.4 * +EC2.1.1.269 dimethylsulfoniopropionate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 8.1 * +EC2.1.1.269 dimethylsulfoniopropionate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 2.4 * +EC2.1.1.273 benzoic acid antirrhinum majus//*//* 0.0058 * +EC2.1.1.273 benzoic acid arabidopsis lyrata//eukaryotes;plants;eudicots;mustard family//aly 0.3 * +EC2.1.1.273 benzoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.19 * +EC2.1.1.273 s-adenosyl-l-methionine antirrhinum majus//*//* 0.006 * +EC2.1.1.274 s-adenosyl-l-methionine antirrhinum majus//*//* 0.013 * +EC2.1.1.274 s-adenosyl-l-methionine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.028 * +EC2.1.1.274 salicylate clarkia breweri//*//* 14.0 * +EC2.1.1.274 salicylate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.056 * +EC2.1.1.274 salicylic acid antirrhinum majus//*//* 0.011 * +EC2.1.1.274 salicylic acid arabidopsis lyrata//eukaryotes;plants;eudicots;mustard family//aly 0.05 * +EC2.1.1.274 salicylic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC2.1.1.275 gibberellin a4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC2.1.1.275 gibberellin a9 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.026 * +EC2.1.1.276 gibberellin a4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0015 * +EC2.1.1.276 gibberellin a9 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0018 * +EC2.1.1.277 anthranilate zea mays//eukaryotes;plants;monocots;grass family//zma 0.45 * +EC2.1.1.278 (indol-3-yl)acetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.028 * +EC2.1.1.278 (indol-3-yl)acetate oryza sativa japonica group//*//* 0.025 * +EC2.1.1.278 s-adenosyl-l-methionine oryza sativa japonica group//*//* 0.025 * +EC2.1.1.279 isoeugenol pimpinella anisum//*//* 0.015 * +EC2.1.1.28 3-trifluoromethylphenylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0083 * +EC2.1.1.28 anti-9-amino-6-(trifluoromethyl)benzonorbornene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC2.1.1.28 cis-(1r,2s)-2-amino-1-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC2.1.1.28 octopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.1.1.28 phenylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC2.1.1.28 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0473 * +EC2.1.1.280 dl-selenohomocysteine astragalus bisulcatus//*//* 0.0074 * +EC2.1.1.280 dl-selenohomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.74 * +EC2.1.1.280 l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC2.1.1.280 l-selenocysteine astragalus bisulcatus//*//* 0.0062 * +EC2.1.1.280 l-selenocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00017 * +EC2.1.1.281 2-oxo-3-phenylpropanoate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.8 * +EC2.1.1.281 s-adenosyl-l-methionine streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 8.15 * +EC2.1.1.284 8-demethylnovobiocic acid streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.5 * +EC2.1.1.285 demethyldecarbamoylnovobiocin streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.4 * +EC2.1.1.291 (r)-reticuline papaver somniferum//*//* 0.07 * +EC2.1.1.291 (s)-reticuline papaver somniferum//*//* 0.07 * +EC2.1.1.291 guaiacol papaver somniferum//*//* 0.1 * +EC2.1.1.291 isovanillic acid papaver somniferum//*//* 0.02 * +EC2.1.1.293 6-hydroxytryprostatin b aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 27.0 * +EC2.1.1.293 s-adenosyl-l-methionine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.0 * +EC2.1.1.302 3-hydroxy-5-methylnaphthoate streptomyces sahachiroi//*//* 0.0073 * +EC2.1.1.302 s-adenosyl-l-methionine streptomyces sahachiroi//*//* 0.0063 * +EC2.1.1.303 1,4-dihydroxy-2-naphthoic acid streptomyces carzinostaticus//*//* 0.000133 * +EC2.1.1.303 2,7-dihydroxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.0115 * +EC2.1.1.303 3,5-dihydroxy-2-naphthoate streptomyces carzinostaticus//*//* 0.0045 * +EC2.1.1.303 3,7-dihydroxy-2-naphthoate streptomyces carzinostaticus//*//* 0.0004 * +EC2.1.1.315 27-o-demethylrifamycin sv amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 87.0 * +EC2.1.1.316 7-demethylmitomycin a streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.0017 * +EC2.1.1.316 s-adenosyl-l-methionine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.0018 * +EC2.1.1.318 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.0 * +EC2.1.1.319 [fysgfns-dimethyl-r8-p-dimethyl-r10-grvyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.1.1.319 [fysgfns-dimethyl-r8-prg-dimethyl-r12-vyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.1.1.319 [fysgfns-dimethyl-r8-prgrvyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.1.1.319 [fysgfnsrp-dimethyl-r10-g-dimethyl-r12-vyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC2.1.1.319 [fysgfnsrp-methyl-r10-grvyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.1.1.319 [grggfggrggfrggrgg]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC2.1.1.319 [pabpn1 mutant deltac20]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC2.1.1.319 [pabpn1 mutant deltac27]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC2.1.1.319 [pabpn1 mutant deltac33]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC2.1.1.319 [pabpn1 mutant deltac40]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00042 * +EC2.1.1.319 [pabpn1 mutant deltac8]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.1.1.321 [histone h2b peptide 23-37]-l-arginine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC2.1.1.323 (-)-pluviatolide sinopodophyllum hexandrum//*//* 0.72 * +EC2.1.1.325 (2e,6e)-farnesoate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.000217 * +EC2.1.1.325 (2e,6e)-farnesoate diaphorina citri//*//* 0.00075 * +EC2.1.1.325 (2e,6e)-farnesoate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.168 * +EC2.1.1.325 (2e,6z)-10cis-juvenile hormone i acid diaphorina citri//*//* 3e-06 * +EC2.1.1.325 (2z,6e)-10cis-juvenile hormone i acid diaphorina citri//*//* 8e-06 * +EC2.1.1.325 (cis/trans/cis)-juvenile hormone i acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.000245 * +EC2.1.1.325 (cis/trans/trans)-juvenile hormone i acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.000875 * +EC2.1.1.325 (trans/cis/cis)-juvenile hormone i acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 6e-06 * +EC2.1.1.325 homofarnesoate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.00016 * +EC2.1.1.325 homofarnesoate diaphorina citri//*//* 0.00022 * +EC2.1.1.325 juvenile hormone i acid bisepoxide aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.1e-05 * +EC2.1.1.325 juvenile hormone iii acid bisepoxide aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1e-05 * +EC2.1.1.325 juvenile hormone iii acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.001148 * +EC2.1.1.325 juvenile hormone iii acid diaphorina citri//*//* 1.3e-05 * +EC2.1.1.325 juvenile hormone iii acid drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.128 * +EC2.1.1.325 laurate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0017 * +EC2.1.1.325 palmitate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.000683 * +EC2.1.1.327 phenazine-1-carboxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.1.1.329 menadione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.44 * +EC2.1.1.336 dopamine narcissus sp. aff. pseudonarcissus//*//* 0.06 * +EC2.1.1.336 n-methylnorbelladine narcissus sp. aff. pseudonarcissus//*//* 0.043 * +EC2.1.1.336 norbelladine narcissus sp. aff. pseudonarcissus//*//* 0.022 * +EC2.1.1.336 s-adenosyl-l-methionine narcissus sp. aff. pseudonarcissus//*//* 0.075 * +EC2.1.1.337 (r)-reticuline papaver somniferum//*//* 0.053 * +EC2.1.1.337 (s)-reticuline papaver somniferum//*//* 0.028 * +EC2.1.1.337 s-adenosyl-l-methionine papaver somniferum//*//* 0.047 * +EC2.1.1.341 vanillate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.385 * +EC2.1.1.341 vanillate sphingomonas paucimobilis//*//* 5.76 * +EC2.1.1.35 11mer of the t-arm of e. coli trna1val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC2.1.1.35 17mer of the t-arm of e. coli trna1val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0333 * +EC2.1.1.35 unmodified e. coli trna1val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC2.1.1.35 uridine54 in trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.317 * +EC2.1.1.35 yeast trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0917 * +EC2.1.1.37 (cgg*ccg)73 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC2.1.1.37 (cgg*cgg)12 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00305 * +EC2.1.1.37 dna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC2.1.1.37 poly(di*dc-di*dc) of chain length 100 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00597 * +EC2.1.1.37 poly(di*dc-di*dc) of chain length 2000 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00692 * +EC2.1.1.37 poly(di*dc-di*dc) of chain length 500 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00633 * +EC2.1.1.37 poly(di*dc-di*dc) of chain length 5000 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00867 * +EC2.1.1.37 poly(di-dc)*poly(di-dc) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.145 * +EC2.1.1.37 poly(di-dc)poly(di-dc) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0511 * +EC2.1.1.37 poly(didc:didc) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0061 * +EC2.1.1.37 poly-(di-dc)/poly(di-dc) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC2.1.1.37 prw3602, linear homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00167 * +EC2.1.1.37 prw3602, relaxed circular homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC2.1.1.37 prw3602, supercoiled homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00278 * +EC2.1.1.37 s-adenosyl-l-methionine haemophilus aegyptius//*//* 0.0068 * +EC2.1.1.37 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC2.1.1.37 s-adenosyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC2.1.1.37 unmethylated 30-mer dna haemophilus aegyptius//*//* 0.0068 * +EC2.1.1.41 24(28)-methylene lophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.001 * +EC2.1.1.41 26,27-dehydrozymosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0008 * +EC2.1.1.41 cycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01 * +EC2.1.1.41 lanosterol paracoccidioides brasiliensis//eukaryotes;fungi;ascomycetes;eurotiomycetes//pbn 0.0023 * +EC2.1.1.41 zymosterol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.01 * +EC2.1.1.41 zymosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.011 * +EC2.1.1.41 zymosterol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.013 * +EC2.1.1.43 biotinyl-martkqtarkstggkaprkq neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.038 * +EC2.1.1.43 chicken nucleosome homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC2.1.1.43 histone h3 (1-13) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02056 * +EC2.1.1.43 histone h3 (s10phos) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001806 * +EC2.1.1.43 histone h3 (t11phos) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC2.1.1.43 histone h3(k27) paramecium bursaria chlorella virus 1//*//* 1.32 * +EC2.1.1.43 histone h3(k27a) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0161 * +EC2.1.1.43 histone h3(k4a) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0161 * +EC2.1.1.43 histone h3(peptide 21-44) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.1.1.43 histone h3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.024 * +EC2.1.1.43 histone k4-acetylk9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0089 * +EC2.1.1.43 histone k4-trimethylk9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0089 * +EC2.1.1.43 histone k4ak9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01194 * +EC2.1.1.43 recombinant nucleosome homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC2.1.1.45 2'-deoxyuridine enterobacteria phage t2//*//* 16.0 * +EC2.1.1.45 2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.67 * +EC2.1.1.45 2'-deoxyuridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.583 * +EC2.1.1.45 5,10-methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC2.1.1.45 5,10-methylenetetrahydrofolate litopenaeus vannamei//*//* 4.1 * +EC2.1.1.45 5,10-methylenetetrahydrofolate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.2 * +EC2.1.1.45 5,10-methylenetetrahydrofolate shrimp white spot syndrome virus//*//* 2.8 * +EC2.1.1.45 deoxyuridine phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.17 * +EC2.1.1.45 deoxyuridine phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 18.0 * +EC2.1.1.45 dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC2.1.1.49 7,8-dichloro-1,2,3,4-tetrahydroisoquinoline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.67 * +EC2.1.1.49 aniline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.367 * +EC2.1.1.49 desmethylimipramine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.233 * +EC2.1.1.49 imidazole oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.167 * +EC2.1.1.49 pyrazole oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC2.1.1.49 s-adenosyl-l-methionine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.1.1.49 tryptamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.45 * +EC2.1.1.5 betaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 88.0 * +EC2.1.1.5 betaine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC2.1.1.5 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0378 * +EC2.1.1.5 l-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC2.1.1.5 s-methyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.0 * +EC2.1.1.50 loganic acid catharanthus roseus//*//* 0.327 * +EC2.1.1.53 putrescine calystegia sepium//*//* 0.16 * +EC2.1.1.53 putrescine datura inoxia//*//* 0.383 * +EC2.1.1.53 putrescine datura stramonium//*//* 5.14 * +EC2.1.1.53 putrescine physalis divaricata//*//* 0.198 * +EC2.1.1.53 putrescine solanum dulcamara//*//* 0.047 * +EC2.1.1.53 putrescine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.19 * +EC2.1.1.53 putrescine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.131 * +EC2.1.1.56 g(5')pppr-rna dengue virus//*//* 0.0001947 * +EC2.1.1.56 gpppa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0983 * +EC2.1.1.56 s-adenosyl-l-methionine dengue virus//*//* 5.4e-05 * +EC2.1.1.56 s-adenosyl-l-methionine vaccinia virus//*//* 0.022 * +EC2.1.1.6 2-hydroxyestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC2.1.1.6 4-hydroxyequilenin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.1.1.6 4-hydroxyestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC2.1.1.6 catechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.1.1.6 catechol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 9.67 * +EC2.1.1.6 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.1.1.6 epicatechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.315 * +EC2.1.1.6 epinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.1.1.6 norepinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.1.1.61 5-aminomethyl-2-thiouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.23 * +EC2.1.1.63 snap-vista green sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.4 * +EC2.1.1.68 5-hydroxyconiferyl alcohol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.23 * +EC2.1.1.68 5-hydroxyconiferyl aldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.85 * +EC2.1.1.68 5-hydroxyferulic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.3 * +EC2.1.1.68 caffeic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.62 * +EC2.1.1.68 caffeoyl alcohol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.52 * +EC2.1.1.68 caffeoyl aldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.55 * +EC2.1.1.68 methyl gallate vanilla planifolia//*//* 0.23 * +EC2.1.1.68 myricetin vanilla planifolia//*//* 0.068 * +EC2.1.1.68 quercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.16 * +EC2.1.1.72 dna adenine caulobacter vibrioides//*//* 0.33 * +EC2.1.1.72 dna adenine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0047 * +EC2.1.1.72 dna adenine enterobacteria phage t4//*//* 0.015 * +EC2.1.1.72 dna adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.93 * +EC2.1.1.72 dna adenine klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0056 * +EC2.1.1.72 dna adenine moraxella bovis//*//* 0.0056 * +EC2.1.1.72 dna adenine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.019 * +EC2.1.1.72 dna adenine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0056 * +EC2.1.1.72 dna adenine thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.73 * +EC2.1.1.72 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0155 * +EC2.1.1.72 dna klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0056 * +EC2.1.1.72 oligodeoxynucleotide duplexes 5'-gatc/5'-gatc enterobacteria phage t4//*//* 0.21 * +EC2.1.1.72 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00117 * +EC2.1.1.72 t7 dna adenine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.037 * +EC2.1.1.76 3'-o-methylmyricetin solanum habrochaites//*//* 1.66 * +EC2.1.1.76 7-o-methylmyricetin solanum habrochaites//*//* 0.39 * +EC2.1.1.76 myricetin solanum habrochaites//*//* 0.82 * +EC2.1.1.76 s-adenosyl-l-methionine solanum habrochaites//*//* 2.94 * +EC2.1.1.77 delta sleep inducing peptide l-isoaspartate cyberlindnera jadinii//*//* 233.3 * +EC2.1.1.77 s-adenosyl-l-methionine cyberlindnera jadinii//*//* 203.9 * +EC2.1.1.79 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC2.1.1.79 s-adenosyl-l-methionine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 100.0 * +EC2.1.1.79 se-adenosyl-l-selenomethionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.217 * +EC2.1.1.79 te-adenosyl-l-telluromethionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.1.1.80 protein l-glutamate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.167 * +EC2.1.1.82 kaempferol populus sp.//*//* 0.064 * +EC2.1.1.82 quercetin populus sp.//*//* 0.071 * +EC2.1.1.9 scn- oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.000448 * +EC2.1.1.9 scn- phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.0102 * +EC2.1.1.9 sh- phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.0381 * +EC2.1.1.9 thiobenzoic acid physcomitrella patens//eukaryotes;plants;mosses//ppp 0.046 * +EC2.1.1.B114 oligoduplex 5'-ggacgcttcaccggatgtm6acaggcatgcgacgacccctag-3'/3'-cctgcgaagtggcctacatgtccgtacgctgctggggatc-5' pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.041 * +EC2.1.1.B75 kaempferol populus sp.//*//* 0.071 * +EC2.1.1.B75 quercetin populus sp.//*//* 0.064 * +EC2.1.1.B76 2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-4h-1-benzopyran-4-one populus sp.//*//* 0.071 * +EC2.1.1.B76 3,4',5,7-tetrahydroxyflavanone populus sp.//*//* 0.064 * +EC2.1.1.B76 kaempferol populus sp.//*//* 0.071 * +EC2.1.1.B76 quercetin populus sp.//*//* 0.064 * +EC2.1.1.B84 7-o-methyl-n-deacetylisoipecoside carapichea ipecacuanha//*//* 0.0204 * +EC2.1.1.B84 cephaeline carapichea ipecacuanha//*//* 0.00028 * +EC2.1.1.B84 n-deacetylisoipecoside carapichea ipecacuanha//*//* 0.0113 * +EC2.1.1.B84 s-adenosyl-l-homocysteine carapichea ipecacuanha//*//* 0.0071 * +EC2.1.1.B93 8-amino-8-demethyl-d-riboflavin streptomyces davawensis//*//* 0.37 * +EC2.1.1.B93 s-adenosyl-l-methionine streptomyces davawensis//*//* 0.24 * +EC2.1.2.1 d-serine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.246 * +EC2.1.2.1 d-serine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.26 * +EC2.1.2.1 glycine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 5.0 * +EC2.1.2.1 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC2.1.2.1 l-ser methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.53 * +EC2.1.2.1 l-ser oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 10.0 * +EC2.1.2.1 l-ser ovis aries//eukaryotes;animals;vertebrates;mammals//oas 4.2 * +EC2.1.2.1 l-serine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 5.85 * +EC2.1.2.1 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 640.0 * +EC2.1.2.1 l-serine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.0 * +EC2.1.2.1 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC2.1.2.1 l-serine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 18.7 * +EC2.1.2.1 l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 14.2 * +EC2.1.2.1 l-serine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 4.2 * +EC2.1.2.1 l-serine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.74 * +EC2.1.2.1 l-serine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 1.09 * +EC2.1.2.1 l-serine psychromonas ingrahamii//prokaryotes;bacteria;gammaproteobacteria - others;psychromonas//pin 9.25 * +EC2.1.2.1 serine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 8.95 * +EC2.1.2.1 tetrahydrofolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.8 * +EC2.1.2.1 tetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC2.1.2.1 tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.1.2.1 tetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC2.1.2.1 tetrahydrofolate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.98 * +EC2.1.2.1 tetrahydrofolate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.3 * +EC2.1.2.1 tetrahydromethanopterin methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.53 * +EC2.1.2.10 5,10-methylenetetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.4 * +EC2.1.2.10 5,10-methylenetetrahydropteroyltetraglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.5 * +EC2.1.2.10 nh4cl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.9 * +EC2.1.2.10 reduced h-protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.4 * +EC2.1.2.11 3-methyl-2-oxobutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.783 * +EC2.1.2.11 5,10-methylenetetrahydrofolate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.78 * +EC2.1.2.2 (6r)-n10-formyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.7 * +EC2.1.2.2 10-formyl-5,8-dideazafolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC2.1.2.2 beta-glycinamide ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC2.1.2.2 carbocyclic glycinamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC2.1.2.2 n10-formyl-5,8-dideazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC2.1.2.2 n10-formyl-5-deazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.52 * +EC2.1.2.2 n10-formyl-8-deazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.069 * +EC2.1.2.2 n10-formylfolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC2.1.2.5 5-formimidoyltetrahydrofolate candidatus koribacter versatilis//prokaryotes;bacteria;acidobacteria;koribacter//aba 0.0092 * +EC2.1.2.5 5-formimidoyltetrahydrofolate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.0193 * +EC2.1.2.5 5-formimidoyltetrahydrofolate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0022 * +EC2.1.2.5 5-formimidoyltetrahydrofolate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0045 * +EC2.1.2.5 l-glutamate candidatus koribacter versatilis//prokaryotes;bacteria;acidobacteria;koribacter//aba 0.0092 * +EC2.1.2.5 l-glutamate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.0193 * +EC2.1.2.5 l-glutamate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0022 * +EC2.1.2.5 l-glutamate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0045 * +EC2.1.2.8 deoxycytidylate enterobacteria phage t4//*//* 12.7 * +EC2.1.2.9 e. coli isoleucyl-trnafmet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0005 * +EC2.1.2.9 e. coli methionyl-trna1val(cau) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC2.1.2.9 e. coli methionyl-trnafmet bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.93 * +EC2.1.2.9 e. coli methionyl-trnafmet haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 11.3 * +EC2.1.2.9 e. coli methionyl-trnafmet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC2.1.2.9 e. coli methionyl-trnammet bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC2.1.2.9 e. coli valyl-trnafmet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC2.1.2.9 methionyl-trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 41.5 * +EC2.1.3.12 decarbamoylnovobiocin streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 4.1 * +EC2.1.3.12 novclobiocin 104 streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 1.32 * +EC2.1.3.12 novclobiocin 105 streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 1.53 * +EC2.1.3.2 aspartate mesocricetus auratus//*//* 79.7 * +EC2.1.3.2 carbamoyl phosphate mesocricetus auratus//*//* 35.9 * +EC2.1.3.2 carbamoyl phosphate triticum aestivum//*//* 47.2 * +EC2.1.3.2 carbamoylphosphate mesocricetus auratus//*//* 57.4 * +EC2.1.3.2 l-aspartate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 41.7 * +EC2.1.3.2 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 417.0 * +EC2.1.3.2 l-aspartate mesocricetus auratus//*//* 156.0 * +EC2.1.3.3 carbamoyl phosphate giardia intestinalis//*//* 82.0 * +EC2.1.3.3 diaminobutane pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.025 * +EC2.1.3.3 l-citrulline enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 90.0 * +EC2.1.3.3 l-citrulline giardia intestinalis//*//* 8.1 * +EC2.1.3.3 l-lysine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.0036 * +EC2.1.3.3 l-ornithine giardia intestinalis//*//* 94.2 * +EC2.1.3.3 l-ornithine moritella abyssi//*//* 750.0 * +EC2.1.3.3 l-ornithine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 49.0 * +EC2.1.3.3 ornithine alnus glutinosa//*//* 18.0 * +EC2.1.3.3 ornithine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 187.0 * +EC2.1.3.3 ornithine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3400.0 * +EC2.1.3.3 ornithine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 500.0 * +EC2.1.3.3 phosphate giardia intestinalis//*//* 7.9 * +EC2.1.4.1 glycine cylindrospermopsis raciborskii//*//* 875.0 * +EC2.1.4.1 l-arginine cylindrospermopsis raciborskii//*//* 875.0 * +EC2.10.1.1 molybdate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.5 * +EC2.2.1.2 d-erythrose 4-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 22.9 * +EC2.2.1.2 d-erythrose-4-phosphate blastobotrys adeninivorans//*//* 6.44 * +EC2.2.1.2 d-fructose 6-phosphate blastobotrys adeninivorans//*//* 4.9 * +EC2.2.1.2 d-fructose 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 22.3 * +EC2.2.1.2 glyceraldehyde 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC2.2.1.5 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.25 * +EC2.2.1.5 glyoxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.29 * +EC2.2.1.6 2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC2.2.1.6 hydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.47 * +EC2.2.1.6 pyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 121.0 * +EC2.2.1.6 pyruvate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 5.3 * +EC2.2.1.6 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 71.0 * +EC2.2.1.6 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.2 * +EC2.2.1.6 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 16.1 * +EC2.2.1.6 pyruvate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 98.0 * +EC2.2.1.7 1-methyl-2-nitrosobenzene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.2.1.7 1-nitrosonaphthalen-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC2.2.1.7 2-hydroxy-4,6-dinitrobenzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC2.2.1.7 3,5-dimethyl-4-nitroso-1-(propan-2-yl)-1h-pyrazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC2.2.1.7 6-bromo-1-nitrosonaphthalen-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC2.2.1.7 6-hydroxy-5-nitrosonaphthalene-2-sulfonamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.2.1.7 7-methoxy-1-nitrosonaphthalen-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 26.8 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate botryococcus braunii//*//* 6.0 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 2.57 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.1 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 11.0 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.64 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.9 * +EC2.2.1.7 d-glyceraldehyde rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.7 * +EC2.2.1.7 n,n-dimethyl-4-nitrosoaniline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.2.1.7 pyruvate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 26.8 * +EC2.2.1.7 pyruvate botryococcus braunii//*//* 5.6 * +EC2.2.1.7 pyruvate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 2.57 * +EC2.2.1.7 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC2.2.1.7 pyruvate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.2 * +EC2.2.1.7 pyruvate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 9.5 * +EC2.2.1.7 pyruvate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.53 * +EC2.2.1.7 pyruvate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.9 * +EC2.2.1.9 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.23 * +EC2.2.1.9 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC2.2.1.9 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.28 * +EC2.2.1.9 isochorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.3.1.1 l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.22 * +EC2.3.1.1 l-glutamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.78 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 1970.0 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 2770.0 * +EC2.3.1.102 1-amino-5(hydroxyamino)pentane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.97e-05 * +EC2.3.1.102 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00177 * +EC2.3.1.102 n-methylhydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.85e-05 * +EC2.3.1.102 n6-hydroxylysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.77e-05 * +EC2.3.1.102 n6-hydroxyornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000112 * +EC2.3.1.108 alpha-tubulin l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC2.3.1.116 malonyl-coa glandularia x hybrida//*//* 2.9 * +EC2.3.1.116 malonyl-coa lamium purpureum//*//* 9.0 * +EC2.3.1.116 quercetin 3-o-glucoside glandularia x hybrida//*//* 2.9 * +EC2.3.1.116 quercetin 3-o-glucoside lamium purpureum//*//* 9.0 * +EC2.3.1.12 acetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2.4 * +EC2.3.1.122 alpha,alpha-trehalose 6-monomycolate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.09 * +EC2.3.1.128 ala-arg-tyr-phe-arg-arg salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 0.316 * +EC2.3.1.129 udp-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.5 * +EC2.3.1.13 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.8 * +EC2.3.1.13 benzoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.2 * +EC2.3.1.13 butyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.0 * +EC2.3.1.13 glycine ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.57 * +EC2.3.1.13 glycine methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.3.1.13 glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC2.3.1.13 hexanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.6 * +EC2.3.1.135 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.4 * +EC2.3.1.136 ([glc-(alpha1-4)-sia]n) neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.1 * +EC2.3.1.136 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.51 * +EC2.3.1.136 acetyl-coa neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.3 * +EC2.3.1.136 colominic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.99 * +EC2.3.1.137 octanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.367 * +EC2.3.1.15 oleoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.0918 * +EC2.3.1.15 palmitoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00944 * +EC2.3.1.15 sn-glycerol 3-phosphate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.011 * +EC2.3.1.15 stearoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00674 * +EC2.3.1.150 nudaurine papaver somniferum//*//* 3.3 * +EC2.3.1.150 salutaridinol papaver somniferum//*//* 4.4 * +EC2.3.1.151 benzoyl-coa garcinia mangostana//*//* 0.049 * +EC2.3.1.151 benzoyl-coa hypericum androsaemum//*//* 9.66 * +EC2.3.1.151 malonyl-coa garcinia mangostana//*//* 0.058 * +EC2.3.1.157 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 82.47 * +EC2.3.1.157 acetyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 853.0 * +EC2.3.1.157 acetyl-coa yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 853.0 * +EC2.3.1.157 alpha-d-galactosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 69.7 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 82.47 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 123.2 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 828.0 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 828.0 * +EC2.3.1.157 n-acetyl-d-glucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.4 * +EC2.3.1.159 4-coumaroyl-coa citrus x microcarpa//*//* 0.113 * +EC2.3.1.159 4-coumaroyl-coa huperzia serrata//*//* 0.034 * +EC2.3.1.159 n-methylanthraniloyl-coa citrus x microcarpa//*//* 0.067 * +EC2.3.1.16 acetoacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.8 * +EC2.3.1.16 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.3.1.160 gardneral rauvolfia serpentina x rhazya stricta//*//* 0.065 * +EC2.3.1.160 vinorine rauvolfia serpentina x rhazya stricta//*//* 0.735 * +EC2.3.1.161 (4e,6e)-3-oxoocta-4,6-dienoyl-n-acetylcysteamine aspergillus terreus//*//* 3.25 * +EC2.3.1.161 2-methyl-3-oxohexanoyl-n-acetylcysteamine aspergillus terreus//*//* 0.085 * +EC2.3.1.161 3-oxohexanoyl-n-acetylcysteamine aspergillus terreus//*//* 0.57 * +EC2.3.1.161 3-oxooctanoyl-n-acetylcysteamine aspergillus terreus//*//* 0.32 * +EC2.3.1.162 taxadien-2alpha,5alpha,10beta-triol taxus cuspidata//*//* 27.92 * +EC2.3.1.162 taxadien-2alpha,5alpha-diol taxus cuspidata//*//* 52.13 * +EC2.3.1.162 taxadien-5alpha,9alpha,10beta,13alpha-tetraol taxus cuspidata//*//* 15.47 * +EC2.3.1.162 taxadien-5alpha-acetoxy-9alpha,10beta,13alpha-triol taxus cuspidata//*//* 297.9 * +EC2.3.1.162 taxadien-5alpha-ol taxus cuspidata//*//* 29.59 * +EC2.3.1.165 6-methylsalicylate aspergillus terreus//*//* 0.023 * +EC2.3.1.166 (2alpha,5beta,7beta,10beta,13alpha)-4,7,10,13-tetrakis(acetyloxy)-1-hydroxy-9-oxo-5,20-epoxytax-11-en-2-yl 3-methylbenzoate taxus cuspidata//*//* 4e-05 * +EC2.3.1.167 10-deacetylbaccatin iii taxus cuspidata//*//* 0.58 * +EC2.3.1.169 acetyl-coa carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 0.142 * +EC2.3.1.169 acetyl-coa methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.0002 * +EC2.3.1.17 2,3-diaminosuccinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.3.1.17 3-methyl-l-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.3.1.17 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC2.3.1.17 l-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC2.3.1.17 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.3.1.171 cyanidin 3-o-beta-d-glucoside chrysanthemum x morifolium//*//* 11.1 * +EC2.3.1.171 malonyl-coa dahlia pinnata//*//* 7.3 * +EC2.3.1.171 malonyl-coa pericallis cruenta//*//* 8.8 * +EC2.3.1.171 pelargonidin 3-o-beta-d-glucoside dahlia pinnata//*//* 7.3 * +EC2.3.1.171 pelargonidin 3-o-beta-d-glucoside pericallis cruenta//*//* 8.8 * +EC2.3.1.172 cyanidin 3-o-[[2-o-(2-o-sinapoyl)-beta-d-xylosyl]-6-o-(6-o-(4-coumaroyl)-beta-d-glucoside)] 5-o-beta-d-glucoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00012 * +EC2.3.1.172 cyanidin 3-o-[[2-o-beta-d-xylosyl]-6-o-(6-o-(4-coumaroyl)-beta-d-glucoside)] 5-o-beta-d-glucoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC2.3.1.172 cyanin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC2.3.1.172 malonyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC2.3.1.172 malvin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.79 * +EC2.3.1.172 pelargonidin 3-o-(6-caffeoyl-beta-d-glucoside) 5-o-beta-d-glucoside salvia splendens//*//* 7.8 * +EC2.3.1.172 shisonin salvia splendens//*//* 8.7 * +EC2.3.1.174 3-oxoadipyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.8 * +EC2.3.1.174 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.8 * +EC2.3.1.177 2-hydroxybenzoyl-coa sorbus aucuparia//*//* 0.037 * +EC2.3.1.177 benzoyl-coa sorbus aucuparia//*//* 0.017 * +EC2.3.1.179 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC2.3.1.179 malonyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC2.3.1.179 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC2.3.1.179 malonyl-phosphopantetheine-14-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC2.3.1.179 malonyl-phosphopantetheine-16-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.3.1.179 malonyl-phosphopantetheine-8-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC2.3.1.179 malonyl-phosphopantetheine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.3.1.18 4-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.1 * +EC2.3.1.18 isopropyl-thio-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 133.0 * +EC2.3.1.18 o-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.9 * +EC2.3.1.18 p-nitrophenyl-alpha-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.42 * +EC2.3.1.18 p-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.7 * +EC2.3.1.18 p-nitrophenyl-beta-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.84 * +EC2.3.1.18 p-nitrophenyl-beta-d-lactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.84 * +EC2.3.1.18 phenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC2.3.1.180 2-methylbutyryl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.46 * +EC2.3.1.180 acetyl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.0007 * +EC2.3.1.180 acetyl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.4 * +EC2.3.1.180 butyryl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 20.9 * +EC2.3.1.180 hexanoyl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 25.5 * +EC2.3.1.180 isobutyryl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.32 * +EC2.3.1.180 isobutyryl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 28.0 * +EC2.3.1.180 isovaleryl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.12 * +EC2.3.1.180 isovaleryl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 15.5 * +EC2.3.1.181 apo-h protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.3.1.181 octanoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.3.1.182 2-oxobutyrate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.09 * +EC2.3.1.182 acetyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 11.1 * +EC2.3.1.182 acetyl-coa methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.36 * +EC2.3.1.182 glyoxylate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.51 * +EC2.3.1.182 pyruvate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 9.3 * +EC2.3.1.182 pyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.36 * +EC2.3.1.183 l-methionine sulfone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 610.0 * +EC2.3.1.183 l-methionine sulfoximine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 505.0 * +EC2.3.1.183 l-methionine sulfoximine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.5 * +EC2.3.1.183 l-phosphinothricin rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.18 * +EC2.3.1.184 butyryl-[acyl-carrier protein 1] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.35 * +EC2.3.1.184 butyryl-[acyl-carrier protein 2] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.46 * +EC2.3.1.184 butyryl-[acyl-carrier protein 3] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.026 * +EC2.3.1.184 butyryl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC2.3.1.191 (3r)-3-hydroxymyristoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC2.3.1.191 udp-3-o-((3r)-3-hydroxymyristoyl)-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC2.3.1.191 udp-3-o-[(3r)-3-hydroxymyristoyl]-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC2.3.1.195 (3z)-hex-3-en-ol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 11.3 * +EC2.3.1.195 1-octanol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.125 * +EC2.3.1.195 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 23.0 * +EC2.3.1.196 2-phenylethanol petunia x hybrida//*//* 35.8 * +EC2.3.1.196 3-hydroxybenzyl alcohol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 1.97 * +EC2.3.1.196 acetyl-coa clarkia breweri//*//* 21.5 * +EC2.3.1.196 acetyl-coa petunia x hybrida//*//* 4.4 * +EC2.3.1.196 acetyl-coa populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.43 * +EC2.3.1.196 benzoyl-coa clarkia breweri//*//* 124.0 * +EC2.3.1.196 benzoyl-coa petunia x hybrida//*//* 81.3 * +EC2.3.1.196 benzoyl-coa populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 2.25 * +EC2.3.1.196 benzoyl-coa vitis labrusca//*//* 0.045 * +EC2.3.1.196 benzyl alcohol clarkia breweri//*//* 85.2 * +EC2.3.1.196 benzyl alcohol petunia x hybrida//*//* 36.9 * +EC2.3.1.196 benzyl alcohol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 1.79 * +EC2.3.1.196 cinnamoyl-coa clarkia breweri//*//* 0.9 * +EC2.3.1.196 cinnamyl alcohol clarkia breweri//*//* 47.2 * +EC2.3.1.196 salicyl alcohol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 2.06 * +EC2.3.1.197 acetyl-coa aneurinibacillus thermoaerophilus//*//* 3.1 * +EC2.3.1.197 dtdp-3-amino-3,6-dideoxy-alpha-d-galactopyranose aneurinibacillus thermoaerophilus//*//* 2.3 * +EC2.3.1.20 palmitoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.92 * +EC2.3.1.201 udp-2-acetamido-3-amino-2,3-dideoxy-alpha-d-glucuronate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 48.3 * +EC2.3.1.203 udp-2-acetamido-4-amino-2,4,6-trideoxy-alpha-d-glucopyranose acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 510000.0 * +EC2.3.1.203 udp-2-acetamido-4-amino-2,4,6-trideoxy-alpha-d-glucopyranose neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 72000.0 * +EC2.3.1.203 udp-4-amino-4,6-dideoxy-n-acetyl-alpha-d-glucosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 8050.0 * +EC2.3.1.205 acetyl-coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.6 * +EC2.3.1.205 fumigaclavine b aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.6 * +EC2.3.1.206 butyryl-coa cannabis sativa//*//* 0.011 * +EC2.3.1.206 hexanoyl-coa cannabis sativa//*//* 0.018 * +EC2.3.1.208 2-hydroxybenzoyl-coa sorbus aucuparia//*//* 0.037 * +EC2.3.1.209 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.6 * +EC2.3.1.209 dtdp-4-amino-4,6-dideoxy-alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 155.3 * +EC2.3.1.212 4-coumaroyl-coa rheum palmatum//*//* 0.0298 * +EC2.3.1.212 d-phenylalanyl-coa rheum palmatum//*//* 0.135 * +EC2.3.1.212 l-phenylalanyl-coa rheum palmatum//*//* 0.463 * +EC2.3.1.212 malonyl-coa rheum palmatum//*//* 0.0296 * +EC2.3.1.212 n-methylanthraniloyl-coa rheum palmatum//*//* 0.0247 * +EC2.3.1.214 4'''-demalonylsalvianin salvia splendens//*//* 0.55 * +EC2.3.1.214 malonyl-coa salvia splendens//*//* 0.55 * +EC2.3.1.215 acetyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 1.11 * +EC2.3.1.215 caffeoyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.29 * +EC2.3.1.215 coumaroyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.13 * +EC2.3.1.215 cyanidin 3-o,5-o-beta-d-diglucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.18 * +EC2.3.1.215 cyanidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 77.0 * +EC2.3.1.215 delphinidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 67.89 * +EC2.3.1.215 malonyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.92 * +EC2.3.1.215 malvidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 13.92 * +EC2.3.1.215 peonidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 14.2 * +EC2.3.1.217 3-oxo-5-phenyl-4-pentenoic acid curcuma longa//*//* 0.125 * +EC2.3.1.217 cinnamoyl-diketide-n-acetylcysteamine curcuma longa//*//* 0.0043 * +EC2.3.1.217 feruloyl-coa curcuma longa//*//* 0.0183 * +EC2.3.1.218 feruloyl-coa curcuma longa//*//* 0.02 * +EC2.3.1.218 malonyl-coa curcuma longa//*//* 0.0112 * +EC2.3.1.219 4-coumaroyl-coa curcuma longa//*//* 3.15 * +EC2.3.1.220 benzoyl-coa garcinia mangostana//*//* 0.0495 * +EC2.3.1.220 benzoyl-coa hypericum androsaemum//*//* 0.055 * +EC2.3.1.220 malonyl-coa garcinia mangostana//*//* 0.0582 * +EC2.3.1.220 malonyl-coa hypericum androsaemum//*//* 0.055 * +EC2.3.1.221 acetyl-[acyl-carrier protein] aspergillus parasiticus//*//* 0.0407 * +EC2.3.1.221 hexanoyl-[acyl-carrier protein] aspergillus parasiticus//*//* 0.0472 * +EC2.3.1.222 acetyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 5.4 * +EC2.3.1.222 propanoyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 20.7 * +EC2.3.1.224 malonyl-coa salvia splendens//*//* 0.76 * +EC2.3.1.224 monodemalonylsalvianin salvia splendens//*//* 0.76 * +EC2.3.1.226 (s)-1-pyrroline-5-carboxylate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.52 * +EC2.3.1.226 malonyl-coa pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.7 * +EC2.3.1.228 isovaleryl-acp bradyrhizobium diazoefficiens//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bja 0.02 * +EC2.3.1.228 isovaleryl-coa bradyrhizobium diazoefficiens//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bja 0.021 * +EC2.3.1.230 2-aminobenzoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0165 * +EC2.3.1.230 3-oxodecanoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0165 * +EC2.3.1.232 anthraniloyl-coa vitis labrusca//*//* 0.022 * +EC2.3.1.232 methanol vitis labrusca//*//* 0.0058 * +EC2.3.1.233 hexanoyl-coa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.6 * +EC2.3.1.233 malonyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 45.7 * +EC2.3.1.233 malonyl-coa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.013 * +EC2.3.1.238 (s)-2-methylbutanoyl-[2-methylbutanoate polyketide synthase] aspergillus terreus//*//* 0.806 * +EC2.3.1.239 (e)-(2s,4r,8r,9r)-s-2-acetamidoethyl 9-hydroxy-2,4,8-trimethyl-5-oxoundec-6-enethioate streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.05 * +EC2.3.1.240 (e)-(2s,4r,8r,9r)-s-2-acetamidoethyl 9-hydroxy-2,4,8-trimethyl-5-oxoundec-6-enethioate streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.055 * +EC2.3.1.241 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-hydroxytetradecanoyl]amino]-3-o-[(3r)-3-hydroxytetradecanoyl]-4-o-phosphono-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 131.0 * +EC2.3.1.246 malonyl-coa amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.0135 * +EC2.3.1.247 (5s)-5-amino-3-oxohexanoate candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 2.69 * +EC2.3.1.247 acetyl-coa candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 2.69 * +EC2.3.1.248 coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 39.6 * +EC2.3.1.248 n1,n8-bis(sinapoyl)-spermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 37.8 * +EC2.3.1.248 putrescine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.3 * +EC2.3.1.248 sinapoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.1 * +EC2.3.1.248 spermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.6 * +EC2.3.1.249 4-coumaroyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.4 * +EC2.3.1.249 spermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.1 * +EC2.3.1.253 malonyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.4 * +EC2.3.1.254 migpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.3.1.254 mlalisrrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.3.1.254 mldpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.3.1.254 mlgpeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.3.1.254 mlgteeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.093 * +EC2.3.1.254 mlgtgparwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.3.1.255 saseagvrwgrpvgrrrrp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 3.0 * +EC2.3.1.258 migperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.3.1.258 mlalirrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.3.1.258 mldperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.3.1.258 mlgperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.3.1.258 mlgterrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.3.1.258 mlgtgrrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.3.1.262 anthraniloyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.3 * +EC2.3.1.263 2-amino-4-oxopentanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 3.4 * +EC2.3.1.263 coa acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 3.5 * +EC2.3.1.28 chloramphenicol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 209.0 * +EC2.3.1.30 acetyl-coa entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 117.9 * +EC2.3.1.30 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.068 * +EC2.3.1.30 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 200.0 * +EC2.3.1.30 acetyl-coa thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.54 * +EC2.3.1.30 l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 43.83 * +EC2.3.1.30 l-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 1.58 * +EC2.3.1.30 l-serine thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.48 * +EC2.3.1.31 3-amino-1-propanol haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 5.0 * +EC2.3.1.31 4-hydroxybutyric acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 50.0 * +EC2.3.1.31 4-nitrophenyl acetate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 7.8 * +EC2.3.1.31 acetyl-coa bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.98 * +EC2.3.1.31 acetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 92.0 * +EC2.3.1.31 acetyl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 9.34 * +EC2.3.1.31 acetyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 23.0 * +EC2.3.1.31 beta-hydroxybutyryl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.12 * +EC2.3.1.31 butyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 27.0 * +EC2.3.1.31 butyryl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 47.2 * +EC2.3.1.31 coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.9 * +EC2.3.1.31 crotonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 15.0 * +EC2.3.1.31 d-homoserine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 78.0 * +EC2.3.1.31 d-homoserine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 16.0 * +EC2.3.1.31 glutaryl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.25 * +EC2.3.1.31 isobutyryl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.19 * +EC2.3.1.31 l-homoserine cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 122.0 * +EC2.3.1.31 l-homoserine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 92.0 * +EC2.3.1.31 l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 9.6 * +EC2.3.1.31 l-homoserine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 1.47 * +EC2.3.1.31 l-homoserine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 23.0 * +EC2.3.1.31 malonyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.12 * +EC2.3.1.31 o-acetyl-l-homoserine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 31.0 * +EC2.3.1.31 o-acetylhomoserine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.9 * +EC2.3.1.31 propionyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 30.0 * +EC2.3.1.31 propionyl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 16.1 * +EC2.3.1.31 propionyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.6 * +EC2.3.1.31 succinyl-coa bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.803 * +EC2.3.1.31 succinyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.19 * +EC2.3.1.32 acetyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 4.3 * +EC2.3.1.32 acs (amp forming) salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 8.0 * +EC2.3.1.32 histone peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.1 * +EC2.3.1.32 histone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC2.3.1.37 2-hydroxybutanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.067 * +EC2.3.1.37 butanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.105 * +EC2.3.1.37 glutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.117 * +EC2.3.1.37 glycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.3.1.37 glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.92 * +EC2.3.1.37 octanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.34 * +EC2.3.1.37 succinyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.658 * +EC2.3.1.38 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC2.3.1.38 acetyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.0508 * +EC2.3.1.39 malonyl coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1580.0 * +EC2.3.1.39 malonyl coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.3.1.39 malonyl coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 450.0 * +EC2.3.1.39 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00047 * +EC2.3.1.39 malonyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 100.0 * +EC2.3.1.39 n-acetylcysteamine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00683 * +EC2.3.1.4 d-glucosamine 6-phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 38.0 * +EC2.3.1.4 d-glucosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.1 * +EC2.3.1.4 glucosamine 6-phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 38.0 * +EC2.3.1.41 butanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.2 * +EC2.3.1.41 butyryl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.32 * +EC2.3.1.41 c10-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.07 * +EC2.3.1.41 c12-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.69 * +EC2.3.1.41 c14-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.28 * +EC2.3.1.41 c4-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.32 * +EC2.3.1.41 c6-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.96 * +EC2.3.1.41 c8-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.63 * +EC2.3.1.41 decanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 551.0 * +EC2.3.1.41 decanoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.07 * +EC2.3.1.41 dodecanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 303.0 * +EC2.3.1.41 dodecanoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.69 * +EC2.3.1.41 eicosanoyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.075 * +EC2.3.1.41 hexanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 353.0 * +EC2.3.1.41 hexanoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.96 * +EC2.3.1.41 lauroyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.057 * +EC2.3.1.41 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC2.3.1.41 malonyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC2.3.1.41 malonyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.3.1.41 malonyl-acp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.47 * +EC2.3.1.41 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.3.1.41 malonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.35 * +EC2.3.1.41 malonyl-phosphopantetheine-14-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.3.1.41 malonyl-phosphopantetheine-14-mer mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.38 * +EC2.3.1.41 malonyl-phosphopantetheine-16-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.3.1.41 malonyl-phosphopantetheine-16-mer mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.3 * +EC2.3.1.41 malonyl-phosphopantetheine-8-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC2.3.1.41 malonyl-phosphopantetheine-8-mer mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.35 * +EC2.3.1.41 myristoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC2.3.1.41 octanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 66.0 * +EC2.3.1.41 octanoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.63 * +EC2.3.1.41 palmitoyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0883 * +EC2.3.1.41 palmitoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC2.3.1.41 tetradecanoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.28 * +EC2.3.1.46 coenzyme a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.23 * +EC2.3.1.46 d-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC2.3.1.46 glutaryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC2.3.1.46 l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 36.72 * +EC2.3.1.46 o-succinyl-l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.23 * +EC2.3.1.46 succinyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 36.72 * +EC2.3.1.47 d-alanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0036 * +EC2.3.1.47 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC2.3.1.47 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.3.1.47 l-alanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.007 * +EC2.3.1.47 pimeloyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC2.3.1.47 pimeloyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.3.1.47 pimeloyl-coa lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.5 * +EC2.3.1.47 pimeloyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC2.3.1.48 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.14 * +EC2.3.1.48 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC2.3.1.48 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.0 * +EC2.3.1.48 acetyl-coa tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.0267 * +EC2.3.1.48 histone h3 tail peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC2.3.1.48 histone h3-peptide p19 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.131 * +EC2.3.1.48 histone h3-peptide p20 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0583 * +EC2.3.1.48 histone h3-peptide p27 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC2.3.1.48 histone h3-peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0667 * +EC2.3.1.48 histone h3-peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0283 * +EC2.3.1.48 histone h3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.62 * +EC2.3.1.48 histone h3 tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.0267 * +EC2.3.1.48 histone h4 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.28 * +EC2.3.1.48 histone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.0 * +EC2.3.1.5 2,3-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 256.0 * +EC2.3.1.5 2,4-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 661.0 * +EC2.3.1.5 2,5-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 313.0 * +EC2.3.1.5 2-amino-4-chlorophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 21.0 * +EC2.3.1.5 2-amino-4-chlorophenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.27 * +EC2.3.1.5 2-amino-4-methylphenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 70.0 * +EC2.3.1.5 2-amino-4-methylphenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.3 * +EC2.3.1.5 2-aminofluorene bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 67.4 * +EC2.3.1.5 2-aminofluorene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 759.0 * +EC2.3.1.5 2-aminofluorene mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 199.0 * +EC2.3.1.5 2-aminophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 51.0 * +EC2.3.1.5 2-aminophenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.41 * +EC2.3.1.5 2-ethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.0 * +EC2.3.1.5 2-methylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 111.0 * +EC2.3.1.5 2-toluidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 72.0 * +EC2.3.1.5 2-toluidine mesocricetus auratus//*//* 4.8 * +EC2.3.1.5 3,4-dichloroaniline mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 8.0 * +EC2.3.1.5 3,4-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 800.0 * +EC2.3.1.5 3,5-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1220.0 * +EC2.3.1.5 3-amino-4-hydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.29 * +EC2.3.1.5 3-amino-4-hydroxybenzenesulfonic acid streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.1 * +EC2.3.1.5 3-amino-4-hydroxybenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 94.0 * +EC2.3.1.5 3-amino-4-hydroxybenzoic acid streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.3 * +EC2.3.1.5 3-ethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1960.0 * +EC2.3.1.5 4-amino-3-hydroxybenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 66.0 * +EC2.3.1.5 4-amino-3-methylbenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.6 * +EC2.3.1.5 4-amino-3-methylbenzoic acid mesocricetus auratus//*//* 14.2 * +EC2.3.1.5 4-aminobenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 127.0 * +EC2.3.1.5 4-aminobenzoic acid mesocricetus auratus//*//* 620.0 * +EC2.3.1.5 4-aminobenzoyl glutamic acid mesocricetus auratus//*//* 120.0 * +EC2.3.1.5 4-aminobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 256.0 * +EC2.3.1.5 4-aminosalicylate mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 1.0 * +EC2.3.1.5 4-aminosalicylic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 56.6 * +EC2.3.1.5 4-anisidine mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 5.2 * +EC2.3.1.5 4-anisidine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.03 * +EC2.3.1.5 4-anisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.6 * +EC2.3.1.5 4-bromoaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0086 * +EC2.3.1.5 4-butoxyaniline mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 112.0 * +EC2.3.1.5 4-butoxyaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.039 * +EC2.3.1.5 4-chloroaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0069 * +EC2.3.1.5 4-chloroaniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC2.3.1.5 4-ethoxyaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.036 * +EC2.3.1.5 4-ethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 700.0 * +EC2.3.1.5 4-ethylaniline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 25.0 * +EC2.3.1.5 4-fluoroaniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC2.3.1.5 4-hydroxybenzhydrazide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 10.9 * +EC2.3.1.5 4-iodoaniline mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 71.0 * +EC2.3.1.5 4-iodoaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0098 * +EC2.3.1.5 4-methylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1600.0 * +EC2.3.1.5 4-methylaniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.8 * +EC2.3.1.5 4-nitroaniline mesocricetus auratus//*//* 0.6 * +EC2.3.1.5 4-nitrophenyl acetate mesocricetus auratus//*//* 1301.0 * +EC2.3.1.5 5-aminosalicylate mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 47.0 * +EC2.3.1.5 5-aminosalicylate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.044 * +EC2.3.1.5 5-aminosalicylic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 5.2 * +EC2.3.1.5 5-aminosalicylic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.8 * +EC2.3.1.5 5-aminosalicylic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 434.0 * +EC2.3.1.5 acetyl-coa bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 19.3 * +EC2.3.1.5 aniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 711.0 * +EC2.3.1.5 aniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.28 * +EC2.3.1.5 anisidine mesocricetus auratus//*//* 260.0 * +EC2.3.1.5 anisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.9 * +EC2.3.1.5 benzoic acid hydrazide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.9 * +EC2.3.1.5 hydralazine mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 168.0 * +EC2.3.1.5 hydralazine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.063 * +EC2.3.1.5 hydralazine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 44.0 * +EC2.3.1.5 isoniazid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 289.3 * +EC2.3.1.5 isoniazid mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 9.0 * +EC2.3.1.5 isoniazid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 1.7 * +EC2.3.1.5 isoniazid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.9 * +EC2.3.1.5 nicotinic acid hydrazide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.6 * +EC2.3.1.5 p-aminobenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 298.0 * +EC2.3.1.5 p-aminobenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.7 * +EC2.3.1.5 p-aminosalicylic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 591.0 * +EC2.3.1.5 sulfamethazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 387.0 * +EC2.3.1.50 l-serine sphingomonas paucimobilis//*//* 1.54 * +EC2.3.1.50 palmitoyl-coa bacteriovorax stolpii//prokaryotes;bacteria;deltaproteobacteria;bacteriovorax//bsto 0.03 * +EC2.3.1.50 palmitoyl-coa sphingobacterium multivorum//*//* 0.12 * +EC2.3.1.50 palmitoyl-coa sphingobacterium spiritivorum//*//* 0.15 * +EC2.3.1.50 palmitoyl-coa sphingomonas paucimobilis//*//* 1.15 * +EC2.3.1.50 palmitoyl-coa sphingomonas wittichii//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//swi 0.0687 * +EC2.3.1.50 stearoyl-coa sphingomonas wittichii//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//swi 0.083 * +EC2.3.1.54 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.33 * +EC2.3.1.54 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.8 * +EC2.3.1.57 acetyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.365 * +EC2.3.1.57 acetyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.858 * +EC2.3.1.57 aminopropylcadaverine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC2.3.1.57 d-glucosamine 6-phosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.358 * +EC2.3.1.57 n1-acetylspermine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC2.3.1.57 poly-l-lysine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.953 * +EC2.3.1.57 spermidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.087 * +EC2.3.1.57 spermidine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 8.7 * +EC2.3.1.57 spermidine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.922 * +EC2.3.1.57 spermine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.32 * +EC2.3.1.57 spermine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 5.0 * +EC2.3.1.57 spermine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 9.0 * +EC2.3.1.57 spermine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.86 * +EC2.3.1.60 n3'-acetylgentamicin c1a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.57 * +EC2.3.1.7 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.5 * +EC2.3.1.7 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 97.6 * +EC2.3.1.7 carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 86.9 * +EC2.3.1.7 choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.58 * +EC2.3.1.7 hexanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 30.4 * +EC2.3.1.71 benzoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.2 * +EC2.3.1.71 glycine ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.57 * +EC2.3.1.71 glycine methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.3.1.71 glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC2.3.1.74 4-coumaroyl-coa hypericum androsaemum//*//* 0.042 * +EC2.3.1.74 4-coumaroyl-coa scutellaria baicalensis//*//* 0.021 * +EC2.3.1.74 benzoyl-coa hypericum androsaemum//*//* 0.0113 * +EC2.3.1.74 decanoyl-coa scutellaria baicalensis//*//* 0.044 * +EC2.3.1.74 hexanoyl-coa scutellaria baicalensis//*//* 0.147 * +EC2.3.1.74 octanoyl-coa scutellaria baicalensis//*//* 0.066 * +EC2.3.1.75 hexadecanol marinobacter hydrocarbonoclasticus//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 4794.0 * +EC2.3.1.8 acetyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 415.0 * +EC2.3.1.8 acetyl phosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 5190.0 * +EC2.3.1.8 acetyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1927.0 * +EC2.3.1.8 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 120.0 * +EC2.3.1.8 acetyl-coa methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 4500.0 * +EC2.3.1.8 acetyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 83.1 * +EC2.3.1.8 coa methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 5190.0 * +EC2.3.1.8 coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 574.5 * +EC2.3.1.8 desulfo-coa methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 4.53 * +EC2.3.1.8 phosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1500.0 * +EC2.3.1.81 acetyl-coa corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.24 * +EC2.3.1.81 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 39.0 * +EC2.3.1.81 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 39.4 * +EC2.3.1.81 amikacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.3.1.81 apramycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 61.0 * +EC2.3.1.81 butirosin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC2.3.1.81 butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.3.1.81 dibekacin corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.17 * +EC2.3.1.81 gentamicin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.182 * +EC2.3.1.81 gentamycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC2.3.1.81 kanamycin a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.0 * +EC2.3.1.81 kanamycin a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 51.4 * +EC2.3.1.81 kanamycin b corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.23 * +EC2.3.1.81 kanamycin b pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 55.0 * +EC2.3.1.81 lividomycin a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 33.8 * +EC2.3.1.81 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC2.3.1.81 malonyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.7 * +EC2.3.1.81 n-propionyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.2 * +EC2.3.1.81 neomycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.188 * +EC2.3.1.81 neomycin b pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 9.5 * +EC2.3.1.81 neomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC2.3.1.81 neomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.0 * +EC2.3.1.81 netilmicin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.0 * +EC2.3.1.81 paramomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 34.0 * +EC2.3.1.81 paromomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC2.3.1.81 paromomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 33.6 * +EC2.3.1.81 propionyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC2.3.1.81 ribostamycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 146.0 * +EC2.3.1.81 ribostamycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 24.0 * +EC2.3.1.81 sisomicin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.173 * +EC2.3.1.81 sisomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 51.0 * +EC2.3.1.81 sisomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 46.3 * +EC2.3.1.81 tobramycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 162.0 * +EC2.3.1.81 tobramycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 48.0 * +EC2.3.1.82 acetyl-coa enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.61 * +EC2.3.1.82 acetyl-coa enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 1.2 * +EC2.3.1.82 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.23 * +EC2.3.1.82 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC2.3.1.82 acetyl-coa serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 12.1 * +EC2.3.1.82 amikacin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.29 * +EC2.3.1.82 amikacin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.5 * +EC2.3.1.82 amikacin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 7.09 * +EC2.3.1.82 amikacin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.11 * +EC2.3.1.82 arbekacin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.57 * +EC2.3.1.82 butirosin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.466 * +EC2.3.1.82 ciprofloxacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.03 * +EC2.3.1.82 dibekacin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.632 * +EC2.3.1.82 dibekacin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.3.1.82 dibekacin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.25 * +EC2.3.1.82 fortimicin a enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.28 * +EC2.3.1.82 gentamicin b enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.388 * +EC2.3.1.82 gentamicin c enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.01 * +EC2.3.1.82 gentamicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.0 * +EC2.3.1.82 gentamicin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.33 * +EC2.3.1.82 isepamicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.4 * +EC2.3.1.82 isepamicin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.05 * +EC2.3.1.82 kanamycin a enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.68 * +EC2.3.1.82 kanamycin a enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 1.7 * +EC2.3.1.82 kanamycin a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.4 * +EC2.3.1.82 kanamycin a serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.8 * +EC2.3.1.82 kanamycin b enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.08 * +EC2.3.1.82 kanamycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.25 * +EC2.3.1.82 kanamycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.81 * +EC2.3.1.82 kanamycin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.04 * +EC2.3.1.82 neamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.42 * +EC2.3.1.82 neamine enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.43 * +EC2.3.1.82 neomycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.08 * +EC2.3.1.82 neomycin c enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.205 * +EC2.3.1.82 neomycin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.3 * +EC2.3.1.82 neomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.0 * +EC2.3.1.82 neomycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 11.1 * +EC2.3.1.82 neomycin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.32 * +EC2.3.1.82 netilmicin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.512 * +EC2.3.1.82 netilmicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.3.1.82 netilmicin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.21 * +EC2.3.1.82 netilmicin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.3 * +EC2.3.1.82 norfloxacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.08 * +EC2.3.1.82 paromomycin enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.059 * +EC2.3.1.82 poly-l-lys enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0019 * +EC2.3.1.82 propionyl-coa enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.317 * +EC2.3.1.82 ribostamycin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.34 * +EC2.3.1.82 ribostamycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 5.7 * +EC2.3.1.82 sisomicin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.37 * +EC2.3.1.82 sisomicin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 5.35 * +EC2.3.1.82 sisomicin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.16 * +EC2.3.1.82 tobramycin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.11 * +EC2.3.1.82 tobramycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.84 * +EC2.3.1.82 tobramycin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.08 * +EC2.3.1.84 (-)-beta-citronellol cymbopogon martinii//*//* 0.199 * +EC2.3.1.84 2-phenylethanol fragaria x ananassa//*//* 49.6 * +EC2.3.1.84 2-phenylethanol petunia x hybrida//*//* 0.91 * +EC2.3.1.84 acetyl-coa fragaria x ananassa//*//* 3890.0 * +EC2.3.1.84 acetyl-coa petunia x hybrida//*//* 2.32 * +EC2.3.1.84 acetyl-coa rosa hybrid cultivar//*//* 0.54 * +EC2.3.1.84 benzyl alcohol fragaria x ananassa//*//* 23.5 * +EC2.3.1.84 benzyl alcohol petunia x hybrida//*//* 0.82 * +EC2.3.1.84 benzyl alcohol rosa hybrid cultivar//*//* 0.119 * +EC2.3.1.84 butanol fragaria x ananassa//*//* 21.5 * +EC2.3.1.84 cinnamyl alcohol fragaria x ananassa//*//* 1480.0 * +EC2.3.1.84 cis-hex-3-en-1-ol cymbopogon martinii//*//* 0.06 * +EC2.3.1.84 coniferyl alcohol petunia x hybrida//*//* 2.05 * +EC2.3.1.84 ethanol fragaria x ananassa//*//* 7.5 * +EC2.3.1.84 eugenol fragaria x ananassa//*//* 548.5 * +EC2.3.1.84 geraniol cymbopogon martinii//*//* 0.287 * +EC2.3.1.84 geraniol fragaria x ananassa//*//* 70.5 * +EC2.3.1.84 geraniol rosa hybrid cultivar//*//* 0.43 * +EC2.3.1.84 heptanol cymbopogon martinii//*//* 0.201 * +EC2.3.1.84 heptanol fragaria x ananassa//*//* 170.0 * +EC2.3.1.84 hexanol fragaria x ananassa//*//* 483.0 * +EC2.3.1.84 methanol fragaria x ananassa//*//* 18.5 * +EC2.3.1.84 nonanol cymbopogon martinii//*//* 0.272 * +EC2.3.1.84 octanol cymbopogon martinii//*//* 0.213 * +EC2.3.1.84 octanol fragaria x ananassa//*//* 466.0 * +EC2.3.1.84 pentanol fragaria x ananassa//*//* 407.0 * +EC2.3.1.84 phenyl ethanol rosa hybrid cultivar//*//* 0.72 * +EC2.3.1.84 propanol fragaria x ananassa//*//* 17.5 * +EC2.3.1.85 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC2.3.1.85 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0317 * +EC2.3.1.85 malonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC2.3.1.85 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.3.1.85 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.3.1.85 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 73.0 * +EC2.3.1.87 3-(trifluoromethyl)phenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 40.0 * +EC2.3.1.87 3-methyoxyphenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 26.0 * +EC2.3.1.87 5-benzyloxytryptamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 5.7 * +EC2.3.1.87 5-methoxytryptamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 13.1 * +EC2.3.1.87 acetyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 32.0 * +EC2.3.1.87 arachidonoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.043 * +EC2.3.1.87 beta-methylphenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 29.0 * +EC2.3.1.87 butanoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.66 * +EC2.3.1.87 dopamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.3 * +EC2.3.1.87 dopamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 21.0 * +EC2.3.1.87 hexanoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.093 * +EC2.3.1.87 histamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 30.0 * +EC2.3.1.87 methoxytryptamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.69 * +EC2.3.1.87 norepinephrine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.76 * +EC2.3.1.87 octopamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.26 * +EC2.3.1.87 octopamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 16.0 * +EC2.3.1.87 oleoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.075 * +EC2.3.1.87 palmitoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.16 * +EC2.3.1.87 phenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 42.0 * +EC2.3.1.87 serotonin aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.545 * +EC2.3.1.87 serotonin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 17.0 * +EC2.3.1.87 serotonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.9 * +EC2.3.1.87 stearoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.059 * +EC2.3.1.87 tryptamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.345 * +EC2.3.1.87 tryptamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 16.0 * +EC2.3.1.87 tyramine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 6.775 * +EC2.3.1.87 tyramine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 238.0 * +EC2.3.1.9 3-ketobutyryldithio-coa zoogloea ramigera//*//* 14.0 * +EC2.3.1.9 acetoacetyl-10-bis-demethylpantetheine 11-pivaloate zoogloea ramigera//*//* 266.0 * +EC2.3.1.9 acetoacetyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 80.0 * +EC2.3.1.9 acetoacetyl-coa bacopa monnieri//*//* 3833.0 * +EC2.3.1.9 acetoacetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 5000000.0 * +EC2.3.1.9 acetoacetyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 1000.0 * +EC2.3.1.9 acetoacetyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 40.1 * +EC2.3.1.9 acetoacetyl-coa zoogloea ramigera//*//* 620.0 * +EC2.3.1.9 acetoacetyl-s-(11-methoxymethyl)pantetheine zoogloea ramigera//*//* 353.0 * +EC2.3.1.9 acetoacetyl-s-(11-t-butyldimethylsilyl)pantetheine zoogloea ramigera//*//* 434.0 * +EC2.3.1.9 acetoacetyl-s-(d-pantetheine) 11-pivalate zoogloea ramigera//*//* 469.0 * +EC2.3.1.9 acetoacetyl-s-(l-pantetheine) 11-pivalate zoogloea ramigera//*//* 256.0 * +EC2.3.1.9 acetoacetyl-s-homopantetheine 12-pivalate zoogloea ramigera//*//* 177.0 * +EC2.3.1.9 acetoacetyl-s-pantetheine zoogloea ramigera//*//* 174.0 * +EC2.3.1.9 acetyl-coa zoogloea ramigera//*//* 2.1 * +EC2.3.1.9 coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 29.5 * +EC2.3.1.9 thiolytic cleavage gallus gallus//eukaryotes;animals;vertebrates;birds//gga 900.0 * +EC2.3.1.95 4-coumaroyl-coa arachis hypogaea//*//* 0.02 * +EC2.3.1.95 4-coumaroyl-coa pinus massoniana//*//* 0.0023 * +EC2.3.1.95 4-coumaroyl-coa pinus strobus//*//* 0.0005 * +EC2.3.1.95 4-coumaroyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.003 * +EC2.3.1.95 4-fluorocinnamoyl-coa arachis hypogaea//*//* 0.0113 * +EC2.3.1.95 trans-3-(3-thienyl)acryloyl-coa arachis hypogaea//*//* 0.0108 * +EC2.3.1.95 trans-3-furanacryloyl-coa arachis hypogaea//*//* 0.00533 * +EC2.3.1.97 cap5.5 peptide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.11 * +EC2.3.1.97 gcggskvk trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 18.2 * +EC2.3.1.97 gqlftsln leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 24.0 * +EC2.3.1.97 hiv1 gag protein n-terminal peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.265 * +EC2.3.1.97 hiv1 nef protein n-terminal peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC2.3.1.97 myristoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.234 * +EC2.3.1.97 myristoyl-coa leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 23.6 * +EC2.3.1.97 myristoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.8 * +EC2.3.1.97 myristoyl-coa trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 76.8 * +EC2.3.1.97 myristoyl-coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.34 * +EC2.3.1.B2 (r)-3-hydroxybutanoyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 196.0 * +EC2.3.1.B2 (r)-3-hydroxybutyryl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 44.0 * +EC2.3.1.B2 3-hydroxypropionyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 10.0 * +EC2.3.1.B27 [dna-binding protein alba1]-l-lysine16 sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0385 * +EC2.3.1.B27 vligkkpvmny sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0385 * +EC2.3.1.B28 alpha-d-galactosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 69.7 * +EC2.3.1.B32 methylmalonyl-coa saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.033 * +EC2.3.1.B34 [acsa]-l-lys saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.019 * +EC2.3.1.B34 acetyl-coa saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.049 * +EC2.3.1.B37 l-2-chlorophenylglycine chryseobacterium sp.//prokaryotes;bacteria;bacteroidetes;chryseobacterium//chz 7.31 * +EC2.3.1.B37 l-2-phenylglycine methyl ester chryseobacterium sp.//prokaryotes;bacteria;bacteroidetes;chryseobacterium//chz 19.2 * +EC2.3.1.B37 l-2-phenylglycine chryseobacterium sp.//prokaryotes;bacteria;bacteroidetes;chryseobacterium//chz 13.6 * +EC2.3.1.B38 octanoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.8 * +EC2.3.1.B4 (r)-3-hydroxybutyryl-coa allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 65.33 * +EC2.3.1.B4 (r)-3-hydroxybutyryl-coa ectothiorhodospira shaposhnikovii//*//* 320.0 * +EC2.3.1.B4 (r)-3-hydroxypentanoyl-coa allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 2.0 * +EC2.3.1.B4 (r)-3-hydroxyvaleryl-coa ectothiorhodospira shaposhnikovii//*//* 122.0 * +EC2.3.1.B4 4-hydroxybutyryl-coa ectothiorhodospira shaposhnikovii//*//* 297.0 * +EC2.3.2.10 l-alanyl-trna weissella viridescens//*//* 26.7 * +EC2.3.2.10 l-alanyl-trnaala weissella viridescens//*//* 11.0 * +EC2.3.2.12 acphe-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0333 * +EC2.3.2.12 acphe-trna oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.333 * +EC2.3.2.12 acphe-trna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0508 * +EC2.3.2.12 cytidine-puromycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC2.3.2.12 formylmethionyl-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.138 * +EC2.3.2.12 puromycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC2.3.2.13 alpha-carbobenzoxy-lysine streptomyces mobaraensis//*//* 0.00035 * +EC2.3.2.13 beta-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.1 * +EC2.3.2.13 butylamine streptomyces mobaraensis//*//* 0.00055 * +EC2.3.2.13 cbz-gln-ala pagrus major//*//* 51.0 * +EC2.3.2.13 cbz-gln-gly-gly pagrus major//*//* 102.0 * +EC2.3.2.13 cbz-gln-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC2.3.2.13 cbz-gln-gly pagrus major//*//* 96.0 * +EC2.3.2.13 cbz-gln-leu pagrus major//*//* 127.0 * +EC2.3.2.13 cbz-gln-phe pagrus major//*//* 54.0 * +EC2.3.2.13 cbz-gln-ser pagrus major//*//* 66.0 * +EC2.3.2.13 cbz-gln-val pagrus major//*//* 71.0 * +EC2.3.2.13 ethylamine streptomyces mobaraensis//*//* 0.00055 * +EC2.3.2.13 involucrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00233 * +EC2.3.2.13 lgpqskvig homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 78.0 * +EC2.3.2.13 lgpqslvig homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.0 * +EC2.3.2.13 loricrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC2.3.2.13 methylamine cavia porcellus//*//* 0.467 * +EC2.3.2.13 methylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.86 * +EC2.3.2.13 methylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.32 * +EC2.3.2.13 n-cbz-gln-gly streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 31.5 * +EC2.3.2.13 n-dimethylated casein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.532 * +EC2.3.2.13 nalpha-benzyloxycarbonyl-l-gln-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.3.2.13 nalpha-benzyloxycarbonyl-l-glutaminylglycine streptomyces mobaraensis//*//* 35.48 * +EC2.3.2.13 nqenvspltllklgn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 147.0 * +EC2.3.2.13 nqenvspltllrlgn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 77.3 * +EC2.3.2.13 nqeqvspltllklgn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 175.0 * +EC2.3.2.13 propylamine streptomyces mobaraensis//*//* 0.0004 * +EC2.3.2.13 small proline-rich protein 3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00433 * +EC2.3.2.2 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1150.0 * +EC2.3.2.2 4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1250.0 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 109.5 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 43.33 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.62 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide raphanus sativus//*//* 39.0 * +EC2.3.2.2 gamma-glu-cys raphanus sativus//*//* 31.0 * +EC2.3.2.2 gs-bimane raphanus sativus//*//* 40.0 * +EC2.3.2.2 gsh raphanus sativus//*//* 32.0 * +EC2.3.2.2 gssg raphanus sativus//*//* 32.0 * +EC2.3.2.23 [ubiquitin carrier protein ubc4]-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.072 * +EC2.3.2.23 [ubiquitin-carrier-protein ubc2b]-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.3.2.24 [cytochrome c]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00617 * +EC2.3.2.24 [histone h2a]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0013 * +EC2.3.2.24 [histone h2b]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0033 * +EC2.3.2.24 [histone h3]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.003 * +EC2.3.2.4 5-l-glutamyl-(+)-3-aminobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.054 * +EC2.3.2.4 5-l-glutamyl-(+)-3-aminoisobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.071 * +EC2.3.2.4 5-l-glutamyl-anilide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.036 * +EC2.3.2.4 5-l-glutamyl-benzylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC2.3.2.4 5-l-glutamyl-beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.3.2.4 5-l-glutamyl-beta-phenethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.17 * +EC2.3.2.4 5-l-glutamyl-cyclopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.076 * +EC2.3.2.4 5-l-glutamyl-ethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.038 * +EC2.3.2.4 5-l-glutamyl-glycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.3.2.4 5-l-glutamyl-methylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC2.3.2.4 5-l-glutamyl-n-butylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC2.3.2.4 5-l-glutamyl-n-propylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.23 * +EC2.3.2.4 5-l-glutamyl-neohexylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.3.2.4 5-l-glutamyl-neopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC2.3.2.4 gamma-glutamyl-l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.3 * +EC2.3.2.4 glutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.64 * +EC2.3.2.4 glutathione ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 52.8 * +EC2.3.2.4 l-2-amino-3-(3-n-butylureido)-propionic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC2.3.2.4 nepsilon-(5-l-glutamyl)-d-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC2.3.2.4 nepsilon-(5-l-glutamyl)-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.3.2.4 o-(n-butylcarbamyl)-l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 12.0 * +EC2.3.2.4 s-(cyclohexylamine)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.26 * +EC2.3.2.4 s-(n-butylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.27 * +EC2.3.2.4 s-(n-propylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.24 * +EC2.3.2.5 2-amino-5-(butan-2-ylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC2.3.2.5 2-amino-5-(cyclohexylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC2.3.2.5 2-amino-5-(cyclopropylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.045 * +EC2.3.2.5 2-amino-5-[(2-methylbutyl)amino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC2.3.2.5 2-amino-5-[(2s)-butan-2-ylamino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC2.3.2.5 2-amino-5-[[(2s)-2-methylbutyl]amino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC2.3.2.5 2-amino-5-oxo-5-(propan-2-ylamino)pentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.068 * +EC2.3.2.5 2-amino-5-oxo-5-[(2-phenylethyl)amino]pentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.17 * +EC2.3.2.5 [gln1]-fertilization promoting peptide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 37.7 * +EC2.3.2.5 [gln1]-fertilization promoting peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 69.6 * +EC2.3.2.5 [gln1]-gastrin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 31.6 * +EC2.3.2.5 [gln1]-gastrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.1 * +EC2.3.2.5 [gln1]-gonadotropin releasing-hormone carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 72.4 * +EC2.3.2.5 [gln1]-gonadotropin releasing-hormone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 69.2 * +EC2.3.2.5 [gln1]-neurotensin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 37.7 * +EC2.3.2.5 [gln1]-neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.8 * +EC2.3.2.5 [gln1]-thyrotropin releasing-hormone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 82.8 * +EC2.3.2.5 efrh-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC2.3.2.5 efrhhdsgye-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00042 * +EC2.3.2.5 gln 7-amido-4-methylcoumarin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 39.4 * +EC2.3.2.5 gln(3)-amyloid-beta peptide 3-11 amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.0 * +EC2.3.2.5 gln(3)-amyloid-beta peptide 3-21 amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.0 * +EC2.3.2.5 gln(3)-amyloid-beta peptide 3-40 amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC2.3.2.5 gln-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC2.3.2.5 gln-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC2.3.2.5 gln-ala-ala-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 74.6 * +EC2.3.2.5 gln-ala-ala-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.5 * +EC2.3.2.5 gln-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 83.2 * +EC2.3.2.5 gln-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 76.3 * +EC2.3.2.5 gln-ala-ala-ser-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 78.5 * +EC2.3.2.5 gln-ala-ala-ser-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.3 * +EC2.3.2.5 gln-ala carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 69.8 * +EC2.3.2.5 gln-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.2 * +EC2.3.2.5 gln-arg-gly-ile-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 49.2 * +EC2.3.2.5 gln-arg-gly-ile-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.5 * +EC2.3.2.5 gln-arg-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 48.9 * +EC2.3.2.5 gln-arg-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.6 * +EC2.3.2.5 gln-asn-gly-ile-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 51.4 * +EC2.3.2.5 gln-asn-gly-ile-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.6 * +EC2.3.2.5 gln-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.6 * +EC2.3.2.5 gln-beta-naphthylamine carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 51.4 * +EC2.3.2.5 gln-gln-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.755 * +EC2.3.2.5 gln-gln-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC2.3.2.5 gln-gln-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 52.9 * +EC2.3.2.5 gln-gln-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 41.4 * +EC2.3.2.5 gln-gln carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 43.2 * +EC2.3.2.5 gln-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.7 * +EC2.3.2.5 gln-gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.66 * +EC2.3.2.5 gln-glu-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 53.7 * +EC2.3.2.5 gln-glu-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC2.3.2.5 gln-glu-ala-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 48.5 * +EC2.3.2.5 gln-glu-ala-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC2.3.2.5 gln-glu-asp-leu-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 58.5 * +EC2.3.2.5 gln-glu-asp-leu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.8 * +EC2.3.2.5 gln-glu-tyr-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 44.7 * +EC2.3.2.5 gln-glu-tyr-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.1 * +EC2.3.2.5 gln-glu-tyr-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 53.6 * +EC2.3.2.5 gln-glu-tyr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.1 * +EC2.3.2.5 gln-glu-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 54.6 * +EC2.3.2.5 gln-glu-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC2.3.2.5 gln-glu carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 50.3 * +EC2.3.2.5 gln-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.7 * +EC2.3.2.5 gln-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.79 * +EC2.3.2.5 gln-gly-pro carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 41.7 * +EC2.3.2.5 gln-gly-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.3 * +EC2.3.2.5 gln-gly-pro mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.4 * +EC2.3.2.5 gln-gly carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 45.8 * +EC2.3.2.5 gln-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.2 * +EC2.3.2.5 gln-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.57 * +EC2.3.2.5 gln-his-pro-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.0 * +EC2.3.2.5 gln-his-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 75.9 * +EC2.3.2.5 gln-his-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.4 * +EC2.3.2.5 gln-lys-arg-leu-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 58.1 * +EC2.3.2.5 gln-lys-arg-leu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.4 * +EC2.3.2.5 gln-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 45.2 * +EC2.3.2.5 gln-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.7 * +EC2.3.2.5 gln-phe-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 132.0 * +EC2.3.2.5 gln-phe-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 109.0 * +EC2.3.2.5 gln-phe-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC2.3.2.5 gln-phe-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 24.1 * +EC2.3.2.5 gln-pro-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 18.8 * +EC2.3.2.5 gln-pro-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.7 * +EC2.3.2.5 gln-ser-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 64.9 * +EC2.3.2.5 gln-ser-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 52.8 * +EC2.3.2.5 gln-tert-butyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 49.4 * +EC2.3.2.5 gln-tert-butyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.9 * +EC2.3.2.5 gln-trp-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 151.8 * +EC2.3.2.5 gln-trp-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC2.3.2.5 gln-tyr-ala-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 220.0 * +EC2.3.2.5 gln-tyr-ala carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 104.0 * +EC2.3.2.5 gln-tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 125.0 * +EC2.3.2.5 gln-tyr-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 22.9 * +EC2.3.2.5 gln-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 94.0 * +EC2.3.2.5 gln-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.2 * +EC2.3.2.5 glucagon(3-29) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC2.3.2.5 h-gln-7-amido-4-methylcoumarin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 19.0 * +EC2.3.2.5 h-gln-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC2.3.2.5 h-gln-7-amido-4-methylcoumarin solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 25.0 * +EC2.3.2.5 h-gln-ala-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 30.0 * +EC2.3.2.5 h-gln-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 17.0 * +EC2.3.2.5 h-gln-ala-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 37.7 * +EC2.3.2.5 h-gln-asp-glu-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 13.1 * +EC2.3.2.5 h-gln-asp-glu-leu-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 14.0 * +EC2.3.2.5 h-gln-asp-glu-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 40.0 * +EC2.3.2.5 h-gln-beta-naphthylamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.0 * +EC2.3.2.5 h-gln-beta-naphthylamide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.3 * +EC2.3.2.5 h-gln-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.3.2.5 h-gln-beta-naphthylamide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 45.0 * +EC2.3.2.5 h-gln-gln-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.0 * +EC2.3.2.5 h-gln-gln-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7.4 * +EC2.3.2.5 h-gln-gln-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.72 * +EC2.3.2.5 h-gln-gln-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 24.0 * +EC2.3.2.5 h-gln-glu-ala-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 14.9 * +EC2.3.2.5 h-gln-glu-ala-phe-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 12.7 * +EC2.3.2.5 h-gln-glu-ala-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 64.0 * +EC2.3.2.5 h-gln-glu-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 16.4 * +EC2.3.2.5 h-gln-glu-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 38.0 * +EC2.3.2.5 h-gln-glu-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.65 * +EC2.3.2.5 h-gln-glu-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 30.0 * +EC2.3.2.5 h-gln-glu-tyr-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 49.0 * +EC2.3.2.5 h-gln-glu-tyr-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.2 * +EC2.3.2.5 h-gln-glu-tyr-phe-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 6.9 * +EC2.3.2.5 h-gln-glu-tyr-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 50.0 * +EC2.3.2.5 h-gln-gly-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 22.0 * +EC2.3.2.5 h-gln-gly-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 9.0 * +EC2.3.2.5 h-gln-gly-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.66 * +EC2.3.2.5 h-gln-gly-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.0 * +EC2.3.2.5 h-gln-gly-pro-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.7 * +EC2.3.2.5 h-gln-gly-pro-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 16.0 * +EC2.3.2.5 h-gln-gly-pro-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.02 * +EC2.3.2.5 h-gln-gly-pro-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 32.0 * +EC2.3.2.5 h-gln-lys-arg-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 20.6 * +EC2.3.2.5 h-gln-lys-arg-leu-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7.0 * +EC2.3.2.5 h-gln-lys-arg-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 62.0 * +EC2.3.2.5 h-gln-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 25.0 * +EC2.3.2.5 h-gln-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 37.0 * +EC2.3.2.5 h-gln-phe-ala-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 55.0 * +EC2.3.2.5 h-gln-phe-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 57.0 * +EC2.3.2.5 h-gln-phe-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 22.0 * +EC2.3.2.5 h-gln-ser-tyr-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 44.0 * +EC2.3.2.5 h-gln-tyr-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 17.04 * +EC2.3.2.5 h-gln-val-ala-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.9 * +EC2.3.2.5 h-gln-val-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 5.3 * +EC2.3.2.5 h-gln-val-ala-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 27.0 * +EC2.3.2.5 l-gamma-glutamyl-(+)-3-aminobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.054 * +EC2.3.2.5 l-gamma-glutamyl-(+)-3-aminoisobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC2.3.2.5 l-gamma-glutamyl-beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.3.2.5 l-gamma-glutamyl-ethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.038 * +EC2.3.2.5 l-gamma-glutamyl-methylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC2.3.2.5 l-gamma-glutamyl-n-butylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC2.3.2.5 l-gamma-glutamyl-n-propylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.23 * +EC2.3.2.5 l-gamma-glutamyl-tert-butylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC2.3.2.5 l-gamma-glutamylaniline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.036 * +EC2.3.2.5 l-gamma-glutamylbenzylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC2.3.2.5 l-gamma-glutamylcyclopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.076 * +EC2.3.2.5 l-gamma-glutamylglycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.3.2.5 l-gamma-glutamylneohexylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.3.2.5 l-gamma-glutamylneopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC2.3.2.5 l-gln-2-naphthylamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.0 * +EC2.3.2.5 l-gln-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 22.0 * +EC2.3.2.5 l-gln-2-naphthylamide myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 18.9 * +EC2.3.2.5 l-gln-2-naphthylamide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 45.0 * +EC2.3.2.5 l-gln-2-naphthylamide xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 1.4 * +EC2.3.2.5 l-gln-2-naphthylamide zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 2.7 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 19.0 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.0 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 7.1 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 25.0 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.45 * +EC2.3.2.5 l-gln-amide myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 35.7 * +EC2.3.2.5 l-gln-amide zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 61.5 * +EC2.3.2.5 l-gln-gly-l-pro arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.7 * +EC2.3.2.5 l-gln-gly-l-pro mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 21.6 * +EC2.3.2.5 l-gln-gly-l-pro solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 32.0 * +EC2.3.2.5 l-gln-gly arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 22.0 * +EC2.3.2.5 l-gln-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.4 * +EC2.3.2.5 l-gln-gly solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.0 * +EC2.3.2.5 l-gln-gly zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 32.0 * +EC2.3.2.5 l-gln-l-ala arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 30.0 * +EC2.3.2.5 l-gln-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 42.0 * +EC2.3.2.5 l-gln-l-ala solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 37.7 * +EC2.3.2.5 l-gln-l-arg-gly-l-ile-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.0 * +EC2.3.2.5 l-gln-l-asn-gly-l-ile-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 68.0 * +EC2.3.2.5 l-gln-l-asp-l-glu-l-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 13.1 * +EC2.3.2.5 l-gln-l-asp-l-glu-l-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 40.0 * +EC2.3.2.5 l-gln-l-gln arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.0 * +EC2.3.2.5 l-gln-l-gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 32.0 * +EC2.3.2.5 l-gln-l-gln myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 31.7 * +EC2.3.2.5 l-gln-l-gln solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 24.0 * +EC2.3.2.5 l-gln-l-gln zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.27 * +EC2.3.2.5 l-gln-l-glu-l-ala-l-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 14.9 * +EC2.3.2.5 l-gln-l-glu-l-ala-l-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 64.0 * +EC2.3.2.5 l-gln-l-glu-l-tyr-l-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 49.0 * +EC2.3.2.5 l-gln-l-glu-l-tyr-l-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.2 * +EC2.3.2.5 l-gln-l-glu-l-tyr-l-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 50.0 * +EC2.3.2.5 l-gln-l-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 16.4 * +EC2.3.2.5 l-gln-l-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 29.0 * +EC2.3.2.5 l-gln-l-glu myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 12.8 * +EC2.3.2.5 l-gln-l-glu solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 30.0 * +EC2.3.2.5 l-gln-l-glu zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.021 * +EC2.3.2.5 l-gln-l-lys-l-arg-l-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 20.6 * +EC2.3.2.5 l-gln-l-lys-l-arg-l-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 62.0 * +EC2.3.2.5 l-gln-l-phe-l-ala-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 55.0 * +EC2.3.2.5 l-gln-l-phe-l-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 57.0 * +EC2.3.2.5 l-gln-l-ser-l-tyr-l-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 44.0 * +EC2.3.2.5 l-gln-l-thr-gly-l-ile-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 23.0 * +EC2.3.2.5 l-gln-l-trp-l-ala-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 41.0 * +EC2.3.2.5 l-gln-l-val-l-ala-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.9 * +EC2.3.2.5 l-gln-l-val-l-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 27.0 * +EC2.3.2.5 l-gln-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 25.0 * +EC2.3.2.5 l-gln-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 37.0 * +EC2.3.2.5 l-gln-tert-butyl ester arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 21.0 * +EC2.3.2.5 l-gln-tert-butyl ester myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 64.9 * +EC2.3.2.5 l-gln-tert-butyl ester solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 31.3 * +EC2.3.2.5 l-gln-tert-butyl ester zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 128.0 * +EC2.3.2.5 l-glutamine tert-butyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 33.0 * +EC2.3.2.5 l-glutaminyl 2-naphthylamide ixodes scapularis//eukaryotes;animals;arthropods;mites and ticks//isc 8.8 * +EC2.3.2.5 l-glutaminyl 4-methylcoumarin-7-amide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7.0 * +EC2.3.2.5 l-glutaminyl-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.8 * +EC2.3.2.5 l-glutaminyl-4-methylcoumarinylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC2.3.2.5 l-glutaminyl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC2.3.2.5 l-glutaminyl-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.98 * +EC2.3.2.5 l-glutaminyl-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.3.2.5 l-glutaminyl-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 17.48 * +EC2.3.2.5 n1-naphthalen-2-yl-l-glutamamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 47.2 * +EC2.3.2.5 n1-naphthalen-2-yl-l-glutamamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC2.3.2.5 nepsilon-(l-gamma-glutamyl)-d-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC2.3.2.5 nepsilon-(l-gamma-glutamyl)-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.3.2.5 o-(n-butylcarbamyl)-l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 12.0 * +EC2.3.2.5 qaae myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 40.0 * +EC2.3.2.5 qaae zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.054 * +EC2.3.2.5 qaaf myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 183.0 * +EC2.3.2.5 qaaf zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 8e-05 * +EC2.3.2.5 qaar myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 170.0 * +EC2.3.2.5 qaea myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 40.0 * +EC2.3.2.5 qaea zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0042 * +EC2.3.2.5 qafa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 102.0 * +EC2.3.2.5 qafa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0064 * +EC2.3.2.5 qara myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 129.0 * +EC2.3.2.5 qara zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0032 * +EC2.3.2.5 qeaa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 17.9 * +EC2.3.2.5 qeaa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.007 * +EC2.3.2.5 qedl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC2.3.2.5 qedl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.4 * +EC2.3.2.5 qeyf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC2.3.2.5 qeyf mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.78 * +EC2.3.2.5 qfaa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 60.0 * +EC2.3.2.5 qfaa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.084 * +EC2.3.2.5 qfrh-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 42.0 * +EC2.3.2.5 qfrh-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC2.3.2.5 qfrh-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 40.0 * +EC2.3.2.5 qfrh-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 56.0 * +EC2.3.2.5 qggg myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.1 * +EC2.3.2.5 qggg zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.012 * +EC2.3.2.5 qraa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 66.0 * +EC2.3.2.5 qraa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0074 * +EC2.3.2.5 s-(cyclohexylamine)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.26 * +EC2.3.2.5 s-(n-butylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.27 * +EC2.3.2.5 s-(n-propylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.24 * +EC2.3.2.6 kac-acrydonylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC2.3.2.6 kpc-acrydonylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC2.3.2.6 kqc-acrydonylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.3.2.6 l-leucyl-trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.3.2.6 l-phenylalanyl-trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00052 * +EC2.3.2.6 repglctwqslr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00367 * +EC2.3.2.6 rgpcrafi escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.3.2.8 l-arginyl-trna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0667 * +EC2.3.2.B1 ditrans,ocatacis-undecaprenyl diphosphoryl murnac-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.017 * +EC2.3.2.B1 ditrans,ocatacis-undecaprenyl diphosphoryl murnac-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanyl-l-alanyl-gamma-d-glutamyl-l-lysine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0157 * +EC2.3.2.B1 l-alanyl-trna streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.021 * +EC2.3.2.B1 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl(n6-l-alanyl)-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0031 * +EC2.3.2.B1 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.033 * +EC2.3.2.B2 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl(n6-l-alanyl)-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.07 * +EC2.3.2.B2 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl(n6-l-seryl)-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.02 * +EC2.3.3.1 oxaloacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 167.0 * +EC2.3.3.10 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0417 * +EC2.3.3.10 acetyl-coa brassica juncea//*//* 0.415 * +EC2.3.3.10 acetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0667 * +EC2.3.3.10 acetyl-coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 4.6 * +EC2.3.3.13 2-oxo-3-methylbutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.4 * +EC2.3.3.13 2-oxo-3-methylbutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.5 * +EC2.3.3.13 2-oxo-3-methylbutanoate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 13.0 * +EC2.3.3.13 2-oxo-butanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 10.7 * +EC2.3.3.13 2-oxo-n-pentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.0 * +EC2.3.3.13 2-oxoisovalerate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.08 * +EC2.3.3.13 3-fluoropyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 105.0 * +EC2.3.3.13 3-methyl-2-oxobutanoate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 450.0 * +EC2.3.3.13 3-methyl-2-oxobutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.7 * +EC2.3.3.13 3-methyl-2-oxobutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.79 * +EC2.3.3.13 3-methyl-2-oxopentanoate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.28 * +EC2.3.3.13 4-methylthio-2-oxobutyrate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.12 * +EC2.3.3.13 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.2 * +EC2.3.3.13 acetyl-coa methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 450.0 * +EC2.3.3.13 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.6 * +EC2.3.3.13 acetyl-coa neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 13.0 * +EC2.3.3.13 alpha-ketobutyrate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.36 * +EC2.3.3.13 alpha-ketoisovalerate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.53 * +EC2.3.3.13 alpha-ketoisovalerate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.035 * +EC2.3.3.13 alpha-ketoisovaleric acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.17 * +EC2.3.3.13 crotonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.05 * +EC2.3.3.13 propionyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC2.3.3.13 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.1 * +EC2.3.3.13 pyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.5 * +EC2.3.3.14 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.617 * +EC2.3.3.14 2-oxoglutarate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 5.133 * +EC2.3.3.14 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.182 * +EC2.3.3.14 acetyl-coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.68 * +EC2.3.3.14 acetyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.2 * +EC2.3.3.14 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.617 * +EC2.3.3.14 acetyl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 4.983 * +EC2.3.3.14 acetyl-coa thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.53 * +EC2.3.3.14 oxaloacetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.967 * +EC2.3.3.16 acetyl-coa acinetobacter calcoaceticus subsp. anitratus//*//* 78.0 * +EC2.3.3.16 acetyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 18.0 * +EC2.3.3.16 acetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 174.0 * +EC2.3.3.16 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 81.0 * +EC2.3.3.16 acetyl-coa geobacter sulfurreducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gsu 8.8 * +EC2.3.3.16 acetyl-coa rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 22.0 * +EC2.3.3.16 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.2 * +EC2.3.3.16 acetyl-coa streptomyces diastaticus//*//* 262.8 * +EC2.3.3.16 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 167.0 * +EC2.3.3.16 acetyl-coa thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 9.8 * +EC2.3.3.16 citrate acinetobacter calcoaceticus subsp. anitratus//*//* 942.0 * +EC2.3.3.16 citrate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2100.0 * +EC2.3.3.16 citrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 117.0 * +EC2.3.3.16 citrate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 11.4 * +EC2.3.3.16 oxaloacetate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 170.0 * +EC2.3.3.16 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 81.0 * +EC2.3.3.16 oxaloacetate geobacter sulfurreducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gsu 8.8 * +EC2.3.3.16 oxaloacetate streptomyces diastaticus//*//* 230.7 * +EC2.3.3.16 oxaloacetate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 9.2 * +EC2.3.3.16 propionyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 8.0 * +EC2.3.3.16 propionyl-coa rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 12.0 * +EC2.3.3.17 2-oxoisovalerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC2.3.3.17 4-methylthio-2-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.3 * +EC2.3.3.17 5-methylthio-2-oxopentanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.3 * +EC2.3.3.17 6-methylthio-2-oxohexanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.5 * +EC2.3.3.17 8-methylthio-2-oxooctanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.3 * +EC2.3.3.17 9-methylthio-2-oxononanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.3.3.17 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.0 * +EC2.3.3.17 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC2.3.3.5 acetyl-coa fusarium solani//*//* 15.5 * +EC2.3.3.5 acetyl-coa fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 29.9 * +EC2.3.3.5 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.87 * +EC2.3.3.5 oxaloacetate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 23.0 * +EC2.3.3.5 propanoyl-coa aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 23.0 * +EC2.3.3.5 propanoyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 8.25 * +EC2.3.3.5 propionyl-coa fusarium solani//*//* 15.9 * +EC2.3.3.5 propionyl-coa fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 12.5 * +EC2.3.3.9 acetyl-coa bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 27.8 * +EC2.3.3.9 acetyl-coa colwellia maris//*//* 161.0 * +EC2.3.3.9 acetyl-coa geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 26.7 * +EC2.3.3.9 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 23.0 * +EC2.3.3.9 glyoxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 48.1 * +EC2.3.3.9 glyoxylate euglena gracilis//*//* 17.0 * +EC2.3.3.9 glyoxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 23.0 * +EC2.4.1.1 alpha-d-glucose 1-phosphate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 52.0 * +EC2.4.1.1 alpha-d-glucose 1-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.2 * +EC2.4.1.1 alpha-d-xylose 1-phosphate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 0.0026 * +EC2.4.1.1 arsenate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 4.9 * +EC2.4.1.1 d-glucose-1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.001 * +EC2.4.1.1 dextrin dp11 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 187.0 * +EC2.4.1.1 dextrin dp14 ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 9.3 * +EC2.4.1.1 dextrin dp19 ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 8.1 * +EC2.4.1.1 dextrin dp4 ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 11.0 * +EC2.4.1.1 dextrin dp9 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 47.3 * +EC2.4.1.1 glucose 1-phosphate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 131.0 * +EC2.4.1.1 glycogen dp14 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 283.0 * +EC2.4.1.1 maltoheptaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 4.4 * +EC2.4.1.1 maltoheptaose corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 312.0 * +EC2.4.1.1 maltohexaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 4.1 * +EC2.4.1.1 maltohexaose corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 38.9 * +EC2.4.1.1 maltopentaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 5.4 * +EC2.4.1.1 maltopentaose corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 33.8 * +EC2.4.1.1 maltose sulfolobus tokodaii str. 7//*//* 15.2 * +EC2.4.1.1 maltotetraose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 6.0 * +EC2.4.1.1 maltotetraose sulfolobus tokodaii str. 7//*//* 34.6 * +EC2.4.1.1 maltotriose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 6.8 * +EC2.4.1.1 maltotriose sulfolobus tokodaii str. 7//*//* 24.8 * +EC2.4.1.1 phosphate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 50.5 * +EC2.4.1.1 phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 8.2 * +EC2.4.1.1 phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.1 * +EC2.4.1.1 starch dp24 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 300.0 * +EC2.4.1.1 starch corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 74.0 * +EC2.4.1.1 starch ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 6.3 * +EC2.4.1.1 starch sulfolobus tokodaii str. 7//*//* 19.4 * +EC2.4.1.10 sucrose bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 2272.0 * +EC2.4.1.10 sucrose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 164.6 * +EC2.4.1.10 sucrose gluconacetobacter diazotrophicus//prokaryotes;bacteria;alphaproteobacteria;gluconacetobacter//gdi 1.0 * +EC2.4.1.10 sucrose pseudomonas chlororaphis subsp. aurantiaca//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pcp 7.2 * +EC2.4.1.10 sucrose pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 504.4 * +EC2.4.1.10 sucrose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 461.0 * +EC2.4.1.115 cyanidin vitis labrusca//*//* 0.000704 * +EC2.4.1.115 kaempferol glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.25 * +EC2.4.1.115 quercetin vitis labrusca//*//* 0.000113 * +EC2.4.1.115 udp-glucose vitis labrusca//*//* 0.000247 * +EC2.4.1.121 (indol-3-yl)acetate pisum sativum//*//* 2.27 * +EC2.4.1.121 (indol-3-yl)propionate pisum sativum//*//* 0.72 * +EC2.4.1.121 1-naphthalene acetate pisum sativum//*//* 0.53 * +EC2.4.1.121 udp-glucose pisum sativum//*//* 0.49 * +EC2.4.1.128 scopoletin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.92 * +EC2.4.1.129 [glcnac-(1-4)-mur2ac(oyl-l-ala-gamma-d-glu-(l)-meso-diaminopimelic acid-(l)-d-ala-d-ala)]n-diphosphoundecaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC2.4.1.129 [glcnac-(1-4)-mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)]n-diphosphoundecaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.14 * +EC2.4.1.129 undecaprenyl-diphosphoryl-murnac-(l-ala-gamma-d-glu-meso-(diaminopimelic acid)-d-ala-d-ala)-glcnac staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.013 * +EC2.4.1.13 sucrose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 39.5 * +EC2.4.1.13 sucrose thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 6.0 * +EC2.4.1.133 2-(6-hydroxynaphthyl) beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 152.0 * +EC2.4.1.133 3-acetamido-propyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.2 * +EC2.4.1.133 3-benzamido-propyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 47.2 * +EC2.4.1.133 3-hexanamido-propyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 41.0 * +EC2.4.1.133 4-methylumbelliferyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4080.0 * +EC2.4.1.133 4-nitrophenyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5460.0 * +EC2.4.1.133 n-[o-(beta-d-xylopyranosyl)-3-hydroxypropyl]phthalamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 78.7 * +EC2.4.1.133 n-[o-(beta-d-xylopyranosyl)-3-hydroxypropyl]succinamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 64.3 * +EC2.4.1.133 o-gamma-beta-d-xylopyranosyl-n-cbz-l-serine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 106.3 * +EC2.4.1.133 udp-alpha-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.51 * +EC2.4.1.133 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5086.0 * +EC2.4.1.133 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 72.0 * +EC2.4.1.133 udp-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC2.4.1.15 glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.7 * +EC2.4.1.15 udpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.3 * +EC2.4.1.170 daidzein glycine max//eukaryotes;plants;eudicots;pea family//gmx 5.89 * +EC2.4.1.170 daidzein pueraria montana var. lobata//*//* 1.1 * +EC2.4.1.170 genistein glycine max//eukaryotes;plants;eudicots;pea family//gmx 6.04 * +EC2.4.1.170 genistein pueraria montana var. lobata//*//* 1.1 * +EC2.4.1.170 udp-glucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 8.79 * +EC2.4.1.173 24-methylene cholesterol withania somnifera//*//* 0.38 * +EC2.4.1.173 3-beta-hydroxy-pregna-5,16-dien-20-one withania somnifera//*//* 0.0093 * +EC2.4.1.173 beta-sitosterol withania somnifera//*//* 0.0037 * +EC2.4.1.173 cholesterol kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 475.0 * +EC2.4.1.173 cholesterol ogataea angusta//*//* 650.6 * +EC2.4.1.173 dehydroepiandrosterone withania somnifera//*//* 0.0072 * +EC2.4.1.173 diosgenin withania somnifera//*//* 0.0023 * +EC2.4.1.173 pregnenolone withania somnifera//*//* 0.0047 * +EC2.4.1.173 stigmasterol withania somnifera//*//* 0.0088 * +EC2.4.1.173 testosterone ogataea angusta//*//* 351.9 * +EC2.4.1.173 udp-glucose withania somnifera//*//* 0.0087 * +EC2.4.1.18 amylose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.15 * +EC2.4.1.18 amylose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1000.0 * +EC2.4.1.185 naringenin lycium barbarum//*//* 0.89 * +EC2.4.1.186 udp-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0183 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-(hydroxy[[hydroxy(tridecyloxy)phosphoryl]oxy]phosphoryl)-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 9.183 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[[[[[(2z)-3,7-dimethylocta-2,6-dien-1-yl]oxy](hydroxy)phosphoryl]oxy](hydroxy)phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.08 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[hydroxy[(hydroxy[[(2e,6e,10e)-3,7,11,15-tetramethylhexadeca-2,6,10,14-tetraen-1-yl]oxy]phosphoryl)oxy]phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.25 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[hydroxy[(hydroxy[[(2z,6z)-3,7,11-trimethyldodeca-2,6,10-trien-1-yl]oxy]phosphoryl)oxy]phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.92 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[hydroxy[(hydroxy[[(2z,6z,10z)-3,7,11,15-tetramethylhexadeca-2,6,10,14-tetraen-1-yl]oxy]phosphoryl)oxy]phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.617 * +EC2.4.1.19 3-ketobutylidene-beta-2-chloro-4-nitrophenylmaltopentaoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.07 * +EC2.4.1.19 4,6-o-ethylidene-4-nitrophenyl alpha-d-maltoheptaoside thermoanaerobacterium thermosulfurigenes//*//* 1244.0 * +EC2.4.1.19 alpha-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0442 * +EC2.4.1.19 beta-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0095 * +EC2.4.1.19 cassava starch bacillus circulans//*//* 1612.0 * +EC2.4.1.19 l-ascorbic acid paenibacillus macerans//*//* 9.7e-05 * +EC2.4.1.19 maltodextrin bacillus circulans//*//* 403.0 * +EC2.4.1.19 maltodextrin paenibacillus macerans//*//* 0.0059 * +EC2.4.1.19 maltose thermoanaerobacterium thermosulfurigenes//*//* 1244.0 * +EC2.4.1.19 p-nitrophenyl-(alpha-1,4-glucopyranosyl)2-d-glucose bacillus circulans//*//* 1.66 * +EC2.4.1.19 p-nitrophenyl-(alpha-1,4-glucopyranosyl)3-d-glucose bacillus circulans//*//* 0.833 * +EC2.4.1.19 p-nitrophenyl-(alpha-1,4-glucopyranosyl)4-d-glucose bacillus circulans//*//* 0.833 * +EC2.4.1.19 p-nitrophenyl-(alpha-1,4-glucopyranosyl)5-d-glucose bacillus circulans//*//* 0.833 * +EC2.4.1.19 p-nitrophenyl-(alpha-1,4-glucopyranosyl)6-d-glucose bacillus circulans//*//* 0.833 * +EC2.4.1.19 p-nitrophenyl-(alpha-1,4-glucopyranosyl)7-d-glucose bacillus circulans//*//* 0.25 * +EC2.4.1.19 soluble potato starch bacillus circulans//*//* 803.0 * +EC2.4.1.19 soluble starch bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.32 * +EC2.4.1.19 soluble starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.13 * +EC2.4.1.19 starch bacillus circulans//*//* 329.0 * +EC2.4.1.19 starch bacillus firmus//*//* 2.42 * +EC2.4.1.19 starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.13 * +EC2.4.1.19 starch paenibacillus macerans//*//* 1.66 * +EC2.4.1.19 starch thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.33 * +EC2.4.1.20 1,5-anhydro-d-glucitol ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 2.8 * +EC2.4.1.20 1,5-anhydroglucitol cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 3.5 * +EC2.4.1.20 2-deoxy-2-fluoro-d-glucose cellulomonas uda//*//* 8.0 * +EC2.4.1.20 2-deoxy-d-glucose cellulomonas uda//*//* 11.6 * +EC2.4.1.20 2-deoxy-d-glucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 18.3 * +EC2.4.1.20 2-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 21.5 * +EC2.4.1.20 2-deoxy-d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 16.0 * +EC2.4.1.20 6-deoxy-6-fluoro-d-glucose cellulomonas uda//*//* 44.6 * +EC2.4.1.20 6-deoxy-d-glucose cellulomonas uda//*//* 55.3 * +EC2.4.1.20 6-deoxy-d-glucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 59.5 * +EC2.4.1.20 6-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 124.0 * +EC2.4.1.20 6-deoxy-d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 17.0 * +EC2.4.1.20 alpha-d-glucose 1-phosphate cellulomonas uda//*//* 43.2 * +EC2.4.1.20 alpha-d-glucose 1-phosphate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 92.3 * +EC2.4.1.20 cellobiose cellulomonas uda//*//* 29.1 * +EC2.4.1.20 cellobiose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 1.1 * +EC2.4.1.20 cellobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 3.4 * +EC2.4.1.20 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 79.1 * +EC2.4.1.20 cellobiose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.4 * +EC2.4.1.20 d-gentobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.0 * +EC2.4.1.20 d-glucosamine ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 7.7 * +EC2.4.1.20 d-glucosamine ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 9.56 * +EC2.4.1.20 d-glucosamine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.2 * +EC2.4.1.20 d-glucose cellulomonas uda//*//* 43.2 * +EC2.4.1.20 d-glucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 12.2 * +EC2.4.1.20 d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 92.3 * +EC2.4.1.20 d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 8.0 * +EC2.4.1.20 d-glucoseamine cellulomonas uda//*//* 5.6 * +EC2.4.1.20 d-mannose cellulomonas uda//*//* 6.6 * +EC2.4.1.20 d-mannose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 9.3 * +EC2.4.1.20 d-mannose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 2.83 * +EC2.4.1.20 d-mannose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.4 * +EC2.4.1.20 d-xylose cellulomonas uda//*//* 8.7 * +EC2.4.1.20 d-xylose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 44.3 * +EC2.4.1.20 d-xylose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 16.5 * +EC2.4.1.20 d-xylose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 40.0 * +EC2.4.1.20 gentiobiose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 7.2 * +EC2.4.1.20 isomaltose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 1.9 * +EC2.4.1.20 lactose cellulomonas uda//*//* 0.109 * +EC2.4.1.20 melibiose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 2.3 * +EC2.4.1.20 phosphate cellulomonas uda//*//* 15.4 * +EC2.4.1.203 cis-zeatin phaseolus lunatus//*//* 0.04 * +EC2.4.1.203 m-topolin phaseolus lunatus//*//* 0.08 * +EC2.4.1.203 trans-zeatin phaseolus lunatus//*//* 0.45 * +EC2.4.1.207 [xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)glc populus tremula x populus tremuloides//*//* 0.45 * +EC2.4.1.207 [xylp(alpha1,6)]-glcp(beta1,4)-[galp(beta1,2)-xylp(alpha1,6)]-glcp(beta1,4)-[galp(beta1,2)-xylp(alpha1,6)]-glcp(beta1,4)-glcp hordeum vulgare//*//* 0.17 * +EC2.4.1.207 [xylp(alpha1,6)]-glcp(beta1,4)-[xylp(alpha1,6)]-glcp(beta1,4)-[galp(beta1,2)-xylp(alpha1,6)]-glcp(beta1,4)-glcp hordeum vulgare//*//* 0.12 * +EC2.4.1.207 [xylp(alpha1,6)]-glcp(beta1,4)-[xylp(alpha1,6)]-glcp(beta1,4)-[xylp(alpha1,6)]-glcp(beta1,4)-glcp hordeum vulgare//*//* 0.058 * +EC2.4.1.207 gal(beta1-4)glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)[xyl(alpha1-6)]glc(beta1-4)glc populus tremula x populus tremuloides//*//* 4.8 * +EC2.4.1.207 glc8-based xyloglucan oligosaccharide hordeum vulgare//*//* 0.139 * +EC2.4.1.207 pea xyloglucan arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00031 * +EC2.4.1.207 reduced xyloglucan-derived heptasaccharide hordeum vulgare//*//* 0.0089 * +EC2.4.1.207 tamarind xyloglucan arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00018 * +EC2.4.1.21 adp-glucose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 333.0 * +EC2.4.1.21 amylopectin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 235.0 * +EC2.4.1.21 glycogen phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 412.0 * +EC2.4.1.210 limonin citrus maxima x citrus paradisi//*//* 91.7 * +EC2.4.1.211 alpha-d-galactose 1-phosphate bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 10.7 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-galactosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 103.0 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-galactosamine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 2.2 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-glucosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 14.0 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-glucosamine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 45.0 * +EC2.4.1.211 galacto-n-biose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 65.0 * +EC2.4.1.211 galacto-n-biose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 50.0 * +EC2.4.1.211 lacto-n-biose i bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 27.0 * +EC2.4.1.211 lacto-n-biose i lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 40.0 * +EC2.4.1.211 n-acetyl-d-galactosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 42.0 * +EC2.4.1.211 n-acetyl-d-galactosamine lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 48.0 * +EC2.4.1.211 n-acetyl-d-glucosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 5.9 * +EC2.4.1.211 n-acetyl-d-glucosamine lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 49.0 * +EC2.4.1.212 hyaluronan oligomer ha4 pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 7.9 * +EC2.4.1.212 hyaluronan oligomer ha5 pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 7.9 * +EC2.4.1.212 hyaluronan oligomer ha6 pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 13.5 * +EC2.4.1.212 hyaluronan oligomer ha8 pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 8.8 * +EC2.4.1.212 udp-d-glucuronate streptococcus dysgalactiae subsp. equisimilis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sds 120.0 * +EC2.4.1.215 cis-zeatin oryza sativa japonica group//*//* 0.9 * +EC2.4.1.215 cis-zeatin zea mays//eukaryotes;plants;monocots;grass family//zma 0.01 * +EC2.4.1.215 o-topolin zea mays//eukaryotes;plants;monocots;grass family//zma 0.03 * +EC2.4.1.217 3-phospho-d-glycerate dehalococcoides mccartyi//prokaryotes;bacteria;chloroflexi;dehalococcoides//det 3.9 * +EC2.4.1.217 gdp-mannose dehalococcoides mccartyi//prokaryotes;bacteria;chloroflexi;dehalococcoides//det 3.9 * +EC2.4.1.218 vanillin rauvolfia serpentina//*//* 2.59 * +EC2.4.1.221 gdp-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.4.1.221 tsr4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.4.1.222 udp-beta-d-glcnac mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.08 * +EC2.4.1.227 biotinylated citronellyl-lipid i escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.317 * +EC2.4.1.227 murnac(nepsilon-dansylpentapeptide)-pyrophosphoryl (r,s)-alpha-dihydroheptaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.933 * +EC2.4.1.227 synthetic substrate analogue 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.23 * +EC2.4.1.227 synthetic substrate analogue 7 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC2.4.1.227 udp-glcnac escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.72 * +EC2.4.1.227 udp-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.93 * +EC2.4.1.230 2-alpha-d-glucosyl-d-glucose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 37.7 * +EC2.4.1.230 phosphate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 37.7 * +EC2.4.1.231 2-dehydro-d-glucose pleurotus ostreatus//*//* 4.5 * +EC2.4.1.231 2-deoxy-d-glucose pleurotus ostreatus//*//* 0.27 * +EC2.4.1.231 2-fluoro-d-glucose pleurotus ostreatus//*//* 0.89 * +EC2.4.1.231 alpha,alpha-trehalose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 2.7 * +EC2.4.1.231 alpha,alpha-trehalose pleurotus ostreatus//*//* 18.3 * +EC2.4.1.231 alpha,alpha-trehalose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 16.4 * +EC2.4.1.231 alpha-d-glucose 1-fluoride schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.11 * +EC2.4.1.231 alpha-d-glucose 1-phosphate pleurotus ostreatus//*//* 16.0 * +EC2.4.1.231 alpha-d-glucose 1-phosphate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 14.1 * +EC2.4.1.231 alpha-d-glucose pleurotus ostreatus//*//* 16.8 * +EC2.4.1.231 alpha-d-glucose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 14.1 * +EC2.4.1.231 arsenate pleurotus ostreatus//*//* 1.15 * +EC2.4.1.231 d-glucose pleurotus ostreatus//*//* 16.8 * +EC2.4.1.231 d-mannose pleurotus ostreatus//*//* 0.42 * +EC2.4.1.231 phosphate pleurotus ostreatus//*//* 17.6 * +EC2.4.1.231 phosphate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 16.4 * +EC2.4.1.234 kaempferol 3-o-galactoside petunia x hybrida//*//* 59.9 * +EC2.4.1.234 kaempferol petunia x hybrida//*//* 61.1 * +EC2.4.1.234 quercetin 3-o-galactoside petunia x hybrida//*//* 82.3 * +EC2.4.1.234 quercetin petunia x hybrida//*//* 59.8 * +EC2.4.1.234 udp-galactose petunia x hybrida//*//* 61.2 * +EC2.4.1.234 udp petunia x hybrida//*//* 89.6 * +EC2.4.1.245 adp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.44 * +EC2.4.1.245 adp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.7 * +EC2.4.1.245 alpha,alpha-trehalose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.2 * +EC2.4.1.245 gdp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.54 * +EC2.4.1.245 gdp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.7 * +EC2.4.1.245 udp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.53 * +EC2.4.1.245 udp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.5 * +EC2.4.1.247 2-deoxy-d-glucose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.0 * +EC2.4.1.247 2-deoxy-d-glucose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 3.7 * +EC2.4.1.247 beta-d-galactosyl-(1->4)-l-rhamnose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 60.0 * +EC2.4.1.247 d-galactose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 24.0 * +EC2.4.1.247 d-galactose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 37.0 * +EC2.4.1.247 d-galactosyl-beta-1,4-l-rhamnose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 45.0 * +EC2.4.1.247 d-glucose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 85.0 * +EC2.4.1.247 d-glucose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 33.0 * +EC2.4.1.247 d-xylose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 19.0 * +EC2.4.1.247 l-lyxose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 120.0 * +EC2.4.1.247 l-lyxose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 14.0 * +EC2.4.1.247 l-mannose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 170.0 * +EC2.4.1.247 l-mannose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 75.0 * +EC2.4.1.247 l-rhamnose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 74.0 * +EC2.4.1.247 l-rhamnose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 50.0 * +EC2.4.1.249 delphinidin 3-o-(6''-o-malonyl)-beta-d-glucoside-3'-o-beta-glucoside clitoria ternatea//*//* 5.4 * +EC2.4.1.249 delphinidin 3-o-(6''-o-malonyl)-beta-d-glucoside clitoria ternatea//*//* 4.4 * +EC2.4.1.249 udp-d-glucose clitoria ternatea//*//* 5.1 * +EC2.4.1.25 maltoheptaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 16.0 * +EC2.4.1.25 maltoheptaose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 8.7 * +EC2.4.1.25 maltoheptaose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 213.0 * +EC2.4.1.25 maltohexaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 22.0 * +EC2.4.1.25 maltohexaose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 8.9 * +EC2.4.1.25 maltohexaose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 304.0 * +EC2.4.1.25 maltopentaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 22.0 * +EC2.4.1.25 maltopentaose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 24.8 * +EC2.4.1.25 maltopentaose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 329.0 * +EC2.4.1.25 maltose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.3 * +EC2.4.1.25 maltosyl-beta-cyclodextrin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0113 * +EC2.4.1.25 maltotetraose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 17.0 * +EC2.4.1.25 maltotetraose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 51.2 * +EC2.4.1.25 maltotetraose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 425.0 * +EC2.4.1.25 maltotriose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 18.0 * +EC2.4.1.25 maltotriose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 580.0 * +EC2.4.1.25 maltotriose corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.157 * +EC2.4.1.25 maltotriose manihot esculenta//*//* 894.0 * +EC2.4.1.25 maltotriose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 115.0 * +EC2.4.1.25 maltotriose thermus brockianus//prokaryotes;bacteria;deinococcus-thermus;thermus//tbc 0.015 * +EC2.4.1.25 maltotriose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 317.0 * +EC2.4.1.254 udp-d-glucuronate bellis perennis//*//* 35.0 * +EC2.4.1.255 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.76 * +EC2.4.1.255 udp-glcnac streptococcus pneumoniae tigr4//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.25 * +EC2.4.1.255 udp-n-azidoacetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.4.1.255 ysdspstst homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.48 * +EC2.4.1.266 udp-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.82 * +EC2.4.1.269 d-glycerate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 6.5 * +EC2.4.1.269 d-lactate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.017 * +EC2.4.1.269 gdp-glucose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 1.1 * +EC2.4.1.269 gdp-mannose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 6.1 * +EC2.4.1.269 glycolic acid rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.0052 * +EC2.4.1.27 5-hydroxymethyl cytosine containing phage t4 dna enterobacteria phage t4//*//* 1.283 * +EC2.4.1.27 dna containing 12 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 1.033 * +EC2.4.1.27 dna containing 2 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 2.8 * +EC2.4.1.27 dna containing 24 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 9.66 * +EC2.4.1.27 dna containing 6 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 1.666 * +EC2.4.1.277 10-deoxymethynolide streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 1.0 * +EC2.4.1.277 tdp-3-dimethylamino-4,6-dideoxy-alpha-d-glucopyranose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 1.33 * +EC2.4.1.278 3-alpha-mycarosylerythronolide b saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 1.7 * +EC2.4.1.278 dtdp-3-dimethylamino-4,6-dideoxy-alpha-d-glucopyranose saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 1.7 * +EC2.4.1.279 1,5-anhydro-d-glucitol lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 120.0 * +EC2.4.1.279 3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 31.0 * +EC2.4.1.279 beta-d-glucopyranose 1-phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 58.0 * +EC2.4.1.279 d-galactose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 69.0 * +EC2.4.1.279 d-glucose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 110.0 * +EC2.4.1.279 d-xylose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 118.0 * +EC2.4.1.279 methyl alpha-d-glucopyranoside lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 8.3 * +EC2.4.1.279 phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 67.0 * +EC2.4.1.281 1,5-anhydro-d-glucitol ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 20.7 * +EC2.4.1.281 2-deoxy-2-fluoro-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 5.71 * +EC2.4.1.281 2-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 11.7 * +EC2.4.1.281 3-deoxy-3-fluoro-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.94 * +EC2.4.1.281 3-o-methyl-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.763 * +EC2.4.1.281 4-o-beta-d-mannopyranosyl-d-glucopyranose bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 42.2 * +EC2.4.1.281 4-o-beta-d-mannopyranosyl-d-glucopyranose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 83.3 * +EC2.4.1.281 6-deoxy-6-fluoro-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 42.0 * +EC2.4.1.281 6-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 177.0 * +EC2.4.1.281 alpha-d-mannose 1-phosphate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 52.1 * +EC2.4.1.281 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 20.2 * +EC2.4.1.281 d-allose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.667 * +EC2.4.1.281 d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 126.0 * +EC2.4.1.281 d-mannose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 5.12 * +EC2.4.1.281 gentiobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 26.1 * +EC2.4.1.281 laminaribiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 11.6 * +EC2.4.1.281 maltose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 5.07 * +EC2.4.1.281 methyl alpha-d-glucoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 20.7 * +EC2.4.1.281 methyl beta-d-glucoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 35.2 * +EC2.4.1.281 n,n'-diacetylchitobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 6.34 * +EC2.4.1.281 n-acetyl-d-glucosamine ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 15.8 * +EC2.4.1.281 phosphate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 24.8 * +EC2.4.1.281 sophorose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 13.8 * +EC2.4.1.282 beta-d-glucose 1-phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.5 * +EC2.4.1.282 l-rhamnose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.6 * +EC2.4.1.284 udp-d-glucose streptomyces kanamyceticus//*//* 0.29 * +EC2.4.1.284 udp-n-acetyl-alpha-d-glucosamine streptomyces kanamyceticus//*//* 0.33 * +EC2.4.1.288 beta-d-galf-(1->5)-beta-d-galf-(1->6)-beta-d-galf-o(ch2)7ch3 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.2 * +EC2.4.1.288 dtdp-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.62 * +EC2.4.1.288 udp-3-deoxy-alpha-d-threo-hexofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.02 * +EC2.4.1.288 udp-5-deoxy-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.17 * +EC2.4.1.288 udp-6-deoxy-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.32 * +EC2.4.1.288 udp-alpha-d-arabinofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.25 * +EC2.4.1.288 udp-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.2 * +EC2.4.1.298 malvidin 3-o-beta-d-glucoside vitis amurensis//*//* 0.279 * +EC2.4.1.299 1-o-vanilloyl-beta-d-glucose dianthus caryophyllus//*//* 0.01 * +EC2.4.1.299 cyanidin 3-o-beta-d-glucoside dianthus caryophyllus//*//* 0.07 * +EC2.4.1.300 1-o-vanilloyl-beta-d-glucose delphinium grandiflorum//*//* 0.1 * +EC2.4.1.300 cyanidin 3-o-beta-d-glucoside delphinium grandiflorum//*//* 0.17 * +EC2.4.1.301 udp-alpha-d-glucose streptomyces kanamyceticus//*//* 0.053 * +EC2.4.1.301 udp-alpha-d-kanosamine streptomyces kanamyceticus//*//* 0.056 * +EC2.4.1.302 cyclonovobiocic acid streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 118.0 * +EC2.4.1.302 dtdp-beta-l-noviose streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 226.0 * +EC2.4.1.302 n-(4,7-dihydroxy-8-methyl-2-oxo-2h-chromen-3-yl)-4-hydroxy-3-methylbenzamide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 290.0 * +EC2.4.1.302 novobiocic acid streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 313.0 * +EC2.4.1.302 novobiocic acid streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 219.0 * +EC2.4.1.31 2-deoxy-d-glucose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 1.0 * +EC2.4.1.31 d-glucose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 1.4 * +EC2.4.1.31 laminaribiose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 6.5 * +EC2.4.1.31 laminaribiose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 19.0 * +EC2.4.1.310 udp-alpha-d-glucose amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.55 * +EC2.4.1.310 vancomycin aglycone amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.283 * +EC2.4.1.311 devancoaminyl vancomycin amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.038 * +EC2.4.1.311 dtdp-beta-l-4-epi-vancosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.038 * +EC2.4.1.315 1,2-diacyl-3-o-(alpha-d-glucopyranosyl)-sn-glycerol mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.023 * +EC2.4.1.315 1,2-diacyl-sn-glycerol mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 1.13 * +EC2.4.1.315 udp-alpha-d-galactose mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 1.1 * +EC2.4.1.315 udp-alpha-d-glucose mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.27 * +EC2.4.1.319 4-o-beta-d-mannosyl-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 20.7 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]2 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 45.1 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]3 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 34.6 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]4 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 33.1 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]5 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 31.9 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]6 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 16.0 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 16.0 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 31.9 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 33.1 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 34.6 * +EC2.4.1.319 beta-d-mannopyranosyl-(1->4)-d-mannopyranose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 45.1 * +EC2.4.1.320 4-o-beta-d-mannopyranosyl-n-acetyl-d-glucosamine bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 240.0 * +EC2.4.1.320 4-o-beta-n-acetyl-d-glucosaminyl-n-acetyl-d-glucosamine bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 22.0 * +EC2.4.1.320 alpha-d-mannose 1-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 25.0 * +EC2.4.1.320 n,n'-diacetylchitobiose bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 22.0 * +EC2.4.1.320 n-acetyl-d-glucosamine bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 37.0 * +EC2.4.1.320 phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 240.0 * +EC2.4.1.321 4-o-beta-d-glucopyranosyl-d-gluconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 306.0 * +EC2.4.1.321 alpha-d-glucose 1-phosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 127.0 * +EC2.4.1.321 alpha-d-glucose 1-phosphate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 127.0 * +EC2.4.1.321 d-gluconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 146.0 * +EC2.4.1.321 d-gluconate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 130.0 * +EC2.4.1.321 d-gluconate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 173.0 * +EC2.4.1.321 d-gluconate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 173.0 * +EC2.4.1.321 d-glucuronate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 34.6 * +EC2.4.1.321 d-glucuronate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 43.0 * +EC2.4.1.321 d-glucuronate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 43.0 * +EC2.4.1.321 phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 306.0 * +EC2.4.1.322 desvancosaminyl-vancomycin amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 1.12 * +EC2.4.1.322 dtdp-beta-l-acosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 2.25 * +EC2.4.1.322 dtdp-beta-l-daunosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 2.13 * +EC2.4.1.322 udp-l-epi-vancosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 1.12 * +EC2.4.1.323 7-deoxyloganetate catharanthus roseus//*//* 0.325 * +EC2.4.1.323 udp-alpha-d-glucose catharanthus roseus//*//* 0.13 * +EC2.4.1.324 7-deoxyloganetin catharanthus roseus//*//* 0.0355 * +EC2.4.1.324 7-deoxyloganetin gardenia jasminoides//*//* 0.13 * +EC2.4.1.324 genipin gardenia jasminoides//*//* 1.04 * +EC2.4.1.324 udp-alpha-d-glucose catharanthus roseus//*//* 0.032 * +EC2.4.1.324 udp-alpha-d-glucose gardenia jasminoides//*//* 0.16 * +EC2.4.1.326 aklavinone streptomyces galilaeus//*//* 0.004 * +EC2.4.1.326 dtdp-4-amino-2-deoxyrhamnose streptomyces galilaeus//*//* 0.003 * +EC2.4.1.326 dtdp-beta-l-rhodosamine streptomyces galilaeus//*//* 0.16 * +EC2.4.1.326 dtdp-l-2-deoxyfucose streptomyces galilaeus//*//* 0.004 * +EC2.4.1.326 epsilon-rhodomycinone streptomyces galilaeus//*//* 0.001 * +EC2.4.1.327 idarubicin streptomyces galilaeus//*//* 0.09 * +EC2.4.1.327 rhodosaminyl aklavinone streptomyces galilaeus//*//* 1.09 * +EC2.4.1.329 alpha-d-glucopyranose 1-phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 14.4 * +EC2.4.1.329 beta-d-fructofuranose 6-phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 24.2 * +EC2.4.1.329 beta-d-fructofuranose thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 16.9 * +EC2.4.1.329 phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 59.3 * +EC2.4.1.329 sucrose 6f-phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 82.6 * +EC2.4.1.329 sucrose thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 66.2 * +EC2.4.1.330 beta-d-glucosyl crocetin gardenia jasminoides//*//* 0.036 * +EC2.4.1.330 bis(beta-d-glucosyl) crocetin gardenia jasminoides//*//* 0.071 * +EC2.4.1.332 2-o-alpha-d-glucopyranosyl-sn-glycerol bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 95.0 * +EC2.4.1.332 beta-d-glucose 1-phosphate bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 180.0 * +EC2.4.1.332 sn-glycerol bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 163.0 * +EC2.4.1.333 2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-d-glucopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 31.0 * +EC2.4.1.333 2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-d-glucopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 90.0 * +EC2.4.1.333 2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-d-glucopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 110.0 * +EC2.4.1.333 alpha-d-glucose 1-phosphate listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 43.0 * +EC2.4.1.333 sophorose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 97.0 * +EC2.4.1.334 3-o-alpha-d-glucopyranosyl-3-o-alpha-d-glucopyranosyl-3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 8.5 * +EC2.4.1.334 3-o-alpha-d-glucopyranosyl-3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 17.0 * +EC2.4.1.334 3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 8.7 * +EC2.4.1.334 beta-d-glucopyranose 1-phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 5.1 * +EC2.4.1.334 kojibiose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 3.5 * +EC2.4.1.334 maltose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.7 * +EC2.4.1.339 alpha-d-mannose 1-phosphate listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 33.0 * +EC2.4.1.339 beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-d-mannopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 12.0 * +EC2.4.1.339 beta-d-mannopyranosyl-(1->2)-d-mannopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 35.0 * +EC2.4.1.339 d-fructose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 3.9 * +EC2.4.1.339 d-mannopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 31.0 * +EC2.4.1.34 udpglucose staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.717 * +EC2.4.1.340 [(1->2)-beta-d-mannosyl]2 thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 25.0 * +EC2.4.1.340 [(1->2)-beta-d-mannosyl]3 thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 43.0 * +EC2.4.1.340 [(1->2)-beta-d-mannosyl]4 thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 49.0 * +EC2.4.1.340 alpha-d-mannose 1-phosphate thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 22.0 * +EC2.4.1.340 alpha-d-mannose thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 1.9 * +EC2.4.1.340 d-fructose thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 2.0 * +EC2.4.1.341 beta-d-galactopyranosyl-(1->3)-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC2.4.1.341 gdp-beta-l-colitose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.147 * +EC2.4.1.341 gdp-l-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.4.1.342 adp-alpha-d-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 29.2 * +EC2.4.1.342 alpha-d-glucose-1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 97.9 * +EC2.4.1.37 alpha-l-fucp-(1,2)-beta-d-galp-(1,3)-beta-d-glcnacp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.1.37 alpha-l-fucp-(1,2)-beta-d-galp-(1,4)-beta-d-glcnacp-o(ch2)8co2ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.4.1.37 alpha-l-fucp-(1,2)-beta-d-galp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC2.4.1.37 beta-d-galactosyl-(1->4)-beta-d-glucosyl-(1<->1)-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.3 * +EC2.4.1.37 udp-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC2.4.1.37 udp-gal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.4.1.37 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC2.4.1.37 udp-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC2.4.1.37 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.4.1.37 udp-n-acetylgalactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC2.4.1.38 4-methylumbelliferyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.13 * +EC2.4.1.38 4-methylumbelliferyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.51 * +EC2.4.1.38 4-nitrophenyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.52 * +EC2.4.1.38 chitotriose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.81 * +EC2.4.1.38 glcnacbeta1,2-manalpha1,3-manbeta-or homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.47 * +EC2.4.1.38 glcnacbeta1,2-manalpha1,6 (glcnacbeta1,2-manalpha1,3)man homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.74 * +EC2.4.1.38 glcnacbeta1,2-manalpha1,6-manbeta-or homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.4.1.38 glcnacbeta1,4-manalpha1,3-manbeta-or homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.35 * +EC2.4.1.38 n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC2.4.1.38 n-acetyl-beta-d-glucosaminyl-1,4-n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.82 * +EC2.4.1.38 n-acetylglucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.0 * +EC2.4.1.38 udp-alpha-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.51 * +EC2.4.1.38 udp-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.0 * +EC2.4.1.38 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.14 * +EC2.4.1.38 udp-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC2.4.1.38 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.4.1.38 udp-glucuronic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.4.1.38 udp-n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.4.1.38 udp-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.4 maltobiose neisseria polysaccharea//*//* 3.1 * +EC2.4.1.4 maltopentaose neisseria polysaccharea//*//* 47.0 * +EC2.4.1.4 maltotetraose neisseria polysaccharea//*//* 7.5 * +EC2.4.1.4 maltotriose neisseria polysaccharea//*//* 4.8 * +EC2.4.1.4 sucrose neisseria polysaccharea//*//* 47.0 * +EC2.4.1.40 alpha-l-fucp-(1,2)-beta-d-galp-(1,3)-beta-dglcnacp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.4.1.40 alpha-l-fucp-(1,2)-beta-d-galp-(1,4)-beta-d-glcnacp-o-(ch2)8co2ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC2.4.1.40 alpha-l-fucp-(1,2)-beta-d-galp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC2.4.1.40 udp-gal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000333 * +EC2.4.1.40 udp-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.292 * +EC2.4.1.40 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC2.4.1.41 muc5ac-13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.1.41 muc5ac-3,13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.4.1.41 muc5ac-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC2.4.1.41 muc5ac-9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.127 * +EC2.4.1.41 muc5ac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.193 * +EC2.4.1.41 stpstpstpstpstp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.47 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.47 * +EC2.4.1.49 4-nitrophenyl beta-d-glucoside clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 19.6 * +EC2.4.1.49 alpha-d-galactose 1-phosphate clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 2.5 * +EC2.4.1.49 alpha-d-glucose 1-phosphate clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 27.4 * +EC2.4.1.49 cellobiose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 18.1 * +EC2.4.1.49 cellobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2.67 * +EC2.4.1.49 celloheptaose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.53 * +EC2.4.1.49 cellohexaose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 6.1 * +EC2.4.1.49 cellopentaose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 6.6 * +EC2.4.1.49 cellotetraose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 6.9 * +EC2.4.1.49 cellotetraose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 3.2 * +EC2.4.1.49 cellotriose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 2.7 * +EC2.4.1.49 cellotriose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.0 * +EC2.4.1.49 octyl beta-d-glucoside clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 14.2 * +EC2.4.1.5 dextran leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 3.2 * +EC2.4.1.5 sucrose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 1070.0 * +EC2.4.1.5 sucrose streptococcus oralis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sor 22.4 * +EC2.4.1.5 sucrose weissella confusa//*//* 60.0 * +EC2.4.1.64 alpha,alpha-trehalose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 210.0 * +EC2.4.1.64 alpha-d-arabinose caldanaerobacter subterraneus subsp. pacificus//*//* 51.4 * +EC2.4.1.64 alpha-d-galactose caldanaerobacter subterraneus subsp. pacificus//*//* 54.0 * +EC2.4.1.64 alpha-d-xylose caldanaerobacter subterraneus subsp. pacificus//*//* 64.3 * +EC2.4.1.64 alpha-l-fucose caldanaerobacter subterraneus subsp. pacificus//*//* 68.1 * +EC2.4.1.64 beta-d-galactose 1-phosphate caldanaerobacter subterraneus//*//* 1.2 * +EC2.4.1.64 beta-d-glucose 1-phosphate bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 68.0 * +EC2.4.1.64 beta-d-glucose 1-phosphate caldanaerobacter subterraneus//*//* 114.0 * +EC2.4.1.64 beta-d-glucose 1-phosphate kocuria varians//*//* 660.0 * +EC2.4.1.64 d-galactose caldanaerobacter subterraneus//*//* 113.0 * +EC2.4.1.64 d-glucose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 60.0 * +EC2.4.1.64 d-glucose caldanaerobacter subterraneus subsp. pacificus//*//* 59.0 * +EC2.4.1.64 d-glucose caldanaerobacter subterraneus//*//* 86.0 * +EC2.4.1.64 d-glucose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 33.9 * +EC2.4.1.64 glucose kocuria varians//*//* 660.0 * +EC2.4.1.64 phosphate kocuria varians//*//* 200.0 * +EC2.4.1.64 trehalose kocuria varians//*//* 200.0 * +EC2.4.1.65 fucalpha(1,2)galbeta(1,3)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.02 * +EC2.4.1.65 gal-beta-1,3glcnaco(ch2)3nhco(ch2)5nh-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.4.1.65 galbeta(1,3)glcnac-(ch2)3-nhco-(ch2)5-nh-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.1.65 galbeta-(1-3)-glcnac-o-(ch2)8cooch3 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 26.12 * +EC2.4.1.65 galbeta1,3glcnac-o(ch2)8co2ch3 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.1 * +EC2.4.1.65 gdp-beta-l-fucose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.947 * +EC2.4.1.65 neuacalpha1-3galbeta1-3glcnac-beta-o-(ch2)8cooch3 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 34.33 * +EC2.4.1.68 n4-[n-acetyl-beta-d-glucosaminyl-(1-2)-alpha-d-mannosyl-(1-3)-[n-acetyl-beta-d-glucosaminyl-(1-2)-alpha-d-mannosyl-(1-6)]-beta-d-mannosyl-(1-4)-n-acetyl-beta-d-glucosaminyl-(1-4)-n-acetyl-beta-d-glucosaminyl]asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.4.1.69 d-lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC2.4.1.69 gdp-beta-l-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC2.4.1.69 gdp-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.131 * +EC2.4.1.69 gdp-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.4.1.69 lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0497 * +EC2.4.1.69 lactulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.151 * +EC2.4.1.69 methyl beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0173 * +EC2.4.1.7 alpha-d-glucopyranosyl fluoride leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 121.0 * +EC2.4.1.7 alpha-d-glucose 1-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 261.0 * +EC2.4.1.7 alpha-d-glucose 1-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 62.0 * +EC2.4.1.7 arsenate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 170.0 * +EC2.4.1.7 d-fructose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 72.0 * +EC2.4.1.7 d-fructose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 66.0 * +EC2.4.1.7 phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 200.0 * +EC2.4.1.7 phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 153.0 * +EC2.4.1.7 sucrose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 201.0 * +EC2.4.1.7 sucrose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 170.0 * +EC2.4.1.7 sucrose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 127.0 * +EC2.4.1.7 sucrose uncultured bacterium//*//* 31.19 * +EC2.4.1.8 beta-d-glucose 1-phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 43.5 * +EC2.4.1.8 d-glucose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 49.4 * +EC2.4.1.8 kojibiose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 40.0 * +EC2.4.1.8 maltose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 12.3 * +EC2.4.1.8 maltose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 17.3 * +EC2.4.1.8 phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 12.9 * +EC2.4.1.8 sophorose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 6.6 * +EC2.4.1.83 gdp-mannose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 2.9e-06 * +EC2.4.1.83 gdp-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 70.9 * +EC2.4.1.85 1-hexanol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.06 * +EC2.4.1.85 2-hydroxy-3-methoxybenzyl alcohol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.39 * +EC2.4.1.85 3-methyl-2-buten-1-ol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.91 * +EC2.4.1.85 3-methyl-3-buten-1-ol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.07 * +EC2.4.1.85 beta-citronellol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.09 * +EC2.4.1.85 cis-3-hexen-1-ol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.03 * +EC2.4.1.85 geraniol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.1 * +EC2.4.1.85 mandelonitrile sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 10.6 * +EC2.4.1.85 nerol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.06 * +EC2.4.1.85 udp-glucose sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 8.9 * +EC2.4.1.87 d-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC2.4.1.87 lactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.4 * +EC2.4.1.87 n-acetyllactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.9 * +EC2.4.1.87 p-nitrophenyl-alpha-d-galactoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.059 * +EC2.4.1.87 p-nitrophenyl-beta-d-galactoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC2.4.1.87 udp-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.4 * +EC2.4.1.9 sucrose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 504.0 * +EC2.4.1.9 sucrose leuconostoc citreum//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lci 105.0 * +EC2.4.1.90 udp-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.6 * +EC2.4.1.91 cyanidin vitis labrusca//*//* 0.000702 * +EC2.4.1.91 kaempferol camellia sinensis//*//* 6.75 * +EC2.4.1.91 kaempferol citrus x paradisi//*//* 0.5955 * +EC2.4.1.91 kaempferol glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.25 * +EC2.4.1.91 myricetin camellia sinensis//*//* 3.11 * +EC2.4.1.91 myricetin citrus x paradisi//*//* 0.6252 * +EC2.4.1.91 quercetin camellia sinensis//*//* 3.32 * +EC2.4.1.91 quercetin citrus x paradisi//*//* 1.047 * +EC2.4.1.91 quercetin vitis labrusca//*//* 0.000113 * +EC2.4.1.91 udp-alpha-d-glucose vitis labrusca//*//* 0.000247 * +EC2.4.1.91 udp-glucose camellia sinensis//*//* 3.61 * +EC2.4.1.91 udp-glucose citrus x paradisi//*//* 1.442 * +EC2.4.1.97 laminaritriose ochromonas danica//*//* 400.0 * +EC2.4.1.99 sucrose agave tequilana//*//* 4.3 * +EC2.4.1.99 sucrose aspergillus aculeatus//*//* 16200.0 * +EC2.4.1.B34 amylose v lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 36.22 * +EC2.4.1.B34 maltose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 37.0 * +EC2.4.1.B52 (xyl)3-d-glucitol equisetum fluviatile//*//* 0.0044 * +EC2.4.1.B62 udp-alpha-d-glucose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.59 * +EC2.4.1.B64 alpha-l-glycero-d-manno-heptosyl-(1->3)-alpha-l-glycero-d-manno-heptosyl-(1->5)-[(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)]-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-3-o-[(3r)-3-(tetradecanoyloxy)tetradecanoyl]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.4.1.B64 udp-alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.4.1.B73 2',4',6'-trihydroxydihydrochalcone oryza sativa indica group//*//* 0.75 * +EC2.4.1.B73 2,4,6-trihydroxybenzophenone oryza sativa indica group//*//* 0.11 * +EC2.4.1.B73 2,5,7-trihydroxyflavanone oryza sativa indica group//*//* 0.76 * +EC2.4.1.B73 2-hydroxynaringenin citrus japonica//*//* 7.6 * +EC2.4.1.B73 2-hydroxynaringenin oryza sativa indica group//*//* 3.13 * +EC2.4.1.B73 6-beta-d-glucopyranosyl-2-hydroxynaringenin citrus japonica//*//* 5.7 * +EC2.4.1.B73 nothofagin citrus japonica//*//* 5.3 * +EC2.4.1.B73 phloretin citrus japonica//*//* 12.0 * +EC2.4.1.B73 phoretin oryza sativa indica group//*//* 10.84 * +EC2.4.1.B73 udp-alpha-d-glucose citrus japonica//*//* 0.8 * +EC2.4.2.1 2',3'-dideoxyinosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC2.4.2.1 2'-deoxyguanosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 5.4 * +EC2.4.2.1 2'-deoxyguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 45.0 * +EC2.4.2.1 2'-deoxyguanosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.1 * +EC2.4.2.1 2'-deoxyguanosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 830.0 * +EC2.4.2.1 2'-deoxyinosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 54.0 * +EC2.4.2.1 2'-deoxyinosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 85.0 * +EC2.4.2.1 2'-deoxyinosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.5 * +EC2.4.2.1 2'-deoxyinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.9 * +EC2.4.2.1 2'-deoxyinosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 1.2 * +EC2.4.2.1 2'-deoxyinosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 627.0 * +EC2.4.2.1 2-amino-6-mercapto-7-methylpurine ribonucleoside mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 17.3 * +EC2.4.2.1 2-fluoro-2'-deoxyadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.77 * +EC2.4.2.1 2-fluoroadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.05 * +EC2.4.2.1 5'-methylthioadenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.6 * +EC2.4.2.1 5'-methylthioadenosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.027 * +EC2.4.2.1 5'-methylthioinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.83 * +EC2.4.2.1 7-methylguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 73.1 * +EC2.4.2.1 7-methylinosine cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 27.5 * +EC2.4.2.1 7-methylinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.57 * +EC2.4.2.1 7-methylinosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 18.0 * +EC2.4.2.1 9-beta-d-(2-deoxyribofuranosyl)-6-methylthiopurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.7 * +EC2.4.2.1 9-beta-d-ribofuranosyl-6-methylthiopurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.4.2.1 adenosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 3450.0 * +EC2.4.2.1 adenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC2.4.2.1 adenosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.55 * +EC2.4.2.1 adenosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.7 * +EC2.4.2.1 alpha-d-deoxyribose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 145.0 * +EC2.4.2.1 alpha-d-ribose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 120.0 * +EC2.4.2.1 deoxyinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.89 * +EC2.4.2.1 deoxyinosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.48 * +EC2.4.2.1 guanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 158.0 * +EC2.4.2.1 guanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC2.4.2.1 guanosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 876.0 * +EC2.4.2.1 guanosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 1.0 * +EC2.4.2.1 guanosine bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 12.0 * +EC2.4.2.1 guanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 59.0 * +EC2.4.2.1 guanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC2.4.2.1 guanosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.0 * +EC2.4.2.1 guanosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.6 * +EC2.4.2.1 guanosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 3.8 * +EC2.4.2.1 guanosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 28.05 * +EC2.4.2.1 guanosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 296.0 * +EC2.4.2.1 guanosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 3.6 * +EC2.4.2.1 guanosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.1 * +EC2.4.2.1 hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 127.0 * +EC2.4.2.1 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.0 * +EC2.4.2.1 inosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 838.0 * +EC2.4.2.1 inosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 41.0 * +EC2.4.2.1 inosine bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 28000.0 * +EC2.4.2.1 inosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 12000.0 * +EC2.4.2.1 inosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 119.0 * +EC2.4.2.1 inosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6200.0 * +EC2.4.2.1 inosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.0 * +EC2.4.2.1 inosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 47.3 * +EC2.4.2.1 inosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.4 * +EC2.4.2.1 inosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.7 * +EC2.4.2.1 inosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 3.5 * +EC2.4.2.1 inosine pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 7000.0 * +EC2.4.2.1 inosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 84.19 * +EC2.4.2.1 inosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 173.0 * +EC2.4.2.1 inosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 2.6 * +EC2.4.2.1 inosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.8 * +EC2.4.2.1 methylthioinosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.2.1 methylthioinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.6 * +EC2.4.2.1 methylthioinosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 3.4 * +EC2.4.2.1 p-nitrophenyl beta-d-ribofuranoside trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.0 * +EC2.4.2.1 phosphate cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 27.8 * +EC2.4.2.1 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 104.9 * +EC2.4.2.1 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.0 * +EC2.4.2.1 phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 17.9 * +EC2.4.2.1 phosphate pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 113.6 * +EC2.4.2.1 uridine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.09 * +EC2.4.2.1 xanthosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.0 * +EC2.4.2.10 5-fluoroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.0 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.2 * +EC2.4.2.10 diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.28 * +EC2.4.2.10 diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.3 * +EC2.4.2.10 orotate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.61 * +EC2.4.2.10 orotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 10.8 * +EC2.4.2.10 orotidine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.4.2.10 orotidine 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.28 * +EC2.4.2.10 orotidine 5'-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.6 * +EC2.4.2.10 orotidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.4.2.10 orotidine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.042 * +EC2.4.2.10 phosphonoacetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC2.4.2.10 phosphonoacetic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.023 * +EC2.4.2.12 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0433 * +EC2.4.2.12 nicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00767 * +EC2.4.2.12 nicotinamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 1.8 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.91 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.7 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.2 * +EC2.4.2.18 anthranilate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC2.4.2.18 anthranilate hansenula henricii//*//* 0.34 * +EC2.4.2.18 anthranilate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.9 * +EC2.4.2.18 anthranilate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 4.1 * +EC2.4.2.18 anthranilate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.2 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.14 * +EC2.4.2.19 pyridine-2,3-dicarboxylate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 6.0 * +EC2.4.2.19 quinolinic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC2.4.2.19 quinolinic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.0 * +EC2.4.2.2 4-thiothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 63.0 * +EC2.4.2.2 4-thiouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 49.0 * +EC2.4.2.2 5-fluorodeoxyuridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 11.9 * +EC2.4.2.2 5-fluorouridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 6.1 * +EC2.4.2.2 5-iododeoxyuridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 9.5 * +EC2.4.2.2 5-iodouridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 6.4 * +EC2.4.2.2 5-trifluorothymidine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 8.25 * +EC2.4.2.2 deoxyuridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 24.6 * +EC2.4.2.2 phosphate mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 17.5 * +EC2.4.2.2 thymidine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 21.6 * +EC2.4.2.2 thymidine parageobacillus thermoglucosidans//*//* 83.0 * +EC2.4.2.2 thymidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 679.0 * +EC2.4.2.2 uridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 9.03 * +EC2.4.2.2 uridine parageobacillus thermoglucosidans//*//* 277.0 * +EC2.4.2.2 uridine streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 15.0 * +EC2.4.2.2 uridine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 277.0 * +EC2.4.2.21 5,6-dimethylbenzimidazole sporomusa ovata//*//* 1.6 * +EC2.4.2.21 beta-nicotinate d-ribonucleotide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 38.0 * +EC2.4.2.21 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.62 * +EC2.4.2.21 nmn salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 149.0 * +EC2.4.2.21 phenol sporomusa ovata//*//* 0.4 * +EC2.4.2.22 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 112.0 * +EC2.4.2.22 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 3.9 * +EC2.4.2.22 9-(5-phospho-beta-d-ribosyl)xanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.028 * +EC2.4.2.22 diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0228 * +EC2.4.2.22 guanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.03 * +EC2.4.2.22 guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 112.0 * +EC2.4.2.22 hypoxanthine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.5 * +EC2.4.2.22 hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 54.8 * +EC2.4.2.22 hypoxanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 3.1 * +EC2.4.2.22 xanthine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 11.0 * +EC2.4.2.22 xanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 150.0 * +EC2.4.2.22 xanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 3.5 * +EC2.4.2.26 biotin-nh-qeeegsgggqkk(5-fluorescein)-conh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0363 * +EC2.4.2.28 2'-chloro-2'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 6.4 * +EC2.4.2.28 2'-deoxy-2'-azido-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.4.2.28 2'-deoxy-2-fluoro-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC2.4.2.28 2'-deoxy-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.4.2.28 2'-fluoro-2'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.4 * +EC2.4.2.28 3'-deoxy-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.4.2.28 5'-deoxy-5'-(1,3-thiazol)-2-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC2.4.2.28 5'-deoxy-5'-(2-(pyridin-2-yl)ethyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.14 * +EC2.4.2.28 5'-deoxy-5'-(2-methylbutyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC2.4.2.28 5'-deoxy-5'-(2-methylphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.4.2.28 5'-deoxy-5'-(3-methylphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.4.2.28 5'-deoxy-5'-(4-methoxyphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.4.2.28 5'-deoxy-5'-(4-methylphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.4.2.28 5'-deoxy-5'-(phenylethyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.4.2.28 5'-deoxy-5'-(phenylmethyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.49 * +EC2.4.2.28 5'-deoxy-5'-(quinolin-2-yl)-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.44 * +EC2.4.2.28 5'-deoxy-5'-[4-(trifluoromethyl)phenyl]-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.4.2.28 5'-deoxy-5'-butylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC2.4.2.28 5'-deoxy-5'-cyclohexyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.01 * +EC2.4.2.28 5'-deoxy-5'-cyclopentyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.57 * +EC2.4.2.28 5'-deoxy-5'-ethylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC2.4.2.28 5'-deoxy-5'-hydroxyethylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC2.4.2.28 5'-deoxy-5'-imidazol-2-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.4.2.28 5'-deoxy-5'-isobutylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.4.2.28 5'-deoxy-5'-isopentylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC2.4.2.28 5'-deoxy-5'-methyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC2.4.2.28 5'-deoxy-5'-phenyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.16 * +EC2.4.2.28 5'-deoxy-5'-pyridin-2-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.4.2.28 5'-deoxy-5'-pyridin-4-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC2.4.2.28 5'-deoxy-5'-tert-butylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.46 * +EC2.4.2.28 5'-deoxy-adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC2.4.2.28 5'-methylthioadenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 18.7 * +EC2.4.2.28 5'-methylthioadenosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.4 * +EC2.4.2.28 5'-methylthioadenosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 24.5 * +EC2.4.2.28 5'-methylthioadenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 21.4 * +EC2.4.2.28 adenosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 22.8 * +EC2.4.2.28 adenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 43.6 * +EC2.4.2.28 adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.4 * +EC2.4.2.28 deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 9.6 * +EC2.4.2.28 guanosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 7.31 * +EC2.4.2.28 guanosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 29.6 * +EC2.4.2.28 inosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 9.38 * +EC2.4.2.28 inosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 132.0 * +EC2.4.2.28 phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.26 * +EC2.4.2.28 s-methyl-5'-thioadenosine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 8.8 * +EC2.4.2.28 s-methyl-5'-thioadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.13 * +EC2.4.2.29 2-amino-5-(fluoromethyl)pyrrolo[2,3-d]pyrimidin-4(3h)-one escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.461 * +EC2.4.2.29 [rnaecyma]-2'-deoxyguanine 34 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.4.2.29 [rnaecyma]-guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0094 * +EC2.4.2.29 [trna]-guanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.014 * +EC2.4.2.29 [trnatyr]7-aminomethyl-7-carbaguanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.011 * +EC2.4.2.29 guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.57 * +EC2.4.2.29 guanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.056 * +EC2.4.2.29 hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00297 * +EC2.4.2.29 pre-queuine 0 zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.012 * +EC2.4.2.29 pre-queuine 1 zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.102 * +EC2.4.2.29 queuine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.4.2.29 trna guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC2.4.2.29 trna guanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.054 * +EC2.4.2.29 trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.85 * +EC2.4.2.29 trna zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.014 * +EC2.4.2.29 virf minihelix rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00033 * +EC2.4.2.29 virf mrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00011 * +EC2.4.2.29 xanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.9e-05 * +EC2.4.2.3 5-methyluridine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 56.0 * +EC2.4.2.3 thymidine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.41 * +EC2.4.2.3 uridine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 150.0 * +EC2.4.2.3 uridine schistosoma mansoni//eukaryotes;animals;flatworms//smm 35.9 * +EC2.4.2.30 (adp-d-ribosyl)n-actin aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 22.0 * +EC2.4.2.30 (adp-d-ribosyl)n-soybean-trypsin-inhibitor pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.008 * +EC2.4.2.30 nad+ aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 22.0 * +EC2.4.2.30 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC2.4.2.30 nad+ streptomyces scabiei//prokaryotes;bacteria;actinobacteria;streptomyces//scb 1.57 * +EC2.4.2.30 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.04 * +EC2.4.2.31 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 10.6 * +EC2.4.2.36 elongation factor 2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 12.0 * +EC2.4.2.36 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.0 * +EC2.4.2.37 nad+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.501 * +EC2.4.2.4 1-(2',6'-dideoxy-alpha-l-lyxo-hexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC2.4.2.4 1-(2',6'-dideoxy-alpha-l-lyxohexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC2.4.2.4 1-(2',6'-dideoxy-beta-d-ribo-hexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.4.2.4 1-(2',6'-dideoxy-beta-d-ribohexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.4.2.4 2'-deoxyuridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC2.4.2.4 3'-amino-3'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.4.2.4 3'-deoxy-2',3'-didehydrothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.4.2.4 4-thiothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 63.0 * +EC2.4.2.4 5'-amino-5'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.58 * +EC2.4.2.4 5'-chloro-5'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC2.4.2.4 5'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 260.0 * +EC2.4.2.4 5-nitro-2'-deoxyuridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC2.4.2.4 5-nitro-2'-deoxyuridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.88 * +EC2.4.2.4 thymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1770.0 * +EC2.4.2.4 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC2.4.2.44 5'-methylthioinosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.8 * +EC2.4.2.44 adenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0549 * +EC2.4.2.44 adenosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0549 * +EC2.4.2.44 inosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.57 * +EC2.4.2.44 s-methyl-5'-thioinosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.8 * +EC2.4.2.48 guanine15 in trna methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.0667 * +EC2.4.2.54 5-phospho-alpha-d-ribose 1-diphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.23 * +EC2.4.2.57 cmp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 39.1 * +EC2.4.2.57 gmp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.7 * +EC2.4.2.57 phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 15.0 * +EC2.4.2.57 ump thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 10.5 * +EC2.4.2.6 2',3'-dideoxycytidine lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.047 * +EC2.4.2.6 2'-deoxycytidine lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 45.1 * +EC2.4.2.6 2'-deoxycytidine lactobacillus leichmannii//*//* 62.2 * +EC2.4.2.6 2'-deoxyuridine lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 483.0 * +EC2.4.2.6 cytosine lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 2083.0 * +EC2.4.2.6 damp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0066 * +EC2.4.2.6 dcmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0231 * +EC2.4.2.6 dgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0297 * +EC2.4.2.6 dimp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0066 * +EC2.4.2.6 dump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.158 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate giardia intestinalis//*//* 2.8 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 17.9 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.2 * +EC2.4.2.7 adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.33 * +EC2.4.2.7 adenine giardia intestinalis//*//* 2.8 * +EC2.4.2.7 adenine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.4 * +EC2.4.2.7 amp giardia intestinalis//*//* 0.0095 * +EC2.4.2.7 diphosphate giardia intestinalis//*//* 0.0095 * +EC2.4.2.7 diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 11.3 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate caldanaerobacter subterraneus subsp. tengcongensis//*//* 4.26 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate giardia intestinalis//*//* 74.8 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 36.3 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.97 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.6 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 3.05 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 32.2 * +EC2.4.2.8 5-phosphoribosyl 1-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 23.2 * +EC2.4.2.8 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC2.4.2.8 diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 90.0 * +EC2.4.2.8 diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.48 * +EC2.4.2.8 gmp giardia intestinalis//*//* 5.8 * +EC2.4.2.8 gmp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.09 * +EC2.4.2.8 guanine caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.0033 * +EC2.4.2.8 guanine giardia intestinalis//*//* 76.7 * +EC2.4.2.8 guanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.5 * +EC2.4.2.8 guanine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 41.3 * +EC2.4.2.8 guanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.193 * +EC2.4.2.8 guanine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 25.5 * +EC2.4.2.8 guanine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.43 * +EC2.4.2.8 guanine schistosoma mansoni//eukaryotes;animals;flatworms//smm 5.0 * +EC2.4.2.8 guanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 20.0 * +EC2.4.2.8 guanine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 32.9 * +EC2.4.2.8 hypoxanthine caldanaerobacter subterraneus subsp. tengcongensis//*//* 15.9 * +EC2.4.2.8 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.5 * +EC2.4.2.8 hypoxanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 8.54 * +EC2.4.2.8 hypoxanthine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC2.4.2.8 hypoxanthine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.1 * +EC2.4.2.8 hypoxanthine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 3.16 * +EC2.4.2.8 hypoxanthine schistosoma mansoni//eukaryotes;animals;flatworms//smm 2.6 * +EC2.4.2.8 hypoxanthine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 9.1 * +EC2.4.2.8 hypoxanthine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 22.9 * +EC2.4.2.8 imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.4.2.8 imp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0042 * +EC2.4.2.8 imp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.47 * +EC2.4.2.8 inosine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.4.2.8 inosine monophosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 77.0 * +EC2.4.2.8 inosine monophosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.472 * +EC2.4.2.8 xanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.4.2.8 xanthine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.9 * +EC2.4.2.8 xanthine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 2.2 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.1 * +EC2.4.2.9 ump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0015 * +EC2.4.2.9 uracil bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.1 * +EC2.4.2.9 uracil mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.65 * +EC2.4.2.9 uracil sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.1 * +EC2.4.2.B12 nad+ clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.01 * +EC2.4.2.B14 [histone h3 k9 peptide]-n6-acetyl-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.135 * +EC2.4.2.B14 [histone h3 k9 peptide]-n6-succinyl-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.242 * +EC2.4.2.B14 [protein]-n6-succinyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.4.2.B14 ac-(n6-succinyl)lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC2.4.2.B14 ac-leu-gly-(n6-succinyl)lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.4.2.B14 benzoyl-gvl(n6-acetyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00039 * +EC2.4.2.B14 benzoyl-gvl(n6-adipoyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.2.B14 benzoyl-gvl(n6-glutaryl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC2.4.2.B14 benzoyl-gvl(n6-malonyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.2.B14 benzoyl-gvl(n6-oxalyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC2.4.2.B14 benzoyl-gvl(n6-pimeloyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC2.4.2.B14 benzoyl-gvl(n6-suberoyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00053 * +EC2.4.2.B14 benzoyl-gvl(n6-succinyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC2.4.2.B14 kqtar(n6-malonyl)kstggww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.4.2.B14 kqtar(n6-succinyl)kstggww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC2.4.2.B14 ktrsg(n6-malonyl)kvmrrww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.268 * +EC2.4.2.B14 ktrsg(n6-succinyl)kvmrrww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC2.4.2.B14 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.4.2.B14 sgase(n6-malonyl)kdivhsgww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC2.4.2.B14 sgase(n6-succinyl)kdivhsgww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.4.2.B15 [histone h3]-n6-acetyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.275 * +EC2.4.2.B15 [histone h3]-n6-myristoyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.4.2.B16 [histone h3 peptide]-n6-acetyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC2.4.2.B16 [histone h3 peptide]-n6-acetyl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.001 * +EC2.4.2.B16 [histone h3 peptide]-n6-butyryl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC2.4.2.B16 [histone h3 peptide]-n6-butyryl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.001 * +EC2.4.2.B16 [histone h3 peptide]-n6-myristoyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC2.4.2.B16 [histone h3 peptide]-n6-myristoyl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.01 * +EC2.4.2.B16 [histone h3 peptide]-n6-octanoyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC2.4.2.B16 [histone h3 peptide]-n6-octanoyl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.001 * +EC2.4.2.B16 [histone h3 peptide]-n6-palmitoyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC2.4.2.B16 [synthetic tumor necrosis factor alpha peptide]-n6-myristoyl-l-lysine19 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.4.2.B16 [synthetic tumor necrosis factor alpha peptide]-n6-myristoyl-l-lysine20 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.99.1 4-methylumbelliferyl beta-d-lactoside photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 2.3 * +EC2.4.99.1 5-(5-dimethylaminonaphthalene-1-sulfonyl-2-(2-aminoethoxy))ethyl beta-lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.087 * +EC2.4.99.1 5-(5-dimethylaminonaphthalene-1-sulfonyl-2-(2-aminoethoxy))ethyl beta-n-acetyllactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.13 * +EC2.4.99.1 beta-d-galactosyl-(1->4)-n-acetyl-beta-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC2.4.99.1 cmp-n-acetylneuraminate photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 4.32 * +EC2.4.99.1 cmp-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.59 * +EC2.4.99.1 lactose photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 4.3 * +EC2.4.99.1 neu5acalpha-4-nitrophenyl photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 0.883 * +EC2.4.99.17 7-aminomethyl-7-deazaguanine in minihelix rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.245 * +EC2.4.99.17 7-aminomethyl-7-deazaguanine in trna(tyr) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC2.4.99.17 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC2.4.99.4 3-(4-tetradecyl-1h-1,2,3-triazol-1-yl)propyl 4-o-beta-d-galactopyranosyl-beta-d-glucopyranoside pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.2 * +EC2.4.99.4 4-methyl-2-oxo-2h-chromen-7-yl 4-o-beta-d-galactopyranosyl-beta-d-glucopyranoside myxoma virus//*//* 0.53 * +EC2.4.99.4 4-methylumbelliferyl 4-o-beta-d-galactosyl-beta-d-glucoside pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 47.0 * +EC2.4.99.4 4-methylumbelliferyl-lewisx myxoma virus//*//* 0.55 * +EC2.4.99.4 cmp-n-acetylneuraminate myxoma virus//*//* 0.078 * +EC2.4.99.4 cmp-n-acetylneuraminate pasteurella dagmatis//*//* 16.0 * +EC2.4.99.4 cmp-n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 32.0 * +EC2.4.99.4 lactose pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 53.2 * +EC2.4.99.4 methyl 2-([4-[(3-[[3-o-(beta-d-galactopyranosyl)-beta-d-glucopyranosyl]oxy]propyl)amino]-4-oxobutanoyl]amino)benzoate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.25 * +EC2.4.99.4 methyl 2-([4-[(3-[[4-o-(beta-d-galactopyranosyl)-beta-d-glucopyranosyl]oxy]propyl)amino]-4-oxobutanoyl]amino)benzoate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.75 * +EC2.4.99.6 4-methylumbelliferyl beta-lactoside pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 47.0 * +EC2.4.99.6 4-methylumbelliferyl lewisx pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 6.7 * +EC2.4.99.6 cmp-n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 32.0 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-3-o-[(3r)-3-(tetradecanoyloxy)tetradecanoyl]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.6 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.47 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-amino-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-2-amino-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.05 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-3-o-[(3r)-3-(tetradecanoyloxy)tetradecanoyl]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-(tetradecanoyloxy)tetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC2.5.1.1 dimethylallyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.1 * +EC2.5.1.1 dimethylallyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.085 * +EC2.5.1.1 dimethylallyl diphosphate picea abies//*//* 1.4 * +EC2.5.1.1 farnesyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC2.5.1.1 geranyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.1 * +EC2.5.1.1 isopentenyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.1 * +EC2.5.1.1 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.012 * +EC2.5.1.10 dimethylallyl diphosphate rhizosolenia setigera//*//* 5.73 * +EC2.5.1.10 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC2.5.1.10 geranyl diphosphate rhizosolenia setigera//*//* 43.5 * +EC2.5.1.10 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.49 * +EC2.5.1.10 isopentenyl diphosphate rhizosolenia setigera//*//* 33.5 * +EC2.5.1.100 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.8 * +EC2.5.1.100 fumigaclavine a aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.8 * +EC2.5.1.104 agmatine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.1 * +EC2.5.1.104 agmatine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.28 * +EC2.5.1.104 agmatine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.37 * +EC2.5.1.104 cadaverine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.09 * +EC2.5.1.104 cadaverine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.02 * +EC2.5.1.104 norspermidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.53 * +EC2.5.1.104 propane-1,3-diamine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.06 * +EC2.5.1.104 putrescine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.18 * +EC2.5.1.104 putrescine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.3 * +EC2.5.1.104 s-adenosyl 3-(methylthio)propylamine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.73 * +EC2.5.1.104 spermidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.65 * +EC2.5.1.104 tris(3-aminopropyl)amine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.29 * +EC2.5.1.106 (e)-4-(1h-indol-3-yl)but-3-en-2-one aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.4 * +EC2.5.1.106 brevianamide f aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 5.57 * +EC2.5.1.106 cyclo-(d-trp-d-pro) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.31 * +EC2.5.1.106 cyclo-(d-trp-l-ala) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.24 * +EC2.5.1.106 cyclo-(l-trp-d-ala) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.71 * +EC2.5.1.106 cyclo-(l-trp-gly) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 3.14 * +EC2.5.1.106 cyclo-(l-trp-l-ala) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.47 * +EC2.5.1.106 cyclo-(l-trp-l-his) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 21.14 * +EC2.5.1.106 cyclo-(l-trp-l-pro) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 8.9 * +EC2.5.1.106 cyclo-(l-trp-l-tyr) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.73 * +EC2.5.1.109 (s)-benzodiazepinedione aspergillus terreus//*//* 0.125 * +EC2.5.1.109 brevianamide f aspergillus sp.//*//* 0.32 * +EC2.5.1.109 brevianamide f aspergillus versicolor//*//* 0.276 * +EC2.5.1.109 cyclo-d-trp-d-ala aspergillus versicolor//*//* 0.011 * +EC2.5.1.109 cyclo-d-trp-d-pro aspergillus versicolor//*//* 0.095 * +EC2.5.1.109 cyclo-d-trp-l-ala aspergillus versicolor//*//* 0.003 * +EC2.5.1.109 cyclo-d-trp-l-pro aspergillus versicolor//*//* 0.027 * +EC2.5.1.109 cyclo-l-trp-d-ala aspergillus versicolor//*//* 0.013 * +EC2.5.1.109 cyclo-l-trp-d-pro aspergillus versicolor//*//* 0.15 * +EC2.5.1.109 cyclo-l-trp-gly aspergillus versicolor//*//* 0.032 * +EC2.5.1.109 cyclo-l-trp-l-ala aspergillus versicolor//*//* 0.035 * +EC2.5.1.109 cyclo-l-trp-l-leu aspergillus versicolor//*//* 0.014 * +EC2.5.1.109 cyclo-l-trp-l-phe aspergillus versicolor//*//* 0.004 * +EC2.5.1.109 cyclo-l-trp-l-tyr aspergillus versicolor//*//* 0.006 * +EC2.5.1.109 cyclo-l-tyr-l-tyr aspergillus terreus//*//* 0.012 * +EC2.5.1.109 dimethylallyl diphosphate aspergillus sp.//*//* 0.42 * +EC2.5.1.109 dimethylallyl diphosphate aspergillus terreus//*//* 0.067 * +EC2.5.1.109 dimethylallyl diphosphate aspergillus versicolor//*//* 0.49 * +EC2.5.1.110 12alpha,13alpha-dihydroxyfumitremorgin c aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.03 * +EC2.5.1.110 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.03 * +EC2.5.1.111 4-hydroxyphenylpyruvate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.083 * +EC2.5.1.111 4-hydroxyphenylpyruvate streptomyces roseochromogenus subsp. oscitans//*//* 0.159 * +EC2.5.1.111 dimethylallyl diphosphate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.083 * +EC2.5.1.111 dimethylallyl diphosphate streptomyces roseochromogenus subsp. oscitans//*//* 0.253 * +EC2.5.1.113 o-phospho-l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC2.5.1.121 5,10-dihydrophenazine 1-carboxylate streptomyces anulatus//*//* 0.435 * +EC2.5.1.122 2-pentenyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.003 * +EC2.5.1.122 2-pentenyl diphosphate leptosphaeria maculans//*//* 0.002 * +EC2.5.1.122 3,4-dihydroxy-l-phenylalanine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.27 * +EC2.5.1.122 3-iodo-l-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC2.5.1.122 4-methyl-dl-tryptophan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.2 * +EC2.5.1.122 alpha-methyl-l-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.26 * +EC2.5.1.122 benzyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.016 * +EC2.5.1.122 benzyl diphosphate leptosphaeria maculans//*//* 0.028 * +EC2.5.1.122 d-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC2.5.1.122 dimethylallyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.69 * +EC2.5.1.122 dimethylallyl diphosphate leptosphaeria maculans//*//* 1.0 * +EC2.5.1.122 l-o-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.014 * +EC2.5.1.122 l-tryptophan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0053 * +EC2.5.1.122 l-tryptophan leptosphaeria maculans//*//* 0.095 * +EC2.5.1.122 l-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.58 * +EC2.5.1.122 l-tyrosine leptosphaeria maculans//*//* 1.3 * +EC2.5.1.122 methylallyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.002 * +EC2.5.1.122 methylallyl diphosphate leptosphaeria maculans//*//* 0.003 * +EC2.5.1.123 1,3-dihydroxynaphthalene streptomyces cinnamonensis//*//* 0.003 * +EC2.5.1.123 4-hydroxybenzoate streptomyces cinnamonensis//*//* 0.002 * +EC2.5.1.123 flaviolin streptomyces cinnamonensis//*//* 0.0002 * +EC2.5.1.124 1,3-dihydroxynaphthalene streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00013 * +EC2.5.1.124 2-o-methyl-3-methylflaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00066 * +EC2.5.1.124 flaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.028 * +EC2.5.1.125 1,3-dihydroxynaphthalene streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00013 * +EC2.5.1.125 2-o-methyl-3-methylflaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00066 * +EC2.5.1.125 flaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.028 * +EC2.5.1.132 d-mannose 6-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.017 * +EC2.5.1.132 d-mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC2.5.1.132 phosphoenolpyruvate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.017 * +EC2.5.1.135 gdp-valienol streptomyces hygroscopicus subsp. limoneus//*//* 7.0 * +EC2.5.1.135 validamine 7-phosphate streptomyces hygroscopicus subsp. limoneus//*//* 7.0 * +EC2.5.1.140 l-glutamate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.6 * +EC2.5.1.140 o-phospho-l-serine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.3 * +EC2.5.1.15 (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.069 * +EC2.5.1.15 4-aminobenzoate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.109 * +EC2.5.1.15 dapson bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0578 * +EC2.5.1.15 sulfadiazine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.1243 * +EC2.5.1.15 sulfamethizole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.079 * +EC2.5.1.15 sulfamethoxazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.12 * +EC2.5.1.15 sulfanilamide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.08 * +EC2.5.1.15 sulfathiazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0887 * +EC2.5.1.15 sulfisoxazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.11 * +EC2.5.1.16 putrescine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.5.1.16 putrescine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 22.7 * +EC2.5.1.16 s-adenosylmethioninamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.5.1.16 s-adenosylmethioninamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.5.1.16 s-adenosylmethioninamine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 22.7 * +EC2.5.1.17 2'-deoxy-atp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.0051 * +EC2.5.1.17 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 297.6 * +EC2.5.1.17 atp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.029 * +EC2.5.1.17 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.03 * +EC2.5.1.17 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.23 * +EC2.5.1.17 cob(i)alamin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 297.6 * +EC2.5.1.17 cob(i)alamin lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.025 * +EC2.5.1.17 cob(i)alamin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.06 * +EC2.5.1.17 cob(i)inamide lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.02 * +EC2.5.1.17 cob(ii)alamin lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.038 * +EC2.5.1.17 cob(ii)inamide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0077 * +EC2.5.1.17 cobalamin thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.18 * +EC2.5.1.17 ctp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.0086 * +EC2.5.1.17 datp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.11 * +EC2.5.1.17 gtp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.021 * +EC2.5.1.17 hydroxocobalamin thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.18 * +EC2.5.1.17 itp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.019 * +EC2.5.1.17 utp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.00195 * +EC2.5.1.18 (+)-2-bromo-3-(4-nitrophenyl)propanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC2.5.1.18 (r)-styrene-7,8-oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC2.5.1.18 (r,r)-1-phenylpropylene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.7 * +EC2.5.1.18 (r,r)-trans-stilbene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC2.5.1.18 (s)-styrene-7,8-oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.4 * +EC2.5.1.18 (s,s)-1-phenylpropylene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.0 * +EC2.5.1.18 (s,s)-trans-stilbene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.5.1.18 1,2-dichloro-4-nitrobenzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 210.0 * +EC2.5.1.18 1,2-epoxy-3-(p-nitrophenoxy)propane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 201.0 * +EC2.5.1.18 1,3-bis-(2-chloroethyl)-1-nitrosourea homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.5.1.18 1,3-bis-(2-chloroethyl)-1-nitrosourea mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.3 * +EC2.5.1.18 1-chloro-2,3-dinitrobenzene atactodea striata//*//* 772.0 * +EC2.5.1.18 1-chloro-2,3-dinitrobenzene pinus tabuliformis//*//* 6.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene aedes aegypti//eukaryotes;animals;arthropods;insects//aag 51.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.53 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene alternaria brassicicola//*//* 38.18 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene anopheles dirus//*//* 26.5 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.098 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene bombyx mori//eukaryotes;animals;arthropods;insects//bmor 65.43 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 190.6 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene cydia pomonella//*//* 610.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.48 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 761.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene litopenaeus vannamei//*//* 251.2 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene macrobrachium vollenhovenii//*//* 20.3 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene monopterus albus//*//* 2.44 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene mucor mucedo//*//* 552.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2286.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene musca domestica//eukaryotes;animals;arthropods;insects//mde 25.1 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 2.35 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene pagrus major//*//* 3.56 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene phanerochaete chrysosporium//*//* 2.08 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene pinus tabuliformis//*//* 6.74 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 5.3 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 2.13 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 82.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene sarcoptes scabiei//*//* 193.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene schistosoma japonicum//*//* 187.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene setaria cervi//*//* 1515.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene solenopsis invicta//eukaryotes;animals;arthropods;insects//soc 74.5 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 99.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene taenia solium//*//* 22.2 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene tetranychus urticae//eukaryotes;animals;arthropods;mites and ticks//tut 0.25 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene trichinella spiralis//eukaryotes;animals;nematodes//tsp 18.0 * +EC2.5.1.18 1-chloro-2,4-dinitrobenzene triticum aestivum//*//* 10.9 * +EC2.5.1.18 1-fluoro-2,4-dinitrobenzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 106.0 * +EC2.5.1.18 1-fluoro-2,4-dinitrobenzene proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 6.78 * +EC2.5.1.18 2-chloro-5-nitropyridine schistosoma japonicum//*//* 0.044 * +EC2.5.1.18 2-hydroxychromene-2-carboxylic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 47.0 * +EC2.5.1.18 2-hydroxyethyl disulfide agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.04 * +EC2.5.1.18 3,4-dinitrobenzanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 367.0 * +EC2.5.1.18 4-nitrophenyl butyrate phanerochaete chrysosporium//*//* 27.6 * +EC2.5.1.18 5-androstene-3,17-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.8 * +EC2.5.1.18 5-pregnene-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC2.5.1.18 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.257 * +EC2.5.1.18 7-oxabicyclo[4.1.0]heptan-2-one schistosoma japonicum//*//* 0.037 * +EC2.5.1.18 alachlor zea mays//eukaryotes;plants;monocots;grass family//zma 0.00048 * +EC2.5.1.18 allyl-isothiocyanate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 3.6 * +EC2.5.1.18 cumene hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9600.0 * +EC2.5.1.18 cumene hydroperoxide populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.58 * +EC2.5.1.18 dehydroascorbate danio rerio//eukaryotes;animals;vertebrates;fishes//dre 11.9 * +EC2.5.1.18 dehydroascorbate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 925.2 * +EC2.5.1.18 dehydroascorbate phanerochaete chrysosporium//*//* 1.26 * +EC2.5.1.18 dichloroacetate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 82.17 * +EC2.5.1.18 dichloroacetic acid danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.002 * +EC2.5.1.18 ethacrynic acid anopheles dirus//*//* 0.28 * +EC2.5.1.18 ethacrynic acid danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.24 * +EC2.5.1.18 glutathione aedes aegypti//eukaryotes;animals;arthropods;insects//aag 51.0 * +EC2.5.1.18 glutathione agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.53 * +EC2.5.1.18 glutathione anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.2 * +EC2.5.1.18 glutathione bombyx mori//eukaryotes;animals;arthropods;insects//bmor 57.87 * +EC2.5.1.18 glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.95 * +EC2.5.1.18 glutathione danio rerio//eukaryotes;animals;vertebrates;fishes//dre 129.0 * +EC2.5.1.18 glutathione drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 905.8 * +EC2.5.1.18 glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC2.5.1.18 glutathione glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.65 * +EC2.5.1.18 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 47.3 * +EC2.5.1.18 glutathione litopenaeus vannamei//*//* 274.4 * +EC2.5.1.18 glutathione lucilia cuprina//*//* 53.0 * +EC2.5.1.18 glutathione monopterus albus//*//* 3.82 * +EC2.5.1.18 glutathione mucor mucedo//*//* 552.0 * +EC2.5.1.18 glutathione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2286.0 * +EC2.5.1.18 glutathione musca domestica//eukaryotes;animals;arthropods;insects//mde 14.0 * +EC2.5.1.18 glutathione nilaparvata lugens//*//* 1.62 * +EC2.5.1.18 glutathione ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 16.51 * +EC2.5.1.18 glutathione oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.264 * +EC2.5.1.18 glutathione paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.24 * +EC2.5.1.18 glutathione phanerochaete chrysosporium//*//* 11.03 * +EC2.5.1.18 glutathione proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 12.4 * +EC2.5.1.18 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.33 * +EC2.5.1.18 glutathione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 141.7 * +EC2.5.1.18 glutathione synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 48.7 * +EC2.5.1.18 glutathione synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 15.48 * +EC2.5.1.18 glutathione tetranychus urticae//eukaryotes;animals;arthropods;mites and ticks//tut 0.39 * +EC2.5.1.18 glutathione thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 17.0 * +EC2.5.1.18 glutathione trichinella spiralis//eukaryotes;animals;nematodes//tsp 4.3 * +EC2.5.1.18 glutathione triticum aestivum//*//* 16.4 * +EC2.5.1.18 gsh anopheles dirus//*//* 18.6 * +EC2.5.1.18 gsh atactodea striata//*//* 551.0 * +EC2.5.1.18 gsh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1370.0 * +EC2.5.1.18 gsh macrobrachium vollenhovenii//*//* 20.3 * +EC2.5.1.18 gsh pinus tabuliformis//*//* 6.7 * +EC2.5.1.18 gsh schistosoma japonicum//*//* 16.6 * +EC2.5.1.18 gsh solenopsis invicta//eukaryotes;animals;arthropods;insects//soc 74.5 * +EC2.5.1.18 iodobutane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC2.5.1.18 iodobutane mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.137 * +EC2.5.1.18 iodobutane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.215 * +EC2.5.1.18 iodohexane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC2.5.1.18 iodohexane mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.17 * +EC2.5.1.18 iodohexane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.52 * +EC2.5.1.18 iodomethane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.16 * +EC2.5.1.18 iodomethane mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 238.0 * +EC2.5.1.18 iodomethane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 349.0 * +EC2.5.1.18 l-gamma-glutamyl-s-[2-hydroxy-3-methoxy-1-(4-methoxyphenyl)-3-oxopropyl]-l-cysteinylglycine schistosoma japonicum//*//* 39.0 * +EC2.5.1.18 maleylacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 464.0 * +EC2.5.1.18 methyl 3-(4-methoxyphenyl)oxirane-2-carboxylate schistosoma japonicum//*//* 0.63 * +EC2.5.1.18 phenethyl isothiocyanate phanerochaete chrysosporium//*//* 8.52 * +EC2.5.1.18 phenethyl isothiocyanate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 62.9 * +EC2.5.1.18 phenethyl isothiocyanate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.5 * +EC2.5.1.18 phenethyl-isothiocyanate synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 63.4 * +EC2.5.1.18 phenethyl-isothiocyanate thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 21.4 * +EC2.5.1.18 reduced glutathione anopheles dirus//*//* 26.1 * +EC2.5.1.18 reduced glutathione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 39.0 * +EC2.5.1.18 s-phenylacetylglutathione phanerochaete chrysosporium//*//* 180.0 * +EC2.5.1.18 sulforaphane populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 2.57 * +EC2.5.1.18 trans-2-nonenal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.155 * +EC2.5.1.18 trans-o-hydroxybenzylidene pyruvic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.0 * +EC2.5.1.19 3-phosphoshikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC2.5.1.19 3-phosphoshikimate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 33.6 * +EC2.5.1.19 3-phosphoshikimate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.2 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2e-05 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.4 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.23 * +EC2.5.1.19 phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.4 * +EC2.5.1.19 phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.22 * +EC2.5.1.19 phosphoenolpyruvate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 31.8 * +EC2.5.1.19 phosphoenolpyruvate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 28.3 * +EC2.5.1.19 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC2.5.1.19 phosphoenolpyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 33.6 * +EC2.5.1.19 phosphoenolpyruvate ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 26.7 * +EC2.5.1.19 phosphoenolpyruvate plant//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;raoultella//rpln 38.4 * +EC2.5.1.19 phosphoenolpyruvate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 26.2 * +EC2.5.1.19 phosphoenolpyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.3 * +EC2.5.1.19 phosphoenolpyruvate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 12.8 * +EC2.5.1.2 4-nitrothiophenolate paenibacillus thiaminolyticus//*//* 297.0 * +EC2.5.1.2 thiamine clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 231.0 * +EC2.5.1.2 thiamine paenibacillus thiaminolyticus//*//* 260.0 * +EC2.5.1.21 (2e,6e)-farnesyl diphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.478 * +EC2.5.1.21 farnesyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.3 * +EC2.5.1.21 farnesyl diphosphate thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 1.74 * +EC2.5.1.21 nadph methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.478 * +EC2.5.1.22 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC2.5.1.27 1-hydroxy-2-methyl-2-(e)-butenyl 4-diphosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.025 * +EC2.5.1.27 adp humulus lupulus//*//* 0.024 * +EC2.5.1.27 adp morus alba//*//* 0.0235 * +EC2.5.1.27 amp humulus lupulus//*//* 0.00828 * +EC2.5.1.27 atp humulus lupulus//*//* 0.022 * +EC2.5.1.27 dimethylallyl diphosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.053 * +EC2.5.1.27 dimethylallyl diphosphate humulus lupulus//*//* 0.027 * +EC2.5.1.27 dimethylallyl diphosphate morus alba//*//* 0.0345 * +EC2.5.1.28 dimethylallyl diphosphate solanum habrochaites//*//* 0.026 * +EC2.5.1.28 dimethylallyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.2 * +EC2.5.1.28 isopentenyl diphosphate solanum habrochaites//*//* 0.047 * +EC2.5.1.29 (2e,6e)-farnesyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC2.5.1.29 (2e,6e)-farnesyl diphosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.8 * +EC2.5.1.29 (2e,6e)-farnesyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.037 * +EC2.5.1.29 (e,e)-farnesyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC2.5.1.29 dimethylallyl diphosphate picea abies//*//* 1.4 * +EC2.5.1.29 dimethylallyl diphosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.5 * +EC2.5.1.29 dimethylallyl diphosphate taxus canadensis//*//* 1.0 * +EC2.5.1.29 farnesyl diphosphate taxus canadensis//*//* 3.3 * +EC2.5.1.29 geranyl diphosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.5 * +EC2.5.1.29 geranyl diphosphate taxus canadensis//*//* 2.1 * +EC2.5.1.29 isopentenyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.1 * +EC2.5.1.29 isopentenyl diphosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.8 * +EC2.5.1.29 isopentenyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.037 * +EC2.5.1.29 trans,trans-farnesyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.204 * +EC2.5.1.31 (2e,6e)-8-(n-methyl-2-aminobenzoyloxy)-3,7-dimethyl-2,6-octandien-1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.2 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.22 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.66 * +EC2.5.1.31 (2e,6e)-farnesyl thiodiphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1e-07 * +EC2.5.1.31 (2z,6e,10e)-geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.77 * +EC2.5.1.31 (z,e,e)-geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.77 * +EC2.5.1.31 7-(2,6-dimethyl-8-diphospho-2,6-octadienyloxy)-8-methyl-4-trifluoromethyl-chromen-2-one geranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.5.1.31 farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.5.1.31 farnesyl diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.22 * +EC2.5.1.31 farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.66 * +EC2.5.1.31 geranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC2.5.1.31 geranylgeranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC2.5.1.31 isopentenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.5.1.31 isopentenyl diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.22 * +EC2.5.1.31 isopentenyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.85 * +EC2.5.1.31 isopentenyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0002 * +EC2.5.1.34 2-pentenyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.011 * +EC2.5.1.34 4-amino-l-tryptophan claviceps purpurea//*//* 0.42 * +EC2.5.1.34 4-methoxy-l-tryptophan claviceps purpurea//*//* 1.3 * +EC2.5.1.34 4-methyl-l-tryptophan claviceps purpurea//*//* 0.75 * +EC2.5.1.34 5-hydroxy-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.165 * +EC2.5.1.34 5-hydroxy-l-tryptophan malbranchea aurantiaca//*//* 0.56 * +EC2.5.1.34 5-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.125 * +EC2.5.1.34 6-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0533 * +EC2.5.1.34 7-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.1267 * +EC2.5.1.34 alpha-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.1033 * +EC2.5.1.34 ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.009 * +EC2.5.1.34 cyclo-l-tryptophan-glycine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00106 * +EC2.5.1.34 cyclo-l-tryptophan-l-leucine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0017 * +EC2.5.1.34 cyclo-l-tryptophan-l-proline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00113 * +EC2.5.1.34 cyclo-l-tryptophan-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0021 * +EC2.5.1.34 cyclo-l-tryptophan-l-tyrosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0017 * +EC2.5.1.34 dia-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.009 * +EC2.5.1.34 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.917 * +EC2.5.1.34 ent-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0016 * +EC2.5.1.34 indole-3-propionic acid aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.2683 * +EC2.5.1.34 l-abrine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.043 * +EC2.5.1.34 l-beta-homotryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.3767 * +EC2.5.1.34 l-m-tyrosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0065 * +EC2.5.1.34 l-o-tyrosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.29 * +EC2.5.1.34 l-tryptophan methyl ester aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.1367 * +EC2.5.1.34 l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.47 * +EC2.5.1.34 l-tryptophan claviceps purpurea//*//* 60.0 * +EC2.5.1.34 l-tryptophan malbranchea aurantiaca//*//* 1.4 * +EC2.5.1.34 methylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.009 * +EC2.5.1.34 n-methyl-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.252 * +EC2.5.1.34 nalpha-methyl-l-tryptophan malbranchea aurantiaca//*//* 1.06 * +EC2.5.1.44 putrescine acinetobacter tartarogenes//*//* 8.0 * +EC2.5.1.44 putrescine blastochloris viridis//prokaryotes;bacteria;alphaproteobacteria;blastochloris//bvr 1.2 * +EC2.5.1.44 putrescine bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 1.18 * +EC2.5.1.45 putrescine senecio vernalis//*//* 0.0032 * +EC2.5.1.46 [eif5a-precursor]-lysine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.018 * +EC2.5.1.46 eif5a-precursor senecio vernalis//*//* 0.0022 * +EC2.5.1.46 spermidine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.015 * +EC2.5.1.47 beta-chloro-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 154.0 * +EC2.5.1.47 h2s streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 12.0 * +EC2.5.1.47 hydrogen sulfide streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 12.0 * +EC2.5.1.47 l-cys trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 6.6 * +EC2.5.1.47 o-acetyl-l-ser aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 202.0 * +EC2.5.1.47 o-acetyl-l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 733.0 * +EC2.5.1.47 o-acetyl-l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 733.0 * +EC2.5.1.47 o-acetyl-l-ser trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 153.0 * +EC2.5.1.47 o-acetyl-l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC2.5.1.47 o-acetyl-l-serine microcystis aeruginosa//prokaryotes;bacteria;cyanobacteria;microcystis//mar 232.0 * +EC2.5.1.47 o-phosphoserine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 165.0 * +EC2.5.1.47 o3-acetyl-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1780.0 * +EC2.5.1.47 o3-acetyl-l-serine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 238.0 * +EC2.5.1.47 o3-acetyl-l-serine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 312.0 * +EC2.5.1.47 o3-acetyl-l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.56 * +EC2.5.1.47 s2- aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 202.0 * +EC2.5.1.47 sulfide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2170.0 * +EC2.5.1.47 thiosulfate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 24.0 * +EC2.5.1.47 thiosulfate streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.72 * +EC2.5.1.48 cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.67 * +EC2.5.1.48 l-cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 121.0 * +EC2.5.1.48 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 121.0 * +EC2.5.1.48 o-succinyl-l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 121.0 * +EC2.5.1.48 o-succinyl-l-homoserine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.297 * +EC2.5.1.48 o-succinyl-l-homoserine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 63.3 * +EC2.5.1.48 o-succinyl-l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.83 * +EC2.5.1.54 (3s)-2-deoxyerythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.233 * +EC2.5.1.54 d-erythrose 4-phosphate actinosynnema pretiosum subsp. auranticum//*//* 0.03 * +EC2.5.1.54 d-erythrose 4-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.14 * +EC2.5.1.54 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 122.0 * +EC2.5.1.54 d-erythrose 4-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 27.1 * +EC2.5.1.54 d-erythrose 4-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.5 * +EC2.5.1.54 d-erythrose 4-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 11.7 * +EC2.5.1.54 phosphoenolpyruvate actinosynnema pretiosum subsp. auranticum//*//* 0.032 * +EC2.5.1.54 phosphoenolpyruvate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.0 * +EC2.5.1.54 phosphoenolpyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.6 * +EC2.5.1.54 phosphoenolpyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.65 * +EC2.5.1.54 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 122.0 * +EC2.5.1.54 phosphoenolpyruvate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.3 * +EC2.5.1.54 phosphoenolpyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 27.1 * +EC2.5.1.54 phosphoenolpyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.5 * +EC2.5.1.54 phosphoenolpyruvate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 11.7 * +EC2.5.1.55 2-deoxy-d-ribose 5-phosphate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.66 * +EC2.5.1.55 2-deoxy-d-ribose 5-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.13 * +EC2.5.1.55 2-deoxyribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.5.1.55 d-arabinose 5-phosphate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 4.8 * +EC2.5.1.55 d-arabinose 5-phosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 2.0 * +EC2.5.1.55 d-arabinose 5-phosphate aquifex pyrophilus//*//* 9.0 * +EC2.5.1.55 d-arabinose 5-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.9 * +EC2.5.1.55 d-arabinose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.8 * +EC2.5.1.55 d-arabinose 5-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.08 * +EC2.5.1.55 d-arabinose 5-phosphate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 1.0 * +EC2.5.1.55 d-arabinose 5-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 8.0 * +EC2.5.1.55 d-arabinose 5-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.6 * +EC2.5.1.55 l-xylose 5-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.1 * +EC2.5.1.55 phosphoenolpyruvate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 2.0 * +EC2.5.1.55 phosphoenolpyruvate aquifex pyrophilus//*//* 9.0 * +EC2.5.1.55 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.9 * +EC2.5.1.55 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC2.5.1.55 phosphoenolpyruvate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.08 * +EC2.5.1.55 phosphoenolpyruvate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 1.0 * +EC2.5.1.55 phosphoenolpyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 8.0 * +EC2.5.1.55 phosphoenolpyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 6.7 * +EC2.5.1.56 n-acetyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 19.9 * +EC2.5.1.56 n-acetyl-d-mannosamine moritella viscosa//prokaryotes;bacteria;gammaproteobacteria - others;moritella//mvs 3.72 * +EC2.5.1.56 n-acetyl-d-mannosamine neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.83 * +EC2.5.1.56 n-butanoyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 3.5 * +EC2.5.1.56 n-pentanoyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.8 * +EC2.5.1.56 n-propanoyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 11.8 * +EC2.5.1.56 phosphoenolpyruvate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 19.0 * +EC2.5.1.56 phosphoenolpyruvate moritella viscosa//prokaryotes;bacteria;gammaproteobacteria - others;moritella//mvs 3.75 * +EC2.5.1.57 d-mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC2.5.1.57 n-acetyl-d-mannosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.31 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-(2,3,5,6-tetrafluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-(phenylamino)octa-2,6-dien-1-yl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-(phenylsulfanyl)octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(2-methylphenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.166 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(3-methylphenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.069 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(4-methylphenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(4-nitrophenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[3-(1-methylethyl)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[3-(trifluoromethoxy)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[3-(trifluoromethyl)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[4-(1-methylethyl)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[4-(trifluoromethoxy)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[[2-(trifluoromethyl)phenyl]amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[[3-(trifluoromethoxy)phenyl]amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[[4-(trifluoromethoxy)phenyl]amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-phenoxyocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-9-phenylnona-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.5.1.58 (2e,6e)-8-(2,3-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC2.5.1.58 (2e,6e)-8-(2,6-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.67 * +EC2.5.1.58 (2e,6e)-8-(2-bromophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.5.1.58 (2e,6e)-8-(2-ethylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.5.1.58 (2e,6e)-8-(2-fluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC2.5.1.58 (2e,6e)-8-(2-iodophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.5.1.58 (2e,6e)-8-(3,4-dichlorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.5.1.58 (2e,6e)-8-(3,4-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.5.1.58 (2e,6e)-8-(3,5-dichlorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC2.5.1.58 (2e,6e)-8-(3,5-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.5.1.58 (2e,6e)-8-(3-bromophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.5.1.58 (2e,6e)-8-(3-cyanophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.5.1.58 (2e,6e)-8-(3-ethylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.5.1.58 (2e,6e)-8-(3-fluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.5.1.58 (2e,6e)-8-(3-iodophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.5.1.58 (2e,6e)-8-(4-benzylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.5.1.58 (2e,6e)-8-(4-bromophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC2.5.1.58 (2e,6e)-8-(4-cyanophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.93 * +EC2.5.1.58 (2e,6e)-8-(4-ethylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.28 * +EC2.5.1.58 (2e,6e)-8-(4-fluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.58 * +EC2.5.1.58 (2e,6e)-8-(4-iodophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC2.5.1.58 (2e,6e)-8-(4-nitrophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.55 * +EC2.5.1.58 (2e,6e)-8-(benzyloxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.5.1.58 (2e,6e)-8-(isoxazol-3-ylamino)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.5.1.58 (2e,6e)-8-[(2-ethylphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.5.1.58 (2e,6e)-8-[(2-fluorophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.5.1.58 (2e,6e)-8-[(2-methoxyphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.088 * +EC2.5.1.58 (2e,6e)-8-[(3-bromophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.5.1.58 (2e,6e)-8-[(3-cyanophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.5.1.58 (2e,6e)-8-[(3-ethylphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC2.5.1.58 (2e,6e)-8-[(3-fluorophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.5.1.58 (2e,6e)-8-[(3-iodophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.5.1.58 (2e,6e)-8-[(3-methoxyphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.53 * +EC2.5.1.58 (2e,6e)-8-[(4-bromophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC2.5.1.58 (2e,6e)-8-[(4-cyanophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC2.5.1.58 (2e,6e)-8-[(4-fluorophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.095 * +EC2.5.1.58 (2e,6e)-8-[(4-iodophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.5.1.58 (2e,6e)-8-[(4-methoxyphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.5.1.58 (2e,6e)-8-[3-(hydroxymethyl)phenoxy]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC2.5.1.58 (2e,6e)-8-[4-(hydroxymethyl)phenoxy]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.15 * +EC2.5.1.58 (2e,6e)-farnesyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.12 * +EC2.5.1.58 (2e,6e)-farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.5.1.58 (e)-[4-[(3,7-dimethylocta-2,6-dien-1-yl)oxy]phenyl]-methanyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC2.5.1.58 10-benzyloxy-3-methyl-2-decen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC2.5.1.58 3-(3-methyl-2-butenyl)-7,11-dimethyldodeca-2(z),6(e),10-triene 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC2.5.1.58 6-benzyloxy-3-methyl-2-hexen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 44.0 * +EC2.5.1.58 7-benzyloxy-3-methyl-2-hepten-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.84 * +EC2.5.1.58 8-benzyloxy-3-methyl-2-octen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 27.0 * +EC2.5.1.58 9-benzyloxy-3-methyl-2-nonen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 43.0 * +EC2.5.1.58 [3-[(3-phenoxyphenoxy)methyl]phenyl]-methanyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.5.1.58 aaa-gpp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.5.1.58 apo-gpp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC2.5.1.58 dansyl-gly-cys-lys-thr-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC2.5.1.58 dansyl-gly-cys-lys-val-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC2.5.1.58 dansyl-gly-cys-val-ile-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.5.1.58 dansyl-gly-cys-val-leu-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.5.1.58 farnesyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC2.5.1.58 farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 100.0 * +EC2.5.1.58 geranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.5.1.58 geranylgeranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC2.5.1.58 hom-gpp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.5.1.58 thr-lys-cys-val-ile-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.5.1.58 thr-lys-cys-val-leu-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.5.1.58 thr-lys-val-ile-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC2.5.1.58 tkcvia rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC2.5.1.58 tkcvic rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC2.5.1.58 tkcvid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC2.5.1.58 tkcvif rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0082 * +EC2.5.1.58 tkcvii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.58 tkcvil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.58 tkcvim rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.041 * +EC2.5.1.58 tkcvin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC2.5.1.58 tkcviq rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.161 * +EC2.5.1.58 tkcvir rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.58 tkcvis rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.5.1.58 tkcvit rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC2.5.1.58 tkcviv rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC2.5.1.58 tkcviy rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC2.5.1.59 (biotin-conh-(ch2)5-co-)-npfrekkffcai-leu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC2.5.1.59 3,7,11-trimethyl-12-(7-nitro-benzo[1,2,5]-oxadiazo-4-ylamino)-dodeca-2,6,10-trien-1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.5.1.59 asp-asp-pro-thr-ala-ser-ala-cys-val-leu-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.5.1.59 geranylgeranyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.5.1.59 geranylgeranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.5.1.59 geranylgeranyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.34 * +EC2.5.1.59 gst-cdc42 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0057 * +EC2.5.1.59 gst-rhoa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.5.1.59 ki-ras4a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0667 * +EC2.5.1.59 ki-ras4b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0767 * +EC2.5.1.59 n-ras homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0113 * +EC2.5.1.59 ras-cys-val-leu-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.5.1.59 ras-cys-val-leu-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.5.1.59 thr-lys-cys-val-ile-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-asn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0063 * +EC2.5.1.59 thr-lys-cys-val-ile-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC2.5.1.59 thr-lys-cys-val-ile-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.088 * +EC2.5.1.59 thr-lys-cys-val-ile-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.082 * +EC2.5.1.59 thr-lys-cys-val-ile-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.5.1.59 thr-lys-cys-val-ile-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.59 thr-lys-cys-val-ile-tyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.5.1.59 thr-lys-cys-val-ile-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.107 * +EC2.5.1.6 atp leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 8.83e-05 * +EC2.5.1.6 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 7.5 * +EC2.5.1.6 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.052 * +EC2.5.1.6 l-ethionine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.05 * +EC2.5.1.6 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC2.5.1.6 l-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.46 * +EC2.5.1.6 l-methionine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.93 * +EC2.5.1.6 l-methionine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 7.5 * +EC2.5.1.6 l-methionine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.049 * +EC2.5.1.6 s-adenosylmethionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000417 * +EC2.5.1.6 s-adenosylmethionine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.032 * +EC2.5.1.6 s-adenosylmethionine leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 8.83e-05 * +EC2.5.1.6 s-adenosylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.583 * +EC2.5.1.6 tripolyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.67e-06 * +EC2.5.1.6 tripolyphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.004 * +EC2.5.1.6 tripolyphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC2.5.1.60 rab protein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC2.5.1.61 porphobilinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.5.1.63 fluoride nocardia brasiliensis//prokaryotes;bacteria;actinobacteria;nocardia//nbr 0.0012 * +EC2.5.1.63 fluoride streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 2.0 * +EC2.5.1.63 s-adenosyl-l-methionine nocardia brasiliensis//prokaryotes;bacteria;actinobacteria;nocardia//nbr 0.0023 * +EC2.5.1.63 s-adenosyl-l-methionine streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.074 * +EC2.5.1.65 hydrogen sulfide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 730.0 * +EC2.5.1.65 o-acetyl-l-serine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 202.0 * +EC2.5.1.65 o-phospho-l-serine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 14000.0 * +EC2.5.1.65 o-phospho-l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.913 * +EC2.5.1.65 o3-acetyl-l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.025 * +EC2.5.1.65 o3-phospho-l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 17.0 * +EC2.5.1.67 dimethylallyl diphosphate tanacetum cinerariifolium//*//* 0.008 * +EC2.5.1.68 geranyl diphosphate corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 141.0 * +EC2.5.1.68 geranyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 329.0 * +EC2.5.1.68 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 860.0 * +EC2.5.1.68 geranyl diphosphate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 229.0 * +EC2.5.1.68 isopentenyl diphosphate corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 173.0 * +EC2.5.1.68 isopentenyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 329.0 * +EC2.5.1.68 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 788.0 * +EC2.5.1.68 isopentenyl diphosphate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 282.0 * +EC2.5.1.69 dimethylallyl diphosphate lavandula x intermedia//*//* 0.1 * +EC2.5.1.7 fosfomycin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.13 * +EC2.5.1.7 phosphoenolpyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3.0 * +EC2.5.1.7 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.75 * +EC2.5.1.7 phosphoenolpyruvate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.5 * +EC2.5.1.7 phosphoenolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.058 * +EC2.5.1.7 phosphoenolpyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.117 * +EC2.5.1.7 phosphoenolpyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.8 * +EC2.5.1.7 phosphoenolpyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.13 * +EC2.5.1.7 phosphoenolpyruvate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.41 * +EC2.5.1.7 udp-glcnac enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3.0 * +EC2.5.1.7 udp-glcnac escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.9 * +EC2.5.1.7 udp-glcnac streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.78 * +EC2.5.1.7 udp-n-acetyl-alpha-d-glucosamine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.033 * +EC2.5.1.7 udp-n-acetyl-alpha-d-glucosamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.147 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3.0 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.75 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.5 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.4 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.13 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.41 * +EC2.5.1.75 gcggacucaaaauccgc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC2.5.1.75 ggccauugaaaauggcc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC2.5.1.75 gggaauugaaaauuccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC2.5.1.75 gggcauugaaaaugccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.79 * +EC2.5.1.75 ggggauugaaaaagggg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.75 ggggauugaaaaucccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.5.1.75 ggggauugaaagucccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC2.5.1.75 ggggauugagaaucccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.75 * +EC2.5.1.75 ggggguugaaaaccccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.111 * +EC2.5.1.75 seventeen-base rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.5.1.76 l-phosphoserine methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.18 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0557 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.003 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.04 * +EC2.5.1.78 5-nitro-6-ribitylamino-2,4(1h,3h)-pyrimidinedione bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.076 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.076 * +EC2.5.1.80 5-methyl-dl-tryptophan neosartorya sp.//*//* 0.125 * +EC2.5.1.80 ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.079 * +EC2.5.1.80 biochanin a aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.019 * +EC2.5.1.80 dia,ent-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.002 * +EC2.5.1.80 dia-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.053 * +EC2.5.1.80 dimethylallyl diphosphate neosartorya sp.//*//* 0.092 * +EC2.5.1.80 ent-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.059 * +EC2.5.1.80 eriodictyol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.39 * +EC2.5.1.80 genistein aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.027 * +EC2.5.1.80 hesperetin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.026 * +EC2.5.1.80 l-abrine neosartorya sp.//*//* 0.043 * +EC2.5.1.80 l-o-tyrosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.045 * +EC2.5.1.80 l-tryptophan methyl ester neosartorya sp.//*//* 0.112 * +EC2.5.1.80 l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.23 * +EC2.5.1.80 l-tryptophan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0053 * +EC2.5.1.80 l-tryptophan neosartorya sp.//*//* 0.108 * +EC2.5.1.80 naringenin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.023 * +EC2.5.1.80 phloretin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.036 * +EC2.5.1.81 geranylgeranyl diphosphate leucosceptrum canum//*//* 5.17e-06 * +EC2.5.1.81 isopentenyl diphosphate leucosceptrum canum//*//* 8.2e-06 * +EC2.5.1.85 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.77 * +EC2.5.1.85 (2e,6e)-farnesyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.032 * +EC2.5.1.85 farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 29.7 * +EC2.5.1.85 geranyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.065 * +EC2.5.1.85 geranylgeranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 21.0 * +EC2.5.1.85 geranylgeranyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.087 * +EC2.5.1.85 isopentenyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.0 * +EC2.5.1.85 isopentenyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.217 * +EC2.5.1.86 (2e,6e)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.07 * +EC2.5.1.86 (2z,6e)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11.5 * +EC2.5.1.86 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.06 * +EC2.5.1.86 geranylgeranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.03 * +EC2.5.1.86 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC2.5.1.86 neryl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.16 * +EC2.5.1.9 6,7-dimethyl-8-(1'-d-ribityl)lumazine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC2.5.1.9 6,7-dimethyl-8-(1-d-ribityl)lumazine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.027 * +EC2.5.1.9 6,7-dimethyl-8-(1-d-ribityl)lumazine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.267 * +EC2.5.1.9 6,7-dimethyl-8-ribityllumazine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.019 * +EC2.5.1.9 6,7-dimethyl-8-ribityllumazine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00833 * +EC2.5.1.90 (2e,6e)-farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.5.1.90 (2e,6e)-farnesyl diphosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.005 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.072 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.147 * +EC2.5.1.91 (2e,6e,10e)-geranylgeranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.03 * +EC2.5.1.91 (2e,6e,10e)-geranylgeranyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.058 * +EC2.5.1.91 (2e,6z)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11.5 * +EC2.5.1.91 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.06 * +EC2.5.1.91 geranyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.067 * +EC2.5.1.91 geranyl geranyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.06 * +EC2.5.1.91 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC2.5.1.91 isopentenyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.143 * +EC2.5.1.91 neryl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.052 * +EC2.5.1.92 dimethylallyl diphosphate solanum habrochaites//*//* 0.055 * +EC2.5.1.92 isopentenyl diphosphate solanum habrochaites//*//* 0.19 * +EC2.5.1.92 neryl diphosphate solanum habrochaites//*//* 0.069 * +EC2.5.1.94 5'-chloro-5'-deoxyadenosine salinispora tropica cnb-440//*//* 0.2 * +EC2.5.1.94 5'-deoxy-5'-iodoadenosine salinispora tropica cnb-440//*//* 0.83 * +EC2.5.1.94 bromide salinispora tropica cnb-440//*//* 0.013 * +EC2.5.1.94 chloride salinispora tropica cnb-440//*//* 0.015 * +EC2.5.1.94 iodide salinispora tropica cnb-440//*//* 0.005 * +EC2.5.1.94 l-methionine salinispora tropica cnb-440//*//* 0.2 * +EC2.5.1.94 s-adenosyl-l-methionine salinispora tropica cnb-440//*//* 0.015 * +EC2.5.1.97 2,4-diacetamido-2,4,6-trideoxy-beta-l-altropyranose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.65 * +EC2.5.1.B21 s-adenosyl-l-methionine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.14 * +EC2.5.1.B21 s-adenosyl-l-methionine salinispora arenicola//prokaryotes;bacteria;actinobacteria;salinispora//saq 0.0075 * +EC2.5.1.B25 2,7-dihydroxynaphthalene aspergillus terreus//*//* 0.026 * +EC2.5.1.B25 dimethylallyl diphosphate aspergillus terreus//*//* 0.026 * +EC2.5.1.B31 1-methyl-dl-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.059 * +EC2.5.1.B31 2-pentenyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.023 * +EC2.5.1.B31 2-pentenyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0014 * +EC2.5.1.B31 4-methyl-dl-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.29 * +EC2.5.1.B31 6-fluoro-dl-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.29 * +EC2.5.1.B31 6-methyl-dl-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.76 * +EC2.5.1.B31 7-methyl-dl-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.4 * +EC2.5.1.B31 ardeemin fumiquinazoline aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.027 * +EC2.5.1.B31 ardeemin fumiquinazoline streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.027 * +EC2.5.1.B31 benzyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.005 * +EC2.5.1.B31 benzyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00028 * +EC2.5.1.B31 dimethylallyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 1.3 * +EC2.5.1.B31 dimethylallyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.4 * +EC2.5.1.B31 dl-indole-3-lactate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.43 * +EC2.5.1.B31 ent-ardeemin fumiquinazoline aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.022 * +EC2.5.1.B31 ent-ardeemin fumiquinazoline streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.022 * +EC2.5.1.B31 indole-3-propionate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.39 * +EC2.5.1.B31 l-abrine aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.4 * +EC2.5.1.B31 l-beta-homotryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.15 * +EC2.5.1.B31 l-o-tyrosine aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.013 * +EC2.5.1.B31 l-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.87 * +EC2.5.1.B31 l-tryptophan streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.4 * +EC2.5.1.B31 methylallyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.005 * +EC2.5.1.B31 methylallyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00048 * +EC2.5.1.B31 n-acetyl-dl-tryptophan aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.1 * +EC2.5.1.B31 trans-indole-3-acrylate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.14 * +EC2.6.1.1 2-oxo-4-phenyl-butanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.6.1.1 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 217.0 * +EC2.6.1.1 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 27.0 * +EC2.6.1.1 2-oxoglutarate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 187.0 * +EC2.6.1.1 2-oxoglutarate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 322.0 * +EC2.6.1.1 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 120.0 * +EC2.6.1.1 l-aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 30.0 * +EC2.6.1.1 l-aspartate bubalus bubalis//*//* 352.0 * +EC2.6.1.1 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 530.0 * +EC2.6.1.1 l-aspartate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 187.0 * +EC2.6.1.1 l-aspartate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 322.0 * +EC2.6.1.1 l-aspartate phormidium lapideum//*//* 187.0 * +EC2.6.1.1 l-aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 120.0 * +EC2.6.1.1 l-aspartate triticum aestivum//*//* 103.8 * +EC2.6.1.1 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 14.0 * +EC2.6.1.1 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 670.0 * +EC2.6.1.1 l-glutamate phormidium lapideum//*//* 101.0 * +EC2.6.1.1 l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.305 * +EC2.6.1.1 oxaloacetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 574.0 * +EC2.6.1.1 oxaloacetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 22.0 * +EC2.6.1.1 oxaloacetate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 205.0 * +EC2.6.1.102 gdp-4-dehydro-3,6-dideoxy-alpha-d-mannose caulobacter vibrioides//*//* 0.015 * +EC2.6.1.102 gdp-4-dehydro-6-deoxy-alpha-d-mannose caulobacter vibrioides//*//* 2.7 * +EC2.6.1.11 l-ornithine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.82 * +EC2.6.1.11 n2-acetyl-l-ornithine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.55 * +EC2.6.1.111 (3s)-3-aminobutanoyl-coa candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 1.8 * +EC2.6.1.111 2-oxoglutarate candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 1.8 * +EC2.6.1.111 pyruvate candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 0.4 * +EC2.6.1.13 2-oxoglutarate manduca sexta//*//* 0.0333 * +EC2.6.1.13 l-ornithine manduca sexta//*//* 0.0333 * +EC2.6.1.13 l-ornithine pisum sativum//*//* 4.3 * +EC2.6.1.16 d-fructose 6-phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0213 * +EC2.6.1.16 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.9 * +EC2.6.1.16 d-fructose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 35.5 * +EC2.6.1.16 l-gamma-glutamyl-p-nitroanilide candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.013 * +EC2.6.1.16 l-gamma-glutamyl-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC2.6.1.16 l-glutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 12.0 * +EC2.6.1.16 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.81 * +EC2.6.1.16 l-glutamine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 12.0 * +EC2.6.1.16 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.2 * +EC2.6.1.16 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 35.5 * +EC2.6.1.17 prephenate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 24.0 * +EC2.6.1.19 1h-tetrazole-5-butanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.69 * +EC2.6.1.19 1h-tetrazole-5-ethanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.26 * +EC2.6.1.19 1h-tetrazole-5-propanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.48 * +EC2.6.1.19 4-(aminomethyl)-1h-pyrrole-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.6e-05 * +EC2.6.1.19 4-(aminomethyl)furan-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.83e-05 * +EC2.6.1.19 4-(aminomethyl)furan-3-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.38e-05 * +EC2.6.1.19 4-(aminomethyl)thiophene-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.6e-05 * +EC2.6.1.19 4-aminobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.6 * +EC2.6.1.19 4-aminobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 47.4 * +EC2.6.1.19 4-aminobutanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 2.7 * +EC2.6.1.19 4-aminobutanoate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 13.2 * +EC2.6.1.19 4-aminobutanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.817 * +EC2.6.1.19 4-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.8 * +EC2.6.1.19 5-(aminomethyl)-1h-pyrrole-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5e-05 * +EC2.6.1.19 5-(aminomethyl)furan-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00056 * +EC2.6.1.19 5-(aminomethyl)thiophene-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00016 * +EC2.6.1.19 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.7 * +EC2.6.1.19 glyoxylate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 2.6 * +EC2.6.1.19 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.4 * +EC2.6.1.19 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.6 * +EC2.6.1.19 pyruvate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 2.7 * +EC2.6.1.19 tetrazole-5-butanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.693 * +EC2.6.1.19 tetrazole-5-ethanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.265 * +EC2.6.1.19 tetrazole-5-propanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.477 * +EC2.6.1.2 2-oxoglutarate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 1.25 * +EC2.6.1.2 2-oxoglutarate hordeum vulgare//*//* 12.11 * +EC2.6.1.2 2-oxoglutarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.98 * +EC2.6.1.2 2-oxoglutarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.08 * +EC2.6.1.2 2-oxoglutarate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.38 * +EC2.6.1.2 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.09 * +EC2.6.1.2 2-oxoglutarate triticum aestivum//*//* 170.0 * +EC2.6.1.2 2-oxoglutarate zea mays//eukaryotes;plants;monocots;grass family//zma 5.49 * +EC2.6.1.2 l-alanine bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 1.25 * +EC2.6.1.2 l-alanine hordeum vulgare//*//* 12.11 * +EC2.6.1.2 l-alanine oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.98 * +EC2.6.1.2 l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.08 * +EC2.6.1.2 l-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.1 * +EC2.6.1.2 l-alanine rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.38 * +EC2.6.1.2 l-alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.09 * +EC2.6.1.2 l-alanine triticum aestivum//*//* 170.0 * +EC2.6.1.2 l-alanine zea mays//eukaryotes;plants;monocots;grass family//zma 5.49 * +EC2.6.1.2 l-glutamate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 2.8 * +EC2.6.1.2 l-glutamate hordeum vulgare//*//* 25.62 * +EC2.6.1.2 l-glutamate oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.86 * +EC2.6.1.2 l-glutamate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC2.6.1.2 l-glutamate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 3.06 * +EC2.6.1.2 l-glutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.64 * +EC2.6.1.2 l-glutamate triticum aestivum//*//* 136.0 * +EC2.6.1.2 l-glutamate zea mays//eukaryotes;plants;monocots;grass family//zma 6.56 * +EC2.6.1.2 pyruvate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 2.8 * +EC2.6.1.2 pyruvate hordeum vulgare//*//* 25.62 * +EC2.6.1.2 pyruvate oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.86 * +EC2.6.1.2 pyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC2.6.1.2 pyruvate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 3.06 * +EC2.6.1.2 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.64 * +EC2.6.1.2 pyruvate triticum aestivum//*//* 136.0 * +EC2.6.1.2 pyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 6.56 * +EC2.6.1.21 2-oxoglutarate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 260.0 * +EC2.6.1.21 d-alanine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 340.0 * +EC2.6.1.26 3,5-diiodo-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 6.6 * +EC2.6.1.26 3,5-dinitro-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 39.9 * +EC2.6.1.26 3-iodo-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.68 * +EC2.6.1.26 l-thyroxine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0233 * +EC2.6.1.26 l-triiodothyronine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0317 * +EC2.6.1.28 l-tryptophan aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 19.3 * +EC2.6.1.28 phenylpyruvate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 9.1 * +EC2.6.1.30 (s)-2-aminobutyrate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 9.0 * +EC2.6.1.30 2-oxobutyrate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 24.0 * +EC2.6.1.30 2-oxoglutarate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 1.9 * +EC2.6.1.30 l-alanine mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 41.0 * +EC2.6.1.30 l-glutamate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 1.5 * +EC2.6.1.30 pyridoxal mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 41.0 * +EC2.6.1.30 pyridoxamine mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 2.0 * +EC2.6.1.30 pyruvate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 29.0 * +EC2.6.1.33 dtdp-4-dehydro-6-deoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.66 * +EC2.6.1.33 dtdp-4-dehydro-6-deoxy-d-glucose shigella dysenteriae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sdy 0.74 * +EC2.6.1.34 udp-2-acetamido-2,6-dideoxy-alpha-d-xylo-4-hexulose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 2.4 * +EC2.6.1.36 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.43 * +EC2.6.1.36 l-lysine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.92 * +EC2.6.1.37 (2-aminoethyl)phosphonate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 7.4 * +EC2.6.1.37 2-phosphonoacetaldehyde salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 9.3 * +EC2.6.1.37 d-alanine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.04 * +EC2.6.1.37 l-alanine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 9.3 * +EC2.6.1.4 glyoxylate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 48.2 * +EC2.6.1.4 l-alanine oryza sativa japonica group//*//* 140.6 * +EC2.6.1.4 l-glutamate oryza sativa japonica group//*//* 144.9 * +EC2.6.1.4 l-glutamate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 46.8 * +EC2.6.1.42 2-(3-hydroxy-1-adamantyl)-2-oxoethanoic acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 2.9 * +EC2.6.1.42 2-(3-hydroxy-1-adamantyl)-2-oxoethanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.11 * +EC2.6.1.42 2-oxo-3-methylvalerate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 360.0 * +EC2.6.1.42 2-oxobutanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 250.0 * +EC2.6.1.42 2-oxocaproate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 91.0 * +EC2.6.1.42 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 340.0 * +EC2.6.1.42 2-oxoglutarate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 700.0 * +EC2.6.1.42 2-oxohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.1 * +EC2.6.1.42 2-oxoisocaproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.7 * +EC2.6.1.42 2-oxoisocaproate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 270.0 * +EC2.6.1.42 2-oxoisovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.5 * +EC2.6.1.42 2-oxoisovalerate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 270.0 * +EC2.6.1.42 2-oxovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.9 * +EC2.6.1.42 2-oxovalerate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 190.0 * +EC2.6.1.42 3-methyl-2-oxobutanoic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 109.8 * +EC2.6.1.42 3-methyl-2-oxobutanoic acid solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 11.7 * +EC2.6.1.42 3-methyl-2-oxobutyric acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 12.45 * +EC2.6.1.42 3-methyl-2-oxobutyric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.84 * +EC2.6.1.42 3-methyl-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC2.6.1.42 3-methyl-2-oxopentanoic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 83.9 * +EC2.6.1.42 3-methyl-2-oxopentanoic acid solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 84.8 * +EC2.6.1.42 3-methyl-2-oxovaleric acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 12.15 * +EC2.6.1.42 3-methyl-2-oxovaleric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.75 * +EC2.6.1.42 4,4-dimethyl-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.4 * +EC2.6.1.42 4-methyl-2-oxopentanoate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 70.0 * +EC2.6.1.42 4-methyl-2-oxopentanoic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 173.8 * +EC2.6.1.42 4-methyl-2-oxopentanoic acid solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 16.3 * +EC2.6.1.42 4-methyl-2-oxovaleric acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 17.32 * +EC2.6.1.42 4-methyl-2-oxovaleric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.61 * +EC2.6.1.42 dl-2-aminoheptanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 27.0 * +EC2.6.1.42 dl-2-aminooctanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 81.0 * +EC2.6.1.42 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.0 * +EC2.6.1.42 l-2-aminobutanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 25.0 * +EC2.6.1.42 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC2.6.1.42 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1075.0 * +EC2.6.1.42 l-glutamate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 150.0 * +EC2.6.1.42 l-isoleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 48.0 * +EC2.6.1.42 l-isoleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1075.0 * +EC2.6.1.42 l-isoleucine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 174.0 * +EC2.6.1.42 l-isoleucine solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 69.9 * +EC2.6.1.42 l-isoleucine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 51.0 * +EC2.6.1.42 l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 78.0 * +EC2.6.1.42 l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 898.0 * +EC2.6.1.42 l-leucine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 121.0 * +EC2.6.1.42 l-leucine solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 80.2 * +EC2.6.1.42 l-leucine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 110.0 * +EC2.6.1.42 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC2.6.1.42 l-norleucine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 260.0 * +EC2.6.1.42 l-norvaline thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 86.0 * +EC2.6.1.42 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC2.6.1.42 l-phenylalanine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 80.0 * +EC2.6.1.42 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC2.6.1.42 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC2.6.1.42 l-valine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC2.6.1.42 l-valine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1236.0 * +EC2.6.1.42 l-valine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 123.0 * +EC2.6.1.42 l-valine solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 55.0 * +EC2.6.1.42 l-valine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 31.0 * +EC2.6.1.42 phenylpyruvate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 52.0 * +EC2.6.1.42 trimethylpyruvate enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 2.59 * +EC2.6.1.42 trimethylpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC2.6.1.44 3-hydroxykynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 20.0 * +EC2.6.1.44 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC2.6.1.44 glyoxylate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 16.0 * +EC2.6.1.44 glyoxylate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 113.0 * +EC2.6.1.44 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC2.6.1.44 kynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 12.0 * +EC2.6.1.44 l-alanine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 117.0 * +EC2.6.1.44 l-alanine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 131.0 * +EC2.6.1.44 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC2.6.1.44 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC2.6.1.44 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.6.1.45 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.86 * +EC2.6.1.45 l-alanine oryza sativa japonica group//*//* 8.56 * +EC2.6.1.45 l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.4 * +EC2.6.1.45 l-serine oryza sativa japonica group//*//* 19.82 * +EC2.6.1.46 2-oxoglutarate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.39 * +EC2.6.1.46 pyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.39 * +EC2.6.1.5 (s)-beta-phenylalanine variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 11.8 * +EC2.6.1.5 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.6.1.5 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 25.66 * +EC2.6.1.5 2-oxoglutarate papaver somniferum//*//* 0.22 * +EC2.6.1.5 2-oxoglutarate petunia x hybrida//*//* 0.92 * +EC2.6.1.5 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 566.0 * +EC2.6.1.5 2-oxoglutarate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 21.8 * +EC2.6.1.5 2-oxoglutarate variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 10.6 * +EC2.6.1.5 2-oxohexanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.83 * +EC2.6.1.5 2-oxoisocaproate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 34.0 * +EC2.6.1.5 4-hydroxyphenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.83 * +EC2.6.1.5 4-hydroxyphenylpyruvate petunia x hybrida//*//* 0.7 * +EC2.6.1.5 l-alanine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 23.5 * +EC2.6.1.5 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 69.0 * +EC2.6.1.5 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.33 * +EC2.6.1.5 l-glutamate petunia x hybrida//*//* 0.44 * +EC2.6.1.5 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 210.0 * +EC2.6.1.5 l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.33 * +EC2.6.1.5 l-phenylalanine papaver somniferum//*//* 0.08 * +EC2.6.1.5 l-phenylalanine petunia x hybrida//*//* 0.44 * +EC2.6.1.5 l-tryptophan papaver somniferum//*//* 0.36 * +EC2.6.1.5 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 39.0 * +EC2.6.1.5 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.0 * +EC2.6.1.5 l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 19.33 * +EC2.6.1.5 l-tyrosine papaver somniferum//*//* 0.24 * +EC2.6.1.5 l-tyrosine petunia x hybrida//*//* 1.48 * +EC2.6.1.5 l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 576.0 * +EC2.6.1.5 l-tyrosine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 44.6 * +EC2.6.1.5 oxaloacetate papaver somniferum//*//* 0.37 * +EC2.6.1.5 p-hydroxyphenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.6.1.5 p-hydroxyphenylpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 165.0 * +EC2.6.1.5 phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.66 * +EC2.6.1.5 phenylpyruvate petunia x hybrida//*//* 1.46 * +EC2.6.1.5 pyruvate papaver somniferum//*//* 0.34 * +EC2.6.1.5 pyruvate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 47.4 * +EC2.6.1.51 alanine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 131.0 * +EC2.6.1.51 glyoxylate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 113.0 * +EC2.6.1.52 3-o-phospho-l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.63 * +EC2.6.1.52 3-phosphonooxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.75 * +EC2.6.1.52 4-(phosphonooxy)-l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.6.1.52 l-glutamate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 2.49 * +EC2.6.1.57 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 278.0 * +EC2.6.1.57 2-oxoglutarate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 225.0 * +EC2.6.1.57 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 290.0 * +EC2.6.1.57 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1200.0 * +EC2.6.1.57 l-phenylalanine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 253.0 * +EC2.6.1.57 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 350.0 * +EC2.6.1.57 l-tryptophan pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 62.0 * +EC2.6.1.57 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 500.0 * +EC2.6.1.57 l-tyrosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 72.0 * +EC2.6.1.57 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 500.0 * +EC2.6.1.59 dtdp-4-dehydro-6-deoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC2.6.1.62 8-amino-7-oxononanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC2.6.1.62 8-amino-7-oxononanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC2.6.1.62 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0012 * +EC2.6.1.62 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.6.1.62 s-adenosyl-l-methionine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.017 * +EC2.6.1.62 sinefungin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.009 * +EC2.6.1.64 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.1 * +EC2.6.1.64 4-hydroxyphenylpyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 620.0 * +EC2.6.1.64 4-methylsulfanyl-2-oxobutanoate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 620.0 * +EC2.6.1.64 indolepyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 480.0 * +EC2.6.1.64 l-alanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.18 * +EC2.6.1.64 l-arginine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.12 * +EC2.6.1.64 l-asparagine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.13 * +EC2.6.1.64 l-aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.016 * +EC2.6.1.64 l-glutamate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.03 * +EC2.6.1.64 l-glutamine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 830.0 * +EC2.6.1.64 l-histidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.3 * +EC2.6.1.64 l-kynurenine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1100.0 * +EC2.6.1.64 l-leucine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.5 * +EC2.6.1.64 l-methionine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1200.0 * +EC2.6.1.64 l-phenylalanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 590.0 * +EC2.6.1.64 l-serine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.2 * +EC2.6.1.64 l-threonine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.013 * +EC2.6.1.64 l-tryptophan thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 990.0 * +EC2.6.1.64 l-tyrosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 970.0 * +EC2.6.1.64 phenylpyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 130.0 * +EC2.6.1.64 pyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 15.0 * +EC2.6.1.7 2-aminobutanoate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 317.0 * +EC2.6.1.7 2-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.3 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate haemaphysalis longicornis//*//* 0.16 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.27 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.41 * +EC2.6.1.7 2-oxoadipate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.84 * +EC2.6.1.7 2-oxobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 234.0 * +EC2.6.1.7 2-oxobutyrate haemaphysalis longicornis//*//* 0.0018 * +EC2.6.1.7 2-oxobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.49 * +EC2.6.1.7 2-oxobutyrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.93 * +EC2.6.1.7 2-oxocaproate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.83 * +EC2.6.1.7 2-oxocaproic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.59 * +EC2.6.1.7 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.67 * +EC2.6.1.7 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.53 * +EC2.6.1.7 2-oxoisocaproate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 296.0 * +EC2.6.1.7 2-oxoisocaproic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.74 * +EC2.6.1.7 2-oxovalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.66 * +EC2.6.1.7 2-oxovalerate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.7 * +EC2.6.1.7 3-hydroxykynurenine haemaphysalis longicornis//*//* 65.12 * +EC2.6.1.7 3-methyl-2-oxobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.92 * +EC2.6.1.7 3-methyl-2-oxopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.92 * +EC2.6.1.7 4-methyl-2-oxopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.51 * +EC2.6.1.7 alpha-oxo-gamma-methiol-butyric acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.02 * +EC2.6.1.7 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 263.0 * +EC2.6.1.7 glyoxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.71 * +EC2.6.1.7 hydroxyphenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC2.6.1.7 hydroxyphenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.48 * +EC2.6.1.7 indo-3-pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.49 * +EC2.6.1.7 indo-3-pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.03 * +EC2.6.1.7 indole-3-pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC2.6.1.7 l-alanine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1540.0 * +EC2.6.1.7 l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.53 * +EC2.6.1.7 l-asparagine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 230.0 * +EC2.6.1.7 l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.4 * +EC2.6.1.7 l-asparagine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.93 * +EC2.6.1.7 l-cysteine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 206.0 * +EC2.6.1.7 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.6 * +EC2.6.1.7 l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC2.6.1.7 l-glutamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 561.0 * +EC2.6.1.7 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 440.0 * +EC2.6.1.7 l-glutamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.27 * +EC2.6.1.7 l-histidine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 168.0 * +EC2.6.1.7 l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 143.0 * +EC2.6.1.7 l-histidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.0 * +EC2.6.1.7 l-kynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 172.0 * +EC2.6.1.7 l-kynurenine haemaphysalis longicornis//*//* 55.5 * +EC2.6.1.7 l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 201.0 * +EC2.6.1.7 l-kynurenine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.3 * +EC2.6.1.7 l-leucine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 758.0 * +EC2.6.1.7 l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 339.0 * +EC2.6.1.7 l-methionine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 163.0 * +EC2.6.1.7 l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 215.0 * +EC2.6.1.7 l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.43 * +EC2.6.1.7 l-phenylalanine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 283.0 * +EC2.6.1.7 l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.0 * +EC2.6.1.7 l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.7 * +EC2.6.1.7 l-serine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 345.0 * +EC2.6.1.7 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.17 * +EC2.6.1.7 l-tryptophan aedes aegypti//eukaryotes;animals;arthropods;insects//aag 283.0 * +EC2.6.1.7 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.1 * +EC2.6.1.7 l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.57 * +EC2.6.1.7 l-tyrosine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 139.0 * +EC2.6.1.7 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.0 * +EC2.6.1.7 l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.03 * +EC2.6.1.7 mercaptopyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 234.0 * +EC2.6.1.7 mercaptopyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.28 * +EC2.6.1.7 oxaloacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 143.0 * +EC2.6.1.7 oxaloacetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.68 * +EC2.6.1.7 phenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.0 * +EC2.6.1.7 phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.53 * +EC2.6.1.7 pyruvate haemaphysalis longicornis//*//* 2.02 * +EC2.6.1.7 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.0 * +EC2.6.1.7 pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.87 * +EC2.6.1.76 2-oxoglutarate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 4.5 * +EC2.6.1.76 l-2,4-diaminobutanoate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 120.0 * +EC2.6.1.78 l-aspartate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 65.0 * +EC2.6.1.79 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 200.0 * +EC2.6.1.79 prephenate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 43.0 * +EC2.6.1.79 prephenate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 54.0 * +EC2.6.1.79 prephenate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 60.0 * +EC2.6.1.81 l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC2.6.1.81 n2-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.7 * +EC2.6.1.81 n2-succinyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC2.6.1.83 ll-2,6-diaminoheptanedioate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 16.4 * +EC2.6.1.83 ll-2,6-diaminoheptanedioate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 5.7 * +EC2.6.1.83 ll-2,6-diaminoheptanedioate verrucomicrobium spinosum//*//* 1.6 * +EC2.6.1.83 ll-diaminopimelate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 19.0 * +EC2.6.1.83 ll-diaminopimelate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.31 * +EC2.6.1.83 tetrahydrodipicolinate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 1.1 * +EC2.6.1.84 l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 38.6 * +EC2.6.1.84 pyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 38.6 * +EC2.6.1.85 2-amino-2-deoxychorismate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.02 * +EC2.6.1.85 chorismate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.017 * +EC2.6.1.85 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC2.6.1.85 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.2 * +EC2.6.1.85 chorismate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.007 * +EC2.6.1.85 l-glutamine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.013 * +EC2.6.1.85 l-glutamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.79 * +EC2.6.1.85 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC2.6.1.85 nh3 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC2.6.1.86 chorismate burkholderia lata//prokaryotes;bacteria;betaproteobacteria;burkholderia//bur 0.01 * +EC2.6.1.86 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.2 * +EC2.6.1.9 l-histidinol phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.18 * +EC2.6.1.9 l-histidinol phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 426.0 * +EC2.6.1.9 l-histidinol phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.046 * +EC2.6.1.9 l-leucine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.27 * +EC2.6.1.9 l-phenylalanine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 4.1 * +EC2.6.1.9 l-phenylalanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 220.0 * +EC2.6.1.9 l-phenylalanine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.009 * +EC2.6.1.9 l-tryptophan thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.014 * +EC2.6.1.9 l-tyrosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3100.0 * +EC2.6.1.9 l-tyrosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.043 * +EC2.6.1.92 udp-2-acetamido-2,6-dideoxy-beta-l-arabino-hex-4-ulose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.067 * +EC2.6.1.96 4-aminobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.6 * +EC2.6.1.96 4-aminobutanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 1.0 * +EC2.6.1.96 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.1 * +EC2.6.1.96 glyoxylate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.74 * +EC2.6.1.96 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 15.4 * +EC2.6.1.96 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.6 * +EC2.6.1.96 pyruvate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.8 * +EC2.6.1.96 succinate semialdehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.8 * +EC2.6.1.B16 (s)-1-phenylethylamine halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 0.094 * +EC2.6.1.B3 (2s,3s,5r,10s,12r,14r,15s,16s)-2-amino-12,16-dimethylicosane-3,5,10,14,15-pentol sphingopyxis sp.//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sphp 1.73 * +EC2.6.99.3 hydroxyurea streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 11.0 * +EC2.7.1.1 2-deoxy-d-glucose eimeria tenella//*//* 33.7 * +EC2.7.1.1 2-deoxy-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.0 * +EC2.7.1.1 atp cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 9.5 * +EC2.7.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.3 * +EC2.7.1.1 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 53.2 * +EC2.7.1.1 atp solanum chacoense//*//* 3.5 * +EC2.7.1.1 atp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 3.32 * +EC2.7.1.1 ctp solanum chacoense//*//* 1.61 * +EC2.7.1.1 d-fructose cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.02 * +EC2.7.1.1 d-fructose eimeria tenella//*//* 1.5 * +EC2.7.1.1 d-fructose solanum chacoense//*//* 3.69 * +EC2.7.1.1 d-glucose cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 20.5 * +EC2.7.1.1 d-glucose eimeria tenella//*//* 219.0 * +EC2.7.1.1 d-glucose entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 284.0 * +EC2.7.1.1 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 101.0 * +EC2.7.1.1 d-glucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 53.2 * +EC2.7.1.1 d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.67 * +EC2.7.1.1 d-glucose solanum chacoense//*//* 5.01 * +EC2.7.1.1 d-glucose toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 3.47 * +EC2.7.1.1 d-glucose trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 483.3 * +EC2.7.1.1 d-mannose cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 12.1 * +EC2.7.1.1 d-mannose eimeria tenella//*//* 0.025 * +EC2.7.1.1 d-mannose solanum chacoense//*//* 3.78 * +EC2.7.1.1 gtp solanum chacoense//*//* 0.85 * +EC2.7.1.1 ttp solanum chacoense//*//* 1.42 * +EC2.7.1.1 utp solanum chacoense//*//* 3.02 * +EC2.7.1.105 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.7.1.105 beta-d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9320.0 * +EC2.7.1.105 beta-d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.447 * +EC2.7.1.105 beta-d-fructose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.7.1.105 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 53.0 * +EC2.7.1.105 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9320.0 * +EC2.7.1.107 1,2-dioleoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.43 * +EC2.7.1.107 1-stearoyl-2-arachidonoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC2.7.1.107 1-stearoyl-2-linoleoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC2.7.1.107 1-stearoyl-2-oleoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.35 * +EC2.7.1.107 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC2.7.1.11 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 236.0 * +EC2.7.1.11 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.0 * +EC2.7.1.11 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 357.0 * +EC2.7.1.11 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC2.7.1.11 fructose 1,6-bisphosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3.2 * +EC2.7.1.11 fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 185.0 * +EC2.7.1.11 fructose 6-phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 149.0 * +EC2.7.1.113 1-(2-deoxy-beta-d-ribofuranosyl)-7-iodoisocarbostyril homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.7.1.113 2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.7.1.113 2'deoxyguanosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.25 * +EC2.7.1.113 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.53 * +EC2.7.1.113 ctp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.25 * +EC2.7.1.113 deoxyadenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0047 * +EC2.7.1.113 deoxyguanosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.25 * +EC2.7.1.113 deoxyguanosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.0 * +EC2.7.1.113 dioxolane guanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.7.1.113 gtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.69 * +EC2.7.1.113 utp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.41 * +EC2.7.1.119 atp streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 2.5 * +EC2.7.1.119 hygromycin b streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 6.4 * +EC2.7.1.12 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.5 * +EC2.7.1.12 d-gluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.3 * +EC2.7.1.130 (2-n,3-o-bis[(3r)-3-hydroxytetradecanoyl]-beta-d-glucosaminyl)-(1->6)-(2-n,3-o-bis[(3r)-3-hydroxytetradecanoyl]-alpha-d-glucosaminyl phosphate) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 2.4 * +EC2.7.1.136 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.59 * +EC2.7.1.14 sedoheptulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 115.0 * +EC2.7.1.145 1-(beta-d-arabinofuranosyl)-cytosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0029 * +EC2.7.1.145 1-(beta-d-arabinofuranosyl)-thymine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0003 * +EC2.7.1.145 2',3'-dideoxycytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 4.2 * +EC2.7.1.145 2'-deoxy-2',2'-difluorocytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 6.5 * +EC2.7.1.145 2'-deoxyadenosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.021 * +EC2.7.1.145 2'-deoxyadenosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 20.6 * +EC2.7.1.145 2'-deoxycytidine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.03 * +EC2.7.1.145 2'-deoxycytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 16.5 * +EC2.7.1.145 2'-deoxyguanosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.019 * +EC2.7.1.145 2'-deoxyguanosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 18.0 * +EC2.7.1.145 2'-deoxythymidine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.014 * +EC2.7.1.145 2'-deoxythymidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0142 * +EC2.7.1.145 3'-azido-2',3'-dideoxythymidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.036 * +EC2.7.1.145 5-(e)-(2-bromvinyl)-2'-deoxyuridine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0059 * +EC2.7.1.145 dideoxycytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 4.2 * +EC2.7.1.145 thymidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 15.0 * +EC2.7.1.146 adp methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 30.0 * +EC2.7.1.146 adp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 98.0 * +EC2.7.1.146 d-fructose 1,6-bisphosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.45 * +EC2.7.1.146 d-fructose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 16.5 * +EC2.7.1.146 d-fructose 6-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 45.5 * +EC2.7.1.146 d-glucose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.45 * +EC2.7.1.146 d-glucose methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 23.0 * +EC2.7.1.147 adp methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 48.0 * +EC2.7.1.147 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 116.0 * +EC2.7.1.147 adp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 98.0 * +EC2.7.1.147 adp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 58.0 * +EC2.7.1.147 d-fructose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 16.5 * +EC2.7.1.147 d-glucose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.68 * +EC2.7.1.147 d-glucose methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 23.0 * +EC2.7.1.149 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC2.7.1.15 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.8 * +EC2.7.1.15 atp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 10.2 * +EC2.7.1.15 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 47.81 * +EC2.7.1.15 d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.4 * +EC2.7.1.15 d-ribose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 10.8 * +EC2.7.1.156 5'-deoxyadenosylcobinamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.251 * +EC2.7.1.156 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.191 * +EC2.7.1.157 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.7.1.157 n-acetyl-alpha-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.1.157 n-acetyl-alpha-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.7.1.157 n-acetyl-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.734 * +EC2.7.1.158 1d-myo-inositol 1,3,4,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.4581 * +EC2.7.1.158 1d-myo-inositol 1,4,5,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC2.7.1.158 1d-myo-inositol 3,4,5,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.105 * +EC2.7.1.159 1d-myo-inositol-1,3,4-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC2.7.1.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.84 * +EC2.7.1.16 d-ribitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 109.0 * +EC2.7.1.16 d-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 74.0 * +EC2.7.1.16 d-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC2.7.1.16 l-arabitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 64.0 * +EC2.7.1.16 l-ribulose clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 41.0 * +EC2.7.1.16 l-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.0 * +EC2.7.1.16 l-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC2.7.1.162 atp bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 1.1 * +EC2.7.1.162 atp bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 16.3 * +EC2.7.1.162 n-acetyl-alpha-d-galactosamine bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 0.46 * +EC2.7.1.162 n-acetyl-alpha-d-galactosamine bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 6.08 * +EC2.7.1.162 n-acetyl-alpha-d-glucosamine bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 0.95 * +EC2.7.1.162 n-acetyl-alpha-d-glucosamine bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 1.21 * +EC2.7.1.162 n-acetyl-d-glucosamine bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 9.9 * +EC2.7.1.163 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.7 * +EC2.7.1.163 hygromycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC2.7.1.164 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.069 * +EC2.7.1.164 l-seryl-trnasec methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.098 * +EC2.7.1.169 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.48 * +EC2.7.1.169 ctp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.47 * +EC2.7.1.169 gtp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.32 * +EC2.7.1.169 pantoate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.82 * +EC2.7.1.169 pantothenate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.21 * +EC2.7.1.169 utp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.11 * +EC2.7.1.17 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.7.1.17 d-arabitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 105.0 * +EC2.7.1.17 d-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 235.0 * +EC2.7.1.17 d-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6600.0 * +EC2.7.1.17 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC2.7.1.17 d-xylulose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.64 * +EC2.7.1.17 xylitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 237.0 * +EC2.7.1.170 1,6-anhydro-n-acetyl-beta-muramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7000.0 * +EC2.7.1.173 beta-d-ribosylnicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC2.7.1.173 beta-d-ribosylnicotinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC2.7.1.173 cytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC2.7.1.173 tiazofurin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC2.7.1.173 uridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.7.1.177 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.408 * +EC2.7.1.177 l-threonine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0427 * +EC2.7.1.178 2-dehydro-3-deoxy-d-galactonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.4 * +EC2.7.1.178 2-dehydro-3-deoxy-d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 60.8 * +EC2.7.1.178 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.8 * +EC2.7.1.185 (r)-mevalonate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 1.9 * +EC2.7.1.185 (r)-mevalonate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 5.3 * +EC2.7.1.186 (r)-3-phosphomevalonate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 9.0 * +EC2.7.1.189 1,2-dihydroxyheptane-3,4-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 5.8 * +EC2.7.1.189 1,2-dihydroxyhexane-3,4-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 5.8 * +EC2.7.1.189 1,2-dihydroxyoctane-3,4-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.5 * +EC2.7.1.189 4,5-dihydroxypentane-2,3-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 7.6 * +EC2.7.1.189 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 7.6 * +EC2.7.1.190 amikacin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 6.5 * +EC2.7.1.190 amikacin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.7 * +EC2.7.1.190 arbekacin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 4.3 * +EC2.7.1.190 arbekacin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.3 * +EC2.7.1.190 atp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.38 * +EC2.7.1.190 atp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 4.37 * +EC2.7.1.190 atp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.09 * +EC2.7.1.190 dibekacin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.79 * +EC2.7.1.190 dibekacin enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.7 * +EC2.7.1.190 dibekacin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.15 * +EC2.7.1.190 gentamicin c campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 8.3 * +EC2.7.1.190 gentamicin c enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.5 * +EC2.7.1.190 gentamicin c staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.0 * +EC2.7.1.190 gtp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.4 * +EC2.7.1.190 gtp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 5.03 * +EC2.7.1.190 gtp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.8 * +EC2.7.1.190 isepamicin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.25 * +EC2.7.1.190 itp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 2.1 * +EC2.7.1.190 kanamycin a campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 1.7 * +EC2.7.1.190 kanamycin a enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.8 * +EC2.7.1.190 kanamycin a staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.57 * +EC2.7.1.190 kanamycin b campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.38 * +EC2.7.1.190 kanamycin b staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.12 * +EC2.7.1.190 netilmicin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 18.0 * +EC2.7.1.190 netilmicin enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.7 * +EC2.7.1.190 netilmicin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.5 * +EC2.7.1.190 sisomicin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 17.0 * +EC2.7.1.190 sisomicin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 8.1 * +EC2.7.1.190 tobramycin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.48 * +EC2.7.1.190 tobramycin enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.7 * +EC2.7.1.190 tobramycin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.11 * +EC2.7.1.190 utp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.14 * +EC2.7.1.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 68.4 * +EC2.7.1.2 atp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 317.0 * +EC2.7.1.2 atp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1492.0 * +EC2.7.1.2 beta-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 166.0 * +EC2.7.1.2 d-glucose escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 410.0 * +EC2.7.1.2 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.6 * +EC2.7.1.2 d-glucose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 317.0 * +EC2.7.1.2 d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 92.6 * +EC2.7.1.2 d-glucose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1492.0 * +EC2.7.1.20 2'-deoxyadenosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 5.25 * +EC2.7.1.20 2'-deoxyadenosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC2.7.1.20 3'-deoxyadenosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 6.7 * +EC2.7.1.20 adenosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.63 * +EC2.7.1.20 adenosine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 13.0 * +EC2.7.1.20 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.1.20 adenosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 24.15 * +EC2.7.1.20 adenosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 25.5 * +EC2.7.1.20 adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.1 * +EC2.7.1.20 atp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.33 * +EC2.7.1.20 atp cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 2.6 * +EC2.7.1.20 atp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 24.15 * +EC2.7.1.20 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 7.3 * +EC2.7.1.20 cordycepin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.9 * +EC2.7.1.20 ctp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.062 * +EC2.7.1.20 ctp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 20.0 * +EC2.7.1.20 cytidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.02 * +EC2.7.1.20 deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 4.2 * +EC2.7.1.20 fludarabine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.11 * +EC2.7.1.20 gtp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 1.39 * +EC2.7.1.20 gtp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 16.0 * +EC2.7.1.20 guanosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.7.1.20 inosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.583 * +EC2.7.1.20 inosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.1 * +EC2.7.1.20 ribavirin cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.8 * +EC2.7.1.20 ttp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.3 * +EC2.7.1.20 uridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.67 * +EC2.7.1.20 utp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.061 * +EC2.7.1.20 utp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 18.0 * +EC2.7.1.20 viramidine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.26 * +EC2.7.1.209 d-erythrulose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.6 * +EC2.7.1.209 dihydroxyacetone mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.12 * +EC2.7.1.209 l-erythrulose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.79 * +EC2.7.1.21 (e)-5-(2-bromovinyl)-2'-deoxyuridine herpes simplex virus//*//* 0.0253 * +EC2.7.1.21 2',3'-didehydro-2',3'-dideoxythymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.03 * +EC2.7.1.21 2'-deoxythymidine canid alphaherpesvirus 1//*//* 6.47 * +EC2.7.1.21 2'-deoxythymidine felid alphaherpesvirus 1//*//* 23.0 * +EC2.7.1.21 2'-deoxythymidine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 262.0 * +EC2.7.1.21 2'-deoxythymidine vaccinia virus//*//* 220.0 * +EC2.7.1.21 2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 3.06 * +EC2.7.1.21 3'-azido-2',3'-dideoxythymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.17 * +EC2.7.1.21 3'-azido-3'-deoxythymidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.13 * +EC2.7.1.21 3'-azido-3'-deoxythymidine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 9.3 * +EC2.7.1.21 3'-azido-3'-deoxythymidine canid alphaherpesvirus 1//*//* 0.53 * +EC2.7.1.21 3'-azido-3'-deoxythymidine felid alphaherpesvirus 1//*//* 0.97 * +EC2.7.1.21 3'-azido-3'-deoxythymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC2.7.1.21 3'-azido-3'-deoxythymidine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.97 * +EC2.7.1.21 3'-azido-3'-deoxythymidine vaccinia virus//*//* 412.0 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylbutyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylbutyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylethyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylethyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylpropyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylpropyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC2.7.1.21 3-[1(2)-propyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC2.7.1.21 3-[1(2)-propyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.7.1.21 5-bromo-2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 3.47 * +EC2.7.1.21 5-fluoro-2'-deoxyuridine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.24 * +EC2.7.1.21 5-fluoro-2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 4.66 * +EC2.7.1.21 5-fluorodeoxyuridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.6 * +EC2.7.1.21 5-hydroxymethyl-2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 2.82 * +EC2.7.1.21 aciclovir monophosphate herpes simplex virus//*//* 0.238 * +EC2.7.1.21 acyclovir herpes simplex virus//*//* 0.015 * +EC2.7.1.21 atp cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.28 * +EC2.7.1.21 atp human gammaherpesvirus 4//*//* 2.0 * +EC2.7.1.21 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.9 * +EC2.7.1.21 beta-l-thymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.007 * +EC2.7.1.21 ctp human gammaherpesvirus 4//*//* 19.0 * +EC2.7.1.21 deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.047 * +EC2.7.1.21 deoxycytidine herpes simplex virus//*//* 1.4 * +EC2.7.1.21 deoxyguanosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.34 * +EC2.7.1.21 deoxyinosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.8 * +EC2.7.1.21 deoxyuridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.5 * +EC2.7.1.21 deoxyuridine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.53 * +EC2.7.1.21 deoxyuridine herpes simplex virus//*//* 1.3 * +EC2.7.1.21 deoxyuridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.3 * +EC2.7.1.21 ganciclovir monophosphate herpes simplex virus//*//* 0.0272 * +EC2.7.1.21 ganciclovir herpes simplex virus//*//* 0.47 * +EC2.7.1.21 gtp human gammaherpesvirus 4//*//* 21.0 * +EC2.7.1.21 thymidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.48 * +EC2.7.1.21 thymidine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 6.4 * +EC2.7.1.21 thymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.28 * +EC2.7.1.21 thymidine herpes simplex virus//*//* 0.46 * +EC2.7.1.21 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 282.0 * +EC2.7.1.21 thymidine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.5 * +EC2.7.1.21 trifluoromethylthymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.36 * +EC2.7.1.21 ttp human gammaherpesvirus 4//*//* 11.0 * +EC2.7.1.21 uridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.44 * +EC2.7.1.21 uridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.5 * +EC2.7.1.210 d-erythrulose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.88 * +EC2.7.1.210 dihydroxyacetone mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.063 * +EC2.7.1.212 2-deoxy-alpha-d-ribose 1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 73.0 * +EC2.7.1.212 2-deoxy-alpha-d-ribose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 73.0 * +EC2.7.1.212 adp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 856.0 * +EC2.7.1.212 alpha-d-ribose 1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 485.0 * +EC2.7.1.212 alpha-d-ribose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 485.0 * +EC2.7.1.212 gdp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 189.0 * +EC2.7.1.213 3'-deoxycytidine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 226.0 * +EC2.7.1.213 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 222.0 * +EC2.7.1.213 cytidine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 280.0 * +EC2.7.1.214 validone streptomyces hygroscopicus subsp. jinggangensis//prokaryotes;bacteria;actinobacteria;streptomyces//shy 7.3 * +EC2.7.1.214 valienone streptomyces hygroscopicus subsp. jinggangensis//prokaryotes;bacteria;actinobacteria;streptomyces//shy 3.5 * +EC2.7.1.215 atp brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 230.0 * +EC2.7.1.215 meso-erythritol brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 230.0 * +EC2.7.1.22 nicotinamide mononucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.92 * +EC2.7.1.23 adp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.3 * +EC2.7.1.23 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.36 * +EC2.7.1.23 atp corynebacterium glutamicum subsp. lactofermentum//*//* 2.54 * +EC2.7.1.23 atp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 29.2 * +EC2.7.1.23 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.68 * +EC2.7.1.23 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 55.0 * +EC2.7.1.23 atp listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 13.78 * +EC2.7.1.23 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 399.0 * +EC2.7.1.23 atp sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 30.33 * +EC2.7.1.23 fructose-1,6-bisphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 212.0 * +EC2.7.1.23 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.46 * +EC2.7.1.23 nad+ corynebacterium glutamicum subsp. lactofermentum//*//* 3.8 * +EC2.7.1.23 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 27.1 * +EC2.7.1.23 nad+ entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.9 * +EC2.7.1.23 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 125.0 * +EC2.7.1.23 nad+ listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 13.12 * +EC2.7.1.23 nad+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 424.0 * +EC2.7.1.23 nad+ sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 2.95 * +EC2.7.1.23 nadh entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.9 * +EC2.7.1.23 nadp+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 212.0 * +EC2.7.1.23 nadph methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 236.0 * +EC2.7.1.23 polyphosphate(20) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 7.8 * +EC2.7.1.23 polyphosphate(25) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 7.3 * +EC2.7.1.23 polyphosphate(45) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.4 * +EC2.7.1.23 polyphosphate(65) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.4 * +EC2.7.1.23 polyphosphate(75) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.8 * +EC2.7.1.23 tetraphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 8.7 * +EC2.7.1.23 triphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.0 * +EC2.7.1.24 3'-dephospho-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0293 * +EC2.7.1.24 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0481 * +EC2.7.1.25 adenosine 5'-o-(3-thiotriphosphate) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC2.7.1.25 adenosine 5'-phosphosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 272.0 * +EC2.7.1.25 adenosine 5-phosphosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC2.7.1.25 adenosine-5'-phosphosulfate oryza sativa//eukaryotes;plants;monocots;grass family//osa 5.0 * +EC2.7.1.25 adenylyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.364 * +EC2.7.1.25 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC2.7.1.26 atp corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 6.8 * +EC2.7.1.26 mgatp2- neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC2.7.1.26 riboflavin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.7 * +EC2.7.1.26 riboflavin corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 6.8 * +EC2.7.1.26 riboflavin neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC2.7.1.26 riboflavin streptomyces davawensis//*//* 0.3 * +EC2.7.1.26 roseoflavin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC2.7.1.26 roseoflavin streptomyces davawensis//*//* 0.5 * +EC2.7.1.27 atp brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 230.0 * +EC2.7.1.27 meso-erythritol brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 230.0 * +EC2.7.1.28 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.59 * +EC2.7.1.28 d-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.83 * +EC2.7.1.28 dihydroxyacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC2.7.1.29 atp citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 24.02 * +EC2.7.1.29 d,l-glyceraldehyde citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 5.17 * +EC2.7.1.29 dihydroxyacetone citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 24.13 * +EC2.7.1.29 dihydroxyacetone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.45 * +EC2.7.1.29 glycerone phosphate citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 17.5 * +EC2.7.1.29 glycerone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.8 * +EC2.7.1.3 d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC2.7.1.3 d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC2.7.1.3 d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC2.7.1.3 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.1 * +EC2.7.1.3 l-sorbose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5 * +EC2.7.1.30 glycerol candida mycoderma//*//* 1670.0 * +EC2.7.1.30 glycerol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 4900.0 * +EC2.7.1.31 d-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 350.0 * +EC2.7.1.31 d-glycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 200.0 * +EC2.7.1.32 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.39 * +EC2.7.1.32 choline caenorhabditis elegans//eukaryotes;animals;nematodes//cel 74.0 * +EC2.7.1.32 choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 76.83 * +EC2.7.1.32 choline saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.55 * +EC2.7.1.32 choline streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 5.1 * +EC2.7.1.32 choline trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 12.91 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-[[2-oxo-2-(pentylamino)ethyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-[[3-(morpholin-4-yl)propyl]amino]-3-oxopropyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.03 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-oxo-3-[[(piperidin-4-yl)methyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.19 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-oxo-3-[[2-(piperazin-1-yl)ethyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.75 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-oxo-3-[[2-(pyridin-2-yl)ethyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.15 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[(1-pentyl-1h-1,2,3-triazol-4-yl)methyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.96 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-(1-propyl-1h-1,2,3-triazol-4-yl)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.49 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-[(3-methylpyridin-2-yl)amino]-3-oxopropyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-(pentylamino)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.93 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-(phenylamino)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.02 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-(pyrimidin-4-ylamino)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.44 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(3-phenylpropyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.13 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(pyridin-2-ylmethyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.02 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(pyridin-3-ylmethyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.24 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(pyridin-4-ylmethyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.94 * +EC2.7.1.33 (2r)-2,4-dihydroxy-n-(3-[[3-(1h-imidazol-1-yl)propyl]amino]-3-oxopropyl)-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.46 * +EC2.7.1.33 (2r)-n-[3-(1,3-dihydro-2h-isoindol-2-yl)-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC2.7.1.33 (2r)-n-[3-(2,3-dihydro-1h-indol-1-yl)-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.7.1.33 (2r)-n-[3-(benzylamino)-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.15 * +EC2.7.1.33 (2r)-n-[3-[(2-butanamidoethyl)amino]-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.09 * +EC2.7.1.33 (2s)-2-hydroxy-3-(hydroxymethyl)-3-methyl-n-[3-oxo-3-(pentylamino)propyl]pentanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.17 * +EC2.7.1.33 (2s)-3-ethyl-2-hydroxy-3-(hydroxymethyl)-n-[3-oxo-3-(pentylamino)propyl]hept-6-ynamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.04 * +EC2.7.1.33 (2s)-3-ethyl-2-hydroxy-3-(hydroxymethyl)-n-[3-oxo-3-(pentylamino)propyl]hex-5-enamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.89 * +EC2.7.1.33 (r)-pantothenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.12 * +EC2.7.1.33 (r)-pantothenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.07 * +EC2.7.1.33 (r)-pantothenate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.09 * +EC2.7.1.33 (r)-pantothenate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.7 * +EC2.7.1.33 (r)-pantothenate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.29 * +EC2.7.1.33 3-[[(2r)-2,4-dihydroxy-3,3-dimethylbutanoyl]amino]-2-(pentylamino)propanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC2.7.1.33 atp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.5 * +EC2.7.1.33 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.12 * +EC2.7.1.33 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.14 * +EC2.7.1.33 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.09 * +EC2.7.1.33 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.65 * +EC2.7.1.33 atp picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.718 * +EC2.7.1.33 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.6 * +EC2.7.1.33 ctp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.5 * +EC2.7.1.33 datp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.9 * +EC2.7.1.33 dctp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.5 * +EC2.7.1.33 dgtp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.8 * +EC2.7.1.33 dttp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.4 * +EC2.7.1.33 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.064 * +EC2.7.1.33 n-[(2r)-2,4-dihydroxy-3,3-dimethylbutanoyl]-beta-alanyl-n-pentylglycinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.12 * +EC2.7.1.33 n-heptylpantothenamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.425 * +EC2.7.1.33 n-pentylpantothenamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.15 * +EC2.7.1.33 pantheteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.03 * +EC2.7.1.33 pantothenate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.62 * +EC2.7.1.33 pantothenate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.818 * +EC2.7.1.33 pantothenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.4 * +EC2.7.1.33 utp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.7 * +EC2.7.1.35 4'-deoxypyridoxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC2.7.1.35 4'-o-methylpyridoxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.7.1.35 4-amino-5-hydroxymethyl-2-methylpyrimidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.36 * +EC2.7.1.35 4-amino-5-hydroxymethyl-2-methylpyrimidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.045 * +EC2.7.1.35 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 1.23 * +EC2.7.1.35 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.7.1.35 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.3 * +EC2.7.1.35 ginkgotoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.7.1.35 ginkgotoxin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 106.0 * +EC2.7.1.35 pyridoxal bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.032 * +EC2.7.1.35 pyridoxal bombyx mori//eukaryotes;animals;arthropods;insects//bmor 1.35 * +EC2.7.1.35 pyridoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC2.7.1.35 pyridoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC2.7.1.35 pyridoxal plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.05 * +EC2.7.1.35 pyridoxal plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.073 * +EC2.7.1.35 pyridoxal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.7.1.35 pyridoxal staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.165 * +EC2.7.1.35 pyridoxal trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 131.0 * +EC2.7.1.35 pyridoxal trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.015 * +EC2.7.1.35 pyridoxamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.7.1.35 pyridoxamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC2.7.1.35 pyridoxamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.03 * +EC2.7.1.35 pyridoxamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 127.0 * +EC2.7.1.35 pyridoxine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.7.1.35 pyridoxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC2.7.1.35 pyridoxine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.11 * +EC2.7.1.35 pyridoxine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.016 * +EC2.7.1.35 pyridoxine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 122.0 * +EC2.7.1.36 (r)-mevalonate bacopa monnieri//*//* 143.8 * +EC2.7.1.36 (r)-mevalonate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 28.5 * +EC2.7.1.36 (r)-mevalonate methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 4.3 * +EC2.7.1.36 (r)-mevalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 21.9 * +EC2.7.1.36 atp aedes aegypti//eukaryotes;animals;arthropods;insects//aag 10.1 * +EC2.7.1.36 atp bacopa monnieri//*//* 150.9 * +EC2.7.1.39 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 40.8 * +EC2.7.1.39 d-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC2.7.1.39 l-2-amino-1,4-butanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.1.39 l-2-amino-5-hydroxyvalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.7.1.39 l-aspartate beta-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC2.7.1.39 l-homoserine ethyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.6 * +EC2.7.1.39 l-homoserine isobutyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.4 * +EC2.7.1.39 l-homoserine isopropyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.6 * +EC2.7.1.39 l-homoserine methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.7 * +EC2.7.1.39 l-homoserine n-butyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.1 * +EC2.7.1.39 l-homoserine n-propyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC2.7.1.39 l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.3 * +EC2.7.1.39 l-homoserine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.75 * +EC2.7.1.39 l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 40.2 * +EC2.7.1.4 d-fructose entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 14.3 * +EC2.7.1.4 d-fructose zea mays//eukaryotes;plants;monocots;grass family//zma 8897.0 * +EC2.7.1.40 adp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 80.29 * +EC2.7.1.40 adp thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.2 * +EC2.7.1.40 adp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 47.6 * +EC2.7.1.40 gdp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 110.0 * +EC2.7.1.40 idp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 131.0 * +EC2.7.1.40 phosphoenolpyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3204.0 * +EC2.7.1.40 phosphoenolpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1182.0 * +EC2.7.1.40 phosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 232.0 * +EC2.7.1.40 phosphoenolpyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 73.04 * +EC2.7.1.40 phosphoenolpyruvate thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 1.0 * +EC2.7.1.43 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.5 * +EC2.7.1.43 d-glucuronic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.3 * +EC2.7.1.45 2-dehydro-3-deoxy-d-gluconate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 8.26 * +EC2.7.1.45 2-dehydro-3-deoxy-d-gluconate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 11.0 * +EC2.7.1.45 2-keto-d-gluconate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 26.3 * +EC2.7.1.45 2-keto-d-gluconate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.2 * +EC2.7.1.48 cytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC2.7.1.48 cytidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0041 * +EC2.7.1.49 2-methyl-4-amino-5-hydroxymethylpyrimidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.43 * +EC2.7.1.49 2-methyl-4-amino-5-hydroxymethylpyrimidine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.07 * +EC2.7.1.49 4-amino-5-hydroxymethyl-2-methylpyrimidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.045 * +EC2.7.1.49 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.43 * +EC2.7.1.49 pyridoxal staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.165 * +EC2.7.1.49 pyridoxine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC2.7.1.49 pyridoxine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.016 * +EC2.7.1.52 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.38 * +EC2.7.1.52 atp vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.22 * +EC2.7.1.52 l-fucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.34 * +EC2.7.1.52 l-fucose mortierella alpina//*//* 23.35 * +EC2.7.1.59 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.586 * +EC2.7.1.59 d-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.69 * +EC2.7.1.59 n-acetyl-d-galactosamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.161 * +EC2.7.1.59 n-acetyl-d-glucosamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.347 * +EC2.7.1.59 n-acetyl-d-glucosamine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.03 * +EC2.7.1.59 n-acetyl-d-glucosamine clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 65.0 * +EC2.7.1.59 n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0325 * +EC2.7.1.6 2-amino-deoxy-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.195 * +EC2.7.1.6 2-deoxy-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.1.6 2-deoxy-d-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.01 * +EC2.7.1.6 3-deoxy-3-methyl-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.085 * +EC2.7.1.6 6-deoxy-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0483 * +EC2.7.1.6 alpha-d-galactose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 11.0 * +EC2.7.1.6 alpha-d-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC2.7.1.6 atp bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 146.0 * +EC2.7.1.6 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7 * +EC2.7.1.6 atp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.91 * +EC2.7.1.6 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 55.8 * +EC2.7.1.6 d-galactose bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 146.0 * +EC2.7.1.6 d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7 * +EC2.7.1.6 d-galactose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.91 * +EC2.7.1.6 d-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 55.8 * +EC2.7.1.6 d-galactose streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.61 * +EC2.7.1.6 d-galactose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.38 * +EC2.7.1.6 d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.034 * +EC2.7.1.6 d-glucose streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.1 * +EC2.7.1.6 n-acetyl-d-galactosamine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.36 * +EC2.7.1.63 (phosphate)120 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 11.3 * +EC2.7.1.63 (phosphate)15 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 6.0 * +EC2.7.1.63 (phosphate)20 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 8.5 * +EC2.7.1.63 (phosphate)25 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 10.0 * +EC2.7.1.63 (phosphate)4 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.5 * +EC2.7.1.63 (phosphate)45 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 8.3 * +EC2.7.1.63 (phosphate)45 nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 48.2 * +EC2.7.1.63 (phosphate)5 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.2 * +EC2.7.1.63 (phosphate)6 streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.31 * +EC2.7.1.63 (phosphate)65 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 11.6 * +EC2.7.1.63 (phosphate)75 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 15.4 * +EC2.7.1.63 (phosphate)n anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 48.2 * +EC2.7.1.63 (phosphate)n streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.3 * +EC2.7.1.63 atp acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 63.0 * +EC2.7.1.63 atp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC2.7.1.63 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 116.0 * +EC2.7.1.63 atp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 25.0 * +EC2.7.1.63 ctp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.1 * +EC2.7.1.63 ctp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 7.4 * +EC2.7.1.63 d-glucose anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 48.2 * +EC2.7.1.63 d-glucose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.3 * +EC2.7.1.63 d-glucose thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 136.0 * +EC2.7.1.63 d-mannose nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.21 * +EC2.7.1.63 datp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 14.0 * +EC2.7.1.63 glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 116.0 * +EC2.7.1.63 gtp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.3 * +EC2.7.1.63 gtp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 11.0 * +EC2.7.1.63 itp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.3 * +EC2.7.1.63 mannose anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.21 * +EC2.7.1.63 poly(p30) microlunatus phosphovorus//prokaryotes;bacteria;actinobacteria;microlunatus//mph 270.0 * +EC2.7.1.63 poly(p31) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 56.0 * +EC2.7.1.63 poly(p35) acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 55.0 * +EC2.7.1.63 poly(p35) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 196.0 * +EC2.7.1.63 poly(p35) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 57.0 * +EC2.7.1.63 poly(p400) acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 41.0 * +EC2.7.1.63 poly(p400) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 163.0 * +EC2.7.1.63 poly(p400) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 371.0 * +EC2.7.1.63 poly(p700) microlunatus phosphovorus//prokaryotes;bacteria;actinobacteria;microlunatus//mph 183.0 * +EC2.7.1.63 poly(p8) microlunatus phosphovorus//prokaryotes;bacteria;actinobacteria;microlunatus//mph 87.0 * +EC2.7.1.63 utp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.3 * +EC2.7.1.63 utp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 7.0 * +EC2.7.1.64 d-allose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 18.3 * +EC2.7.1.64 d-lyxose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.9 * +EC2.7.1.64 d-ribose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 5.1 * +EC2.7.1.64 d-tagatose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.5 * +EC2.7.1.64 d-talose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 13.1 * +EC2.7.1.64 d-xylose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 5.6 * +EC2.7.1.64 d-xylulose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 11.6 * +EC2.7.1.64 myo-inositol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 23.2 * +EC2.7.1.67 1-phosphatidyl-1d-myo-inositol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.77 * +EC2.7.1.67 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.77 * +EC2.7.1.71 atp dickeya chrysanthemi//*//* 35.0 * +EC2.7.1.71 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 60.0 * +EC2.7.1.71 shikimate acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 21.4 * +EC2.7.1.71 shikimate dickeya chrysanthemi//*//* 35.0 * +EC2.7.1.71 shikimate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 60.0 * +EC2.7.1.72 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC2.7.1.72 streptomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC2.7.1.74 (-)-beta-2',3'-dideoxy-3'-thiacytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC2.7.1.74 1-beta-d-arabinofuranosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.7.1.74 1-beta-d-arabinosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC2.7.1.74 2',2'-difluorodeoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC2.7.1.74 2'-deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC2.7.1.74 2'-deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.7.1.74 2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.26 * +EC2.7.1.74 2,5-difluoro-4-[1-(2-deoxy-beta-l-ribofuranosyl)]-aniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.1.74 2-chlorodeoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.7.1.74 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.7.1.74 cladribine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.172 * +EC2.7.1.74 clofarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.11 * +EC2.7.1.74 cytarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.7.1.74 deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC2.7.1.74 deoxycytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 78300.0 * +EC2.7.1.74 fludarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.334 * +EC2.7.1.74 gemcitabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC2.7.1.74 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.7.1.74 troxacitabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC2.7.1.74 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.179 * +EC2.7.1.76 2',2'-difluorodeoxycytidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.19 * +EC2.7.1.76 2'-deoxyadenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.7 * +EC2.7.1.76 2'-deoxyadenosine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.82 * +EC2.7.1.76 2'-deoxycytidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.56 * +EC2.7.1.76 2'-fluoro-arabinosyl adenine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.3 * +EC2.7.1.76 atp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.84 * +EC2.7.1.76 ctp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.62 * +EC2.7.1.76 deoxyadenosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.22 * +EC2.7.1.76 deoxyadenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.7 * +EC2.7.1.76 deoxyadenosine mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 1.48 * +EC2.7.1.76 deoxycytidine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.55 * +EC2.7.1.76 deoxycytidine mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 1.23 * +EC2.7.1.76 deoxyguanosine mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.61 * +EC2.7.1.76 fludarabine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.3 * +EC2.7.1.76 gemcitabine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.17 * +EC2.7.1.76 thymidine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 8.1 * +EC2.7.1.76 ttp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 1.64 * +EC2.7.1.76 utp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.36 * +EC2.7.1.77 1-naphthyl phosphate hordeum vulgare//*//* 2.6 * +EC2.7.1.77 2-naphthyl phosphate hordeum vulgare//*//* 30.0 * +EC2.7.1.77 3'-amp hordeum vulgare//*//* 6.8 * +EC2.7.1.77 3'-ump hordeum vulgare//*//* 12.0 * +EC2.7.1.77 4-nitrophenyl phosphate hordeum vulgare//*//* 77.0 * +EC2.7.1.77 5'-amp hordeum vulgare//*//* 41.0 * +EC2.7.1.77 5'-ump hordeum vulgare//*//* 67.0 * +EC2.7.1.77 adenosine-5'-phosphorothionate hordeum vulgare//*//* 0.4 * +EC2.7.1.78 3'-cmp mycobacterium virus cjw1//*//* 0.008 * +EC2.7.1.78 3'-cmp mycobacterium virus omega//*//* 1.6 * +EC2.7.1.78 5'-dephospho-gaaaa-rna caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.6 * +EC2.7.1.78 5'-dephospho-gc-rna caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.9 * +EC2.7.1.78 5'-ho-ccgaccaacgaaggt ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.072 * +EC2.7.1.78 5'-oh dna pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.077 * +EC2.7.1.78 5'-phospho-dna pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00083 * +EC2.7.1.78 [gamma-s]atp synthetic ribozyme//*//* 0.00283 * +EC2.7.1.78 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.9 * +EC2.7.1.78 atp mycobacterium virus cjw1//*//* 0.0043 * +EC2.7.1.78 atp mycobacterium virus omega//*//* 0.2 * +EC2.7.1.78 atp synthetic ribozyme//*//* 5e-05 * +EC2.7.1.78 atp unidentified baculovirus//*//* 0.023 * +EC2.7.1.78 gggcc(ag)10ggccc-fluorescein enterobacteria phage t4//*//* 198.0 * +EC2.7.1.78 r(a20) rhodothermus phage rm378//*//* 2.6 * +EC2.7.1.82 ethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC2.7.1.82 ethanolamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 12.9 * +EC2.7.1.86 atp fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.84 * +EC2.7.1.86 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.4 * +EC2.7.1.86 nadh fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.95 * +EC2.7.1.86 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.1 * +EC2.7.1.90 d-fructose 6-phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 330.0 * +EC2.7.1.90 diphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 330.0 * +EC2.7.1.90 diphosphate giardia intestinalis//*//* 83.0 * +EC2.7.1.90 phosphate giardia intestinalis//*//* 83.0 * +EC2.7.1.91 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0427 * +EC2.7.1.95 atp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 1.59 * +EC2.7.1.95 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.76 * +EC2.7.1.95 kanamycin a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.79 * +EC2.7.1.B20 adenosine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.084 * +EC2.7.1.B20 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.17 * +EC2.7.1.B20 cytidine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.064 * +EC2.7.1.B20 gtp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.27 * +EC2.7.1.B20 guanosine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.072 * +EC2.7.1.B20 inosine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.16 * +EC2.7.1.B26 1-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.03 * +EC2.7.1.B26 2'-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.39 * +EC2.7.1.B26 3-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.16 * +EC2.7.1.B26 6'-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.278 * +EC2.7.1.B26 amikacin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 2.46 * +EC2.7.1.B26 amikacin micromonospora echinospora//*//* 0.12 * +EC2.7.1.B26 atp enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.76 * +EC2.7.1.B26 kanamycin a enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.79 * +EC2.7.1.B26 kanamycin a micromonospora echinospora//*//* 0.125 * +EC2.7.1.B26 kanamycin b micromonospora echinospora//*//* 0.07 * +EC2.7.1.B26 neamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 2.0 * +EC2.7.1.B26 neomycin b enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 2.08 * +EC2.7.1.B26 neomycin b micromonospora echinospora//*//* 0.122 * +EC2.7.10.2 [kdsrc kinase]-l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC2.7.10.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.0 * +EC2.7.10.2 atp monosiga brevicollis//eukaryotes;protists;choanoflagellates//mbr 0.37 * +EC2.7.10.2 eeeey homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.27 * +EC2.7.10.2 eeeeyiq[dp]-8-hydroxy-5-(n,n-dimethylsulfonamido)-2-methylquinoline-g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 396.0 * +EC2.7.10.2 kdsrc kinase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.88 * +EC2.7.10.2 poly(glu4-tyr) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.49 * +EC2.7.11.1 atp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00016 * +EC2.7.11.1 gtp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 6e-05 * +EC2.7.11.11 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 19.6 * +EC2.7.11.11 leu-arg-arg-ala-ser-leu-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 19.0 * +EC2.7.11.14 rhodopsin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.11.15 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0029 * +EC2.7.11.17 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.9 * +EC2.7.11.17 biotinylated thr-arg-ser-ala-ile-arg-arg-ala-ser-thr-ile-glu-met-pro-gln-gln-ala-arg-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.9 * +EC2.7.11.17 myelin basic protein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.17 * +EC2.7.11.18 [non-muscle heavy meromyosin iib] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 8.0 * +EC2.7.11.18 [non-muscle regulatory light chain] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 12.6 * +EC2.7.11.18 [smooth muscle heavy meromyosin] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 12.8 * +EC2.7.11.18 [smooth muscle regulatory light chain] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 28.6 * +EC2.7.11.18 myosin light chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.17 * +EC2.7.11.18 myosin light chain oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 88.0 * +EC2.7.11.19 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 97.0 * +EC2.7.11.19 glycogen phosphorylase b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 134.0 * +EC2.7.11.19 melittin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0983 * +EC2.7.11.19 phosphorylase b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 104.0 * +EC2.7.11.19 tetradecapeptide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 23.6 * +EC2.7.11.2 [pyruvate dehydrogenase (lipoamide)] rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.277 * +EC2.7.11.2 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.533 * +EC2.7.11.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.15 * +EC2.7.11.2 pyruvate dehydrogenase arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.55 * +EC2.7.11.2 pyruvate dehydrogenase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC2.7.11.21 atp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.01311 * +EC2.7.11.21 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01386 * +EC2.7.11.21 cdc25c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0094 * +EC2.7.11.22 adaqhatppkkkrkvedpkdf saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.15 * +EC2.7.11.22 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.7.11.22 fin1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC2.7.11.24 atf2delta109 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.7 * +EC2.7.11.24 egf receptor peptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 31.6 * +EC2.7.11.24 elkerk synthetic construct//*//* 2.3 * +EC2.7.11.24 erkmek1 synthetic construct//*//* 2.83 * +EC2.7.11.24 erkmek2 synthetic construct//*//* 3.0 * +EC2.7.11.24 erkste7 synthetic construct//*//* 2.67 * +EC2.7.11.24 erksub synthetic construct//*//* 9.5 * +EC2.7.11.24 mek1erk synthetic construct//*//* 9.5 * +EC2.7.11.24 mek2erk synthetic construct//*//* 16.67 * +EC2.7.11.24 protein atf2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.98 * +EC2.7.11.24 scrammmek2 synthetic construct//*//* 2.94 * +EC2.7.11.24 ste7erk synthetic construct//*//* 2.83 * +EC2.7.11.25 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.7.11.25 mek homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.7.11.4 phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.475 * +EC2.7.11.7 akrvsmmr dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 5.4 * +EC2.7.11.7 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC2.7.11.7 grgrssvys acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 71.0 * +EC2.7.11.7 grsarvstya dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 4.7 * +EC2.7.11.7 rkkfgesektktkefl-amide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.79 * +EC2.7.11.7 yaydtryrr dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 14.0 * +EC2.7.12.1 atp arachis hypogaea//*//* 5.25 * +EC2.7.12.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC2.7.12.2 erk2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.503 * +EC2.7.12.2 k52r-[erk2] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.074 * +EC2.7.12.2 k53m-[p38alpha] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.152 * +EC2.7.12.2 p38alpha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.243 * +EC2.7.2.1 acetate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 280.0 * +EC2.7.2.1 acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1420.0 * +EC2.7.2.1 acetate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 761.0 * +EC2.7.2.1 acetate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1042.0 * +EC2.7.2.1 acetate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 233.0 * +EC2.7.2.1 acetate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1180.0 * +EC2.7.2.1 acetate shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 385.0 * +EC2.7.2.1 acetyl phosphate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 875.0 * +EC2.7.2.1 acetyl phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 700.0 * +EC2.7.2.1 acetyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3600.0 * +EC2.7.2.1 acetyl phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1105.0 * +EC2.7.2.1 acetyl phosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 2680.0 * +EC2.7.2.1 acetyl phosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 3167.0 * +EC2.7.2.1 acetyl phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1764.0 * +EC2.7.2.1 acetyl phosphate shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2100.0 * +EC2.7.2.1 adp acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 1000.0 * +EC2.7.2.1 adp clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 532.0 * +EC2.7.2.1 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3515.0 * +EC2.7.2.1 adp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1260.0 * +EC2.7.2.1 adp methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 1.28 * +EC2.7.2.1 adp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1750.0 * +EC2.7.2.1 adp shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2135.0 * +EC2.7.2.1 atp acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 268.0 * +EC2.7.2.1 atp clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 238.0 * +EC2.7.2.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1500.0 * +EC2.7.2.1 atp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1055.0 * +EC2.7.2.1 atp methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 2.36 * +EC2.7.2.1 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1170.0 * +EC2.7.2.1 atp shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 350.0 * +EC2.7.2.1 butyrate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.18 * +EC2.7.2.1 ctp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 460.0 * +EC2.7.2.1 formate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 880.0 * +EC2.7.2.1 gtp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 571.0 * +EC2.7.2.1 itp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 742.0 * +EC2.7.2.1 propionate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 218.0 * +EC2.7.2.1 propionate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 940.0 * +EC2.7.2.1 ttp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 540.0 * +EC2.7.2.1 utp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 415.0 * +EC2.7.2.12 acetate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.76 * +EC2.7.2.12 acetyl phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1939.0 * +EC2.7.2.12 butyrate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.33 * +EC2.7.2.12 diphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.6 * +EC2.7.2.12 hexanoate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.051 * +EC2.7.2.12 propionate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.16 * +EC2.7.2.12 valerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.19 * +EC2.7.2.15 acetate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 120.0 * +EC2.7.2.15 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 120.0 * +EC2.7.2.15 butyrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 60.0 * +EC2.7.2.15 ctp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 73.0 * +EC2.7.2.15 gtp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 113.0 * +EC2.7.2.15 propanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 108.0 * +EC2.7.2.15 utp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 81.0 * +EC2.7.2.2 adp giardia intestinalis//*//* 319.0 * +EC2.7.2.2 carbamate giardia intestinalis//*//* 43.0 * +EC2.7.2.2 carbamoyl phosphate giardia intestinalis//*//* 319.0 * +EC2.7.2.3 2'-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC2.7.2.3 2'-dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.0 * +EC2.7.2.3 3-phospho-d-glycerate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 84.7 * +EC2.7.2.3 3-phospho-d-glycerate hippoglossus stenolepis//*//* 570.0 * +EC2.7.2.3 3-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 833.0 * +EC2.7.2.3 3-phospho-d-glycerate methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 339.0 * +EC2.7.2.3 3-phospho-d-glycerate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 540.0 * +EC2.7.2.3 3-phospho-d-glycerate pyrococcus woesei//*//* 916.0 * +EC2.7.2.3 3-phospho-d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 354.0 * +EC2.7.2.3 3-phospho-d-glyceroyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2633.0 * +EC2.7.2.3 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2633.0 * +EC2.7.2.3 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 963.1 * +EC2.7.2.3 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 83.4 * +EC2.7.2.3 atp hippoglossus stenolepis//*//* 570.0 * +EC2.7.2.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 833.0 * +EC2.7.2.3 atp methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 338.9 * +EC2.7.2.3 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 519.0 * +EC2.7.2.3 atp pyrococcus woesei//*//* 916.0 * +EC2.7.2.3 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 354.0 * +EC2.7.2.3 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC2.7.2.3 d-adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 200.0 * +EC2.7.2.3 d-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 500.0 * +EC2.7.2.3 d-gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 420.0 * +EC2.7.2.3 l-adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 685.0 * +EC2.7.2.3 l-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 100.0 * +EC2.7.2.3 l-gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC2.7.2.4 aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.333 * +EC2.7.2.4 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 23.4 * +EC2.7.2.4 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 15.87 * +EC2.7.2.4 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 49.3 * +EC2.7.2.4 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 15.25 * +EC2.7.2.4 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 56.7 * +EC2.7.2.4 l-aspartate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 245.0 * +EC2.7.2.4 l-aspartate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 227.0 * +EC2.7.2.4 l-aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 25.0 * +EC2.7.2.8 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.7 * +EC2.7.2.8 n-acetyl-l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 187.5 * +EC2.7.2.8 n-acetyl-l-glutamate corynebacterium crenatum//*//* 45.1 * +EC2.7.2.8 n-acetyl-l-glutamate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 45.1 * +EC2.7.2.8 n-acetyl-l-glutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.9 * +EC2.7.2.8 n-acetyl-l-glutamate synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 40.4 * +EC2.7.3.1 glycocyamine namalycastis sp.//*//* 25.3 * +EC2.7.3.2 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 483.3 * +EC2.7.3.2 adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 370.0 * +EC2.7.3.2 alpha-(rp)-borano substituted adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.06 * +EC2.7.3.2 alpha-(sp)-borano substituted adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC2.7.3.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 215.0 * +EC2.7.3.2 atp physeter catodon//*//* 38.4 * +EC2.7.3.2 creatine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 159.0 * +EC2.7.3.2 creatine dendronephthya gigantea//*//* 41.3 * +EC2.7.3.2 creatine hediste diversicolor//*//* 27.9 * +EC2.7.3.2 creatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 417.0 * +EC2.7.3.2 creatine lethenteron camtschaticum//*//* 25.2 * +EC2.7.3.2 creatine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.3 * +EC2.7.3.2 creatine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 148.0 * +EC2.7.3.2 creatine physeter catodon//*//* 38.4 * +EC2.7.3.2 cyclocreatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.2 * +EC2.7.3.2 mgatp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 148.0 * +EC2.7.3.2 n-ethylglycocyamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.5 * +EC2.7.3.2 phosphocreatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 483.3 * +EC2.7.3.3 adp desulfotalea psychrophila//prokaryotes;bacteria;deltaproteobacteria;desulfotalea//dps 1.11 * +EC2.7.3.3 adp limulus polyphemus//*//* 140.0 * +EC2.7.3.3 atp anthopleura japonica//*//* 129.0 * +EC2.7.3.3 atp apostichopus japonicus//*//* 25.7 * +EC2.7.3.3 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 180.0 * +EC2.7.3.3 atp calyptogena kaikoi//*//* 22.9 * +EC2.7.3.3 atp cissites cephalotes//*//* 2.02 * +EC2.7.3.3 atp corbicula japonica//*//* 73.3 * +EC2.7.3.3 atp crassostrea sp.//*//* 47.5 * +EC2.7.3.3 atp locusta migratoria manilensis//*//* 163.0 * +EC2.7.3.3 atp myzostoma cirriferum//*//* 38.9 * +EC2.7.3.3 atp sabellastarte spectabilis//*//* 39.5 * +EC2.7.3.3 atp sulfurovum lithotrophicum//prokaryotes;bacteria;epsilonproteobacteria;sulfurovum//slh 88.0 * +EC2.7.3.3 atp tetrahymena pyriformis//*//* 104.0 * +EC2.7.3.3 atp toxocara canis//*//* 29.18 * +EC2.7.3.3 d-arg sabellastarte spectabilis//*//* 40.8 * +EC2.7.3.3 l-arg anthopleura japonica//*//* 678.0 * +EC2.7.3.3 l-arg apostichopus japonicus//*//* 29.93 * +EC2.7.3.3 l-arg ascaris suum//*//* 45.9 * +EC2.7.3.3 l-arg calyptogena kaikoi//*//* 13.7 * +EC2.7.3.3 l-arg cissites cephalotes//*//* 2.02 * +EC2.7.3.3 l-arg corbicula japonica//*//* 73.3 * +EC2.7.3.3 l-arg locusta migratoria manilensis//*//* 163.0 * +EC2.7.3.3 l-arg manduca sexta//*//* 139.0 * +EC2.7.3.3 l-arg sabellastarte spectabilis//*//* 46.0 * +EC2.7.3.3 l-arg toxocara canis//*//* 81.0 * +EC2.7.3.3 l-arginine apostichopus japonicus//*//* 25.7 * +EC2.7.3.3 l-arginine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 180.0 * +EC2.7.3.3 l-arginine calyptogena kaikoi//*//* 212.9 * +EC2.7.3.3 l-arginine crassostrea sp.//*//* 47.5 * +EC2.7.3.3 l-arginine euphausia superba//*//* 84.8 * +EC2.7.3.3 l-arginine locusta migratoria manilensis//*//* 163.0 * +EC2.7.3.3 l-arginine myzostoma cirriferum//*//* 38.9 * +EC2.7.3.3 l-arginine neocaridina denticulata//*//* 459.0 * +EC2.7.3.3 l-arginine sulfurovum lithotrophicum//prokaryotes;bacteria;epsilonproteobacteria;sulfurovum//slh 88.0 * +EC2.7.3.3 l-arginine tetrahymena pyriformis//*//* 104.0 * +EC2.7.3.3 l-canvanine manduca sexta//*//* 27.3 * +EC2.7.3.3 l-phosphocanavanine manduca sexta//*//* 50.7 * +EC2.7.3.3 n5-(n-phosphonocarbamimidoyl)-l-ornithine limulus polyphemus//*//* 140.0 * +EC2.7.3.3 nomega-phospho-l-arg manduca sexta//*//* 431.0 * +EC2.7.3.3 nomega-phospho-l-arg myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.093 * +EC2.7.3.3 omega-n-phospho-l-arginine desulfotalea psychrophila//prokaryotes;bacteria;deltaproteobacteria;desulfotalea//dps 1.11 * +EC2.7.3.4 atp clonorchis sinensis//*//* 22.59 * +EC2.7.3.4 glycocyamine phytophthora sojae//eukaryotes;protists;stramenopiles;oomycetes//psoj 1.4 * +EC2.7.3.4 taurocyamine arenicola brasiliensis//*//* 14.3 * +EC2.7.3.4 taurocyamine clonorchis sinensis//*//* 22.59 * +EC2.7.3.4 taurocyamine phytophthora sojae//eukaryotes;protists;stramenopiles;oomycetes//psoj 94.1 * +EC2.7.3.4 taurocyamine riftia pachyptila//*//* 12.5 * +EC2.7.4.1 (phosphate)45 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 50.0 * +EC2.7.4.1 (phosphate)65 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 53.0 * +EC2.7.4.1 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.5 * +EC2.7.4.1 adp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 3.17 * +EC2.7.4.1 adp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 943.0 * +EC2.7.4.1 adp ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 5.22 * +EC2.7.4.1 atp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 74.0 * +EC2.7.4.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.6 * +EC2.7.4.1 atp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 1.46 * +EC2.7.4.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 46.9 * +EC2.7.4.1 cdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.167 * +EC2.7.4.1 gdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.482 * +EC2.7.4.1 gdp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 3.69 * +EC2.7.4.1 gdp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 645.0 * +EC2.7.4.1 gdp ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 4.18 * +EC2.7.4.1 gtp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 34.0 * +EC2.7.4.1 gtp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 2.77 * +EC2.7.4.1 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC2.7.4.1 itp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 43.0 * +EC2.7.4.1 phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 47.0 * +EC2.7.4.1 polyphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 77.0 * +EC2.7.4.1 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.04 * +EC2.7.4.1 udp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.117 * +EC2.7.4.1 udp ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 4.9 * +EC2.7.4.14 5-aza-cidofovir homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC2.7.4.14 ara-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 150.0 * +EC2.7.4.14 beta-l-2',3'-dideoxy-3'-thiacytidine monophosphate dictyostelium sp.//*//* 10.0 * +EC2.7.4.14 beta-l-2',3'-dideoxy-3'-thiacytidine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 36.0 * +EC2.7.4.14 cidofovir homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.7.4.14 cmp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.57 * +EC2.7.4.14 cmp dictyostelium sp.//*//* 410.0 * +EC2.7.4.14 cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC2.7.4.14 cytarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC2.7.4.14 dcmp dictyostelium sp.//*//* 22.0 * +EC2.7.4.14 dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 73.0 * +EC2.7.4.14 dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC2.7.4.14 ump arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.64 * +EC2.7.4.14 ump dictyostelium sp.//*//* 217.0 * +EC2.7.4.14 ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 188.0 * +EC2.7.4.14 ump sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 174.0 * +EC2.7.4.16 thiamine phosphate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.063 * +EC2.7.4.2 adp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 3.9 * +EC2.7.4.2 adpbetas streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.095 * +EC2.7.4.2 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 3.4 * +EC2.7.4.2 phosphomevalonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.2 * +EC2.7.4.21 1d-myo-inositol hexakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.4.22 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 436.2 * +EC2.7.4.22 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 175.0 * +EC2.7.4.22 ump helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 545.2 * +EC2.7.4.22 ump sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 19.0 * +EC2.7.4.24 1,5-bis-diphospho-1d-myo-inositol 2,3,4,6-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.7.4.24 1-diphospho-1d-myo-inositol 2,3,4,5,6-pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.7.4.24 1d-myo-inositol 5-diphosphate pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.0 * +EC2.7.4.24 5-diphospho-1d-myo-inositol 1,2,3,4,6-pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.7.4.25 2',3'-dideoxy-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC2.7.4.25 ara-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 56.0 * +EC2.7.4.25 cmp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 103.0 * +EC2.7.4.25 cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 103.0 * +EC2.7.4.25 cmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 52.0 * +EC2.7.4.25 dcmp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 108.0 * +EC2.7.4.25 dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 109.0 * +EC2.7.4.25 dcmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 30.0 * +EC2.7.4.25 ump escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.82 * +EC2.7.4.25 ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.82 * +EC2.7.4.25 ump mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 12.2 * +EC2.7.4.26 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 16.3 * +EC2.7.4.26 but-3-en-1-yl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 20.5 * +EC2.7.4.26 but-3-en-1-yl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 8.07 * +EC2.7.4.26 butyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 31.8 * +EC2.7.4.26 butyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 9.9 * +EC2.7.4.26 dimethylallyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.7 * +EC2.7.4.26 dimethylallyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 34.0 * +EC2.7.4.26 dimethylallyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 11.3 * +EC2.7.4.26 fosfomycin thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.04 * +EC2.7.4.26 geranyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0039 * +EC2.7.4.26 geranyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0142 * +EC2.7.4.26 geranyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.047 * +EC2.7.4.26 isopentenyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 4.5 * +EC2.7.4.26 isopentenyl diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 2.75 * +EC2.7.4.26 isopentenyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.7 * +EC2.7.4.26 isopentenyl phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 16.3 * +EC2.7.4.26 isopentenyl phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 330.0 * +EC2.7.4.26 isopentenyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 27.5 * +EC2.7.4.26 isopentenyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 8.0 * +EC2.7.4.26 isopentenyl thiolophosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 8.22 * +EC2.7.4.26 isopentenyl thiolophosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 2.84 * +EC2.7.4.3 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 783.0 * +EC2.7.4.3 amp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.135 * +EC2.7.4.3 amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 842.3 * +EC2.7.4.3 amp schistosoma mansoni//eukaryotes;animals;flatworms//smm 50.0 * +EC2.7.4.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 879.5 * +EC2.7.4.3 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 417.0 * +EC2.7.4.3 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.4 * +EC2.7.4.3 atp schistosoma mansoni//eukaryotes;animals;flatworms//smm 25.0 * +EC2.7.4.3 atp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 170.0 * +EC2.7.4.3 atp vibrio natriegens//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vna 325.0 * +EC2.7.4.4 [2-[(2r,3s,5r)-3-hydroxy-5-(5-methyl-2,4-dioxo-3,4-dihydropyrimidin-1(2h)-yl)tetrahydrofuran-2-yl]ethyl]boronic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.7.4.4 damp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 500.0 * +EC2.7.4.4 tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC2.7.4.6 8-bromoinosine 5'-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.159 * +EC2.7.4.6 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 264.0 * +EC2.7.4.6 atp pisum sativum//*//* 2085.0 * +EC2.7.4.6 ctp oryza sativa//eukaryotes;plants;monocots;grass family//osa 229.0 * +EC2.7.4.6 dcdp pisum sativum//*//* 106.0 * +EC2.7.4.6 dtdp pisum sativum//*//* 147.0 * +EC2.7.4.6 dtdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.3 * +EC2.7.4.6 dtdp white spot syndrome virus//*//* 0.89 * +EC2.7.4.6 gdp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 38.0 * +EC2.7.4.6 gtp oryza sativa//eukaryotes;plants;monocots;grass family//osa 49.4 * +EC2.7.4.6 ttp oryza sativa//eukaryotes;plants;monocots;grass family//osa 55.0 * +EC2.7.4.7 2-methyl-4-amino-5-hydroxymethylpyrimidine phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.7.4.7 2-methyl-4-amino-5-hydroxymethylpyrimidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0867 * +EC2.7.4.7 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.7.4.8 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 90.0 * +EC2.7.4.8 dgmp brugia malayi//eukaryotes;animals;nematodes//bmy 510.0 * +EC2.7.4.8 dgmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 43.0 * +EC2.7.4.8 dgmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 51.0 * +EC2.7.4.8 gmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 52.0 * +EC2.7.4.8 gmp brugia malayi//eukaryotes;animals;nematodes//bmy 1500.0 * +EC2.7.4.8 gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 209.0 * +EC2.7.4.8 gmp oryza sativa japonica group//*//* 70.0 * +EC2.7.4.8 gmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 946.0 * +EC2.7.4.8 gmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 394.0 * +EC2.7.4.8 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 130.0 * +EC2.7.4.9 (e)-5-(2-bromovinyl)-deoxyuridine monophosphate vaccinia virus//*//* 0.86 * +EC2.7.4.9 2',3'-didehydro-2',3'-dideoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.7.4.9 3'-amino-3'-deoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.7.4.9 3'-azido-3'-deoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.7.4.9 3'-fluoro-3'-deoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.4.9 5-bromo-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.4.9 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 8.9 * +EC2.7.4.9 atp white spot syndrome virus//*//* 3.16 * +EC2.7.4.9 atp wolbachia endosymbiont of brugia malayi//*//* 38.1 * +EC2.7.4.9 ddtmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.4.9 dgmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.9 * +EC2.7.4.9 dimp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.44 * +EC2.7.4.9 dtmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC2.7.4.9 dtmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.4 * +EC2.7.4.9 dtmp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 8.9 * +EC2.7.4.9 dtmp white spot syndrome virus//*//* 3.56 * +EC2.7.4.9 dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC2.7.4.9 dump plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.1 * +EC2.7.4.9 n1-[(e)-3-dihydroxyphosphonyl-prop-2-enyl]-thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-5-chlorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-5-fluorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.73 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-uracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-5-bromouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-5-chlorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-5-fluorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-uracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.074 * +EC2.7.4.9 tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.7.4.9 tmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.4 * +EC2.7.4.B2 amp acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 166.7 * +EC2.7.4.B2 gmp acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 35.0 * +EC2.7.6.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.66 * +EC2.7.6.1 d-ribose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 60.68 * +EC2.7.6.1 d-ribose 5-phosphate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 311.0 * +EC2.7.6.1 mg-atp2- mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 44.3 * +EC2.7.6.1 mn-atp2- mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 46.3 * +EC2.7.6.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC2.7.6.2 thiamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC2.7.6.3 2-amino-4-hydroxy-6-hydroxymethyl-7,8-dihydropteridine francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.17 * +EC2.7.6.5 gdp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 73.0 * +EC2.7.6.5 gtp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 127.0 * +EC2.7.6.5 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.4 * +EC2.7.7.1 adp-ribose francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 3.6 * +EC2.7.7.1 atp giardia intestinalis//*//* 2.41 * +EC2.7.7.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.9 * +EC2.7.7.1 atp leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 1.174 * +EC2.7.7.1 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00278 * +EC2.7.7.1 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.0 * +EC2.7.7.1 nicotinamide ribonucleotide giardia intestinalis//*//* 2.97 * +EC2.7.7.1 nicotinamide ribonucleotide leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.76 * +EC2.7.7.1 nicotinamide ribonucleotide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.5 * +EC2.7.7.1 nicotinamide ribonucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 35.33 * +EC2.7.7.1 nicotinic acid mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.9 * +EC2.7.7.1 nmn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.8 * +EC2.7.7.1 nmnh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.6 * +EC2.7.7.1 tiazofurin riboside 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.9 * +EC2.7.7.12 alpha-d-galactose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 780.0 * +EC2.7.7.12 alpha-d-galactose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 98.0 * +EC2.7.7.12 alpha-d-galactose 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 987.0 * +EC2.7.7.12 alpha-d-glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.7 * +EC2.7.7.12 udp-alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.6 * +EC2.7.7.12 udp-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 283.0 * +EC2.7.7.13 diphosphate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 195.9 * +EC2.7.7.13 gdp-mannose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 195.9 * +EC2.7.7.13 gdpmannose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 22.1 * +EC2.7.7.13 mannose 1-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 10.3 * +EC2.7.7.14 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.7.7.14 ctp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.15 * +EC2.7.7.14 ethanolamine phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.7.7.14 ethanolamine phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.4 * +EC2.7.7.15 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.3 * +EC2.7.7.15 phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.7 * +EC2.7.7.15 phosphocholine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 31.3 * +EC2.7.7.15 phosphocholine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 17.5 * +EC2.7.7.18 nicotinate beta-d-ribonucleotide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.5 * +EC2.7.7.19 (a)15 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.7.7.19 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 30.0 * +EC2.7.7.19 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC2.7.7.19 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.43 * +EC2.7.7.19 nucleotide zea mays//eukaryotes;plants;monocots;grass family//zma 3.33 * +EC2.7.7.19 rna(a)15 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 22.78 * +EC2.7.7.23 diphosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.21 * +EC2.7.7.23 n-acetyl-alpha-d-glucosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.54 * +EC2.7.7.23 n-acetyl-alpha-d-glucosamine 1-phosphate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.95 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 330.0 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.4 * +EC2.7.7.23 udp-n-acetyl-alpha-d-glucosamine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 8.4 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 44.3 * +EC2.7.7.23 utp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.04 * +EC2.7.7.23 utp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.53 * +EC2.7.7.23 utp yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.75 * +EC2.7.7.24 2-deoxy-2-amino-alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 4.5 * +EC2.7.7.24 3-deoxy-3-amino-alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.08 * +EC2.7.7.24 3-deoxy-3-azido-alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0003 * +EC2.7.7.24 [[(2s,3r,4s,5s,6r)-3,4,5-trihydroxy-6-(hydroxymethyl)tetrahydro-2h-pyran-2-yl]methyl]phosphonic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.55 * +EC2.7.7.24 alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 24.0 * +EC2.7.7.24 atp salmonella enterica typhimurium//*//* 0.06 * +EC2.7.7.24 ctp salmonella enterica typhimurium//*//* 0.1 * +EC2.7.7.24 datp salmonella enterica typhimurium//*//* 1.88 * +EC2.7.7.24 dctp salmonella enterica typhimurium//*//* 1.22 * +EC2.7.7.24 dgtp salmonella enterica typhimurium//*//* 2.12 * +EC2.7.7.24 dtdp-glucose sphingomonas elodea//*//* 1.35 * +EC2.7.7.24 dttp salmonella enterica typhimurium//*//* 30.83 * +EC2.7.7.24 dttp streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 2.9 * +EC2.7.7.24 gtp salmonella enterica typhimurium//*//* 0.14 * +EC2.7.7.24 utp salmonella enterica typhimurium//*//* 41.0 * +EC2.7.7.24 utp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 24.0 * +EC2.7.7.27 adp-glucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 139.0 * +EC2.7.7.27 alpha-d-glucose 1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 266.0 * +EC2.7.7.27 alpha-d-glucose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 85.0 * +EC2.7.7.27 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 370.0 * +EC2.7.7.27 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 204.0 * +EC2.7.7.27 atp zea mays//eukaryotes;plants;monocots;grass family//zma 98.0 * +EC2.7.7.27 diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 121.0 * +EC2.7.7.3 3'-dephospho-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000917 * +EC2.7.7.3 3'-dephospho-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.808 * +EC2.7.7.3 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.547 * +EC2.7.7.3 pantetheine 4'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.853 * +EC2.7.7.30 2-amino-6-chloropurine-beta-d-riboside 5'-triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.7.7.30 2-aminoadenosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.7.7.30 7-deazaguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.7.7.30 8-oxoguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC2.7.7.30 arabinose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.7.7.30 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC2.7.7.30 atp vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.22 * +EC2.7.7.30 fructose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.7.30 galactose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.7.7.30 glucosamine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC2.7.7.30 glucose 1,6-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.7.7.30 glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.7.7.30 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.7.7.30 gtp vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 1.55 * +EC2.7.7.30 itp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.7.30 l-fucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC2.7.7.30 mannose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.7.7.30 n1-methylguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.7.30 n2-methylguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC2.7.7.30 o6-methylguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.7.7.30 tricyclic guanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC2.7.7.30 xanthosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.7.31 datp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.833 * +EC2.7.7.38 3-deoxy-d-manno-octulosonate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 9.5 * +EC2.7.7.38 3-deoxy-d-manno-octulosonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.9 * +EC2.7.7.39 cdpglycerol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.0 * +EC2.7.7.39 ctp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 18.8 * +EC2.7.7.39 ctp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.6 * +EC2.7.7.4 adenosine 5'-phosphosulfate brassica capitata//*//* 36.0 * +EC2.7.7.4 adenylyl sulfate glycine max//eukaryotes;plants;eudicots;pea family//gmx 24.5 * +EC2.7.7.4 adenylyl sulfate thiobacillus denitrificans atcc 25259//*//* 260.0 * +EC2.7.7.4 atp brassica capitata//*//* 36.0 * +EC2.7.7.4 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.49 * +EC2.7.7.4 atp penicillium chrysogenum//*//* 24.4 * +EC2.7.7.4 diphosphate brassica capitata//*//* 36.0 * +EC2.7.7.4 magnesium diphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 19.1 * +EC2.7.7.4 moo42- penicillium chrysogenum//*//* 24.4 * +EC2.7.7.4 so42- brassica capitata//*//* 3.13 * +EC2.7.7.4 sulfate glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.11 * +EC2.7.7.4 sulfate penicillium chrysogenum//*//* 10.8 * +EC2.7.7.4 sulfate thiobacillus denitrificans atcc 25259//*//* 23.2 * +EC2.7.7.40 ctp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 23.5 * +EC2.7.7.40 ctp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 76.8 * +EC2.7.7.40 d-ribitol 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 13.0 * +EC2.7.7.41 1-stearoyl-2-arachidonoyl-sn-phosphatidic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC2.7.7.41 1-stearoyl-2-linoleoyl-sn-phosphatidic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC2.7.7.41 ctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.92 * +EC2.7.7.41 phosphatidate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.92 * +EC2.7.7.43 8-o-methyl-n-acetylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 21.0 * +EC2.7.7.43 ctp haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 5.2 * +EC2.7.7.43 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.89 * +EC2.7.7.43 ctp neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 21.0 * +EC2.7.7.43 ctp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 4.6 * +EC2.7.7.43 ctp ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 3.33 * +EC2.7.7.43 ctp streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 14.0 * +EC2.7.7.43 deaminoneuraminic acid streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.067 * +EC2.7.7.43 n-acetylneuraminate haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 4.8 * +EC2.7.7.43 n-acetylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 32.0 * +EC2.7.7.43 n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 4.2 * +EC2.7.7.43 n-acylneuraminate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2.25 * +EC2.7.7.43 n-glycolylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 36.0 * +EC2.7.7.43 n-glycolylneuraminic acid ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.66 * +EC2.7.7.43 n-glycolylneuraminic acid streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.68 * +EC2.7.7.43 n-methylglycolylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.9 * +EC2.7.7.43 neu5ac streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 16.0 * +EC2.7.7.43 neuac ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2.25 * +EC2.7.7.43 neugc ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.66 * +EC2.7.7.43 sialic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.56 * +EC2.7.7.45 gtp artemia sp.//*//* 1.6 * +EC2.7.7.47 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.61 * +EC2.7.7.47 atp serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.5 * +EC2.7.7.47 spectinomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.63 * +EC2.7.7.47 spectinomycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.5 * +EC2.7.7.47 streptomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.66 * +EC2.7.7.47 streptomycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.6 * +EC2.7.7.48 atp hepatitis c virus//*//* 0.000105 * +EC2.7.7.48 atp human rhinovirus a16//*//* 0.000617 * +EC2.7.7.48 ctp hepatitis c virus//*//* 16.0 * +EC2.7.7.48 ctp human rhinovirus a16//*//* 0.000505 * +EC2.7.7.48 gtp dengue virus//*//* 0.345 * +EC2.7.7.48 gtp hepatitis c virus//*//* 0.005 * +EC2.7.7.48 gtp human rhinovirus a16//*//* 0.0211 * +EC2.7.7.48 utp hepatitis c virus//*//* 0.0272 * +EC2.7.7.48 utp human rhinovirus a16//*//* 0.23 * +EC2.7.7.49 (-)-beta-2',3'-dideoxy-3'-thiacytidine triphosphate human immunodeficiency virus 1//*//* 0.15 * +EC2.7.7.49 2',3'-dideoxy-ctp human immunodeficiency virus 1//*//* 0.67 * +EC2.7.7.49 2'-deoxyadenosine 5'-triphosphate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.0265 * +EC2.7.7.49 2'-deoxyguanosine 5'-triphosphate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 1.33 * +EC2.7.7.49 2'-deoxythymidine 5'-triphosphate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.034 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2,6-diaminopurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 14.0 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2-amino-6-chloropurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 2.7 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2-amino-6-methoxypurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 2.8 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2-amino-6-n-allylaminopurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 2.1 * +EC2.7.7.49 3'-azido-2',3'-dideoxyadenosine triphosphate human immunodeficiency virus 1//*//* 14.0 * +EC2.7.7.49 borano-3tctp human immunodeficiency virus 1//*//* 0.15 * +EC2.7.7.49 datp feline immunodeficiency virus//*//* 0.21 * +EC2.7.7.49 datp feline leukemia virus//*//* 0.18 * +EC2.7.7.49 datp human immunodeficiency virus 1//*//* 17.0 * +EC2.7.7.49 dctp feline immunodeficiency virus//*//* 0.22 * +EC2.7.7.49 dctp feline leukemia virus//*//* 0.15 * +EC2.7.7.49 dctp human immunodeficiency virus 1//*//* 1.64 * +EC2.7.7.49 deoxy-5'-ctp streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.0117 * +EC2.7.7.49 deoxynucleoside triphosphate prototype foamy virus//*//* 4.0 * +EC2.7.7.49 deoxynucleoside triphosphate simian foamy virus//*//* 3.0 * +EC2.7.7.49 dgtp feline immunodeficiency virus//*//* 0.51 * +EC2.7.7.49 dgtp feline leukemia virus//*//* 0.56 * +EC2.7.7.49 dgtp human immunodeficiency virus 1//*//* 17.3 * +EC2.7.7.49 dnan human immunodeficiency virus 1//*//* 1.1 * +EC2.7.7.49 dnan moloney murine leukemia virus//*//* 29.0 * +EC2.7.7.49 dttp feline immunodeficiency virus//*//* 0.28 * +EC2.7.7.49 dttp feline leukemia virus//*//* 0.17 * +EC2.7.7.49 dttp human immunodeficiency virus 1//*//* 1.1 * +EC2.7.7.49 dttp moloney murine leukemia virus//*//* 35.0 * +EC2.7.7.49 dttp prototype foamy virus//*//* 5.5 * +EC2.7.7.49 dttp simian foamy virus//*//* 7.1 * +EC2.7.7.49 n-cyclobutyladenosine-phosphonyl diphosphate human immunodeficiency virus 1//*//* 0.07 * +EC2.7.7.49 tenofovir diphosphate human immunodeficiency virus 1//*//* 0.15 * +EC2.7.7.5 adenosine 5'-phosphosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.0 * +EC2.7.7.5 adenosine 5'-phosphosulfate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.6 * +EC2.7.7.50 gtp vaccinia virus//*//* 0.0267 * +EC2.7.7.50 rna vaccinia virus//*//* 0.0187 * +EC2.7.7.52 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.93e-05 * +EC2.7.7.52 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000914 * +EC2.7.7.52 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000403 * +EC2.7.7.52 rnan containing a terminal u residue trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0033 * +EC2.7.7.52 rnan trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0007 * +EC2.7.7.52 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000248 * +EC2.7.7.52 utp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.003 * +EC2.7.7.53 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 96.0 * +EC2.7.7.53 p1,p4-bis(5'-adenosyl) tetraphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.48 * +EC2.7.7.58 2,3,4-trihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC2.7.7.58 2,3-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5 * +EC2.7.7.58 2,4-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.23 * +EC2.7.7.58 2,5-dihydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.15 * +EC2.7.7.58 2-hydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.7.7.58 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.83 * +EC2.7.7.6 a10g2a2c2c enterobacteria phage t7//*//* 0.26 * +EC2.7.7.6 a9g3a2c2c enterobacteria phage t7//*//* 4.0 * +EC2.7.7.6 atp enterobacteria phage t7//*//* 0.482 * +EC2.7.7.6 dgtp enterobacteria phage t7//*//* 0.22 * +EC2.7.7.6 g2cac2c enterobacteria phage t7//*//* 0.03 * +EC2.7.7.6 promoter complex enterobacteria phage t7//*//* 8.3 * +EC2.7.7.6 rgtp enterobacteria phage t7//*//* 0.26 * +EC2.7.7.6 t10g2t2c2c enterobacteria phage t7//*//* 0.23 * +EC2.7.7.60 2-c-methyl-d-erythritol 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 48.4 * +EC2.7.7.60 2-c-methyl-d-erythritol 4-phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 1.0 * +EC2.7.7.60 2-c-methyl-d-erythritol-4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.8 * +EC2.7.7.60 2-c-methyl-d-erythritol-4-phosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.4 * +EC2.7.7.60 ctp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 26.0 * +EC2.7.7.60 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 54.1 * +EC2.7.7.60 ctp francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.8 * +EC2.7.7.60 ctp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.4 * +EC2.7.7.60 ctp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 6.0 * +EC2.7.7.62 5'-deoxyadenosylcobinamide phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.093 * +EC2.7.7.62 adenosylcobinamide phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.7 * +EC2.7.7.62 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.8 * +EC2.7.7.62 gtp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.058 * +EC2.7.7.64 d-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 133.0 * +EC2.7.7.64 d-galactose 1-phosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 219.0 * +EC2.7.7.64 d-galactose 1-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 35.2 * +EC2.7.7.64 d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 122.0 * +EC2.7.7.64 d-glucose 1-phosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 191.0 * +EC2.7.7.64 d-glucose 1-phosphate populus deltoides//*//* 0.008 * +EC2.7.7.64 d-glucose 1-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 26.0 * +EC2.7.7.64 d-glucuronic acid 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 67.0 * +EC2.7.7.64 d-xylose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 51.0 * +EC2.7.7.64 d-xylose 1-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 8.6 * +EC2.7.7.64 diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 138.0 * +EC2.7.7.64 diphosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 185.0 * +EC2.7.7.64 dttp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 27.0 * +EC2.7.7.64 dutp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 219.0 * +EC2.7.7.64 l-arabinose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 138.0 * +EC2.7.7.64 n-acetylglucosamine 1-phosphate thermus caldophilus//*//* 0.2 * +EC2.7.7.64 ttp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.085 * +EC2.7.7.64 udp-alpha-d-galacturonate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 13.0 * +EC2.7.7.64 udp-beta-l-arabinopyranose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 72.0 * +EC2.7.7.64 udp-d-galactose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 154.0 * +EC2.7.7.64 udp-d-galacturonate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 13.0 * +EC2.7.7.64 udp-d-glucose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 180.0 * +EC2.7.7.64 udp-galactose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 154.0 * +EC2.7.7.64 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 133.0 * +EC2.7.7.64 udp-glucose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 180.0 * +EC2.7.7.64 udp-l-arabinopyranose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 72.0 * +EC2.7.7.64 utp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 348.0 * +EC2.7.7.64 utp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 209.0 * +EC2.7.7.64 utp populus deltoides//*//* 0.003 * +EC2.7.7.64 utp thermus caldophilus//*//* 0.4 * +EC2.7.7.65 cyclic di-3',5'-guanylate caulobacter vibrioides//*//* 0.0009 * +EC2.7.7.65 gtp pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 59.05 * +EC2.7.7.65 gtp xanthomonas citri subsp. citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xci 1.2 * +EC2.7.7.67 2,3-bis-(o-geranylgeranyl)-sn-glycerol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.55 * +EC2.7.7.69 alpha-d-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.0 * +EC2.7.7.69 alpha-d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.0 * +EC2.7.7.69 alpha-d-mannose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0012 * +EC2.7.7.69 alpha-l-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.0 * +EC2.7.7.69 gdp-alpha-d-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 23.0 * +EC2.7.7.69 gdp-alpha-d-mannose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.093 * +EC2.7.7.69 gdp-alpha-l-galactose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 64.0 * +EC2.7.7.7 2-aminopurine-2'-deoxy-d-ribose 5'-triphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.34 * +EC2.7.7.7 2-thio-dctp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.04 * +EC2.7.7.7 5-methyl-dctp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.33 * +EC2.7.7.7 7-deaza-2'-deoxyadenosine 5'-triphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.405 * +EC2.7.7.7 datp geobacillus anatolicus//*//* 0.4 * +EC2.7.7.7 datp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.22 * +EC2.7.7.7 datp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC2.7.7.7 datp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.5 * +EC2.7.7.7 datp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.043 * +EC2.7.7.7 dctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC2.7.7.7 dctp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.0 * +EC2.7.7.7 dctp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.065 * +EC2.7.7.7 deoxynucleoside triphosphate bacillus caldotenax//*//* 1.05 * +EC2.7.7.7 deoxynucleoside triphosphate salmonella virus prd1//*//* 2.5 * +EC2.7.7.7 deoxynucleoside triphosphate thermococcus pacificus//prokaryotes;archaea;euryarchaeota;thermococcus//tpaf 116.0 * +EC2.7.7.7 deoxynucleoside triphosphate thermococcus waiotapuensis//*//* 3.9 * +EC2.7.7.7 deoxynucleoside triphosphate thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.0667 * +EC2.7.7.7 deoxynucleoside triphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0667 * +EC2.7.7.7 dgtp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.7 * +EC2.7.7.7 dgtp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.043 * +EC2.7.7.7 dnan thermococcus pacificus//prokaryotes;archaea;euryarchaeota;thermococcus//tpaf 13.6 * +EC2.7.7.7 dnan thermococcus waiotapuensis//*//* 2.6 * +EC2.7.7.7 dntp bacillus caldotenax//*//* 1.0 * +EC2.7.7.7 dptp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.05 * +EC2.7.7.7 dttp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0123 * +EC2.7.7.7 dttp geobacillus anatolicus//*//* 175.0 * +EC2.7.7.7 dttp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.64 * +EC2.7.7.7 dttp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.043 * +EC2.7.7.7 dttp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.0 * +EC2.7.7.7 n1-methyl-2'-deoxyadenosine 5'-triphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.15 * +EC2.7.7.7 north-methanocarba-datp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.08 * +EC2.7.7.7 nucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 250.0 * +EC2.7.7.7 primed m13 streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.011 * +EC2.7.7.7 ratp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.072 * +EC2.7.7.7 rctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC2.7.7.7 south-methanocarba-datp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0088 * +EC2.7.7.72 a trna precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.7.7.72 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.56 * +EC2.7.7.72 atp sulfolobus shibatae//*//* 0.035 * +EC2.7.7.72 ctp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.68 * +EC2.7.7.72 ctp sulfolobus shibatae//*//* 0.0027 * +EC2.7.7.72 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC2.7.7.75 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0012 * +EC2.7.7.76 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0062 * +EC2.7.7.77 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0048 * +EC2.7.7.78 gdp-alpha-d-glucose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 265.0 * +EC2.7.7.78 gdp-alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC2.7.7.78 phosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 380.0 * +EC2.7.7.78 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.1 * +EC2.7.7.79 p-trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0122 * +EC2.7.7.79 ppp-trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00089 * +EC2.7.7.79 ppp-trnaphe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00012 * +EC2.7.7.8 adenylic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.33 * +EC2.7.7.8 cytidylic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.33 * +EC2.7.7.8 guanylic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.33 * +EC2.7.7.8 polyadenylic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 75.0 * +EC2.7.7.8 uridylic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.33 * +EC2.7.7.84 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.1 * +EC2.7.7.9 alpha-d-glucose 1-phosphate ganoderma lucidum//*//* 33.11 * +EC2.7.7.9 alpha-d-glucose 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 55.03 * +EC2.7.7.9 alpha-d-glucose 1-phosphate streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 48.81 * +EC2.7.7.9 alpha-d-glucose 1-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.45 * +EC2.7.7.9 diphosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 6.35 * +EC2.7.7.9 farnesyl triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.033 * +EC2.7.7.9 geranyl triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC2.7.7.9 isopentenyl triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC2.7.7.9 methylenebisphosphonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 27.0 * +EC2.7.7.9 ttp xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 6.8 * +EC2.7.7.9 ttp xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 10.0 * +EC2.7.7.9 udp-glucose ganoderma lucidum//*//* 0.21 * +EC2.7.7.9 udp-glucose gracilaria chouae//*//* 19.98 * +EC2.7.7.9 udp-glucose saccharina japonica//*//* 19.98 * +EC2.7.7.9 utp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 93.44 * +EC2.7.7.9 utp nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.6 * +EC2.7.7.9 utp streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 69.05 * +EC2.7.7.9 utp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.47 * +EC2.7.7.9 utp xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 40.0 * +EC2.7.7.9 utp xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 29.3 * +EC2.7.7.92 ctp bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.02 * +EC2.7.7.97 3-hydroxy-4-methylanthranilate streptomyces anulatus//*//* 0.0032 * +EC2.7.7.97 3-hydroxy-4-methylbenzylate streptomyces anulatus//*//* 0.007 * +EC2.7.7.97 3-hydroxy-anthranilate streptomyces anulatus//*//* 0.005 * +EC2.7.7.B16 ntp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.022 * +EC2.7.7.B5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.604 * +EC2.7.7.B5 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.113 * +EC2.7.8.12 cdp-glycerol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.233 * +EC2.7.8.13 udp-mur2ac(oyl-l-ala-d-gamma-glu-l-lys-d-ala-d-ala) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.33 * +EC2.7.8.13 udp-n-acetylmuramoyl-pentapeptide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.3 * +EC2.7.8.13 undecaprenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.33 * +EC2.7.8.17 cathepsin d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.7.8.17 dnase i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.7.8.17 man9glcnac1 oligosaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.55 * +EC2.7.8.17 methyl alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.7.8.17 npc2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC2.7.8.17 pro-tripeptidyl peptidase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.7.8.17 rnase b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.7.8.17 soybean agglutinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.7.8.17 uteroferrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC2.7.8.23 carboxyphosphinopyruvate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.00076 * +EC2.7.8.23 carboxyphosphoenolpyruvate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.02 * +EC2.7.8.26 alpha-ribazole salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.67 * +EC2.7.8.33 ditrans,polycis-undecaprenyl phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.2 * +EC2.7.8.33 udp-n-acetyl-d-glucosamine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.2 * +EC2.7.8.7 acetoacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.8.7 acetoacetyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.001 * +EC2.7.8.7 acetoacetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.2 * +EC2.7.8.7 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.7.8.7 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC2.7.8.7 acetyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.009 * +EC2.7.8.7 acetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.2 * +EC2.7.8.7 apo-[acyl-carrier protein] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0192 * +EC2.7.8.7 apo-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.7.8.7 apo-[acyl-carrier protein] mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.002 * +EC2.7.8.7 apo-[acyl-carrier protein] streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.6 * +EC2.7.8.7 apo-[bpsa protein] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.035 * +EC2.7.8.7 apo-[bpsa protein] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.683 * +EC2.7.8.7 apo-[bpsa protein] pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.183 * +EC2.7.8.7 apo-[entb-arcp-h6 escherichia coli] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.08 * +EC2.7.8.7 apo-[fredericamycin h acyl-carrier protein] streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.95 * +EC2.7.8.7 apo-[lys2-pcp-h6 saccharomyces cerevisiae] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.17 * +EC2.7.8.7 apo-[pcph6srfb1.18] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.73 * +EC2.7.8.7 apo-[pcph6srfb2.18] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.933 * +EC2.7.8.7 apo-[peptidyl carrier protein] streptomyces verticillus//*//* 1.43 * +EC2.7.8.7 apo-[streptomyces sp. frenolicin-acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.317 * +EC2.7.8.7 apo-[streptomyces sp. granaticin-acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.8.7 apo-[streptomyces sp. oxytetracycline-acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.167 * +EC2.7.8.7 apo-[streptomyces sp. tetracenomycin-acyl-carrier protein(his6)] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC2.7.8.7 apo-acyl-carrier protein bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.08 * +EC2.7.8.7 apo-acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.33 * +EC2.7.8.7 apo-peptidyl carrier protein bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.6 * +EC2.7.8.7 butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.8.7 butyryl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.004 * +EC2.7.8.7 butyryl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.3 * +EC2.7.8.7 coa-[4'-phosphopantetheine] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0027 * +EC2.7.8.7 coa-[4'-phosphopantetheine] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.075 * +EC2.7.8.7 coa-[4'-phosphopantetheine] pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC2.7.8.7 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.8.7 coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.002 * +EC2.7.8.7 coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.8 * +EC2.7.8.7 coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.3 * +EC2.7.8.7 crotonyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.005 * +EC2.7.8.7 crotonyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.2 * +EC2.7.8.7 decanoyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.004 * +EC2.7.8.7 decanoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.5 * +EC2.7.8.7 dslefiaskla bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.18 * +EC2.7.8.7 dslefiaskla escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC2.7.8.7 gdsldmlewslm bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.004 * +EC2.7.8.7 gdsldmlewslm escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.7.8.7 gdslswllrcln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.17 * +EC2.7.8.7 gdslswllrcln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.7.8.7 gdslswllrlln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.17 * +EC2.7.8.7 gdslswllrlln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0005 * +EC2.7.8.7 gdslswllrsln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.14 * +EC2.7.8.7 gdslswllrsln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.7.8.7 gdslswlvrcln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.07 * +EC2.7.8.7 gdslswlvrcln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0007 * +EC2.7.8.7 gdslswlvrlln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC2.7.8.7 gdslswlvrlln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0005 * +EC2.7.8.7 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.7.8.7 malonyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0004 * +EC2.7.8.7 malonyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.1 * +EC2.7.8.7 mg2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC2.7.8.7 myristoleoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.5 * +EC2.7.8.7 myristoyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.003 * +EC2.7.8.7 myristoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.5 * +EC2.7.8.7 palmitoleoyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.003 * +EC2.7.8.7 palmitoleoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.4 * +EC2.7.8.7 palmitoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.4 * +EC2.7.9.1 amp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.12 * +EC2.7.9.1 diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.14 * +EC2.7.9.1 phosphoenolpyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 87.0 * +EC2.7.9.1 phosphoenolpyruvate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.11 * +EC2.7.9.1 pyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 15.0 * +EC2.7.9.2 amp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.7 * +EC2.7.9.2 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1330.0 * +EC2.7.9.2 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.326 * +EC2.7.9.2 phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 11.9 * +EC2.7.9.2 phosphoenolpyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 12.6 * +EC2.7.9.2 pyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1570.0 * +EC2.7.9.2 pyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.48 * +EC2.7.9.2 pyruvate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.683 * +EC2.7.9.4 granular potato starch solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.015 * +EC2.8.1.1 3-mercaptopyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 54.0 * +EC2.8.1.1 thiosulfate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 400.0 * +EC2.8.1.1 thiosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.7 * +EC2.8.1.1 thiosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 260.0 * +EC2.8.1.2 2-mercaptoethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 229.0 * +EC2.8.1.2 2-mercaptoethanol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 5310.0 * +EC2.8.1.2 3-mercaptopyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 165.0 * +EC2.8.1.2 3-mercaptopyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.5 * +EC2.8.1.2 3-mercaptopyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.9 * +EC2.8.1.2 3-mercaptopyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC2.8.1.2 3-mercaptopyruvate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 2260.0 * +EC2.8.1.2 cyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.8.1.2 cysteine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 2240.0 * +EC2.8.1.2 dihydrolipoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC2.8.1.2 dithiothreitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.1 * +EC2.8.1.2 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.8.1.2 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.8.1.2 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.8.1.2 thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.8.1.2 thioredoxin trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 172.0 * +EC2.8.1.2 thiosulfate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 11.3 * +EC2.8.1.6 dethiobiotin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00055 * +EC2.8.1.6 dethiobiotin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5e-07 * +EC2.8.1.6 dethiobiotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.9 * +EC2.8.1.7 [sufu]-cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.87 * +EC2.8.1.7 l-cysteine sulfinic acid synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.4 * +EC2.8.1.7 l-cysteine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.1 * +EC2.8.1.7 l-cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.87 * +EC2.8.1.7 l-cysteine lentinula edodes//*//* 1.01 * +EC2.8.1.7 l-cysteine streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.5 * +EC2.8.1.7 l-selenocysteine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.04 * +EC2.8.1.7 l-selenocysteine streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 1.4 * +EC2.8.1.7 l-selenocysteine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 15.0 * +EC2.8.1.9 l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.8.1.9 l-selenocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.357 * +EC2.8.2.1 2-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.733 * +EC2.8.2.1 2-naphthol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC2.8.2.1 3'-phosphoadenylyl sulfate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 40.7 * +EC2.8.2.1 3-hydroxyindole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.733 * +EC2.8.2.1 4-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.8.2.1 4-methoxyphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC2.8.2.1 4-nitrophenol canis lupus familiaris//*//* 0.15 * +EC2.8.2.1 4-nitrophenol drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 330.0 * +EC2.8.2.1 5-hydroxyindole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC2.8.2.1 5-hydroxytryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.8.2.1 daidzein 4'-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC2.8.2.1 daidzein 7-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC2.8.2.1 daidzein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1065 * +EC2.8.2.1 dopamine canis lupus familiaris//*//* 0.18 * +EC2.8.2.1 genistein 4'-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.8.2.1 genistein 7-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC2.8.2.1 genistein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.124 * +EC2.8.2.1 phenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.122 * +EC2.8.2.15 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.8.2.15 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.8.2.2 1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.283 * +EC2.8.2.2 1-hexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.417 * +EC2.8.2.2 1-pentanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.8.2.2 1-propanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC2.8.2.2 11-deoxycorticosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC2.8.2.2 2-ethylphenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000112 * +EC2.8.2.2 2-nitrophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000459 * +EC2.8.2.2 2-propanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.217 * +EC2.8.2.2 3-ethylphenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.3e-05 * +EC2.8.2.2 3-methyl-1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.417 * +EC2.8.2.2 3-nitrophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000389 * +EC2.8.2.2 4-ethylphenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000109 * +EC2.8.2.2 4-nitrophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000545 * +EC2.8.2.2 aldosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.133 * +EC2.8.2.2 benzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC2.8.2.2 beta-estradiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.583 * +EC2.8.2.2 cortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC2.8.2.2 cortisone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.8.2.2 dehydroepidandrosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC2.8.2.2 estriol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.167 * +EC2.8.2.2 m-cresol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4e-05 * +EC2.8.2.2 methanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0833 * +EC2.8.2.2 o-cresol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5e-05 * +EC2.8.2.2 p-cresol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000128 * +EC2.8.2.2 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.467 * +EC2.8.2.20 3'-phosphoadenylyl sulfate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.11 * +EC2.8.2.20 [y+3 peptide]-l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC2.8.2.20 p-selectin glycoprotein ligand-1 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.1 * +EC2.8.2.22 4-nitrophenyl sulfate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.14 * +EC2.8.2.22 methylumbelliferone sulfate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.15 * +EC2.8.2.22 phenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 48.6 * +EC2.8.2.37 3'-phosphoadenylyl sulfate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.6 * +EC2.8.2.37 alpha,alpha-trehalose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.6 * +EC2.8.2.37 alpha,alpha-trehalose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.23 * +EC2.8.2.4 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0217 * +EC2.8.2.4 4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC2.8.2.9 2-cyanoethyl-n-hydroxythioacetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0233 * +EC2.8.2.9 2-cyanoethyl-n-hydroxythioacetimidate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.233 * +EC2.8.2.9 2-naphthol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC2.8.2.9 3-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.8.2.9 3-methoxy-4-hydroxyphenolglycol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC2.8.2.9 3-methylphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC2.8.2.9 3-nitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.8.2.9 4-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.317 * +EC2.8.2.9 4-methoxyphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.8.2.9 4-methylphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.8.2.9 4-nitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.517 * +EC2.8.2.9 5-hydroxytryptophol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.8.2.9 dopamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.2.9 epinephrine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.122 * +EC2.8.2.9 n-acetylserotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.8.2.9 phenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.8.2.9 tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0467 * +EC2.8.2.9 tyrosine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.233 * +EC2.8.3.1 propionate anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 14.2 * +EC2.8.3.10 (3s)-citryl-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 26.7 * +EC2.8.3.10 acetyl-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 21.7 * +EC2.8.3.12 glutaryl-coa acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 140.0 * +EC2.8.3.16 formyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 4.5 * +EC2.8.3.16 formyl-coa oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 4.3 * +EC2.8.3.16 oxalate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 5.0 * +EC2.8.3.16 oxalate oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 4.3 * +EC2.8.3.18 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 280.0 * +EC2.8.3.18 acetoacetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 36.5 * +EC2.8.3.18 acetyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 75.2 * +EC2.8.3.18 succinate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 70.9 * +EC2.8.3.18 succinyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 201.0 * +EC2.8.3.19 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC2.8.3.19 oxalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC2.8.3.20 (r)-citramalate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 13.0 * +EC2.8.3.20 succinyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 13.0 * +EC2.8.3.22 (s)-malate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 11.4 * +EC2.8.3.22 succinyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 11.4 * +EC2.8.3.23 3,4-dihydroxyphenylpropanoyl-coa acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.008 * +EC2.8.3.5 acetoacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 98.3 * +EC2.8.3.5 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1250.0 * +EC2.8.3.5 succinyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 37.3 * +EC2.8.3.8 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 290.0 * +EC2.8.4.1 cob methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 18.0 * +EC2.8.4.2 arsenate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.6 * +EC2.9.1.1 selenophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0217 * +EC2.9.1.1 thiophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000867 * +EC3.1.1.1 (1rs)-cis-permethrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.1.1.1 (1rs)-cis-permethrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC3.1.1.1 (1rs)-cis-permethrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.1.1.1 (1rs)-trans-permethrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC3.1.1.1 (1rs)-trans-permethrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.016 * +EC3.1.1.1 (1rs)-trans-permethrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC3.1.1.1 (s)-ketoprofen ethyl ester archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 65.4 * +EC3.1.1.1 1,4-diacetoxybenzene rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 108.0 * +EC3.1.1.1 1-naphthyl acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 11.6 * +EC3.1.1.1 1-naphthyl acetate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 500.0 * +EC3.1.1.1 1-naphthyl acetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3000.0 * +EC3.1.1.1 1-naphthyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 4.8 * +EC3.1.1.1 1-naphthyl butanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 18.7 * +EC3.1.1.1 1-naphthyl butanoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1600.0 * +EC3.1.1.1 1-naphthyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC3.1.1.1 1-naphthyl butyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 9.0 * +EC3.1.1.1 2,4-dinitrophenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 64.0 * +EC3.1.1.1 2,4-dinitrophenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 173.0 * +EC3.1.1.1 2,4-dinitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 233.0 * +EC3.1.1.1 2-naphthyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 40.0 * +EC3.1.1.1 2-naphthyl propionate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 83.0 * +EC3.1.1.1 2-nitrophenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 233.0 * +EC3.1.1.1 2-nitrophenyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 245.0 * +EC3.1.1.1 2-nitrophenylacetate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.7 * +EC3.1.1.1 2-nitrophenylbutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.4 * +EC3.1.1.1 2-nitrophenylpropionate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.3 * +EC3.1.1.1 2-phenyloxazolin-5-one equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 111.0 * +EC3.1.1.1 3'-d-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.7 * +EC3.1.1.1 3'-d-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.1.1.1 3'-l-isoleucyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.1.1.1 3'-l-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.1 * +EC3.1.1.1 3'-l-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC3.1.1.1 3-acetoxypyridine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 4.3 * +EC3.1.1.1 3-nitrophenylbutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.3 * +EC3.1.1.1 4'-chloroacetanilide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.1 * +EC3.1.1.1 4-methylbenzyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 47.0 * +EC3.1.1.1 4-methylumbelliferyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.65 * +EC3.1.1.1 4-methylumbelliferyl butanoate actinidia eriantha//*//* 10.1 * +EC3.1.1.1 4-methylumbelliferyl butyrate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 69.5 * +EC3.1.1.1 4-methylumbelliferyl butyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 4.9 * +EC3.1.1.1 4-methylumbelliferyl heptanoate actinidia eriantha//*//* 2.0 * +EC3.1.1.1 4-methylumbelliferyl heptanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 6.94 * +EC3.1.1.1 4-methylumbelliferyl heptanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.063 * +EC3.1.1.1 4-methylumbelliferyl laurate actinidia eriantha//*//* 0.01 * +EC3.1.1.1 4-methylumbelliferyl laurate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 6.38 * +EC3.1.1.1 4-methylumbelliferyl octanoate actinidia eriantha//*//* 0.162 * +EC3.1.1.1 4-methylumbelliferyl octanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 4.66 * +EC3.1.1.1 4-methylumbelliferyl palmitate actinidia eriantha//*//* 0.0018 * +EC3.1.1.1 4-methylumbelliferyl palmitate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.254 * +EC3.1.1.1 4-nitroacetanilide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.36 * +EC3.1.1.1 4-nitrophenyl acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 11.8 * +EC3.1.1.1 4-nitrophenyl acetate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 213.0 * +EC3.1.1.1 4-nitrophenyl acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 120.0 * +EC3.1.1.1 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.5 * +EC3.1.1.1 4-nitrophenyl acetate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 25.0 * +EC3.1.1.1 4-nitrophenyl acetate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 750.0 * +EC3.1.1.1 4-nitrophenyl acetate klebsiella sp.//*//* 81.0 * +EC3.1.1.1 4-nitrophenyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.032 * +EC3.1.1.1 4-nitrophenyl acetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 94.0 * +EC3.1.1.1 4-nitrophenyl acetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6400.0 * +EC3.1.1.1 4-nitrophenyl acetate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 11.65 * +EC3.1.1.1 4-nitrophenyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 120.0 * +EC3.1.1.1 4-nitrophenyl acetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 45.3 * +EC3.1.1.1 4-nitrophenyl acetate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 74.6 * +EC3.1.1.1 4-nitrophenyl acetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC3.1.1.1 4-nitrophenyl acetate vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.0245 * +EC3.1.1.1 4-nitrophenyl butanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 10.6 * +EC3.1.1.1 4-nitrophenyl butanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 2180.0 * +EC3.1.1.1 4-nitrophenyl butanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 277.0 * +EC3.1.1.1 4-nitrophenyl butanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 7.9e-05 * +EC3.1.1.1 4-nitrophenyl butanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 190.0 * +EC3.1.1.1 4-nitrophenyl butanoate klebsiella sp.//*//* 314.0 * +EC3.1.1.1 4-nitrophenyl butanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.099 * +EC3.1.1.1 4-nitrophenyl butanoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1700.0 * +EC3.1.1.1 4-nitrophenyl butanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 1690.0 * +EC3.1.1.1 4-nitrophenyl butanoate sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1756.0 * +EC3.1.1.1 4-nitrophenyl butanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 127.0 * +EC3.1.1.1 4-nitrophenyl butyrate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1670.0 * +EC3.1.1.1 4-nitrophenyl butyrate anoxybacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//anm 1500.0 * +EC3.1.1.1 4-nitrophenyl butyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 680.0 * +EC3.1.1.1 4-nitrophenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 144.0 * +EC3.1.1.1 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.1 * +EC3.1.1.1 4-nitrophenyl butyrate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 56.0 * +EC3.1.1.1 4-nitrophenyl butyrate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1380.0 * +EC3.1.1.1 4-nitrophenyl butyrate klebsiella sp.//*//* 314.0 * +EC3.1.1.1 4-nitrophenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 267.0 * +EC3.1.1.1 4-nitrophenyl butyrate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 9.12 * +EC3.1.1.1 4-nitrophenyl butyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 50.0 * +EC3.1.1.1 4-nitrophenyl butyrate sulfolobus shibatae//*//* 859.0 * +EC3.1.1.1 4-nitrophenyl butyrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 861.0 * +EC3.1.1.1 4-nitrophenyl butyrate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 127.0 * +EC3.1.1.1 4-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 27.4 * +EC3.1.1.1 4-nitrophenyl butyrate uncultured bacterium//*//* 15.72 * +EC3.1.1.1 4-nitrophenyl caprate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 800.0 * +EC3.1.1.1 4-nitrophenyl caprate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.089 * +EC3.1.1.1 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.1.1.1 4-nitrophenyl caproate klebsiella sp.//*//* 507.0 * +EC3.1.1.1 4-nitrophenyl caproate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.119 * +EC3.1.1.1 4-nitrophenyl caprylate klebsiella sp.//*//* 360.0 * +EC3.1.1.1 4-nitrophenyl caprylate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.125 * +EC3.1.1.1 4-nitrophenyl caprylate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.7 * +EC3.1.1.1 4-nitrophenyl decanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 950.0 * +EC3.1.1.1 4-nitrophenyl decanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 477.0 * +EC3.1.1.1 4-nitrophenyl decanoate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 6.19 * +EC3.1.1.1 4-nitrophenyl decanoate sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1124.0 * +EC3.1.1.1 4-nitrophenyl decanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2337.0 * +EC3.1.1.1 4-nitrophenyl decanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.5 * +EC3.1.1.1 4-nitrophenyl dodecanoate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.35 * +EC3.1.1.1 4-nitrophenyl dodecanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 390.0 * +EC3.1.1.1 4-nitrophenyl dodecanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 128.0 * +EC3.1.1.1 4-nitrophenyl dodecanoate klebsiella sp.//*//* 59.0 * +EC3.1.1.1 4-nitrophenyl dodecanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1312.0 * +EC3.1.1.1 4-nitrophenyl dodecanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.2 * +EC3.1.1.1 4-nitrophenyl hexadecanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 21.0 * +EC3.1.1.1 4-nitrophenyl hexadecanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5.3 * +EC3.1.1.1 4-nitrophenyl hexadecanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1138.0 * +EC3.1.1.1 4-nitrophenyl hexadecanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.03 * +EC3.1.1.1 4-nitrophenyl hexanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 3420.0 * +EC3.1.1.1 4-nitrophenyl hexanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1014.0 * +EC3.1.1.1 4-nitrophenyl hexanoate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 11.0 * +EC3.1.1.1 4-nitrophenyl hexanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1550.0 * +EC3.1.1.1 4-nitrophenyl hexanoate klebsiella sp.//*//* 507.0 * +EC3.1.1.1 4-nitrophenyl hexanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 31.0 * +EC3.1.1.1 4-nitrophenyl hexanoate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 58.0 * +EC3.1.1.1 4-nitrophenyl hexanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 2620.0 * +EC3.1.1.1 4-nitrophenyl hexanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 6.5 * +EC3.1.1.1 4-nitrophenyl hexanoate sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 2003.0 * +EC3.1.1.1 4-nitrophenyl hexanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1476.0 * +EC3.1.1.1 4-nitrophenyl hexanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 44.7 * +EC3.1.1.1 4-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.1.1.1 4-nitrophenyl laurate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 555.0 * +EC3.1.1.1 4-nitrophenyl laurate klebsiella sp.//*//* 59.0 * +EC3.1.1.1 4-nitrophenyl laurate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.024 * +EC3.1.1.1 4-nitrophenyl octanoate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 8.67 * +EC3.1.1.1 4-nitrophenyl octanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1960.0 * +EC3.1.1.1 4-nitrophenyl octanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 831.0 * +EC3.1.1.1 4-nitrophenyl octanoate bacillus circulans//*//* 51.0 * +EC3.1.1.1 4-nitrophenyl octanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1250.0 * +EC3.1.1.1 4-nitrophenyl octanoate klebsiella sp.//*//* 360.0 * +EC3.1.1.1 4-nitrophenyl octanoate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 24.0 * +EC3.1.1.1 4-nitrophenyl octanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 1600.0 * +EC3.1.1.1 4-nitrophenyl octanoate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 6.36 * +EC3.1.1.1 4-nitrophenyl octanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.5 * +EC3.1.1.1 4-nitrophenyl octanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1491.0 * +EC3.1.1.1 4-nitrophenyl octanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 25.2 * +EC3.1.1.1 4-nitrophenyl palmitate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 47.5 * +EC3.1.1.1 4-nitrophenyl palmitate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.424 * +EC3.1.1.1 4-nitrophenyl palmitate sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1080.0 * +EC3.1.1.1 4-nitrophenyl pentanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 2050.0 * +EC3.1.1.1 4-nitrophenyl pentanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 866.0 * +EC3.1.1.1 4-nitrophenyl pentanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 15300.0 * +EC3.1.1.1 4-nitrophenyl pentanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 2070.0 * +EC3.1.1.1 4-nitrophenyl pentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 46.3 * +EC3.1.1.1 4-nitrophenyl propanoate klebsiella sp.//*//* 238.0 * +EC3.1.1.1 4-nitrophenyl propanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 1480.0 * +EC3.1.1.1 4-nitrophenyl propionate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1230.0 * +EC3.1.1.1 4-nitrophenyl propionate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 348.0 * +EC3.1.1.1 4-nitrophenyl propionate bacillus circulans//*//* 144.0 * +EC3.1.1.1 4-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.1 * +EC3.1.1.1 4-nitrophenyl propionate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 29.0 * +EC3.1.1.1 4-nitrophenyl propionate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1170.0 * +EC3.1.1.1 4-nitrophenyl propionate klebsiella sp.//*//* 238.0 * +EC3.1.1.1 4-nitrophenyl propionate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 230.0 * +EC3.1.1.1 4-nitrophenyl tetradecanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 42.3 * +EC3.1.1.1 4-nitrophenyl tetradecanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.11 * +EC3.1.1.1 4-nitrophenyl valerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 580.0 * +EC3.1.1.1 4-nitrophenyl valerate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 110.0 * +EC3.1.1.1 4-nitrophenylbutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.6 * +EC3.1.1.1 4-yethylumbelliferyl acetate actinidia eriantha//*//* 1.61 * +EC3.1.1.1 4-yethylumbelliferyl acetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1000.0 * +EC3.1.1.1 4-yethylumbelliferyl acetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 140.0 * +EC3.1.1.1 4-yethylumbelliferyl acetate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 2.0 * +EC3.1.1.1 4-yethylumbelliferyl acetate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8500.0 * +EC3.1.1.1 4-yethylumbelliferyl acetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8500.0 * +EC3.1.1.1 4-yethylumbelliferyl acetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1000.0 * +EC3.1.1.1 5'-cinnamic acid-floxuridine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.38 * +EC3.1.1.1 5'-d-phenylalanyl-bdcrb sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.55 * +EC3.1.1.1 5'-d-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.1.1.1 5'-d-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.008 * +EC3.1.1.1 5'-l-isoleucyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.33 * +EC3.1.1.1 5'-l-phenylalanine-floxuridine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.62 * +EC3.1.1.1 5'-l-phenylalanyl-bdcrb sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC3.1.1.1 5'-l-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.1.1.1 5'-l-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.008 * +EC3.1.1.1 7-amino cephalosporanic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 11.8 * +EC3.1.1.1 7-ethyl-10-(4-(1-piperidino)-1-amino)carbonyloxycampothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.1.1.1 7-ethyl-10-(4-(1-piperidino)-1-piperidino)carbonyloxycampothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.1.1.1 7-ethyl-10-(4-n-(5-aminopentanoic acid)-1-piperidino)carbonyloxycampothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00041 * +EC3.1.1.1 alpha-naphthyl acetate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3000.0 * +EC3.1.1.1 alpha-naphthyl acetate tribolium castaneum//eukaryotes;animals;arthropods;insects//tca 12.1 * +EC3.1.1.1 alpha-naphthyl butyrate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1600.0 * +EC3.1.1.1 benzyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.5 * +EC3.1.1.1 benzyloxycarbonyl-d-tyr p-nitrophenyl ester equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.57 * +EC3.1.1.1 benzyloxycarbonyl-d-tyr p-nitrophenyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.1.1.1 benzyloxycarbonyl-l-tyr p-nitrophenyl ester equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.92 * +EC3.1.1.1 benzyloxycarbonyl-l-tyr p-nitrophenyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 24.0 * +EC3.1.1.1 bioresmethrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.1.1.1 bioresmethrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC3.1.1.1 bisphenyl carbonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1200.0 * +EC3.1.1.1 butyryl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 11.1 * +EC3.1.1.1 carboxyfluorescein diacetate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2800.0 * +EC3.1.1.1 carboxyfluorescein diacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2800.0 * +EC3.1.1.1 cefazolin uncultured bacterium//*//* 0.000238 * +EC3.1.1.1 cis-permethrin klebsiella sp.//*//* 1.05 * +EC3.1.1.1 cyano(6-methoxy-2-naphthyl)methyl 3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC3.1.1.1 cyano(6-methoxy-2-naphthyl)methyl butanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.099 * +EC3.1.1.1 cyano(6-methoxynaphthalen-2-yl)methyl (2s)-2-(4-chlorophenyl)-3-methylbutanoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.067 * +EC3.1.1.1 cypermethrin klebsiella sp.//*//* 0.288 * +EC3.1.1.1 cypermethrin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC3.1.1.1 d-glucose pentaacetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.22 * +EC3.1.1.1 d-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 71.0 * +EC3.1.1.1 d-xylose tetraacetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 12.2 * +EC3.1.1.1 deltamethrin klebsiella sp.//*//* 0.016 * +EC3.1.1.1 ethyl 2-naphthyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.7 * +EC3.1.1.1 ethyl 4-nitrophenyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.8 * +EC3.1.1.1 ethyl 4-nitrophenyl methylphosphonate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 84.0 * +EC3.1.1.1 ethyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 135.0 * +EC3.1.1.1 ethyl butyrate galeocerdo cuvier//*//* 4.0 * +EC3.1.1.1 ethyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 299.0 * +EC3.1.1.1 ethyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 559.0 * +EC3.1.1.1 ethyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 551.0 * +EC3.1.1.1 ethyl butyrylacetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.79 * +EC3.1.1.1 ethylbutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 4.4 * +EC3.1.1.1 fenvalerate klebsiella sp.//*//* 0.103 * +EC3.1.1.1 fluorescein diacetate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 170.0 * +EC3.1.1.1 fluorescein diacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 170.0 * +EC3.1.1.1 indoxyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.3 * +EC3.1.1.1 irinotecan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC3.1.1.1 isobutyl 4-nitrophenyl methylphosphonate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 8.0 * +EC3.1.1.1 isopropyl 4-nitrophenyl methylphosphonate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 3.1 * +EC3.1.1.1 l-phenylalanine butyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.1.1.1 l-phenylalanine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 63.6 * +EC3.1.1.1 l-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 71.0 * +EC3.1.1.1 m-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 345.0 * +EC3.1.1.1 malathion klebsiella sp.//*//* 0.07 * +EC3.1.1.1 malathion tribolium castaneum//eukaryotes;animals;arthropods;insects//tca 13.0 * +EC3.1.1.1 methyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 286.0 * +EC3.1.1.1 methyl butyrate galeocerdo cuvier//*//* 10.0 * +EC3.1.1.1 methyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 261.0 * +EC3.1.1.1 methyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 454.0 * +EC3.1.1.1 methyl paraoxon rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.1 * +EC3.1.1.1 n-acetyl l-phenylalanine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC3.1.1.1 n-acetyl-l-ala-1-naphthyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 651.0 * +EC3.1.1.1 o-nitrophenyl butyrate galeocerdo cuvier//*//* 323.0 * +EC3.1.1.1 o-nitrophenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 366.0 * +EC3.1.1.1 o-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 348.0 * +EC3.1.1.1 p-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.5 * +EC3.1.1.1 p-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.0 * +EC3.1.1.1 p-nitrophenyl acetate klebsiella sp.//*//* 81.0 * +EC3.1.1.1 p-nitrophenyl acetate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6400.0 * +EC3.1.1.1 p-nitrophenyl acetate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 50.0 * +EC3.1.1.1 p-nitrophenyl butanoate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 14.0 * +EC3.1.1.1 p-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.1 * +EC3.1.1.1 p-nitrophenyl butyrate galeocerdo cuvier//*//* 401.0 * +EC3.1.1.1 p-nitrophenyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 51.7 * +EC3.1.1.1 p-nitrophenyl butyrate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1700.0 * +EC3.1.1.1 p-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 367.0 * +EC3.1.1.1 p-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.1.1.1 p-nitrophenyl caproate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 39760.0 * +EC3.1.1.1 p-nitrophenyl caprylate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 13.0 * +EC3.1.1.1 p-nitrophenyl decanoate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 10.8 * +EC3.1.1.1 p-nitrophenyl hexanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 4320.0 * +EC3.1.1.1 p-nitrophenyl hexanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.47 * +EC3.1.1.1 p-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.1.1.1 p-nitrophenyl myristate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.9 * +EC3.1.1.1 p-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.1 * +EC3.1.1.1 palmitoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.1.1 paraoxon rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.3 * +EC3.1.1.1 phenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 300.0 * +EC3.1.1.1 phenyl acetate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 156.0 * +EC3.1.1.1 phenyl acetate paenarthrobacter nitroguajacolicus//*//* 550.0 * +EC3.1.1.1 phenyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 30.0 * +EC3.1.1.1 phenyl acetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 380.0 * +EC3.1.1.1 phenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 205.0 * +EC3.1.1.1 phenyl butyrate galeocerdo cuvier//*//* 661.0 * +EC3.1.1.1 phenyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 476.0 * +EC3.1.1.1 phenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 565.0 * +EC3.1.1.1 phenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 520.0 * +EC3.1.1.1 phenyl formate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3100.0 * +EC3.1.1.1 phenyl formate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 660.0 * +EC3.1.1.1 phenyl pentanoate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 263.0 * +EC3.1.1.1 phenyl pentanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 860.0 * +EC3.1.1.1 phenyl pivalate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 9.7 * +EC3.1.1.1 phenyl trimethyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.5 * +EC3.1.1.1 phenylbutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.5 * +EC3.1.1.1 phenylthioacetate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 5.0 * +EC3.1.1.1 phenylthiobutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 4.4 * +EC3.1.1.1 phenylthioisobutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.7 * +EC3.1.1.1 phenylthiopentanoate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 4.6 * +EC3.1.1.1 phenylthiopropionate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 8.9 * +EC3.1.1.1 retinyl palmitate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0075 * +EC3.1.1.1 trans-permethrin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.9 * +EC3.1.1.1 trans-permethrin klebsiella sp.//*//* 1.14 * +EC3.1.1.1 triacetin alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 945.0 * +EC3.1.1.1 triacetin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 40.0 * +EC3.1.1.1 triacetin ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 47.0 * +EC3.1.1.1 tributyrin alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1290.0 * +EC3.1.1.1 tributyrin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 95.0 * +EC3.1.1.1 tributyrin ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 23.0 * +EC3.1.1.1 tributyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.1.1.1 tripropionin alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 835.0 * +EC3.1.1.1 tripropionin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 110.0 * +EC3.1.1.1 tripropionin ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 44.0 * +EC3.1.1.1 tripropionin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.1.1.1 vinyl acetate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 110.0 * +EC3.1.1.1 vinyl acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 50.0 * +EC3.1.1.1 vinyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 140.0 * +EC3.1.1.1 vinyl butanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1930.0 * +EC3.1.1.1 vinyl butanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 210.0 * +EC3.1.1.1 vinyl butanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 210.0 * +EC3.1.1.1 vinyl laurate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.1.1.1 vinyl propionate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 980.0 * +EC3.1.1.1 vinyl propionate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 200.0 * +EC3.1.1.1 vinyl propionate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 105.0 * +EC3.1.1.10 atropine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 68.0 * +EC3.1.1.10 butyrylcholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1930.0 * +EC3.1.1.101 4-nitrophenyl butanoate thermomonospora curvata//prokaryotes;bacteria;actinobacteria;thermomonospora//tcu 12.4 * +EC3.1.1.102 bis(2-hydroxyethyl) terephthalic acid thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 26.8 * +EC3.1.1.102 ethylene terephthalate ideonella sakaiensis//*//* 31.0 * +EC3.1.1.102 ethylene terephthalate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.31 * +EC3.1.1.11 citrus pectin penicillium oxalicum//*//* 47.6 * +EC3.1.1.11 pectin dickeya chrysanthemi//*//* 450.0 * +EC3.1.1.13 4-nitrophenyl butyrate candida cylindracea//*//* 63330.0 * +EC3.1.1.13 4-nitrophenyl butyrate ophiostoma piceae//*//* 44.0 * +EC3.1.1.13 4-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 650.0 * +EC3.1.1.13 4-nitrophenyl laurate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 2.56 * +EC3.1.1.13 4-nitrophenyl laurate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.43 * +EC3.1.1.13 4-nitrophenyl myristate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 2.52 * +EC3.1.1.13 4-nitrophenyl myristate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.86 * +EC3.1.1.13 4-nitrophenyl palmitate ophiostoma piceae//*//* 74.0 * +EC3.1.1.13 4-nitrophenyl palmitate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 1.44 * +EC3.1.1.13 4-nitrophenyl palmitate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.73 * +EC3.1.1.13 cholesteryl acetate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 110.0 * +EC3.1.1.13 cholesteryl butyrate ophiostoma piceae//*//* 47.0 * +EC3.1.1.13 cholesteryl linoleate ophiostoma piceae//*//* 150.0 * +EC3.1.1.13 cholesteryl linoleate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 24.7 * +EC3.1.1.13 cholesteryl linoleate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 25.6 * +EC3.1.1.13 cholesteryl linoleate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 31.2 * +EC3.1.1.13 cholesteryl myristate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 12.4 * +EC3.1.1.13 cholesteryl myristate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 13.3 * +EC3.1.1.13 cholesteryl myristate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 23.5 * +EC3.1.1.13 cholesteryl oleate ophiostoma piceae//*//* 138.0 * +EC3.1.1.13 cholesteryl oleate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC3.1.1.13 cholesteryl palmitate ophiostoma piceae//*//* 67.0 * +EC3.1.1.13 cholesteryl palmitate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 15.7 * +EC3.1.1.13 cholesteryl palmitate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 96.7 * +EC3.1.1.13 cholesteryl stearate ophiostoma piceae//*//* 71.0 * +EC3.1.1.13 cholesteryl stearate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 23.3 * +EC3.1.1.13 cholesteryl stearate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 70.8 * +EC3.1.1.13 p-nitrophenyl laurate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.4 * +EC3.1.1.13 p-nitrophenyl myristate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.5 * +EC3.1.1.13 p-nitrophenyl palmitate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.9 * +EC3.1.1.13 p-nitrophenylacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.07 * +EC3.1.1.13 tributyrin ophiostoma piceae//*//* 179.0 * +EC3.1.1.13 triolein ophiostoma piceae//*//* 290.0 * +EC3.1.1.14 4-nitrophenyl decanoate triticum aestivum//*//* 9.43 * +EC3.1.1.14 chlorophyll a brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.072 * +EC3.1.1.14 chlorophyll b brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.072 * +EC3.1.1.14 chlorophyll triticum aestivum//*//* 566.0 * +EC3.1.1.14 p-nitrophenyl butyrate triticum aestivum//*//* 10.3 * +EC3.1.1.14 p-nitrophenyl decanoate triticum aestivum//*//* 0.52 * +EC3.1.1.14 p-nitrophenyl palmitate triticum aestivum//*//* 0.2 * +EC3.1.1.14 pheophorbide a methyl ester brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.259 * +EC3.1.1.17 d-glucono-1,5-lactone euglena gracilis//*//* 192.0 * +EC3.1.1.17 d-gulono-1,5-lactone euglena gracilis//*//* 160.0 * +EC3.1.1.17 l-galactonic acid euglena gracilis//*//* 615.0 * +EC3.1.1.17 l-galactono-1,4-lactone euglena gracilis//*//* 450.0 * +EC3.1.1.17 l-gulonic acid euglena gracilis//*//* 1503.0 * +EC3.1.1.17 l-gulono-1,4-lactone euglena gracilis//*//* 1040.0 * +EC3.1.1.2 1-phenylvinyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.1.2 2,2,2-trifluoroethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.1.1.2 2,2-difluoroethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC3.1.1.2 2,3-difluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 403.0 * +EC3.1.1.2 2,4-difluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 334.0 * +EC3.1.1.2 2,6-difluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 145.0 * +EC3.1.1.2 2-fluoroethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.1.1.2 2-fluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 431.0 * +EC3.1.1.2 2-naphthyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 55.2 * +EC3.1.1.2 2-naphthyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.25 * +EC3.1.1.2 2-naphthyl acetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.12 * +EC3.1.1.2 2-naphthyl acetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.66 * +EC3.1.1.2 2-naphthyl butanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 7.0 * +EC3.1.1.2 3,4-dimethyl phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 51.0 * +EC3.1.1.2 3-cyanophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 125.0 * +EC3.1.1.2 3-fluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 571.0 * +EC3.1.1.2 3-naphthyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 99.0 * +EC3.1.1.2 3-naphthyl butanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 16.4 * +EC3.1.1.2 3-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 59.0 * +EC3.1.1.2 4-acetoxy methyl benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.1.1.2 4-acetoxyacetophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.1.1.2 4-acetoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC3.1.1.2 4-chlorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 117.0 * +EC3.1.1.2 4-cyanophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.1.1.2 4-diethyl phosphate methyl benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.244 * +EC3.1.1.2 4-nitrophenyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 185.0 * +EC3.1.1.2 4-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2500.0 * +EC3.1.1.2 4-nitrophenyl acetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2500.0 * +EC3.1.1.2 4-nitrophenyl acetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.13 * +EC3.1.1.2 4-nitrophenyl acetate sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.2 * +EC3.1.1.2 4-nitrophenyl acetate vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 1.66 * +EC3.1.1.2 4-nitrophenyl butanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 97.2 * +EC3.1.1.2 4-nitrophenyl butyrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 285.0 * +EC3.1.1.2 4-nitrophenyl caprate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 341.0 * +EC3.1.1.2 4-nitrophenyl caproate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 467.0 * +EC3.1.1.2 4-nitrophenyl caprylate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 410.0 * +EC3.1.1.2 4-nitrophenyl laurate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 264.0 * +EC3.1.1.2 4-nitrophenyl palmitate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 265.0 * +EC3.1.1.2 4-nitrophenyl phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 269.0 * +EC3.1.1.2 alpha-naphthyl acetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 450.0 * +EC3.1.1.2 benzyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.1.2 butyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.1.2 ethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.242 * +EC3.1.1.2 naphthalen-2-yl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.1.1.2 p-tolyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 68.0 * +EC3.1.1.2 phenyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 231.0 * +EC3.1.1.2 phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4778.0 * +EC3.1.1.2 phenyl acetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.35 * +EC3.1.1.2 phenyl acetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 521.0 * +EC3.1.1.2 propyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.1.2 s-methyl thiobutanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 20.0 * +EC3.1.1.20 catechin gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 79.8 * +EC3.1.1.20 catechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 8.1 * +EC3.1.1.20 catechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 1.48 * +EC3.1.1.20 catechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.41 * +EC3.1.1.20 epicatechin gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 103.4 * +EC3.1.1.20 epicatechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 11.08 * +EC3.1.1.20 epicatechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.42 * +EC3.1.1.20 epicatechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.49 * +EC3.1.1.20 epigallocatechin gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 86.1 * +EC3.1.1.20 epigallocatechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 14.29 * +EC3.1.1.20 epigallocatechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.44 * +EC3.1.1.20 epigallocatechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.12 * +EC3.1.1.20 epigallocatechin-3-o-(3-o-methyl) gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.35 * +EC3.1.1.20 epigallocatechin-3-o-(3-o-methyl) gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.06 * +EC3.1.1.20 epigallocatechin-3-o-(3-o-methyl) gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.26 * +EC3.1.1.20 ethyl gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 19.0 * +EC3.1.1.20 gallocatechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 9.2 * +EC3.1.1.20 gallocatechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 1.12 * +EC3.1.1.20 gallocatechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.89 * +EC3.1.1.20 methyl gallate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2611.0 * +EC3.1.1.20 methyl gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 70.2 * +EC3.1.1.20 methyl gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 72.73 * +EC3.1.1.20 methyl gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 15.95 * +EC3.1.1.20 methyl gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 74.0 * +EC3.1.1.20 propyl gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 20.5 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate paucimonas lemoignei//*//* 80.0 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)3butanoate paucimonas lemoignei//*//* 22.0 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate paucimonas lemoignei//*//* 1500.0 * +EC3.1.1.23 2-arachidonoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC3.1.1.23 4-methylumbelliferyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.13 * +EC3.1.1.23 arachidonoyl-1-thio-glycerol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.66 * +EC3.1.1.23 prostaglandin d2-g rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC3.1.1.23 prostaglandin e2-g rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.1.1.23 prostaglandin f3alpha-g rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC3.1.1.25 3-oxo-decanoyl-l-homoserine lactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.47 * +EC3.1.1.25 3-oxo-octanoyl-l-homoserine lactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.35 * +EC3.1.1.25 4-methoxy phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC3.1.1.25 5-(thiobutyl)butyrolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 116.0 * +EC3.1.1.25 5-butyl-4-methyldihydro-2(3h)-furanone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 4.2 * +EC3.1.1.25 7-oxo-n-(2-oxotetrahydrofuran-3-yl)nonanamide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.89 * +EC3.1.1.25 9-oxo-n-(2-oxotetrahydrofuran-3-yl)undecanamide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.03 * +EC3.1.1.25 delta-dodecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 28.08 * +EC3.1.1.25 delta-nonalactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC3.1.1.25 delta-nonalactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 15.32 * +EC3.1.1.25 delta-nonalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 88.91 * +EC3.1.1.25 delta-undecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 60.78 * +EC3.1.1.25 delta-undecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.65 * +EC3.1.1.25 delta-valerolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 632.0 * +EC3.1.1.25 delta-valerolactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.43 * +EC3.1.1.25 dihydrocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 152.0 * +EC3.1.1.25 dihydrocoumarin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.32 * +EC3.1.1.25 dodecanoic-1,4-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.53 * +EC3.1.1.25 dodecanoic-1,5-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 3.34 * +EC3.1.1.25 dodecanoic-delta-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 11.09 * +EC3.1.1.25 dodecanoic-gamma-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1.5 * +EC3.1.1.25 epsilon-caprolactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 15.04 * +EC3.1.1.25 epsilon-caprolactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 7.27 * +EC3.1.1.25 epsilon-caprolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.45 * +EC3.1.1.25 gamma-(r)-caprolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 3.04 * +EC3.1.1.25 gamma-(r)-valerolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 6.23 * +EC3.1.1.25 gamma-(s)-caprolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 1.89 * +EC3.1.1.25 gamma-(s)-valerolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 2.68 * +EC3.1.1.25 gamma-butyrolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 111.0 * +EC3.1.1.25 gamma-butyrolactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 5.75 * +EC3.1.1.25 gamma-butyrolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 2.79 * +EC3.1.1.25 gamma-caprolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.0 * +EC3.1.1.25 gamma-caprolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 112.3 * +EC3.1.1.25 gamma-dodecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.16 * +EC3.1.1.25 gamma-dodecanoic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.4 * +EC3.1.1.25 gamma-dodecanoic lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 101.0 * +EC3.1.1.25 gamma-dodecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.72 * +EC3.1.1.25 gamma-heptalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 27.25 * +EC3.1.1.25 gamma-heptanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.92 * +EC3.1.1.25 gamma-heptanolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.0 * +EC3.1.1.25 gamma-heptanolide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 10.25 * +EC3.1.1.25 gamma-heptanolide sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 5.9 * +EC3.1.1.25 gamma-nonalactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.1.1.25 gamma-nonalactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.54 * +EC3.1.1.25 gamma-nonalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 44.49 * +EC3.1.1.25 gamma-nonanoic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.1.1.25 gamma-undecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 8.86 * +EC3.1.1.25 gamma-undecanoic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.0 * +EC3.1.1.25 gamma-undecanoiclactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.0 * +EC3.1.1.25 gamma-undecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.95 * +EC3.1.1.25 n-(2-oxotetrahydrofuran-3-yl)pentanamide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.94 * +EC3.1.1.25 n-(3-oxodecanoyl)-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 10.65 * +EC3.1.1.25 n-(3-oxodecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.52 * +EC3.1.1.25 n-(3-oxododecanoyl)-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.39 * +EC3.1.1.25 n-(3-oxododecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.01 * +EC3.1.1.25 n-(3-oxohexanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.083 * +EC3.1.1.25 n-(3-oxohexanoyl)homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.041 * +EC3.1.1.25 n-(3-oxooctanoyl)-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 4.1 * +EC3.1.1.25 n-(3-oxooctanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.54 * +EC3.1.1.25 n-(3-oxooctanoyl)homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.42 * +EC3.1.1.25 n-dodecanoyl-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1.9 * +EC3.1.1.25 n-dodecanoylhomoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.7 * +EC3.1.1.25 n-hexanoylhomoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.36 * +EC3.1.1.25 n-octanoyl-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.71 * +EC3.1.1.25 n-octanoylhomoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.0 * +EC3.1.1.25 nonanoic-1,4-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.64 * +EC3.1.1.25 nonanoic-1,5-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 4.55 * +EC3.1.1.25 nonanoic-delta-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 51.7 * +EC3.1.1.25 nonanoic-gamma-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 3.1 * +EC3.1.1.25 octanoyl-l-homoserine lactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.59 * +EC3.1.1.25 pantoyl lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.9 * +EC3.1.1.25 paraoxon sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.6 * +EC3.1.1.25 undecanoic-1,4-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.34 * +EC3.1.1.25 undecanoic-1,5-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.05 * +EC3.1.1.25 undecanoic-delta-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 17.65 * +EC3.1.1.25 undecanoic-gamma-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 2.15 * +EC3.1.1.27 4-pyridoxate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 1.4 * +EC3.1.1.27 4-pyridoxolactone mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 12.2 * +EC3.1.1.29 acetyl-his-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.4 * +EC3.1.1.29 acetyl-histidyl-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.4 * +EC3.1.1.29 acetyl-histidyl-trnahis sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.4 * +EC3.1.1.29 dephosphorylated diacyl-lysine-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.08 * +EC3.1.1.29 dephosphorylated formyl-methioninyl-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.0 * +EC3.1.1.29 diacetyl-lys-trna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.1.29 diacetyl-lys-trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC3.1.1.29 diacetyl-lys-trnalys sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC3.1.1.29 diacetyl-lysine-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC3.1.1.29 diacetyl-lysine-trna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.1.29 diacetyl-lysine-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC3.1.1.29 diacetyl-lysyl-trnalys mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.22 * +EC3.1.1.29 diacetyl-lysyl-trnalys sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC3.1.1.29 formyl-met-trnafmet sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.0 * +EC3.1.1.29 formyl-methionyl-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.0 * +EC3.1.1.29 formyl-methionyl-trnafmet sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.0 * +EC3.1.1.29 n-acetyl-ala-trna(ala) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.7 * +EC3.1.1.29 n-acetyl-met-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC3.1.1.29 o-hydroxycinnamic acid sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.0 * +EC3.1.1.29 oregon green-methionine-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.3 * +EC3.1.1.3 4-methylumbelliferyl butyrate litopenaeus vannamei//*//* 200.2 * +EC3.1.1.3 4-nitrophenyl acetate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.44 * +EC3.1.1.3 4-nitrophenyl butanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1135.0 * +EC3.1.1.3 4-nitrophenyl butyrate staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 0.061 * +EC3.1.1.3 4-nitrophenyl caprate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1576.0 * +EC3.1.1.3 4-nitrophenyl caproate fervidobacterium changbaicum//*//* 22.7 * +EC3.1.1.3 4-nitrophenyl laurate uncultured bacterium//*//* 569.0 * +EC3.1.1.3 4-nitrophenyl palmitate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 1468.0 * +EC3.1.1.3 4-nitrophenyl palmitate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 494.0 * +EC3.1.1.3 4-nitrophenyl palmitate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2252.0 * +EC3.1.1.3 olive oil staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 500.0 * +EC3.1.1.3 triacetin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.32 * +EC3.1.1.3 tributyrin camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 4333.0 * +EC3.1.1.3 tributyrin scorpio maurus//*//* 5370.0 * +EC3.1.1.3 tributyrin staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 1900.0 * +EC3.1.1.3 trioctanoin camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 2416.0 * +EC3.1.1.3 triolein pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3000.0 * +EC3.1.1.32 high-density lipoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.1.1.32 phosphatidic acid streptomyces albidoflavus//*//* 630.0 * +EC3.1.1.32 phosphatidylcholine serratia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srs 0.057 * +EC3.1.1.35 dihydrocoumarin melilotus albus//*//* 1670.0 * +EC3.1.1.4 1,2-diheptanoyl-sn-glycero-3-phosphocholine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.86 * +EC3.1.1.4 1,2-diheptanoyl-sn-glycero-3-phosphorylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 43.3 * +EC3.1.1.4 1,2-dihexanoyl-sn-glycero-3-phosphocholine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.71 * +EC3.1.1.4 1,2-dioctanoyl-sn-glycero-3-phosphocholine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.38 * +EC3.1.1.4 1,2-dipalmitoyl-phosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.42 * +EC3.1.1.4 p-nitrophenyl propionate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 39.0 * +EC3.1.1.4 phosphatidylcholine crotalus adamanteus//*//* 26.7 * +EC3.1.1.4 phosphatidylcholine dasyatis pastinaca//*//* 187.0 * +EC3.1.1.41 7-aminocephalosporanic acid rhodotorula glutinis//*//* 576.0 * +EC3.1.1.41 benzyloxycarbonyl-7-aminocephalosporanic acid rhodotorula glutinis//*//* 534.0 * +EC3.1.1.41 cephalosporin c rhodotorula glutinis//*//* 1370.0 * +EC3.1.1.41 cephalothin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 55.0 * +EC3.1.1.41 cephapirin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 80.0 * +EC3.1.1.41 monochloroacetyl-7-aminocephalosporanic acid rhodotorula glutinis//*//* 768.0 * +EC3.1.1.42 chlorogenic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 22.0 * +EC3.1.1.43 4-carbamimidamidobenzyl l-isoleucinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.1.1.43 4-carbamimidamidobenzyl l-phenylalaninate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 345.0 * +EC3.1.1.43 4-carbamimidamidobenzyl l-valinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 154.0 * +EC3.1.1.43 4-hydroxy-d-phenylglycine methyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 263.0 * +EC3.1.1.43 amoxicillin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 10.0 * +EC3.1.1.43 ampicillin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 162.0 * +EC3.1.1.43 ampicillin xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 72.5 * +EC3.1.1.43 ampicillin xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 58.0 * +EC3.1.1.43 ampicillin xanthomonas sp.//*//* 17.5 * +EC3.1.1.43 cefadroxil acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 347.0 * +EC3.1.1.43 cefaloglycin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 9.6 * +EC3.1.1.43 cefatrizine xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 2.3 * +EC3.1.1.43 cephalexin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 347.0 * +EC3.1.1.43 cephalexin xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 200.0 * +EC3.1.1.43 cephalexin xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 3200.0 * +EC3.1.1.43 cephalexin xanthomonas sp.//*//* 71.0 * +EC3.1.1.43 d-2-nitro-5-[(phenylglycyl)amino]benzoic acid acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.4 * +EC3.1.1.43 d-4-hydroxyphenylglycine methyl ester acidovorax avenae//prokaryotes;bacteria;betaproteobacteria;acidovorax//aaa 147.0 * +EC3.1.1.43 d-alpha-phenylglycine methyl ester xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 11100.0 * +EC3.1.1.43 d-phenylglycine amide acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 43.0 * +EC3.1.1.43 d-phenylglycine amide xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 1.6 * +EC3.1.1.43 d-phenylglycine methyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 1040.0 * +EC3.1.1.43 d-phenylglycine methyl ester xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 982.0 * +EC3.1.1.43 d-phenylglycine methyl ester xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 1860.0 * +EC3.1.1.43 d-phenylglycine methyl ester xanthomonas sp.//*//* 1000.0 * +EC3.1.1.43 phenylalanine [3-(hydroxymethyl)phenyl]guanidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 345.0 * +EC3.1.1.43 phenylalanine benzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 395.0 * +EC3.1.1.43 phenylalanine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 93.0 * +EC3.1.1.43 phenylalanine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 228.0 * +EC3.1.1.43 phenylalanine methylester bacillus mycoides//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bwe 6160.0 * +EC3.1.1.43 valacyclovir homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 126.0 * +EC3.1.1.43 valganciclovir homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 101.0 * +EC3.1.1.43 valine 4-nitrobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC3.1.1.43 valine [3-(aminomethyl)phenyl]guanidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.1.1.43 valine [3-(hydroxymethyl)phenyl]guanidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 154.0 * +EC3.1.1.43 valine benzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.1.1.45 4-carboxymethylenebut-2-en-4-olide pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 30.0 * +EC3.1.1.45 4-fluoromuconolactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1633.0 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-chloro-2-en-4-olide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 19.8 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 817.0 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 260.0 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 15.4 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-methyl-2-en-4-olide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 4.95 * +EC3.1.1.45 e-dienelactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.0 * +EC3.1.1.45 protoanemonin pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 2.08 * +EC3.1.1.45 trans-4-carboxymethylenebut-2-en-4-olide pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 15.0 * +EC3.1.1.45 trans-dienelactone pseudomonas reinekei//*//* 15100.0 * +EC3.1.1.45 trans-dienelactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2650.0 * +EC3.1.1.45 trans-dienelactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9409.0 * +EC3.1.1.45 z-dienelactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 19.0 * +EC3.1.1.47 1-acetyl-2-hexadecyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.1 * +EC3.1.1.47 2-acetyl-1-hexadecyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.6 * +EC3.1.1.47 2-acetyl-1-octadecyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.1.1.47 2-acetyl-1-oleoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.1.47 octyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.1.1.47 triacetylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 37.0 * +EC3.1.1.5 1-hexyl-glycerophosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1016.0 * +EC3.1.1.5 1-lauryl-glycerophosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1975.0 * +EC3.1.1.5 1-palmitoyl-glycerophosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 921.1 * +EC3.1.1.56 diethyl p-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0067 * +EC3.1.1.56 dimethyl p-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00483 * +EC3.1.1.56 p-nitrophenyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.783 * +EC3.1.1.56 p-nitrophenyl butyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.198 * +EC3.1.1.57 2-pyrone-4,6-dicarboxylate sphingomonas paucimobilis//*//* 342.0 * +EC3.1.1.58 3-carboxyumbelliferyl acetate staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.0013 * +EC3.1.1.58 beta-1,6-linked n-acetylglucosamine pentamer staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.0007 * +EC3.1.1.58 beta-1,6-linked n-acetylglucosamine trimer staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.0007 * +EC3.1.1.59 alpha-naphthyl acetate manduca sexta//*//* 22.0 * +EC3.1.1.59 juvenile hormone i drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.6 * +EC3.1.1.59 juvenile hormone i trichoplusia ni//*//* 0.618 * +EC3.1.1.59 juvenile hormone iii bombyx mori//eukaryotes;animals;arthropods;insects//bmor 1.0 * +EC3.1.1.59 juvenile hormone iii drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.1 * +EC3.1.1.59 juvenile hormone iii leptinotarsa decemlineata//*//* 1.9 * +EC3.1.1.59 juvenile hormone iii manduca sexta//*//* 0.7 * +EC3.1.1.59 juvenile hormone iii tribolium castaneum//eukaryotes;animals;arthropods;insects//tca 0.164 * +EC3.1.1.59 juvenile hormone iii trichoplusia ni//*//* 0.323 * +EC3.1.1.59 juvenile hormone rhyparobia maderae//*//* 0.39 * +EC3.1.1.59 methyl farnesoate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3.0 * +EC3.1.1.59 saturated juvenile hormone iii manduca sexta//*//* 0.7 * +EC3.1.1.6 2-benzylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 33.0 * +EC3.1.1.6 2-ethylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 63.0 * +EC3.1.1.6 2-isopropylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 14.0 * +EC3.1.1.6 2-methylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 77.0 * +EC3.1.1.6 2-n-pentylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 42.0 * +EC3.1.1.6 2-n-propylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 79.0 * +EC3.1.1.6 2-o-acetyl 4-nitrophenyl beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 41.6 * +EC3.1.1.6 2-o-acetyl-4-nitrophenyl beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 76.1 * +EC3.1.1.6 2-t-butylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 17.0 * +EC3.1.1.6 3-o-acetyl 4-nitrophenyl beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 2101.0 * +EC3.1.1.6 3-o-acetyl-4-nitrophenyl beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 70.1 * +EC3.1.1.6 4-nitrophenyl acetate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 57.5 * +EC3.1.1.6 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC3.1.1.6 4-nitrophenyl hexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 34.5 * +EC3.1.1.6 4-nitrophenyl propionate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 41.3 * +EC3.1.1.6 4-nitrophenyl-2-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.15 * +EC3.1.1.6 4-nitrophenyl-2-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.23 * +EC3.1.1.6 4-nitrophenyl-3-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.9 * +EC3.1.1.6 4-nitrophenyl-4-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.91 * +EC3.1.1.6 4-nitrophenyl-5-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.77 * +EC3.1.1.6 4-nitrophenyl-butanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 145.0 * +EC3.1.1.6 4-o-acetyl 4-nitrophenyl beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 3210.0 * +EC3.1.1.6 4-o-acetyl 4-nitrophenyl beta-d-xylopyranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1331.0 * +EC3.1.1.6 4-o-acetyl-4-nitrophenyl beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 78.6 * +EC3.1.1.6 6-acetylmorphine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 12.6 * +EC3.1.1.6 phenyl acetate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 3.0 * +EC3.1.1.6 tributyrin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.2 * +EC3.1.1.60 bis(2-ethylhexyl)phthalate triticum aestivum//*//* 8.33e-05 * +EC3.1.1.61 methyl-accepting chemotaxis protein salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.004 * +EC3.1.1.61 several methylated protein substrates rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-05 * +EC3.1.1.64 all-trans-retinyl palmitate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.000145 * +EC3.1.1.64 an all-trans retinyl ester danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.00044 * +EC3.1.1.67 oleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.06 * +EC3.1.1.67 oleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.285 * +EC3.1.1.7 (s)-butyrylthiocholine iodide schizaphis graminum//*//* 8.83e-06 * +EC3.1.1.7 acetyl thiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6500.0 * +EC3.1.1.7 acetyl(beta-methyl)thiocholine iodide schizaphis graminum//*//* 0.000146 * +EC3.1.1.7 acetylcholine chloride macroptilium atropurpureum//*//* 1.2 * +EC3.1.1.7 acetylcholine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 13700.0 * +EC3.1.1.7 acetylcholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2333.0 * +EC3.1.1.7 acetylthiocholine chloride macroptilium atropurpureum//*//* 0.2 * +EC3.1.1.7 acetylthiocholine iodide schizaphis graminum//*//* 0.000143 * +EC3.1.1.7 acetylthiocholine arapaima gigas//*//* 1.04 * +EC3.1.1.7 acetylthiocholine bactrocera dorsalis//*//* 1820.0 * +EC3.1.1.7 acetylthiocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5300.0 * +EC3.1.1.7 acetylthiocholine bungarus fasciatus//*//* 4417.0 * +EC3.1.1.7 acetylthiocholine colossoma macropomum//*//* 1.29 * +EC3.1.1.7 acetylthiocholine oreochromis niloticus//*//* 1.55 * +EC3.1.1.7 acetylthiocholine rachycentron canadum//*//* 1.84 * +EC3.1.1.7 propionylcholine chloride macroptilium atropurpureum//*//* 1.2 * +EC3.1.1.7 propionylthiocholine chloride macroptilium atropurpureum//*//* 0.5 * +EC3.1.1.7 propionylthiocholine iodide schizaphis graminum//*//* 8.25e-05 * +EC3.1.1.7 propionylthiocholine bactrocera dorsalis//*//* 433.0 * +EC3.1.1.7 s-butyrylthiocholine bactrocera dorsalis//*//* 111.0 * +EC3.1.1.72 2-o-acetyl-4-nitrophenyl beta-d-xylopyranoside streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 118.0 * +EC3.1.1.72 4-yethylumbelliferyl acetate thermoanaerobacterium sp.//*//* 245.0 * +EC3.1.1.72 more aspergillus awamori//*//* 81.9 * +EC3.1.1.72 p-nitrophenyl acetate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 47.6 * +EC3.1.1.73 1-naphthyl acetate chaetomium thermophilum var. dissitum//*//* 32.0 * +EC3.1.1.73 2-butyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.24 * +EC3.1.1.73 2-butyl ferulate talaromyces stipitatus//*//* 1345.0 * +EC3.1.1.73 4-methylumbelliferyl p-trimethylammonio cinnamate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 11.9 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.17 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-d-xylopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 5.2 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-d-xylopyranoside talaromyces stipitatus//*//* 39.7 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 7.05 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-l-arabinofuranoside talaromyces stipitatus//*//* 38.9 * +EC3.1.1.73 4-nitrophenyl 2-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.15 * +EC3.1.1.73 4-nitrophenyl 2-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.23 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside aureobasidium pullulans//*//* 70.2 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 600.0 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside thermothelomyces heterothallica//*//* 3.7 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.7 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-d-xylopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.86 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.81 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-l-arabinofuranoside talaromyces stipitatus//*//* 34.2 * +EC3.1.1.73 4-nitrophenyl 3-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.9 * +EC3.1.1.73 4-nitrophenyl 3-o-acetyl-beta-d-xylopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.89 * +EC3.1.1.73 4-nitrophenyl 4-o-(e)-feruloyl-alpha-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.24 * +EC3.1.1.73 4-nitrophenyl 4-o-(e)-feruloyl-alpha-d-xylopyranoside talaromyces stipitatus//*//* 17.9 * +EC3.1.1.73 4-nitrophenyl 5-o-(e)-feruloyl-alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 175.0 * +EC3.1.1.73 4-nitrophenyl 5-o-(e)-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 3.66 * +EC3.1.1.73 4-nitrophenyl 5-o-(e)-feruloyl-alpha-l-arabinofuranoside talaromyces stipitatus//*//* 22.5 * +EC3.1.1.73 4-nitrophenyl 5-o-acetyl-alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.33 * +EC3.1.1.73 4-nitrophenyl 5-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.77 * +EC3.1.1.73 4-nitrophenyl 5-o-acetyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 6.37 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside aureobasidium pullulans//*//* 65.5 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 166.7 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside thermothelomyces heterothallica//*//* 10.3 * +EC3.1.1.73 4-nitrophenyl acetate talaromyces cellulolyticus//*//* 15.3 * +EC3.1.1.73 4-nitrophenyl acetate uncultured bacterium//*//* 63.2 * +EC3.1.1.73 4-nitrophenyl butanoate chaetomium thermophilum var. dissitum//*//* 24.0 * +EC3.1.1.73 4-nitrophenyl butyrate uncultured bacterium//*//* 203.2 * +EC3.1.1.73 4-nitrophenyl ferulate talaromyces cellulolyticus//*//* 23.1 * +EC3.1.1.73 4-nitrophenyl ferulate uncultured bacterium//*//* 19.7 * +EC3.1.1.73 5-o-p-coumaroylquinic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 48.0 * +EC3.1.1.73 alpha-naphthyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 2.75 * +EC3.1.1.73 alpha-naphthylbutyrate aspergillus awamori//*//* 153.0 * +EC3.1.1.73 alpha-naphthylcaprylate aspergillus awamori//*//* 0.85 * +EC3.1.1.73 beta-d-xylopyranosyl-(1->2)-5-o-trans-feruloyl-l-arabinofuranose pleurotus sapidus//*//* 1.96 * +EC3.1.1.73 beta-naphthyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 1.8 * +EC3.1.1.73 chlorogenic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 63.0 * +EC3.1.1.73 chlorogenic acid schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 7.5 * +EC3.1.1.73 coniferyl p-coumarate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 140.0 * +EC3.1.1.73 ethyl ferulate actinomyces sp. oral taxon 448//*//* 10.53 * +EC3.1.1.73 ethyl ferulate chaetomium thermophilum var. dissitum//*//* 4.1 * +EC3.1.1.73 ethyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.46 * +EC3.1.1.73 ethyl ferulate talaromyces stipitatus//*//* 9570.0 * +EC3.1.1.73 ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 62.0 * +EC3.1.1.73 ferulic acid 4-nitrophenyl ester aspergillus usamii//*//* 135.0 * +EC3.1.1.73 ferulic acid ethyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC3.1.1.73 ferulic acid methyl ester aspergillus terreus//*//* 2.6 * +EC3.1.1.73 ferulic acid methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.1.1.73 ferulic acid methyl ester pleurotus sapidus//*//* 1.2 * +EC3.1.1.73 feruloyl arabino-xylo-oligosaccharides aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 9.5 * +EC3.1.1.73 iso-butyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.95 * +EC3.1.1.73 iso-butyl ferulate talaromyces stipitatus//*//* 2989.0 * +EC3.1.1.73 iso-propyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.26 * +EC3.1.1.73 iso-propyl ferulate talaromyces stipitatus//*//* 2645.0 * +EC3.1.1.73 methyl 2-hydroxy cinnamate talaromyces stipitatus//*//* 2.2 * +EC3.1.1.73 methyl 3,4-dihydroxy cinnamate thermothelomyces heterothallica//*//* 0.133 * +EC3.1.1.73 methyl 3,4-dihydroxy-phenyl propionate talaromyces stipitatus//*//* 142.0 * +EC3.1.1.73 methyl 3,4-dihydroxy-phenyl propionate thermothelomyces heterothallica//*//* 0.183 * +EC3.1.1.73 methyl 3,4-dimethoxy cinnamate talaromyces stipitatus//*//* 0.25 * +EC3.1.1.73 methyl 3,4-dimethoxy cinnamate thermothelomyces heterothallica//*//* 0.067 * +EC3.1.1.73 methyl 3,5-dimethoxy cinnamate talaromyces stipitatus//*//* 0.1 * +EC3.1.1.73 methyl 3-hydroxy cinnamate talaromyces stipitatus//*//* 24.1 * +EC3.1.1.73 methyl 3-hydroxy cinnamate thermothelomyces heterothallica//*//* 0.117 * +EC3.1.1.73 methyl 3-hydroxy-4-methoxy cinnamate talaromyces stipitatus//*//* 0.7 * +EC3.1.1.73 methyl 3-hydroxy-4-methoxy cinnamate thermothelomyces heterothallica//*//* 0.05 * +EC3.1.1.73 methyl 3-methoxy cinnamate talaromyces stipitatus//*//* 27.28 * +EC3.1.1.73 methyl 3-methoxy cinnamate thermothelomyces heterothallica//*//* 0.22 * +EC3.1.1.73 methyl 4-coumarate aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.27 * +EC3.1.1.73 methyl 4-coumarate uncultured bacterium//*//* 7.5 * +EC3.1.1.73 methyl 4-hydroxy cinnamate talaromyces stipitatus//*//* 9.55 * +EC3.1.1.73 methyl 4-hydroxy cinnamate thermothelomyces heterothallica//*//* 0.533 * +EC3.1.1.73 methyl 4-hydroxy-3,5-dimethoxy cinnamate talaromyces stipitatus//*//* 9.3 * +EC3.1.1.73 methyl 4-hydroxy-3,5-dimethoxy cinnamate thermothelomyces heterothallica//*//* 0.4 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy cinnamate talaromyces stipitatus//*//* 9.65 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy cinnamate thermothelomyces heterothallica//*//* 2.6 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy phenyl propionate talaromyces stipitatus//*//* 125.9 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy phenyl propionate thermothelomyces heterothallica//*//* 0.87 * +EC3.1.1.73 methyl 4-hydroxybenzoate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 12.5 * +EC3.1.1.73 methyl caffeate actinomyces sp. oral taxon 448//*//* 278.0 * +EC3.1.1.73 methyl caffeate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 234.0 * +EC3.1.1.73 methyl caffeate aureobasidium pullulans//*//* 30.0 * +EC3.1.1.73 methyl caffeate chaetomium thermophilum var. dissitum//*//* 3.1 * +EC3.1.1.73 methyl caffeate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 7.9 * +EC3.1.1.73 methyl caffeate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.8 * +EC3.1.1.73 methyl caffeate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 38.4 * +EC3.1.1.73 methyl caffeate talaromyces funiculosus//*//* 24.1 * +EC3.1.1.73 methyl caffeate thermothelomyces heterothallica//*//* 0.1 * +EC3.1.1.73 methyl cinnamate talaromyces stipitatus//*//* 20.27 * +EC3.1.1.73 methyl cinnamate thermothelomyces heterothallica//*//* 0.05 * +EC3.1.1.73 methyl coumarate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 19.88 * +EC3.1.1.73 methyl coumarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 12.19 * +EC3.1.1.73 methyl coumarate talaromyces funiculosus//*//* 24.2 * +EC3.1.1.73 methyl ferulate aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 2.21 * +EC3.1.1.73 methyl ferulate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 10.1 * +EC3.1.1.73 methyl ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 70.74 * +EC3.1.1.73 methyl ferulate aureobasidium pullulans//*//* 15.3 * +EC3.1.1.73 methyl ferulate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.28 * +EC3.1.1.73 methyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 39.4 * +EC3.1.1.73 methyl ferulate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 12.19 * +EC3.1.1.73 methyl ferulate pleurotus eryngii//*//* 0.85 * +EC3.1.1.73 methyl ferulate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 54.7 * +EC3.1.1.73 methyl ferulate talaromyces cellulolyticus//*//* 20.9 * +EC3.1.1.73 methyl ferulate talaromyces funiculosus//*//* 16.0 * +EC3.1.1.73 methyl ferulate talaromyces stipitatus//*//* 10.0 * +EC3.1.1.73 methyl ferulate thermothelomyces heterothallica//*//* 2.6 * +EC3.1.1.73 methyl ferulate uncultured bacterium//*//* 19.1 * +EC3.1.1.73 methyl p-coumarate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 69.0 * +EC3.1.1.73 methyl p-coumarate aureobasidium pullulans//*//* 31.1 * +EC3.1.1.73 methyl p-coumarate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.22 * +EC3.1.1.73 methyl p-coumarate chaetomium thermophilum var. dissitum//*//* 5.8 * +EC3.1.1.73 methyl p-coumarate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 19.9 * +EC3.1.1.73 methyl p-coumarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 12.19 * +EC3.1.1.73 methyl p-coumarate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 105.1 * +EC3.1.1.73 methyl p-coumarate talaromyces stipitatus//*//* 9.55 * +EC3.1.1.73 methyl p-coumarate thermothelomyces heterothallica//*//* 0.5 * +EC3.1.1.73 methyl sinapate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.28 * +EC3.1.1.73 methyl sinapate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 116.6 * +EC3.1.1.73 methyl sinapate uncultured bacterium//*//* 16.2 * +EC3.1.1.73 methyl sinapinate aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.9 * +EC3.1.1.73 methyl sinapinate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 84.95 * +EC3.1.1.73 methyl sinapinate aureobasidium pullulans//*//* 2.0 * +EC3.1.1.73 methyl sinapinate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.5 * +EC3.1.1.73 methyl sinapinate talaromyces stipitatus//*//* 9.26 * +EC3.1.1.73 methyl sinapinate thermothelomyces heterothallica//*//* 0.4 * +EC3.1.1.73 methylumbelliferyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.1 * +EC3.1.1.73 n-butyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 14.05 * +EC3.1.1.73 n-butyl ferulate talaromyces stipitatus//*//* 3378.0 * +EC3.1.1.73 n-propyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.18 * +EC3.1.1.73 n-propyl ferulate talaromyces stipitatus//*//* 1358.0 * +EC3.1.1.73 o-[2-o-(transferuloyl)-alpha-l-arabinofuranosyl]-(1,5)-l-arabinose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6.04 * +EC3.1.1.73 o-[5-o-(trans-feruloyl)-alpha-l-araf]-(1,3)d-xylp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 95.0 * +EC3.1.1.73 o-[5-o-(trans-feruloyl)-alpha-l-araf] aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 121.0 * +EC3.1.1.73 p-coumaric acid methyl ester aspergillus terreus//*//* 0.31 * +EC3.1.1.73 p-coumaric acid methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.1 * +EC3.1.1.73 p-nitrophenyl acetate butyrivibrio proteoclasticus//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bpb 0.19 * +EC3.1.1.73 p-nitrophenyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 2.0 * +EC3.1.1.73 p-nitrophenyl butyrate butyrivibrio proteoclasticus//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bpb 0.24 * +EC3.1.1.73 sinapic acid methyl ester aspergillus terreus//*//* 0.94 * +EC3.1.1.74 4-nitrophenyl acetate thermobifida alba//*//* 2.72 * +EC3.1.1.74 4-nitrophenyl acetate thermobifida cellulosilytica//*//* 436.0 * +EC3.1.1.74 4-nitrophenyl acetate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 39.5 * +EC3.1.1.74 4-nitrophenyl butyrate alternaria brassicicola//*//* 0.022 * +EC3.1.1.74 4-nitrophenyl butyrate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0845 * +EC3.1.1.74 4-nitrophenyl butyrate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0163 * +EC3.1.1.74 4-nitrophenyl butyrate fusarium solani//*//* 0.0072 * +EC3.1.1.74 4-nitrophenyl butyrate humicola insolens//*//* 191.0 * +EC3.1.1.74 4-nitrophenyl butyrate nectria haematococca mpvi//*//* 837.0 * +EC3.1.1.74 4-nitrophenyl butyrate thermobifida cellulosilytica//*//* 327.0 * +EC3.1.1.74 4-nitrophenyl butyrate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 742.0 * +EC3.1.1.74 4-nitrophenyl butyrate uncultured bacterium//*//* 359.0 * +EC3.1.1.74 4-nitrophenyl octanoate humicola insolens//*//* 187.0 * +EC3.1.1.74 4-nitrophenyl palmitate humicola insolens//*//* 18.0 * +EC3.1.1.74 p-nitrophenyl butyrate fusarium solani//*//* 17400.0 * +EC3.1.1.74 p-nitrophenylacetate fusarium solani//*//* 230.0 * +EC3.1.1.74 p-nitrophenylbutanoate fusarium solani//*//* 539.0 * +EC3.1.1.74 p-nitrophenylbutanoate monilinia fructicola//*//* 0.66 * +EC3.1.1.74 tributyrin humicola insolens//*//* 238.0 * +EC3.1.1.74 tricaprylin humicola insolens//*//* 509.0 * +EC3.1.1.74 triolein humicola insolens//*//* 172.0 * +EC3.1.1.79 p-nitrophenyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 190.0 * +EC3.1.1.79 p-nitrophenyl hexanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 34.5 * +EC3.1.1.79 tributyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.1.1.79 trioctanoin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.1.1.79 tripropionin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.1.1.79 vinyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 170.0 * +EC3.1.1.79 vinyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 625.0 * +EC3.1.1.79 vinyl laurate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 375.0 * +EC3.1.1.79 vinyl propionate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 800.0 * +EC3.1.1.8 (+)-cocaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC3.1.1.8 (-)-cocaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC3.1.1.8 (r)-3-benzoyloxy-1-benzylquinuclidinium bromide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 97.0 * +EC3.1.1.8 (r)-3-benzoyloxy-1-methylquinuclidinium iodide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 227.0 * +EC3.1.1.8 (s)-3-benzoyloxy-1-methylquinuclidinium iodide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.2 * +EC3.1.1.8 2-nitrophenyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 600.0 * +EC3.1.1.8 acetylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1433.0 * +EC3.1.1.8 acetylthiocholine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1020.0 * +EC3.1.1.8 acetylthiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 336.7 * +EC3.1.1.8 acetylthiocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.5 * +EC3.1.1.8 benzoylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 250.0 * +EC3.1.1.8 benzoylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.8 * +EC3.1.1.8 benzoylthiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC3.1.1.8 butyrylcholine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2850.0 * +EC3.1.1.8 butyrylthiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 565.0 * +EC3.1.1.8 cocaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 418.3 * +EC3.1.1.8 n-methyl-(7-dimethylcarbamoxy)quinolinium iodide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.17e-05 * +EC3.1.1.8 o-nitrophenylbutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 800.0 * +EC3.1.1.8 propionylthiocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3350.0 * +EC3.1.1.8 succinylthiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.1.1.81 delta-nonalactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 29.0 * +EC3.1.1.81 gamma-nonalactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.9 * +EC3.1.1.81 l-homoserine lactone brevundimonas diminuta//*//* 4.69 * +EC3.1.1.81 n-(3-oxodecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.5 * +EC3.1.1.81 n-(3-oxodecyl)-l-homoserine lactone brevundimonas diminuta//*//* 2.67 * +EC3.1.1.81 n-(3-oxododecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.95 * +EC3.1.1.81 n-(3-oxododecyl)-l-homoserine lactone brevundimonas diminuta//*//* 1.83 * +EC3.1.1.81 n-(3-oxohexanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.52 * +EC3.1.1.81 n-(3-oxooctanoyl)-l-homoserine lactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.29 * +EC3.1.1.81 n-(3-oxooctanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.0 * +EC3.1.1.81 n-(3-oxooctyl)-l-homoserine lactone brevundimonas diminuta//*//* 4.66 * +EC3.1.1.81 n-3-hydroxybutanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 29.3 * +EC3.1.1.81 n-3-oxo-octanoyl-l-homoserine lactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.29 * +EC3.1.1.81 n-3-oxobutanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 28.6 * +EC3.1.1.81 n-3-oxodecanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 20.2 * +EC3.1.1.81 n-3-oxohexanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 22.7 * +EC3.1.1.81 n-3-oxooctanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 22.2 * +EC3.1.1.81 n-butanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.00549 * +EC3.1.1.81 n-butanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 37.6 * +EC3.1.1.81 n-butyryl-dl-homoserine lactone brevundimonas diminuta//*//* 2.62 * +EC3.1.1.81 n-decanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 54.0 * +EC3.1.1.81 n-heptanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.0235 * +EC3.1.1.81 n-heptanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 34.0 * +EC3.1.1.81 n-hexanoyl-(s)-homoserine lactone bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 117.0 * +EC3.1.1.81 n-hexanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.0102 * +EC3.1.1.81 n-hexanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 35.7 * +EC3.1.1.81 n-hexanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 510.0 * +EC3.1.1.81 n-hexanoyl-l-homoserine lactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.17 * +EC3.1.1.81 n-hexyl-l-homoserine lactone brevundimonas diminuta//*//* 3.17 * +EC3.1.1.81 n-octanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.0446 * +EC3.1.1.81 n-octanoyl-l-homoserine lactone bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 27.5 * +EC3.1.1.81 n-octanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 57.0 * +EC3.1.1.81 n-octanoyl-l-homoserine lactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.52 * +EC3.1.1.81 n-pentanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 45.0 * +EC3.1.1.81 paraoxon geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.0031 * +EC3.1.1.84 (-)-cocaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC3.1.1.84 cocaethylene rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 9.4 * +EC3.1.1.84 cocaine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2323.0 * +EC3.1.1.85 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.5 * +EC3.1.1.85 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.1 * +EC3.1.1.85 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.1.1.85 4-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.1.1.85 4-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.1 * +EC3.1.1.88 (alphar)-fenpropathrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 2.61 * +EC3.1.1.88 (alphar,2r)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.91 * +EC3.1.1.88 (alphar,2s)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.91 * +EC3.1.1.88 (alphas)-fenpropathrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 2.61 * +EC3.1.1.88 (alphas,2r)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.91 * +EC3.1.1.88 (alphas,2s)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.91 * +EC3.1.1.88 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 289.1 * +EC3.1.1.88 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 163.3 * +EC3.1.1.88 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 88.9 * +EC3.1.1.88 4-nitrophenyl caprylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 149.7 * +EC3.1.1.88 4-nitrophenyl decanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.1 * +EC3.1.1.88 4-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 49.1 * +EC3.1.1.88 bifenthrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.44 * +EC3.1.1.88 cis-cypermethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 2.57 * +EC3.1.1.88 cis-permethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 3.0 * +EC3.1.1.88 cyhalothrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 1.28 * +EC3.1.1.88 deltamethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.79 * +EC3.1.1.88 trans-cypermethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 2.53 * +EC3.1.1.88 trans-permethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 3.03 * +EC3.1.1.90 all-trans retinyl ester danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.00044 * +EC3.1.1.92 4-sulfomuconolactone agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.7 * +EC3.1.1.92 4-sulfomuconolactone hydrogenophaga intermedia//*//* 45.0 * +EC3.1.1.96 d-tyrosyl-trnatyr arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 300.0 * +EC3.1.1.96 d-tyrosyl-trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.0 * +EC3.1.1.96 d-tyrosyl-trnatyr synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 7.5 * +EC3.1.11.1 single-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 115.5 * +EC3.1.11.1 ssdna 10 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.5 * +EC3.1.11.1 ssdna 21 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.3 * +EC3.1.11.1 ssdna 28 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.9 * +EC3.1.11.1 ssdna 40 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.3 * +EC3.1.11.1 ssdna 50 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.0 * +EC3.1.11.3 double-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.7 * +EC3.1.11.3 double-stranded dna escherichia virus lambda//*//* 11.7 * +EC3.1.11.5 34-mer ssdna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC3.1.11.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 740.0 * +EC3.1.11.5 ds-dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC3.1.11.7 adenosine-5'-diphospho-5'-(ribonucleotide)-[dna] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.1.11.7 adenosine-5'-diphospho-5'-(ribonucleotide)-[dna] saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.23 * +EC3.1.11.7 adenosine-5'-diphospho-5'-[dna] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.1.11.7 adenosine-5'-diphospho-5'-[dna] saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC3.1.11.7 adenosine-5'-monophosphoramidate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0195 * +EC3.1.11.7 p1,p3-bis(5'-adenosyl)triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-05 * +EC3.1.11.7 p1,p4-bis(5'-adenosyl)tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0115 * +EC3.1.11.8 gppp-bodipy homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.1.13.1 poly(a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC3.1.13.2 dna-15-nucleotide-rna hybrid human immunodeficiency virus 1//*//* 0.0135 * +EC3.1.13.2 dna-16-nucleotide-rna hybrid human immunodeficiency virus 1//*//* 0.017 * +EC3.1.13.2 dna-17-nucleotide-rna hybrid human immunodeficiency virus 1//*//* 0.0018 * +EC3.1.13.2 dna-18-nucleotide-rna hybrid human immunodeficiency virus 1//*//* 0.0032 * +EC3.1.13.2 dna-rna hybrid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.1.13.2 poly(ra)n-poly(dt)n human immunodeficiency virus 1//*//* 0.0031 * +EC3.1.13.3 5'-p-nitrophenyl-tmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC3.1.13.3 5'-p-nitrophenyl-tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.767 * +EC3.1.13.3 5'-p-nitrophenyl-tmp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 10.88 * +EC3.1.13.4 poly(a) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.1.13.4 poly(a) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC3.1.15.1 adp trimeresurus stejnegeri//*//* 0.23 * +EC3.1.15.1 atp trimeresurus stejnegeri//*//* 2.68 * +EC3.1.15.1 nicotinamide adenine dinucleotide trimeresurus stejnegeri//*//* 0.82 * +EC3.1.15.1 nicotinamide guanine dinucleotide trimeresurus stejnegeri//*//* 3.65 * +EC3.1.16.1 flap34endo plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 9.1 * +EC3.1.16.1 flap34endo plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 4.9 * +EC3.1.2.1 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.26 * +EC3.1.2.12 4-nitrophenyl acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.95 * +EC3.1.2.12 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.1.2.12 4-nitrophenyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.8 * +EC3.1.2.12 4-nitrophenyl butyrate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.48 * +EC3.1.2.12 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC3.1.2.12 4-nitrophenyl butyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC3.1.2.12 4-nitrophenyl caproate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.67 * +EC3.1.2.12 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.49 * +EC3.1.2.12 4-nitrophenyl propionate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.84 * +EC3.1.2.12 4-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC3.1.2.12 alpha-naphthyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.09 * +EC3.1.2.12 alpha-naphthyl propionate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.9 * +EC3.1.2.12 naphthalen-1-yl n-butanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.73 * +EC3.1.2.12 s-formylglutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.5 * +EC3.1.2.12 s-lactoylglutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.02 * +EC3.1.2.12 s-lactoylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 116.0 * +EC3.1.2.14 (9z)-hexadec-9-enoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.9 * +EC3.1.2.14 myristoleoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.22 * +EC3.1.2.14 myristoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.08 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 11.4 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.98 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 7.99 * +EC3.1.2.14 oleoyl-[acyl-carrier-protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 7.0 * +EC3.1.2.14 oleoyl-[acyl-carrier-protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 35.6 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.08 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 0.1 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 8.0 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.45 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 1.62 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.4 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 4.4 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 1.1 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.44 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.46 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.08 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 0.6 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.8 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.88 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.56 * +EC3.1.2.17 (s)-methylmalonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.3 * +EC3.1.2.2 benzoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC3.1.2.2 crotonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0078 * +EC3.1.2.2 decanoyl-coa buckleyzyma aurantiaca//*//* 136.0 * +EC3.1.2.2 dodecanoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01 * +EC3.1.2.2 hexanoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.012 * +EC3.1.2.2 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.13 * +EC3.1.2.2 lauroyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.015 * +EC3.1.2.2 myristoyl-coa buckleyzyma aurantiaca//*//* 183.0 * +EC3.1.2.2 n-carbobenzoxy-l-tyrosine p-nitrophenyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 88.99 * +EC3.1.2.2 octanoyl-coa buckleyzyma aurantiaca//*//* 159.0 * +EC3.1.2.2 p-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.29 * +EC3.1.2.2 palmitoleoyl-coa buckleyzyma aurantiaca//*//* 106.0 * +EC3.1.2.2 palmitoyl-coa buckleyzyma aurantiaca//*//* 153.0 * +EC3.1.2.2 palmitoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.037 * +EC3.1.2.2 stearoyl-coa buckleyzyma aurantiaca//*//* 121.0 * +EC3.1.2.2 stearoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.019 * +EC3.1.2.20 2,3-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.372 * +EC3.1.2.20 2,3-dihydroxybenzoyl-entb escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.1.2.20 2,4-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0342 * +EC3.1.2.20 2-butenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.2.20 2-butenoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.0 * +EC3.1.2.20 3,4-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.1.2.20 3,4-dihydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.1.2.20 3,5-cis-dodecadienoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.6 * +EC3.1.2.20 3,5-cis-tetradecadienoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.1.2.20 3,5-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.45 * +EC3.1.2.20 3,5-dihydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.1.2.20 3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC3.1.2.20 3-hydroxy-3-methylglutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC3.1.2.20 3-hydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.3 * +EC3.1.2.20 3-hydroxybenzoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.1.2.20 3-hydroxybutyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.046 * +EC3.1.2.20 3-hydroxyphenylacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 140.0 * +EC3.1.2.20 3-hydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.2.20 3-hydroxytetradecanoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.7 * +EC3.1.2.20 4-chlorobenzoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.1.2.20 4-hydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.207 * +EC3.1.2.20 4-hydroxybenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0062 * +EC3.1.2.20 4-hydroxybenzoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.078 * +EC3.1.2.20 4-hydroxyphenylacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 75.0 * +EC3.1.2.20 4-hydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.1.2.20 acetoacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 35.0 * +EC3.1.2.20 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC3.1.2.20 acetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.3 * +EC3.1.2.20 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.1.2.20 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 24.0 * +EC3.1.2.20 acetyl-s-n-acetylcysteamine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.193 * +EC3.1.2.20 arachidonoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.2.20 arachidonoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.1.2.20 arachidoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.27 * +EC3.1.2.20 benzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.9 * +EC3.1.2.20 beta-hydroxybutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.1.2.20 beta-methylcrotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.2.20 beta-methylcrotonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.54 * +EC3.1.2.20 beta-methylcrotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.1.2.20 butyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 6.7 * +EC3.1.2.20 butyrylpanthetheine phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.08 * +EC3.1.2.20 crotonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.92 * +EC3.1.2.20 crotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.1.2.20 decanoyl-coa buckleyzyma aurantiaca//*//* 136.0 * +EC3.1.2.20 decanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.055 * +EC3.1.2.20 dl-3-hydroxy-3-methylglutaryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 8.9 * +EC3.1.2.20 dl-3-hydroxy-3-methylglutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.0 * +EC3.1.2.20 dl-3-hydroxybutyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 8.3 * +EC3.1.2.20 dl-3-hydroxybutyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 13.0 * +EC3.1.2.20 glutaryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 100.0 * +EC3.1.2.20 glutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.1.2.20 hexanoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 15.0 * +EC3.1.2.20 hexanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.1.2.20 isobutyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.5 * +EC3.1.2.20 isobutyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 140.0 * +EC3.1.2.20 isovaleryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 30.0 * +EC3.1.2.20 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.6 * +EC3.1.2.20 lauroyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 9.2 * +EC3.1.2.20 lauroyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.1.2.20 lauroyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.3 * +EC3.1.2.20 linolenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC3.1.2.20 linoleoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 2.0 * +EC3.1.2.20 linoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.2 * +EC3.1.2.20 linoleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.7 * +EC3.1.2.20 malonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.3 * +EC3.1.2.20 malonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC3.1.2.20 malonyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.6 * +EC3.1.2.20 methylmalonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.1 * +EC3.1.2.20 methylmalonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC3.1.2.20 myristoyl-coa buckleyzyma aurantiaca//*//* 183.0 * +EC3.1.2.20 myristoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.2 * +EC3.1.2.20 myristoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 6.9 * +EC3.1.2.20 myristoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.7 * +EC3.1.2.20 myristoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.7 * +EC3.1.2.20 n-acetylcysteamine acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 7.5 * +EC3.1.2.20 n-acetylcysteamine butyrate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.817 * +EC3.1.2.20 n-acetylcysteamine propionate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.9 * +EC3.1.2.20 n-butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.7 * +EC3.1.2.20 n-butyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 22.0 * +EC3.1.2.20 n-butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.1.2.20 n-butyrylpantethiene phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.082 * +EC3.1.2.20 n-butyrylpantethiene phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.8 * +EC3.1.2.20 n-decanoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC3.1.2.20 n-decanoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 13.0 * +EC3.1.2.20 n-decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.1.2.20 n-hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.1.2.20 n-octanoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.6 * +EC3.1.2.20 n-octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC3.1.2.20 n-propionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.1.2.20 octanoyl-coa buckleyzyma aurantiaca//*//* 159.0 * +EC3.1.2.20 oleoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC3.1.2.20 oleoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.7 * +EC3.1.2.20 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.1.2.20 oleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC3.1.2.20 palmitoleoyl-coa buckleyzyma aurantiaca//*//* 106.0 * +EC3.1.2.20 palmitoleoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 5.7 * +EC3.1.2.20 palmitoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.5 * +EC3.1.2.20 palmitoleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.7 * +EC3.1.2.20 palmitoyl-coa buckleyzyma aurantiaca//*//* 153.0 * +EC3.1.2.20 palmitoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.154 * +EC3.1.2.20 palmitoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.2 * +EC3.1.2.20 palmitoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 2.7 * +EC3.1.2.20 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.6 * +EC3.1.2.20 palmitoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.5 * +EC3.1.2.20 phenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.4 * +EC3.1.2.20 phenylacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 130.0 * +EC3.1.2.20 phenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.084 * +EC3.1.2.20 phenylacetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC3.1.2.20 propionyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 25.0 * +EC3.1.2.20 propionyl-s-n-acetylcysteamine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.82 * +EC3.1.2.20 salicylyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.63 * +EC3.1.2.20 salicylyl-entb escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.83 * +EC3.1.2.20 stearoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.7 * +EC3.1.2.20 stearoyl-coa buckleyzyma aurantiaca//*//* 121.0 * +EC3.1.2.20 stearoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.77 * +EC3.1.2.20 stearoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.1.2.20 stearoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.3 * +EC3.1.2.20 succinyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 190.0 * +EC3.1.2.20 tiglyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 2.6 * +EC3.1.2.20 tiglyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.2.20 vaccenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.1.2.23 4-chlorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.123 * +EC3.1.2.23 4-chlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC3.1.2.23 4-fluorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.7 * +EC3.1.2.23 4-hydroxybenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 6.7 * +EC3.1.2.23 4-hydroxybenzoyl-coa azoarcus evansii//*//* 10.0 * +EC3.1.2.23 4-hydroxybenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 18.3 * +EC3.1.2.23 4-methoxybenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.27 * +EC3.1.2.23 4-methylbenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.047 * +EC3.1.2.23 4-trifluoromethylbenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.038 * +EC3.1.2.23 benzoyl-coa azoarcus evansii//*//* 3.0 * +EC3.1.2.23 benzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC3.1.2.24 2'-hydroxybiphenyl-2-sulfinate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.123 * +EC3.1.2.24 2-(2'-hydroxyphenyl)benzenesulfinate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.022 * +EC3.1.2.24 2-(2-hydroxyphenyl)benzenesulfinate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.32 * +EC3.1.2.24 2-phenylbenzenesulfinate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.103 * +EC3.1.2.28 1,4-dihydroxy-2-naphthoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.2 * +EC3.1.2.28 1-hydroxy-2-naphthoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.8 * +EC3.1.2.28 3,4-dihydroxybenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.2 * +EC3.1.2.28 3,5-dihydroxybenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.6 * +EC3.1.2.28 salicylyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 93.0 * +EC3.1.2.29 acetyl-coa streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.06 * +EC3.1.2.29 fluoroacetyl-coa streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 390.0 * +EC3.1.2.30 (s)-malyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 110.0 * +EC3.1.2.32 acetoacetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.36 * +EC3.1.2.32 cysteamine s-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.022 * +EC3.1.2.32 s-(4-nitrobenzoyl)mercaptoethane pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.12 * +EC3.1.2.32 s-ethyl-acetothioacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.85 * +EC3.1.2.4 3-hydroxy-2-methylpropanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 266.0 * +EC3.1.2.4 3-hydroxyisobutyryl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 89.0 * +EC3.1.2.6 s-acetoacetylglutathione candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 82.0 * +EC3.1.2.6 s-d-lactoylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3930.0 * +EC3.1.2.6 s-d-lactoylglutathione candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 142.0 * +EC3.1.2.6 s-d-lactoylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 780.0 * +EC3.1.2.6 s-d-lactoylglutathione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 450.0 * +EC3.1.2.6 s-d-lactoylglutathione oryza sativa//eukaryotes;plants;monocots;grass family//osa 301.0 * +EC3.1.2.6 s-d-lactoylglutathione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 375.0 * +EC3.1.2.6 s-d-lactoylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 979.0 * +EC3.1.2.6 s-d-lactoylglutathione salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 394.9 * +EC3.1.2.6 s-d-lactoyltrypanothione leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 16.0 * +EC3.1.2.6 s-d-mandeloylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 74.0 * +EC3.1.2.6 s-d-mandeloylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 183.0 * +EC3.1.2.6 s-d-mandeloylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 38.1 * +EC3.1.2.6 s-glycoloylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1740.0 * +EC3.1.2.6 s-l-glyceroylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1490.0 * +EC3.1.2.6 s-lactoylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 470.0 * +EC3.1.2.6 s-lactoylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 780.0 * +EC3.1.2.6 s-lactoylglutathione oryza sativa//eukaryotes;plants;monocots;grass family//osa 508.0 * +EC3.1.2.6 s-lactoylglutathione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 119.6 * +EC3.1.2.6 s-mandeloylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 755.0 * +EC3.1.2.6 s-succinylglutathione candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 68.0 * +EC3.1.2.B4 (3s)-malyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 110.0 * +EC3.1.2.B5 3,4-dihydroxyphenylacetyl-coa azoarcus evansii//*//* 18.0 * +EC3.1.2.B5 3,4-dihydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC3.1.2.B5 3,5-dihydroxyphenylacetyl-coa azoarcus evansii//*//* 2.3 * +EC3.1.2.B5 3,5-dihydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC3.1.2.B5 3-hydroxyphenylacetyl-coa azoarcus evansii//*//* 8.2 * +EC3.1.2.B5 3-hydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 86.0 * +EC3.1.2.B5 4-hydroxyphenylacetyl-coa azoarcus evansii//*//* 11.0 * +EC3.1.2.B5 4-hydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 79.0 * +EC3.1.2.B5 phenylacetyl-coa azoarcus evansii//*//* 3.7 * +EC3.1.2.B5 phenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC3.1.21.1 (pc)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 493.3 * +EC3.1.21.1 d(pa)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 106.6 * +EC3.1.21.1 d(papcptpapcpapgptpcptpapcpa) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 703.3 * +EC3.1.21.1 d(pgpgpcpapcptptpapc) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 453.3 * +EC3.1.21.1 d(pt)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 713.0 * +EC3.1.21.1 d(ptpapgpapapgpaptpcpapapa) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 136.6 * +EC3.1.21.1 more potyvirus sp.//*//* 0.0314 * +EC3.1.21.2 21-mer c grec escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.1.21.2 5'-end-labeled 29 nucleotide double-stranded dna mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0193 * +EC3.1.21.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 167.0 * +EC3.1.21.4 cole1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0667 * +EC3.1.21.4 d(g-g-t-5-bromodeoxyuridinea-a-c-c) bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 600.0 * +EC3.1.21.4 d(g-g-t-5-bromodeoxyuridinea-a-c-c) haemophilus parainfluenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hpr 600.0 * +EC3.1.21.4 d(g-g-t-t-a-a-c-c) haemophilus parainfluenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hpr 2830.0 * +EC3.1.21.4 d(pt-g-a-a-t-t-c-a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0667 * +EC3.1.21.4 dna brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.048 * +EC3.1.21.4 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC3.1.21.4 lambda dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0217 * +EC3.1.21.4 ntp14 dna bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.0267 * +EC3.1.21.4 pbr322 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC3.1.21.4 pjc80 dna bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.0367 * +EC3.1.21.4 sv40 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC3.1.21.7 49-mer oligonucleotide enterobacteria phage t4//*//* 0.0117 * +EC3.1.21.9 5'-(da)7dadadcdada(da)7-3' enterobacteria phage t4//*//* 0.00576 * +EC3.1.21.9 5'-(da)7dadtdcdada(da)7-3' enterobacteria phage t4//*//* 0.0167 * +EC3.1.21.9 5'-(da)8dgdtdcdadg(da)8-3' enterobacteria phage t4//*//* 0.0087 * +EC3.1.22.1 supercoiled plasmid dna bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.67e-06 * +EC3.1.22.4 3'-flapped junction in dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.354 * +EC3.1.22.4 3'-flapped junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.97 * +EC3.1.22.4 d-loop junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC3.1.22.4 dna junction 1 sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.05 * +EC3.1.22.4 holliday junction 3 sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.02 * +EC3.1.22.4 intact holliday junction homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC3.1.22.4 j1t1 schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.001 * +EC3.1.22.4 j1t2 schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.00034 * +EC3.1.22.4 junction 1, unconstrained schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0029 * +EC3.1.22.4 nx12 junction in single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.1.22.4 nxo12 junction in single-stranded dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC3.1.22.4 pxo12-3' junction in single-stranded dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC3.1.22.4 rc1(1,3') escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000566 * +EC3.1.22.4 rc1(2,3') escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.7e-06 * +EC3.1.22.4 rc1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00416 * +EC3.1.22.4 replication fork-like junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.35 * +EC3.1.22.4 splayed y junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.26 * +EC3.1.22.4 x12 junction in single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC3.1.25.1 dna 14mer containing a tt-dimer enterobacteria phage t4//*//* 0.02 * +EC3.1.25.1 dna 18mer containing a tt-dimer enterobacteria phage t4//*//* 0.0183 * +EC3.1.26.11 pre-trna(arg) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.1.26.11 pre-trna(val) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.26.11 pre-trnaarg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.18 * +EC3.1.26.11 pre-trnaglu-ccun17 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.14 * +EC3.1.26.11 pre-trnaglu-cuan17 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.28 * +EC3.1.26.11 pre-trnaglu-uuan17 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 2.25 * +EC3.1.26.11 pre-trnagly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.1.26.11 pre-trnahis-aug drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.365 * +EC3.1.26.11 pre-trnahis-cca drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0049 * +EC3.1.26.11 pre-trnahis drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.083 * +EC3.1.26.11 pre-trnahis homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.237 * +EC3.1.26.11 pre-trnaile homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.1.26.11 pre-trnaleu(uur) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.1.26.11 pre-trnaser(ucn) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.1.26.11 pre-trnaser(ucn)7443c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.1.26.11 pre-trnaser(ucn)7444u homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.153 * +EC3.1.26.11 pre-trnaser(ucn)7445c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.1.26.11 pre-trnaser(ucn)7445g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.345 * +EC3.1.26.11 pre-trnaser(ucn)7510g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.1.26.11 pre-trnaser(ucn)7511g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.1.26.11 pre-trnaser(ucn)7512g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.1.26.12 5' hydroxylated fluorogenic oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC3.1.26.12 5' monophosphorylated fluorogenic oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC3.1.26.12 5'-gggacaguauuug-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC3.1.26.12 aauuu-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.192 * +EC3.1.26.12 cauuu-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.1.26.12 gauuu-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.765 * +EC3.1.26.12 guuuu-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.121 * +EC3.1.26.12 uauuu-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.209 * +EC3.1.26.12 uuuuu-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC3.1.26.12 uuuuu-dn34-containing rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC3.1.26.13 poly(ra)n-poly(dt)n human immunodeficiency virus 1//*//* 0.031 * +EC3.1.26.13 rna-dna hybrid human immunodeficiency virus 1//*//* 1.9 * +EC3.1.26.3 515 bp dsrna drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0005 * +EC3.1.26.3 aa-[16s[micro-hp]rna] aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.045 * +EC3.1.26.3 r1.1 rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.1.26.3 rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC3.1.26.4 d14r1d3:dna18 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.26.4 dna-(1',2'-methylene-bridged azetidine-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.43 * +EC3.1.26.4 dna-(2'-alkoxy-1',2'-methylene-bridged azetidine-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.1.26.4 dna-(aza-ena-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.97 * +EC3.1.26.4 dna-(azetidine-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.13 * +EC3.1.26.4 dna-(oxetane-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.47 * +EC3.1.26.4 dna-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.54 * +EC3.1.26.4 dna-rna hydrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.95 * +EC3.1.26.4 dna-rna-dna hybrid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.082 * +EC3.1.26.4 polya*dt36 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.64 * +EC3.1.26.4 rna-dna duplex pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.283 * +EC3.1.26.4 rna-dna heteroduplex homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.1.26.4 rna-dna*dna hybrid archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.133 * +EC3.1.26.4 rna-dna/dna hybrid pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.093 * +EC3.1.26.4 rna-rna duplex pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0005 * +EC3.1.26.4 rna18:dna18 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.48 * +EC3.1.26.5 human pre-trnatyr bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.6e-05 * +EC3.1.26.5 human pre-trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.1.26.5 pre-trna-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC3.1.26.5 pre-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.1.26.5 pre-trnaasp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.09 * +EC3.1.26.5 pre-trnatyr methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 1.05 * +EC3.1.26.5 pre-trnatyr prochlorothrix hollandica//*//* 0.107 * +EC3.1.26.5 pre-trnatyr pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.009 * +EC3.1.26.5 pre-trnatyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC3.1.26.5 ptrnatyr pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.1917 * +EC3.1.26.5 trna precursor bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.0 * +EC3.1.26.5 trna precursor methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.88 * +EC3.1.26.5 trna precursor methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.57 * +EC3.1.26.5 trna precursor saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC3.1.26.5 trnaphe (g+1) precursor spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC3.1.26.5 trnatyr precursor thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.14 * +EC3.1.26.6 poly(a) gallus gallus//eukaryotes;animals;vertebrates;birds//gga 28.3 * +EC3.1.26.8 artificial 5s rrna precursor substrate in complex with bl16 subunit bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0567 * +EC3.1.26.8 artificial 5s rrna precursor bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00667 * +EC3.1.27.1 adenosine-3'-(1-naphthyl)phosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.176 * +EC3.1.27.1 adenylyl (3'-5')uridine aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0543 * +EC3.1.27.1 cpu momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 12.42 * +EC3.1.27.1 gpc oncorhynchus keta//*//* 2.97 * +EC3.1.27.1 rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.1.27.10 28 s rrna aspergillus giganteus//*//* 0.917 * +EC3.1.27.10 apa aspergillus giganteus//*//* 0.00027 * +EC3.1.27.10 cpc aspergillus giganteus//*//* 5.1e-05 * +EC3.1.27.10 gpa aspergillus giganteus//*//* 9e-06 * +EC3.1.27.2 30 nt rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.58 * +EC3.1.27.3 5'-ohgggacaguauuug-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 72.0 * +EC3.1.27.3 5'-pgggacaguauuug-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 180.0 * +EC3.1.27.3 gpa aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 96.0 * +EC3.1.27.3 gpc aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 350.0 * +EC3.1.27.3 gpg aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 62.0 * +EC3.1.27.3 gpu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 38.0 * +EC3.1.27.3 poly(i) kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 189.0 * +EC3.1.27.4 adenosine 3'-(1-naphthyl phosphate) ustilago sphaerogena//*//* 0.0852 * +EC3.1.27.4 adenosine 3'-(benzyl phosphate) ustilago sphaerogena//*//* 0.00983 * +EC3.1.27.4 adenosine 3'-(methyl phosphate) ustilago sphaerogena//*//* 0.00317 * +EC3.1.27.4 apa ustilago sphaerogena//*//* 3.33 * +EC3.1.27.4 apap ustilago sphaerogena//*//* 24.3 * +EC3.1.27.4 apc ustilago sphaerogena//*//* 23.8 * +EC3.1.27.4 apcp ustilago sphaerogena//*//* 96.2 * +EC3.1.27.4 apcpgp ustilago sphaerogena//*//* 229.0 * +EC3.1.27.4 apg ustilago sphaerogena//*//* 6.33 * +EC3.1.27.4 apgp ustilago sphaerogena//*//* 37.2 * +EC3.1.27.4 apu ustilago sphaerogena//*//* 7.33 * +EC3.1.27.4 apup ustilago sphaerogena//*//* 55.0 * +EC3.1.27.4 apupg ustilago sphaerogena//*//* 149.0 * +EC3.1.27.4 apupgp ustilago sphaerogena//*//* 282.0 * +EC3.1.27.4 cpapgp ustilago sphaerogena//*//* 59.5 * +EC3.1.27.4 upapgp ustilago sphaerogena//*//* 14.8 * +EC3.1.27.5 cyclic 2',3'-cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC3.1.27.5 cyclic 2',3'-cytidine monophosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.0 * +EC3.1.27.5 cyclic 2',3'-cytidine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.1.27.5 cyclic 2',3'-ump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.1.27.5 pentacytidylic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 323.0 * +EC3.1.27.5 poly (c) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC3.1.27.5 poly(a)-poly(u) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.89 * +EC3.1.27.5 poly(a)poly(u) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.1.27.5 poly(c) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2317.0 * +EC3.1.27.5 rna bos taurus//eukaryotes;animals;vertebrates;mammals//bta 35.7 * +EC3.1.27.5 trna gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.6 * +EC3.1.3.1 2'-[2-benzthiazole]-6'-hydroxybenzthiazole phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC3.1.3.1 4-nitrophenyl phosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 29.9 * +EC3.1.3.1 4-nitrophenyl phosphate antarctic bacterium tab5//*//* 236.0 * +EC3.1.3.1 4-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2250.0 * +EC3.1.3.1 4-nitrophenyl phosphate cobetia marina//prokaryotes;bacteria;gammaproteobacteria - others;cobetia//cmai 28300.0 * +EC3.1.3.1 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 378.0 * +EC3.1.3.1 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 971.0 * +EC3.1.3.1 4-nitrophenyl phosphate pandalus borealis//*//* 16230.0 * +EC3.1.3.1 4-nitrophenyl phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 100.0 * +EC3.1.3.1 4-nitrophenyl phosphate thermus yunnanensis//*//* 1130.0 * +EC3.1.3.1 4-nitrophenyl phosphate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 2086.0 * +EC3.1.3.1 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 244.0 * +EC3.1.3.1 o-phosphoserine burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 48.3 * +EC3.1.3.1 o-phosphotyrosine burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 138.1 * +EC3.1.3.1 p-nitrophenyl phosphate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 147.9 * +EC3.1.3.1 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.5 * +EC3.1.3.1 p-nitrophenyl phosphate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 1580.0 * +EC3.1.3.1 phosphoenolpyruvate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 14.1 * +EC3.1.3.1 pyridoxal 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 92.0 * +EC3.1.3.10 adp pholiota nameko//*//* 0.0035 * +EC3.1.3.10 d-fructose 1-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 111.0 * +EC3.1.3.10 d-fructose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 95.0 * +EC3.1.3.10 d-fructose 6-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 105.0 * +EC3.1.3.10 d-glucose 1-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 145.0 * +EC3.1.3.10 d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 117.0 * +EC3.1.3.10 d-glucose 6-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 109.0 * +EC3.1.3.10 d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 82.0 * +EC3.1.3.10 d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.0 * +EC3.1.3.10 fructose 1-phosphate pholiota nameko//*//* 0.00217 * +EC3.1.3.10 fructose 6-phosphate pholiota nameko//*//* 0.00167 * +EC3.1.3.10 galactose 1-phosphate pholiota nameko//*//* 0.0348 * +EC3.1.3.10 glucose 1-phosphate pholiota nameko//*//* 0.0393 * +EC3.1.3.10 myo-inositol hexakisphosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 24.0 * +EC3.1.3.10 myo-inositol hexakisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC3.1.3.10 myo-inositol hexakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 20.5 * +EC3.1.3.10 p-nitrophenyl phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 30.0 * +EC3.1.3.10 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.1.3.10 phosphoenolpyruvate pholiota nameko//*//* 0.000667 * +EC3.1.3.10 ribose 5-phosphate pholiota nameko//*//* 0.0005 * +EC3.1.3.102 fmn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.822 * +EC3.1.3.102 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.4 * +EC3.1.3.103 2-dehydro-3-deoxy-d-manno-octulosonic acid 8-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.06 * +EC3.1.3.103 3-deoxy-d-glycero-d-galacto-nononate 9-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.2 * +EC3.1.3.103 n-acetylneuraminic acid 9-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.73 * +EC3.1.3.104 5-amino-6-(5-phospho-d-ribitylamino)uracil arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.8 * +EC3.1.3.104 5-amino-6-(5-phospho-d-ribitylamino)uracil bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.016 * +EC3.1.3.104 d-ribitol 1-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.8 * +EC3.1.3.104 d-ribitol 5-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.5 * +EC3.1.3.104 fmn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.59 * +EC3.1.3.11 2-[5-amino-2-(4-fluoro-phenyl)-6-oxo-6h-pyrimidin-1-yl]-n-(1-benzyl-2-oxo-2-thiazol-2-yl-ethyl)-acetamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.55 * +EC3.1.3.11 2-[5-amino-2-(4-fluoro-phenyl)-6-oxo-6h-pyrimidin-1-yl]-n-(1-benzyl-2-oxo-2-thiazol-2-yl-ethyl)-acetamide sus scrofa domesticus//*//* 16.1 * +EC3.1.3.11 beta-d-glucose 1,6-bisphosphate lactobacillus delbrueckii subsp. lactis//*//* 175.0 * +EC3.1.3.11 beta-d-glucose 1,6-bisphosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 20.0 * +EC3.1.3.11 d-fructose 1,6-bisphosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 3.9 * +EC3.1.3.11 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC3.1.3.11 d-fructose 1,6-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.5 * +EC3.1.3.11 d-fructose 1,6-bisphosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 18.0 * +EC3.1.3.11 d-fructose 1,6-bisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.9 * +EC3.1.3.11 d-fructose 1,6-bisphosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 24.3 * +EC3.1.3.11 d-fructose 1,6-bisphosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.62 * +EC3.1.3.11 d-fructose 1,6-bisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 23.0 * +EC3.1.3.11 d-fructose 1,6-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 10.5 * +EC3.1.3.11 d-fructose 1,6-bisphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 17.0 * +EC3.1.3.11 d-fructose 1,6-bisphosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 58.7 * +EC3.1.3.11 d-fructose 1,6-bisphosphate triticum aestivum//*//* 22.9 * +EC3.1.3.11 d-fructose-1,6-bisphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.2 * +EC3.1.3.11 d-fructose-1,6-bisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 22.0 * +EC3.1.3.11 fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.1.3.11 fructose 1,6-diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 21.0 * +EC3.1.3.12 trehalose 6-phosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 14.79 * +EC3.1.3.12 trehalose 6-phosphate brugia malayi//eukaryotes;animals;nematodes//bmy 24.0 * +EC3.1.3.12 trehalose 6-phosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 8.0 * +EC3.1.3.12 trehalose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.6 * +EC3.1.3.12 trehalose 6-phosphate oryza sativa japonica group//*//* 13.4 * +EC3.1.3.12 trehalose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.52 * +EC3.1.3.12 trehalose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 10.0 * +EC3.1.3.15 amp thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 29.0 * +EC3.1.3.15 carbon disulfide acidianus sp.//*//* 952.0 * +EC3.1.3.15 carbonyl sulfide acidianus sp.//*//* 1800.0 * +EC3.1.3.15 d-fructose 6-phosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 11.0 * +EC3.1.3.15 l-histidinol phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2140.0 * +EC3.1.3.15 l-histidinol phosphate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 174.0 * +EC3.1.3.15 l-histidinol phosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 420.0 * +EC3.1.3.15 l-histidinol phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.93 * +EC3.1.3.15 l-phosphoserine thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 14.0 * +EC3.1.3.16 4-nitrophenyl phosphate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 20.0 * +EC3.1.3.16 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.8 * +EC3.1.3.16 4-nitrophenyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 7.4 * +EC3.1.3.16 erk5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.1.3.16 p-nitrophenyl phosphate escherichia virus lambda//*//* 1100.0 * +EC3.1.3.16 p-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.78 * +EC3.1.3.16 rraptva homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 170.0 * +EC3.1.3.16 rras(p)va salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.9 * +EC3.1.3.16 rrat(p)va salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 2.5 * +EC3.1.3.16 serine/threonine-phosphorylated myelin basic protein salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.1 * +EC3.1.3.16 tyrosine-phosphorylated myelin basic protein salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.1 * +EC3.1.3.17 histone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.3 * +EC3.1.3.17 phosphorylase a oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.2 * +EC3.1.3.18 2-phosphoglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 94.0 * +EC3.1.3.18 2-phosphoglycolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.1.3.18 2-phosphoglycolate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 292.0 * +EC3.1.3.18 2-phosphoglycolate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 8.26 * +EC3.1.3.18 diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 6.08 * +EC3.1.3.18 p-nitrophenyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 4.8 * +EC3.1.3.18 phosphoglycolate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 8.26 * +EC3.1.3.2 1-naphthyl phosphate blastobotrys adeninivorans//*//* 5282.0 * +EC3.1.3.2 2'-amp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.11 * +EC3.1.3.2 2'-amp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.13 * +EC3.1.3.2 2-glycerophosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 125.0 * +EC3.1.3.2 3'-amp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.1 * +EC3.1.3.2 3'-amp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.19 * +EC3.1.3.2 3'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 101.0 * +EC3.1.3.2 3-indoxyl phosphate blastobotrys adeninivorans//*//* 1056.0 * +EC3.1.3.2 4-methylumbelliferyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 121.0 * +EC3.1.3.2 4-nitrophenyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 161.9 * +EC3.1.3.2 4-nitrophenyl phosphate euphorbia characias//*//* 790.0 * +EC3.1.3.2 4-nitrophenyl phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 4.48 * +EC3.1.3.2 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 240.0 * +EC3.1.3.2 4-nitrophenyl phosphate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 6.2 * +EC3.1.3.2 4-nitrophenyl phosphate prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 26.0 * +EC3.1.3.2 5'-amp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.07 * +EC3.1.3.2 5'-amp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.18 * +EC3.1.3.2 adp blastobotrys adeninivorans//*//* 2676.0 * +EC3.1.3.2 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 73.0 * +EC3.1.3.2 alpha-naphthyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.0 * +EC3.1.3.2 amp blastobotrys adeninivorans//*//* 845.0 * +EC3.1.3.2 amp ipomoea batatas//*//* 50.0 * +EC3.1.3.2 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 188.0 * +EC3.1.3.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 119.0 * +EC3.1.3.2 atp ipomoea batatas//*//* 155.0 * +EC3.1.3.2 atp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 133.2 * +EC3.1.3.2 bis(p-nitrophenyl) phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 700.0 * +EC3.1.3.2 cdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 58.0 * +EC3.1.3.2 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 93.0 * +EC3.1.3.2 d-fructose 6-phosphate ipomoea batatas//*//* 171.0 * +EC3.1.3.2 d-glucose 6-phosphate blastobotrys adeninivorans//*//* 2462.0 * +EC3.1.3.2 d-glucose 6-phosphate ipomoea batatas//*//* 218.0 * +EC3.1.3.2 d-sucrose 6-phosphate ipomoea batatas//*//* 35.0 * +EC3.1.3.2 dade(py)lipqqg nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 26.7 * +EC3.1.3.2 eey(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 79.0 * +EC3.1.3.2 end(py)inasl nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 32.8 * +EC3.1.3.2 fmoc-aay(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 100.0 * +EC3.1.3.2 fmoc-eey(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 120.0 * +EC3.1.3.2 fmoc-ey(p)a sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 31.0 * +EC3.1.3.2 fmoc-kkay(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 170.0 * +EC3.1.3.2 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 86.0 * +EC3.1.3.2 glycerol 2-phosphate blastobotrys adeninivorans//*//* 1831.0 * +EC3.1.3.2 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 113.0 * +EC3.1.3.2 idp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 60.4 * +EC3.1.3.2 methyl-p-nitrophenyl phosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 542.0 * +EC3.1.3.2 methyl-p-nitrophenyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 542.0 * +EC3.1.3.2 methylphosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 20.0 * +EC3.1.3.2 methylphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 17.0 * +EC3.1.3.2 myo-inositol hexakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.85 * +EC3.1.3.2 na2h2p2o7 glycine max//eukaryotes;plants;eudicots;pea family//gmx 232.0 * +EC3.1.3.2 nadp ipomoea batatas//*//* 295.0 * +EC3.1.3.2 nicotinamide mononucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.52 * +EC3.1.3.2 nmn pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 4.4 * +EC3.1.3.2 p-nitrophenyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 161.9 * +EC3.1.3.2 p-nitrophenyl phosphate blastobotrys adeninivorans//*//* 40850.0 * +EC3.1.3.2 p-nitrophenyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 430.0 * +EC3.1.3.2 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 198.0 * +EC3.1.3.2 p-nitrophenyl phosphate ipomoea batatas//*//* 531.0 * +EC3.1.3.2 p-nitrophenyl phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 125.0 * +EC3.1.3.2 p-nitrophenyl phosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 850.0 * +EC3.1.3.2 p-nitrophenyl phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 22.25 * +EC3.1.3.2 p-nitrophenyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 470.0 * +EC3.1.3.2 phenolphthalein diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 109.0 * +EC3.1.3.2 phenyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 219.0 * +EC3.1.3.2 phenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.0 * +EC3.1.3.2 phosphocholine francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 33.24 * +EC3.1.3.2 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 198.6 * +EC3.1.3.2 phosphoenolpyruvic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.1.3.2 phosphoserine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 26.8 * +EC3.1.3.2 phosphotyrosine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 62.4 * +EC3.1.3.2 phytic acid blastobotrys adeninivorans//*//* 915.0 * +EC3.1.3.2 pyridoxal 5'-phosphate blastobotrys adeninivorans//*//* 1901.0 * +EC3.1.3.2 rra(pt)va nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.0 * +EC3.1.3.2 sodium diphosphate blastobotrys adeninivorans//*//* 2042.0 * +EC3.1.3.2 sodium phytate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.85 * +EC3.1.3.2 tdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 69.0 * +EC3.1.3.2 thiamine diphosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.48 * +EC3.1.3.2 thiamine monophosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 4.85 * +EC3.1.3.2 ttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 107.0 * +EC3.1.3.2 udp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 79.0 * +EC3.1.3.2 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 119.0 * +EC3.1.3.21 4-nitrophenyl phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC3.1.3.21 alpha-glycerolphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 833.0 * +EC3.1.3.21 d-ribulose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.18 * +EC3.1.3.21 dl-glycerol 3-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 30.3 * +EC3.1.3.21 dl-glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 160.0 * +EC3.1.3.21 dl-glycerol 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.77 * +EC3.1.3.21 glycerol 2-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.18 * +EC3.1.3.21 l-glycerol 3-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.7 * +EC3.1.3.21 l-glycerol 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.02 * +EC3.1.3.22 d-mannitol 1-phosphate ectocarpus siliculosus//*//* 0.015 * +EC3.1.3.23 4-nitrophenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.012 * +EC3.1.3.23 d-arabinose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.92 * +EC3.1.3.23 d-fructose 1,6-bisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.49 * +EC3.1.3.23 d-fructose 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.817 * +EC3.1.3.23 d-galactose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.28 * +EC3.1.3.23 d-glucose 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.49 * +EC3.1.3.23 d-xylulose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.75 * +EC3.1.3.23 dl-glycerol 3-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 23.0 * +EC3.1.3.25 3,5-dideoxy-d-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.5 * +EC3.1.3.25 3,5-dideoxy-d-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.1.3.25 3,5-dideoxy-l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5.8 * +EC3.1.3.25 3,5-dideoxy-l-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC3.1.3.25 3-deoxy-d-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.9 * +EC3.1.3.25 3-deoxy-d-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC3.1.3.25 3-deoxy-l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.2 * +EC3.1.3.25 3-deoxy-l-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC3.1.3.25 d-fructose 1,6-bisphosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.7 * +EC3.1.3.25 d-fructose 1,6-bisphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 7.0 * +EC3.1.3.25 d-fructose 1,6-bisphosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 268.0 * +EC3.1.3.25 d-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 28.7 * +EC3.1.3.25 d-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC3.1.3.25 d-myo-inositol 1-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 7.72 * +EC3.1.3.25 d-myo-inositol 1-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 104.0 * +EC3.1.3.25 d-myo-inositol 3-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.6 * +EC3.1.3.25 d-myo-inositol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC3.1.3.25 dl-myo-inositol 1-phosphate hordeum vulgare//*//* 1.29 * +EC3.1.3.25 inositol 1,3-thiophosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC3.1.3.25 inositol 3-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.48 * +EC3.1.3.25 l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.64 * +EC3.1.3.25 l-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC3.1.3.25 l-myo-inositol 1-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 7.92 * +EC3.1.3.25 l-myo-inositol 1-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 16.6 * +EC3.1.3.25 myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.5 * +EC3.1.3.25 myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.5 * +EC3.1.3.25 myo-inositol 1-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.2 * +EC3.1.3.25 myo-inositol 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.6 * +EC3.1.3.25 myo-inositol 1-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 207.0 * +EC3.1.3.26 1-naphthyl phosphate avena sativa//*//* 305.0 * +EC3.1.3.26 2-naphthyl phosphate avena sativa//*//* 360.0 * +EC3.1.3.26 4-nitrophenyl phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 358000.0 * +EC3.1.3.26 adp avena sativa//*//* 450.0 * +EC3.1.3.26 amp avena sativa//*//* 16.0 * +EC3.1.3.26 atp avena sativa//*//* 645.0 * +EC3.1.3.26 diphosphate avena sativa//*//* 943.0 * +EC3.1.3.26 fructose 1,6-diphosphate avena sativa//*//* 210.0 * +EC3.1.3.26 fructose 6-phosphate avena sativa//*//* 35.0 * +EC3.1.3.26 glucose 6-phosphate avena sativa//*//* 70.0 * +EC3.1.3.26 glycerol 2-phosphate avena sativa//*//* 102.0 * +EC3.1.3.26 gtp avena sativa//*//* 388.0 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus ficuum//*//* 348.0 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 412000.0 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus japonicus//*//* 279.3 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 300000.0 * +EC3.1.3.26 myo-inositol hexakisphosphate avena sativa//*//* 356.0 * +EC3.1.3.26 myo-inositol hexakisphosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 26.6 * +EC3.1.3.26 myo-inositol hexakisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6931.0 * +EC3.1.3.26 myo-inositol hexakisphosphate peniophora lycii//*//* 2200.0 * +EC3.1.3.26 myo-inositol hexakisphosphate rhizopus microsporus var. oligosporus//*//* 51.0 * +EC3.1.3.26 myo-inositol hexakisphosphate schwanniomyces capriottii//*//* 59.2 * +EC3.1.3.26 myo-inositol hexakisphosphate secale cereale//*//* 655.0 * +EC3.1.3.26 myo-inositol hexakisphosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 2283.0 * +EC3.1.3.26 myo-inositol hexakisphosphate yersinia rohdei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yro 2531.0 * +EC3.1.3.26 myo-inositol-1,2,3,4,5,6-hexakisphosphate oryza sativa japonica group//*//* 231.0 * +EC3.1.3.26 o-phospho-l-ser avena sativa//*//* 5.0 * +EC3.1.3.26 p-nitrophenyl phosphate avena sativa//*//* 375.0 * +EC3.1.3.26 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 490.0 * +EC3.1.3.26 phytate bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 59600.0 * +EC3.1.3.26 pyridoxal phosphate avena sativa//*//* 17.0 * +EC3.1.3.27 1,2-dioleoyl-sn-glycero-3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC3.1.3.3 l-phosphoserine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 2.94 * +EC3.1.3.3 l-phosphoserine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 804.0 * +EC3.1.3.3 l-phosphothreonine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0004 * +EC3.1.3.3 l-phosphotyrosine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 3e-05 * +EC3.1.3.3 o-phospho-l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.15 * +EC3.1.3.3 o-phospho-l-serine thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.182 * +EC3.1.3.31 3'-amp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 160.0 * +EC3.1.3.31 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.84 * +EC3.1.3.31 3'-cmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 188.0 * +EC3.1.3.31 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.93 * +EC3.1.3.31 3'-gmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 162.0 * +EC3.1.3.31 3'-ump elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 138.0 * +EC3.1.3.31 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC3.1.3.31 5'-amp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 173.0 * +EC3.1.3.31 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC3.1.3.31 5'-cmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 303.0 * +EC3.1.3.31 5'-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.1.3.31 5'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.1.3.31 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.04 * +EC3.1.3.31 5'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.1.3.31 5'-dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.4 * +EC3.1.3.31 5'-dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.4 * +EC3.1.3.31 5'-gmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 205.0 * +EC3.1.3.31 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.1.3.31 5'-ump elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 267.0 * +EC3.1.3.31 5'-ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 34.2 * +EC3.1.3.31 d-ribose-5-phosphate elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 65.0 * +EC3.1.3.31 p-nitrophenyl phosphate elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 129.0 * +EC3.1.3.31 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.1.3.32 2',3'-camp ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 8.93 * +EC3.1.3.32 3'-phospho-5'-hydroxy-dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.1.3.32 3'-tmp rhodothermus phage rm378//*//* 0.16 * +EC3.1.3.32 bis-p-nitrophenyl phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 23.17 * +EC3.1.3.32 camp rhodothermus phage rm378//*//* 0.017 * +EC3.1.3.32 dtmp mycobacterium virus cjw1//*//* 6.08 * +EC3.1.3.32 dtmp mycobacterium virus omega//*//* 6.08 * +EC3.1.3.32 p-nitrophenyl phenylphosphonate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 27.83 * +EC3.1.3.32 p-nitrophenyl phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 30.83 * +EC3.1.3.32 phosphorylated dna ends mycobacterium virus cjw1//*//* 0.0043 * +EC3.1.3.32 phosphorylated dna ends mycobacterium virus omega//*//* 0.003 * +EC3.1.3.36 7-methyl-6-thioguanosine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 11.0 * +EC3.1.3.37 fructose 1,6-diphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 21.0 * +EC3.1.3.37 sedoheptulose 1,7-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 4.2 * +EC3.1.3.37 sedoheptulose 1,7-diphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 81.0 * +EC3.1.3.4 1-arachidonoyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 250.0 * +EC3.1.3.4 1-myristoyl-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 354.0 * +EC3.1.3.4 1-oleoyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 177.0 * +EC3.1.3.4 1-stearyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 125.0 * +EC3.1.3.41 4-nitrophenyl phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 108.0 * +EC3.1.3.45 2-oxo-3-deoxy-d-manno-octulosonate 8-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.5 * +EC3.1.3.45 2-oxo-3-deoxy-d-manno-octulosonate 8-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.78 * +EC3.1.3.45 kdn 9-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.061 * +EC3.1.3.45 kdn 9-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.021 * +EC3.1.3.46 fructose 2,6-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.1.3.48 1-naphthyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.32 * +EC3.1.3.48 3-o-methylfluorescein phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.24 * +EC3.1.3.48 4,6,8-trimethyl-2-oxo-2h-chromen-7-yl dihydrogen phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 71.6 * +EC3.1.3.48 4,6,8-trimethyl-2-oxo-2h-chromen-7-yl dihydrogen phosphate yersinia sp.//*//* 36.7 * +EC3.1.3.48 4-methylumbelliferyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 79.9 * +EC3.1.3.48 4-nitrophenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.022 * +EC3.1.3.48 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.5 * +EC3.1.3.48 4-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 75.3 * +EC3.1.3.48 4-nitrophenyl phosphate shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 184.9 * +EC3.1.3.48 4-nitrophenyl phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4013.0 * +EC3.1.3.48 4-nitrophenyl phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.8 * +EC3.1.3.48 4-nitrophenyl phosphate yersinia enterocolitica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yen 6.2 * +EC3.1.3.48 6,8-difluoro-4-methylumbelliferyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.66 * +EC3.1.3.48 aaaaapyrhrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.1.3.48 adedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.1.3.48 akfedtpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.1.3.48 arkripyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC3.1.3.48 avwefpypyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.0 * +EC3.1.3.48 awspyadpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.1.3.48 aytepytpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.1.3.48 daedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.1.3.48 ddt-(3,5-difluoro)ydpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.3.48 ddtydpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC3.1.3.48 dfedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 37.0 * +EC3.1.3.48 dnl-(3,5-difluoro)ypywd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.3.48 dnlypywd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC3.1.3.48 drvpyihpfhl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.1.3.48 dwedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.1.3.48 eadtapyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC3.1.3.48 eifdfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC3.1.3.48 fdedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.1.3.48 fdidipyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC3.1.3.48 fydidpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 66.0 * +EC3.1.3.48 gesdggpymdmskd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 200.0 * +EC3.1.3.48 gngdpympmspks homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.4 * +EC3.1.3.48 inositol hexakisphosphate bdellovibrio bacteriovorus//prokaryotes;bacteria;deltaproteobacteria;bdellovibrio//bba 124.0 * +EC3.1.3.48 insulin receptor phosphopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.5 * +EC3.1.3.48 krliedne(py)targq bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.016 * +EC3.1.3.48 liednepytarqga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.3 * +EC3.1.3.48 lysozyme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.1.3.48 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.1.3.48 phenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 64.9 * +EC3.1.3.48 phosphotyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 72.9 * +EC3.1.3.48 platelet-derived growth factor receptor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC3.1.3.48 re-(3,5-difluoro)yefpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.0 * +EC3.1.3.48 reyefpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC3.1.3.48 rristpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 49.0 * +EC3.1.3.48 sasaspydwef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.1.3.48 sasaspysasa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.0 * +EC3.1.3.48 tatepqpyqpgen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.7 * +EC3.1.3.48 tgfltelpyvatrwy homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 177.0 * +EC3.1.3.48 tstepqpyqpgenl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 258.0 * +EC3.1.3.48 wagddpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.0 * +EC3.1.3.48 wdedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC3.1.3.48 wdedfpydwef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 75.0 * +EC3.1.3.48 wdedfpyrwkf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 73.0 * +EC3.1.3.48 wdedfpysasa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC3.1.3.48 wrkrfpydwef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.1.3.5 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.84 * +EC3.1.3.5 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.93 * +EC3.1.3.5 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 129.0 * +EC3.1.3.5 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 750.0 * +EC3.1.3.5 5'-amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 187.0 * +EC3.1.3.5 5'-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 202.0 * +EC3.1.3.5 5'-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.1.3.5 5'-damp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 174.0 * +EC3.1.3.5 5'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.1.3.5 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.04 * +EC3.1.3.5 5'-dgmp legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 20.7 * +EC3.1.3.5 5'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.1.3.5 5'-dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.1.3.5 5'-dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.1.3.5 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.1.3.5 5'-gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 132.0 * +EC3.1.3.5 5'-gmp legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 12.4 * +EC3.1.3.5 5'-imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 104.0 * +EC3.1.3.5 5'-imp legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.3 * +EC3.1.3.5 5'-tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.1.3.5 5'-ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 289.0 * +EC3.1.3.5 5'-ump mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.1.3.5 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 613.2 * +EC3.1.3.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 757.0 * +EC3.1.3.5 inosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 40.0 * +EC3.1.3.5 inosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.1.3.5 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC3.1.3.5 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.1.3.5 ribavirin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.1.3.56 7-methyl-6-thioguanosine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 11.0 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 340.0 * +EC3.1.3.6 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.84 * +EC3.1.3.6 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.93 * +EC3.1.3.6 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC3.1.3.6 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.04 * +EC3.1.3.6 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.1.3.6 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.55 * +EC3.1.3.6 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.1.3.67 phosphatidylinositol 3,4-bisphosphate ciona intestinalis//eukaryotes;animals;ascidians//cin 0.12 * +EC3.1.3.7 2'-deoxyadenosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 7.1 * +EC3.1.3.7 2'-deoxycytidine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 9.4 * +EC3.1.3.7 2'-deoxyguanosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 4.2 * +EC3.1.3.7 2'-deoxythymidine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 4.3 * +EC3.1.3.7 2'-deoxyuridine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 5.2 * +EC3.1.3.7 3'-phosphoadenosine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.0 * +EC3.1.3.7 5'-phosphoadenylyl-(3'->5')-adenosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.05 * +EC3.1.3.7 adenosine 2',5'-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.2 * +EC3.1.3.7 adenosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 22.0 * +EC3.1.3.7 adenosine 3',5'-bisphosphate debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 2.94 * +EC3.1.3.7 adenosine 3',5'-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.4 * +EC3.1.3.7 adenosine 3',5'-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.4 * +EC3.1.3.7 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.1.3.7 d-fructose 1,6-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.24 * +EC3.1.3.7 d-myo-inositol monophosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.31 * +EC3.1.3.7 guanosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 12.3 * +EC3.1.3.7 n6-methyl-5'-phosphoadenylyl-(3'->5')-adenosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 11.6 * +EC3.1.3.7 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC3.1.3.7 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.45 * +EC3.1.3.7 thymidine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 3.3 * +EC3.1.3.7 uridine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 5.4 * +EC3.1.3.74 pyridoxal 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.52 * +EC3.1.3.74 pyridoxal 5'-phosphate paenibacillus thiaminolyticus//*//* 19.4 * +EC3.1.3.74 pyridoxal-5'-phosphate paenibacillus thiaminolyticus//*//* 19.0 * +EC3.1.3.74 pyridoxamine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.1.3.74 pyridoxine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC3.1.3.75 4-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 87.1 * +EC3.1.3.75 o-phosphoethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.27 * +EC3.1.3.75 p-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7900000.0 * +EC3.1.3.75 phosphocholine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.04 * +EC3.1.3.75 phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.98 * +EC3.1.3.75 phosphoethanolamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 13.0 * +EC3.1.3.76 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.3.76 4-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.61 * +EC3.1.3.76 farnesyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.1.3.76 farnesyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.71 * +EC3.1.3.76 geranyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.1.3.76 geranylgeranyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.1.3.76 geranylgeranyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.85 * +EC3.1.3.8 1-l-myo-inositol 1,2,3,4,5-pentakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 16.0 * +EC3.1.3.8 1-l-myo-inositol 1,2,3,5,6-pentakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 16.0 * +EC3.1.3.8 1-naphthyl phosphate raoultella terrigena//*//* 2.0 * +EC3.1.3.8 2-naphthyl phosphate raoultella terrigena//*//* 6.0 * +EC3.1.3.8 4-nitrophenyl phosphate aspergillus ficuum//*//* 104.0 * +EC3.1.3.8 4-nitrophenyl phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 358000.0 * +EC3.1.3.8 4-nitrophenyl phosphate penicillium parvum//*//* 11.8 * +EC3.1.3.8 4-nitrophenyl phosphate raoultella terrigena//*//* 20.0 * +EC3.1.3.8 4-nitrophenylphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 161.9 * +EC3.1.3.8 adp raoultella terrigena//*//* 9.0 * +EC3.1.3.8 amp raoultella terrigena//*//* 8.0 * +EC3.1.3.8 atp raoultella terrigena//*//* 6.0 * +EC3.1.3.8 d-fructose 1,6-diphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 1.1 * +EC3.1.3.8 d-fructose 1-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 1.6 * +EC3.1.3.8 d-glucose 1-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 101.0 * +EC3.1.3.8 d-glucose 6-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 2.9 * +EC3.1.3.8 d-ribose 5-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 1.1 * +EC3.1.3.8 diphosphate raoultella terrigena//*//* 11.0 * +EC3.1.3.8 fructose 1,6-diphosphate raoultella terrigena//*//* 10.0 * +EC3.1.3.8 fructose 6-phosphate raoultella terrigena//*//* 6.0 * +EC3.1.3.8 glucose 6-phosphate raoultella terrigena//*//* 2.0 * +EC3.1.3.8 glycerol 2-phosphate raoultella terrigena//*//* 4.0 * +EC3.1.3.8 myo-inositol hexakisphosphate disodium salt aspergillus japonicus//*//* 231.0 * +EC3.1.3.8 myo-inositol hexakisphosphate disodium salt aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 281.0 * +EC3.1.3.8 myo-inositol hexakisphosphate sodium salt aspergillus japonicus//*//* 279.0 * +EC3.1.3.8 myo-inositol hexakisphosphate sodium salt aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 253.0 * +EC3.1.3.8 myo-inositol hexakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.85 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus ficuum//*//* 360.0 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 412000.0 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 300000.0 * +EC3.1.3.8 myo-inositol hexakisphosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 26.6 * +EC3.1.3.8 myo-inositol hexakisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 25.4 * +EC3.1.3.8 myo-inositol hexakisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3397.0 * +EC3.1.3.8 myo-inositol hexakisphosphate kodamaea ohmeri//*//* 0.93 * +EC3.1.3.8 myo-inositol hexakisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2056.0 * +EC3.1.3.8 myo-inositol hexakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 21.0 * +EC3.1.3.8 myo-inositol hexakisphosphate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 950.0 * +EC3.1.3.8 myo-inositol hexakisphosphate penicillium parvum//*//* 134.0 * +EC3.1.3.8 myo-inositol hexakisphosphate raoultella terrigena//*//* 180.0 * +EC3.1.3.8 myo-inositol hexakisphosphate rhizopus microsporus var. oligosporus//*//* 51.0 * +EC3.1.3.8 myo-inositol hexakisphosphate schwanniomyces capriottii//*//* 59.2 * +EC3.1.3.8 myo-inositol hexakisphosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 2283.0 * +EC3.1.3.8 myo-inositol hexakisphosphate yersinia rohdei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yro 2531.0 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 350.0 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 94.4 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate hordeum vulgare//*//* 260.0 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate klebsiella sp.//*//* 370.0 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate triticum aestivum//*//* 279.0 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 248.0 * +EC3.1.3.8 nadp+ raoultella terrigena//*//* 46.0 * +EC3.1.3.8 p-nitrophenyl phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.9 * +EC3.1.3.8 p-nitrophenyl phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 8.2 * +EC3.1.3.8 p-nitrophenyl phosphate schwanniomyces capriottii//*//* 44.2 * +EC3.1.3.8 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 198.0 * +EC3.1.3.8 phytate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1260.0 * +EC3.1.3.8 phytate bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 59600.0 * +EC3.1.3.8 phytate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2348.0 * +EC3.1.3.8 phytate serratia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srs 112.7 * +EC3.1.3.81 diacylglycerol diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 96.67 * +EC3.1.3.82 d-fructose 1,6-bisphosphate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.55 * +EC3.1.3.82 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.039 * +EC3.1.3.82 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 5.9 * +EC3.1.3.82 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.6 * +EC3.1.3.82 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 4.4 * +EC3.1.3.82 d-glycero-beta-d-manno-heptose 1,7-bisphosphate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 22.0 * +EC3.1.3.82 d-glycero-beta-d-manno-heptose 1,7-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.7 * +EC3.1.3.82 d-glycero-beta-d-manno-heptose 1,7-bisphosphate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 18.0 * +EC3.1.3.82 d-sedoheptulose 1,7-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.51 * +EC3.1.3.83 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 29.0 * +EC3.1.3.83 d-glycero-beta-d-manno-heptose 1,7-bisphosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 13.0 * +EC3.1.3.84 adp-ribose 1''-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.028 * +EC3.1.3.84 adp-ribose 1''-phosphate sars coronavirus//*//* 0.0865 * +EC3.1.3.89 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC3.1.3.89 5'-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.1.3.89 5'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.1.3.89 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.1.3.89 5'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.1.3.89 5'-dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.1.3.89 5'-dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.1.3.9 glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 700.0 * +EC3.1.3.90 maltose 6'-phosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 128.0 * +EC3.1.3.91 n7-methyl-gmp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 6.3 * +EC3.1.3.91 n7-methyl-gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.1.3.92 kanosamine 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 32.0 * +EC3.1.3.96 pseudouridine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.1.30.2 b-form dna serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 737.6 * +EC3.1.30.2 b-z-hybrid form dna serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1.2 * +EC3.1.4.1 bis(4-nitrophenyl)phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.4 * +EC3.1.4.1 bis-p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.3 * +EC3.1.4.1 bis-p-nitrophenyl phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 130.2 * +EC3.1.4.1 more ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 23.2 * +EC3.1.4.1 p-nitrophenyl 5'-thymidine monophosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.26 * +EC3.1.4.1 p-nitrophenyl ethyl phosphate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 9.5 * +EC3.1.4.1 p-nitrophenyl phenylphosphonate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 16.0 * +EC3.1.4.1 p-nitrophenylphosphorylcholine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 52.9 * +EC3.1.4.12 2-hexadecanoylamino-4-nitrophenylphosphocholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 5.9 * +EC3.1.4.12 lysophosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 13.0 * +EC3.1.4.12 sphingomyelin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 400.0 * +EC3.1.4.14 2',3'-camp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.004 * +EC3.1.4.14 bis-4-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.21 * +EC3.1.4.16 2',3'-camp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.63 * +EC3.1.4.16 2',3'-cgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.97 * +EC3.1.4.16 2'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.09 * +EC3.1.4.16 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.24 * +EC3.1.4.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.78 * +EC3.1.4.16 bis-p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 72.0 * +EC3.1.4.16 bis-p-nitrophenyl phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 12.4 * +EC3.1.4.16 cdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.83 * +EC3.1.4.16 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.36 * +EC3.1.4.16 cyclic 2',3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.95 * +EC3.1.4.16 cyclic 2',3'-amp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.8 * +EC3.1.4.16 cyclic 2',3'-amp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0006 * +EC3.1.4.16 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.51 * +EC3.1.4.16 nadp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.9 * +EC3.1.4.16 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.3 * +EC3.1.4.16 p-nitrophenyl phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.55 * +EC3.1.4.17 2',3'-camp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.00096 * +EC3.1.4.17 3',5'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.1.4.17 3',5'-camp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.00096 * +EC3.1.4.17 3',5'-camp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.0 * +EC3.1.4.17 3',5'-cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.1.4.17 3',5'-cgmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.1 * +EC3.1.4.17 5'-amp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.00551 * +EC3.1.4.17 5'-atp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.00454 * +EC3.1.4.17 camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 567.0 * +EC3.1.4.17 cgmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 667.0 * +EC3.1.4.2 4-nitrophenyl ethylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.5 * +EC3.1.4.2 4-nitrophenyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.6 * +EC3.1.4.2 4-nitrophenyl phenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 4.0 * +EC3.1.4.2 4-nitrophenyl phenyl phosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.8 * +EC3.1.4.2 bis(4-nitrophenyl) phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.0 * +EC3.1.4.2 diethyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0074 * +EC3.1.4.2 dimethyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.005 * +EC3.1.4.2 ethyl 4-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.0 * +EC3.1.4.2 ethyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0012 * +EC3.1.4.2 isobutyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.001 * +EC3.1.4.2 isopropyl 4-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.0 * +EC3.1.4.2 isopropyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.001 * +EC3.1.4.2 methyl 4-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 7.3 * +EC3.1.4.2 o-ethyl s-[2-(ethylsulfanyl)ethyl] hydrogen thiophosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0012 * +EC3.1.4.2 phenyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0031 * +EC3.1.4.2 s-[2-[bis(1-methylethyl)amino]ethyl] o-ethyl hydrogen thiophosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.1 * +EC3.1.4.2 sn-glycero 3-phosphorylcholine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 220.0 * +EC3.1.4.3 diheptanoylphosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 13.8 * +EC3.1.4.3 dihexanoylphosphatidic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0198 * +EC3.1.4.3 dihexanoylphosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 6.78 * +EC3.1.4.3 p-nitrophenylphosphorylcholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 979.0 * +EC3.1.4.35 3',5'-cgmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.55 * +EC3.1.4.35 3',5'-cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4400.0 * +EC3.1.4.35 cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.1.4.37 2',3'-camp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.63 * +EC3.1.4.37 2',3'-camp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 118.0 * +EC3.1.4.37 2',3'-cgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.97 * +EC3.1.4.37 2',3'-cnadp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1690.0 * +EC3.1.4.37 2',3'-cyclic amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 940.0 * +EC3.1.4.37 2'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.09 * +EC3.1.4.37 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.24 * +EC3.1.4.37 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.78 * +EC3.1.4.37 cdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.83 * +EC3.1.4.37 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.36 * +EC3.1.4.37 cyclic 2',3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.63 * +EC3.1.4.37 cyclic 2',3'-amp ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 8.9 * +EC3.1.4.37 cyclic 2',3'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.94 * +EC3.1.4.37 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.51 * +EC3.1.4.37 nadp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.9 * +EC3.1.4.37 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.3 * +EC3.1.4.38 4-nitrophenyl phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC3.1.4.38 lysophosphatidylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC3.1.4.38 lysosphingomyelin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 65.0 * +EC3.1.4.38 sn-glycero-3-phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC3.1.4.38 sn-glycerol-3-phosphocholine streptomyces sanglieri//*//* 29.0 * +EC3.1.4.4 phosphatidyl-p-nitrophenol streptomyces septatus//*//* 174.8 * +EC3.1.4.4 phosphatidylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.93 * +EC3.1.4.41 sphingomyelin loxosceles intermedia//*//* 0.118 * +EC3.1.4.41 sphingomyelin loxosceles laeta//*//* 0.0175 * +EC3.1.4.45 4-nitrophenyl alpha-n-acetyl-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.26 * +EC3.1.4.45 dinitrophenyl alpha-n-acetyl-dglucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 8.5 * +EC3.1.4.46 bis(p-nitrophenyl phosphate) klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.78 * +EC3.1.4.46 bis(p-nitrophenyl) phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.0 * +EC3.1.4.46 glycerophosphocholine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC3.1.4.46 glycerophosphocholine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC3.1.4.46 glycerophosphoethanolamine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.1.4.46 glycerophosphoethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.1.4.46 glycerophosphoglycerol escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.1.4.46 glycerophosphoglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.1.4.46 glycerophosphoinositol escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC3.1.4.46 glycerophosphoinositol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC3.1.4.46 glycerophosphoserine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC3.1.4.46 glycerophosphoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC3.1.4.46 p-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.89 * +EC3.1.4.52 5'-phosphoguanylyl(3'->5')guanosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00077 * +EC3.1.4.52 cyclic di-3',5'-guanylate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 6.7 * +EC3.1.4.52 cyclic di-3',5'-guanylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.67 * +EC3.1.4.52 cyclic-di-gmp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.67 * +EC3.1.4.53 3',5'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.1.4.53 3',5'-camp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.00096 * +EC3.1.4.53 3',5'-cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.1.4.53 camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.1.4.53 cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.19 * +EC3.1.4.55 2',3'-camp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.71 * +EC3.1.4.55 2',3'-ccmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC3.1.4.55 2',3'-cgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.23 * +EC3.1.4.55 bis(p-nitrophenyl)phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC3.1.4.55 thymidine 5'-monophosphate p-nitrophenyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC3.1.5.1 dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4000.0 * +EC3.1.5.B1 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.5.B1 datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.4 * +EC3.1.5.B1 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.1.5.B1 dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.2 * +EC3.1.5.B1 dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.1.5.B1 dgtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.9 * +EC3.1.5.B1 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.5.B1 dttp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.1 * +EC3.1.6.1 4-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.023 * +EC3.1.6.1 4-nitrophenyl sulfate helix pomatia//*//* 90.83 * +EC3.1.6.1 4-nitrophenyl sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 14.2 * +EC3.1.6.1 p-nitrophenyl sulfate pseudoalteromonas carrageenovora//*//* 1000.0 * +EC3.1.6.12 nitrocatechol sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 143.0 * +EC3.1.6.2 dehydroepiandrosterone sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.48 * +EC3.1.6.8 4-methylumbelliferyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.817 * +EC3.1.6.8 4-nitrocatechol sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.8 * +EC3.1.6.8 cerebroside sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.45 * +EC3.1.7.11 geranyl diphosphate ocimum basilicum//*//* 0.8 * +EC3.1.7.2 ppgpp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.0 * +EC3.1.7.8 tuberculosinyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.000517 * +EC3.1.8.1 1,2,2-trimethylpropylmethylphosphonofluoridate brevundimonas diminuta//*//* 5.0 * +EC3.1.8.1 2,4-dinitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9160.0 * +EC3.1.8.1 2,6-difluorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 950.0 * +EC3.1.8.1 2-fluoro 4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.1.8.1 2-fluoro-4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11080.0 * +EC3.1.8.1 3,5-dinitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1477.0 * +EC3.1.8.1 3-cyanophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1610.0 * +EC3.1.8.1 3-fluoro 4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.9 * +EC3.1.8.1 3-fluoro-4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11680.0 * +EC3.1.8.1 3-fluorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 656.0 * +EC3.1.8.1 3-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 840.0 * +EC3.1.8.1 4-acetoxy acetophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.1.8.1 4-acetylphenyl (2r)-3,3-dimethylbutan-2-yl (r)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.1.8.1 4-acetylphenyl (2r)-3,3-dimethylbutan-2-yl (s)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.1.8.1 4-acetylphenyl (2s)-3,3-dimethylbutan-2-yl (s)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.1.8.1 4-acetylphenyl 2-methylpropyl (r)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 93.0 * +EC3.1.8.1 4-acetylphenyl 2-methylpropyl (s)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.1.8.1 4-acetylphenyl ethyl (r)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 150.0 * +EC3.1.8.1 4-acetylphenyl ethyl (s)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 670.0 * +EC3.1.8.1 4-acetylphenyl propan-2-yl (r)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 100.0 * +EC3.1.8.1 4-acetylphenyl propan-2-yl (s)-methylphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.1.8.1 4-chlorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 848.0 * +EC3.1.8.1 4-cyanophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7495.0 * +EC3.1.8.1 4-diethyl phosphate acetophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8080.0 * +EC3.1.8.1 4-diethyl phosphate benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12620.0 * +EC3.1.8.1 4-diethyl phosphate methyl benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5485.0 * +EC3.1.8.1 4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10520.0 * +EC3.1.8.1 4-nitrophenyl phosphate brevundimonas diminuta//*//* 2500.0 * +EC3.1.8.1 5-(thiobutyryl)butyrolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 166.0 * +EC3.1.8.1 benzyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.8.1 chlorpyrifos escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30900.0 * +EC3.1.8.1 cmp-coumarin sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.28 * +EC3.1.8.1 coumaphos purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 949.0 * +EC3.1.8.1 demeton-s methyl flavobacterium sp.//*//* 13.16 * +EC3.1.8.1 demeton-s brevundimonas diminuta//*//* 3.5 * +EC3.1.8.1 demeton-s geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0006 * +EC3.1.8.1 demeton-s purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 650.0 * +EC3.1.8.1 diethyl 4-chlorophenyl phosphate brevundimonas diminuta//*//* 0.36 * +EC3.1.8.1 diethyl 4-chlorophenyl thiophosphate brevundimonas diminuta//*//* 2.4 * +EC3.1.8.1 diethyl paraoxon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC3.1.8.1 diethyl paraoxon oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 16.2 * +EC3.1.8.1 dihydrocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 698.0 * +EC3.1.8.1 diisopropylfluorophosphate brevundimonas diminuta//*//* 41.0 * +EC3.1.8.1 ethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.1.8.1 ethyl paraoxon geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.115 * +EC3.1.8.1 ethyl-paraoxon vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.00108 * +EC3.1.8.1 isopropylmethylphosphonofluoridate brevundimonas diminuta//*//* 56.0 * +EC3.1.8.1 malathion flavobacterium sp.//*//* 2.55 * +EC3.1.8.1 malathion purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 160.0 * +EC3.1.8.1 malathion sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 6.2 * +EC3.1.8.1 malathion sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00089 * +EC3.1.8.1 methyl paraoxon geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.00783 * +EC3.1.8.1 methyl paraoxon sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 14.05 * +EC3.1.8.1 methyl paraoxon sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 7.4 * +EC3.1.8.1 methyl paraoxon sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 342.0 * +EC3.1.8.1 methyl paraoxon vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 1.25 * +EC3.1.8.1 methyl parathion purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 1152.0 * +EC3.1.8.1 methyl parathion sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 9.7 * +EC3.1.8.1 methyl parathion sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0011 * +EC3.1.8.1 methylparathion escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2300.0 * +EC3.1.8.1 o-isobutyl-s-[2-(diethylamino)ethyl]methylphosphonothioic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.8.1 paraoxon brevundimonas diminuta//*//* 10500.0 * +EC3.1.8.1 paraoxon escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11700.0 * +EC3.1.8.1 paraoxon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.98 * +EC3.1.8.1 paraoxon mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0008 * +EC3.1.8.1 paraoxon oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC3.1.8.1 paraoxon purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 1336.0 * +EC3.1.8.1 paraoxon sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 8.52 * +EC3.1.8.1 paraoxon sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 14.31 * +EC3.1.8.1 paraoxon sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 597.0 * +EC3.1.8.1 parathion brevundimonas diminuta//*//* 720.0 * +EC3.1.8.1 parathion purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 1098.0 * +EC3.1.8.1 parathion sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.12 * +EC3.1.8.1 pentafluorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 678.0 * +EC3.1.8.1 phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1236.0 * +EC3.1.8.1 phosmet purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 771.0 * +EC3.1.8.1 rp-o-ethyl methylphosphonyl-3-cyano-7-hydroxy-4-methylcoumarin synthetic construct//*//* 11.72 * +EC3.1.8.1 rp-o-n-propyl methylphosphonyl-3-cyano-7-hydroxy-4-methylcoumarin synthetic construct//*//* 4.95 * +EC3.1.8.1 sarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 90.0 * +EC3.1.8.1 soman homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.1.8.1 sp-o-ethyl methylphosphonyl-3-cyano-7-hydroxy-4-methylcoumarin synthetic construct//*//* 0.15 * +EC3.1.8.1 sp-o-n-propyl methylphosphonyl-3-cyano-7-hydroxy-4-methylcoumarin synthetic construct//*//* 1.83 * +EC3.1.8.2 coumaphos brevundimonas diminuta//*//* 610.0 * +EC3.1.8.2 diazinon brevundimonas diminuta//*//* 176.0 * +EC3.1.8.2 diisopropyl fluorophosphate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 583.0 * +EC3.1.8.2 diisopropyl fluorophosphate brevundimonas diminuta//*//* 465.0 * +EC3.1.8.2 diisopropyl fluorophosphate loligo vulgaris//*//* 2111.0 * +EC3.1.8.2 diisopropyl fluorophosphate pseudoalteromonas undina//*//* 917.0 * +EC3.1.8.2 fensulfothion brevundimonas diminuta//*//* 67.0 * +EC3.1.8.2 methyl parathion brevundimonas diminuta//*//* 189.0 * +EC3.1.8.2 o-cyclohexyl methylphosphonofluoridate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 652.0 * +EC3.1.8.2 o-ethyl s-(2-diisopropylamino)ethyl methylphosphonothioate brevundimonas diminuta//*//* 0.3 * +EC3.1.8.2 o-isopropylmethylphosphonofluoridate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 442.0 * +EC3.1.8.2 o-isopropylmethylphosphonofluoridate brevundimonas diminuta//*//* 56.0 * +EC3.1.8.2 o-pinacolyl methylphosphonofluoridate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 151.0 * +EC3.1.8.2 o-pinacolyl methylphosphonofluoridate brevundimonas diminuta//*//* 5.0 * +EC3.1.8.2 paraoxon alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 6.11 * +EC3.1.8.2 paraoxon brevundimonas diminuta//*//* 3170.0 * +EC3.1.8.2 parathion brevundimonas diminuta//*//* 630.0 * +EC3.11.1.1 2-phosphonoacetaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 16.7 * +EC3.11.1.1 phosphonoacetaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 15.0 * +EC3.11.1.2 phosphonoacetate penicillium oxalicum//*//* 1.7 * +EC3.11.1.2 phosphonoacetate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.0 * +EC3.11.1.2 phosphonoacetate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.1 * +EC3.11.1.3 3-phosphonopyruvate variovorax sp.//prokaryotes;bacteria;betaproteobacteria;variovorax//vaa 105.0 * +EC3.13.1.1 udp-glucose arabidopsis sp.//*//* 0.1 * +EC3.13.1.1 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00167 * +EC3.13.1.4 3-sulfinopropanoyl-coa advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 3.13 * +EC3.13.1.4 3-sulfinopropionyl-coa advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 3.13 * +EC3.13.1.4 3-sulfinopropionyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.4 * +EC3.13.1.4 3-sulfinopropionyl-coa paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.1 * +EC3.13.1.4 3-sulfinopropionyl-coa variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 2.5 * +EC3.2.1.1 2-chloro-4-nitrophenyl alpha-d-maltoheptaoside hordeum vulgare//*//* 132.0 * +EC3.2.1.1 2-chloro-4-nitrophenyl alpha-d-maltotrioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.98 * +EC3.2.1.1 2-chloro-4-nitrophenyl alpha-maltotrioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.8 * +EC3.2.1.1 2-chloro-4-nitrophenyl beta-d-glucopyranosyl-(1-4)-beta-d-glucopyranosyl-(1-4)-beta-d-glucopyranosyl-(1-4)-beta-d-glucopyranosyl-(1-4)-beta-d-glucopyranosyl-(1-4)-beta-d-glucopyranosyl-(1-4)-beta-d-glucopyranoside hordeum vulgare//*//* 3.0 * +EC3.2.1.1 2-chloro-4-nitrophenyl beta-d-maltoheptaoside hordeum vulgare//*//* 119.0 * +EC3.2.1.1 4,6-ethylidene-[g7]-p-nitrophenyl-[g1]-alpha-d-maltoheptaoside bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 205.0 * +EC3.2.1.1 4,6-ethylidene-[g7]-p-nitrophenyl-[g1]-alpha-d-maltoheptaoside hordeum vulgare//*//* 120.0 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 364.0 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 697.0 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 291.0 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 153.0 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltohexaoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 34.0 * +EC3.2.1.1 4-nitrophenyl-alpha-d-maltoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0497 * +EC3.2.1.1 acarbose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 228.0 * +EC3.2.1.1 alpha-cyclodextrin candida antarctica//*//* 10.7 * +EC3.2.1.1 alpha-cyclodextrin pichia burtonii//*//* 0.399 * +EC3.2.1.1 alpha-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 241.0 * +EC3.2.1.1 alpha-maltosyl fluoride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 443.0 * +EC3.2.1.1 alpha-maltotriosyl fluoride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 285.0 * +EC3.2.1.1 amylopectin candida antarctica//*//* 171.0 * +EC3.2.1.1 amylopectin pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 4180.0 * +EC3.2.1.1 amylopectin uncultured organism//*//* 0.15 * +EC3.2.1.1 amylose dp17 hordeum vulgare//*//* 225.0 * +EC3.2.1.1 amylose dp440 hordeum vulgare//*//* 209.0 * +EC3.2.1.1 amylose candida antarctica//*//* 230.0 * +EC3.2.1.1 amylose hordeum vulgare//*//* 206.0 * +EC3.2.1.1 amylose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2280.0 * +EC3.2.1.1 amylose vigna angularis//eukaryotes;plants;eudicots;pea family//var 71.8 * +EC3.2.1.1 beta-cyclodextrin candida antarctica//*//* 29.4 * +EC3.2.1.1 beta-cyclodextrin fusicoccum sp.//*//* 485.0 * +EC3.2.1.1 beta-cyclodextrin pichia burtonii//*//* 31.1 * +EC3.2.1.1 beta-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 196.0 * +EC3.2.1.1 dextrin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 1940.0 * +EC3.2.1.1 gamma-cyclodextrin candida antarctica//*//* 186.0 * +EC3.2.1.1 gamma-cyclodextrin pichia burtonii//*//* 64.6 * +EC3.2.1.1 gamma-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 173.0 * +EC3.2.1.1 glycogen candida antarctica//*//* 166.0 * +EC3.2.1.1 glycogen pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2300.0 * +EC3.2.1.1 maltodextrin hordeum vulgare//*//* 129.0 * +EC3.2.1.1 maltoheptaose candida antarctica//*//* 105.0 * +EC3.2.1.1 maltoheptaose hordeum vulgare//*//* 5.6 * +EC3.2.1.1 maltoheptaose struthio camelus//*//* 679.0 * +EC3.2.1.1 maltoheptaose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 25.0 * +EC3.2.1.1 maltohexaose pichia burtonii//*//* 44.2 * +EC3.2.1.1 maltohexaose struthio camelus//*//* 580.0 * +EC3.2.1.1 maltopentaose candida antarctica//*//* 94.7 * +EC3.2.1.1 maltopentaose pichia burtonii//*//* 37.2 * +EC3.2.1.1 maltopentaose struthio camelus//*//* 754.0 * +EC3.2.1.1 maltopentaose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 283.0 * +EC3.2.1.1 maltose pichia burtonii//*//* 0.0258 * +EC3.2.1.1 maltose struthio camelus//*//* 0.23 * +EC3.2.1.1 maltosyl fluoride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 150.0 * +EC3.2.1.1 maltotetraose pichia burtonii//*//* 5.87 * +EC3.2.1.1 maltotetraose struthio camelus//*//* 117.0 * +EC3.2.1.1 maltotriose candida antarctica//*//* 1.6 * +EC3.2.1.1 maltotriose pichia burtonii//*//* 0.24 * +EC3.2.1.1 maltotriose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 268.0 * +EC3.2.1.1 maltotriose struthio camelus//*//* 0.81 * +EC3.2.1.1 maltotriose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 809.0 * +EC3.2.1.1 oyster glycogen anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 750.0 * +EC3.2.1.1 p-nitrophenylhexa[alpha-d-glucopyranosyl(1-4)]-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 175.0 * +EC3.2.1.1 p-nitrophenylhexa[alpha-d-glucopyranosyl(1-4)]-alpha-d-glucopyranoside vigna angularis//eukaryotes;plants;eudicots;pea family//var 85.3 * +EC3.2.1.1 pullulan pichia burtonii//*//* 0.085 * +EC3.2.1.1 pullulan thermoactinomyces vulgaris//*//* 140.0 * +EC3.2.1.1 rabbit glycogen anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 1920.0 * +EC3.2.1.1 soluble potato starch anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 3420.0 * +EC3.2.1.1 soluble starch fusicoccum sp.//*//* 561.7 * +EC3.2.1.1 soluble starch geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 98.3 * +EC3.2.1.1 soluble starch thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.02 * +EC3.2.1.1 starch bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 25.7 * +EC3.2.1.1 starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 168.5 * +EC3.2.1.1 starch candida antarctica//*//* 237.0 * +EC3.2.1.1 starch drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 280.0 * +EC3.2.1.1 starch euplotes focardii//*//* 1466.0 * +EC3.2.1.1 starch moneuplotes crassus//*//* 880.0 * +EC3.2.1.1 starch pichia burtonii//*//* 91.4 * +EC3.2.1.1 starch pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 179.0 * +EC3.2.1.1 starch pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 67.0 * +EC3.2.1.1 starch pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 4680.0 * +EC3.2.1.1 starch streptomyces megasporus//*//* 3000.0 * +EC3.2.1.1 starch sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 518.0 * +EC3.2.1.1 starch thermoactinomyces vulgaris//*//* 120.0 * +EC3.2.1.1 starch thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 1457.0 * +EC3.2.1.1 starch uncultured organism//*//* 0.156 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside arthrobacter globiformis//*//* 697.0 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 483.0 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 129.0 * +EC3.2.1.10 isomaltose arthrobacter globiformis//*//* 41.0 * +EC3.2.1.10 isomaltose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 36.3 * +EC3.2.1.10 isomaltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 97.0 * +EC3.2.1.10 isomaltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 103.0 * +EC3.2.1.10 isomaltotriose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 12.5 * +EC3.2.1.10 isomaltriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.0 * +EC3.2.1.10 maltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 137.0 * +EC3.2.1.10 methyl alpha-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 88.0 * +EC3.2.1.10 palatinose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 13.0 * +EC3.2.1.10 palatinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 104.0 * +EC3.2.1.10 panose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 30.0 * +EC3.2.1.10 sucrose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 55.0 * +EC3.2.1.10 trehalose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 7.3 * +EC3.2.1.10 trehalulose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 38.7 * +EC3.2.1.101 alpha-1,6-d-mannan bacillus circulans//*//* 7.33 * +EC3.2.1.102 2,4-dinitrophenyl 2-acetamido-2-deoxy-d-galactopyranosyl-(1,3)-[alpha-l-fucopyranosyl-(1,2)]-beta-d-galactopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.75 * +EC3.2.1.102 blood group a glycoconjugate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 4.67 * +EC3.2.1.102 blood group b glycoconjugate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 11.17 * +EC3.2.1.106 glc3man9glcnac2-pyridylamine aspergillus brasiliensis//*//* 1450.0 * +EC3.2.1.106 glcalpha(1->2)glcalpha(1->3)glcalpha(1->3)manalpha(1->2)manalpha(1->2)manalpha(1->3)manbeta(1->4)glcnacbeta(1->4)glcnacbeta-pyridylamine aspergillus brasiliensis//*//* 1100.0 * +EC3.2.1.108 daidzein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.1 * +EC3.2.1.108 genistein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.5 * +EC3.2.1.108 lactose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 33.8 * +EC3.2.1.108 phlorizin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.5 * +EC3.2.1.108 quercetin-3-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.3 * +EC3.2.1.108 quercetin-4'-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 7.5 * +EC3.2.1.11 dextran 742cb thermoanaerobacter pseudethanolicus//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tpd 3.7 * +EC3.2.1.11 dextran t2000 paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 44.3 * +EC3.2.1.11 dextran t2000 thermoanaerobacter pseudethanolicus//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tpd 10.2 * +EC3.2.1.11 dextran t500 thermoanaerobacter pseudethanolicus//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tpd 8.1 * +EC3.2.1.11 dextran chaetomium erraticum//*//* 4564.0 * +EC3.2.1.11 dextran talaromyces aculeatus//*//* 2230.0 * +EC3.2.1.11 isomaltoheptaose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 7.93 * +EC3.2.1.11 isomaltohexaose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 7.53 * +EC3.2.1.11 isomaltopentaose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 4.36 * +EC3.2.1.113 manalpha(1,2)man-o-me aspergillus phoenicis//*//* 8.51 * +EC3.2.1.113 manalpha(1-2)manalpha(1-3)manalpha(1-6)manalpha(1-2)manalpha(1-2)manalpha(1-3)manbeta(1-4)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.2.1.113 manalpha(1-2)manalpha(1-6)(manalpha(1-2)manalpha(1-3))manalpha(1-6)manalpha(1-2)manalpha(1-2)manalpha(1-3)manbeta(1-4)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.2.1.114 2,4-dinitrophenyl alpha-d-mannoside drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 8.6 * +EC3.2.1.114 3-o-alpha-d-mannopyranosyl-alpha-d-mannopyranose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.67 * +EC3.2.1.114 3-o-alpha-d-mannopyranosyl-alpha-d-mannopyranose streptococcus pyogenes m1 gas//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 6.4 * +EC3.2.1.114 4-methylumbelliferyl alpha-d-mannopyranoside streptococcus pyogenes m1 gas//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.03 * +EC3.2.1.114 4-nitrophenyl alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.2.1.114 5-fluoro-beta-l-gulosyl fluoride drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0051 * +EC3.2.1.122 3,4-dinitrophenyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.81 * +EC3.2.1.122 4-nitrophenyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.85 * +EC3.2.1.122 maltose 6'-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.3 * +EC3.2.1.122 maltose 6'-phosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 128.0 * +EC3.2.1.122 methyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.1 * +EC3.2.1.122 phenyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.9 * +EC3.2.1.123 4-methylumbelliferyl beta-d-glucoside cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 8.8 * +EC3.2.1.123 4-nitrophenyl-beta-d-glucoside cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 13.8 * +EC3.2.1.123 c6-7-nitro-2,1,3-benzoxadiazole-glucosylceramide cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.53 * +EC3.2.1.123 d-erythro-dihydrosphingosine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.12 * +EC3.2.1.123 d-erythro-sphingosine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.07 * +EC3.2.1.123 galbeta1-6galbeta1-6galbeta1-1'ceramide rhodococcus hoagii//*//* 13.3 * +EC3.2.1.123 ganglioside gb3cer rhodococcus hoagii//*//* 85.0 * +EC3.2.1.123 ganglioside gm1a rhodococcus hoagii//*//* 120.0 * +EC3.2.1.123 resorufin cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 21.9 * +EC3.2.1.126 coniferin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 106.0 * +EC3.2.1.126 o-nitrophenyl beta-d-glucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 155.0 * +EC3.2.1.126 p-nitrophenyl alpha-l-arabinofuranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 118.0 * +EC3.2.1.126 p-nitrophenyl beta-d-fucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 22.1 * +EC3.2.1.126 p-nitrophenyl beta-d-galactopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 46.6 * +EC3.2.1.126 p-nitrophenyl beta-d-glucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 95.4 * +EC3.2.1.126 p-nitrophenyl beta-d-xylopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 28.9 * +EC3.2.1.126 salicin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 86.7 * +EC3.2.1.129 polysialic acid escherichia virus k1e//*//* 1.4 * +EC3.2.1.129 trifluoromethylumbelliferyl sialotrioside enterobacteria phage k1f//*//* 1.28 * +EC3.2.1.130 4-methylumbelliferyl (alpha-d-glucopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 7.17e-05 * +EC3.2.1.130 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.00115 * +EC3.2.1.130 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 8e-05 * +EC3.2.1.130 alpha-glucopyranosyl-(1->3)-alpha-mannopyranosyl fluoride bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 4.77 * +EC3.2.1.130 alpha-glucopyranosyl-(1->3)-alpha-mannopyranosyl fluoride bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 6.34 * +EC3.2.1.131 4-o-me-glca-alpha-(1->2)-xyl-beta(1->4)-xyl bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 18.4 * +EC3.2.1.131 4-o-methyl-beta-d-glucopyranuetaronosyl-(1->2)-b-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranose pseudothermotoga thermarum//prokaryotes;bacteria;thermotogae;pseudothermotoga//tta 117.0 * +EC3.2.1.131 aldobiouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 69.2 * +EC3.2.1.131 aldopentaouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 132.0 * +EC3.2.1.131 aldotetraouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 103.0 * +EC3.2.1.131 aldotetraouronic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 54.9 * +EC3.2.1.131 aldotriouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 96.0 * +EC3.2.1.131 aldouronic acid paenibacillus curdlanolyticus//*//* 1082.0 * +EC3.2.1.131 beechwood xylan bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 11.6 * +EC3.2.1.131 birchwood xylan bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 11.1 * +EC3.2.1.131 birchwood xylan saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 289.0 * +EC3.2.1.131 xyl-beta-(1->4)-[4-o-me-glca-alpha-(1->2)]-xyl-beta(1->4)-xyl bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 53.9 * +EC3.2.1.132 30% n-acetylated chitosan streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 71.4 * +EC3.2.1.132 4-methylumbelliferyl beta-chitotrioside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 8.1e-05 * +EC3.2.1.132 chitohexaose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 107.0 * +EC3.2.1.132 chitosan microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 205.0 * +EC3.2.1.132 chitosan paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 126.5 * +EC3.2.1.132 chitosan streptomyces sp. n174//*//* 12.4 * +EC3.2.1.132 chitosan streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 11.2 * +EC3.2.1.132 chitosan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.2 * +EC3.2.1.133 acarbose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 67.8 * +EC3.2.1.133 alpha-cyclodextrin geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 500.0 * +EC3.2.1.133 alpha-cyclodextrin geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 2.78 * +EC3.2.1.133 alpha-cyclodextrin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 1.45 * +EC3.2.1.133 amylopectin geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 15.38 * +EC3.2.1.133 amylopectin geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.17 * +EC3.2.1.133 amylopectin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 0.8 * +EC3.2.1.133 amylopectin thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 4.01 * +EC3.2.1.133 amylose geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 62.82 * +EC3.2.1.133 amylose geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.21 * +EC3.2.1.133 amylose staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 0.59 * +EC3.2.1.133 amylose thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 4.21 * +EC3.2.1.133 beta-cyclodextrin bacillus lehensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ble 12.5 * +EC3.2.1.133 beta-cyclodextrin geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 280.8 * +EC3.2.1.133 beta-cyclodextrin geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 1.33 * +EC3.2.1.133 beta-cyclodextrin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 5.36 * +EC3.2.1.133 beta-cyclodextrin thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 200.0 * +EC3.2.1.133 gamma-cyclodextrin geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 225.6 * +EC3.2.1.133 gamma-cyclodextrin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 29.1 * +EC3.2.1.133 maltoheptaose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 384.1 * +EC3.2.1.133 maltohexaose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 160.3 * +EC3.2.1.133 maltopentaose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.0017 * +EC3.2.1.133 maltopentaose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.85 * +EC3.2.1.133 maltopentaose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 197.0 * +EC3.2.1.133 maltose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.29 * +EC3.2.1.133 maltotetraose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.0033 * +EC3.2.1.133 maltotetraose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.95 * +EC3.2.1.133 maltotetraose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 574.1 * +EC3.2.1.133 maltotriose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 6.35 * +EC3.2.1.133 maltotriose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 11.45 * +EC3.2.1.133 maltotriose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 652.5 * +EC3.2.1.133 soluble starch bacillus lehensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ble 9.9 * +EC3.2.1.133 soluble starch geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.2 * +EC3.2.1.133 starch thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 457.0 * +EC3.2.1.135 pullulan geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 62000.0 * +EC3.2.1.135 pullulan thermoanaerobacter ethanolicus//*//* 1010.0 * +EC3.2.1.135 soluble starch geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 111000.0 * +EC3.2.1.135 starch thermoanaerobacter ethanolicus//*//* 313.3 * +EC3.2.1.139 4-nitrophenyl-2-o-(4-o-methyl-alpha-d-glucuronosyl)-beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 143.0 * +EC3.2.1.139 4-o-methyl-beta-d-glucopyranuetaronosyl-(1->2)-b-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranose paenibacillus curdlanolyticus//*//* 1082.0 * +EC3.2.1.139 aldobiouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 69.2 * +EC3.2.1.139 aldopentaouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 131.9 * +EC3.2.1.139 aldotetraouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 102.5 * +EC3.2.1.139 aldotetraouronic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 54.9 * +EC3.2.1.139 aldotriouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 96.0 * +EC3.2.1.139 beechwood xylan bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 13.95 * +EC3.2.1.139 birchwood xylan bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 14.37 * +EC3.2.1.139 birchwood xylan saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 289.0 * +EC3.2.1.139 p-nitrophenyl alpha-d-glucuronopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.28 * +EC3.2.1.139 p-nitrophenyl-alpha-d-glucuronopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0018 * +EC3.2.1.14 4-methyl-2-oxo-2h-chromen-7-yl 2-(acetylamino)-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-2-deoxy-beta-d-glucopyranoside bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.9 * +EC3.2.1.14 4-methylumbelliferyl beta-n,n',n''-triacetylchitotrioside ficus pumila var. awkeotsang//*//* 0.089 * +EC3.2.1.14 4-methylumbelliferyl beta-n,n',n''-triacetylchitotrioside manduca sexta//*//* 0.76 * +EC3.2.1.14 4-methylumbelliferyl chitobiose annona cherimola//*//* 2.87 * +EC3.2.1.14 4-methylumbelliferyl chitobioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.2.1.14 4-methylumbelliferyl chitobioside macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 31.8 * +EC3.2.1.14 4-methylumbelliferyl chitotriose annona cherimola//*//* 6.93 * +EC3.2.1.14 4-methylumbelliferyl glcnacbeta(1-4)glcnacbeta(1-4)glcnac aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.0007 * +EC3.2.1.14 4-methylumbelliferyl-(4-deoxy)chitobiose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.713 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n,n',n''-triacetylchitotrioside serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 67.4 * +EC3.2.1.14 4-methylumbelliferyl-glcnacbeta(1->4)glcnac aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.006 * +EC3.2.1.14 4-methylumbelliferyl-n,n',n''-triacetylchitotriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC3.2.1.14 4-methylumbelliferyl-n,n',n''-triacetylchitotriose vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 110.6 * +EC3.2.1.14 4-methylumbelliferyl-n,n'-diacetylchitobiose chromobacterium sp.//prokaryotes;bacteria;betaproteobacteria;chromobacterium//chro 18.0 * +EC3.2.1.14 4-methylumbelliferyl-n,n'-diacetylchitobiose vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 13.94 * +EC3.2.1.14 4-methylumbelliferyl-tri-n-acetylchitotriose bacillus circulans//*//* 22.4 * +EC3.2.1.14 4-nitrophenyl 2-(acetylamino)-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-2-deoxy-beta-d-glucopyranoside trichoderma harzianum//*//* 0.35 * +EC3.2.1.14 4-nitrophenyl chitobioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.7 * +EC3.2.1.14 4-nitrophenyl n,n'-diacetyl-beta-d-chitobioside paenibacillus thermoaerophilus//*//* 9.6 * +EC3.2.1.14 4-nitrophenyl n,n'-diacetylchitobiose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.99 * +EC3.2.1.14 4-nitrophenyl-beta-1,4-n,n'-diacetyl-chitobiose moritella marina//*//* 19.54 * +EC3.2.1.14 4-nitrophenyl-chitobiose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.43 * +EC3.2.1.14 beta-chitin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 13.9 * +EC3.2.1.14 carboxymethyl chitin bacillus circulans//*//* 25.2 * +EC3.2.1.14 cellulose thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.003 * +EC3.2.1.14 chitin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 83.46 * +EC3.2.1.14 chitin thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.005 * +EC3.2.1.14 chitin vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 1.2 * +EC3.2.1.14 chitohexaose coccidioides immitis//eukaryotes;fungi;ascomycetes;eurotiomycetes//cim 0.5 * +EC3.2.1.14 chitohexaose nepenthes alata//*//* 0.68 * +EC3.2.1.14 chitohexaose vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 2.9 * +EC3.2.1.14 chitopentaose hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.77 * +EC3.2.1.14 chitosan thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.0025 * +EC3.2.1.14 cm-chitin-rbv annona cherimola//*//* 366.7 * +EC3.2.1.14 colloidal chitin penicillium ochrochloron//*//* 2.37 * +EC3.2.1.14 colloidal chitin scorpaena scrofa//*//* 5.33 * +EC3.2.1.14 colloidal chitin vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.1 * +EC3.2.1.14 ethlene glycol chitin nepenthes alata//*//* 0.1 * +EC3.2.1.14 glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnac vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.21 * +EC3.2.1.14 glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnac vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.19 * +EC3.2.1.14 glycol chitin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.075 * +EC3.2.1.14 glycol chitin bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.084 * +EC3.2.1.14 glycol chitin dioscorea polystachya//*//* 0.2 * +EC3.2.1.14 glycol chitin pennahia argentata//*//* 2.33 * +EC3.2.1.14 glycolchitin hexagrammos otakii//*//* 3.15 * +EC3.2.1.14 glycolchitin scomber japonicus//*//* 2.21 * +EC3.2.1.14 methylumbelliferyl-beta-n',n',n'-triacetyl-chitotrioside tenebrio molitor//*//* 1500.0 * +EC3.2.1.14 methylumbelliferyl-beta-n',n'-diacetyl-chitobioside tenebrio molitor//*//* 350.0 * +EC3.2.1.14 methylumbelliferyl-beta-n'-acetylglucosamine tenebrio molitor//*//* 300.0 * +EC3.2.1.14 p-nitrophenol-beta-d-cellobioside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.04 * +EC3.2.1.14 p-nitrophenol-beta-d-galactopyranoside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.017 * +EC3.2.1.14 p-nitrophenol-beta-d-glucopyranoside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.095 * +EC3.2.1.14 p-nitrophenol-beta-d-lactopyranoside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.025 * +EC3.2.1.14 p-nitrophenol-beta-d-maltoside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.07 * +EC3.2.1.14 p-nitrophenol-beta-d-mannopyranoside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.032 * +EC3.2.1.14 p-nitrophenol-beta-d-n,n'-diacetylchitobioside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.383 * +EC3.2.1.14 p-nitrophenyl-n,n'-diacetylchitobiose vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 2.15 * +EC3.2.1.14 reduced chitopentaose bacillus circulans//*//* 45.1 * +EC3.2.1.14 reduced n-acetylchitopentaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.32 * +EC3.2.1.140 4-nitrophenyl-galnac-beta-(1->3)-glcnac bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 39.4 * +EC3.2.1.140 4-nitrophenyl-lacto-n-bioside bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 96.1 * +EC3.2.1.140 lacto-n-fucopentaose i bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 13.5 * +EC3.2.1.140 lacto-n-tetraose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 282.0 * +EC3.2.1.140 p-nitrophenyl-gal-(1,3)-beta-glcnac bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 89.0 * +EC3.2.1.140 p-nitrophenyl-lacto-n-bioside bifidobacterium bifidum jcm 1254//*//* 89.0 * +EC3.2.1.141 maltoheptaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.01 * +EC3.2.1.141 maltohexaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 18.2 * +EC3.2.1.141 maltooligosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 947.0 * +EC3.2.1.141 maltopentaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.7 * +EC3.2.1.141 maltopentaosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1230.0 * +EC3.2.1.141 maltopentaosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1226.0 * +EC3.2.1.141 maltosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 193.0 * +EC3.2.1.141 maltotetraose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.49 * +EC3.2.1.141 maltotetraosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1190.0 * +EC3.2.1.141 maltotetraosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1192.0 * +EC3.2.1.141 maltotriosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1030.0 * +EC3.2.1.141 maltotriosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1030.0 * +EC3.2.1.142 amylopectin hordeum vulgare//*//* 15.6 * +EC3.2.1.142 pullulan hordeum vulgare//*//* 78.0 * +EC3.2.1.143 poly(adp-ribose) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 90.0 * +EC3.2.1.145 beta-(1-3)-d-galactotriose raphanus sativus//*//* 32.5 * +EC3.2.1.145 beta-(1-3)-galactobiose raphanus sativus//*//* 28.6 * +EC3.2.1.145 p-nitrophenyl-beta-galactoside raphanus sativus//*//* 123.0 * +EC3.2.1.146 1-o-methyl-beta-d-galactofuranoside penicillium fellutanum//*//* 29.0 * +EC3.2.1.146 peptidophosphogalactomannan pp2gm penicillium fellutanum//*//* 14.0 * +EC3.2.1.147 3-deoxyglucotropaeolin lepidium sativum//*//* 1.6 * +EC3.2.1.147 4-deoxyglucotropaeolin lepidium sativum//*//* 3.1 * +EC3.2.1.147 4-nitrophenyl beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.0 * +EC3.2.1.147 4-nitrophenyl beta-d-glucopyranoside armoracia rusticana//*//* 4.21 * +EC3.2.1.147 6-deoxyglucotropaeolin lepidium sativum//*//* 9.4 * +EC3.2.1.147 gluconasturtiin armoracia rusticana//*//* 8.91 * +EC3.2.1.147 glucotropaeolin brevicoryne brassicae//*//* 22.8 * +EC3.2.1.147 glucotropaeolin lepidium sativum//*//* 65.6 * +EC3.2.1.147 sinigrin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 46.0 * +EC3.2.1.147 sinigrin armoracia rusticana//*//* 10.69 * +EC3.2.1.147 sinigrin brassica napus//eukaryotes;plants;eudicots;mustard family//bna 187.0 * +EC3.2.1.147 sinigrin brevicoryne brassicae//*//* 3.0 * +EC3.2.1.147 sinigrin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 65.3 * +EC3.2.1.147 sinigrin raphanus sativus//*//* 287.0 * +EC3.2.1.149 2-phenylethyl 6-o-beta-d-xylopyranosyl-beta-d-glucopyranoside camellia sinensis//*//* 43.7 * +EC3.2.1.149 2-phenylethyl beta-primeveroside camellia sinensis//*//* 43.8 * +EC3.2.1.149 2-phenylethyl beta-vicianoside camellia sinensis//*//* 43.7 * +EC3.2.1.149 2-phenylethyl-6-o-alpha-d-arabinosyl-beta-d-glucopyranoside camellia sinensis//*//* 5.85 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 21.6 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 24.7 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 81.1 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 106.3 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 122.5 * +EC3.2.1.15 pectin kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 6.08 * +EC3.2.1.15 pectin penicillium oxalicum//*//* 552.3 * +EC3.2.1.15 polygalacturonate aspergillus japonicus//*//* 90.0 * +EC3.2.1.15 polygalacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 70.0 * +EC3.2.1.15 polygalacturonic acid kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.83 * +EC3.2.1.15 polygalacturonic acid penicillium oxalicum//*//* 4068.0 * +EC3.2.1.15 polygalacturonic acid tetracoccosporium sp.//*//* 2.94 * +EC3.2.1.15 polygalacturonic acid trichoderma harzianum//*//* 592.0 * +EC3.2.1.151 2-chloro-4-nitrophenyl glcbeta(1->4)glcbeta(1->4)glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 15.93 * +EC3.2.1.151 2-chloro-4-nitrophenyl glcbeta(1->4)glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 7.34 * +EC3.2.1.151 beta-glucan trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 306.0 * +EC3.2.1.151 carboxyethyl cellulose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.22 * +EC3.2.1.151 carboxymethyl cellulose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.72 * +EC3.2.1.151 carboxymethyl cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 52.0 * +EC3.2.1.151 hydroxyethyl cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 138.0 * +EC3.2.1.151 laminarin trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 193.0 * +EC3.2.1.151 lichenan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.59 * +EC3.2.1.151 phosphoric acid-swollen cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 7.0 * +EC3.2.1.151 tamarind seed xyloglucan paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 49.2 * +EC3.2.1.151 tamarind xyloglucan uncultured bacterium//*//* 1.24 * +EC3.2.1.151 xxxg trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 7.2 * +EC3.2.1.151 xylalpha(1->6)glcbeta(1->4)[galbeta(1->2)xylalpha(1->6)]glcbeta(1->4)[galbeta(1->2)xylalpha(1->6)]glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 6.96 * +EC3.2.1.151 xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 14.01 * +EC3.2.1.151 xyloglucan aspergillus aculeatus//*//* 113.0 * +EC3.2.1.151 xyloglucan aspergillus japonicus//*//* 53.0 * +EC3.2.1.151 xyloglucan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 49.0 * +EC3.2.1.151 xyloglucan paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 77.6 * +EC3.2.1.151 xyloglucan phanerochaete chrysosporium//*//* 31.9 * +EC3.2.1.151 xyloglucan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.78 * +EC3.2.1.151 xyloglucan trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 805.0 * +EC3.2.1.151 xyloglucan tropaeolum majus//*//* 0.08 * +EC3.2.1.155 beta-glucan chrysosporium lucknowense//*//* 30.0 * +EC3.2.1.155 beta-glucan trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 12.0 * +EC3.2.1.155 carboxymethylcellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 46.0 * +EC3.2.1.155 xyloglucan chrysosporium lucknowense//*//* 99.0 * +EC3.2.1.155 xyloglucan paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 77.6 * +EC3.2.1.155 xyloglucan trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 55.0 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 163.0 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 162.0 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 73.0 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 175.0 * +EC3.2.1.156 d-xylose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 5.04 * +EC3.2.1.156 oat spelt xylan pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 166.0 * +EC3.2.1.156 oat spelt xylan uncultured bacterium//*//* 138.0 * +EC3.2.1.156 wheat flour arabinoxylan pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 1455.0 * +EC3.2.1.156 wheat flour arabinoxylan uncultured bacterium//*//* 1099.0 * +EC3.2.1.157 iota-carrageenan alteromonas fortis//*//* 726.6 * +EC3.2.1.161 4-nitrophenyl-beta-d-fucoside dalbergia nigrescens//*//* 7.0 * +EC3.2.1.161 4-nitrophenyl-beta-d-glucopyranoside dalbergia nigrescens//*//* 10.4 * +EC3.2.1.161 daidzin dalbergia nigrescens//*//* 480.0 * +EC3.2.1.161 dalnigrein 7-o-beta-d-apiofuranosyl-(1->6)-beta-d-glucopyranoside dalbergia nigrescens//*//* 229.0 * +EC3.2.1.161 dalpaniculin-7-o-[beta-d-apiofuranosyl-(1-6)-beta-d-glucopyranoside] dalbergia nigrescens//*//* 334.0 * +EC3.2.1.161 dalpatein 7-o-beta-d-apiofuranosyl-(1->6)-beta-d-glucopyranoside dalbergia nigrescens//*//* 20.0 * +EC3.2.1.161 dalpatein-7-o-[beta-d-apiofuranosyl-(1-6)-beta-d-glucopyranoside] dalbergia nigrescens//*//* 465.0 * +EC3.2.1.161 genistin dalbergia nigrescens//*//* 500.0 * +EC3.2.1.161 p-nitrophenyl 6-o-beta-d-xylopyranosyl-beta-d-glucopyranoside viburnum furcatum//*//* 0.098 * +EC3.2.1.163 4-methylumbelliferyl alpha-d-mannopyranosyl-(1->6)-beta-d-mannopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 4.9 * +EC3.2.1.165 4-nitrophenyl beta-d-glucosaminide photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.087 * +EC3.2.1.165 4-nitrophenyl beta-d-glucoside photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.19 * +EC3.2.1.165 cellobiose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 68.8 * +EC3.2.1.165 cellotetraose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 54.2 * +EC3.2.1.165 cellotriose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 47.7 * +EC3.2.1.165 chitobiose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 152.9 * +EC3.2.1.165 chitohexaose amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 27.0 * +EC3.2.1.165 chitosan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 28.3 * +EC3.2.1.165 glcn(beta1-4)glcn(beta1-4)glcn(beta1-4)glcn(beta1-4)glcn photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 97.6 * +EC3.2.1.165 glcn(beta1-4)glcn(beta1-4)glcn(beta1-4)glcn photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 52.0 * +EC3.2.1.165 glcn(beta1-4)glcn(beta1-4)glcn photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 77.4 * +EC3.2.1.166 methyl 2-deoxy-6-o-sulfo-2-(sulfoamino)-alpha-d-glucopyranosyl-(1,4)-beta-d-glucopyranuronosyl-(1,4)-2-deoxy-3,6-di-o-sulfo-2-(sulfoamino)-d-glucopyranosyl-(1,4)-2-o-sulfo-alpha-l-idopyranuronosyl-(1,4)-2-deoxy-6-o-sulfo-2-(sulfoamino)-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.2.1.167 4-nitrophenyl beta-d-glucuronide lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 53.7 * +EC3.2.1.167 5,6,7-trihydroxyflavone 7-o-beta-d-glucoronate scutellaria baicalensis//*//* 639.0 * +EC3.2.1.167 baicalin lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 21.3 * +EC3.2.1.167 wogonoside lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 6.37 * +EC3.2.1.168 hesperidin methylchalcone acremonium sp.//*//* 68.2 * +EC3.2.1.168 hesperidin acremonium sp.//*//* 32.4 * +EC3.2.1.169 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 10.5 * +EC3.2.1.169 4-methylumbelliferyl-n-acetyl-beta-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 10.5 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.2 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 54.9 * +EC3.2.1.169 fluorescein di(n-acetyl-beta-d-glucosaminide) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.2.1.17 p-nitrophenyl-glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.2.1.17 p-nitrophenyl-n,n',n'',n''',n''''-pentaacetylchitopentaose liolophura japonica//*//* 0.076 * +EC3.2.1.172 2-o-(4-deoxy-beta-l-threo-hex-4-enopyranuronosyl)-alpha-l-rhamnopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.9 * +EC3.2.1.173 alpha-d-gala-[(1->2)-alpha-l-rha-(1->4)-alpha-d-gala-]2-(1->2)-alpha-l-rha aspergillus aculeatus//*//* 2.4 * +EC3.2.1.173 alpha-d-gala-[(1->2)-alpha-l-rha-(1->4)-alpha-d-gala-]3-(1->2)-alpha-l-rha aspergillus aculeatus//*//* 1.5 * +EC3.2.1.173 alpha-d-gala-[(1->2)-alpha-l-rha-(1->4)-alpha-d-gala-]5-(1->2)-alpha-l-rha aspergillus aculeatus//*//* 1.8 * +EC3.2.1.176 2-chloro-4-nitrophenyl beta-d-cellobioside geotrichum candidum//*//* 0.11 * +EC3.2.1.176 4-methylumbelliferyl beta-d-lactoside rasamsonia emersonii//*//* 1.35 * +EC3.2.1.176 4-methylumbelliferyl beta-d-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.492 * +EC3.2.1.176 4-nitrophenyl beta-d-cellobioside geotrichum candidum//*//* 0.1 * +EC3.2.1.176 4-nitrophenyl beta-d-lactoside dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.27 * +EC3.2.1.176 4-nitrophenyl beta-d-lactoside dictyostelium purpureum//eukaryotes;protists;amoebozoa;dictyostelium//dpp 0.51 * +EC3.2.1.176 4-nitrophenyl beta-d-lactoside geotrichum candidum//*//* 0.19 * +EC3.2.1.176 amorphous cellulose phanerochaete chrysosporium//*//* 2.0 * +EC3.2.1.176 amorphous cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.8 * +EC3.2.1.176 bacterial cellulose phanerochaete chrysosporium//*//* 2.6 * +EC3.2.1.176 bacterial cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.8 * +EC3.2.1.177 4-nitrophenyl-alpha-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC3.2.1.177 4-nitrophenyl-alpha-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.58 * +EC3.2.1.177 4-nitrophenyl-alpha-d-xyloside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.173 * +EC3.2.1.177 alpha-d-xylopyranosyl fluoride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 195.0 * +EC3.2.1.177 isoprimeverose cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 2.94 * +EC3.2.1.177 isoprimeverose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 51.3 * +EC3.2.1.177 xyl-alpha-(1->6)-glc-beta-(1->4)-glc cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 9.39 * +EC3.2.1.179 beta-d-4-deoxy-delta-4,5-glcap-(1->4)-beta-d-glcp-(1->4)-alpha-l-rhap-(1->3)-beta-d-glcp bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 7.3 * +EC3.2.1.179 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 14.1 * +EC3.2.1.179 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 54.9 * +EC3.2.1.18 (trifluoromethyl)umbelliferyl alpha-sialoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.9 * +EC3.2.1.18 4-methylumbelliferyl alpha-d-n-acetylneuraminic acid aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0743 * +EC3.2.1.18 4-methylumbelliferyl alpha-d-n-acetylneuraminic acid bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 146.7 * +EC3.2.1.18 4-methylumbelliferyl alpha-d-n-acetylneuraminic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.2.1.18 4-methylumbelliferyl d-n-acetylneuraminyl-alpha-(2->3)-d-galactopyranoside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0004 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 45.0 * +EC3.2.1.18 4-nitrophenyl alpha-d-n-acetylneuraminic acid bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 82.4 * +EC3.2.1.18 4-nitrophenyl alpha-d-n-acetylneuraminic acid photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 0.88 * +EC3.2.1.18 4-nitrophenyl alpha-sialoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.57 * +EC3.2.1.18 colominic acid bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 157.6 * +EC3.2.1.18 sialyl-alpha-2,3-lactose bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 313.5 * +EC3.2.1.18 sialyl-alpha-2,6-lactose bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 161.0 * +EC3.2.1.180 2,4,6-trichlorophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.312 * +EC3.2.1.180 2,4-dinitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.14 * +EC3.2.1.180 2,5-dinitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.64 * +EC3.2.1.180 2-(acetylamino)-2-deoxy-3-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-4-o-sulfo-d-galactopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.09 * +EC3.2.1.180 2-(acetylamino)-2-deoxy-3-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-6-o-sulfo-d-galactopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 112.0 * +EC3.2.1.180 2-(acetylamino)-2-deoxy-3-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-d-galactopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 8.5 * +EC3.2.1.180 2-deoxy-4-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-2-(sulfoamino)-d-glucopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 14.0 * +EC3.2.1.180 3-nitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 14.7 * +EC3.2.1.180 4-chlorophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.9 * +EC3.2.1.180 4-nitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 2.05 * +EC3.2.1.180 4-tert-butylphenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.27 * +EC3.2.1.180 benzyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 18.6 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 2.69 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 24.0 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.3 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 4.0 * +EC3.2.1.180 deltaglcua-beta-(1->4)-glcn2s streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 3.8 * +EC3.2.1.180 deltaglcua-beta-(1->4)-glcnac pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 16.0 * +EC3.2.1.180 phenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 4.3 * +EC3.2.1.181 beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranose flammulina velutipes//*//* 5.47 * +EC3.2.1.181 beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranose flammulina velutipes//*//* 6.5 * +EC3.2.1.182 (2r)-4-hydroxy-3-oxo-3,4-dihydro-2h-1,4-benzoxazin-2-yl beta-d-glucopyranoside consolida orientalis//*//* 32.0 * +EC3.2.1.182 (2r)-4-hydroxy-7-methoxy-3-oxo-3,4-dihydro-2h-1,4-benzoxazin-2-yl beta-d-glucopyranoside consolida orientalis//*//* 4.2 * +EC3.2.1.182 2-nitrophenyl beta-d-glucoside secale cereale//*//* 204.2 * +EC3.2.1.182 4-nitrophenyl beta-d-fucoside secale cereale//*//* 86.5 * +EC3.2.1.182 4-nitrophenyl beta-d-galactoside secale cereale//*//* 3.5 * +EC3.2.1.182 4-nitrophenyl beta-d-glucoside secale cereale//*//* 99.2 * +EC3.2.1.182 4-nitrophenyl beta-d-glucoside triticum aestivum//*//* 235.9 * +EC3.2.1.182 dhurrin consolida orientalis//*//* 52.0 * +EC3.2.1.182 diboa beta-d-glucoside secale cereale//*//* 172.0 * +EC3.2.1.182 diboa-glucoside secale cereale//*//* 48.8 * +EC3.2.1.182 diboa-glucoside triticum aestivum//*//* 214.0 * +EC3.2.1.182 dimboa beta-d-glucoside secale cereale//*//* 119.0 * +EC3.2.1.182 dimboa-glucoside secale cereale//*//* 338.0 * +EC3.2.1.182 dimboa-glucoside triticum aestivum//*//* 1201.0 * +EC3.2.1.182 dimboa-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 29.16 * +EC3.2.1.183 udp-n-acetyl-alpha-d-glucosamine neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 4.7 * +EC3.2.1.183 udp-n-acetyl-alpha-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC3.2.1.184 udp-n,n'-diacetylbacillosamine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 59.1 * +EC3.2.1.185 beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 2.0 * +EC3.2.1.185 beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranosyl-l-hydroxyproline bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 6.3 * +EC3.2.1.185 beta-l-arabinofuranosyl-l-hydroxyproline bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.013 * +EC3.2.1.186 4-methylumbelliferyl beta-d-glucoside solanum torvum//*//* 8.3 * +EC3.2.1.186 4-nitrophenyl beta-d-glucoside solanum torvum//*//* 9.1 * +EC3.2.1.186 torvoside a solanum torvum//*//* 8.6 * +EC3.2.1.186 torvoside h solanum torvum//*//* 7.7 * +EC3.2.1.187 4-o-(beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranosyl)-(2s,4s)-4-hydroxyproline bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 2.7 * +EC3.2.1.196 beta-cyclodextrin-alpha-1,6-linked maltotetraose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 41.7 * +EC3.2.1.196 beta-cyclodextrin-alpha-1,6-linked maltotriose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.0 * +EC3.2.1.196 g3-beta-cyclodextrin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.0 * +EC3.2.1.196 g4-beta-cyclodextrin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 41.7 * +EC3.2.1.197 beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-d-mannopyranose dyadobacter fermentans//prokaryotes;bacteria;bacteroidetes;dyadobacter//dfe 26.0 * +EC3.2.1.197 beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-d-mannopyranose dyadobacter fermentans//prokaryotes;bacteria;bacteroidetes;dyadobacter//dfe 30.0 * +EC3.2.1.197 beta-d-mannopyranosyl-(1->2)-d-mannopyranose dyadobacter fermentans//prokaryotes;bacteria;bacteroidetes;dyadobacter//dfe 30.0 * +EC3.2.1.198 4-methylumbelliferyl (alpha-d-glucopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.0007 * +EC3.2.1.198 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0015 * +EC3.2.1.198 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.0008 * +EC3.2.1.198 methyl alpha-d-mannopyranosyl-(1->3)-alpha-d-mannopyranosyl-(1,2)-alpha-d-mannopyranosyl-(1,2)-alpha-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 3.0 * +EC3.2.1.199 4-nitrophenyl alpha-sulfoquinovoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.3 * +EC3.2.1.2 4-nitrophenyl alpha-maltopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 962.0 * +EC3.2.1.2 amylopectin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2739.0 * +EC3.2.1.2 amylopectin curculigo pilosa//*//* 550.0 * +EC3.2.1.2 amylopectin glycine max//eukaryotes;plants;eudicots;pea family//gmx 1280.0 * +EC3.2.1.2 amylose curculigo pilosa//*//* 2400.0 * +EC3.2.1.2 maltopentaose glycine max//eukaryotes;plants;eudicots;pea family//gmx 1280.0 * +EC3.2.1.2 maltopentaose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.85 * +EC3.2.1.2 maltotetraose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.95 * +EC3.2.1.2 maltotriose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 11.45 * +EC3.2.1.2 starch curculigo pilosa//*//* 6540.0 * +EC3.2.1.2 starch glycine max//eukaryotes;plants;eudicots;pea family//gmx 1260.0 * +EC3.2.1.2 starch hordeum vulgare//*//* 305.0 * +EC3.2.1.20 1-o-alpha-d-glucopyranosyl-beta-d-fructofuranoside erwinia rhapontici//*//* 0.27 * +EC3.2.1.20 3-o-alpha-d-glucopyranosyl-d-fructose erwinia rhapontici//*//* 0.38 * +EC3.2.1.20 4-nitrophenyl alpha-d-galactopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 10.48 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside aplysia fasciata//*//* 163.0 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside caldanaerobacter subterraneus subsp. tengcongensis//*//* 6.64 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 22.5 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 69.6 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 16.7 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 33.0 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0175 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 9.12 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranosyl-1,4-alpha-d-glucopyranoside aplysia fasciata//*//* 75.9 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucoside apis cerana indica//*//* 1.89 * +EC3.2.1.20 4-nitrophenyl-alpha-d-glucopyranoside apis cerana japonica//*//* 13.0 * +EC3.2.1.20 4-o-alpha-d-glucopyranosyl-d-fructose erwinia rhapontici//*//* 0.45 * +EC3.2.1.20 4-o-alpha-d-glucopyranosyl-d-glucopyranose erwinia rhapontici//*//* 0.85 * +EC3.2.1.20 4-o-alpha-d-glucopyranosyl-d-sorbitol erwinia rhapontici//*//* 0.2 * +EC3.2.1.20 5-o-alpha-d-glucopyranosyl-d-fructose erwinia rhapontici//*//* 0.37 * +EC3.2.1.20 6-o-alpha-d-glucopyranosyl-d-fructofuranoside erwinia rhapontici//*//* 0.58 * +EC3.2.1.20 amylopectin aspergillus niveus//*//* 25.48 * +EC3.2.1.20 amylopectin panicum miliaceum//*//* 24.2 * +EC3.2.1.20 amylose panicum miliaceum//*//* 26.2 * +EC3.2.1.20 glycogen aspergillus niveus//*//* 24.5 * +EC3.2.1.20 isomaltose apis cerana indica//*//* 5.2 * +EC3.2.1.20 isomaltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 50.5 * +EC3.2.1.20 isomaltose panicum miliaceum//*//* 5.75 * +EC3.2.1.20 isomaltose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 216.0 * +EC3.2.1.20 isomaltose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC3.2.1.20 isomaltose thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 361.0 * +EC3.2.1.20 kojibiose apis cerana japonica//*//* 8.7 * +EC3.2.1.20 kojibiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 32.3 * +EC3.2.1.20 kojibiose panicum miliaceum//*//* 9.44 * +EC3.2.1.20 kojibiose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 433.0 * +EC3.2.1.20 maltodextrin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 127.0 * +EC3.2.1.20 maltoheptaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 146.0 * +EC3.2.1.20 maltoheptaose dysdercus peruvianus//*//* 3.42 * +EC3.2.1.20 maltoheptaose hordeum vulgare//*//* 6.67 * +EC3.2.1.20 maltoheptaose panicum miliaceum//*//* 47.5 * +EC3.2.1.20 maltoheptaose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1020.0 * +EC3.2.1.20 maltoheptaose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 35.2 * +EC3.2.1.20 maltoheptaose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC3.2.1.20 maltoheptaose xanthophyllomyces dendrorhous//*//* 10.0 * +EC3.2.1.20 maltohexaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 170.0 * +EC3.2.1.20 maltohexaose dysdercus peruvianus//*//* 3.97 * +EC3.2.1.20 maltohexaose hordeum vulgare//*//* 6.26 * +EC3.2.1.20 maltohexaose panicum miliaceum//*//* 36.1 * +EC3.2.1.20 maltohexaose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 874.0 * +EC3.2.1.20 maltohexaose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 57.2 * +EC3.2.1.20 maltohexaose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 372.0 * +EC3.2.1.20 maltohexaose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC3.2.1.20 maltooctaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 127.0 * +EC3.2.1.20 maltopentaose apis cerana japonica//*//* 15.0 * +EC3.2.1.20 maltopentaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 147.0 * +EC3.2.1.20 maltopentaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 316.0 * +EC3.2.1.20 maltopentaose dysdercus peruvianus//*//* 1.05 * +EC3.2.1.20 maltopentaose hordeum vulgare//*//* 7.15 * +EC3.2.1.20 maltopentaose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 810.0 * +EC3.2.1.20 maltopentaose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 64.3 * +EC3.2.1.20 maltopentaose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 611.0 * +EC3.2.1.20 maltopentaose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC3.2.1.20 maltose apis cerana japonica//*//* 22.0 * +EC3.2.1.20 maltose aplysia fasciata//*//* 489.0 * +EC3.2.1.20 maltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 144.0 * +EC3.2.1.20 maltose aspergillus niveus//*//* 13.66 * +EC3.2.1.20 maltose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 253.5 * +EC3.2.1.20 maltose dysdercus peruvianus//*//* 18.0 * +EC3.2.1.20 maltose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 126.0 * +EC3.2.1.20 maltose hordeum vulgare//*//* 81.7 * +EC3.2.1.20 maltose panicum miliaceum//*//* 33.5 * +EC3.2.1.20 maltose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 709.0 * +EC3.2.1.20 maltose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 35.9 * +EC3.2.1.20 maltose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1278.0 * +EC3.2.1.20 maltose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.11 * +EC3.2.1.20 maltose thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 22.0 * +EC3.2.1.20 maltose xanthophyllomyces dendrorhous//*//* 15.3 * +EC3.2.1.20 maltotetraose apis cerana indica//*//* 2.84 * +EC3.2.1.20 maltotetraose apis cerana japonica//*//* 15.0 * +EC3.2.1.20 maltotetraose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 193.0 * +EC3.2.1.20 maltotetraose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 330.1 * +EC3.2.1.20 maltotetraose dysdercus peruvianus//*//* 5.22 * +EC3.2.1.20 maltotetraose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 2.8 * +EC3.2.1.20 maltotetraose hordeum vulgare//*//* 6.98 * +EC3.2.1.20 maltotetraose panicum miliaceum//*//* 40.7 * +EC3.2.1.20 maltotetraose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 111.0 * +EC3.2.1.20 maltotetraose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 74.6 * +EC3.2.1.20 maltotetraose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 527.0 * +EC3.2.1.20 maltotetraose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.03 * +EC3.2.1.20 maltotriose apis cerana indica//*//* 26.6 * +EC3.2.1.20 maltotriose apis cerana japonica//*//* 15.0 * +EC3.2.1.20 maltotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 181.0 * +EC3.2.1.20 maltotriose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 217.2 * +EC3.2.1.20 maltotriose dysdercus peruvianus//*//* 6.17 * +EC3.2.1.20 maltotriose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 13.0 * +EC3.2.1.20 maltotriose hordeum vulgare//*//* 6.65 * +EC3.2.1.20 maltotriose panicum miliaceum//*//* 43.9 * +EC3.2.1.20 maltotriose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 994.0 * +EC3.2.1.20 maltotriose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 100.4 * +EC3.2.1.20 maltotriose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 550.0 * +EC3.2.1.20 maltotriose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.04 * +EC3.2.1.20 maltotriose xanthophyllomyces dendrorhous//*//* 8.0 * +EC3.2.1.20 nigerose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 88.4 * +EC3.2.1.20 nigerose panicum miliaceum//*//* 35.7 * +EC3.2.1.20 nigerose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 435.0 * +EC3.2.1.20 p-aminophenyl-alpha-d-glucoside dysdercus peruvianus//*//* 4.67 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucopyranoside aspergillus niveus//*//* 0.53 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucoside apis cerana japonica//*//* 13.0 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 19.92 * +EC3.2.1.20 p-nitrophenyl-alpha-glucoside dysdercus peruvianus//*//* 19.0 * +EC3.2.1.20 panose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 704.0 * +EC3.2.1.20 panose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC3.2.1.20 phenyl alpha-d-glucoside schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 139.0 * +EC3.2.1.20 phenyl alpha-glucoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.83 * +EC3.2.1.20 phenyl alpha-glucoside panicum miliaceum//*//* 3.8 * +EC3.2.1.20 phenyl alpha-glucoside schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1171.0 * +EC3.2.1.20 phenyl alpha-maltoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 181.0 * +EC3.2.1.20 phenyl alpha-maltoside schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1171.0 * +EC3.2.1.20 phenyl-alpha-d-glucoside dysdercus peruvianus//*//* 22.5 * +EC3.2.1.20 soluble starch apis cerana indica//*//* 4.6 * +EC3.2.1.20 soluble starch panicum miliaceum//*//* 49.7 * +EC3.2.1.20 soluble starch xanthophyllomyces dendrorhous//*//* 3.0 * +EC3.2.1.20 starch aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 163.0 * +EC3.2.1.20 starch aspergillus niveus//*//* 24.62 * +EC3.2.1.20 sucrose apis cerana indica//*//* 845.0 * +EC3.2.1.20 sucrose apis cerana japonica//*//* 40.0 * +EC3.2.1.20 sucrose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 54.6 * +EC3.2.1.20 sucrose dysdercus peruvianus//*//* 4.07 * +EC3.2.1.20 sucrose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 94.0 * +EC3.2.1.20 trehalose thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 343.0 * +EC3.2.1.20 turanose dysdercus peruvianus//*//* 3.77 * +EC3.2.1.203 carboxymethyl cellulose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.6 * +EC3.2.1.21 2,3-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 11.7 * +EC3.2.1.21 2,4-dinitrophenyl beta-d-glucoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 422.0 * +EC3.2.1.21 2,4-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 30.4 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside komagataella pastoris//*//* 13.7 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside physarum polycephalum//*//* 13.0 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 13.8 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside thermosphaera aggregans//prokaryotes;archaea;crenarchaeota;thermosphaera//tag 439.8 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 121.5 * +EC3.2.1.21 2-nitrophenyl-beta-1,4-d-galactopyranoside-6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 49.0 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2050.0 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside thermomyces dupontii//*//* 304.0 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 288.3 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 860.0 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.72 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside thermomyces dupontii//*//* 308.0 * +EC3.2.1.21 3,4-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 18.2 * +EC3.2.1.21 3,5-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 20.5 * +EC3.2.1.21 3-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 15.8 * +EC3.2.1.21 4-bromophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.32 * +EC3.2.1.21 4-methylumbeliferyl beta-d-glucoside spodoptera frugiperda//*//* 0.231 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.8 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 30.3 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucoside komagataella pastoris//*//* 7.2 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside spodoptera frugiperda//*//* 1.73 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 11.7 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 53.8 * +EC3.2.1.21 4-nitrophenyl beta-d-fucoside spodoptera frugiperda//*//* 7.14 * +EC3.2.1.21 4-nitrophenyl beta-d-galactoside spodoptera frugiperda//*//* 0.269 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4000.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 370.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside avena sativa//*//* 3.9 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside humicola insolens//*//* 73.08 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside komagataella pastoris//*//* 11.6 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside physarum polycephalum//*//* 110.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside rasamsonia emersonii//*//* 2226.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside rhizomucor miehei//*//* 0.071 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.577 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 129.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 8664.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside weissella cibaria//prokaryotes;bacteria;firmicutes - bacilli;weissella//wcb 30.63 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 29.5 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside spodoptera frugiperda//*//* 2.26 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.15 * +EC3.2.1.21 4-nitrophenyl beta-d-xyloside spodoptera frugiperda//*//* 0.0302 * +EC3.2.1.21 4-nitrophenyl beta-l-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.2.1.21 4-nitrophenyl-alpha-l-arabino-pyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.88 * +EC3.2.1.21 4-nitrophenyl-alpha-l-arabinopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 119.0 * +EC3.2.1.21 4-nitrophenyl-alpha-l-arabinopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 9.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-cellobioside thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 17500.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 22.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 516.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.13 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 33.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 182.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 27.7 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside spodoptera frugiperda//*//* 3.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 82.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.53 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 9.8 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside phanerochaete chrysosporium//*//* 67.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 27.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 167.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside spodoptera frugiperda//*//* 0.35 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside acremonium persicinum//*//* 640.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 95.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus japonicus//*//* 259.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 89.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside avena sativa//*//* 2.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.75 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 387.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 42.2 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside fomitopsis palustris//*//* 721.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.12 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside humicola insolens//*//* 343.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside melanocarpus sp.//*//* 66.67 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 38.9 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside paecilomyces sp. j18//*//* 13.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside penicillium brasilianum//*//* 118.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside phanerochaete chrysosporium//*//* 20.8 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside pholiota adiposa//*//* 3460.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside phoma sp.//*//* 0.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside plumeria obtusa//*//* 30.7 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside stachybotrys sp.//*//* 915.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside talaromyces verruculosus//*//* 160.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermomyces lanuginosus//*//* 44.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 141.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 6.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 87400.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 32.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 144.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 42.8 * +EC3.2.1.21 4-nitrophenyl-beta-d-mannopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 14.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 28.9 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside phanerochaete chrysosporium//*//* 0.384 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 18.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 5300.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside humicola insolens//*//* 10.2 * +EC3.2.1.21 4-o-alpha-d-mannopyranosyl-d-mannopyranose thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.038 * +EC3.2.1.21 6-o-methyl-n-deacetylipecoside carapichea ipecacuanha//*//* 31.1 * +EC3.2.1.21 amygdalin paecilomyces sp. j18//*//* 7.9 * +EC3.2.1.21 amygdalin spodoptera frugiperda//*//* 0.32 * +EC3.2.1.21 apigenin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.53 * +EC3.2.1.21 apigenin-7-o-beta-d-glucopyranoside pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.92 * +EC3.2.1.21 apigenin-7-o-beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.2.1.21 apigetrin penicillium decumbens//*//* 0.6 * +EC3.2.1.21 arbutin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.15 * +EC3.2.1.21 arbutin penicillium decumbens//*//* 0.1 * +EC3.2.1.21 arbutin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.06 * +EC3.2.1.21 avenacoside avena sativa//*//* 443.0 * +EC3.2.1.21 beta,beta-trehalose thermoascus aurantiacus//*//* 284.2 * +EC3.2.1.21 beta-gentiobiose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 950.0 * +EC3.2.1.21 cellobiose aspergillus japonicus//*//* 350.0 * +EC3.2.1.21 cellobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 103.0 * +EC3.2.1.21 cellobiose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1000.0 * +EC3.2.1.21 cellobiose fomitopsis palustris//*//* 101.8 * +EC3.2.1.21 cellobiose humicola insolens//*//* 3132.0 * +EC3.2.1.21 cellobiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.16 * +EC3.2.1.21 cellobiose paecilomyces sp. j18//*//* 4.5 * +EC3.2.1.21 cellobiose penicillium brasilianum//*//* 43.0 * +EC3.2.1.21 cellobiose penicillium decumbens//*//* 0.5 * +EC3.2.1.21 cellobiose phanerochaete chrysosporium//*//* 181.0 * +EC3.2.1.21 cellobiose phoma sp.//*//* 699.0 * +EC3.2.1.21 cellobiose physarum polycephalum//*//* 103.0 * +EC3.2.1.21 cellobiose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 594.0 * +EC3.2.1.21 cellobiose rhizomucor miehei//*//* 0.043 * +EC3.2.1.21 cellobiose schwanniomyces etchellsii//*//* 233.0 * +EC3.2.1.21 cellobiose spodoptera frugiperda//*//* 0.5 * +EC3.2.1.21 cellobiose stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 281.0 * +EC3.2.1.21 cellobiose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 35.6 * +EC3.2.1.21 cellobiose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC3.2.1.21 cellobiose talaromyces verruculosus//*//* 89.0 * +EC3.2.1.21 cellobiose thermoascus aurantiacus//*//* 284.2 * +EC3.2.1.21 cellobiose thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.317 * +EC3.2.1.21 cellobiose thermomyces dupontii//*//* 167.0 * +EC3.2.1.21 cellobiose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 51.5 * +EC3.2.1.21 cellohexaose physarum polycephalum//*//* 8.0 * +EC3.2.1.21 cellopentaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 51.7 * +EC3.2.1.21 cellotetraose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 54.7 * +EC3.2.1.21 cellotetraose rhizomucor miehei//*//* 0.059 * +EC3.2.1.21 cellotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 85.1 * +EC3.2.1.21 cellotriose oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.35 * +EC3.2.1.21 cellotriose rhizomucor miehei//*//* 0.067 * +EC3.2.1.21 d-cellobiose thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 16.3 * +EC3.2.1.21 daidzein 7'-o-(6''-o-beta-d-malonyl-beta-d-glucoside) glycine max//eukaryotes;plants;eudicots;pea family//gmx 46.0 * +EC3.2.1.21 daidzein 7'-o-beta-d-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 22.0 * +EC3.2.1.21 daidzein 7-o-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.55 * +EC3.2.1.21 daidzein-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.55 * +EC3.2.1.21 daidzein-7-beta-d-glucopyranoside pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.12 * +EC3.2.1.21 daidzein-7-beta-d-glucosyl-6''-o-malonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.39 * +EC3.2.1.21 daidzein-7-malonyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.2.1.21 daidzein-7-o-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.07 * +EC3.2.1.21 daidzein-7-o-glucosyl-6''-o-malonate glycine max//eukaryotes;plants;eudicots;pea family//gmx 4.34 * +EC3.2.1.21 daidzin penicillium decumbens//*//* 0.4 * +EC3.2.1.21 daidzin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2532.0 * +EC3.2.1.21 dhurrin sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 77.7 * +EC3.2.1.21 eriodictyol-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC3.2.1.21 eriodictyol-7-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.73 * +EC3.2.1.21 esculin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.02 * +EC3.2.1.21 esculin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.57 * +EC3.2.1.21 genistein 7-o-(6''-o-malonyl-beta-d-glucoside) glycine max//eukaryotes;plants;eudicots;pea family//gmx 98.0 * +EC3.2.1.21 genistein 7-o-beta-d-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 13.0 * +EC3.2.1.21 genistein-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.53 * +EC3.2.1.21 genistein-7-beta-d-glucopyranoside pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.31 * +EC3.2.1.21 genistein-7-beta-d-glucosyl-6''-o-malonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.68 * +EC3.2.1.21 genistein-7-o-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 4.45 * +EC3.2.1.21 genistein-7-o-glucosyl-6''-o-malonate glycine max//eukaryotes;plants;eudicots;pea family//gmx 4.38 * +EC3.2.1.21 gentiobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 70.0 * +EC3.2.1.21 gentiobiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.17 * +EC3.2.1.21 gentiobiose paecilomyces sp. j18//*//* 4.2 * +EC3.2.1.21 gentiobiose penicillium decumbens//*//* 0.6 * +EC3.2.1.21 gentiobiose physarum polycephalum//*//* 20.0 * +EC3.2.1.21 gentiobiose spodoptera frugiperda//*//* 0.6 * +EC3.2.1.21 gentiobiose thermoascus aurantiacus//*//* 140.7 * +EC3.2.1.21 gentobiose rhizomucor miehei//*//* 0.056 * +EC3.2.1.21 ipecoside carapichea ipecacuanha//*//* 51.6 * +EC3.2.1.21 laminaran rhizomucor miehei//*//* 0.033 * +EC3.2.1.21 laminaribiose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 930.0 * +EC3.2.1.21 laminaribiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.17 * +EC3.2.1.21 laminaribiose rhizomucor miehei//*//* 0.078 * +EC3.2.1.21 laminaritriose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.64 * +EC3.2.1.21 laminaritriose rhizomucor miehei//*//* 0.077 * +EC3.2.1.21 luteolin-4'-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.17 * +EC3.2.1.21 luteolin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.05 * +EC3.2.1.21 n,n'-diacetyl-beta-chitobiose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.56 * +EC3.2.1.21 n-deacetylipecoside carapichea ipecacuanha//*//* 28.2 * +EC3.2.1.21 n-heptyl-beta-d-glucoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.25 * +EC3.2.1.21 n-octyl-beta-d-glucopyranoside thermoascus aurantiacus//*//* 234.8 * +EC3.2.1.21 naringenin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.2.1.21 naringenin-7-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.2.1.21 naringenin penicillium decumbens//*//* 0.6 * +EC3.2.1.21 o-nitrophenyl-beta-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.4 * +EC3.2.1.21 o-nitrophenyl-beta-d-glucopyranoside thermoascus aurantiacus//*//* 235.2 * +EC3.2.1.21 octyl-beta-d-glucopyranoside spodoptera frugiperda//*//* 0.06 * +EC3.2.1.21 p-nitrophenyl-alpha-d-galactopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.49 * +EC3.2.1.21 p-nitrophenyl-alpha-d-mannopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.1 * +EC3.2.1.21 p-nitrophenyl-alpha-l-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.97 * +EC3.2.1.21 p-nitrophenyl-beta-d-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.7 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside spodoptera frugiperda//*//* 2.4 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 37.1 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.93 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.6 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.62 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside spodoptera frugiperda//*//* 0.17 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 118.0 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.11 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.1 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside penicillium decumbens//*//* 1.5 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.87 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside schwanniomyces etchellsii//*//* 170.0 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside spodoptera frugiperda//*//* 0.56 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 28.4 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside thermoascus aurantiacus//*//* 242.2 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucose phanerochaete chrysosporium//*//* 103.1 * +EC3.2.1.21 p-nitrophenyl-beta-d-mannopyranoside pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.32 * +EC3.2.1.21 p-nitrophenyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC3.2.1.21 p-nitrophenyl-beta-d-xylopyranoside spodoptera frugiperda//*//* 0.01 * +EC3.2.1.21 p-nitrophenyl-beta-l-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC3.2.1.21 phenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.66 * +EC3.2.1.21 plumieride coumarate beta-d-glucoside plumeria obtusa//*//* 13.9 * +EC3.2.1.21 quercetin-3,4'-di-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.2.1.21 quercetin-4'-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC3.2.1.21 quercetin-4'-o-beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.2.1.21 quercetin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC3.2.1.21 quercetin-7-o-beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.2.1.21 salicin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.21 * +EC3.2.1.21 salicin humicola insolens//*//* 404.8 * +EC3.2.1.21 salicin paecilomyces sp. j18//*//* 7.1 * +EC3.2.1.21 salicin penicillium decumbens//*//* 0.7 * +EC3.2.1.21 salicin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.32 * +EC3.2.1.21 sophorose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 820.0 * +EC3.2.1.21 sophorose oryza sativa//eukaryotes;plants;monocots;grass family//osa 9.8 * +EC3.2.1.21 sophorose paecilomyces sp. j18//*//* 3.7 * +EC3.2.1.21 sophorose thermoascus aurantiacus//*//* 136.4 * +EC3.2.1.21 strictosidine carapichea ipecacuanha//*//* 2.1 * +EC3.2.1.21 vincoside carapichea ipecacuanha//*//* 6.4 * +EC3.2.1.22 2,4-dinitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 12.23 * +EC3.2.1.22 2,5-dinitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 11.2 * +EC3.2.1.22 2-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 13.67 * +EC3.2.1.22 3,4-dimethylphenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 10.39 * +EC3.2.1.22 3-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 10.5 * +EC3.2.1.22 4-bromophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 12.58 * +EC3.2.1.22 4-methylumbelliferyl alpha-d-galactoside thermomyces lanuginosus//*//* 49.8 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2382.0 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactopyranoside penicillium canescens//*//* 1800.0 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactopyranoside sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 512.0 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 244.0 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 8.58 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 3279.0 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1278.0 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.07 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 3.29 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside flavobacterium sp.//*//* 654.6 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 286.0 * +EC3.2.1.22 4-o-methylphenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 6.69 * +EC3.2.1.22 beta-naphthyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 6.26 * +EC3.2.1.22 galactomannan with galactose/mannose ratio 1:1.72 penicillium canescens//*//* 7.0 * +EC3.2.1.22 galactomannan with galactose/mannose ratio 1:2.4 penicillium canescens//*//* 10.0 * +EC3.2.1.22 m-nitrophenyl-alpha-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.822 * +EC3.2.1.22 melibiose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1067.0 * +EC3.2.1.22 melibiose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.03 * +EC3.2.1.22 melibiose flavobacterium sp.//*//* 2.33 * +EC3.2.1.22 melibiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 193.0 * +EC3.2.1.22 melibiose sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 448.0 * +EC3.2.1.22 melibiose thermomyces lanuginosus//*//* 2.3 * +EC3.2.1.22 melibiose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 234.2 * +EC3.2.1.22 o-nitrophenyl-alpha-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.238 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermomyces lanuginosus//*//* 3914.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 176.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 302.9 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.61 * +EC3.2.1.22 phenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.71 * +EC3.2.1.22 raffinose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 586.0 * +EC3.2.1.22 raffinose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 4.12 * +EC3.2.1.22 raffinose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1205.0 * +EC3.2.1.22 raffinose penicillium canescens//*//* 1100.0 * +EC3.2.1.22 raffinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 46.8 * +EC3.2.1.22 raffinose thermomyces lanuginosus//*//* 6946.0 * +EC3.2.1.22 raffinose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 109.0 * +EC3.2.1.22 raffinose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 157.3 * +EC3.2.1.22 stachyose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 6.05 * +EC3.2.1.22 stachyose flavobacterium sp.//*//* 42.04 * +EC3.2.1.22 stachyose penicillium canescens//*//* 1250.0 * +EC3.2.1.22 stachyose thermomyces lanuginosus//*//* 7659.0 * +EC3.2.1.23 2,4-dinitrophenyl 2-acetamido-2-deoxy-alpha-d-galactopyranosyl-(1-3)-[alpha-l-fucopyranosyl-(1-2)]-beta-d-galactopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.75 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 149.0 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 90.0 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 540.0 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside lactobacillus plantarum wcfs1//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 92.0 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside pisum sativum//*//* 293.9 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 234.0 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside uncultured soil bacterium//*//* 386.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-fucopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1345.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 2657.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside arthrobacter psychrolactophilus//*//* 13.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 212.4 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside aspergillus carbonarius//*//* 440.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 149.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 620.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 8559.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 50.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 47.2 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 338.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside penicillium canescens//*//* 45.4 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5700.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 8559.0 * +EC3.2.1.23 4-methylumbelliferyl beta-d-galactoside tenebrio molitor//*//* 1.7 * +EC3.2.1.23 4-nitrophenyl beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 32.0 * +EC3.2.1.23 4-nitrophenyl beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 620.0 * +EC3.2.1.23 4-nitrophenyl beta-d-galactopyranoside saccharopolyspora rectivirgula//*//* 56.0 * +EC3.2.1.23 4-nitrophenyl-alpha-l-arabinopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1740.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 2988.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside aspergillus aculeatus//*//* 932.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside aspergillus carbonarius//*//* 74000.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 32.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 270000.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside xanthomonas phaseoli pv. manihotis//*//* 2140.0 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 2700000.0 * +EC3.2.1.23 beta-d-galactosyl azide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC3.2.1.23 beta-lactose thermomyces lanuginosus//*//* 18.0 * +EC3.2.1.23 lactose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 212.0 * +EC3.2.1.23 lactose arthrobacter psychrolactophilus//*//* 3.02 * +EC3.2.1.23 lactose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 6.98 * +EC3.2.1.23 lactose aspergillus aculeatus//*//* 254.0 * +EC3.2.1.23 lactose aspergillus carbonarius//*//* 55.0 * +EC3.2.1.23 lactose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 42.0 * +EC3.2.1.23 lactose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 6300.0 * +EC3.2.1.23 lactose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 632.0 * +EC3.2.1.23 lactose lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 45.7 * +EC3.2.1.23 lactose lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 20.0 * +EC3.2.1.23 lactose lactobacillus plantarum wcfs1//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 98.0 * +EC3.2.1.23 lactose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 58.0 * +EC3.2.1.23 lactose pisum sativum//*//* 55.1 * +EC3.2.1.23 lactose pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 33.0 * +EC3.2.1.23 lactose saccharopolyspora rectivirgula//*//* 63.1 * +EC3.2.1.23 lactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 122.6 * +EC3.2.1.23 lactose tenebrio molitor//*//* 1.2 * +EC3.2.1.23 lactose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 12.5 * +EC3.2.1.23 lactose uncultured soil bacterium//*//* 141.0 * +EC3.2.1.23 lactulose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 380.0 * +EC3.2.1.23 lactulose thermomyces lanuginosus//*//* 33.0 * +EC3.2.1.23 methyl-beta-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 242.0 * +EC3.2.1.23 methyl-beta-d-galactoside thermomyces lanuginosus//*//* 16.0 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 110.1 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside planococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;planococcus//pln 603.0 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 203.0 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 338.0 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside saccharomyces lactis//*//* 888.0 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside saccharopolyspora rectivirgula//*//* 47.6 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 431.0 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermoanaerobacterium thermosulfurigenes//*//* 264.0 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermomyces lanuginosus//*//* 941.0 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 66.7 * +EC3.2.1.23 p-nitrophenyl beta-d-fucoside tenebrio molitor//*//* 2.4 * +EC3.2.1.23 p-nitrophenyl-alpha-l-arabinoside thermomyces lanuginosus//*//* 5000.0 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside saccharopolyspora rectivirgula//*//* 55.8 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside thermoanaerobacterium thermosulfurigenes//*//* 312.0 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside thermomyces lanuginosus//*//* 1040.0 * +EC3.2.1.23 phenyl-beta-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 166.0 * +EC3.2.1.23 phenyl-beta-d-galactoside thermomyces lanuginosus//*//* 65.0 * +EC3.2.1.24 2,4-dinitrophenyl alpha-d-mannoside drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 8.6 * +EC3.2.1.24 2,4-dinitrophenyl-alpha-d-mannopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.7 * +EC3.2.1.24 3-o-alpha-d-mannopyranosyl-alpha-d-mannopyranose streptococcus pyogenes m1 gas//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 6.4 * +EC3.2.1.24 4-methylumbelliferyl alpha-d-mannopyranoside streptococcus pyogenes m1 gas//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.03 * +EC3.2.1.24 4-nitrophenyl alpha-d-mannopyranoside canavalia ensiformis//*//* 44.0 * +EC3.2.1.24 4-nitrophenyl alpha-d-mannoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 158.0 * +EC3.2.1.24 5-fluoro-beta-l-gulosyl fluoride drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0051 * +EC3.2.1.24 alpha-d-man-(1->2)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.5 * +EC3.2.1.24 alpha-d-man-(1->3)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.9 * +EC3.2.1.24 alpha-d-man-(1->4)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.4 * +EC3.2.1.24 alpha-d-man-(1->6)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside canavalia ensiformis//*//* 130.0 * +EC3.2.1.25 2,4-dinitrophenyl-beta-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 214.4 * +EC3.2.1.25 4-nitrophenyl beta-d-galactopyranoside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.5 * +EC3.2.1.25 4-nitrophenyl beta-d-glucopyranoside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 34.4 * +EC3.2.1.25 4-nitrophenyl beta-d-mannopyranoside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 4.2 * +EC3.2.1.25 4-nitrophenyl-beta-d-glucopyranose hordeum vulgare//*//* 0.5 * +EC3.2.1.25 4-nitrophenyl-beta-d-mannopyranose cellvibrio mixtus//*//* 0.033 * +EC3.2.1.25 4-nitrophenyl-beta-d-mannopyranose hordeum vulgare//*//* 3.1 * +EC3.2.1.25 4-o-beta-d-mannopyranosyl-d-mannopyranose cellvibrio mixtus//*//* 2.17 * +EC3.2.1.25 beta-d-mannosyl-1,4-beta-d-glucoside cellvibrio mixtus//*//* 0.053 * +EC3.2.1.25 mannotriose cellvibrio mixtus//*//* 166.7 * +EC3.2.1.25 p-nitrophenyl beta-d-mannopyranoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 67.8 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 157.0 * +EC3.2.1.26 1-kestose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 107.0 * +EC3.2.1.26 1-kestose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 64.0 * +EC3.2.1.26 1-kestose schwanniomyces occidentalis//*//* 26.3 * +EC3.2.1.26 1-kestose xanthophyllomyces dendrorhous//*//* 1.5 * +EC3.2.1.26 fructosylnystose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 75.4 * +EC3.2.1.26 inulin bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 77.4 * +EC3.2.1.26 inulin lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 106.0 * +EC3.2.1.26 inulin schwanniomyces occidentalis//*//* 25.0 * +EC3.2.1.26 inulin thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 590.0 * +EC3.2.1.26 levan lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 89.0 * +EC3.2.1.26 neokestose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 142.7 * +EC3.2.1.26 nystose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 152.8 * +EC3.2.1.26 nystose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 95.0 * +EC3.2.1.26 nystose schwanniomyces occidentalis//*//* 6.9 * +EC3.2.1.26 raffinose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 16.0 * +EC3.2.1.26 raffinose schwanniomyces occidentalis//*//* 10.9 * +EC3.2.1.26 raffinose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 140.0 * +EC3.2.1.26 sucrose arthrobacter globiformis//*//* 127.0 * +EC3.2.1.26 sucrose azotobacter chroococcum//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//acx 100.0 * +EC3.2.1.26 sucrose bambusa oldhamii//*//* 501.7 * +EC3.2.1.26 sucrose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 79.4 * +EC3.2.1.26 sucrose cyberlindnera jadinii//*//* 2428.0 * +EC3.2.1.26 sucrose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 84.0 * +EC3.2.1.26 sucrose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3430.0 * +EC3.2.1.26 sucrose saccharum officinarum//*//* 21.0 * +EC3.2.1.26 sucrose schwanniomyces occidentalis//*//* 106.0 * +EC3.2.1.26 sucrose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1384.0 * +EC3.2.1.26 sucrose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2600.0 * +EC3.2.1.26 sucrose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 7300000.0 * +EC3.2.1.26 sucrose uncultured bacterium//*//* 1448.0 * +EC3.2.1.26 sucrose xanthophyllomyces dendrorhous//*//* 5.7 * +EC3.2.1.26 sucrose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 50000.0 * +EC3.2.1.28 alpha,alpha-trehalose metarhizium anisopliae//*//* 1.02 * +EC3.2.1.28 alpha,alpha-trehalose metarhizium flavoviride//*//* 0.67 * +EC3.2.1.28 alpha,alpha-trehalose spodoptera frugiperda//*//* 730.0 * +EC3.2.1.28 trehalose apis mellifera//eukaryotes;animals;arthropods;insects//ame 662.0 * +EC3.2.1.28 trehalose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 199.0 * +EC3.2.1.28 trehalose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 167.0 * +EC3.2.1.3 4-nitrophenyl alpha-d-glucoside aspergillus awamori//*//* 0.25 * +EC3.2.1.3 alpha-d-glucopyranosyl fluoride aspergillus awamori//*//* 300.0 * +EC3.2.1.3 amylopectin paecilomyces variotii//*//* 34.1 * +EC3.2.1.3 amylopectin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 683.0 * +EC3.2.1.3 amylose paecilomyces variotii//*//* 37.7 * +EC3.2.1.3 cassava starch rhizopus sp.//*//* 7.1 * +EC3.2.1.3 dextrin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 413.0 * +EC3.2.1.3 glycogen paecilomyces variotii//*//* 22.1 * +EC3.2.1.3 glycogen saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 328.0 * +EC3.2.1.3 isomaltoheptaose aspergillus awamori//*//* 1.3 * +EC3.2.1.3 isomaltohexaose aspergillus awamori//*//* 1.5 * +EC3.2.1.3 isomaltopentaose aspergillus awamori//*//* 1.2 * +EC3.2.1.3 isomaltose aspergillus awamori//*//* 0.72 * +EC3.2.1.3 isomaltose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 10.7 * +EC3.2.1.3 isomaltose paecilomyces variotii//*//* 0.4 * +EC3.2.1.3 isomaltose rasamsonia emersonii//*//* 2.7 * +EC3.2.1.3 isomaltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.0 * +EC3.2.1.3 isomaltotetraose aspergillus awamori//*//* 0.99 * +EC3.2.1.3 isomaltotriose aspergillus awamori//*//* 0.64 * +EC3.2.1.3 kojibiose aspergillus awamori//*//* 0.13 * +EC3.2.1.3 maize starch rhizopus sp.//*//* 6.2 * +EC3.2.1.3 maltoheptaose aspergillus awamori//*//* 72.3 * +EC3.2.1.3 maltoheptaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 343.0 * +EC3.2.1.3 maltoheptaose caulobacter vibrioides//*//* 114.0 * +EC3.2.1.3 maltoheptaose paecilomyces variotii//*//* 46.6 * +EC3.2.1.3 maltoheptaose rasamsonia emersonii//*//* 221.3 * +EC3.2.1.3 maltoheptaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 823.0 * +EC3.2.1.3 maltoheptaose thermoactinomyces vulgaris//*//* 61.6 * +EC3.2.1.3 maltohexaose aspergillus awamori//*//* 49.0 * +EC3.2.1.3 maltohexaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 459.0 * +EC3.2.1.3 maltohexaose caulobacter vibrioides//*//* 125.0 * +EC3.2.1.3 maltohexaose paecilomyces variotii//*//* 41.6 * +EC3.2.1.3 maltohexaose rhizopus oryzae//*//* 71.3 * +EC3.2.1.3 maltohexaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 717.0 * +EC3.2.1.3 maltohexaose thermoactinomyces vulgaris//*//* 55.0 * +EC3.2.1.3 maltopentaose aspergillus awamori//*//* 44.0 * +EC3.2.1.3 maltopentaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 518.0 * +EC3.2.1.3 maltopentaose caulobacter vibrioides//*//* 122.0 * +EC3.2.1.3 maltopentaose paecilomyces variotii//*//* 41.1 * +EC3.2.1.3 maltopentaose rhizopus oryzae//*//* 73.7 * +EC3.2.1.3 maltopentaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 800.0 * +EC3.2.1.3 maltopentaose thermoactinomyces vulgaris//*//* 56.3 * +EC3.2.1.3 maltose aspergillus awamori//*//* 20.4 * +EC3.2.1.3 maltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 7.55 * +EC3.2.1.3 maltose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 149.0 * +EC3.2.1.3 maltose caulobacter vibrioides//*//* 38.2 * +EC3.2.1.3 maltose clostridium thermoamylolyticum//*//* 7.1 * +EC3.2.1.3 maltose paecilomyces variotii//*//* 7.2 * +EC3.2.1.3 maltose rasamsonia emersonii//*//* 31.3 * +EC3.2.1.3 maltose rhizopus oryzae//*//* 9.3 * +EC3.2.1.3 maltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 52.0 * +EC3.2.1.3 maltose thermoactinomyces vulgaris//*//* 16.9 * +EC3.2.1.3 maltose thermomyces lanuginosus//*//* 25.3 * +EC3.2.1.3 maltotetraose aspergillus awamori//*//* 45.0 * +EC3.2.1.3 maltotetraose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.2 * +EC3.2.1.3 maltotetraose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 460.0 * +EC3.2.1.3 maltotetraose caulobacter vibrioides//*//* 155.0 * +EC3.2.1.3 maltotetraose paecilomyces variotii//*//* 43.4 * +EC3.2.1.3 maltotetraose rhizopus oryzae//*//* 71.1 * +EC3.2.1.3 maltotetraose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 720.0 * +EC3.2.1.3 maltotetraose thermoactinomyces vulgaris//*//* 70.7 * +EC3.2.1.3 maltotriose aspergillus awamori//*//* 33.5 * +EC3.2.1.3 maltotriose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 368.0 * +EC3.2.1.3 maltotriose caulobacter vibrioides//*//* 150.0 * +EC3.2.1.3 maltotriose paecilomyces variotii//*//* 27.2 * +EC3.2.1.3 maltotriose rhizopus oryzae//*//* 54.7 * +EC3.2.1.3 maltotriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 330.0 * +EC3.2.1.3 maltotriose thermoactinomyces vulgaris//*//* 76.4 * +EC3.2.1.3 maltotriose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 91.7 * +EC3.2.1.3 nigerose aspergillus awamori//*//* 0.14 * +EC3.2.1.3 nigerose paecilomyces variotii//*//* 2.2 * +EC3.2.1.3 panose aspergillus awamori//*//* 6.9 * +EC3.2.1.3 panose paecilomyces variotii//*//* 9.1 * +EC3.2.1.3 phenyl alpha-maltoside paecilomyces variotii//*//* 11.0 * +EC3.2.1.3 potato starch rhizopus sp.//*//* 1.6 * +EC3.2.1.3 rice starch rhizopus sp.//*//* 23.3 * +EC3.2.1.3 soluble starch fusarium solani//*//* 7.35 * +EC3.2.1.3 soluble starch humicola sp.//*//* 69.0 * +EC3.2.1.3 soluble starch lentinula edodes//*//* 4833.0 * +EC3.2.1.3 soluble starch rhizopus oryzae//*//* 58.2 * +EC3.2.1.3 starch, soluble paecilomyces variotii//*//* 49.1 * +EC3.2.1.3 starch arachniotus citrinus//*//* 8.3 * +EC3.2.1.3 starch aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 343.0 * +EC3.2.1.3 starch aspergillus niveus//*//* 14.2 * +EC3.2.1.3 starch fusarium solani//*//* 487.0 * +EC3.2.1.3 starch paecilomyces variotii//*//* 36.6 * +EC3.2.1.3 starch saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 428.0 * +EC3.2.1.3 sweet potato starch rhizopus sp.//*//* 4.6 * +EC3.2.1.3 wheat starch rhizopus sp.//*//* 14.8 * +EC3.2.1.31 4-methylumbelliferyl-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 276.0 * +EC3.2.1.31 4-nitrophenyl beta-d-galactosiduronide thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 443.0 * +EC3.2.1.31 4-nitrophenyl beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 9.0 * +EC3.2.1.31 4-nitrophenyl beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC3.2.1.31 4-nitrophenyl beta-d-glucuronide thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 68.0 * +EC3.2.1.31 4-nitrophenyl beta-d-xylopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 68.0 * +EC3.2.1.31 4-nitrophenyl-beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1500.0 * +EC3.2.1.31 4-nitrophenyl-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.2.1.31 4-nitrophenyl-beta-glucuronide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 200.0 * +EC3.2.1.31 baicalein 7-o-beta-d-glucuronide scutellaria baicalensis//*//* 639.0 * +EC3.2.1.31 daidzein 7-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC3.2.1.31 equol 7-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.2.1.31 glycyrrhizin penicillium purpurogenum//*//* 27.84 * +EC3.2.1.31 kaempferol 3-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.2.1.31 quercetin 4'-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC3.2.1.31 quercetin 7-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.65 * +EC3.2.1.31 quercetin-3-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.2.1.32 2-oxo-4-(trifluoromethyl)-2h-chromen-7-yl 3-o-(3-o-methyl-etab-d-xylopyranosyl)-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 2.1 * +EC3.2.1.32 2-oxo-4-(trifluoromethyl)-2h-chromen-7-yl 3-o-beta-d-xylopyranosyl-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 1.9 * +EC3.2.1.32 2-oxo-4-(trifluoromethyl)-2h-chromen-7-yl beta-d-xylopyranosyl-(1->3)-beta-d-xylopyranosyl-(1->3)-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.89 * +EC3.2.1.32 beta-1,3-xylan thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 588.2 * +EC3.2.1.32 glycol beta-1,3-xylan thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 322.6 * +EC3.2.1.32 xylopentaose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 14000.0 * +EC3.2.1.32 xylotetraose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 350.0 * +EC3.2.1.33 6-o-alpha-maltotetraosyl-beta-cyclodextrin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2570.0 * +EC3.2.1.33 amylopectin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.35 * +EC3.2.1.33 maltodecaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.045 * +EC3.2.1.33 maltododecaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0478 * +EC3.2.1.33 maltononaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0205 * +EC3.2.1.33 maltoundecaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0452 * +EC3.2.1.37 2,4-dinitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 3.89 * +EC3.2.1.37 2,5-dinitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 25.0 * +EC3.2.1.37 2,5-dinitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 4.72 * +EC3.2.1.37 2-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 96.0 * +EC3.2.1.37 2-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 3.48 * +EC3.2.1.37 3,4-dinitrophenyl beta-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 93.8 * +EC3.2.1.37 3,4-dinitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 77.0 * +EC3.2.1.37 3,4-dinitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 4.8 * +EC3.2.1.37 3-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 5.22 * +EC3.2.1.37 4-chloro-2-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 3.9 * +EC3.2.1.37 4-cyanophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 3.28 * +EC3.2.1.37 4-methylumbelliferyl-alpha-l-arabinofuranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.233 * +EC3.2.1.37 4-methylumbelliferyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 20.0 * +EC3.2.1.37 4-methylumbelliferyl-beta-d-xylopyranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.208 * +EC3.2.1.37 4-nitrophenyl alpha-d-xylopyranoside penicillium purpurogenum//*//* 253.3 * +EC3.2.1.37 4-nitrophenyl alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 113.0 * +EC3.2.1.37 4-nitrophenyl alpha-l-arabinopyranoside penicillium purpurogenum//*//* 2.73 * +EC3.2.1.37 4-nitrophenyl beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 13.5 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 334.0 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside uncultured bacterium//*//* 76.0 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside uncultured rumen bacterium//*//* 135.0 * +EC3.2.1.37 4-nitrophenyl beta-d-xyloside penicillium purpurogenum//*//* 253.3 * +EC3.2.1.37 4-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 426.0 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside aspergillus awamori//*//* 31.5 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 1.18 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside medicago sativa//*//* 4.7 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 3.34 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinopyranoside medicago sativa//*//* 1.75 * +EC3.2.1.37 4-nitrophenyl-beta-d-fucopyranoside aspergillus awamori//*//* 0.001 * +EC3.2.1.37 4-nitrophenyl-beta-d-glucopyranoside aspergillus awamori//*//* 0.24 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.65 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside aspergillus awamori//*//* 17.5 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 5.26 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 57.0 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.18 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside medicago sativa//*//* 0.96 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 9.7 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside rasamsonia emersonii//*//* 0.017 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 32.5 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 189.3 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 3.04 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.0147 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 6.5 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 4.0 * +EC3.2.1.37 phenyl-beta-d-xylopyranoside trichoderma koningii//*//* 5.13 * +EC3.2.1.37 xylobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 67.8 * +EC3.2.1.37 xylobiose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.32 * +EC3.2.1.37 xylobiose geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.065 * +EC3.2.1.37 xylobiose rasamsonia emersonii//*//* 0.002 * +EC3.2.1.37 xylobiose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.0044 * +EC3.2.1.37 xylohexaose rasamsonia emersonii//*//* 0.0029 * +EC3.2.1.37 xylohexaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.002 * +EC3.2.1.37 xylopentaose rasamsonia emersonii//*//* 0.0034 * +EC3.2.1.37 xylopentaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.003 * +EC3.2.1.37 xylotetraose rasamsonia emersonii//*//* 0.0036 * +EC3.2.1.37 xylotetraose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.0027 * +EC3.2.1.37 xylotriose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 4.91 * +EC3.2.1.37 xylotriose geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.02 * +EC3.2.1.37 xylotriose rasamsonia emersonii//*//* 0.0037 * +EC3.2.1.37 xylotriose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.0029 * +EC3.2.1.39 laminariheptaose cellulosimicrobium cellulans//prokaryotes;bacteria;actinobacteria;cellulosimicrobium//cceu 69.0 * +EC3.2.1.39 laminarin aplysia kurodai//*//* 23.01 * +EC3.2.1.39 laminarin boscia senegalensis//*//* 395.0 * +EC3.2.1.39 laminarin cellulosimicrobium cellulans//prokaryotes;bacteria;actinobacteria;cellulosimicrobium//cceu 35.9 * +EC3.2.1.39 laminarin lentinula edodes//*//* 0.84 * +EC3.2.1.39 laminarin spodoptera frugiperda//*//* 29.0 * +EC3.2.1.39 laminarin tenebrio molitor//*//* 1.4 * +EC3.2.1.39 laminarin thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 109.0 * +EC3.2.1.39 laminarin thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 680.3 * +EC3.2.1.39 laminarin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 92.0 * +EC3.2.1.39 laminaripentaose cellulosimicrobium cellulans//prokaryotes;bacteria;actinobacteria;cellulosimicrobium//cceu 75.0 * +EC3.2.1.39 laminaritetraose aplysia kurodai//*//* 0.19 * +EC3.2.1.39 lichenan thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 38.0 * +EC3.2.1.4 2',4'-dinitrophenyl-beta-d-cellobiose cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 0.397 * +EC3.2.1.4 2,4-dinitrophenyl beta-d-cellobioside thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.02 * +EC3.2.1.4 4-methylumbelliferyl cellobioside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.01 * +EC3.2.1.4 4-nitrophenyl cellobioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.79 * +EC3.2.1.4 4-nitrophenyl cellobioside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 9.55 * +EC3.2.1.4 4-nitrophenyl cellopentaoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.4 * +EC3.2.1.4 4-nitrophenyl cellotetraoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.6 * +EC3.2.1.4 4-nitrophenyl cellotrioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.3 * +EC3.2.1.4 4-nitrophenyl d-cellobioside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.019 * +EC3.2.1.4 4-nitrophenyl d-cellobioside uncultured bacterium//*//* 466.0 * +EC3.2.1.4 avicel bacterium enrichment culture//*//* 37.2 * +EC3.2.1.4 barley beta-glucan rasamsonia emersonii//*//* 311.0 * +EC3.2.1.4 barley beta-glucan uncultured bacterium//*//* 3276.0 * +EC3.2.1.4 beta-glucan chrysosporium lucknowense//*//* 84.0 * +EC3.2.1.4 beta-glucan thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 791.0 * +EC3.2.1.4 carboxymethyl cellulose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 26.0 * +EC3.2.1.4 carboxymethyl cellulose bacterium enrichment culture//*//* 70.6 * +EC3.2.1.4 carboxymethyl cellulose cellulomonas biazotea//*//* 217.0 * +EC3.2.1.4 carboxymethyl cellulose cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 5.92 * +EC3.2.1.4 carboxymethyl cellulose chrysosporium lucknowense//*//* 54.0 * +EC3.2.1.4 carboxymethyl cellulose rasamsonia emersonii//*//* 51.6 * +EC3.2.1.4 carboxymethyl cellulose salipaludibacillus agaradhaerens//*//* 190.1 * +EC3.2.1.4 carboxymethyl cellulose uncultured bacterium//*//* 49.2 * +EC3.2.1.4 carboxymethyl cellulose uncultured rumen bacterium//*//* 163.0 * +EC3.2.1.4 carboxymethylcellulose bacillus circulans//*//* 26.4 * +EC3.2.1.4 carboxymethylcellulose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 437.0 * +EC3.2.1.4 carboxymethylcellulose gymnascella citrina//*//* 318.0 * +EC3.2.1.4 cellohexaose uncultured bacterium//*//* 41.7 * +EC3.2.1.4 cellopentaose uncultured bacterium//*//* 42.3 * +EC3.2.1.4 cellotetraose uncultured bacterium//*//* 159.0 * +EC3.2.1.4 cellotriose uncultured bacterium//*//* 897.0 * +EC3.2.1.4 hydroxyethylcellulose uncultured bacterium//*//* 185.6 * +EC3.2.1.4 laminarin uncultured bacterium//*//* 127.5 * +EC3.2.1.4 n-[2-n-[(s-(4-deoxy-4-dimethylamino-phenylazophenylthioureido-beta-d-glucopyranosyl)-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl)-2-thioacetyl]aminoethyl]-1-naphthylamine-5-sulfonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.39 * +EC3.2.1.4 n-[2-n-[(s-(4-deoxy-4-dimethylamino-phenylazophenylthioureido-beta-d-glucopyranosyl)-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl)-2-thioacetyl]aminoethyl]-1-naphthylamine-5-sulfonate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 19.0 * +EC3.2.1.4 p-nitrophenyl cellobiose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.41 * +EC3.2.1.4 p-nitrophenyl-beta-d-cellobioside dickeya chrysanthemi//*//* 0.01 * +EC3.2.1.4 p-nitrophenyl-beta-d-cellobioside pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.18 * +EC3.2.1.41 amylopectin oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.18 * +EC3.2.1.41 beta-limit dextrin oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.31 * +EC3.2.1.41 pullulan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 79.0 * +EC3.2.1.41 pullulan exiguobacterium sp.//prokaryotes;bacteria;firmicutes - bacilli;exiguobacterium//eat 37.0 * +EC3.2.1.41 pullulan oryza sativa//eukaryotes;plants;monocots;grass family//osa 23.1 * +EC3.2.1.41 pullulan thermoanaerobacter thermohydrosulfuricus//*//* 271.0 * +EC3.2.1.41 pullulan thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 1828.0 * +EC3.2.1.41 pullulan thermoanaerobium sp.//*//* 4830.0 * +EC3.2.1.41 soluble starch oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.89 * +EC3.2.1.41 soluble starch thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 877.9 * +EC3.2.1.45 (6-[n-(7-nitrobenz-2-oxa-1,3 diazol-4-yl)amino]hexanoyl)-beta-d-galactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.2.1.45 (6-[n-(7-nitrobenz-2-oxa-1,3 diazol-4-yl)amino]hexanoyl)-beta-d-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.2.1.45 2,4-dinitrophenyl beta-d-glucopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 470.0 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.57 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.23 * +EC3.2.1.45 c18-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.2.1.45 glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.2.1.45 p-nitrophenyl beta-d-glucopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 560.0 * +EC3.2.1.48 4-nitrophenyl alpha-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 21.9 * +EC3.2.1.48 4-nitrophenyl-alpha-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.2.1.48 isomaltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 97.0 * +EC3.2.1.48 isomaltose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 58.8 * +EC3.2.1.48 maltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 137.0 * +EC3.2.1.48 maltose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1600.0 * +EC3.2.1.48 panose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 278.0 * +EC3.2.1.48 sucrose xanthomonas axonopodis//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xax 66.45 * +EC3.2.1.48 sucrose xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 21.7 * +EC3.2.1.49 4-nitrophenyl alpha-d-n-acetylgalactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.3 * +EC3.2.1.49 4-nitrophenyl n-acetyl-alpha-d-galactosamine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 19.7 * +EC3.2.1.50 2,4-dinitrophenyl-alpha-n-acetyl-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 8.5 * +EC3.2.1.50 4-nitrophenyl n-acetyl-alpha-d-glucosaminopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.26 * +EC3.2.1.50 4-nitrophenyl-n-acetyl-alpha-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.69 * +EC3.2.1.50 n-acetyl-alpha-d-gluc-1,4-(1-methoxyphenyl)gal clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.24 * +EC3.2.1.51 2-deoxy-2-fluoro-alpha-l-fucosyl fluoride thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.047 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 430.0 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 35.0 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 287.0 * +EC3.2.1.51 alpha-l-fucosyl fluoride thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 7.6 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.1 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 287.0 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 14.3 * +EC3.2.1.51 p-nitrophenyl-alpha-l-fucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 35.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)2 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 1010.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)2 marsupenaeus japonicus//*//* 298.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 209.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 marsupenaeus japonicus//*//* 96.4 * +EC3.2.1.52 (n-acetyl-d-glucosamine)4 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 129.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)4 marsupenaeus japonicus//*//* 30.1 * +EC3.2.1.52 (n-acetyl-d-glucosamine)5 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 76.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)5 marsupenaeus japonicus//*//* 14.7 * +EC3.2.1.52 (n-acetyl-d-glucosamine)6 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 55.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)6 marsupenaeus japonicus//*//* 8.3 * +EC3.2.1.52 2,4-dinitrophenyl-n-acetyl-beta-d-glucosaminide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 38.3 * +EC3.2.1.52 4-methylumbelliferyl beta-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.8 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosamine aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 0.0235 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosamine penicillium oxalicum//*//* 43.0 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide ostrinia furnacalis//*//* 434.7 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.4 * +EC3.2.1.52 4-nitrophenyl 2-acetamido-2-deoxy-beta-d-galactopyranoside penicillium oxalicum//*//* 723.0 * +EC3.2.1.52 4-nitrophenyl 2-acetamido-2-deoxy-beta-d-glucopyranoside penicillium oxalicum//*//* 347.0 * +EC3.2.1.52 4-nitrophenyl beta-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.15 * +EC3.2.1.52 4-nitrophenyl beta-n-acetyl-d-glucosaminide cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 0.18 * +EC3.2.1.52 4-nitrophenyl beta-n-acetyl-d-glucosaminide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 19.2 * +EC3.2.1.52 4-nitrophenyl di-n-acetyl-beta-d-chitobiose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 199.0 * +EC3.2.1.52 4-nitrophenyl di-n-acetyl-beta-d-chitobiose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 220.8 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 6.08 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 26.7 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 246.2 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 273.4 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosaminide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 11.0 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosaminide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 19.2 * +EC3.2.1.52 4-nitrophenyl tri-n-acetyl-beta-d-chitotriose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 146.7 * +EC3.2.1.52 4-nitrophenyl tri-n-acetyl-beta-d-chitotriose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 147.2 * +EC3.2.1.52 4-nitrophenyl-2-(acetamino)-2-deoxy-beta-d-glucopyranoside palythoa caribaeorum//*//* 0.61 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-galactosaminide cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 129.0 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-galactosaminide ostrinia furnacalis//*//* 766.0 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-glucosaminide cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 482.0 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-glucosaminide ostrinia furnacalis//*//* 708.0 * +EC3.2.1.52 chitobiose ostrinia furnacalis//*//* 507.0 * +EC3.2.1.52 glcnacbeta(1-2)manalpha(1-6)[glcnacbeta(1-2)manalpha(1-3)]manbeta(1-4)glcnacbeta(1-4)glcnac-2-pyridylaminoside spodoptera frugiperda//*//* 0.0025 * +EC3.2.1.52 glcnacbeta(1-2)manalpha(1-6)[manalpha(1-3)]manbeta(1-4)glcnacbeta(1-4)glcnac-2-pyridylaminoside spodoptera frugiperda//*//* 0.0007 * +EC3.2.1.52 glcnacbeta(1-4)glcnac ostrinia furnacalis//*//* 934.0 * +EC3.2.1.52 manalpha(1-6)[glcnacbeta(1-2)manalpha(1-3)]manbeta(1-4)glcnacbeta(1-4)glcnac-2-pyridylaminoside spodoptera frugiperda//*//* 0.0016 * +EC3.2.1.52 manalpha(1-6)[manalpha(1-3)]manalpha(1-6)[glcnacbeta(1-2)manalpha(1-3)]manbeta(1-4)glcnacbeta(1-4)glcnac-2-pyridylaminoside spodoptera frugiperda//*//* 0.0012 * +EC3.2.1.52 n,n-diacetylchitobiose cupiennius salei//*//* 28.5 * +EC3.2.1.52 n-acetylglucosaminyl-beta-1,2-man streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.46 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 110.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside bombyx mori//eukaryotes;animals;arthropods;insects//bmor 1150.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside cupiennius salei//*//* 2.8 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.58 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 187.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside bombyx mori//eukaryotes;animals;arthropods;insects//bmor 890.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside cupiennius salei//*//* 30.2 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside marsupenaeus japonicus//*//* 598.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.66 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-glalactosamine oryza sativa//eukaryotes;plants;monocots;grass family//osa 7500.0 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-glucosaminide oryza sativa//eukaryotes;plants;monocots;grass family//osa 79830.0 * +EC3.2.1.52 p-nitrophenyl-thio-beta-n-acetyl-d-glucosaminide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.83 * +EC3.2.1.53 4-nitrophenyl beta-n-acetylgalactosaminide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 7.3 * +EC3.2.1.54 acarbose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 228.0 * +EC3.2.1.54 alpha-cyclodextrin anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 545.0 * +EC3.2.1.54 alpha-cyclodextrin flavobacterium sp. 92//*//* 40.9 * +EC3.2.1.54 alpha-cyclodextrin laceyella sacchari//*//* 46.1 * +EC3.2.1.54 alpha-cyclodextrin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 800.0 * +EC3.2.1.54 alpha-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 241.0 * +EC3.2.1.54 amylopectin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 50.36 * +EC3.2.1.54 amylose anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 13.4 * +EC3.2.1.54 amylose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 22.11 * +EC3.2.1.54 amylose laceyella sacchari//*//* 23.0 * +EC3.2.1.54 beta-cyclodextrin anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 315.0 * +EC3.2.1.54 beta-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 78.2 * +EC3.2.1.54 beta-cyclodextrin flavobacterium sp. 92//*//* 26.5 * +EC3.2.1.54 beta-cyclodextrin laceyella sacchari//*//* 73.7 * +EC3.2.1.54 beta-cyclodextrin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 2044.0 * +EC3.2.1.54 beta-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 610.0 * +EC3.2.1.54 beta-cyclomaltodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.68 * +EC3.2.1.54 cyclomaltoheptaose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 78.18 * +EC3.2.1.54 gamma-cyclodextrin bacillus clarkii//*//* 3100.0 * +EC3.2.1.54 gamma-cyclodextrin flavobacterium sp. 92//*//* 17.4 * +EC3.2.1.54 gamma-cyclodextrin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 1155.0 * +EC3.2.1.54 gamma-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 173.0 * +EC3.2.1.54 maltoheptaose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 160.0 * +EC3.2.1.54 maltooctaose bacillus clarkii//*//* 0.03 * +EC3.2.1.54 maltotriose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 268.0 * +EC3.2.1.54 pullulan anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 3.6 * +EC3.2.1.54 pullulan laceyella sacchari//*//* 42.6 * +EC3.2.1.54 pullulan thermoactinomyces vulgaris//*//* 140.0 * +EC3.2.1.54 soluble starch anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 16.9 * +EC3.2.1.54 soluble starch laceyella sacchari//*//* 36.8 * +EC3.2.1.54 starch pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 67.0 * +EC3.2.1.54 starch thermoactinomyces vulgaris//*//* 120.0 * +EC3.2.1.55 1,5-alpha-l-arabinobiose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 32.0 * +EC3.2.1.55 1,5-alpha-l-arabinotriose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 88.0 * +EC3.2.1.55 2',4',6'-trichlorophenyl alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 65.0 * +EC3.2.1.55 2',5'-dinitrophenyl alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 190.0 * +EC3.2.1.55 2,5-dinitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 8.25 * +EC3.2.1.55 3',4'-dinitrophenyl alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 340.0 * +EC3.2.1.55 3-nitrophenyl-alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 83.0 * +EC3.2.1.55 4-chloro-2-nitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 6.52 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside alicyclobacillus sp.//*//* 23.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 285.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 328.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside penicillium purpurogenum//*//* 2.73 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside pleurotus ostreatus//*//* 50.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside pseudothermotoga thermarum//prokaryotes;bacteria;thermotogae;pseudothermotoga//tta 151.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.11 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside thermobacillus xylanilyticus//*//* 139.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside thermomyces dupontii//*//* 14.3 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside uncultured rumen bacterium//*//* 5.6 * +EC3.2.1.55 4-nitrophenyl beta-d-galactofuranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 327.0 * +EC3.2.1.55 4-nitrophenyl beta-d-galactofuranoside penicillium purpurogenum//*//* 1.0 * +EC3.2.1.55 4-nitrophenyl beta-d-glucopyranoside pleurotus ostreatus//*//* 0.38 * +EC3.2.1.55 4-nitrophenyl beta-d-xylopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 10.6 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 87.0 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside penicillium chrysogenum//*//* 59.3 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside pleurotus ostreatus//*//* 50.17 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 0.38 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.78 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.02 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside thermobacillus xylanilyticus//*//* 4100.0 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.039 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinopyranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 3.53 * +EC3.2.1.55 4-nitrophenyl-beta-d-glucopyranoside pleurotus ostreatus//*//* 0.155 * +EC3.2.1.55 alpha-1,3-arabinoxylobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 8.6 * +EC3.2.1.55 alpha-1,5-arabinotriose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.6 * +EC3.2.1.55 alpha-1,5-l-arabinohexaose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 94000.0 * +EC3.2.1.55 alpha-1,5-l-arabinopentaose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 81000.0 * +EC3.2.1.55 alpha-1,5-l-arabinotetraose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 105000.0 * +EC3.2.1.55 alpha-1,5-l-arabinotriose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 113000.0 * +EC3.2.1.55 beechwood xylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.47 * +EC3.2.1.55 birchwood xylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.48 * +EC3.2.1.55 insoluble wheat arabinoxylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.05 * +EC3.2.1.55 linear alpha-1,5-l-arabinan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 12.0 * +EC3.2.1.55 m-nitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 2.02 * +EC3.2.1.55 oat spelt xylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.12 * +EC3.2.1.55 p-cyanophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 1.7 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranose thermobacillus xylanilyticus//*//* 355.0 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.36 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside aspergillus kawachii//*//* 0.099 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 306.0 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside penicillium purpurogenum//*//* 2.45 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 103.0 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 2.68 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 21.0 * +EC3.2.1.55 phenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 1.23 * +EC3.2.1.55 rye arabinoxylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.97 * +EC3.2.1.55 rye arabinoxylan talaromyces funiculosus//*//* 1.11 * +EC3.2.1.55 soluble wheat arabinoxylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 3.48 * +EC3.2.1.55 wheat arabinoxylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.07 * +EC3.2.1.55 wheat arabinoxylan talaromyces funiculosus//*//* 1.2 * +EC3.2.1.55 wheat l-arabinoxylan streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.3 * +EC3.2.1.57 panose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 180.0 * +EC3.2.1.58 4-nitrophenyl beta-d-glucopyranoside rhizomucor miehei//*//* 0.071 * +EC3.2.1.58 4-nitrophenyl-alpha-l-arabinofuranoside cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 123.6 * +EC3.2.1.58 cellobiose rhizomucor miehei//*//* 0.043 * +EC3.2.1.58 cellotetraose rhizomucor miehei//*//* 0.059 * +EC3.2.1.58 cellotriose rhizomucor miehei//*//* 0.067 * +EC3.2.1.58 gentobiose rhizomucor miehei//*//* 0.056 * +EC3.2.1.58 laminaran rasamsonia emersonii//*//* 29550.0 * +EC3.2.1.58 laminaran rhizomucor miehei//*//* 0.033 * +EC3.2.1.58 laminaribiose phanerochaete chrysosporium//*//* 45.6 * +EC3.2.1.58 laminaribiose rhizomucor miehei//*//* 0.078 * +EC3.2.1.58 laminarin aplysia kurodai//*//* 0.05 * +EC3.2.1.58 laminarin candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 157.0 * +EC3.2.1.58 laminaripentaose abracris flavolineata//*//* 1.53 * +EC3.2.1.58 laminaripentaose phanerochaete chrysosporium//*//* 33.7 * +EC3.2.1.58 laminaritetraose abracris flavolineata//*//* 2.3 * +EC3.2.1.58 laminaritetraose aplysia kurodai//*//* 4.79 * +EC3.2.1.58 laminaritetraose phanerochaete chrysosporium//*//* 39.0 * +EC3.2.1.58 laminaritriose phanerochaete chrysosporium//*//* 41.8 * +EC3.2.1.58 laminaritriose rhizomucor miehei//*//* 0.077 * +EC3.2.1.59 alpha-1,3-glucan bacillus circulans//*//* 91.3 * +EC3.2.1.6 1,3-1,4-beta-d-glucan rasamsonia emersonii//*//* 281.2 * +EC3.2.1.6 beta-1,3-1,4-glucan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7207.0 * +EC3.2.1.6 beta-glucan rhizomucor miehei//*//* 15600.0 * +EC3.2.1.6 beta-glucan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1233.0 * +EC3.2.1.6 carboxymethylcellulose rasamsonia emersonii//*//* 632.8 * +EC3.2.1.6 glc-beta(1,4)-glc-beta(1,3)-glc-methylumbelliferyl ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.383 * +EC3.2.1.6 laminarihexaose laceyella putida//*//* 582.0 * +EC3.2.1.6 laminarin aplysia kurodai//*//* 23.1 * +EC3.2.1.6 laminarin periplaneta americana//*//* 750.0 * +EC3.2.1.6 laminaripentaose laceyella putida//*//* 355.0 * +EC3.2.1.6 laminaritetraose aplysia kurodai//*//* 0.21 * +EC3.2.1.6 laminaritetraose laceyella putida//*//* 188.0 * +EC3.2.1.6 lichenan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1350.0 * +EC3.2.1.6 lichenan paenibacillus macerans//*//* 1191.0 * +EC3.2.1.6 lichenan rasamsonia emersonii//*//* 174.7 * +EC3.2.1.6 lichenin periplaneta americana//*//* 1050.0 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside ovis aries aries//*//* 33.8 * +EC3.2.1.62 c6-7-nitro-2,1,3-benzoxadiazole-glucosylceramide cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0383 * +EC3.2.1.62 daidzein-7-beta-d-glucopyranoside ovis aries aries//*//* 2.1 * +EC3.2.1.62 daidzein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.1 * +EC3.2.1.62 genistein-7-beta-d-glucopyranoside ovis aries aries//*//* 6.5 * +EC3.2.1.62 genistein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.5 * +EC3.2.1.62 lactose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 33.8 * +EC3.2.1.62 phlorizin ovis aries aries//*//* 0.5 * +EC3.2.1.62 phlorizin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.5 * +EC3.2.1.62 pyridoxine-5'-beta-d-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.2.1.62 quercetin-3-beta-d-glucopyranoside ovis aries aries//*//* 6.3 * +EC3.2.1.62 quercetin-3-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.3 * +EC3.2.1.62 quercetin-4'-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 7.5 * +EC3.2.1.62 quercetin-4-beta-d-glucopyranoside ovis aries aries//*//* 7.5 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)2 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.17 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)2 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 182.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)3 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.44 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)3 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 685.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)4 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.52 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)4 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 829.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)5 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.57 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)5 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 934.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)6 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.59 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)6 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 821.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)7 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.33 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)7 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 860.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)8 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.31 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)8 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 843.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 936.0 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]2 rhizopus oryzae//*//* 10.3 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]3 rhizopus oryzae//*//* 10.7 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]n aspergillus niveus//*//* 393.3 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]n penicillium oxalicum//*//* 4068.0 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]n rhizopus oryzae//*//* 2230.0 * +EC3.2.1.67 citric pectin aspergillus giganteus//*//* 770.0 * +EC3.2.1.67 polygalacturonic acid aspergillus giganteus//*//* 690.0 * +EC3.2.1.7 inulin arthrobacter sp. s37//*//* 711.7 * +EC3.2.1.7 inulin aspergillus ficuum//*//* 0.35 * +EC3.2.1.7 inulin bacillus smithii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsm 3.33 * +EC3.2.1.7 raffinose bacillus smithii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsm 0.5 * +EC3.2.1.7 sucrose aspergillus ficuum//*//* 0.053 * +EC3.2.1.7 sucrose bacillus smithii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsm 0.1377 * +EC3.2.1.70 4-nitrophenyl-alpha-d-glucopyranoside lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 597.0 * +EC3.2.1.70 dextran arthrobacter globiformis//*//* 95.2 * +EC3.2.1.70 dextran lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 384.0 * +EC3.2.1.70 isomaltoheptaose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 449.0 * +EC3.2.1.70 isomaltohexaose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 401.0 * +EC3.2.1.70 isomaltopentaose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 419.0 * +EC3.2.1.70 isomaltose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 517.0 * +EC3.2.1.70 isomaltose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 483.0 * +EC3.2.1.70 isomaltotetraose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 501.0 * +EC3.2.1.70 isomaltotetraose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 499.0 * +EC3.2.1.70 isomaltotriose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 475.0 * +EC3.2.1.70 isomaltotriose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 541.0 * +EC3.2.1.70 p-nitrophenyl alpha-d-glucoside streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 235.0 * +EC3.2.1.70 panose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 612.0 * +EC3.2.1.70 panose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 538.0 * +EC3.2.1.73 1,3-1,4-beta-d-glucan fibrobacter succinogenes//prokaryotes;bacteria;fibrobacteres;fibrobacter//fsu 2.25 * +EC3.2.1.73 4-methylumbelliferyl cellobiose synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.35 * +EC3.2.1.73 4-methylumbelliferyl laminaribiose synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.327 * +EC3.2.1.73 azo blue beta-glucan bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 267.0 * +EC3.2.1.73 barley beta-glucan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 19.11 * +EC3.2.1.73 barley beta-glucan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.091 * +EC3.2.1.73 barley beta-glucan malbranchea cinnamomea//*//* 0.016 * +EC3.2.1.73 barley beta-glucan neocallimastix patriciarum//*//* 133.3 * +EC3.2.1.73 barley beta-glucan paecilomyces sp. j18//*//* 102.0 * +EC3.2.1.73 barley beta-glucan paecilomyces sp.//*//* 81.6 * +EC3.2.1.73 barley beta-glucan synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 8.4 * +EC3.2.1.73 beta-1,3-1,4-glucan laetiporus sulphureus//*//* 13.5 * +EC3.2.1.73 beta-d-glc-(1-3)-alpha-d-glc-fluoride bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.04 * +EC3.2.1.73 beta-d-glc-(1-4)-beta-d-glc-(1-3)-alpha-d-glc-fluoride bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.91 * +EC3.2.1.73 beta-d-glc-(1-4)-beta-d-glc-(1-4)-beta-d-glc-(1-3)-alpha-d-glc-fluoride bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.35 * +EC3.2.1.73 beta-d-glucan bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 20.3 * +EC3.2.1.73 beta-d-glucan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 20.3 * +EC3.2.1.73 carboxymethylcellulose laetiporus sulphureus//*//* 5.3 * +EC3.2.1.73 laminarin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.65 * +EC3.2.1.73 lichenan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 13.32 * +EC3.2.1.73 lichenan bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 708.3 * +EC3.2.1.73 lichenan bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1191.0 * +EC3.2.1.73 lichenan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1220.0 * +EC3.2.1.73 lichenan fibrobacter succinogenes//prokaryotes;bacteria;fibrobacteres;fibrobacter//fsu 3920.0 * +EC3.2.1.73 lichenan malbranchea cinnamomea//*//* 0.007 * +EC3.2.1.73 lichenan paecilomyces sp.//*//* 166.4 * +EC3.2.1.73 lichenan paenibacillus macerans//*//* 1020.0 * +EC3.2.1.73 lichenan penicillium occitanis//*//* 1.707 * +EC3.2.1.73 lichenan synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.71 * +EC3.2.1.73 oat beta-glucan malbranchea cinnamomea//*//* 0.022 * +EC3.2.1.74 2,4-dinitrophenol cellobiose thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.00039 * +EC3.2.1.74 4-nitrophenyl beta-d-cellobioside uncultured bacterium//*//* 69.6 * +EC3.2.1.74 4-nitrophenyl beta-d-glucopyranoside stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 4945.0 * +EC3.2.1.74 4-nitrophenyl beta-d-glucopyranoside uncultured rumen bacterium//*//* 203.0 * +EC3.2.1.74 cellobiose fibrobacter succinogenes subsp. succinogenes s85//*//* 0.25 * +EC3.2.1.74 cellobiose stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 281.0 * +EC3.2.1.74 cellobiose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 32.0 * +EC3.2.1.74 cellohexaose fibrobacter succinogenes subsp. succinogenes s85//*//* 16.3 * +EC3.2.1.74 cellopentaose fibrobacter succinogenes subsp. succinogenes s85//*//* 16.4 * +EC3.2.1.74 cellotetraose fibrobacter succinogenes subsp. succinogenes s85//*//* 18.6 * +EC3.2.1.74 cellotriose fibrobacter succinogenes subsp. succinogenes s85//*//* 6.21 * +EC3.2.1.76 5-fluoro-alpha-l-idopyranosyluronic acid fluoride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC3.2.1.78 1,4-beta-d-mannan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 148.0 * +EC3.2.1.78 beta-1,4-d-mannan bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 18200.0 * +EC3.2.1.78 carob galactomannan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 292.0 * +EC3.2.1.78 galactomannan hordeum vulgare//*//* 12.9 * +EC3.2.1.78 glucomannan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 215.0 * +EC3.2.1.78 glucomannan bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 21000.0 * +EC3.2.1.78 guar gum hypothenemus hampei//*//* 50.87 * +EC3.2.1.78 guar gum rhizomucor miehei//*//* 4.77 * +EC3.2.1.78 locust bean gum galactomannan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 330.0 * +EC3.2.1.78 locust bean gum bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 31200.0 * +EC3.2.1.78 locust bean gum glycine max//eukaryotes;plants;eudicots;pea family//gmx 25.2 * +EC3.2.1.78 locust bean gum rhizomucor miehei//*//* 14.9 * +EC3.2.1.78 low viscosity locust bean galactomannan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2246.0 * +EC3.2.1.78 man-beta-1,4-man-beta-1,4-man-beta-1,4-man-beta-1,4-man aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 193.0 * +EC3.2.1.78 man-beta-1,4-man-beta-1,4-man-beta-1,4-man aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 112.0 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)man cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 1.17 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)man cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 11.64 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)man mytilus edulis//*//* 0.7 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 52.42 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man hordeum vulgare//*//* 3.9 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man mytilus edulis//*//* 45.0 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 77.0 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man mytilus edulis//*//* 99.0 * +EC3.2.1.8 1,4-beta-d-xylan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 82.0 * +EC3.2.1.8 2,5-dinitrophenyl-beta-d-xylobioside bacillus circulans//*//* 34.0 * +EC3.2.1.8 2-chloro-4-nitrophenyl beta-d-xylobioside thermothelomyces heterothallica//*//* 0.13 * +EC3.2.1.8 2-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 523.0 * +EC3.2.1.8 4-methylumbelliferyl-beta-xylobiose thermothelomyces heterothallica//*//* 0.06 * +EC3.2.1.8 4-methylumbelliferyl-beta-xylotriose thermothelomyces heterothallica//*//* 66.58 * +EC3.2.1.8 4-methylumbelliferyl-xylobiose thermoascus aurantiacus//*//* 3333.0 * +EC3.2.1.8 4-methylumbelliferyl-xylotriose thermoascus aurantiacus//*//* 833.0 * +EC3.2.1.8 4-nitrophenyl alpha-l-arabinofuranoside thermoascus aurantiacus//*//* 85.5 * +EC3.2.1.8 4-nitrophenyl alpha-l-arabinopyranoside thermoascus aurantiacus//*//* 133.3 * +EC3.2.1.8 4-nitrophenyl beta-d-cellobioside thermoascus aurantiacus//*//* 5000.0 * +EC3.2.1.8 4-nitrophenyl beta-d-xylopyranoside thermoascus aurantiacus//*//* 769.0 * +EC3.2.1.8 4-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 898.0 * +EC3.2.1.8 4-o-methyl-d-glucurono-d-xylan fusarium oxysporum f. sp. vasinfectum//*//* 0.27 * +EC3.2.1.8 arabinoxylan penicillium griseofulvum//*//* 1166.0 * +EC3.2.1.8 arabinoxylan remersonia thermophila//*//* 1785.0 * +EC3.2.1.8 beechwood xylan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 10200.0 * +EC3.2.1.8 beechwood xylan massilia sp. rbm26//*//* 47.3 * +EC3.2.1.8 beechwood xylan melanocarpus albomyces//*//* 83.8 * +EC3.2.1.8 beechwood xylan pseudothermotoga thermarum//prokaryotes;bacteria;thermotogae;pseudothermotoga//tta 520.0 * +EC3.2.1.8 beechwood xylan remersonia thermophila//*//* 1034.0 * +EC3.2.1.8 beechwood xylan thermomyces lanuginosus//*//* 3430.0 * +EC3.2.1.8 beta-1,4-xylan aspergillus sulphureus//*//* 6551.0 * +EC3.2.1.8 beta-1,4-xylan kocuria sp. mn22//*//* 185.1 * +EC3.2.1.8 beta-1,4-xylan nesterenkonia xinjiangensis//*//* 18.12 * +EC3.2.1.8 beta-1,4-xylan penicillium sp. cgmcc 1669//*//* 5416.0 * +EC3.2.1.8 beta-1,4-xylan pseudozyma hubeiensis//*//* 3333.0 * +EC3.2.1.8 beta-1,4-xylan scytalidium acidophilum//*//* 68.2 * +EC3.2.1.8 beta-1,4-xylan sphingobacterium sp. tn19//*//* 603.8 * +EC3.2.1.8 beta-1,4-xylan trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 512.4 * +EC3.2.1.8 birchwood xylan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 7764.0 * +EC3.2.1.8 birchwood xylan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 140.1 * +EC3.2.1.8 birchwood xylan hordeum vulgare//*//* 72.07 * +EC3.2.1.8 birchwood xylan melanocarpus albomyces//*//* 73.0 * +EC3.2.1.8 birchwood xylan penicillium griseofulvum//*//* 292.0 * +EC3.2.1.8 birchwood xylan streptomyces fradiae//*//* 103.4 * +EC3.2.1.8 birchwood xylan streptomyces sp. s27//*//* 1737.0 * +EC3.2.1.8 birchwood xylan talaromyces funiculosus//*//* 997.0 * +EC3.2.1.8 birchwood xylan uncultured bacterium//*//* 125.9 * +EC3.2.1.8 carboxymethylcellulose myrothecium verrucaria//*//* 3.0 * +EC3.2.1.8 insoluble oat spelt xylan remersonia thermophila//*//* 1657.0 * +EC3.2.1.8 larchwood xylan melanocarpus albomyces//*//* 53.4 * +EC3.2.1.8 oat spelt xylan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 17250.0 * +EC3.2.1.8 oat spelt xylan hordeum vulgare//*//* 47.01 * +EC3.2.1.8 oat spelt xylan streptomyces fradiae//*//* 170.8 * +EC3.2.1.8 oat spelt xylan streptomyces sp. s27//*//* 3475.0 * +EC3.2.1.8 oat spelt xylan thermomyces lanuginosus//*//* 2600.0 * +EC3.2.1.8 oat-spelt xylan streptomyces sp. tn119//*//* 49.2 * +EC3.2.1.8 p-nitrophenyl-beta-d-xylobioside streptomyces olivaceoviridis//*//* 42.17 * +EC3.2.1.8 soluble birchwood xylan paenibacillus curdlanolyticus//*//* 129.0 * +EC3.2.1.8 soluble oat spelt xylan remersonia thermophila//*//* 1492.0 * +EC3.2.1.8 wheat arabinoxylan penicillium griseofulvum//*//* 545.0 * +EC3.2.1.8 xylan acrophialophora nainiana//*//* 0.099 * +EC3.2.1.8 xylan aspergillus giganteus//*//* 1345.0 * +EC3.2.1.8 xylan myrothecium verrucaria//*//* 28.7 * +EC3.2.1.8 xylan pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 1247.0 * +EC3.2.1.8 xylan talaromyces funiculosus//*//* 5405.0 * +EC3.2.1.8 xylan thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 86.0 * +EC3.2.1.8 xylan thermomonospora sp.//*//* 223.3 * +EC3.2.1.8 xylan thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 106.5 * +EC3.2.1.8 xylohexaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 68.0 * +EC3.2.1.8 xylopentaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 50.3 * +EC3.2.1.8 xylotetraose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.162 * +EC3.2.1.8 xylotriose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.045 * +EC3.2.1.80 1-kestose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 21.0 * +EC3.2.1.80 actilight kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.09 * +EC3.2.1.80 agave tequilana fructan kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.9 * +EC3.2.1.80 inulin kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.1 * +EC3.2.1.80 inulin penicillium sp.//*//* 1110.0 * +EC3.2.1.80 levan kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.33 * +EC3.2.1.80 sucrose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.27 * +EC3.2.1.80 sucrose penicillium sp.//*//* 5000.0 * +EC3.2.1.81 agarose agarivorans albus//*//* 41.0 * +EC3.2.1.81 agarose saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 22.0 * +EC3.2.1.81 neoagarodecaose pseudoalteromonas sp. cy24//*//* 0.19 * +EC3.2.1.81 neoagarododecaose pseudoalteromonas sp. cy24//*//* 4.77 * +EC3.2.1.81 neoagarotetradecaose pseudoalteromonas sp. cy24//*//* 5.16 * +EC3.2.1.82 pectin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 160.2 * +EC3.2.1.82 polygalacturonic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 85.4 * +EC3.2.1.85 2-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 361.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 57.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 83.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 63.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 4.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 7.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-glucopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 9.0 * +EC3.2.1.85 p-nitrophenyl-6-phospho-beta-d-galactopyranose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 22.0 * +EC3.2.1.85 p-nitrophenyl-6-phospho-beta-d-glucopyranose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.0 * +EC3.2.1.85 p-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 7.0 * +EC3.2.1.85 p-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 22.0 * +EC3.2.1.85 p-nitrophenyl-beta-d-galactopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 18.0 * +EC3.2.1.85 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 2.0 * +EC3.2.1.85 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.0 * +EC3.2.1.85 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.0 * +EC3.2.1.86 2,4-dinitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.29 * +EC3.2.1.86 2,5-dinitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.95 * +EC3.2.1.86 2-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.21 * +EC3.2.1.86 2-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 41.0 * +EC3.2.1.86 3,4-dinitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.15 * +EC3.2.1.86 3,5-dichlorophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.33 * +EC3.2.1.86 3-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.69 * +EC3.2.1.86 4-chloro-2-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.69 * +EC3.2.1.86 4-cyanophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.01 * +EC3.2.1.86 4-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.99 * +EC3.2.1.86 4-nitrophenyl-beta-d-glucopyranoside 6-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 195.0 * +EC3.2.1.86 4-nitrophenyl-beta-d-glucopyranoside 6-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.243 * +EC3.2.1.86 4-tert-butylphenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.21 * +EC3.2.1.86 cellobiose 6-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 170.0 * +EC3.2.1.86 p-nitrophenyl 6-phospho-beta-d-thioglucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.6 * +EC3.2.1.86 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.9 * +EC3.2.1.91 2,4-dinitrophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 104.0 * +EC3.2.1.91 2,4-dinitrophenyl cellobiose thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.057 * +EC3.2.1.91 2-chloro-4-nitrophenyl beta-d-lactoside trichoderma harzianum//*//* 0.74 * +EC3.2.1.91 2-chloro-4-nitrophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 12.8 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside acremonium thermophilum//*//* 0.0467 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.3167 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside melanocarpus albomyces//*//* 0.0167 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside thermoascus aurantiacus//*//* 0.0283 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.043 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-lactoside trichoderma harzianum//*//* 0.74 * +EC3.2.1.91 2-chloronitrophenyl-beta-d-cellotrioside rasamsonia emersonii//*//* 8.9 * +EC3.2.1.91 2-chloronitrophenyl-beta-d-lactoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 9108.0 * +EC3.2.1.91 4-bromophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.7 * +EC3.2.1.91 4-methylumbelliferyl beta-d-cellobioside thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.35 * +EC3.2.1.91 4-methylumbelliferyl beta-d-lactopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.49 * +EC3.2.1.91 4-methylumbelliferyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 47.0 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside acremonium thermophilum//*//* 0.1883 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 1.15 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside melanocarpus albomyces//*//* 0.143 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside thermoascus aurantiacus//*//* 0.325 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.4783 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 15.8 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside trichoderma harzianum//*//* 0.39 * +EC3.2.1.91 4-nitrophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.5 * +EC3.2.1.91 4-nitrophenyl d-cellobioside trichoderma harzianum//*//* 0.39 * +EC3.2.1.91 4-nitrophenyl lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.093 * +EC3.2.1.91 4-nitrophenyl-beta-d-cellobioside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2952.0 * +EC3.2.1.91 4-nitrophenyl-beta-d-lactoside rasamsonia emersonii//*//* 13.4 * +EC3.2.1.91 alpha-cellobiosyl fluoride humicola insolens//*//* 0.01 * +EC3.2.1.91 alpha-cellobiosyl fluoride trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.54 * +EC3.2.1.91 amorphous cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 5.1 * +EC3.2.1.91 avicel trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 4.75 * +EC3.2.1.91 bacterial microcrystalline cellulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.4 * +EC3.2.1.91 beta-cellobiosyl fluoride humicola insolens//*//* 0.071 * +EC3.2.1.91 beta-cellobiosyl fluoride trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 4.0 * +EC3.2.1.91 cellohexaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 14.0 * +EC3.2.1.91 cellopentaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.1 * +EC3.2.1.91 cellotetraose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 4.1 * +EC3.2.1.91 cellotriose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.06 * +EC3.2.1.94 dextran arthrobacter dextranolyticus//*//* 496.0 * +EC3.2.1.96 9-fluorenylmethyloxycarbonyl-labeled asparagine-linked agalactobiantennary oligosaccharide ogataea minuta//*//* 5.91 * +EC3.2.1.96 dansyl-asn-(glcnac)2(man)5 glutamicibacter protophormiae//*//* 365.0 * +EC3.2.1.97 4,6-dimethoxy-1,3,5-triazin-2-yl alpha-n-acetylgalactosaminide bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 16.7 * +EC3.2.1.97 galbeta(1,3)galnacalpha-1-p-nitrophenol bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 37.0 * +EC3.2.1.97 galbeta(1-3)galnacalpha1-p-nitrophenol bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 17.8 * +EC3.2.1.97 galbeta1-3galnacalpha-pnp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 49.9 * +EC3.2.1.97 galbeta1-3galnacalpha1-pnp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 110.0 * +EC3.2.1.97 tn antigen bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 47.6 * +EC3.2.1.98 maltononaose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 12.86 * +EC3.2.1.99 1,5-alpha-l-arabinan caldicellulosiruptor saccharolyticus dsm 8903//*//* 50.0 * +EC3.2.1.99 linear 1,5-alpha-l-arabinan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 191.6 * +EC3.2.1.99 linear 1,5-alpha-l-arabinan paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 68.7 * +EC3.2.1.99 linear arabinan pseudothermotoga thermarum//prokaryotes;bacteria;thermotogae;pseudothermotoga//tta 349.3 * +EC3.2.1.B1 neoagarodecaose pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.19 * +EC3.2.1.B1 neoagarododecaose pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 4.77 * +EC3.2.1.B1 neoagarotetradecaose pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 5.16 * +EC3.2.1.B16 1alpha(s)-6-o-methyl-n-deacetylisoipecoside carapichea ipecacuanha//*//* 18.7 * +EC3.2.1.B16 1alpha(s)-n-deacetylisoipecoside carapichea ipecacuanha//*//* 86.3 * +EC3.2.1.B16 1beta(r)-6-o-methyl-n-deacetylipecoside carapichea ipecacuanha//*//* 31.1 * +EC3.2.1.B16 1beta(r)-n-deacetylipecoside carapichea ipecacuanha//*//* 28.2 * +EC3.2.1.B16 ipecoside carapichea ipecacuanha//*//* 51.6 * +EC3.2.1.B16 vincoside carapichea ipecacuanha//*//* 6.4 * +EC3.2.1.B28 2-nitrophenyl beta-d-galactopyranoside-6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 49.0 * +EC3.2.1.B28 2-nitrophenyl beta-d-galactopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 9600.0 * +EC3.2.1.B28 2-nitrophenyl beta-d-galactoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 10000.0 * +EC3.2.1.B28 2-nitrophenyl beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3300.0 * +EC3.2.1.B28 4-nitrophenyl beta-d-galactopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4863.0 * +EC3.2.1.B28 4-nitrophenyl beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2600.0 * +EC3.2.1.B28 4-nitrophenyl beta-d-glucoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 7.1 * +EC3.2.1.B28 4-nitrophenyl beta-d-mannopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 65.9 * +EC3.2.1.B28 cellobiose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 670.0 * +EC3.2.1.B28 daidzin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1880.0 * +EC3.2.1.B28 genistin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6050.0 * +EC3.2.1.B28 glycitin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 610.0 * +EC3.2.1.B28 hesperidin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 68.4 * +EC3.2.1.B28 isoquercitrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 53.3 * +EC3.2.1.B28 lactose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3800.0 * +EC3.2.1.B28 methyl beta-d-galactoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.3 * +EC3.2.1.B28 naringin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 27.7 * +EC3.2.1.B28 narirutin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 74.1 * +EC3.2.1.B28 neohesperidin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 84.8 * +EC3.2.1.B28 quercitrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.22 * +EC3.2.1.B31 isoquercitrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 53.3 * +EC3.2.1.B31 quercitrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.22 * +EC3.2.1.B31 rutin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.027 * +EC3.2.1.B34 2-nitrophenyl beta-d-fucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 26.4 * +EC3.2.1.B34 2-nitrophenyl beta-d-galactopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1450.0 * +EC3.2.1.B34 2-nitrophenyl beta-d-galactoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1300.0 * +EC3.2.1.B34 2-nitrophenyl beta-d-glucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 16.7 * +EC3.2.1.B34 4-nitrophenyl beta-d-fucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 18.6 * +EC3.2.1.B34 4-nitrophenyl beta-d-galactopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 9.01 * +EC3.2.1.B34 4-nitrophenyl beta-d-glucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 14.6 * +EC3.2.1.B34 lactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1500.0 * +EC3.2.1.B34 methyl beta-d-galactoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.6 * +EC3.2.1.B35 4-nitrophenyl beta-d-fucopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 322.3 * +EC3.2.1.B35 4-nitrophenyl beta-d-galactopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3270.0 * +EC3.2.1.B35 4-nitrophenyl beta-d-glucopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1650.0 * +EC3.2.1.B35 4-nitrophenyl beta-d-mannopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 243.0 * +EC3.2.1.B36 6-o-maltotetraosyl-beta-cyclodextrin pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 25.75 * +EC3.2.1.B36 6-o-maltotetraosyl-beta-cyclodextrin thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 30.1 * +EC3.2.1.B36 maltopentaose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.0017 * +EC3.2.1.B36 maltopentaose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.85 * +EC3.2.1.B36 maltotetraose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.0033 * +EC3.2.1.B36 maltotetraose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.95 * +EC3.2.1.B36 maltotriose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 6.35 * +EC3.2.1.B36 maltotriose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 11.45 * +EC3.2.1.B39 oleuropein sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 350.8 * +EC3.2.1.B8 4-nitrophenyl alpha-maltopentaoside thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 16.28 * +EC3.2.1.B8 beta-cyclodextrin thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.37 * +EC3.2.1.B8 maltoheptaose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.09 * +EC3.2.1.B8 maltohexaose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.56 * +EC3.2.1.B8 maltopentaose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.18 * +EC3.2.1.B8 maltotetraose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.34 * +EC3.2.1.B8 maltotriose thermotoga maritima msb8//prokaryotes;bacteria;thermotogae;thermotoga//tma 3.2 * +EC3.2.2.1 2-aminopurine riboside trypanosoma brucei brucei//*//* 0.57 * +EC3.2.2.1 2-aminopurine riboside trypanosoma vivax//*//* 0.57 * +EC3.2.2.1 3-deazaadenosine trypanosoma brucei brucei//*//* 0.009 * +EC3.2.2.1 4-nitrophenyl beta-d-ribofuranoside trypanosoma brucei brucei//*//* 0.03 * +EC3.2.2.1 5'-deoxyadenosine trypanosoma brucei brucei//*//* 0.078 * +EC3.2.2.1 7-methyl guanosine trypanosoma vivax//*//* 3.4 * +EC3.2.2.1 7-methylguanosine trypanosoma brucei brucei//*//* 5.2 * +EC3.2.2.1 adenosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.78 * +EC3.2.2.1 adenosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 2.1 * +EC3.2.2.1 adenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.8 * +EC3.2.2.1 adenosine trypanosoma brucei brucei//*//* 0.237 * +EC3.2.2.1 adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 17.3 * +EC3.2.2.1 adenosine trypanosoma vivax//*//* 2.6 * +EC3.2.2.1 cytidine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.5 * +EC3.2.2.1 cytidine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 7.8 * +EC3.2.2.1 cytidine trypanosoma brucei brucei//*//* 0.52 * +EC3.2.2.1 cytidine trypanosoma vivax//*//* 0.338 * +EC3.2.2.1 ethenoadenosine trypanosoma brucei brucei//*//* 6.9 * +EC3.2.2.1 guanosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.84 * +EC3.2.2.1 guanosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 29.1 * +EC3.2.2.1 guanosine trypanosoma brucei brucei//*//* 37.6 * +EC3.2.2.1 guanosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 37.3 * +EC3.2.2.1 guanosine trypanosoma vivax//*//* 2.3 * +EC3.2.2.1 inosine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 48.9 * +EC3.2.2.1 inosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.79 * +EC3.2.2.1 inosine crithidia fasciculata//*//* 32.0 * +EC3.2.2.1 inosine physcomitrella patens//eukaryotes;plants;mosses//ppp 6.0 * +EC3.2.2.1 inosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 9.0 * +EC3.2.2.1 inosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 23.3 * +EC3.2.2.1 inosine trypanosoma brucei brucei//*//* 2.0 * +EC3.2.2.1 inosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 61.0 * +EC3.2.2.1 inosine trypanosoma vivax//*//* 5.49 * +EC3.2.2.1 inosine zea mays//eukaryotes;plants;monocots;grass family//zma 7.2 * +EC3.2.2.1 p-nitrophenylriboside trypanosoma vivax//*//* 0.206 * +EC3.2.2.1 purine ribonucleoside trypanosoma vivax//*//* 3.9 * +EC3.2.2.1 purine riboside trypanosoma brucei brucei//*//* 0.248 * +EC3.2.2.1 uridine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0022 * +EC3.2.2.1 uridine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 46.0 * +EC3.2.2.1 uridine trypanosoma brucei brucei//*//* 0.0038 * +EC3.2.2.1 uridine trypanosoma vivax//*//* 0.022 * +EC3.2.2.1 xanthosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.029 * +EC3.2.2.1 xanthosine physcomitrella patens//eukaryotes;plants;mosses//ppp 7.0 * +EC3.2.2.1 xanthosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 62.0 * +EC3.2.2.1 xanthosine trypanosoma brucei brucei//*//* 6.2 * +EC3.2.2.1 xanthosine zea mays//eukaryotes;plants;monocots;grass family//zma 6.2 * +EC3.2.2.16 5'-methylthioadenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 18.7 * +EC3.2.2.16 5'-methylthioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.2.2.16 5'-methylthioadenosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 20.0 * +EC3.2.2.16 5'-methylthioadenosine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00973 * +EC3.2.2.16 5'-methylthioadenosine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.25 * +EC3.2.2.16 5'-methylthioadenosine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 4.2 * +EC3.2.2.16 s-adenosyl-l-homocysteine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 7.1 * +EC3.2.2.16 s-adenosyl-l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC3.2.2.16 s-adenosyl-l-homocysteine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.8 * +EC3.2.2.16 s-adenosyl-l-homocysteine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.37 * +EC3.2.2.16 s-methyl-5'-thioadenosine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 8.8 * +EC3.2.2.16 s-methyl-5'-thioadenosine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 1.8 * +EC3.2.2.16 s-methyl-5'-thioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC3.2.2.16 s-methyl-5'-thioadenosine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.8 * +EC3.2.2.16 s-methyl-5'-thioadenosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 20.0 * +EC3.2.2.16 s-methyl-5'-thioadenosine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 10.2 * +EC3.2.2.16 s-methyl-5'-thioadenosine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 4.2 * +EC3.2.2.2 adenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.8 * +EC3.2.2.2 guanosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 29.1 * +EC3.2.2.2 inosine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 48.9 * +EC3.2.2.2 inosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 23.3 * +EC3.2.2.21 1,n6-ethenoadenine residues in alkylated dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000833 * +EC3.2.2.21 1,n6-ethenoadenine residues in alkylated dna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0167 * +EC3.2.2.21 duplex oligonucleotide substrate containing ethenoadenine and hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00125 * +EC3.2.2.21 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.2.2.22 5'-dg1dc2dg3dc4dg5a6dg7da8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0083 * +EC3.2.2.22 5'-dg1dc2dg3dc4dg5da6dg7a8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.015 * +EC3.2.2.22 5'-dg1dc2dg3dc4dg5da6g7da8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0015 * +EC3.2.2.22 5'-dg1dc2dg3dc4g5da6dg7da8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0038 * +EC3.2.2.22 5'-g1c2g3c4dg5a6dg7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0007 * +EC3.2.2.22 5'-g1c2g3c4dg5a6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.005 * +EC3.2.2.22 5'-g1c2g3c4dg5a6g7da8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.01 * +EC3.2.2.22 5'-g1c2g3c4g5a6dg7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.011 * +EC3.2.2.22 5'-g1c2g3c4g5a6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 1.68 * +EC3.2.2.22 5'-g1c2g3c4g5a6g7da8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.055 * +EC3.2.2.22 5'-g1c2g3c4g5a6g7ma8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.085 * +EC3.2.2.22 5'-g1c2g3c4g5a6mg7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.005 * +EC3.2.2.22 5'-g1c2g3c4g5da6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 27.67 * +EC3.2.2.22 5'-g1c2g3c4g5ma6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.07 * +EC3.2.2.22 5'-g1c2g3c4mg5a6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.001 * +EC3.2.2.22 a-10 rna saponaria officinalis//*//* 7.33 * +EC3.2.2.22 a-14 2-da stem-loop rna/dna hybrid ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 18.5 * +EC3.2.2.22 cyclic dg-(n-benzyl-aza-deoxyribosyl)-dgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.018 * +EC3.2.2.22 cyclic dgdadgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.108 * +EC3.2.2.22 cyclic gdaga ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.018 * +EC3.2.2.22 cyclic oxime gaga saponaria officinalis//*//* 5.01 * +EC3.2.2.22 cyclic phosphorothioyl dgdadgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.15 * +EC3.2.2.22 dgdadgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0045 * +EC3.2.2.22 dgdcdgdcdgdadgdadgdcdgdc ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0083 * +EC3.2.2.22 gdaga ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.003 * +EC3.2.2.22 linear gaga saponaria officinalis//*//* 4.88 * +EC3.2.2.22 poly(a) saponaria officinalis//*//* 3.05 * +EC3.2.2.22 rrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.8 * +EC3.2.2.22 rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 29.6 * +EC3.2.2.22 rrna saponaria officinalis//*//* 62.0 * +EC3.2.2.22 sarcin/ricin domains of escherichia coli 23s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0012 * +EC3.2.2.22 sarcin/ricin domains of rattus norvegicus 28s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0018 * +EC3.2.2.22 stem-loop substrate a-10 ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.078 * +EC3.2.2.23 13mer oligonucleotide duplex containing 8-oxoguanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0273 * +EC3.2.2.23 5,6-dihydrouracil-dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.2.2.23 8-oxo-7,8-dihydroguanine:cyt oligodeoxynucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.2.2.23 dna containing 5,6-dihydrouracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC3.2.2.23 dna containing 7-deaza-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC3.2.2.23 dna containing 7-deaza-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00078 * +EC3.2.2.23 dna containing 7-hydro-8-oxoguanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC3.2.2.23 dna containing 7-methyl-8-oxo-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00051 * +EC3.2.2.23 dna containing 7-methyl-8-oxo-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC3.2.2.23 dna containing 8-hydroxyguanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC3.2.2.23 dna containing 8-oxo-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC3.2.2.23 dna containing 8-oxo-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.2.2.23 dna containing 8-oxo-guanine residues mispaired to adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00011 * +EC3.2.2.23 dna containing 8-oxo-guanine residues mispaired to guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0035 * +EC3.2.2.23 dna containing 8-oxo-guanine residues mispaired to thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0047 * +EC3.2.2.23 dna containing 8-oxo-guanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC3.2.2.23 dna containing 8-thio-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00045 * +EC3.2.2.23 dna containing 8-thio-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC3.2.2.23 dna containing ring-opened n7-methylguanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.085 * +EC3.2.2.23 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0568 * +EC3.2.2.26 6-amino-6-deoxyfutalosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.53 * +EC3.2.2.26 futalosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.02 * +EC3.2.2.27 5-hydroxymethyluracil-mismatched double-stranded dna with u-a mismatch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.2.2.27 5-hydroxymethyluracil-mismatched double-stranded dna with u-g mismatch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.2.2.27 5-hydroxymethyluracil-mismatched single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.098 * +EC3.2.2.27 dsdna-uracil archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.55 * +EC3.2.2.27 dump dna aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 174.0 * +EC3.2.2.27 dump dna vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 293.0 * +EC3.2.2.27 fu-containing 10 nucleotide dna sequence 5'-ggagafuctcc-3' with opposing c, t, a, or g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.2.2.27 ssdna-uracil archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.917 * +EC3.2.2.27 uracil-containing double-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.33 * +EC3.2.2.27 uracil-containing single-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.18 * +EC3.2.2.27 uracil-mismatched double-stranded dna with a/u mismatch chlamydia pneumoniae//prokaryotes;bacteria;chlamydiae;chlamydia//cpn 5.9 * +EC3.2.2.27 uracil-mismatched double-stranded dna with u-a mismatch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.28 * +EC3.2.2.27 uracil-mismatched double-stranded dna with u-g mismatch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.57 * +EC3.2.2.27 uracil-mismatched double-stranded dna with u-g mismatch xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.0014 * +EC3.2.2.27 uracil-mismatched double-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.8 * +EC3.2.2.27 uracil-mismatched double-stranded dna deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 15.58 * +EC3.2.2.27 uracil-mismatched double-stranded dna monkeypox virus//*//* 4.67 * +EC3.2.2.27 uracil-mismatched single-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.55 * +EC3.2.2.27 uracil-mismatched single-stranded dna gadus morhua//*//* 20.7 * +EC3.2.2.27 uracil-mismatched single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.1 * +EC3.2.2.27 uracil-mismatched single-stranded dna thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.17 * +EC3.2.2.27 uracil-mismatched single-stranded dna xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 2.5 * +EC3.2.2.28 3,n4-ethenocytosine-mismatched double-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.2.2.28 uracil-mismatched double-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC3.2.2.29 3,n4-ethenocytosine-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000153 * +EC3.2.2.29 5-chlorouracil-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.2.2.29 5-fluorouracil-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.2.2.29 thymine-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.2.2.29 uracil-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.2.2.3 adenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.15 * +EC3.2.2.3 adenosine zea mays//eukaryotes;plants;monocots;grass family//zma 0.4 * +EC3.2.2.3 cytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.12 * +EC3.2.2.3 inosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.31 * +EC3.2.2.3 inosine zea mays//eukaryotes;plants;monocots;grass family//zma 4.1 * +EC3.2.2.3 nicotinamide riboside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 23.4 * +EC3.2.2.3 nicotinic acid riboside methyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3 * +EC3.2.2.3 nicotinic acid riboside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.8 * +EC3.2.2.3 ribothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.29 * +EC3.2.2.3 uridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.85 * +EC3.2.2.3 uridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.0 * +EC3.2.2.3 uridine zea mays//eukaryotes;plants;monocots;grass family//zma 23.8 * +EC3.2.2.3 xanthosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.3 * +EC3.2.2.3 xanthosine zea mays//eukaryotes;plants;monocots;grass family//zma 4.6 * +EC3.2.2.30 6-amino-6-deoxyfutalosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.53 * +EC3.2.2.4 amp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 62.0 * +EC3.2.2.4 nmn azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2.0 * +EC3.2.2.5 nad+ aplysia californica//*//* 442.0 * +EC3.2.2.5 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.358 * +EC3.2.2.5 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 53.6 * +EC3.2.2.5 nad+ deinagkistrodon acutus//*//* 22.3 * +EC3.2.2.5 nad+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 8390.0 * +EC3.2.2.6 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 57.9 * +EC3.2.2.7 adenosine lupinus luteus//*//* 0.06 * +EC3.2.2.8 4-nitrophenyl ribopyranoside escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 39.0 * +EC3.2.2.8 5-bromouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.8 * +EC3.2.2.8 5-fluorouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.7 * +EC3.2.2.8 5-iodouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.7 * +EC3.2.2.8 5-methyluridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.5 * +EC3.2.2.8 adenosine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0154 * +EC3.2.2.8 cytidine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.6 * +EC3.2.2.8 cytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.6 * +EC3.2.2.8 cytidine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 39.4 * +EC3.2.2.8 guanosine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0056 * +EC3.2.2.8 inosine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC3.2.2.8 inosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.086 * +EC3.2.2.8 uridine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.9 * +EC3.2.2.8 uridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.4 * +EC3.2.2.8 uridine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.1 * +EC3.2.2.9 5'-methylthioadenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.0 * +EC3.2.2.9 5'-methylthioadenosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 2.7 * +EC3.2.2.9 5'-methylthioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.2.2.9 5'-methylthioadenosine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 4.92 * +EC3.2.2.9 5'-methylthioadenosine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.25 * +EC3.2.2.9 5'-methylthioadenosine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 2.0 * +EC3.2.2.9 6-amino-6-deoxyfutalosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.53 * +EC3.2.2.9 s-adenosyl-l-homocysteine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 7.1 * +EC3.2.2.9 s-adenosyl-l-homocysteine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.00021 * +EC3.2.2.9 s-adenosyl-l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC3.2.2.9 s-adenosyl-l-homocysteine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.8 * +EC3.2.2.9 s-adenosyl-l-homocysteine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00873 * +EC3.2.2.9 s-adenosyl-l-homocysteine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.37 * +EC3.2.2.9 s-adenosyl-l-homocysteine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.5 * +EC3.2.2.9 s-adenosylhomocysteine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.5 * +EC3.3.1.1 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6666.0 * +EC3.3.1.1 adenosine lupinus luteus//*//* 4.3 * +EC3.3.1.1 adenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 312.0 * +EC3.3.1.1 adenosine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.0 * +EC3.3.1.1 cysteine lupinus luteus//*//* 0.11 * +EC3.3.1.1 dl-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6666.0 * +EC3.3.1.1 dl-homocysteine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 312.0 * +EC3.3.1.1 dl-homocysteine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.0 * +EC3.3.1.1 s-adenosyl-dl-homocysteine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.69 * +EC3.3.1.1 s-adenosyl-dl-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1908.0 * +EC3.3.1.1 s-adenosyl-dl-homocysteine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 84.0 * +EC3.3.1.1 s-adenosyl-dl-homocysteine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.058 * +EC3.3.1.1 s-adenosyl-dl-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC3.3.1.1 s-adenosyl-dl-homocysteine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.0 * +EC3.3.1.1 s-adenosyl-l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC3.3.2.1 (+/-)-3-[(1-carboxyethenyl)oxy]-2-hydroxy-6-cyclohexene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.17 * +EC3.3.2.1 (+/-)-3-[(1-carboxylatoethenyl)oxy]-cyclohepta-1,6-diene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC3.3.2.1 (+/-)-3-[(carboxyethenyl)oxy]-1-cyclohexene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.7 * +EC3.3.2.1 (+/-)-cis-3-[(carboxyethenyl)oxy]-4-cyclohexene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.3 * +EC3.3.2.1 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 217.0 * +EC3.3.2.1 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.085 * +EC3.3.2.1 isochorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC3.3.2.1 isochorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.06 * +EC3.3.2.10 (10r)-hydroxy-(11s,12s)-epoxy-(5z,8z,14z)-eicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.3.2.10 (10r)-hydroxy-(11s,12s)-epoxy-(5z,8z,14z)-eicosatrienoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.3.2.10 (8r)-hydroxy-(11s,12s)-epoxy-(5z,9e,14z)-eicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.3.2.10 (8r)-hydroxy-(11s,12s)-epoxy-(5z,9e,14z)-eicosatrienoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.88 * +EC3.3.2.10 (r)-p-nitrostyrene oxide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 16.4 * +EC3.3.2.10 (r,s)-p-nitrostyrene oxide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 13.9 * +EC3.3.2.10 (s)-p-nitrostyrene oxide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.7 * +EC3.3.2.10 1-myristoyl-glyceral-3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.3.2.10 14,15-epoxyeicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.64 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.3 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 18.0 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 4.76 * +EC3.3.2.10 4-nitrophenyl (2r,3r)-2,3-epoxy-3-(4-nitrophenyl)propyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.8 * +EC3.3.2.10 4-nitrophenyl (2r,3r)-2,3-epoxy-3-phenylpropyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.7 * +EC3.3.2.10 4-nitrophenyl (2s,3s)-2,3-epoxy-3-(4-nitrophenyl)propyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.7 * +EC3.3.2.10 4-nitrophenyl (2s,3s)-2,3-epoxy-3-phenylpropyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.8 * +EC3.3.2.10 attophos homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC3.3.2.10 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.3.2.10 threo-10-hydroxy-9-phosphonooxy-octadecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.3.2.10 trans-1,3-diphenylpropene oxide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.9 * +EC3.3.2.10 trans-1,3-diphenylpropene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.3.2.10 trans-1,3-diphenylpropene oxide strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 44.0 * +EC3.3.2.10 trans-stilbene oxide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.3 * +EC3.3.2.10 trans-stilbene oxide brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.3 * +EC3.3.2.10 trans-stilbene oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC3.3.2.12 oxepin-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 39.0 * +EC3.3.2.13 chorismate streptomyces hygroscopicus subsp. ascomyceticus//*//* 17.6 * +EC3.3.2.2 lysoplasmenylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.3 * +EC3.3.2.2 lysoplasmenylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.3 * +EC3.3.2.4 d-trans-2,3-epoxysuccinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 83.3 * +EC3.3.2.4 l-trans-2,3-epoxysuccinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 317.0 * +EC3.3.2.6 alanine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.3.2.6 arg-ser-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.3.2.6 arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.3.2.6 l-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.3.2.6 l-alanine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC3.3.2.6 l-alanine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.3.2.6 l-alanine-4-nitroanilide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 4.3 * +EC3.3.2.6 l-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.3.2.6 l-isoleucine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC3.3.2.6 l-leucine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC3.3.2.6 l-methionine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC3.3.2.6 leucine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.3.2.6 leucine-4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.2 * +EC3.3.2.6 leukotriene a4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.08 * +EC3.3.2.6 leukotriene a4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC3.3.2.6 leukotriene a4 xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 20.1 * +EC3.3.2.6 lysine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.3.2.6 proline-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.3.2.8 styrene-7,8-oxide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.47 * +EC3.3.2.9 1,10-phenanthroline 5,6-oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 53.0 * +EC3.3.2.9 juvenile hormone iii heliothis virescens//*//* 0.002 * +EC3.3.2.9 juvenile hormone iii homalodisca vitripennis//*//* 0.03 * +EC3.3.2.9 juvenile hormone iii manduca sexta//*//* 0.08 * +EC3.3.2.9 phenanthrene 9,10-oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC3.3.2.B1 (5s,6s)-6-amino-5-[(1-carboxyethenyl)oxy]cyclohexa-1,3-diene-1-carboxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.3 * +EC3.3.2.B1 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2 * +EC3.3.2.B1 isochorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.2 * +EC3.4.11.1 ala-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0002 * +EC3.4.11.1 arg-gly-asp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 3781.0 * +EC3.4.11.1 arg-gly-phe solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 6073.0 * +EC3.4.11.1 arg-gly solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 13520.0 * +EC3.4.11.1 arg-leu solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 19400.0 * +EC3.4.11.1 asp-gln salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 761.0 * +EC3.4.11.1 asp-his salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 418.0 * +EC3.4.11.1 asp-ile-gly-gly salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 26.0 * +EC3.4.11.1 asp-leu-gly salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 950.0 * +EC3.4.11.1 asp-leu-lys salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 13.0 * +EC3.4.11.1 asp-leu salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 666.0 * +EC3.4.11.1 asp-phe salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 500.0 * +EC3.4.11.1 asp-tyr salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 500.0 * +EC3.4.11.1 cys-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 118.3 * +EC3.4.11.1 glu-leu salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 866.0 * +EC3.4.11.1 gly-gly solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 10900.0 * +EC3.4.11.1 gly-leu solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 5141.0 * +EC3.4.11.1 gly-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.5 * +EC3.4.11.1 glycine-4-methylcoumaryl-7-amide eisenia fetida//*//* 45.6 * +EC3.4.11.1 harg-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1584 * +EC3.4.11.1 l-ala-4-nitroanilide clonorchis sinensis//*//* 0.12 * +EC3.4.11.1 l-ala-7-amido-4-methylcoumarin leishmania amazonensis//*//* 2.94 * +EC3.4.11.1 l-ala-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 2.94 * +EC3.4.11.1 l-ala-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 2.94 * +EC3.4.11.1 l-alanine-4-methylcoumarin-7-amide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.03 * +EC3.4.11.1 l-alanine-4-methylcoumaryl-7-amide babesia gibsoni//*//* 8.2 * +EC3.4.11.1 l-alanine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.01 * +EC3.4.11.1 l-alanine-4-methylcoumaryl-7-amide eisenia fetida//*//* 38.7 * +EC3.4.11.1 l-arg-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1395 * +EC3.4.11.1 l-arginine-4-methylcoumarin-7-amide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.041 * +EC3.4.11.1 l-arginine-4-methylcoumaryl-7-amide babesia gibsoni//*//* 37.79 * +EC3.4.11.1 l-arginine-4-methylcoumaryl-7-amide eisenia fetida//*//* 12.1 * +EC3.4.11.1 l-arginyl-7-amido-4-methylcoumarin pagrus major//*//* 17.3 * +EC3.4.11.1 l-cys-7-amido-4-methylcoumarin leishmania amazonensis//*//* 3.0 * +EC3.4.11.1 l-cys-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 3.34 * +EC3.4.11.1 l-cys-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 2.94 * +EC3.4.11.1 l-ile-4-nitroanilide clonorchis sinensis//*//* 0.01 * +EC3.4.11.1 l-ile-7-amido-4-methylcoumarin leishmania amazonensis//*//* 0.19 * +EC3.4.11.1 l-ile-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.09 * +EC3.4.11.1 l-ile-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.19 * +EC3.4.11.1 l-leu-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC3.4.11.1 l-leu-4-nitroanilide clonorchis sinensis//*//* 0.27 * +EC3.4.11.1 l-leu-4-nitroanilide desulfurococcus kamchatkensis//*//* 19.0 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin leishmania amazonensis//*//* 0.41 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.52 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.057 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1204 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 34.84 * +EC3.4.11.1 l-leu-gly solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 120.0 * +EC3.4.11.1 l-leucine-4-methylcoumarin-7-amide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.089 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide babesia gibsoni//*//* 198.8 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.107 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide eisenia fetida//*//* 34.6 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0094 * +EC3.4.11.1 l-leucine-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 50.9 * +EC3.4.11.1 l-leucyl-7-amido-4-methylcoumarin pagrus major//*//* 26.4 * +EC3.4.11.1 l-leucylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 112.0 * +EC3.4.11.1 l-lys-4-nitroanilide clonorchis sinensis//*//* 0.07 * +EC3.4.11.1 l-lysine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.002 * +EC3.4.11.1 l-met-4-nitroanilide clonorchis sinensis//*//* 0.2 * +EC3.4.11.1 l-met-7-amido-4-methylcoumarin leishmania amazonensis//*//* 4.99 * +EC3.4.11.1 l-met-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 5.08 * +EC3.4.11.1 l-met-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 5.52 * +EC3.4.11.1 l-methionine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.085 * +EC3.4.11.1 l-phe-4-nitroanilide clonorchis sinensis//*//* 0.05 * +EC3.4.11.1 l-phenylalanine-4-methylcoumarin-7-amide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0002 * +EC3.4.11.1 l-phenylalanine-4-methylcoumaryl-7-amide babesia gibsoni//*//* 24.61 * +EC3.4.11.1 l-phenylalanine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.075 * +EC3.4.11.1 l-phenylalanine-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 37.0 * +EC3.4.11.1 l-pro-4-nitroanilide clonorchis sinensis//*//* 0.02 * +EC3.4.11.1 l-proline-4-methylcoumarin-7-amide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0016 * +EC3.4.11.1 l-proline-4-methylcoumaryl-7-amide babesia gibsoni//*//* 2.03 * +EC3.4.11.1 l-proline-4-methylcoumaryl-7-amide eisenia fetida//*//* 1.3 * +EC3.4.11.1 l-thr-4-nitroanilide clonorchis sinensis//*//* 0.02 * +EC3.4.11.1 l-trp-7-amido-4-methylcoumarin leishmania amazonensis//*//* 0.07 * +EC3.4.11.1 l-trp-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.21 * +EC3.4.11.1 l-trp-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.22 * +EC3.4.11.1 l-tyrosine-4-methylcoumaryl-7-amide eisenia fetida//*//* 13.8 * +EC3.4.11.1 l-val-4-nitroanilide clonorchis sinensis//*//* 0.01 * +EC3.4.11.1 l-valine-4-methylcoumaryl-7-amide eisenia fetida//*//* 1.5 * +EC3.4.11.1 leu-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.039 * +EC3.4.11.1 leu-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC3.4.11.1 leu-gly-gly solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 14000.0 * +EC3.4.11.1 leu-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 675.0 * +EC3.4.11.1 leu-gly solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 14440.0 * +EC3.4.11.1 leu-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1670.0 * +EC3.4.11.1 leu-leu salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 918.0 * +EC3.4.11.1 leu-leu solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 34500.0 * +EC3.4.11.1 leu-p-nitroanilide geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 5.92 * +EC3.4.11.1 leu-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 270.0 * +EC3.4.11.1 leu-tyr salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 351.0 * +EC3.4.11.1 met-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 988.3 * +EC3.4.11.1 phe-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00145 * +EC3.4.11.1 phg-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.3952 * +EC3.4.11.1 pro-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00059 * +EC3.4.11.1 ser-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 42.0 * +EC3.4.11.10 arg-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 6.0 * +EC3.4.11.10 cys-gly treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 60.0 * +EC3.4.11.10 glu-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.001 * +EC3.4.11.10 gly-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.4.11.10 ile-amide vibrio proteolyticus//*//* 6.2 * +EC3.4.11.10 ile-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 10.0 * +EC3.4.11.10 l-ala-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.37 * +EC3.4.11.10 l-ala-7-amido-4-methylcoumarin fasciola hepatica//*//* 192000.0 * +EC3.4.11.10 l-ala-l-ala-l-phe-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC3.4.11.10 l-arg-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 34.0 * +EC3.4.11.10 l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 59900.0 * +EC3.4.11.10 l-arg-p-nitroanilide streptomyces septatus//*//* 1.26 * +EC3.4.11.10 l-cys-7-amido-4-methylcoumarin fasciola hepatica//*//* 288100.0 * +EC3.4.11.10 l-cystinyl-p-nitroanilide streptomyces septatus//*//* 3.71 * +EC3.4.11.10 l-leu-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 55.0 * +EC3.4.11.10 l-leu-4-nitroanilide geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 6.31 * +EC3.4.11.10 l-leu-4-nitroanilide geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.303 * +EC3.4.11.10 l-leu-4-nitroanilide geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 10180.0 * +EC3.4.11.10 l-leu-4-nitroanilide vibrio proteolyticus//*//* 73.0 * +EC3.4.11.10 l-leu-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC3.4.11.10 l-leu-7-amido-4-methylcoumarin fasciola hepatica//*//* 246000.0 * +EC3.4.11.10 l-leu-gly-gly geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 49540.0 * +EC3.4.11.10 l-leu-p-nitroanilide streptomyces septatus//*//* 41.3 * +EC3.4.11.10 l-leu-p-nitroanilide treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 41.7 * +EC3.4.11.10 l-leucine 4-nitroanilide vibrio proteolyticus//*//* 4320.0 * +EC3.4.11.10 l-leucine anilide vibrio proteolyticus//*//* 16.0 * +EC3.4.11.10 l-leucine ethyl ester vibrio proteolyticus//*//* 96.0 * +EC3.4.11.10 l-leucine-4-anisidide vibrio proteolyticus//*//* 9.5 * +EC3.4.11.10 l-lys-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.0 * +EC3.4.11.10 l-lys-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.7 * +EC3.4.11.10 l-met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC3.4.11.10 l-met-7-amido-4-methylcoumarin fasciola hepatica//*//* 283200.0 * +EC3.4.11.10 l-phe-7-amido-4-methylcoumarin fasciola hepatica//*//* 33800.0 * +EC3.4.11.10 l-thr-7-amido-4-methylcoumarin fasciola hepatica//*//* 16200.0 * +EC3.4.11.10 l-val-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.43 * +EC3.4.11.10 leu-ala vibrio proteolyticus//*//* 15.0 * +EC3.4.11.10 leu-amide vibrio proteolyticus//*//* 220.0 * +EC3.4.11.10 leu-arg vibrio proteolyticus//*//* 39.0 * +EC3.4.11.10 leu-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 38.0 * +EC3.4.11.10 leu-beta-naphthylamide vibrio proteolyticus//*//* 29.6 * +EC3.4.11.10 leu-ile vibrio proteolyticus//*//* 16.0 * +EC3.4.11.10 leu-leu vibrio proteolyticus//*//* 8.3 * +EC3.4.11.10 leu-met vibrio proteolyticus//*//* 53.0 * +EC3.4.11.10 leu-methyl ester vibrio proteolyticus//*//* 145.0 * +EC3.4.11.10 leu-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 41.0 * +EC3.4.11.10 leu-phe vibrio proteolyticus//*//* 72.0 * +EC3.4.11.10 leu-trp vibrio proteolyticus//*//* 58.0 * +EC3.4.11.10 leu-tyr vibrio proteolyticus//*//* 85.0 * +EC3.4.11.10 leu-val vibrio proteolyticus//*//* 15.0 * +EC3.4.11.10 met-amide vibrio proteolyticus//*//* 32.0 * +EC3.4.11.10 met-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 8.2 * +EC3.4.11.10 met-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 22.0 * +EC3.4.11.10 norleucinamide vibrio proteolyticus//*//* 60.0 * +EC3.4.11.10 norvalinamide vibrio proteolyticus//*//* 67.0 * +EC3.4.11.10 peptide vibrio proteolyticus//*//* 67.0 * +EC3.4.11.10 phe-amide vibrio proteolyticus//*//* 6.2 * +EC3.4.11.10 phe-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 6.3 * +EC3.4.11.10 phe-methyl ester vibrio proteolyticus//*//* 42.0 * +EC3.4.11.10 phe-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 158.0 * +EC3.4.11.10 recombinant human methionine-interferon alpha-2b vibrio proteolyticus//*//* 0.000853 * +EC3.4.11.10 thionoleucine-4-anisidide vibrio proteolyticus//*//* 12.2 * +EC3.4.11.10 thionoleucine-s-anilide vibrio proteolyticus//*//* 23.3 * +EC3.4.11.10 val-amide vibrio proteolyticus//*//* 6.5 * +EC3.4.11.10 val-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.26 * +EC3.4.11.10 val-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 1.3 * +EC3.4.11.13 ala-gly-gly hathewaya histolytica//*//* 1830.0 * +EC3.4.11.13 l-leucine 4-nitroanilide hathewaya histolytica//*//* 4.2 * +EC3.4.11.13 leu-gly-gly hathewaya histolytica//*//* 917.0 * +EC3.4.11.13 phe-gly-gly hathewaya histolytica//*//* 667.0 * +EC3.4.11.13 pro-gly-gly hathewaya histolytica//*//* 1360.0 * +EC3.4.11.13 pro-gly-pro-pro hathewaya histolytica//*//* 337.0 * +EC3.4.11.13 pro-gly-pro hathewaya histolytica//*//* 561.0 * +EC3.4.11.13 val-gly-gly hathewaya histolytica//*//* 276.0 * +EC3.4.11.14 ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 141.0 * +EC3.4.11.14 ala-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.1 * +EC3.4.11.14 ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.83 * +EC3.4.11.14 arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.2 * +EC3.4.11.14 arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC3.4.11.14 arg-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC3.4.11.14 glycine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 10.3 * +EC3.4.11.14 ile-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.33 * +EC3.4.11.14 l-alanine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 48.9 * +EC3.4.11.14 l-arginine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 3.8 * +EC3.4.11.14 l-leucine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 8.2 * +EC3.4.11.14 l-lysine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 17.1 * +EC3.4.11.14 l-methionine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 25.6 * +EC3.4.11.14 l-proline-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 1.1 * +EC3.4.11.14 l-tyrosine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 38.5 * +EC3.4.11.14 l-valine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.9 * +EC3.4.11.14 leu-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 49.5 * +EC3.4.11.14 leu-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.3 * +EC3.4.11.14 leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.83 * +EC3.4.11.14 lys-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.3 * +EC3.4.11.14 lys-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.5 * +EC3.4.11.14 lys-ala-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.5 * +EC3.4.11.14 lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 89.0 * +EC3.4.11.14 met-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 95.5 * +EC3.4.11.14 met-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.3 * +EC3.4.11.14 met-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.4.11.14 phe-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 74.5 * +EC3.4.11.14 phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.8 * +EC3.4.11.14 pro-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.11.14 pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.17 * +EC3.4.11.14 pro-phe-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.97 * +EC3.4.11.14 tyr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC3.4.11.14 val-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.83 * +EC3.4.11.14 val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC3.4.11.15 l-arginine 4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 769.0 * +EC3.4.11.15 l-lysine 4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1840.0 * +EC3.4.11.15 lys-gly-gly pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1460.0 * +EC3.4.11.16 ala-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 38.5 * +EC3.4.11.16 alpha-asp-phe-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 230.0 * +EC3.4.11.16 alpha-asp-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 117.0 * +EC3.4.11.16 aspartame sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 238.0 * +EC3.4.11.16 glu-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 113.0 * +EC3.4.11.16 gly-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 127.0 * +EC3.4.11.16 leu-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 92.6 * +EC3.4.11.16 pro-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 29.6 * +EC3.4.11.18 l-met 4-nitroanilide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.133 * +EC3.4.11.18 l-met 4-nitroanilide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0055 * +EC3.4.11.18 l-met-gly-l-met-l-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.3 * +EC3.4.11.18 l-met-l-ala-l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.4.11.18 l-met-l-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.11.18 l-met-l-ser-l-ser-l-his-l-arg-l-trp-l-asp-l-trp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 84.0 * +EC3.4.11.18 l-met-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.4.11.18 l-met-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.057 * +EC3.4.11.18 l-met-psi[c(o)s]gly-l-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.5 * +EC3.4.11.18 l-met-psi[c(o)s]gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.47 * +EC3.4.11.18 l-met-psi[c(o)s]gly-l-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.8 * +EC3.4.11.18 l-methionine 4-nitroanilide enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.0043 * +EC3.4.11.18 l-methionine-4-methylcoumarin-7-amide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.36 * +EC3.4.11.18 met-4-methylcoumaryl-7-amide acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.000449 * +EC3.4.11.18 met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.158 * +EC3.4.11.18 met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0114 * +EC3.4.11.18 met-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0633 * +EC3.4.11.18 met-ala-ala synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 22.07 * +EC3.4.11.18 met-ala-met-lys-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC3.4.11.18 met-ala-ser-trp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.45 * +EC3.4.11.18 met-ala-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.11.18 met-ala-ser mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1516.0 * +EC3.4.11.18 met-ala-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 19.6 * +EC3.4.11.18 met-gly-ala-gln-phe-ser-lys-thr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0683 * +EC3.4.11.18 met-gly-gly synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 21.87 * +EC3.4.11.18 met-gly-met-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 39.0 * +EC3.4.11.18 met-gly-met-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.83 * +EC3.4.11.18 met-gly-met-met mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 39.4 * +EC3.4.11.18 met-gly-met-met pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 188.0 * +EC3.4.11.18 met-gly-met-met saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 23.6 * +EC3.4.11.18 met-peptide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.232 * +EC3.4.11.18 met-pro-4-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 11.9 * +EC3.4.11.18 met-pro-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.82 * +EC3.4.11.18 met-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC3.4.11.18 met-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.11.18 met-s-gly-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.5 * +EC3.4.11.18 met-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00617 * +EC3.4.11.18 met-thr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.11.18 met-val-ser-his-arg-trp-asp-trp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.33 * +EC3.4.11.18 met-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0133 * +EC3.4.11.18 nle-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0733 * +EC3.4.11.19 d-ala 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2550.0 * +EC3.4.11.19 d-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 580.0 * +EC3.4.11.19 gly 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2783.0 * +EC3.4.11.19 l-ala 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2100.0 * +EC3.4.11.2 3-oh-l-pro-2-nai-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.19 * +EC3.4.11.2 4-cl-l-phe-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 5.05 * +EC3.4.11.2 6-obzl-l-nle-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.24 * +EC3.4.11.2 ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 303.0 * +EC3.4.11.2 gly-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 45.2 * +EC3.4.11.2 gly-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 92.0 * +EC3.4.11.2 l-2-amino-3-(2-benzothiazolyl)butyric acid-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 13.8 * +EC3.4.11.2 l-2-nai-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.6 * +EC3.4.11.2 l-abu(bth)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 5.25 * +EC3.4.11.2 l-ala-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 149.0 * +EC3.4.11.2 l-ala-2-naphthylamide novosphingobium capsulatum//*//* 860.0 * +EC3.4.11.2 l-ala-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 34.3 * +EC3.4.11.2 l-ala-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 354.0 * +EC3.4.11.2 l-ala-4-nitroanilide mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 29.5 * +EC3.4.11.2 l-ala-4-nitroanilide novosphingobium capsulatum//*//* 7600.0 * +EC3.4.11.2 l-ala-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 28.4 * +EC3.4.11.2 l-ala-7-amido-4-methylcoumarin mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 9.49 * +EC3.4.11.2 l-ala-l-ala-l-phe-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 53.0 * +EC3.4.11.2 l-allyl-gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 4.9 * +EC3.4.11.2 l-arg(no2)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 7.25 * +EC3.4.11.2 l-arg-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 19.3 * +EC3.4.11.2 l-arg-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 158.0 * +EC3.4.11.2 l-arg-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 13.1 * +EC3.4.11.2 l-asp(bzl)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.64 * +EC3.4.11.2 l-cha-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.84 * +EC3.4.11.2 l-glu(bzl)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 5.6 * +EC3.4.11.2 l-harg-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 8.63 * +EC3.4.11.2 l-hcha-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.19 * +EC3.4.11.2 l-hleu-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.65 * +EC3.4.11.2 l-hphe-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 13.0 * +EC3.4.11.2 l-hser(bzl)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 4.16 * +EC3.4.11.2 l-hser-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 6.23 * +EC3.4.11.2 l-htyr-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 12.7 * +EC3.4.11.2 l-igl-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.72 * +EC3.4.11.2 l-leu-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 6.7 * +EC3.4.11.2 l-leu-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC3.4.11.2 l-leu-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.45 * +EC3.4.11.2 l-leu-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 90.0 * +EC3.4.11.2 l-lys-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 23.1 * +EC3.4.11.2 l-lys-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 290.0 * +EC3.4.11.2 l-lys-4-nitroanilide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 21.3 * +EC3.4.11.2 l-lys-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 6.15 * +EC3.4.11.2 l-met-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 9.72 * +EC3.4.11.2 l-met-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 5.99 * +EC3.4.11.2 l-met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.0 * +EC3.4.11.2 l-neopentyl-gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.64 * +EC3.4.11.2 l-nle-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.72 * +EC3.4.11.2 l-nva-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.33 * +EC3.4.11.2 l-propargyl-gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 7.74 * +EC3.4.11.2 l-ser-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 87.0 * +EC3.4.11.2 l-tyr-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.66 * +EC3.4.11.2 leu-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 174.0 * +EC3.4.11.2 leu5-enkephalin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 33.2 * +EC3.4.11.2 lvvypwtqrf sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.33 * +EC3.4.11.2 vvypwtqrf sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.11.2 vypwtqrf sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.11.20 4-cyclohexyl-l-butyric acid-7-amido-4-methylcoumarin eimeria tenella//*//* 0.737 * +EC3.4.11.20 ala-7-amido-4-methylcoumarin eimeria tenella//*//* 0.456 * +EC3.4.11.20 arg-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 15.0 * +EC3.4.11.20 his-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.4 * +EC3.4.11.20 homoargininyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.575 * +EC3.4.11.20 homophenylalanyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.836 * +EC3.4.11.20 l-ala 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.15 * +EC3.4.11.20 l-alanyl-2-naphthylamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 16.0 * +EC3.4.11.20 l-arg 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.58 * +EC3.4.11.20 l-arginyl-2-naphthylamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 21.0 * +EC3.4.11.20 l-leu 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.65 * +EC3.4.11.20 l-lys 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.55 * +EC3.4.11.20 l-methionyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.704 * +EC3.4.11.20 leu-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.0 * +EC3.4.11.20 leu-gly-gly plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 21.0 * +EC3.4.11.20 leu-gly-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.8 * +EC3.4.11.20 leu-gly-nh2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 21.0 * +EC3.4.11.20 leu-gly-pro plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.0 * +EC3.4.11.20 leu-gly plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.5 * +EC3.4.11.20 leu-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.0 * +EC3.4.11.20 leu-nh2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.0 * +EC3.4.11.20 leu-pro-leu-arg-phenh2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC3.4.11.20 lys-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 27.0 * +EC3.4.11.20 met-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.5 * +EC3.4.11.20 norleucyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.71 * +EC3.4.11.20 norvalinyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.658 * +EC3.4.11.20 styryl-ala-7-amido-4-methylcoumarin eimeria tenella//*//* 0.577 * +EC3.4.11.21 asp-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.354 * +EC3.4.11.21 glu-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.33 * +EC3.4.11.22 ala-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.08 * +EC3.4.11.22 ala-4-nitroanilide novosphingobium capsulatum//*//* 138.0 * +EC3.4.11.22 ala-ala-pro-tyr-lys-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 4.34 * +EC3.4.11.22 ala-beta-naphthylamide novosphingobium capsulatum//*//* 0.52 * +EC3.4.11.22 ala-thr-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 33300.0 * +EC3.4.11.22 glu-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.13 * +EC3.4.11.22 glu-ala-pro-tyr-lys-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.08 * +EC3.4.11.22 gly-ala-pro-tyr-lys-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.08 * +EC3.4.11.22 ile-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.18 * +EC3.4.11.22 l-ala-ala-pro-leu-4-nitroanilide colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 0.36 * +EC3.4.11.22 l-leu-4-nitroanilide grifola frondosa//*//* 1.43 * +EC3.4.11.22 l-leucine 4-nitroanilide vibrio proteolyticus//*//* 60.0 * +EC3.4.11.22 l-leucine-4-anisidide vibrio proteolyticus//*//* 9.5 * +EC3.4.11.22 l-leucine-anilide vibrio proteolyticus//*//* 16.0 * +EC3.4.11.22 l-phe-4-nitroanilide grifola frondosa//*//* 0.95 * +EC3.4.11.22 l-val-4-nitroanilide grifola frondosa//*//* 0.02 * +EC3.4.11.22 leu-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.5 * +EC3.4.11.22 leu-ala-pro-tyr-lys-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.67 * +EC3.4.11.22 lys-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.8 * +EC3.4.11.22 pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.08 * +EC3.4.11.22 pro-ala-pro-tyr-lys-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.17 * +EC3.4.11.22 thionoleucine-4-anisidide vibrio proteolyticus//*//* 12.2 * +EC3.4.11.22 thionoleucine-s-anilide vibrio proteolyticus//*//* 23.3 * +EC3.4.11.22 val-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.1 * +EC3.4.11.23 asp-leu-gly salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 950.0 * +EC3.4.11.23 glu-leu salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 866.0 * +EC3.4.11.23 leu-leu salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 918.0 * +EC3.4.11.24 4-nitrophenyl phenylphosphonate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.022 * +EC3.4.11.24 ala-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 4.9 * +EC3.4.11.24 bis(4-nitrophenyl) phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.74 * +EC3.4.11.24 bis(4-nitrophenyl) phosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.74 * +EC3.4.11.24 bis(p-nitrophenyl)phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.42 * +EC3.4.11.24 gly-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.1 * +EC3.4.11.24 l-ala-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.94 * +EC3.4.11.24 l-alanine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.94 * +EC3.4.11.24 l-leu-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 391.0 * +EC3.4.11.24 l-leu-4-nitroanilide streptomyces septatus//*//* 65.9 * +EC3.4.11.24 l-leu-nh2 streptomyces septatus//*//* 104.0 * +EC3.4.11.24 l-leu-o-methyl ester streptomyces septatus//*//* 142.0 * +EC3.4.11.24 l-leucine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 153.0 * +EC3.4.11.24 l-phe-4-nitroanilide streptomyces septatus//*//* 17.6 * +EC3.4.11.24 l-phe-nh2 streptomyces septatus//*//* 43.8 * +EC3.4.11.24 l-phe-o-methyl ester streptomyces septatus//*//* 54.3 * +EC3.4.11.24 l-val-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.191 * +EC3.4.11.24 l-valine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.26 * +EC3.4.11.24 leu-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 657.0 * +EC3.4.11.24 lys-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.8 * +EC3.4.11.24 met-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 43.3 * +EC3.4.11.24 val-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.28 * +EC3.4.11.25 beta-ala-p-nitroanilide sphingosinicella microcystinivorans//*//* 0.13 * +EC3.4.11.25 beta-ala-p-nitroanilide sphingosinicella xenopeptidilytica//*//* 0.75 * +EC3.4.11.25 beta-homoala-beta-homoleu sphingosinicella microcystinivorans//*//* 60.0 * +EC3.4.11.25 beta-homoala-beta-homoleu sphingosinicella xenopeptidilytica//*//* 12.0 * +EC3.4.11.25 beta-homoala-p-nitroanilide sphingosinicella microcystinivorans//*//* 2.89 * +EC3.4.11.25 beta-homoala-p-nitroanilide sphingosinicella xenopeptidilytica//*//* 13.2 * +EC3.4.11.25 beta-homogly 4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1410.0 * +EC3.4.11.25 beta-homophe-p-nitroanilide sphingosinicella microcystinivorans//*//* 0.22 * +EC3.4.11.25 beta-homophe-p-nitroanilide sphingosinicella xenopeptidilytica//*//* 30.2 * +EC3.4.11.25 beta-homoval-beta-homoala-beta-homoleu sphingosinicella microcystinivorans//*//* 4.3 * +EC3.4.11.25 beta-homoval-beta-homoala-beta-homoleu sphingosinicella xenopeptidilytica//*//* 6.0 * +EC3.4.11.3 leu-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.18 * +EC3.4.11.3 s-benzyl-cys-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.4 * +EC3.4.11.4 ala-ala-phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 41.66 * +EC3.4.11.4 ala-phe-pro-beta-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 511.0 * +EC3.4.11.4 arg-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.11.4 arg-ser-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.4.11.4 gly-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC3.4.11.4 gly-ala-pro-beta-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 354.0 * +EC3.4.11.4 gly-ala-pro-beta-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 354.0 * +EC3.4.11.4 gly-gly-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2030.0 * +EC3.4.11.4 l-ala-l-ala-l-phe-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.4 * +EC3.4.11.4 l-asp-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.7 * +EC3.4.11.4 l-leu-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC3.4.11.4 l-lys-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.3 * +EC3.4.11.4 l-met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC3.4.11.5 4-acetyloxyproline-2-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 84.1 * +EC3.4.11.5 ala-p-nitroanilide grifola frondosa//*//* 2.0 * +EC3.4.11.5 ala-para-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 81.1 * +EC3.4.11.5 gly-p-nitroanilide grifola frondosa//*//* 7.8 * +EC3.4.11.5 his-p-nitroanilide grifola frondosa//*//* 6.5 * +EC3.4.11.5 l-hydroxyproline-2-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.9 * +EC3.4.11.5 l-pro-l-ala serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 16.8 * +EC3.4.11.5 l-proline-7-amido-4-methylcoumarin rasamsonia emersonii//*//* 213.7 * +EC3.4.11.5 leu-para-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 340.0 * +EC3.4.11.5 lys-para-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 26.2 * +EC3.4.11.5 pro-2-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 9.7 * +EC3.4.11.5 pro-p-nitroanilide grifola frondosa//*//* 160.0 * +EC3.4.11.5 pro-para-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 26.0 * +EC3.4.11.5 proline beta-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 9.81 * +EC3.4.11.5 proline-4-nitroanilide phanerochaete chrysosporium//*//* 218.1 * +EC3.4.11.5 val-para-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 12.3 * +EC3.4.11.6 arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.27 * +EC3.4.11.6 arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.11.6 arg-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 69.5 * +EC3.4.11.6 arg-met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.63 * +EC3.4.11.6 cys-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10700.0 * +EC3.4.11.6 kallidin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.35 * +EC3.4.11.6 l-ala-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.37 * +EC3.4.11.6 l-ala-ala-pro-leu-4-nitroanilide colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 0.36 * +EC3.4.11.6 l-arg-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 69.47 * +EC3.4.11.6 l-arg-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 34.0 * +EC3.4.11.6 l-leu-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 55.0 * +EC3.4.11.6 l-lys-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.6 * +EC3.4.11.6 l-lys-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.0 * +EC3.4.11.6 l-tyr-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.4.11.6 l-val-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.43 * +EC3.4.11.6 leu-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 307.0 * +EC3.4.11.6 leu-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6630.0 * +EC3.4.11.6 lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.9 * +EC3.4.11.6 met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.11.7 alpha-l-asp-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 102.0 * +EC3.4.11.7 alpha-l-glu-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 404.0 * +EC3.4.11.7 alpha-l-glu-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 270.0 * +EC3.4.11.7 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.01 * +EC3.4.11.7 angiotensin ii mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.0 * +EC3.4.11.7 asp-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.2 * +EC3.4.11.7 asp-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.354 * +EC3.4.11.7 cholecystokinin-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.18 * +EC3.4.11.7 gln-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.1 * +EC3.4.11.7 glu-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.3 * +EC3.4.11.7 glu-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.25 * +EC3.4.11.7 glu-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.33 * +EC3.4.11.7 kallidin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC3.4.11.7 l-glu-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 292.0 * +EC3.4.11.7 l-glu-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 720.0 * +EC3.4.11.7 neurokinin b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.87 * +EC3.4.11.9 (4-nitro)phe-pro-hn-ch2-ch2-nh-o-aminobenzoyl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 135.0 * +EC3.4.11.9 (4-nitro)phe-pro-pro-hn-ch2-ch2-nh-o-aminobenzoyl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC3.4.11.9 abz-l-lys-l-pro-l-pro-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 95.0 * +EC3.4.11.9 arg-pro-pro-benzylamide cavia porcellus//*//* 125.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 26.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 39.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 41.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser bos taurus//eukaryotes;animals;vertebrates;mammals//bta 30.0 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC3.4.11.9 arg-pro-pro-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 48.0 * +EC3.4.11.9 arg-pro-pro-gly-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC3.4.11.9 arg-pro-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC3.4.11.9 arg-pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 120.0 * +EC3.4.11.9 arg-pro-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 230.0 * +EC3.4.11.9 arg-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 73.0 * +EC3.4.11.9 bradykinin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC3.4.11.9 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.48 * +EC3.4.11.9 bradykinin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 160.0 * +EC3.4.11.9 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 38.0 * +EC3.4.11.9 bradykinin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.11.9 fphfd plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 8.6 * +EC3.4.11.9 gly-pro-hyp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 69.0 * +EC3.4.11.9 gly-pro-pro-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 47.2 * +EC3.4.11.9 l-ala-l-pro-4-nitroanilide streptomyces costaricanus//*//* 487.0 * +EC3.4.11.9 l-ala-l-pro-4-nitroanilide streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 45.7 * +EC3.4.11.9 l-ala-l-pro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.77 * +EC3.4.11.9 l-arg-l-pro-l-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC3.4.11.9 l-met-l-pro thermococcus onnurineus na1//*//* 541.0 * +EC3.4.11.9 substance p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.11.9 tyr-pro-leu-gly-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC3.4.11.9 tyr-pro-phe-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 58.0 * +EC3.4.11.9 tyr-pro-phe-pro-gly-pro-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.0 * +EC3.4.11.9 tyr-pro-phe-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 32.0 * +EC3.4.11.9 ypwtq plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 150.0 * +EC3.4.11.B4 ala-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 9.01 * +EC3.4.11.B4 ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.18 * +EC3.4.11.B4 n-acetyl-l-alanyl 4-nitroanilide pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.022 * +EC3.4.11.B4 n-acetyl-l-leucyl 4-nitroanilide pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.116 * +EC3.4.11.B5 l-leucyl 4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 108.0 * +EC3.4.11.B5 l-methionyl 4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 101.0 * +EC3.4.11.B5 n-acetyl-l-leucyl 4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.5 * +EC3.4.13.18 ala-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.13.18 ala-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 43.3 * +EC3.4.13.18 ala-ile mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33300.0 * +EC3.4.13.18 ala-leu platyrrhini//*//* 6510.0 * +EC3.4.13.18 ala-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.13.18 arg-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.4.13.18 asp-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.13.18 gly-ile platyrrhini//*//* 23000.0 * +EC3.4.13.18 gly-leu platyrrhini//*//* 23100.0 * +EC3.4.13.18 gly-phe platyrrhini//*//* 20400.0 * +EC3.4.13.18 gly-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.0 * +EC3.4.13.18 gly-val platyrrhini//*//* 21400.0 * +EC3.4.13.18 leu-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.4.13.18 lys-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.13.18 met-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.13.18 ser-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.13.19 l-ala-d-ala streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 750.0 * +EC3.4.13.19 l-ala-l-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1400.0 * +EC3.4.13.19 l-ala-l-gln streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 140.0 * +EC3.4.13.19 l-ala-l-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 220.0 * +EC3.4.13.19 l-arg-d-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 107.0 * +EC3.4.13.19 l-arg-l-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 132.0 * +EC3.4.13.19 l-asn-d-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 288.0 * +EC3.4.13.19 l-leu-d-ala streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 160.0 * +EC3.4.13.19 l-leu-d-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 135.0 * +EC3.4.13.19 l-leu-d-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 21.0 * +EC3.4.13.19 l-leu-d-ser streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 400.0 * +EC3.4.13.19 l-leu-l-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 160.0 * +EC3.4.13.19 l-leu-l-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 140.0 * +EC3.4.13.19 l-met-d-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 340.0 * +EC3.4.13.19 l-met-d-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 194.0 * +EC3.4.13.19 l-met-l-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 310.0 * +EC3.4.13.19 l-tyr-d-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 24.0 * +EC3.4.13.20 beta-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 30.5 * +EC3.4.13.20 beta-ala-l-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 138.0 * +EC3.4.13.20 beta-homoala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 51.4 * +EC3.4.13.20 beta-homophe-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.03 * +EC3.4.13.20 d-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 4.0 * +EC3.4.13.20 gly-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 70.0 * +EC3.4.13.20 homocarnosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.13.20 l-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.56 * +EC3.4.13.20 l-arg-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.14 * +EC3.4.13.20 l-lys-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.11 * +EC3.4.13.21 l-asp-4-nitroanilide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 39.0 * +EC3.4.13.22 (2s)-n-d-alanyl-2-(phenylthio)-glycine enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 76.0 * +EC3.4.13.22 co2+ enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 69.0 * +EC3.4.13.22 d-ala-d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 156.0 * +EC3.4.13.22 d-ala-d-ala enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 2.5 * +EC3.4.13.22 d-ala-d-ala enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 460.1 * +EC3.4.13.22 d-ala-d-ser enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.8 * +EC3.4.13.22 d-ala-d-ser enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 0.35 * +EC3.4.13.22 d-leu-4-nitroanilide enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0102 * +EC3.4.13.22 d-leucine-p-nitroanilide enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0102 * +EC3.4.13.22 d-ser-d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.35 * +EC3.4.13.22 fe2+ enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 156.0 * +EC3.4.13.22 ni2+ enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 788.0 * +EC3.4.13.22 zn2+ enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 30.0 * +EC3.4.13.9 ala-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.4.13.9 gly-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 683.0 * +EC3.4.13.9 ile-pro cavia porcellus//*//* 55.3 * +EC3.4.13.9 l-met-l-pro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 109.0 * +EC3.4.13.9 leu-pro cavia porcellus//*//* 111.0 * +EC3.4.13.9 leu-pro pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1079.0 * +EC3.4.13.9 met-pro cavia porcellus//*//* 115.0 * +EC3.4.13.9 met-pro pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4594.0 * +EC3.4.13.9 met-pro pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 3812.0 * +EC3.4.14.1 asn1-angiotensin ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 87.0 * +EC3.4.14.1 glucagon rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 81.0 * +EC3.4.14.1 gly-gly-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 74.0 * +EC3.4.14.1 gly-leu-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 126.0 * +EC3.4.14.1 gly-phe-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 98.0 * +EC3.4.14.1 gly-phe-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 61.0 * +EC3.4.14.1 gly-trp-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 293.0 * +EC3.4.14.1 gly-tyr-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 90.0 * +EC3.4.14.1 glycyl-(beta-phenyl)l-lactic acid methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 210.0 * +EC3.4.14.1 his-ser-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 116.0 * +EC3.4.14.1 ile5-angiotensin ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 87.0 * +EC3.4.14.1 sarcosyl-phe-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 157.0 * +EC3.4.14.10 ala-ala-ala-4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 13.0 * +EC3.4.14.10 ala-ala-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.14.10 ala-ala-ala-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33.0 * +EC3.4.14.10 ala-ala-phe-4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 65.0 * +EC3.4.14.10 ala-ala-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.0 * +EC3.4.14.10 ala-ala-phe-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 114.0 * +EC3.4.14.10 l-ala-l-ala-l-ala 4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 13.0 * +EC3.4.14.10 l-ala-l-ala-l-ala 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.14.10 l-ala-l-ala-l-ala 4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33.0 * +EC3.4.14.10 l-ala-l-ala-l-phe 4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 65.0 * +EC3.4.14.10 l-ala-l-ala-l-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.0 * +EC3.4.14.10 l-ala-l-ala-l-phe 4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 125.0 * +EC3.4.14.11 ala-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 26.0 * +EC3.4.14.11 arg-pro 4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 181.0 * +EC3.4.14.11 glu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 62.9 * +EC3.4.14.11 gly-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.1 * +EC3.4.14.11 gly-pro 4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 178.0 * +EC3.4.14.11 gly-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 69.8 * +EC3.4.14.11 gly-pro-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2180.0 * +EC3.4.14.11 gly-pro-gly-gly lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 46.4 * +EC3.4.14.11 his-pro-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 418.0 * +EC3.4.14.11 his-pro-tyr lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 670.0 * +EC3.4.14.11 l-ala-l-pro-l-arg lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 57.2 * +EC3.4.14.11 l-ala-l-pro-l-ser lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 95.9 * +EC3.4.14.11 l-ala-l-pro-l-tyr lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 43.5 * +EC3.4.14.11 l-arg-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 133.0 * +EC3.4.14.11 l-asp-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 199.0 * +EC3.4.14.11 l-ser-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 233.0 * +EC3.4.14.11 l-tyr-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 145.0 * +EC3.4.14.11 leu-ala-pro lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 120.0 * +EC3.4.14.11 leu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 43.4 * +EC3.4.14.11 lys-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 17.1 * +EC3.4.14.11 lys-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 61.6 * +EC3.4.14.11 phe-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 78.4 * +EC3.4.14.12 gly-ala-pro-2-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 511.0 * +EC3.4.14.12 gly-ala-pro-beta-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 354.0 * +EC3.4.14.12 gly-l-ala-gly-l-pro-beta-naphthylamide streptomyces mobaraensis//*//* 43.0 * +EC3.4.14.12 gly-l-ala-l-pro-beta-naphthylamide streptomyces mobaraensis//*//* 115.0 * +EC3.4.14.13 l-ala-gamma-d-glu-l-lys-d-ala-d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.7 * +EC3.4.14.13 l-ala-gamma-d-glu-l-lys-d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.6 * +EC3.4.14.13 l-ala-gamma-d-glu-l-lys bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.2 * +EC3.4.14.2 ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 314.0 * +EC3.4.14.2 ala-ala-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 121.0 * +EC3.4.14.2 ala-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 105.4 * +EC3.4.14.2 arg-pro-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.4 * +EC3.4.14.2 arg-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 65.8 * +EC3.4.14.2 asn-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 184.6 * +EC3.4.14.2 gly-ala-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 103.0 * +EC3.4.14.2 gly-l-pro-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11.5 * +EC3.4.14.2 gly-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 109.0 * +EC3.4.14.2 gly-pro-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 120.0 * +EC3.4.14.2 gly-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.3 * +EC3.4.14.2 his-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC3.4.14.2 his-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.4 * +EC3.4.14.2 lys-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 536.0 * +EC3.4.14.2 lys-ala-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.0 * +EC3.4.14.2 lys-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 229.3 * +EC3.4.14.2 lys-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 77.7 * +EC3.4.14.2 nle-nle-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.4 * +EC3.4.14.2 phe-pro-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 54.0 * +EC3.4.14.2 phe-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 93.0 * +EC3.4.14.2 pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.3 * +EC3.4.14.2 ser-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 116.9 * +EC3.4.14.2 tyr-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.14.4 ala-ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.14.4 arg-arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.5 * +EC3.4.14.4 arg-arg-2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.334 * +EC3.4.14.4 arg-arg-4-methoxy-beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.039 * +EC3.4.14.4 gly-gly-phe-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.0 * +EC3.4.14.4 l-ala-l-ala 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.777 * +EC3.4.14.4 l-arg-l-arg 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.248 * +EC3.4.14.4 l-lys-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC3.4.14.4 trp-met-asp-phe-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 167.0 * +EC3.4.14.4 tyr-gly-gly-phe-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.2 * +EC3.4.14.4 tyr-pro-trp-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.14.5 ala-ala-4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 26.0 * +EC3.4.14.5 ala-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.14.5 ala-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 23.0 * +EC3.4.14.5 ala-pro-7-amido-4-trifluoromethyl coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.1 * +EC3.4.14.5 amyloid beta40 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.063 * +EC3.4.14.5 amyloid beta42 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC3.4.14.5 arg-pro-4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 181.0 * +EC3.4.14.5 arg-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 71.0 * +EC3.4.14.5 arg-pro-lys-pro-gln-gln-phe-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 62.3 * +EC3.4.14.5 arg-pro-lys-pro-gln-gln-phe-phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.3 * +EC3.4.14.5 arg-pro-lys-pro-gln-gln-phe-phe-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.3 * +EC3.4.14.5 arg-pro-lys-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 66.1 * +EC3.4.14.5 asn-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 35.0 * +EC3.4.14.5 asp-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 4.6 * +EC3.4.14.5 bri peptide (1-23) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC3.4.14.5 gln-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 10.0 * +EC3.4.14.5 glu-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 10.0 * +EC3.4.14.5 glu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 62.9 * +EC3.4.14.5 gly-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.1 * +EC3.4.14.5 gly-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.6 * +EC3.4.14.5 gly-l-pro-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 128.0 * +EC3.4.14.5 gly-l-pro-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 31.3 * +EC3.4.14.5 gly-l-pro-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 82.3 * +EC3.4.14.5 gly-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.3 * +EC3.4.14.5 gly-pro-3,5-dibromo-4-hydroxyanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 810.0 * +EC3.4.14.5 gly-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 279000.0 * +EC3.4.14.5 gly-pro-4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 178.0 * +EC3.4.14.5 gly-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 52.3 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 60.0 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 69.8 * +EC3.4.14.5 gly-pro-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2180.0 * +EC3.4.14.5 gly-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 87.0 * +EC3.4.14.5 hemorphin-4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1774.0 * +EC3.4.14.5 hemorphin-7 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC3.4.14.5 his-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 41.0 * +EC3.4.14.5 his-pro-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 418.0 * +EC3.4.14.5 his-pro-tyr lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 670.0 * +EC3.4.14.5 ile-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 67.0 * +EC3.4.14.5 l-ala-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 52.3 * +EC3.4.14.5 l-ala-l-ala-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.1 * +EC3.4.14.5 l-ala-l-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 46.2 * +EC3.4.14.5 l-ala-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC3.4.14.5 l-arg-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC3.4.14.5 l-asn-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.14.5 l-glu-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.4.14.5 l-leu-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.2 * +EC3.4.14.5 l-leu-l-leu-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.14.5 l-leu-l-leu-l-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.4.14.5 l-leu-l-pro-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 82.8 * +EC3.4.14.5 l-leu-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3 * +EC3.4.14.5 l-lys-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC3.4.14.5 l-lys-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.14.5 l-met-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7 * +EC3.4.14.5 l-phe-l-pro-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 990.0 * +EC3.4.14.5 l-ser-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.14.5 leu-ala-pro lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 120.0 * +EC3.4.14.5 leu-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 22.0 * +EC3.4.14.5 leu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 43.8 * +EC3.4.14.5 lys-ala-7-amido-4-methylcoumarin hordeum vulgare//*//* 92.0 * +EC3.4.14.5 lys-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 17.1 * +EC3.4.14.5 lys-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 90.0 * +EC3.4.14.5 lys-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 61.6 * +EC3.4.14.5 lys-pro-gln-gln-phe-phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 88.3 * +EC3.4.14.5 met-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 102.0 * +EC3.4.14.5 n-(ala-pro)-n'-6-(3,4-dichloromaleimidyl)-hexanoyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.55 * +EC3.4.14.5 n-(gly-pro)-n'-(4-chlorobutanoyl)-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC3.4.14.5 n-(gly-pro)-n'-(4-chloromethyl)benzoyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.4 * +EC3.4.14.5 n-(gly-pro)-n'-(5-bromopentanoyl)-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.22 * +EC3.4.14.5 n-(gly-pro)-n'-(5-chloropentanoyl)-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC3.4.14.5 n-(gly-pro)-n'-4-(maleimidyl)butanoyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC3.4.14.5 n-(gly-pro)-n'-chloroacetyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC3.4.14.5 phe-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 1.8 * +EC3.4.14.5 phe-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 78.4 * +EC3.4.14.5 pro-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 41.0 * +EC3.4.14.5 ser-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 58.0 * +EC3.4.14.5 thr-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 117.0 * +EC3.4.14.5 tyr-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 99.0 * +EC3.4.14.5 tyr-pro-phe-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 102.0 * +EC3.4.14.5 tyr-pro-phe-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 90.8 * +EC3.4.14.5 tyr-pro-phe-val-glu-pro-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 71.4 * +EC3.4.14.5 tyr-pro-phe-val-glu-pro-ileu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 103.0 * +EC3.4.14.5 tyr-pro-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 87.5 * +EC3.4.14.9 ala-ala-phe-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.14.9 ala-ala-phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 41.66 * +EC3.4.14.9 ala-ala-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.1 * +EC3.4.14.9 ala-ala-phe-p-nitroanilide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 550000.0 * +EC3.4.14.9 ala-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.5 * +EC3.4.14.9 ala-ala-pro-p-nitroanilide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 210000.0 * +EC3.4.14.9 ala-arg-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC3.4.14.9 ala-asp-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.14.9 ala-his-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.4 * +EC3.4.14.9 ala-nle-leu-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.14.9 ala-nle-nle-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.14.9 ala-nva-nle-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.4.14.9 ala-phe-pro-p-nitroanilide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 140000.0 * +EC3.4.14.9 ala-ser-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.7 * +EC3.4.14.9 arg-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC3.4.14.9 arg-pro-phe-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC3.4.14.9 asp-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.5 * +EC3.4.14.9 his-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.7 * +EC3.4.14.9 phe-pro-ala-4-nitroanilide aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 35.0 * +EC3.4.14.9 ser-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.4.15.5 o-aminobenzoyl-frak(2,4-dinitrophenyl)-oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.4.15.5 o-aminobenzoyl-frk(2,4-dinitrophenyl)p-oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.81 * +EC3.4.15.5 o-aminobenzoyl-lfk(2,4-dinitrophenyl)-oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC3.4.15.6 [l-asp(4-arg)]n synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 16.5 * +EC3.4.16.2 myoglobin penicillium janthinellum//*//* 1.1 * +EC3.4.16.4 (2r)-2-[[n-(phenylacetyl)glycyl]sulfanyl]propanoic acid streptomyces sp. r61//*//* 5.7 * +EC3.4.16.4 2-(n-glycyl-l-cysteinyl)acetyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.17 * +EC3.4.16.4 3-(n-acetyl-l-cysteinyl)propanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.25 * +EC3.4.16.4 3-(n-glycyl-cysteaminyl)propanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 2.4 * +EC3.4.16.4 3-(n-glycyl-l-cysteinyl)-propanoyl-d-alanyl-d-thiolactate streptomyces sp. r61//*//* 42.0 * +EC3.4.16.4 3-(n-glycyl-l-cysteinyl)butanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.27 * +EC3.4.16.4 3-(n-glycyl-l-cysteinyl)propanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 48.0 * +EC3.4.16.4 3-[[n-(phenylacetyl)-d-alanyl]oxy]benzoic acid streptomyces sp. r61//*//* 31.0 * +EC3.4.16.4 3-[[n-(phenylacetyl)glycyl]oxy]benzoic acid streptomyces sp. r61//*//* 1.51 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-hydroxyglycinate actinomadura sp.//*//* 10.4 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-hydroxyglycinate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 6.9 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-methoxyglycinate actinomadura sp.//*//* 114.0 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-methoxyglycinate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.0 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-methoxyglycinate actinomadura sp. r39//*//* 114.0 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-methoxyglycinate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 106.0 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-methoxyglycinate streptomyces sp. r61//*//* 44.0 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-serinate actinomadura sp. r39//*//* 0.65 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-serinate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 22.0 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-serinate streptomyces sp. r61//*//* 2.2 * +EC3.4.16.4 acetyl-l-lys-d-ala-d-ala nonomuraea sp.//prokaryotes;bacteria;actinobacteria;nonomuraea//noa 12.5 * +EC3.4.16.4 benzoyl-d-ala-thioglycolate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.11 * +EC3.4.16.4 benzoyl-gly-thioglycolate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.024 * +EC3.4.16.4 benzoyl-gly-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.017 * +EC3.4.16.4 d-ala-d-ala nonomuraea sp.//prokaryotes;bacteria;actinobacteria;nonomuraea//noa 8.3 * +EC3.4.16.4 diacetyl-l-lys-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 350.0 * +EC3.4.16.4 gly-gamma-l-glu-d-ala-d-ala streptomyces sp. r61//*//* 12.8 * +EC3.4.16.4 gly-l-alpha-amino-epsilon-pimelyl-d-ala-d-ala streptomyces sp. r61//*//* 69.0 * +EC3.4.16.4 glycyl-l-alpha-amino-epsilon-pimelyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 69.0 * +EC3.4.16.4 glycyl-s-(3-[[(1r)-2-[[(1r)-1-carboxyethyl]amino]-1-methyl-2-oxoethyl]amino]-3-oxopropyl)-l-cysteine streptomyces sp. r61//*//* 48.0 * +EC3.4.16.4 glycyl-s-(3-[[(1r)-2-[[(1r)-1-carboxyethyl]sulfanyl]-1-methyl-2-oxoethyl]amino]-3-oxopropyl)-l-cysteine streptomyces sp. r61//*//* 81.0 * +EC3.4.16.4 l-ala-gamma-d-glu-l-lys-d-ala-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.41 * +EC3.4.16.4 n,n'-diacetyl-l-lysyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 34.5 * +EC3.4.16.4 n-(n-acetyl-1-o-methyl-beta-muramoyl)-l-alanyl-d-gamma-glutamyl-l-lysyl-d-alanyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC3.4.16.4 n-[(6s)-6-carboxy-6-(glycylamino)hexanoyl]-d-alanyl-d-alanine streptomyces sp. r61//*//* 69.0 * +EC3.4.16.4 n-[n-acetyl-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-1-o-methyl-beta-muramoyl]-l-alanyl-d-gamma-glutamyl-l-lysyl-d-alanyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.4.16.4 n-acetylmuramoyl-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.13 * +EC3.4.16.4 n-acetylmuramoyl-l-alanyl-gamma-d-glutamyl-meso-2,6-diaminopimelyl-d-alanyl-d-alanine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.47 * +EC3.4.16.4 n-alpha-acetyl-l-lys-d-ala-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.1 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.7 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.3 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.43 * +EC3.4.16.4 nalpha-acetyl-l-lys-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.45 * +EC3.4.16.4 phenylacetyl-d-ala-thioglycolate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.5 * +EC3.4.16.4 phenylacetyl-d-ala-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.6 * +EC3.4.16.5 9-(r)-4'-(r)-[[[(s)-1-[(ethoxycarbonyl)ethyl]amino]phenoxyphosphinyl]methoxy]-2'-fluoro-1'-furanyladenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 237.0 * +EC3.4.16.5 9-[(r)-2-[[(s)-[[(s)-1-(isopropoxycarbonyl)ethyl]amino]phenoxyphosphinyl]methoxy]-propyl]adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1777.0 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.7 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.8 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.9 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.7 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.5 * +EC3.4.16.5 acetyl-phe ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 122.0 * +EC3.4.16.5 acetyl-phe-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 36.1 * +EC3.4.16.5 acetyl-tyr ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 105.0 * +EC3.4.16.5 benzoyl-ala benzyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 123.0 * +EC3.4.16.5 benzoyl-ala-ogly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 58.3 * +EC3.4.16.5 benzoyl-ala-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 51.7 * +EC3.4.16.5 benzoyl-gly benzyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.3 * +EC3.4.16.5 benzoyl-gly-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.44 * +EC3.4.16.5 benzoyl-gly-beta-phenyllactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.2 * +EC3.4.16.5 benzoyl-gly-oet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5 * +EC3.4.16.5 benzoyl-gly-ogly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 30.0 * +EC3.4.16.5 benzoyl-gly-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5 * +EC3.4.16.5 benzoyl-gly-ophe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.3 * +EC3.4.16.5 benzoyl-gly-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.83 * +EC3.4.16.5 benzoyl-phe-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.5 * +EC3.4.16.5 benzoyl-phe-ogly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 35.0 * +EC3.4.16.5 benzoyl-phe-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 152.0 * +EC3.4.16.5 benzoyl-tyr-4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC3.4.16.5 benzyloxycarbonyl-ala-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 69.4 * +EC3.4.16.5 benzyloxycarbonyl-ala-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 465.0 * +EC3.4.16.5 benzyloxycarbonyl-ala-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 150.0 * +EC3.4.16.5 benzyloxycarbonyl-glu-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.8 * +EC3.4.16.5 benzyloxycarbonyl-glu-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 23.8 * +EC3.4.16.5 benzyloxycarbonyl-gly-glu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.46 * +EC3.4.16.5 benzyloxycarbonyl-gly-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.18 * +EC3.4.16.5 benzyloxycarbonyl-gly-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.2 * +EC3.4.16.5 benzyloxycarbonyl-gly-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.2 * +EC3.4.16.5 benzyloxycarbonyl-his-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.05 * +EC3.4.16.5 benzyloxycarbonyl-his-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.7 * +EC3.4.16.5 benzyloxycarbonyl-leu-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.85 * +EC3.4.16.5 benzyloxycarbonyl-leu-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 46.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 120.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-beta-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 66.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-glu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 96.5 * +EC3.4.16.5 benzyloxycarbonyl-phe-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 140.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-his saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.6 * +EC3.4.16.5 benzyloxycarbonyl-phe-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 130.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-nh2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.33 * +EC3.4.16.5 benzyloxycarbonyl-phe-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 420.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-pro saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 23.0 * +EC3.4.16.5 benzyloxycarbonyl-tyr-glu monascus pilosus//*//* 2039.0 * +EC3.4.16.5 benzyloxycarbonyl-tyr-glu monascus purpureus//*//* 291.0 * +EC3.4.16.5 cbz-phe-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.1 * +EC3.4.16.5 endothelin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.2 * +EC3.4.16.5 furylacryloyl-phe ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 68.3 * +EC3.4.16.5 furylacryloyl-phe-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 162.0 * +EC3.4.16.5 furylacryloyl-phe-gly-oh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 61.7 * +EC3.4.16.5 furylacryloyl-phe-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 96.7 * +EC3.4.16.5 furylacryloyl-phe-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 81.7 * +EC3.4.16.5 furylacryloyl-phe-ogly-oh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.2 * +EC3.4.16.5 furylacryloyl-phe-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 183.0 * +EC3.4.16.5 furylacryloyl-phe-val saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 108.0 * +EC3.4.16.5 hippuryl-beta-phenyl lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.2 * +EC3.4.16.6 dansyl-phe-ala-arg drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 32.6 * +EC3.4.17.1 (ala)4 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 100.0 * +EC3.4.17.1 (s)-hippuryl-alpha-mephe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC3.4.17.1 (s)-hippuryl-alpha-methylphenyllactic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 477.0 * +EC3.4.17.1 (s)-hippuryl-ophe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 682.0 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.3 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-ile homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.4 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.4 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.9 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.3 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.3 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.4 * +EC3.4.17.1 5-dimethyl-aminonaphthalene-1-sulfonyl-ala-ala-l-beta-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.062 * +EC3.4.17.1 5-dimethyl-aminonaphthalene-1-sulfonyl-ala-ala-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.18 * +EC3.4.17.1 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.23 * +EC3.4.17.1 benzoyl-gly-gly-l-alpha-hydroxy-beta-phenyllactate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 767.0 * +EC3.4.17.1 benzoyl-gly-gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC3.4.17.1 benzoyl-gly-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 20.0 * +EC3.4.17.1 benzoyl-gly-l-alpha-hydroxy-betaphenyllactate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 505.0 * +EC3.4.17.1 benzoyl-gly-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 93.3 * +EC3.4.17.1 benzoyl-gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 66.7 * +EC3.4.17.1 benzoyl-gly-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC3.4.17.1 benzoyl-gly-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 467.0 * +EC3.4.17.1 benzyloxycarbonyl-ala-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 89.0 * +EC3.4.17.1 benzyloxycarbonyl-gly-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC3.4.17.1 benzyloxycarbonyl-phe-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 66.0 * +EC3.4.17.1 carbobenzoxy-gly-gly-l-tyr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 85.0 * +EC3.4.17.1 carbobenzoxy-gly-gly-leu struthio camelus//*//* 5.02 * +EC3.4.17.1 carbobenzoxy-gly-gly-phe struthio camelus//*//* 11.9 * +EC3.4.17.1 carbobenzoxy-gly-gly-val struthio camelus//*//* 6.13 * +EC3.4.17.1 carbobenzoxy-gly-l-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 29.0 * +EC3.4.17.1 carbobenzoxy-gly-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 91.7 * +EC3.4.17.1 carbobenzoxy-gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 112.0 * +EC3.4.17.1 carbobenzoxy-gly-l-phe squalus acanthias//*//* 14.7 * +EC3.4.17.1 carbobenzoxy-gly-l-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 139.0 * +EC3.4.17.1 carbobenzoxy-gly-l-trp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 73.4 * +EC3.4.17.1 carbobenzoxy-gly-l-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 29.8 * +EC3.4.17.1 carbobenzoxy-gly-leu struthio camelus//*//* 1.28 * +EC3.4.17.1 carbobenzoxy-gly-phe struthio camelus//*//* 5.85 * +EC3.4.17.1 cinnamoyl-l-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 76.7 * +EC3.4.17.1 gly-l-tyr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC3.4.17.1 hippuryl-dl-beta-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.17.1 hippuryl-dl-phenylacetic acid squalus acanthias//*//* 635.0 * +EC3.4.17.1 hippuryl-dl-phenyllactate struthio camelus//*//* 0.081 * +EC3.4.17.1 hippuryl-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.7 * +EC3.4.17.1 hippuryl-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC3.4.17.1 hippuryl-l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.3 * +EC3.4.17.1 hippuryl-l-phenyllactate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 933.0 * +EC3.4.17.1 hippuryl-l-phenyllactate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1000.0 * +EC3.4.17.1 hippuryl-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 81.0 * +EC3.4.17.1 hippuryl-phe struthio camelus//*//* 5.98 * +EC3.4.17.1 l-beta-phenyllactate-alpha-((2-naphthoyl)amino)-cinnamoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.276 * +EC3.4.17.1 l-beta-phenyllactate-alpha-(acetylamino)-cinnamoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.725 * +EC3.4.17.1 l-beta-phenyllactate-alpha-(benzoylylamino)-cinnamoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.46 * +EC3.4.17.1 leu-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.33 * +EC3.4.17.1 met-enkephalin-l-arg-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.45 * +EC3.4.17.1 met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.43 * +EC3.4.17.1 methotrexate-alpha-(1-naphthyl)alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.17.1 methotrexate-alpha-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.17.1 n-(2-furanacryoyl)-phe-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 667.0 * +EC3.4.17.1 n-(3-[2-furyl]acryloyl)-phe-phe trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 11.0 * +EC3.4.17.1 n-[3-(2-furyl)acryloyl]-phe-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.17.1 n-acetyl-gly-l-phenyllactic acid squalus acanthias//*//* 86.0 * +EC3.4.17.1 n-carbobenzoxy-gly-gly-l-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 199.0 * +EC3.4.17.1 n-carbobenzoxy-gly-gly-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 97.0 * +EC3.4.17.1 n-carbobenzoxy-gly-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.4 * +EC3.4.17.1 n-carbobenzoxy-gly-l-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.2 * +EC3.4.17.1 neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.4.17.1 o-(trans-p-chlorocinnamoyl)-l-beta-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC3.4.17.1 p-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.4.17.10 dansyl-phe-ala-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.0 * +EC3.4.17.10 hippuryl-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.5 * +EC3.4.17.10 iodo-acetyl-tyr-ala-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC3.4.17.11 (2-chloroethyl)-(2-(methylsulfoyloxyethyl)amino)aminobenzyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 583.0 * +EC3.4.17.11 (4-[bis(2-bromoethyl)amino]-2,3,5-trifluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 825.0 * +EC3.4.17.11 (4-[bis(2-bromoethyl)amino]-3,5-difluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 827.0 * +EC3.4.17.11 (4-[bis(2-chloroethyl)amino]-2,3,5-trifluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1150.0 * +EC3.4.17.11 (4-[bis(2-chloroethyl)amino]-3,5-difluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 732.0 * +EC3.4.17.11 (4-[bis(2-iodoethyl)amino]-2,3,5-trifluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 220.0 * +EC3.4.17.11 (4-[bis(2-iodoethyl)amino]-3,5-difluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1150.0 * +EC3.4.17.11 [4-[bis(2-chloroethyl)amino]-3,5-difluorobenzoyl]-l-glutamic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 732.0 * +EC3.4.17.11 [4-[bis(2-hydroxyethyl)amino]-3,5-difluorobenzoyl]-l-glutamic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 747.0 * +EC3.4.17.11 diallyl 4-[[2'-[n,n-bis(2''-chloroethyl)amino]phenyl]carbamoyloxymethyl]phenylcarbamoyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.9 * +EC3.4.17.11 diallyl 4-[n-[4'-bis(2''-chloroethyl)aminophenyl]-n-methylcarbamoyloxymethyl]phenylcarbamoyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.5 * +EC3.4.17.12 ala-ser-his-leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.4 * +EC3.4.17.12 benzoyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 107.0 * +EC3.4.17.12 benzoyl-asn-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.4.17.12 benzoyl-gln-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.4.17.12 benzoyl-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.07 * +EC3.4.17.12 benzoyl-gly-argininic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 316.0 * +EC3.4.17.12 benzoyl-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.17.12 benzoyl-his-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.4.17.12 benzoyl-ile-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.17.12 benzoyl-leu-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.17.12 benzoyl-met-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC3.4.17.12 benzoyl-phe-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC3.4.17.12 benzoyl-ser-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.4.17.12 benzoyl-thr-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.9 * +EC3.4.17.12 benzoyl-trp-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.17.12 benzoyl-tyr-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.0 * +EC3.4.17.12 benzoyl-val-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC3.4.17.12 bradykinin(-phe-arg) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.4.17.12 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.45 * +EC3.4.17.12 dansyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.6 * +EC3.4.17.12 furylacryloyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.17.12 furylacryloyl-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.17.12 gly-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.17.12 gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC3.4.17.12 his-leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.6 * +EC3.4.17.12 leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.17.12 leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.1 * +EC3.4.17.12 leu5-arg6-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.77 * +EC3.4.17.12 met5-arg6-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.6 * +EC3.4.17.12 met5-lys6-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.1 * +EC3.4.17.12 n-(4-hydroxybenzoyl)-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC3.4.17.12 pro-gly-lys-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.17.12 ser-his-leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.4.17.13 l-ala-gamma-d-glu-meso-diaminopimelyl-d-ala novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 160.0 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.0 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 90.3 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 96.9 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.0 * +EC3.4.17.15 benzyloxycarbonyl-gly-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.1 * +EC3.4.17.15 benzyloxycarbonyl-gly-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.8 * +EC3.4.17.15 benzyloxycarbonyl-gly-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.6 * +EC3.4.17.15 benzyloxycarbonyl-gly-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.7 * +EC3.4.17.15 benzyloxycarbonyl-gly-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.4 * +EC3.4.17.15 hippuryl-l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.3 * +EC3.4.17.15 methotrexate-alpha-(1-naphthyl)alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.4.17.15 methotrexate-alpha-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC3.4.17.16 benzyloxycarbonyl-pro-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.5 * +EC3.4.17.16 myoglobin penicillium janthinellum//*//* 1.1 * +EC3.4.17.18 benzyloxycarbonyl-ala-ala-arg thermoactinomyces vulgaris//*//* 3.6 * +EC3.4.17.18 benzyloxycarbonyl-ala-ala-leu thermoactinomyces vulgaris//*//* 4.7 * +EC3.4.17.18 n-2,4-dinitrophenyl-ala-ala-arg thermoactinomyces vulgaris//*//* 15.0 * +EC3.4.17.18 n-benzyloxycarbonyl-ala-ala-leu thermoactinomyces vulgaris//*//* 10.3 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-arg thermoactinomyces vulgaris//*//* 57.0 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-leu thermoactinomyces vulgaris//*//* 12.5 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-lys thermoactinomyces vulgaris//*//* 5.0 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-phe thermoactinomyces vulgaris//*//* 2.6 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-trp thermoactinomyces vulgaris//*//* 0.06 * +EC3.4.17.19 n-(3-[2-furyl]acryloyl)-ala-lys trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 20.0 * +EC3.4.17.19 n-(3-[2-furyl]acryloyl)-phe-phe trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.7 * +EC3.4.17.2 benzoyl-gly-arg asterias amurensis//*//* 427.0 * +EC3.4.17.2 benzoyl-gly-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 183.0 * +EC3.4.17.2 benzoyl-gly-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.5 * +EC3.4.17.2 benzoyl-gly-glycylphenyllactic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 917.0 * +EC3.4.17.2 benzoyl-gly-l-arg protopterus aethiopicus//*//* 86.0 * +EC3.4.17.2 biotin-(epsilon-aminocaproic acid)2-glmvggvvr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.17.2 carbobenbenzoxy-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC3.4.17.2 carbobenzoxy-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 104.0 * +EC3.4.17.2 furylacryloylalanylarginine struthio camelus//*//* 58.7 * +EC3.4.17.2 furylacryloylalanylarginine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC3.4.17.2 furylacryloylalanyllysine struthio camelus//*//* 24.6 * +EC3.4.17.2 furylacryloylalanyllysine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 38.6 * +EC3.4.17.2 hippuryl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.0 * +EC3.4.17.2 hippuryl-arg struthio camelus//*//* 86.9 * +EC3.4.17.2 hippuryl-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 119.0 * +EC3.4.17.2 hippuryl-l-arg protopterus aethiopicus//*//* 171.0 * +EC3.4.17.2 hippuryl-l-arg salaria basilisca//*//* 36.23 * +EC3.4.17.2 hippuryl-l-arg struthio camelus//*//* 27.4 * +EC3.4.17.2 hippuryl-l-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 48.3 * +EC3.4.17.2 hippuryl-lys struthio camelus//*//* 10.5 * +EC3.4.17.2 hippuryl-lys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 25.5 * +EC3.4.17.2 n-(phenylcarbonyl)glycyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.667 * +EC3.4.17.2 n-benzoylglycyl-l-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 57.0 * +EC3.4.17.20 anisylazoformyl-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.5 * +EC3.4.17.20 arg6-leu5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 748.0 * +EC3.4.17.20 arg6-met5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 647.0 * +EC3.4.17.20 biotinyl-(epsilon-aminocaproic acid)-(epsilon-aminocaproic acid)-gly-leu-met-val-gly-gly-val-val-arg-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.17.20 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 121.0 * +EC3.4.17.20 hippuryl-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.74 * +EC3.4.17.20 hippuryl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.67 * +EC3.4.17.20 hippuryl-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00042 * +EC3.4.17.20 hippuryl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.7 * +EC3.4.17.20 hippuryl-l-argininic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 169.0 * +EC3.4.17.20 hippuryl-l-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.6 * +EC3.4.17.20 lys6-leu5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 282.0 * +EC3.4.17.20 lys6-met5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 290.0 * +EC3.4.17.20 n-[3-(2-furylacryloyl)]-l-ala-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 36.0 * +EC3.4.17.20 n-[3-(2-furylacryloyl)]-l-ala-l-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 293.0 * +EC3.4.17.20 n-benzoyl-2'-cyano-l-phe-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 59.0 * +EC3.4.17.20 n-benzoyl-gly-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 64.0 * +EC3.4.17.20 p-anisylazoformyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.315 * +EC3.4.17.21 n-acetyl-asp-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.17.21 n-acetyl-l-aspartyl-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.17.22 dansyl-leu-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 25.0 * +EC3.4.17.22 dansyl-leu-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0417 * +EC3.4.17.22 dansyl-phe-ala-arg anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 57.0 * +EC3.4.17.22 dansyl-phe-ala-arg anas sp.//*//* 19.0 * +EC3.4.17.22 dansyl-phe-gly-arg anas sp.//*//* 2.6 * +EC3.4.17.22 dansyl-phe-gly-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.4 * +EC3.4.17.22 dansyl-phe-ile-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC3.4.17.22 dansyl-phe-leu-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.5 * +EC3.4.17.22 dansyl-phe-phe-arg anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 17.0 * +EC3.4.17.22 dansyl-phe-phe-arg anas sp.//*//* 3.7 * +EC3.4.17.22 dansyl-phe-phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.9 * +EC3.4.17.22 dansyl-phe-pro-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC3.4.17.22 dansyl-pro-ala-arg anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 22.0 * +EC3.4.17.22 dansyl-pro-ala-arg anas sp.//*//* 6.7 * +EC3.4.17.22 tyr-gly-gly-phe-leu-arg anas sp.//*//* 3.07 * +EC3.4.17.22 tyr-gly-gly-phe-leu-lys anas sp.//*//* 3.97 * +EC3.4.17.23 (7-methoxycoumarin-4-yl)acetyl-apk(2,4-dinitrophenyl)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6840.0 * +EC3.4.17.23 angiotensin 3-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 162.0 * +EC3.4.17.23 angiotensin 4-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 84.0 * +EC3.4.17.23 angiotensin 5-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1518.0 * +EC3.4.17.23 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.17.23 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1110.0 * +EC3.4.17.3 benzoyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 139.0 * +EC3.4.17.3 benzoyl-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 352.0 * +EC3.4.17.3 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.7 * +EC3.4.17.3 c3a69-77 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.9 * +EC3.4.17.3 c5a66-74 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.5 * +EC3.4.17.3 chemerin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 80.35 * +EC3.4.17.3 fibrinopeptide alphaarg96-104 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.17.3 fibrinopeptide betalys125-133 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 109.1 * +EC3.4.17.3 fibrinopeptide gammalys54-62 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.17.3 fibrinopeptide gammalys77-85 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC3.4.17.3 fibrinopeptide-alpha-arg96-104 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.17.3 fibrinopeptide-beta-lys125-133 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.6 * +EC3.4.17.3 fibrinopeptide-gamma-lys54-62 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.17.3 fibrinopeptide-gamma-lys77-85 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.17.3 furylacryloyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.4.17.3 furylacryloyl-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 97.0 * +EC3.4.17.8 methyl n-acetylmuramate-l-ala-gamma-d-glu-meso-diaminopimelate-d-ala-d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.31 * +EC3.4.17.8 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.59 * +EC3.4.17.8 udp-n-acetylmuramoyl-l-alanyl-d-gamma-glutamyl-l-lysyl-d-alanyl-d-alanine enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 6.2 * +EC3.4.17.B1 benzoyl-glycyl-arginine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 16.6 * +EC3.4.17.B1 benzoyl-glycyl-lysine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 21.2 * +EC3.4.17.B1 benzyloxycarbonyl-arg sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.4 * +EC3.4.17.B1 benzyloxycarbonyl-asp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.0 * +EC3.4.17.B1 benzyloxycarbonyl-gly-gly-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 36.4 * +EC3.4.17.B1 benzyloxycarbonyl-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.4 * +EC3.4.17.B1 bz-gly sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.15 * +EC3.4.17.B1 fur-gly sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.3 * +EC3.4.17.B1 l-bz-ala sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.8 * +EC3.4.17.B1 l-bz-arg sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.63 * +EC3.4.17.B1 l-bz-glu sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.3 * +EC3.4.17.B1 l-bz-his sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.83 * +EC3.4.17.B1 l-bz-leu sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.35 * +EC3.4.17.B1 l-bz-met sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.95 * +EC3.4.17.B1 l-bz-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.87 * +EC3.4.17.B1 l-fur-leu sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.58 * +EC3.4.17.B1 l-fur-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.25 * +EC3.4.17.B4 n-benzyloxycarbonyl-ala-arg thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 11.6 * +EC3.4.17.B5 n-carboxybenzoyl-ala-arg pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 600.0 * +EC3.4.18.1 (2,4-dinitrophenyl)-gffgw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.4.18.1 (2,4-dinitrophenyl)-gffrw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.18.1 (2,4-dinitrophenyl)-gffw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.18.1 (2,4-dinitrophenyl)-gfrfw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.18.1 (2,4-dinitrophenyl)-gfrw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.18.1 (2,4-dinitrophenyl)-grffw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.4.18.1 2-aminobenzoyl-fr-/-(2,3-diaminopropionyl)-(2,4-dinitrophenyl)-p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.18.1 2-aminobenzoyl-lr-/-(2,3-diaminopropionyl)-(2,4-dinitrophenyl)-p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.18.1 2-aminobenzoyl-rr-/-(2,3-diaminopropionyl)-(2,4-dinitrophenyl)-p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.18.1 benzyloxycarbony-fr-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.18.1 benzyloxycarbony-rr-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.19.1 2-aminobenzoyl-ala-leu-phe-gln-gly-pro-phe(no2)-ala aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 8.2 * +EC3.4.19.1 ac-leu-p-nitroanilide aeropyrum pernix k1//*//* 36.4 * +EC3.4.19.1 acetyl-ala-4-nitroanilide trematomus bernacchii//*//* 1.7 * +EC3.4.19.1 acetyl-leu-4-nitroanilide trematomus bernacchii//*//* 0.09 * +EC3.4.19.1 acetyl-met-7-amido-4-methylcoumarin trematomus bernacchii//*//* 7.74 * +EC3.4.19.1 ala-beta-naphthylamide streptomyces morookaense//*//* 8.79 * +EC3.4.19.1 formylmethionine-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 76.4 * +EC3.4.19.1 formylmethionine-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.3 * +EC3.4.19.1 formylmethionine-leu-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.5 * +EC3.4.19.1 formylmethionine-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.17 * +EC3.4.19.1 formylmethionine-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 70.2 * +EC3.4.19.1 formylmethionine-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 31.3 * +EC3.4.19.1 formylmethionine-val rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.94 * +EC3.4.19.1 leu-beta-naphthylamide streptomyces morookaense//*//* 4.07 * +EC3.4.19.1 n-acetyl-ala p-nitroanilide pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 17.3 * +EC3.4.19.1 n-acetyl-ala-ala-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 281.0 * +EC3.4.19.1 n-acetyl-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 790.0 * +EC3.4.19.1 n-acetyl-ala-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 461.0 * +EC3.4.19.1 n-acetyl-l-ala-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.5 * +EC3.4.19.1 n-acetyl-l-alanyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 14.0 * +EC3.4.19.1 n-acetyl-l-leu-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 18.0 * +EC3.4.19.1 n-acetyl-l-leucyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 18.0 * +EC3.4.19.1 n-acetyl-l-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC3.4.19.1 n-acetyl-l-phenylalanyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.0 * +EC3.4.19.1 n-acetyl-leu p-nitroanilide pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 330.0 * +EC3.4.19.1 n-acetyl-leu-p-nitroanilide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 9.3 * +EC3.4.19.1 n-acetyl-met-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 33.0 * +EC3.4.19.1 n-acetyl-met-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 27.1 * +EC3.4.19.1 n-acetyl-met-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.45 * +EC3.4.19.1 n-acetyl-phe-2-naphthylamide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 4.28 * +EC3.4.19.1 p-nitrophenyl caprylate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 6.6 * +EC3.4.19.1 phe-beta-naphthylamide streptomyces morookaense//*//* 1.69 * +EC3.4.19.1 pro-beta-naphthylamide streptomyces morookaense//*//* 1.61 * +EC3.4.19.1 puromycin streptomyces morookaense//*//* 0.98 * +EC3.4.19.1 tyr-beta-naphthylamide streptomyces morookaense//*//* 1.85 * +EC3.4.19.12 ubiquitin 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.67 * +EC3.4.19.12 ubiquitin-7-amino-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.174 * +EC3.4.19.12 ubiquitin-7-amino-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC3.4.19.12 ubiquitin-7-amino-4-methylcoumarin synthetic construct//*//* 0.02 * +EC3.4.19.12 ubiquitin-aw synthetic construct//*//* 0.0001 * +EC3.4.19.12 ubiquitin-rhodamine110-glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.72 * +EC3.4.19.12 ubiquitin-w-g75a synthetic construct//*//* 2.9 * +EC3.4.19.12 ubiquitin-w-g76a synthetic construct//*//* 1.7 * +EC3.4.19.12 ubiquitin-w-h68a synthetic construct//*//* 4.6 * +EC3.4.19.12 ubiquitin-w-i44a synthetic construct//*//* 1.6 * +EC3.4.19.12 ubiquitin-w-k11a synthetic construct//*//* 3.4 * +EC3.4.19.12 ubiquitin-w-k48a synthetic construct//*//* 2.4 * +EC3.4.19.12 ubiquitin-w-k63a synthetic construct//*//* 2.4 * +EC3.4.19.12 ubiquitin-w-k6a synthetic construct//*//* 4.0 * +EC3.4.19.12 ubiquitin-w-l71a synthetic construct//*//* 9.2 * +EC3.4.19.12 ubiquitin-w-l73a synthetic construct//*//* 5.7 * +EC3.4.19.12 ubiquitin-w-l8a synthetic construct//*//* 6.6 * +EC3.4.19.12 ubiquitin-w-r42a synthetic construct//*//* 0.2 * +EC3.4.19.12 ubiquitin-w-r72a synthetic construct//*//* 4.4 * +EC3.4.19.12 ubiquitin-w-r74a synthetic construct//*//* 0.3 * +EC3.4.19.12 ubiquitin-w-v70a synthetic construct//*//* 6.7 * +EC3.4.19.12 ubiquitin-w synthetic construct//*//* 0.03 * +EC3.4.19.12 ubiquitin-wa synthetic construct//*//* 0.0005 * +EC3.4.19.12 ubiquitinyl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.19.12 ubiquitinyl-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC3.4.19.12 wild-type di-ubiquitin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0728 * +EC3.4.19.13 l-glutamic acid-(4-nitroanilide) bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 12.45 * +EC3.4.19.3 4(r)-n-(2-nitroxyethyl)-2-oxothiazolidine-4-carboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.19.3 4(r)-n-(2-nitroxyethyl)-2-oxothiazolidine-4-carboxamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.3 * +EC3.4.19.3 4(r)-n-(2-nitroxyethyl)-2-oxothiazolidine-4-carboxamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC3.4.19.3 gonadotropin-releasing hormone trypanosoma brucei brucei//*//* 12.0 * +EC3.4.19.3 l-2-oxoimidazolidine-4-carboxyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.19.3 l-2-oxoimidazolidine-4-carboxyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.7 * +EC3.4.19.3 l-2-oxoimidazolidine-4-carboxyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.6 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-aminoethylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.6 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.6 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.1 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-d-2-aminopropylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-2-aminopropylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.2 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.5 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.4.19.3 l-pyroglutamyl-7-amido-4-methylcoumarin trypanosoma brucei brucei//*//* 58.0 * +EC3.4.19.3 l-pyroglutamyl-aminoethylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.5 * +EC3.4.19.3 l-pyroglutamyl-beta-naphthylamide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 785.0 * +EC3.4.19.3 l-pyroglutamyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.19.3 l-pyroglutamyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC3.4.19.3 l-pyroglutamyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC3.4.19.3 l-pyroglutamyl-p-nitroanilide trypanosoma brucei brucei//*//* 64.0 * +EC3.4.19.3 luteinizing-hormone-releasing hormone bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 7.2 * +EC3.4.19.3 neurotensin bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 26.3 * +EC3.4.19.3 pyroglutamic acid-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.5 * +EC3.4.19.3 pyroglutamyl-beta-naphthylamide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 31.4 * +EC3.4.19.3 thyroliberin-releasing hormone bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 21.0 * +EC3.4.19.3 thyrotrophin-releasing hormone trypanosoma brucei brucei//*//* 22.0 * +EC3.4.19.5 alpha-asp-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.7 * +EC3.4.19.5 beta-asp-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 213.0 * +EC3.4.19.5 beta-asp-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.93 * +EC3.4.19.5 beta-asp-his escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.8 * +EC3.4.19.5 beta-asp-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 104.0 * +EC3.4.19.5 beta-asp-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 58.0 * +EC3.4.19.5 beta-asp-phe cavia porcellus//*//* 1.98 * +EC3.4.19.5 beta-asp-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.9 * +EC3.4.19.5 beta-l-aspartyl-l-leucine lupinus luteus//*//* 0.813 * +EC3.4.19.6 5-oxoprolyl 2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.19.6 thyrotropin-releasing hormone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 38.3 * +EC3.4.19.7 acetyl-met-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 27.1 * +EC3.4.19.7 acetyl-met-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.45 * +EC3.4.19.7 n-formyl-met 2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 230.0 * +EC3.4.19.7 n-formyl-met-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.3 * +EC3.4.19.7 n-formyl-met-leu-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.5 * +EC3.4.19.7 n-formyl-met-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.17 * +EC3.4.19.7 n-formyl-met-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 70.2 * +EC3.4.19.7 n-formyl-met-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 31.3 * +EC3.4.19.7 n-formyl-met-val rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.94 * +EC3.4.19.9 5-formyltetrahydrofolate triglutamate danio rerio//eukaryotes;animals;vertebrates;fishes//dre 48.2 * +EC3.4.19.9 folic acid pentaglutamate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.13 * +EC3.4.19.9 p-aminobenzoylpentaglutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.29 * +EC3.4.19.9 p-aminobenzoylpentaglutamate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.08 * +EC3.4.19.9 pteroylpentaglutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 19.46 * +EC3.4.21.1 4-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.21.1 4-nitrophenyl benzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.047 * +EC3.4.21.1 acetyl-leu methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.6 * +EC3.4.21.1 acetyl-leu methyl ester camelus bactrianus//*//* 22.1 * +EC3.4.21.1 acetyl-phe ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 52.4 * +EC3.4.21.1 acetyl-phe ethyl ester camelus bactrianus//*//* 5.3 * +EC3.4.21.1 acetyl-trp ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 48.4 * +EC3.4.21.1 acetyl-trp ethyl ester camelus bactrianus//*//* 9.3 * +EC3.4.21.1 acetyl-tyr ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 126.0 * +EC3.4.21.1 acetyl-tyr ethyl ester camelus bactrianus//*//* 25.4 * +EC3.4.21.1 ala-ala-phe-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.7 * +EC3.4.21.1 benzoyl-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.4.21.1 benzoyl-d-ala-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.08 * +EC3.4.21.1 benzoyl-d-leu-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.04 * +EC3.4.21.1 benzoyl-d-phe-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.54 * +EC3.4.21.1 benzoyl-gly-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.08 * +EC3.4.21.1 benzoyl-l-ala-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.4 * +EC3.4.21.1 benzoyl-tyr ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 76.6 * +EC3.4.21.1 benzoyl-tyr ethyl ester camelus bactrianus//*//* 57.5 * +EC3.4.21.1 n-acetyl-l-leucine methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.5 * +EC3.4.21.1 n-acetyl-l-leucine methyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 4.6 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-pal-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.4 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-cn)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-coome)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-guanidine)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.5 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-nh2)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.2 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-no2)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.1 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-tyr-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 22.7 * +EC3.4.21.1 n-acetyl-l-phenylalanine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 54.8 * +EC3.4.21.1 n-acetyl-l-phenylalanine ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 40.3 * +EC3.4.21.1 n-acetyl-l-tryptophan ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 48.8 * +EC3.4.21.1 n-acetyl-l-tryptophan ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 25.7 * +EC3.4.21.1 n-acetyl-l-tyr-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 220.0 * +EC3.4.21.1 n-acetyl-l-tyr-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC3.4.21.1 n-acetyl-l-tyrosine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 120.0 * +EC3.4.21.1 n-acetyl-l-tyrosine ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 82.8 * +EC3.4.21.1 n-alpha-benzoyl-dl-arginine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.611 * +EC3.4.21.1 n-benzoyl-l-tyr ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 142.0 * +EC3.4.21.1 n-benzoyl-l-tyr ethyl ester gadus morhua//*//* 329.0 * +EC3.4.21.1 n-benzoyl-l-tyrosine 4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.3 * +EC3.4.21.1 n-benzoyl-l-tyrosine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 70.4 * +EC3.4.21.1 n-benzoyl-l-tyrosine ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 45.9 * +EC3.4.21.1 n-benzoyl-l-tyrosine methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.8 * +EC3.4.21.1 n-benzoyl-l-tyrosine-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.4.21.1 n-benzoyl-tyr p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.41 * +EC3.4.21.1 n-benzoyl-tyr p-nitroanilide gadus morhua//*//* 0.82 * +EC3.4.21.1 n-benzyloxycarbonyl-l-phe-ala-thr-phe-(p-no2)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.8 * +EC3.4.21.1 n-benzyloxycarbonyl-l-phe-ala-thr-tyr-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.7 * +EC3.4.21.1 n-glutaryl-l-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.31 * +EC3.4.21.1 n-succinyl-ala-ala-pro-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.21.1 n-succinyl-ala-ala-pro-leu-4-nitroanilide musca domestica//eukaryotes;animals;arthropods;insects//mde 0.55 * +EC3.4.21.1 n-succinyl-ala-ala-pro-leu-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.0 * +EC3.4.21.1 n-succinyl-ala-ala-pro-lys-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC3.4.21.1 n-succinyl-ala-ala-pro-met-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.0 * +EC3.4.21.1 n-succinyl-ala-ala-pro-nle-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.0 * +EC3.4.21.1 n-succinyl-ala-ala-pro-nva-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.31 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.5 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-4-nitroanilide musca domestica//eukaryotes;animals;arthropods;insects//mde 3.8 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin musca domestica//eukaryotes;animals;arthropods;insects//mde 42.0 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 110.0 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide struthio camelus//*//* 10.58 * +EC3.4.21.1 n-succinyl-ala-phe-ala bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC3.4.21.1 n-succinyl-ala-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.65 * +EC3.4.21.1 n-succinyl-l-ala-ala-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 39.0 * +EC3.4.21.1 n-succinyl-l-ala-ala-pro-p-nitroanilide sardinops sagax//*//* 18.6 * +EC3.4.21.1 n-succinyl-l-ala-ala-pro-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.8 * +EC3.4.21.1 n-succinyl-l-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC3.4.21.1 n-succinyl-l-phenylalanine-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.177 * +EC3.4.21.1 n-succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin musca domestica//eukaryotes;animals;arthropods;insects//mde 23.9 * +EC3.4.21.1 nalpha-benzyloxycarbonyl-l-ala p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.43 * +EC3.4.21.1 nalpha-benzyloxycarbonyl-l-lys p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC3.4.21.1 nalpha-benzyloxycarbonyl-l-tyr p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 85.0 * +EC3.4.21.1 nalpha-tosyl-l-tyr benzyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.4 * +EC3.4.21.1 p-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC3.4.21.1 suc-ala-ala-pro-phe-4-nitroanilide pterygoplichthys disjunctivus//*//* 19.24 * +EC3.4.21.1 succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 98.3 * +EC3.4.21.1 succinyl-ala-ala-pro-phe-p-nitroanilide sardinops caeruleus//*//* 18.6 * +EC3.4.21.1 succinyl-ala-ala-pro-tyr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 105.0 * +EC3.4.21.1 succinyl-l-ala-ala-pro-l-phenylalanine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.9 * +EC3.4.21.1 succinyl-l-ala-l-ala-l-pro-l-leu-4-nitroanilide sepia officinalis//*//* 3.6 * +EC3.4.21.1 succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide farfantepenaeus californiensis//*//* 21.5 * +EC3.4.21.1 succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide sepia officinalis//*//* 18.0 * +EC3.4.21.1 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC3.4.21.1 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin carassius auratus//*//* 3.4 * +EC3.4.21.10 aminobenzoyl-ser-lys-gly-arg-ser-leu-ile-gly-lys(dinitrophenyl)-asp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 320.0 * +EC3.4.21.10 nalpha-benzoyl-l-arg ethyl ester ovis aries//eukaryotes;animals;vertebrates;mammals//oas 115.0 * +EC3.4.21.10 toluene-p-sulfonyl-l-arginine methyl ester hydrochloride ovis aries//eukaryotes;animals;vertebrates;mammals//oas 49.0 * +EC3.4.21.100 lys-pro-ala-asp-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.8 * +EC3.4.21.100 lys-pro-ala-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 57.6 * +EC3.4.21.100 lys-pro-ala-leu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 59.3 * +EC3.4.21.100 lys-pro-ala-lys-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.7 * +EC3.4.21.100 lys-pro-arg-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 53.1 * +EC3.4.21.100 lys-pro-asn-gln-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.5 * +EC3.4.21.100 lys-pro-asn-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 47.1 * +EC3.4.21.100 lys-pro-asp-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.68 * +EC3.4.21.100 lys-pro-gln-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 24.5 * +EC3.4.21.100 lys-pro-glu-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.82 * +EC3.4.21.100 lys-pro-ile-ala-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 27.7 * +EC3.4.21.100 lys-pro-ile-arg-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 12.5 * +EC3.4.21.100 lys-pro-ile-asn-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.79 * +EC3.4.21.100 lys-pro-ile-asp-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.9 * +EC3.4.21.100 lys-pro-ile-gln-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.4 * +EC3.4.21.100 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.9 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-ala-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 19.0 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ala pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 15.5 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-arg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.64 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-asp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 40.7 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.9 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 32.4 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-phe pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.7 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ser pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 44.4 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-tyr pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.87 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-val pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.6 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-asn-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 12.9 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-asp-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 33.0 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-glu-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 33.3 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-ile-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.24 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-leu-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.38 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-lys-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 54.1 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-ser-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.8 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-val-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.38 * +EC3.4.21.100 lys-pro-ile-his-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.0 * +EC3.4.21.100 lys-pro-ile-ile-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 18.3 * +EC3.4.21.100 lys-pro-ile-leu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 27.2 * +EC3.4.21.100 lys-pro-ile-lys-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.75 * +EC3.4.21.100 lys-pro-ile-nle-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.8 * +EC3.4.21.100 lys-pro-ile-pro-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 29.3 * +EC3.4.21.100 lys-pro-ile-ser-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.8 * +EC3.4.21.100 lys-pro-ile-thr-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 22.9 * +EC3.4.21.100 lys-pro-ile-val-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 15.7 * +EC3.4.21.100 lys-pro-leu-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.1 * +EC3.4.21.100 lys-pro-lys-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 56.3 * +EC3.4.21.100 lys-pro-ser-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.4 * +EC3.4.21.100 lys-pro-thr-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.92 * +EC3.4.21.100 lys-pro-val-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.8 * +EC3.4.21.100 lys-pro-val-ser-tyr-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0867 * +EC3.4.21.100 mca-lys-pro-pro-leu-glu-tyr-arg-leu-gly-lys(dnp)-gly pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 73.0 * +EC3.4.21.100 phe-pro-ala-p-nitroanilide aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 35.0 * +EC3.4.21.101 lys-pro-ala-asp-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.4 * +EC3.4.21.101 lys-pro-ala-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 79.4 * +EC3.4.21.101 lys-pro-ala-lys-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 19.2 * +EC3.4.21.101 lys-pro-arg-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 105.0 * +EC3.4.21.101 lys-pro-asn-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 38.3 * +EC3.4.21.101 lys-pro-asp-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 18.1 * +EC3.4.21.101 lys-pro-gln-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 73.9 * +EC3.4.21.101 lys-pro-glu-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 62.4 * +EC3.4.21.101 lys-pro-ile-ala-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 60.5 * +EC3.4.21.101 lys-pro-ile-arg-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 43.3 * +EC3.4.21.101 lys-pro-ile-asn-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 35.7 * +EC3.4.21.101 lys-pro-ile-asp-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 18.6 * +EC3.4.21.101 lys-pro-ile-gln-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 48.8 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-ala-leu xanthomonas sp.//*//* 1.4 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ala xanthomonas sp.//*//* 24.7 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-arg xanthomonas sp.//*//* 15.5 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-asp xanthomonas sp.//*//* 101.0 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ile xanthomonas sp.//*//* 27.3 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 102.0 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-phe xanthomonas sp.//*//* 26.7 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ser xanthomonas sp.//*//* 71.3 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-tyr xanthomonas sp.//*//* 27.6 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-val xanthomonas sp.//*//* 30.9 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-asn-leu xanthomonas sp.//*//* 32.7 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-asp-leu xanthomonas sp.//*//* 87.9 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-glu-leu xanthomonas sp.//*//* 189.0 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-ile-leu xanthomonas sp.//*//* 16.1 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-leu-leu xanthomonas sp.//*//* 31.0 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-lys-leu xanthomonas sp.//*//* 43.7 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-ser-leu xanthomonas sp.//*//* 40.4 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-val-leu xanthomonas sp.//*//* 8.57 * +EC3.4.21.101 lys-pro-ile-his-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 23.1 * +EC3.4.21.101 lys-pro-ile-ile-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 19.4 * +EC3.4.21.101 lys-pro-ile-leu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 16.8 * +EC3.4.21.101 lys-pro-ile-lys-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 16.6 * +EC3.4.21.101 lys-pro-ile-nle-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 39.8 * +EC3.4.21.101 lys-pro-ile-pro-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 57.9 * +EC3.4.21.101 lys-pro-ile-ser-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 56.8 * +EC3.4.21.101 lys-pro-ile-thr-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 30.5 * +EC3.4.21.101 lys-pro-ile-val-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 26.9 * +EC3.4.21.101 lys-pro-leu-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 15.3 * +EC3.4.21.101 lys-pro-lys-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 96.4 * +EC3.4.21.101 lys-pro-phe-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 57.3 * +EC3.4.21.101 lys-pro-ser-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 36.7 * +EC3.4.21.101 lys-pro-thr-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 37.0 * +EC3.4.21.101 lys-pro-tyr-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 8.45 * +EC3.4.21.101 lys-pro-val-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 28.1 * +EC3.4.21.102 ac-waraaaraaarbaab escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC3.4.21.102 arc repressor escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.4.21.105 bodipy fl casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC3.4.21.105 cypet-tata-ypet providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.0028 * +EC3.4.21.105 fl-casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.062 * +EC3.4.21.105 fl-casein haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.063 * +EC3.4.21.105 fl-casein providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.06 * +EC3.4.21.105 tata escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0017 * +EC3.4.21.105 tata haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.07 * +EC3.4.21.105 tata providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.018 * +EC3.4.21.106 abz-kqsrkfvpy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC3.4.21.106 abz-raarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.106 abz-rkrrgsrgy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 66.0 * +EC3.4.21.106 abz-rlarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.106 abz-rqaravggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.106 abz-rqarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.106 abz-rqaryvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.106 abz-rqlrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.106 abz-rqrraleky(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC3.4.21.106 abz-rqrrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.106 abz-rqyrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.106 abz-rrarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.106 abz-skgrsligy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.21.106 abz-sklrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC3.4.21.106 pro-urokinase-type plasminogen activator homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00145 * +EC3.4.21.108 (7-methoxycoumarin-4-yl)airrvsysf-(5-amino-2-nitro)benzamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-abu-tyr-met-his-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-abu-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-abu-tyr-met-trp-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-ser-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-val-abu-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-val-ser-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.21.108 beta-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0204 * +EC3.4.21.108 spmfkgv-para-nitroaniline bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.56 * +EC3.4.21.109 abz-ile-arg-ala-arg-ser-ala-ala-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.24 * +EC3.4.21.109 abz-ile-arg-ala-arg-ser-ala-gly-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.79 * +EC3.4.21.109 abz-ile-arg-ala-arg-ser-ala-ser-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.66 * +EC3.4.21.109 alphaebeta7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC3.4.21.109 filaggrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC3.4.21.109 matriptase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.109 methylsulfonyl-d-cyclohexyltyrosyl-glycyl-arginine-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 59.0 * +EC3.4.21.109 methylsulfonyl-d-cyclohexyltyrosylglycyl-arginine-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 103.0 * +EC3.4.21.109 pro-urokinase plasminogen activator homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.89 * +EC3.4.21.109 protease-activated receptor-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.0 * +EC3.4.21.109 raarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.109 rlarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.109 rqaravgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC3.4.21.109 rqarqvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.21.109 rqarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.109 rqaryvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.109 rqlrvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.109 rqrrvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC3.4.21.109 rqyrvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.21.109 rrarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.21.109 ryarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.109 single-chain urokinase-type plasminogen activator rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.71 * +EC3.4.21.109 t-butyloxycarbonyl-l-gln-l-ala-l-arg-4-methyl-coumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.7 * +EC3.4.21.109 trask homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC3.4.21.110 sqlranishkdmqlgr streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.1 * +EC3.4.21.110 vvasqlranish streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.2 * +EC3.4.21.111 n-succinyl-ala-ala-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 2.6 * +EC3.4.21.111 n-succinyl-ala-ala-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 2.5 * +EC3.4.21.111 n-succinyl-ala-ala-pro-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 98.1 * +EC3.4.21.111 n-succinyl-ala-ala-val-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.047 * +EC3.4.21.111 n-succinyl-ala-ala-val-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 18.0 * +EC3.4.21.111 n-succinyl-ala-pro-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.48 * +EC3.4.21.111 n-succinyl-gly-gly-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.15 * +EC3.4.21.111 n-succinyl-ile-val-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 8.1 * +EC3.4.21.111 n-succinyl-phe-ala-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 11.0 * +EC3.4.21.111 n-succinyl-phe-leu-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 3.6 * +EC3.4.21.111 n-succinyl-phe-nle-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 47400.0 * +EC3.4.21.111 n-succinyl-phe-val-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 4.7 * +EC3.4.21.111 n-succinyl-phe-val-leu-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.069 * +EC3.4.21.111 n-succinyl-phe-val-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 5.0 * +EC3.4.21.111 n-tert-butyloxycarbonyl-val-leu-gly-arg-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 26.0 * +EC3.4.21.112 abz-diyisrrllgtfty(no2)a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.21.112 ac-arg-arg-leu-leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.112 ac-arg-ser-leu-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.21.114 dabsyl-lys-thr-ala-tyr-phe-gln-leu-glu-gly-arg-his-phe-glu-edans porcine reproductive and respiratory syndrome virus//*//* 0.0073 * +EC3.4.21.117 abz-aikffsa-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.117 abz-alfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.117 abz-flfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.117 abz-gfspfrssri-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.117 abz-gfspfrssrigeikeett-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.117 abz-glfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.117 abz-hlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.117 abz-ilfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.117 abz-kafssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.117 abz-kffssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.117 abz-klfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.117 abz-klyssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC3.4.21.117 abz-kpfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.117 abz-kvfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.117 abz-kyfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.117 abz-llfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.117 abz-mislmkrp-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.21.117 abz-nlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.21.117 abz-qlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.117 abz-rlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.117 abz-vlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.117 ac-efkpilwrlgc-(6-(9-oxo-9h-acridin-10-yl)-hexanoate)e-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.4.21.117 acetyl-phe-val-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.117 l-phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6e-05 * +EC3.4.21.117 l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3e-05 * +EC3.4.21.117 methoxy-suc-arg-pro-tyr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.117 phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3e-05 * +EC3.4.21.117 succinyl-phe-leu-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.118 benzyloxycarbonyl-gly-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.49 * +EC3.4.21.118 benzyloxycarbonyl-l-val-l-val-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 140.0 * +EC3.4.21.118 l-pro-l-phe-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 180.0 * +EC3.4.21.118 pro-phe-arg-4-methylcoumaryl-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 193.0 * +EC3.4.21.118 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.45 * +EC3.4.21.118 t-butyloxycarbonyl-l-leu-l-lys-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 65.0 * +EC3.4.21.118 t-butyloxycarbonyl-l-phe-l-ser-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.21.118 t-butyloxycarbonyl-l-val-l-leu-l-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC3.4.21.118 t-butyloxycarbonyl-l-val-l-pro-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 98.0 * +EC3.4.21.118 tert-butyloxycarbonyl-asp(benzyloxy)-pro-arg-4-methylcoumaryl-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 31.3 * +EC3.4.21.118 tert-butyloxycarbonyl-gln-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.75 * +EC3.4.21.118 tert-butyloxycarbonyl-gln-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.39 * +EC3.4.21.118 tert-butyloxycarbonyl-gln-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC3.4.21.118 tert-butyloxycarbonyl-leu-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.62 * +EC3.4.21.118 tert-butyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.56 * +EC3.4.21.118 tert-butyloxycarbonyl-phe-ser-arg-4-methylcoumaryl-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.8 * +EC3.4.21.118 tert-butyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.57 * +EC3.4.21.118 tert-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.64 * +EC3.4.21.118 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumaryl-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 100.0 * +EC3.4.21.118 tert-butyloxycarbonyl-val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.76 * +EC3.4.21.118 tosyl-gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.11 * +EC3.4.21.119 abz-klksskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.119 abz-klrsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.4.21.120 nalpha-tert-butoxycarbonylphenylalanylserylarginyl-4-methylcoumarin-7-amide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 3.8 * +EC3.4.21.19 benzyloxycarbonyl-ala-ala-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 40.9 * +EC3.4.21.19 benzyloxycarbonyl-ala-ala-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 20.8 * +EC3.4.21.19 benzyloxycarbonyl-ala-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 5.9 * +EC3.4.21.19 benzyloxycarbonyl-ala-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 5.6 * +EC3.4.21.19 benzyloxycarbonyl-ala-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 131.0 * +EC3.4.21.19 benzyloxycarbonyl-glu-4-nitroanilide bacillus intermedius//*//* 81.0 * +EC3.4.21.19 benzyloxycarbonyl-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.28 * +EC3.4.21.19 benzyloxycarbonyl-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.29 * +EC3.4.21.19 benzyloxycarbonyl-l-ala-l-ala-l-leu-l-glu-4-nitroanilide bacillus intermedius//*//* 16.6 * +EC3.4.21.19 benzyloxycarbonyl-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 22.6 * +EC3.4.21.19 benzyloxycarbonyl-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 31.4 * +EC3.4.21.19 benzyloxycarbonyl-leu-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 50.8 * +EC3.4.21.19 benzyloxycarbonyl-leu-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 30.2 * +EC3.4.21.19 benzyloxycarbonyl-phe-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 40.9 * +EC3.4.21.19 benzyloxycarbonyl-phe-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 33.2 * +EC3.4.21.19 l-phe-l-leu-l-glu-4-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 44.4 * +EC3.4.21.19 leu-leu-glu-4-methylcoumaryl-7-amide staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 9059.0 * +EC3.4.21.19 succinyl-ala-ala-pro-glu-p-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 38.3 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-asp-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.16 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-asp-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.54 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 11.9 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 24.0 * +EC3.4.21.2 acetyl-l-leu methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC3.4.21.2 acetyl-l-trp ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.32 * +EC3.4.21.2 acetyl-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 92.0 * +EC3.4.21.2 benzoyl-l-leu ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 25.4 * +EC3.4.21.2 benzoyl-l-leu methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 28.0 * +EC3.4.21.2 benzoyl-l-met ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.7 * +EC3.4.21.2 benzoyl-l-phe ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.55 * +EC3.4.21.2 benzoyl-l-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 80.0 * +EC3.4.21.2 benzyloxycarbonyl-l-leu-gly amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC3.4.21.2 n-acetyl-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 170.0 * +EC3.4.21.2 succinyl-ala-ala-pro-ala 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.2 succinyl-ala-ala-pro-asn 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.21.2 succinyl-ala-ala-pro-gln 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.2 succinyl-ala-ala-pro-ile 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.2 succinyl-ala-ala-pro-leu 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC3.4.21.2 succinyl-ala-ala-pro-met 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.9 * +EC3.4.21.2 succinyl-ala-ala-pro-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.21.2 succinyl-ala-ala-pro-trp 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.2 succinyl-ala-ala-pro-tyr 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.6 * +EC3.4.21.2 succinyl-ala-ala-pro-val 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.421 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-asp-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-phe-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.512 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-trp-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.20 acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.21.20 methoxysuccinyl-l-alanine-l-alanine-l-proline-l-valine-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.21.20 methoxysuccinyl-l-alanine-l-alanine-l-proline-l-valine-p-nitrophenylanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.5 * +EC3.4.21.20 n-acetyl-l-phenylalanine-p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 68.3 * +EC3.4.21.20 n-acetyl-l-phenylalanine-p-nitrophenyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 20.2 * +EC3.4.21.20 n-benzoyl-l-tyrosine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.20 n-succinyl-l-val-l-pro-l-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 100.0 * +EC3.4.21.20 n-succinyl-l-val-l-pro-l-phe-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 41.0 * +EC3.4.21.21 benzyloxycarbonyl-arg-p-nitrobenzyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.8 * +EC3.4.21.21 d-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.2 * +EC3.4.21.21 factor x homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 94.0 * +EC3.4.21.21 methanesulfonyl-d-cyclohexylalanyl-butyl-arginine p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.4.21.21 n-methylsulfonyl-d-phe-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 396000.0 * +EC3.4.21.21 s-2288 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.4.21.21 spectrozyme fviia homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.4.21.22 4-methylsulfonyl-d-leu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.38 * +EC3.4.21.22 ch3so2-d-leu-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.9 * +EC3.4.21.22 ch3so2-d-leu-gly-l-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.2 * +EC3.4.21.22 factor x homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.0 * +EC3.4.21.22 l-leu-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.4 * +EC3.4.21.22 methoxycarbonyl-d-nle-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.01 * +EC3.4.21.22 methylsulfonyl-d-cyclohexylglycyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.67 * +EC3.4.21.22 methylsulfonyl-d-hexahydrotyrosyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.11 * +EC3.4.21.25 ala-ala-pro-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.51 * +EC3.4.21.25 ala-ala-pro-glu-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.21 * +EC3.4.21.25 ala-ala-pro-gly-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.043 * +EC3.4.21.25 ala-ala-pro-l-diaminopropionic acid-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.603 * +EC3.4.21.25 ala-ala-pro-leu-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 23.9 * +EC3.4.21.25 ala-ala-pro-lys-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.295 * +EC3.4.21.25 ala-ala-pro-phe-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.26 * +EC3.4.21.25 ala-ala-pro-val-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.022 * +EC3.4.21.25 benzoyl-tyr-ethyl ester cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.22 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-ala-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.767 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-arg-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.0833 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-asp-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.417 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-glu-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.0333 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-leu-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.8 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-norleucine-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.817 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-norvaline-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.13 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-phe-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.317 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-ser-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.9 * +EC3.4.21.25 benzyloxycarbonyl-ala-ala-val-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.167 * +EC3.4.21.25 benzyloxycarbonyl-ala-asn-sch2c6h5 cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.517 * +EC3.4.21.25 benzyloxycarbonyl-tyr-nitrophenyl ester cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.2 * +EC3.4.21.25 glutaryl-ala-ala-pro-leu-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.9 * +EC3.4.21.25 l-alanyl-4-nitroanilide ficus religiosa//*//* 32.13 * +EC3.4.21.25 l-alanyl-l-alanyl-4-nitroanilide ficus religiosa//*//* 25.48 * +EC3.4.21.25 l-gamma-glutamyl-4-nitroanilide ficus religiosa//*//* 207.8 * +EC3.4.21.25 l-leucyl-4-nitroanilide ficus religiosa//*//* 749.7 * +EC3.4.21.25 leu-leu-pro-ala-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 14.0 * +EC3.4.21.25 leu-leu-pro-asn-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 98.0 * +EC3.4.21.25 leu-leu-pro-gln-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 162.0 * +EC3.4.21.25 leu-leu-pro-glu-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.0 * +EC3.4.21.25 leu-leu-pro-glu-lys-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 4.0 * +EC3.4.21.25 leu-leu-pro-glu-ser-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 7.0 * +EC3.4.21.25 leu-leu-pro-his-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 59.0 * +EC3.4.21.25 leu-leu-pro-leu-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 20.0 * +EC3.4.21.25 leu-leu-pro-met-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 177.0 * +EC3.4.21.25 leu-leu-pro-phe-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.0 * +EC3.4.21.25 leu-leu-pro-ser-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 3.0 * +EC3.4.21.25 leu-leu-pro-thr-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 27.0 * +EC3.4.21.25 succinyl-ala-ala-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.013 * +EC3.4.21.25 succinyl-ala-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.007 * +EC3.4.21.25 succinyl-ala-ala-pro-phe-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 4.17 * +EC3.4.21.25 succinyl-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.002 * +EC3.4.21.25 succinyl-ala-pro-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.31 * +EC3.4.21.26 2-aminobenzoyl-arg-pro-pro-gly-phe-ser-pro-phe-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.4.21.26 2-aminobenzoyl-arg-pro-pro-gly-phe-ser-pro-phe-arg-ser-ser-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.4.21.26 2-aminobenzoyl-glu-gly-phe-ser-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.22 * +EC3.4.21.26 2-aminobenzoyl-glu-phe-ser-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.7 * +EC3.4.21.26 2-aminobenzoyl-gly-glu-ser-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.94 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-arg-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.2 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-glu-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.4 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-gly-pro-phe-gly-phe(no2)-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.38 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-ser-pro-phe-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-ser-pro-phe-arg-ser-ser-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC3.4.21.26 2-aminobenzoyl-gly-pro-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.9 * +EC3.4.21.26 2-aminobenzoyl-gly-pro-phe-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.0 * +EC3.4.21.26 2-aminobenzoyl-gly-pro-phe-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.0 * +EC3.4.21.26 2-aminobenzoyl-gly-ser-pro-phe-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.5 * +EC3.4.21.26 abz-gly-l-phe-l-arg-l-pro-l-phe(no2)-l-arg-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.97 * +EC3.4.21.26 ala-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 15.9 * +EC3.4.21.26 ala-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.079 * +EC3.4.21.26 ala-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.079 * +EC3.4.21.26 angiotensin i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.85 * +EC3.4.21.26 arg-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 16.9 * +EC3.4.21.26 arg-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.03 * +EC3.4.21.26 asp-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.073 * +EC3.4.21.26 asp-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.073 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.5 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 5.9 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.5 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-p-nitrophenol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 2.7 * +EC3.4.21.26 benzyloxycarbonyl-ala-gly-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 192.0 * +EC3.4.21.26 benzyloxycarbonyl-ala-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 0.82 * +EC3.4.21.26 benzyloxycarbonyl-ala-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 38.2 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 17.9 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 4.2 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-p-nitroanilide lyophyllum cinerascens//*//* 126.0 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 17.9 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 61.0 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-gly-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 38.0 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 2.0 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 30.0 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.147 * +EC3.4.21.26 benzyloxycarbonyl-gly-gly-pro-p-nitrophenol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 85.8 * +EC3.4.21.26 benzyloxycarbonyl-gly-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 27.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-4-nitroanilide coprinopsis clastophylla//*//* 162.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-7-amido-4-methylcoumarin coprinopsis clastophylla//*//* 26.6 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.7 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-4-methylcoumaryl-7-amide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 115.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-4-methylcoumaryl-7-amide lyophyllum cinerascens//*//* 0.95 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 240.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-ala lyophyllum cinerascens//*//* 6.08 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 15.6 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 169.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 153.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 32.5 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-d-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.94 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-d-leu ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.08 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 520.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-ala lyophyllum cinerascens//*//* 13.2 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 38.4 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-d-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 1600.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-d-ala lyophyllum cinerascens//*//* 5.67 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-d-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 46.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 1000.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 34.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-d-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 25.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 700.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-pro lyophyllum cinerascens//*//* 12.4 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-pro ovis aries//eukaryotes;animals;vertebrates;mammals//oas 53.3 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 520.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly lyophyllum cinerascens//*//* 7.98 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 52.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 23.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu lyophyllum cinerascens//*//* 1.05 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu ovis aries//eukaryotes;animals;vertebrates;mammals//oas 26.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitroanilide lyophyllum cinerascens//*//* 3.8 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 16.9 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitrophenol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 102.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 32.7 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitrophenol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-phe elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 180.0 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-phe lyophyllum cinerascens//*//* 3.95 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-phe ovis aries//eukaryotes;animals;vertebrates;mammals//oas 3.2 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-sbzl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 108.0 * +EC3.4.21.26 benzyloxycarbonyl-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 8.9 * +EC3.4.21.26 calcitonin gene-related peptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.072 * +EC3.4.21.26 gly-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.06 * +EC3.4.21.26 gly-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.06 * +EC3.4.21.26 l-ala-l-ala-l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 139.4 * +EC3.4.21.26 n-benzyloxycarbonyl-gly-pro-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.1 * +EC3.4.21.26 n-benzyloxycarbonyl-gly-pro-leu-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 32.3 * +EC3.4.21.26 n-succinyl-ala-pro-4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 22.2 * +EC3.4.21.26 n-succinyl-gly-l-pro-l-leu-gly-l-pro-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 48.7 * +EC3.4.21.26 nalpha-benzyl-gly-pro-leu-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 29.2 * +EC3.4.21.26 nalpha-benzyloxycarbonyl-gly-pro-leu-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 17.6 * +EC3.4.21.26 thyrotropin-releasing hormone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.4 * +EC3.4.21.26 z-gly-l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 240.0 * +EC3.4.21.26 z-gly-pro-4-nitroanilide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 505.0 * +EC3.4.21.26 z-l-ala-l-ala-l-ala-l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 93.0 * +EC3.4.21.27 d-ile-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.2 * +EC3.4.21.27 factor fix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.4.21.27 factor ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC3.4.21.27 factor xi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC3.4.21.27 l-pyroglu-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 201.0 * +EC3.4.21.27 l-pyroglutamyl-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 430.0 * +EC3.4.21.27 l-pyroglutamyl-l-prolyl-l-argininyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 119.0 * +EC3.4.21.27 l-pyroglutamyl-l-prolyl-l-arginyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 117.0 * +EC3.4.21.27 pyroglu-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 145.0 * +EC3.4.21.27 pyroglu-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 350.0 * +EC3.4.21.27 s-2366 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 121.0 * +EC3.4.21.34 2-aminobenzoic acid-gly-phe-ser-pro-phe-arg-ser-ser-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.34 acetyl-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 37.7 * +EC3.4.21.34 factor xii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.34 h-d-pro-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 37.7 * +EC3.4.21.34 high-molecular-weight kininogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0306 * +EC3.4.21.34 kininogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.21.34 o-aminobenzoyl-fsapmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.2 * +EC3.4.21.34 o-aminobenzoyl-fsqamkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 192.0 * +EC3.4.21.34 o-aminobenzoyl-fsqfmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 90.0 * +EC3.4.21.34 o-aminobenzoyl-fsqgmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 480.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpakrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmarltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkratlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 72.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrlalgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltagnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltlanttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltlgattq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.4.21.34 o-aminobenzoyl-vmiaalprtmfiq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.21.34 o-aminobenzoyl-vvisalprtmfiq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.66 * +EC3.4.21.34 plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC3.4.21.35 abz-alfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.35 abz-flfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.35 abz-frssr-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.21.35 abz-gfspfrslri-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC3.4.21.35 abz-gfspfrssri-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.7 * +EC3.4.21.35 abz-glfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.35 abz-hlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.35 abz-ilfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.35 abz-kafsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 abz-kffsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 abz-klffsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-klfrsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-klfsakq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.4.21.35 abz-klfsgkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-klfsikq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.35 abz-klfslkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.35 abz-klfsnkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-klfsrkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.35 abz-klfssdq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.35 abz-klfsseq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.35 abz-klfssgq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.35 abz-klfssiq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 abz-klfssk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.35 abz-klfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.35 abz-klfsslq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.21.35 abz-klfssnq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.35 abz-klfssqq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.35 abz-klfssrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.21.35 abz-klfsssq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.4.21.35 abz-klfssvq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.35 abz-klfsvkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.21.35 abz-klftsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-klfwsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-klyssk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC3.4.21.35 abz-kpfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 abz-kvfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 abz-kyfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 abz-llfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.35 abz-mislmklp-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 abz-mislmkrp-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.4.21.35 abz-nlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.21.35 abz-qlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.35 abz-rlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.35 abz-vlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.35 acetyl-2-aminohexanoic acid-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1180.0 * +EC3.4.21.35 acetyl-ala-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 682.0 * +EC3.4.21.35 acetyl-ala-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0542 * +EC3.4.21.35 acetyl-ala-leu-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.74 * +EC3.4.21.35 acetyl-ala-phe-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.87 * +EC3.4.21.35 acetyl-ala-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.71 * +EC3.4.21.35 acetyl-ala-thr-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.72 * +EC3.4.21.35 acetyl-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC3.4.21.35 acetyl-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC3.4.21.35 acetyl-d-ala-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.6 * +EC3.4.21.35 acetyl-d-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 49.0 * +EC3.4.21.35 acetyl-glu-leu-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.2 * +EC3.4.21.35 acetyl-glu-lys-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.029 * +EC3.4.21.35 acetyl-glu-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.62 * +EC3.4.21.35 acetyl-glu-thr-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.38 * +EC3.4.21.35 acetyl-gly-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 385.0 * +EC3.4.21.35 acetyl-gly-arg-ser-val-gln sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.77 * +EC3.4.21.35 acetyl-ile-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 727.0 * +EC3.4.21.35 acetyl-leu-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 634.0 * +EC3.4.21.35 acetyl-met-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1380.0 * +EC3.4.21.35 acetyl-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 915.0 * +EC3.4.21.35 acetyl-phe-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.81 * +EC3.4.21.35 acetyl-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.69 * +EC3.4.21.35 acetyl-phe-arg-ser-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC3.4.21.35 acetyl-phe-arg-ser-val-gln sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.8 * +EC3.4.21.35 acetyl-phe-arg-ser-val-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.6 * +EC3.4.21.35 acetyl-pro-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 806.0 * +EC3.4.21.35 acetyl-pro-phe-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC3.4.21.35 acetyl-pro-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.78 * +EC3.4.21.35 acetyl-trp-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 438.0 * +EC3.4.21.35 acetyl-tyr-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 680.0 * +EC3.4.21.35 acetyl-val-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 964.0 * +EC3.4.21.35 ala-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.4.21.35 benzyloxycarbonyl-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.113 * +EC3.4.21.35 benzyloxycarbonyl-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC3.4.21.35 benzyloxycarbonyl-pro-gly-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 259.0 * +EC3.4.21.35 benzyloxycarbonyl-pro-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 537.0 * +EC3.4.21.35 d-pro-phe-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.21.35 d-pro-phe-arg-4-methylcoumarin-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.18 * +EC3.4.21.35 d-pro-phe-arg-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 95.3 * +EC3.4.21.35 d-pro-phe-phe-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.5 * +EC3.4.21.35 d-pro-phe-phe-4-methylcoumarin-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.085 * +EC3.4.21.35 d-pro-phe-phe-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.21.35 d-val-leu-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.6 * +EC3.4.21.35 d-val-leu-lys-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.1 * +EC3.4.21.35 dl-val-leu-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.16 * +EC3.4.21.35 fspfrsvq sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.4 * +EC3.4.21.35 gln-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.21.35 gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.4.21.35 leu-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 n-alpha-acetyl-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.154 * +EC3.4.21.35 n-alpha-acetyl-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.2 * +EC3.4.21.35 n-alpha-benzoyl-l-arg ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 123.0 * +EC3.4.21.35 n-alpha-benzoyl-l-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 154.0 * +EC3.4.21.35 n-alpha-benzoyl-l-arginine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 100.0 * +EC3.4.21.35 n-alpha-benzoyl-l-citrulline methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 86.4 * +EC3.4.21.35 n-alpha-benzoyl-l-lys methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.5 * +EC3.4.21.35 n-alpha-benzoyl-l-orn methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.4.21.35 n-alpha-toluenesulfonyl-l-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.7 * +EC3.4.21.35 n-alpha-tosyl-l-arginine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.38 * +EC3.4.21.35 o-aminobenzoyl-aikffire-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.35 o-aminobenzoyl-aikffqre-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 o-aminobenzoyl-aikffsae-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.54 * +EC3.4.21.35 o-aminobenzoyl-aikffske-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.21.35 o-aminobenzoyl-aikffspe-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.35 o-aminobenzoyl-aikffsre-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.33 * +EC3.4.21.35 o-aminobenzoyl-aikffsse-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.35 o-aminobenzoyl-aikfftre-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 o-aminobenzoyl-frssr-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.35 o-aminobenzoyl-frssr-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.0 * +EC3.4.21.35 o-aminobenzoyl-frsvq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.21.35 o-aminobenzoyl-frsvq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-(aminocyclohexyl)alanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-(aminomethyl)-n-isopropylphenylalanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.81 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-(aminomethyl)phenylalanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-piperidinylalanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC3.4.21.35 o-aminobenzoyl-gfspf-nim-(dimethyl)histidine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.21.35 o-aminobenzoyl-gfspfraprvq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.6 * +EC3.4.21.35 o-aminobenzoyl-gfspfraprvq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrigeikeeq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrigeikeeq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.1 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.0 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvqvmkyegsq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvqvmkyegsq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 40.1 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.0 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.7 * +EC3.4.21.35 o-aminobenzoyl-lmkrp-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 o-aminobenzoyl-lmkrp-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.076 * +EC3.4.21.35 o-aminobenzoyl-lprtmfiq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.032 * +EC3.4.21.35 o-aminobenzoyl-lprtmq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC3.4.21.35 o-aminobenzoyl-mtemarrpq-ethylenediamine 2,4-dinitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.73 * +EC3.4.21.35 o-aminobenzoyl-mtemarrpq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.49 * +EC3.4.21.35 o-aminobenzoyl-mtemarrpq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.4.21.35 o-aminobenzoyl-mtsvirrpq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.27 * +EC3.4.21.35 o-aminobenzoyl-mtsvirrpq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.86 * +EC3.4.21.35 o-aminobenzoyl-phe-4-(aminomethyl)phenylalanine-ser-arg-gln-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-arg-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.7 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-arg-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.7 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-lys-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 18.4 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-lys-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 21.8 * +EC3.4.21.35 o-aminobenzoyl-phe-nim-(dimethyl)histidine-ser-arg-gln-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.35 o-aminobenzoyl-qplgmislmkrp-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1 * +EC3.4.21.35 o-aminobenzoyl-qplgmislmkrp-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.4.21.35 o-aminobenzoyl-qplgqtslmkrp-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.35 o-aminobenzoyl-qplgqtslmkrp-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.21.35 o-aminobenzoyl-vmiaalprtmfiq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC3.4.21.35 o-aminobenzoyl-vmiaalprtmq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.004 * +EC3.4.21.35 pfrsvq sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.7 * +EC3.4.21.35 phe-arg-ser-val-gln sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.8 * +EC3.4.21.35 phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC3.4.21.35 pro-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.5 * +EC3.4.21.35 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.4.21.35 pro-phe-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.917 * +EC3.4.21.35 rppgfspfrsvq sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.7 * +EC3.4.21.35 succinyl-val-pro-phe-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.0 * +EC3.4.21.35 val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.4.21.35 val-pro-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0267 * +EC3.4.21.36 succinyl-ala-ala-ala-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.59 * +EC3.4.21.36 succinyl-ala-ala-pro-ala-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.88 * +EC3.4.21.36 succinyl-ala-ala-pro-met-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.4.21.37 acetyl-ala-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.1 * +EC3.4.21.37 benzyloxycarbonyl-ala-3-hydroxy-5-phenylpyrrole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC3.4.21.37 benzyloxycarbonyl-ala-4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC3.4.21.37 heparin-antithrombin complex homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.33 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-ala-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 52.0 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-alpha-aminobutyryl-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 17.9 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-4-nitroanilide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 16.0 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.4.21.37 methoxysuccinyl-ala-ile-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC3.4.21.37 methoxysuccinyl-ala-pro-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.4.21.37 methoxysuccinyl-ala-pro-ala-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC3.4.21.37 methoxysuccinyl-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.4.21.37 methoxysuccinyl-ala-pro-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.4.21.37 methoxysuccinyl-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.37 methoxysuccinyl-pro-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.4.21.37 methoxysuccinyl-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.37 methoxysuccinyl-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.21.37 n-methoxysuccinyl-ala-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.71 * +EC3.4.21.37 n-succinyl-ala-ala-ala 4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.4 * +EC3.4.21.37 n-succinyl-ala-ala-ala 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.21.37 n-succinyl-ala-ala-val 4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 6.2 * +EC3.4.21.37 n-succinyl-ala-ala-val 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.37 tert-butyloxycarbonyl-ala-4-nitrophenyl ester equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 26.1 * +EC3.4.21.37 tert-butyloxycarbonyl-val-4-nitrophenyl ester equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 4.5 * +EC3.4.21.37 tosyl-ala-3-hydroxy-5-phenylpyrrole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4800.0 * +EC3.4.21.37 tosyl-ala-4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC3.4.21.38 benzyloxycarbonyl-ala-arg-sch2c6h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.21.38 benzyloxycarbonyl-ala-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.4.21.38 benzyloxycarbonyl-ala-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.6 * +EC3.4.21.38 benzyloxycarbonyl-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.4.21.38 benzyloxycarbonyl-asn-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.21.38 benzyloxycarbonyl-asn-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.21.38 benzyloxycarbonyl-glu-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC3.4.21.38 benzyloxycarbonyl-gly-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.0 * +EC3.4.21.38 benzyloxycarbonyl-lys-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.21.38 benzyloxycarbonyl-lys-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.0 * +EC3.4.21.38 benzyloxycarbonyl-lys-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.21.38 benzyloxycarbonyl-met-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.21.38 benzyloxycarbonyl-phe-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.3 * +EC3.4.21.38 benzyloxycarbonyl-phe-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.4.21.38 benzyloxycarbonyl-pro-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.3 * +EC3.4.21.38 benzyloxycarbonyl-pro-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC3.4.21.38 benzyloxycarbonyl-ser-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.4.21.38 benzyloxycarbonyl-ser-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.0 * +EC3.4.21.38 benzyloxycarbonyl-thr-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.21.38 benzyloxycarbonyl-val-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.4.21.38 d-pro-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.21.38 nalpha-benzoyl-ile-glu(-or)-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.21.38 pro-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.21.38 tert-butyloxycarbonyl-arg-sch2c6h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.21.38 tert-butyloxycarbonyl-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC3.4.21.39 ala-ala-pro-leu-4-nitroanilide cavia porcellus//*//* 0.93 * +EC3.4.21.39 ala-ala-pro-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.3 * +EC3.4.21.39 ala-ala-pro-met-4-nitroanilide cavia porcellus//*//* 0.098 * +EC3.4.21.39 ala-ala-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC3.4.21.39 ala-ala-pro-phe-4-nitroanilide cavia porcellus//*//* 0.028 * +EC3.4.21.39 ala-ala-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 143.0 * +EC3.4.21.39 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 143.0 * +EC3.4.21.39 angiotensin i mesocricetus auratus//*//* 149.0 * +EC3.4.21.39 angiotensin ii mesocricetus auratus//*//* 1.19 * +EC3.4.21.39 big endothelin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.6 * +EC3.4.21.39 drvwiholhl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC3.4.21.39 drvwihpfhl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 160.0 * +EC3.4.21.39 drvwihpwhl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 210.0 * +EC3.4.21.39 h2n(ch2)5co-ala-ala-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC3.4.21.39 methoxysuccinyl-ala-ala-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC3.4.21.39 succinyl-ala-ala-pro-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.4.21.39 succinyl-ala-ala-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.21.39 succinyl-ala-ala-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 65.0 * +EC3.4.21.39 succinyl-ala-ala-pro-phe-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.84 * +EC3.4.21.39 succinyl-ala-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 51.0 * +EC3.4.21.39 succinyl-ala-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 38.0 * +EC3.4.21.39 succinyl-ala-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC3.4.21.39 succinyl-epsilon-(2-picolinyl)lys-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC3.4.21.39 succinyl-epsilon-(2-picolinyl)lys-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 480.0 * +EC3.4.21.39 succinyl-epsilon-(2-picolinyl)lys-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 86.0 * +EC3.4.21.39 succinyl-gln-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 86.0 * +EC3.4.21.39 succinyl-glu-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.0 * +EC3.4.21.39 succinyl-glu-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.2 * +EC3.4.21.39 succinyl-glu-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 68.0 * +EC3.4.21.39 succinyl-glu-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 53.0 * +EC3.4.21.39 succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.21.39 succinyl-l-ala-l-ala-l-pro-l-phe-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.8 * +EC3.4.21.39 succinyl-leu-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 77.0 * +EC3.4.21.39 succinyl-leu-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 37.0 * +EC3.4.21.39 succinyl-leu-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 79.0 * +EC3.4.21.39 succinyl-leu-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC3.4.21.39 succinyl-lys-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.4.21.39 succinyl-lys-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 32.0 * +EC3.4.21.39 succinyl-lys-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 58.0 * +EC3.4.21.39 succinyl-lys-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 66.0 * +EC3.4.21.39 succinyl-met-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 100.0 * +EC3.4.21.39 succinyl-met-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC3.4.21.39 succinyl-met-val-pro-phe-4-nitroanilide canis lupus familiaris//*//* 30.0 * +EC3.4.21.39 succinyl-met-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.0 * +EC3.4.21.39 succinyl-met-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC3.4.21.39 succinyl-phe-ala-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.4.21.39 succinyl-phe-ala-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.1 * +EC3.4.21.39 succinyl-phe-epsilon-(2-picolinyl)lys-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.0 * +EC3.4.21.39 succinyl-phe-gln-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC3.4.21.39 succinyl-phe-gln-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC3.4.21.39 succinyl-phe-glu-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.4 * +EC3.4.21.39 succinyl-phe-glu-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC3.4.21.39 succinyl-phe-leu-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC3.4.21.39 succinyl-phe-leu-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC3.4.21.39 succinyl-phe-lys-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.0 * +EC3.4.21.39 succinyl-phe-met-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.21.39 succinyl-phe-met-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.2 * +EC3.4.21.39 succinyl-phe-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 28.0 * +EC3.4.21.39 succinyl-phe-pro-thr-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC3.4.21.39 succinyl-phe-ser-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.2 * +EC3.4.21.39 succinyl-phe-ser-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.4 * +EC3.4.21.39 succinyl-phe-thr-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.4.21.39 succinyl-phe-thr-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.3 * +EC3.4.21.39 succinyl-phe-val-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.21.39 succinyl-phe-val-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC3.4.21.39 succinyl-phe-val-pro-phe-4-nitroanilide canis lupus familiaris//*//* 33.0 * +EC3.4.21.39 succinyl-phe-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.0 * +EC3.4.21.39 succinyl-phe-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.0 * +EC3.4.21.39 succinyl-ser-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.0 * +EC3.4.21.39 succinyl-ser-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 20.0 * +EC3.4.21.39 succinyl-thr-pro-phe-4-nitroanilide canis lupus familiaris//*//* 65.0 * +EC3.4.21.39 succinyl-thr-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC3.4.21.39 succinyl-thr-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 38.0 * +EC3.4.21.39 succinyl-val-pro-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC3.4.21.39 succinyl-val-pro-leu-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC3.4.21.39 succinyl-val-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7 * +EC3.4.21.39 succinyl-val-pro-met-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC3.4.21.39 succinyl-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 75.0 * +EC3.4.21.39 succinyl-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 57.0 * +EC3.4.21.39 succinyl-val-pro-pro-phe-sch2c6h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 400.0 * +EC3.4.21.39 succinyl-val-pro-pro-phe-sch2c6h5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 130.0 * +EC3.4.21.39 succinyl-val-pro-trp-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.4 * +EC3.4.21.39 succinyl-val-pro-tyr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.21.39 succinyl-val-pro-tyr-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.5 * +EC3.4.21.4 2-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 33000.0 * +EC3.4.21.4 2-aminobenzoyl-adgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 3800.0 * +EC3.4.21.4 2-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 13300.0 * +EC3.4.21.4 2-aminobenzoyl-afgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 30000.0 * +EC3.4.21.4 2-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 330000.0 * +EC3.4.21.4 2-aminobenzoyl-aggraagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 240000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrdagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 123000.0 * +EC3.4.21.4 2-aminobenzoyl-aggreagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 133000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrfagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 217000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 200000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrhagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 183000.0 * +EC3.4.21.4 2-aminobenzoyl-aggriagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 133000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrkagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 230000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrlagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 138000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrmagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 200000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrnagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 300000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrqagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 230000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrsagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 400000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrtagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 200000.0 * +EC3.4.21.4 2-aminobenzoyl-aggrvagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 133000.0 * +EC3.4.21.4 2-aminobenzoyl-aggryagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 167000.0 * +EC3.4.21.4 2-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 630000.0 * +EC3.4.21.4 2-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 117000.0 * +EC3.4.21.4 2-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 130000.0 * +EC3.4.21.4 2-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 400000.0 * +EC3.4.21.4 2-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 910000.0 * +EC3.4.21.4 2-aminobenzoyl-agtrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 410000.0 * +EC3.4.21.4 2-aminobenzoyl-ahgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 26700.0 * +EC3.4.21.4 2-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 20000.0 * +EC3.4.21.4 2-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 41000.0 * +EC3.4.21.4 2-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 33000.0 * +EC3.4.21.4 2-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 41000.0 * +EC3.4.21.4 2-aminobenzoyl-angrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 16300.0 * +EC3.4.21.4 2-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 50000.0 * +EC3.4.21.4 2-aminobenzoyl-asgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 31700.0 * +EC3.4.21.4 2-aminobenzoyl-atgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 16500.0 * +EC3.4.21.4 2-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 21700.0 * +EC3.4.21.4 2-aminobenzoyl-aygrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 31700.0 * +EC3.4.21.4 abz-erfk-eddnp colossoma macropomum//*//* 17.3 * +EC3.4.21.4 abz-frfk-eddnp colossoma macropomum//*//* 8.87 * +EC3.4.21.4 abz-grfk-eddnp colossoma macropomum//*//* 31.94 * +EC3.4.21.4 abz-hrfk-eddnp colossoma macropomum//*//* 21.07 * +EC3.4.21.4 abz-krfk-eddnp colossoma macropomum//*//* 53.23 * +EC3.4.21.4 abz-lrfk-eddnp colossoma macropomum//*//* 53.23 * +EC3.4.21.4 abz-nrfk-eddnp colossoma macropomum//*//* 30.61 * +EC3.4.21.4 abz-qrfk-eddnp colossoma macropomum//*//* 12.64 * +EC3.4.21.4 abz-rdfk-eddnp colossoma macropomum//*//* 2.33 * +EC3.4.21.4 abz-refk-eddnp colossoma macropomum//*//* 7.49 * +EC3.4.21.4 abz-rgfk-eddnp colossoma macropomum//*//* 9.15 * +EC3.4.21.4 abz-rhfk-eddnp colossoma macropomum//*//* 8.32 * +EC3.4.21.4 abz-rnfk-eddnp colossoma macropomum//*//* 16.63 * +EC3.4.21.4 abz-rpfk-eddnp colossoma macropomum//*//* 0.1 * +EC3.4.21.4 abz-rqfk-eddnp colossoma macropomum//*//* 13.31 * +EC3.4.21.4 abz-rrfk-eddnp colossoma macropomum//*//* 26.61 * +EC3.4.21.4 abz-rsfk-eddnp colossoma macropomum//*//* 16.63 * +EC3.4.21.4 abz-rtfk-eddnp colossoma macropomum//*//* 18.3 * +EC3.4.21.4 abz-rvfk-eddnp colossoma macropomum//*//* 4.59 * +EC3.4.21.4 abz-ryfk-eddnp colossoma macropomum//*//* 10.65 * +EC3.4.21.4 abz-vrfk-eddnp colossoma macropomum//*//* 46.57 * +EC3.4.21.4 abz-wrfk-eddnp colossoma macropomum//*//* 6.32 * +EC3.4.21.4 abz-yrfk-eddnp colossoma macropomum//*//* 27.72 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-arg(no2)-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 23.0 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 19.0 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-n-omega-hydroxy-l-arginine-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.2 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-phe(p-cn)-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-phe(p-nh2)-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.1 * +EC3.4.21.4 alpha-n-p-tosyl-l-arginine methyl ester lutjanus vitta//*//* 112.0 * +EC3.4.21.4 benzoyl-arg 4-nitroanilide engraulis japonicus//*//* 3.7 * +EC3.4.21.4 benzoyl-arg ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 26.6 * +EC3.4.21.4 benzoyl-arg ethyl ester engraulis japonicus//*//* 42.9 * +EC3.4.21.4 benzoyl-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.13 * +EC3.4.21.4 benzoyl-arg-p-nitroanilide gadus morhua//*//* 3.44 * +EC3.4.21.4 benzoyl-dl-arg-4-nitroanilide cirrhinus mrigala//*//* 6.17 * +EC3.4.21.4 benzoyl-dl-arg-4-nitroanilide oreochromis niloticus//*//* 23.8 * +EC3.4.21.4 benzoyl-dl-arg-4-nitroanilide pterygoplichthys disjunctivus//*//* 1.46 * +EC3.4.21.4 benzoyl-dl-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.21.4 benzoyl-dl-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33 * +EC3.4.21.4 benzoyl-l-arginine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.43 * +EC3.4.21.4 benzoyl-l-arginine-p-nitroanilide oncorhynchus keta//*//* 7.7 * +EC3.4.21.4 benzyloxycarbonyl-gln-arg-arg-7-amido-4-methylcoumarin channa argus//*//* 76.0 * +EC3.4.21.4 benzyloxycarbonyl-glu-arg-arg-7-amido-4-methylcoumarin channa argus//*//* 92.0 * +EC3.4.21.4 benzyloxycarbonyl-gly-pro-arg-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 58.3 * +EC3.4.21.4 benzyloxycarbonyl-gly-pro-arg-p-nitroanilide gadus morhua//*//* 172.8 * +EC3.4.21.4 benzyloxycarbonyl-l-glutaminyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 42.99 * +EC3.4.21.4 benzyloxycarbonyl-l-leucyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 14.85 * +EC3.4.21.4 benzyloxycarbonyl-l-leucyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 12.19 * +EC3.4.21.4 benzyloxycarbonyl-l-phenylalaninyl-l-seryl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 72.08 * +EC3.4.21.4 benzyloxycarbonyl-l-valyl-l-leucyl-l-lysine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 8.07 * +EC3.4.21.4 benzyloxycarbonyl-l-valyl-l-prolyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 25.75 * +EC3.4.21.4 benzyloxycarbonyl-leu-arg-arg-7-amido-4-methylcoumarin channa argus//*//* 72.0 * +EC3.4.21.4 benzyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin channa argus//*//* 80.0 * +EC3.4.21.4 benzyloxycarbonyl-lys benzoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 84.0 * +EC3.4.21.4 benzyloxycarbonyl-lys methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 80.0 * +EC3.4.21.4 benzyloxycarbonyl-lys p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 82.0 * +EC3.4.21.4 benzyloxycarbonyl-lys-thiobenzyl ester ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 112.0 * +EC3.4.21.4 benzyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin channa argus//*//* 148.0 * +EC3.4.21.4 benzyloxycarbonylglycyl-l-prolyl-l-arginine-4-methylcoumaryl-7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 33.0 * +EC3.4.21.4 benzyloxycarbonylglycyl-l-prolyl-l-arginine-4-methylcoumaryl-7-amide streptomyces omiyaensis//*//* 279.5 * +EC3.4.21.4 enhanced green fluorescent protein-t1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC3.4.21.4 enhanced green fluorescent protein-t1nb homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC3.4.21.4 factor xa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 124.0 * +EC3.4.21.4 fitc-casein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.48 * +EC3.4.21.4 gergffytpkt bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.313 * +EC3.4.21.4 gergffytpktrr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.15 * +EC3.4.21.4 human m-proinsulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11.65 * +EC3.4.21.4 insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.21.4 l-phe-l-val-l-ile-(3-carbamoyl-4-nitrophenyl)-l-arg-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.2 * +EC3.4.21.4 l-phe-l-val-l-ile-n-(3-carbamoyl-4-nitrophenyl)-l-arg-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.4 * +EC3.4.21.4 l-phe-l-val-l-pro-n-(3-carbamoyl-4-nitrophenyl)-l-arg-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 27.4 * +EC3.4.21.4 l-phe-l-val-l-pro-n-(3-carbamoyl-4-nitrophenyl)-l-lys-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.0 * +EC3.4.21.4 m-diarginyl insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC3.4.21.4 m-insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.21.4 meosuc-ala-ala-ala-arg 4-nitroanilide gadus morhua//*//* 30.5 * +EC3.4.21.4 meosuc-ala-ala-arg 4-nitroanilide gadus morhua//*//* 33.6 * +EC3.4.21.4 meosuc-ala-arg 4-nitroanilide gadus morhua//*//* 24.9 * +EC3.4.21.4 n-alpha-benzoyl-l-arg ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.3 * +EC3.4.21.4 n-alpha-benzoyl-l-arg-p-nitroanilide saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 5.73 * +EC3.4.21.4 n-alpha-benzoyl-l-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.46 * +EC3.4.21.4 n-alpha-benzoyl-l-arginine-p-nitroanilide euphausia pacifica//*//* 0.98 * +EC3.4.21.4 n-alpha-benzoyl-l-lys-4-nitroanilide saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 1.04 * +EC3.4.21.4 n-alpha-benzoyl-l-lys-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.56 * +EC3.4.21.4 n-alpha-p-tosyl-l-arginine methyl ester thunnus albacares//*//* 80.0 * +EC3.4.21.4 n-benzoyl-dl-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide boops boops//*//* 1.56 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide gadus morhua//*//* 1.34 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide lutjanus vitta//*//* 4.71 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide mustelus mustelus//*//* 2.62 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide sepia officinalis//*//* 2.32 * +EC3.4.21.4 n-benzoyl-dl-arginine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.8 * +EC3.4.21.4 n-benzoyl-l-arginine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.1 * +EC3.4.21.4 n-benzoyl-l-isoleucyl-l-glutamyl-glycyl-l-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.5 * +EC3.4.21.4 n-benzyloxycarbonyl-gly-pro-arg 4-nitroanilide gadus morhua//*//* 54.5 * +EC3.4.21.4 n-carbobenzyloxy-gly-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 158.0 * +EC3.4.21.4 nalpha-4-tosyl-l-arginine methyl ester albatrossia pectoralis//*//* 210.0 * +EC3.4.21.4 nalpha-4-tosyl-l-arginine methyl ester mustelus mustelus//*//* 59.15 * +EC3.4.21.4 nalpha-benzoyl-dl-arg-p-nitroanilide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC3.4.21.4 nalpha-benzoyl-dl-arginine 4-nitroanilide balistes capriscus//*//* 2.76 * +EC3.4.21.4 nalpha-benzoyl-dl-arginine-4-nitroanilide sardinella aurita//*//* 5.76 * +EC3.4.21.4 nalpha-benzoyl-l-arg-4-nitroanilide sardinops caeruleus//*//* 2.12 * +EC3.4.21.4 nalpha-benzoyl-l-arginine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.5 * +EC3.4.21.4 nalpha-benzyloxycarbonyl-lys-p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.4.21.4 nalpha-p-tosyl-l-arg methyl ester thunnus tonggol//*//* 200.0 * +EC3.4.21.4 o-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 1.2 * +EC3.4.21.4 o-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.54 * +EC3.4.21.4 o-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0067 * +EC3.4.21.4 o-aminobenzoyl-adgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.013 * +EC3.4.21.4 o-aminobenzoyl-adgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0014 * +EC3.4.21.4 o-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.064 * +EC3.4.21.4 o-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.08 * +EC3.4.21.4 o-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0045 * +EC3.4.21.4 o-aminobenzoyl-afgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 1.2 * +EC3.4.21.4 o-aminobenzoyl-afgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0072 * +EC3.4.21.4 o-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 52.0 * +EC3.4.21.4 o-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.74 * +EC3.4.21.4 o-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00022 * +EC3.4.21.4 o-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 5.9 * +EC3.4.21.4 o-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.03 * +EC3.4.21.4 o-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 4e-05 * +EC3.4.21.4 o-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 1.4 * +EC3.4.21.4 o-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.09 * +EC3.4.21.4 o-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 4e-05 * +EC3.4.21.4 o-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 26.0 * +EC3.4.21.4 o-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.43 * +EC3.4.21.4 o-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00022 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 1.4 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 1.7 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 630.0 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 4e-05 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.9 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 2.7 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 820.0 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00011 * +EC3.4.21.4 o-aminobenzoyl-aggrgdgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00014 * +EC3.4.21.4 o-aminobenzoyl-aggrgegq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00013 * +EC3.4.21.4 o-aminobenzoyl-aggrgfgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0034 * +EC3.4.21.4 o-aminobenzoyl-aggrgggq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00029 * +EC3.4.21.4 o-aminobenzoyl-aggrghgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00063 * +EC3.4.21.4 o-aminobenzoyl-aggrgigq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0007 * +EC3.4.21.4 o-aminobenzoyl-aggrgkgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00043 * +EC3.4.21.4 o-aminobenzoyl-aggrglgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00068 * +EC3.4.21.4 o-aminobenzoyl-aggrgmgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00063 * +EC3.4.21.4 o-aminobenzoyl-aggrgngq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00027 * +EC3.4.21.4 o-aminobenzoyl-aggrgqgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00015 * +EC3.4.21.4 o-aminobenzoyl-aggrgsgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00034 * +EC3.4.21.4 o-aminobenzoyl-aggrgtgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0007 * +EC3.4.21.4 o-aminobenzoyl-aggrgvgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00078 * +EC3.4.21.4 o-aminobenzoyl-aggrgygq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.00145 * +EC3.4.21.4 o-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 14.0 * +EC3.4.21.4 o-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.08 * +EC3.4.21.4 o-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00027 * +EC3.4.21.4 o-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 12.0 * +EC3.4.21.4 o-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.38 * +EC3.4.21.4 o-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00022 * +EC3.4.21.4 o-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 41.0 * +EC3.4.21.4 o-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.4 * +EC3.4.21.4 o-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00072 * +EC3.4.21.4 o-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 19.0 * +EC3.4.21.4 o-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.26 * +EC3.4.21.4 o-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00017 * +EC3.4.21.4 o-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 17.0 * +EC3.4.21.4 o-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.34 * +EC3.4.21.4 o-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00015 * +EC3.4.21.4 o-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 140.0 * +EC3.4.21.4 o-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.08 * +EC3.4.21.4 o-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00017 * +EC3.4.21.4 o-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 30.0 * +EC3.4.21.4 o-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.27 * +EC3.4.21.4 o-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00014 * +EC3.4.21.4 o-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 14.0 * +EC3.4.21.4 o-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.16 * +EC3.4.21.4 o-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00011 * +EC3.4.21.4 o-aminobenzoyl-agtrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.13 * +EC3.4.21.4 o-aminobenzoyl-agtrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00011 * +EC3.4.21.4 o-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 26.0 * +EC3.4.21.4 o-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.4 * +EC3.4.21.4 o-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00015 * +EC3.4.21.4 o-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 11.0 * +EC3.4.21.4 o-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.3 * +EC3.4.21.4 o-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.00022 * +EC3.4.21.4 o-aminobenzoyl-ahgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.004 * +EC3.4.21.4 o-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.37 * +EC3.4.21.4 o-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.26 * +EC3.4.21.4 o-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0048 * +EC3.4.21.4 o-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 2.1 * +EC3.4.21.4 o-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.17 * +EC3.4.21.4 o-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0055 * +EC3.4.21.4 o-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.95 * +EC3.4.21.4 o-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.12 * +EC3.4.21.4 o-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0052 * +EC3.4.21.4 o-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 1.9 * +EC3.4.21.4 o-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.22 * +EC3.4.21.4 o-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.005 * +EC3.4.21.4 o-aminobenzoyl-angrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.83 * +EC3.4.21.4 o-aminobenzoyl-angrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0043 * +EC3.4.21.4 o-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 1.4 * +EC3.4.21.4 o-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.19 * +EC3.4.21.4 o-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0068 * +EC3.4.21.4 o-aminobenzoyl-asgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.013 * +EC3.4.21.4 o-aminobenzoyl-asgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.005 * +EC3.4.21.4 o-aminobenzoyl-atgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.006 * +EC3.4.21.4 o-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.9 * +EC3.4.21.4 o-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.57 * +EC3.4.21.4 o-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0047 * +EC3.4.21.4 o-aminobenzoyl-aygrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.013 * +EC3.4.21.4 o-aminobenzoyl-aygrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.005 * +EC3.4.21.4 succinyl-ala-ala-pro-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 91.0 * +EC3.4.21.4 succinyl-ala-ala-pro-arg-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 163.0 * +EC3.4.21.4 succinyl-ala-ala-pro-leu-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000167 * +EC3.4.21.4 succinyl-ala-ala-pro-lys-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 121.2 * +EC3.4.21.4 succinyl-ala-ala-pro-lys-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 74.0 * +EC3.4.21.4 succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0063 * +EC3.4.21.4 succinyl-ala-ala-pro-tyr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00067 * +EC3.4.21.4 tert-butoxycarbonyl-l-gln-l-ala-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.41 * +EC3.4.21.4 tert-butyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.7 * +EC3.4.21.4 tos-l-arg-ome bos taurus//eukaryotes;animals;vertebrates;mammals//bta 139.0 * +EC3.4.21.4 tos-l-arg-ome oncorhynchus keta//*//* 234.0 * +EC3.4.21.4 tosyl-arg methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 76.0 * +EC3.4.21.4 tosyl-gly-pro-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 88.0 * +EC3.4.21.4 tosyl-gly-pro-arg-4-nitroanilide salmon//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 30.4 * +EC3.4.21.4 tosyl-gly-pro-arg-7-amido-4-methylcoumarin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.7 * +EC3.4.21.4 z-gly-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 88.2 * +EC3.4.21.41 masp-3 k448q zymogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.41 n-acetyl-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.3 * +EC3.4.21.41 n-acetyl-gly-lys methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.5 * +EC3.4.21.41 zymogen c1s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0645 * +EC3.4.21.42 2-aminobenzoyl -ser-leu-gly-arg-lys-ile-gln-ile-lys(dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00139 * +EC3.4.21.42 2-aminobenzoyl-glqralei-lys(dinitrophenol)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.14 * +EC3.4.21.42 2-aminobenzoyl-gly-leu-gln-arg-ala-leu-glu-ile-lys(dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC3.4.21.42 benzyloxycarbonyl-gly-leu-gln-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.21.42 benzyloxycarbonyl-ser-leu-gly-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.42 c1-inhibitor p4-p1 fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.313 * +EC3.4.21.42 c1-inhibitor p4-p4' fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0388 * +EC3.4.21.42 complement component c2 p4-p1 fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.89 * +EC3.4.21.42 complement component c2 p4-p4' fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC3.4.21.42 complement component c2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC3.4.21.42 complement component c4 p4-p1 fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.21.42 complement component c4 p4-p4' fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.21.42 complement component c4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.4.21.42 glqra homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.94e-05 * +EC3.4.21.42 glqraaei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000169 * +EC3.4.21.42 glqraeei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.21e-05 * +EC3.4.21.42 glqrafei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC3.4.21.42 glqral homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000683 * +EC3.4.21.42 glqralai homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00274 * +EC3.4.21.42 glqrale homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000319 * +EC3.4.21.42 glqralea homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000392 * +EC3.4.21.42 glqralee homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.78e-05 * +EC3.4.21.42 glqralef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC3.4.21.42 glqraleh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000244 * +EC3.4.21.42 glqralei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000205 * +EC3.4.21.42 glqralek homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000867 * +EC3.4.21.42 glqralel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.78e-05 * +EC3.4.21.42 glqralem homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000171 * +EC3.4.21.42 glqralep homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000807 * +EC3.4.21.42 glqraleq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.78e-05 * +EC3.4.21.42 glqralet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00044 * +EC3.4.21.42 glqralfi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00288 * +EC3.4.21.42 glqralhi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00821 * +EC3.4.21.42 glqralki homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000136 * +EC3.4.21.42 glqralli homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00296 * +EC3.4.21.42 glqralmi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00227 * +EC3.4.21.42 glqralpi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00244 * +EC3.4.21.42 glqralti homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00279 * +EC3.4.21.42 glqramei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000119 * +EC3.4.21.42 glqrapei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.89e-05 * +EC3.4.21.42 glqraqei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00232 * +EC3.4.21.42 glqratei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000147 * +EC3.4.21.42 glqrelei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.05e-05 * +EC3.4.21.42 glqrflei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000155 * +EC3.4.21.42 glqrhlei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000415 * +EC3.4.21.42 glqrklei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.62e-05 * +EC3.4.21.42 glqrllei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.02e-05 * +EC3.4.21.42 glqrmlei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000239 * +EC3.4.21.42 glqrqlei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.02e-05 * +EC3.4.21.42 glqrtlei homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00155 * +EC3.4.21.42 n-benzoyl-phe-val-arg p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC3.4.21.42 n-benzyloxycarbonyl-lys p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.8 * +EC3.4.21.42 tert-butyloxycarbonyl-tyr p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.73 * +EC3.4.21.42 z-aglqr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.3 * +EC3.4.21.42 z-lgr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.72 * +EC3.4.21.43 complement component c5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.46 benzyloxycarbonyl-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.47 complement component c3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.78 * +EC3.4.21.47 complement component c5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.4.21.47 t-butyloxycarbonyl-gly-l-leu-l-ala-l-arg-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.21.48 acetyl-tyr ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.6 * +EC3.4.21.48 benzoyl-tyr ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC3.4.21.5 ac-gly-gly-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.5 ac-leu-gly-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.6 * +EC3.4.21.5 ac-nle-thr-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC3.4.21.5 ac-nle-thr-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC3.4.21.5 ac-val-thr-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.8 * +EC3.4.21.5 benzoyl-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.8 * +EC3.4.21.5 benzoyl-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.21.5 d-phe-l-pipecolyl-l-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 77.8 * +EC3.4.21.5 d-phe-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.0 * +EC3.4.21.5 d-phe-pro-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC3.4.21.5 d-phe-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.3 * +EC3.4.21.5 d-phenylalanyl-pipecolyl-l-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 209.4 * +EC3.4.21.5 di-l-glu-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 278.6 * +EC3.4.21.5 factor viii(341-376) peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.24 * +EC3.4.21.5 factor xiii v34l mutant homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.9 * +EC3.4.21.5 factor xiii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.57 * +EC3.4.21.5 fc-[rfsrpql]-peg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.21.5 fibrinogen aalpha chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.0 * +EC3.4.21.5 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.21.5 fibrinopeptide a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.3 * +EC3.4.21.5 glvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 24.3 * +EC3.4.21.5 gvvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.8 * +EC3.4.21.5 p-nitrophenyl-p'-(nbeta,n-butyl-nalpha-guanidino)benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00102 * +EC3.4.21.5 p-nitrophenyl-p'-(nbeta,n-hexyl-nalpha-guanidino)benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00197 * +EC3.4.21.5 p-nitrophenyl-p'-guanidinobenzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.21.5 par1 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 146.0 * +EC3.4.21.5 platelet thrombin receptor peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.0 * +EC3.4.21.5 protein c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.21.5 spectrozyme-th homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.0 * +EC3.4.21.5 spectrozyme-th mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 32.0 * +EC3.4.21.5 thrombin-activatable fibrinolysis inhibitor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.315 * +EC3.4.21.5 tosyl-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.3 * +EC3.4.21.5 tosyl-gly-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 251.6 * +EC3.4.21.5 tvelqglvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.2 * +EC3.4.21.5 tvelqgvvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.2 * +EC3.4.21.50 benzoyl-arg ethyl ester achromobacter lyticus//*//* 7.41 * +EC3.4.21.50 benzoyl-lys methyl ester achromobacter lyticus//*//* 225.0 * +EC3.4.21.50 benzoyl-lys-nh2 achromobacter lyticus//*//* 1.54 * +EC3.4.21.50 benzoyl-lys-p-nitroanilide achromobacter lyticus//*//* 0.86 * +EC3.4.21.50 lys-p-nitroanilide achromobacter lyticus//*//* 0.14 * +EC3.4.21.50 n-benzoyl-l-orn methyl ester achromobacter lyticus//*//* 10.4 * +EC3.4.21.50 n-tert-butyloxycarbonyl-ala-ala-lys-4-methylcoumarin 7-amide achromobacter lyticus//*//* 49.0 * +EC3.4.21.50 n-tert-butyloxycarbonyl-ala-lys-4-methylcoumarin 7-amide achromobacter lyticus//*//* 32.9 * +EC3.4.21.50 n-tert-butyloxycarbonyl-lys-4-methylcoumarin 7-amide achromobacter lyticus//*//* 3.02 * +EC3.4.21.50 n-tosyl-gly-pro-lys-p-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 59.0 * +EC3.4.21.50 n-tosyl-l-arg methyl ester achromobacter lyticus//*//* 5.04 * +EC3.4.21.50 n-tosyl-l-lys methyl ester achromobacter lyticus//*//* 570.0 * +EC3.4.21.50 n-tosyl-l-lys methyl ester pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 282.0 * +EC3.4.21.50 tert-butyloxycarbonyl-ala-ala-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 98.0 * +EC3.4.21.50 tert-butyloxycarbonyl-ala-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 46.0 * +EC3.4.21.50 tert-butyloxycarbonyl-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 8.4 * +EC3.4.21.50 tert-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 93.0 * +EC3.4.21.50 tosyl-gly-pro-lys-p-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 59.0 * +EC3.4.21.50 tosyl-lys methyl ester pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 282.0 * +EC3.4.21.50 trypsinogen achromobacter lyticus//*//* 0.103 * +EC3.4.21.53 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.43 * +EC3.4.21.53 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.0 * +EC3.4.21.53 bacteriophage lambda n-protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.4.21.53 beta-galactosidase fragment 3-93 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.84 * +EC3.4.21.53 casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0333 * +EC3.4.21.53 fluorogenic peptide s3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC3.4.21.53 oxidized insulin b-chain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.333 * +EC3.4.21.53 y(3-no2)-rgit2-aminobuytric acid-sgrq-k(anthranilamide) salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 11.0 * +EC3.4.21.53 y(3-no2)-rgitcsgrq-k(anthranilamide) salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 15.0 * +EC3.4.21.53 y(3-no2)-rgitcyssgrq-k(anthranilamide) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.21.55 h-d-hexahydrotyrosyl-ala-arg 4-nitroanilide bitis gabonica//*//* 0.065 * +EC3.4.21.55 h-d-phenylglycine-phe-arg 4-nitroanilide bitis gabonica//*//* 0.952 * +EC3.4.21.55 h-d-pro-hexahydrotyrosyl-arg 4-nitroanilide bitis gabonica//*//* 0.248 * +EC3.4.21.55 tosyl-gly-pro-arg 4-nitroanilide bitis gabonica//*//* 0.014 * +EC3.4.21.55 tosyl-gly-pro-lys 4-nitroanilide bitis gabonica//*//* 0.204 * +EC3.4.21.55 tosyl-l-arg methyl ester bitis gabonica//*//* 12.2 * +EC3.4.21.57 nalpha-benzoyl-arg 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.1 * +EC3.4.21.57 nalpha-benzoyl-gly 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.2 * +EC3.4.21.57 nalpha-benzoyl-l-ala 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 4.9 * +EC3.4.21.57 nalpha-benzoyl-l-lys 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.8 * +EC3.4.21.57 nalpha-benzoyl-leu 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 21.3 * +EC3.4.21.57 nalpha-benzoyl-val 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 6.1 * +EC3.4.21.57 nalpha-carbobenzoxy-ala 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 94.0 * +EC3.4.21.57 nalpha-carbobenzoxy-arg 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 43.0 * +EC3.4.21.57 nalpha-carbobenzoxy-gly 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 21.0 * +EC3.4.21.57 nalpha-carbobenzoxy-ile 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 140.0 * +EC3.4.21.57 nalpha-carbobenzoxy-leu 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 430.0 * +EC3.4.21.57 nalpha-carbobenzoxy-lys 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 45.0 * +EC3.4.21.57 nalpha-carbobenzoxy-val 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 140.0 * +EC3.4.21.59 ac-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 141.0 * +EC3.4.21.59 ac-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 367.0 * +EC3.4.21.59 ac-pank-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.21.59 ac-prnk-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.4.21.59 ac-prnr-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.8 * +EC3.4.21.59 ac-pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 378.0 * +EC3.4.21.59 ac-prtk-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.59 ala-ala-pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 187.0 * +EC3.4.21.59 ala-pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 233.0 * +EC3.4.21.59 arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 159.0 * +EC3.4.21.59 benzyloxycarbonyl-ala-arg-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.21.59 benzyloxycarbonyl-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.21.59 benzyloxycarbonyl-arg 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.52 * +EC3.4.21.59 benzyloxycarbonyl-gly-arg 4-trifluoromethylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 107.0 * +EC3.4.21.59 benzyloxycarbonyl-gly-pro-arg 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 553.0 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-arg-l-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2040.0 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-leu-l-lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1870.0 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-lys-l-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3290.0 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-lys-l-lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1520.0 * +EC3.4.21.59 benzyloxycarbonyl-lys-arg 4-trifluoromethylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.7 * +EC3.4.21.59 bovine prothrombin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 46.3 * +EC3.4.21.59 bz-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.9 * +EC3.4.21.59 d-ile-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 170.0 * +EC3.4.21.59 d-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.21.59 d-phe-pip-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 59.5 * +EC3.4.21.59 d-pro-phe-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.21.59 d-val-leu-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.4.21.59 glu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 183.0 * +EC3.4.21.59 glu-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.9 * +EC3.4.21.59 ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 199.0 * +EC3.4.21.59 meoco-nle-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2630.0 * +EC3.4.21.59 n-(p-tosyl)-gly-pro-arg-4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 23.5 * +EC3.4.21.59 n-(p-tosyl)-gly-pro-lys-p-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 12.0 * +EC3.4.21.59 n-p-tosyl-gly-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC3.4.21.59 n-p-tosyl-gly-pro-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 540.0 * +EC3.4.21.59 n-p-tosyl-gly-pro-lys-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.08 * +EC3.4.21.59 pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 435.0 * +EC3.4.21.59 t-butyloxycarbonyl-phe-ser-arg-4-methyl-coumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC3.4.21.59 tert-butyloxycarbonyl-gly-lys-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.4.21.59 tert-butyloxycarbonyl-l-val-l-pro-l-arg-4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC3.4.21.59 tert-butyloxycarbonyl-phe-ser-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.2 * +EC3.4.21.59 tosyl-gly-pro-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 75.5 * +EC3.4.21.59 z-d-arg-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.3 * +EC3.4.21.6 arg-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 125.3 * +EC3.4.21.6 benzoyl-ile-glu(piperidineamide)-gly-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 149.0 * +EC3.4.21.6 benzoyl-ile-glu-(-h/ome)-gly-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 146.0 * +EC3.4.21.6 fragment 1.2:prethrombin-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 114.0 * +EC3.4.21.6 meizothrombin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 150.0 * +EC3.4.21.6 methoxycarbonylcyclohexyl-gly-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 210.0 * +EC3.4.21.6 n-alpha-benzyloxycarbonyl-d-arginyl-glycyl-l-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 169.0 * +EC3.4.21.6 nalpha-benzyloxycarbonyl-l-lys-p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.17 * +EC3.4.21.6 prethrombin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.1 * +EC3.4.21.6 prethrombin-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.5 * +EC3.4.21.6 prothrombin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 108.0 * +EC3.4.21.6 recombinant prothrombin r155a/r284a/r271a mutant rmz-ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.0 * +EC3.4.21.6 recombinant prothrombin r155a/r284a/r320a mutant rp2-ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 114.0 * +EC3.4.21.6 s2222 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 211.0 * +EC3.4.21.6 s2765 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 254.0 * +EC3.4.21.6 tosyl-glycyl-prolyl-d-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 79.0 * +EC3.4.21.60 prothrombin bothrops cotiara//*//* 0.00027 * +EC3.4.21.60 prothrombin oxyuranus scutellatus//*//* 1200.0 * +EC3.4.21.61 ac-aykk 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.6 * +EC3.4.21.61 ac-nle-tyr-lys-arg 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2700.0 * +EC3.4.21.61 ac-nle-ykk 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 300.0 * +EC3.4.21.61 ac-nle-ykr 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3000.0 * +EC3.4.21.61 benzyloxycarbonyl-ala-tyr-lys-lys 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2640.0 * +EC3.4.21.61 d-ac-nle-tyr-lys-arg 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2940.0 * +EC3.4.21.61 t-butyloxycarbonyl-ekk 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.4 * +EC3.4.21.61 t-butyloxycarbonyl-qgr 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 366.0 * +EC3.4.21.62 acetyl-l-phe ethyl ester bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.38 * +EC3.4.21.62 acetyl-l-phe bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.022 * +EC3.4.21.62 acetyl-l-tyr ethyl ester bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC3.4.21.62 acetyl-l-tyr bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC3.4.21.62 benzyloxycarbonyl-gly-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2500.0 * +EC3.4.21.62 benzyloxycarbonyl-l-ala-l-ala-l-leu-4-nitroanilide bacillus intermedius//*//* 16550.0 * +EC3.4.21.62 glp-ala-ala-leu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 69.0 * +EC3.4.21.62 glp-ala-ala-leu-p-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 80.0 * +EC3.4.21.62 hammarsten casein bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 35.5 * +EC3.4.21.62 l-ala-l-ala-l-pro-l-ala bacillus lentus//*//* 47.0 * +EC3.4.21.62 l-ala-l-ala-l-pro-l-phe bacillus lentus//*//* 403.0 * +EC3.4.21.62 l-ala-l-ala-l-val-l-ala bacillus lentus//*//* 12.0 * +EC3.4.21.62 l-phe-l-ala-l-ala-l-phe bacillus lentus//*//* 189.0 * +EC3.4.21.62 l-tyr-l-val-l-ala-l-asp bacillus lentus//*//* 10.0 * +EC3.4.21.62 meo-succinyl-ala-ala-phe 4-nitroanilide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 57.0 * +EC3.4.21.62 meo-succinyl-ala-ala-phe 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 97.0 * +EC3.4.21.62 n-methoxysuccinyl-ala-ala-pro-val-4-nitroanilide dichelobacter nodosus//prokaryotes;bacteria;gammaproteobacteria - others;dichelobacter//dno 0.0064 * +EC3.4.21.62 n-succ-ala-ala-pro-phe-4-nitroanilide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 231.3 * +EC3.4.21.62 n-succinyl-ala-ala-pro-phe-4-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 419.0 * +EC3.4.21.62 n-succinyl-ala-ala-pro-phe-p-nitroanilide thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 440.0 * +EC3.4.21.62 n-succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 70.2 * +EC3.4.21.62 suc-ala-ala-ala-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 97000.0 * +EC3.4.21.62 suc-ala-ala-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3700.0 * +EC3.4.21.62 suc-ala-ala-pro-ala-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 130000.0 * +EC3.4.21.62 suc-ala-ala-pro-leu-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 97000.0 * +EC3.4.21.62 suc-ala-ala-pro-phe-4-nitroanilide synthetic construct//*//* 200.0 * +EC3.4.21.62 suc-ala-ala-pro-phe-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 130000.0 * +EC3.4.21.62 succinyl-aapa-p-nitroanilide bacillus lentus//*//* 17.7 * +EC3.4.21.62 succinyl-aape-p-nitroanilide bacillus lentus//*//* 1.75 * +EC3.4.21.62 succinyl-aapf-p-nitroanilide bacillus lentus//*//* 153.0 * +EC3.4.21.62 succinyl-aapr-p-nitroanilide bacillus lentus//*//* 0.16 * +EC3.4.21.62 succinyl-ala-ala-ala 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.8 * +EC3.4.21.62 succinyl-ala-ala-phe 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 52.0 * +EC3.4.21.62 succinyl-ala-ala-pro-phe 4-nitroanilide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 57.0 * +EC3.4.21.62 succinyl-ala-ala-pro-phe 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 57.0 * +EC3.4.21.62 succinyl-l-ala-l-ala-l-pro-l-phe-4-methyl-coumaryl-7-amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 50.0 * +EC3.4.21.62 succinyl-leu-leu-val-tyr-4-methylcoumaryl 7-amide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 29.0 * +EC3.4.21.62 urea-denatured hemoglobin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC3.4.21.62 z-ala-ala-leu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 104.0 * +EC3.4.21.62 z-ala-ala-leu-p-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 100.0 * +EC3.4.21.63 acetyl-(ala)2 methyl ester aspergillus melleus//*//* 2000.0 * +EC3.4.21.63 acetyl-(ala)2 methyl ester aspergillus sojae//*//* 1150.0 * +EC3.4.21.63 acetyl-(ala)3 methyl ester aspergillus melleus//*//* 1540.0 * +EC3.4.21.63 acetyl-(ala)3 methyl ester aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2850.0 * +EC3.4.21.63 acetyl-(ala)3 methyl ester aspergillus sojae//*//* 3720.0 * +EC3.4.21.63 acetyl-(ala)4 methyl ester aspergillus melleus//*//* 1970.0 * +EC3.4.21.63 acetyl-(ala)4 methyl ester aspergillus sojae//*//* 2090.0 * +EC3.4.21.63 acetyl-ala methyl ester aspergillus melleus//*//* 28.3 * +EC3.4.21.63 acetyl-ala methyl ester aspergillus sojae//*//* 28.9 * +EC3.4.21.63 acetyltyrosine ethyl ester aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 43.0 * +EC3.4.21.63 benzoylarginine ethyl ester aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 41.0 * +EC3.4.21.64 succinyl-aapf-4-nitroanilide parengyodontium album//*//* 180.0 * +EC3.4.21.64 succinyl-aapf-4-nitroanilide serratia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srs 827.0 * +EC3.4.21.65 acetyl-ala-ala-ala methyl ester malbranchea pulchella//*//* 2050.0 * +EC3.4.21.66 n-succinyl-ala-ala-pro-phe-4-nitroanilide coprothermobacter proteolyticus//prokaryotes;bacteria;coprothermobacterota;coprothermobacter//cpo 110.0 * +EC3.4.21.68 (p-f)-fpransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 boc-(p-f)-fpransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 boc-d-flransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.4.21.68 boc-d-fpransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.68 boc-d-fvr-ansnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.9 * +EC3.4.21.68 boc-d-fvransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.4.21.68 boc-d-lgransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.21.68 boc-d-lpransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 boc-d-lsransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 boc-d-vgransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.21.68 boc-d-vpransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.4.21.68 boc-l-vgransnhc4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.084 * +EC3.4.21.68 d-flransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.21.68 d-fpr-ansnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.21.68 d-fpr-ansnh-c6h5ch2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.4.21.68 d-fpr-ansnh-n-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.21.68 d-fpr-ansnh-n-c6h13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.21.68 d-fpr-ansnh-t-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.4.21.68 d-fpr-ansnhc6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 d-fpransn-(ch2)6 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.68 d-fpransn-c2h5-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.21.68 d-fpransn-h-c-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.68 d-fpransn-h-i-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.21.68 d-fpransn-h-t-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 d-fpransnh-c-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.21.68 d-fpransnh-c2h4och3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 d-fpransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC3.4.21.68 d-fpransnh-c6h5ch2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 d-fpransnh-ch2cooch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.68 d-fpransnh-i-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.68 d-fpransnh-n-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.68 d-fpransnh-n-c6h13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.68 d-fvr-ansnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.21.68 d-fvransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.21.68 d-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.7 * +EC3.4.21.68 d-lgr-ansnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.21.68 d-lgransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.4.21.68 d-lpransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.21.68 d-lsransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.21.68 d-lsransnhc3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 89.0 * +EC3.4.21.68 d-vgransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.0 * +EC3.4.21.68 d-vpransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.21.68 l-fpransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.68 l-vgransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.21.68 lys-lys-cys-pro-gly-arg-val-val-gly-gly-cys-val-ala-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.21.68 lys-lys-ser-pro-gly-arg-val-val-gly-gly-ser-val-ala-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.21.68 lys-plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.68 plasminogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0025 * +EC3.4.21.68 plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4718 * +EC3.4.21.68 snase pfgrsa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC3.4.21.68 snase pfgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.21.68 snase pgpfgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.4.21.68 snase pgpfgrsagg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.21.68 snase phygrsgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.21.68 snase ppfgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.4.21.68 snase pqrgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.4.21.69 benzyloxycarbonyl-val-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.21.69 cleavage of arg306 in factor var506q homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.21.69 cleavage of arg506 in membrane-bound factor va homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.96 * +EC3.4.21.69 d-ile-pro-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 200.0 * +EC3.4.21.69 d-phe-pipecolyl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.0 * +EC3.4.21.69 d-pro-phe-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.4.21.69 d-val-cyclohexyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.21.69 d-val-leu-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.4.21.69 factor va homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.395 * +EC3.4.21.69 nalpha-benzoyl-l-arginine 4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC3.4.21.69 s-2366 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.0 * +EC3.4.21.69 spectrozyme pca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.0 * +EC3.4.21.69 sppca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.1 * +EC3.4.21.69 toluene-p-sulfonyl-gly-pro-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 87.0 * +EC3.4.21.69 toluene-p-sulfonyl-gly-pro-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.81 * +EC3.4.21.7 aiyrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.7 benzyloxycarbonyl-lys-p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.3 * +EC3.4.21.7 ciyrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.21.7 d-val-l-leu-l-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.97 * +EC3.4.21.7 d-val-leu-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.7 * +EC3.4.21.7 givrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC3.4.21.7 giyrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.7 gpgrvv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.21.7 hemofiltrate cc chemokine 1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.21.7 kkspgrvvggsvah homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC3.4.21.7 lggsamsrmssle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.21.7 lggsganfrgkle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 68.0 * +EC3.4.21.7 lggsgavykagle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.21.7 lggsgigrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.0 * +EC3.4.21.7 lggsgiyrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC3.4.21.7 lggsgiyrsvsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC3.4.21.7 lggsgiyrvrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC3.4.21.7 lggsgpyrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 92.0 * +EC3.4.21.7 lggsgtqrrlrle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC3.4.21.7 lggsgykiggsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC3.4.21.7 lggsirykgksle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.0 * +EC3.4.21.7 lggssiyrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.4.21.7 p-nitrophenyl-p'-(guanidinium)benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.125 * +EC3.4.21.7 p-nitrophenyl-p'-(methylethylsulfoniummethyl)benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.144 * +EC3.4.21.7 p-nitrophenyl-p'-(pyridiniummethyl)-benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.127 * +EC3.4.21.7 p-nitrophenyl-p'-(thiouroniummethyl)benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.364 * +EC3.4.21.7 spgrvv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC3.4.21.7 thrombin-activatable fibrinolysis inhibitor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00042 * +EC3.4.21.70 acetyl-tri-l-alanine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 59.0 * +EC3.4.21.70 benzoyl-l-alanine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.3 * +EC3.4.21.70 succinyl-tri-l-alanine 4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.5 * +EC3.4.21.71 gly-ile-asp-val-gln-ile-tyr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.1 * +EC3.4.21.73 l-pyroglutamyl-glycyl-l-arginine 4-nitroanilide hydrochloride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0113 * +EC3.4.21.73 plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.1 * +EC3.4.21.73 pyroglu-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 773.0 * +EC3.4.21.74 benzoyl-pro-phe-arg 4-nitroanilide crotalus adamanteus//*//* 0.35 * +EC3.4.21.74 carbobenzoyl-glu-(alpha-tert-butoxy)-gly-arg 4-nitroanilide crotalus adamanteus//*//* 0.16 * +EC3.4.21.74 d-phenylglycyl-phe-arg 4-nitroanilide crotalus adamanteus//*//* 3.5 * +EC3.4.21.74 h-d-aminobutyric acid-cyclohexylalanyl-lys 4-nitroanilide crotalus adamanteus//*//* 1.4 * +EC3.4.21.74 h-d-cyclohexylglycyl-l-2-aminobutyryl-arg 4-nitroanilide crotalus adamanteus//*//* 0.68 * +EC3.4.21.74 h-d-hexahydrotyrosyl-ala-arg 4-nitroanilide crotalus adamanteus//*//* 0.95 * +EC3.4.21.74 h-d-nle-cyclohexylalanyl-arg 4-nitroanilide crotalus adamanteus//*//* 61.0 * +EC3.4.21.74 h-d-nle-hexahydrotyrosyl-lys 4-nitroanilide crotalus adamanteus//*//* 6.9 * +EC3.4.21.74 h-d-pro-hexahydrotyrosyl-arg 4-nitroanilide crotalus adamanteus//*//* 4.9 * +EC3.4.21.74 human plasma fibrinogen daboia russellii russellii//*//* 1.042 * +EC3.4.21.74 methylsulfonyl-leu-gly-arg 4-nitroanilide crotalus adamanteus//*//* 1.3 * +EC3.4.21.74 tosyl-gly-pro-arg 4-nitroanilide crotalus adamanteus//*//* 11.5 * +EC3.4.21.74 tosyl-gly-pro-lys 4-nitroanilide crotalus adamanteus//*//* 0.7 * +EC3.4.21.75 2-aminobenzoyl-arg-val-lys-arg-gly-leu-ala-tyr(no2)-asp-oh mammalia//*//* 29.3 * +EC3.4.21.75 abz-girrkrsvshq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.3 * +EC3.4.21.75 abz-grrtrreaivq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.21.75 abz-hhrqrrsvsiq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.5 * +EC3.4.21.75 abz-hkrekrqakhq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.9 * +EC3.4.21.75 abz-hrrekrsvalq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.2 * +EC3.4.21.75 abz-hrrqkrsvalq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.9 * +EC3.4.21.75 abz-kirrrrdvvdq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.75 abz-lkrrrrdtqqq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.4.21.75 abz-nlrrrrdlvdq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.21.75 abz-rerrrkkrglfgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.3 * +EC3.4.21.75 abz-rkrsrrqvntq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.3 * +EC3.4.21.75 abz-rrrakrspkhq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7 * +EC3.4.21.75 abz-rrrdkrsvalq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.6 * +EC3.4.21.75 abz-rrrkkrglfgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.21.75 abz-rrrkkrglsgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.4.21.75 abz-rrrkkrslfgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC3.4.21.75 abz-skrsrrsvsvq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.3 * +EC3.4.21.75 abz-srrhkrfagvq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.21.75 abz-srrkrrdvtpq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.9 * +EC3.4.21.75 abz-srrkrrsastq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.1 * +EC3.4.21.75 abz-ssrhrraldtq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1 * +EC3.4.21.75 abz-trrfrrsiteq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.8 * +EC3.4.21.75 ac-norleucineykr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC3.4.21.75 acetyl-arg-glu-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000934 * +EC3.4.21.75 acetyl-arg-lys-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.75 acetyl-arg-phe-ala-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0507 * +EC3.4.21.75 acetyl-arg-pro-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00111 * +EC3.4.21.75 acetyl-arg-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0403 * +EC3.4.21.75 acetyl-lys-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00159 * +EC3.4.21.75 acetyl-orn-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00088 * +EC3.4.21.75 acetyl-rvrr-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.21.75 acetyl-tyr-glu-lys-glu-arg-ser-lys-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00135 * +EC3.4.21.75 acrarykr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 250.0 * +EC3.4.21.75 acrykr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 193.0 * +EC3.4.21.75 acryrfkr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 200.0 * +EC3.4.21.75 boc-rvrr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC3.4.21.75 boc-rvrr-7-amido-4-methylcoumarin trichoplusia ni//*//* 0.003 * +EC3.4.21.75 hbmp-2 precursor protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.21.75 hbmp-4 precursor protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC3.4.21.75 perktr-7-amido-4-methylcoumarin trichoplusia ni//*//* 0.008 * +EC3.4.21.75 pro-hadam-15 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC3.4.21.75 pro-hadam-ts 4 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.4.21.75 pro-hadam-ts 6 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.21.75 pro-hadamts-17 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.75 pro-hadamts-23 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.75 pro-htgf-beta1 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.75 pro-htgf-beta2 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.4.21.75 pro-htgf-beta3 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.4 * +EC3.4.21.75 pro-htgf-beta4 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.75 pro-mt-mmp 1 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.21.75 pro-mt-mmp 11 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.75 pro-mt-mmp 3 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.75 pro-mt-mmp 4 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC3.4.21.75 pro-mt-mmp 6 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC3.4.21.75 proaerolysin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.2 * +EC3.4.21.75 protective antigen mammalia//*//* 11.0 * +EC3.4.21.75 pseudomonas toxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.54 * +EC3.4.21.75 shiga toxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC3.4.21.75 tert-butoxycarbonyl-arg-val-arg-arg-4-methylcoumarin 7-amide mammalia//*//* 0.192 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzamide) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-asn-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-asp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-gln-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-glu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-gly-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-his-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-ile-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-leu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-lys-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-pro-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-ser-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-thr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-trp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-tyr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-val-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.4.21.76 ac-ala-ala-pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.2 * +EC3.4.21.76 ac-ala-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.4.21.76 boc-ala-ala-pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.21.76 meosuc-aapv-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.59 * +EC3.4.21.76 meosuc-aapv-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.2 * +EC3.4.21.76 meosuc-aipm-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC3.4.21.76 meosuc-aipm-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.2 * +EC3.4.21.76 meosuc-ala-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.4.21.76 meosuc-lys(2-picolinoyl)-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 138.0 * +EC3.4.21.76 meosuc-lys(2-picolinoyl)-tyr-asp-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 192.0 * +EC3.4.21.76 meosuc-lys(2-picolinoyl)-tyr-asp-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 660.0 * +EC3.4.21.76 suc-aaa-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.031 * +EC3.4.21.76 suc-aapl-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC3.4.21.76 suc-aapv-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.21.76 suc-aapv-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.2 * +EC3.4.21.76 suc-ala-ala-asp-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 84.0 * +EC3.4.21.76 suc-ala-ala-glu-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.4.21.76 suc-ala-ala-pro-2-aminobutyric acid-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.4.21.76 suc-ala-ala-pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.8 * +EC3.4.21.76 suc-ala-ala-pro-ile-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.2 * +EC3.4.21.76 suc-ala-ala-pro-nva-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC3.4.21.76 suc-ala-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC3.4.21.76 suc-ala-tyr-leu-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.76 suc-leu-val-glu-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.2 * +EC3.4.21.76 succinyl-ala-ala-norvaline thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-ala thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.1 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-ile thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-met thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.2 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-norvaline thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 63.3 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-val thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.4 * +EC3.4.21.77 4-morpholinecarbonyl-hssklq-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.21.77 arg-pro-tyr 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.21.77 lys-val-tyr 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.21.77 meo-suc-arg-pro-tyr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC3.4.21.77 n-succinyl-l-ala-l-ala-l-pro-l-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC3.4.21.78 benzyloxycarbonyl-arg thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.8 * +EC3.4.21.78 benzyloxycarbonyl-arg thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 83.0 * +EC3.4.21.78 benzyloxycarbonyl-gly-arg thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.83 * +EC3.4.21.78 benzyloxycarbonyl-gly-arg thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 59.0 * +EC3.4.21.78 benzyloxycarbonyl-lys thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 21.0 * +EC3.4.21.78 benzyloxycarbonyl-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.78 boc-ala-ala-arg-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4980.0 * +EC3.4.21.78 boc-trp-arg-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3960.0 * +EC3.4.21.78 tert-butyloxycarbonyl-ala-ala-arg thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 45.0 * +EC3.4.21.78 z-arg-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30400.0 * +EC3.4.21.78 z-lys-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22140.0 * +EC3.4.21.79 2-aminobenzoyl-iepdssmek-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.4.21.79 2-aminobenzoyl-iepdssmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.4.21.79 2-aminobenzoyl-vvadssmask-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.21.79 2-aminobenzoyl-vvadssmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.79 2-aminobenzoyl-vvaessmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.79 abz-iepdssmesk-2,4-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.4.21.79 acetyl-ietd-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.23 * +EC3.4.21.79 boc-ala-ala-asp-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.21.79 boc-ala-ala-asp-sbzl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.0 * +EC3.4.21.79 iepd-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.21.79 leed-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.79 nalpha-tert-butyloxycarbonyl-ala-ala-asp thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 116.0 * +EC3.4.21.79 nalpha-tert-butyloxycarbonyl-ala-ala-met thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 24.0 * +EC3.4.21.79 nalpha-tert-butyloxycarbonyl-l-ala-l-ala-l-asp thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.21.79 veid-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.21.80 acetyl-ala-ala-tyr-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.04 * +EC3.4.21.80 acetyl-pro-ala-leu-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 5.1 * +EC3.4.21.80 acetyl-pro-ala-pro-phe-leu-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 20.0 * +EC3.4.21.80 acetyl-pro-ala-pro-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 5.8 * +EC3.4.21.80 acetyl-pro-ala-pro-phe-tyr-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 56.8 * +EC3.4.21.80 acetyl-pro-ala-pro-trp-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.1 * +EC3.4.21.80 acetyl-pro-ala-pro-tyr-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 10.1 * +EC3.4.21.80 succinyl-ala-ala-pro-phe 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 285.0 * +EC3.4.21.80 succinyl-ala-ala-pro-phe-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 6.9 * +EC3.4.21.81 acetyl-ala-ala-tyr-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.04 * +EC3.4.21.81 acetyl-pro-ala-leu-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 7.1 * +EC3.4.21.81 acetyl-pro-ala-pro-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 6.7 * +EC3.4.21.81 suc-aapf-p-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1884.0 * +EC3.4.21.81 succinyl-ala-ala-pro-phe 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 153.0 * +EC3.4.21.81 succinyl-ala-ala-pro-phe-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.3 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-ala-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 473.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-gly-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 30.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-leu-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 179.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-phe-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 365.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 5390.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-leu-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 500.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-phe-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 381.0 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 182.0 * +EC3.4.21.83 2-aminobenzoyl-adgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 288.0 * +EC3.4.21.83 2-aminobenzoyl-aegrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 312.0 * +EC3.4.21.83 2-aminobenzoyl-afgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2200.0 * +EC3.4.21.83 2-aminobenzoyl-afgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 312.0 * +EC3.4.21.83 2-aminobenzoyl-agdrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 180.0 * +EC3.4.21.83 2-aminobenzoyl-agergagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 108.0 * +EC3.4.21.83 2-aminobenzoyl-agfrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1320.0 * +EC3.4.21.83 2-aminobenzoyl-agfrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 582.0 * +EC3.4.21.83 2-aminobenzoyl-aggrdagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 900.0 * +EC3.4.21.83 2-aminobenzoyl-aggrdagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 900.0 * +EC3.4.21.83 2-aminobenzoyl-aggreagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 780.0 * +EC3.4.21.83 2-aminobenzoyl-aggreagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 900.0 * +EC3.4.21.83 2-aminobenzoyl-aggrfagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aggrfagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1440.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgadq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1020.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgaeq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 402.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgafq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 4080.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgafq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 900.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 354.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 312.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgahq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1500.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgaiq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3300.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgaiq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 414.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgalq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2820.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgalq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1380.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgamq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1200.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgamq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 900.0 * +EC3.4.21.83 2-aminobenzoyl-aggrganq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1860.0 * +EC3.4.21.83 2-aminobenzoyl-aggrganq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1020.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgapq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 186.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgapq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 312.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgaqq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3060.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgaqq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 390.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgasq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1620.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgatq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2220.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgatq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2880.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgavq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2160.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgavq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2640.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgayq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2760.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgdgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 720.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgdgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 264.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgegq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 720.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgegq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1980.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgfgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 900.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgfgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2160.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgggqg-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 780.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgggqg-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aggrghgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1020.0 * +EC3.4.21.83 2-aminobenzoyl-aggrghgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 960.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgigq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1680.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgigq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1740.0 * +EC3.4.21.83 2-aminobenzoyl-aggrglgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1500.0 * +EC3.4.21.83 2-aminobenzoyl-aggrglgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3720.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgmgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgmgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3240.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgngq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgngq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 432.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgpgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 450.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgpgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 336.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgqgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 552.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgqgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 840.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgsgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 588.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgsgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1380.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgtgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1020.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgtgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1140.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgvgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3180.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgygq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1200.0 * +EC3.4.21.83 2-aminobenzoyl-aggrgygq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1380.0 * +EC3.4.21.83 2-aminobenzoyl-aggrhagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 552.0 * +EC3.4.21.83 2-aminobenzoyl-aggrhagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1620.0 * +EC3.4.21.83 2-aminobenzoyl-aggriagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 240.0 * +EC3.4.21.83 2-aminobenzoyl-aggriagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 186.0 * +EC3.4.21.83 2-aminobenzoyl-aggrlagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 246.0 * +EC3.4.21.83 2-aminobenzoyl-aggrlagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 360.0 * +EC3.4.21.83 2-aminobenzoyl-aggrmagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1140.0 * +EC3.4.21.83 2-aminobenzoyl-aggrmagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1020.0 * +EC3.4.21.83 2-aminobenzoyl-aggrnagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 840.0 * +EC3.4.21.83 2-aminobenzoyl-aggrnagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 840.0 * +EC3.4.21.83 2-aminobenzoyl-aggrqagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 720.0 * +EC3.4.21.83 2-aminobenzoyl-aggrqagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aggrsagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 720.0 * +EC3.4.21.83 2-aminobenzoyl-aggrsagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1260.0 * +EC3.4.21.83 2-aminobenzoyl-aggrtagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 720.0 * +EC3.4.21.83 2-aminobenzoyl-aggrtagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aggrvagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 156.0 * +EC3.4.21.83 2-aminobenzoyl-aggrvagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 288.0 * +EC3.4.21.83 2-aminobenzoyl-aggryagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 780.0 * +EC3.4.21.83 2-aminobenzoyl-aggryagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 660.0 * +EC3.4.21.83 2-aminobenzoyl-aghrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 720.0 * +EC3.4.21.83 2-aminobenzoyl-agirgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 396.0 * +EC3.4.21.83 2-aminobenzoyl-agirgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 780.0 * +EC3.4.21.83 2-aminobenzoyl-agkrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 264.0 * +EC3.4.21.83 2-aminobenzoyl-agkrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 444.0 * +EC3.4.21.83 2-aminobenzoyl-aglrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1140.0 * +EC3.4.21.83 2-aminobenzoyl-aglrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 900.0 * +EC3.4.21.83 2-aminobenzoyl-agmrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1440.0 * +EC3.4.21.83 2-aminobenzoyl-agmrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 780.0 * +EC3.4.21.83 2-aminobenzoyl-agnrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 426.0 * +EC3.4.21.83 2-aminobenzoyl-agnrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 468.0 * +EC3.4.21.83 2-aminobenzoyl-agprgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 720.0 * +EC3.4.21.83 2-aminobenzoyl-agprgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 216.0 * +EC3.4.21.83 2-aminobenzoyl-agqrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 600.0 * +EC3.4.21.83 2-aminobenzoyl-agqrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 960.0 * +EC3.4.21.83 2-aminobenzoyl-agsrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 102.0 * +EC3.4.21.83 2-aminobenzoyl-agsrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.0 * +EC3.4.21.83 2-aminobenzoyl-agtrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1140.0 * +EC3.4.21.83 2-aminobenzoyl-agtrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1620.0 * +EC3.4.21.83 2-aminobenzoyl-agvrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 294.0 * +EC3.4.21.83 2-aminobenzoyl-agvrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 84.0 * +EC3.4.21.83 2-aminobenzoyl-agyrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1440.0 * +EC3.4.21.83 2-aminobenzoyl-agyrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 720.0 * +EC3.4.21.83 2-aminobenzoyl-ahgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1260.0 * +EC3.4.21.83 2-aminobenzoyl-ahgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1140.0 * +EC3.4.21.83 2-aminobenzoyl-aigrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2100.0 * +EC3.4.21.83 2-aminobenzoyl-aigrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1380.0 * +EC3.4.21.83 2-aminobenzoyl-algrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1740.0 * +EC3.4.21.83 2-aminobenzoyl-algrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 840.0 * +EC3.4.21.83 2-aminobenzoyl-amgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2340.0 * +EC3.4.21.83 2-aminobenzoyl-amgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1380.0 * +EC3.4.21.83 2-aminobenzoyl-angrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 450.0 * +EC3.4.21.83 2-aminobenzoyl-apgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 264.0 * +EC3.4.21.83 2-aminobenzoyl-apgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 132.0 * +EC3.4.21.83 2-aminobenzoyl-aqgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2520.0 * +EC3.4.21.83 2-aminobenzoyl-aqgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 780.0 * +EC3.4.21.83 2-aminobenzoyl-asgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2460.0 * +EC3.4.21.83 2-aminobenzoyl-asgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1020.0 * +EC3.4.21.83 2-aminobenzoyl-atgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1800.0 * +EC3.4.21.83 2-aminobenzoyl-atgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1800.0 * +EC3.4.21.83 2-aminobenzoyl-avgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2700.0 * +EC3.4.21.83 2-aminobenzoyl-avgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 186.0 * +EC3.4.21.83 2-aminobenzoyl-aygrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2820.0 * +EC3.4.21.83 2-aminobenzoyl-aygrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 486.0 * +EC3.4.21.83 2-aminobenzoyl-thr-arg cit-phe(no2)-ser-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 294.0 * +EC3.4.21.83 2-aminobenzoyl-thr-arg-arg phe(no2)-ser-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1420.0 * +EC3.4.21.83 2-aminobenzoyl-thr-cit-arg phe(no2)-ser-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1220.0 * +EC3.4.21.83 3-(2-furyl)acryloyl-tyr-lys-arg trypanosoma evansi//*//* 18.0 * +EC3.4.21.83 acetyl-l-leu-l-leu-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 13.9 * +EC3.4.21.83 acetyl-l-leu-l-lys-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 32.0 * +EC3.4.21.83 acetyl-tyr 4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.4.21.83 ala-phe-lys-7-amido-4-methylcoumarin trypanosoma evansi//*//* 34.0 * +EC3.4.21.83 arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 2.0 * +EC3.4.21.83 arg-arg-2-naphthylamide trypanosoma evansi//*//* 30.0 * +EC3.4.21.83 arg-arg-arg trypanosoma evansi//*//* 38.0 * +EC3.4.21.83 benzoyl-arg 2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC3.4.21.83 benzoyl-arg-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11300.0 * +EC3.4.21.83 benzoyl-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 13.3 * +EC3.4.21.83 benzoyl-arg-beta-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4850.0 * +EC3.4.21.83 benzoyl-gly-gly-l-arg-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 6830.0 * +EC3.4.21.83 benzoyl-gly-l-pro-l-arg-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 4250.0 * +EC3.4.21.83 benzoyl-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.016 * +EC3.4.21.83 benzoyl-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.29 * +EC3.4.21.83 benzoyl-l-pro-l-phe-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 201.7 * +EC3.4.21.83 benzoyl-lys 2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC3.4.21.83 benzoyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.29 * +EC3.4.21.83 benzyloxycarbonyl-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 26.0 * +EC3.4.21.83 benzyloxycarbonyl-arg-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 2040.0 * +EC3.4.21.83 benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 64.0 * +EC3.4.21.83 benzyloxycarbonyl-arg-thr-lys-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.16 * +EC3.4.21.83 benzyloxycarbonyl-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 900.0 * +EC3.4.21.83 benzyloxycarbonyl-gly-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1500.0 * +EC3.4.21.83 benzyloxycarbonyl-gly-gly-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 48.0 * +EC3.4.21.83 benzyloxycarbonyl-gly-l-arg-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.013 * +EC3.4.21.83 benzyloxycarbonyl-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 13.3 * +EC3.4.21.83 benzyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.36 * +EC3.4.21.83 benzyloxycarbonyl-lys-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 420.0 * +EC3.4.21.83 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1260.0 * +EC3.4.21.83 benzyloxycarbonyl-phe-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 77.0 * +EC3.4.21.83 benzyloxycarbonyl-val-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 900.0 * +EC3.4.21.83 boc-gln-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1020.0 * +EC3.4.21.83 boc-gly-arg-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1380.0 * +EC3.4.21.83 boc-gly-lys-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1200.0 * +EC3.4.21.83 boc-leu-arg-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1560.0 * +EC3.4.21.83 boc-leu-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1080.0 * +EC3.4.21.83 boc-leu-gly-lys-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 960.0 * +EC3.4.21.83 boc-leu-thr-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1080.0 * +EC3.4.21.83 gly-arg-2-naphthylamide trypanosoma evansi//*//* 12.0 * +EC3.4.21.83 gly-gly-lys-arg trypanosoma evansi//*//* 54.0 * +EC3.4.21.83 n-benzoyl-arg ethyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 197.0 * +EC3.4.21.83 n-benzoyl-arginine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.0 * +EC3.4.21.83 n-benzyloxycarbonyl-gly-gly-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.02 * +EC3.4.21.83 n-benzyloxycarbonyl-l-arg-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.01 * +EC3.4.21.83 n-benzyloxycarbonyl-l-phe-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.011 * +EC3.4.21.83 n-benzyloxycarbonyl-lys 4-nitrophenyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 43.0 * +EC3.4.21.83 n-benzyloxycarbonyl-lys benzyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 55.0 * +EC3.4.21.83 n2-benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.82 * +EC3.4.21.83 nalpha-benzoyl-dl-arginine-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 37.7 * +EC3.4.21.83 nalpha-benzyloxycarbonyl-l-lysine thiobenzyl ester serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 55.5 * +EC3.4.21.83 nalpha-benzyloxycarbonyl-l-phe-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 35.2 * +EC3.4.21.83 phe-arg-2-naphthylamide trypanosoma evansi//*//* 18.0 * +EC3.4.21.83 phe-arg-arg trypanosoma evansi//*//* 21.0 * +EC3.4.21.83 succinyl-l-ala-l-ala-l-pro-l-lys-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 1.0 * +EC3.4.21.83 succinyl-l-alal-ala-l-pro-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 1.2 * +EC3.4.21.83 tert-butyloxycarbonyl-ala-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 102.0 * +EC3.4.21.83 tert-butyloxycarbonyl-ala-gly-pro-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 12.0 * +EC3.4.21.83 tert-butyloxycarbonyl-gly-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 101.0 * +EC3.4.21.83 tert-butyloxycarbonyl-gly-lys-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 76.0 * +EC3.4.21.83 tert-butyloxycarbonyl-leu-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 154.0 * +EC3.4.21.83 tert-butyloxycarbonyl-leu-gly-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 74.0 * +EC3.4.21.83 tert-butyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 132.0 * +EC3.4.21.83 tert-butyloxycarbonyl-val-gly-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 64.0 * +EC3.4.21.83 tert-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin trypanosoma evansi//*//* 22.0 * +EC3.4.21.83 tert-butyloxycarbonyl-val-pro-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 12.0 * +EC3.4.21.83 tos-gly-pro-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 780.0 * +EC3.4.21.83 tos-gly-pro-lys-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1080.0 * +EC3.4.21.83 tosyl-arg methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC3.4.21.83 tosyl-lys methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 55.0 * +EC3.4.21.83 val-lys-arg-arg trypanosoma evansi//*//* 44.0 * +EC3.4.21.84 n-tert-butoxycarbonyl-val-pro-arg 4-nitroanilide tachypleus tridentatus//*//* 391.0 * +EC3.4.21.84 tert-butoxycarbonyl-ala-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 72.0 * +EC3.4.21.84 tert-butoxycarbonyl-asp(o-benzyl)-ala-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 18.0 * +EC3.4.21.84 tert-butoxycarbonyl-asp(o-benzyl)-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 75.0 * +EC3.4.21.84 tert-butoxycarbonyl-gln-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 34.0 * +EC3.4.21.84 tert-butoxycarbonyl-lys(benzyloxycarbonyl)-gly-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 10.0 * +EC3.4.21.84 tert-butoxycarbonyl-met-ala-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 27.0 * +EC3.4.21.84 tert-butoxycarbonyl-val-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 48.0 * +EC3.4.21.89 alkaline phosphatase signal peptide fused to full-length mammalian cytochrome b5 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.4.21.89 decanoyl-ltptakaaskidd-oh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 418.0 * +EC3.4.21.89 fsasala-ki escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC3.4.21.89 phe-ser-ala-ser-ala-leu-ala-lys-ile-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC3.4.21.89 phe-ser-ala-ser-ala-leu-ala-lys-ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC3.4.21.89 preprotein substrate pona bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.034 * +EC3.4.21.89 preprotein substrate pona escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 44.0 * +EC3.4.21.89 pro-ompa-nuclease a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.73 * +EC3.4.21.89 pro-ompa-nuclease escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.73 * +EC3.4.21.89 y-no2-fsasalakik-2-aminobenzoyl-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.4.21.89 yfsasala-4-methylcoumarin 7-amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000528 * +EC3.4.21.9 a4-mutant trypsinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.2 * +EC3.4.21.9 angiotensin ii bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.4.21.9 benzoyl-ag ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 53.0 * +EC3.4.21.9 benzoyl-arg ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 28.4 * +EC3.4.21.9 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 262.0 * +EC3.4.21.9 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 0.64 * +EC3.4.21.9 bovine trypsinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.9 * +EC3.4.21.9 formyl-ala-phe-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 26.3 * +EC3.4.21.9 formyl-ala-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.5 * +EC3.4.21.9 formyl-ala-phe-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.4 * +EC3.4.21.9 formyl-ala-phe-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.2 * +EC3.4.21.9 g5dkf(no2)g bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.33 * +EC3.4.21.9 g5dkf(no2)g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.33 * +EC3.4.21.9 gd4k 2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.9 * +EC3.4.21.9 gd4k 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 64.8 * +EC3.4.21.9 gd4kf(no2)g bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.83 * +EC3.4.21.9 gd4kf(no2)g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.83 * +EC3.4.21.9 gd4knfa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.67 * +EC3.4.21.9 gd4r-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC3.4.21.9 gddddk-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 115.0 * +EC3.4.21.9 gddddk-2-naphthylamide oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 27.9 * +EC3.4.21.9 gddddk-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 135.0 * +EC3.4.21.9 gly-asp-asp-asp-asp-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 520.0 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 49.3 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 121.0 * +EC3.4.21.9 glycyl-tetra-l-aspartyl-l-lysine beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.5 * +EC3.4.21.9 human cationic trypsinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.8 * +EC3.4.21.9 human cationic trypsinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.1 * +EC3.4.21.9 ltaeeka bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.49 * +EC3.4.21.9 ltaeeka homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.9 mltaeekaa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 25.17 * +EC3.4.21.9 n-alpha-benzyloxycarbonyl-l-lysine thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 111.0 * +EC3.4.21.9 prad4kp26 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.62 * +EC3.4.21.9 t-butyloxycarbonyl-e(benzyl ester)-ala-arg-7-amido-4-methylcoumarin oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 0.34 * +EC3.4.21.9 thiobenzyl benzyloxy-carbonyl-l-lysinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 129.0 * +EC3.4.21.9 thiobenzyl benzyloxy-carbonyl-l-lysinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 133.0 * +EC3.4.21.9 thiobenzyl benzyloxycarbonyl-l-lysinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 129.0 * +EC3.4.21.9 tosyl-arg methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.0 * +EC3.4.21.9 tosyl-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.1 * +EC3.4.21.9 tosyl-lys methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.0 * +EC3.4.21.9 trypsinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.9 * +EC3.4.21.9 trypsinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.21.9 trypsinogen sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.8 * +EC3.4.21.9 val-(ala)2-(asp)2-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.9 * +EC3.4.21.9 val-(ala)2-asp-ala-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.1 * +EC3.4.21.9 val-(ala)3-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 17.0 * +EC3.4.21.9 val-(asp)2-ala-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.3 * +EC3.4.21.9 val-(asp)3-ala-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.6 * +EC3.4.21.9 val-(asp)3-glu-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC3.4.21.9 val-(asp)4-arg-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.6 * +EC3.4.21.9 val-(asp)4-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC3.4.21.9 val-ala-(asp)3-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 17.8 * +EC3.4.21.9 val-ala-asp-ala-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 23.0 * +EC3.4.21.9 val-asp-(ala)2-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 28.1 * +EC3.4.21.9 val-asp-(ala)3-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.1 * +EC3.4.21.9 val-asp-ala-(asp)2-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.7 * +EC3.4.21.9 val-asp-ala-asp-ala-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.3 * +EC3.4.21.9 wddkg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.54 * +EC3.4.21.9 wddrg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.68 * +EC3.4.21.9 z-lys-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 336.0 * +EC3.4.21.91 abz-agrk-sltny-amide dengue virus 2//*//* 0.005 * +EC3.4.21.91 abz-agrk-sny-amide dengue virus 2//*//* 0.001 * +EC3.4.21.91 abz-agrks-3-nitrotyrosine-amide dengue virus 2//*//* 0.001 * +EC3.4.21.91 abz-agrkslt-3-nitrotyrosine-amide dengue virus 2//*//* 0.005 * +EC3.4.21.91 abz-kkqr-sagmny-amide dengue virus 2//*//* 0.0967 * +EC3.4.21.91 abz-kkqragvl-3-nitrotyrosine-amide dengue virus 2//*//* 0.0967 * +EC3.4.21.91 abz-skkr-agvlny-amide dengue virus 2//*//* 0.0045 * +EC3.4.21.91 abz-skkr-sagmny-amide dengue virus 2//*//* 0.045 * +EC3.4.21.91 abz-skkragvl-3-nitrotyrosine-amide dengue virus 2//*//* 0.0045 * +EC3.4.21.91 abz-skkrsagm-3-nitrotyrosine-amide dengue virus 2//*//* 0.045 * +EC3.4.21.91 acetyl-nle-lys-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 0.112 * +EC3.4.21.91 benzoyl-nle-lys-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 2.9 * +EC3.4.21.91 benzoyl-nle-lys-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 2.8 * +EC3.4.21.91 benzoyl-nle-lys-arg-arg-thiobenzylester dengue virus//*//* 300.0 * +EC3.4.21.91 benzoyl-nle-lys-thr-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 4.9 * +EC3.4.21.91 benzoyl-nle-thr-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 1.1 * +EC3.4.21.91 benzoyl-thr-lys-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.43 * +EC3.4.21.91 benzoyl-thr-thr-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.48 * +EC3.4.21.91 boc-gly-arg-arg-7-amido-4-methylcoumarin yellow fever virus//*//* 0.034 * +EC3.4.21.91 bz-arg-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.109 * +EC3.4.21.91 faegrrgaaevlq yellow fever virus//*//* 0.001 * +EC3.4.21.91 gly-arg-arg-4-methylcoumarin 7-amide dengue virus 2//*//* 0.02 * +EC3.4.21.91 klaqrrvfhgvaq yellow fever virus//*//* 0.003 * +EC3.4.21.91 l-pglu-l-arg-l-thr-l-lys-l-arg-7-amido-4-methylcoumarin west nile virus//*//* 6.3 * +EC3.4.21.91 mktgrrgsangkq yellow fever virus//*//* 0.012 * +EC3.4.21.91 n-alpha-benzoyl-l-arginine-p-nitroanilide alkhumra hemorrhagic fever virus//*//* 0.015 * +EC3.4.21.91 n-benzoyl-3-(4-aminocyclohexyl)-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.013 * +EC3.4.21.91 n-benzoyl-3-(4-piperidinyl)-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.014 * +EC3.4.21.91 n-benzoyl-3-(trans-aminomethylcyclohexyl)-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.172 * +EC3.4.21.91 n-benzoyl-3-pyridyl-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.002 * +EC3.4.21.91 n-benzoyl-4-(aminomethyl)-l-phe-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.013 * +EC3.4.21.91 n-benzoyl-4-(aminomethyl-n-isopropyl)-l-phe-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.022 * +EC3.4.21.91 n-benzoyl-4-(guanidino)-l-phe-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.035 * +EC3.4.21.91 n-benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.11 * +EC3.4.21.91 o-aminobenzoyl-agkksaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.02 * +EC3.4.21.91 o-aminobenzoyl-agkksaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.001 * +EC3.4.21.91 o-aminobenzoyl-agkrsaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.2 * +EC3.4.21.91 o-aminobenzoyl-agkrsaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.01 * +EC3.4.21.91 o-aminobenzoyl-agrksaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.13 * +EC3.4.21.91 o-aminobenzoyl-agrksaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.005 * +EC3.4.21.91 o-aminobenzoyl-agrrsaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.21 * +EC3.4.21.91 o-aminobenzoyl-agrrsaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.061 * +EC3.4.21.91 o-aminobenzoyl-akkksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.04 * +EC3.4.21.91 o-aminobenzoyl-akkksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.004 * +EC3.4.21.91 o-aminobenzoyl-akkrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.07 * +EC3.4.21.91 o-aminobenzoyl-akkrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.097 * +EC3.4.21.91 o-aminobenzoyl-akrksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.04 * +EC3.4.21.91 o-aminobenzoyl-akrksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.012 * +EC3.4.21.91 o-aminobenzoyl-akrrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 1.0 * +EC3.4.21.91 o-aminobenzoyl-akrrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.026 * +EC3.4.21.91 o-aminobenzoyl-arkksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.05 * +EC3.4.21.91 o-aminobenzoyl-arkksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.002 * +EC3.4.21.91 o-aminobenzoyl-arkrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.07 * +EC3.4.21.91 o-aminobenzoyl-arkrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.06 * +EC3.4.21.91 o-aminobenzoyl-arrksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.09 * +EC3.4.21.91 o-aminobenzoyl-arrksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.005 * +EC3.4.21.91 o-aminobenzoyl-arrrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.38 * +EC3.4.21.91 o-aminobenzoyl-arrrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.12 * +EC3.4.21.91 o-aminobenzoyl-evkkqragvlwdq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.03 * +EC3.4.21.91 o-aminobenzoyl-faagrksltlnlq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.02 * +EC3.4.21.91 o-aminobenzoyl-faaqrrgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.14 * +EC3.4.21.91 o-aminobenzoyl-hrrekrsvalq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.04 * +EC3.4.21.91 o-aminobenzoyl-kkrsskq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.012 * +EC3.4.21.91 o-aminobenzoyl-krrsskq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.025 * +EC3.4.21.91 o-aminobenzoyl-lnrrrrtagmiiq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.04 * +EC3.4.21.91 o-aminobenzoyl-rtskkrswplneq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.17 * +EC3.4.21.91 o-aminobenzoyl-saagrrgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.09 * +EC3.4.21.91 o-aminobenzoyl-saaqrkgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.04 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgligrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.11 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrignnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.11 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrigrlq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.16 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.29 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrilrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.18 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrtgrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.34 * +EC3.4.21.91 o-aminobenzoyl-saaqrrsrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.14 * +EC3.4.21.91 o-aminobenzoyl-ttstrrgtgnigq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.04 * +EC3.4.21.91 pyroglutamic acid-arg-thr-lys-arg-7-amido-4-methylcoumarin west nile virus//*//* 6.3 * +EC3.4.21.91 rifgrrsipvneq yellow fever virus//*//* 0.005 * +EC3.4.21.91 saaqrrgrigrnq yellow fever virus//*//* 0.016 * +EC3.4.21.91 ssrkrrshdvltq yellow fever virus//*//* 0.069 * +EC3.4.21.91 t-butoxycarbonyl-arg-val-arg-arg-7-amido-4-methylcoumarin west nile virus//*//* 0.22 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide bussuquara virus//*//* 0.073 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 1//*//* 0.101 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 3//*//* 0.163 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide langat virus//*//* 0.007 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide st. louis encephalitis virus//*//* 0.075 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide yellow fever virus//*//* 0.044 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide zika virus//*//* 0.013 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide bussuquara virus//*//* 0.039 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 1//*//* 0.153 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 3//*//* 0.007 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide st. louis encephalitis virus//*//* 0.083 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide yellow fever virus//*//* 0.006 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide zika virus//*//* 0.088 * +EC3.4.21.91 tert-butoxycarbonyl-gly-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 0.13 * +EC3.4.21.91 vrgarrsgdvlwq yellow fever virus//*//* 0.041 * +EC3.4.21.92 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.17 * +EC3.4.21.92 glucagon escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.4.21.92 insulin chain b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.4.21.92 n-succinyl-leu-tyr-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.8 * +EC3.4.21.92 n-succinyl-leu-tyr-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.093 * +EC3.4.21.92 oxidized insulin b-chain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.4.21.92 phe-ala-pro-his-met-ala-leu-val-pro-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.3 * +EC3.4.21.92 suc-llvy-4-methylcoumarin-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.6e-05 * +EC3.4.21.94 ac-arg-phe-ala-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.6 * +EC3.4.21.94 ac-arg-pro-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 99.0 * +EC3.4.21.94 ac-lys-ser-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 43.8 * +EC3.4.21.94 ac-orn-ser-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 39.6 * +EC3.4.21.94 boc-gly-arg-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC3.4.21.94 boc-gly-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.4.21.94 cbz-arg-ser-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.2 * +EC3.4.21.94 pglu-arg-thr-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.2 * +EC3.4.21.97 4-(4'-dimethylaminophenazo)benzoic acid-rgvvnas-2-aminobutanoyl-rln-5-[(2'-aminoethyl)-amino]-naphthalene-1-sulfonic acid human betaherpesvirus 5//*//* 0.0133 * +EC3.4.21.97 4-(4'-dimethylaminophenazo)benzoic acid-rgvvnas-2-aminobutanoyl-rln-5-[(2'-aminoethyl)-amino]-naphthalene-1-sulfonic acid human herpesvirus 6//*//* 0.00833 * +EC3.4.21.97 4-(4'-dimethylaminophenylazo)benzoyl-arg-gly-val-val-asn-ala-ser-ser-arg-leu-ala-(2'-aminoethyl)amino-naphthalene-1-sulfonic acid human betaherpesvirus 5//*//* 0.046 * +EC3.4.21.97 abz-gvvnassrlay(no2)g human betaherpesvirus 5//*//* 0.583 * +EC3.4.21.97 acetyl-cys-tert-butylglycine-tert-butylglycine-asn(me)2-ala-7-amido-4-methylcoumarin human betaherpesvirus 5//*//* 0.1 * +EC3.4.21.97 gvvnascrla human betaherpesvirus 5//*//* 0.206 * +EC3.4.21.97 rgvvnassrlak human betaherpesvirus 5//*//* 0.308 * +EC3.4.21.97 succinyl-lvnas-2-aminobutyryl-ept-nh2 human betaherpesvirus 5//*//* 0.0833 * +EC3.4.21.97 succinyl-lvnas-2-aminobutyryl-ept-nh2 human herpesvirus 6//*//* 0.7 * +EC3.4.21.97 succinyl-rrilnaslape-nh2 human betaherpesvirus 5//*//* 0.1 * +EC3.4.21.97 succinyl-rrilnaslape-nh2 human herpesvirus 6//*//* 0.217 * +EC3.4.21.97 succinyl-rryikaseppv-nh2 human betaherpesvirus 5//*//* 0.0333 * +EC3.4.21.97 succinyl-rryikaseppv-nh2 human herpesvirus 6//*//* 0.0833 * +EC3.4.21.97 succinyl-syvkasvs-nh2 human betaherpesvirus 5//*//* 0.0167 * +EC3.4.21.97 succinyl-syvkasvs-nh2 human herpesvirus 6//*//* 0.217 * +EC3.4.21.97 succinyl-vvnas-2-aminobutyryl-r-nh2 human betaherpesvirus 5//*//* 0.133 * +EC3.4.21.97 succinyl-vvnas-2-aminobutyryl-r-nh2 human herpesvirus 6//*//* 0.05 * +EC3.4.21.97 succinyl-yvkasepla-nh2 human betaherpesvirus 5//*//* 0.0333 * +EC3.4.21.97 succinyl-yvkasepla-nh2 human herpesvirus 6//*//* 0.167 * +EC3.4.21.97 syvkasvspe human betaherpesvirus 5//*//* 0.075 * +EC3.4.21.98 2-naph-3pya-lys-arg-p-nitroanilide west nile virus//*//* 0.96 * +EC3.4.21.98 2-naph-cit-lys-arg-p-nitroanilide west nile virus//*//* 0.32 * +EC3.4.21.98 2-naph-cit-orn-arg-p-nitroanilide west nile virus//*//* 0.57 * +EC3.4.21.98 2-naph-harg-lys-arg-p-nitroanilide west nile virus//*//* 0.11 * +EC3.4.21.98 2-naph-lys-aclys-arg-p-nitroanilide west nile virus//*//* 0.3 * +EC3.4.21.98 2-naph-lys-arg-arg-p-nitroanilide west nile virus//*//* 0.89 * +EC3.4.21.98 2-naph-lys-cit-arg-p-nitroanilide west nile virus//*//* 0.43 * +EC3.4.21.98 2-naph-lys-harg-arg-p-nitroanilide west nile virus//*//* 0.59 * +EC3.4.21.98 2-naph-lys-lys-arg-p-nitroanilide west nile virus//*//* 1.08 * +EC3.4.21.98 2-naph-lys-orn-arg-p-nitroanilide west nile virus//*//* 1.58 * +EC3.4.21.98 2-naph-orn-lys-arg-p-nitroanilide west nile virus//*//* 0.98 * +EC3.4.21.98 2-naph-orn-orn-arg-p-nitroanilide west nile virus//*//* 0.27 * +EC3.4.21.98 7-methoxycoumarin-4-acetyl-demeecashlpyk-(epsilon-nhcoch3) hepatitis c virus//*//* 0.15 * +EC3.4.21.98 7-methoxycoumarin-4-acetyl-edastpcsgsn-(4-nitro)phe hepatitis c virus//*//* 0.227 * +EC3.4.21.98 9-fluorenylmethyloxycarbonyl-yqefdemeecashlpyieqg hepatitis c virus//*//* 0.00833 * +EC3.4.21.98 ac-aib-lys-lys-arg-p-nitroanilide west nile virus//*//* 1.6 * +EC3.4.21.98 ac-aoc-lys-lys-arg-p-nitroanilide west nile virus//*//* 2.51 * +EC3.4.21.98 ac-asp-glu-lys(tamra)-glu-glu-abupsi[coo]-ala-ser-lys(qsy-7)-amide hepatitis c virus//*//* 7.2 * +EC3.4.21.98 ac-cha-lys-lys-arg-p-nitroanilide west nile virus//*//* 2.28 * +EC3.4.21.98 ac-chg-lys-lys-arg-p-nitroanilide west nile virus//*//* 1.78 * +EC3.4.21.98 ac-deemecashlpyk-nh2 hepatitis c virus//*//* 0.03 * +EC3.4.21.98 ac-dpnrkr-4-nitroanilide west nile virus//*//* 1.3 * +EC3.4.21.98 ac-dtedvvp(nva)-o-4-phenylazophenyl ester hepatitis c virus//*//* 0.57 * +EC3.4.21.98 ac-emeecashlp hepatitis c virus//*//* 0.005 * +EC3.4.21.98 ac-fasgkr-4-nitroanilide west nile virus//*//* 1.9 * +EC3.4.21.98 ac-kpglkr-4-nitroanilide west nile virus//*//* 1.5 * +EC3.4.21.98 ac-l-asp-l-glu-l-asp-(edans)-l-glu-l-glu-alpha-aminobutyric acid-psi[coo]-l-ala-l-ser-l-lys-(dabcyl)-nh2 hepatitis c virus//*//* 1.0 * +EC3.4.21.98 ac-leu-3pya-lys-arg-p-nitroanilide west nile virus//*//* 0.5 * +EC3.4.21.98 ac-leu-4pya-lys-arg-p-nitroanilide west nile virus//*//* 0.9 * +EC3.4.21.98 ac-leu-aphe-lys-arg-p-nitroanilide west nile virus//*//* 0.75 * +EC3.4.21.98 ac-leu-cit-lys-arg-p-nitroanilide west nile virus//*//* 1.44 * +EC3.4.21.98 ac-leu-gln-tyr-thr-lys-arg-p-nitroanilide west nile virus//*//* 0.266 * +EC3.4.21.98 ac-leu-harg-lys-arg-p-nitroanilide west nile virus//*//* 118.0 * +EC3.4.21.98 ac-leu-lys-lys-arg-p-nitroanilide west nile virus//*//* 1.64 * +EC3.4.21.98 ac-leu-nphe-lys-arg-p-nitroanilide west nile virus//*//* 0.72 * +EC3.4.21.98 ac-leu-orn-lys-arg-p-nitroanilide west nile virus//*//* 1.79 * +EC3.4.21.98 ac-lqytkr-4-nitroanilide west nile virus//*//* 1.1 * +EC3.4.21.98 ac-nle-lys-lys-arg-p-nitroanilide west nile virus//*//* 2.35 * +EC3.4.21.98 ac-nva-lys-lys-arg-p-nitroanilide west nile virus//*//* 2.36 * +EC3.4.21.98 ac-tbg-lys-lys-arg-p-nitroanilide west nile virus//*//* 1.74 * +EC3.4.21.98 ac-yqefdemeecas hepatitis c virus//*//* 0.005 * +EC3.4.21.98 ac-yqefdemeecash hepatitis c virus//*//* 0.00333 * +EC3.4.21.98 ac-yqefdemeecashl hepatitis c virus//*//* 0.00667 * +EC3.4.21.98 ac-yqefdemeecashlp hepatitis c virus//*//* 0.00667 * +EC3.4.21.98 acetyl-demeecashlpyl-(epsilon-nhcoch3) hepatitis c virus//*//* 0.143 * +EC3.4.21.98 anthraniloyl-ddivp-abu[c(o)-o] amy(3-no2)-tw-oh hepatitis c virus//*//* 1.7 * +EC3.4.21.98 anthranilyl-ddivpabu[c(o)-o]amy(3-no2)tw-oh hepatitis c virus//*//* 2.5 * +EC3.4.21.98 boc-gly-arg-arg-amc yellow fever virus//*//* 0.034 * +EC3.4.21.98 boc-rvrr-7-amido-4-methylcoumarin west nile virus//*//* 0.073 * +EC3.4.21.98 bz-norleucine-lysine-arginine-arginine-amc yellow fever virus//*//* 0.111 * +EC3.4.21.98 demeecsqhlpyi hepatitis c virus//*//* 0.243 * +EC3.4.21.98 dtedvvccsmsytwtgk hepatitis c virus//*//* 0.317 * +EC3.4.21.98 eagddivpcsmsytwtga-oh hepatitis c virus//*//* 0.7 * +EC3.4.21.98 eagdnivpcsmsytwtga-oh hepatitis c virus//*//* 0.8 * +EC3.4.21.98 eagndivpcsmsytwtga-oh hepatitis c virus//*//* 0.7 * +EC3.4.21.98 eagnnivpcsmsytwtga-oh hepatitis c virus//*//* 6.08 * +EC3.4.21.98 edvv-4-aminobutyryl-csmsy hepatitis c virus//*//* 0.6 * +EC3.4.21.98 glu-asp-val-val-4-aminobutyryl-cys-p-nitroanilide hepatitis c virus//*//* 0.2 * +EC3.4.21.98 o-aminobenzoyl (abz)-l-asp-l-asp-l-ile-l-val-l-pro-l-cys-l-ser-l-met-l-ser-l-tyr(3-no2)-l-thr-nh2 hepatitis c virus//*//* 0.0065 * +EC3.4.21.98 pyr-rtkr-7-amido-4-methylcoumarin west nile virus//*//* 43.0 * +EC3.4.21.98 z-rr-7-amido-4-methylcoumarin west nile virus//*//* 0.062 * +EC3.4.21.B10 o-aminobenzoic acid-afrfaq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1 * +EC3.4.21.B10 o-aminobenzoic acid-afrfsq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.6 * +EC3.4.21.B10 o-aminobenzoic acid-afrlaq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC3.4.21.B10 o-aminobenzoic acid-afrvgq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.21.B10 o-aminobenzoic acid-eehafrfsq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1 * +EC3.4.21.B10 o-aminobenzoic acid-ehsafrfaq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.1 * +EC3.4.21.B10 o-aminobenzoic acid-klrsskq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.2 * +EC3.4.21.B10 phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00083 * +EC3.4.21.B10 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.B10 val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.21.B10 waafrfsqa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.21.B10 weafrssdq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.B10 weavrsamw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.B10 wigfrnaga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.B10 wtafrsayg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.4.21.B10 wymtrsamg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.B12 (abz)-skgr-sligk(n-[2,4-dintrophenyl]ethylenediamine)-asp-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.9 * +EC3.4.21.B12 benzyl-fvr-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.B12 vlk-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0078 * +EC3.4.21.B12 vpr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.4.21.B12 z-fvr-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.64 * +EC3.4.21.B12 z-phe-val-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.64 * +EC3.4.21.B2 acetyl-kepl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC3.4.21.B2 acetyl-kepm-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.4.21.B2 acetyl-kvam-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC3.4.21.B2 acetyl-kvpl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.21.B2 acetyl-kvpm-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.74 * +EC3.4.21.B2 acetyl-kyal-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.B2 acetyl-kypl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.4.21.B2 acetyl-kypm-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.115 * +EC3.4.21.B2 acetyl-mepl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.142 * +EC3.4.21.B2 acetyl-rypl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.B2 acetyl-vpl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC3.4.21.B2 n-benzyloxycarbonyl-(n-(beta-t-butylseryl))-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.161 * +EC3.4.21.B2 n-benzyloxycarbonyl-(n-(epsilon-t-butyloxycarbonyllysyl))-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.335 * +EC3.4.21.B2 n-benzyloxycarbonyl-(n-(gamma-t-butylaspartyl))-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.13 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-alanyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.8 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-alanyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-aspartyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.438 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-lysyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.68 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.1 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-seryl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC3.4.21.B2 n-benzyloxycarbonyl-aspartyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.0 * +EC3.4.21.B2 n-benzyloxycarbonyl-lysyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.1 * +EC3.4.21.B2 n-benzyloxycarbonyl-phenylalanyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.B2 n-benzyloxycarbonyl-prolyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.B2 n-benzyloxycarbonyl-seryl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 255.0 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-apgskgda-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-asgpagpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.196 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-dkgesgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-drgetgp-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-drgetgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-dsgetgp-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-dsgetgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-epgppgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.115 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.141 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpag-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.121 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpagg-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpsg-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.268 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-vgpagk-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC3.4.21.B28 acetyl-d-ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.B28 acetyl-gly-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC3.4.21.B28 ala-pro-4-trifluoromethylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.B28 ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.2 * +EC3.4.21.B28 ala-ser-gly-pro-asn-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.21.B28 ala-ser-gly-pro-ser-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC3.4.21.B28 arg-lys(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-gly-pro-asn-gln-glu-gln-glu(5-[(2-aminoethyl)amino]-naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.B28 arg-lys-(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-d-ala-pro-asn-gln-glu-gln-glu(5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.21.B28 arg-lys-(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-d-ser-pro-asn-gln-glu-gln-glu(5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.B28 benzyloxycarbonyl-gly-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 36.4 * +EC3.4.21.B28 d-ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.B28 gly-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.1 * +EC3.4.21.B28 gly-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC3.4.21.B28 ile-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.9 * +EC3.4.21.B28 l-ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC3.4.21.B28 l-arg-lys-(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-gly-pro-asn-gln-gln-gln-glu(5-[(2-aminoethyl)amino]-naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.B28 lys-ala-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.21.B28 meplgrqltsgp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.2 * +EC3.4.21.B28 meplgwqltsgp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.3 * +EC3.4.21.B28 phe-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.B28 thr-ala-gly-pro-asn-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.B28 thr-ser-gly-pro-asn-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.21.B28 thr-ser-gly-pro-asn-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.B28 thr-ser-gly-pro-ser-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.B28 tic-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.19 * +EC3.4.21.B3 alpha-n-acetyl-leu-leu-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC3.4.21.B3 alpha-n-acetyl-leu-lys-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC3.4.21.B3 alpha-n-benzoyl-val-gly-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.0 * +EC3.4.21.B3 alpha-n-benzyloxycarbonyl-ala-ala-ala-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.4 * +EC3.4.21.B3 alpha-n-succinyl-ala-ala-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.8 * +EC3.4.21.B3 alpha-n-succinyl-ala-ala-pro-leu-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC3.4.21.B3 alpha-n-succinyl-ala-ala-pro-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 68.4 * +EC3.4.21.B3 alpha-n-succinyl-gly-gly-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.6 * +EC3.4.21.B3 alpha-n-succinyl-ser-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 156.0 * +EC3.4.21.B3 alpha-n-succinyl-ser-thr-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 438.0 * +EC3.4.21.B3 alpha-n-succinyl-val-pro-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 168.0 * +EC3.4.21.B3 alpha-n-t-butoxycarbonyl-gly-phe-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 24.0 * +EC3.4.21.B3 angiotensinogen-(1-14) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 186.0 * +EC3.4.21.B3 fmrf-nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.2 * +EC3.4.21.B3 leeelkpleevlnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 60.0 * +EC3.4.21.B3 lvtqevspkivggs bos taurus//eukaryotes;animals;vertebrates;mammals//bta 84.0 * +EC3.4.21.B39 abz-klrsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.5 * +EC3.4.21.B39 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC3.4.21.B39 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.13 * +EC3.4.21.B39 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC3.4.21.B39 boc-gln-ala-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.78 * +EC3.4.21.B39 boc-gln-arg-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.4.21.B39 boc-gln-gly-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.4.21.B39 boc-leu-arg-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.4.21.B39 boc-leu-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.B39 boc-leu-lys-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC3.4.21.B39 boc-phe-ser-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.83 * +EC3.4.21.B39 boc-val-leu-lys-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.21.B39 boc-val-pro-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.28 * +EC3.4.21.B39 diglutamyl-gly-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.4.21.B39 diglutamyl-pro-phe-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.4.21.B39 h-pro-phe-ser-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.21.B39 tos-gly-pro-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.21.B39 z-gly-gly-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.B42 gln-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.4.21.B42 gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.21.B42 phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.4.21.B42 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.86 * +EC3.4.21.B42 val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.4.21.B43 d-val-leu-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.42 * +EC3.4.21.B43 tert-butyloxycarbonyl-dpr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.65 * +EC3.4.21.B43 tert-butyloxycarbonyl-fsr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.06 * +EC3.4.21.B43 tert-butyloxycarbonyl-qar-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.26 * +EC3.4.21.B43 tert-butyloxycarbonyl-vpr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.81 * +EC3.4.21.B45 gslr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.8 * +EC3.4.21.B45 vgslr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.03 * +EC3.4.21.B45 wasr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 63.24 * +EC3.4.21.B45 wavr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 97.31 * +EC3.4.21.B45 wvsr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.91 * +EC3.4.21.B45 yaar-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 69.37 * +EC3.4.21.B45 yanr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.04 * +EC3.4.21.B45 yasr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.85 * +EC3.4.21.B45 yavr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 93.33 * +EC3.4.21.B45 yvsr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.57 * +EC3.4.21.B48 ala-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 iqf peptide alicyclobacillus sendaiensis//*//* 395.0 * +EC3.4.21.B48 leu-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.26 * +EC3.4.21.B48 lys-ala-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.5 * +EC3.4.21.B48 lys-arg-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-asp-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-leu-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 20.3 * +EC3.4.21.B48 lys-pro-ala-ala-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 98.3 * +EC3.4.21.B48 lys-pro-ala-arg-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-ala bacillus novosp.//*//* 0.22 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-arg bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-asp bacillus novosp.//*//* 0.19 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.41 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-ser bacillus novosp.//*//* 0.45 * +EC3.4.21.B48 lys-pro-ala-ser-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 19.9 * +EC3.4.21.B48 lys-pro-arg-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 32.3 * +EC3.4.21.B48 lys-pro-arg-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-asn-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 4.62 * +EC3.4.21.B48 lys-pro-asp-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 3.12 * +EC3.4.21.B48 lys-pro-asp-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-gln-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 16.1 * +EC3.4.21.B48 lys-pro-glu-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 13.1 * +EC3.4.21.B48 lys-pro-ile-ala-phe-(4-nitro)phe-arg-leu bacillus novosp.//*//* 6.02 * +EC3.4.21.B48 lys-pro-ile-ala-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 48.5 * +EC3.4.21.B48 lys-pro-ile-asn-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 9.14 * +EC3.4.21.B48 lys-pro-ile-asp-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 81.0 * +EC3.4.21.B48 lys-pro-ile-gln-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 4.79 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-ala-leu bacillus novosp.//*//* 7.7 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-asp bacillus novosp.//*//* 21.7 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-ile bacillus novosp.//*//* 12.5 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 25.4 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-nle bacillus novosp.//*//* 34.2 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-phe bacillus novosp.//*//* 31.9 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-tyr bacillus novosp.//*//* 15.9 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-val bacillus novosp.//*//* 13.1 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-asn-leu bacillus novosp.//*//* 3.48 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-asp-leu bacillus novosp.//*//* 8.78 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-glu-leu bacillus novosp.//*//* 22.7 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-ile-leu bacillus novosp.//*//* 2.94 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-leu-leu bacillus novosp.//*//* 23.9 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-lys-leu bacillus novosp.//*//* 10.9 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-ser-leu bacillus novosp.//*//* 2.6 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-val-leu bacillus novosp.//*//* 5.04 * +EC3.4.21.B48 lys-pro-ile-his-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 3.0 * +EC3.4.21.B48 lys-pro-ile-ile-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.3 * +EC3.4.21.B48 lys-pro-ile-leu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-ile-pro-phe-(4-nitrophenyl)-arg-leu bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 176.0 * +EC3.4.21.B48 lys-pro-ile-pro-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 176.0 * +EC3.4.21.B48 lys-pro-ile-ser-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 52.7 * +EC3.4.21.B48 lys-pro-ile-thr-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 3.48 * +EC3.4.21.B48 lys-pro-ile-val-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-leu-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 4.44 * +EC3.4.21.B48 lys-pro-phe-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 3.76 * +EC3.4.21.B48 lys-pro-ser-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.052 * +EC3.4.21.B48 lys-pro-ser-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 6.08 * +EC3.4.21.B48 lys-pro-thr-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 16.7 * +EC3.4.21.B48 lys-pro-val-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 18.6 * +EC3.4.21.B48 lys-ser-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 2.35 * +EC3.4.21.B48 oxidized insulin b-chain bacillus novosp.//*//* 71.0 * +EC3.4.21.B48 ser-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.27 * +EC3.4.21.B5 succinyl-ala-ala-pro-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.029 * +EC3.4.21.B5 succinyl-ala-ala-pro-ile-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0072 * +EC3.4.21.B5 succinyl-ala-ala-pro-val-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC3.4.21.B52 benzyloxycarbonyl-leu-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.1 * +EC3.4.21.B52 benzyloxycarbonyl-tyr-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 23.0 * +EC3.4.21.B52 suc-ala-ala-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.2 * +EC3.4.21.B52 suc-ala-ala-pro-phe 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.0 * +EC3.4.21.B52 suc-gly-gly-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.3 * +EC3.4.21.B52 suc-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 15.6 * +EC3.4.21.B55 succinyl-ala-ala-pro-lys-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3128.0 * +EC3.4.21.B57 n-succinyl-ala-ala-pro-phe-4-nitroanilide thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 290.0 * +EC3.4.21.B6 acetyl-kdyr-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.53 * +EC3.4.21.B6 acetyl-khyr-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.97 * +EC3.4.21.B6 acetyl-khyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.21.B6 acetyl-prlr-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.B6 d-phe-phe-arg 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.4.21.B6 d-pro-phe-arg 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC3.4.21.B6 d-val-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC3.4.21.B6 z-gly-pro-arg-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.287 * +EC3.4.21.B7 benzoyl-l-arginine p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC3.4.21.B7 complement c2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.9 * +EC3.4.21.B7 complement component c2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.B7 n-carboxybenzyloxyglycine-l-arginine thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.21.B7 nalpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.22.1 abz-givrak(dnp)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.0 * +EC3.4.22.1 arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.22.1 azocasein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1e-09 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.075 * +EC3.4.22.1 benzoyl-dl-arg-p-nitroanilide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 83.0 * +EC3.4.22.1 benzoyl-phe-val-arg-4-methylcoumaryl-7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.12 * +EC3.4.22.1 benzyloxycarbonyl-ala-arg-arg-4-methoxy-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.4.22.1 benzyloxycarbonyl-ala-arg-arg-4-methoxy-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 87.0 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methoxy-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.139 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 52.0 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 8.97 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 158.0 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.45 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 12.2 * +EC3.4.22.1 benzyloxycarbonyl-l-leucyl-l-arginine-4-methylcoumaryl-7-amide naegleria fowleri//*//* 0.512 * +EC3.4.22.1 benzyloxycarbonyl-l-phenylalaninyl-l-arginine 4-methylcoumaryl-7-amide naegleria fowleri//*//* 0.476 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 34.0 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.4 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 364.0 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 7.67 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 49.5 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 63.0 * +EC3.4.22.1 benzyloxycarbonyl-val-lys-lys-arg-4-methoxy-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.325 * +EC3.4.22.1 benzyloxycarbonyl-val-lys-lys-arg-4-methoxy-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 68.0 * +EC3.4.22.1 boc-asp-pro-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.22.1 boc-asp-pro-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.69 * +EC3.4.22.1 boc-val-leu-lys-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.38 * +EC3.4.22.1 boc-val-pro-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.72 * +EC3.4.22.1 collagen oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.000625 * +EC3.4.22.1 d-val-leu-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.14 * +EC3.4.22.1 gelatin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.17e-09 * +EC3.4.22.1 n,n'-diboc-dityrosine-gly-(isoniazid)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.4.22.1 n,n'-diboc-dityrosine-lys-(isoniazid)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.22.1 n-benzyloxycarbonyl-arg-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.09 * +EC3.4.22.1 n-benzyloxycarbonyl-arg-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.13 * +EC3.4.22.1 n-benzyloxycarbonyl-phe-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.71 * +EC3.4.22.1 n-benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.19 * +EC3.4.22.1 n-benzyloxycarbonyl-val-ile-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.51 * +EC3.4.22.1 nalpha-benzoyl-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.0 * +EC3.4.22.1 nalpha-benzoyl-arg-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 34.0 * +EC3.4.22.1 nalpha-benzoyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 115.0 * +EC3.4.22.1 nalpha-benzoyl-phe-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 86.0 * +EC3.4.22.1 nalpha-carbobenzoxy-l-arg-l-arg-7-amido-4-trifluoromethylcoumarin meretrix meretrix//*//* 277.6 * +EC3.4.22.1 tos-gly-pro-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.26 * +EC3.4.22.1 tos-gly-pro-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.13 * +EC3.4.22.10 acetyl-ala-ile-arg-7-amino-4-methylcoumarin streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.69 * +EC3.4.22.10 benzyloxycarbonyl-glu-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 2.3 * +EC3.4.22.10 benzyloxycarbonyl-lys-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 142.0 * +EC3.4.22.10 benzyloxycarbonyl-lys-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 1.09 * +EC3.4.22.10 benzyloxycarbonyl-val-arg-4-methylcoumarinyl-7-amide hydrochloride streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.042 * +EC3.4.22.10 cinnamoyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 1.52 * +EC3.4.22.10 n-benzoyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.21 * +EC3.4.22.10 n-benzyloxycarbonyl-ala-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 118.0 * +EC3.4.22.10 n-benzyloxycarbonyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 9.4 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-lys-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 190.0 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-lys-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 5.05 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-lys-phenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 174.0 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-nepsilon-t-butyloxycarbonyl-lys-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 8.6 * +EC3.4.22.10 p-nitrobenzyloxycarbonyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 1.15 * +EC3.4.22.10 t-butyloxycarbonyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.147 * +EC3.4.22.10 tert-butyloxycarbonyl-ala-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 4.31 * +EC3.4.22.14 acetyl-lys methyl ester actinidia chinensis//*//* 0.7 * +EC3.4.22.14 benzoyl-arg ethyl ester actinidia chinensis//*//* 4.5 * +EC3.4.22.14 benzoyl-arg p-nitroanilide actinidia chinensis//*//* 0.029 * +EC3.4.22.14 benzoyl-gly p-nitrophenyl ester actinidia chinensis//*//* 5.8 * +EC3.4.22.14 benzoyl-l-arg ethyl ester actinidia chinensis//*//* 2.6 * +EC3.4.22.14 benzyloxycarbonyl p-nitrophenyl ester actinidia chinensis//*//* 3.4 * +EC3.4.22.14 benzyloxycarbonyl-lys methyl ester actinidia chinensis//*//* 6.0 * +EC3.4.22.14 benzyloxycarbonyl-lys p-nitrophenyl ester actinidia chinensis//*//* 29.0 * +EC3.4.22.14 casein actinidia deliciosa//*//* 29.2 * +EC3.4.22.14 n-alpha-benzyloxycarbonyl-l-lysine 4-nitrophenyl ester actinidia deliciosa//*//* 42.8 * +EC3.4.22.14 nalpha-benzyloxycarbonyl-l-lys p-nitrophenyl ester actinidia chinensis//*//* 33.0 * +EC3.4.22.15 2-aminobenzoyl-ala-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.22.15 2-aminobenzoyl-arg-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.4.22.15 2-aminobenzoyl-asn-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.22.15 2-aminobenzoyl-gln-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.4.22.15 2-aminobenzoyl-glu-glu-epsilon-amino-caproic acid-glu-leu-lys-leu-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-glu-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.22.15 2-aminobenzoyl-glu-leu-lys-leu-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.15 2-aminobenzoyl-gly-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.22.15 2-aminobenzoyl-his-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.22.15 2-aminobenzoyl-ile-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.22.15 2-aminobenzoyl-lys-arg-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.22.15 2-aminobenzoyl-lys-asn-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-asp-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-gln-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.22.15 2-aminobenzoyl-lys-glu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-gly-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.22.15 2-aminobenzoyl-lys-his-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.15 2-aminobenzoyl-lys-ile-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-ala-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-arg-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-asn-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-gln-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-glu-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.9 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-gly-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-his-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.3 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ile-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-ala-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-arg-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-asn-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-gln-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-glu-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-gly-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-his-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-ile-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-pro-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-val-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-val-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-asn-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-asp-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-gln-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-glu-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-gly-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-his-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-ile-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-lys-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-met-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-pro-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-ser-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-thr-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-val-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.22.15 2-aminobenzoyl-lys-lys-epsilon-amino-caproic acid-glu-leu-lys-leu-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.22.15 2-aminobenzoyl-lys-met-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.22.15 2-aminobenzoyl-lys-phe-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.5 * +EC3.4.22.15 2-aminobenzoyl-lys-pro-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.15 2-aminobenzoyl-lys-ser-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.22.15 2-aminobenzoyl-lys-thr-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.15 2-aminobenzoyl-lys-trp-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.22.15 2-aminobenzoyl-lys-tyr-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.8 * +EC3.4.22.15 2-aminobenzoyl-lys-val-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC3.4.22.15 2-aminobenzoyl-val-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.22.15 abz-3-biphenyl-l-ala-arg-ala-ala-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.4 * +EC3.4.22.15 abz-3-biphenyl-l-ala-arg-ala-gln-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.0 * +EC3.4.22.15 abz-3-biphenyl-l-ala-arg-ala-ser-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.01 * +EC3.4.22.15 abz-pr-acetyl-k-qlatkaarksak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.4.22.15 abz-prkqlat-acetyl-k-aarksak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.22.15 abz-prkqlatkaar-dimethyl-k-sak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.22.15 abz-prkqlatkaarksak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC3.4.22.15 benzyloxycarbonyl-gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.22.15 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 1.62 * +EC3.4.22.15 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.6 * +EC3.4.22.15 benzyloxycarbonyl-lys-p-nitrophenyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.8 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 9.5 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 30.0 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide oncorhynchus keta//*//* 15.8 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.0 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 30.0 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.0 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin agama stellio stellio//*//* 6.2 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 1.7 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 46.0 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin hypophthalmichthys molitrix//*//* 2.0 * +EC3.4.22.15 benzyloxycarbonyl-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 2.64 * +EC3.4.22.15 l-phe-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.01 * +EC3.4.22.15 l-val-l-leu-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.07 * +EC3.4.22.15 leu-trp-met-arg-phe-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.6 * +EC3.4.22.15 leucine enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.9 * +EC3.4.22.15 methionine enkephalin-arg-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 43.2 * +EC3.4.22.15 n-carbobenzoxy-l-phenylalanine-l-arginine 7-amido-4-methylcoumarin apostichopus japonicus//*//* 12.8 * +EC3.4.22.15 pro-phe-arg-4-methylcoumarin 7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 1.52 * +EC3.4.22.15 tert-butyloxycarbonyl-ala-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 2.48 * +EC3.4.22.15 tert-butyloxycarbonyl-val-leu-lys-4-methylcoumarin 7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 1.67 * +EC3.4.22.15 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 1.17 * +EC3.4.22.16 ala-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 1.87 * +EC3.4.22.16 arg-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 115.0 * +EC3.4.22.16 arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.82 * +EC3.4.22.16 arg-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 2.2 * +EC3.4.22.16 arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.53 * +EC3.4.22.16 arg-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.13 * +EC3.4.22.16 benzoyl-arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.82 * +EC3.4.22.16 benzoyl-arg-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC3.4.22.16 benzyloxycarbonyl-pro-ala-ala-ala-pro-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC3.4.22.16 benzyloxycarbonyl-pro-ala-ala-ala-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC3.4.22.16 citrulline-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.4.22.16 leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 122.0 * +EC3.4.22.16 leu-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 1.1 * +EC3.4.22.16 lys-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 4.13 * +EC3.4.22.16 met-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 219.0 * +EC3.4.22.16 succinyl-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC3.4.22.16 succinyl-ala-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.22.16 succinyl-ala-ala-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC3.4.22.16 succinyl-ala-ala-ala-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.4.22.16 succinyl-ala-ala-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC3.4.22.16 succinyl-pro-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.22.2 4(4'-dimethylaminophenylazo)benzoyl-lys-phe-gly-gly-ala-ala-(5-[(2-aminoethyl)amino]naphthalene) carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 6.86 * +EC3.4.22.2 benzoyl-thiocarbamic acid ethyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 3.4 * +EC3.4.22.2 benzoyl-thiocarbamic acid methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.064 * +EC3.4.22.2 benzoyl-thiocarbamic acid carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 3340.0 * +EC3.4.22.2 benzyl-phe-val-arg-4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 309.0 * +EC3.4.22.2 benzyloxycarbonyl-arg-arg 4-methylcoumarin-7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 1.18 * +EC3.4.22.2 benzyloxycarbonyl-l-phe-l-arg 4-methylcoumarin-7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 52.0 * +EC3.4.22.2 benzyloxycarbonyl-phe-arg 4-methylcoumarin-7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 41.6 * +EC3.4.22.2 casein carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 1.79 * +EC3.4.22.2 methyl red-abu-ala-pro-val-lys-lys(n5-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 1773.0 * +EC3.4.22.2 methyl red-abu-ser-ala-pro-val-lys-ala-lys(n6-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 1503.0 * +EC3.4.22.2 n-alpha-benzyloxycarbonyl-l-lysine 4-nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 35.6 * +EC3.4.22.2 n-benzoyl-gly methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 3.48 * +EC3.4.22.2 nalpha-benzoyl-l-arg ethyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 28.5 * +EC3.4.22.2 ubiquitin-7-amido-4-trifluoromethylcoumarin alphacoronavirus//*//* 0.96 * +EC3.4.22.25 tert-butyloxycarbonyl-ala-ala-ala 4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.08 * +EC3.4.22.25 tert-butyloxycarbonyl-ala-ala-gly 4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 5.0 * +EC3.4.22.25 tert-butyloxycarbonyl-ala-ala-gly 4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 22.0 * +EC3.4.22.26 d-ala-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0132 * +EC3.4.22.26 d-ile-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0082 * +EC3.4.22.26 glu-glu-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0119 * +EC3.4.22.26 n-p-tosyl-gly-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC3.4.22.26 n-p-tosyl-gly-pro-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0129 * +EC3.4.22.27 (4-methyl-7-[[(2s)-2-(4-[(1s)-1-(4-methylcyclohexyl)-1-[(thiophen-3-ylcarbonyl)amino]ethyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1,2-dimethyl-1-[(phenylcarbonyl)amino]propyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1,2-dimethyl-1-[(thiophen-3-ylcarbonyl)amino]propyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1-cyclohexyl-1-[(phenylcarbonyl)amino]ethyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1-cyclohexyl-1-[(thiophen-3-ylcarbonyl)amino]ethyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.22.27 (7-methoxycoumarin-4-yl)-acetyl-grwppmglpwek(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.666 * +EC3.4.22.27 azocasein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.1e-08 * +EC3.4.22.27 benzoyl-phe-val-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.0 * +EC3.4.22.27 benzoyl-phe-val-arg-7-amido-4-methylcoumarin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC3.4.22.27 benzyloxycarbonyl-leu-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.22.27 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC3.4.22.27 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.22.27 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0283 * +EC3.4.22.27 benzyloxycarbonyl-phe-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 40.5 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin canis lupus familiaris//*//* 12.4 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.3 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin saimiri boliviensis//eukaryotes;animals;vertebrates;mammals//sbq 33.1 * +EC3.4.22.27 butyloxycarbonyl-phe-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.22.27 butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 65.0 * +EC3.4.22.27 collagen oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.48e-07 * +EC3.4.22.27 gelatin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.83e-10 * +EC3.4.22.27 grwhkfsvrwe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.22.27 grwhkisvrwe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.22.27 grwhklsvrwe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 44.0 * +EC3.4.22.27 o-aminobenzoic acid-leu-glu-gln-(n-[2,4-dinitrophenyl]ethylenediamine) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.22.27 tert-butyloxycarbonyl-phe-leu-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.1 * +EC3.4.22.27 tert-butyloxycarbonyl-phe-phe-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.6 * +EC3.4.22.28 (2-(n-methylamino)benzoyl)-iealfqgppk-(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.0085 * +EC3.4.22.28 (e)-5-chloropyridin-3-yl 3-(furan-2-yl)acrylate hepatovirus a//*//* 0.00025 * +EC3.4.22.28 2-(n-methylamino)benzoyl-deameqgvsdyik-2,4-dinitrophenyl enterovirus a71//*//* 0.0005 * +EC3.4.22.28 2-(n-methylamino)benzoyl-iaalfqgppk(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.0027 * +EC3.4.22.28 2-(n-methylamino)benzoyl-ieaafqgppk(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.005 * +EC3.4.22.28 2-(n-methylamino)benzoyl-iellfqgppk(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.004 * +EC3.4.22.28 2-(n-methylamino)benzoyl-rqavtqgfptelk-2,4-dinitrophenyl enterovirus a71//*//* 0.003 * +EC3.4.22.28 2-(n-methylamino)benzoyl-rtatvqgpsldfk-2,4-dinitrophenyl enterovirus a71//*//* 0.0035 * +EC3.4.22.28 2-(n-methylamino)benzoyl-tsavlqsgfrk-(2,4-dinitrophenyl)-met enterovirus a71//*//* 0.0003 * +EC3.4.22.28 2-aminobenzoyl-aalfqgplq-eddnp enterovirus c//*//* 0.96 * +EC3.4.22.28 2-aminobenzoyl-eaafqgplq-eddnp enterovirus c//*//* 3.34 * +EC3.4.22.28 2-aminobenzoyl-ealaqgplq-eddnp enterovirus c//*//* 0.66 * +EC3.4.22.28 2-aminobenzoyl-ealfqaplq-eddnp enterovirus c//*//* 0.34 * +EC3.4.22.28 2-aminobenzoyl-ealfqgalq-eddnp enterovirus c//*//* 0.28 * +EC3.4.22.28 2-aminobenzoyl-ealfqgpaq-eddnp enterovirus c//*//* 2.72 * +EC3.4.22.28 2-aminobenzoyl-ealfqgplq-eddnp enterovirus c//*//* 2.02 * +EC3.4.22.28 4-(4-dimethylaminophenylazo)benzoic acid-ktsavlqsgfrkme-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid enterovirus//*//* 27.0 * +EC3.4.22.28 5-bromopyridin-3-yl furan-3-carboxylate hepatovirus a//*//* 0.00119 * +EC3.4.22.28 5-chloropyridin-3-yl furan-2-carboxylate hepatovirus a//*//* 0.0011 * +EC3.4.22.28 ac-defqlq-4-nitroanilide southampton virus//*//* 0.33 * +EC3.4.22.28 ac-efqlq-4-nitroanilide southampton virus//*//* 0.14 * +EC3.4.22.28 ac-fqlq-4-nitroanilide southampton virus//*//* 0.08 * +EC3.4.22.28 dabcyl-iealfqgppkfre-edans enterovirus a71//*//* 0.0028 * +EC3.4.22.28 dabcyl-rtatvqgpsldfke-edans enterovirus a71//*//* 0.002 * +EC3.4.22.28 n-acetyl-defqlq-4-nitroanilide norwalk virus//*//* 0.08 * +EC3.4.22.28 slevlfqgpvrr human rhinovirus sp.//*//* 2.38 * +EC3.4.22.28 tenlyfqsgtrr tobacco etch virus//*//* 0.22 * +EC3.4.22.29 trpiitta-p-nitroanilide human rhinovirus sp.//*//* 0.00158 * +EC3.4.22.3 benzoyl-dl-arg-p-nitroanilide ficus sp.//*//* 0.0096 * +EC3.4.22.3 benzoyl-gly-p-nitrophenyl ester ficus sp.//*//* 3.41 * +EC3.4.22.3 n-benzyloxycarbonyl-d-ala p-nitrophenyl ester ficus sp.//*//* 0.45 * +EC3.4.22.3 n-benzyloxycarbonyl-d-leu p-nitrophenyl ester ficus sp.//*//* 1.85 * +EC3.4.22.3 n-benzyloxycarbonyl-d-phe p-nitrophenyl ester ficus sp.//*//* 1.2 * +EC3.4.22.3 n-benzyloxycarbonyl-d-tyr p-nitrophenyl ester ficus sp.//*//* 0.92 * +EC3.4.22.3 nalpha-benzoyl-l-arg ethyl ester ficus sp.//*//* 1.29 * +EC3.4.22.3 nalpha-carbobenzoxy-ala p-nitrophenyl ester ficus sp.//*//* 31.0 * +EC3.4.22.3 nalpha-carbobenzoxy-gly p-nitrophenyl ester ficus sp.//*//* 12.4 * +EC3.4.22.3 nalpha-carbobenzoxy-glycylglycine p-nitrophenyl ester ficus sp.//*//* 7.45 * +EC3.4.22.3 nalpha-carbobenzoxy-leu p-nitrophenyl ester ficus sp.//*//* 4.5 * +EC3.4.22.3 nalpha-carbobenzoxy-lys p-nitrophenyl ester ficus sp.//*//* 55.0 * +EC3.4.22.3 nalpha-carbobenzoxy-phe p-nitrophenyl ester ficus sp.//*//* 2.83 * +EC3.4.22.3 nalpha-carbobenzoxy-tyr p-nitrophenyl ester ficus sp.//*//* 2.27 * +EC3.4.22.3 nalpha-carbobenzoxy-val p-nitrophenyl ester ficus sp.//*//* 1.02 * +EC3.4.22.3 p-nitrophenyl-n-trans-acetyl-glycinate ficus sp.//*//* 2.84 * +EC3.4.22.3 p-nitrophenyl-n-trans-benzoyl-glycinate ficus sp.//*//* 53.6 * +EC3.4.22.3 p-nitrophenyl-n-trans-benzyloxycarbonyl-glycinate ficus sp.//*//* 95.7 * +EC3.4.22.3 p-nitrophenyl-n-trans-cinnamoyl-glycinate ficus sp.//*//* 123.0 * +EC3.4.22.3 p-nitrophenyl-n-trans-formyl-glycinate ficus sp.//*//* 2.5 * +EC3.4.22.30 benzoyl-dl-arg 4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.15 * +EC3.4.22.30 benzyloxycarbonyl-lys nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 49.0 * +EC3.4.22.30 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 7.1 * +EC3.4.22.30 n-benzyloxycarbonyl-gly 4-nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 16.7 * +EC3.4.22.30 succinyl-albumin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 2.6 * +EC3.4.22.31 benzoyl-phe-val-arg 4-methylcoumarin 7-amide ananas comosus//*//* 63.8 * +EC3.4.22.31 benzoyl-phe-val-arg 4-nitroanilide ananas comosus//*//* 10.9 * +EC3.4.22.31 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.321 * +EC3.4.22.31 benzyloxycarbonyl-arg-arg 4-nitroanilide ananas comosus//*//* 0.13 * +EC3.4.22.31 benzyloxycarbonyl-gly-phe-citrulline 4-methylcoumarin 7-amide ananas comosus//*//* 3.54 * +EC3.4.22.31 benzyloxycarbonyl-phe-citrulline 4-methylcoumarin 7-amide ananas comosus//*//* 21.0 * +EC3.4.22.31 benzyloxycarbonyl-phe-val-arg 4-methylcoumarin 7-amide ananas comosus//*//* 7.0 * +EC3.4.22.32 acetyl-gly ethyl ester ananas comosus//*//* 0.55 * +EC3.4.22.32 benzoyl-gly ethyl ester ananas comosus//*//* 0.36 * +EC3.4.22.32 benzoyl-l-arg amide ananas comosus//*//* 0.027 * +EC3.4.22.32 benzoyl-l-arg ethyl ester ananas comosus//*//* 0.5 * +EC3.4.22.32 benzoyl-l-arg methyl ester ananas comosus//*//* 0.11 * +EC3.4.22.32 benzoyl-phe-val-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.893 * +EC3.4.22.32 benzyl-phe-val-arg-4-nitroanilide ananas comosus//*//* 20.0 * +EC3.4.22.32 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide ananas comosus//*//* 27.0 * +EC3.4.22.32 benzyloxycarbonyl-arg-arg-nh-4-methylcoumarin 7-amide ananas comosus//*//* 0.04 * +EC3.4.22.32 benzyloxycarbonyl-gly 4-nitrophenyl ester ananas comosus//*//* 3.35 * +EC3.4.22.32 benzyloxycarbonyl-gly-phe-citrulline 4-methylcoumarin 7-amide ananas comosus//*//* 0.12 * +EC3.4.22.32 benzyloxycarbonyl-l-ala 4-nitrophenyl ester ananas comosus//*//* 8.3 * +EC3.4.22.32 benzyloxycarbonyl-l-asn 4-nitrophenyl ester ananas comosus//*//* 1.4 * +EC3.4.22.32 benzyloxycarbonyl-l-lys 4-nitrophenyl ester ananas comosus//*//* 9.8 * +EC3.4.22.32 benzyloxycarbonyl-l-tyr 4-nitrophenyl ester ananas comosus//*//* 0.44 * +EC3.4.22.32 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.13 * +EC3.4.22.32 benzyloxycarbonyl-phe-arg-nh-4-methylcoumarin 7-amide ananas comosus//*//* 6.08 * +EC3.4.22.32 benzyloxycarbonyl-phe-val-arg-nh-4-methylcoumarin 7-amide ananas comosus//*//* 6.4 * +EC3.4.22.32 bz-phe-val-arg-4-nitroanilide ananas comosus//*//* 21.45 * +EC3.4.22.32 casein ananas comosus//*//* 18.08 * +EC3.4.22.32 l-pyroglutamyl-l-phe-l-leu 4-nitroanilide ananas comosus//*//* 3.94 * +EC3.4.22.32 n-benzyloxycarbonyl-l-phe-l-ser methyl ester ananas comosus//*//* 3.4 * +EC3.4.22.32 tosyl-l-lys methyl ester ananas comosus//*//* 0.035 * +EC3.4.22.33 nalpha-benzoyl-arg amide ananas comosus//*//* 0.033 * +EC3.4.22.34 benzyloxycarbonyl-ala-ala-asn-4-methylcoumarin-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.9 * +EC3.4.22.34 benzyloxycarbonyl-ala-ala-asn-4-methylcoumarin-7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 46.0 * +EC3.4.22.34 benzyloxycarbonyl-ile-ser-asn-4-methylcoumarin-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.22.35 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 130.0 * +EC3.4.22.35 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.4 * +EC3.4.22.36 4-[[4'-(dimethylamino)phenyl]azo]-benzoic acid-yvadapv-5-[(2'-aminoethyl)-amino]naphthalenesulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.4.22.36 acetyl-wehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.4.22.36 acetyl-yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.22.36 pro-interleukin-1beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.36 succinyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.22.36 succinyl-yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.22.37 prothrombin porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.32 * +EC3.4.22.38 2,2'-n,n'-bis(benzyloxycarbonyl)-l-leucinylcarbohydrazide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC3.4.22.38 acetyl-phe-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.22.38 benzoyl-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.092 * +EC3.4.22.38 benzoyl-phe-val-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.4.22.38 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.22.38 benzyloxycarbonyl-glu-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC3.4.22.38 benzyloxycarbonyl-leu-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.4.22.38 benzyloxycarbonyl-leu-leu-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC3.4.22.38 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.22.38 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 91.0 * +EC3.4.22.38 benzyloxycarbonyl-val-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.22.38 benzyloxycarbonyl-val-val-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.4.22.38 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.22.38 carbobenzoxy-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.4.22.38 carbobenzyloxy-leu-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.1 * +EC3.4.22.38 carbobenzyloxy-leu-arg-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 95.7 * +EC3.4.22.38 n-[(1s)-2,2,2-trifluoro-1-[4'-(methylsulfonyl)biphenyl-4-yl]ethyl]-l-leucyl-l-alaninamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.2 * +EC3.4.22.38 n-[(1s)-2,2,2-trifluoro-1-[4'-(methylsulfonyl)biphenyl-4-yl]ethyl]-l-leucyl-l-methioninamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.25 * +EC3.4.22.38 n-[(1s)-2,2,2-trifluoro-1-[4'-(methylsulfonyl)biphenyl-4-yl]ethyl]-l-leucylglycinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.2 * +EC3.4.22.38 pro-phe-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.4.22.38 succinyl-leu-tyr 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.22.38 tert-butyloxycarbonyl-val-leu-lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.4.22.38 tert-butyloxycarbonyl-val-pro-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC3.4.22.38 tosyl-gly-pro-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.4.22.38 z-gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.22.38 z-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 79.0 * +EC3.4.22.39 (leu-arg-gly-gly-nh)2-rhodamine human adenovirus//*//* 3.0 * +EC3.4.22.41 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.22.41 n-benzyloxycarbonyl-l-arg-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.41 n-benzyloxycarbonyl-l-leu-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.41 n-benzyloxycarbonyl-l-phe-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.22.41 n-benzyloxycarbonyl-l-val-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.43 2-aminobenzoyl-alrsskq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.22.43 2-aminobenzoyl-ee-epsilon-amino-caproic acid-elklq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.43 2-aminobenzoyl-elklq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.22.43 2-aminobenzoyl-kk-epsilon-amino-caproic acid-elklq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.22.43 2-aminobenzoyl-klrsikq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.22.43 2-aminobenzoyl-klrsskq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.43 2-aminobenzoyl-klrvskq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.22.43 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 156.0 * +EC3.4.22.43 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.22.43 z-phe-arg-4-methyl-7-coumaryl amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.22.44 acetyl-arg-glu-thr-val-arg-phe-gln-ser-asp-amide tobacco vein mottling virus//*//* 0.079 * +EC3.4.22.44 acetyl-asn-asn-val-arg-phe-gln-ser-leu-amide tobacco vein mottling virus//*//* 0.071 * +EC3.4.22.44 acetyl-glu-pro-thr-val-tyr-his-gln-thr-leu-amide turnip mosaic potyvirus//*//* 1.01 * +EC3.4.22.44 pro-thr-thr-glu-leu-tyr-phe-gln-ser-gly-thr-val-asp-arg-arg tobacco etch virus//*//* 0.18 * +EC3.4.22.44 tetvrfqsgtrr tobacco vein mottling virus//*//* 0.092 * +EC3.4.22.44 wdggevahqagesv chilli veinal mottle virus//*//* 0.23 * +EC3.4.22.47 hemoglobin porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 9.4 * +EC3.4.22.48 2-aminobenzoyl-ile-ala-ala-gly-5-amino-2-nitrobenzoylamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.886 * +EC3.4.22.48 2-aminobenzoyl-ile-ala-lys-asp-5-amino-2-nitrobenzoylamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.089 * +EC3.4.22.48 2-aminobenzoyl-phe-gly-ala-lys-5-amino-2-nitrobenzoylamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.716 * +EC3.4.22.48 n-benzyloxycarbonyl-phe-leu-glu-nh-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.16 * +EC3.4.22.48 n-suc-gly-phe-gly-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.2 * +EC3.4.22.50 z-arg-arg-7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.73 * +EC3.4.22.50 z-leu-arg 7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.73 * +EC3.4.22.50 z-phe-arg 7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.95 * +EC3.4.22.50 z-val-arg-7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.94 * +EC3.4.22.50 z-val-val-arg 7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.51 * +EC3.4.22.51 2-aminobenzoic acid-klrfskq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.08 * +EC3.4.22.51 2-aminobenzoyl-arf-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.1 * +EC3.4.22.51 2-aminobenzoyl-fra-(2,4-dinitrophenyl)-epsilon-nh2-lysine-nh2 trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 4.2 * +EC3.4.22.51 2-aminobenzoyl-fra-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5.5 * +EC3.4.22.51 2-aminobenzoyl-frf-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.9 * +EC3.4.22.51 2-aminobenzoyl-lgmislmkrpq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0583 * +EC3.4.22.51 2-aminobenzoyl-phe-arg-(2,4-dinitrophenyl)-epsilon-nh2-lysine-pro-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.4 * +EC3.4.22.51 2-aminobenzoyl-phe-arg-(2,4-dinitrophenyl)-epsilon-nh2-lysine-trp-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.4 * +EC3.4.22.51 2-aminobenzoyl-rrf-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.13 * +EC3.4.22.51 benzoyl-fr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.193 * +EC3.4.22.51 benzoyl-hr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.172 * +EC3.4.22.51 benzoyl-rr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0783 * +EC3.4.22.51 benzyloxycarbonyl-fr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.158 * +EC3.4.22.51 benzyloxycarbonyl-phe-arg-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 4.49 * +EC3.4.22.51 epsilon-nh2(capryl)-l-(sbzl)c-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 10.8 * +EC3.4.22.51 n-alpha-benzyloxy-carbonyl-l-phenylalanyl-l-alanine-(7-amido-4-methylcoumarin) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.14 * +EC3.4.22.51 n-alpha-benzyloxycarbonyl-l-arginyl-l-alanine-(7-amido-4-methylcoumarin) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.15 * +EC3.4.22.51 n-alpha-benzyloxycarbonyl-l-tyrosyl-l-alanine-(7-amido-4-methylcoumarin) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.13 * +EC3.4.22.51 n-carbobenzoxy-arg-arg-2-(4-methoxy)-naphthylamide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0805 * +EC3.4.22.51 o-aminobenzoyl-alrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 4.5 * +EC3.4.22.51 o-aminobenzoyl-hlrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5.6 * +EC3.4.22.51 o-aminobenzoyl-karfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.3 * +EC3.4.22.51 o-aminobenzoyl-kfrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.9 * +EC3.4.22.51 o-aminobenzoyl-klffskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.5 * +EC3.4.22.51 o-aminobenzoyl-klgfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5.6 * +EC3.4.22.51 o-aminobenzoyl-klkfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 14.2 * +EC3.4.22.51 o-aminobenzoyl-klrfakq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 15.2 * +EC3.4.22.51 o-aminobenzoyl-klrffkq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 9.7 * +EC3.4.22.51 o-aminobenzoyl-klrfpkq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.8 * +EC3.4.22.51 o-aminobenzoyl-klrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 6.9 * +EC3.4.22.51 o-aminobenzoyl-klrfspq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 13.9 * +EC3.4.22.51 o-aminobenzoyl-klrfsrq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 12.5 * +EC3.4.22.51 o-aminobenzoyl-klrlskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 9.1 * +EC3.4.22.51 o-aminobenzoyl-klrrskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.9 * +EC3.4.22.51 o-aminobenzoyl-kprfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.5 * +EC3.4.22.51 o-aminobenzoyl-krrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 7.7 * +EC3.4.22.51 o-aminobenzoyl-llrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 6.7 * +EC3.4.22.52 2-aminobenzoyl-evygmmy(3-no2)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.22.52 k-(5(6)-carboxyfluorescein)-evygmmk(4-(4-dimethylaminophenylazo)benzoyl)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.22.52 n-benzyloxycarbonyl-l-leu-l-arg-4-methoxy-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.4.22.52 n-benzyloxycarbonyl-l-leu-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.22.52 n-benzyloxycarbonyl-l-leu-l-arg-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.22.52 succinyl-l-leu-l-leu-l-val-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.4.22.52 succinyl-l-leu-l-leu-l-val-l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC3.4.22.52 succinyl-l-leu-l-met-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.4.22.52 succinyl-l-leu-l-tyr-4-methoxy-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.4.22.52 succinyl-l-leu-l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.22.52 tert-butyloxycarbonyl-l-val-l-leu-l-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.4.22.53 boc-val-leu-lys-methylcoumarin struthio camelus//*//* 0.341 * +EC3.4.22.53 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.063 * +EC3.4.22.53 succinyl-leu-leu-val-tyr-methylcoumarin struthio camelus//*//* 0.0394 * +EC3.4.22.53 succinyl-leu-met-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.189 * +EC3.4.22.53 succinyl-leu-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.084 * +EC3.4.22.53 succinyl-leu-tyr-methylcoumarin struthio camelus//*//* 0.04 * +EC3.4.22.53 t-boc-leu-met-methylcoumarin struthio camelus//*//* 0.546 * +EC3.4.22.53 t-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.08 * +EC3.4.22.55 ac-vdvad-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.22.56 acetyl-devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.4.22.56 acetyl-l-asp-l-glu-l-val-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.4.22.56 acetyl-l-asp-l-glu-l-val-l-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.01 * +EC3.4.22.56 acetyl-l-asp-l-met-l-gln-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.22.56 acetyl-l-asp-l-val-l-ala-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.22.56 acetyl-l-leu-l-asp-l-val-l-ala-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC3.4.22.56 acetyl-l-val-l-asp-l-val-l-ala-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.22.56 benzoyl-l-asp-l-glu-l-val-l-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.08 * +EC3.4.22.57 acetyl-wehd 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.57 acetyl-yvad-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.22.57 succinyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.22.57 succinyl-yvad-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.58 acetyl-wehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.22.59 n-acetyl-asp-glu-val-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC3.4.22.59 n-acetyl-asp-glu-val-asp-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.22.59 n-acetyl-ile-val-leu-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.22.59 n-acetyl-thr-glu-val-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.22.59 n-acetyl-val-glu-his-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 43.0 * +EC3.4.22.59 n-acetyl-val-glu-ile-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.22.59 n-acetyl-veid-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.22.6 benzoyl-arg-4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.05 * +EC3.4.22.6 benzyloxycarbonyl-lys phenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 15.5 * +EC3.4.22.6 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 2.9 * +EC3.4.22.6 methyl red-abu-ala-pro-val-lys-lys(n5-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 590.0 * +EC3.4.22.6 methyl red-abu-ser-ala-pro-val-lys-ala-lys(n6-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 360.0 * +EC3.4.22.6 succinyl-albumin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 4.0 * +EC3.4.22.60 ac-dvad-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.22.60 ac-ldvad-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.22.60 ac-vdvad-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC3.4.22.60 acetyl-devd-7-amido-4-fluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.9 * +EC3.4.22.60 acetyl-devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3 * +EC3.4.22.60 acetyl-devd-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.3 * +EC3.4.22.60 n-acetyl-asp-glu-val-asp-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.22.60 n-acetyl-devd-7-amido-4-fluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.4.22.61 ac-ietd-fluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC3.4.22.61 acetyl-devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.22.62 acetyl-vehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.65 2-aminobenzoic acid-val-ala-nle-ser-(3-nitro)-tyrosinyl-aspartamide dermatophagoides pteronyssinus//*//* 0.2 * +EC3.4.22.69 (ala-arg-leu-gln-nh)2-rhodamine sars coronavirus//*//* 0.0153 * +EC3.4.22.69 [4-(4-dimethylaminophenylazo)benzoic acid]-knstlqsglrke-[5-[2'-(aminoethyl)amino]-naphthalenesulfonic acid] sars coronavirus//*//* 0.16 * +EC3.4.22.69 [4-(4-dimethylaminophenylazo)benzoic acid]-ktsavlqsgfrkme-5-[2'-(aminoethyl)amino]-naphthalenesulfonic acid sars coronavirus//*//* 1.5 * +EC3.4.22.69 abz-lqsgfrk(dnp)nh2 sars coronavirus//*//* 0.02 * +EC3.4.22.69 abz-lyqppqtsitsavlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.28 * +EC3.4.22.69 abz-qtsitsavlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.6 * +EC3.4.22.69 abz-savlqsgfrk(dnp)nh2 sars coronavirus//*//* 3.3 * +EC3.4.22.69 abz-savlqsgfrkmafpsgk(dnp)nh2 sars coronavirus//*//* 2.9 * +EC3.4.22.69 abz-savlqsgfrkmak(dnp)nh2 sars coronavirus//*//* 3.0 * +EC3.4.22.69 abz-savlqsgk(dnp)nh2 sars coronavirus//*//* 0.11 * +EC3.4.22.69 abz-sgadvlyqppqtsitsavlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.38 * +EC3.4.22.69 abz-vlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.77 * +EC3.4.22.69 atvrlqagnat sars coronavirus//*//* 3.29 * +EC3.4.22.69 fypklqasqaw sars coronavirus//*//* 1.57 * +EC3.4.22.69 o-aminobenzoyl-tsavlqsgfrk-2,4-dinitrophenyl amide sars coronavirus//*//* 0.032 * +EC3.4.22.69 o-aminobenzoyl-tsavlqsgfry(no2)g sars coronavirus//*//* 0.38 * +EC3.4.22.69 phtvlqavgac sars coronavirus//*//* 1.68 * +EC3.4.22.69 savlqmgfrk sars coronavirus//*//* 1.6 * +EC3.4.22.69 ser-ala-val-leu-gln-met-gly-phe-arg-lys sars coronavirus//*//* 0.027 * +EC3.4.22.69 sgvtfqgkfkk sars coronavirus//*//* 2.55 * +EC3.4.22.69 sitsavlq-p-nitroanilide sars coronavirus//*//* 0.86 * +EC3.4.22.69 sitsavlq-p-nitrophenyl ester sars coronavirus//*//* 0.6 * +EC3.4.22.69 sitsavlqsgfrkma sars coronavirus//*//* 8.5 * +EC3.4.22.69 tftrlqslenv sars coronavirus//*//* 0.847 * +EC3.4.22.69 thr-ser-ala-val-leu-gln-p-nitroanilide sars coronavirus//*//* 0.63 * +EC3.4.22.69 tsavlqsgfrk-nh2 sars coronavirus//*//* 12.2 * +EC3.4.22.7 n-alpha-benzyloxycarbonyl-l-gln-4-nitrophenyl ester asclepias curassavica//*//* 121.5 * +EC3.4.22.7 n-carbobenzoxy-lys p-nitrophenyl ester asclepias syriaca//*//* 59.6 * +EC3.4.22.7 nalpha-cbz-l-gln-4-nitrophenyl ester asclepias curassavica//*//* 121.5 * +EC3.4.22.8 ac-l-lys-4-nitroanilide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 22.53 * +EC3.4.22.8 alpha-benzoyl-arg ethyl ester hathewaya histolytica//*//* 643.0 * +EC3.4.22.8 benzoyl-arg ethyl ester hathewaya histolytica//*//* 1170.0 * +EC3.4.22.8 benzoyl-l-arg-4-nitroanilide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 109.3 * +EC3.4.22.8 maleyl-tyr-arg ethyl ester hathewaya histolytica//*//* 824.0 * +EC3.4.22.8 n-benzoyl-l-arg amide hathewaya histolytica//*//* 87.0 * +EC3.4.22.8 nalpha-benzoyl-l-arginine-4-nitroanilide hathewaya histolytica//*//* 69.5 * +EC3.4.22.8 nalpha-benzoyl-l-lys methyl ester hathewaya histolytica//*//* 22.0 * +EC3.4.22.8 nalpha-p-tosyl-l-arg amide hathewaya histolytica//*//* 10.0 * +EC3.4.22.8 nalpha-p-tosyl-l-arg methyl ester hathewaya histolytica//*//* 9.8 * +EC3.4.22.8 p-nitrophenyl p-guanidinobenzoate hathewaya histolytica//*//* 31.0 * +EC3.4.22.8 p-toluenesulfonyl-l-arg methyl ester hathewaya histolytica//*//* 86.0 * +EC3.4.22.B49 benzoyl-phe-val-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.03 * +EC3.4.22.B49 benzoyl-phe-val-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.03 * +EC3.4.22.B49 benzyloxycarbonyl-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.04 * +EC3.4.22.B49 benzyloxycarbonyl-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.04 * +EC3.4.22.B49 benzyloxycarbonyl-arg-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.002 * +EC3.4.22.B49 benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.002 * +EC3.4.22.B49 benzyloxycarbonyl-l-leu-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 36.52 * +EC3.4.22.B49 benzyloxycarbonyl-l-phe-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 24.69 * +EC3.4.22.B49 benzyloxycarbonyl-l-pro-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.03 * +EC3.4.22.B49 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 36.5 * +EC3.4.22.B49 benzyloxycarbonyl-phe-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.08 * +EC3.4.22.B49 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 24.7 * +EC3.4.22.B49 benzyloxycarbonyl-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 1.7 * +EC3.4.22.B49 h-leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.02 * +EC3.4.22.B49 h-leu-val-tyr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.02 * +EC3.4.22.B49 succinyl-ala-phe-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.05 * +EC3.4.22.B49 succinyl-ala-phe-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.05 * +EC3.4.22.B49 succinyl-leu-leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.01 * +EC3.4.22.B49 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.01 * +EC3.4.22.B49 t-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 7.9 * +EC3.4.22.B49 t-butyloxycarbonyl-val-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.02 * +EC3.4.22.B49 tert-butoxycarbonyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.48 * +EC3.4.22.B49 tert-butyloxycarbonyl-val-leu-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 7.9 * +EC3.4.22.B49 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.02 * +EC3.4.22.B49 tosyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.36 * +EC3.4.22.B49 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.03 * +EC3.4.22.B49 tosyl-gly-pro-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.03 * +EC3.4.22.B49 tosyl-gly-pro-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.03 * +EC3.4.22.B5 2-aminobenzoyl-elrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 496.0 * +EC3.4.22.B5 2-aminobenzoyl-flrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 424.0 * +EC3.4.22.B5 2-aminobenzoyl-frak(dnp)-nh2 leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 4.05 * +EC3.4.22.B5 2-aminobenzoyl-frak(dnp)-oh leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 1.92 * +EC3.4.22.B5 2-aminobenzoyl-klcsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 360.0 * +EC3.4.22.B5 2-aminobenzoyl-klesskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 372.0 * +EC3.4.22.B5 2-aminobenzoyl-klfsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 572.0 * +EC3.4.22.B5 2-aminobenzoyl-klhsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 255.0 * +EC3.4.22.B5 2-aminobenzoyl-kllsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 130.0 * +EC3.4.22.B5 2-aminobenzoyl-klnsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 491.0 * +EC3.4.22.B5 2-aminobenzoyl-klreskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 631.0 * +EC3.4.22.B5 2-aminobenzoyl-klrfskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 543.0 * +EC3.4.22.B5 2-aminobenzoyl-klrgskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 322.0 * +EC3.4.22.B5 2-aminobenzoyl-klrnskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 286.0 * +EC3.4.22.B5 2-aminobenzoyl-klrrskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 375.0 * +EC3.4.22.B5 2-aminobenzoyl-klrsekq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 614.0 * +EC3.4.22.B5 2-aminobenzoyl-klrsfkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 912.0 * +EC3.4.22.B5 2-aminobenzoyl-klrsgkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 276.0 * +EC3.4.22.B5 2-aminobenzoyl-klrslkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 334.0 * +EC3.4.22.B5 2-aminobenzoyl-klrspkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 567.0 * +EC3.4.22.B5 2-aminobenzoyl-klrsrkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 552.0 * +EC3.4.22.B5 2-aminobenzoyl-klrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 1026.0 * +EC3.4.22.B5 2-aminobenzoyl-llrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 296.0 * +EC3.4.22.B5 2-aminobenzoyl-nlrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 583.0 * +EC3.4.22.B5 abz-arf(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.004 * +EC3.4.22.B5 abz-arfk-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.02 * +EC3.4.22.B5 abz-fr(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.24 * +EC3.4.22.B5 abz-fra(2,4-dinitrophenyl)-epsilon-nh2-lys-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.14 * +EC3.4.22.B5 abz-fra(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.46 * +EC3.4.22.B5 abz-frak-nh2 leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 5.4 * +EC3.4.22.B5 abz-frak-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.4 * +EC3.4.22.B5 abz-frf(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.51 * +EC3.4.22.B5 abz-frfk-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.1 * +EC3.4.22.B5 abz-frkp-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.5 * +EC3.4.22.B5 abz-frkw-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.0 * +EC3.4.22.B5 abz-rrfk-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.005 * +EC3.4.22.B5 benzoyl-(3-pyridylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.45 * +EC3.4.22.B5 benzoyl-(4-aminomethyl-n-isopropyl-phenylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.4 * +EC3.4.22.B5 benzoyl-(4-aminomethyl-phenylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.18 * +EC3.4.22.B5 benzoyl-(4-guanidine-phenylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.1 * +EC3.4.22.B5 benzoyl-fr-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 3.9 * +EC3.4.22.B5 benzoyl-hr-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.3 * +EC3.4.22.B5 benzoyl-rr-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.2 * +EC3.4.22.B5 n-benzoyl-pro-phe-arg-p-nitroanilide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 17.8 * +EC3.4.22.B5 o-aminobenzoyl-alrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.18 * +EC3.4.22.B5 o-aminobenzoyl-hlrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.58 * +EC3.4.22.B5 o-aminobenzoyl-karfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.2 * +EC3.4.22.B5 o-aminobenzoyl-kfrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 4.5 * +EC3.4.22.B5 o-aminobenzoyl-klfnpkfq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.7 * +EC3.4.22.B5 o-aminobenzoyl-klraskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.4 * +EC3.4.22.B5 o-aminobenzoyl-klrfakq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.98 * +EC3.4.22.B5 o-aminobenzoyl-klrffkq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.5 * +EC3.4.22.B5 o-aminobenzoyl-klrfpkq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.9 * +EC3.4.22.B5 o-aminobenzoyl-klrfrkq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.95 * +EC3.4.22.B5 o-aminobenzoyl-klrfsaq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.4 * +EC3.4.22.B5 o-aminobenzoyl-klrfspq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.1 * +EC3.4.22.B5 o-aminobenzoyl-klrfsrq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.7 * +EC3.4.22.B5 o-aminobenzoyl-klrlskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.3 * +EC3.4.22.B5 o-aminobenzoyl-klrrskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.35 * +EC3.4.22.B5 o-aminobenzoyl-kltc(sbzl)fskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.05 * +EC3.4.22.B5 o-aminobenzoyl-kltcfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.48 * +EC3.4.22.B5 o-aminobenzoyl-kltdfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.27 * +EC3.4.22.B5 o-aminobenzoyl-kltefskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.85 * +EC3.4.22.B5 o-aminobenzoyl-klthfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.1 * +EC3.4.22.B5 o-aminobenzoyl-kltkfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.35 * +EC3.4.22.B5 o-aminobenzoyl-kltrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.6 * +EC3.4.22.B5 o-aminobenzoyl-kltt(obzl)fskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.583 * +EC3.4.22.B5 o-aminobenzoyl-kprfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.53 * +EC3.4.22.B5 o-aminobenzoyl-krrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.45 * +EC3.4.22.B5 o-aminobenzoyl-llrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.74 * +EC3.4.22.B5 o-aminobenzoyl-rlrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.98 * +EC3.4.22.B50 abz-frlkggapikgv-n-(2,4-dinitrophenyl)-ethylenediamine alphacoronavirus//*//* 0.366 * +EC3.4.22.B50 frlkggapikgv alphacoronavirus//*//* 0.025 * +EC3.4.22.B50 n-benzoyl-phe-val-arg-4-nitroanilide tabernaemontana divaricata//*//* 0.23 * +EC3.4.22.B50 ubiquitin-7-amido-4-trifluoromethylcoumarin sars coronavirus//*//* 0.79 * +EC3.4.22.B6 benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.145 * +EC3.4.22.B6 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 7.6 * +EC3.4.22.B6 cbz-arg-arg-7-amido-4-methylcoumarin trypanosoma congolense//*//* 3.0 * +EC3.4.22.B6 cbz-phe-arg-7-amido-4-methylcoumarin trypanosoma congolense//*//* 1.09 * +EC3.4.22.B6 n2-benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin trypanosoma congolense//*//* 3.49 * +EC3.4.22.B6 nalpha-benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin trypanosoma congolense//*//* 1.09 * +EC3.4.22.B60 benzoyl-phe-val-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.06 * +EC3.4.22.B60 benzyloxycarbonyl-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.09 * +EC3.4.22.B60 benzyloxycarbonyl-arg-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.02 * +EC3.4.22.B60 benzyloxycarbonyl-l-leu-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.62 * +EC3.4.22.B60 benzyloxycarbonyl-l-phe-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.7 * +EC3.4.22.B60 benzyloxycarbonyl-l-pro-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 2.64 * +EC3.4.22.B60 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 3.2 * +EC3.4.22.B60 benzyloxycarbonyl-phe-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.56 * +EC3.4.22.B60 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 50.0 * +EC3.4.22.B60 benzyloxycarbonyl-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 2.6 * +EC3.4.22.B60 boc-agpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.55 * +EC3.4.22.B60 boc-vlk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.07 * +EC3.4.22.B60 boc-vpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.23 * +EC3.4.22.B60 leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.21 * +EC3.4.22.B60 succinyl-ala-phe-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.14 * +EC3.4.22.B60 succinyl-leu-leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.08 * +EC3.4.22.B60 tert-butoxycarbonyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 2.48 * +EC3.4.22.B60 tert-butyloxycarbonyl-val-leu-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 3.75 * +EC3.4.22.B60 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.19 * +EC3.4.22.B60 tosyl-gly-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 26.3 * +EC3.4.22.B60 tosyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.93 * +EC3.4.22.B60 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 440.0 * +EC3.4.22.B60 tosyl-gly-pro-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 1.37 * +EC3.4.22.B60 tosyl-gpk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.18 * +EC3.4.22.B60 tosyl-gpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.26 * +EC3.4.22.B60 z-leu-arg-nhme fasciola hepatica//*//* 0.95 * +EC3.4.22.B60 z-phe-arg-nhme fasciola hepatica//*//* 0.09 * +EC3.4.22.B60 z-vvr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.014 * +EC3.4.22.B61 benzyloxycarbonyl-l-phe-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 17.89 * +EC3.4.22.B61 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 2145.0 * +EC3.4.22.B61 tosyl-gly-l-pro-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.84 * +EC3.4.22.B61 tosyl-gly-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 2493.0 * +EC3.4.22.B61 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 32.9 * +EC3.4.22.B61 z-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 17.89 * +EC3.4.22.B62 benzyloxycarbonyl-l-phe-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.39 * +EC3.4.22.B62 benzyloxycarbonyl-l-val-l-leu-l-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.33 * +EC3.4.22.B62 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.39 * +EC3.4.22.B62 benzyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.33 * +EC3.4.22.B62 boc-agpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.58 * +EC3.4.22.B62 boc-vlk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.01 * +EC3.4.22.B62 boc-vpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.033 * +EC3.4.22.B62 tosyl-gly-l-pro-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 6.0 * +EC3.4.22.B62 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 6.0 * +EC3.4.22.B62 tosyl-gpk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.15 * +EC3.4.22.B62 tosyl-gpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 1.015 * +EC3.4.22.B62 z-leu-arg-nhme fasciola hepatica//*//* 1.2 * +EC3.4.22.B62 z-phe-arg-nhme fasciola hepatica//*//* 0.02 * +EC3.4.22.B62 z-val-leu-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.33 * +EC3.4.22.B62 z-vvr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.043 * +EC3.4.22.B63 dabcyl-ancillary protein 1-edans streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.00116 * +EC3.4.22.B63 dabcyl-ancillary protein 2-edans streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.00077 * +EC3.4.22.B63 dabcyl-bp-1 peptide-edans streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.00177 * +EC3.4.22.B65 o-aminobenzoic acid-alrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.035 * +EC3.4.22.B65 o-aminobenzoic acid-eifvfkq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC3.4.22.B65 o-aminobenzoic acid-elrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.021 * +EC3.4.22.B65 o-aminobenzoic acid-flrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.024 * +EC3.4.22.B65 o-aminobenzoic acid-hlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC3.4.22.B65 o-aminobenzoic acid-ilrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC3.4.22.B65 o-aminobenzoic acid-karsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.008 * +EC3.4.22.B65 o-aminobenzoic acid-kfrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC3.4.22.B65 o-aminobenzoic acid-kirsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC3.4.22.B65 o-aminobenzoic acid-klasskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.009 * +EC3.4.22.B65 o-aminobenzoic acid-klfsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC3.4.22.B65 o-aminobenzoic acid-klksskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC3.4.22.B65 o-aminobenzoic acid-kllsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC3.4.22.B65 o-aminobenzoic acid-klmsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC3.4.22.B65 o-aminobenzoic acid-klqsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC3.4.22.B65 o-aminobenzoic acid-klreskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.014 * +EC3.4.22.B65 o-aminobenzoic acid-klrfskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC3.4.22.B65 o-aminobenzoic acid-klrgskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC3.4.22.B65 o-aminobenzoic acid-klrhskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.009 * +EC3.4.22.B65 o-aminobenzoic acid-klrlskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC3.4.22.B65 o-aminobenzoic acid-klrnskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.044 * +EC3.4.22.B65 o-aminobenzoic acid-klrqskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.029 * +EC3.4.22.B65 o-aminobenzoic acid-klrrskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC3.4.22.B65 o-aminobenzoic acid-klrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC3.4.22.B65 o-aminobenzoic acid-klrvskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.009 * +EC3.4.22.B65 o-aminobenzoic acid-kltsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC3.4.22.B65 o-aminobenzoic acid-klysskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC3.4.22.B65 o-aminobenzoic acid-kmrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC3.4.22.B65 o-aminobenzoic acid-knlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC3.4.22.B65 o-aminobenzoic acid-kqrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC3.4.22.B65 o-aminobenzoic acid-krrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC3.4.22.B65 o-aminobenzoic acid-ktrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC3.4.22.B65 o-aminobenzoic acid-kvrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.017 * +EC3.4.22.B65 o-aminobenzoic acid-kyrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC3.4.22.B65 o-aminobenzoic acid-llrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.029 * +EC3.4.22.B65 o-aminobenzoic acid-nlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC3.4.22.B65 o-aminobenzoic acid-rlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.023 * +EC3.4.22.B65 o-aminobenzoic acid-vlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC3.4.22.B70 (sumo-1)-rangap1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.3 * +EC3.4.22.B70 (sumo-2)-rangap1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.2 * +EC3.4.22.B70 sumo-1 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.22.B70 sumo-2 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC3.4.22.B71 (sumo-1)-ran gtpase-activating protein 1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.4.22.B71 (sumo-2/3)-ran gtpase-activating protein 1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.5 * +EC3.4.22.B71 sumo-1 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.22.B71 sumo-2 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.4.22.B71 sumo-3 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.22.B79 semliki forest virus p1/p2 semliki forest virus//*//* 0.043 * +EC3.4.22.B79 semliki forest virus p1/p2 venezuelan equine encephalitis virus//*//* 0.016 * +EC3.4.22.B79 semliki forest virus p3/p4 semliki forest virus//*//* 0.352 * +EC3.4.23.1 afpleferel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.9 * +EC3.4.23.1 afpleferel sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 45.0 * +EC3.4.23.1 afpleffrel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 85.0 * +EC3.4.23.1 afpleffrel sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 472.0 * +EC3.4.23.1 afplefirel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 56.0 * +EC3.4.23.1 afplefirel sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 203.0 * +EC3.4.23.1 benzyloxycarbonyl-his-phe-phe-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.21 * +EC3.4.23.1 benzyloxycarbonyl-his-phe-phe-o-ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC3.4.23.1 benzyloxycarbonyl-his-phe-phe-o-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC3.4.23.1 benzyloxycarbonyl-his-trp-phe-o-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC3.4.23.1 benzyloxycarbonyl-his-tyr-phe-o-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC3.4.23.1 hemoglobin albatrossia pectoralis//*//* 50.0 * +EC3.4.23.1 hemoglobin lateolabrax japonicus//*//* 7.34 * +EC3.4.23.1 hemoglobin monopterus albus//*//* 23.2 * +EC3.4.23.1 kpaeff(no2)al sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 96.0 * +EC3.4.23.1 kpief(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 68.9 * +EC3.4.23.1 kpikf(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 38.9 * +EC3.4.23.1 kpilf(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.0 * +EC3.4.23.1 kpiqf(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 47.9 * +EC3.4.23.1 kppef(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 47.3 * +EC3.4.23.1 l-lys-l-pro-l-ala-l-glu-l-phe-l-phe(no2)-l-ala-l-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 162.0 * +EC3.4.23.1 leu-ser-phe(p-no2)-nle-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 88.7 * +EC3.4.23.1 lys-pro-ala-glu-phe-phe(no2)-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 56.0 * +EC3.4.23.1 lys-pro-ala-glu-phe-phe(p-no2)-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 181.0 * +EC3.4.23.1 mca-kkpaeffalk-dnp shewanella amazonensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//saz 0.03 * +EC3.4.23.1 n,n-dimethylcasein ovis aries//eukaryotes;animals;vertebrates;mammals//oas 7.0 * +EC3.4.23.1 n,n-dimethylhemoglobin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 18.3 * +EC3.4.23.1 pomc (165-174) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.23.1 pomc (165-174) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.7 * +EC3.4.23.1 pro-thr-glu-phe-(p-nitro-phe)-arg-leu-oh trematomus bernacchii//*//* 3.32 * +EC3.4.23.15 angiotensinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC3.4.23.15 angiotensinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.35 * +EC3.4.23.15 angiotensinogen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00867 * +EC3.4.23.16 2-aminobenzoyl-ti-nle-phe(no2)-er human immunodeficiency virus 1//*//* 5.46 * +EC3.4.23.16 2-aminobenzoyl-ti-nle-phe(no2)-qr-nh2 human immunodeficiency virus 1//*//* 7.4 * +EC3.4.23.16 2-aminobenzoyl-ti-nle-phe(no2)-qr human immunodeficiency virus 1//*//* 19.5 * +EC3.4.23.16 abz-thr-ile-nle-phe(no2)-gln-arg human immunodeficiency virus 1//*//* 3.2 * +EC3.4.23.16 aetfyvdgaa human immunodeficiency virus 1//*//* 0.41 * +EC3.4.23.16 ctlnfpisp human immunodeficiency virus 1//*//* 1.72 * +EC3.4.23.16 dtvieems human immunodeficiency virus 1//*//* 0.0483 * +EC3.4.23.16 dtvleems human immunodeficiency virus 1//*//* 4.35 * +EC3.4.23.16 dtvveems human immunodeficiency virus 1//*//* 0.13 * +EC3.4.23.16 gaetfyvdgaa human immunodeficiency virus 1//*//* 5.05 * +EC3.4.23.16 ipfaaaqqrk human immunodeficiency virus 1//*//* 0.3 * +EC3.4.23.16 irkilfldg human immunodeficiency virus 1//*//* 1.2 * +EC3.4.23.16 karlmaealk human immunodeficiency virus 1//*//* 0.3 * +EC3.4.23.16 karv-nle-phe(no2)-ea-nle-nh2 human immunodeficiency virus 1//*//* 3.74 * +EC3.4.23.16 karv-nle-phe(no2)-ea-nle human immunodeficiency virus 1//*//* 1.23 * +EC3.4.23.16 karvlaeams human immunodeficiency virus 1//*//* 0.89 * +EC3.4.23.16 klrpgnflqsrp human immunodeficiency virus 1//*//* 12.7 * +EC3.4.23.16 lys-ala-arg-val-nle-phe(4-no2)-glu-ala-nle-gly human immunodeficiency virus 1//*//* 13.0 * +EC3.4.23.16 lys-ala-arg-val-nle-phe(4-no2)-glu-ala-nle-nh2 human immunodeficiency virus 1//*//* 30.0 * +EC3.4.23.16 pafvlaeamr human immunodeficiency virus 1//*//* 0.25 * +EC3.4.23.16 pafvlmeamr human immunodeficiency virus 1//*//* 0.933 * +EC3.4.23.16 parvlaeamr human immunodeficiency virus 1//*//* 0.267 * +EC3.4.23.16 parvlfeamr human immunodeficiency virus 1//*//* 1.03 * +EC3.4.23.16 parvlieamr human immunodeficiency virus 1//*//* 0.367 * +EC3.4.23.16 parvlleamr human immunodeficiency virus 1//*//* 0.583 * +EC3.4.23.16 parvlveamr human immunodeficiency virus 1//*//* 0.833 * +EC3.4.23.16 pqitlwqrp human immunodeficiency virus 1//*//* 0.0967 * +EC3.4.23.16 reydqiiievs human immunodeficiency virus 1//*//* 0.025 * +EC3.4.23.16 reydqilievs human immunodeficiency virus 1//*//* 2.85 * +EC3.4.23.16 reydqilikvs human immunodeficiency virus 1//*//* 0.000833 * +EC3.4.23.16 rqgtvsfnfpqitl human immunodeficiency virus 1//*//* 62.7 * +EC3.4.23.16 tatimmqrgn human immunodeficiency virus 1//*//* 58.8 * +EC3.4.23.16 vlqnypivq human immunodeficiency virus 1//*//* 0.06 * +EC3.4.23.16 vsqlypivq human immunodeficiency virus 1//*//* 0.4 * +EC3.4.23.16 vsqnypiv human immunodeficiency virus 1//*//* 4.02 * +EC3.4.23.16 vsqnypivq human immunodeficiency virus 1//*//* 51.8 * +EC3.4.23.16 vsqvypivq human immunodeficiency virus 1//*//* 2.6 * +EC3.4.23.16 vvqnypivq human immunodeficiency virus 1//*//* 0.16 * +EC3.4.23.18 benzyloxycarbonyl-ala-ala-lys-ala-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 30.5 * +EC3.4.23.18 benzyloxycarbonyl-ala-lys-ala-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.18 * +EC3.4.23.18 benzyloxycarbonyl-lys-ala-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.17 * +EC3.4.23.18 benzyloxycarbonyl-lys-leu-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.67 * +EC3.4.23.18 chymotrypsinogen aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.14 * +EC3.4.23.18 trypsinogen aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 11.3 * +EC3.4.23.19 rgffhtpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.19 * +EC3.4.23.19 rgfftpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.48 * +EC3.4.23.19 rgffytpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 6.08 * +EC3.4.23.19 rgfmtpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.26 * +EC3.4.23.2 haemoglobin boreogadus saida//*//* 9.27 * +EC3.4.23.2 hemoglobin albatrossia pectoralis//*//* 32.0 * +EC3.4.23.2 kpaefarl canis lupus familiaris//*//* 3.4 * +EC3.4.23.2 kpagfarl canis lupus familiaris//*//* 169.0 * +EC3.4.23.2 kpggfarl canis lupus familiaris//*//* 134.0 * +EC3.4.23.20 ac-ala-ala-ala-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 34.0 * +EC3.4.23.20 ac-ala-ala-lys-(4-nitro)phe-ala-ala amide penicillium janthinellum//*//* 47.0 * +EC3.4.23.20 ac-ala-ala-lys-(4-nitro)phe-ala-ala-ala amide penicillium janthinellum//*//* 45.0 * +EC3.4.23.20 ac-ala-ala-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 40.0 * +EC3.4.23.20 ac-ala-ala-lys-(no2)phe-ala-amide penicillium janthinellum//*//* 15.0 * +EC3.4.23.20 ac-ala-ala-lys-(no2)phe-amide penicillium janthinellum//*//* 0.36 * +EC3.4.23.20 ac-ala-lys-(4-nitro)phe amide penicillium janthinellum//*//* 0.021 * +EC3.4.23.20 ac-ala-lys-(no2)phe-ala-amide penicillium janthinellum//*//* 0.6 * +EC3.4.23.20 ac-lys 4-nitrophenyl amide penicillium janthinellum//*//* 0.01 * +EC3.4.23.20 ac-lys-(4-nitro)phe amide penicillium janthinellum//*//* 0.026 * +EC3.4.23.20 ac-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 0.29 * +EC3.4.23.20 ac-lys-(no2)phe-ala-amide penicillium janthinellum//*//* 0.4 * +EC3.4.23.20 bovine trypsinogen penicillium janthinellum//*//* 5.0 * +EC3.4.23.20 leu-ser-(4-nitro)phe-nle-ala-leu methyl ester penicillium janthinellum//*//* 11.4 * +EC3.4.23.20 pro-thr-glu-phe-(4-nitro)phe-arg-leu penicillium janthinellum//*//* 37.3 * +EC3.4.23.20 trypsinogen penicillium janthinellum//*//* 420.0 * +EC3.4.23.21 kaief p-nitrophenylalanine-rl rhizopus sp.//*//* 46.0 * +EC3.4.23.21 klief p-nitrophenylalanine-rl rhizopus sp.//*//* 38.0 * +EC3.4.23.21 kpaef p-nitrophenylalanine-rl rhizopus sp.//*//* 22.0 * +EC3.4.23.21 kpalf p-nitrophenylalanine-rl rhizopus sp.//*//* 13.0 * +EC3.4.23.21 kpdef p-nitrophenylalanine-rl rhizopus sp.//*//* 8.0 * +EC3.4.23.21 kpiaf p-nitrophenylalanine-rl rhizopus sp.//*//* 17.0 * +EC3.4.23.21 kpidf p-nitrophenylalanine-rl rhizopus sp.//*//* 6.08 * +EC3.4.23.21 kpief p-nitrophenylalanine-rl rhizopus sp.//*//* 41.0 * +EC3.4.23.21 kpilf p-nitrophenylalanine-rl rhizopus sp.//*//* 3.0 * +EC3.4.23.21 kpisf p-nitrophenylalanine-rl rhizopus sp.//*//* 4.0 * +EC3.4.23.21 kplef p-nitrophenylalanine-rl rhizopus sp.//*//* 7.0 * +EC3.4.23.21 kpref p-nitrophenylalanine-rl rhizopus sp.//*//* 18.0 * +EC3.4.23.21 kpsef p-nitrophenylalanine-rl rhizopus sp.//*//* 7.0 * +EC3.4.23.21 kpvsy(4-no2-f)rl rhizopus microsporus var. chinensis//*//* 55.0 * +EC3.4.23.21 kpvsy(no2)frl rhizopus sp.//*//* 55.0 * +EC3.4.23.21 ksief p-nitrophenylalanine-rl rhizopus sp.//*//* 13.0 * +EC3.4.23.23 pro-thr-glu-phe-(4-nitro)phe-arg-leu rhizomucor miehei//*//* 16.0 * +EC3.4.23.24 4-(4-dimethylaminophenylazo)benzyl-glu-his-val-lys-leu-val-glu-5-(2-aminoethylamino)-1-naphthalenesulfonic acid candida parapsilosis//*//* 48.7 * +EC3.4.23.24 ala-thr-his-gln-val-tyr-4-nitrophenylalanine-val-arg-lys-ala candida parapsilosis//*//* 1.41 * +EC3.4.23.24 lys-pro-ala-glu-phe-4-nitrophenylalanine-ala-leu candida parapsilosis//*//* 31.8 * +EC3.4.23.24 lys-pro-leu-glu-met-4-nitrophenylalanine-ala-leu candida parapsilosis//*//* 24.11 * +EC3.4.23.25 (7-methoxycoumarin-4-yl)acetyl-apakffrlk(2,4-dinitrophenyl)-nh2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.1 * +EC3.4.23.25 ala-leu-ser-ala-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.9 * +EC3.4.23.25 ala-pro-ala-lys-phe-(no2)-phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.4 * +EC3.4.23.25 ala-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.4 * +EC3.4.23.25 arg-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.7 * +EC3.4.23.25 asp-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.6 * +EC3.4.23.25 gly-ala-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 19.7 * +EC3.4.23.25 leu-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.8 * +EC3.4.23.25 lys-ala-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.7 * +EC3.4.23.25 lys-arg-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.8 * +EC3.4.23.25 lys-asp-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.4 * +EC3.4.23.25 lys-leu-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.5 * +EC3.4.23.25 lys-pro-ala-ala-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.9 * +EC3.4.23.25 lys-pro-ala-arg-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.4 * +EC3.4.23.25 lys-pro-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC3.4.23.25 lys-pro-ala-leu-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.4 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-ala -leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.7 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.7 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-asp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.7 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-asp-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-leu-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-ser-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.9 * +EC3.4.23.25 lys-pro-ala-ser-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.7 * +EC3.4.23.25 lys-pro-arg-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.3 * +EC3.4.23.25 lys-pro-asp-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.9 * +EC3.4.23.25 lys-pro-ile-glu-phe-l-nitrophenylalanine-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 44.0 * +EC3.4.23.25 lys-pro-leu-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.6 * +EC3.4.23.25 lys-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.4 * +EC3.4.23.25 ser-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.6 * +EC3.4.23.25 suc-apakffrl-4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.5 * +EC3.4.23.25 suc-lfaevayd-4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.73 * +EC3.4.23.25 suc-rffhllvy-4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.25 * +EC3.4.23.3 acetyl-ala-phe-leu-val-his-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.23.3 acetyl-ala-phe-leu-val-his-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.01 * +EC3.4.23.3 acetyl-phe-leu-val-his methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.13 * +EC3.4.23.3 acetyl-phe-leu-val-his-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.23.3 acetyl-phe-leu-val-his-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.12 * +EC3.4.23.3 acetyl-tyr-leu-val-his methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.76 * +EC3.4.23.3 acetyl-tyr-leu-val-his-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.45 * +EC3.4.23.3 pro-thr-glu-phe-(no2)phe-arg-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 55.0 * +EC3.4.23.32 2-aminobenzoyl-klapskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 1.6 * +EC3.4.23.32 2-aminobenzoyl-klasskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 6.0 * +EC3.4.23.32 2-aminobenzoyl-kldpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.6 * +EC3.4.23.32 2-aminobenzoyl-kldsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 17.0 * +EC3.4.23.32 2-aminobenzoyl-klespskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.4 * +EC3.4.23.32 2-aminobenzoyl-klesskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.2 * +EC3.4.23.32 2-aminobenzoyl-klfpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 13.0 * +EC3.4.23.32 2-aminobenzoyl-klfsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 200.0 * +EC3.4.23.32 2-aminobenzoyl-klgpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.4 * +EC3.4.23.32 2-aminobenzoyl-klgsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 3.6 * +EC3.4.23.32 2-aminobenzoyl-klhpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 33.0 * +EC3.4.23.32 2-aminobenzoyl-klhsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 145.0 * +EC3.4.23.32 2-aminobenzoyl-klkpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 3.5 * +EC3.4.23.32 2-aminobenzoyl-klksskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 8.0 * +EC3.4.23.32 2-aminobenzoyl-kllsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 7.7 * +EC3.4.23.32 2-aminobenzoyl-klmsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 105.0 * +EC3.4.23.32 2-aminobenzoyl-klnpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 6.5 * +EC3.4.23.32 2-aminobenzoyl-klnsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 198.0 * +EC3.4.23.32 2-aminobenzoyl-klpsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 7.7 * +EC3.4.23.32 2-aminobenzoyl-klqpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.4 * +EC3.4.23.32 2-aminobenzoyl-klqsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.8 * +EC3.4.23.32 2-aminobenzoyl-klrpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 1.1 * +EC3.4.23.32 2-aminobenzoyl-klrsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 15.0 * +EC3.4.23.32 2-aminobenzoyl-klspskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.03 * +EC3.4.23.32 2-aminobenzoyl-klssskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.063 * +EC3.4.23.32 2-aminobenzoyl-klvsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.048 * +EC3.4.23.32 2-aminobenzoyl-klypskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 8.7 * +EC3.4.23.32 2-aminobenzoyl-klysskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 86.0 * +EC3.4.23.32 d-2,3-diaminopropionic acid(n-methylanthraniloyl)-gfkffalrk(2,4-dinitrophenol) scytalidium lignicola//*//* 34.8 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)-acetyl-gly-lys-pro-ile-ile-phe-phe-arg-leu-lys(2,4-dinitrophenyl)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.9 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-lys-pro-ile-ile-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 39.1 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-lys-pro-ile-leu-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 32.2 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-ser-pro-ala-phe-leu-ala-lys(dnp)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.4 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-ser-pro-ala-phe-leu-ala-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 20.1 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-ser-ser-ala-phe-leu-ala-phe-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.68 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-l-ala-gly-l-phe-l-ser-l-leu-l-pro-l-ala-l-lys(dnp)-d-arg-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 322.5 * +EC3.4.23.34 [his10]-substance p cavia porcellus//*//* 23.0 * +EC3.4.23.34 [tyr8]-substance p cavia porcellus//*//* 40.0 * +EC3.4.23.34 acetyl-substance p(2-11) cavia porcellus//*//* 19.0 * +EC3.4.23.34 acetyl-substance p(3-11) cavia porcellus//*//* 58.0 * +EC3.4.23.34 acetyl-substance p cavia porcellus//*//* 26.0 * +EC3.4.23.34 acidic fibroblast growth factor cavia porcellus//*//* 18.0 * +EC3.4.23.34 arg-modified substance p cavia porcellus//*//* 64.0 * +EC3.4.23.34 big et-1 cavia porcellus//*//* 0.13 * +EC3.4.23.34 big et-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.23.34 big et-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.23.34 big et-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.23.34 eledoisin cavia porcellus//*//* 10.0 * +EC3.4.23.34 lys-pro-ala-glu-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 135.0 * +EC3.4.23.34 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 170.0 * +EC3.4.23.34 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 115.0 * +EC3.4.23.34 mocac-gly-lys-pro-ile-leu-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 360.0 * +EC3.4.23.34 neurokinin a cavia porcellus//*//* 42.0 * +EC3.4.23.34 porcine renin substrate cavia porcellus//*//* 13.0 * +EC3.4.23.34 pro-pro-thr-ile-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 75.0 * +EC3.4.23.34 pro-pro-thr-ile-phe-(4-nitro)phe-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 132.0 * +EC3.4.23.34 pro-thr-glu-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 27.0 * +EC3.4.23.34 substance p(2-11) cavia porcellus//*//* 22.0 * +EC3.4.23.34 substance p(3-11) cavia porcellus//*//* 70.0 * +EC3.4.23.34 substance p(4-11) cavia porcellus//*//* 0.74 * +EC3.4.23.38 4-[[4'-(dimethylamino)phenyl]azo]-benzoyl-glu-arg-met-phe-leu-ser-phe-pro-(gamma-aminobutyryl)-5-[(2'-aminoethyl)-amino]naphthalenesulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.473 * +EC3.4.23.38 leu-glu-arg-ile-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 16.0 * +EC3.4.23.38 leu-glu-arg-val-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.6 * +EC3.4.23.38 lys-glu-leu-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 10.0 * +EC3.4.23.38 lys-glu-phe-asn-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.0 * +EC3.4.23.38 lys-glu-phe-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 18.0 * +EC3.4.23.38 lys-glu-phe-val-phe-phe(no2)-arg-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 10.0 * +EC3.4.23.39 4-(4-dimethylaminophenylazo)benzoyl-ch2-ch2-co-co-alermflsfp-diaminopimelate-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.52 * +EC3.4.23.39 4-(4-dimethylaminophenylazo)benzoyl-ch2-ch2-co-ermflsfp-diaminopimelate-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC3.4.23.39 4-[[4'-(dimethylamino)phenyl]azo]-benzoyl-glu-arg-met-phe-leu-ser-phe-pro-(gamma-aminobutyryl)-5-[(2'-aminoethyl)-amino]naphthalenesulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.31 * +EC3.4.23.39 ala-leu-glu-arg-thr-phe-phe(no2)-ser-phe-pro-thr plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.0 * +EC3.4.23.39 edans-co-ch2-ch2-co-ala-leu-glu-arg-met-phe-leu-ser-phe-pro-dap-(dabcyl)-oh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.1 * +EC3.4.23.39 leu-glu-arg-ile-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 15.0 * +EC3.4.23.39 leu-glu-arg-val-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 9.0 * +EC3.4.23.39 leu-ser-phe(no2)-nle-ala-leu-ome plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 10.4 * +EC3.4.23.39 lys-ala-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.0 * +EC3.4.23.39 lys-asp-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC3.4.23.39 lys-glu-leu-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.0 * +EC3.4.23.39 lys-glu-phe-asn-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.0 * +EC3.4.23.39 lys-glu-phe-ile-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 15.2 * +EC3.4.23.39 lys-glu-phe-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 19.0 * +EC3.4.23.39 lys-glu-phe-val-phe-phe(no2)-arg-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 11.0 * +EC3.4.23.39 lys-lys-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.17 * +EC3.4.23.39 lys-phe-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC3.4.23.39 lys-pro-asp-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.4 * +EC3.4.23.39 lys-pro-ile-ala-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.73 * +EC3.4.23.39 lys-pro-ile-asp-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.25 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-ala-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.7 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-arg plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.53 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-asp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.2 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-ile plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.9 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-ser plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.44 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-val plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.7 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-glu-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.3 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-lys-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.6 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-ser-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.7 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-val-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.6 * +EC3.4.23.39 lys-pro-ile-leu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.7 * +EC3.4.23.39 lys-pro-ile-lys-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.04 * +EC3.4.23.39 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.1 * +EC3.4.23.39 lys-pro-ile-ser-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.91 * +EC3.4.23.39 lys-pro-ile-val-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.6 * +EC3.4.23.39 lys-pro-lys-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.1 * +EC3.4.23.39 lys-pro-phe-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.4 * +EC3.4.23.39 lys-pro-ser-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.32 * +EC3.4.23.39 lys-ser-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.3 * +EC3.4.23.4 abz-a-a-f-f-a-a-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC3.4.23.4 abz-a-a-f-f-a-a-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC3.4.23.4 abz-a-a-f-f-a-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.23.4 abz-a-a-f-f-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.27 * +EC3.4.23.4 abz-a-a-f-f-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.48 * +EC3.4.23.4 abz-a-f-f-a-a-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.23.4 afpleferel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2600.0 * +EC3.4.23.4 afpleffrel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 290.0 * +EC3.4.23.4 afplefirel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 427.0 * +EC3.4.23.4 afplefkrel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 29.0 * +EC3.4.23.4 nt/nmn 142-151 callithrix jacchus//eukaryotes;animals;vertebrates;mammals//cjc 191.0 * +EC3.4.23.4 pom c165-174 callithrix jacchus//eukaryotes;animals;vertebrates;mammals//cjc 219.0 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of bovine kappa casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 44.3 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of bovine kappa casein camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 11.7 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of camel kappa casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.3 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of camel kappa casein camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 5.1 * +EC3.4.23.40 l-lys-l-pro-l-ala-l-glu-l-phe-l-phe(no2)-l-ala-l-leu cynara cardunculus//*//* 65.0 * +EC3.4.23.40 l-pro-l-thr-l-glu-l-phe(p-no2)-l-phe-l-arg-l-leu cynara cardunculus var. scolymus//*//* 144.0 * +EC3.4.23.40 leu-ser-phe(no2)-ahx-ala-leu-ome cynara cardunculus//*//* 86.2 * +EC3.4.23.40 lys-pro-ala-glu-phe-phe-phe(no2)-ala-leu cynara cardunculus//*//* 89.4 * +EC3.4.23.43 prepilin type iv pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.0 * +EC3.4.23.46 7-methoxycoumarin-4-yl-sevnldaefk-2,4-dinitrophenyl-rr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.155 * +EC3.4.23.46 eeisevnldaefrg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.6 * +EC3.4.23.46 re(edans)evnldaefk(dabcyl)r-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8e-05 * +EC3.4.23.46 sevnldaefr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.7 * +EC3.4.23.47 ac-tyr-arg-ala-arg-val-phe nph-val-arg-ala-ala-lys human immunodeficiency virus 2//*//* 0.00167 * +EC3.4.23.47 aetf yvdgaa human immunodeficiency virus 2//*//* 0.00283 * +EC3.4.23.47 ctlnfpisp human immunodeficiency virus 2//*//* 0.0001 * +EC3.4.23.47 dkelypltsl human immunodeficiency virus 2//*//* 2.5e-05 * +EC3.4.23.47 ekggny pvqhv human immunodeficiency virus 2//*//* 0.00917 * +EC3.4.23.47 ipfaa aqqrk human immunodeficiency virus 2//*//* 0.000217 * +EC3.4.23.47 ipfaaaqqrk human immunodeficiency virus 2//*//* 0.3 * +EC3.4.23.47 irkilfldg human immunodeficiency virus 2//*//* 0.000333 * +EC3.4.23.47 karlm aealk human immunodeficiency virus 2//*//* 0.000333 * +EC3.4.23.47 karlmaealk human immunodeficiency virus 2//*//* 0.3 * +EC3.4.23.47 karvl-aeams human immunodeficiency virus 2//*//* 0.00025 * +EC3.4.23.47 kprnfpvaqv human immunodeficiency virus 2//*//* 0.0117 * +EC3.4.23.47 l-threonyl-l-alanyl-l-threonyl-l-isoleucyl-l-methionyl-l-methionyl-l-glutaminyl-l-arginylglycyl-l-asparagine human immunodeficiency virus 2//*//* 0.000967 * +EC3.4.23.47 lys-ala-arg-ile-nle-nph-glu-ala-nle-nh2 human immunodeficiency virus 2//*//* 0.00722 * +EC3.4.23.47 lys-ala-arg-val-nle-(4-nitrophenylalanine)-glu-ala-nle human immunodeficiency virus 2//*//* 6.4 * +EC3.4.23.47 lys-ala-arg-val-nle-p-nitrophenylalanine-glu-ala-nle-nh2 human immunodeficiency virus 2//*//* 5.3 * +EC3.4.23.47 mslnl pvakv human immunodeficiency virus 2//*//* 0.000333 * +EC3.4.23.47 nh2-atlnfpspw-cooh human immunodeficiency virus 2//*//* 3.0 * +EC3.4.23.47 rglaapqfsl human immunodeficiency virus 2//*//* 0.000717 * +EC3.4.23.47 rpqnflqsrp human immunodeficiency virus 2//*//* 5e-05 * +EC3.4.23.47 vlqnypivq human immunodeficiency virus 2//*//* 0.06 * +EC3.4.23.47 vsqlypivq human immunodeficiency virus 2//*//* 0.4 * +EC3.4.23.47 vsqnypivq human immunodeficiency virus 2//*//* 0.00213 * +EC3.4.23.47 vsqnyplvq human immunodeficiency virus 2//*//* 0.00303 * +EC3.4.23.47 vsqvypivq human immunodeficiency virus 2//*//* 2.6 * +EC3.4.23.47 vvqnypivq human immunodeficiency virus 2//*//* 0.16 * +EC3.4.23.48 plasminogen yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.0035 * +EC3.4.23.49 2-aminobenzoyl-akka-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2380.0 * +EC3.4.23.49 2-aminobenzoyl-akra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 738.0 * +EC3.4.23.49 2-aminobenzoyl-arka-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 612.0 * +EC3.4.23.49 2-aminobenzoyl-arra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 192.0 * +EC3.4.23.49 2-aminobenzoyl-irra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 84.0 * +EC3.4.23.49 2-aminobenzoyl-rra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 78.0 * +EC3.4.23.49 aminobenzoyl-ala-lys-lys-ala-3-(dinitrophenyl)diaminopropionic acid-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2400.0 * +EC3.4.23.49 elelykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 660.0 * +EC3.4.23.49 elrlykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3720.0 * +EC3.4.23.49 elrlyrnhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.4 * +EC3.4.23.49 elrlyrrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1560.0 * +EC3.4.23.49 human glu-plasminogen yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.0035 * +EC3.4.23.49 iaa-arg-arg-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC3.4.23.49 o-aminobenzoyl-ala-arg-arg-ala-3-nitrotyrosine-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2460.0 * +EC3.4.23.49 rlelykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 378.0 * +EC3.4.23.49 rlrlykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 372.0 * +EC3.4.23.49 wcarvgkgrgr-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.031 * +EC3.4.23.49 weeggrrigrggk-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.8 * +EC3.4.23.49 weeggrrigrggk escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.8 * +EC3.4.23.49 wlaakkgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC3.4.23.49 wlaarrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC3.4.23.49 wlaarrgrg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 900.0 * +EC3.4.23.49 wlaasrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC3.4.23.49 wlarrrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC3.4.23.49 wlatrrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC3.4.23.49 wlrarrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 37.0 * +EC3.4.23.49 wlsarrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 168.0 * +EC3.4.23.49 wlserrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.4.23.5 (7-methoxycoumarin-4-yl)acetyl-gly-lys-pro-ile-ile-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 59.6 * +EC3.4.23.5 (7-methoxycoumarin-4-yl)acetyl-gly-ser-pro-ala-phe-leu-ala-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.23.5 (7-methoxycoumarin-4-yl)acetyl-gly-ser-ser-ala-phe-leu-ala-phe-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC3.4.23.5 2-aminobenzoyl-aakffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.23.5 2-aminobenzoyl-aekffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.18 * +EC3.4.23.5 2-aminobenzoyl-aiaffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.3 * +EC3.4.23.5 2-aminobenzoyl-aieffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.48 * +EC3.4.23.5 2-aminobenzoyl-aiiffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.23.5 2-aminobenzoyl-aikffarq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC3.4.23.5 2-aminobenzoyl-aikfferq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikffirq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.23.5 2-aminobenzoyl-aikffkrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.23.5 2-aminobenzoyl-aikfflrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikffnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.23.5 2-aminobenzoyl-aikfforq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-aikffrrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.95 * +EC3.4.23.5 2-aminobenzoyl-aikffsa-(2,4-dinitrophenyl)-d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.16 * +EC3.4.23.5 2-aminobenzoyl-aikffsaq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.34 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnr-(2,4-dinitrophenyl)-d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnrhilrfnr-(2,4-dinitrophenyl)-d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnrhilrfnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.4.23.5 2-aminobenzoyl-aikffseq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.58 * +EC3.4.23.5 2-aminobenzoyl-aikffsiq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikffskq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-aikffslq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.23.5 2-aminobenzoyl-aikffsnq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.25 * +EC3.4.23.5 2-aminobenzoyl-aikffsoq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.88 * +EC3.4.23.5 2-aminobenzoyl-aikffspq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-aikffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.88 * +EC3.4.23.5 2-aminobenzoyl-aikffssq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.23.5 2-aminobenzoyl-aikffstq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.23.5 2-aminobenzoyl-aikffsvq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikfftrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikffvrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikfmsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-aiklfsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.15 * +EC3.4.23.5 2-aminobenzoyl-aikllsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.23.5 2-aminobenzoyl-aiklmsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-aikmflrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-aikmfsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.4.23.5 2-aminobenzoyl-aikmmsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-aikyysrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.23.5 2-aminobenzoyl-ailffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.8 * +EC3.4.23.5 2-aminobenzoyl-aimffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-ainffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.45 * +EC3.4.23.5 2-aminobenzoyl-aipffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.4.23.5 2-aminobenzoyl-aiqffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.4.23.5 2-aminobenzoyl-aisffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.78 * +EC3.4.23.5 2-aminobenzoyl-aitffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.53 * +EC3.4.23.5 2-aminobenzoyl-aivffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.23.5 2-aminobenzoyl-akkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.23.5 2-aminobenzoyl-alkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.97 * +EC3.4.23.5 2-aminobenzoyl-ankffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.85 * +EC3.4.23.5 2-aminobenzoyl-apkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.23.5 2-aminobenzoyl-aqkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC3.4.23.5 2-aminobenzoyl-askffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.23.5 2-aminobenzoyl-atkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.58 * +EC3.4.23.5 2-aminobenzoyl-avkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.78 * +EC3.4.23.5 2-aminobenzoyl-kitllsalvetrivrfnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.23.5 2-aminobenzoyl-kitllsalvetrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.23.5 2-aminobenzoyl-kitllsaq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.23.5 eeisevnldaefrg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.4 * +EC3.4.23.5 eeisevnldaefrg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 56.1 * +EC3.4.23.5 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.4.23.5 glu-glu-his-phe-phe-ala-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.23.5 glu-glu-his-phe-phe-ala-leu-methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.23.5 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 65.0 * +EC3.4.23.5 phe-ala-ala-(4-nitro)phe-phe-val-leu-4-hydroxymethylpyridine ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.9 * +EC3.4.23.5 phe-gly-gly-(4-nitro)phe-phe-val-leu-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.23.5 pro-pro-thr-ile-phe-(4-nitro)phe-arg-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 95.0 * +EC3.4.23.5 sevnldaefr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.8 * +EC3.4.23.5 sevnldaefr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 29.0 * +EC3.4.23.50 2-aminobenzoyl-ala-thr-his-gln-val-tyr-phe(no2)-val-arg-lys-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.37 * +EC3.4.23.50 lys-ala-arg-val-tyr-phe(no2)-glu-ala-nle-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.23.B10 gavslamt rous sarcoma virus//*//* 0.0483 * +EC3.4.23.B10 passlamt rous sarcoma virus//*//* 0.217 * +EC3.4.23.B10 pavslamt rous sarcoma virus//*//* 0.273 * +EC3.4.23.B10 pavylamt rous sarcoma virus//*//* 4.07 * +EC3.4.23.B10 pfvslamt rous sarcoma virus//*//* 0.248 * +EC3.4.23.B10 ppavslamtmrr rous sarcoma virus//*//* 0.36 * +EC3.4.23.B10 prkilfldgrr rous sarcoma virus//*//* 0.0217 * +EC3.4.23.B10 tscyhcgt rous sarcoma virus//*//* 0.147 * +EC3.4.23.B11 gsyvvncntkk human spumaretrovirus//*//* 0.003 * +EC3.4.23.B11 ihliaavkav human spumaretrovirus//*//* 0.002 * +EC3.4.23.B11 sravntvtos human spumaretrovirus//*//* 0.006 * +EC3.4.23.B11 sravntvtqs human spumaretrovirus//*//* 0.0053 * +EC3.4.23.B11 sravytitpe human spumaretrovirus//*//* 0.001 * +EC3.4.23.B11 vptinnvhts human spumaretrovirus//*//* 0.0002 * +EC3.4.23.B13 ala-thr-his-arg-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 3.1 * +EC3.4.23.B13 ala-thr-his-asn-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 2.0 * +EC3.4.23.B13 ala-thr-his-asp-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 1.4 * +EC3.4.23.B13 ala-thr-his-gln-ala-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.5 * +EC3.4.23.B13 ala-thr-his-gln-ile-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 2.0 * +EC3.4.23.B13 ala-thr-his-gln-leu-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.2 * +EC3.4.23.B13 ala-thr-his-gln-val-leu-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 4.0 * +EC3.4.23.B13 ala-thr-his-gln-val-phe-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 3.0 * +EC3.4.23.B13 ala-thr-his-gln-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 5.0 * +EC3.4.23.B13 ala-thr-his-glu-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 5.0 * +EC3.4.23.B13 ala-thr-his-tyr-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 11.0 * +EC3.4.23.B13 ala-thr-his-val-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 6.0 * +EC3.4.23.B13 ala-thr-pro-cys-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 3.0 * +EC3.4.23.B13 ala-thr-pro-gln-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 5.0 * +EC3.4.23.B14 kefaff(no2)alk plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 13.0 * +EC3.4.23.B14 kefnff(no2)alk plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 20.0 * +EC3.4.23.B14 kefvff(no2)alk plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.0 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 12.3 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium malariae//*//* 35.0 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium ovale//*//* 3.4 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 13.0 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 6.6 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium malariae//*//* 12.0 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium ovale//*//* 1.2 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 2.1 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 27.3 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium malariae//*//* 31.0 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium ovale//*//* 5.1 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 18.0 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 9.9 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium malariae//*//* 20.0 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium ovale//*//* 5.2 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 11.0 * +EC3.4.23.B14 kpidff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 13.6 * +EC3.4.23.B14 kpidff(no2)rl plasmodium malariae//*//* 29.0 * +EC3.4.23.B14 kpidff(no2)rl plasmodium ovale//*//* 3.0 * +EC3.4.23.B14 kpidff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 8.0 * +EC3.4.23.B14 kpieff(no2)al plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 8.7 * +EC3.4.23.B14 kpieff(no2)al plasmodium malariae//*//* 17.0 * +EC3.4.23.B14 kpieff(no2)al plasmodium ovale//*//* 37.0 * +EC3.4.23.B14 kpieff(no2)al plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 29.0 * +EC3.4.23.B14 kpieff(no2)el plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 27.3 * +EC3.4.23.B14 kpieff(no2)el plasmodium malariae//*//* 42.0 * +EC3.4.23.B14 kpieff(no2)el plasmodium ovale//*//* 5.4 * +EC3.4.23.B14 kpieff(no2)el plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 26.0 * +EC3.4.23.B14 kpieff(no2)kl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 14.7 * +EC3.4.23.B14 kpieff(no2)kl plasmodium malariae//*//* 5.0 * +EC3.4.23.B14 kpieff(no2)kl plasmodium ovale//*//* 8.1 * +EC3.4.23.B14 kpieff(no2)kl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 13.0 * +EC3.4.23.B14 kpieff(no2)rd plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 17.2 * +EC3.4.23.B14 kpieff(no2)rd plasmodium malariae//*//* 29.0 * +EC3.4.23.B14 kpieff(no2)rd plasmodium ovale//*//* 14.6 * +EC3.4.23.B14 kpieff(no2)rd plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 27.0 * +EC3.4.23.B14 kpieff(no2)ri plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 19.1 * +EC3.4.23.B14 kpieff(no2)ri plasmodium malariae//*//* 20.0 * +EC3.4.23.B14 kpieff(no2)ri plasmodium ovale//*//* 16.5 * +EC3.4.23.B14 kpieff(no2)ri plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 10.0 * +EC3.4.23.B14 kpieff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 14.8 * +EC3.4.23.B14 kpieff(no2)rl plasmodium malariae//*//* 50.0 * +EC3.4.23.B14 kpieff(no2)rl plasmodium ovale//*//* 6.1 * +EC3.4.23.B14 kpieff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 25.0 * +EC3.4.23.B14 kpieff(no2)rr plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 26.1 * +EC3.4.23.B14 kpieff(no2)rr plasmodium malariae//*//* 4.0 * +EC3.4.23.B14 kpieff(no2)rr plasmodium ovale//*//* 3.7 * +EC3.4.23.B14 kpieff(no2)rr plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 3.9 * +EC3.4.23.B14 kpieff(no2)rs plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 22.7 * +EC3.4.23.B14 kpieff(no2)rs plasmodium malariae//*//* 15.0 * +EC3.4.23.B14 kpieff(no2)rs plasmodium ovale//*//* 5.4 * +EC3.4.23.B14 kpieff(no2)rs plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 14.0 * +EC3.4.23.B14 kpieff(no2)rv plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 11.9 * +EC3.4.23.B14 kpieff(no2)rv plasmodium malariae//*//* 10.0 * +EC3.4.23.B14 kpieff(no2)rv plasmodium ovale//*//* 3.0 * +EC3.4.23.B14 kpieff(no2)rv plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 7.0 * +EC3.4.23.B14 kpieff(no2)sl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 20.8 * +EC3.4.23.B14 kpieff(no2)sl plasmodium malariae//*//* 6.4 * +EC3.4.23.B14 kpieff(no2)sl plasmodium ovale//*//* 2.0 * +EC3.4.23.B14 kpieff(no2)sl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 19.0 * +EC3.4.23.B14 kpieff(no2)vl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 8.4 * +EC3.4.23.B14 kpieff(no2)vl plasmodium malariae//*//* 0.9 * +EC3.4.23.B14 kpieff(no2)vl plasmodium ovale//*//* 5.5 * +EC3.4.23.B14 kpieff(no2)vl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 13.0 * +EC3.4.23.B14 kpiefzrl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.0 * +EC3.4.23.B14 kpikff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.1 * +EC3.4.23.B14 kpikff(no2)rl plasmodium malariae//*//* 5.4 * +EC3.4.23.B14 kpikff(no2)rl plasmodium ovale//*//* 4.5 * +EC3.4.23.B14 kpikff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 1.9 * +EC3.4.23.B14 kpilff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 20.5 * +EC3.4.23.B14 kpilff(no2)rl plasmodium malariae//*//* 20.0 * +EC3.4.23.B14 kpilff(no2)rl plasmodium ovale//*//* 11.0 * +EC3.4.23.B14 kpilff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 6.0 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.51 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium malariae//*//* 0.9 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium ovale//*//* 0.01 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.9 * +EC3.4.23.B14 kpseff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 18.5 * +EC3.4.23.B14 kpseff(no2)rl plasmodium malariae//*//* 12.0 * +EC3.4.23.B14 kpseff(no2)rl plasmodium ovale//*//* 2.4 * +EC3.4.23.B14 kpseff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 3.2 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 38.4 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium malariae//*//* 67.0 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium ovale//*//* 6.0 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 23.0 * +EC3.4.23.B2 ac-ala-thr-leu-asn-phe-pro-ile-ser-pro-ile-glu-nh2 simian immunodeficiency virus//*//* 0.6 * +EC3.4.23.B2 ac-arg-ala-ser-gln-asn-tyr-pro-val-val simian immunodeficiency virus//*//* 6.2 * +EC3.4.23.B2 ac-arg-lys-ile-leu-phe-leu-asp-gly-nh2 simian immunodeficiency virus//*//* 1.3 * +EC3.4.23.B2 ac-ser-gln-asn-tyr-pro-val-val-nh2 simian immunodeficiency virus//*//* 6.4 * +EC3.4.23.B24 dodecanoyl-ngevaka-4-methylcumaryl-7-amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.078 * +EC3.4.23.B3 aaqtcyncgk equine infectious anemia virus//*//* 0.2 * +EC3.4.23.B3 aklvlaqlsk equine infectious anemia virus//*//* 0.4 * +EC3.4.23.B3 apkvcfkckq equine infectious anemia virus//*//* 0.2 * +EC3.4.23.B3 gln-lys-2-aminohexanoic acid-2-aminohexanoic acid-leu-p-nitrophenylalanine-ala-lys-ala-leu equine infectious anemia virus//*//* 1.9 * +EC3.4.23.B3 keeimlayqg equine infectious anemia virus//*//* 2.5 * +EC3.4.23.B3 kmvkcfncgk equine infectious anemia virus//*//* 1.2 * +EC3.4.23.B3 kpikcwncgk equine infectious anemia virus//*//* 0.02 * +EC3.4.23.B3 lys-ala-arg-ile-2-aminohexanoic acid-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 3.1 * +EC3.4.23.B3 lys-ala-arg-val-2-aminohexanoic acid-p-nitrophenylalanine-asn-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 0.5 * +EC3.4.23.B3 lys-ala-arg-val-2-aminohexanoic acid-p-nitrophenylalanine-gln-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 2.6 * +EC3.4.23.B3 lys-ala-arg-val-2-aminohexanoic acid-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-gly-nh2 equine infectious anemia virus//*//* 8.2 * +EC3.4.23.B3 lys-ala-arg-val-2-aminohexanoic acid-p-nitrophenylalanine-thr-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 2.5 * +EC3.4.23.B3 lys-ala-arg-val-asn-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.1 * +EC3.4.23.B3 lys-ala-arg-val-leu-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-gly-nh2 equine infectious anemia virus//*//* 12.5 * +EC3.4.23.B3 lys-ala-arg-val-nal-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 1.6 * +EC3.4.23.B3 lys-ala-arg-val-phe-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-gly-nh2 equine infectious anemia virus//*//* 12.5 * +EC3.4.23.B3 lys-ala-arg-val-phe-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 4.2 * +EC3.4.23.B3 lys-ala-arg-val-trp-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.8 * +EC3.4.23.B3 pro-ser-glu-glu-tyr-pro-ile-2-aminohexanoic acid-ile-asn equine infectious anemia virus//*//* 1.7 * +EC3.4.23.B3 pseeypimid equine infectious anemia virus//*//* 6.1 * +EC3.4.23.B3 qkmmllakal equine infectious anemia virus//*//* 1.3 * +EC3.4.23.B3 qkqtfpiqqk equine infectious anemia virus//*//* 10.4 * +EC3.4.23.B3 sqnypivq equine infectious anemia virus//*//* 1.7 * +EC3.4.23.B3 vsqnypivq equine infectious anemia virus//*//* 3.7 * +EC3.4.23.B4 ala-leu-thr-lys-val-gln-val-val-gln-ser-lys-gly feline immunodeficiency virus//*//* 3.01 * +EC3.4.23.B4 arg-ala-leu-thr-lys-(4-aminobenzoic acid)-val-gln-phe-(no2)-val-gln-ser-lys-gly-arg-nh2 feline immunodeficiency virus//*//* 0.11 * +EC3.4.23.B4 ile-arg-lys-ile-leu-phe-leu-asp-gly feline immunodeficiency virus//*//* 1.81 * +EC3.4.23.B4 raltk(epsilon-abz)vqf(no2)vqskgr feline immunodeficiency virus//*//* 0.29 * +EC3.4.23.B5 apqvlpvmhp moloney murine leukemia virus//*//* 0.0963 * +EC3.4.23.B5 arg-glu(edans)-ser-gln-ala-phe-pro-leu-arg-ala-lys(dansyl)-arg-oh moloney murine leukemia virus//*//* 0.027 * +EC3.4.23.B5 delilpvkrk moloney murine leukemia virus//*//* 0.209 * +EC3.4.23.B5 dskaflatdw moloney murine leukemia virus//*//* 0.237 * +EC3.4.23.B5 ltftfpvvfmrr moloney murine leukemia virus//*//* 0.0882 * +EC3.4.23.B5 mskllatvvs moloney murine leukemia virus//*//* 0.439 * +EC3.4.23.B5 pkdifpvtet moloney murine leukemia virus//*//* 1.27 * +EC3.4.23.B5 plqvltlnierr moloney murine leukemia virus//*//* 0.07 * +EC3.4.23.B5 ppailpiise moloney murine leukemia virus//*//* 0.114 * +EC3.4.23.B5 prsslypaltp moloney murine leukemia virus//*//* 0.53 * +EC3.4.23.B5 pseeypimid moloney murine leukemia virus//*//* 0.415 * +EC3.4.23.B5 qnypiv moloney murine leukemia virus//*//* 0.017 * +EC3.4.23.B5 rsllypaltp xmrv//*//* 0.55 * +EC3.4.23.B5 sdlvllsaearr moloney murine leukemia virus//*//* 0.061 * +EC3.4.23.B5 sqnypiv moloney murine leukemia virus//*//* 0.455 * +EC3.4.23.B5 sqnypivq moloney murine leukemia virus//*//* 0.159 * +EC3.4.23.B5 tqtsllienss moloney murine leukemia virus//*//* 0.12 * +EC3.4.23.B5 tqtssltlddq moloney murine leukemia virus//*//* 0.114 * +EC3.4.23.B5 tsqafplrag moloney murine leukemia virus//*//* 0.714 * +EC3.4.23.B5 tstllienss moloney murine leukemia virus//*//* 0.294 * +EC3.4.23.B5 vaqnypivq moloney murine leukemia virus//*//* 0.262 * +EC3.4.23.B5 vfqnypivq moloney murine leukemia virus//*//* 0.101 * +EC3.4.23.B5 vgfagamaear moloney murine leukemia virus//*//* 0.08 * +EC3.4.23.B5 viqnypivq moloney murine leukemia virus//*//* 0.48 * +EC3.4.23.B5 visqnypivq moloney murine leukemia virus//*//* 0.478 * +EC3.4.23.B5 vkqnypivq moloney murine leukemia virus//*//* 0.042 * +EC3.4.23.B5 vlqnypivq moloney murine leukemia virus//*//* 0.0147 * +EC3.4.23.B5 vmqnypivq moloney murine leukemia virus//*//* 0.028 * +EC3.4.23.B5 vnqnypivq moloney murine leukemia virus//*//* 0.077 * +EC3.4.23.B5 vqalvltq moloney murine leukemia virus//*//* 0.35 * +EC3.4.23.B5 vsanypivq moloney murine leukemia virus//*//* 0.182 * +EC3.4.23.B5 vsdnypivq moloney murine leukemia virus//*//* 0.068 * +EC3.4.23.B5 vsfnypivq moloney murine leukemia virus//*//* 0.183 * +EC3.4.23.B5 vsgnypivq moloney murine leukemia virus//*//* 0.1 * +EC3.4.23.B5 vsknypivq moloney murine leukemia virus//*//* 0.466 * +EC3.4.23.B5 vslnypivq moloney murine leukemia virus//*//* 0.023 * +EC3.4.23.B5 vsnnypivq moloney murine leukemia virus//*//* 0.293 * +EC3.4.23.B5 vsqaypivq moloney murine leukemia virus//*//* 0.185 * +EC3.4.23.B5 vsqdypivq moloney murine leukemia virus//*//* 0.162 * +EC3.4.23.B5 vsqfypivq moloney murine leukemia virus//*//* 0.087 * +EC3.4.23.B5 vsqiypivq moloney murine leukemia virus//*//* 0.183 * +EC3.4.23.B5 vsqkypivq moloney murine leukemia virus//*//* 0.017 * +EC3.4.23.B5 vsqlnypivq moloney murine leukemia virus//*//* 0.241 * +EC3.4.23.B5 vsqnfpivq moloney murine leukemia virus//*//* 2.12 * +EC3.4.23.B5 vsqnlpivq moloney murine leukemia virus//*//* 0.037 * +EC3.4.23.B5 vsqnmpivq moloney murine leukemia virus//*//* 0.051 * +EC3.4.23.B5 vsqnypavq moloney murine leukemia virus//*//* 0.036 * +EC3.4.23.B5 vsqnypfvq moloney murine leukemia virus//*//* 0.0063 * +EC3.4.23.B5 vsqnypiaq moloney murine leukemia virus//*//* 0.267 * +EC3.4.23.B5 vsqnypieq moloney murine leukemia virus//*//* 0.124 * +EC3.4.23.B5 vsqnypifq moloney murine leukemia virus//*//* 0.094 * +EC3.4.23.B5 vsqnypiiq moloney murine leukemia virus//*//* 0.266 * +EC3.4.23.B5 vsqnypikq moloney murine leukemia virus//*//* 0.358 * +EC3.4.23.B5 vsqnypilq moloney murine leukemia virus//*//* 0.081 * +EC3.4.23.B5 vsqnypiqq moloney murine leukemia virus//*//* 0.209 * +EC3.4.23.B5 vsqnypirq moloney murine leukemia virus//*//* 0.3 * +EC3.4.23.B5 vsqnypisq moloney murine leukemia virus//*//* 0.15 * +EC3.4.23.B5 vsqnypiv moloney murine leukemia virus//*//* 0.852 * +EC3.4.23.B5 vsqnypivq moloney murine leukemia virus//*//* 0.55 * +EC3.4.23.B5 vsqnyplvq moloney murine leukemia virus//*//* 0.661 * +EC3.4.23.B5 vsqnypvvq moloney murine leukemia virus//*//* 0.345 * +EC3.4.23.B5 vsqtypivq moloney murine leukemia virus//*//* 0.304 * +EC3.4.23.B5 vsqvypivq moloney murine leukemia virus//*//* 0.054 * +EC3.4.23.B5 vsvnypivq moloney murine leukemia virus//*//* 0.011 * +EC3.4.23.B5 vtqnypivq moloney murine leukemia virus//*//* 0.393 * +EC3.4.23.B5 vvqnypivq moloney murine leukemia virus//*//* 0.549 * +EC3.4.23.B6 aptvmavvnp mason-pfizer monkey virus//*//* 4.65 * +EC3.4.23.B6 atpqvyf(no2)vrka mason-pfizer monkey virus//*//* 7.0 * +EC3.4.23.B6 iqvhyhrleq mason-pfizer monkey virus//*//* 0.43 * +EC3.4.23.B6 pkdifpvtet mason-pfizer monkey virus//*//* 7.6 * +EC3.4.23.B6 pkqaygavfv mason-pfizer monkey virus//*//* 7.7 * +EC3.4.23.B6 ssdiywvqpi mason-pfizer monkey virus//*//* 4.56 * +EC3.4.23.B8 (((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-f(no2)-vmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid) human t-lymphotropic virus 1//*//* 0.2 * +EC3.4.23.B8 (((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-pvmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid) human t-lymphotropic virus 1//*//* 0.2 * +EC3.4.23.B8 4-((4-dimethylaminophenylazo)benzoyl)-(gamma-aminobutyric acid)-pqvl-(4-nitro)phe-vmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid) human t-lymphotropic virus 1//*//* 0.2 * +EC3.4.23.B8 apqvlf(no2)vmhpl human t-lymphotropic virus 1//*//* 2.16 * +EC3.4.23.B8 apqvlpvmhp human t-lymphotropic virus 1//*//* 8.67 * +EC3.4.23.B8 apqvlpvmhphg human t-lymphotropic virus 1//*//* 0.143 * +EC3.4.23.B8 dabsyl-(gaba)-pqvlpvmh-edans human t-lymphotropic virus 1//*//* 0.0057 * +EC3.4.23.B8 dpasilpvip human t-lymphotropic virus 1//*//* 0.7 * +EC3.4.23.B8 kakvlvvqpk human t-lymphotropic virus 1//*//* 3.1 * +EC3.4.23.B8 kdkvlvvqpk human t-lymphotropic virus 1//*//* 1.1 * +EC3.4.23.B8 kgkvlvvqpk human t-lymphotropic virus 1//*//* 6.8 * +EC3.4.23.B8 kgppvilpiqap human t-lymphotropic virus 1//*//* 6.91 * +EC3.4.23.B8 klkvlvvqpk human t-lymphotropic virus 1//*//* 2.5 * +EC3.4.23.B8 kpkvlvvqpk human t-lymphotropic virus 1//*//* 2.3 * +EC3.4.23.B8 kskvlvvqpk human t-lymphotropic virus 1//*//* 9.2 * +EC3.4.23.B8 ktavlvvqpk human t-lymphotropic virus 1//*//* 2.4 * +EC3.4.23.B8 ktdvlvvqpk human t-lymphotropic virus 1//*//* 2.3 * +EC3.4.23.B8 ktfvlvvqpk human t-lymphotropic virus 1//*//* 0.44 * +EC3.4.23.B8 ktgvlvvqpk human t-lymphotropic virus 1//*//* 1.2 * +EC3.4.23.B8 ktkflvvqpk human t-lymphotropic virus 1//*//* 1.5 * +EC3.4.23.B8 ktkilvvqpk human t-lymphotropic virus 1//*//* 2.5 * +EC3.4.23.B8 ktkllvvqpk human t-lymphotropic virus 1//*//* 3.3 * +EC3.4.23.B8 ktkvavvqpk human t-lymphotropic virus 1//*//* 5.7 * +EC3.4.23.B8 ktkvfvvqpk human t-lymphotropic virus 1//*//* 16.4 * +EC3.4.23.B8 ktkvgvvqpk human t-lymphotropic virus 1//*//* 0.27 * +EC3.4.23.B8 ktkvlfvqpk human t-lymphotropic virus 1//*//* 0.36 * +EC3.4.23.B8 ktkvlivqpk human t-lymphotropic virus 1//*//* 1.5 * +EC3.4.23.B8 ktkvllvqpk human t-lymphotropic virus 1//*//* 3.7 * +EC3.4.23.B8 ktkvlvvqpk human t-lymphotropic virus 1//*//* 10.0 * +EC3.4.23.B8 ktkvmvvqpk human t-lymphotropic virus 1//*//* 4.1 * +EC3.4.23.B8 ktkvyvvqpk human t-lymphotropic virus 1//*//* 11.7 * +EC3.4.23.B8 ktlvlvvqpk human t-lymphotropic virus 1//*//* 0.52 * +EC3.4.23.B8 ktsvlvvqpk human t-lymphotropic virus 1//*//* 2.08 * +EC3.4.23.B8 ktvvlvvqpk human t-lymphotropic virus 1//*//* 0.48 * +EC3.4.23.B8 kvkvlvvqpk human t-lymphotropic virus 1//*//* 2.7 * +EC3.4.23.B8 n6-(7-methoxycoumarin-4-yl)acetyl-l-lys-l-ala-l-pro-l-gln-l-val-l-leu-4-nitro-l-phenylalanine-l-val-l-met-l-his-l-pro-l-leu human t-lymphotropic virus 1//*//* 0.64 * +EC3.4.23.B8 ppailpiise human t-lymphotropic virus 1//*//* 3.3 * +EC3.4.23.B8 ppvmgvldap human t-lymphotropic virus 1//*//* 0.00833 * +EC3.4.23.B8 pqvlpvmhp human t-lymphotropic virus 1//*//* 0.22 * +EC3.4.23.B8 tkvlvvqpk human t-lymphotropic virus 1//*//* 2.7 * +EC3.4.23.B8 vsqiypivq human t-lymphotropic virus 1//*//* 0.05 * +EC3.4.23.B8 vsqlypivq human t-lymphotropic virus 1//*//* 0.05 * +EC3.4.23.B8 vsqvypivq human t-lymphotropic virus 1//*//* 0.02 * +EC3.4.23.B8 yveptapqvlpvmhp human t-lymphotropic virus 1//*//* 0.184 * +EC3.4.23.B9 apqvlpvmhp bovine leukemia virus//*//* 0.07 * +EC3.4.23.B9 kakvlvvqpk bovine leukemia virus//*//* 0.22 * +EC3.4.23.B9 kdkvlvvqpk bovine leukemia virus//*//* 0.9 * +EC3.4.23.B9 kgkvlvvqpk bovine leukemia virus//*//* 0.58 * +EC3.4.23.B9 kgppvilpiqap bovine leukemia virus//*//* 0.02 * +EC3.4.23.B9 klkvlvvqpk bovine leukemia virus//*//* 0.74 * +EC3.4.23.B9 kpkvlvvqpk bovine leukemia virus//*//* 0.16 * +EC3.4.23.B9 kqpailvhtpg bovine leukemia virus//*//* 0.18 * +EC3.4.23.B9 kskvlvvqpk bovine leukemia virus//*//* 0.19 * +EC3.4.23.B9 ktavlvvqpk bovine leukemia virus//*//* 0.18 * +EC3.4.23.B9 ktdvlvvqpk bovine leukemia virus//*//* 0.17 * +EC3.4.23.B9 ktfvlvvqpk bovine leukemia virus//*//* 0.44 * +EC3.4.23.B9 ktgvlvvqpk bovine leukemia virus//*//* 0.74 * +EC3.4.23.B9 ktkalvvqpk bovine leukemia virus//*//* 0.35 * +EC3.4.23.B9 ktkdlvvqpk bovine leukemia virus//*//* 0.07 * +EC3.4.23.B9 ktkflvvqpk bovine leukemia virus//*//* 0.32 * +EC3.4.23.B9 ktkglvvqpk bovine leukemia virus//*//* 0.19 * +EC3.4.23.B9 ktkilvvqpk bovine leukemia virus//*//* 0.29 * +EC3.4.23.B9 ktkllvvqpk bovine leukemia virus//*//* 0.29 * +EC3.4.23.B9 ktknlvvqpk bovine leukemia virus//*//* 0.13 * +EC3.4.23.B9 ktkslvvqpk bovine leukemia virus//*//* 0.35 * +EC3.4.23.B9 ktkvavvqpk bovine leukemia virus//*//* 0.34 * +EC3.4.23.B9 ktkvdvvqpk bovine leukemia virus//*//* 0.11 * +EC3.4.23.B9 ktkvfvvqpk bovine leukemia virus//*//* 2.0 * +EC3.4.23.B9 ktkvgvvqpk bovine leukemia virus//*//* 0.09 * +EC3.4.23.B9 ktkvldvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktkvlfvqpk bovine leukemia virus//*//* 0.28 * +EC3.4.23.B9 ktkvlgvqpk bovine leukemia virus//*//* 0.12 * +EC3.4.23.B9 ktkvlivqpk bovine leukemia virus//*//* 0.23 * +EC3.4.23.B9 ktkvlkvqpk bovine leukemia virus//*//* 0.36 * +EC3.4.23.B9 ktkvllvqpk bovine leukemia virus//*//* 0.34 * +EC3.4.23.B9 ktkvlpvqpk bovine leukemia virus//*//* 0.85 * +EC3.4.23.B9 ktkvlsvqpk bovine leukemia virus//*//* 0.18 * +EC3.4.23.B9 ktkvlvvqpk bovine leukemia virus//*//* 0.27 * +EC3.4.23.B9 ktkvmvvqpk bovine leukemia virus//*//* 0.24 * +EC3.4.23.B9 ktkvsvvqpk bovine leukemia virus//*//* 0.11 * +EC3.4.23.B9 ktkvyvvqpk bovine leukemia virus//*//* 0.74 * +EC3.4.23.B9 ktlvlvvqpk bovine leukemia virus//*//* 0.11 * +EC3.4.23.B9 ktsvlvvqpk bovine leukemia virus//*//* 0.2 * +EC3.4.23.B9 ktvvlvvqpk bovine leukemia virus//*//* 0.13 * +EC3.4.23.B9 kvkvlvvqpk bovine leukemia virus//*//* 0.2 * +EC3.4.23.B9 kvlvvqpk bovine leukemia virus//*//* 0.71 * +EC3.4.23.B9 ppailpiise bovine leukemia virus//*//* 0.04 * +EC3.4.23.B9 ppmvgvldap bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 tkvlvvqpk bovine leukemia virus//*//* 0.35 * +EC3.4.24.11 adrenocorticotropic hormone lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.7 * +EC3.4.24.11 alpha-endorphin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.9 * +EC3.4.24.11 alpha-neoendorphin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 44.6 * +EC3.4.24.11 amyloid beta peptide1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC3.4.24.11 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0551 * +EC3.4.24.11 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC3.4.24.11 angiotensin(1-9) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 41.8 * +EC3.4.24.11 angiotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC3.4.24.11 arg-vasopressin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.24.11 benzoyl-gly-gly-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.24.11 benzyloxycarbonyl-ala-gly-leu-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 46.4 * +EC3.4.24.11 beta-endorphin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 26.0 * +EC3.4.24.11 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC3.4.24.11 bradykinin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.3 * +EC3.4.24.11 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 106.0 * +EC3.4.24.11 d-ala2-leu5-enkephalin canis lupus familiaris//*//* 20.7 * +EC3.4.24.11 d-ala2-leu5-enkephalin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1020.0 * +EC3.4.24.11 dansyl-gly-trp-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC3.4.24.11 dansyl-gly-tyr-gly-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.13 * +EC3.4.24.11 dansyl-gly-tyr-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.1 * +EC3.4.24.11 dynorphin a-10 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 23.8 * +EC3.4.24.11 dynorphin a-13 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 18.6 * +EC3.4.24.11 dynorphin a-17 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 25.4 * +EC3.4.24.11 dynorphin a-6 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 14.0 * +EC3.4.24.11 dynorphin a-8 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 19.6 * +EC3.4.24.11 dynorphin a-9 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 32.2 * +EC3.4.24.11 endothelin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.68 * +EC3.4.24.11 gamma-endorphin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.4.24.11 gastri-releasing peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC3.4.24.11 gastrin g-17 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC3.4.24.11 glp-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.24.11 glucagon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.4.24.11 glutaryl-ala-ala-phe-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.87 * +EC3.4.24.11 glutaryl-ala-ala-phe-4-methoxy-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.28 * +EC3.4.24.11 glutaryl-ala-ala-phe-4-methoxy-2-naphthylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 58.2 * +EC3.4.24.11 glutaryl-gly-gly-phe-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 43.7 * +EC3.4.24.11 gly-trp-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.883 * +EC3.4.24.11 hippuryl-arg-arg-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.83 * +EC3.4.24.11 hippuryl-arg-arg-leu-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 72.0 * +EC3.4.24.11 leu-enkephalin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 15.0 * +EC3.4.24.11 leu-enkephalinamide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 8.2 * +EC3.4.24.11 luteinizing hormone-releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.0 * +EC3.4.24.11 met-enkephalin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 7.8 * +EC3.4.24.11 met-enkephalinamide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.5 * +EC3.4.24.11 n-acetyl-gly-trp-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.63 * +EC3.4.24.11 n-benzyoxycarbonyl-gly-gly-leu 2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.105 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-arg-ala-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.147 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.0 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-arg-phe-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0483 * +EC3.4.24.11 nalpha-benzoyl-gly-lys-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.82 * +EC3.4.24.11 nalpha-benzoyl-gly-lys-lys-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.383 * +EC3.4.24.11 neurokinin a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.4.24.11 neurokinin b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC3.4.24.11 neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.4.24.11 nociceptin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.24.11 somatostatin 14 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC3.4.24.11 somatostatin 28 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.1 * +EC3.4.24.11 substance p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC3.4.24.11 substance p lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 28.0 * +EC3.4.24.11 substance p rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 84.3 * +EC3.4.24.11 substance p sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 84.4 * +EC3.4.24.11 succinyl-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.32 * +EC3.4.24.11 sulfated cholecystokinin octapeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.1 * +EC3.4.24.11 tyr-d-ala-gly-phe-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 42.0 * +EC3.4.24.11 tyr-d-ala-gly-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.4 * +EC3.4.24.11 tyr-gly-gly-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 21.1 * +EC3.4.24.11 unsulfated cholecystokinin octapeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.6 * +EC3.4.24.11 vasoactive intestinal peptide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.8 * +EC3.4.24.12 dimethylated casein paracentrotus lividus//*//* 180.0 * +EC3.4.24.12 dimethylated casein strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 0.72 * +EC3.4.24.14 procollagen i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC3.4.24.14 procollagen i gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0967 * +EC3.4.24.15 (7-methoxycoumarin-4-yl)acetyl-glu-his-trp-ser-tyr-gly-leu-arg-pro-oh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.2 * +EC3.4.24.15 (7-methoxycoumarin-4-yl)acetyl-leu-glu-asn-lys-pro-arg-arg-pro-lys(dnp)-oh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC3.4.24.15 (o-aminobenzoyl)-afspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.8 * +EC3.4.24.15 (o-aminobenzoyl)-dfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC3.4.24.15 (o-aminobenzoyl)-efspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (o-aminobenzoyl)-ffspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC3.4.24.15 (o-aminobenzoyl)-gaspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.24.15 (o-aminobenzoyl)-gdspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.4.24.15 (o-aminobenzoyl)-gespfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.8 * +EC3.4.24.15 (o-aminobenzoyl)-gfapfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC3.4.24.15 (o-aminobenzoyl)-gfdpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.4.24.15 (o-aminobenzoyl)-gfepfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.4.24.15 (o-aminobenzoyl)-gffpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfhpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (o-aminobenzoyl)-gfipfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.9 * +EC3.4.24.15 (o-aminobenzoyl)-gflpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.4.24.15 (o-aminobenzoyl)-gfnpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.24.15 (o-aminobenzoyl)-gfppfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC3.4.24.15 (o-aminobenzoyl)-gfqpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC3.4.24.15 (o-aminobenzoyl)-gfrpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC3.4.24.15 (o-aminobenzoyl)-gfsafrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.2 * +EC3.4.24.15 (o-aminobenzoyl)-gfsdfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.7 * +EC3.4.24.15 (o-aminobenzoyl)-gfsefrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.4.24.15 (o-aminobenzoyl)-gfsffrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.7 * +EC3.4.24.15 (o-aminobenzoyl)-gfshfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.0 * +EC3.4.24.15 (o-aminobenzoyl)-gfslfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.4.24.15 (o-aminobenzoyl)-gfsnfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.9 * +EC3.4.24.15 (o-aminobenzoyl)-gfsparq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.5 * +EC3.4.24.15 (o-aminobenzoyl)-gfspdrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.9 * +EC3.4.24.15 (o-aminobenzoyl)-gfsperq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfaq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfdq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfeq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.8 * +EC3.4.24.15 (o-aminobenzoyl)-gfspffq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfhq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfiq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.1 * +EC3.4.24.15 (o-aminobenzoyl)-gfspflq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfnq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.9 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.0 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfqq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfra-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.5 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfre-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrf-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.1 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfri-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrl-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.8 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrn-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrp-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrr-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrs-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfsq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC3.4.24.15 (o-aminobenzoyl)-gfsphrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfspirq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.9 * +EC3.4.24.15 (o-aminobenzoyl)-gfsplrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (o-aminobenzoyl)-gfspnrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.1 * +EC3.4.24.15 (o-aminobenzoyl)-gfspqrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfsprrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.4.24.15 (o-aminobenzoyl)-gfspsrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 21.5 * +EC3.4.24.15 (o-aminobenzoyl)-gfsqfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.24.15 (o-aminobenzoyl)-gfsrfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC3.4.24.15 (o-aminobenzoyl)-gfssfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.8 * +EC3.4.24.15 (o-aminobenzoyl)-gfsxfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrraq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.2 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrdq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrreq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrfq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrhq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrriq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrlq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.5 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrnq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrv-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrvq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrryq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.4.24.15 (o-aminobenzoyl)-ghspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.5 * +EC3.4.24.15 (o-aminobenzoyl)-gispfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.4 * +EC3.4.24.15 (o-aminobenzoyl)-glspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.5 * +EC3.4.24.15 (o-aminobenzoyl)-gnspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2 * +EC3.4.24.15 (o-aminobenzoyl)-gpspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.5 * +EC3.4.24.15 (o-aminobenzoyl)-gqspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC3.4.24.15 (o-aminobenzoyl)-grspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.3 * +EC3.4.24.15 (o-aminobenzoyl)-gsspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.2 * +EC3.4.24.15 (o-aminobenzoyl)-hfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC3.4.24.15 (o-aminobenzoyl)-ifspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (o-aminobenzoyl)-lfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC3.4.24.15 (o-aminobenzoyl)-nfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.4.24.15 (o-aminobenzoyl)-qfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC3.4.24.15 (o-aminobenzoyl)-rfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC3.4.24.15 (o-aminobenzoyl)-sfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.08 * +EC3.4.24.15 (ortho-aminobenzoyl)-akprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC3.4.24.15 (ortho-aminobenzoyl)-enkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.2 * +EC3.4.24.15 (ortho-aminobenzoyl)-ggflprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC3.4.24.15 (ortho-aminobenzoyl)-kprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC3.4.24.15 (ortho-aminobenzoyl)-lyenkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.24.15 (ortho-aminobenzoyl)-naprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.6 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkarrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkparpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkprapq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.7 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkprraq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.4.24.15 2-aminobenzoyl-gfspfrq-(n-2,4-dinitrophenyl)ethylenediamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-(l-ala-l-lys(2,4-dinitrophenyl))-bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.07 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-[ala7, lys(dinitrophenol)9]-bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-pro-leu-gly-pro-lys-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-pro-leu-gly-pro-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.9 * +EC3.4.24.15 abz-gfsafrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.1 * +EC3.4.24.15 abz-gfsafrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.2 * +EC3.4.24.15 abz-gfsdfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.24.15 abz-gfsefrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.24.15 abz-gfsefrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.24.15 abz-gfsffrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.24.15 abz-gfsffrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.7 * +EC3.4.24.15 abz-gfshfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC3.4.24.15 abz-gfshfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.7 * +EC3.4.24.15 abz-gfsifrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.24.15 abz-gfsifrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.4.24.15 abz-gfslfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.4.24.15 abz-gfsparq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.24.15 abz-gfspdrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.24.15 abz-gfsperq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.24.15 abz-gfspfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.24.15 abz-gfsphrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.24.15 abz-gfspirq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.24.15 abz-gfsplrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.24.15 abz-gfspqrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.24.15 abz-gfsprrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.4.24.15 abz-gfspsrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.24.15 abz-gfsqfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.4.24.15 abz-gfsqfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC3.4.24.15 abz-gfsrfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.1 * +EC3.4.24.15 abz-gfsrfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.0 * +EC3.4.24.15 abz-gfssfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC3.4.24.15 abz-gfssfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.8 * +EC3.4.24.15 abz-gfswfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.24.15 abz-gfswfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.4.24.15 abz-gfsyfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.2 * +EC3.4.24.15 arg-pro-pro-gly-phe-ser-pro-phe-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.8 * +EC3.4.24.15 benzoyl-gly-ala-ala-gly-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.15 * +EC3.4.24.15 benzoyl-gly-ala-ala-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC3.4.24.15 benzoyl-gly-ala-ala-leu-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC3.4.24.15 benzoyl-gly-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 179.0 * +EC3.4.24.15 benzoyl-gly-arg-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.25 * +EC3.4.24.15 benzoyl-gly-asp-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.4.24.15 benzoyl-gly-gly-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.54 * +EC3.4.24.15 benzoyl-gly-lys-arg-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.1 * +EC3.4.24.15 benzoyl-gly-phe-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.6 * +EC3.4.24.15 benzoyl-gly-phe-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.2 * +EC3.4.24.15 benzoyl-gly-phe-phe-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.2 * +EC3.4.24.15 neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.24.15 pglu-his-trp-ser-tyr-gly-leu-arg-pro-gly-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC3.4.24.15 pglu-leu-tyr-glu-asn-lys-pro-arg-arg-pro-tyr-ile-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.9 * +EC3.4.24.15 tert-butoxycarbonyl-phe-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 94.1 * +EC3.4.24.15 tyr-gly-gly-phe-leu-arg-arg-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 86.4 * +EC3.4.24.15 tyr-gly-gly-phe-leu-arg-lys-tyr-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 37.9 * +EC3.4.24.16 (7-methoxy-coumarin-4-yl)acetyl-rpkpve-nva-wrk(2,4-dinitrophenyl)-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC3.4.24.16 (7-methoxy-coumarin-4-yl)acetyl-rpkpya-nva-wmk(2,4-dinitrophenyl)-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.4.24.16 (7-methoxycoumarin-4-yl)acetyl-gly-gly-phe-ile-arg-arg-ala-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.9 * +EC3.4.24.16 (7-methoxycoumarin-4-yl)acetyl-gly-gly-phe-leu-arg-arg-ala-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.4.24.16 (o-aminobenzoyl)-afspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.27 * +EC3.4.24.16 (o-aminobenzoyl)-akprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00497 * +EC3.4.24.16 (o-aminobenzoyl)-dfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC3.4.24.16 (o-aminobenzoyl)-efspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.4.24.16 (o-aminobenzoyl)-enkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.35 * +EC3.4.24.16 (o-aminobenzoyl)-ffspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC3.4.24.16 (o-aminobenzoyl)-gaspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC3.4.24.16 (o-aminobenzoyl)-gdspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.34 * +EC3.4.24.16 (o-aminobenzoyl)-gespfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfapfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.4.24.16 (o-aminobenzoyl)-gfdpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC3.4.24.16 (o-aminobenzoyl)-gfepfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.07 * +EC3.4.24.16 (o-aminobenzoyl)-gffpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfhpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfipfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.27 * +EC3.4.24.16 (o-aminobenzoyl)-gflpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC3.4.24.16 (o-aminobenzoyl)-gfnpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfppfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfqpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.39 * +EC3.4.24.16 (o-aminobenzoyl)-gfrpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfsafrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.6 * +EC3.4.24.16 (o-aminobenzoyl)-gfsdfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC3.4.24.16 (o-aminobenzoyl)-gfsefrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.19 * +EC3.4.24.16 (o-aminobenzoyl)-gfsffrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.4 * +EC3.4.24.16 (o-aminobenzoyl)-gfshfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.8 * +EC3.4.24.16 (o-aminobenzoyl)-gfsifrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.22 * +EC3.4.24.16 (o-aminobenzoyl)-gfslfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.5 * +EC3.4.24.16 (o-aminobenzoyl)-gfsnfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.8 * +EC3.4.24.16 (o-aminobenzoyl)-gfsparq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.4.24.16 (o-aminobenzoyl)-gfspdrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC3.4.24.16 (o-aminobenzoyl)-gfsperq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.65 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfaq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfdq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfeq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC3.4.24.16 (o-aminobenzoyl)-gfspffq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfhq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfiq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfspflq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.9 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfnq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfqq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfra-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfre-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrf-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfri-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.9 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrl-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.4 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrn-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.9 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrp-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrr-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrs-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfsq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC3.4.24.16 (o-aminobenzoyl)-gfsphrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.19 * +EC3.4.24.16 (o-aminobenzoyl)-gfspirq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfsplrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC3.4.24.16 (o-aminobenzoyl)-gfspnrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfspprq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC3.4.24.16 (o-aminobenzoyl)-gfspqrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.6 * +EC3.4.24.16 (o-aminobenzoyl)-gfsprrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.42 * +EC3.4.24.16 (o-aminobenzoyl)-gfspsrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC3.4.24.16 (o-aminobenzoyl)-gfsqfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 (o-aminobenzoyl)-gfsrfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC3.4.24.16 (o-aminobenzoyl)-gfssfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.5 * +EC3.4.24.16 (o-aminobenzoyl)-gfsxfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.6 * +EC3.4.24.16 (o-aminobenzoyl)-ggflprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.94 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrraq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.2 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrdq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrreq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrfq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrhq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrriq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrlq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.5 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrnq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrv-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrvq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrryq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.4.24.16 (o-aminobenzoyl)-ghspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.95 * +EC3.4.24.16 (o-aminobenzoyl)-gispfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.6 * +EC3.4.24.16 (o-aminobenzoyl)-glspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.2 * +EC3.4.24.16 (o-aminobenzoyl)-gnspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC3.4.24.16 (o-aminobenzoyl)-gpspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.2 * +EC3.4.24.16 (o-aminobenzoyl)-gqspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.9 * +EC3.4.24.16 (o-aminobenzoyl)-grspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.4 * +EC3.4.24.16 (o-aminobenzoyl)-gsspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.4.24.16 (o-aminobenzoyl)-hfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.2 * +EC3.4.24.16 (o-aminobenzoyl)-ifspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC3.4.24.16 (o-aminobenzoyl)-kprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.4.24.16 (o-aminobenzoyl)-lfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC3.4.24.16 (o-aminobenzoyl)-lyenkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.8 * +EC3.4.24.16 (o-aminobenzoyl)-naprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00697 * +EC3.4.24.16 (o-aminobenzoyl)-nfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.24.16 (o-aminobenzoyl)-nkarrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00576 * +EC3.4.24.16 (o-aminobenzoyl)-nkparpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00123 * +EC3.4.24.16 (o-aminobenzoyl)-nkprapq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC3.4.24.16 (o-aminobenzoyl)-nkprraq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00124 * +EC3.4.24.16 (o-aminobenzoyl)-nkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.0 * +EC3.4.24.16 (o-aminobenzoyl)-qfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.39 * +EC3.4.24.16 (o-aminobenzoyl)-rfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.27 * +EC3.4.24.16 (o-aminobenzoyl)-sfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.4.24.16 2-aminobenzoyl-gfspfrq-(n-2,4-dinitrophenyl)ethylenediamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.24.16 abz-gfsafrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC3.4.24.16 abz-gfsefrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.4.24.16 abz-gfsffrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.4.24.16 abz-gfshfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.24.16 abz-gfsifrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.24.16 abz-gfslfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.5 * +EC3.4.24.16 abz-gfsqfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.6 * +EC3.4.24.16 abz-gfsrfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.8 * +EC3.4.24.16 abz-gfssfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.5 * +EC3.4.24.16 abz-gfswfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.24.16 abz-gfsyfrqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.4.24.16 neurotensin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg-arg-ile-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg-arg-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.52 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.94 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.827 * +EC3.4.24.17 (7-methoxycoumarin-4-yl)acetyl-arg-pro-lys-pro-tyr-ala-norvaline-trp-met-lys(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.95 * +EC3.4.24.17 (7-methoxycoumarin-4-yl)acetyl-arg-pro-lys-pro-val-glu-norvaline-trp-arg-lys(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC3.4.24.17 (7-methoxycoumarin-4-yl)acetyl-pro-lys-pro-gln-gln-phe-phe-gly-leu-lys-(2,4-dinitrophenyl)-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.4.24.17 2,4-dinitrophenyl-pro-tyr-ala-tyr-trp-met-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.4.24.17 acetyl-pro-leu-gly-thioester-leu-leu-gly ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.12 * +EC3.4.24.17 arg-pro-lys-pro-gln-gln-phe-phe-gly-leu-nle-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.35 * +EC3.4.24.17 beta-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC3.4.24.18 2-aminobenzoyl-arg-gly-pro-phe-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC3.4.24.18 2-aminobenzoyl-arg-hyp-gly-phe-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.7 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-ala-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 98.5 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-glu-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.9 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-leu-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.0 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-lys-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.4 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-ile-phe-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 133.0 * +EC3.4.24.18 alpha-msh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.5 * +EC3.4.24.18 alpha-msh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 45.4 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-ala-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 51.5 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-arg-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 19.6 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-lys-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.0 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-phe-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.6 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-ser-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 40.9 * +EC3.4.24.18 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.24.18 bradykinin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 22.0 * +EC3.4.24.18 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.4 * +EC3.4.24.18 cholecystokinin 8-sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.6 * +EC3.4.24.18 gastrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.24.18 glucagon mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 17.4 * +EC3.4.24.18 orcokinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3 * +EC3.4.24.18 parathyphoid hormone 12-34 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC3.4.24.18 protein grp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.6 * +EC3.4.24.18 protein grp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 24.6 * +EC3.4.24.18 protein lhrh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC3.4.24.18 protein lhrh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 39.4 * +EC3.4.24.18 protein pth12-34 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 10.5 * +EC3.4.24.18 secretin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.4 * +EC3.4.24.18 secretin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.8 * +EC3.4.24.18 substance p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC3.4.24.18 substance p mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.1 * +EC3.4.24.18 valosin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 18.8 * +EC3.4.24.19 procollagen type i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC3.4.24.20 2,4-dinitrophenyl-adklsw grifola frondosa//*//* 1.3 * +EC3.4.24.20 2,4-dinitrophenyl-apklsw grifola frondosa//*//* 5.5 * +EC3.4.24.20 2,4-dinitrophenyl-arklsw grifola frondosa//*//* 54.7 * +EC3.4.24.20 2,4-dinitrophenyl-atkdsw grifola frondosa//*//* 0.25 * +EC3.4.24.20 2,4-dinitrophenyl-atklstsw grifola frondosa//*//* 17.6 * +EC3.4.24.20 2,4-dinitrophenyl-atklsw grifola frondosa//*//* 3.0 * +EC3.4.24.20 2,4-dinitrophenyl-atkrsw grifola frondosa//*//* 3.7 * +EC3.4.24.20 2,4-dinitrophenyl-dadklsw grifola frondosa//*//* 0.12 * +EC3.4.24.20 2,4-dinitrophenyl-datklsw grifola frondosa//*//* 5.1 * +EC3.4.24.20 2,4-dinitrophenyl-statklsw grifola frondosa//*//* 21.0 * +EC3.4.24.21 2-aminobenzoyl-arg-gly-pro-phe-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 7.1 * +EC3.4.24.21 2-aminobenzoyl-arg-hyp-gly-phe-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 15.1 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-ala-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 44.4 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-glu-ser-pro-4-nitrophenylalanine-arg astacus astacus//*//* 2.8 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-leu-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 14.3 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-lys-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 3.6 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-ile-phe-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 78.4 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-ala-pro-phe-arg astacus astacus//*//* 834.0 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-arg-pro-phe-arg astacus astacus//*//* 0.002 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-lys-pro-phe-arg astacus astacus//*//* 0.001 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-phe-pro-phe-arg astacus astacus//*//* 0.004 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-ser-pro-phe-arg astacus astacus//*//* 78.7 * +EC3.4.24.21 azocasein steinernema carpocapsae//*//* 27.9 * +EC3.4.24.21 dansyl-ala-ala-arg-ala-pro-leu-val astacus astacus//*//* 200.0 * +EC3.4.24.21 dansyl-arg-ala-pro-leu astacus astacus//*//* 0.035 * +EC3.4.24.21 dansyl-gly-arg-arg-ala-pro-leu-gly astacus astacus//*//* 34.0 * +EC3.4.24.21 dansyl-gly-arg-arg-ala-ser-leu-gly astacus astacus//*//* 0.7 * +EC3.4.24.21 dansyl-gly-gly-arg-ala-pro-trp-val astacus astacus//*//* 20.0 * +EC3.4.24.21 dansyl-gly-lys-arg-ala-pro-leu-val astacus astacus//*//* 2.3 * +EC3.4.24.21 dansyl-gly-lys-arg-ala-pro-trp-val astacus astacus//*//* 2.2 * +EC3.4.24.21 dansyl-gly-lys-asn-ala-pro-leu-val astacus astacus//*//* 56.0 * +EC3.4.24.21 dansyl-gly-lys-tyr-ala-pro-trp-val astacus astacus//*//* 40.0 * +EC3.4.24.21 dansyl-gly-pro-arg-ala-pro-leu-val astacus astacus//*//* 20.0 * +EC3.4.24.21 dansyl-his-his-leu-lys-arg-ala-pro-trp-val astacus astacus//*//* 310.0 * +EC3.4.24.21 dansyl-leu-arg-arg-ala-pro-leu-gly astacus astacus//*//* 130.0 * +EC3.4.24.21 dansyl-leu-arg-arg-ala-ser-leu-gly astacus astacus//*//* 2.7 * +EC3.4.24.21 dansyl-leu-lys-arg-ala-pro-leu-val astacus astacus//*//* 120.0 * +EC3.4.24.21 dansyl-leu-lys-arg-ala-pro-leu astacus astacus//*//* 43.0 * +EC3.4.24.21 dansyl-leu-lys-arg-ala-pro-trp-val astacus astacus//*//* 210.0 * +EC3.4.24.21 dansyl-leu-lys-asn-ala-pro-leu-val astacus astacus//*//* 180.0 * +EC3.4.24.21 dansyl-leu-lys-lys-ala-pro-trp-val astacus astacus//*//* 210.0 * +EC3.4.24.21 dansyl-leu-lys-tyr-ala-pro-trp-val astacus astacus//*//* 67.0 * +EC3.4.24.21 dansyl-lys-arg-ala-pro-leu astacus astacus//*//* 40.0 * +EC3.4.24.21 dansyl-pro-lys-arg-ala-pro-trp-val astacus astacus//*//* 380.0 * +EC3.4.24.21 dansyl-val-lys-arg-ala-pro-trp-val astacus astacus//*//* 190.0 * +EC3.4.24.22 (7-methoxycoumarin-4-yl)acetyl-arg-pro-lys-pro-val-glu-norvaline-trp-arg-lys(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.4.24.23 (7-methoxycoumarin-4-yl)acetyl-lpro-l-leu-gly-l-leu-[n3-(2,4-dinitrophenyl)-l-2,3-diaminopropionyl]-l-ala-l-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.43 * +EC3.4.24.23 2,4-dinitrophenyl-arg-pro-leu-ala-leu-trp-arg-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.4.24.23 2,4-dinitrophenyl-pro-leu-gly-leu-trp-ala-d-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.24.23 dansyl-plalwar homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.24.23 gly-pro-gln-ala-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.472 * +EC3.4.24.23 gly-pro-gln-gly-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.222 * +EC3.4.24.23 gly-pro-gln-gly-ile-ala-met-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.17 * +EC3.4.24.23 gly-pro-gln-gly-leu-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.47 * +EC3.4.24.23 gly-pro-met-gly-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.92 * +EC3.4.24.24 ac-pro-leu-gly-[2-mercapto-4-methylpentanoyl]-leu-gly-oet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.5 * +EC3.4.24.24 acetyl-pro-leu-gly-thioester-leu-leu-gly ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.24.24 alpha1(v)436-447 fthp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0616 * +EC3.4.24.24 collagen i gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0045 * +EC3.4.24.24 dnp-pro-beta-cyclohexyl-ala-gly-cys(me)-his-ala-lys(n-me-abz)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC3.4.24.24 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 36.4 * +EC3.4.24.24 fthp-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.24.24 gly-pro-gln-gly-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.69 * +EC3.4.24.24 gly-pro-gln-gly-ile-ala-ser-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.24.24 gly-pro-gln-gly-ile-phe-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.33 * +EC3.4.24.24 gly-pro-gln-gly-ile-trp-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.612 * +EC3.4.24.24 mca-pro-leu-gly-leu-dap-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.24.24 moacplgla2pr(dnp)-ar-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.18 * +EC3.4.24.24 peptide a13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 105.0 * +EC3.4.24.24 peptide a13p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 204.0 * +EC3.4.24.24 peptide a13r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.24.24 peptide a21 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 124.0 * +EC3.4.24.24 peptide a21a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 601.0 * +EC3.4.24.24 peptide a3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 400.0 * +EC3.4.24.24 peptide a34 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 202.0 * +EC3.4.24.24 peptide b37 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 353.0 * +EC3.4.24.24 peptide b49 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 510.0 * +EC3.4.24.24 peptide b74 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 622.0 * +EC3.4.24.24 peptide b74p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 264.0 * +EC3.4.24.24 peptide b74r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.0 * +EC3.4.24.24 peptide c9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 740.0 * +EC3.4.24.24 type i collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.24.24 type v collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.24.24 vitronectin of mw 65000 and 75000 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00167 * +EC3.4.24.25 benzyloxycarbonyl-gly-ile-nh2 vibrio proteolyticus//*//* 2.5 * +EC3.4.24.25 benzyloxycarbonyl-gly-leu-nh2 vibrio proteolyticus//*//* 25.0 * +EC3.4.24.25 benzyloxycarbonyl-gly-norvaline-nh2 vibrio proteolyticus//*//* 4.0 * +EC3.4.24.25 benzyloxycarbonyl-gly-phe-gly-nh2 vibrio proteolyticus//*//* 1150.0 * +EC3.4.24.25 benzyloxycarbonyl-gly-phe-nh2 vibrio proteolyticus//*//* 584.0 * +EC3.4.24.25 benzyloxycarbonyl-gly-tyr-nh2 vibrio proteolyticus//*//* 0.5 * +EC3.4.24.25 benzyloxycarbonyl-gly-tyr vibrio proteolyticus//*//* 38.0 * +EC3.4.24.26 2-aminobenzoyl-ala-gly-leu-ala 4-nitrobenzylamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 100.0 * +EC3.4.24.26 3-(2-furyl)acryloyl-glycyl-l-phenylalanyl-l-phenylalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 240.0 * +EC3.4.24.26 benzyloxycarbonyl-ala-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1100.0 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 945.0 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 46.2 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-leu pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 890.0 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-nh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 23.0 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-phe pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 640.0 * +EC3.4.24.26 benzyloxycarbonyl-gly-phe-nh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 47.6 * +EC3.4.24.26 benzyloxycarbonyl-gly-tyr-nh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 17.4 * +EC3.4.24.26 benzyloxycarbonyl-phe-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 247.0 * +EC3.4.24.26 carbobenzooxydialanine-leucylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 406.8 * +EC3.4.24.26 carbobenzooxydialanine-phenylalanylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1032.0 * +EC3.4.24.26 carbobenzooxydialanine-tyrosylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 338.2 * +EC3.4.24.26 dabsyl-ala-ala-phe-ala-edans pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 618.0 * +EC3.4.24.26 dialanine-phenylalanylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 540.0 * +EC3.4.24.26 furylacryloyl-ala-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 144.0 * +EC3.4.24.26 furylacryloyl-ala-leu-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 34.0 * +EC3.4.24.26 furylacryloyl-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 95.0 * +EC3.4.24.26 furylacryloyl-gly-leu-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.0 * +EC3.4.24.26 pentaalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 420.0 * +EC3.4.24.26 tetraalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 250.0 * +EC3.4.24.26 trialanine-phenylalanylalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 769.6 * +EC3.4.24.27 (7-methoxycoumarin-4yl) acetyl-l-pro-l-leu-gly-l-leu-[n3-(2,4-dinitrophenyl)-l-2,3-diamino-propionyl]-l-ala-l-arg-nh2 bacillus thermoproteolyticus//*//* 2.36 * +EC3.4.24.27 (europium(iii) complex of a modified terpyridine)-k1k2k2gfsak2k-black hole quencher 2 bacillus thermoproteolyticus//*//* 2.6 * +EC3.4.24.27 benzyloxycarbonyl-(4-nitro)phe-leu-ala bacillus thermoproteolyticus//*//* 861.0 * +EC3.4.24.27 benzyloxycarbonyl-gly-phe-leu-ala bacillus thermoproteolyticus//*//* 407.0 * +EC3.4.24.27 benzyloxycarbonyl-phe-leu-ala bacillus thermoproteolyticus//*//* 362.0 * +EC3.4.24.27 dansyl-gly-phe-ala bacillus thermoproteolyticus//*//* 1.4 * +EC3.4.24.27 gfa bacillus thermoproteolyticus//*//* 0.076 * +EC3.4.24.27 gfl bacillus thermoproteolyticus//*//* 0.045 * +EC3.4.24.27 gfs bacillus thermoproteolyticus//*//* 0.05 * +EC3.4.24.27 gfsa bacillus thermoproteolyticus//*//* 6.08 * +EC3.4.24.27 l-phenylalanine methyl ester bacillus thermoproteolyticus//*//* 1.3 * +EC3.4.24.27 leucine enkephalin bacillus thermoproteolyticus//*//* 1560.0 * +EC3.4.24.27 n,n'-diboc-dityrosyl-(ile-isoniazid)2 bacillus thermoproteolyticus//*//* 0.238 * +EC3.4.24.27 n,n'-diboc-dityrosyl-(phe-isoniazid)2 bacillus thermoproteolyticus//*//* 0.0463 * +EC3.4.24.27 n-(benzyloxycarbonyl)-l-phe bacillus thermoproteolyticus//*//* 1.69 * +EC3.4.24.27 n-benzyloxycarbonyl-gly-l-leu amide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 51.67 * +EC3.4.24.27 n-benzyloxycarbonyl-l-asp-l-phe-methyl ester bacillus thermoproteolyticus//*//* 7.9 * +EC3.4.24.27 n-carbobenzoxy-gly-l-leu-nh2 bacillus thermoproteolyticus//*//* 51.6 * +EC3.4.24.27 n-carbobenzoxy-l-asp-l-phe methyl ester bacillus thermoproteolyticus//*//* 5.9 * +EC3.4.24.27 n-carbobenzoxy-l-asp-l-phe-methyl ester bacillus thermoproteolyticus//*//* 9.5 * +EC3.4.24.27 n-carbobenzoxy-l-aspartic acid bacillus thermoproteolyticus//*//* 1.3 * +EC3.4.24.27 n-carbobenzoxy-l-aspartyl-l-phenylalanine methyl ester bacillus thermoproteolyticus//*//* 7.7 * +EC3.4.24.28 3-(2-furylacryloyl)-glycyl-l-leucine amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 256.0 * +EC3.4.24.28 3-(2-furylacryloyl)-l-alanyl-l-phenylalanine amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 64.0 * +EC3.4.24.28 azocasein bacillus intermedius//*//* 1210.0 * +EC3.4.24.28 plasminogen bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.7 * +EC3.4.24.3 furylacryloyl-leu-gly-pro-ala clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 7.24 * +EC3.4.24.3 furylacryloyl-leu-gly-pro-ala hathewaya histolytica//*//* 15.9 * +EC3.4.24.34 (7-methoxycoumarin-4-yl)acetyl-pro-cyclohexylalanine-gly-norvaline-his-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 570.0 * +EC3.4.24.34 (7-methoxycoumarin-4-yl)acetyl-pro-leu-gly-leu-diaminopropionyl-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 522.0 * +EC3.4.24.34 (7-methoxycoumarin-4-yl)acetyl-pro-leu-gly-leu-diamionopropionyl-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 562.0 * +EC3.4.24.34 bovine collagen i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1120.0 * +EC3.4.24.34 guinea pig collagen type i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00161 * +EC3.4.24.34 human collagen type i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00178 * +EC3.4.24.34 human collagen type ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00065 * +EC3.4.24.34 human collagen type iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000233 * +EC3.4.24.35 (7-methoxycoumaryl-4yl)acetylplgla2pr(2,4-dinitrophenol)-ar-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.67 * +EC3.4.24.35 65000 mw form of vitronectin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.24.35 75000 mw form of vitronectin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000333 * +EC3.4.24.35 sgfgsrylta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.0 * +EC3.4.24.35 sgkgprqita mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 703.0 * +EC3.4.24.35 sgkiprrlta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 224.0 * +EC3.4.24.35 sgkiprtata mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.4 * +EC3.4.24.35 sgkiprtlta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 86.4 * +EC3.4.24.35 sglkalmita mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 30.0 * +EC3.4.24.35 sglrpaksta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 78.0 * +EC3.4.24.35 sgplfysvta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.0 * +EC3.4.24.35 sgpravstta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 178.0 * +EC3.4.24.35 sgqphyltta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.0 * +EC3.4.24.35 stromelysin 1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.24.36 casein leishmania donovani donovani//*//* 12.0 * +EC3.4.24.37 acetyl-ala-ala-pro-ala 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6000.0 * +EC3.4.24.37 acetyl-ala-ala-pro-phe 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 38000.0 * +EC3.4.24.37 benzoyl-pro-phe-arg 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1500.0 * +EC3.4.24.37 methoxysuccinyl-ala-ala-pro-met 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 38000.0 * +EC3.4.24.39 n-butoxycarbonyl-arginyl-valyl-arginyl-arginyl-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.022 * +EC3.4.24.39 n-butoxycarbonyl-leu-arg-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0045 * +EC3.4.24.39 n-butoxycarbonyl-leu-lys-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.009 * +EC3.4.24.39 pyr-arg-thr-lys-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0022 * +EC3.4.24.39 z-arg-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0009 * +EC3.4.24.40 angiotensin i pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.94 * +EC3.4.24.40 angiotensin ii pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.08 * +EC3.4.24.40 azocasein pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.045 * +EC3.4.24.40 benzyloxycarbonyl-l-arg-l-arg-4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.026 * +EC3.4.24.40 o-aminobenzoyl-kdrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 1.3 * +EC3.4.24.40 o-aminobenzoyl-kfrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 20.67 * +EC3.4.24.40 o-aminobenzoyl-kgrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 9.5 * +EC3.4.24.40 o-aminobenzoyl-khrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 32.5 * +EC3.4.24.40 o-aminobenzoyl-klffskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 44.2 * +EC3.4.24.40 o-aminobenzoyl-klrdskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.57 * +EC3.4.24.40 o-aminobenzoyl-klrnskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 52.17 * +EC3.4.24.40 o-aminobenzoyl-klrsskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 35.07 * +EC3.4.24.40 o-aminobenzoyl-klwfskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 6.7 * +EC3.4.24.40 o-aminobenzoyl-knrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 28.19 * +EC3.4.24.40 o-aminobenzoyl-kqrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 40.41 * +EC3.4.24.40 o-aminobenzoyl-ksrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 14.43 * +EC3.4.24.40 peptide 6a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.038 * +EC3.4.24.40 substance p 1-7 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 33.0 * +EC3.4.24.40 substance p 1-9 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 56.0 * +EC3.4.24.40 substance p 7-11 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.08 * +EC3.4.24.40 substance p 8-11 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.02 * +EC3.4.24.40 substance p(free acid) pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 160.0 * +EC3.4.24.41 oxidized insulin b-chain crotalus atrox//*//* 1.02 * +EC3.4.24.44 dimethylcasein crotalus atrox//*//* 0.217 * +EC3.4.24.44 oxidized insulin a-chain crotalus atrox//*//* 0.06 * +EC3.4.24.55 (7-methoxycoumarin-4-yl)acetyl-nle-ala-val-lys-tyr-leu-asn-ser-(2,4-dinitrophenyl)lys-leu-asp-d-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC3.4.24.55 beta-amyloid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.33 * +EC3.4.24.55 beta-endorphin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.5 * +EC3.4.24.55 calcitonin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.43 * +EC3.4.24.55 dynorphin a fragment 1-13 bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.55 * +EC3.4.24.55 glucagon escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.4.24.55 insulin b-chain bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.18 * +EC3.4.24.55 insulin b-chain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.66 * +EC3.4.24.55 substance p escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.63 * +EC3.4.24.55 vasoactive intestinal peptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC3.4.24.56 (7-methoxycoumarin-4-yl)acetyl-nppgfsafk-2,4-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.24.56 2-aminobenzoyl-ggflrkhgq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 162600.0 * +EC3.4.24.56 abz-ggflrkhgq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.24.56 abz-ggflrkhgq-eddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.086 * +EC3.4.24.56 abz-ggflrkhgqeddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 104.0 * +EC3.4.24.56 amyloid beta-peptide 1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.24.56 amyloid beta-peptide 1-42 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.24.56 amyloid beta-peptide1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC3.4.24.56 amyloid beta-peptide1-40 triticum aestivum//*//* 8.0 * +EC3.4.24.56 amyloid beta-protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.4.24.56 amyloid beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.0 * +EC3.4.24.56 amyloid beta1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC3.4.24.56 dabcyl-tyr-glu-val-his-his-gln-lys-leu-val-phe-phe-ala-glu-asp-val-gly-glu(edans)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.7 * +EC3.4.24.56 insulin-like peptide 3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.4.24.56 insulin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.24.56 protein anp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.4.24.56 protein bnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.56 protein cnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC3.4.24.56 protein dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.24.56 somatostatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.24.56 urodilatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.24.59 abz-fqtkvaak(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.4.24.59 abz-frsgqplqnkvqlq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.122 * +EC3.4.24.59 abz-fsskttvk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.24.59 abz-ikqssllk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.4.24.59 abz-mtaalktk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.24.59 abz-nlmkkstk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.24.59 abz-qplankvq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.4.24.59 abz-qplqakvq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0943 * +EC3.4.24.59 abz-qplqnkvq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC3.4.24.59 abz-ttklkaak(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.24.59 abz-vaaqtktk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.24.59 abz-vissrlek(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC3.4.24.59 abz-vrnfrsgqplqnkvqed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.223 * +EC3.4.24.59 abz-wttggkak(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.4.24.61 2-aminobenzoyl-gfspfrssrqed(2,4-dinitrophenyl) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.68 * +EC3.4.24.61 2-aminobenzoyl-ggalrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.88 * +EC3.4.24.61 2-aminobenzoyl-ggfarkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.08 * +EC3.4.24.61 2-aminobenzoyl-ggffrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.83 * +EC3.4.24.61 2-aminobenzoyl-ggfhrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.9 * +EC3.4.24.61 2-aminobenzoyl-ggfikkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.198 * +EC3.4.24.61 2-aminobenzoyl-ggfikrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.09 * +EC3.4.24.61 2-aminobenzoyl-ggfirkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.23 * +EC3.4.24.61 2-aminobenzoyl-ggfirrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.73 * +EC3.4.24.61 2-aminobenzoyl-ggfirrvgq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.03 * +EC3.4.24.61 2-aminobenzoyl-ggflkkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.16 * +EC3.4.24.61 2-aminobenzoyl-ggflkrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.75 * +EC3.4.24.61 2-aminobenzoyl-ggflrkagq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.04 * +EC3.4.24.61 2-aminobenzoyl-ggflrkdgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.4.24.61 2-aminobenzoyl-ggflrkfgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.94 * +EC3.4.24.61 2-aminobenzoyl-ggflrkhgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.69 * +EC3.4.24.61 2-aminobenzoyl-ggflrkigq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.04 * +EC3.4.24.61 2-aminobenzoyl-ggflrklgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.74 * +EC3.4.24.61 2-aminobenzoyl-ggflrkmgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.77 * +EC3.4.24.61 2-aminobenzoyl-ggflrkngq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.59 * +EC3.4.24.61 2-aminobenzoyl-ggflrksgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.65 * +EC3.4.24.61 2-aminobenzoyl-ggflrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.48 * +EC3.4.24.61 2-aminobenzoyl-ggflrkwgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.61 * +EC3.4.24.61 2-aminobenzoyl-ggflrrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.92 * +EC3.4.24.61 2-aminobenzoyl-ggfmrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.86 * +EC3.4.24.61 2-aminobenzoyl-ggfnrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.08 * +EC3.4.24.61 2-aminobenzoyl-ggfsrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.353 * +EC3.4.24.61 2-aminobenzoyl-ggfvrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC3.4.24.61 2-aminobenzoyl-ggfwrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.705 * +EC3.4.24.61 2-aminobenzoyl-ggfykkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.187 * +EC3.4.24.61 2-aminobenzoyl-ggfykrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.405 * +EC3.4.24.61 2-aminobenzoyl-ggfyrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.63 * +EC3.4.24.61 2-aminobenzoyl-ggfyrrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.99 * +EC3.4.24.61 2-aminobenzoyl-gghlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.36 * +EC3.4.24.61 2-aminobenzoyl-ggilrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.84 * +EC3.4.24.61 2-aminobenzoyl-ggllrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.83 * +EC3.4.24.61 2-aminobenzoyl-ggmlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.84 * +EC3.4.24.61 2-aminobenzoyl-ggnlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.953 * +EC3.4.24.61 2-aminobenzoyl-ggslrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.53 * +EC3.4.24.61 2-aminobenzoyl-ggvlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.24 * +EC3.4.24.61 2-aminobenzoyl-ggwlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.95 * +EC3.4.24.61 2-aminobenzoyl-ggylrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.85 * +EC3.4.24.61 2-aminobenzoyl-mislmkrpqed(2,4-dinitrophenyl) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.48 * +EC3.4.24.61 2-aminobenzoyl-tplvtlx1x2naiikqed(2,4-dinitrophenyl) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.08 * +EC3.4.24.61 beta-endorphin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.03 * +EC3.4.24.61 calcitonin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.94 * +EC3.4.24.61 somatostatin14 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.08 * +EC3.4.24.63 abz-vkmdae-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.5 * +EC3.4.24.63 abz-vnldae-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.9 * +EC3.4.24.63 actin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.625 * +EC3.4.24.63 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC3.4.24.63 cholecystokinin 8 sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 13.9 * +EC3.4.24.63 gastri-releasing peptide-(14-27) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.6 * +EC3.4.24.63 gastrin 17 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.1 * +EC3.4.24.63 gastrin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.4 * +EC3.4.24.63 glucagon mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.8 * +EC3.4.24.63 orcokinin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 23.4 * +EC3.4.24.63 scck8nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 13.9 * +EC3.4.24.63 villin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 150.0 * +EC3.4.24.64 mdh1-21 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC3.4.24.65 feln-100 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.24.65 mca-pro-leu-gly-leu-dpa-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.3 * +EC3.4.24.69 ac-erdqklselddradalqag-(7-methoxy-4-methylcoumaryl)lys-sq-diaminopropionic acid(2,4-dinitrophenyl)-essaaklkrkywwknlk-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 3.81 * +EC3.4.24.69 ac-iignlrh(nle)ald(nle)gneidtqnrqidri(nle)ekadsnktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)l-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.15 * +EC3.4.24.69 ac-iignlrhmaldmgneidtqnrqidrimekadsnktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)l-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 2.08 * +EC3.4.24.69 ac-ksdsnktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)lgsg-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.01 * +EC3.4.24.69 ac-snktridcanqratkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 23.0 * +EC3.4.24.69 ac-snktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)l-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.79 * +EC3.4.24.69 ac-snktrideanqratkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 47.0 * +EC3.4.24.69 ac-snktrideanqrctkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 31.0 * +EC3.4.24.69 ac-snktridecnqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 4.6 * +EC3.4.24.69 snap-25 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 38.1 * +EC3.4.24.69 snap25 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 60.0 * +EC3.4.24.69 snktrideaaqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.8 * +EC3.4.24.69 snktrideanbratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 7.7 * +EC3.4.24.69 snktrideannratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 19.0 * +EC3.4.24.69 snktrideanqrabkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 35.0 * +EC3.4.24.69 snktrideanqrataml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 8.0 * +EC3.4.24.69 snktrideanqratk clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.0 * +EC3.4.24.69 snktrideanqratkal clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 25.0 * +EC3.4.24.69 snktrideanqratkm clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 56.0 * +EC3.4.24.69 snktrideanqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 47.0 * +EC3.4.24.69 snktrideanqratkxl clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 30.0 * +EC3.4.24.69 snktrideanqrbtkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 39.0 * +EC3.4.24.69 snktridebnqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 11.0 * +EC3.4.24.69 snktridqanqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 51.0 * +EC3.4.24.69 snktrineanqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 5.0 * +EC3.4.24.69 synaptosome-associated protein snap-25 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 11.1 * +EC3.4.24.69 vamp-2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 594.6 * +EC3.4.24.69 vamp2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.0 * +EC3.4.24.69 vesicle-associated membrane protein-2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 6.88 * +EC3.4.24.7 [alpha1(ii)769-783] fluorogenic triple-helical peptide-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.24.7 [alpha1(ii)769-783] fluorogenic triple-helical peptide-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.24.7 [alpha1(ii)769-783] single-stranded peptide-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.24.7 acetyl-pro-leu-gly-ile-leu-gly-oc2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.3 * +EC3.4.24.7 acetyl-pro-leu-gly-leu-leu-gly-oc2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.83 * +EC3.4.24.7 acetyl-pro-leu-gly-sch[ch2ch(ch3)2co]-leu-leu-oc2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 103.0 * +EC3.4.24.7 alpha1(i)772-786 triple-helical peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.24.7 bovine type i collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00147 * +EC3.4.24.7 collagen i alpha-1 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.41 * +EC3.4.24.7 collagen i alpha-2 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 58.61 * +EC3.4.24.7 fthp-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC3.4.24.7 gly-pro-gln-gly-ile-ala-gly-gln-gln-arg-gly-val-val-gly-leu-hyp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.24.7 gly-pro-gln-gly-ile-ala-gly-gln-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.7 gplgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.333 * +EC3.4.24.7 gpqgiaga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.217 * +EC3.4.24.7 gpqgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.203 * +EC3.4.24.7 gpqgiagt homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.263 * +EC3.4.24.7 gpqglagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.24.7 gprgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0717 * +EC3.4.24.7 gpvgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.24.7 human type i collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0035 * +EC3.4.24.7 human type i collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0148 * +EC3.4.24.7 human type i collagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00375 * +EC3.4.24.7 human type ii collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000267 * +EC3.4.24.7 human type ii collagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00392 * +EC3.4.24.7 human type iii collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0958 * +EC3.4.24.7 human type iii collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.153 * +EC3.4.24.7 type i collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00278 * +EC3.4.24.7 type iii collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC3.4.24.70 abz-gaspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.4.24.70 abz-gdspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.4.24.70 abz-gespfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC3.4.24.70 abz-gfspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.4.24.70 abz-ggspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.4.24.70 abz-ghspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.74 * +EC3.4.24.70 abz-gkspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC3.4.24.70 abz-glspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.4.24.70 abz-gnspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.4.24.70 abz-gpspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.4.24.70 abz-gqspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.4.24.70 abz-grspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.4 * +EC3.4.24.70 abz-gsspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.4.24.70 abz-gyspfrq-eddnp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.4.24.71 big endothelin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.112 * +EC3.4.24.72 arg-pro-pro-gly-phe-ser-pro-phe-arg agkistrodon contortrix//*//* 6.03 * +EC3.4.24.72 his-thr-glu-ala-leu-val-thr-ser agkistrodon contortrix//*//* 5.0 * +EC3.4.24.72 his-thr-glu-arg-leu-val-thr-ser agkistrodon contortrix//*//* 1.97 * +EC3.4.24.72 his-thr-glu-asn-leu-val-thr-ser agkistrodon contortrix//*//* 65.7 * +EC3.4.24.72 his-thr-glu-glu-leu-val-thr-ser agkistrodon contortrix//*//* 0.46 * +EC3.4.24.72 his-thr-glu-his-leu-val-thr-ser agkistrodon contortrix//*//* 5.19 * +EC3.4.24.72 his-thr-glu-leu-leu-val-thr-ser agkistrodon contortrix//*//* 0.16 * +EC3.4.24.72 his-thr-glu-lys-leu-val-thr-ser agkistrodon contortrix//*//* 2.23 * +EC3.4.24.72 his-thr-glu-lys-phe-val-thr-ser agkistrodon contortrix//*//* 0.2 * +EC3.4.24.72 his-thr-glu-phe-leu-val-thr-ser agkistrodon contortrix//*//* 0.45 * +EC3.4.24.72 his-thr-glu-pro-leu-val-thr-ser agkistrodon contortrix//*//* 1.59 * +EC3.4.24.72 his-thr-glu-ser-leu-val-thr-ser agkistrodon contortrix//*//* 3.98 * +EC3.4.24.72 leu-val-glu-ala-leu-tyr-leu-val agkistrodon contortrix//*//* 0.09 * +EC3.4.24.72 low molecular weight kininogen agkistrodon contortrix//*//* 0.0086 * +EC3.4.24.73 abz-lvealyq-eddnp bothrops jararaca//*//* 0.14 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 5.0 * +EC3.4.24.79 igfbp-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.89 * +EC3.4.24.79 igfbp-5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC3.4.24.80 collagen i alpha-1 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.24.80 collagen i alpha-2 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 255.6 * +EC3.4.24.80 collagen type i alpha-1 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.41 * +EC3.4.24.80 collagen type i alpha-2 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 58.61 * +EC3.4.24.80 mocacplgla2pr-dinitrophenol-a-rnh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.4.24.80 type i collagen chain alpha-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.05 * +EC3.4.24.80 type i collagen chain alpha-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.4.24.81 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser(glycosyl)-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.24.81 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.24.82 [c6-(gly-pro-hyp)5-gly-thr-lys(7-amido-4-methylcoumarin)-gly-glu-leu-glu-gly-arg-gly-thr-lys(2,4-dinitrophenyl)-gly-ile-ser-(gly-pro-hyp)5-nh2]3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.181 * +EC3.4.24.82 aggrecan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.49 * +EC3.4.24.82 c6-(gly-pro-hyp-pro-hyp-gly)2-gly-pro-hyp-gly-thr-lys(mca)-gly-glu-leu-glu-gly-arg-gly-thr-lys(dnp)-gly-ile-ser-(gly-pro-hyp-pro-hyp-gly)2-gly-pro-hyp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.433 * +EC3.4.24.82 chondroitin 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.16 * +EC3.4.24.83 acetyl-gybetaarrrrrrrrvlr-4-nitroanilide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 21.2 * +EC3.4.24.83 fluorescein-qrrkkvypypme bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.52 * +EC3.4.24.86 (edans)-elaqavrsssrk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.86 (edans)-eplaqavrsssk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.24.86 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser(4o-(beta-d-gal-(1->3)-alpha-d-galnac))-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.24.86 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.24.86 s80-glycosylated (edans)-elaqavrsssrk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.4.24.86 s80-glycosylated (edans)-eplaqavrsssk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.24.87 dreqapnlvymvtgnpasdeikrlpgdiqvvpigvgpnanvqelerigwpnapiliqdfetlpreapdlvlqra homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.24.87 fret-vwf115 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.31 * +EC3.4.24.87 fretsvwf73 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.43 * +EC3.4.24.87 hrph-a2-b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.4.24.87 von willebrand factor 115 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.4.24.87 vwf115 d1614a mutant homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.24.87 vwf115 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.71 * +EC3.4.24.87 vwf73 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.32 * +EC3.4.24.89 dabcyl-lys-evnppppd-edansglu clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 19.0 * +EC3.4.24.B10 s-carboxymethylated transferrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.24.B14 3-methoxysuccinyl-gly-leu-phe-met-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.5 * +EC3.4.24.B14 arg-pro-lys-pro-gln-gln-phe-phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC3.4.24.B14 arg-pro-pro-gly-phe-ser-pro-phe-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.24.B14 asp-arg-val-tyr-ile-his-pro-phe-his-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.4.24.B14 asp-tyr(sulfated)-met-gly-trp-met-asp-phe-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.17 * +EC3.4.24.B14 asp-tyr-met-gly-trp-met-asp-phe-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.17 * +EC3.4.24.B14 asp-tyr-met-gly-trp-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 34.5 * +EC3.4.24.B14 gly-gly-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.5 * +EC3.4.24.B14 gly-trp-met-asp-phe-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.4.24.B14 gonadotropin-releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.5 * +EC3.4.24.B14 phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.83 * +EC3.4.24.B14 phe-phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.0 * +EC3.4.24.B14 succinyl-ala-ala-phe-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.03 * +EC3.4.24.B14 succinyl-ala-ala-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.5 * +EC3.4.24.B14 succinyl-ala-ala-val-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.8 * +EC3.4.24.B14 tyr-gly-ala-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 41.7 * +EC3.4.24.B14 tyr-gly-gly-phe-leu-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC3.4.24.B14 tyr-gly-gly-phe-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.4.24.B14 tyr-gly-gly-phe-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC3.4.24.B14 tyr-gly-gly-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.0 * +EC3.4.24.B15 o-aminobenzoyl-a110wldsgvq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.24.B15 o-aminobenzoyl-d124hlsdtstqn-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.24.B15 o-aminobenzoyl-g197qrdsqaq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.B15 o-aminobenzoyl-g337sndimgq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.24.B15 o-aminobenzoyl-g386ssdaaeq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.24.B15 o-aminobenzoyl-gfsdyk-(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.24.B15 o-aminobenzoyl-gfsdyk-(2,4-dinitrophenyl)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.24.B15 o-aminobenzoyl-gfsdyq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.24.B15 o-aminobenzoyl-l134eldsrq-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.24.B15 o-aminobenzoyl-l94mmdfrgq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.24.B15 o-aminobenzoyl-n122gydvyhq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.24.B15 o-aminobenzoyl-n449emdsfnq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.24.B15 o-aminobenzoyl-r175rhtqsaeddserq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.24.B15 o-aminobenzoyl-r175rhtrsaeddserq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.B15 o-aminobenzoyl-r441gldneiq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.24.B15 o-aminobenzoyl-r506rddsseq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.24.B15 o-aminobenzoyl-r76sedagfq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.24.B15 o-aminobenzoyl-s212aednspq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.24.B15 o-aminobenzoyl-s513sdsgsq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.B15 o-aminobenzoyl-t294hldtkkq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.24.B16 4-(dimethylamino)azobenzene-4'-sulfonyl-leu-gly-gly-gly-ala-5-(2-aminoethylamino)-1-naphthalenesulfonic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 15.2 * +EC3.4.24.B16 succinyl-gly-gly-leu-4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.55 * +EC3.4.24.B16 succinyl-gly-gly-phe-4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.8 * +EC3.4.24.B17 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.4.24.B17 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.65 * +EC3.4.24.B17 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC3.4.24.B17 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.08 * +EC3.4.24.B17 protein sigma32 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC3.4.24.B17 sigma32 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0083 * +EC3.4.24.B2 carbobenzoxy-gly-pro-gly-gly-pro-ala geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 5.99 * +EC3.4.24.B3 dansyl-pro-leu-ala-leu-trp-ala-arg-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC3.4.24.B3 dansyl-pro-leu-ala-s-[(4-methoxyphenyl)methyl]cys-trp-ala-arg-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.078 * +EC3.4.24.B3 ggaanlvrgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.24.B3 ggyaelrmgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.4.24.B39 n-(4-tosyl)-gly-pro-lys-4-nitroanilide deinagkistrodon acutus//*//* 0.419 * +EC3.4.24.B4 y(no2)ggpaglyek(abz)g mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.34 * +EC3.4.24.B6 amelogenin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.4.24.B6 mca-plgl-[3-dnp-2,3-dap]-ar-nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.0 * +EC3.4.24.B6 mca-plgl-[3-dnp-2,3-dap]-ar-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.1 * +EC3.4.24.B6 mca-plgl-dpa-ar bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.0 * +EC3.4.24.B6 mca-plgl-dpa-ar homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.1 * +EC3.4.25.1 acetyl-epfd-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.97 * +EC3.4.25.1 acetyl-epfd-7-amido-4-carbamoylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.7 * +EC3.4.25.1 acetyl-hhsl-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 36.3 * +EC3.4.25.1 acetyl-norleucine-arg-norleucine-arg-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.34 * +EC3.4.25.1 acetyl-norleucine-arg-norleucine-arg-7-amido-4-carbamoylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.15 * +EC3.4.25.1 acetyl-ywtq-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.25.1 acetyl-ywtq-7-amido-4-carbamoylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 4.67 * +EC3.4.25.1 benzyloxycarbonyl-arr-7-amido-4-methylcoumarin struthio camelus//*//* 2.94 * +EC3.4.25.1 benzyloxycarbonyl-ggf-4-aminobenzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC3.4.25.1 benzyloxycarbonyl-ggl-7-amido-4-methylcoumarin struthio camelus//*//* 16.9 * +EC3.4.25.1 benzyloxycarbonyl-ggr-7-amido-4-methylcoumarin struthio camelus//*//* 0.052 * +EC3.4.25.1 benzyloxycarbonyl-gpafg-4-aminobenzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.8 * +EC3.4.25.1 benzyloxycarbonyl-gpalg-4-aminobenzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.9 * +EC3.4.25.1 benzyloxycarbonyl-lle-2-naphthylamide struthio camelus//*//* 0.332 * +EC3.4.25.1 benzyloxycarbonyl-rr-7-amido-4-methylcoumarin struthio camelus//*//* 0.143 * +EC3.4.25.1 succinyl-llvy-7-amido-4-methylcoumarin struthio camelus//*//* 6.08 * +EC3.4.25.2 arc-myl-st11 plus escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.077 * +EC3.4.25.2 arc-myl-st11 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.4.25.2 arc1-53-st11-titin-ssra escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.4.25.2 sula mutant f10a haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.063 * +EC3.4.25.2 sula mutant i37v haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.068 * +EC3.4.25.2 sula mutant p8l haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.033 * +EC3.4.25.2 sula haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.05 * +EC3.4.99.B2 succinyl-d-asp-4-methylcoumaryl-7-amide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 1.93 * +EC3.4.99.B2 succinyl-d-asp-p-nitroanilide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 6.6 * +EC3.5.1.1 asn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC3.5.1.1 beta-l-asp-l-phe cavia porcellus//*//* 1.98 * +EC3.5.1.1 beta-l-asp-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.5.1.1 d-asn pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 68.0 * +EC3.5.1.1 d-asparagine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 3378.0 * +EC3.5.1.1 d-glutamine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 1362.0 * +EC3.5.1.1 l-asn pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1600.0 * +EC3.5.1.1 l-asparagine bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2680.0 * +EC3.5.1.1 l-asparagine cavia porcellus//*//* 38.6 * +EC3.5.1.1 l-asparagine dickeya chrysanthemi//*//* 565.0 * +EC3.5.1.1 l-asparagine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 19.26 * +EC3.5.1.1 l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.19 * +EC3.5.1.1 l-asparagine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 160.0 * +EC3.5.1.1 l-asparagine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 888.6 * +EC3.5.1.1 l-asparagine rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 106.0 * +EC3.5.1.1 l-asparagine rhizomucor miehei//*//* 676.0 * +EC3.5.1.1 l-asparagine staphylococcus sp.//*//* 4.65 * +EC3.5.1.1 l-asparagine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 5721.0 * +EC3.5.1.1 l-asparagine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 694.0 * +EC3.5.1.1 l-asparagine withania somnifera//*//* 178.6 * +EC3.5.1.1 l-asparagine yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.22 * +EC3.5.1.1 l-aspartyl-beta-hydroxamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC3.5.1.1 l-aspartyl-beta-hydroxamate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 450.0 * +EC3.5.1.1 l-gln dickeya chrysanthemi//*//* 0.0043 * +EC3.5.1.1 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.5.1.1 l-gln pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 42.0 * +EC3.5.1.1 l-glutamine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 22.1 * +EC3.5.1.1 l-glutamine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 7.1 * +EC3.5.1.1 l-glutamine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 2048.0 * +EC3.5.1.1 nalpha-acetyl-asn dickeya chrysanthemi//*//* 0.0108 * +EC3.5.1.1 succinamic acid dickeya chrysanthemi//*//* 0.0239 * +EC3.5.1.103 1-(2-acetamido-2-deoxy-alpha-d-glucopyranosyl)-1d-myo-inositol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.49 * +EC3.5.1.103 n-acetyl-d-glucosamine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.1 * +EC3.5.1.103 n-deacetyl-n-formylmycothiol-monobromobimane conjugate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.49 * +EC3.5.1.103 phenyl-2-acetamido-2-deoxy-1-thio-alpha-d-glucopyranoside mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC3.5.1.104 4-nitrophenyl acetate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.46 * +EC3.5.1.104 4-yethylumbelliferyl acetate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.64 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.24 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.55 * +EC3.5.1.104 peptidoglycan-n-acetyl-d-glucosamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.32 * +EC3.5.1.104 peptidoglycan-n-acetyl-d-glucosamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.099 * +EC3.5.1.105 glcnac-beta-(1,4)-glcnac vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 29.5 * +EC3.5.1.107 maleamate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 11.7 * +EC3.5.1.108 udp-3-((r)-3-hydroxytetradecanoyl)-n-acetyl-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.5.1.108 udp-3-o-((r)-3-hydroxymyristoyl)-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.5.1.108 udp-3-o-(n-hexyl-propionamide)-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC3.5.1.11 (r) -2-(4-hydroxyphenyl)glycine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC3.5.1.11 (s)-n-acetylphenylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.08 * +EC3.5.1.11 2-benzoxazolon-3-yl-acetic acid methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.5.1.11 2-nitro-5-[(phenyl-acetyl)amino]benzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC3.5.1.11 2-nitro-5-[(phenylacetyl)amino]-benzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC3.5.1.11 2-nitro-5-phenoxyacetamide benzoic acid streptomyces mobaraensis//*//* 106.4 * +EC3.5.1.11 2-phenyl-n-(4-sulfamoylphenyl)acetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 40.03 * +EC3.5.1.11 2-phenylacetamidobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC3.5.1.11 3-phenylacetamidobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.5.1.11 4-hydroxyphenylacetamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 47.0 * +EC3.5.1.11 4-hydroxyphenylacetamide uncultured gamma proteobacterium//*//* 29.0 * +EC3.5.1.11 4-nitrophenylacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 170.0 * +EC3.5.1.11 4-phenylacetamidobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.5.1.11 5-nitro-3-[(phenylacetyl)amino]benzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC3.5.1.11 6-nitro-3-(phenylacetamido)-benzoic acid uncultured bacterium//*//* 58.3 * +EC3.5.1.11 6-nitro-3-[(phenylacetyl)amino]benzoic acid achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 68.8 * +EC3.5.1.11 6-nitro-3-[(phenylacetyl)amino]benzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.0 * +EC3.5.1.11 6-nitro-3-[(phenylacetyl)amino]benzoic acid uncultured gamma proteobacterium//*//* 24.0 * +EC3.5.1.11 6-nitro-3-phenylacetamidobenzoic acid alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 82.0 * +EC3.5.1.11 6-nitro-3-phenylacetamidobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC3.5.1.11 7-phenylacetamidoacetoxycephalosporanic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC3.5.1.11 amoxicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC3.5.1.11 amoxicillin uncultured gamma proteobacterium//*//* 15.0 * +EC3.5.1.11 amoxycillin uncultured bacterium//*//* 56.2 * +EC3.5.1.11 ampicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 37.0 * +EC3.5.1.11 ampicillin uncultured bacterium//*//* 49.5 * +EC3.5.1.11 ampicillin uncultured gamma proteobacterium//*//* 16.0 * +EC3.5.1.11 benzylpenicillin alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 80.0 * +EC3.5.1.11 benzylpenicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC3.5.1.11 benzylpenicillin kluyvera cryocrescens//*//* 63.0 * +EC3.5.1.11 benzylpenicilloic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC3.5.1.11 capsaicin streptomyces mobaraensis//*//* 9.5 * +EC3.5.1.11 carbenicillin uncultured bacterium//*//* 63.7 * +EC3.5.1.11 cefadroxil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.0 * +EC3.5.1.11 cefadroxil uncultured gamma proteobacterium//*//* 13.0 * +EC3.5.1.11 cephalexin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 54.0 * +EC3.5.1.11 cephalexin uncultured bacterium//*//* 34.2 * +EC3.5.1.11 cephalexin uncultured gamma proteobacterium//*//* 20.0 * +EC3.5.1.11 cephaloridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC3.5.1.11 cephaloridine uncultured bacterium//*//* 66.9 * +EC3.5.1.11 cephalothin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC3.5.1.11 cephalothin uncultured bacterium//*//* 78.3 * +EC3.5.1.11 d-(-)-alpha-aminophenylacetic acid 4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.54 * +EC3.5.1.11 d-2-nitro-5-[(phenylacetyl)amino]benzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC3.5.1.11 d-2-nitro-5-[(phenylacetyl)amino]benzoic acid uncultured gamma proteobacterium//*//* 12.0 * +EC3.5.1.11 d-4-hydroxyphenylglycine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.5.1.11 d-4-hydroxyphenylglycine amide uncultured gamma proteobacterium//*//* 16.0 * +EC3.5.1.11 d-phenylglycine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.0 * +EC3.5.1.11 d-phenylglycine amide uncultured gamma proteobacterium//*//* 25.0 * +EC3.5.1.11 ethyl 4-[(phenylacetyl)amino] benzoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 41.05 * +EC3.5.1.11 ethylphenylacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 170.0 * +EC3.5.1.11 n,2-diphenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 49.17 * +EC3.5.1.11 n-(4-acetylphenyl)-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 35.94 * +EC3.5.1.11 n-(4-bromophenyl)-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 43.07 * +EC3.5.1.11 n-(4-cyanophenyl)-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 33.84 * +EC3.5.1.11 n-(4-methoxyphenyl)-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 33.81 * +EC3.5.1.11 n-(4-methylphenyl)-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 37.93 * +EC3.5.1.11 n-(4-nitrophenyl)-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 15.14 * +EC3.5.1.11 n-(5-nitro-2-pyridyl)-phenylacetamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.8 * +EC3.5.1.11 n-[4-(methylsulfonyl)phenyl]-2-phenylacetamide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 29.49 * +EC3.5.1.11 n-phenylacetyl-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12000.0 * +EC3.5.1.11 n2-phenylacetyl-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC3.5.1.11 n6-phenylacetyl-2'-deoxyadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.5.1.11 penicillin dihydrof actinoplanes utahensis//*//* 4.2 * +EC3.5.1.11 penicillin f actinoplanes utahensis//*//* 1.9 * +EC3.5.1.11 penicillin g achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 72.7 * +EC3.5.1.11 penicillin g actinoplanes utahensis//*//* 2.2 * +EC3.5.1.11 penicillin g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC3.5.1.11 penicillin g kluyvera cryocrescens//*//* 63.0 * +EC3.5.1.11 penicillin g streptomyces mobaraensis//*//* 12.0 * +EC3.5.1.11 penicillin g thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.56 * +EC3.5.1.11 penicillin g uncultured bacterium//*//* 64.2 * +EC3.5.1.11 penicillin g uncultured gamma proteobacterium//*//* 25.0 * +EC3.5.1.11 penicillin k actinoplanes utahensis//*//* 33.3 * +EC3.5.1.11 penicillin k thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.6 * +EC3.5.1.11 penicillin v actinoplanes utahensis//*//* 70.3 * +EC3.5.1.11 penicillin v streptomyces mobaraensis//*//* 270.8 * +EC3.5.1.11 penicillin v uncultured bacterium//*//* 48.4 * +EC3.5.1.11 phenylacetamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC3.5.1.11 phenylacetamide uncultured gamma proteobacterium//*//* 23.0 * +EC3.5.1.11 phenylacetate 4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 55.0 * +EC3.5.1.11 phenylacetyl-2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC3.5.1.11 phenylacetyl-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC3.5.1.11 phenylacetyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 47.0 * +EC3.5.1.11 phenylacetylaspartame escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC3.5.1.111 2-oxoglutaramate paenarthrobacter nicotinovorans//*//* 194.0 * +EC3.5.1.114 4-hydroxy-2-nonenal mercapturate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.67 * +EC3.5.1.114 acrolein mercapturate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.03 * +EC3.5.1.114 n-acetyl-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.28 * +EC3.5.1.114 n-acetyl-s-(1,2-dichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.09 * +EC3.5.1.115 mycothiol bimane derivative mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 8.0 * +EC3.5.1.115 mycothiol bimane corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.059 * +EC3.5.1.115 mycothiol disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.7 * +EC3.5.1.115 mycothiol-3-(n-maleimidopropionyl)biocytin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.0 * +EC3.5.1.115 mycothiol-7-(diethylamino)-3-(4'-maleimidylphenyl)-4-methylcoumarin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.3 * +EC3.5.1.115 mycothiol-acetophenone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 37.0 * +EC3.5.1.115 mycothiol-cerulenin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.0 * +EC3.5.1.115 mycothiol-n-ethylmaleimide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 15.0 * +EC3.5.1.115 rifs13 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.82 * +EC3.5.1.115 rifs17 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.04 * +EC3.5.1.116 (s)-ureidoglycolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 761.0 * +EC3.5.1.116 (s)-ureidoglycolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 17.0 * +EC3.5.1.116 (s)-ureidoglycolate oryza sativa//eukaryotes;plants;monocots;grass family//osa 55.0 * +EC3.5.1.117 n-(4-nitrophenyl)-6-aminohexanamide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 21.0 * +EC3.5.1.117 n-(6-aminohexanoyl)-6-aminohexanoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 19.0 * +EC3.5.1.117 n-(6-aminohexanoyl)-6-aminohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.2 * +EC3.5.1.124 s-(1-hydroxy-2-oxopropyl)-n-acetyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.5.1.124 s-(1-hydroxy-2-oxopropyl)-n-acetyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.5.1.124 s-(1-hydroxy-2-oxopropyl)-n-acetyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.5.1.126 oxamate klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 5.5 * +EC3.5.1.13 3',4'-dichloropropionanilide paracoccus sp. m1-1//*//* 2.8 * +EC3.5.1.13 4-nitroacetanilide nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 19.1 * +EC3.5.1.13 hexanoamide nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 3.5 * +EC3.5.1.13 n-(2-nitrophenyl)-trifluoroacetamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 237.0 * +EC3.5.1.13 n-(2-nitrophenyl)acetamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.5.1.13 n-(2-nitrophenyl)butanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.5.1.13 n-(2-nitrophenyl)heptanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.98 * +EC3.5.1.13 n-(2-nitrophenyl)hexanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.83 * +EC3.5.1.13 n-(2-nitrophenyl)octanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.43 * +EC3.5.1.13 n-(2-nitrophenyl)pentanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.5.1.13 n-(2-nitrophenyl)propanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.5.1.13 n-(2-nitrophenyl)trifluoroacetamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1672.0 * +EC3.5.1.13 n-(3,4-dichlorophenyl) propanamide paracoccus sp. m1-1//*//* 2.8 * +EC3.5.1.13 n-(3,4-dichlorophenyl)propanamide paracoccus sp. m1-1//*//* 2.8 * +EC3.5.1.13 o-nitroacetanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 208.0 * +EC3.5.1.13 p-nitroacetanilide nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 5.8 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxy-2,2-dimethyl-chroman-4-ylsulfanyl)-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 150.0 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxy-2,2-dimethyl-chroman-4-ylsulfanyl)-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxycyclohexylsulfanyl)-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxycyclohexylsulfanyl)-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 30.0 * +EC3.5.1.14 2-acetylamino-3-((3s,4s)-2-hydroxycyclooctylsulfanyl)-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.5.1.14 2-acetylamino-3-[(s)-1-((r)-hydroxyphenyl-methyl)-2-oxo-2-phenyl-ethylsulfanyl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 80.0 * +EC3.5.1.14 2-acetylamino-3-[(s)-1-((r)-hydroxyphenyl-methyl)-2-oxo-2-phenyl-ethylsulfanyl]-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 21.0 * +EC3.5.1.14 n-2,2-dimethylpropionyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.5.1.14 n-2,2-dimethylpropionyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC3.5.1.14 n-acetyl-glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.7 * +EC3.5.1.14 n-acetyl-glycine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.6 * +EC3.5.1.14 n-acetyl-l-arginine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.53 * +EC3.5.1.14 n-acetyl-l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.5.1.14 n-acetyl-l-cys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.0 * +EC3.5.1.14 n-acetyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.1 * +EC3.5.1.14 n-acetyl-l-cysteine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 34.7 * +EC3.5.1.14 n-acetyl-l-ethionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.4 * +EC3.5.1.14 n-acetyl-l-ethionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 68.3 * +EC3.5.1.14 n-acetyl-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 156.0 * +EC3.5.1.14 n-acetyl-l-glutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 207.0 * +EC3.5.1.14 n-acetyl-l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.7 * +EC3.5.1.14 n-acetyl-l-glutamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 146.0 * +EC3.5.1.14 n-acetyl-l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.5.1.14 n-acetyl-l-histidine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.77 * +EC3.5.1.14 n-acetyl-l-isoleucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.28 * +EC3.5.1.14 n-acetyl-l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.5 * +EC3.5.1.14 n-acetyl-l-leucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 160.0 * +EC3.5.1.14 n-acetyl-l-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 65.0 * +EC3.5.1.14 n-acetyl-l-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 30.0 * +EC3.5.1.14 n-acetyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.3 * +EC3.5.1.14 n-acetyl-l-methionine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 370.0 * +EC3.5.1.14 n-acetyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 134.0 * +EC3.5.1.14 n-acetyl-l-norleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 156.0 * +EC3.5.1.14 n-acetyl-l-norleucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 266.0 * +EC3.5.1.14 n-acetyl-l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.5.1.14 n-acetyl-l-phenylalanine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 34.0 * +EC3.5.1.14 n-acetyl-l-phenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.81 * +EC3.5.1.14 n-acetyl-l-threonine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.23 * +EC3.5.1.14 n-acetyl-l-threonine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.21 * +EC3.5.1.14 n-acetyl-l-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.5.1.14 n-acetyl-l-valine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.7 * +EC3.5.1.14 n-acetyl-l-valine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.9 * +EC3.5.1.14 n-acetylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC3.5.1.14 n-benzoyl-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0101 * +EC3.5.1.14 n-benzoyl-l-glutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.115 * +EC3.5.1.14 n-benzoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.158 * +EC3.5.1.14 n-benzoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC3.5.1.14 n-benzoyl-l-phenylalanine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 21300.0 * +EC3.5.1.14 n-benzoyl-l-valine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1760.0 * +EC3.5.1.14 n-butanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 139.0 * +EC3.5.1.14 n-butanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 107.0 * +EC3.5.1.14 n-cbz-gly-ala deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 2.0 * +EC3.5.1.14 n-cyclohexanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00623 * +EC3.5.1.14 n-cyclohexanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.145 * +EC3.5.1.14 n-cyclopentanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC3.5.1.14 n-cyclopentanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.2 * +EC3.5.1.14 n-formyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 177.0 * +EC3.5.1.14 n-formyl-lmethionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 200.0 * +EC3.5.1.14 n-formylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.9 * +EC3.5.1.14 n-hexanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.1 * +EC3.5.1.14 n-hexanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.3 * +EC3.5.1.14 n-isobutanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC3.5.1.14 n-isobutanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 89.8 * +EC3.5.1.14 n-isopentanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC3.5.1.14 n-isopentanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC3.5.1.14 n-pentanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.2 * +EC3.5.1.14 n-pentanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.2 * +EC3.5.1.14 n-propionyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.7 * +EC3.5.1.14 n-propionyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 168.0 * +EC3.5.1.14 nalpha-acetylmethionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 38.3 * +EC3.5.1.15 n-acetylaspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 37.5 * +EC3.5.1.15 n-acetylaspartic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.22 * +EC3.5.1.15 n-trifluoroacetylaspartic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 116.0 * +EC3.5.1.16 n-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3800.0 * +EC3.5.1.16 n-alpha-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3800.0 * +EC3.5.1.16 n2-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3800.0 * +EC3.5.1.18 n-succinyl ll-diaminopimelic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 140.0 * +EC3.5.1.18 n-succinyl-ll-2,6-diaminoheptanedioate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 114.0 * +EC3.5.1.18 n-succinyl-ll-2,6-diaminoheptanedioate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 80.0 * +EC3.5.1.18 n-succinyl-ll-2,6-diaminopimelic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 140.0 * +EC3.5.1.18 n-succinyl-ll-diaminopimelate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 140.0 * +EC3.5.1.19 5-methyl nicotinamide oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 5.1 * +EC3.5.1.19 5-methylnicotinamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.75 * +EC3.5.1.19 benzamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0088 * +EC3.5.1.19 ethyl nicotinate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 0.1 * +EC3.5.1.19 methyl nicotinate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 0.32 * +EC3.5.1.19 nicotinamide acidilobus saccharovorans//prokaryotes;archaea;crenarchaeota;acidilobus//asc 76.9 * +EC3.5.1.19 nicotinamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.93 * +EC3.5.1.19 nicotinamide borreliella burgdorferi//*//* 0.003 * +EC3.5.1.19 nicotinamide caenorhabditis elegans//eukaryotes;animals;nematodes//cel 3.1 * +EC3.5.1.19 nicotinamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.1 * +EC3.5.1.19 nicotinamide oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 11.65 * +EC3.5.1.19 nicotinamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.3 * +EC3.5.1.19 nicotinamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.8 * +EC3.5.1.19 nicotinamide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.1 * +EC3.5.1.19 pyrazinamide acidilobus saccharovorans//prokaryotes;archaea;crenarchaeota;acidilobus//asc 135.7 * +EC3.5.1.19 pyrazinamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.8 * +EC3.5.1.19 pyrazinamide oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 2.6 * +EC3.5.1.19 pyrazinamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.56 * +EC3.5.1.2 2-oxo-glutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 17.5 * +EC3.5.1.2 2-oxo-succinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.15 * +EC3.5.1.2 5-methoxy-2,5-dioxopentanoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 134.5 * +EC3.5.1.2 gamma-ethyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 36.0 * +EC3.5.1.2 gamma-glutamyl hydrazide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC3.5.1.2 gamma-glutamyl methoxyamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 296.0 * +EC3.5.1.2 gamma-glutamyl methylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC3.5.1.2 gamma-glutamyl-hydroxamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 212.0 * +EC3.5.1.2 gamma-methyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 645.0 * +EC3.5.1.2 gamma-thioethyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 300.0 * +EC3.5.1.2 gamma-thiomethyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1260.0 * +EC3.5.1.2 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1270.0 * +EC3.5.1.2 glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5080.0 * +EC3.5.1.2 glutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.8 * +EC3.5.1.2 gly-gln aspergillus sojae//*//* 4790.0 * +EC3.5.1.2 l-asparagine aspergillus sojae//*//* 1606.0 * +EC3.5.1.2 l-glutamine aspergillus sojae//*//* 6249.0 * +EC3.5.1.2 l-glutamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.222 * +EC3.5.1.2 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 67.7 * +EC3.5.1.2 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 101.0 * +EC3.5.1.2 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.5.1.2 l-glutamine micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1400.0 * +EC3.5.1.2 succinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.8 * +EC3.5.1.23 (4e,2s,3r)-2-n-(10-pyrenedecanoyl)-1,3,17-trihydroxy-17-(3,5-dinitrobenzoyl)-4-heptadecene pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC3.5.1.24 glycochenodeoxycholic acid lactobacillus salivarius//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsl 83.77 * +EC3.5.1.24 glycocholate bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 85.0 * +EC3.5.1.24 glycocholic acid lactobacillus salivarius//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsl 82.59 * +EC3.5.1.24 glycodeoxycholic acid brevibacillus sp.//*//* 632.0 * +EC3.5.1.24 glycodeoxycholic acid lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 88.13 * +EC3.5.1.24 glycodeoxycholic acid lactobacillus salivarius//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsl 80.87 * +EC3.5.1.24 taurochenodeoxycholic acid lactobacillus salivarius//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsl 93.11 * +EC3.5.1.24 taurocholate bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 76.0 * +EC3.5.1.24 taurocholic acid lactobacillus salivarius//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsl 93.14 * +EC3.5.1.24 taurodeoxycholic acid lactobacillus salivarius//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsl 99.43 * +EC3.5.1.25 n-acetyl-d-galactosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 154.0 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 177.0 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 110.0 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-sulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 64.0 * +EC3.5.1.25 n-acetylglucosamine 6-phosphate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.68 * +EC3.5.1.25 n-acetylglucosamine 6-phosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.97 * +EC3.5.1.25 n-acetylglucosamine 6-sulfate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.34 * +EC3.5.1.25 n-acetylglucosamine 6-sulfate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 50.0 * +EC3.5.1.25 n-acetylglucosamine alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.63 * +EC3.5.1.25 n-acetylglucosamine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 25.0 * +EC3.5.1.25 n-formyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.0 * +EC3.5.1.25 n-thioacetyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 128.0 * +EC3.5.1.25 n-trifluoroacetyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2610.0 * +EC3.5.1.26 more elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 16.0 * +EC3.5.1.28 1,6-anhydro-murnac-l-ala-gamma-d-glu-m-dap-d-ala-d-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 11.0 * +EC3.5.1.28 1,6-anhydro-murnac-l-ala-gamma-d-glu-m-dap citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 25.0 * +EC3.5.1.28 4-o-beta-d-glcnac-1,6-anhydro-murnac-l-ala-gamma-d-glu-m-dap-d-ala-d-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.4 * +EC3.5.1.28 7-methoxycoumarin-4-yl-acetyl-ala-d-isogln-lys(2,4-dinitrophenyl)-d-ala-arg staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.00159 * +EC3.5.1.28 7-methoxycoumarin-4-yl-acetyl-ala-d-isoglu-lys(2,4-dinitrophenyl)-d-ala-arg staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.00163 * +EC3.5.1.29 (n-acetylaminomethylene)succinic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.67 * +EC3.5.1.29 2-(acetamidomethylene)succinate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.6 * +EC3.5.1.29 alpha-(n-acetylaminomethylene)succinic acid mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 307.3 * +EC3.5.1.3 2-oxoglutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 17.5 * +EC3.5.1.3 2-oxosuccinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.15 * +EC3.5.1.3 gamma-monomethyl-2-oxoglutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 134.5 * +EC3.5.1.3 glutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.8 * +EC3.5.1.3 succinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.8 * +EC3.5.1.32 4-aminobenzoyl-glutamate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 14.75 * +EC3.5.1.32 hippurate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 98.73 * +EC3.5.1.32 n-acetyl-l-alanine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 22.12 * +EC3.5.1.32 n-acetylglycine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 10.18 * +EC3.5.1.32 n-benzoylalanine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 81.0 * +EC3.5.1.32 n-benzoylglutamate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 48.72 * +EC3.5.1.32 n-benzoylmethionine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 57.13 * +EC3.5.1.32 n-benzoylphenylalanine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 5.95 * +EC3.5.1.32 n-benzoylvaline campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 13.33 * +EC3.5.1.36 alpha-ketoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0178 * +EC3.5.1.4 2-aminobenzamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.9 * +EC3.5.1.4 2-hydroxybenzamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.3 * +EC3.5.1.4 2-nitroacetanilide delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 129.0 * +EC3.5.1.4 2-toluamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.425 * +EC3.5.1.4 3-indolacetamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC3.5.1.4 3-phenyl-propionamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.82 * +EC3.5.1.4 3-phenylpropionamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 15.3 * +EC3.5.1.4 4-aminobenzamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.8 * +EC3.5.1.4 4-guanidinobutyramide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 55.6 * +EC3.5.1.4 4-hydroxybenzamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.9 * +EC3.5.1.4 4-nitrobenzamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.8 * +EC3.5.1.4 4-nitrophenylacetate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 144.0 * +EC3.5.1.4 acetamide aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 2668.0 * +EC3.5.1.4 acetamide methylophilus methylotrophus//*//* 2.13 * +EC3.5.1.4 acetamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 790.0 * +EC3.5.1.4 acetamide pyrococcus yayanosii//prokaryotes;archaea;euryarchaeota;pyrococcus//pya 5051.0 * +EC3.5.1.4 acetamide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.21 * +EC3.5.1.4 acetamide rhodococcus sp. n-771//*//* 20.2 * +EC3.5.1.4 acetamide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 305.0 * +EC3.5.1.4 acetamide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 29.9 * +EC3.5.1.4 acetamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 28.9 * +EC3.5.1.4 acetanilide delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 134.0 * +EC3.5.1.4 acetate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 47.4 * +EC3.5.1.4 acetohydrazide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 20.0 * +EC3.5.1.4 acetohydroxamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 14.0 * +EC3.5.1.4 acrylamide aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 38.7 * +EC3.5.1.4 acrylamide pyrococcus yayanosii//prokaryotes;archaea;euryarchaeota;pyrococcus//pya 333.3 * +EC3.5.1.4 acrylamide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.58 * +EC3.5.1.4 acrylamide rhodococcus sp. n-771//*//* 2.1 * +EC3.5.1.4 acrylamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.3 * +EC3.5.1.4 benzamide blastobacter sp.//*//* 0.00217 * +EC3.5.1.4 benzamide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.48 * +EC3.5.1.4 benzamide rhodococcus sp. n-771//*//* 157.7 * +EC3.5.1.4 benzamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1192.0 * +EC3.5.1.4 butyramide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 2.04 * +EC3.5.1.4 butyramide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 34.3 * +EC3.5.1.4 cinnamamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 769.0 * +EC3.5.1.4 cyclohexanamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 16.3 * +EC3.5.1.4 cyclomaltohexaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.2 * +EC3.5.1.4 glutaramic acid blastobacter sp.//*//* 0.0372 * +EC3.5.1.4 hexanamide pyrococcus yayanosii//prokaryotes;archaea;euryarchaeota;pyrococcus//pya 721.7 * +EC3.5.1.4 hexanamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 19.5 * +EC3.5.1.4 indol-3-acetamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.2 * +EC3.5.1.4 isobutyramide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 5.68 * +EC3.5.1.4 isobutyramide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 175.0 * +EC3.5.1.4 isonicotinamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.6 * +EC3.5.1.4 ketoprofen amide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 887.0 * +EC3.5.1.4 l-glutamine pyrococcus yayanosii//prokaryotes;archaea;euryarchaeota;pyrococcus//pya 7216.0 * +EC3.5.1.4 l-prolinamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.1 * +EC3.5.1.4 lactamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.7 * +EC3.5.1.4 metacrylamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.75 * +EC3.5.1.4 methacrylamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.9 * +EC3.5.1.4 n-methylacetamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 890.0 * +EC3.5.1.4 n-methylpropionamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.3 * +EC3.5.1.4 nicotinamide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 5.6 * +EC3.5.1.4 nicotinamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.4 * +EC3.5.1.4 pentanamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 26.8 * +EC3.5.1.4 phenylacetate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 147.0 * +EC3.5.1.4 picolinamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC3.5.1.4 propionamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 465.0 * +EC3.5.1.4 propionamide pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 10.5 * +EC3.5.1.4 propionamide rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 4.03 * +EC3.5.1.4 propionamide rhodococcus sp. n-771//*//* 155.3 * +EC3.5.1.4 propionamide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 28.6 * +EC3.5.1.4 propionamide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 181.0 * +EC3.5.1.4 propionohydrazide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 9.5 * +EC3.5.1.4 propionohydroxamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 22.0 * +EC3.5.1.4 succinamic acid blastobacter sp.//*//* 0.096 * +EC3.5.1.41 (n-acetyl-d-glucosamine)2 colletotrichum lindemuthianum//*//* 8.52 * +EC3.5.1.41 (n-acetyl-d-glucosamine)3 colletotrichum lindemuthianum//*//* 5.94 * +EC3.5.1.41 (n-acetyl-d-glucosamine)4 colletotrichum lindemuthianum//*//* 96.9 * +EC3.5.1.41 (n-acetyl-d-glucosamine)5 colletotrichum lindemuthianum//*//* 83.8 * +EC3.5.1.41 2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-bromoacetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-d-glucose colletotrichum lindemuthianum//*//* 31.0 * +EC3.5.1.41 2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-chloroacetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-d-glucose colletotrichum lindemuthianum//*//* 47.0 * +EC3.5.1.41 2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-fluoroacetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-d-glucose colletotrichum lindemuthianum//*//* 68.0 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 5.4 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 7.0 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 7.0 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 6.0 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 11.0 * +EC3.5.1.41 glcnacbeta(1-4)glcnac colletotrichum lindemuthianum//*//* 11.0 * +EC3.5.1.41 glcnacbeta(1-4)glcnacbeta(1-4)glcnac colletotrichum lindemuthianum//*//* 6.0 * +EC3.5.1.41 glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnac colletotrichum lindemuthianum//*//* 7.0 * +EC3.5.1.41 glcnacglcnacglcnacglcn colletotrichum lindemuthianum//*//* 58.7 * +EC3.5.1.41 glcnacglcnglcnacglcnac colletotrichum lindemuthianum//*//* 57.5 * +EC3.5.1.41 glcnglcnacglcnacglcnac colletotrichum lindemuthianum//*//* 22.7 * +EC3.5.1.41 glycol chitin aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 6.25 * +EC3.5.1.41 glycol chitin colletotrichum lindemuthianum//*//* 27.2 * +EC3.5.1.42 beta-nicotinamide d-ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC3.5.1.42 beta-nicotinamide d-ribonucleotide oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 0.38 * +EC3.5.1.42 nicotinamide mononucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.5.1.42 nicotinamide mononucleotide shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 3.3 * +EC3.5.1.46 6-aminohexanoate trimer flavobacterium sp.//*//* 2.0 * +EC3.5.1.46 n-(6-aminohexanoyl)-6-aminohexanoate flavobacterium sp.//*//* 19.0 * +EC3.5.1.46 n-(6-aminohexanoyl)-6-aminohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.2 * +EC3.5.1.49 formamide methylophilus methylotrophus//*//* 60.7 * +EC3.5.1.5 urea canavalia ensiformis//*//* 5913.0 * +EC3.5.1.5 urea klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3500.0 * +EC3.5.1.54 allophanate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 6.0 * +EC3.5.1.54 allophanate granulibacter bethesdensis//prokaryotes;bacteria;alphaproteobacteria;granulobacter//gbe 18.2 * +EC3.5.1.54 allophanate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 16.4 * +EC3.5.1.54 malonamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC3.5.1.6 2-amino-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.15 * +EC3.5.1.6 2-methyl-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 24.39 * +EC3.5.1.6 2-phenyl-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.13 * +EC3.5.1.6 2-ureidoethane phosphonic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.23 * +EC3.5.1.6 2-ureidoethanesulfonic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.84 * +EC3.5.1.6 3-methyl-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.2 * +EC3.5.1.6 3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 25.71 * +EC3.5.1.6 n-acetyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.93 * +EC3.5.1.6 n-acetyl-l-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.89 * +EC3.5.1.6 n-acetyl-l-methionine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.15 * +EC3.5.1.6 n-carbamoyl-5-aminopentanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.28 * +EC3.5.1.6 n-carbamoyl-alpha-amino-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.15 * +EC3.5.1.6 n-carbamoyl-alpha-methyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 24.39 * +EC3.5.1.6 n-carbamoyl-alpha-phenyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.13 * +EC3.5.1.6 n-carbamoyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 25.71 * +EC3.5.1.6 n-carbamoyl-beta-alanine lachancea kluyveri//*//* 5.3 * +EC3.5.1.6 n-carbamoyl-beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.5.1.6 n-carbamoyl-beta-homoalanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.21 * +EC3.5.1.6 n-carbamoyl-ciliatine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.23 * +EC3.5.1.6 n-carbamoyl-d-ornithine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.01 * +EC3.5.1.6 n-carbamoyl-gaba agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 24.03 * +EC3.5.1.6 n-carbamoyl-gamma-amino-beta-hydroxybutyric acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.95 * +EC3.5.1.6 n-carbamoyl-glycine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 21.88 * +EC3.5.1.6 n-carbamoyl-homoisoserine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.27 * +EC3.5.1.6 n-carbamoyl-l-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.27 * +EC3.5.1.6 n-carbamoyl-l-methionine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 8.64 * +EC3.5.1.6 n-carbamoyl-l-ornithine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.08 * +EC3.5.1.6 n-carbamoyl-l-phenylalanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.81 * +EC3.5.1.6 n-carbamoyl-taurine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.84 * +EC3.5.1.6 n-formyl-l-methionine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 23.03 * +EC3.5.1.66 2-(hydroxymethyl)-3-(acetamidomethylene)succinate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.3 * +EC3.5.1.70 penicillin dihydrof actinoplanes utahensis//*//* 4.2 * +EC3.5.1.70 penicillin f actinoplanes utahensis//*//* 1.9 * +EC3.5.1.70 penicillin g actinoplanes utahensis//*//* 2.2 * +EC3.5.1.70 penicillin k actinoplanes utahensis//*//* 33.3 * +EC3.5.1.70 penicillin v actinoplanes utahensis//*//* 70.3 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 14.88 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 7.0 * +EC3.5.1.78 glutathionylspermidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC3.5.1.79 2-carboxybenzoylamine-d-phe-l-ala xanthobacter agilis//*//* 1.8 * +EC3.5.1.79 2-carboxybenzoylamine-d-phenylglycine-methylester xanthobacter agilis//*//* 4.7 * +EC3.5.1.79 2-carboxybenzoylamine-l-phe-l-ala xanthobacter agilis//*//* 2.3 * +EC3.5.1.81 n-acetyl-d-ala achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 229.0 * +EC3.5.1.81 n-acetyl-d-leu achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 468.0 * +EC3.5.1.81 n-acetyl-d-leucine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 1225.0 * +EC3.5.1.81 n-acetyl-d-met achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 1040.0 * +EC3.5.1.81 n-acetyl-d-met achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 1826.0 * +EC3.5.1.81 n-acetyl-d-met alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 438.0 * +EC3.5.1.81 n-acetyl-d-methionine variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 57.53 * +EC3.5.1.81 n-acetyl-d-phe achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 877.0 * +EC3.5.1.81 n-acetyl-d-phenylalanine microbacterium natoriense//*//* 41.0 * +EC3.5.1.81 n-acetyl-d-trp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 89.5 * +EC3.5.1.81 n-chloroacetyl-d-val achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 382.0 * +EC3.5.1.84 biuret rhizobium leguminosarum bv. viciae//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 4.0 * +EC3.5.1.86 (r)-(+)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.1 * +EC3.5.1.86 (r)-(-)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 10.2 * +EC3.5.1.86 (r)-2-aminophenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 25.0 * +EC3.5.1.86 (r)-lactamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 43.0 * +EC3.5.1.86 (r)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 150.0 * +EC3.5.1.86 (s)-(+)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.73 * +EC3.5.1.86 (s)-2-aminophenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 27.0 * +EC3.5.1.86 (s)-lactamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.0 * +EC3.5.1.86 (s)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 82.0 * +EC3.5.1.86 2-cyclohexylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.1 * +EC3.5.1.86 2-phenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 46.0 * +EC3.5.1.86 acetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.4 * +EC3.5.1.86 butanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.61 * +EC3.5.1.86 caproamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.8 * +EC3.5.1.86 cyclohexanecarboxamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC3.5.1.86 pentanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC3.5.1.86 propanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.6 * +EC3.5.1.87 n-acetyl-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 27.86 * +EC3.5.1.87 n-acetyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.26 * +EC3.5.1.87 n-acetyl-l-phenylalanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.01 * +EC3.5.1.87 n-acetyl-l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.08 * +EC3.5.1.87 n-acetyl-l-valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.08 * +EC3.5.1.87 n-carbamoyl-glycine pseudomonas sp. on4a//*//* 7.56 * +EC3.5.1.87 n-carbamoyl-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 48.96 * +EC3.5.1.87 n-carbamoyl-l-alanine pseudomonas sp. on4a//*//* 6.11 * +EC3.5.1.87 n-carbamoyl-l-cysteine pseudomonas sp. on4a//*//* 16.5 * +EC3.5.1.87 n-carbamoyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.32 * +EC3.5.1.87 n-carbamoyl-l-methionine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.9 * +EC3.5.1.87 n-carbamoyl-l-methionine pseudomonas sp. on4a//*//* 3.54 * +EC3.5.1.87 n-carbamoyl-l-phenylalanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.16 * +EC3.5.1.87 n-carbamoyl-l-thienylalanine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 16.1 * +EC3.5.1.87 n-carbamoyl-l-tryptophan paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 5.1 * +EC3.5.1.87 n-carbamoyl-l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.18 * +EC3.5.1.87 n-carbamoyl-l-tyrosine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 6.5 * +EC3.5.1.87 n-carbamoyl-l-valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.84 * +EC3.5.1.87 n-formyl-dl-tryptophan paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 5.0 * +EC3.5.1.87 n-formyl-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 293.5 * +EC3.5.1.87 n-formyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 839.1 * +EC3.5.1.87 n-formyl-l-phenylalanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 12.12 * +EC3.5.1.87 n-formyl-l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.46 * +EC3.5.1.87 n-formyl-l-valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 27.26 * +EC3.5.1.88 formyl-l-met-leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.5.1.88 formyl-maha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0831 * +EC3.5.1.88 formyl-mehq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00937 * +EC3.5.1.88 formyl-met-ala-his-ala-ala-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC3.5.1.88 formyl-met-ala-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 103.0 * +EC3.5.1.88 formyl-met-ala-ser haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 322.0 * +EC3.5.1.88 formyl-met-ala-ser helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.4 * +EC3.5.1.88 formyl-met-ala-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC3.5.1.88 formyl-met-ala-ser leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 5.0 * +EC3.5.1.88 formyl-met-ala-ser staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 152.0 * +EC3.5.1.88 formyl-met-ala-ser streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 332.0 * +EC3.5.1.88 formyl-met-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.0 * +EC3.5.1.88 formyl-met-leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00046 * +EC3.5.1.88 formyl-met-thr-gln-ser-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.5.1.88 formyl-met-thr-met-his-thr-thr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.5.1.88 formyl-mfad homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.5.1.88 formyl-mfhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0134 * +EC3.5.1.88 formyl-mghq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0155 * +EC3.5.1.88 formyl-mlhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00275 * +EC3.5.1.88 formyl-mlkl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC3.5.1.88 formyl-mmya homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0646 * +EC3.5.1.88 formyl-mnfa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0502 * +EC3.5.1.88 formyl-mnpl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0211 * +EC3.5.1.88 formyl-mpql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0283 * +EC3.5.1.88 formyl-mrhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0202 * +EC3.5.1.88 formyl-mthq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC3.5.1.88 formyl-mtmh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0362 * +EC3.5.1.88 formyl-mtpm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0174 * +EC3.5.1.88 formyl-mvhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00581 * +EC3.5.1.88 n-formyl-1-(1-naphthyl)ethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC3.5.1.88 n-formyl-3-amino-3-phenylpropionic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.1 * +EC3.5.1.88 n-formyl-ala-ala-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.7 * +EC3.5.1.88 n-formyl-alaninol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.5.1.88 n-formyl-alpha-methyl-phenylglycine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC3.5.1.88 n-formyl-l-met-l-ala-l-ser staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 140.0 * +EC3.5.1.88 n-formyl-m-methoxyphenylalanine nitrile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1370.0 * +EC3.5.1.88 n-formyl-met-ala-phe-tyr-beta-ala-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1030.0 * +EC3.5.1.88 n-formyl-met-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 75.0 * +EC3.5.1.88 n-formyl-met-ala-ser bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.17 * +EC3.5.1.88 n-formyl-met-ala-ser chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 6.4 * +EC3.5.1.88 n-formyl-met-ala-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 210.0 * +EC3.5.1.88 n-formyl-met-ala-ser leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 5.0 * +EC3.5.1.88 n-formyl-met-ala-ser mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.6 * +EC3.5.1.88 n-formyl-met-ala-ser solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 15.0 * +EC3.5.1.88 n-formyl-met-ala-ser trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.093 * +EC3.5.1.88 n-formyl-met-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2100.0 * +EC3.5.1.88 n-formyl-met-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.8 * +EC3.5.1.88 n-formyl-met-ala salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 4.1 * +EC3.5.1.88 n-formyl-met-leu-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.2 * +EC3.5.1.88 n-formyl-met-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1320.0 * +EC3.5.1.88 n-formyl-met-leu-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.0 * +EC3.5.1.88 n-formyl-met-leu-phe arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC3.5.1.88 n-formyl-met-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 197.0 * +EC3.5.1.88 n-formyl-met-ser-asn-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 11.0 * +EC3.5.1.88 n-formyl-met-ser-asn-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 175.0 * +EC3.5.1.88 n-formyl-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC3.5.1.88 n-formyl-nle-ala(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 270.0 * +EC3.5.1.88 n-formyl-nle-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 136.0 * +EC3.5.1.88 n-formyl-nle-ala-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 218.0 * +EC3.5.1.88 n-formyl-nle-arg(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 138.0 * +EC3.5.1.88 n-formyl-nle-arg(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 300.0 * +EC3.5.1.88 n-formyl-nle-asn(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 320.0 * +EC3.5.1.88 n-formyl-nle-asp(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.4 * +EC3.5.1.88 n-formyl-nle-asp(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 120.0 * +EC3.5.1.88 n-formyl-nle-gln(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 280.0 * +EC3.5.1.88 n-formyl-nle-glu(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 200.0 * +EC3.5.1.88 n-formyl-nle-gly(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.4 * +EC3.5.1.88 n-formyl-nle-gly(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 260.0 * +EC3.5.1.88 n-formyl-nle-his(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 250.0 * +EC3.5.1.88 n-formyl-nle-leu(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.36 * +EC3.5.1.88 n-formyl-nle-leu(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 150.0 * +EC3.5.1.88 n-formyl-nle-lys(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 230.0 * +EC3.5.1.88 n-formyl-nle-met(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 190.0 * +EC3.5.1.88 n-formyl-nle-nle(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 210.0 * +EC3.5.1.88 n-formyl-nle-phe(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 200.0 * +EC3.5.1.88 n-formyl-nle-pro(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 150.0 * +EC3.5.1.88 n-formyl-nle-ser(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 51.0 * +EC3.5.1.88 n-formyl-nle-ser(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 170.0 * +EC3.5.1.88 n-formyl-nle-thr(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 180.0 * +EC3.5.1.88 n-formyl-nle-trp(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 130.0 * +EC3.5.1.88 n-formyl-nle-tyr(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 140.0 * +EC3.5.1.88 n-formyl-nle-val(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 160.0 * +EC3.5.1.88 n-formyl-nva-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 18.0 * +EC3.5.1.88 n-formyl-phe-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC3.5.1.88 n-formyl-phe-tyr-phe-his-beta-ala-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 204.0 * +EC3.5.1.88 n-formyl-phenylalanine nitrile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 880.0 * +EC3.5.1.88 n-formyl-phenylglycine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 227.0 * +EC3.5.1.88 n-formyl-phenylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.6 * +EC3.5.1.88 n-formyl-phenylglycinol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.08 * +EC3.5.1.88 n-formyl-tert-leucine amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.5.1.88 n-formyl-thiaphenylalanyl-peptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC3.5.1.88 n-formyl-thiaphenylalanylleucyl-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC3.5.1.88 n-formyl-valine nitrile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.7 * +EC3.5.1.88 n-formylmethionylleucyl-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC3.5.1.9 n-formyl-l-kynurenine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 50.56 * +EC3.5.1.9 n-formyl-l-kynurenine burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 43.94 * +EC3.5.1.9 n-formyl-l-kynurenine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 26.4 * +EC3.5.1.9 n-formyl-l-kynurenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 114.2 * +EC3.5.1.9 n-formyl-l-kynurenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 161.0 * +EC3.5.1.93 4-(glutarylamino)benzoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.16 * +EC3.5.1.93 7-aminocephalosporanic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0485 * +EC3.5.1.93 adipyl-7-aminocephalosporanic acid pseudomonas sp. sy-77-1//*//* 0.49 * +EC3.5.1.93 adipyl-7-aminodeacetoxycephalosporanic acid pseudomonas sp. sy-77-1//*//* 0.41 * +EC3.5.1.93 adipyl-7-aminodesacetoxycephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.46 * +EC3.5.1.93 cephalosporin c pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.93 * +EC3.5.1.93 gamma-glu-cys-gly pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.33 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid brevibacillus laterosporus//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//blr 7.54 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas sp. 130//*//* 16.9 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas sp. sy-77-1//*//* 4.0 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 49.8 * +EC3.5.1.93 glutaryl-alanyl-proline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.2 * +EC3.5.1.93 glutaryl-egdppdladqg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 12.8 * +EC3.5.1.93 glutaryl-gamma-glu-cys-gly pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.2 * +EC3.5.1.93 glutaryl-gdaadaadkg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.8 * +EC3.5.1.93 glutaryl-gdpp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 13.8 * +EC3.5.1.93 glutaryl-gdppdladqg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 13.2 * +EC3.5.1.93 glutaryl-ggggaa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.36 * +EC3.5.1.93 glutaryl-gggggk pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.73 * +EC3.5.1.93 glutaryl-glycine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.65 * +EC3.5.1.93 glutaryl-glycyl-proline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.4 * +EC3.5.1.93 glutaryl-tryptophan pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.1 * +EC3.5.1.93 glutarylaniline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.35 * +EC3.5.1.93 succinyl-7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.28 * +EC3.5.1.98 ac-leu-gly-lys(ac)-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.19 * +EC3.5.1.98 fluor de lys hdac substrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.5.1.98 fluor de lys hdac8 substrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.5.1.98 fluor de lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.5.1.98 rhk(acetyl)k(acetyl)-fluorophore homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.5.1.99 arachidonoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.48 * +EC3.5.1.99 decanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.56 * +EC3.5.1.99 heptanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.46 * +EC3.5.1.99 lauroyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.46 * +EC3.5.1.99 myristoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC3.5.1.99 octanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.73 * +EC3.5.1.99 oleamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.0 * +EC3.5.1.99 oleoyl methyl amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC3.5.1.99 oleoyl methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.5.1.99 oleoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.8 * +EC3.5.1.99 palmitoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC3.5.1.B15 pyrazinamide acidilobus saccharovorans//prokaryotes;archaea;crenarchaeota;acidilobus//asc 135.7 * +EC3.5.1.B4 n2-acetyl-l-citrulline xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.00048 * +EC3.5.1.B4 n2-acetyl-l-ornithine xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.00049 * +EC3.5.2.10 creatinine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1340.0 * +EC3.5.2.12 1,8-diazacyclotetradecane-2,9-dione flavobacterium sp.//*//* 8.0 * +EC3.5.2.12 1,8-diazacyclotetradecane-2,9-dione pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.7 * +EC3.5.2.12 6-amino-hexanoate cyclic dimer arthrobacter sp. ki72//*//* 4.97 * +EC3.5.2.15 cyanuric acid acidovorax citrulli//prokaryotes;bacteria;betaproteobacteria;acidovorax//aav 14.2 * +EC3.5.2.15 cyanuric acid moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 10.6 * +EC3.5.2.15 cyanuric acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 250.0 * +EC3.5.2.16 dihydrouracil pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 9.14 * +EC3.5.2.16 hydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.94 * +EC3.5.2.16 maleimide agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 163.3 * +EC3.5.2.16 maleimide oreochromis niloticus//*//* 3950.0 * +EC3.5.2.16 maleimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 479.0 * +EC3.5.2.16 maleimide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 106.7 * +EC3.5.2.16 phthalimide agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 7.67 * +EC3.5.2.16 phthalimide oreochromis niloticus//*//* 428.3 * +EC3.5.2.16 phthalimide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 25.17 * +EC3.5.2.16 succinimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1494.0 * +EC3.5.2.17 5,6-diaminouracil glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.21 * +EC3.5.2.17 5-hydroxyisourate glycine max//eukaryotes;plants;eudicots;pea family//gmx 24.0 * +EC3.5.2.17 5-hydroxyisourate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 172.0 * +EC3.5.2.2 d-5-benzylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.0 * +EC3.5.2.2 d-5-butylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 3.0 * +EC3.5.2.2 d-5-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 37.3 * +EC3.5.2.2 d-5-ethylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 17.0 * +EC3.5.2.2 d-5-isobutylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.0 * +EC3.5.2.2 d-5-isopropylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 5.0 * +EC3.5.2.2 d-5-methyl-thio-ethylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 18.0 * +EC3.5.2.2 d-5-methylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 197.0 * +EC3.5.2.2 d-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 92.6 * +EC3.5.2.2 d-5-propylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 6.0 * +EC3.5.2.2 dihydrouracil bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.2 * +EC3.5.2.2 dihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.0 * +EC3.5.2.2 dl-5-(p-hydroxyphenyl)hydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.0 * +EC3.5.2.2 dl-5-methyldihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.0 * +EC3.5.2.2 dl-6-isopropyldihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.0 * +EC3.5.2.2 dl-6-methyldihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 8.0 * +EC3.5.2.2 dl-hydroxyphenylhydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 18.0 * +EC3.5.2.2 dl-p-hydroxyphenylhydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 18.0 * +EC3.5.2.2 dl-p-hydroxyphenylhydantoin jannaschia sp. ccs1//prokaryotes;bacteria;alphaproteobacteria;jannaschia//jan 4.6 * +EC3.5.2.2 hydantoin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.04 * +EC3.5.2.2 hydantoin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 450.0 * +EC3.5.2.2 hydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 440.0 * +EC3.5.2.2 hydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 12.0 * +EC3.5.2.2 hydrothymine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC3.5.2.2 hydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 71.7 * +EC3.5.2.2 l-5-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.44 * +EC3.5.2.2 l-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 11.4 * +EC3.5.2.3 (s)-dihydroorotate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.87 * +EC3.5.2.3 dihydro-dl-orotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 127.0 * +EC3.5.2.3 l-carbamoyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 181.1 * +EC3.5.2.3 l-carbamoyl-l-aspartate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.073 * +EC3.5.2.3 l-carbamoylaspartate crithidia fasciculata//*//* 0.653 * +EC3.5.2.3 l-carbamoylaspartate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.653 * +EC3.5.2.3 l-dihydroorotate crithidia fasciculata//*//* 4.31 * +EC3.5.2.3 l-dihydroorotate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 4.31 * +EC3.5.2.3 l-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.492 * +EC3.5.2.3 n-carbamoyl-dl-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 195.0 * +EC3.5.2.3 n-carbamoyl-l-aspartate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.48 * +EC3.5.2.5 allantoin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 420.0 * +EC3.5.2.6 (2s,5r,6r)-6-[[(2r)-2-carboxy-2-thiophen-3-ylacetyl]amino]-3,3-dimethyl-7-oxo-4-thia-1-azabicyclo[3.2.0]heptane-2-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.2 * +EC3.5.2.6 (2s,5r,6r)-6-[[(2r)-2-carboxy-2-thiophen-3-ylacetyl]amino]-3,3-dimethyl-7-oxo-4-thia-1-azabicyclo[3.2.0]heptane-2-carboxylic acid klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 84.0 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-(formylamino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1180.0 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-(formylamino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.02 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-(hydroxyamino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.6 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[[(2e)-2-(2-amino-1,3-thiazol-4-yl)-2-(methoxyimino)acetyl]amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 1.5 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[formyl(hydroxy)amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.32 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[hydroxy(phenylacetyl)amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.49 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[hydroxy(phenylacetyl)amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.121 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-amino-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.46 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-8-oxo-7-[(thiophen-2-ylacetyl)amino]-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 690.0 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-8-oxo-7-[(thiophen-2-ylacetyl)amino]-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.81 * +EC3.5.2.6 (6r,7s)-3-[(3-carboxy-4-nitro-phenyl)sulfanylmethyl]-8-oxo-7-[(2-thiophen-2-ylacetyl)amino]-5-thia-1-azabicyclo-[4.2.0]-oct-2-ene-2-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC3.5.2.6 (6r,7z)-3-[(acetyloxy)methyl]-7-(hydroxyimino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.56 * +EC3.5.2.6 (6r,7z)-7-(hydroxyimino)-3-methyl-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate 5,5-dioxide enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.54 * +EC3.5.2.6 3-([3-[benzyl(methyl)amino]-3-oxopropanoyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.33 * +EC3.5.2.6 3-([3-dibenzylamino-3-oxopropanoyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.25 * +EC3.5.2.6 3-([[(2r)-3-(benzylamino)-2-methoxy-3-oxopropanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.9 * +EC3.5.2.6 3-([[(2r)-3-(benzylamino)-2-methyl-3-oxopropanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.17 * +EC3.5.2.6 3-([[(2s)-3-(benzylamino)-2-methoxy-3-oxopropanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 7.4 * +EC3.5.2.6 3-([[(2s)-3-(benzylamino)-2-methyl-3-oxopropanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 6.6 * +EC3.5.2.6 3-([[2-benzyl-3-oxo-3-(benzylamino)propanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.05 * +EC3.5.2.6 3-([n-(phenylacetyl)glycyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 125.0 * +EC3.5.2.6 3-([n-[(2z)-2-(2-amino-1,3-thiazol-4-yl)-2-(methoxyimino)acetyl]glycyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 19.0 * +EC3.5.2.6 3-[2-(2-aminothiazol-4-yl)2-(z)-methoxyiminoacetylglycyl]oxybenzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 19.0 * +EC3.5.2.6 3-[[(2s)-2-hydroxy-3-phenylpropanoyl]oxy]benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 6.9 * +EC3.5.2.6 3-nitrophenyl (2s)-2-hydroxy-3-phenylpropanoate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 10.9 * +EC3.5.2.6 6-aminopenicillanic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 659.0 * +EC3.5.2.6 6-beta-iodopenicillanate elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 300.0 * +EC3.5.2.6 7-(thienyl-2-acetamido)-3-[2-(4-,n,n-dimethylaminophenylazo)pyridinium-methyl]-3-cephem-4-carboxylic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 667.0 * +EC3.5.2.6 7-(thienyl-2-acetamido)-3-[2-(4-n,n-dimethylaminophenylazo)pyridinium-methyl]-3-cephem-4-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC3.5.2.6 amoxicillin acinetobacter bereziniae//*//* 15.2 * +EC3.5.2.6 amoxicillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 85.0 * +EC3.5.2.6 amoxicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 816.0 * +EC3.5.2.6 amoxicillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 23.0 * +EC3.5.2.6 amoxicillin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.67 * +EC3.5.2.6 amoxicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.0 * +EC3.5.2.6 amoxicillin pseudomonas luteola//*//* 21.0 * +EC3.5.2.6 amoxicillin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 30.0 * +EC3.5.2.6 amoxycillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 910.0 * +EC3.5.2.6 amoxycillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 460.0 * +EC3.5.2.6 ampicillin achromobacter sp. sallbros1//*//* 3.3 * +EC3.5.2.6 ampicillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.06 * +EC3.5.2.6 ampicillin acinetobacter baylyi//*//* 0.17 * +EC3.5.2.6 ampicillin acinetobacter bereziniae//*//* 1.0 * +EC3.5.2.6 ampicillin acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 357.0 * +EC3.5.2.6 ampicillin aeromonas enteropelogenes//*//* 0.63 * +EC3.5.2.6 ampicillin aeromonas sobria//*//* 1.1 * +EC3.5.2.6 ampicillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 5400.0 * +EC3.5.2.6 ampicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2240.0 * +EC3.5.2.6 ampicillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 75.0 * +EC3.5.2.6 ampicillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 6.6 * +EC3.5.2.6 ampicillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 70.0 * +EC3.5.2.6 ampicillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.54 * +EC3.5.2.6 ampicillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 10.3 * +EC3.5.2.6 ampicillin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 19.0 * +EC3.5.2.6 ampicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 14.0 * +EC3.5.2.6 ampicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1375.0 * +EC3.5.2.6 ampicillin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 45.0 * +EC3.5.2.6 ampicillin janthinobacterium lividum//*//* 480.0 * +EC3.5.2.6 ampicillin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 5.4 * +EC3.5.2.6 ampicillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 955.0 * +EC3.5.2.6 ampicillin kluyvera ascorbata//*//* 7.0 * +EC3.5.2.6 ampicillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 33.0 * +EC3.5.2.6 ampicillin morganella morganii subsp. morganii//*//* 0.065 * +EC3.5.2.6 ampicillin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 18.5 * +EC3.5.2.6 ampicillin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 5.0 * +EC3.5.2.6 ampicillin plasmid pbg66//*//* 1085.0 * +EC3.5.2.6 ampicillin plasmid pgem-t-easy//*//* 220.0 * +EC3.5.2.6 ampicillin plasmid rgn238//*//* 357.0 * +EC3.5.2.6 ampicillin providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 18.0 * +EC3.5.2.6 ampicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1170.0 * +EC3.5.2.6 ampicillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.65 * +EC3.5.2.6 ampicillin pseudomonas otitidis//*//* 190.0 * +EC3.5.2.6 ampicillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 560.0 * +EC3.5.2.6 ampicillin psychrobacter immobilis//*//* 6.0 * +EC3.5.2.6 ampicillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 155.0 * +EC3.5.2.6 ampicillin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.46 * +EC3.5.2.6 ampicillin shewanella algae//*//* 8.0 * +EC3.5.2.6 ampicillin shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 36.9 * +EC3.5.2.6 ampicillin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 550.0 * +EC3.5.2.6 ampicillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 580.0 * +EC3.5.2.6 ampicillin synthetic construct//*//* 3100.0 * +EC3.5.2.6 azlocillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 78.0 * +EC3.5.2.6 azlocillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 37.0 * +EC3.5.2.6 aztreonam achromobacter sp. sallbros1//*//* 0.01 * +EC3.5.2.6 aztreonam bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.3 * +EC3.5.2.6 aztreonam burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 30.0 * +EC3.5.2.6 aztreonam enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 707.0 * +EC3.5.2.6 aztreonam escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 84.0 * +EC3.5.2.6 aztreonam klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 4.7 * +EC3.5.2.6 aztreonam klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 100.0 * +EC3.5.2.6 aztreonam kluyvera ascorbata//*//* 0.24 * +EC3.5.2.6 aztreonam providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 9.0 * +EC3.5.2.6 aztreonam pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.0 * +EC3.5.2.6 aztreonam pseudomonas luteola//*//* 1.5 * +EC3.5.2.6 aztreonam serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 162.0 * +EC3.5.2.6 benzyl [[(2r)-2-hydroxy-3-phenylpropanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 5.9 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxy-2-phenylacetyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3.5 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxy-3-phenylpropanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 8.7 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxy-4-phenylbutanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.5 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxypropanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.5 * +EC3.5.2.6 benzylpenicillin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.1 * +EC3.5.2.6 benzylpenicillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.2 * +EC3.5.2.6 benzylpenicillin acinetobacter bereziniae//*//* 11.0 * +EC3.5.2.6 benzylpenicillin aeromonas sobria//*//* 1.2 * +EC3.5.2.6 benzylpenicillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2200.0 * +EC3.5.2.6 benzylpenicillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 97.0 * +EC3.5.2.6 benzylpenicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2650.0 * +EC3.5.2.6 benzylpenicillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 4.9 * +EC3.5.2.6 benzylpenicillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 130.0 * +EC3.5.2.6 benzylpenicillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 10.92 * +EC3.5.2.6 benzylpenicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 260.0 * +EC3.5.2.6 benzylpenicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1400.0 * +EC3.5.2.6 benzylpenicillin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 830.0 * +EC3.5.2.6 benzylpenicillin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.5 * +EC3.5.2.6 benzylpenicillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 420.0 * +EC3.5.2.6 benzylpenicillin kluyvera ascorbata//*//* 10.0 * +EC3.5.2.6 benzylpenicillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 41.0 * +EC3.5.2.6 benzylpenicillin morganella morganii subsp. morganii//*//* 0.0074 * +EC3.5.2.6 benzylpenicillin plasmid pgem-t-easy//*//* 120.0 * +EC3.5.2.6 benzylpenicillin plasmid pqe32chl17//*//* 1160.0 * +EC3.5.2.6 benzylpenicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 650.0 * +EC3.5.2.6 benzylpenicillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 34.3 * +EC3.5.2.6 benzylpenicillin psychrobacter immobilis//*//* 20.0 * +EC3.5.2.6 benzylpenicillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 770.0 * +EC3.5.2.6 benzylpenicillin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 650.0 * +EC3.5.2.6 benzylpenicillin shewanella algae//*//* 4.0 * +EC3.5.2.6 benzylpenicillin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 135.0 * +EC3.5.2.6 benzylpenicillin streptomyces cacaoi//*//* 473.0 * +EC3.5.2.6 benzylpenicillin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 45.0 * +EC3.5.2.6 benzylpenicllin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 830.0 * +EC3.5.2.6 biapenem aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 300.0 * +EC3.5.2.6 biapenem aeromonas sobria//*//* 1.5 * +EC3.5.2.6 biapenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 15.0 * +EC3.5.2.6 biapenem stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 134.0 * +EC3.5.2.6 carbenicillin aeromonas sobria//*//* 0.5 * +EC3.5.2.6 carbenicillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 260.0 * +EC3.5.2.6 carbenicillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 1.1 * +EC3.5.2.6 carbenicillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 16.96 * +EC3.5.2.6 carbenicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.004 * +EC3.5.2.6 carbenicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.0 * +EC3.5.2.6 carbenicillin kluyvera ascorbata//*//* 1.0 * +EC3.5.2.6 carbenicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1200.0 * +EC3.5.2.6 carbenicillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.52 * +EC3.5.2.6 carbenicillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.7 * +EC3.5.2.6 carbenicillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 100.0 * +EC3.5.2.6 cefaclor escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.0 * +EC3.5.2.6 cefaclor moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 69.0 * +EC3.5.2.6 cefaclor stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 60.0 * +EC3.5.2.6 cefadroxil stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 23.0 * +EC3.5.2.6 cefaloridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1300.0 * +EC3.5.2.6 cefalothin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 510.0 * +EC3.5.2.6 cefalothin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 440.0 * +EC3.5.2.6 cefalotin acinetobacter baylyi//*//* 4.22 * +EC3.5.2.6 cefalotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1190.0 * +EC3.5.2.6 cefalotin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 75.0 * +EC3.5.2.6 cefamandole mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 58.3 * +EC3.5.2.6 cefamandole serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 6110.0 * +EC3.5.2.6 cefamandole staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.35 * +EC3.5.2.6 cefazolin aeromonas enteropelogenes//*//* 0.55 * +EC3.5.2.6 cefazolin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.46 * +EC3.5.2.6 cefazolin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3000.0 * +EC3.5.2.6 cefazolin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 560.0 * +EC3.5.2.6 cefazolin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.2 * +EC3.5.2.6 cefazolin plasmid pqe32chl17//*//* 69.0 * +EC3.5.2.6 cefazolin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 61.0 * +EC3.5.2.6 cefazolin psychrobacter immobilis//*//* 476.0 * +EC3.5.2.6 cefazolin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1300.0 * +EC3.5.2.6 cefazolin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.67 * +EC3.5.2.6 cefcapene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 110.0 * +EC3.5.2.6 cefdinir escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 83.0 * +EC3.5.2.6 cefepime aeromonas enteropelogenes//*//* 0.0094 * +EC3.5.2.6 cefepime aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 0.58 * +EC3.5.2.6 cefepime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 40.0 * +EC3.5.2.6 cefepime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 10.0 * +EC3.5.2.6 cefepime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.1 * +EC3.5.2.6 cefepime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 34.0 * +EC3.5.2.6 cefepime klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.4 * +EC3.5.2.6 cefepime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 30.0 * +EC3.5.2.6 cefepime morganella morganii subsp. morganii//*//* 0.008 * +EC3.5.2.6 cefepime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 119.0 * +EC3.5.2.6 cefepime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 15.0 * +EC3.5.2.6 cefepime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 225.0 * +EC3.5.2.6 cefepime shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 67.7 * +EC3.5.2.6 cefepime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.333 * +EC3.5.2.6 cefepime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.8 * +EC3.5.2.6 cefmetazole stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 4.7 * +EC3.5.2.6 cefoperazone kluyvera ascorbata//*//* 0.22 * +EC3.5.2.6 cefoperazone serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 70.0 * +EC3.5.2.6 cefotaxime aeromonas enteropelogenes//*//* 0.015 * +EC3.5.2.6 cefotaxime aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.0002 * +EC3.5.2.6 cefotaxime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 22.0 * +EC3.5.2.6 cefotaxime bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 25.0 * +EC3.5.2.6 cefotaxime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 20.0 * +EC3.5.2.6 cefotaxime chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 1.53 * +EC3.5.2.6 cefotaxime citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2181.0 * +EC3.5.2.6 cefotaxime elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 39.0 * +EC3.5.2.6 cefotaxime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 286.0 * +EC3.5.2.6 cefotaxime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1400.0 * +EC3.5.2.6 cefotaxime janthinobacterium lividum//*//* 80.0 * +EC3.5.2.6 cefotaxime klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.07 * +EC3.5.2.6 cefotaxime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 120.0 * +EC3.5.2.6 cefotaxime kluyvera ascorbata//*//* 3.3 * +EC3.5.2.6 cefotaxime morganella morganii subsp. morganii//*//* 0.09 * +EC3.5.2.6 cefotaxime pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 250.0 * +EC3.5.2.6 cefotaxime plasmid pbc//*//* 142.0 * +EC3.5.2.6 cefotaxime plasmid pqe32chl17//*//* 0.74 * +EC3.5.2.6 cefotaxime providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 1.5 * +EC3.5.2.6 cefotaxime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 612.0 * +EC3.5.2.6 cefotaxime pseudomonas luteola//*//* 452.0 * +EC3.5.2.6 cefotaxime pseudomonas otitidis//*//* 56.0 * +EC3.5.2.6 cefotaxime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 398.0 * +EC3.5.2.6 cefotaxime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 920.0 * +EC3.5.2.6 cefotaxime shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 197.0 * +EC3.5.2.6 cefotaxime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 140.0 * +EC3.5.2.6 cefotaxime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.3 * +EC3.5.2.6 cefotetan enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 5.0 * +EC3.5.2.6 cefotiam serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 945.0 * +EC3.5.2.6 cefoxitin achromobacter sp. sallbros1//*//* 0.3 * +EC3.5.2.6 cefoxitin aeromonas enteropelogenes//*//* 0.88 * +EC3.5.2.6 cefoxitin aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 0.27 * +EC3.5.2.6 cefoxitin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.01 * +EC3.5.2.6 cefoxitin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 150.0 * +EC3.5.2.6 cefoxitin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1178.0 * +EC3.5.2.6 cefoxitin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 6.0 * +EC3.5.2.6 cefoxitin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 5.0 * +EC3.5.2.6 cefoxitin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC3.5.2.6 cefoxitin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 10.0 * +EC3.5.2.6 cefoxitin kluyvera ascorbata//*//* 0.00043 * +EC3.5.2.6 cefoxitin morganella morganii subsp. morganii//*//* 0.038 * +EC3.5.2.6 cefoxitin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.1 * +EC3.5.2.6 cefoxitin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 7.0 * +EC3.5.2.6 cefoxitin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 35.0 * +EC3.5.2.6 cefoxitin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.0 * +EC3.5.2.6 cefoxitin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 4.2 * +EC3.5.2.6 cefoxitin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 2.2 * +EC3.5.2.6 cefoxitin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.3 * +EC3.5.2.6 cefpirome aeromonas enteropelogenes//*//* 23.0 * +EC3.5.2.6 cefpirome bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 95.0 * +EC3.5.2.6 cefpirome escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.5.2.6 cefpirome pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 102.0 * +EC3.5.2.6 cefpirome serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 745.0 * +EC3.5.2.6 cefpirome shewanella algae//*//* 0.1 * +EC3.5.2.6 cefpirome yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.8 * +EC3.5.2.6 cefprozil stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 15.0 * +EC3.5.2.6 cefsulodin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0833 * +EC3.5.2.6 cefsulodine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 25.0 * +EC3.5.2.6 ceftaxidime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.3 * +EC3.5.2.6 ceftazidime achromobacter sp. sallbros1//*//* 0.07 * +EC3.5.2.6 ceftazidime aeromonas enteropelogenes//*//* 0.11 * +EC3.5.2.6 ceftazidime aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 0.09 * +EC3.5.2.6 ceftazidime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 3.3 * +EC3.5.2.6 ceftazidime bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 140.0 * +EC3.5.2.6 ceftazidime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 1.5 * +EC3.5.2.6 ceftazidime citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 118.0 * +EC3.5.2.6 ceftazidime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 4.67 * +EC3.5.2.6 ceftazidime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC3.5.2.6 ceftazidime janthinobacterium lividum//*//* 20.0 * +EC3.5.2.6 ceftazidime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 24.0 * +EC3.5.2.6 ceftazidime morganella morganii subsp. morganii//*//* 0.04 * +EC3.5.2.6 ceftazidime mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC3.5.2.6 ceftazidime pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 160.0 * +EC3.5.2.6 ceftazidime providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 12.0 * +EC3.5.2.6 ceftazidime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 42.0 * +EC3.5.2.6 ceftazidime pseudomonas luteola//*//* 1.3 * +EC3.5.2.6 ceftazidime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 12.0 * +EC3.5.2.6 ceftazidime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 30.0 * +EC3.5.2.6 ceftazidime shewanella algae//*//* 2.0 * +EC3.5.2.6 ceftazidime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 1.0 * +EC3.5.2.6 ceftizoxime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 2.7 * +EC3.5.2.6 ceftriaxone aeromonas enteropelogenes//*//* 0.042 * +EC3.5.2.6 ceftriaxone bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 30.0 * +EC3.5.2.6 ceftriaxone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.82 * +EC3.5.2.6 ceftriaxone pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 13.0 * +EC3.5.2.6 ceftriaxone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 25.0 * +EC3.5.2.6 ceftriazone serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 620.0 * +EC3.5.2.6 cefuroxime achromobacter sp. sallbros1//*//* 0.1 * +EC3.5.2.6 cefuroxime aeromonas enteropelogenes//*//* 0.042 * +EC3.5.2.6 cefuroxime aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 11.0 * +EC3.5.2.6 cefuroxime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 15.0 * +EC3.5.2.6 cefuroxime bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.02 * +EC3.5.2.6 cefuroxime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 170.0 * +EC3.5.2.6 cefuroxime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 74.8 * +EC3.5.2.6 cefuroxime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 190.0 * +EC3.5.2.6 cefuroxime janthinobacterium lividum//*//* 140.0 * +EC3.5.2.6 cefuroxime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 21.0 * +EC3.5.2.6 cefuroxime kluyvera ascorbata//*//* 2.5 * +EC3.5.2.6 cefuroxime moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 4.8 * +EC3.5.2.6 cefuroxime mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.17 * +EC3.5.2.6 cefuroxime pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 400.0 * +EC3.5.2.6 cefuroxime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 283.0 * +EC3.5.2.6 cefuroxime pseudomonas luteola//*//* 286.0 * +EC3.5.2.6 cefuroxime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 61.0 * +EC3.5.2.6 cefuroxime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 540.0 * +EC3.5.2.6 cefuroxime staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00833 * +EC3.5.2.6 cefuroxime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 53.0 * +EC3.5.2.6 cefuroxime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 1.0 * +EC3.5.2.6 centa fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.42 * +EC3.5.2.6 centa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 29.5 * +EC3.5.2.6 cephalexin aeromonas enteropelogenes//*//* 160.0 * +EC3.5.2.6 cephalexin bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 4.83 * +EC3.5.2.6 cephalexin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 72.0 * +EC3.5.2.6 cephalexin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 115.0 * +EC3.5.2.6 cephalexin plasmid pbg66//*//* 13.0 * +EC3.5.2.6 cephalexin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 31.0 * +EC3.5.2.6 cephalexin psychrobacter immobilis//*//* 26.0 * +EC3.5.2.6 cephalexin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 80.0 * +EC3.5.2.6 cephaloridin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 120.0 * +EC3.5.2.6 cephaloridine acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.05 * +EC3.5.2.6 cephaloridine acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 16.0 * +EC3.5.2.6 cephaloridine bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 115.0 * +EC3.5.2.6 cephaloridine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 20.0 * +EC3.5.2.6 cephaloridine burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 13.0 * +EC3.5.2.6 cephaloridine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 686.0 * +EC3.5.2.6 cephaloridine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 14.0 * +EC3.5.2.6 cephaloridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 780.0 * +EC3.5.2.6 cephaloridine klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 190.0 * +EC3.5.2.6 cephaloridine moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 5.6 * +EC3.5.2.6 cephaloridine plasmid pgem-t-easy//*//* 70.0 * +EC3.5.2.6 cephaloridine plasmid rgn238//*//* 16.0 * +EC3.5.2.6 cephaloridine providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 15.0 * +EC3.5.2.6 cephaloridine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 180.0 * +EC3.5.2.6 cephaloridine serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 2530.0 * +EC3.5.2.6 cephaloridine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 90.0 * +EC3.5.2.6 cephaloridine shewanella algae//*//* 10.0 * +EC3.5.2.6 cephaloridine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.65 * +EC3.5.2.6 cephaloridine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 67.0 * +EC3.5.2.6 cephalosporin c bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.2 * +EC3.5.2.6 cephalosporin c escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC3.5.2.6 cephalosporin c moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 5.0 * +EC3.5.2.6 cephalosporin c mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 17.83 * +EC3.5.2.6 cephalosporin c stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 280.0 * +EC3.5.2.6 cephalothin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.5 * +EC3.5.2.6 cephalothin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.004 * +EC3.5.2.6 cephalothin acinetobacter bereziniae//*//* 0.2 * +EC3.5.2.6 cephalothin aeromonas enteropelogenes//*//* 470.0 * +EC3.5.2.6 cephalothin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 22.0 * +EC3.5.2.6 cephalothin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 300.0 * +EC3.5.2.6 cephalothin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.28 * +EC3.5.2.6 cephalothin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2820.0 * +EC3.5.2.6 cephalothin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 540.0 * +EC3.5.2.6 cephalothin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 4.1 * +EC3.5.2.6 cephalothin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 530.0 * +EC3.5.2.6 cephalothin kluyvera ascorbata//*//* 56.0 * +EC3.5.2.6 cephalothin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 4.9 * +EC3.5.2.6 cephalothin morganella morganii subsp. morganii//*//* 140.0 * +EC3.5.2.6 cephalothin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 12.1 * +EC3.5.2.6 cephalothin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 240.0 * +EC3.5.2.6 cephalothin plasmid pbc//*//* 44.0 * +EC3.5.2.6 cephalothin plasmid pbg66//*//* 146.0 * +EC3.5.2.6 cephalothin plasmid pgem-t-easy//*//* 2.5 * +EC3.5.2.6 cephalothin plasmid pqe32chl17//*//* 77.0 * +EC3.5.2.6 cephalothin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 656.0 * +EC3.5.2.6 cephalothin pseudomonas luteola//*//* 543.0 * +EC3.5.2.6 cephalothin pseudomonas otitidis//*//* 60.0 * +EC3.5.2.6 cephalothin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 118.0 * +EC3.5.2.6 cephalothin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 7150.0 * +EC3.5.2.6 cephalothin shewanella algae//*//* 0.6 * +EC3.5.2.6 cephalothin shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 185.0 * +EC3.5.2.6 cephalothin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1 * +EC3.5.2.6 cephalothin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 82.0 * +EC3.5.2.6 cephalothin synthetic construct//*//* 14.0 * +EC3.5.2.6 cephalothin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 400.0 * +EC3.5.2.6 cephalotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 153.0 * +EC3.5.2.6 cephalotin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.0 * +EC3.5.2.6 cephalotin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.17 * +EC3.5.2.6 cephalotin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 500.0 * +EC3.5.2.6 cephapirin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.82 * +EC3.5.2.6 cephradine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 16.0 * +EC3.5.2.6 clavulanic acid stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 11.0 * +EC3.5.2.6 cloxacillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.51 * +EC3.5.2.6 cloxacillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.004 * +EC3.5.2.6 cloxacillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 8.6 * +EC3.5.2.6 cloxacillin plasmid pgem-t-easy//*//* 500.0 * +EC3.5.2.6 cloxacillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2500.0 * +EC3.5.2.6 cloxacillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.42 * +EC3.5.2.6 cloxacillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 90.0 * +EC3.5.2.6 cloxacillin shewanella algae//*//* 0.5 * +EC3.5.2.6 doripenem escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1032.0 * +EC3.5.2.6 doripenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 226.0 * +EC3.5.2.6 doripenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00033 * +EC3.5.2.6 doripenem pseudomonas otitidis//*//* 51.0 * +EC3.5.2.6 ertapenem achromobacter sp. sallbros1//*//* 0.4 * +EC3.5.2.6 ertapenem aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 4.3 * +EC3.5.2.6 ertapenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.13 * +EC3.5.2.6 ertapenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00033 * +EC3.5.2.6 ertapenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.0 * +EC3.5.2.6 ertapenem pseudomonas otitidis//*//* 69.0 * +EC3.5.2.6 ertapenem pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 25.0 * +EC3.5.2.6 faropenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.038 * +EC3.5.2.6 faropenem pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 5.0 * +EC3.5.2.6 imipenem achromobacter sp. sallbros1//*//* 1.7 * +EC3.5.2.6 imipenem acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.1 * +EC3.5.2.6 imipenem acinetobacter bereziniae//*//* 0.09 * +EC3.5.2.6 imipenem aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 1200.0 * +EC3.5.2.6 imipenem aeromonas sobria//*//* 160.0 * +EC3.5.2.6 imipenem aeromonas veronii bv. sobria//*//* 295.0 * +EC3.5.2.6 imipenem aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 8.0 * +EC3.5.2.6 imipenem bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.06 * +EC3.5.2.6 imipenem bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 100.0 * +EC3.5.2.6 imipenem burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.1 * +EC3.5.2.6 imipenem chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 7.28 * +EC3.5.2.6 imipenem citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 15.0 * +EC3.5.2.6 imipenem elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 350.0 * +EC3.5.2.6 imipenem enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1040.0 * +EC3.5.2.6 imipenem escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 757.0 * +EC3.5.2.6 imipenem janthinobacterium lividum//*//* 120.0 * +EC3.5.2.6 imipenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 600.0 * +EC3.5.2.6 imipenem kluyvera ascorbata//*//* 0.00024 * +EC3.5.2.6 imipenem morganella morganii subsp. morganii//*//* 0.11 * +EC3.5.2.6 imipenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.167 * +EC3.5.2.6 imipenem plasmid pbc//*//* 19.0 * +EC3.5.2.6 imipenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 120.0 * +EC3.5.2.6 imipenem pseudomonas otitidis//*//* 312.0 * +EC3.5.2.6 imipenem pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 240.0 * +EC3.5.2.6 imipenem serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 54.0 * +EC3.5.2.6 imipenem serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 123.3 * +EC3.5.2.6 imipenem shewanella algae//*//* 0.1 * +EC3.5.2.6 imipenem stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 370.0 * +EC3.5.2.6 loracarbef moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 95.0 * +EC3.5.2.6 mecillinam moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 31.0 * +EC3.5.2.6 meropenem achromobacter sp. sallbros1//*//* 1.4 * +EC3.5.2.6 meropenem acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.06 * +EC3.5.2.6 meropenem acinetobacter bereziniae//*//* 0.01 * +EC3.5.2.6 meropenem aeromonas sobria//*//* 1100.0 * +EC3.5.2.6 meropenem aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 13.0 * +EC3.5.2.6 meropenem burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 1.0 * +EC3.5.2.6 meropenem chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 4.13 * +EC3.5.2.6 meropenem citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.4 * +EC3.5.2.6 meropenem enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 12.0 * +EC3.5.2.6 meropenem escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 583.0 * +EC3.5.2.6 meropenem janthinobacterium lividum//*//* 200.0 * +EC3.5.2.6 meropenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 301.0 * +EC3.5.2.6 meropenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC3.5.2.6 meropenem pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.0 * +EC3.5.2.6 meropenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 42.0 * +EC3.5.2.6 meropenem pseudomonas otitidis//*//* 220.0 * +EC3.5.2.6 meropenem pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 40.0 * +EC3.5.2.6 meropenem serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 109.0 * +EC3.5.2.6 meropenem shewanella algae//*//* 0.05 * +EC3.5.2.6 meropenem stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 157.0 * +EC3.5.2.6 methicillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 145.0 * +EC3.5.2.6 methicillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 350.0 * +EC3.5.2.6 methicillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 190.0 * +EC3.5.2.6 mezlocillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 255.0 * +EC3.5.2.6 moxalactam bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.01 * +EC3.5.2.6 moxalactam citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2794.0 * +EC3.5.2.6 moxalactam enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 8.6 * +EC3.5.2.6 moxalactam pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 230.0 * +EC3.5.2.6 moxalactam serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.017 * +EC3.5.2.6 moxalactam stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.15 * +EC3.5.2.6 nitrocefin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.4 * +EC3.5.2.6 nitrocefin acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 96.0 * +EC3.5.2.6 nitrocefin aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.008 * +EC3.5.2.6 nitrocefin aeromonas sobria//*//* 0.0667 * +EC3.5.2.6 nitrocefin aliivibrio salmonicida//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vsa 6.3 * +EC3.5.2.6 nitrocefin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 34.0 * +EC3.5.2.6 nitrocefin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1090.0 * +EC3.5.2.6 nitrocefin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 225.0 * +EC3.5.2.6 nitrocefin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 63.0 * +EC3.5.2.6 nitrocefin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 4.4 * +EC3.5.2.6 nitrocefin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 17.0 * +EC3.5.2.6 nitrocefin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 780.0 * +EC3.5.2.6 nitrocefin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2220.0 * +EC3.5.2.6 nitrocefin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 7.4 * +EC3.5.2.6 nitrocefin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 940.0 * +EC3.5.2.6 nitrocefin kluyvera ascorbata//*//* 29.0 * +EC3.5.2.6 nitrocefin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 233.0 * +EC3.5.2.6 nitrocefin morganella morganii subsp. morganii//*//* 93.0 * +EC3.5.2.6 nitrocefin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 111.3 * +EC3.5.2.6 nitrocefin plasmid pbc//*//* 52.0 * +EC3.5.2.6 nitrocefin plasmid pgem-t-easy//*//* 1700.0 * +EC3.5.2.6 nitrocefin plasmid rgn238//*//* 96.0 * +EC3.5.2.6 nitrocefin providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 5.0 * +EC3.5.2.6 nitrocefin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1500.0 * +EC3.5.2.6 nitrocefin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 550.0 * +EC3.5.2.6 nitrocefin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 570.0 * +EC3.5.2.6 nitrocefin psychrobacter immobilis//*//* 1410.0 * +EC3.5.2.6 nitrocefin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.06 * +EC3.5.2.6 nitrocefin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1240.0 * +EC3.5.2.6 nitrocefin shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 252.0 * +EC3.5.2.6 nitrocefin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 25.6 * +EC3.5.2.6 nitrocefin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 63.0 * +EC3.5.2.6 nitrocefin synthetic construct//*//* 237.0 * +EC3.5.2.6 oxacillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.2 * +EC3.5.2.6 oxacillin acinetobacter bereziniae//*//* 4.2 * +EC3.5.2.6 oxacillin acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 577.0 * +EC3.5.2.6 oxacillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 261.0 * +EC3.5.2.6 oxacillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 113.0 * +EC3.5.2.6 oxacillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 1.23 * +EC3.5.2.6 oxacillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.008 * +EC3.5.2.6 oxacillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.5.2.6 oxacillin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 780.0 * +EC3.5.2.6 oxacillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 130.0 * +EC3.5.2.6 oxacillin morganella morganii subsp. morganii//*//* 0.022 * +EC3.5.2.6 oxacillin plasmid pgem-t-easy//*//* 600.0 * +EC3.5.2.6 oxacillin plasmid rgn238//*//* 577.0 * +EC3.5.2.6 oxacillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.21 * +EC3.5.2.6 oxacillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 105.0 * +EC3.5.2.6 oxacillin shewanella algae//*//* 5.0 * +EC3.5.2.6 oxacillin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 8.0 * +EC3.5.2.6 panipenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.4 * +EC3.5.2.6 panipenem pseudomonas otitidis//*//* 500.0 * +EC3.5.2.6 penicillin g aeromonas enteropelogenes//*//* 27.0 * +EC3.5.2.6 penicillin g bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 628.0 * +EC3.5.2.6 penicillin g bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2612.0 * +EC3.5.2.6 penicillin g bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 110.0 * +EC3.5.2.6 penicillin g burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.4 * +EC3.5.2.6 penicillin g citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 23.0 * +EC3.5.2.6 penicillin g elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 280.0 * +EC3.5.2.6 penicillin g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1570.0 * +EC3.5.2.6 penicillin g klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 34.0 * +EC3.5.2.6 penicillin g mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 9.33 * +EC3.5.2.6 penicillin g pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 2.0 * +EC3.5.2.6 penicillin g plasmid pbg66//*//* 950.0 * +EC3.5.2.6 penicillin g providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 26.0 * +EC3.5.2.6 penicillin g pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 890.0 * +EC3.5.2.6 penicillin g pseudomonas luteola//*//* 31.0 * +EC3.5.2.6 penicillin g staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 210.0 * +EC3.5.2.6 penicillin g stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 600.0 * +EC3.5.2.6 penicillin v mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 35.0 * +EC3.5.2.6 penicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 29.0 * +EC3.5.2.6 penicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.6 * +EC3.5.2.6 phenoxymethylpenicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2550.0 * +EC3.5.2.6 piperacillin achromobacter sp. sallbros1//*//* 3.3 * +EC3.5.2.6 piperacillin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.5 * +EC3.5.2.6 piperacillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.2 * +EC3.5.2.6 piperacillin acinetobacter bereziniae//*//* 2.2 * +EC3.5.2.6 piperacillin aeromonas enteropelogenes//*//* 0.54 * +EC3.5.2.6 piperacillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 38.0 * +EC3.5.2.6 piperacillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 100.0 * +EC3.5.2.6 piperacillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 2.1 * +EC3.5.2.6 piperacillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 5.0 * +EC3.5.2.6 piperacillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 2.11 * +EC3.5.2.6 piperacillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 14.61 * +EC3.5.2.6 piperacillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 47.0 * +EC3.5.2.6 piperacillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 940.0 * +EC3.5.2.6 piperacillin janthinobacterium lividum//*//* 100.0 * +EC3.5.2.6 piperacillin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.7 * +EC3.5.2.6 piperacillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 27.0 * +EC3.5.2.6 piperacillin kluyvera ascorbata//*//* 5.0 * +EC3.5.2.6 piperacillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 51.0 * +EC3.5.2.6 piperacillin morganella morganii subsp. morganii//*//* 1.5 * +EC3.5.2.6 piperacillin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11.5 * +EC3.5.2.6 piperacillin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 9.0 * +EC3.5.2.6 piperacillin plasmid pbc//*//* 51.0 * +EC3.5.2.6 piperacillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 374.0 * +EC3.5.2.6 piperacillin pseudomonas luteola//*//* 8.0 * +EC3.5.2.6 piperacillin pseudomonas otitidis//*//* 9.0 * +EC3.5.2.6 piperacillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 328.0 * +EC3.5.2.6 piperacillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 255.0 * +EC3.5.2.6 piperacillin shewanella algae//*//* 3.0 * +EC3.5.2.6 piperacillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 420.0 * +EC3.5.2.6 piperacillin synthetic construct//*//* 976.0 * +EC3.5.2.6 sulbactam chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 3.3 * +EC3.5.2.6 sulbactam escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC3.5.2.6 tazobactam pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.2 * +EC3.5.2.6 tebipenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0005 * +EC3.5.2.6 temocillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.3 * +EC3.5.2.6 ticarcillin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.1 * +EC3.5.2.6 ticarcillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.3 * +EC3.5.2.6 ticarcillin acinetobacter bereziniae//*//* 1.7 * +EC3.5.2.6 ticarcillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 5.0 * +EC3.5.2.6 ticarcillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 15.0 * +EC3.5.2.6 ticarcillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 81.0 * +EC3.5.2.6 ticarcillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 121.0 * +EC3.5.2.6 ticarcillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 84.0 * +EC3.5.2.6 ticarcillin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 9.0 * +EC3.5.2.6 ticarcillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 220.0 * +EC3.5.2.6 ticarcillin pseudomonas luteola//*//* 5.0 * +EC3.5.2.6 ticarcillin pseudomonas otitidis//*//* 190.0 * +EC3.5.2.6 ticarcillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.9 * +EC3.5.2.6 ticarcillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 115.0 * +EC3.5.2.6 ticarcillin shewanella algae//*//* 1.0 * +EC3.5.2.6 ticarcillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 440.0 * +EC3.5.2.9 5-oxo-l-proline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.117 * +EC3.5.2.B2 1,3-benzoxazol-2(3h)-one fusarium pseudograminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fpu 4.2 * +EC3.5.3.1 1-nitro-3-guanidinobenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.5.3.1 4-guanidino-2-nitrophenylacetic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC3.5.3.1 4-guanidino-3-nitrobenzoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC3.5.3.1 l-arg mammalia//*//* 2200.0 * +EC3.5.3.1 l-arginine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.52 * +EC3.5.3.1 l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1132.0 * +EC3.5.3.1 l-arginine penicillium chrysogenum//*//* 0.27 * +EC3.5.3.1 l-arginine plasmodium falciparum 3d7//eukaryotes;protists;alveolates;apicomplexans//pfa 24.8 * +EC3.5.3.1 l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 250.0 * +EC3.5.3.1 l-arginine schistosoma mansoni//eukaryotes;animals;flatworms//smm 537.0 * +EC3.5.3.1 l-phenylalanine penicillium chrysogenum//*//* 0.94 * +EC3.5.3.1 l-thioarginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 300.0 * +EC3.5.3.1 s-(4-aminobutyl)isothiourea rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.33 * +EC3.5.3.1 thioguanidino-valeric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC3.5.3.11 agmatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.5.3.11 agmatine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.032 * +EC3.5.3.12 agmatine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.082 * +EC3.5.3.12 agmatine listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 34.28 * +EC3.5.3.12 agmatine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.0 * +EC3.5.3.13 n-formimino-d-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC3.5.3.13 n-formimino-l-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 31.0 * +EC3.5.3.13 n-formimino-l-isoleucine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.019 * +EC3.5.3.13 n-formimino-l-methionine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC3.5.3.15 2-acetyl-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.5.3.15 3-acetyl-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.5.3.15 [histone h4]-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.5.3.15 ac-ala-gly-arg-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.59 * +EC3.5.3.15 ac-ser-ala-arg-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.13 * +EC3.5.3.15 ac-ser-gly-ala-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-ala-arg-his-arg-lys-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.46 * +EC3.5.3.15 ac-ser-gly-arg-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.98 * +EC3.5.3.15 ac-ser-gly-arg-gly-acetyl-lys-gly-gly-acetyl-lys-gly-leu-gly-acetyl-lys-gly-gly-ala-acetyl-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08 * +EC3.5.3.15 ac-ser-gly-arg-gly-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.93 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-ala-arg-his-arg-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-ala-arg-his-arg-lys-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.87 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-arg-his-ala-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.83 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-arg-his-arg-lys-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.39 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-arg-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.92 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-lys-his-lys-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.53 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.83 * +EC3.5.3.15 acetyl-l-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.28 * +EC3.5.3.15 acetyl-l-arg methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.41 * +EC3.5.3.15 acetyl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.68 * +EC3.5.3.15 acetyl-l-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.37 * +EC3.5.3.15 benzoyl-arg ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 10.7 * +EC3.5.3.15 benzoyl-arginine ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 10.8 * +EC3.5.3.15 benzoyl-l-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.24 * +EC3.5.3.15 benzoyl-l-arg methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.74 * +EC3.5.3.15 benzoyl-l-arg-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.51 * +EC3.5.3.15 benzoyl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.43 * +EC3.5.3.15 benzoyl-l-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.41 * +EC3.5.3.15 benzoyl-l-arginine amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.5.3.15 benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.94 * +EC3.5.3.15 benzoyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.57 * +EC3.5.3.15 benzoyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.35 * +EC3.5.3.15 kdrnw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.5.3.15 l-arg methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.31 * +EC3.5.3.15 l-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.52 * +EC3.5.3.15 ldrge homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.5.3.15 mwrhv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.5.3.15 n-alpha-benzoyl-l-arginine amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.57 * +EC3.5.3.15 n-alpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.94 * +EC3.5.3.15 n-alpha-benzoyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.57 * +EC3.5.3.15 nalpha-benzoyl-l-arginine amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC3.5.3.15 nalpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.4 * +EC3.5.3.15 nalpha-benzoyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.5.3.15 nalpha-benzoyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC3.5.3.15 tkqtarkstggk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.5.3.15 tstggrqgshh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.5.3.15 wsryh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.5.3.15 wtrge homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.5.3.15 ywrdh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.5.3.17 3-guanidinopropionate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 106.0 * +EC3.5.3.17 4-guanidinobutyrate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 57.6 * +EC3.5.3.18 ng,ng-dimethyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.27 * +EC3.5.3.18 ng,ng-dimethyl-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.27 * +EC3.5.3.18 ng,ng-dimethyl-l-homoarginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC3.5.3.18 ng-amino-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.12 * +EC3.5.3.18 ng-hydroxy-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.33 * +EC3.5.3.18 ng-methyl-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.59 * +EC3.5.3.18 ng-monomethyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC3.5.3.18 ng-monomethyl-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.094 * +EC3.5.3.18 nomega,nomega-dimethyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.5.3.18 s-methyl-l-thiocitrulline pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC3.5.3.2 guanidinoacetate flavobacterium sp.//*//* 60.2 * +EC3.5.3.2 guanidinoacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 54.1 * +EC3.5.3.20 1,4-diguanidinobutane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1330.0 * +EC3.5.3.24 agmatine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.00186 * +EC3.5.3.24 n1-aminopropylagmatine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.001 * +EC3.5.3.26 (s)-2-ureidoglycine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 761.0 * +EC3.5.3.3 creatine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.246 * +EC3.5.3.4 allantoate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 750.0 * +EC3.5.3.6 agmatine-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.007 * +EC3.5.3.6 benzoyl-l-arginine ethyl ester porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.019 * +EC3.5.3.6 bradykinin antagonist-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0068 * +EC3.5.3.6 bradykinin-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.043 * +EC3.5.3.6 d-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.058 * +EC3.5.3.6 homoarginine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.11 * +EC3.5.3.6 l-arg bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 3.2 * +EC3.5.3.6 l-arg burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 1.3 * +EC3.5.3.6 l-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC3.5.3.6 l-arg mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 29.0 * +EC3.5.3.6 l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.22 * +EC3.5.3.6 l-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.3 * +EC3.5.3.6 l-arginine ethyl ester giardia intestinalis//*//* 2.3 * +EC3.5.3.6 l-arginine hydroxamate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.15 * +EC3.5.3.6 l-arginine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 4.4 * +EC3.5.3.6 l-arginine burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 1.3 * +EC3.5.3.6 l-arginine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC3.5.3.6 l-arginine giardia intestinalis//*//* 2.6 * +EC3.5.3.6 l-arginine mycoplasma hominis//prokaryotes;bacteria;tenericutes;mycoplasma//mho 0.151 * +EC3.5.3.6 l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.3 * +EC3.5.3.6 l-arginine pseudomonas plecoglossicida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppj 5.6 * +EC3.5.3.6 l-canavanine-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0052 * +EC3.5.3.6 l-canavanine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.46 * +EC3.5.3.6 l-canavanine burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 0.09 * +EC3.5.3.6 l-canavanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC3.5.3.6 l-canavanine giardia intestinalis//*//* 0.32 * +EC3.5.3.6 l-canavanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.62 * +EC3.5.3.6 l-pro-l-arg-l-phe porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0075 * +EC3.5.3.6 l-pro-l-phe-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.17 * +EC3.5.3.6 n-alpha-benzoyl-l-arginine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.12 * +EC3.5.3.6 nalpha-benzoyl-l-arginine giardia intestinalis//*//* 2.5 * +EC3.5.3.6 nomega-amino-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.0 * +EC3.5.3.6 nomega-amino-l-arginine giardia intestinalis//*//* 0.58 * +EC3.5.3.6 nomega-amino-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.0 * +EC3.5.3.6 nomega-hydroxy-l-arginine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0046 * +EC3.5.3.6 nomega-methyl-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC3.5.3.6 nomega-methyl-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC3.5.3.7 4-guanidinobutyrate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1012.0 * +EC3.5.3.8 n-formimidoyl-l-glutamate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 200.0 * +EC3.5.3.9 allantoate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 18.0 * +EC3.5.4.1 2-thiocytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.3 * +EC3.5.4.1 3-oxauracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC3.5.4.1 5-azacytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.68 * +EC3.5.4.1 5-fluorocytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 75.6 * +EC3.5.4.1 5-fluorocytosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.0 * +EC3.5.4.1 6-azacytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 186.0 * +EC3.5.4.1 creatinine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC3.5.4.1 cytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 185.0 * +EC3.5.4.1 cytosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 170.0 * +EC3.5.4.1 isocytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.1 * +EC3.5.4.10 5-formamido-1-(5-phosphoribosyl)imidazole-4-carboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6 * +EC3.5.4.11 2-amino-4-oxo-3,4-dihydropteridine-6-carboxylic acid unidentified prokaryotic organism//*//* 1.01 * +EC3.5.4.11 2-aminopteridine-4,7(1h,8h)-dione unidentified prokaryotic organism//*//* 1.05 * +EC3.5.4.12 dcmp enterobacteria phage t4//*//* 466.0 * +EC3.5.4.12 dcmp equus asinus//eukaryotes;animals;vertebrates;mammals//eai 1400.0 * +EC3.5.4.12 dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 960.0 * +EC3.5.4.12 dcmp paramecium bursaria chlorella virus 1//*//* 24.9 * +EC3.5.4.12 dctp paramecium bursaria chlorella virus 1//*//* 5.7 * +EC3.5.4.13 dcmp paramecium bursaria chlorella virus 1//*//* 24.9 * +EC3.5.4.13 dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.24 * +EC3.5.4.13 dctp paramecium bursaria chlorella virus 1//*//* 5.7 * +EC3.5.4.15 2'-deoxyguanosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.611 * +EC3.5.4.15 guanosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.753 * +EC3.5.4.16 gdp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0017 * +EC3.5.4.16 gtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0011 * +EC3.5.4.16 gtp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.039 * +EC3.5.4.16 gtp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0035 * +EC3.5.4.19 1-(5-phosphoribosyl)-amp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 9.9 * +EC3.5.4.2 2,6-diaminopurine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 1.8 * +EC3.5.4.2 2,6-diaminopurine blastobotrys adeninivorans//*//* 12.3 * +EC3.5.4.2 2,6-diaminopurine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 6.9 * +EC3.5.4.2 2,6-diaminopurine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 17.0 * +EC3.5.4.2 6-chloropurine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.84 * +EC3.5.4.2 6-chloropurine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.42 * +EC3.5.4.2 6-chloropurine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.9 * +EC3.5.4.2 6-methoxypurine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.52 * +EC3.5.4.2 6-methoxypurine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 2.2 * +EC3.5.4.2 6-methoxypurine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 1.9 * +EC3.5.4.2 6-methoxypurine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.1 * +EC3.5.4.2 adenine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 62.0 * +EC3.5.4.2 adenine blastobotrys adeninivorans//*//* 20.8 * +EC3.5.4.2 adenine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 56.0 * +EC3.5.4.2 adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 200.0 * +EC3.5.4.2 adenine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 16.75 * +EC3.5.4.2 adenine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 61.0 * +EC3.5.4.2 adenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.0 * +EC3.5.4.2 adenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.5 * +EC3.5.4.2 adenine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 13.4 * +EC3.5.4.2 n-6-methyladenine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.48 * +EC3.5.4.2 n-6-methyladenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.28 * +EC3.5.4.22 1-pyrroline-4-hydroxy-2-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.19 * +EC3.5.4.23 blasticidin s aspergillus terreus//*//* 770.0 * +EC3.5.4.25 2-amino-5-formylamino-6-ribosylamino-4(3h)-pyrimidinone 5'-triphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC3.5.4.25 gtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.035 * +EC3.5.4.25 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.5.4.25 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.005 * +EC3.5.4.25 gtp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 432.0 * +EC3.5.4.28 s-adenosyl-l-homocysteine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1300.0 * +EC3.5.4.28 s-adenosyl-l-homocysteine streptomyces flocculus//*//* 26.0 * +EC3.5.4.29 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.5 * +EC3.5.4.3 7,8-dihydropterin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 16.3 * +EC3.5.4.3 guanine blastobotrys adeninivorans//*//* 3.9 * +EC3.5.4.3 guanine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 649.0 * +EC3.5.4.31 adenosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 17.1 * +EC3.5.4.31 adenosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.3 * +EC3.5.4.31 s-methyl-5'-thioadenosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 160.0 * +EC3.5.4.31 s-methyl-5'-thioadenosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 24.6 * +EC3.5.4.31 s-methyl-5'-thioadenosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 7.2 * +EC3.5.4.32 guanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.3 * +EC3.5.4.32 guanine unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 52.0 * +EC3.5.4.32 isocytosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.9 * +EC3.5.4.32 isocytosine unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 62.0 * +EC3.5.4.33 adenine34 in trnaval trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0032 * +EC3.5.4.34 adenine37 in trnaala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0705 * +EC3.5.4.37 8-azaadenine in double-stranded rna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC3.5.4.37 adenine in double-stranded rna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.5.4.4 5'-methylthioadenosine plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.35 * +EC3.5.4.4 5'-methylthioadenosine plasmodium cynomolgi//eukaryotes;protists;alveolates;apicomplexans//pcy 0.31 * +EC3.5.4.4 5'-methylthioadenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.8 * +EC3.5.4.4 5'-methylthioadenosine plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.51 * +EC3.5.4.4 5'-methylthioadenosine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.13 * +EC3.5.4.4 adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC3.5.4.4 adenosine camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 18.5 * +EC3.5.4.4 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 180.0 * +EC3.5.4.4 adenosine plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 4.7 * +EC3.5.4.4 adenosine plasmodium cynomolgi//eukaryotes;protists;alveolates;apicomplexans//pcy 5.3 * +EC3.5.4.4 adenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.6 * +EC3.5.4.4 adenosine plasmodium gallinaceum//*//* 1.9 * +EC3.5.4.4 adenosine plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 6.8 * +EC3.5.4.4 adenosine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 1.8 * +EC3.5.4.4 adenosine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 11.5 * +EC3.5.4.40 1-(6-amino-9h-purin-9-yl)-1-deoxy-n-ethyl-beta-d-ribofuranuronamide acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.007 * +EC3.5.4.40 2'-deoxyadenosine deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.72 * +EC3.5.4.40 5'-deoxyadenosine nitratiruptor sp. sb155-2//prokaryotes;bacteria;epsilonproteobacteria;nitratiruptor//nis 0.017 * +EC3.5.4.40 5'-methylthioadenosine nitratiruptor sp. sb155-2//prokaryotes;bacteria;epsilonproteobacteria;nitratiruptor//nis 0.31 * +EC3.5.4.40 5'-methylthioadenosine streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.4 * +EC3.5.4.40 6-amino-6-deoxyfutalosine acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 6.8 * +EC3.5.4.40 6-amino-6-deoxyfutalosine deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 8.6 * +EC3.5.4.40 6-amino-6-deoxyfutalosine nitratiruptor sp. sb155-2//prokaryotes;bacteria;epsilonproteobacteria;nitratiruptor//nis 1.2 * +EC3.5.4.40 6-amino-6-deoxyfutalosine streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 3.8 * +EC3.5.4.41 5'-deoxyadenosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 120000.0 * +EC3.5.4.42 ammelide pseudomonas sp. adp//*//* 26.2 * +EC3.5.4.46 3',5'-cyclic amp leptospira interrogans serogroup icterohaemorrhagiae serovar copenhageni//*//* 46.0 * +EC3.5.4.5 2'-deoxycytidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.5 * +EC3.5.4.5 cytidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.8 * +EC3.5.4.9 methenyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 134.0 * +EC3.5.4.B9 cytosine in single-stranded viral dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.5.5.1 2-cyanopyridine rhodococcus rhodochrous//*//* 0.00146 * +EC3.5.5.1 3-aminobenzonitrile rhodococcus rhodochrous//*//* 0.000288 * +EC3.5.5.1 3-anilinoproprionitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.28 * +EC3.5.5.1 3-chlorobenzonitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 1370.0 * +EC3.5.5.1 3-methylbenzonitrile rhodococcus rhodochrous//*//* 0.000198 * +EC3.5.5.1 3-phenylpropionitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 79.7 * +EC3.5.5.1 4-aminobenzonitrile rhodococcus rhodochrous//*//* 0.000283 * +EC3.5.5.1 4-chlorobutyronitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 11100.0 * +EC3.5.5.1 4-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 43900.0 * +EC3.5.5.1 4-methylbenzonitrile rhodococcus rhodochrous//*//* 0.000695 * +EC3.5.5.1 4-phenylbutyronitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 15.8 * +EC3.5.5.1 allyl cyanide brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 19.8 * +EC3.5.5.1 benzonitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 14400.0 * +EC3.5.5.1 benzonitrile rhodococcus rhodochrous//*//* 0.00131 * +EC3.5.5.1 benzonitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.09 * +EC3.5.5.1 heptanenitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 40.8 * +EC3.5.5.1 iminodiacetonitrile paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 1.57 * +EC3.5.5.1 indole-3-acetonitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.29 * +EC3.5.5.1 indole-3-acetonitrile zea mays//eukaryotes;plants;monocots;grass family//zma 0.13 * +EC3.5.5.1 m-tolunitrile rhodococcus rhodochrous//*//* 0.00198 * +EC3.5.5.1 malononitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.14 * +EC3.5.5.1 mandelonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.083 * +EC3.5.5.1 mandelonitrile alcaligenes sp.//*//* 175.0 * +EC3.5.5.1 phenylglycinenitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.04 * +EC3.5.5.1 trichloroacetonitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC3.5.5.4 3-cyano-l-alanine brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 19.4 * +EC3.5.5.4 3-cyano-l-alanine zea mays//eukaryotes;plants;monocots;grass family//zma 0.001 * +EC3.5.5.5 indole 3-acetonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 13.4 * +EC3.5.5.5 mandelonitrile alcaligenes sp.//*//* 26.0 * +EC3.5.5.5 mandelonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.8 * +EC3.5.5.5 phenyl acetonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.85 * +EC3.5.5.5 phenylacetonitrile bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 1.85 * +EC3.5.5.7 2-butenenitrile synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.19 * +EC3.5.5.7 2-cyanopyridine rhodococcus rhodochrous//*//* 0.000175 * +EC3.5.5.7 2-cyanopyridine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.8 * +EC3.5.5.7 3-cyanopyridine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.45 * +EC3.5.5.7 acrylonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.33 * +EC3.5.5.7 adiponitrile rhodococcus rhodochrous//*//* 0.0038 * +EC3.5.5.7 benzonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.22 * +EC3.5.5.7 benzonitrile synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.65 * +EC3.5.5.7 fumaronitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 9.2 * +EC3.5.5.7 fumaronitrile synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 15.13 * +EC3.5.5.7 glutaronitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 5.0 * +EC3.5.5.7 glutaronitrile rhodococcus rhodochrous//*//* 0.024 * +EC3.5.5.7 m-tolunitrile rhodococcus rhodochrous//*//* 0.00024 * +EC3.5.5.7 propionitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.17 * +EC3.5.5.7 sebaconitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.3 * +EC3.5.5.7 succinonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 8.8 * +EC3.5.5.8 methacrylonitrile thiobacillus thioparus//*//* 57.0 * +EC3.5.99.11 2-aminomuconate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 208.0 * +EC3.5.99.2 4-amino-5-aminomethyl-2-methylpyrimidine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.003 * +EC3.5.99.2 thiamine aneurinibacillus aneurinilyticus//*//* 4.83 * +EC3.5.99.2 thiamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00407 * +EC3.5.99.5 2-aminomuconate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 208.0 * +EC3.5.99.6 alpha-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 158.0 * +EC3.5.99.6 d-fructose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.8 * +EC3.5.99.6 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 455.0 * +EC3.5.99.6 d-fructose 6-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 44.2 * +EC3.5.99.6 d-glucosamine 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC3.5.99.6 d-glucosamine 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 61.6 * +EC3.5.99.6 d-glucosamine 6-phosphate canis lupus familiaris//*//* 255.0 * +EC3.5.99.6 d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1800.0 * +EC3.5.99.6 d-glucosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 260.0 * +EC3.5.99.6 d-glucosamine 6-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 97.5 * +EC3.5.99.6 nh3 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 39.6 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 1.86 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate methylobacterium radiotolerans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mrd 1.1 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 146.0 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.83 * +EC3.5.99.7 2-vinyl-1-aminocyclopropane-1-carboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.17 * +EC3.5.99.7 d-vinylglycine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.6 * +EC3.6.1.1 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 19.7 * +EC3.6.1.1 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 91.7 * +EC3.6.1.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC3.6.1.1 cdp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 51.3 * +EC3.6.1.1 ctp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 94.2 * +EC3.6.1.1 diphosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 850.0 * +EC3.6.1.1 diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.1 * +EC3.6.1.1 diphosphate ascaris suum//*//* 638.0 * +EC3.6.1.1 diphosphate bacillus sp. ps3//*//* 817.0 * +EC3.6.1.1 diphosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 3.6 * +EC3.6.1.1 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 390.0 * +EC3.6.1.1 diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 343.9 * +EC3.6.1.1 diphosphate leishmania amazonensis//*//* 125.0 * +EC3.6.1.1 diphosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 3693.0 * +EC3.6.1.1 diphosphate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.64 * +EC3.6.1.1 diphosphate pseudanabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 850.0 * +EC3.6.1.1 diphosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1230.0 * +EC3.6.1.1 diphosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 3436.0 * +EC3.6.1.1 diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 260.0 * +EC3.6.1.1 diphosphate streptococcus gordonii//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sgo 6290.0 * +EC3.6.1.1 diphosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1700.0 * +EC3.6.1.1 diphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 916.0 * +EC3.6.1.1 diphosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 2.1 * +EC3.6.1.1 diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 2200.0 * +EC3.6.1.1 diphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 385.0 * +EC3.6.1.1 diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.22 * +EC3.6.1.1 diphosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 1600.0 * +EC3.6.1.1 gdp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 39.9 * +EC3.6.1.1 gtp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 91.7 * +EC3.6.1.1 guanosine 5'-tetraphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0022 * +EC3.6.1.1 idp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 57.3 * +EC3.6.1.1 imidodiphosphoric acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.014 * +EC3.6.1.1 itp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 116.0 * +EC3.6.1.1 polyphosphate 75 trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.000165 * +EC3.6.1.1 polyphosphate-n28 leishmania amazonensis//*//* 8.0 * +EC3.6.1.1 polyphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.5 * +EC3.6.1.1 triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.7 * +EC3.6.1.1 triphosphate leishmania amazonensis//*//* 131.0 * +EC3.6.1.1 triphosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 226.0 * +EC3.6.1.1 triphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.13 * +EC3.6.1.1 tripolyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC3.6.1.1 tripolyphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 52.0 * +EC3.6.1.1 udp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 29.7 * +EC3.6.1.1 udp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 27.5 * +EC3.6.1.1 utp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 99.1 * +EC3.6.1.11 (phosphate)13-18 chlorobaculum tepidum//*//* 458.0 * +EC3.6.1.11 (phosphate)25 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.6.1.11 (phosphate)3 chlorobaculum tepidum//*//* 399.0 * +EC3.6.1.11 (phosphate)3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.6.1.11 (phosphate)4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1 * +EC3.6.1.11 (phosphate)45 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.6.1.11 (phosphate)65 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.6.1.11 (phosphate)n saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1550.0 * +EC3.6.1.11 (polyphosphate)130 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.7 * +EC3.6.1.11 (polyphosphate)14 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 10.2 * +EC3.6.1.11 (polyphosphate)60 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.3 * +EC3.6.1.11 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.84 * +EC3.6.1.11 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.93 * +EC3.6.1.11 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC3.6.1.11 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.04 * +EC3.6.1.11 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.6.1.11 adenosine 5'-tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC3.6.1.11 adenosine 5'-tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 723.0 * +EC3.6.1.11 adenosine-5'-pentaphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 40.0 * +EC3.6.1.11 guanosine 5'-tetraphosphate chlorobaculum tepidum//*//* 308.0 * +EC3.6.1.11 guanosine 5'-tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.0 * +EC3.6.1.11 guanosine 5'-tetraphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.7 * +EC3.6.1.11 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.55 * +EC3.6.1.11 pentasodium triphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.1 * +EC3.6.1.11 polyp10 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 63.0 * +EC3.6.1.11 polyp100 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.3 * +EC3.6.1.11 polyp25 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.0 * +EC3.6.1.11 polyp250 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC3.6.1.11 polyp33-36 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 81.0 * +EC3.6.1.11 polyp50 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.4 * +EC3.6.1.11 polyp500 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC3.6.1.11 polyp9-10 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 90.0 * +EC3.6.1.11 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.6.1.11 polyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1150.0 * +EC3.6.1.11 tetraphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.9 * +EC3.6.1.11 triphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.6 * +EC3.6.1.11 triphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.46 * +EC3.6.1.11 tripolyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 180.0 * +EC3.6.1.12 2-chloro-datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.57 * +EC3.6.1.12 2-hydroxy-datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.39 * +EC3.6.1.12 5-bromo-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.3 * +EC3.6.1.12 5-bromo-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.49 * +EC3.6.1.12 5-chloro-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC3.6.1.12 5-fluoro-dutp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.58 * +EC3.6.1.12 5-formyl-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.6.1.12 5-hydroxy-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.87 * +EC3.6.1.12 5-hydroxymethyl-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC3.6.1.12 5-iodo-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.2 * +EC3.6.1.12 5-iodo-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.94 * +EC3.6.1.12 5-methyl-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.6.1.12 5-methyl-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.33 * +EC3.6.1.12 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.31 * +EC3.6.1.12 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.6.1.12 datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.53 * +EC3.6.1.12 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC3.6.1.12 dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.37 * +EC3.6.1.12 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.6.1.12 dttp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.76 * +EC3.6.1.12 dutp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.6.1.12 dutp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.76 * +EC3.6.1.13 2''-o-acetyl-adp-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.78 * +EC3.6.1.13 2',3'-camp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 16.9 * +EC3.6.1.13 2',3'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.6.1.13 adp-d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC3.6.1.13 adp-d-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.94 * +EC3.6.1.13 adp-glucose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 9.1 * +EC3.6.1.13 adp-ribose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC3.6.1.13 adp-ribose autographa californica multiple nucleopolyhedrovirus//*//* 6.96 * +EC3.6.1.13 adp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 18.0 * +EC3.6.1.13 adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.6.1.13 adp-ribose synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 20.0 * +EC3.6.1.13 adp-ribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 10.65 * +EC3.6.1.13 adp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 1.8 * +EC3.6.1.13 adpribose 2'-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.14 * +EC3.6.1.13 adpribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 64.8 * +EC3.6.1.13 adpribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 117.0 * +EC3.6.1.13 adpribose haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 9.2 * +EC3.6.1.13 adpribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC3.6.1.13 adpribose methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.98 * +EC3.6.1.13 adpribose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.92 * +EC3.6.1.13 adpribose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.8 * +EC3.6.1.13 cadp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0005 * +EC3.6.1.13 cadp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.6.1.13 cdp-choline danio rerio//eukaryotes;animals;vertebrates;fishes//dre 67.2 * +EC3.6.1.13 cdp-ethanolamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 125.2 * +EC3.6.1.13 cdp-glycerol danio rerio//eukaryotes;animals;vertebrates;fishes//dre 95.6 * +EC3.6.1.13 cdp-ribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.36 * +EC3.6.1.13 fad thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.0 * +EC3.6.1.13 gdp-ribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.57 * +EC3.6.1.14 adenosine 5'-tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 723.0 * +EC3.6.1.14 adenosine-5'-pentaphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 40.0 * +EC3.6.1.15 adp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.29 * +EC3.6.1.15 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.6.1.15 atp classical swine fever virus//*//* 4384.0 * +EC3.6.1.15 atp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.29 * +EC3.6.1.15 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC3.6.1.15 atp mammalian orthoreovirus//*//* 13.8 * +EC3.6.1.15 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.25 * +EC3.6.1.15 atp southampton virus//*//* 1.4 * +EC3.6.1.15 atp west nile virus//*//* 133.0 * +EC3.6.1.15 cdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 1.67 * +EC3.6.1.15 ctp classical swine fever virus//*//* 2286.0 * +EC3.6.1.15 ctp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.59 * +EC3.6.1.15 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC3.6.1.15 ctp mammalian orthoreovirus//*//* 8.0 * +EC3.6.1.15 ctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.67 * +EC3.6.1.15 dadp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.52 * +EC3.6.1.15 datp classical swine fever virus//*//* 3150.0 * +EC3.6.1.15 datp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.31 * +EC3.6.1.15 datp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.18 * +EC3.6.1.15 dcdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 1.12 * +EC3.6.1.15 dctp classical swine fever virus//*//* 5096.0 * +EC3.6.1.15 dctp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.3 * +EC3.6.1.15 dctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 12.57 * +EC3.6.1.15 dgdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.51 * +EC3.6.1.15 dgtp classical swine fever virus//*//* 2500.0 * +EC3.6.1.15 dgtp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.4 * +EC3.6.1.15 dgtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.2 * +EC3.6.1.15 ditp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.22 * +EC3.6.1.15 dttp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.9 * +EC3.6.1.15 dutp classical swine fever virus//*//* 1875.0 * +EC3.6.1.15 gdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.39 * +EC3.6.1.15 gtp classical swine fever virus//*//* 2963.0 * +EC3.6.1.15 gtp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.32 * +EC3.6.1.15 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.6.1.15 gtp mammalian orthoreovirus//*//* 9.8 * +EC3.6.1.15 gtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.03 * +EC3.6.1.15 idp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.06 * +EC3.6.1.15 itp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.18 * +EC3.6.1.15 rna mammalian orthoreovirus//*//* 0.005 * +EC3.6.1.15 tdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 1.03 * +EC3.6.1.15 ttp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.69 * +EC3.6.1.15 ttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0074 * +EC3.6.1.15 udp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 1.35 * +EC3.6.1.15 utp classical swine fever virus//*//* 2162.0 * +EC3.6.1.15 utp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.53 * +EC3.6.1.15 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.6.1.15 utp mammalian orthoreovirus//*//* 7.3 * +EC3.6.1.15 utp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.28 * +EC3.6.1.17 2-oxo-datp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.51 * +EC3.6.1.17 5',5''-diadenosine tetraphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.042 * +EC3.6.1.17 5',5'-diadenosine hexaphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 4.0 * +EC3.6.1.17 5',5'-diadenosine tetraphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 43.0 * +EC3.6.1.17 8-oxo-dgtp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.58 * +EC3.6.1.17 ap4a caenorhabditis elegans//eukaryotes;animals;nematodes//cel 27.0 * +EC3.6.1.17 ap4a lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 40.8 * +EC3.6.1.17 datp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.37 * +EC3.6.1.17 dgtp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.53 * +EC3.6.1.17 diadenosine 5',5''''-p1,p4-tetraphosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 27.0 * +EC3.6.1.17 diadenosine 5',5''-p1,p4-tetraphosphate chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 3.25 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl) tetraphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 2.5 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl) tetraphosphate photinus pyralis//*//* 3.6 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl)tetraphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.055 * +EC3.6.1.17 p1,p5-bis(5'-adenosyl) pentaphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.4 * +EC3.6.1.17 p1,p5-bis(5'-adenosyl)pentaphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.035 * +EC3.6.1.17 p1,p6-bis(5'-adenosyl) hexaphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.2 * +EC3.6.1.22 nad+ caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.000167 * +EC3.6.1.22 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.3 * +EC3.6.1.22 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.000167 * +EC3.6.1.22 nadh caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.00117 * +EC3.6.1.22 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC3.6.1.22 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0025 * +EC3.6.1.22 nmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1492.0 * +EC3.6.1.23 datp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 5.4 * +EC3.6.1.23 dctp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.7 * +EC3.6.1.23 dctp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 13.0 * +EC3.6.1.23 dgtp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 6.4 * +EC3.6.1.23 ditp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC3.6.1.23 dttp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.1 * +EC3.6.1.23 dttp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 8.6 * +EC3.6.1.23 dudp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 65.0 * +EC3.6.1.23 dutp-co2+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.1 * +EC3.6.1.23 dutp-mg2+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 13.3 * +EC3.6.1.23 dutp-mn2+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.3 * +EC3.6.1.23 dutp bacillus virus spbeta//*//* 18.0 * +EC3.6.1.23 dutp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 12.3 * +EC3.6.1.23 dutp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 12.0 * +EC3.6.1.23 dutp equine infectious anemia virus//*//* 25.0 * +EC3.6.1.23 dutp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 58.3 * +EC3.6.1.23 dutp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.17 * +EC3.6.1.23 dutp human alphaherpesvirus 1//*//* 5.0 * +EC3.6.1.23 dutp human gammaherpesvirus 4//*//* 3.3 * +EC3.6.1.23 dutp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 49.0 * +EC3.6.1.23 dutp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.22 * +EC3.6.1.23 dutp paramecium bursaria chlorella virus 1//*//* 6.8 * +EC3.6.1.23 dutp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.4 * +EC3.6.1.23 dutp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.6 * +EC3.6.1.23 dutp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 9.7 * +EC3.6.1.23 dutp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.8 * +EC3.6.1.25 atp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.36 * +EC3.6.1.25 tripolyphosphate nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 7900.0 * +EC3.6.1.27 diacylglycerol diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 280.0 * +EC3.6.1.27 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 48.0 * +EC3.6.1.27 farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 290.0 * +EC3.6.1.27 isopentenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC3.6.1.27 phosphatidic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 61.0 * +EC3.6.1.27 undecaprenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC3.6.1.28 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.6.1.28 thiamine triphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 240.0 * +EC3.6.1.28 thiamine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 240.0 * +EC3.6.1.28 thiamine triphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 23.0 * +EC3.6.1.29 5'-o-[amino(hydroxy)phosphoryl]adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.26 * +EC3.6.1.29 adenosine 5'-phosphoramidate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC3.6.1.29 adenosine-5'-phospho-n-methylimidazolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.6.1.29 adenosine-5'-phosphoimidazolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.6.1.29 p1,p3-bis(5'-adenosyl)triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.6.1.29 p1-5'-o-adenosine-p3-5'-o-adenosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.6.1.3 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.97 * +EC3.6.1.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.2 * +EC3.6.1.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC3.6.1.3 atp reovirus sp.//*//* 0.21 * +EC3.6.1.3 atp southampton virus//*//* 1.4 * +EC3.6.1.3 atp west nile virus//*//* 133.0 * +EC3.6.1.3 datp reovirus sp.//*//* 1.56 * +EC3.6.1.3 dctp reovirus sp.//*//* 0.022 * +EC3.6.1.3 gtp reovirus sp.//*//* 0.088 * +EC3.6.1.39 dttp enterobacteria phage t7//*//* 20.0 * +EC3.6.1.40 guanosine 5'-triphosphate,3'-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC3.6.1.40 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.6.1.41 p1,p4-bis(5'-adenosyl) tetraphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 250.0 * +EC3.6.1.41 p1,p4-bis(adenosyl)tetraphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 7.12 * +EC3.6.1.41 p1,p5-bis(adenosyl)pentaphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 24.0 * +EC3.6.1.42 gdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3830.0 * +EC3.6.1.45 amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 405.0 * +EC3.6.1.45 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.3 * +EC3.6.1.45 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC3.6.1.45 nmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1492.0 * +EC3.6.1.45 udp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 71.0 * +EC3.6.1.45 udp-glucose yersinia intermedia//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yin 97.0 * +EC3.6.1.5 1,n6-etheno-adp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1384.0 * +EC3.6.1.5 1,n6-etheno-atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1642.0 * +EC3.6.1.5 2'(3')-o-(2,4,6-trinitrophenyl)adenosine 5'-diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 328.0 * +EC3.6.1.5 2'(3')-o-(2,4,6-trinitrophenyl)adenosine 5'-triphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 982.0 * +EC3.6.1.5 3'(2')-o-(methylanthranoyl)adenosine 5'-diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 828.0 * +EC3.6.1.5 3'(2')-o-(methylanthranoyl)adenosine 5'-triphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 965.0 * +EC3.6.1.5 8-oxo-dgtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.96 * +EC3.6.1.5 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 77.3 * +EC3.6.1.5 ampcpp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.5 * +EC3.6.1.5 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 860.0 * +EC3.6.1.5 atp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 280.0 * +EC3.6.1.5 datp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.5 * +EC3.6.1.5 datp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2222.0 * +EC3.6.1.5 dctp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2174.0 * +EC3.6.1.5 dgtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.74 * +EC3.6.1.5 dgtp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 3019.0 * +EC3.6.1.5 dttp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2841.0 * +EC3.6.1.5 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 103.7 * +EC3.6.1.5 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 80.9 * +EC3.6.1.5 idp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 79.9 * +EC3.6.1.5 itp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 105.3 * +EC3.6.1.5 tdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 80.2 * +EC3.6.1.5 thio-datp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1101.0 * +EC3.6.1.5 udp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 80.9 * +EC3.6.1.5 utp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 103.4 * +EC3.6.1.52 5-phospho-d-ribosyl 1-diphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.1 * +EC3.6.1.52 adenosine tetraphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.24 * +EC3.6.1.52 diadenosine 5',5'''-p1,p6-hexaphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.34 * +EC3.6.1.52 diphosphoinositol pentakisphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.024 * +EC3.6.1.52 diphosphoinositol pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.6.1.52 guanosine tetraphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.8 * +EC3.6.1.53 2',3'-camp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 16.9 * +EC3.6.1.53 2',3'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC3.6.1.53 adp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 18.0 * +EC3.6.1.53 adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC3.6.1.53 adp-ribose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.8 * +EC3.6.1.53 adp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 1.8 * +EC3.6.1.53 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC3.6.1.53 cdp-choline danio rerio//eukaryotes;animals;vertebrates;fishes//dre 67.2 * +EC3.6.1.53 cdp-choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 28.5 * +EC3.6.1.53 cdp-ethanolamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 125.2 * +EC3.6.1.53 cdp-ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 41.3 * +EC3.6.1.53 cdp-glycerol danio rerio//eukaryotes;animals;vertebrates;fishes//dre 95.6 * +EC3.6.1.53 cdp-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 28.1 * +EC3.6.1.53 cyclic adp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.005 * +EC3.6.1.53 cyclic adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.6.1.53 cyclic adp-ribose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.87 * +EC3.6.1.55 8-oxo-dgtp ciona intestinalis//eukaryotes;animals;ascidians//cin 2.55 * +EC3.6.1.56 2-hydroxy-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.6.1.56 2-hydroxy-datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.7 * +EC3.6.1.56 8-oxo-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.6.1.56 8-oxo-datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.8 * +EC3.6.1.56 8-oxo-dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.9 * +EC3.6.1.56 8-oxo-gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.6.1.56 dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.7 * +EC3.6.1.57 udp-2,4-diacetamido-2,4,6-trideoxy-beta-l-altropyranose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 26.6 * +EC3.6.1.58 2-hydroxy-dadp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.6.1.58 5-formyl-dudp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.6.1.58 8-oxo-dadp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.6.1.58 8-oxo-dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.6.1.58 dadp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.6.1.58 dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.6.1.59 7-methylguanosine 5'-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0017 * +EC3.6.1.59 m7g5'ppp5'g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC3.6.1.6 adp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 238.0 * +EC3.6.1.60 p1,p5-bis(5'-adenosyl)pentaphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.6.1.60 p1,p6-bis(5'-adenosyl)hexaphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.6.1.61 p1,p4-bis(5'-adenosyl)tetraphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.6.1.61 p1,p5-bis(5'-adenosyl)pentaphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.6.1.61 p1,p6-bis(5'-adenosyl)hexaphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.1 * +EC3.6.1.64 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.096 * +EC3.6.1.64 dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.6.1.64 didp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.6.1.64 ditp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.6.1.64 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.6.1.64 idp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.6.1.64 itp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC3.6.1.64 xdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.6.1.65 2-hydroxy-datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC3.6.1.65 5-hydroxy-ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.1 * +EC3.6.1.65 5-methyl-dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 51.7 * +EC3.6.1.65 8-hydroxy-dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.89 * +EC3.6.1.65 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.8 * +EC3.6.1.65 dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.4 * +EC3.6.1.66 ditp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 152.4 * +EC3.6.1.66 itp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 911.7 * +EC3.6.1.66 xtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1009.0 * +EC3.6.1.67 7,8-dihydroneopterin 3'-triphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.21 * +EC3.6.1.67 7,8-dihydroneopterin 3'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.6 * +EC3.6.1.67 7,8-dihydroneopterin 3'-triphosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.21 * +EC3.6.1.67 datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.59 * +EC3.6.1.7 acetyl phosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 1.55e-06 * +EC3.6.1.7 benzoyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 117.0 * +EC3.6.1.7 benzoyl phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 10000.0 * +EC3.6.1.7 benzoyl phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 850.0 * +EC3.6.1.7 benzoylphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 735.0 * +EC3.6.1.9 4-nitrophenyl-5'-tmp opuntia ficus-indica//*//* 1675.0 * +EC3.6.1.9 adenosine 5'-phosphosulfate oryza sativa//eukaryotes;plants;monocots;grass family//osa 329.0 * +EC3.6.1.9 adp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 214.0 * +EC3.6.1.9 adp-ribose oryza sativa//eukaryotes;plants;monocots;grass family//osa 370.0 * +EC3.6.1.9 adp oryza sativa//eukaryotes;plants;monocots;grass family//osa 449.0 * +EC3.6.1.9 atp oryza sativa//eukaryotes;plants;monocots;grass family//osa 415.0 * +EC3.6.1.9 bis(4-nitrophenyl) phosphate bothrops jararaca//*//* 44000.0 * +EC3.6.1.9 bis(4-nitrophenyl)phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 308.0 * +EC3.6.1.9 cdp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 125.0 * +EC3.6.1.9 cdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 89.0 * +EC3.6.1.9 diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 79.0 * +EC3.6.1.9 dttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 43.0 * +EC3.6.1.9 gdp-mannose oryza sativa//eukaryotes;plants;monocots;grass family//osa 151.0 * +EC3.6.1.9 gdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.0 * +EC3.6.1.9 idp oryza sativa//eukaryotes;plants;monocots;grass family//osa 88.0 * +EC3.6.1.9 nad+ opuntia ficus-indica//*//* 197.0 * +EC3.6.1.9 nadh opuntia ficus-indica//*//* 828.0 * +EC3.6.1.9 nadp+ opuntia ficus-indica//*//* 110.0 * +EC3.6.1.9 nadph opuntia ficus-indica//*//* 745.0 * +EC3.6.1.9 p-nitrophenyl 5'-thymidine monophosphate bothrops jararaca//*//* 960000.0 * +EC3.6.1.9 tdp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 124.0 * +EC3.6.1.9 tdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 87.0 * +EC3.6.1.9 udp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 282.0 * +EC3.6.1.9 udp oryza sativa//eukaryotes;plants;monocots;grass family//osa 104.0 * +EC3.6.1.9 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 95.0 * +EC3.6.1.B11 p1,p5-bis(5'-adenosyl)pentaphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.7 * +EC3.6.1.B11 p1,p6-bis(5'-adenosyl)hexaphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 2.0 * +EC3.6.1.B13 p1,p6-bis(5'-adenosyl)hexaphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.8 * +EC3.6.1.B16 guanosine 3',5'-bis(diphosphate) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.49 * +EC3.6.1.B16 p1,p4-bis(5'-adenosyl) tetraphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 16.9 * +EC3.6.1.B16 p1,p5-di(adenosine-5')pentaphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 11.8 * +EC3.6.3.14 adp bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 17.0 * +EC3.6.3.14 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC3.6.3.14 atp bacillus sp. ps3//*//* 5.34 * +EC3.6.3.14 atp bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 390.0 * +EC3.6.3.14 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 285.0 * +EC3.6.3.14 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 217.0 * +EC3.6.3.14 phosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 16.0 * +EC3.6.3.14 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC3.6.3.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.6.3.32 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.25 * +EC3.6.3.33 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.39 * +EC3.6.3.43 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.6.3.43 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.6.3.43 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 25.0 * +EC3.6.3.44 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.95 * +EC3.6.3.44 colchicine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.81 * +EC3.6.3.44 digoxin/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.99 * +EC3.6.3.44 nicardipine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.44 * +EC3.6.3.44 paclitaxel/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.6.3.44 rhodamine 123/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.56 * +EC3.6.3.44 rhodamine b/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.22 * +EC3.6.3.44 verapamil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC3.6.3.44 verapamil/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.27 * +EC3.6.3.44 vinblastine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.54 * +EC3.6.3.49 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.6.3.5 atp noccaea caerulescens//*//* 300.0 * +EC3.6.3.50 abz-vaa pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 447.0 * +EC3.6.3.50 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.6.3.50 atp xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.00525 * +EC3.6.3.51 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00068 * +EC3.6.3.6 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 56.7 * +EC3.6.3.6 atp kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 3.0 * +EC3.6.3.8 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC3.6.3.8 ca2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 149.0 * +EC3.6.3.8 ca2+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 128.0 * +EC3.6.3.9 k+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.0 * +EC3.6.3.9 na+/in octopus bimaculatus//*//* 20.1 * +EC3.6.3.9 na+/in pareledone sp.//*//* 25.5 * +EC3.6.4.1 atp acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 17.0 * +EC3.6.4.1 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.56 * +EC3.6.4.1 atp dictyostelium sp.//*//* 5.7 * +EC3.6.4.1 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 6.95 * +EC3.6.4.1 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.259 * +EC3.6.4.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.6.4.1 atp lethocerus griseus//*//* 4.1 * +EC3.6.4.1 atp lethocerus indicus//*//* 4.1 * +EC3.6.4.1 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.0 * +EC3.6.4.10 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00633 * +EC3.6.4.10 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.00018 * +EC3.6.4.10 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.167 * +EC3.6.4.10 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.6.4.10 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.017 * +EC3.6.4.10 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC3.6.4.10 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0438 * +EC3.6.4.10 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0014 * +EC3.6.4.10 atp synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.0408 * +EC3.6.4.10 atp tetragenococcus halophilus//prokaryotes;bacteria;firmicutes - bacilli;tetragenococcus//thl 0.012 * +EC3.6.4.11 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0615 * +EC3.6.4.13 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 22.2 * +EC3.6.4.13 atp west nile virus//*//* 3.0 * +EC3.6.4.13 gtp west nile virus//*//* 2.75 * +EC3.6.4.13 rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.48 * +EC3.6.4.2 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 121.1 * +EC3.6.4.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.1 * +EC3.6.4.2 atp tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 5.0 * +EC3.6.4.2 formycin triphosphate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 5.0 * +EC3.6.4.3 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.8 * +EC3.6.4.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.6.4.3 atp strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 0.005 * +EC3.6.4.4 adp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 34.0 * +EC3.6.4.4 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 144.0 * +EC3.6.4.4 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 20.0 * +EC3.6.4.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC3.6.4.4 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 42.1 * +EC3.6.4.4 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 23.2 * +EC3.6.4.4 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 2.4 * +EC3.6.4.4 methylanthraniloyl-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.6.4.4 phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 29.0 * +EC3.6.4.5 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 2.58 * +EC3.6.4.5 atp eremothecium gossypii//*//* 0.17 * +EC3.6.4.5 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 70.0 * +EC3.6.4.5 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.9 * +EC3.6.4.6 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.85 * +EC3.6.4.9 atp aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 2.21 * +EC3.6.4.9 atp allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.06 * +EC3.6.4.9 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.133 * +EC3.6.4.9 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.75 * +EC3.6.4.9 atp methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.99 * +EC3.6.4.9 atp rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.014 * +EC3.6.4.9 atp rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.13 * +EC3.6.4.9 atp ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.07 * +EC3.6.4.9 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0417 * +EC3.6.4.9 atp thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 1.0 * +EC3.6.4.9 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0055 * +EC3.6.4.B7 atp desulfurococcus amylolyticus//prokaryotes;archaea;crenarchaeota;desulfurococcus//dka 1.2 * +EC3.6.4.B7 atp pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.068 * +EC3.6.4.B7 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0345 * +EC3.6.4.B8 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.7 * +EC3.6.5.1 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.0 * +EC3.6.5.1 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC3.6.5.1 gtp oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.118 * +EC3.6.5.1 gtp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.9 * +EC3.6.5.2 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.6.5.3 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC3.6.5.3 gtp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.8 * +EC3.6.5.4 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.223 * +EC3.6.5.5 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.1 * +EC3.6.5.5 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.75 * +EC3.6.5.5 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.6.5.6 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0083 * +EC3.6.5.6 gtp prosthecobacter sp.//*//* 0.022 * +EC3.6.5.6 gtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1500.0 * +EC3.7.1.1 (2r,3s)-2,3-dimethylmalate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.0293 * +EC3.7.1.1 (2r,3s)-2-ethyl-3-methylmalate dianthus caryophyllus//*//* 8.4 * +EC3.7.1.1 oxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.505 * +EC3.7.1.1 oxaloacetate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 50.0 * +EC3.7.1.1 oxaloacetate cryphonectria parasitica//*//* 35.2 * +EC3.7.1.1 oxaloacetate dianthus caryophyllus//*//* 2.72 * +EC3.7.1.11 cyclohexane-1,2-dione azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 1.6 * +EC3.7.1.13 2-hydroxy-6-oxo-6-(2'-aminophenyl)hexa-2,4-dienoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1300.0 * +EC3.7.1.13 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate janthinobacterium sp. j3//*//* 1.99 * +EC3.7.1.13 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate pseudomonas resinovorans//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pre 2.14 * +EC3.7.1.14 (2e,4z)-2-hydroxy-6-oxonona-2,4-dienedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.7.1.14 2-hydroxy-6-keto-6-phenylhexa-2,4-dienoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC3.7.1.17 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.25 * +EC3.7.1.17 4,5-9,10-diseco-3-hydroxy-5,9,17-tri-oxoandrosta-1(10),2-diene-4-oic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.55 * +EC3.7.1.17 8-(2-chlorophenyl)-2-hydroxy-5-methyl-6-oxoocta-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.33 * +EC3.7.1.18 6-oxocamphor rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 642.9 * +EC3.7.1.19 2,6-dihydroxypseudooxynicotine paenarthrobacter nicotinovorans//*//* 792.0 * +EC3.7.1.3 (2s)-2-amino-4-oxo-4-phenylbutanoic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.7 * +EC3.7.1.3 2-amino-4-(2-chlorophenyl)-4-oxobutanoic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.08 * +EC3.7.1.3 2-amino-4-(2-methoxyphenyl)-4-oxobutanoic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.05 * +EC3.7.1.3 2-amino-4-(4-methoxyphenyl)-4-oxobutanoic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.38 * +EC3.7.1.3 2-fluorobenzoyl-dl-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.06 * +EC3.7.1.3 3,5-dibromo-l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.7.1.3 3,5-dibromo-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.23 * +EC3.7.1.3 3-bromo-l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.7.1.3 3-bromo-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 11.0 * +EC3.7.1.3 3-chloro-dl-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.7.1.3 3-chloro-dl-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.71 * +EC3.7.1.3 3-fluoro-dl-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.7.1.3 3-fluoro-dl-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.9 * +EC3.7.1.3 3-hydroxy-dl-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.7.1.3 3-hydroxy-l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.7.1.3 3-hydroxy-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.0 * +EC3.7.1.3 3-methyl-dl-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.7.1.3 3-methyl-dl-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.5 * +EC3.7.1.3 5-bromo-3-chloro-dl-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.7.1.3 5-bromo-3-chloro-dl-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.3 * +EC3.7.1.3 5-bromo-l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC3.7.1.3 5-bromo-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 11.9 * +EC3.7.1.3 5-chloro-l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.7.1.3 5-chloro-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 8.7 * +EC3.7.1.3 beta-(4-chlorobenzoyl)-dl-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.83 * +EC3.7.1.3 beta-(4-methylbenzoyl)-dl-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.91 * +EC3.7.1.3 beta-(4-trifluoromethylbenzoyl)-dl-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.001 * +EC3.7.1.3 beta-benzoyl-l-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.7 * +EC3.7.1.3 l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.7.1.3 l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 16.0 * +EC3.7.1.3 o-benzoyl-l-serine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.5 * +EC3.7.1.4 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 47.0 * +EC3.7.1.4 pyridoxine-5'-beta-d-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.7.1.7 bicyclo[2.2.2]octane-2,6-dione nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.16 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-(4-chlorophenyl)-6-oxohexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 3.13 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-(4-chlorophenyl)-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 33.7 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 4.18 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 7.6 * +EC3.7.1.8 (2e,4e)-6-(2-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 2.1 * +EC3.7.1.8 (2e,4e)-6-(2-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 1.74 * +EC3.7.1.8 (2e,4e)-6-(3,4-dichlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 29.0 * +EC3.7.1.8 (2e,4e)-6-(3,5-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 11.2 * +EC3.7.1.8 (2e,4e)-6-(3-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 3.9 * +EC3.7.1.8 (2e,4e)-6-(3-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 15.3 * +EC3.7.1.8 (2e,4z)-2,4-dihydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.0055 * +EC3.7.1.8 (2e,4z)-4-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00059 * +EC3.7.1.8 (2e,4z)-5-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.53 * +EC3.7.1.8 (2e,4z)-5-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 1.03 * +EC3.7.1.8 (2z,4e)-3-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.0089 * +EC3.7.1.8 (2z,4e)-3-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.0172 * +EC3.7.1.8 2,6-dioxo-6-phenylhexa-3-enoate dyella ginsengisoli//*//* 9.6 * +EC3.7.1.8 2-hydroxy-6-oxo-6-(2-aminophenyl)hexa-2,4-dienoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1300.0 * +EC3.7.1.8 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.11 * +EC3.7.1.8 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.066 * +EC3.7.1.8 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 26.0 * +EC3.7.1.8 4-nitrophenyl benzoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 6.3 * +EC3.7.1.8 8-(2-chlorophenyl)-2-hydroxy-5-methyl-6-oxoocta-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.33 * +EC3.7.1.8 ethyl-2-acetoxy-6-keto-6-phenylhexa-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 6.5 * +EC3.7.1.8 meta-ring fission intermediate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC3.7.1.8 meta-ring fission intermediate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 6.5 * +EC3.7.1.9 2-hydroxy-5-methylmuconate-6-semialdehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.15 * +EC3.7.1.9 2-hydroxy-5-methylmuconic semialdehyde flavobacterium sp.//*//* 16.0 * +EC3.7.1.9 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.037 * +EC3.7.1.9 2-hydroxy-6-oxo-7-methylocta-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 23.1 * +EC3.7.1.9 2-hydroxy-6-oxo-7-methylocta-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.41 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate flavobacterium sp.//*//* 57.0 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 19.5 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 35.0 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 36.53 * +EC3.7.1.9 2-hydroxy-6-oxoocta-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 42.4 * +EC3.7.1.9 2-hydroxy-6-oxoocta-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 14.0 * +EC3.7.1.9 2-hydroxymuconate-6-semialdehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 18.2 * +EC3.7.1.9 2-hydroxymuconic semialdehyde flavobacterium sp.//*//* 42.0 * +EC3.7.1.B1 2,4-diacetylphloroglucinol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 33.0 * +EC3.7.1.B1 2,4-diacetylphloroglucinol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.8 * +EC3.8.1.5 1,2,3-tribromopropane rhodococcus rhodochrous//*//* 3.6 * +EC3.8.1.5 1,2,3-trichloropropane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.24 * +EC3.8.1.5 1,2,3-trichloropropane rhodococcus rhodochrous//*//* 0.08 * +EC3.8.1.5 1,2,3-trichloropropane sphingobium japonicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sjp 0.005 * +EC3.8.1.5 1,2-dibromoethane alcanivorax dieselolei//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//adi 17.95 * +EC3.8.1.5 1,2-dibromoethane plesiocystis pacifica//*//* 0.38 * +EC3.8.1.5 1,2-dibromoethane rhodococcus rhodochrous//*//* 14.3 * +EC3.8.1.5 1,2-dibromoethane sphingomonas paucimobilis//*//* 26.4 * +EC3.8.1.5 1,2-dibromopropane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.96 * +EC3.8.1.5 1,2-dibromopropane plesiocystis pacifica//*//* 1.97 * +EC3.8.1.5 1,2-dibromopropane rhodococcus rhodochrous//*//* 2.3 * +EC3.8.1.5 1,2-dichloroethane ancylobacter aquaticus//*//* 2.37 * +EC3.8.1.5 1,2-dichloroethane sphingomonas paucimobilis//*//* 1.05 * +EC3.8.1.5 1,2-dichloropropane sphingomonas paucimobilis//*//* 0.91 * +EC3.8.1.5 1,3-dibromopropane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.5 * +EC3.8.1.5 1,3-dibromopropane alcanivorax dieselolei//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//adi 13.39 * +EC3.8.1.5 1,3-dibromopropane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 3.6 * +EC3.8.1.5 1,3-dibromopropane mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 9.2 * +EC3.8.1.5 1,3-dibromopropane psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 2.72 * +EC3.8.1.5 1,3-dibromopropane rhodococcus rhodochrous//*//* 2.7 * +EC3.8.1.5 1,3-dibromopropane sphingomonas paucimobilis//*//* 6.6 * +EC3.8.1.5 1,3-dibromopropane strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 1.57 * +EC3.8.1.5 1,3-dibromopropane uncultured marine bacterium//*//* 2.4 * +EC3.8.1.5 1,3-dichloropropane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.01 * +EC3.8.1.5 1,3-dichloropropane rhodococcus rhodochrous//*//* 1.3 * +EC3.8.1.5 1,3-diiodopropane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.2 * +EC3.8.1.5 1,5-dichloropentane sphingomonas paucimobilis//*//* 2.45 * +EC3.8.1.5 1-bromo-2-methylpropane sphingomonas paucimobilis//*//* 1.6 * +EC3.8.1.5 1-bromobutane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.5 * +EC3.8.1.5 1-bromobutane plesiocystis pacifica//*//* 8.08 * +EC3.8.1.5 1-bromobutane psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 1.1 * +EC3.8.1.5 1-bromobutane sphingomonas paucimobilis//*//* 3.41 * +EC3.8.1.5 1-bromoheptane plesiocystis pacifica//*//* 1.39 * +EC3.8.1.5 1-bromohexane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.7 * +EC3.8.1.5 1-bromohexane plesiocystis pacifica//*//* 2.69 * +EC3.8.1.5 1-bromohexane sphingomonas paucimobilis//*//* 1.05 * +EC3.8.1.5 1-bromopentane plesiocystis pacifica//*//* 9.94 * +EC3.8.1.5 1-bromopropane plesiocystis pacifica//*//* 5.85 * +EC3.8.1.5 1-bromopropane rhodococcus rhodochrous//*//* 2.7 * +EC3.8.1.5 1-chlorobutane alcanivorax dieselolei//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//adi 1.17 * +EC3.8.1.5 1-chlorobutane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 1.4 * +EC3.8.1.5 1-chlorobutane mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 0.08 * +EC3.8.1.5 1-chlorobutane sphingomonas paucimobilis//*//* 1.055 * +EC3.8.1.5 1-chloroheptane sphingomonas paucimobilis//*//* 3.345 * +EC3.8.1.5 1-chlorohexane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.07 * +EC3.8.1.5 1-chlorohexane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 1.4 * +EC3.8.1.5 1-chlorohexane sphingomonas paucimobilis//*//* 6.08 * +EC3.8.1.5 1-chlorooctane sphingomonas paucimobilis//*//* 2.75 * +EC3.8.1.5 1-chloropropane rhodococcus rhodochrous//*//* 0.48 * +EC3.8.1.5 1-iodohexane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.26 * +EC3.8.1.5 1-iodohexane sphingomonas paucimobilis//*//* 2.33 * +EC3.8.1.5 2,3-dichloroprop-1-ene alcanivorax dieselolei//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//adi 20.06 * +EC3.8.1.5 2-bromoethanol rhodococcus rhodochrous//*//* 3.0 * +EC3.8.1.5 3-bromo-1-propanol rhodococcus rhodochrous//*//* 3.0 * +EC3.8.1.5 3-chloro-2-(chloromethyl)-1-propene sphingomonas paucimobilis//*//* 8.17 * +EC3.8.1.5 3-chloro-2-methylprop-1-ene alcanivorax dieselolei//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//adi 34.26 * +EC3.8.1.5 3-chloro-2-methylpropene bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 3.5 * +EC3.8.1.5 4-bromobutyronitrile alcanivorax dieselolei//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//adi 30.8 * +EC3.8.1.5 4-bromobutyronitrile mycobacterium rhodesiae//prokaryotes;bacteria;actinobacteria;mycobacterium//mrh 3.1 * +EC3.8.1.5 bromocyclohexane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.59 * +EC3.8.1.5 bromocyclohexane sphingomonas paucimobilis//*//* 1.36 * +EC3.8.1.5 chlorocyclohexane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.25 * +EC3.8.1.7 2,4,5,6-tetrachloroisophthalonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 207.0 * +EC3.8.1.7 2,4-dichlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.511 * +EC3.8.1.7 3,4-dichlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.052 * +EC3.8.1.7 4-bromobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.4 * +EC3.8.1.7 4-bromobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.4 * +EC3.8.1.7 4-bromophenacyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC3.8.1.7 4-chloro-2-nitrobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.063 * +EC3.8.1.7 4-chlorobenzoyl-3'-dephospho-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.45 * +EC3.8.1.7 4-chlorobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.3 * +EC3.8.1.7 4-chlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.0 * +EC3.8.1.7 4-chlorobenzoyl-dithio-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC3.8.1.7 4-chlorobenzoyl-epsilon-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.007 * +EC3.8.1.7 4-chlorobenzoyl-pantetheine phosphate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.051 * +EC3.8.1.7 4-chlorobenzoyl-pantetheine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.056 * +EC3.8.1.7 4-fluorobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.003 * +EC3.8.1.7 4-iodobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.0 * +EC3.8.1.7 4-iodobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC3.8.1.7 chlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC3.8.1.8 2,4-diisopropylamino-6-hydroxy-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.8 * +EC3.8.1.8 2-(n-ethylamino)-4-hydroxy-6-(n-isopropylamino)-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.2 * +EC3.8.1.8 2-chloro-4-(n-ethylamino)-6-hydroxy-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC3.8.1.8 2-chloro-4-hydroxy-6-(n-isopropylamino)-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.9 * +EC3.8.1.8 6-hydroxy-4-(n-isopropylamino)-2-(n-methylamino)-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.4 * +EC3.8.1.8 ametryn paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 6.04 * +EC3.8.1.8 atrazine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.9 * +EC3.8.1.8 atrazine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 1.49 * +EC3.8.1.8 atrazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.0 * +EC3.8.1.8 atrazine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.2 * +EC3.8.1.8 hydroxyatrazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.0 * +EC3.9.1.2 4-nitrophenyl phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.12 * +EC4.1.1.1 2-keto-4-methylhexanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.4 * +EC4.1.1.1 2-ketobutanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 320.0 * +EC4.1.1.1 2-ketobutyrate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 61.4 * +EC4.1.1.1 2-ketohexanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.0 * +EC4.1.1.1 2-ketopentanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 53.0 * +EC4.1.1.1 2-ketovalerate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 13.7 * +EC4.1.1.1 pyruvate candida glabrata//eukaryotes;fungi;ascomycetes;saccharomycetes//cgr 77.0 * +EC4.1.1.1 pyruvate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 125.0 * +EC4.1.1.1 pyruvate kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 40.0 * +EC4.1.1.1 pyruvate komagataella pastoris//*//* 8.6 * +EC4.1.1.1 pyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 18.3 * +EC4.1.1.1 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 207.0 * +EC4.1.1.1 pyruvate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 486.0 * +EC4.1.1.100 prephenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.2 * +EC4.1.1.100 prephenate planktothrix agardhii//*//* 4.1 * +EC4.1.1.102 ferulate enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 2.15 * +EC4.1.1.103 2,6-dihydroxybenzoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 20.0 * +EC4.1.1.11 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.57 * +EC4.1.1.11 l-aspartate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 7.03 * +EC4.1.1.11 l-aspartate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.65 * +EC4.1.1.12 l-asp comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 442.0 * +EC4.1.1.12 l-asp pseudomonas dacunhae//*//* 4.3 * +EC4.1.1.12 l-aspartate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.65 * +EC4.1.1.15 l-alpha-methylglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.53 * +EC4.1.1.15 l-glu felis catus//eukaryotes;animals;vertebrates;mammals//fca 7.0 * +EC4.1.1.15 l-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC4.1.1.15 l-glu lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 6.5 * +EC4.1.1.15 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 59.26 * +EC4.1.1.15 l-glutamate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.286 * +EC4.1.1.17 alpha-methylornithine lactobacillus sp. 30a//*//* 0.02 * +EC4.1.1.17 l-2,4-diaminobutanoate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.45 * +EC4.1.1.17 l-2,4-diaminobutanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.5 * +EC4.1.1.17 l-2,4-diaminobutanoate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 0.35 * +EC4.1.1.17 l-2,4-diaminobutanoate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.05 * +EC4.1.1.17 l-lysine lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.57 * +EC4.1.1.17 l-lysine lactobacillus saerimneri 30a//*//* 0.25 * +EC4.1.1.17 l-lysine nicotiana glutinosa//*//* 0.24 * +EC4.1.1.17 l-lysine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.09 * +EC4.1.1.17 l-ornithine erythroxylum coca//*//* 0.18 * +EC4.1.1.17 l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC4.1.1.17 l-ornithine lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 4.8 * +EC4.1.1.17 l-ornithine lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 0.14 * +EC4.1.1.17 l-ornithine lactobacillus saerimneri 30a//*//* 9.77 * +EC4.1.1.17 l-ornithine nicotiana glutinosa//*//* 77.8 * +EC4.1.1.17 l-ornithine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 6.9 * +EC4.1.1.17 l-ornithine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC4.1.1.17 l-ornithine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.2 * +EC4.1.1.17 l-ornithine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 15.4 * +EC4.1.1.18 l-2,4-diaminobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.052 * +EC4.1.1.18 l-lys hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 175.0 * +EC4.1.1.18 l-lys selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 636.0 * +EC4.1.1.18 l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC4.1.1.18 l-lysine lactobacillus saerimneri 30a//*//* 1.68 * +EC4.1.1.18 l-orn selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 289.8 * +EC4.1.1.19 l-arg chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 6.9 * +EC4.1.1.19 l-arg methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.7 * +EC4.1.1.19 l-arg yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 5.46 * +EC4.1.1.19 l-arginine avena sativa//*//* 9.9 * +EC4.1.1.19 l-arginine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.4 * +EC4.1.1.19 l-arginine chlamydia pneumoniae//prokaryotes;bacteria;chlamydiae;chlamydia//cpn 6.9 * +EC4.1.1.19 l-arginine chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 11.0 * +EC4.1.1.19 l-arginine clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.025 * +EC4.1.1.19 l-arginine gramella forsetii//prokaryotes;bacteria;bacteroidetes;gramella//gfo 0.48 * +EC4.1.1.19 l-arginine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.6 * +EC4.1.1.19 l-canavanine yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.11 * +EC4.1.1.19 l-n5-(iminoethyl)-ornithine yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.419 * +EC4.1.1.19 l-ornithine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC4.1.1.19 ngamma-methyl-l-arginine yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 1.22 * +EC4.1.1.2 oxalate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 57.0 * +EC4.1.1.20 d,d-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.8 * +EC4.1.1.20 dd-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.8 * +EC4.1.1.20 dl-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.1 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 15.65 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.1 * +EC4.1.1.21 1-(5-phosphoribosyl)-5-aminoimidazole gallus gallus//eukaryotes;animals;vertebrates;birds//gga 40.0 * +EC4.1.1.21 4-carboxy-5-aminoimidazole ribonucleotide treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 65.0 * +EC4.1.1.21 co2 treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 77.0 * +EC4.1.1.22 l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.73 * +EC4.1.1.23 2'-deoxyorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC4.1.1.23 4-thioorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.0 * +EC4.1.1.23 5-azaorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC4.1.1.23 5-fluoroorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 570.0 * +EC4.1.1.23 orotidine 5'-monophosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.0 * +EC4.1.1.23 orotidine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.0 * +EC4.1.1.23 orotidine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.1 * +EC4.1.1.23 orotidine 5'-phosphate methanobacterium thermoautotrophicus//*//* 4.0 * +EC4.1.1.23 orotidine 5'-phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 21.0 * +EC4.1.1.23 orotidine 5'-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 24.6 * +EC4.1.1.23 orotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 44.0 * +EC4.1.1.25 l-tyrosine lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 343.0 * +EC4.1.1.28 2-fluoro-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.2 * +EC4.1.1.28 5-fluoro-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.47 * +EC4.1.1.28 5-hydroxy-l-tryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.67 * +EC4.1.1.28 6-fluoro-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.2 * +EC4.1.1.28 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.48 * +EC4.1.1.28 l-5-hydroxytryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.08 * +EC4.1.1.28 l-dopa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC4.1.1.28 l-dopa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.8 * +EC4.1.1.28 l-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.1 * +EC4.1.1.28 l-tyrosine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.7 * +EC4.1.1.29 l-cysteine sulfinate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 5.86 * +EC4.1.1.3 3-methyloxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 250.0 * +EC4.1.1.3 oxaloacetate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 104.0 * +EC4.1.1.3 oxaloacetate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 11.2 * +EC4.1.1.3 oxaloacetate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 20.26 * +EC4.1.1.3 oxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7500.0 * +EC4.1.1.31 phosphoenolpyruvate alternanthera ficoidea//*//* 33.0 * +EC4.1.1.31 phosphoenolpyruvate alternanthera pungens//*//* 38.0 * +EC4.1.1.31 phosphoenolpyruvate alternanthera sessilis//*//* 16.0 * +EC4.1.1.31 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 540.0 * +EC4.1.1.31 phosphoenolpyruvate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 66.0 * +EC4.1.1.31 phosphoenolpyruvate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 69.0 * +EC4.1.1.32 2'-deoxyguanosine 5'-diphosphate ascaris suum//*//* 4.6 * +EC4.1.1.32 2'-deoxyguanosine 5'-triphosphate ascaris suum//*//* 3.4 * +EC4.1.1.32 co2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC4.1.1.32 gdp ascaris suum//*//* 6.5 * +EC4.1.1.32 gdp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 7.2 * +EC4.1.1.32 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC4.1.1.32 gtp ascaris suum//*//* 13.9 * +EC4.1.1.32 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 54.0 * +EC4.1.1.32 idp ascaris suum//*//* 6.9 * +EC4.1.1.32 itp ascaris suum//*//* 15.6 * +EC4.1.1.32 oxaloacetate ascaris suum//*//* 17.8 * +EC4.1.1.32 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 54.0 * +EC4.1.1.32 phosphoenolpyruvate ascaris suum//*//* 9.3 * +EC4.1.1.32 phosphoenolpyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 6.1 * +EC4.1.1.32 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC4.1.1.33 (3r)-3-cyclopropyl-3-hydroxy-5-[[hydroxy(phosphonooxy)phosphoryl]oxy]pentanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.27 * +EC4.1.1.33 (3r)-3-ethyl-3-hydroxy-5-[[hydroxy(phosphonooxy)phosphoryl]oxy]pentanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.3 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)-4-methylpentanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.018 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)-5-methylhexanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.024 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)hex-4-ynoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.21 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)hex-5-enoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.39 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)pent-4-enoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 3.2 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)pent-4-ynoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.3 * +EC4.1.1.33 (r,s)-5-diphosphomevalonate staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 5.9 * +EC4.1.1.33 5-diphosphomevalonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC4.1.1.33 5-diphosphomevalonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.9 * +EC4.1.1.33 diphosphomevalonate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 5.6 * +EC4.1.1.35 udp-d-glucuronate hordeum vulgare//*//* 2.7 * +EC4.1.1.35 udp-d-glucuronate oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.69 * +EC4.1.1.36 (r)-4'-phospho-n-pantothenoylcysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC4.1.1.37 uroporphyrinogen-i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.124 * +EC4.1.1.37 uroporphyrinogen-iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.317 * +EC4.1.1.39 co2 acidovorax facilis//*//* 1.04 * +EC4.1.1.39 co2 allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 6.7 * +EC4.1.1.39 co2 amaranthus hybridus//*//* 3.8 * +EC4.1.1.39 co2 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 5.8 * +EC4.1.1.39 co2 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 1.38 * +EC4.1.1.39 co2 cylindrotheca fusiformis//*//* 1.95 * +EC4.1.1.39 co2 cylindrotheca sp.//*//* 0.78 * +EC4.1.1.39 co2 galdieria sulphuraria//eukaryotes;plants;red algae//gsl 1.2 * +EC4.1.1.39 co2 griffithsia monilis//*//* 2.6 * +EC4.1.1.39 co2 nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.4 * +EC4.1.1.39 co2 olisthodiscus luteus//*//* 0.83 * +EC4.1.1.39 co2 phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 3.4 * +EC4.1.1.39 co2 porphyridium purpureum//*//* 1.59 * +EC4.1.1.39 co2 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 12.3 * +EC4.1.1.39 co2 sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 5.4 * +EC4.1.1.39 co2 spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.7 * +EC4.1.1.39 co2 synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 13.9 * +EC4.1.1.39 co2 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.31 * +EC4.1.1.39 co2 thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 2.65 * +EC4.1.1.39 co2 thiobacillus denitrificans//prokaryotes;bacteria;betaproteobacteria;thiobacillus//tbd 3.5 * +EC4.1.1.39 co2 triticum aestivum//*//* 3.8 * +EC4.1.1.39 co2 zea mays//eukaryotes;plants;monocots;grass family//zma 4.7 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate agave victoriae-reginae//*//* 3.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.1 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 23.1 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate atrichum undulatum//*//* 3.0 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate carpobrotus edulis//*//* 3.6 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate ceratophyllum demersum//*//* 3.5 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate crithmum maritimum//*//* 3.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate cycas panzhihuaensis//*//* 3.1 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate dactylis glomerata//*//* 3.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate drosera capensis//*//* 4.7 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate drosera venusta//*//* 3.3 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate echeveria elegans//*//* 4.5 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate eucalyptus moorei//*//* 3.2 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate eucalyptus neglecta//*//* 2.5 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 1.2 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate griffithsia monilis//*//* 2.6 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate iris douglasiana//*//* 3.5 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate limonium gibertii//*//* 2.5 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate limonium latibracteatum//*//* 2.7 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate limonium stenophyllum//*//* 2.6 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate limonium virgatum//*//* 2.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate marchantia polymorpha//*//* 2.6 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate metasequoia glyptostroboides//*//* 2.7 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 4.0 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate nymphaea alba//*//* 2.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate pallenis maritima//*//* 2.7 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 3.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate platycerium superbum//*//* 2.3 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate pteridium aquilinum//*//* 4.0 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 6.28 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate sarracenia flava//*//* 4.4 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate sideritis cretica subsp. spicata//*//* 2.0 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 13.9 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 14.28 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate teucrium heterophyllum//*//* 2.7 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 16.6 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate trachycarpus fortunei//*//* 2.8 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate triticum aestivum//*//* 5.5 * +EC4.1.1.39 d-ribulose-1,5-bisphosphate griffithsia monilis//*//* 2.6 * +EC4.1.1.39 d-ribulose-1,5-bisphosphate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 3.5 * +EC4.1.1.39 o2 nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.42 * +EC4.1.1.39 o2 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 1.4 * +EC4.1.1.39 o2 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.38 * +EC4.1.1.39 o2 triticum aestivum//*//* 0.83 * +EC4.1.1.39 o2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.49 * +EC4.1.1.39 ribulose-1,5-bisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.4 * +EC4.1.1.39 ribulose-1,5-bisphosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 7.3 * +EC4.1.1.4 acetoacetate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 349.0 * +EC4.1.1.4 acetoacetate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 1560.0 * +EC4.1.1.43 2-ketohexanoic acid azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.29 * +EC4.1.1.43 2-oxo-4-phenylbutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC4.1.1.43 2-oxobutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.9 * +EC4.1.1.43 2-oxohexanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.8 * +EC4.1.1.43 2-oxopentanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.2 * +EC4.1.1.43 3-methyl-2-oxobutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 19.0 * +EC4.1.1.43 3-methyl-2-oxopentanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.0 * +EC4.1.1.43 4-hydroxyphenylpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.0 * +EC4.1.1.43 4-methyl-2-oxopentanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC4.1.1.43 4-methylthio-2-oxobutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.7 * +EC4.1.1.43 4-phenyl-2-oxobutanoic acid azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.21 * +EC4.1.1.43 5-phenyl-2-oxopentanoic acid azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 1.7 * +EC4.1.1.43 indole-3-pyruvate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.07 * +EC4.1.1.43 indole-3-pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.4 * +EC4.1.1.43 phenylpyruvate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 5.56 * +EC4.1.1.43 phenylpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.0 * +EC4.1.1.43 pyruvic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.34 * +EC4.1.1.45 2-amino-3-(3-oxoprop-1-en-1-yl)but-2-enedioate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.5 * +EC4.1.1.45 2-amino-3-(3-oxoprop-2-enyl)-but-2-enedioate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC4.1.1.45 2-amino-3-(3-oxoprop-2-enyl)-but-2-enedioate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 7.3 * +EC4.1.1.45 alpha-amino-beta-carboxymuconate-epsilon-semialdehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 10.2 * +EC4.1.1.47 glyoxylate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.9 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.3 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.16 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.1 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.67 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.2 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.15 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.095 * +EC4.1.1.49 (z)-3-fluorophosphoenolpyruvate anaerobiospirillum succiniciproducens//*//* 0.33 * +EC4.1.1.49 (z)-3-fluorophosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC4.1.1.49 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 62.0 * +EC4.1.1.49 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 38.0 * +EC4.1.1.49 oxalacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 65.0 * +EC4.1.1.49 oxaloacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.28 * +EC4.1.1.49 phosphoenolpyruvate anaerobiospirillum succiniciproducens//*//* 22.0 * +EC4.1.1.49 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC4.1.1.49 phosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 63.0 * +EC4.1.1.5 (s)-2-hydroxy-2-methyl-3-oxobutanoate leuconostoc lactis//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//llf 66.67 * +EC4.1.1.5 2-hydroxy-2-methyl-3-oxobutanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 5.57 * +EC4.1.1.50 s-adenosyl-l-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0075 * +EC4.1.1.50 s-adenosyl-l-methionine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.088 * +EC4.1.1.50 s-adenosyl-l-methionine streptomyces griseochromogenes//prokaryotes;bacteria;actinobacteria;streptomyces//sgs 0.027 * +EC4.1.1.50 s-adenosyl-l-methionine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.0 * +EC4.1.1.50 s-adenosyl-l-methionine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.7 * +EC4.1.1.50 s-adenosyl-methionine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 6.0 * +EC4.1.1.51 3-hydroxy-2-methylpyridine-4,5-dicarboxylate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.6 * +EC4.1.1.57 l-met dryopteris filix-mas//*//* 100.0 * +EC4.1.1.57 l-met streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 120.0 * +EC4.1.1.61 3,4-dihydroxybenzoate sedimentibacter hydroxybenzoicus//*//* 18.3 * +EC4.1.1.61 4-hydroxybenzoate sedimentibacter hydroxybenzoicus//*//* 55.0 * +EC4.1.1.63 3,4-dihydroxybenzoate sedimentibacter hydroxybenzoicus//*//* 90.0 * +EC4.1.1.64 1-amino-1-cyclohexanecarboxylate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 2.3 * +EC4.1.1.64 1-amino-1-cyclopentanecarboxylate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.98 * +EC4.1.1.64 2-aminoisobutanoate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 25.0 * +EC4.1.1.64 alpha-aminomalonate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.025 * +EC4.1.1.64 d-ala burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.2 * +EC4.1.1.64 gly burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.0012 * +EC4.1.1.64 l-ala burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.033 * +EC4.1.1.7 2-ketobutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.0 * +EC4.1.1.7 2-ketohexanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.3 * +EC4.1.1.7 2-ketopentanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.0 * +EC4.1.1.7 2-oxo-4-methylhexanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.6 * +EC4.1.1.7 2-oxo-4-methylpentanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.0 * +EC4.1.1.7 2-oxobutanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 17.3 * +EC4.1.1.7 2-oxohexanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 21.0 * +EC4.1.1.7 2-oxopentanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 44.3 * +EC4.1.1.7 benzoylformate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1349.0 * +EC4.1.1.7 benzoylformate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 284.0 * +EC4.1.1.7 benzylformate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 320.0 * +EC4.1.1.7 p-nitro-benzoylformate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC4.1.1.7 phenylglyoxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 320.0 * +EC4.1.1.72 (indol-3-yl)pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.98 * +EC4.1.1.72 2-oxo-3-methylpentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 19.75 * +EC4.1.1.72 2-oxobutyrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.98 * +EC4.1.1.72 2-oxohexanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.06 * +EC4.1.1.72 2-oxoisohexanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 31.5 * +EC4.1.1.72 2-oxoisopentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 28.35 * +EC4.1.1.72 2-oxoisovalerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.9 * +EC4.1.1.72 2-oxoisovalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC4.1.1.72 2-oxopentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.95 * +EC4.1.1.72 3-methyl-2-oxobutyrate psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 29.0 * +EC4.1.1.72 3-methyl-2-oxobutyrate psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 33.0 * +EC4.1.1.72 3-methyl-2-oxopentanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 25.0 * +EC4.1.1.72 3-methyl-2-oxopentanoate psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 23.0 * +EC4.1.1.72 3-methyl-2-oxopentanoate psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 27.0 * +EC4.1.1.72 4-hydroxyphenylpyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.89 * +EC4.1.1.72 4-methyl-2-oxopentanoate psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 7.0 * +EC4.1.1.72 4-methyl-2-oxopentanoate psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 8.5 * +EC4.1.1.72 benzoylformate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 18.57 * +EC4.1.1.72 phenylpyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.5 * +EC4.1.1.72 phenylpyruvate psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 1.7 * +EC4.1.1.72 phenylpyruvate psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 1.8 * +EC4.1.1.72 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.14 * +EC4.1.1.72 thiamine diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC4.1.1.74 3-(indol-3-yl)pyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.98 * +EC4.1.1.74 3-(indol-3-yl)pyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.64 * +EC4.1.1.74 4-hydroxyphenylpyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 1.65 * +EC4.1.1.74 benzoylformate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 31.4 * +EC4.1.1.74 benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 11.6 * +EC4.1.1.74 pyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.88 * +EC4.1.1.74 pyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.89 * +EC4.1.1.75 5-guanidino-2-oxopentanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 167.0 * +EC4.1.1.76 (1e)-but-1-en-1-yl(methyl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 23.9 * +EC4.1.1.76 1-naphthylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 576.0 * +EC4.1.1.76 2-hydroxy-2-phenylmalonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 101.0 * +EC4.1.1.76 2-methyl-2-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 279.0 * +EC4.1.1.76 2-methyl-2-phenylmalonate chelativorans sp. bnc1//prokaryotes;bacteria;alphaproteobacteria;chelativorans//mes 55.8 * +EC4.1.1.76 2-naphthylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 1730.0 * +EC4.1.1.76 2-phenyl-2-methylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 358.0 * +EC4.1.1.76 2-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 260.0 * +EC4.1.1.76 2-thienylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 5320.0 * +EC4.1.1.76 2-vinyl-2-methylmalonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 42.8 * +EC4.1.1.76 alpha-methyl-alpha(2-thienyl)malonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 200.0 * +EC4.1.1.76 alpha-methyl-alpha-(alpha-thienyl)malonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 200.0 * +EC4.1.1.76 alpha-methyl-alpha-(beta-naphthyl)malonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 30.9 * +EC4.1.1.76 alpha-methyl-alpha-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 29.8 * +EC4.1.1.76 alpha-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 366.0 * +EC4.1.1.76 hydroxy(2-methylprop-1-en-1-yl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 20.7 * +EC4.1.1.76 hydroxy[(1e)-prop-1-en-1-yl]propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 47.6 * +EC4.1.1.76 m-chlorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 1420.0 * +EC4.1.1.76 m-fluorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 2180.0 * +EC4.1.1.76 methyl(2-methylprop-1-en-1-yl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 5.2 * +EC4.1.1.76 methyl(2-naphthyl)malonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 31.0 * +EC4.1.1.76 methyl(2-thienyl)malonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 200.0 * +EC4.1.1.76 methyl(phenyl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 279.0 * +EC4.1.1.76 methyl[(1e)-prop-1-en-1-yl]propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 46.2 * +EC4.1.1.76 o-chlorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 1090.0 * +EC4.1.1.76 o-fluorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 666.0 * +EC4.1.1.76 p-chlorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 782.0 * +EC4.1.1.76 p-fluorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 195.0 * +EC4.1.1.76 p-methoxyphenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 92.0 * +EC4.1.1.76 p-methylphenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 125.0 * +EC4.1.1.76 phenylmalonate alkaliphilus metalliredigens qymf//*//* 0.26 * +EC4.1.1.76 phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 353.0 * +EC4.1.1.76 phenylmalonate chelativorans sp. bnc1//prokaryotes;bacteria;alphaproteobacteria;chelativorans//mes 118.0 * +EC4.1.1.76 phenylmalonate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.09 * +EC4.1.1.77 2-oxo-3-hexenedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 68.0 * +EC4.1.1.77 4-oxalocrotonate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 68.0 * +EC4.1.1.8 oxalyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.7 * +EC4.1.1.8 oxalyl-coa oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 88.0 * +EC4.1.1.82 3-phosphonopyruvate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 10.2 * +EC4.1.1.82 3-phosphonopyruvate streptomyces viridochromogenes//*//* 1.18 * +EC4.1.1.83 (4-hydroxyphenyl)acetate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 110.0 * +EC4.1.1.83 (4-hydroxyphenyl)acetate clostridium scatologenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//csq 135.0 * +EC4.1.1.83 3,4-dihydroxyphenylacetate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 65.0 * +EC4.1.1.83 3,4-dihydroxyphenylacetate clostridium scatologenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//csq 67.0 * +EC4.1.1.85 3-dehydro-l-gulonate 6-phosphate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 64.0 * +EC4.1.1.85 3-dehydro-l-gulonate 6-phosphate methylomonas aminofaciens//*//* 15.0 * +EC4.1.1.86 l-2,4-diaminobutanoate anabaena variabilis//*//* 0.34 * +EC4.1.1.86 l-2,4-diaminobutyrate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 8.3 * +EC4.1.1.86 l-lysine anabaena variabilis//*//* 0.008 * +EC4.1.1.86 l-ornithine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.54 * +EC4.1.1.9 malonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 135.0 * +EC4.1.1.9 n-hydroxy-l-ornithine saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.038 * +EC4.1.1.90 co2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC4.1.1.90 fleel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7 * +EC4.1.1.90 fleel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC4.1.1.90 vitamin kh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.66 * +EC4.1.1.90 yvfldhqdadanlilnrpkr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.488 * +EC4.1.1.91 phenol trichosporon moniliiforme//*//* 1.1 * +EC4.1.1.91 salicylate trichosporon moniliiforme//*//* 0.034 * +EC4.1.1.94 (s)-ethylmalonyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 10.0 * +EC4.1.1.94 methylmalonyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.81 * +EC4.1.1.96 carboxynorspermidine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.58 * +EC4.1.1.96 carboxynorspermidine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 20.1 * +EC4.1.1.96 carboxyspermidine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.24 * +EC4.1.1.96 carboxyspermidine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 3.2 * +EC4.1.1.B12 l-lysine echinosophora koreensis//*//* 1.91 * +EC4.1.1.B12 l-lysine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 1.18 * +EC4.1.1.B12 l-lysine sophora flavescens//*//* 2.32 * +EC4.1.1.B12 l-ornithine echinosophora koreensis//*//* 0.73 * +EC4.1.1.B12 l-ornithine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.91 * +EC4.1.1.B12 l-ornithine sophora flavescens//*//* 1.16 * +EC4.1.1.B4 udp-n-acetylglucosaminuronic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.47 * +EC4.1.2.10 (r)-mandelonitrile eriobotrya japonica//*//* 56.0 * +EC4.1.2.10 (r)-mandelonitrile granulicella tundricola//prokaryotes;bacteria;acidobacteria;granulicella//acm 0.03 * +EC4.1.2.10 2-naphthaldehyde eriobotrya japonica//*//* 1160.0 * +EC4.1.2.10 benzaldehyde eriobotrya japonica//*//* 1700.0 * +EC4.1.2.10 isobutyraldehyde eriobotrya japonica//*//* 110.0 * +EC4.1.2.10 p-anisaldehyde eriobotrya japonica//*//* 582.0 * +EC4.1.2.10 piperonal eriobotrya japonica//*//* 334.0 * +EC4.1.2.10 pivaldehyde eriobotrya japonica//*//* 164.0 * +EC4.1.2.10 propionaldehyde eriobotrya japonica//*//* 223.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.95 * +EC4.1.2.13 d-fructose 1,6-bisphosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 5.1 * +EC4.1.2.13 d-fructose 1,6-bisphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 64.5 * +EC4.1.2.13 d-fructose 1,6-bisphosphate edwardsiella ictaluri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;edwardsiella//eic 13.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.2 * +EC4.1.2.13 d-fructose 1,6-bisphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 45.9 * +EC4.1.2.13 d-fructose 1,6-bisphosphate giardia intestinalis//*//* 3.55 * +EC4.1.2.13 d-fructose 1,6-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 59.7 * +EC4.1.2.13 d-fructose 1,6-bisphosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 8.2 * +EC4.1.2.13 d-fructose 1,6-bisphosphate lethenteron camtschaticum//*//* 49.3 * +EC4.1.2.13 d-fructose 1,6-bisphosphate magnaporthe grisea//*//* 46.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.055 * +EC4.1.2.13 d-fructose 1,6-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 30.1 * +EC4.1.2.13 d-fructose 1,6-bisphosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.1 * +EC4.1.2.13 d-fructose 1,6-bisphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 42.2 * +EC4.1.2.13 d-fructose 1,6-bisphosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.53 * +EC4.1.2.13 d-fructose 1,6-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 13.9 * +EC4.1.2.13 d-fructose 1,6-bisphosphate staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 20.3 * +EC4.1.2.13 d-fructose 1,6-bisphosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.027 * +EC4.1.2.13 d-fructose 1,6-bisphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 10.9 * +EC4.1.2.13 d-fructose 1,6-bisphosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 40.0 * +EC4.1.2.13 d-fructose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.08 * +EC4.1.2.13 d-fructose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.63 * +EC4.1.2.13 d-fructose-1,6-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 12.0 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 12.6 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.002 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.91 * +EC4.1.2.13 dihydroxyacetone phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.002 * +EC4.1.2.13 fructose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.8 * +EC4.1.2.13 fructose 1-phosphate lethenteron camtschaticum//*//* 3.65 * +EC4.1.2.13 fructose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.267 * +EC4.1.2.13 fructose 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.67 * +EC4.1.2.13 fructose 1-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.05 * +EC4.1.2.13 fructose 1-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.7 * +EC4.1.2.13 glycerone phosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 8.0 * +EC4.1.2.13 glycerone phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.91 * +EC4.1.2.13 sedoheptulose 1,7-bisphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.003 * +EC4.1.2.13 sedoheptulose 1,7-diphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 25.2 * +EC4.1.2.13 sedoheptulose 7-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 33.3 * +EC4.1.2.14 (4s)-2-oxo-4-hydroxy-4-(2'-pyridyl)butanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC4.1.2.14 2-dehydro-3-deoxy-6-phospho-d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 83.0 * +EC4.1.2.14 2-dehydro-3-deoxy-d-gluconate 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 284.0 * +EC4.1.2.14 2-dehydro-3-deoxy-d-gluconate 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3.9 * +EC4.1.2.14 2-dehydro-3-deoxy-d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC4.1.2.14 2-dehydro-4-hydroxy-4-(2'-pyridyl)butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC4.1.2.14 2-dehydro-4-hydroxyoctonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC4.1.2.14 2-keto-3-deoxy-6-phosphogluconate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 80.0 * +EC4.1.2.14 4-hydroxy-2-oxooctonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC4.1.2.14 6-phospho-2-dehydro-3-deoxy-d-gluconate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 533.0 * +EC4.1.2.14 d-2-dehydro-deoxygluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.08 * +EC4.1.2.14 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0121 * +EC4.1.2.17 dihydroxyacetone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.3 * +EC4.1.2.17 l-fuculose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC4.1.2.19 dihydroxyacetone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC4.1.2.19 l-rhamnulose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.3 * +EC4.1.2.20 2-dehydro-3-deoxy-6-phospho-d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.34 * +EC4.1.2.20 2-dehydro-3-deoxy-d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 26.7 * +EC4.1.2.20 2-dehydro-3-deoxy-l-rhamnonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC4.1.2.20 2-keto-3-deoxy-l-lyxonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC4.1.2.20 2-keto-3-deoxy-l-mannonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC4.1.2.20 4-hydroxy-2-ketoheptane-1,7-dioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 299.0 * +EC4.1.2.20 4-hydroxy-2-ketohexanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 447.0 * +EC4.1.2.20 4-hydroxy-2-ketopentanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 396.0 * +EC4.1.2.20 5-dehydro-4-deoxy-d-glucarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.3 * +EC4.1.2.21 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.94 * +EC4.1.2.22 d-fructose 6-phosphate bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 25.7 * +EC4.1.2.22 phosphate bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 25.7 * +EC4.1.2.23 l-arabinose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.3 * +EC4.1.2.23 n-acetyl-d-mannosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC4.1.2.25 7,8-dihydro-l-monapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.089 * +EC4.1.2.25 7,8-dihydro-l-monapterin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.01 * +EC4.1.2.25 7,8-dihydromonapterin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.006 * +EC4.1.2.25 7,8-dihydroneopterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.082 * +EC4.1.2.25 7,8-dihydroneopterin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0054 * +EC4.1.2.25 7,8-dihydroneopterin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.045 * +EC4.1.2.26 l-allo-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1300.0 * +EC4.1.2.26 l-erythro-3-phenylserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7900.0 * +EC4.1.2.26 l-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 580.0 * +EC4.1.2.26 l-threo-3-phenylserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2300.0 * +EC4.1.2.26 l-threo-phenylserine caulobacter vibrioides//*//* 67.4 * +EC4.1.2.34 (e)-2'-carboxybenzylidenepyruvate nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 13.0 * +EC4.1.2.38 2-hydroxypropiophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.4 * +EC4.1.2.38 3,5-dimethoxy-benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 46.15 * +EC4.1.2.38 benzoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 66.9 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 521.0 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 320.0 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 18.0 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 116.0 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 11.4 * +EC4.1.2.4 2-deoxy-d-ribose rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 1.23 * +EC4.1.2.4 d-2-deoxyribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.107 * +EC4.1.2.40 d-fructose 1,6-diphosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 6.35 * +EC4.1.2.40 d-tagatose 1,6-diphosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 24.3 * +EC4.1.2.43 formaldehyde pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 159.0 * +EC4.1.2.44 2,3-dihydro-2,3-dihydroxybenzoyl-coa azoarcus evansii//*//* 20.0 * +EC4.1.2.47 (s)-mandelonitrile hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 1.83 * +EC4.1.2.47 (s)-mandelonitrile manihot esculenta//*//* 34.5 * +EC4.1.2.47 2,4-dimethylbenzaldehyde baliospermum montanum//*//* 18.5 * +EC4.1.2.47 2-methylbenzaldehyde baliospermum montanum//*//* 53.6 * +EC4.1.2.47 3-methoxybenzaldehyde baliospermum montanum//*//* 28.1 * +EC4.1.2.47 3-methylbenzaldehyde baliospermum montanum//*//* 49.2 * +EC4.1.2.47 benzaldehyde baliospermum montanum//*//* 26.6 * +EC4.1.2.47 benzaldehyde manihot esculenta//*//* 96.6 * +EC4.1.2.47 piperonal baliospermum montanum//*//* 91.4 * +EC4.1.2.48 l-4-hydroxythreonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.44 * +EC4.1.2.48 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.55 * +EC4.1.2.48 l-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 41.0 * +EC4.1.2.48 l-phenylserine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.000107 * +EC4.1.2.48 l-thr streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0195 * +EC4.1.2.48 l-threo-3,4-dihydroxyphenylserine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00022 * +EC4.1.2.48 l-threonine caulobacter vibrioides//*//* 3.3 * +EC4.1.2.48 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.87 * +EC4.1.2.48 l-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 43.0 * +EC4.1.2.51 2-dehydro-3-deoxy-d-gluconate 6-phosphate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.36 * +EC4.1.2.51 2-dehydro-3-deoxy-d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 26.7 * +EC4.1.2.52 (s)-4-hydroxy-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 353.5 * +EC4.1.2.52 2-oxo-3-methyl-4-hydroxypentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC4.1.2.52 3-deoxy-d-manno-oct-2-ulosonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC4.1.2.52 4-hydroxy-2-oxoheptane-1,7-dioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 361.5 * +EC4.1.2.52 4-hydroxy-2-oxohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 229.0 * +EC4.1.2.52 4-hydroxy-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 353.0 * +EC4.1.2.52 4-hydroxy-2-oxopentanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 350.0 * +EC4.1.2.52 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 205.4 * +EC4.1.2.52 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 132.5 * +EC4.1.2.52 dl-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC4.1.2.52 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 175.5 * +EC4.1.2.52 isobutyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 64.9 * +EC4.1.2.52 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 358.4 * +EC4.1.2.52 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 219.5 * +EC4.1.2.52 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 203.8 * +EC4.1.2.53 2-dehydro-3-deoxy-l-lyxonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC4.1.2.53 2-dehydro-3-deoxy-l-rhamnonate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 54.7 * +EC4.1.2.53 2-dehydro-3-deoxy-l-rhamnonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC4.1.2.53 2-dehydro-3-deoxy-l-rhamnonate scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 49.3 * +EC4.1.2.53 4-hydroxy-2-oxoheptane-1,7-dioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 299.0 * +EC4.1.2.53 4-hydroxy-2-oxohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 447.0 * +EC4.1.2.53 4-hydroxy-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 396.0 * +EC4.1.2.55 2-dehydro-3-deoxy-d-galactonate 6-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 34.8 * +EC4.1.2.55 2-dehydro-3-deoxy-d-galactonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.8 * +EC4.1.2.55 2-dehydro-3-deoxy-d-gluconate 6-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 61.9 * +EC4.1.2.55 2-dehydro-3-deoxy-d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 28.2 * +EC4.1.2.55 2-dehydro-3-deoxy-d-xylonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 15.0 * +EC4.1.2.55 2-dehydro-3-deoxy-l-arabinonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.3 * +EC4.1.2.55 d-glyceraldehyde acetonide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.4 * +EC4.1.2.55 d-glyceraldehyde sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 4.4 * +EC4.1.2.55 d-glyceraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.9 * +EC4.1.2.55 l-glyceraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.9 * +EC4.1.2.55 pyruvate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 5.5 * +EC4.1.2.55 pyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.6 * +EC4.1.2.56 glycerone phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.2 * +EC4.1.2.56 l-aspartate 4-semialdehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.2 * +EC4.1.2.8 (1s,2r)-1-c-(indol-3-yl)glycerol 3-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.55 * +EC4.1.2.8 (1s,2r)-1-c-(indol-3-yl)glycerol 3-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.006 * +EC4.1.2.8 indole-3-glycerol phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 2.3 * +EC4.1.3.1 (2r,3s:2s,3r)-2-methyl-isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.25 * +EC4.1.3.1 dl-isocitrate colwellia maris//*//* 18.1 * +EC4.1.3.1 dl-isocitrate fomitopsis palustris//*//* 32.0 * +EC4.1.3.1 glyoxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.6 * +EC4.1.3.1 isocitrate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 8.43 * +EC4.1.3.1 isocitrate colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 28.5 * +EC4.1.3.1 isocitrate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 24.0 * +EC4.1.3.1 isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 12.2 * +EC4.1.3.1 isocitrate pinus pinea//*//* 44.5 * +EC4.1.3.1 isocitrate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 9.81 * +EC4.1.3.1 isocitrate turbatrix aceti//*//* 800.0 * +EC4.1.3.1 isocitrate vogesella indigofera//*//* 122.0 * +EC4.1.3.1 succinate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.5 * +EC4.1.3.1 threo-ds-isocitrate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 24.0 * +EC4.1.3.16 4-hydroxy-2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.1 * +EC4.1.3.16 dl-2-keto-4-hydroxyglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.5 * +EC4.1.3.17 2-hydroxy-4-oxopentanedioic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.25 * +EC4.1.3.17 4-hydroxy-2-oxopentanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.19 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.3 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0276 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.356 * +EC4.1.3.17 oxaloacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.85 * +EC4.1.3.24 (3s)-3-carboxy-3-hydroxypropanoyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 8.8 * +EC4.1.3.24 (3s)-malyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.5 * +EC4.1.3.24 acetyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 8.6 * +EC4.1.3.24 beta-methylmalyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.8 * +EC4.1.3.24 propionyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 12.0 * +EC4.1.3.27 chorismate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.25 * +EC4.1.3.27 chorismate bacillus caldotenax//*//* 383.0 * +EC4.1.3.27 chorismate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.58 * +EC4.1.3.27 chorismate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 5.6 * +EC4.1.3.27 l-gln archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.25 * +EC4.1.3.27 l-glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 138.0 * +EC4.1.3.3 (2r,3r,4r)-6-[(aminooxy)carbonyl]-3,4,6-trihydroxy-n-propyltetrahydro-2h-pyran-2-carboxamide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.23 * +EC4.1.3.3 (2s,4s,5r,6r)-5-(acetylamino)-6-[(dipropylamino)carbonyl]-2,4-dihydroxytetrahydro-pyran-2-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.22 * +EC4.1.3.3 (5r,6r)-7-(dipropylamino)-4,5,6-trihydroxy-2,7-dioxoheptanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.22 * +EC4.1.3.3 d-3-deoxy-manno-2-octulosonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC4.1.3.3 n-acetyl-d-mannosamine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC4.1.3.3 n-acetyl-d-mannosamine pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 11.0 * +EC4.1.3.3 n-acetyl-d-mannosamine staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 4.5 * +EC4.1.3.3 n-acetyl-d-neuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.5 * +EC4.1.3.3 n-acetyl-l-neuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0002 * +EC4.1.3.3 n-acetylneuraminate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC4.1.3.3 n-acetylneuraminate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.75 * +EC4.1.3.3 n-acetylneuraminate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.17 * +EC4.1.3.3 n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 16.0 * +EC4.1.3.3 n-acetylneuraminate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.04 * +EC4.1.3.3 n-acetylneuraminate staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 4.0 * +EC4.1.3.3 n-acetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 16.7 * +EC4.1.3.3 n-acetylneuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC4.1.3.3 pyruvate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC4.1.3.3 pyruvate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 1.9 * +EC4.1.3.3 pyruvate staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 2.9 * +EC4.1.3.3 sialic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.33 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 100.0 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 105.0 * +EC4.1.3.30 mg2+ salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 38.0 * +EC4.1.3.32 (2r)-ethyl-(3s)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 63.0 * +EC4.1.3.32 (2r)-ethylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.4 * +EC4.1.3.32 (2r)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.64 * +EC4.1.3.32 (2r)-propyl-(3s)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.79 * +EC4.1.3.32 (2r,3s)-2-methylisocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.13 * +EC4.1.3.32 (2r,3s)-dimethylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 19.2 * +EC4.1.3.32 (2r,3s)-isocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 (2r,3s)-methylisocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.13 * +EC4.1.3.32 (2s)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 (2s,3r)-2-methylisocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.13 * +EC4.1.3.32 (3s)-isopropylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 (r)-malate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 (s)-malate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 3,3-difluoroxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 3-butylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 carboxyphosphoenolpyruvate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.32 oxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.505 * +EC4.1.3.32 phosphonopyruvate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1e-05 * +EC4.1.3.34 citryl-coa hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 570.0 * +EC4.1.3.36 2-(3-carboxypropyl)-benzoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00025 * +EC4.1.3.36 2-succinylbenzoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.462 * +EC4.1.3.36 o-succinylbenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC4.1.3.36 o-succinylbenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.062 * +EC4.1.3.39 (4s)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 4.07 * +EC4.1.3.39 (r,s)-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC4.1.3.39 (s)-4-hydroxy-2-oxohexanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.38 * +EC4.1.3.39 (s)-4-hydroxy-2-oxopentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.41 * +EC4.1.3.39 (s)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 4.07 * +EC4.1.3.39 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 205.4 * +EC4.1.3.39 acetaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.86 * +EC4.1.3.39 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.86 * +EC4.1.3.39 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 132.5 * +EC4.1.3.39 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 175.5 * +EC4.1.3.39 glycolaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.4 * +EC4.1.3.39 glycolaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.4 * +EC4.1.3.39 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 358.4 * +EC4.1.3.39 propionaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.79 * +EC4.1.3.39 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.79 * +EC4.1.3.39 pyruvate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.2 * +EC4.1.3.39 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 64.9 * +EC4.1.3.4 (s)-3-hydroxy-3-methylglutaryl-coa anas sp.//*//* 158.0 * +EC4.1.3.4 (s)-3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.127 * +EC4.1.3.40 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC4.1.3.40 chorismate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.215 * +EC4.1.3.43 (4r)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.17 * +EC4.1.3.43 (4s)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 4.07 * +EC4.1.3.43 4-hydroxy-2-oxoheptanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.63 * +EC4.1.3.43 4-hydroxy-2-oxohexanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 3.9 * +EC4.1.3.43 4-hydroxy-2-oxohexanoate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.9 * +EC4.1.3.43 4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 4.1 * +EC4.1.3.43 4-hydroxy-2-oxopentanoate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.1 * +EC4.1.3.43 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.94 * +EC4.1.3.43 butyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.64 * +EC4.1.3.43 glycolaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.4 * +EC4.1.3.43 oxaloacetate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 16.5 * +EC4.1.3.43 pentaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.58 * +EC4.1.3.43 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.79 * +EC4.1.3.43 pyruvate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.2 * +EC4.1.3.45 3-hydroxybenzoate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.11 * +EC4.1.3.45 chorismate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 22.4 * +EC4.1.3.46 (3r)-citramalyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 1.7 * +EC4.1.3.B3 4-carboxy-4-hydroxy-2-oxoadipate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 14.4 * +EC4.1.99.1 beta-(benzimidazol-1-yl)-l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC4.1.99.1 beta-chloro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.4 * +EC4.1.99.1 beta-chloro-l-ala photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 3.0 * +EC4.1.99.1 l-trp porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1.37 * +EC4.1.99.1 l-trp symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 42.0 * +EC4.1.99.1 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.8 * +EC4.1.99.1 l-tryptophan photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 2.5 * +EC4.1.99.1 l-tryptophan prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 0.45 * +EC4.1.99.1 s-(2-nitrophenyl)-l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 44.0 * +EC4.1.99.1 s-(2-nitrophenyl)-l-cysteine photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 13.9 * +EC4.1.99.1 s-benzyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.2 * +EC4.1.99.1 s-benzyl-l-cys photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 1.1 * +EC4.1.99.1 s-ethyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.0 * +EC4.1.99.1 s-ethyl-l-cys photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.4 * +EC4.1.99.1 s-ethyl-l-cysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1.87 * +EC4.1.99.1 s-ethyl-l-cysteine prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 1.79 * +EC4.1.99.1 s-methyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC4.1.99.1 s-methyl-l-cys photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.2 * +EC4.1.99.1 s-methyl-l-cysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.5 * +EC4.1.99.1 s-methyl-l-cysteine prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 0.2 * +EC4.1.99.11 toluene thauera aromatica//*//* 0.35 * +EC4.1.99.16 (2e,6e)-farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.0031 * +EC4.1.99.2 3,4-dihydroxyphenyl-l-alanine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.31 * +EC4.1.99.2 3-chloro-l-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.0 * +EC4.1.99.2 3-chloro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC4.1.99.2 3-fluoro-l-tyr citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.4 * +EC4.1.99.2 ala citrobacter intermedius//*//* 0.00153 * +EC4.1.99.2 d-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.01 * +EC4.1.99.2 l-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.03 * +EC4.1.99.2 l-m-tyr citrobacter intermedius//*//* 0.00268 * +EC4.1.99.2 l-met citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.015 * +EC4.1.99.2 l-phe citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.08 * +EC4.1.99.2 l-ser citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.17 * +EC4.1.99.2 l-tyr citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.5 * +EC4.1.99.2 l-tyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC4.1.99.2 l-tyrosine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.8 * +EC4.1.99.2 o-benzoyl-l-ser citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 8.3 * +EC4.1.99.2 o-benzyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.9 * +EC4.1.99.2 phe citrobacter intermedius//*//* 0.0008 * +EC4.1.99.2 s-(o-nitrophenyl)-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 9.7 * +EC4.1.99.2 s-benzyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.52 * +EC4.1.99.2 s-ethyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.88 * +EC4.1.99.2 s-methyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.9 * +EC4.1.99.2 ser citrobacter intermedius//*//* 0.012 * +EC4.1.99.2 tyr citrobacter intermedius//*//* 0.2 * +EC4.1.99.20 2-amino-4,5-dihydroxy-6-oxo-7-(phosphonooxy)heptanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.025 * +EC4.1.99.22 gtp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0007 * +EC4.1.99.22 s-adenosyl-l-methionine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00075 * +EC4.1.99.3 cyclobutadipyrimidine in dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2167 * +EC4.1.99.3 cyclobutadipyrimidine in dna vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.23 * +EC4.1.99.3 pyrimidine dimer in dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC4.1.99.5 n-heptanal synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.0073 * +EC4.1.99.5 octadecanal nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0018 * +EC4.1.99.5 trans-3-nonyloxirane-2-carbaldehyde nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.00027 * +EC4.1.99.5 trans-3-pentadecanyloxirane-2-carbaldehyde nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.00048 * +EC4.2.1.1 co2 acipenser gueldenstaedtii//*//* 1200000.0 * +EC4.2.1.1 co2 anguilla anguilla//*//* 25000.0 * +EC4.2.1.1 co2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.32 * +EC4.2.1.1 co2 astrosclera willeyana//*//* 900000.0 * +EC4.2.1.1 co2 brucella suis//prokaryotes;bacteria;alphaproteobacteria;brucella//bms 640000.0 * +EC4.2.1.1 co2 caenorhabditis elegans//eukaryotes;animals;nematodes//cel 685000.0 * +EC4.2.1.1 co2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2010000.0 * +EC4.2.1.1 co2 chionodraco hamatus//*//* 66700.0 * +EC4.2.1.1 co2 clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 15000.0 * +EC4.2.1.1 co2 columba livia//eukaryotes;animals;vertebrates;birds//clv 1300000.0 * +EC4.2.1.1 co2 cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 680000.0 * +EC4.2.1.1 co2 cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 26000.0 * +EC4.2.1.1 co2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 950000.0 * +EC4.2.1.1 co2 felis catus//eukaryotes;animals;vertebrates;mammals//fca 10000.0 * +EC4.2.1.1 co2 flaveria bidentis//*//* 120000.0 * +EC4.2.1.1 co2 halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 89000.0 * +EC4.2.1.1 co2 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 240000.0 * +EC4.2.1.1 co2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4200000.0 * +EC4.2.1.1 co2 leishmania chagasi//*//* 935000.0 * +EC4.2.1.1 co2 malassezia globosa//eukaryotes;fungi;basidiomycetes//mgl 860000.0 * +EC4.2.1.1 co2 mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 813600.0 * +EC4.2.1.1 co2 methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 71900.0 * +EC4.2.1.1 co2 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 24000.0 * +EC4.2.1.1 co2 micropterus salmoides//*//* 49000.0 * +EC4.2.1.1 co2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 940000.0 * +EC4.2.1.1 co2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 430000.0 * +EC4.2.1.1 co2 neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 18300.0 * +EC4.2.1.1 co2 nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 20000.0 * +EC4.2.1.1 co2 oncorhynchus mykiss//*//* 302800.0 * +EC4.2.1.1 co2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 9000.0 * +EC4.2.1.1 co2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 110000.0 * +EC4.2.1.1 co2 pisum sativum//*//* 0.74 * +EC4.2.1.1 co2 populus tremula//*//* 3000.0 * +EC4.2.1.1 co2 porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 410000.0 * +EC4.2.1.1 co2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 58300.0 * +EC4.2.1.1 co2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 940000.0 * +EC4.2.1.1 co2 sander vitreus//*//* 22000.0 * +EC4.2.1.1 co2 sordaria macrospora//eukaryotes;fungi;ascomycetes;sordariomycetes//smp 13000.0 * +EC4.2.1.1 co2 struthio camelus//*//* 1200000.0 * +EC4.2.1.1 co2 stylophora pistillata//*//* 920000.0 * +EC4.2.1.1 co2 sulfurihydrogenibium azorense//prokaryotes;bacteria;aquificae;sulfurihydrogenibium//saf 4400000.0 * +EC4.2.1.1 co2 thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 200.0 * +EC4.2.1.1 co2 thalassiosira weissflogii//*//* 130000.0 * +EC4.2.1.1 co2 trematomus bernacchii//*//* 55000.0 * +EC4.2.1.1 co2 trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1210000.0 * +EC4.2.1.1 co2 vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 823000.0 * +EC4.2.1.1 cos bos taurus//eukaryotes;animals;vertebrates;mammals//bta 41.0 * +EC4.2.1.1 cs2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC4.2.1.1 h2co3 dunaliella salina//*//* 45000.0 * +EC4.2.1.1 h2co3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29500.0 * +EC4.2.1.1 h2co3 mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 121500.0 * +EC4.2.1.1 hco3- halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 46000.0 * +EC4.2.1.1 hco3- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 190000.0 * +EC4.2.1.1 histamine candida glabrata//eukaryotes;fungi;ascomycetes;saccharomycetes//cgr 1070000.0 * +EC4.2.1.10 (2r)-2-(4-methoxybenzyl)-3-dehydroquinic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1542 * +EC4.2.1.10 3-dehydroquinate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 125.0 * +EC4.2.1.10 3-dehydroquinate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.0 * +EC4.2.1.10 3-dehydroquinate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.3 * +EC4.2.1.10 3-dehydroquinate salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 20.0 * +EC4.2.1.10 3-dehydroquinate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 310.0 * +EC4.2.1.10 3-dehydroquinate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 124.0 * +EC4.2.1.100 cyclohexa-1,5-diene-1-carbonyl-coa geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 280.0 * +EC4.2.1.100 cyclohexa-1,5-diene-1-carbonyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 175.0 * +EC4.2.1.100 cyclohexa-1,5-diene-1-carbonyl-coa thauera aromatica//*//* 51.0 * +EC4.2.1.101 4-coumaroyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.3 * +EC4.2.1.101 feruloyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.72 * +EC4.2.1.103 2-naphthyl isocyanide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.216 * +EC4.2.1.105 2,5,7,4'-tetrahydroxyisoflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 18.1 * +EC4.2.1.105 2,5,7,4'-tetrahydroxyisoflavanone glycyrrhiza echinata//*//* 0.19 * +EC4.2.1.105 2,7,4'-trihydroxyisoflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 5.3 * +EC4.2.1.105 2,7,4'-trihydroxyisoflavanone glycyrrhiza echinata//*//* 0.12 * +EC4.2.1.105 2,7-dihydroxy-4'-methoxyisoflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.6 * +EC4.2.1.105 2,7-dihydroxy-4'-methoxyisoflavanone glycyrrhiza echinata//*//* 9.8 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oate clostridium hiranonis//*//* 4.4 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oate clostridium hylemonae//*//* 18.6 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oate clostridium scindens//*//* 24.0 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oyl-coa clostridium hiranonis//*//* 22.2 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oyl-coa clostridium hylemonae//*//* 12.6 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oyl-coa clostridium scindens//*//* 98.0 * +EC4.2.1.109 s-methyl-5-thio-d-ribulose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 16.5 * +EC4.2.1.11 2-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 81.68 * +EC4.2.1.11 2-phospho-d-glycerate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 52.7 * +EC4.2.1.11 2-phospho-d-glycerate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 22.2 * +EC4.2.1.11 2-phospho-d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 71.4 * +EC4.2.1.11 2-phospho-d-glycerate theileria annulata//eukaryotes;protists;alveolates;apicomplexans//tan 37.0 * +EC4.2.1.11 2-phosphoglycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 230.0 * +EC4.2.1.11 phosphoenolpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.07 * +EC4.2.1.11 phosphoenolpyruvate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 15.47 * +EC4.2.1.113 (1r,6r)-2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate amycolatopsis sp.//prokaryotes;bacteria;actinobacteria;amycolatopsis//amyc 120.0 * +EC4.2.1.113 (1r,6r)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.0 * +EC4.2.1.113 (1r,6r)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate exiguobacterium sp.//prokaryotes;bacteria;firmicutes - bacilli;exiguobacterium//eat 51.0 * +EC4.2.1.113 (1r,6r)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 122.0 * +EC4.2.1.114 (1e)-hex-1-ene-1,2,6-tricarboxylic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.5 * +EC4.2.1.114 (1e)-pent-1-ene-1,2,5-tricarboxylic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.66 * +EC4.2.1.114 (r)-homocitrate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.37 * +EC4.2.1.114 but-1-ene-1,2,4-tricarboxylic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.75 * +EC4.2.1.114 cis-homo2aconitate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.66 * +EC4.2.1.114 cis-homo3aconitate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.5 * +EC4.2.1.114 cis-homo4aconitate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 5.6 * +EC4.2.1.114 cis-homoaconitate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.75 * +EC4.2.1.114 maleate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 6.0 * +EC4.2.1.115 udp-n-acetylglucosamine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.095 * +EC4.2.1.116 3-hydroxypropionyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 96.0 * +EC4.2.1.118 (-)-3-dehydroshikimate bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 3.8 * +EC4.2.1.119 (2e)-2-decenoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 388.0 * +EC4.2.1.119 (2e)-2-decenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 196.0 * +EC4.2.1.119 (2e)-butenoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.38 * +EC4.2.1.119 (2e)-decenoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1100.0 * +EC4.2.1.119 (2e)-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.0 * +EC4.2.1.119 (2e)-hexenoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 210.0 * +EC4.2.1.119 (2e)-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.8 * +EC4.2.1.119 crotonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC4.2.1.120 4-hydroxybutanoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 2.1 * +EC4.2.1.121 (9s,10e,12z)-9-hydroperoxy-10,12-octadecadienoate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 890.0 * +EC4.2.1.121 (9s,10e,12z,15z)-9-hydroperoxy-10,12,15-octadecatrienoate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 500.0 * +EC4.2.1.122 indole thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.46 * +EC4.2.1.122 indole thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.46 * +EC4.2.1.122 l-serine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.44 * +EC4.2.1.126 n-acetylmuramate 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.7 * +EC4.2.1.130 2-oxoethanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC4.2.1.130 2-oxopropanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.43 * +EC4.2.1.130 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.61 * +EC4.2.1.130 methylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.25 * +EC4.2.1.130 methylglyoxal schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.43 * +EC4.2.1.130 phenylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0272 * +EC4.2.1.135 udp-n-acetyl-alpha-d-glucosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.118 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.34 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.38 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.26 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide zea mays//eukaryotes;plants;monocots;grass family//zma 0.3 * +EC4.2.1.140 d-galactonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.08 * +EC4.2.1.140 d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.4 * +EC4.2.1.143 versiconal hemiacetal aspergillus parasiticus//*//* 2.5 * +EC4.2.1.143 versiconal aspergillus parasiticus//*//* 2.1 * +EC4.2.1.148 (2r,3s)-2-methylmalyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 1700.0 * +EC4.2.1.148 (2r,3s)-2-methylmalyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1900.0 * +EC4.2.1.150 crotonyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 19.0 * +EC4.2.1.151 chorismate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.27 * +EC4.2.1.154 tetracenomycin f2 streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.142 * +EC4.2.1.156 l-talarate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.1 * +EC4.2.1.158 galactarate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 6.8 * +EC4.2.1.164 dtdp-4-dehydro-2,6-dideoxy-alpha-d-glucose saccharopolyspora spinosa//*//* 0.043 * +EC4.2.1.17 (s)-3-hydroxybutyryl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 15.0 * +EC4.2.1.17 (z)-2-butenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 152.0 * +EC4.2.1.17 crotonoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 19.0 * +EC4.2.1.17 crotonyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5667.0 * +EC4.2.1.17 crotonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2238.0 * +EC4.2.1.17 trans-2-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 203.0 * +EC4.2.1.17 trans-2-hexenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 180.0 * +EC4.2.1.17 trans-2-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 745.0 * +EC4.2.1.171 cis-3-hydroxy-l-proline labrenzia aggregata//prokaryotes;bacteria;alphaproteobacteria;labrenzia//lagg 23.0 * +EC4.2.1.18 (e)-3-methylglutaconyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC4.2.1.18 (e)-glutaconyl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 18.0 * +EC4.2.1.18 (e)-glutaconyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC4.2.1.18 (r,s)-3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC4.2.1.18 (s)-3-hydroxy-3-methylglutaryl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 60.0 * +EC4.2.1.18 (s)-3-hydroxyglutaryl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 13.0 * +EC4.2.1.18 3-hydroxybutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC4.2.1.18 3-methylcrotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC4.2.1.18 3-methylglutaconyl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 138.0 * +EC4.2.1.18 crotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC4.2.1.18 trans-3-methylglutaconyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.1 * +EC4.2.1.19 d-erythro-1-(imidazol-4-yl)glycerol 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1000.0 * +EC4.2.1.2 (s)-malate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 460.0 * +EC4.2.1.2 (s)-malate pelotomaculum thermopropionicum//prokaryotes;bacteria;firmicutes - clostridia;pelotomaculum//pth 25.2 * +EC4.2.1.2 fumarate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 690.0 * +EC4.2.1.2 fumarate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 730.0 * +EC4.2.1.2 fumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1150.0 * +EC4.2.1.2 fumarate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 204.2 * +EC4.2.1.2 fumarate pelotomaculum thermopropionicum//prokaryotes;bacteria;firmicutes - clostridia;pelotomaculum//pth 219.0 * +EC4.2.1.2 l-malate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 620.0 * +EC4.2.1.2 malate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 540.0 * +EC4.2.1.2 malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.2 * +EC4.2.1.2 s-malate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 151.4 * +EC4.2.1.20 1-(indol-3-yl)glycerol 3-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.7 * +EC4.2.1.20 1-(indol-3-yl)glycerol 3-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.6 * +EC4.2.1.20 indole arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.007 * +EC4.2.1.20 indole mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 70.29 * +EC4.2.1.20 indole salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 10.1 * +EC4.2.1.20 indole thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.46 * +EC4.2.1.20 indole thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 10.0 * +EC4.2.1.20 indole zea mays//eukaryotes;plants;monocots;grass family//zma 0.0102 * +EC4.2.1.20 l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.4 * +EC4.2.1.20 l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0155 * +EC4.2.1.20 l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 48.21 * +EC4.2.1.20 l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 14.0 * +EC4.2.1.20 l-serine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.46 * +EC4.2.1.20 l-serine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 8.0 * +EC4.2.1.20 l-serine zea mays//eukaryotes;plants;monocots;grass family//zma 0.0223 * +EC4.2.1.20 serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.06 * +EC4.2.1.22 homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.0 * +EC4.2.1.22 homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.38 * +EC4.2.1.22 l-cystathionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.08 * +EC4.2.1.22 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.39 * +EC4.2.1.22 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.7 * +EC4.2.1.22 l-homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.5 * +EC4.2.1.22 l-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.97 * +EC4.2.1.22 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 39.0 * +EC4.2.1.22 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.5 * +EC4.2.1.24 5-aminolevulinic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 16.1 * +EC4.2.1.28 1,2-butanediol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 7.8 * +EC4.2.1.28 1,2-butanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 7.2 * +EC4.2.1.28 1,2-ethanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 286.0 * +EC4.2.1.28 1,2-propanediol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 366.0 * +EC4.2.1.28 1,2-propanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 337.0 * +EC4.2.1.28 2,3-butanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 15.1 * +EC4.2.1.28 cn-cobalamin klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 336.0 * +EC4.2.1.28 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 371.0 * +EC4.2.1.28 meso-2,3-butanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 4.0 * +EC4.2.1.28 propane-1,2-diol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 354.0 * +EC4.2.1.3 cis-aconitate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.3 * +EC4.2.1.3 cis-aconitate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.2 * +EC4.2.1.3 citrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.3 * +EC4.2.1.3 isocitrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.1 * +EC4.2.1.30 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 860.0 * +EC4.2.1.30 pentane-1,2-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 200.0 * +EC4.2.1.30 propane-1,2-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 392.0 * +EC4.2.1.36 (z)-but-1-ene-1,2,4-tricarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.75 * +EC4.2.1.36 (z)-hex-1-ene-1,2,6-tricarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.5 * +EC4.2.1.36 (z)-pent-1-ene-1,2,5-tricarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.66 * +EC4.2.1.39 d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 760.0 * +EC4.2.1.40 4-deoxy-4-fluoro-d-glucarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 44.0 * +EC4.2.1.40 d-glucarate acinetobacter baylyi//*//* 6.39 * +EC4.2.1.40 d-glucarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC4.2.1.40 d-glucarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 17.0 * +EC4.2.1.40 l-idarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC4.2.1.40 l-idarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 21.0 * +EC4.2.1.41 5-dehydro-4-deoxy-d-glucarate acinetobacter baylyi//*//* 3.9 * +EC4.2.1.42 galactarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.0 * +EC4.2.1.42 galactarate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 6.8 * +EC4.2.1.42 galactarate salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 3.6 * +EC4.2.1.42 galactarate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.6 * +EC4.2.1.42 meso-galactarate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.12 * +EC4.2.1.45 cdp-d-glucose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 3.69 * +EC4.2.1.46 dtdp-6-fluoro-6-deoxyglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.044 * +EC4.2.1.46 dtdp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC4.2.1.46 udp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC4.2.1.47 gdp-alpha-d-mannose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.0 * +EC4.2.1.47 gdp-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC4.2.1.47 gdp-mannose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC4.2.1.47 gdp-mannose mortierella alpina//*//* 5.96 * +EC4.2.1.47 gdp-mannose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.82 * +EC4.2.1.5 d-arabinonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.8 * +EC4.2.1.51 prephenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1932.0 * +EC4.2.1.51 prephenate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 12.3 * +EC4.2.1.53 alpha-linolenic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.13 * +EC4.2.1.53 gamma-linolenate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 2.17 * +EC4.2.1.53 gamma-linolenic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 2.67 * +EC4.2.1.53 linoleate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 1.33 * +EC4.2.1.53 linoleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.13 * +EC4.2.1.53 myristoleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.03 * +EC4.2.1.53 oleate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 14.17 * +EC4.2.1.53 oleate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 11.83 * +EC4.2.1.53 oleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 7.83 * +EC4.2.1.53 palmitoleate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 7.17 * +EC4.2.1.53 palmitoleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 3.83 * +EC4.2.1.68 d-arabinonate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.4 * +EC4.2.1.68 l-fuconate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 15.0 * +EC4.2.1.68 l-galactonate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.9 * +EC4.2.1.70 trnaile saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00833 * +EC4.2.1.70 trnaval saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00833 * +EC4.2.1.75 hydroxymethylbilane bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.6 * +EC4.2.1.75 hydroxymethylbilane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 500.0 * +EC4.2.1.75 hydroxymethylbilane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 890.0 * +EC4.2.1.78 (3,4-dihydroxyphenyl)acetaldehyde thalictrum flavum//*//* 7.0 * +EC4.2.1.78 3-(2-aminoethyl)phenol thalictrum flavum//*//* 6.0 * +EC4.2.1.78 4-(2-aminoethyl)benzene-1,2-diol thalictrum flavum//*//* 7.0 * +EC4.2.1.78 4-hydroxyphenylacetaldehyde thalictrum flavum//*//* 6.4 * +EC4.2.1.78 5-(2-aminoethyl)-2-methoxyphenol thalictrum flavum//*//* 6.0 * +EC4.2.1.8 d-mannonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.81 * +EC4.2.1.8 d-mannonate streptococcus suis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssb 5.88 * +EC4.2.1.80 2-hydroxyhexa-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 60.5 * +EC4.2.1.80 2-hydroxypent-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 361.0 * +EC4.2.1.80 5-chloro-2-hydroxypent-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 7.7 * +EC4.2.1.81 (s,s)-tartrate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 7.3 * +EC4.2.1.81 d-tartrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 19.8 * +EC4.2.1.83 4-oxalomesaconate pseudomonas straminea//*//* 75.4 * +EC4.2.1.84 2-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 443.3 * +EC4.2.1.84 3-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 629.6 * +EC4.2.1.84 3-cyanopyridine pseudonocardia thermophila//*//* 131.0 * +EC4.2.1.84 3-cyanopyridine streptomyces rimosus//*//* 79.0 * +EC4.2.1.84 4-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 59.05 * +EC4.2.1.84 4-cyanopyridine pseudonocardia thermophila//*//* 90.0 * +EC4.2.1.84 acetonitrile bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 12.4 * +EC4.2.1.84 acetonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 41.0 * +EC4.2.1.84 acrylonitrile pseudonocardia thermophila//*//* 1910.0 * +EC4.2.1.84 acrylonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.0 * +EC4.2.1.84 benzonitrile pseudonocardia thermophila//*//* 123.0 * +EC4.2.1.84 butyronitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.99 * +EC4.2.1.84 methacrylonitrile pseudonocardia thermophila//*//* 1000.0 * +EC4.2.1.84 methacrylonitrile rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 1.6e-05 * +EC4.2.1.84 methacrylonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 55000.0 * +EC4.2.1.84 n-valeronitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.327 * +EC4.2.1.84 propionitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 30.7 * +EC4.2.1.84 propionitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.6 * +EC4.2.1.84 toyocamycin streptomyces rimosus//*//* 159.0 * +EC4.2.1.84 valeronitrile bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 76.3 * +EC4.2.1.9 2,3-dihydroxy-3-methylbutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 11.5 * +EC4.2.1.9 2,3-dihydroxy-3-methylbutanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.31 * +EC4.2.1.9 2,3-dihydroxybutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 4.6 * +EC4.2.1.9 2,3-dihydroxyisovalerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 25.0 * +EC4.2.1.9 2,3-dihydroxyisovalerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 75.8 * +EC4.2.1.9 2r,3r-2,3-dihydroxy-3-methylpentanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 8.3 * +EC4.2.1.9 2r,3s-2,3-dihydroxy-3-methylpentanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 12.3 * +EC4.2.1.9 3-cyclopropyl-2,3-dihydroxybutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 5.7 * +EC4.2.1.9 d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 48.5 * +EC4.2.1.9 d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC4.2.1.90 d-gulonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC4.2.1.90 l-lyxonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC4.2.1.90 l-lyxonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.05 * +EC4.2.1.90 l-mannonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.2.1.90 l-mannonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC4.2.1.90 l-rhamnonate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.72 * +EC4.2.1.90 l-rhamnonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC4.2.1.90 l-rhamnonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.9 * +EC4.2.1.90 l-rhamnonate scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 49.3 * +EC4.2.1.91 l-arogenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.1 * +EC4.2.1.91 l-arogenate petunia x hybrida//*//* 1.231 * +EC4.2.1.91 prephenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.16 * +EC4.2.1.91 prephenate petunia x hybrida//*//* 0.06 * +EC4.2.1.92 (13s)-hydroperoxyoctadecadienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 494.5 * +EC4.2.1.92 (13s)-hydroperoxyoctadecatrienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 537.8 * +EC4.2.1.92 (9s)-hydroperoxyoctadecadienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 44.9 * +EC4.2.1.92 (9s)-hydroperoxyoctadecatrienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 17.5 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.34 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.38 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.26 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide zea mays//eukaryotes;plants;monocots;grass family//zma 0.3 * +EC4.2.1.94 scytalone magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 70.0 * +EC4.2.1.96 (6r)-6-(l-erythro-1,2-dihydroxypropyl)-5,6,7,8-tetrahydro-4a-hydroxypterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.0 * +EC4.2.1.96 4a(r)-hydroxy-6(s)-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC4.2.1.96 4a(s)-hydroxy-6(r)-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC4.2.1.B22 galactarate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 6.8 * +EC4.2.1.B26 (r)-2-hydroxyglutaryl-coa clostridium symbiosum//*//* 82.0 * +EC4.2.1.B27 4-nitrobenzaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.45 * +EC4.2.1.B8 (9z,11e,13s)-13-hydroperoxy-9,11-octadecadienoic acid ranunculus acris//*//* 67.7 * +EC4.2.1.B8 (9z,11e,13s,15z)-13-hydroperoxy-9,11,15-octadecatrienate ranunculus acris//*//* 134.0 * +EC4.2.1.B9 (9s,10e,12z)-9-hydroperoxy-10,12-octadecadienoate allium sativum//*//* 70.0 * +EC4.2.1.B9 (9s,10e,12z,15z)-9-hydroperoxy-10,12,15-octadecatrienoate allium sativum//*//* 10.0 * +EC4.2.1.B9 (9z,11e,13s)-13-hydroperoxy-9,11-octadecadienoate allium sativum//*//* 550.0 * +EC4.2.1.B9 13-hydroperoxy-octadecatrienoate allium sativum//*//* 40.0 * +EC4.2.2.1 hyaluronan streptococcus pyogenes phage h4489a//*//* 4.9 * +EC4.2.2.1 hyaluronic acid streptococcus equi subsp. equi 4047//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//seu 7.61 * +EC4.2.2.1 hyaluronic acid streptococcus pyogenes phage h4489a//*//* 5.65 * +EC4.2.2.10 citrus pectin aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 66.0 * +EC4.2.2.10 citrus pectin aspergillus terricola//*//* 110.0 * +EC4.2.2.10 pectin 26% methylated aspergillus japonicus//*//* 20.0 * +EC4.2.2.10 pectin 65% methylated aspergillus japonicus//*//* 77.0 * +EC4.2.2.10 pectin 89% methylated aspergillus japonicus//*//* 86.0 * +EC4.2.2.10 pectin aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 52.2 * +EC4.2.2.10 pectin aspergillus terricola//*//* 110.0 * +EC4.2.2.10 pectin penicillium citrinum//*//* 76.0 * +EC4.2.2.10 pectin pseudomonas marginalis//*//* 0.83 * +EC4.2.2.11 acetylated alginate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2 * +EC4.2.2.11 acetylated poly-(beta-(1->4)-d-mannuronan) pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.5 * +EC4.2.2.11 alginate flavobacterium sp.//*//* 873.0 * +EC4.2.2.11 alginate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 32.0 * +EC4.2.2.11 poly-(beta-(1->4)-d-mannuronan) pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 32.0 * +EC4.2.2.11 sodium alginate flavobacterium sp.//*//* 872.8 * +EC4.2.2.11 sodium alginate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 56.9 * +EC4.2.2.11 sodium alginate zobellia galactanivorans//prokaryotes;bacteria;bacteroidetes;zobellia//zga 19.51 * +EC4.2.2.12 xanthan bacillus sp. gl1//*//* 6120.0 * +EC4.2.2.12 xanthan bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2170.0 * +EC4.2.2.13 2,4,6-trichlorophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 1.0 * +EC4.2.2.13 2,4-dinitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 27.0 * +EC4.2.2.13 2,5-dinitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 11.0 * +EC4.2.2.13 2-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 5.3 * +EC4.2.2.13 3,4-dinitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 1.7 * +EC4.2.2.13 3,5-dichlorophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 1.5 * +EC4.2.2.13 3-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 6.08 * +EC4.2.2.13 4-chloro-2-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 6.3 * +EC4.2.2.13 4-chlorophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 0.44 * +EC4.2.2.13 4-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 0.4 * +EC4.2.2.13 5-fluoro-alpha-d-glucopyranosyl fluoride gracilariopsis sp.//*//* 0.131 * +EC4.2.2.13 alpha-d-glucopyranosyl fluoride gracilariopsis sp.//*//* 505.0 * +EC4.2.2.13 p-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 0.38 * +EC4.2.2.13 phenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 0.11 * +EC4.2.2.19 dermatan sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 410.0 * +EC4.2.2.2 67% esterified citrus pectin cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 265.0 * +EC4.2.2.2 89% esterified citrus pectin cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 22.0 * +EC4.2.2.2 digalacturonic acid fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 6.6 * +EC4.2.2.2 pectin fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 110.6 * +EC4.2.2.2 pectin uncultured bacterium//*//* 1882.0 * +EC4.2.2.2 polygalacturonate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1200.0 * +EC4.2.2.2 polygalacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 131.5 * +EC4.2.2.2 polygalacturonic acid bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 173.0 * +EC4.2.2.2 polygalacturonic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 260.0 * +EC4.2.2.2 polygalacturonic acid uncultured bacterium//*//* 6092.0 * +EC4.2.2.2 tetragalacturonate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1000.0 * +EC4.2.2.2 trigalacturonate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 340.0 * +EC4.2.2.2 trigalacturonic acid fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 65.95 * +EC4.2.2.20 chondroitin 4-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 84.8 * +EC4.2.2.20 chondroitin 6-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 100.0 * +EC4.2.2.20 chondroitin sulfate a proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 587.0 * +EC4.2.2.20 dermatan sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 48.5 * +EC4.2.2.21 chondroitin 4-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 867.0 * +EC4.2.2.21 chondroitin 6-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 617.0 * +EC4.2.2.21 chondroitin sulfate a bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 263.2 * +EC4.2.2.21 chondroitin sulfate c bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 173.0 * +EC4.2.2.21 dermatan sulfate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 38.45 * +EC4.2.2.21 dermatan sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 450.0 * +EC4.2.2.23 potato pectic galactan clostridium cellulolyticum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cce 34.0 * +EC4.2.2.3 alginate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 748.0 * +EC4.2.2.3 hepta-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 7.6 * +EC4.2.2.3 hepta-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 13.2 * +EC4.2.2.3 hexa-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 7.9 * +EC4.2.2.3 hexa-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 11.9 * +EC4.2.2.3 nona-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 7.8 * +EC4.2.2.3 nona-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 10.8 * +EC4.2.2.3 octa-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 7.3 * +EC4.2.2.3 octa-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 11.1 * +EC4.2.2.3 penta-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 6.2 * +EC4.2.2.3 penta-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 7.4 * +EC4.2.2.3 sodium alginate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 56.9 * +EC4.2.2.3 tetra-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 2.5 * +EC4.2.2.3 tetra-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 3.2 * +EC4.2.2.5 4-o-(2',4'-dinitrophenyl)-beta-d-glucopyranosiruronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.041 * +EC4.2.2.5 benzyl 4-deoxy-4-fluoro-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.16 * +EC4.2.2.5 benzyl 4-o-(2',4'-dinitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.019 * +EC4.2.2.5 benzyl 4-o-(2'-nitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.027 * +EC4.2.2.5 benzyl 4-o-(3',4'-dinitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.019 * +EC4.2.2.5 benzyl 4-o-(4'-chloro-2'-nitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.035 * +EC4.2.2.5 benzyl s-(2-acetamido-2-deoxy-beta-d-galactopyranosyl)-(1-4)-4-deoxy-4-thio-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.005 * +EC4.2.2.5 chondroitin 4-sulfate paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 403.0 * +EC4.2.2.5 chondroitin 4-sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 308.0 * +EC4.2.2.5 chondroitin 6-sulfate paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 522.0 * +EC4.2.2.5 chondroitin 6-sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 855.0 * +EC4.2.2.5 chondroitin paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 868.0 * +EC4.2.2.5 chondroitin pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 840.0 * +EC4.2.2.5 hyaluronate paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 1200.0 * +EC4.2.2.5 hyaluronate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 570.0 * +EC4.2.2.5 phenyl 4-deoxy-4-fluoro-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 2.3 * +EC4.2.2.5 phenyl 4-methylumbelliferyl-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.0016 * +EC4.2.2.7 heparin, 20-mer bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 29.1 * +EC4.2.2.7 heparin, 6-mer bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 78.4 * +EC4.2.2.7 heparin, 8-mer bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 73.7 * +EC4.2.2.8 heparan sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 94.0 * +EC4.2.3.1 l-vinylglycine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.61 * +EC4.2.3.1 o-phospho-l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC4.2.3.1 o-phospho-l-homoserine methanosarcina acetivorans c2a//*//* 4080.0 * +EC4.2.3.1 o-phospho-l-homoserine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.3 * +EC4.2.3.1 o-phospho-l-homoserine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.8 * +EC4.2.3.1 o-phosphohomoserine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5 * +EC4.2.3.1 o-phosphohomoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.33 * +EC4.2.3.1 phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.034 * +EC4.2.3.106 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0048 * +EC4.2.3.106 geranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.034 * +EC4.2.3.107 geranyl diphosphate picea sitchensis//*//* 2.21 * +EC4.2.3.108 geranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.001 * +EC4.2.3.108 geranyl diphosphate lavandula x intermedia//*//* 0.0088 * +EC4.2.3.108 geranyl diphosphate salvia fruticosa//*//* 0.053 * +EC4.2.3.108 geranyl diphosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.079 * +EC4.2.3.109 geranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.001 * +EC4.2.3.109 geranyl diphosphate picea sitchensis//*//* 0.545 * +EC4.2.3.113 geranyl diphosphate picea sitchensis//*//* 0.545 * +EC4.2.3.118 (e)-2-methylgeranyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.039 * +EC4.2.3.118 geranyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0003 * +EC4.2.3.12 6-(l-erythro-1,2-dihydroxypropyl 3-triphosphate)-7,8-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC4.2.3.121 geranyl diphosphate lavandula angustifolia//*//* 0.012 * +EC4.2.3.124 d-glucose 6-phosphate bacillus circulans//*//* 1.0 * +EC4.2.3.124 d-glucose 6-phosphate streptoalloteichus hindustanus//*//* 0.075 * +EC4.2.3.13 (2e,6e)-farnesyl diphosphate phyla dulcis//*//* 0.04 * +EC4.2.3.13 (2e,6z)-farnesyl diphosphate gossypium arboreum//*//* 0.01 * +EC4.2.3.13 2-trans,6-trans-farnesyl diphosphate gossypium arboreum//*//* 0.033 * +EC4.2.3.132 (+)-copalyl diphosphate abies grandis//*//* 2.6 * +EC4.2.3.133 (2e,6e)-farnesyl diphosphate phyla dulcis//*//* 0.04 * +EC4.2.3.135 (2e,6e)-farnesyl diphosphate stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 0.0063 * +EC4.2.3.138 (2e,6e)-farnesyl diphosphate phyla dulcis//*//* 0.04 * +EC4.2.3.139 (2e,6e)-farnesyl diphosphate valeriana officinalis//*//* 0.01 * +EC4.2.3.142 (2z,6z)-farnesyl diphosphate solanum habrochaites//*//* 0.29 * +EC4.2.3.143 (2e,6e)-farnesyl diphosphate thapsia garganica//*//* 0.03 * +EC4.2.3.144 geranylgeranyl diphosphate nicotiana attenuata//*//* 7.53 * +EC4.2.3.144 geranylgeranyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 6.85 * +EC4.2.3.148 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.047 * +EC4.2.3.149 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.047 * +EC4.2.3.150 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.022 * +EC4.2.3.151 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.022 * +EC4.2.3.153 d-glyceraldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.026 * +EC4.2.3.154 d-sedoheptulose 7-phosphate anabaena variabilis//*//* 0.0533 * +EC4.2.3.154 d-sedoheptulose 7-phosphate nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0833 * +EC4.2.3.155 d-sedoheptulose 7-phosphate actinosynnema mirum//prokaryotes;bacteria;actinobacteria;actinosynnema//ami 0.033 * +EC4.2.3.155 d-sedoheptulose 7-phosphate stigmatella aurantiaca//prokaryotes;bacteria;deltaproteobacteria;stigmatella//sur 0.062 * +EC4.2.3.17 geranylgeranyl diphosphate taxus brevifolia//*//* 0.000177 * +EC4.2.3.18 copalyl diphosphate abies grandis//*//* 0.75 * +EC4.2.3.20 geranyl diphosphate lavandula angustifolia//*//* 0.012 * +EC4.2.3.21 trans,trans-farnesyl diphosphate hyoscyamus muticus//*//* 0.04 * +EC4.2.3.22 (2e,6e)-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0062 * +EC4.2.3.22 2-trans,6-trans-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 6.2 * +EC4.2.3.22 farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.0031 * +EC4.2.3.23 2-trans,6-trans-farnesyl diphosphate ixeridium dentatum//*//* 0.016 * +EC4.2.3.23 2-trans,6-trans-farnesyl diphosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 4.4 * +EC4.2.3.24 (2e,6e)-farnesyl diphosphate artemisia annua//*//* 0.0154 * +EC4.2.3.24 geranyl diphosphate artemisia annua//*//* 0.0007 * +EC4.2.3.25 geranyl diphosphate actinidia arguta//*//* 0.044 * +EC4.2.3.25 geranyl diphosphate actinidia polygama//*//* 0.014 * +EC4.2.3.26 geranyl diphosphate mentha aquatica var. citrata//*//* 0.24 * +EC4.2.3.27 dimethylallyl diphosphate populus tremuloides//*//* 1.7 * +EC4.2.3.27 dimethylallyl diphosphate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 1.9 * +EC4.2.3.29 ent-copalyl diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00033 * +EC4.2.3.3 dihydroxyacetone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 220.0 * +EC4.2.3.3 dihydroxyacetone phosphate thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 327.0 * +EC4.2.3.3 glycerone phosphate thermus sp. gh5//*//* 325.0 * +EC4.2.3.31 ent-copalyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0014 * +EC4.2.3.37 (2e,6e)-farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.00026 * +EC4.2.3.37 (2e,6e)-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.049 * +EC4.2.3.38 (2e,6e)-farnesyl diphosphate abies grandis//*//* 0.002 * +EC4.2.3.4 (3r)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate actinidia chinensis//*//* 0.3 * +EC4.2.3.4 (3r)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC4.2.3.4 (3r)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.3 * +EC4.2.3.4 (3s)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate actinidia chinensis//*//* 0.9 * +EC4.2.3.4 (3s)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC4.2.3.4 (3s)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.3 * +EC4.2.3.4 3-deoxy-d-arabino-hept-2-ulosonate 7-phosphate actinidia chinensis//*//* 20.1 * +EC4.2.3.4 3-deoxy-d-arabino-hept-2-ulosonate 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25000.0 * +EC4.2.3.4 3-deoxy-d-arabino-hept-2-ulosonate 7-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.0 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonate 7-phosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 6.8 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonic acid 7-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 19.0 * +EC4.2.3.41 farnesyl diphosphate pseudopterogorgia elisabethae//*//* 3400.0 * +EC4.2.3.41 geranyl diphosphate pseudopterogorgia elisabethae//*//* 1300.0 * +EC4.2.3.41 geranylgeranyl diphosphate pseudopterogorgia elisabethae//*//* 41000.0 * +EC4.2.3.46 (2e,6e)-farnesyl diphosphate actinidia deliciosa//*//* 0.44 * +EC4.2.3.46 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0048 * +EC4.2.3.46 (2e,6e)-farnesyl diphosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0553 * +EC4.2.3.46 farnesyl diphosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0533 * +EC4.2.3.46 geranyl diphosphate actinidia deliciosa//*//* 0.03 * +EC4.2.3.46 geranyl diphosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.000281 * +EC4.2.3.47 (2e,6e)-farnesyl diphosphate artemisia annua//*//* 0.0095 * +EC4.2.3.47 (2e,6e)-farnesyl diphosphate mentha x piperita//*//* 0.028 * +EC4.2.3.47 (2e,6e)-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.019 * +EC4.2.3.47 (2z,6e)-2-fluorofarnesyl diphosphate mentha x piperita//*//* 0.02 * +EC4.2.3.47 (3rs)-trans-nerolidyl diphosphate mentha x piperita//*//* 0.023 * +EC4.2.3.48 (2e,6e)-farnesyl diphosphate actinidia chinensis//*//* 0.24 * +EC4.2.3.48 geranyl diphosphate actinidia chinensis//*//* 0.13 * +EC4.2.3.5 5-enolpyruvylshikimate 3-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.87 * +EC4.2.3.5 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0083 * +EC4.2.3.51 neryl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 4.1 * +EC4.2.3.52 geranyl diphosphate lavandula angustifolia//*//* 0.017 * +EC4.2.3.6 farnesyl diphosphate fusarium sporotrichioides//*//* 0.138 * +EC4.2.3.61 (2e,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.095 * +EC4.2.3.61 (2e,6z)-6-fluorofarnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.11 * +EC4.2.3.64 (2e,6e)-farnesyl diphosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.026 * +EC4.2.3.67 (2e,6e)-farnesyl diphosphate mentha x piperita//*//* 0.18 * +EC4.2.3.70 (2e,6e)-farnesyl diphosphate pogostemon cablin//*//* 0.00043 * +EC4.2.3.73 (2e,6e)-farnesyl diphosphate callitropsis nootkatensis//*//* 0.0032 * +EC4.2.3.74 (2e,6e)-farnesyl diphosphate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 3.23 * +EC4.2.3.75 (2e,6e)-farnesyl diphosphate coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.012 * +EC4.2.3.75 (2e,6e)-farnesyl diphosphate solidago canadensis//*//* 0.03 * +EC4.2.3.77 (2e,6e)-farnesyl diphosphate actinidia deliciosa//*//* 0.017 * +EC4.2.3.77 (2e,6e)-farnesyl diphosphate solidago canadensis//*//* 0.04 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate lavandula angustifolia//*//* 0.033 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate santalum album//*//* 0.34 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate santalum austrocaledonicum//*//* 0.91 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate santalum spicatum//*//* 2.6 * +EC4.2.3.82 (2e,6e)-farnesyl diphosphate santalum album//*//* 0.34 * +EC4.2.3.82 (2e,6e)-farnesyl diphosphate santalum austrocaledonicum//*//* 0.91 * +EC4.2.3.82 (2e,6e)-farnesyl diphosphate santalum spicatum//*//* 2.6 * +EC4.2.3.83 (2e,6e)-farnesyl diphosphate santalum album//*//* 0.34 * +EC4.2.3.83 (2e,6e)-farnesyl diphosphate santalum austrocaledonicum//*//* 0.91 * +EC4.2.3.83 (2e,6e)-farnesyl diphosphate santalum spicatum//*//* 2.6 * +EC4.2.3.87 (2e,6e)-farnesyl diphosphate pogostemon cablin//*//* 0.00043 * +EC4.2.3.89 (2e,6e)-farnesyl diphosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.025 * +EC4.2.3.9 (2e,6e)-farnesyl diphosphate penicillium roqueforti//*//* 0.084 * +EC4.2.3.9 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.095 * +EC4.2.3.9 farnesyl diphosphate penicillium roqueforti//*//* 550.0 * +EC4.2.3.9 trans,trans-farnesyl diphosphate aspergillus terreus//*//* 0.0173 * +EC4.2.3.9 trans,trans-farnesyl diphosphate penicillium roqueforti//*//* 0.043 * +EC4.2.3.90 (2e,6e)-farnesyl diphosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.044 * +EC4.2.3.90 (e,e)-farnesyl diphosphate nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.063 * +EC4.2.3.91 (2e,6e)-farnesyl diphosphate coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.012 * +EC4.2.3.93 (2e,6e)-farnesyl diphosphate aquilaria crassna//*//* 0.00499 * +EC4.2.3.95 (2e,6e)-farnesyl diphosphate coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.67 * +EC4.2.3.96 (2e,6e)-farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.04 * +EC4.2.3.97 (2e,6e)-farnesyl diphosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.00114 * +EC4.2.3.98 (2e,6e)-farnesyl diphosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.00163 * +EC4.2.3.99 syn-copalyl diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00083 * +EC4.2.3.B17 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.095 * +EC4.2.3.B18 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.095 * +EC4.2.3.B19 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.095 * +EC4.2.99.18 12-mer oligodeoxyribonucleotide containing a natural ap site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC4.2.99.18 12-mer oligodeoxyribonucleotide containing a tetrahydrofuran analogue at the natural ap site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC4.2.99.18 18-mer containing p33-labeled tetrahydrofuran cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 5.7 * +EC4.2.99.18 2-deoxyribonolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC4.2.99.18 34fdna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26500.0 * +EC4.2.99.18 34frna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 438.0 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydrouracil opposite a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydrouracil opposite g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydroxy-5,6-dihydrothymine opposite g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.075 * +EC4.2.99.18 37mer with ap/a saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00512 * +EC4.2.99.18 37mer with ap/c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0225 * +EC4.2.99.18 37mer with ap/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00323 * +EC4.2.99.18 37mer with ap/t saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0233 * +EC4.2.99.18 37mer with dihydrouridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0717 * +EC4.2.99.18 43-mer oligonucleotide containing the ap-site analog thf at nt 31 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.36 * +EC4.2.99.18 5'-ctctcccttc-5,6-dihydrouracil-ctcctttcctct-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07167 * +EC4.2.99.18 5'-ctctcccttc-8-oxo-7,8-dihydroguanine-ctcctttcctct-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC4.2.99.18 5'-cy3-caaggtagtruatccttg-1-black hole quencher1-3' homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0272 * +EC4.2.99.18 5'-cy3-caaggtagtruatccttg-1-black hole quencher1-3' rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.168 * +EC4.2.99.18 5'-gacaagcgcag-(5r,6s)-2'-deoxy-5,6-dihydroxyuridine-cagccgaacac-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0483 * +EC4.2.99.18 5'-gacaagcgcag-(5s,6r)-2'-deoxy-5,6-dihydroxyuridine-cagccgaacac-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0567 * +EC4.2.99.18 5'-tcgaggatcctgagctcgagtcgacgxtcgcgaattctgcggatccaagc-3' homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC4.2.99.18 5'-tcgaggatcctgagctcgagtcgacgxtcgcgaattctgcggatccaagc-3' mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.2 * +EC4.2.99.18 5,6-dihydrothymidine/a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00417 * +EC4.2.99.18 5,6-dihydrothymidine/a saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00333 * +EC4.2.99.18 5-hydroxy-2'-deoxyuridine/g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0267 * +EC4.2.99.18 5-hydroxy-2'-deoxyuridine/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00567 * +EC4.2.99.18 [ubiquitin carrier protein ub2r2]-s-ubiquitinyl-l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0158 * +EC4.2.99.18 [ubiquitin carrier protein ub2r2]-s-ubiquitinyl-l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0117 * +EC4.2.99.18 ap-dna-dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 174.0 * +EC4.2.99.18 ap-dna-rna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.0 * +EC4.2.99.18 ap-dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 90.0 * +EC4.2.99.18 apruinic/apyrimidinic site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC4.2.99.18 apurinic/apyrimidinic site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC4.2.99.18 apurinic/apyrimidinic sites escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01067 * +EC4.2.99.18 dna containing 5-oh-c/a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000333 * +EC4.2.99.18 dna containing 5-oh-c/g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000833 * +EC4.2.99.18 dna containing an abasic site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC4.2.99.18 dna containing dihydrouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC4.2.99.18 dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2340.0 * +EC4.2.99.18 dna leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 10440.0 * +EC4.2.99.18 double-stranded dna with abasic sites homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC4.2.99.18 duplex oligonucleotide containing a 5,6-dihydro-2'-deoxyuridine*g pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC4.2.99.18 duplex oligonucleotide containing a alpha-2'-deoxyadenosine*t pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC4.2.99.18 duplex oligonucleotide containing a tetrahydrofuran*g pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC4.2.99.18 oligomer with g/u pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC4.2.99.18 single-stranded dna with abasic sites homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC4.2.99.18 tetrahydrofuranyl/g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0283 * +EC4.2.99.18 tetrahydrofuranyl/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC4.2.99.18 thf-containing oligonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12120.0 * +EC4.2.99.18 thf-containing oligonucleotide leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 19260.0 * +EC4.2.99.20 (1r,2s,5s,6s)-2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 147.0 * +EC4.2.99.20 5-enolpyruvoyl-6-hydroxy-2-succinyl-cyclohex-3-ene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 167.0 * +EC4.2.99.21 isochorismate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.8 * +EC4.2.99.21 isochorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.76 * +EC4.2.99.21 isochorismate yersinia enterocolitica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yen 0.092 * +EC4.2.99.22 6-tuliposide a tulipa gesneriana//*//* 2800.0 * +EC4.2.99.22 6-tuliposide b tulipa gesneriana//*//* 610.0 * +EC4.2.99.B1 28-mer deoxyoligonucleotide with a 5' uracil residue crithidia fasciculata//*//* 0.0018 * +EC4.2.99.B1 35-bp-deoxyoligonucleotide duplex containing a uracil residue at position 15 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01167 * +EC4.2.99.B1 dna with a 5'-incised apurinic/apyrimidinic site at position 21 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC4.2.99.B1 mimic of a preincised dna duplex with a 5'drp at the site of the nick human alphaherpesvirus 1//*//* 0.0075 * +EC4.2.99.B1 preincised apurinic/apyrimidinic dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC4.3.1.1 fumarate bacillus sp. ym55-1//*//* 90.0 * +EC4.3.1.1 hydrazine bacillus sp. ym55-1//*//* 94.0 * +EC4.3.1.1 hydroxylamine bacillus sp. ym55-1//*//* 99.0 * +EC4.3.1.1 l-aspartate bacillus sp. ym55-1//*//* 40.0 * +EC4.3.1.1 l-aspartate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 40.0 * +EC4.3.1.1 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 180.0 * +EC4.3.1.1 l-aspartate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.1 * +EC4.3.1.1 l-aspartate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 87.0 * +EC4.3.1.1 nh3 bacillus sp. ym55-1//*//* 89.0 * +EC4.3.1.15 d-2,3-diaminopropanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 44.58 * +EC4.3.1.15 d-2,3-diaminopropanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 375.8 * +EC4.3.1.15 d-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.17 * +EC4.3.1.15 dl-2,3-diaminopropanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 69.17 * +EC4.3.1.15 l-2,3-diaminopropanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.6 * +EC4.3.1.15 l-2,3-diaminopropanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 42.83 * +EC4.3.1.17 beta-chloro-l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.6 * +EC4.3.1.17 d-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 14.5 * +EC4.3.1.17 d-threonine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC4.3.1.17 l-ser legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 330.0 * +EC4.3.1.17 l-serine o-sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC4.3.1.17 l-serine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 585.0 * +EC4.3.1.17 l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 3.0 * +EC4.3.1.17 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 544.0 * +EC4.3.1.17 l-serine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 286.0 * +EC4.3.1.17 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.0 * +EC4.3.1.17 l-threo-3-hydroxyaspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 31.0 * +EC4.3.1.17 l-threonine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 5.2 * +EC4.3.1.17 l-threonine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 10.5 * +EC4.3.1.18 beta-chloro-d-alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.48 * +EC4.3.1.18 d-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC4.3.1.18 d-allothreonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.92 * +EC4.3.1.18 d-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 118.0 * +EC4.3.1.18 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.7 * +EC4.3.1.18 d-serine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 6.08 * +EC4.3.1.18 d-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.0 * +EC4.3.1.18 d-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.95 * +EC4.3.1.18 d-threonine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0512 * +EC4.3.1.18 d-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.43 * +EC4.3.1.18 l-allothreonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC4.3.1.18 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.153 * +EC4.3.1.18 l-serine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.197 * +EC4.3.1.18 l-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.6 * +EC4.3.1.19 l-ser entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 3.0 * +EC4.3.1.19 l-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 243.0 * +EC4.3.1.19 l-thr entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 5.2 * +EC4.3.1.19 l-thr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 287.0 * +EC4.3.1.2 (2s,3s)-3-ethylaspartic acid carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 78.0 * +EC4.3.1.2 l-threo-3-methylaspartate clostridium tetanomorphum//*//* 467.0 * +EC4.3.1.2 l-threo-3-methylaspartic acid clostridium tetanomorphum//*//* 89.0 * +EC4.3.1.2 mesaconate clostridium tetanomorphum//*//* 61.0 * +EC4.3.1.2 mesaconic acid clostridium tetanomorphum//*//* 61.0 * +EC4.3.1.23 l-phenylalanine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 15.1 * +EC4.3.1.23 l-phenylalanine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.6 * +EC4.3.1.23 l-tyrosine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 27.7 * +EC4.3.1.23 l-tyrosine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.9 * +EC4.3.1.23 l-tyrosinol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.12 * +EC4.3.1.24 (2e)-3-(3-fluorophenyl)prop-2-enoic acid anabaena variabilis//*//* 0.08 * +EC4.3.1.24 (2e)-3-(3-hydroxyphenyl)prop-2-enoic acid anabaena variabilis//*//* 0.61 * +EC4.3.1.24 (2e)-3-(4-fluorophenyl)prop-2-enoic acid anabaena variabilis//*//* 0.09 * +EC4.3.1.24 (2e)-3-(4-nitrophenyl)prop-2-enoic acid anabaena variabilis//*//* 3.81 * +EC4.3.1.24 (2e)-3-(pyridin-3-yl)prop-2-enoic acid anabaena variabilis//*//* 0.14 * +EC4.3.1.24 (2e)-3-(pyridin-4-yl)prop-2-enoic acid anabaena variabilis//*//* 1.06 * +EC4.3.1.24 (2e)-3-[4-(trifluoromethyl)phenyl]prop-2-enoic acid anabaena variabilis//*//* 3.14 * +EC4.3.1.24 (2e)-3-phenylprop-2-enoic acid anabaena variabilis//*//* 0.03 * +EC4.3.1.24 (2s)-2-amino-3-(3-fluorophenyl)propanoic acid anabaena variabilis//*//* 1.1 * +EC4.3.1.24 (2s)-2-amino-3-(3-hydroxyphenyl)propanoic acid anabaena variabilis//*//* 0.89 * +EC4.3.1.24 (2s)-2-amino-3-(4-fluorophenyl)propanoic acid anabaena variabilis//*//* 1.06 * +EC4.3.1.24 (2s)-2-amino-3-(4-nitrophenyl)propanoic acid anabaena variabilis//*//* 1.08 * +EC4.3.1.24 (2s)-2-amino-3-(pyridin-3-yl)propanoic acid anabaena variabilis//*//* 0.91 * +EC4.3.1.24 (2s)-2-amino-3-(pyridin-4-yl)propanoic acid anabaena variabilis//*//* 0.61 * +EC4.3.1.24 (2s)-2-amino-3-[4-(trifluoromethyl)phenyl]propanoic acid anabaena variabilis//*//* 0.82 * +EC4.3.1.24 (2s)-2-amino-3-phenylpropanoic acid anabaena variabilis//*//* 0.49 * +EC4.3.1.24 l-phe arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.2 * +EC4.3.1.24 l-phe bambusa oldhamii//*//* 21.3 * +EC4.3.1.24 l-phe cistanche deserticola//*//* 3.36 * +EC4.3.1.24 l-phe jatropha curcas//eukaryotes;plants;eudicots;spurge family//jcu 1.73 * +EC4.3.1.24 l-phe petroselinum crispum//*//* 22.0 * +EC4.3.1.24 l-phe streptomyces maritimus//*//* 4.79 * +EC4.3.1.24 l-phenylalanine anabaena variabilis//*//* 4.6 * +EC4.3.1.24 l-phenylalanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 115.8 * +EC4.3.1.24 l-phenylalanine bambusa oldhamii//*//* 16.04 * +EC4.3.1.24 l-phenylalanine ephedra sinica//*//* 0.588 * +EC4.3.1.24 l-phenylalanine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.53 * +EC4.3.1.24 l-phenylalanine nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 1.96 * +EC4.3.1.24 l-phenylalanine rhodotorula glutinis//*//* 25.7 * +EC4.3.1.24 l-tyr bambusa oldhamii//*//* 0.54 * +EC4.3.1.24 l-tyr jatropha curcas//eukaryotes;plants;eudicots;spurge family//jcu 0.11 * +EC4.3.1.24 l-tyr petroselinum crispum//*//* 0.3 * +EC4.3.1.24 l-tyrosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.084 * +EC4.3.1.24 n-methyl-l-phenylalanine petroselinum crispum//*//* 0.22 * +EC4.3.1.25 l-phe bambusa oldhamii//*//* 16.32 * +EC4.3.1.25 l-phenylalanine cutaneotrichosporon cutaneum//*//* 9.8 * +EC4.3.1.25 l-phenylalanine phanerochaete chrysosporium//*//* 3.3 * +EC4.3.1.25 l-phenylalanine rhodotorula glutinis//*//* 1.6 * +EC4.3.1.25 l-tyr bambusa oldhamii//*//* 0.54 * +EC4.3.1.25 l-tyrosine cutaneotrichosporon cutaneum//*//* 1.44 * +EC4.3.1.25 l-tyrosine phanerochaete chrysosporium//*//* 1.3 * +EC4.3.1.25 l-tyrosine rhodotorula glutinis//*//* 0.93 * +EC4.3.1.27 d-serine delftia sp. ht23//*//* 8.68 * +EC4.3.1.27 d-threo-3-hydroxyaspartate delftia sp. ht23//*//* 10.93 * +EC4.3.1.27 l-erythro-3-hydroxyaspartate delftia sp. ht23//*//* 8.68 * +EC4.3.1.27 l-serine delftia sp. ht23//*//* 0.18 * +EC4.3.1.27 l-threo-3-hydroxyaspartate delftia sp. ht23//*//* 3.03 * +EC4.3.1.28 l-lysine streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.61 * +EC4.3.1.3 l-histidine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 255.0 * +EC4.3.1.30 dtdp-4-amino-4,6-dideoxy-alpha-d-glucopyranose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.017 * +EC4.3.1.6 acryloyl-coa anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 195.0 * +EC4.3.1.6 beta-alanyl-coa anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 25.0 * +EC4.3.1.6 nh3 anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 301.0 * +EC4.3.1.7 (r)-2-aminopropanol salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.067 * +EC4.3.1.7 (s)-2-aminopropanol salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.12 * +EC4.3.1.7 ethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 770.0 * +EC4.3.1.7 ethanolamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 55.0 * +EC4.3.1.B2 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.5 * +EC4.3.1.B2 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.9 * +EC4.3.1.B2 n1-[(5'-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamido-1-beta-d-ribofuranosyl 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC4.3.1.B2 n1-[(5'-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamido-1-beta-d-ribofuranosyl 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.4 * +EC4.3.1.B2 n1-[(5'-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamido-1-beta-d-ribofuranosyl 5'-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.2 * +EC4.3.1.B2 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.6 * +EC4.3.1.B2 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.8 * +EC4.3.2.1 argininosuccinate anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 2930.0 * +EC4.3.2.1 argininosuccinate anser sp.//*//* 2500.0 * +EC4.3.2.1 argininosuccinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.28 * +EC4.3.2.1 n,n'-bis(tert-butoxycarbonyl)-5-[(3-aminopropyl)amino]pentan-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.5 * +EC4.3.2.2 adenylosuccinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.74 * +EC4.3.2.2 amp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.9 * +EC4.3.2.2 fumarate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.9 * +EC4.3.2.2 succinyladenosine monophosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.7 * +EC4.3.2.2 succinyladenosine monophosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC4.3.2.2 succinyladenosine monophosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.5 * +EC4.3.2.3 ureidoglycolate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.018 * +EC4.3.2.5 n-2,4,6-trinitrophenyl-d-tyr-l-val-(s)-alpha-hydroxy-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.7 * +EC4.3.2.5 nalpha-acetyl-tyr-val-alpha-hydroxyglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 220.0 * +EC4.3.2.5 nalpha-acetyl-tyr-val-alpha-hydroxyglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 380.0 * +EC4.3.3.2 2-(4-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.058 * +EC4.3.3.2 2-(4-methyl-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC4.3.3.2 2-(5-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0072 * +EC4.3.3.2 2-(6-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0093 * +EC4.3.3.2 2-(7-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0018 * +EC4.3.3.2 2-(7-methyl-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0048 * +EC4.3.3.2 2-benzofuran-3-yl-ethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0038 * +EC4.3.3.2 3-(2-aminoethyl)-1h-indol-5-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC4.3.3.2 5-fluoro-tryptamine rauvolfia serpentina//*//* 37.46 * +EC4.3.3.2 5-hydroxy-tryptamine rauvolfia serpentina//*//* 562.1 * +EC4.3.3.2 6-fluoro-tryptamine rauvolfia serpentina//*//* 23.37 * +EC4.3.3.2 6-methoxy-tryptamine rauvolfia serpentina//*//* 5.32 * +EC4.3.3.2 6-methyl-tryptamine rauvolfia serpentina//*//* 2.32 * +EC4.3.3.2 secologanin rauvolfia serpentina//*//* 4.5 * +EC4.3.3.2 serotonin rauvolfia serpentina//*//* 11.13 * +EC4.3.3.2 tryptamine catharanthus roseus//*//* 1.3 * +EC4.3.3.2 tryptamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC4.3.3.2 tryptamine rauvolfia serpentina//*//* 10.65 * +EC4.3.3.6 d-ribose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.004 * +EC4.3.3.6 d-ribulose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0007 * +EC4.3.3.6 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.127 * +EC4.3.3.7 (s)-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 124.0 * +EC4.3.3.7 l-aspartate 4-semialdehyde corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 213.0 * +EC4.3.3.7 l-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.8 * +EC4.3.3.7 l-aspartate 4-semialdehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 138.0 * +EC4.3.3.7 l-aspartate 4-semialdehyde thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 465.0 * +EC4.3.3.7 l-aspartate-4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 223.0 * +EC4.3.3.7 pyruvate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 92.0 * +EC4.3.3.7 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 124.0 * +EC4.3.3.7 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 138.0 * +EC4.3.3.7 pyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 46.7 * +EC4.3.3.7 pyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 70.0 * +EC4.3.3.7 pyruvate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 465.0 * +EC4.3.99.3 6-carboxy-5,6,7,8-tetrahydropterin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.4 * +EC4.3.99.4 choline desulfovibrio alaskensis//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dde 747.0 * +EC4.4.1.1 cys treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 12.0 * +EC4.4.1.1 cystathionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC4.4.1.1 l-cystathionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC4.4.1.1 l-cystathionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.81 * +EC4.4.1.1 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC4.4.1.1 l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC4.4.1.1 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC4.4.1.1 o-acetyl-l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0097 * +EC4.4.1.11 dl-homocysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 8.51 * +EC4.4.1.11 dl-homocysteine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 10.56 * +EC4.4.1.11 dl-homocysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 71.0 * +EC4.4.1.11 dl-homoserine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.52 * +EC4.4.1.11 l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.33 * +EC4.4.1.11 l-cysteine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.59 * +EC4.4.1.11 l-cysteine fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.69 * +EC4.4.1.11 l-cysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1.86 * +EC4.4.1.11 l-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.27 * +EC4.4.1.11 l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.79 * +EC4.4.1.11 l-ethionine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.78 * +EC4.4.1.11 l-ethionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 33.4 * +EC4.4.1.11 l-gly(vinyl) citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.9 * +EC4.4.1.11 l-homoserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.4 * +EC4.4.1.11 l-methionine sulfone citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.1 * +EC4.4.1.11 l-methionine sulfone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 40.4 * +EC4.4.1.11 l-methionine sulfoxide citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.5 * +EC4.4.1.11 l-methionine sulfoxide clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 6.7 * +EC4.4.1.11 l-methionine sulfoxide clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 2.7 * +EC4.4.1.11 l-methionine sulfoxide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 5.05 * +EC4.4.1.11 l-methionine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.5 * +EC4.4.1.11 l-methionine clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 9.86 * +EC4.4.1.11 l-methionine clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 12.0 * +EC4.4.1.11 l-methionine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.82 * +EC4.4.1.11 l-methionine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 3.9 * +EC4.4.1.11 l-methionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 48.6 * +EC4.4.1.11 l-vinylglycine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.9 * +EC4.4.1.11 l-vinylglycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 44.4 * +EC4.4.1.11 o-acetyl-dl-homoserine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.1 * +EC4.4.1.11 o-acetyl-l-homoserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 78.0 * +EC4.4.1.11 o-acetyl-l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 6.22 * +EC4.4.1.11 s-benzyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 10.9 * +EC4.4.1.11 s-benzyl-l-cysteine clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 10.0 * +EC4.4.1.11 s-benzyl-l-cysteine clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 8.5 * +EC4.4.1.11 s-benzyl-l-cysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 5.8 * +EC4.4.1.11 s-ethyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.8 * +EC4.4.1.11 s-ethyl-l-cysteine clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 6.3 * +EC4.4.1.11 s-ethyl-l-cysteine clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 7.08 * +EC4.4.1.11 s-ethyl-l-cysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 8.05 * +EC4.4.1.11 s-ethyl-l-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.79 * +EC4.4.1.11 s-ethyl-l-homocysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.8 * +EC4.4.1.11 s-ethyl-l-homocysteine clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 7.05 * +EC4.4.1.11 s-ethyl-l-homocysteine clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 5.89 * +EC4.4.1.11 s-ethyl-l-homocysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 3.84 * +EC4.4.1.11 s-methyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 5.97 * +EC4.4.1.11 s-methyl-l-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.53 * +EC4.4.1.11 trifluoromethionine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 17.46 * +EC4.4.1.14 (r,s)-s-adenosyl-l-methionine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.079 * +EC4.4.1.14 (r,s)-s-adenosylmethionine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.079 * +EC4.4.1.14 (s,s)-s-adenosyl-l-methionine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 9.2 * +EC4.4.1.14 (s,s)-s-adenosylmethionine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 18.0 * +EC4.4.1.14 alanine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.019 * +EC4.4.1.14 l-alanine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0029 * +EC4.4.1.14 l-arginine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0012 * +EC4.4.1.14 l-vinylglycine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 1.8 * +EC4.4.1.14 s-adenosyl-l-methionine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 9.2 * +EC4.4.1.14 s-adenosyl-l-methionine penicillium citrinum//*//* 0.75 * +EC4.4.1.14 s-adenosyl-l-methionine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 9.79 * +EC4.4.1.14 s-methyl-l-methionine malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.045 * +EC4.4.1.15 3-chloro-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 281.0 * +EC4.4.1.15 d-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.0 * +EC4.4.1.15 d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 72.0 * +EC4.4.1.15 d-cysteine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 13800.0 * +EC4.4.1.16 l-cysteine sulfinate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.35 * +EC4.4.1.16 l-selenocysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 46.0 * +EC4.4.1.2 l-cysteine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00077 * +EC4.4.1.2 l-homocysteine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00139 * +EC4.4.1.2 l-methionine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00097 * +EC4.4.1.20 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC4.4.1.20 glutathione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 84.0 * +EC4.4.1.20 leukotriene a4 methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC4.4.1.20 leukotriene a4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC4.4.1.20 leukotriene a4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 81.0 * +EC4.4.1.21 (2r)-2-amino-4-[[(2s,4s)-2,4,5-trihydroxy-3-oxopentyl]sulfanyl]butanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.038 * +EC4.4.1.21 (2r)-2-amino-4-[[(2s,4s)-2,4,5-trihydroxy-3-oxopentyl]sulfanyl]butanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC4.4.1.21 (2r)-2-amino-4-[[(2s,4s)-2,4,5-trihydroxy-3-oxopentyl]sulfanyl]butanoic acid vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.64 * +EC4.4.1.21 s-ribosylhomocysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.03 * +EC4.4.1.21 s-ribosylhomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC4.4.1.21 s-ribosylhomocysteine vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.4 * +EC4.4.1.23 epoxypropane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 6.5 * +EC4.4.1.28 beta-chloro-l-alanine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 14.5 * +EC4.4.1.28 l-cysteine methyl ester treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 32.0 * +EC4.4.1.28 l-cysteine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 39.6 * +EC4.4.1.28 l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 12.0 * +EC4.4.1.28 s-ethyl-l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 9.5 * +EC4.4.1.28 s-methyl-l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 5.95 * +EC4.4.1.29 (2r,3e)-phycocyanobilin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 2.5e-05 * +EC4.4.1.29 apo-[allophycocyanin alpha-subunit] anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0027 * +EC4.4.1.29 apo-[allophycocyanin beta-subunit] anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0024 * +EC4.4.1.31 (2r,3e)-phycocyanobilin mastigocladus laminosus//*//* 7.4e-05 * +EC4.4.1.31 apo-[phycoerythrocyanin alpha-subunit] mastigocladus laminosus//*//* 1e-05 * +EC4.4.1.31 phycocyanobilin mastigocladus laminosus//*//* 2.1e-05 * +EC4.4.1.32 (2r,3e)-phycocyanobilin synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.025 * +EC4.4.1.4 (+/-)-alliin allium sativum//*//* 0.015 * +EC4.4.1.4 (2r)-2-amino-3-(1-phenylethylsulfinyl)propanoic acid petiveria alliacea//*//* 8.18 * +EC4.4.1.4 (2r)-2-amino-3-(2-methylbenzylsulfinyl)propanoic acid petiveria alliacea//*//* 14.33 * +EC4.4.1.4 (2r)-2-amino-3-(4-chlorobenzylsulfinyl)propanoic acid petiveria alliacea//*//* 10.65 * +EC4.4.1.4 (2r)-2-amino-3-(4-methylbenzylsulfinyl)propanoic acid petiveria alliacea//*//* 2.67 * +EC4.4.1.4 (2r)-2-amino-3-(ethylsulfinyl)propanoic acid petiveria alliacea//*//* 2.48 * +EC4.4.1.4 (2r)-2-amino-3-(phenethylsulfinyl)propanoic acid petiveria alliacea//*//* 1.75 * +EC4.4.1.4 (2r)-2-amino-3-(phenylsulfinyl)propanoic acid petiveria alliacea//*//* 6.48 * +EC4.4.1.4 2-hydroxyethiin petiveria alliacea//*//* 4.2 * +EC4.4.1.4 4-mercaptopyridine allium sativum//*//* 0.0028 * +EC4.4.1.4 alliin petiveria alliacea//*//* 20.67 * +EC4.4.1.4 methiin petiveria alliacea//*//* 15.1 * +EC4.4.1.4 petiveriin petiveria alliacea//*//* 4.47 * +EC4.4.1.4 propiin petiveria alliacea//*//* 1.96 * +EC4.4.1.5 (r)-s-lactoylglutathione oryza sativa japonica group//*//* 70.96 * +EC4.4.1.5 glutathione ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 164.0 * +EC4.4.1.5 glutathione isopropyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 222.0 * +EC4.4.1.5 glutathione isopropyl ester leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1170.0 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 338.0 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 66.7 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1700.0 * +EC4.4.1.5 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1360.0 * +EC4.4.1.5 glutathionylspermidine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 161.0 * +EC4.4.1.5 methylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1130.0 * +EC4.4.1.5 methylglyoxal neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 204.0 * +EC4.4.1.5 methylglyoxal onchocerca volvulus//*//* 11.4 * +EC4.4.1.5 methylglyoxal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 271.0 * +EC4.4.1.5 methylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1180.0 * +EC4.4.1.5 methylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1820.0 * +EC4.4.1.5 methylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 983.0 * +EC4.4.1.5 methylglyoxal yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 306.0 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 338.0 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1820.0 * +EC4.4.1.5 more saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 258.3 * +EC4.4.1.5 n-[3-[(4-aminobutyl)amino]propyl]-l-gamma-glutamyl-l-cysteinylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.0 * +EC4.4.1.5 n-[3-[(4-aminobutyl)amino]propyl]-l-gamma-glutamyl-l-cysteinylglycine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1590.0 * +EC4.4.1.5 phenylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1070.0 * +EC4.4.1.5 phenylglyoxal onchocerca volvulus//*//* 81.7 * +EC4.4.1.5 phenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1100.0 * +EC4.4.1.5 phenylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6700.0 * +EC4.4.1.5 phenylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 617.0 * +EC4.4.1.5 trypanothione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 104.0 * +EC4.4.1.5 trypanothione leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1070.0 * +EC4.4.1.5 trypanothione trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 363.0 * +EC4.4.1.8 cystathionine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.5 * +EC4.4.1.8 l-cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 45.3 * +EC4.4.1.8 l-cystathionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.91 * +EC4.4.1.8 l-djenkolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.27 * +EC4.4.1.9 hydrogen cyanide glycine max//eukaryotes;plants;eudicots;pea family//gmx 39.2 * +EC4.4.1.9 kcn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.94 * +EC4.4.1.9 l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.0 * +EC4.4.1.9 l-cysteine glycine max//eukaryotes;plants;eudicots;pea family//gmx 38.9 * +EC4.4.1.9 l-cysteine tetranychus urticae//eukaryotes;animals;arthropods;mites and ticks//tut 2135.0 * +EC4.4.1.9 na2s arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.5 * +EC4.4.1.9 o-acetyl-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.0 * +EC4.5.1.1 1,1,1-trichloro-2,2-bis(4-chlorophenyl)ethane musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0383 * +EC4.5.1.1 1,1,1-trichloro-2,2-bis(4-chlorophenyl)ethane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.113 * +EC4.5.1.3 bromomethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.14 * +EC4.5.1.3 ch2brcl methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 1.0 * +EC4.5.1.3 ch2clf methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.009 * +EC4.5.1.3 ch2cli methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 1.03 * +EC4.5.1.3 chloroethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.1 * +EC4.5.1.3 dibromomethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 5.6 * +EC4.5.1.3 dichloromethane bacillus circulans//*//* 4.78 * +EC4.5.1.3 dichloromethane hyphomicrobium sp. dm2//*//* 0.55 * +EC4.5.1.3 dichloromethane hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.6 * +EC4.5.1.3 dichloromethane methylobacterium extorquens dm4//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mdi 0.87 * +EC4.5.1.3 dichloromethane methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.87 * +EC4.5.1.3 dichloromethane methylobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//met 3.28 * +EC4.5.1.3 dichloromethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 3.6 * +EC4.5.1.3 diiodomethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 1.31 * +EC4.5.1.3 iodoethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.15 * +EC4.6.1.1 atp bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 4600.0 * +EC4.6.1.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.33 * +EC4.6.1.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.67 * +EC4.6.1.1 atp glutamicibacter nicotianae//*//* 1.67 * +EC4.6.1.1 atp mammalia//*//* 12.0 * +EC4.6.1.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 34.0 * +EC4.6.1.1 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00045 * +EC4.6.1.1 atp yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.889 * +EC4.6.1.12 2-phospho-4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.5 * +EC4.6.1.12 2-phospho-4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.7 * +EC4.6.1.12 2-phospho-4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.8 * +EC4.6.1.13 methyl-fluorescein myo-inositol phosphate listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 66.0 * +EC4.6.1.14 variant-surface-glycoprotein trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 19.8 * +EC4.6.1.15 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.3 * +EC4.6.1.17 (8s)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0093 * +EC4.6.1.2 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 290.0 * +EC4.6.1.2 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.7 * +EC4.6.1.2 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 116.0 * +EC4.6.1.2 mggtp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.9 * +EC4.6.1.2 mngtp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC4.6.1.6 ctp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 8.8 * +EC4.6.1.6 ctp bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.3 * +EC4.99.1.1 co2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.016 * +EC4.99.1.1 cu2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.065 * +EC4.99.1.1 fe2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.055 * +EC4.99.1.1 fe2+ bdellovibrio bacteriovorus//prokaryotes;bacteria;deltaproteobacteria;bdellovibrio//bba 0.073 * +EC4.99.1.1 fe2+ caulobacter vibrioides//*//* 0.267 * +EC4.99.1.1 fe2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC4.99.1.1 fe2+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.068 * +EC4.99.1.1 fe2+ myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.08167 * +EC4.99.1.1 fe2+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.195 * +EC4.99.1.1 hemin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.52 * +EC4.99.1.1 mesoporphyrin ix sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.7 * +EC4.99.1.1 porphyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0573 * +EC4.99.1.1 protoporphyrin ix mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0683 * +EC4.99.1.1 protoporphyrin ix mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.013 * +EC4.99.1.1 protoporphyrin ix rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.142 * +EC4.99.1.1 protoporphyrin ix synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.052 * +EC4.99.1.1 protoporphyrin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.3 * +EC4.99.1.1 zn2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC4.99.1.1 zn2+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.7 * +EC4.99.1.1 zn2+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.034 * +EC4.99.1.2 cis-2-butenyl mercuric chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC4.99.1.2 methyl mercuric chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0167 * +EC4.99.1.2 n-butyl mercurial escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.333 * +EC4.99.1.2 tetravinyltin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00333 * +EC4.99.1.5 (e/z)-acetaldoxime pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 336.0 * +EC4.99.1.5 (e/z)-n-butyraldoxime pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 324.0 * +EC4.99.1.5 (e/z)-pyridine-2-aldoxime pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 5.4 * +EC4.99.1.5 (z)-phenylacetaldoxime rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 47.3 * +EC4.99.1.6 (e,z)-indolyl-3-acetaldoxime sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 10.0 * +EC4.99.1.9 coproporphyrin iii bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0078 * +EC4.99.1.9 coproporphyrin iii mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.03 * +EC4.99.1.9 protoporphyrin ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC5.1.1.1 d-ala aquifex pyrophilus//*//* 24.8 * +EC5.1.1.1 d-ala geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 7.0 * +EC5.1.1.1 d-ala penaeus monodon//*//* 2314.0 * +EC5.1.1.1 d-ala procambarus clarkii//*//* 3272.0 * +EC5.1.1.1 d-ala salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.6 * +EC5.1.1.1 d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.617 * +EC5.1.1.1 d-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1017.0 * +EC5.1.1.1 d-alanine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 37.9 * +EC5.1.1.1 d-alanine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 70.0 * +EC5.1.1.1 d-alanine tolypocladium inflatum//*//* 0.06 * +EC5.1.1.1 d-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 5.5 * +EC5.1.1.1 l-ala geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.1 * +EC5.1.1.1 l-ala penaeus monodon//*//* 2589.0 * +EC5.1.1.1 l-ala procambarus clarkii//*//* 7504.0 * +EC5.1.1.1 l-ala salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 9.7 * +EC5.1.1.1 l-alanine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 22.0 * +EC5.1.1.1 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.92 * +EC5.1.1.1 l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1533.0 * +EC5.1.1.1 l-alanine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 632.0 * +EC5.1.1.1 l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 70.63 * +EC5.1.1.1 l-alanine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 55.0 * +EC5.1.1.1 l-alanine tolypocladium inflatum//*//* 0.9 * +EC5.1.1.1 l-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 13.3 * +EC5.1.1.10 d-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 14.5 * +EC5.1.1.10 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.8 * +EC5.1.1.10 n-acetyl-d-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.8 * +EC5.1.1.10 n-acetyl-d-asparagine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.07 * +EC5.1.1.10 n-acetyl-d-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 20.0 * +EC5.1.1.10 n-acetyl-d-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 10.0 * +EC5.1.1.10 n-acetyl-d-tryptophan geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.09 * +EC5.1.1.10 n-acetyl-l-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-acetyl-l-asparagine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.06 * +EC5.1.1.10 n-acetyl-l-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 22.0 * +EC5.1.1.10 n-acetyl-l-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 16.0 * +EC5.1.1.10 n-acetyl-l-tryptophan geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.15 * +EC5.1.1.10 n-carbamoyl-d-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-carbamoyl-l-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-succinyl-d-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 15.0 * +EC5.1.1.10 n-succinyl-d-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-succinyl-l-ala geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 89.0 * +EC5.1.1.10 n-succinyl-l-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 43.0 * +EC5.1.1.10 n-succinyl-l-arg geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.014 * +EC5.1.1.10 n-succinyl-l-asn geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.5 * +EC5.1.1.10 n-succinyl-l-asp geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.071 * +EC5.1.1.10 n-succinyl-l-gln geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 9.0 * +EC5.1.1.10 n-succinyl-l-glu geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.073 * +EC5.1.1.10 n-succinyl-l-his geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-succinyl-l-ile geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 35.0 * +EC5.1.1.10 n-succinyl-l-leu geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 17.0 * +EC5.1.1.10 n-succinyl-l-lys geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.1 * +EC5.1.1.10 n-succinyl-l-met geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 53.0 * +EC5.1.1.10 n-succinyl-l-phe geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 19.0 * +EC5.1.1.10 n-succinyl-l-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 5.0 * +EC5.1.1.10 n-succinyl-l-ser geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 45.0 * +EC5.1.1.10 n-succinyl-l-trp geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 7.9 * +EC5.1.1.10 n-succinyl-l-tyr geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 52.0 * +EC5.1.1.10 n-succinyl-l-val geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 92.0 * +EC5.1.1.11 l-phe brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.38 * +EC5.1.1.12 l-ornithine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 1660.0 * +EC5.1.1.13 d-aspartate scapharca broughtonii//*//* 42.9 * +EC5.1.1.13 l-aspartate scapharca broughtonii//*//* 14.9 * +EC5.1.1.14 isonocardicin a nocardia uniformis//*//* 0.59 * +EC5.1.1.14 nocardicin a nocardia uniformis//*//* 0.35 * +EC5.1.1.18 d-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.41 * +EC5.1.1.18 d-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 14.5 * +EC5.1.1.18 d-serine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.31 * +EC5.1.1.18 d-serine pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 5.22 * +EC5.1.1.18 l-serine o-sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC5.1.1.18 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC5.1.1.18 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.0 * +EC5.1.1.18 l-serine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.36 * +EC5.1.1.18 l-serine pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 14.8 * +EC5.1.1.19 o-ureido-d-serine streptomyces lavendulae subsp. lavendulae//*//* 29.0 * +EC5.1.1.19 o-ureido-l-serine streptomyces lavendulae subsp. lavendulae//*//* 158.0 * +EC5.1.1.20 l-ala-d-asp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.053 * +EC5.1.1.20 l-ala-d-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC5.1.1.20 l-ala-d-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC5.1.1.20 l-ala-d-glu bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 15.0 * +EC5.1.1.20 l-ala-d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC5.1.1.20 l-ala-d-met bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.1 * +EC5.1.1.20 l-ala-d-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC5.1.1.21 d-allo-isoleucine lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 939.0 * +EC5.1.1.21 l-isoleucine lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 502.0 * +EC5.1.1.22 l-proline betaine pelagibaca bermudensis//*//* 5.3 * +EC5.1.1.22 trans-4-hydroxy-l-proline betaine pelagibaca bermudensis//*//* 330.0 * +EC5.1.1.3 d-glu lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 69.0 * +EC5.1.1.3 d-glutamate aquifex pyrophilus//*//* 3.3 * +EC5.1.1.3 d-glutamate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 780.0 * +EC5.1.1.3 d-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.3 * +EC5.1.1.3 d-glutamate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 11.73 * +EC5.1.1.3 d-glutamate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 15.0 * +EC5.1.1.3 d-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 43.33 * +EC5.1.1.3 d-glutamate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 26.0 * +EC5.1.1.3 d-glutamate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.2 * +EC5.1.1.3 d-glutamate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 68.0 * +EC5.1.1.3 d-glutamate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 5980.0 * +EC5.1.1.3 d-glutamate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.56 * +EC5.1.1.3 d-glutamate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.49 * +EC5.1.1.3 l-2-aminoadipic acid fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 2.4 * +EC5.1.1.3 l-glu lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 76.0 * +EC5.1.1.3 l-glutamate aquifex pyrophilus//*//* 0.21 * +EC5.1.1.3 l-glutamate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 116600.0 * +EC5.1.1.3 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 87.0 * +EC5.1.1.3 l-glutamate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 25.0 * +EC5.1.1.3 l-glutamate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 36.66 * +EC5.1.1.3 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.16 * +EC5.1.1.3 l-glutamate fusobacterium nucleatum subsp. nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 17.4 * +EC5.1.1.3 l-glutamate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.05 * +EC5.1.1.3 l-glutamate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 69.0 * +EC5.1.1.3 l-glutamate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 3029.0 * +EC5.1.1.3 l-glutamate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 8.5 * +EC5.1.1.3 l-glutamate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.63 * +EC5.1.1.4 d-proline clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 2.48 * +EC5.1.1.4 d-proline ferroplasma acidarmanus//prokaryotes;archaea;euryarchaeota;ferroplasma//fac 0.119 * +EC5.1.1.4 d-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 2.22 * +EC5.1.1.4 l-proline clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 14.15 * +EC5.1.1.4 l-proline ferroplasma acidarmanus//prokaryotes;archaea;euryarchaeota;ferroplasma//fac 0.6 * +EC5.1.1.4 l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 2.78 * +EC5.1.1.5 d-lysine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 2.83 * +EC5.1.1.5 d-lysine uncultured bacterium//*//* 2.16 * +EC5.1.1.5 d-ornithine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 1.83 * +EC5.1.1.5 l-arginine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 10.83 * +EC5.1.1.5 l-lysine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 3.5 * +EC5.1.1.5 l-lysine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 55.43 * +EC5.1.1.5 l-lysine uncultured bacterium//*//* 5.1 * +EC5.1.1.5 l-ornithine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 1.83 * +EC5.1.1.7 ll-2,6-diaminoheptanedioate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 128.0 * +EC5.1.1.7 ll-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 84.0 * +EC5.1.1.7 meso-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 67.0 * +EC5.1.1.7 meso-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1465 * +EC5.1.1.8 cis-4-hydroxy-d-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 3.83 * +EC5.1.1.8 trans-3-hydroxy-l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 3.6 * +EC5.1.1.8 trans-4-hydroxy-l-proline ferroplasma acidarmanus//prokaryotes;archaea;euryarchaeota;ferroplasma//fac 0.0395 * +EC5.1.1.8 trans-4-hydroxy-l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 12.13 * +EC5.1.1.9 d-alanine pseudomonas taetrolens//*//* 2.6 * +EC5.1.1.9 d-arginine pseudomonas taetrolens//*//* 119.0 * +EC5.1.1.9 d-lysine pseudomonas taetrolens//*//* 104.0 * +EC5.1.1.9 d-ornithine pseudomonas taetrolens//*//* 83.3 * +EC5.1.1.9 l-alanine pseudomonas taetrolens//*//* 2.4 * +EC5.1.1.9 l-arginine pseudomonas taetrolens//*//* 119.0 * +EC5.1.1.9 l-lysine pseudomonas taetrolens//*//* 109.0 * +EC5.1.1.9 l-ornithine pseudomonas taetrolens//*//* 87.7 * +EC5.1.2.1 d-lactate lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 16.7 * +EC5.1.2.1 l-lactate lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 6.67 * +EC5.1.2.2 (2r)-2-naphthylglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 70.0 * +EC5.1.2.2 (r)-2-hydroxy-3-butenoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 240.0 * +EC5.1.2.2 (r)-2-naphthylglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 70.0 * +EC5.1.2.2 (r)-2-naphtylglyconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 70.0 * +EC5.1.2.2 (r)-3-chloromandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 469.0 * +EC5.1.2.2 (r)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.03 * +EC5.1.2.2 (r)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 792.0 * +EC5.1.2.2 (r)-trifluorolactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC5.1.2.2 (s)-2-hydroxy-3-butenoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 250.0 * +EC5.1.2.2 (s)-2-naphthylglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 38.4 * +EC5.1.2.2 (s)-2-naphtylglyconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 38.4 * +EC5.1.2.2 (s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1124.0 * +EC5.1.2.2 (s)-trifluorolactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.5 * +EC5.1.2.2 d-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1070.0 * +EC5.1.2.7 d-fructuronate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 6.5 * +EC5.1.3.1 d-ribulose 5-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1300.0 * +EC5.1.3.1 d-ribulose 5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 7100.0 * +EC5.1.3.1 d-ribulose 5-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 870.0 * +EC5.1.3.1 d-xylulose 5-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1300.0 * +EC5.1.3.11 cellobiose bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 67.6 * +EC5.1.3.11 cellobiose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 169.1 * +EC5.1.3.11 cellobiose eubacterium cellulosolvens//*//* 32.5 * +EC5.1.3.11 cellobiose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 80.8 * +EC5.1.3.11 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 63.8 * +EC5.1.3.11 d-glucose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.27 * +EC5.1.3.11 d-mannose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.74 * +EC5.1.3.11 lactose bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 79.5 * +EC5.1.3.11 lactose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 89.4 * +EC5.1.3.11 lactose eubacterium cellulosolvens//*//* 28.5 * +EC5.1.3.11 lactose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 111.0 * +EC5.1.3.11 lactose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 52.1 * +EC5.1.3.13 dtdp-6-deoxy-d-xylo-4-hexulose salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 39.0 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 7.9 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.1 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 3.4 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC5.1.3.15 alpha-d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1950.0 * +EC5.1.3.15 beta-d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 446.0 * +EC5.1.3.17 uronic acid residues bos taurus//eukaryotes;animals;vertebrates;mammals//bta 620.0 * +EC5.1.3.18 gdp-d-mannose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.041 * +EC5.1.3.18 gdp-d-mannose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.127 * +EC5.1.3.25 dtdp-6-deoxy-beta-l-talose burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.9 * +EC5.1.3.3 alpha-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12000.0 * +EC5.1.3.3 alpha-d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2600.0 * +EC5.1.3.3 alpha-d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16500.0 * +EC5.1.3.3 alpha-d-glucose capsicum frutescens//*//* 13300.0 * +EC5.1.3.3 alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4900.0 * +EC5.1.3.30 d-fructose clostridium bolteae//*//* 59.0 * +EC5.1.3.30 d-fructose clostridium cellulolyticum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cce 55.9 * +EC5.1.3.30 d-fructose clostridium scindens//*//* 350.0 * +EC5.1.3.30 d-fructose clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 273.0 * +EC5.1.3.30 d-fructose desmospora sp. 8437//*//* 63570.0 * +EC5.1.3.30 d-fructose ruminococcus sp.//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//rum 59.4 * +EC5.1.3.30 d-psicose clostridium bolteae//*//* 49.0 * +EC5.1.3.30 d-psicose clostridium cellulolyticum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cce 54.1 * +EC5.1.3.30 d-psicose clostridium scindens//*//* 1827.0 * +EC5.1.3.30 d-psicose clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 536.0 * +EC5.1.3.30 d-psicose desmospora sp. 8437//*//* 85.95 * +EC5.1.3.30 d-psicose ruminococcus sp.//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//rum 40.45 * +EC5.1.3.31 d-psicose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.0057 * +EC5.1.3.31 d-tagatose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.057 * +EC5.1.3.31 l-ribulose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.22 * +EC5.1.3.31 l-xylulose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.14 * +EC5.1.3.37 [alginate]-beta-d-mannuronate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 14.0 * +EC5.1.3.4 l-ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 36.5 * +EC5.1.3.5 udp-alpha-d-xylopyranose hordeum vulgare//*//* 1.5 * +EC5.1.3.5 udp-alpha-d-xylopyranose sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 13.0 * +EC5.1.3.5 udp-beta-l-arabinopyranose hordeum vulgare//*//* 1.5 * +EC5.1.3.5 udp-d-xylopyranose sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 13.0 * +EC5.1.3.5 udp-d-xylose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 19.0 * +EC5.1.3.6 udp-glucuronate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 24.0 * +EC5.1.3.6 udp-glucuronate oryza sativa//eukaryotes;plants;monocots;grass family//osa 37.4 * +EC5.1.3.6 udp-glucuronate zea mays//eukaryotes;plants;monocots;grass family//zma 10.1 * +EC5.1.3.7 udp-d-galactose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 290.1 * +EC5.1.3.7 udp-d-galactose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 36.9 * +EC5.1.3.7 udp-d-glucose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 73.95 * +EC5.1.3.7 udp-d-glucose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.52 * +EC5.1.3.7 udp-n-acetyl-alpha-d-glucosamine marinithermus hydrothermalis//prokaryotes;bacteria;deinococcus-thermus;marinithermus//mhd 0.58 * +EC5.1.3.7 udp-n-acetyl-d-galactosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 247.9 * +EC5.1.3.7 udp-n-acetyl-d-glucosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 82.3 * +EC5.1.3.7 udp-n-acetyl-d-glucosamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 62300.0 * +EC5.1.3.B1 alpha-d-fucose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1700.0 * +EC5.1.3.B1 alpha-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18400.0 * +EC5.1.3.B1 alpha-d-galactose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3700.0 * +EC5.1.3.B1 alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22000.0 * +EC5.1.3.B1 alpha-d-glucose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 430.0 * +EC5.1.3.B1 alpha-d-quinovose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 490.0 * +EC5.1.3.B1 alpha-d-xylose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 410.0 * +EC5.1.3.B1 alpha-l-arabinose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5500.0 * +EC5.1.3.B12 d-fructose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2068.0 * +EC5.1.3.B12 d-psicose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2381.0 * +EC5.1.3.B12 d-tagatose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 194.0 * +EC5.1.99.1 dl-methylmalonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4170.0 * +EC5.1.99.1 methylmalonyl-coa pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 240.0 * +EC5.1.99.3 (r)-allantoin klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 238.0 * +EC5.1.99.3 (s)-allantoin klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 183.0 * +EC5.1.99.4 (2r)-ibuprofenoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 291.0 * +EC5.1.99.4 (2s)-2-methyldecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC5.1.99.4 (2s)-ibuprofenoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 450.0 * +EC5.1.99.4 (r)-2-methyldecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 53.8 * +EC5.1.99.4 (s)-2-methyldecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.9 * +EC5.1.99.4 (s)-ketoprofenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC5.1.99.4 (s)-naproxenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0095 * +EC5.1.99.5 d-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.5 * +EC5.1.99.5 d-benzylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.46 * +EC5.1.99.5 d-benzylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.29 * +EC5.1.99.5 d-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.8 * +EC5.1.99.5 d-isobutylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.83 * +EC5.1.99.5 d-isobutylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 3.24 * +EC5.1.99.5 l-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.78 * +EC5.1.99.5 l-benzylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.18 * +EC5.1.99.5 l-benzylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.94 * +EC5.1.99.5 l-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.81 * +EC5.1.99.5 l-ethylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 6.42 * +EC5.1.99.5 l-isobutylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.48 * +EC5.1.99.5 l-isobutylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.12 * +EC5.1.99.6 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.26 * +EC5.1.99.6 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.38 * +EC5.1.99.6 (r)-nadh-hydrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 82.0 * +EC5.1.99.6 (r)-nadph-hydrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1827.0 * +EC5.2.1.1 maleate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 36.7 * +EC5.2.1.1 maleate nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 2.8 * +EC5.2.1.1 maleate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 30.0 * +EC5.2.1.2 (+/-)-2-bromo-3-(4-nitrophenyl)propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC5.2.1.2 4-maleylacetoacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 464.0 * +EC5.2.1.4 maleylpyruvate ralstonia sp.//*//* 101.3 * +EC5.2.1.8 n-succinyl-ala-glu-(trans)-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 140.0 * +EC5.2.1.8 rnase t1 mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.45 * +EC5.2.1.8 succinyl-ala-ala-(cis)-pro-lys-4-methylcoumarin-7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC5.2.1.8 succinyl-ala-ala-(cis)-pro-lys-4-methylcoumarin-7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC5.2.1.8 succinyl-ala-ala-(cis)-pro-phe 4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC5.2.1.8 succinyl-ala-ala-(cis)-pro-phe 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC5.2.1.8 succinyl-ala-ala-pro-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14600.0 * +EC5.2.1.8 succinyl-ala-ala-pro-phe 4-nitroanilide legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 1820.0 * +EC5.2.1.8 succinyl-ala-lys-pro-phe 4-nitroanilide legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 1060.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 3372.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9000.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4300.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate giardia intestinalis//*//* 7666.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 14670.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 4170.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate moritella marina//*//* 7000.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 68330.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8670.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 42330.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1548000.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16700.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate tenebrio molitor//*//* 4300.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 1430000.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate trypanosoma brucei brucei//*//* 2100.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 6170.0 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5000.0 * +EC5.3.1.1 dihydroxyacetone 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 327.0 * +EC5.3.1.1 dihydroxyacetone phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 430.0 * +EC5.3.1.1 dihydroxyacetone phosphate giardia intestinalis//*//* 267.0 * +EC5.3.1.1 dihydroxyacetone phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 730.0 * +EC5.3.1.1 dihydroxyacetone phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 500.0 * +EC5.3.1.1 dihydroxyacetone phosphate trypanosoma brucei brucei//*//* 300.0 * +EC5.3.1.1 dihydroxyacetone phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 800.0 * +EC5.3.1.1 glycerone phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 367.0 * +EC5.3.1.1 glycerone phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1080.0 * +EC5.3.1.12 d-galacturonate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 2.4 * +EC5.3.1.12 d-glucuronate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 5.2 * +EC5.3.1.12 d-glucuronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 196.0 * +EC5.3.1.13 d-arabinose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 218.0 * +EC5.3.1.13 d-arabinose 5-phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 141.0 * +EC5.3.1.13 d-ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 255.0 * +EC5.3.1.14 d-allose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 14.2 * +EC5.3.1.14 d-allose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 68.1 * +EC5.3.1.14 d-allose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 81.0 * +EC5.3.1.14 d-allose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 1.3 * +EC5.3.1.14 d-allose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 2500.0 * +EC5.3.1.14 d-allose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 33.9 * +EC5.3.1.14 d-altrose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.05 * +EC5.3.1.14 d-arabinose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.17 * +EC5.3.1.14 d-glucose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.024 * +EC5.3.1.14 d-ribose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 34.5 * +EC5.3.1.14 d-ribose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 118.0 * +EC5.3.1.14 d-ribose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 49.0 * +EC5.3.1.14 d-ribose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.1 * +EC5.3.1.14 d-ribose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 3150.0 * +EC5.3.1.14 d-ribose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 21.5 * +EC5.3.1.14 d-xylose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 33.0 * +EC5.3.1.14 l-fructose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 116.0 * +EC5.3.1.14 l-fructose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 274.0 * +EC5.3.1.14 l-lyxose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 76.8 * +EC5.3.1.14 l-lyxose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 216.0 * +EC5.3.1.14 l-lyxose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 186.0 * +EC5.3.1.14 l-lyxose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 200.0 * +EC5.3.1.14 l-lyxose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 73.8 * +EC5.3.1.14 l-lyxose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 900.0 * +EC5.3.1.14 l-lyxose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 240.0 * +EC5.3.1.14 l-lyxose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 462.0 * +EC5.3.1.14 l-mannose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 31.0 * +EC5.3.1.14 l-mannose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 88.88 * +EC5.3.1.14 l-mannose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 78.7 * +EC5.3.1.14 l-mannose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 155.0 * +EC5.3.1.14 l-mannose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 10.0 * +EC5.3.1.14 l-mannose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 1000.0 * +EC5.3.1.14 l-mannose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 30.0 * +EC5.3.1.14 l-mannose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 442.0 * +EC5.3.1.14 l-rhamnose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 68.0 * +EC5.3.1.14 l-rhamnose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 149.5 * +EC5.3.1.14 l-rhamnose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 99.9 * +EC5.3.1.14 l-rhamnose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 195.0 * +EC5.3.1.14 l-rhamnose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 50.5 * +EC5.3.1.14 l-rhamnose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 374.0 * +EC5.3.1.14 l-rhamnose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 180.0 * +EC5.3.1.14 l-rhamnose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 146.0 * +EC5.3.1.14 l-rhamnulose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 1717.0 * +EC5.3.1.14 l-talose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 7.0 * +EC5.3.1.14 l-xylose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.017 * +EC5.3.1.14 l-xylulose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 130.0 * +EC5.3.1.14 l-xylulose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 281.0 * +EC5.3.1.15 d-fructose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 2010.0 * +EC5.3.1.15 d-fructose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 4297.0 * +EC5.3.1.15 d-lyxose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 98.0 * +EC5.3.1.15 d-lyxose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 59.5 * +EC5.3.1.15 d-lyxose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 31340.0 * +EC5.3.1.15 d-lyxose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 30810.0 * +EC5.3.1.15 d-mannose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 43.0 * +EC5.3.1.15 d-mannose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 2.97 * +EC5.3.1.15 d-mannose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 2640.0 * +EC5.3.1.15 d-mannose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 16170.0 * +EC5.3.1.15 d-xylulose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 69.3 * +EC5.3.1.15 d-xylulose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 34960.0 * +EC5.3.1.15 d-xylulose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 31620.0 * +EC5.3.1.15 l-ribulose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 1.7 * +EC5.3.1.16 n'-[(5'-phosphoribosyl)formimino]-5-aminoimidazole-4-carboxamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.3 * +EC5.3.1.16 n'-[(5'-phosphoribosyl)formimino]-5-aminoimidazole-4-carboxamide ribonucleotide thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 32.0 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 69.0 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 12.0 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 130.0 * +EC5.3.1.25 l-fucose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.1985 * +EC5.3.1.25 l-fucose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 258.3 * +EC5.3.1.26 d-allose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.16 * +EC5.3.1.28 d-sedoheptulose 7-phosphate burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.5 * +EC5.3.1.28 d-sedoheptulose 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC5.3.1.29 alpha-d-ribose 1,5-bisphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 29.2 * +EC5.3.1.3 d-altrose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.0287 * +EC5.3.1.3 d-arabinose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.1823 * +EC5.3.1.4 d-galactose anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 78.5 * +EC5.3.1.4 d-galactose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 1.2 * +EC5.3.1.4 d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.21 * +EC5.3.1.4 d-galactose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 53.08 * +EC5.3.1.4 d-galactose geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 3.4 * +EC5.3.1.4 d-galactose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 4.9 * +EC5.3.1.4 d-tagatose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.82 * +EC5.3.1.4 l-aldose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 241.7 * +EC5.3.1.4 l-arabinose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 33.15 * +EC5.3.1.4 l-arabinose anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 0.9 * +EC5.3.1.4 l-arabinose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 3657.0 * +EC5.3.1.4 l-arabinose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 31.03 * +EC5.3.1.4 l-arabinose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 207.6 * +EC5.3.1.4 l-arabinose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 107.9 * +EC5.3.1.4 l-arabinose geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 113.6 * +EC5.3.1.4 l-ribulose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 241.7 * +EC5.3.1.40 d-tagatose 6-phosphate agrobacterium fabrum//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atu 8.7 * +EC5.3.1.5 d-arabinose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 3.0 * +EC5.3.1.5 d-fructose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 20.5 * +EC5.3.1.5 d-glucose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 26.3 * +EC5.3.1.5 d-glucose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 19.9 * +EC5.3.1.5 d-glucose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 50.0 * +EC5.3.1.5 d-glucose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 15.5 * +EC5.3.1.5 d-glucose streptomyces corchorusii//*//* 30.72 * +EC5.3.1.5 d-glucose streptomyces rubiginosus//*//* 5.27 * +EC5.3.1.5 d-glucose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 172.6 * +EC5.3.1.5 d-glucose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 3.23 * +EC5.3.1.5 d-glucose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 16.3 * +EC5.3.1.5 d-glucose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 4.54 * +EC5.3.1.5 d-glyceraldehyde streptomyces rubiginosus//*//* 0.0001 * +EC5.3.1.5 d-lyxose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.0617 * +EC5.3.1.5 d-lyxose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 25.0 * +EC5.3.1.5 d-mannose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 18.0 * +EC5.3.1.5 d-ribose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.515 * +EC5.3.1.5 d-xylose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 17.3 * +EC5.3.1.5 d-xylose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 8.88 * +EC5.3.1.5 d-xylose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 230.0 * +EC5.3.1.5 d-xylose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 146.6 * +EC5.3.1.5 d-xylose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 184.0 * +EC5.3.1.5 d-xylose streptomyces rubiginosus//*//* 5.52 * +EC5.3.1.5 d-xylose streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 4.15 * +EC5.3.1.5 d-xylose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 8.6 * +EC5.3.1.5 d-xylose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 46.6 * +EC5.3.1.5 d-xylose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 47.0 * +EC5.3.1.5 d-xylulose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 7.7 * +EC5.3.1.5 l-arabinose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 0.1 * +EC5.3.1.5 l-arabinose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.31 * +EC5.3.1.5 l-arabinose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.5 * +EC5.3.1.5 l-ribose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 0.0252 * +EC5.3.1.6 d-allose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 200.0 * +EC5.3.1.6 d-allose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2682.0 * +EC5.3.1.6 d-psicose pseudothermotoga lettingae//prokaryotes;bacteria;thermotogae;pseudothermotoga//tle 0.116 * +EC5.3.1.6 d-psicose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2347.0 * +EC5.3.1.6 d-ribose 5-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 97.0 * +EC5.3.1.6 d-ribose 5-phosphate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 15100.0 * +EC5.3.1.6 d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2100.0 * +EC5.3.1.6 d-ribose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 120.0 * +EC5.3.1.6 d-ribose 5-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 625.0 * +EC5.3.1.6 d-ribose 5-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 52000.0 * +EC5.3.1.6 d-ribose 5-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1192.0 * +EC5.3.1.6 d-ribose 5-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1072.0 * +EC5.3.1.6 d-ribose-5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3440.0 * +EC5.3.1.6 d-ribose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 160.0 * +EC5.3.1.6 d-ribose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 11880.0 * +EC5.3.1.6 d-ribulose 5-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 4.7 * +EC5.3.1.6 d-ribulose 5-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 50.0 * +EC5.3.1.6 d-ribulose 5-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 39530.0 * +EC5.3.1.6 d-ribulose 5-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.0 * +EC5.3.1.6 d-ribulose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 9193.0 * +EC5.3.1.6 d-talose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 119.0 * +EC5.3.1.6 l-allose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1506.0 * +EC5.3.1.6 l-ribose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 322.0 * +EC5.3.1.6 l-ribulose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 17.0 * +EC5.3.1.6 l-tagatose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1822.0 * +EC5.3.1.6 l-talose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 140.0 * +EC5.3.1.6 l-talose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 13420.0 * +EC5.3.1.8 beta-d-mannose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC5.3.1.8 beta-d-mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC5.3.1.8 d-fructose 6-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 141.0 * +EC5.3.1.8 d-lyxose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7089.0 * +EC5.3.1.8 d-mannose 6-phosphate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 19.4 * +EC5.3.1.8 d-mannose 6-phosphate geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 23550.0 * +EC5.3.1.8 d-mannose 6-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.38 * +EC5.3.1.8 d-mannose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.0 * +EC5.3.1.8 d-mannose 6-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1371.0 * +EC5.3.1.8 d-mannose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3748.0 * +EC5.3.1.8 d-ribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 72.0 * +EC5.3.1.8 d-talose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 63970.0 * +EC5.3.1.8 l-allose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 920.0 * +EC5.3.1.8 l-ribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 17600.0 * +EC5.3.1.8 l-ribulose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 50640.0 * +EC5.3.1.8 mannose 6-phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 162.0 * +EC5.3.1.9 d-fructose 6-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 32.4 * +EC5.3.1.9 d-fructose 6-phosphate carassius auratus//*//* 18.0 * +EC5.3.1.9 d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 650.0 * +EC5.3.1.9 d-fructose 6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.4 * +EC5.3.1.9 d-fructose 6-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 5.0 * +EC5.3.1.9 d-fructose 6-phosphate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 26.0 * +EC5.3.1.9 d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1000.0 * +EC5.3.1.9 d-glucose 6-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2765.0 * +EC5.3.1.9 d-glucose 6-phosphate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 42.0 * +EC5.3.1.9 fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3330.0 * +EC5.3.1.9 l-talose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 475.5 * +EC5.3.1.B3 d-fructose cellulomonas parahominis//*//* 17.5 * +EC5.3.1.B3 d-lyxose cellulomonas parahominis//*//* 17.3 * +EC5.3.1.B3 d-mannose cellulomonas parahominis//*//* 2.5 * +EC5.3.1.B3 d-tagatose cellulomonas parahominis//*//* 40.8 * +EC5.3.1.B3 d-talose cellulomonas parahominis//*//* 15.8 * +EC5.3.1.B3 d-xylulose cellulomonas parahominis//*//* 18.2 * +EC5.3.1.B3 l-allose cellulomonas parahominis//*//* 2.8 * +EC5.3.1.B3 l-gulose cellulomonas parahominis//*//* 2.1 * +EC5.3.1.B3 l-psicose cellulomonas parahominis//*//* 2.2 * +EC5.3.1.B3 l-ribose cellulomonas parahominis//*//* 95.2 * +EC5.3.1.B3 l-ribulose cellulomonas parahominis//*//* 108.8 * +EC5.3.1.B3 l-sorbose cellulomonas parahominis//*//* 0.38 * +EC5.3.2.1 (4-hydroxyphenyl)enolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 3.2 * +EC5.3.2.1 (4-hydroxyphenyl)pyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.89 * +EC5.3.2.1 cis-3-chloroacrylate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 4.6 * +EC5.3.2.1 enol-(p-hydroxyphenyl)pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 160.0 * +EC5.3.2.1 enol-phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 410.0 * +EC5.3.2.1 enol-phenylpyruvate pseudomonas pavonaceae//*//* 1.4 * +EC5.3.2.1 keto-(p-hydroxyphenyl)pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC5.3.2.1 keto-(p-hydroxyphenyl)pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 120.0 * +EC5.3.2.1 keto-phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 285.0 * +EC5.3.2.1 phenylenolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 34.0 * +EC5.3.2.1 phenylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC5.3.2.1 trans-3-chloroacrylate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0004 * +EC5.3.2.2 enol-oxaloacetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 45.7 * +EC5.3.2.2 keto-oxaloacetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.58 * +EC5.3.2.4 cdp-4-dehydro-6-deoxy-alpha-d-glucose streptomyces fradiae//*//* 0.00025 * +EC5.3.2.4 dtdp-4-dehydro-2,6-dideoxy-alpha-d-glucose streptomyces fradiae//*//* 0.13 * +EC5.3.2.4 dtdp-4-dehydro-6-deoxy-alpha-d-glucopyranose streptomyces fradiae//*//* 0.1 * +EC5.3.2.5 5-(methylthio)-2,3-dioxopentyl 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 83.0 * +EC5.3.2.6 (2e)-2-hydroxy-3-phenylprop-2-enoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.0 * +EC5.3.2.6 (2z,4e)-2-hydroxyhexa-2,4-dienedioate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.2 * +EC5.3.2.6 (2z,4e)-2-hydroxyhexa-2,4-dienedioate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.6 * +EC5.3.2.6 2-hydroxy-2,4-hexadienedioate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 3000.0 * +EC5.3.2.6 2-hydroxy-2,4-hexadienedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3500.0 * +EC5.3.2.6 2-hydroxy-2,4-pentadienoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.1 * +EC5.3.2.6 2-hydroxy-2,4-pentadienoate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.5 * +EC5.3.2.6 2-hydroxy-2,4-pentadienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC5.3.2.6 2-hydroxymuconate methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 4600.0 * +EC5.3.2.6 2-hydroxymuconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 139000.0 * +EC5.3.2.6 2-oxo-3-hexenedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 288000.0 * +EC5.3.2.6 2-oxo-4(e)-hexenedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2940.0 * +EC5.3.2.6 5-(methyl)-2-hydroxymuconate methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 107.0 * +EC5.3.2.6 phenylenolpyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.4 * +EC5.3.2.6 phenylenolpyruvate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 13.0 * +EC5.3.2.6 phenylenolpyruvate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.6 * +EC5.3.3.1 17beta-hydroxy-5(10)-estren-3-one comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 70.8 * +EC5.3.3.1 5(10)-estrene-3,17-dione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.1 * +EC5.3.3.1 5-androstene-3,17-dione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 288000.0 * +EC5.3.3.1 5-androstene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.6 * +EC5.3.3.1 5-androstene-3,17-dione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 27900.0 * +EC5.3.3.1 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4890.0 * +EC5.3.3.1 delta5-pregnen-3,20-dione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.303 * +EC5.3.3.13 (5z,8z,11z,14z,17z)-eicosapentaenoate ptilota filicina//*//* 41.0 * +EC5.3.3.13 linoleic acid cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 4.37 * +EC5.3.3.14 cis-3-decenoyl-n-acetylcysteamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC5.3.3.19 3-[(4s)-4-hydroxycyclohexa-1,5-dien-1-yl]-2-oxopropanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 24.52 * +EC5.3.3.2 isopentenyl diphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 191.0 * +EC5.3.3.2 isopentenyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.6 * +EC5.3.3.2 isopentenyl diphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.69 * +EC5.3.3.2 isopentenyl diphosphate sulfolobus shibatae//*//* 29900.0 * +EC5.3.3.2 isopentenyl diphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 17.9 * +EC5.3.3.4 (4r,5r)-5-chloro-3-methylmuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 42.5 * +EC5.3.3.4 (4r,5r/4s,5s)-(+/-)-5-chloro-3-methylmuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 267.0 * +EC5.3.3.4 (4r,5s)-(+)-5-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 5950.0 * +EC5.3.3.4 (4r,5s)-5-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 5950.0 * +EC5.3.3.4 (4s)-(+)-muconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 683.0 * +EC5.3.3.4 (4s)-2-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 7.17 * +EC5.3.3.4 (4s)-muconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 286.0 * +EC5.3.3.4 muconolactone rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 66.67 * +EC5.3.3.5 zymosterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.423 * +EC5.3.3.6 itaconate eubacterium barkeri//*//* 2.0 * +EC5.3.3.6 methylitaconate eubacterium barkeri//*//* 1720.0 * +EC5.3.3.8 2-trans,5-cis-octadienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 45.0 * +EC5.3.3.8 2-trans,5-cis-tetradecadienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC5.3.3.8 3-cis-dodecenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 128.0 * +EC5.3.3.8 3-cis-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 200.0 * +EC5.3.3.8 3-cis-hexenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.4 * +EC5.3.3.8 3-cis-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 180.0 * +EC5.3.3.8 3-cis-tetradecenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 63.0 * +EC5.3.3.8 3-cis-tetradecenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 210.0 * +EC5.3.3.8 3-decynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 284.0 * +EC5.3.3.8 3-dodecynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 500.0 * +EC5.3.3.8 3-hexynoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 25.0 * +EC5.3.3.8 3-hexynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 130.0 * +EC5.3.3.8 3-octynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 105.0 * +EC5.3.3.8 3-trans-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 270.0 * +EC5.3.3.8 3-trans-hexenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.0 * +EC5.3.3.8 3-trans-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 210.0 * +EC5.3.3.8 3-trans-tetradecenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 540.0 * +EC5.3.3.8 trans-3-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 160.0 * +EC5.3.3.8 trans-3-hexenoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.5 * +EC5.3.4.1 rnase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC5.3.4.1 srnase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC5.3.99.2 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.95 * +EC5.3.99.2 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 21.7 * +EC5.3.99.2 1-chloro-2,4-dinitrobenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC5.3.99.2 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC5.3.99.2 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.64 * +EC5.3.99.3 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC5.3.99.3 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC5.3.99.3 prostaglandin g2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 75.0 * +EC5.3.99.3 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC5.3.99.3 prostaglandine g2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 75.0 * +EC5.3.99.4 prostaglandin h1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 26.5 * +EC5.3.99.4 prostaglandin h2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.45 * +EC5.3.99.5 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC5.3.99.5 prostaglandin g2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.2 * +EC5.3.99.5 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.1 * +EC5.3.99.5 prostaglandin h3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 59.4 * +EC5.4.1.3 2-methylfumaryl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 840.0 * +EC5.4.2.1 3-phospho-d-glycerate dirofilaria immitis//*//* 132.0 * +EC5.4.2.1 3-phospho-d-glycerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3200.0 * +EC5.4.2.1 3-phospho-d-glycerate wolbachia endosymbiont of dirofilaria immitis//*//* 102.0 * +EC5.4.2.10 alpha-d-glucosamine 1-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.52 * +EC5.4.2.10 alpha-d-glucose 1-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.1 * +EC5.4.2.10 d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.9 * +EC5.4.2.10 d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0138 * +EC5.4.2.11 3-phospho-d-glycerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3200.0 * +EC5.4.2.11 3-phospho-d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 530.0 * +EC5.4.2.11 3-phospho-d-glycerate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 82.0 * +EC5.4.2.11 3-phosphoglycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 530.0 * +EC5.4.2.12 2-phospho-d-glycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 14.0 * +EC5.4.2.12 2-phospho-d-glycerate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 199.0 * +EC5.4.2.12 2-phospho-d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.01 * +EC5.4.2.12 3-phospho-d-glycerate dirofilaria immitis//*//* 132.0 * +EC5.4.2.12 3-phospho-d-glycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 57.0 * +EC5.4.2.12 3-phospho-d-glycerate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 434.0 * +EC5.4.2.12 3-phospho-d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.01 * +EC5.4.2.12 3-phospho-d-glycerate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 19.6 * +EC5.4.2.12 3-phospho-d-glycerate wolbachia endosymbiont of dirofilaria immitis//*//* 102.0 * +EC5.4.2.12 3-phospho-d-glycerate wolbachia sp.//*//* 102.0 * +EC5.4.2.2 alpha-d-glucose 1-phosphate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.74 * +EC5.4.2.2 alpha-d-glucose 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 70.31 * +EC5.4.2.2 alpha-d-glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 95.0 * +EC5.4.2.2 alpha-d-glucose 1-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 190.0 * +EC5.4.2.2 alpha-d-glucose 1-phosphate sphingobium chungbukense//*//* 126.8 * +EC5.4.2.2 alpha-d-glucose 1-phosphate sphingomonas sanxanigenens//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//ssan 10.77 * +EC5.4.2.2 alpha-d-glucose 1-phosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 398.0 * +EC5.4.2.2 alpha-d-mannose 1-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 59.0 * +EC5.4.2.2 alpha-d-mannose 1-phosphate sphingobium chungbukense//*//* 79.17 * +EC5.4.2.2 d-glucose 1,6-diphosphate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.74 * +EC5.4.2.2 glucose 1-phosphate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 135.0 * +EC5.4.2.2 glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 50.0 * +EC5.4.2.2 mannose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 22.5 * +EC5.4.2.3 n-acetyl-alpha-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.94 * +EC5.4.2.4 1,3-diphosphoglycerate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 23.4 * +EC5.4.2.4 2,3-diphosphoglycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC5.4.2.6 beta-d-glucose 1-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 177.0 * +EC5.4.2.7 2-deoxy-d-ribose 1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 173.0 * +EC5.4.2.7 d-ribose 5-phosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 10.2 * +EC5.4.2.8 alpha-d-glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.83 * +EC5.4.2.8 alpha-d-glucose 1-phosphate sphingobium chungbukense//*//* 82.93 * +EC5.4.2.8 alpha-d-mannose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.01 * +EC5.4.2.8 alpha-d-mannose 1-phosphate sphingobium chungbukense//*//* 134.9 * +EC5.4.2.8 alpha-d-mannose 1-phosphate sphingomonas sanxanigenens//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//ssan 2.28 * +EC5.4.2.8 d-glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.85 * +EC5.4.2.8 d-glucose-1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.72 * +EC5.4.2.8 d-mannose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC5.4.2.8 d-mannose-1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC5.4.2.9 3-phosphonopyruvate mytilus edulis//*//* 34.0 * +EC5.4.2.9 phosphonopyruvate tetrahymena pyriformis//*//* 150.0 * +EC5.4.3.10 3'-methyl-alpha-phenylalanine taxus canadensis//*//* 0.022 * +EC5.4.3.10 4'-methyl-alpha-phenylalanine taxus canadensis//*//* 0.03 * +EC5.4.3.10 l-phenylalanine taxus canadensis//*//* 0.053 * +EC5.4.3.10 styryl-alpha-alanine taxus canadensis//*//* 0.0002 * +EC5.4.3.11 d-beta-phenylalanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.059 * +EC5.4.3.11 d-beta-phenylalanine streptomyces maritimus//*//* 0.22 * +EC5.4.3.11 l-phenylalanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.087 * +EC5.4.3.11 l-phenylalanine streptomyces maritimus//*//* 0.159 * +EC5.4.3.2 l-lys clostridium subterminale//*//* 83.0 * +EC5.4.3.2 l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.083 * +EC5.4.3.5 d-ornithine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 6.3 * +EC5.4.3.6 l-3,4-dihydroxyphenylalanine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.0067 * +EC5.4.3.6 l-3-chlorotyrosine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.0048 * +EC5.4.3.6 l-tyrosine chondromyces crocatus//prokaryotes;bacteria;deltaproteobacteria;chondromyces//ccro 7000.0 * +EC5.4.3.6 l-tyrosine cupriavidus crocatus//*//* 7000.0 * +EC5.4.3.6 l-tyrosine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 10000.0 * +EC5.4.3.8 (s)-4-amino-5-oxopentanoate hordeum vulgare//*//* 0.11 * +EC5.4.3.8 (s)-4-amino-5-oxopentanoate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.95 * +EC5.4.4.2 chorismate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.08 * +EC5.4.4.2 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.93 * +EC5.4.4.2 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 50.4 * +EC5.4.4.2 isochorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC5.4.99.1 (2s,3s)-3-methylaspartate clostridium cochlearium//*//* 5.8 * +EC5.4.99.1 l-2-hydroxyglutarate clostridium cochlearium//*//* 0.05 * +EC5.4.99.1 l-glu clostridium cochlearium//*//* 5.8 * +EC5.4.99.1 l-glu clostridium tetanomorphum//*//* 20.0 * +EC5.4.99.1 l-glutamate clostridium cochlearium//*//* 5.8 * +EC5.4.99.1 l-threo-3-methylaspartate clostridium cochlearium//*//* 5.4 * +EC5.4.99.11 d-glucose pseudomonas mesoacidophila//*//* 15.0 * +EC5.4.99.11 isomaltulose pseudomonas mesoacidophila//*//* 258.0 * +EC5.4.99.11 sucrose klebsiella sp.//*//* 10430.0 * +EC5.4.99.11 sucrose serratia plymuthica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srr 30.0 * +EC5.4.99.11 trehalulose pseudomonas mesoacidophila//*//* 1144.0 * +EC5.4.99.12 trna uridine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.73 * +EC5.4.99.12 trnahis guanidine36 uridine38 cytidine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0019 * +EC5.4.99.12 trnahis uridine38 cytidine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0746 * +EC5.4.99.12 trnahis uridine38 uridine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.144 * +EC5.4.99.12 trnaval2a cytidine36 uridine38 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0244 * +EC5.4.99.13 butanoyl-coa streptomyces cinnamonensis//*//* 38.2 * +EC5.4.99.13 isobutyryl-coa geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 3.1 * +EC5.4.99.14 (4s)-4-methylmuconolactone pseudomonas reinekei//*//* 24.2 * +EC5.4.99.14 1-methyl-3,7-dioxo-2,6-dioxabicyclo[3.3.0]octane cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.75 * +EC5.4.99.14 4-carboxymethyl-4-methylbut-2-en-1,4-olide cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 98.5 * +EC5.4.99.15 maltoheptaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 383.0 * +EC5.4.99.15 maltohexaose sulfolobus shibatae//*//* 33.0 * +EC5.4.99.15 maltohexaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 359.0 * +EC5.4.99.15 maltopentaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 411.0 * +EC5.4.99.15 maltotetraose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 138.0 * +EC5.4.99.16 alpha,alpha-trehalose meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 110.0 * +EC5.4.99.16 alpha,alpha-trehalose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 66.0 * +EC5.4.99.16 maltose deinococcus geothermalis//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dge 31.9 * +EC5.4.99.16 maltose meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 147.0 * +EC5.4.99.16 maltose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 19.0 * +EC5.4.99.16 maltose picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 97.8 * +EC5.4.99.16 maltose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 227.0 * +EC5.4.99.16 trehalose picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 187.6 * +EC5.4.99.17 squalene alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1.98 * +EC5.4.99.18 5-amino-1-(5-phospho-d-ribosyl)imidazole-4-carboxylate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 12.2 * +EC5.4.99.18 5-amino-1-(5-phospho-d-ribosyl)imidazole-4-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.6 * +EC5.4.99.18 5-carboxyamino-1-(5-phospho-d-ribosyl)imidazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.5 * +EC5.4.99.2 (r)-2-methylmalonyl-coa methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 255.0 * +EC5.4.99.2 (r)-2-methylmalonyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 158.0 * +EC5.4.99.2 (r)-methylmalonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.95 * +EC5.4.99.2 (r/s)-2-methyl-3-oxopropanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 283.0 * +EC5.4.99.2 succinyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 48.0 * +EC5.4.99.25 trna uridine55 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC5.4.99.25 trna uridine55 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.18 * +EC5.4.99.27 trna uridine13 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00097 * +EC5.4.99.28 trna uridine32 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.099 * +EC5.4.99.30 udp-beta-l-arabinofuranose chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 5.98 * +EC5.4.99.30 udp-beta-l-arabinofuranose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.474 * +EC5.4.99.30 udp-beta-l-arabinopyranose chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 1.44 * +EC5.4.99.30 udp-beta-l-arabinopyranose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.185 * +EC5.4.99.39 (s)-2,3-oxidosqualene euphorbia tirucalli//*//* 0.77 * +EC5.4.99.4 (r)-3-[methyl-h3]methylitaconate eubacterium barkeri//*//* 1.1 * +EC5.4.99.4 (r)-3-methylitaconate eubacterium barkeri//*//* 18.0 * +EC5.4.99.4 (r,z)-3-[methyl-h3]methyl[2'-h1]itaconate eubacterium barkeri//*//* 1.4 * +EC5.4.99.4 (r,z)-3-methyl[2'-h1]itaconate eubacterium barkeri//*//* 17.0 * +EC5.4.99.4 2-methylene[4-h2]glutarate eubacterium barkeri//*//* 2.3 * +EC5.4.99.4 2-methyleneglutarate eubacterium barkeri//*//* 30.0 * +EC5.4.99.5 chorismate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 92.0 * +EC5.4.99.5 chorismate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 50.0 * +EC5.4.99.5 chorismate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.05 * +EC5.4.99.5 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 366000.0 * +EC5.4.99.5 chorismate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 5.7 * +EC5.4.99.5 chorismate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 56.0 * +EC5.4.99.5 chorismate ogataea angusta//*//* 367.0 * +EC5.4.99.5 chorismate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 361.0 * +EC5.4.99.5 chorismate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 52.0 * +EC5.4.99.5 chorismate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 70.0 * +EC5.4.99.5 prephenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 94140.0 * +EC5.4.99.59 dtdp-alpha-d-fucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC5.4.99.61 precorrin-8x pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00142 * +EC5.4.99.64 (r)-3-hydroxybutanoyl-coa aquincola tertiaricarbonis//*//* 0.0033 * +EC5.4.99.64 (r)-3-hydroxybutanoyl-coa kyrpidia tusciae dsm 2912//*//* 4.9 * +EC5.4.99.64 (s)-3-hydroxybutanoyl-coa aquincola tertiaricarbonis//*//* 0.2 * +EC5.4.99.64 (s)-3-hydroxybutanoyl-coa kyrpidia tusciae dsm 2912//*//* 1.6 * +EC5.4.99.64 2,2-dimethylpropanoyl-coa aquincola tertiaricarbonis//*//* 0.016 * +EC5.4.99.64 2-hydroxy-2-methylpropanoyl-coa aquincola tertiaricarbonis//*//* 0.05 * +EC5.4.99.64 2-hydroxyisobutanoyl-coa kyrpidia tusciae dsm 2912//*//* 3.7 * +EC5.4.99.64 butanoyl-coa aquincola tertiaricarbonis//*//* 0.0033 * +EC5.4.99.64 isobutanoyl-coa aquincola tertiaricarbonis//*//* 0.001 * +EC5.4.99.64 isovaleryl-coa aquincola tertiaricarbonis//*//* 0.011 * +EC5.4.99.9 udp-(6-deoxy-6-fluoro)-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.4 * +EC5.4.99.9 udp-(6-deoxy-6-fluoro)-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.4 * +EC5.4.99.9 udp-2-amino-2-deoxy-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.4 * +EC5.4.99.9 udp-2-deoxy-2-fluoro-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC5.4.99.9 udp-2-deoxy-2-fluoro-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0007 * +EC5.4.99.9 udp-2-fluoro-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.033 * +EC5.4.99.9 udp-3-deoxy-3-fluoro-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.7 * +EC5.4.99.9 udp-3-deoxy-3-fluoro-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.7 * +EC5.4.99.9 udp-3-deoxy-3-fluoro-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.9 * +EC5.4.99.9 udp-6-deoxy-6-fluoro-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.5 * +EC5.4.99.9 udp-6-deoxy-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 42.2 * +EC5.4.99.9 udp-alpha-d-galactopyranose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 8.72 * +EC5.4.99.9 udp-alpha-d-galactopyranose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 13.4 * +EC5.4.99.9 udp-d-galactofuranose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 72.0 * +EC5.4.99.9 udp-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.0 * +EC5.4.99.9 udp-d-galactofuranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 36.8 * +EC5.4.99.9 udp-d-galactofuranose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 5.0 * +EC5.4.99.9 udp-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 35.3 * +EC5.4.99.9 udp-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 27.0 * +EC5.4.99.9 udp-galactopyranose deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 66.0 * +EC5.4.99.9 udp-galactopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.0 * +EC5.4.99.9 udp-l-arabinofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC5.4.99.B22 trnaile uridine27 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0083 * +EC5.4.99.B22 trnaval uridine27 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0067 * +EC5.4.99.B4 50s ribosomal subunit escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC5.5.1.1 2,4-dichloro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 198.0 * +EC5.5.1.1 2-chloro-cis,cis-muconate acinetobacter calcoaceticus//*//* 1020.0 * +EC5.5.1.1 2-chloro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2940.0 * +EC5.5.1.1 2-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 3.6 * +EC5.5.1.1 2-methyl-cis,cis-muconate acinetobacter calcoaceticus//*//* 202000.0 * +EC5.5.1.1 2-methyl-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 234000.0 * +EC5.5.1.1 2-methyl-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.0 * +EC5.5.1.1 2-methylmuconate pseudomonas reinekei//*//* 0.5 * +EC5.5.1.1 3-chloro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3840.0 * +EC5.5.1.1 3-chloro-cis,cis-muconate pseudomonas reinekei//*//* 120.0 * +EC5.5.1.1 3-chloro-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.4 * +EC5.5.1.1 3-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 8.8 * +EC5.5.1.1 3-chloromuconate pseudomonas reinekei//*//* 111.0 * +EC5.5.1.1 3-fluoro-cis,cis-muconate acinetobacter calcoaceticus//*//* 156000.0 * +EC5.5.1.1 3-fluoro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 534000.0 * +EC5.5.1.1 3-methyl-cis,cis-muconate acinetobacter calcoaceticus//*//* 108000.0 * +EC5.5.1.1 3-methyl-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 35400.0 * +EC5.5.1.1 3-methyl-cis,cis-muconate pseudomonas reinekei//*//* 214.0 * +EC5.5.1.1 3-methyl-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 27.8 * +EC5.5.1.1 3-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 3.2 * +EC5.5.1.1 3-methylmuconate pseudomonas reinekei//*//* 11.0 * +EC5.5.1.1 cis,cis-muconate acinetobacter calcoaceticus//*//* 222000.0 * +EC5.5.1.1 cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 756000.0 * +EC5.5.1.1 cis,cis-muconate pseudomonas reinekei//*//* 186.0 * +EC5.5.1.1 cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 210.0 * +EC5.5.1.1 cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 24.7 * +EC5.5.1.1 muconolactone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.4 * +EC5.5.1.10 alpha-pinene nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 250.0 * +EC5.5.1.11 2,4-dichloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 63.7 * +EC5.5.1.11 2-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 15.8 * +EC5.5.1.11 2-methyl-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 10.2 * +EC5.5.1.11 3-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 119.0 * +EC5.5.1.11 3-methyl-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 54.8 * +EC5.5.1.11 cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 51.5 * +EC5.5.1.12 farnesyl diphosphate abies grandis//*//* 0.02 * +EC5.5.1.12 geranylgeranyl diphosphate abies grandis//*//* 2.2 * +EC5.5.1.13 (e,e,e)-geranylgeranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.9 * +EC5.5.1.13 copalyl diphosphate phaeosphaeria sp.//*//* 0.00117 * +EC5.5.1.13 geranylgeranyl diphosphate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.035 * +EC5.5.1.13 geranylgeranyl diphosphate phaeosphaeria sp.//*//* 0.0308 * +EC5.5.1.13 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.033 * +EC5.5.1.16 (e,e,e)-geranylgeranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1415.0 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate hydrogenophaga intermedia//*//* 1.22 * +EC5.5.1.2 3-sulfomuconate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 20.9 * +EC5.5.1.2 3-sulfomuconate hydrogenophaga intermedia//*//* 42.7 * +EC5.5.1.20 (3e,5e,7e,10r,12e,14e,17r,18s,22s)-22-ethyl-10,18-dihydroxy-17-methyloxacyclodocosa-3,5,7,12,14-pentaene-2,16-dione saccharopolyspora spinosa//*//* 0.23 * +EC5.5.1.4 d-glucose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.3 * +EC5.5.1.4 d-glucose 6-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 9.6 * +EC5.5.1.5 3-carboxy-cis,cis-muconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 382.0 * +EC5.5.1.5 cis,cis-muconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.1 * +EC5.5.1.6 2',4'-dihydrochalcone medicago sativa//*//* 45300.0 * +EC5.5.1.6 2',4'-dihydroxy-4-methylchalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 96.8 * +EC5.5.1.6 2',4'-dihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 86.3 * +EC5.5.1.6 2'-hydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 59.9 * +EC5.5.1.6 4,2',4',6'-tetrahydrochalcone medicago sativa//*//* 671000.0 * +EC5.5.1.6 4,2',4',6'-tetrahydroxychalcone citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 1.87 * +EC5.5.1.6 4,2',4',6'-tetrahydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 833.0 * +EC5.5.1.6 4,2',4'-trihydrochalcone medicago sativa//*//* 135000.0 * +EC5.5.1.6 4,2',4'-trihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 183.0 * +EC5.5.1.6 4,2',5'-trihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 62.5 * +EC5.5.1.6 4,2'-dihydrochalcone medicago sativa//*//* 5530.0 * +EC5.5.1.6 4,2'-dihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 57.4 * +EC5.5.1.7 (+)-2-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.95 * +EC5.5.1.7 (+)-5-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 24.7 * +EC5.5.1.7 2,4-dichloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 44.7 * +EC5.5.1.7 2,4-dichloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 22.3 * +EC5.5.1.7 2-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 10.3 * +EC5.5.1.7 2-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 2.2 * +EC5.5.1.7 2-chloro-cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 171000.0 * +EC5.5.1.7 2-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0567 * +EC5.5.1.7 3-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 57.7 * +EC5.5.1.7 3-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 60.7 * +EC5.5.1.7 3-chloro-cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 8.8 * +EC5.5.1.7 3-fluoro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 6.07 * +EC5.5.1.7 3-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.8 * +EC5.5.1.7 3-methyl-cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 3.2 * +EC5.5.1.7 cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 4.33 * +EC5.5.1.7 cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 24.66 * +EC5.5.1.B6 nogalonic acid methyl ester streptomyces galilaeus//*//* 1.0 * +EC5.99.1.2 negatively supercoiled plasmid pxxz06 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC5.99.1.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC5.99.1.3 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.2 * +EC5.99.1.3 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.55 * +EC5.99.1.3 dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.38 * +EC5.99.1.4 (3e)-4-(2-hydroxyphenyl)-2-oxobut-3-enoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.0 * +EC5.99.1.4 2-hydroxy-2h-chromene-2-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 47.0 * +EC6.1.1.1 3-chloro-l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC6.1.1.1 3-fluoro-d,l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.96 * +EC6.1.1.1 a22g mutated trnatyr transcript homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC6.1.1.1 atp acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 7.7 * +EC6.1.1.1 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 7.7 * +EC6.1.1.1 d-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC6.1.1.1 g15a mutated trnatyr transcript homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC6.1.1.1 l-3,4-dihydroxyphenylalanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.65 * +EC6.1.1.1 l-beta-(5-hydroxy-2-pyridyl)-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC6.1.1.1 l-tyrosine acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 7.7 * +EC6.1.1.1 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC6.1.1.1 l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.4 * +EC6.1.1.1 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC6.1.1.1 l-tyrosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.53 * +EC6.1.1.1 l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.6 * +EC6.1.1.1 native yeast trnatyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC6.1.1.1 trnatyr(g34c) methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.07 * +EC6.1.1.1 trnatyr(wild-type) methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.19 * +EC6.1.1.1 trnatyr aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.29 * +EC6.1.1.1 trnatyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC6.1.1.1 trnatyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.08 * +EC6.1.1.1 u54c mutated trnatyr transcript homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC6.1.1.10 (s)-2-aminohex-5-enoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.35 * +EC6.1.1.10 (s)-2-aminohex-5-ynoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC6.1.1.10 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC6.1.1.10 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC6.1.1.10 coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC6.1.1.10 l-homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.08 * +EC6.1.1.10 l-met mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 3.13 * +EC6.1.1.10 l-methionine clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 23.0 * +EC6.1.1.10 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.3 * +EC6.1.1.10 l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC6.1.1.10 l-methionine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 25.0 * +EC6.1.1.10 l-norleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.15 * +EC6.1.1.10 l-trans-alpha-crotylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.94 * +EC6.1.1.10 met-trnamet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC6.1.1.10 trna fraction from saccharomyces cerevisiae oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.08 * +EC6.1.1.10 trnamet clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.08 * +EC6.1.1.10 trnamet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.0 * +EC6.1.1.10 trnamet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC6.1.1.10 trnamet mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.0 * +EC6.1.1.10 trnamet oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.29 * +EC6.1.1.10 trnamet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC6.1.1.10 trnamet staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.49 * +EC6.1.1.11 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.9 * +EC6.1.1.11 chloroplastic trnaser from maize zea mays//eukaryotes;plants;monocots;grass family//zma 0.9 * +EC6.1.1.11 dl-serine hydroxamate zea mays//eukaryotes;plants;monocots;grass family//zma 2.433 * +EC6.1.1.11 l-cysteine zea mays//eukaryotes;plants;monocots;grass family//zma 0.078 * +EC6.1.1.11 l-ser methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 2.06 * +EC6.1.1.11 l-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.46 * +EC6.1.1.11 l-ser zea mays//eukaryotes;plants;monocots;grass family//zma 2.8 * +EC6.1.1.11 l-serine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 1.7 * +EC6.1.1.11 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC6.1.1.11 l-serine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.0 * +EC6.1.1.11 l-serine zea mays//eukaryotes;plants;monocots;grass family//zma 6.9 * +EC6.1.1.11 l-threonine zea mays//eukaryotes;plants;monocots;grass family//zma 0.14 * +EC6.1.1.11 mitochondrial trnaser from maize zea mays//eukaryotes;plants;monocots;grass family//zma 0.2 * +EC6.1.1.11 mitochondrial trnaser from yeast subtype 2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.5 * +EC6.1.1.11 ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.8 * +EC6.1.1.11 sertrnaser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.833 * +EC6.1.1.11 trnasec mutant without anticodon arm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC6.1.1.11 trnasec homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC6.1.1.11 trnaser from escherichia coli zea mays//eukaryotes;plants;monocots;grass family//zma 1.2 * +EC6.1.1.11 trnaser mutant without anticodon arm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC6.1.1.11 trnaser(cga) methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 3.05 * +EC6.1.1.11 trnaser(gcu) methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 1.13 * +EC6.1.1.11 trnaser(gga) methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 4.4 * +EC6.1.1.11 trnaser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC6.1.1.11 trnaser methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.473 * +EC6.1.1.11 trnaser methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC6.1.1.11 trnaser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC6.1.1.11 trnaser streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.37 * +EC6.1.1.11 trnaser zea mays//eukaryotes;plants;monocots;grass family//zma 1.48 * +EC6.1.1.11 trnasergcu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.08 * +EC6.1.1.11 trnaseruga bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.08 * +EC6.1.1.12 asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC6.1.1.12 aspartyl-trna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.9 * +EC6.1.1.12 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC6.1.1.12 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.9 * +EC6.1.1.12 trnaasn thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.12 * +EC6.1.1.12 trnaasp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC6.1.1.12 trnaasp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC6.1.1.12 trnaasp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.2 * +EC6.1.1.12 trnaasp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.3 * +EC6.1.1.12 trnaasp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0117 * +EC6.1.1.12 trnaasp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.7 * +EC6.1.1.12 trnaaspa73 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0029 * +EC6.1.1.13 atp bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.215 * +EC6.1.1.13 d-ala bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.025 * +EC6.1.1.13 l-ala bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.11 * +EC6.1.1.14 trna1gly bombyx mori//eukaryotes;animals;arthropods;insects//bmor 15.9 * +EC6.1.1.14 trna2gly bombyx mori//eukaryotes;animals;arthropods;insects//bmor 8.1 * +EC6.1.1.14 trnagly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.73 * +EC6.1.1.15 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 81.0 * +EC6.1.1.15 cis-4-hydroxyproline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.0 * +EC6.1.1.15 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.52 * +EC6.1.1.15 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC6.1.1.15 l-cysteine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.39 * +EC6.1.1.15 l-cysteine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.09 * +EC6.1.1.15 l-cysteine borreliella burgdorferi//*//* 0.12 * +EC6.1.1.15 l-cysteine cytophaga hutchinsonii//prokaryotes;bacteria;bacteroidetes;cytophaga//chu 0.083 * +EC6.1.1.15 l-cysteine deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.014 * +EC6.1.1.15 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC6.1.1.15 l-cysteine magnetospirillum magnetotacticum//*//* 0.11 * +EC6.1.1.15 l-cysteine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.19 * +EC6.1.1.15 l-cysteine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.8 * +EC6.1.1.15 l-cysteine methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.02 * +EC6.1.1.15 l-cysteine novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.065 * +EC6.1.1.15 l-cysteine rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.025 * +EC6.1.1.15 l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC6.1.1.15 l-cysteine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.04 * +EC6.1.1.15 l-proline acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 60.0 * +EC6.1.1.15 l-proline aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 15.0 * +EC6.1.1.15 l-proline borreliella burgdorferi//*//* 34.0 * +EC6.1.1.15 l-proline cytophaga hutchinsonii//prokaryotes;bacteria;bacteroidetes;cytophaga//chu 19.0 * +EC6.1.1.15 l-proline deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 32.0 * +EC6.1.1.15 l-proline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC6.1.1.15 l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 80.0 * +EC6.1.1.15 l-proline magnetospirillum magnetotacticum//*//* 35.0 * +EC6.1.1.15 l-proline methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 210.0 * +EC6.1.1.15 l-proline methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.9 * +EC6.1.1.15 l-proline methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 3.4 * +EC6.1.1.15 l-proline novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 26.0 * +EC6.1.1.15 l-proline rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 14.0 * +EC6.1.1.15 l-proline saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.6 * +EC6.1.1.15 l-proline thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 35.0 * +EC6.1.1.15 trans-4-hydroxyproline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC6.1.1.15 trnapro deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 10.8 * +EC6.1.1.15 trnapro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.239 * +EC6.1.1.15 trnapro methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.6 * +EC6.1.1.15 trnapro methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 6.9 * +EC6.1.1.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 142.0 * +EC6.1.1.16 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC6.1.1.16 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.3 * +EC6.1.1.16 l-cysteine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 2.2 * +EC6.1.1.16 thiolactone formation escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC6.1.1.16 trna1cys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.17 * +EC6.1.1.16 trna1cysa33u methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.16 * +EC6.1.1.16 trna2cys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.06 * +EC6.1.1.16 trna3cys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.03 * +EC6.1.1.16 trna3cysc20u/u21c/a44u/c46a/a47g methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.14 * +EC6.1.1.16 trna3cysc20u/u21c/a44u/c46a/a47g/g57a methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.18 * +EC6.1.1.16 trna3cysg57a methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.09 * +EC6.1.1.16 trna3cysu33a methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.05 * +EC6.1.1.16 trnacys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.47 * +EC6.1.1.16 trnacys halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 0.11 * +EC6.1.1.16 trnacys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC6.1.1.17 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC6.1.1.17 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.272 * +EC6.1.1.17 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.18 * +EC6.1.1.17 c36g mutant trnaglu thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.18 * +EC6.1.1.17 glu-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC6.1.1.17 glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC6.1.1.17 glutrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC6.1.1.17 l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.15 * +EC6.1.1.17 l-glutamate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.39 * +EC6.1.1.17 trnagln(cug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.041 * +EC6.1.1.17 trnagln(uug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.006 * +EC6.1.1.17 trnagln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.95 * +EC6.1.1.17 trnagln plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.11 * +EC6.1.1.17 trnaglu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC6.1.1.17 trnaglu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC6.1.1.17 trnaglu methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.04 * +EC6.1.1.17 trnaglu mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.408 * +EC6.1.1.17 trnaglu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.61 * +EC6.1.1.17 trnaglu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC6.1.1.17 wild-type trnaglu thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.1 * +EC6.1.1.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC6.1.1.18 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC6.1.1.18 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC6.1.1.18 trnagln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC6.1.1.19 arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.22 * +EC6.1.1.19 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC6.1.1.19 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.5 * +EC6.1.1.19 l-arginine canavalia ensiformis//*//* 0.337 * +EC6.1.1.19 l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.9 * +EC6.1.1.19 trnaarg(acg) canavalia ensiformis//*//* 0.105 * +EC6.1.1.19 trnaarg(acg) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC6.1.1.19 trnaarg(acg) glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.04 * +EC6.1.1.19 trnaarg cricetulus sp.//*//* 1.8 * +EC6.1.1.19 trnaarg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC6.1.1.19 trnaarg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.5 * +EC6.1.1.19 trnaarg methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.034 * +EC6.1.1.2 ammonia escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.7 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73, wild-type) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.53 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73c) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73g) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.07 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73u) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.09 * +EC6.1.1.2 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 22.0 * +EC6.1.1.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC6.1.1.2 bacillus subtilis trnatrp(a73, wild-type) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.14 * +EC6.1.1.2 bacillus subtilis trnatrp(a73c) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.06 * +EC6.1.1.2 bacillus subtilis trnatrp(a73g) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.04 * +EC6.1.1.2 bacillus subtilis trnatrp(a73u) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.05 * +EC6.1.1.2 bovine trnatrp(g73, wild-type) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.03 * +EC6.1.1.2 bovine trnatrp(g73a) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.08 * +EC6.1.1.2 bovine trnatrp(g73c) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.06 * +EC6.1.1.2 bovine trnatrp(g73u) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.04 * +EC6.1.1.2 l-tryptophan acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 24.5 * +EC6.1.1.2 l-tryptophan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.9 * +EC6.1.1.2 l-tryptophan geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.45 * +EC6.1.1.2 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC6.1.1.2 trnaarg aeropyrum pernix k1//*//* 0.16 * +EC6.1.1.2 trnatrp acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 3.17 * +EC6.1.1.2 trnatrp aeropyrum pernix k1//*//* 16.0 * +EC6.1.1.2 trnatrp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.9 * +EC6.1.1.2 trnatrp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.37 * +EC6.1.1.2 trp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 22.0 * +EC6.1.1.20 3,4-dihydroxy-l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC6.1.1.20 3,4-dihydroxy-l-phenylalanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.16 * +EC6.1.1.20 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC6.1.1.20 benzofuranylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC6.1.1.20 dl-m-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC6.1.1.20 l-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.72 * +EC6.1.1.20 l-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 240.0 * +EC6.1.1.20 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 199.0 * +EC6.1.1.20 l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC6.1.1.20 l-phenylalanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 603.0 * +EC6.1.1.20 l-phenylalanine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.115 * +EC6.1.1.20 l-phenylalanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.12 * +EC6.1.1.20 l-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 160.0 * +EC6.1.1.20 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC6.1.1.20 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC6.1.1.20 l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 184.0 * +EC6.1.1.20 trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.82 * +EC6.1.1.20 trnaphe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC6.1.1.21 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 130.0 * +EC6.1.1.21 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 40.0 * +EC6.1.1.21 his escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 142.0 * +EC6.1.1.21 l-histidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 130.0 * +EC6.1.1.21 l-histidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 40.0 * +EC6.1.1.21 rna microhelix escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC6.1.1.21 rna microhelix saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0013 * +EC6.1.1.21 synthetic trnahis a-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC6.1.1.21 synthetic trnahis g-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.75 * +EC6.1.1.21 trnahis caulobacter vibrioides//*//* 4.0 * +EC6.1.1.21 trnahis escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.02 * +EC6.1.1.21 trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.42 * +EC6.1.1.21 trnahiscua escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC6.1.1.21 u73trnahisgug escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC6.1.1.21 wild-type full length trnahis g-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.04 * +EC6.1.1.21 wild-type trnahis escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC6.1.1.22 asn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC6.1.1.22 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC6.1.1.22 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 10.1 * +EC6.1.1.22 l-asparagine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.2 * +EC6.1.1.22 trnaasn plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.5 * +EC6.1.1.23 trnaasn deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.51 * +EC6.1.1.23 trnaasn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.014 * +EC6.1.1.23 trnaasn thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.092 * +EC6.1.1.23 trnaasp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.15 * +EC6.1.1.23 trnaasp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.022 * +EC6.1.1.23 trnaasp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.2 * +EC6.1.1.24 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.1.1.24 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC6.1.1.24 l-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC6.1.1.24 l-glu methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.09 * +EC6.1.1.24 trnagln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.07 * +EC6.1.1.24 trnagln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC6.1.1.24 trnagln methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC6.1.1.24 trnagln thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.036 * +EC6.1.1.24 trnaglu bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC6.1.1.24 trnaglu thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.1 * +EC6.1.1.26 2-amino-6-((r)-tetrahydrofuran-2-carboxamido)hexanoic acid methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.062 * +EC6.1.1.26 2-amino-6-(cyclopentanecarboxamido)hexanoic acid methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.04 * +EC6.1.1.26 l-pyrrolysine desulfitobacterium hafniense//prokaryotes;bacteria;firmicutes - clostridia;desulfitobacterium//dsy 0.325 * +EC6.1.1.26 l-pyrrolysine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.325 * +EC6.1.1.26 nepsilon-cyclopentyloxycarbonyl-l-lysine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.015 * +EC6.1.1.26 trnapyl desulfitobacterium hafniense//prokaryotes;bacteria;firmicutes - clostridia;desulfitobacterium//dsy 0.19 * +EC6.1.1.27 m1g37-trnacys methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.24 * +EC6.1.1.27 o-phospho-l-serine methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 10.6 * +EC6.1.1.27 o-phospho-l-threonine methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.014 * +EC6.1.1.27 trnacys archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.115 * +EC6.1.1.27 trnacys methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.0 * +EC6.1.1.27 trnacys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.12 * +EC6.1.1.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 90.0 * +EC6.1.1.3 hydroxynorvaline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.0 * +EC6.1.1.3 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC6.1.1.3 l-serine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.3 * +EC6.1.1.3 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.83 * +EC6.1.1.3 l-serine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 12.3 * +EC6.1.1.3 l-threonine archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.8 * +EC6.1.1.3 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 90.0 * +EC6.1.1.3 l-threonine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.9 * +EC6.1.1.3 l-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.32 * +EC6.1.1.3 l-threonine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 16.0 * +EC6.1.1.3 rnathr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC6.1.1.3 threonyl-trna saccharomyces carlsbergensis//*//* 1.73 * +EC6.1.1.3 trna2thr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC6.1.1.3 trnathr of thermus thermophilus thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.037 * +EC6.1.1.3 trnathr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.52 * +EC6.1.1.3 trnathr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0467 * +EC6.1.1.3 trnathr thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.21 * +EC6.1.1.4 atp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 14.5 * +EC6.1.1.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC6.1.1.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC6.1.1.4 atp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 6.8 * +EC6.1.1.4 ile-trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC6.1.1.4 l-isoleucine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.9 * +EC6.1.1.4 l-isoleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC6.1.1.4 l-isoleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC6.1.1.4 l-isoleucine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.2 * +EC6.1.1.4 l-isoleucyl-trnaleu giardia intestinalis//*//* 1.52 * +EC6.1.1.4 l-leucine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 26.3 * +EC6.1.1.4 l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 171.0 * +EC6.1.1.4 l-leucine giardia intestinalis//*//* 2.7 * +EC6.1.1.4 l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.8 * +EC6.1.1.4 l-leucine natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.563 * +EC6.1.1.4 l-leucine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 37.5 * +EC6.1.1.4 l-leucyl-pyrococcus horikoshii trnaleu(gag) natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.0418 * +EC6.1.1.4 l-methionine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 3.2 * +EC6.1.1.4 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC6.1.1.4 l-norvaline aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 12.6 * +EC6.1.1.4 leu-trnaleu cyberlindnera jadinii//*//* 23.8 * +EC6.1.1.4 leu-trnaleu phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.15 * +EC6.1.1.4 leu neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 20.0 * +EC6.1.1.4 natrialba magadii trnaleu(caa) natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.0464 * +EC6.1.1.4 natrialba magadii trnaleu(gag) natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.064 * +EC6.1.1.4 norvaline saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.5 * +EC6.1.1.4 trnaleu from aquifex aeolicus aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.5 * +EC6.1.1.4 trnaleu from escherichia coli aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.4 * +EC6.1.1.4 trnaleu(gag) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.59 * +EC6.1.1.4 trnaleu(gag) mycoplasma mobile//prokaryotes;bacteria;tenericutes;mycoplasma//mmo 1.8 * +EC6.1.1.4 trnaleu(uaa) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.1 * +EC6.1.1.4 trnaleu(uag) mycoplasma mobile//prokaryotes;bacteria;tenericutes;mycoplasma//mmo 2.0 * +EC6.1.1.4 trnaleu aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.5 * +EC6.1.1.4 trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.6 * +EC6.1.1.4 trnaleu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC6.1.1.4 trnaleu mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.8 * +EC6.1.1.4 trnaleu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.331 * +EC6.1.1.4 trnaleu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC6.1.1.4 trnaleua35g aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.31 * +EC6.1.1.4 trnaleua73g aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.11 * +EC6.1.1.4 trnaleucun escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.5 * +EC6.1.1.4 trnaleucun homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC6.1.1.4 trnaleugag aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.5 * +EC6.1.1.4 trnaleuuur escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00016 * +EC6.1.1.4 trnaleuuur homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC6.1.1.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.4 * +EC6.1.1.5 isoleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 104.0 * +EC6.1.1.5 l-isoleucine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.63 * +EC6.1.1.5 l-isoleucine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 18.0 * +EC6.1.1.5 trnaile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC6.1.1.6 aminoacylation geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3.2 * +EC6.1.1.6 arg-trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00067 * +EC6.1.1.6 atp borreliella burgdorferi//*//* 0.57 * +EC6.1.1.6 atp cricetinae//*//* 5.1 * +EC6.1.1.6 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC6.1.1.6 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 42.8 * +EC6.1.1.6 borellia burgdorferi trnalys borreliella burgdorferi//*//* 6.08 * +EC6.1.1.6 borellia burgdorferi trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0035 * +EC6.1.1.6 escherichia coli g2.u71 trna borreliella burgdorferi//*//* 0.0035 * +EC6.1.1.6 escherichia coli g2.u71 trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC6.1.1.6 escherichia coli trnalys cnbr-treated methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.002 * +EC6.1.1.6 escherichia coli trnalys methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.004 * +EC6.1.1.6 escherichia coli wild-type trna borreliella burgdorferi//*//* 0.004 * +EC6.1.1.6 escherichia coli wild-type trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.055 * +EC6.1.1.6 human trnalys,3 cricetinae//*//* 7.8 * +EC6.1.1.6 l-lysine amide geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 14.5 * +EC6.1.1.6 l-lysine hydroxamate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 221.0 * +EC6.1.1.6 l-lysine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 41.7 * +EC6.1.1.6 l-lysine borreliella burgdorferi//*//* 0.34 * +EC6.1.1.6 l-lysine cricetinae//*//* 5.8 * +EC6.1.1.6 l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC6.1.1.6 l-lysine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 45.7 * +EC6.1.1.6 l-lysine methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0143 * +EC6.1.1.6 lys-trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0088 * +EC6.1.1.6 lysylation rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.5 * +EC6.1.1.6 met-trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00056 * +EC6.1.1.6 methanococcus maripaludis trnalys cnbr-treated methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.05 * +EC6.1.1.6 methanococcus maripaludis trnalys methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.2 * +EC6.1.1.6 thr-trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00076 * +EC6.1.1.6 trnalys borreliella burgdorferi//*//* 0.34 * +EC6.1.1.6 trnalys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC6.1.1.6 trnalyscuu borreliella burgdorferi//*//* 0.014 * +EC6.1.1.6 trnalyscuu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.062 * +EC6.1.1.6 trnalysguu borreliella burgdorferi//*//* 0.0095 * +EC6.1.1.6 trnalysguu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.043 * +EC6.1.1.6 trnalysugu borreliella burgdorferi//*//* 0.0004 * +EC6.1.1.6 trnalysuuc borreliella burgdorferi//*//* 0.00018 * +EC6.1.1.6 trnalysuuu borreliella burgdorferi//*//* 0.33 * +EC6.1.1.6 trnalysuuu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.44 * +EC6.1.1.6 trnalysuuumodified borreliella burgdorferi//*//* 0.12 * +EC6.1.1.6 trnatyrcua escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC6.1.1.6 yeast trnalys cricetinae//*//* 7.1 * +EC6.1.1.7 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 120.0 * +EC6.1.1.7 glycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC6.1.1.7 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC6.1.1.7 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.4 * +EC6.1.1.7 lipid ii l-ala streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.071 * +EC6.1.1.7 lipid ii l-ser streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0166 * +EC6.1.1.7 tmrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC6.1.1.7 tmrna thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.1 * +EC6.1.1.7 trnaala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC6.1.1.7 trnaala thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.2 * +EC6.1.1.7 trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC6.1.1.9 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC6.1.1.9 l-valine anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.074 * +EC6.1.1.9 l-valine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.9 * +EC6.1.1.9 l-valyl-trnaval saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC6.1.1.9 trnaval escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 51.0 * +EC6.1.1.9 trnaval thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.7 * +EC6.1.1.9 valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.65 * +EC6.1.1.B3 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC6.1.2.1 d-2-hydroxybutanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.25 * +EC6.1.2.1 d-2-hydroxybutanoate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.8 * +EC6.1.2.1 d-2-hydroxyvalerate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.42 * +EC6.1.2.1 d-2-hydroxyvalerate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 2.6 * +EC6.1.2.1 d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 4.1 * +EC6.1.2.1 d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 4.92 * +EC6.1.2.1 d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.7 * +EC6.1.2.1 d-lactate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.47 * +EC6.1.2.1 d-lactate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.57 * +EC6.1.2.1 d-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.17 * +EC6.2.1.1 acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 21.2 * +EC6.2.1.1 acetate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 66.6 * +EC6.2.1.1 acetate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 9400.0 * +EC6.2.1.1 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 13.2 * +EC6.2.1.1 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 66.6 * +EC6.2.1.1 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 100.6 * +EC6.2.1.1 butyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.013 * +EC6.2.1.1 coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 144.9 * +EC6.2.1.1 coa methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 81.6 * +EC6.2.1.1 coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 95.1 * +EC6.2.1.1 propionate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 9.1 * +EC6.2.1.1 propionate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 46.3 * +EC6.2.1.12 4-coumarate ocimum tenuiflorum//*//* 0.7 * +EC6.2.1.12 4-coumarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.285 * +EC6.2.1.12 4-coumarate pueraria montana var. lobata//*//* 1.28 * +EC6.2.1.12 4-coumarate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 4.05 * +EC6.2.1.12 4-coumarate sorbus aucuparia//*//* 1.0 * +EC6.2.1.12 caffeate ocimum tenuiflorum//*//* 0.44 * +EC6.2.1.12 caffeate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.255 * +EC6.2.1.12 caffeate pueraria montana var. lobata//*//* 0.92 * +EC6.2.1.12 caffeate sorbus aucuparia//*//* 0.8 * +EC6.2.1.12 cinnamate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.182 * +EC6.2.1.12 cinnamate sorbus aucuparia//*//* 0.37 * +EC6.2.1.12 coa acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 5.5 * +EC6.2.1.12 ferulate ocimum tenuiflorum//*//* 1.56 * +EC6.2.1.12 ferulate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.299 * +EC6.2.1.12 ferulate pueraria montana var. lobata//*//* 0.57 * +EC6.2.1.12 ferulate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.04 * +EC6.2.1.12 ferulate sorbus aucuparia//*//* 0.49 * +EC6.2.1.12 sinapate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.053 * +EC6.2.1.12 trans-cinnamate ocimum tenuiflorum//*//* 0.58 * +EC6.2.1.12 trans-cinnamate pueraria montana var. lobata//*//* 0.97 * +EC6.2.1.13 acetate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 67.0 * +EC6.2.1.13 acetyl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 157.0 * +EC6.2.1.13 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 203.0 * +EC6.2.1.13 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 82.0 * +EC6.2.1.13 coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 73.0 * +EC6.2.1.13 gdp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 411.0 * +EC6.2.1.13 gtp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 27.0 * +EC6.2.1.13 indoleacetate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 66.0 * +EC6.2.1.13 isobutyrate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 55.0 * +EC6.2.1.13 isobutyryl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 121.0 * +EC6.2.1.13 phenylacetate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 89.0 * +EC6.2.1.13 phenylacetyl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 138.0 * +EC6.2.1.13 phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 182.0 * +EC6.2.1.17 3-hydroxypropanoate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 23.0 * +EC6.2.1.17 3-hydroxypropanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 8.0 * +EC6.2.1.17 3-hydroxypropionate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 12.0 * +EC6.2.1.17 acetate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 6.8 * +EC6.2.1.17 acetate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 32.0 * +EC6.2.1.17 acrylate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 5.4 * +EC6.2.1.17 acrylate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 1.3 * +EC6.2.1.17 acrylate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 26.0 * +EC6.2.1.17 atp ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 1.5 * +EC6.2.1.17 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 34.0 * +EC6.2.1.17 butyrate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 1.7 * +EC6.2.1.17 butyrate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 6.0 * +EC6.2.1.17 coa ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 2.4 * +EC6.2.1.17 coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 42.0 * +EC6.2.1.17 diphosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 79.0 * +EC6.2.1.17 propanoate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 5.6 * +EC6.2.1.17 propionate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 1.8 * +EC6.2.1.17 propionate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 33.0 * +EC6.2.1.17 propionyl-amp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 78.0 * +EC6.2.1.2 2-methylbutyrate methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 1.58 * +EC6.2.1.2 atp methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 1.94 * +EC6.2.1.2 atp penicillium chrysogenum//*//* 42.9 * +EC6.2.1.2 coa methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 2.15 * +EC6.2.1.2 coa penicillium chrysogenum//*//* 60.5 * +EC6.2.1.2 phenoxyacetate penicillium chrysogenum//*//* 12.0 * +EC6.2.1.2 phenylacetate penicillium chrysogenum//*//* 1.3 * +EC6.2.1.2 trans-cinnamic acid penicillium chrysogenum//*//* 41.2 * +EC6.2.1.20 oleic acid synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.016 * +EC6.2.1.25 benzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 433.0 * +EC6.2.1.26 2-sucinylbenzoate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 2.62 * +EC6.2.1.26 atp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 2.62 * +EC6.2.1.26 coa bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 2.62 * +EC6.2.1.27 4-hydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 30.0 * +EC6.2.1.27 4-hydroxybenzoate thauera aromatica//*//* 24.0 * +EC6.2.1.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC6.2.1.3 lauric acid luciola cruciata//*//* 0.651 * +EC6.2.1.3 lauric acid photinus pyralis//*//* 0.278 * +EC6.2.1.3 tetradecanoate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.2 * +EC6.2.1.30 3-chlorophenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 1.67 * +EC6.2.1.30 3-hydroxyphenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 2.67 * +EC6.2.1.30 4-hydroxyphenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 1.17 * +EC6.2.1.30 atp azoarcus evansii//*//* 40.0 * +EC6.2.1.30 atp penicillium chrysogenum//*//* 42.9 * +EC6.2.1.30 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 21.7 * +EC6.2.1.30 butyric acid penicillium chrysogenum//*//* 9.7 * +EC6.2.1.30 caprate penicillium chrysogenum//*//* 0.102 * +EC6.2.1.30 caproate penicillium chrysogenum//*//* 0.076 * +EC6.2.1.30 caprylate penicillium chrysogenum//*//* 0.073 * +EC6.2.1.30 coa azoarcus evansii//*//* 40.0 * +EC6.2.1.30 coa penicillium chrysogenum//*//* 60.5 * +EC6.2.1.30 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 21.7 * +EC6.2.1.30 palmitate penicillium chrysogenum//*//* 0.026 * +EC6.2.1.30 phenoxyacetate penicillium chrysogenum//*//* 12.0 * +EC6.2.1.30 phenylacetate azoarcus evansii//*//* 40.0 * +EC6.2.1.30 phenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 5.0 * +EC6.2.1.30 phenylacetate penicillium chrysogenum//*//* 1.3 * +EC6.2.1.30 phenylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 21.7 * +EC6.2.1.30 phenylacetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 20.0 * +EC6.2.1.30 stearate penicillium chrysogenum//*//* 0.062 * +EC6.2.1.30 trans-cinnamic acid penicillium chrysogenum//*//* 41.2 * +EC6.2.1.32 2-aminobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 267.0 * +EC6.2.1.33 4-chlorobenzoate alcaligenes sp. al3007//*//* 9.2 * +EC6.2.1.33 4-chlorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 34.0 * +EC6.2.1.33 atp alcaligenes sp. al3007//*//* 11.5 * +EC6.2.1.33 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 54.0 * +EC6.2.1.33 coa alcaligenes sp. al3007//*//* 9.3 * +EC6.2.1.33 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 39.0 * +EC6.2.1.36 3-hydroxypropionate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 5.7 * +EC6.2.1.36 acrylate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 5.4 * +EC6.2.1.36 propionate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 5.6 * +EC6.2.1.37 3-hydroxybenzoate thauera aromatica//*//* 15.0 * +EC6.2.1.40 4-hydroxybutanoate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 1.8 * +EC6.2.1.41 3-[(3as,4s,7as)-7a-methyl-1,5-dioxo-octahydro-1h-inden-4-yl]propanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.1 * +EC6.2.1.41 3aalpha-h-4a(3'-propanoate)-5alpha-hydroxy-7alphabeta-methylhexahydro-1-indanone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 13.0 * +EC6.2.1.41 coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.5 * +EC6.2.1.43 2,7-dihydroxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 1.55 * +EC6.2.1.43 2,7-dihydroxy-5-methylnaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 1.55 * +EC6.2.1.43 2-hydroxy-1-naphthoate streptomyces carzinostaticus//*//* 0.047 * +EC6.2.1.43 2-hydroxy-5,7-dimethoxy-1-naphthoate streptomyces carzinostaticus//*//* 0.42 * +EC6.2.1.43 2-hydroxy-5,7-dimethoxynaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.42 * +EC6.2.1.43 2-hydroxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.135 * +EC6.2.1.43 2-hydroxy-5-methylnaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.135 * +EC6.2.1.43 2-hydroxy-7-methoxy-1-naphthoate streptomyces carzinostaticus//*//* 0.118 * +EC6.2.1.43 2-hydroxy-7-methoxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.63 * +EC6.2.1.43 2-hydroxy-7-methoxynaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.12 * +EC6.2.1.43 2-hydroxynaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.05 * +EC6.2.1.43 naphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.11 * +EC6.2.1.43 naphthoate streptomyces carzinostaticus//*//* 0.11 * +EC6.2.1.44 3-(methylthio)propanoate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 29.4 * +EC6.2.1.44 3-(methylthio)propanoate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 18.7 * +EC6.2.1.44 acrylate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 22.3 * +EC6.2.1.44 acrylate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 14.3 * +EC6.2.1.44 butyrate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 43.8 * +EC6.2.1.44 butyrate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 14.4 * +EC6.2.1.44 propionate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 17.7 * +EC6.2.1.44 propionate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 10.8 * +EC6.2.1.45 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC6.2.1.45 ubiquitin carrier protein e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC6.2.1.45 ubiquitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC6.2.1.46 l-allo-isoleucine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.0015 * +EC6.2.1.46 l-isoleucine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.012 * +EC6.2.1.46 l-leucine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.03 * +EC6.2.1.46 l-valine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.023 * +EC6.2.1.5 3-sulfinopropionate advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 0.2 * +EC6.2.1.5 3-sulfinopropionate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.2.1.5 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 280.0 * +EC6.2.1.5 acetyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 75.2 * +EC6.2.1.5 adp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 22.0 * +EC6.2.1.5 atp advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 58.8 * +EC6.2.1.5 atp alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 3.6 * +EC6.2.1.5 atp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.6 * +EC6.2.1.5 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 23.0 * +EC6.2.1.5 coa advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 40.3 * +EC6.2.1.5 coa alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 1.6 * +EC6.2.1.5 coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.7 * +EC6.2.1.5 coa thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 25.0 * +EC6.2.1.5 d-malate advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 2.1 * +EC6.2.1.5 d-malate alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 1.7 * +EC6.2.1.5 d-malate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC6.2.1.5 itaconate advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 5.3 * +EC6.2.1.5 itaconate alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 0.5 * +EC6.2.1.5 itaconate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC6.2.1.5 l-malate advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 2.6 * +EC6.2.1.5 l-malate alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 1.1 * +EC6.2.1.5 l-malate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC6.2.1.5 phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 20.0 * +EC6.2.1.5 succinate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 70.9 * +EC6.2.1.5 succinate advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 31.1 * +EC6.2.1.5 succinate alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 2.7 * +EC6.2.1.5 succinate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.3 * +EC6.2.1.5 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 44.73 * +EC6.2.1.5 succinate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 29.0 * +EC6.2.1.5 succinyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 201.0 * +EC6.2.1.B10 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 37.9 * +EC6.2.1.B10 coa thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 39.6 * +EC6.2.1.B11 acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 138.0 * +EC6.2.1.B11 acetyl-coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 95.0 * +EC6.2.1.B11 adp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 70.0 * +EC6.2.1.B11 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 150.0 * +EC6.2.1.B11 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 53.7 * +EC6.2.1.B11 coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 110.0 * +EC6.2.1.B11 coa thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 53.1 * +EC6.2.1.B11 indole-3-acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.45 * +EC6.2.1.B11 phenylacetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 11.5 * +EC6.2.1.B11 phenylacetyl-coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.3 * +EC6.2.1.B11 phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 58.0 * +EC6.2.1.B3 12-oxo-phytodienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.56 * +EC6.2.1.B3 3-oxo-2-(2'-[z]-pentenyl)cyclopentane-1-hexanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.49 * +EC6.2.1.B3 3-oxo-2-(2'-[z]-pentenyl)cyclopentane-1-octanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.27 * +EC6.2.1.B3 dinor-12-oxo-phytodienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.78 * +EC6.2.1.B3 tetradecanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.96 * +EC6.2.1.B4 [acyl-carrier protein blr6284] bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.093 * +EC6.2.1.B4 [acyl-carrier protein bsr0959] bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.11 * +EC6.2.1.B5 [acyl-carrier protein atu2571] agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.31 * +EC6.3.1.11 putrescine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.94 * +EC6.3.1.13 1d-myo-inositol 2-amino-2-deoxy-alpha-d-glycopyranoside mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 3.15 * +EC6.3.1.15 3-dimethylallyl-4-hydroxybenzoate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.47 * +EC6.3.1.15 4-hydroxy-3-methylbenzoate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.36 * +EC6.3.1.17 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC6.3.1.19 [prokaryotic ubiquitin-like protein]-l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0023 * +EC6.3.1.19 [protein panb]-l-lysine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.023 * +EC6.3.1.2 atp camellia sinensis//*//* 11.6 * +EC6.3.1.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC6.3.1.2 atp pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 52.7 * +EC6.3.1.2 hydroxylamine pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 12.83 * +EC6.3.1.2 l-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.02 * +EC6.3.1.2 l-glutamate camellia sinensis//*//* 15.2 * +EC6.3.1.2 l-glutamate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 36.5 * +EC6.3.1.2 l-glutamate trichormus azollae//*//* 42.0 * +EC6.3.1.2 nh4+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.1 * +EC6.3.1.2 nh4+ camellia sinensis//*//* 13.5 * +EC6.3.1.20 apoh-protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.258 * +EC6.3.1.20 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.133 * +EC6.3.1.20 lpla acceptor peptide 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC6.3.1.20 octanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC6.3.1.20 r-lipoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.219 * +EC6.3.1.5 deamido-nad+ francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.25 * +EC6.3.1.5 deamido-nad+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.2 * +EC6.3.1.5 deamido-nmn francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.5 * +EC6.3.1.8 gamma-glu-l-cys(s-butyl)-gly crithidia fasciculata//*//* 9.2 * +EC6.3.1.8 gamma-glu-l-cys(s-ethyl)-gly crithidia fasciculata//*//* 11.3 * +EC6.3.1.8 gamma-glu-l-cys(s-propyl)-gly crithidia fasciculata//*//* 8.7 * +EC6.3.1.8 gamma-l-glu-l-ala-gly crithidia fasciculata//*//* 2.5 * +EC6.3.1.8 gamma-l-glu-l-cys(s-methyl)-gly crithidia fasciculata//*//* 8.8 * +EC6.3.1.8 gamma-l-glu-l-cys-gly crithidia fasciculata//*//* 15.0 * +EC6.3.1.8 gamma-l-glu-l-ile-gly crithidia fasciculata//*//* 10.0 * +EC6.3.1.8 gamma-l-glu-l-val-gly crithidia fasciculata//*//* 11.8 * +EC6.3.1.8 spermidine crithidia fasciculata//*//* 4.2 * +EC6.3.1.9 glutathione leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.3 * +EC6.3.1.9 glutathione leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 2.0 * +EC6.3.1.9 glutathione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.2 * +EC6.3.1.9 glutathionylspermidine crithidia fasciculata//*//* 8.7 * +EC6.3.1.9 n1-(gamma-l-glutamyl-l-cysteinyl-glycyl)-spermidine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.8 * +EC6.3.1.9 n1-glutathionylspermidine crithidia fasciculata//*//* 10.0 * +EC6.3.1.9 n8-glutathionylspermidine crithidia fasciculata//*//* 24.3 * +EC6.3.1.9 spermidine crithidia fasciculata//*//* 28.6 * +EC6.3.2.1 (r)-pantoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.039 * +EC6.3.2.1 (r)-pantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC6.3.2.1 (r)-pantoate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.5 * +EC6.3.2.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC6.3.2.1 beta-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.16 * +EC6.3.2.1 beta-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC6.3.2.1 beta-alanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.4 * +EC6.3.2.1 beta-alanine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.5 * +EC6.3.2.1 d-pantoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.4 * +EC6.3.2.1 pantoate lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 6.08 * +EC6.3.2.1 pantoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.94 * +EC6.3.2.13 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.3 * +EC6.3.2.14 2,3-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC6.3.2.14 3-hydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC6.3.2.14 4-aminosalicylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC6.3.2.14 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC6.3.2.14 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.7 * +EC6.3.2.14 phosphopantetheinylated entb escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC6.3.2.14 salicylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC6.3.2.17 (6r)-10-formyl-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.212 * +EC6.3.2.17 (6s)-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.215 * +EC6.3.2.17 (6s)-5-formyl-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.115 * +EC6.3.2.17 5,10-dideazatetrahydrofolic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.145 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.81 * +EC6.3.2.17 5-methyl-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC6.3.2.17 7,8-dihydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC6.3.2.17 7,8-dihydropteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.95 * +EC6.3.2.17 aminopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.17 * +EC6.3.2.17 aminopterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC6.3.2.17 aminopterin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC6.3.2.17 l-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.7 * +EC6.3.2.17 pteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC6.3.2.17 pteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC6.3.2.17 pteroyl-glu3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC6.3.2.17 pteroyl-glu4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC6.3.2.17 pteroyl-glu5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC6.3.2.2 4-aminobutyrate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.14 * +EC6.3.2.2 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.8 * +EC6.3.2.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 46.9 * +EC6.3.2.2 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.2 * +EC6.3.2.2 atp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 22.4 * +EC6.3.2.2 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.137 * +EC6.3.2.2 l-cys arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.5 * +EC6.3.2.2 l-cys pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 25.3 * +EC6.3.2.2 l-cysteine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 7920.0 * +EC6.3.2.2 l-cysteine brassica juncea//*//* 10190.0 * +EC6.3.2.2 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 46.6 * +EC6.3.2.2 l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.2 * +EC6.3.2.2 l-cysteine pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 25.3 * +EC6.3.2.2 l-cysteine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.42 * +EC6.3.2.2 l-cysteine xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 7350.0 * +EC6.3.2.2 l-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.1 * +EC6.3.2.2 l-glu pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 24.3 * +EC6.3.2.2 l-glutamate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 7920.0 * +EC6.3.2.2 l-glutamate brassica juncea//*//* 10190.0 * +EC6.3.2.2 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 31.4 * +EC6.3.2.2 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.2 * +EC6.3.2.2 l-glutamate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 24.3 * +EC6.3.2.2 l-glutamate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.35 * +EC6.3.2.2 l-glutamate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.9 * +EC6.3.2.2 l-glutamate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 7350.0 * +EC6.3.2.2 mg2+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.8 * +EC6.3.2.2 mgatp2- trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.8 * +EC6.3.2.2 mn2+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.5 * +EC6.3.2.2 mnatp2- trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.4 * +EC6.3.2.26 atp acremonium chrysogenum//*//* 0.0833 * +EC6.3.2.26 cysteine acremonium chrysogenum//*//* 0.133 * +EC6.3.2.3 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.1 * +EC6.3.2.3 atp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 55.0 * +EC6.3.2.3 atp pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 5.32 * +EC6.3.2.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC6.3.2.3 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 5.4 * +EC6.3.2.3 gamma-glu-l-cys arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.2 * +EC6.3.2.3 gamma-glu-l-cys pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 55.0 * +EC6.3.2.3 gamma-l-glu-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.5 * +EC6.3.2.3 gamma-l-glu-l-alpha-aminobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC6.3.2.3 gamma-l-glu-l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5 * +EC6.3.2.3 gamma-l-glutamyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.68 * +EC6.3.2.3 gamma-l-glutamyl-l-cysteine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 4.62 * +EC6.3.2.3 gly arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.6 * +EC6.3.2.3 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.8 * +EC6.3.2.3 gly pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 55.0 * +EC6.3.2.3 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.68 * +EC6.3.2.3 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC6.3.2.3 glycine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 4.22 * +EC6.3.2.35 d-asparagine enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 8.87 * +EC6.3.2.35 d-serine enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 8.17 * +EC6.3.2.4 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.9 * +EC6.3.2.4 d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC6.3.2.4 d-alanine chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 48.5 * +EC6.3.2.4 d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 31.2 * +EC6.3.2.4 d-alanine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.9 * +EC6.3.2.4 d-alanine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 1.67 * +EC6.3.2.4 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC6.3.2.41 n-acetyl-l-aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.0 * +EC6.3.2.43 [lysw]-c-terminal-l-glutamate54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.0 * +EC6.3.2.43 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.2 * +EC6.3.2.43 l-2-aminoadipate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.85 * +EC6.3.2.45 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.83 * +EC6.3.2.45 l-ala-d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC6.3.2.45 l-ala-gamma-d-glu-l-lys-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC6.3.2.45 l-ala-gamma-d-glu-l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC6.3.2.45 l-alanyl-gamma-d-glutamyl-meso-2,6-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.83 * +EC6.3.2.45 l-alanyl-gamma-d-glutamyl-meso-2,6-diaminoheptanedioyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.17 * +EC6.3.2.45 l-alanyl-gamma-d-glutamyl-meso-2,6-diaminoheptanedioyl-d-alanyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.83 * +EC6.3.2.45 udp-n-alpha-d-acetylmuramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.83 * +EC6.3.2.46 fumarate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 11.6 * +EC6.3.2.46 succinate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 3.8 * +EC6.3.2.47 3-((((2r,3r)-3-carboxyoxiran-2-yl)carbonyl)amino)-l-alanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 3.0 * +EC6.3.2.47 3-[[(2e)-4-amino-4-oxobut-2-enoyl]amino]-l-alanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.3 * +EC6.3.2.49 l-alanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.7 * +EC6.3.2.49 l-phenylalanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.7 * +EC6.3.2.5 (r)-4'-phosphopantothenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.88 * +EC6.3.2.5 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC6.3.2.5 ctp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.9 * +EC6.3.2.5 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC6.3.2.5 n-[(r)-4'-phosphopantothenoyl]-l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.83 * +EC6.3.2.51 (r)-4'-phosphopantothenate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.9 * +EC6.3.2.51 (r)-4'-phosphopantothenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC6.3.2.51 ctp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.9 * +EC6.3.2.51 l-cysteine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.9 * +EC6.3.2.7 atp streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 9.0 * +EC6.3.2.7 l-lys streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 9.0 * +EC6.3.2.7 l-lysine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.833 * +EC6.3.2.7 udp-n-acetylmuramoyl-l-ala-d-glu streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 9.0 * +EC6.3.2.8 2-amino-benzylpropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.5 * +EC6.3.2.8 2-amino-ethylpropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.2 * +EC6.3.2.8 2-amino-methylpropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.3 * +EC6.3.2.8 2-amino-n-butyric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC6.3.2.8 2-amino-n-hydroxymethylpropionamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.7 * +EC6.3.2.8 2-amino-propionamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.3 * +EC6.3.2.8 2-amino-tert-butylpropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.7 * +EC6.3.2.8 beta-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC6.3.2.8 beta-chloro-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC6.3.2.8 beta-chloro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.1 * +EC6.3.2.8 beta-cyano-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.7 * +EC6.3.2.8 dl-propargylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC6.3.2.8 gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.7 * +EC6.3.2.8 glycine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.53 * +EC6.3.2.8 l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.3 * +EC6.3.2.8 l-alanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC6.3.2.8 l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC6.3.2.8 l-ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.17 * +EC6.3.2.8 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC6.3.2.8 l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC6.3.2.8 l-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.3 * +EC6.3.2.8 l-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.7 * +EC6.3.2.8 l-vinylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.3 * +EC6.3.2.8 n-(2-aminopropionyl)piperidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.17 * +EC6.3.2.B15 (2e)-4-[[(2s)-2-amino-2-carboxyethyl]amino]-4-oxobut-2-enoate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.35 * +EC6.3.2.B15 l-isoleucine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.16 * +EC6.3.2.B15 l-leucine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.19 * +EC6.3.2.B15 l-valine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.135 * +EC6.3.2.B15 nbeta-(r,r)-trans-epoxysuccinamoyl-(2s)-2,3-diaminopropionate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 3.0 * +EC6.3.2.B2 l-alanine psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 0.0117 * +EC6.3.2.B2 l-alanyl-gamma-d-glutamate psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 0.023 * +EC6.3.2.B2 l-alanyl-gamma-d-glutamyl-l-lysine psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 0.0042 * +EC6.3.2.B2 l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanine psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 0.0017 * +EC6.3.2.B2 l-alanyl-gamma-d-glutamyl-meso-diaminopimelate psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 4.33 * +EC6.3.2.B2 l-alanyl-gamma-d-glutamyl-meso-diaminopimelyl-d-alanine psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 0.098 * +EC6.3.2.B2 l-alanyl-gamma-d-glutamyl-meso-diaminopimelyl-d-alanyl-d-alanine psychrobacter arcticus//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//par 0.088 * +EC6.3.3.2 (6s)-5-formyltetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 16.3 * +EC6.3.3.2 5-formyltetrahydrofolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.3 * +EC6.3.3.2 5-formyltetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.33 * +EC6.3.3.2 5-formyltetrahydrofolate mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 1.0 * +EC6.3.3.2 atp mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 1.0 * +EC6.3.3.2 mgatp2- mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.99 * +EC6.3.3.4 (2'r)-methyl-l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.032 * +EC6.3.3.4 (2's)-ethyl-l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.0023 * +EC6.3.3.4 (2's)-methyl-l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.023 * +EC6.3.3.4 l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.87 * +EC6.3.3.5 d-homocysteine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 860.0 * +EC6.3.3.5 o-ureido-d-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 2200.0 * +EC6.3.3.6 (2r,5r)-5-carboxymethylproline pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.122 * +EC6.3.3.6 (2s,5r)-5-carboxymethylproline pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.2 * +EC6.3.3.6 (2s,5s)-5-carboxymethylproline pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.36 * +EC6.3.3.6 atp pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.28 * +EC6.3.4.13 5'-phosphoribosylglycinamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.3 * +EC6.3.4.13 beta-ala gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.8 * +EC6.3.4.13 gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 7.0 * +EC6.3.4.13 sarcosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.6 * +EC6.3.4.14 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.23 * +EC6.3.4.14 biotin-carboxyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.68 * +EC6.3.4.14 biotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.05 * +EC6.3.4.14 hco3- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC6.3.4.15 [escherichia coli apo-biotin-carboxyl-carrier-protein mutant m136s]-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.58 * +EC6.3.4.15 [escherichia coli apo-biotin-carboxyl-carrier-protein]-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.165 * +EC6.3.4.15 [sulfolobus tokodaii apo-biotin-carboxyl-carrier-protein mutant s136m]-lysine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.165 * +EC6.3.4.15 [sulfolobus tokodaii apo-biotin-carboxyl-carrier-protein]-lysine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.004 * +EC6.3.4.15 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 360000.0 * +EC6.3.4.15 biotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC6.3.4.15 biotin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 450000.0 * +EC6.3.4.15 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC6.3.4.15 yeast acceptor peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0017 * +EC6.3.4.16 atp methanobrevibacter smithii//prokaryotes;archaea;euryarchaeota;methanobrevibacter//msi 0.043 * +EC6.3.4.16 hco3- methanobrevibacter smithii//prokaryotes;archaea;euryarchaeota;methanobrevibacter//msi 0.044 * +EC6.3.4.16 nh3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.73 * +EC6.3.4.16 nh4+ methanobrevibacter smithii//prokaryotes;archaea;euryarchaeota;methanobrevibacter//msi 0.052 * +EC6.3.4.18 5-amino-1-(5-phospho-d-ribosyl)imidazole staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 24.83 * +EC6.3.4.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.9 * +EC6.3.4.18 hco3- aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.063 * +EC6.3.4.19 [trnaile2]-cytidine34 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC6.3.4.19 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC6.3.4.19 l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC6.3.4.19 mature [trnaile2]-cytidine34 geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.03 * +EC6.3.4.19 precursor [trnaile2]-cytidine34 geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.025 * +EC6.3.4.2 2',3'-dialdehyde adenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.054 * +EC6.3.4.2 2'-deoxy-gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC6.3.4.2 6-thioguanosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.5 * +EC6.3.4.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.8 * +EC6.3.4.2 gln-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.41 * +EC6.3.4.2 gln-oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.453 * +EC6.3.4.2 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.1 * +EC6.3.4.2 gln lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.49 * +EC6.3.4.2 glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.1 * +EC6.3.4.2 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.6 * +EC6.3.4.2 guanosine 5'-tetraphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC6.3.4.2 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.2 * +EC6.3.4.2 nh2oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC6.3.4.2 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.3 * +EC6.3.4.2 nh4+ lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 6.3 * +EC6.3.4.2 o-methylguanosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC6.3.4.2 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC6.3.4.21 nicotinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC6.3.4.22 [trnaile2]-cytidine34 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0065 * +EC6.3.4.22 agmatine archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.006 * +EC6.3.4.22 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0062 * +EC6.3.4.24 atp methanocaldococcus fervens//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mfe 5.9 * +EC6.3.4.24 l-glutamate methanocaldococcus fervens//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mfe 5.8 * +EC6.3.4.24 tyramine methanocaldococcus fervens//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mfe 4.8 * +EC6.3.4.3 (6r,s)-tetrahydrofolate monoglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC6.3.4.3 (6r,s)-tetrahydrofolate pteroylpentaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC6.3.4.3 (6r,s)-tetrahydrofolate pteroyltriglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC6.3.4.3 atp moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 6.08 * +EC6.3.4.3 formate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 6.08 * +EC6.3.4.4 2'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.96 * +EC6.3.4.4 2'-dimp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.5 * +EC6.3.4.4 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.94 * +EC6.3.4.4 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.2 * +EC6.3.4.4 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.5 * +EC6.3.4.4 gtp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC6.3.4.4 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC6.3.4.4 imp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.3.4.4 imp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.2 * +EC6.3.4.4 imp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.44 * +EC6.3.4.4 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.3.4.4 l-asp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.5 * +EC6.3.4.4 l-aspartate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.2 * +EC6.3.4.4 l-aspartate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC6.3.4.6 acetamide oleomonas sagaranensis//*//* 40.4 * +EC6.3.4.6 formamide oleomonas sagaranensis//*//* 16.8 * +EC6.3.4.6 urea kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 210.8 * +EC6.3.4.6 urea oleomonas sagaranensis//*//* 44.2 * +EC6.3.5.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.9 * +EC6.3.5.1 atp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.15 * +EC6.3.5.1 deamido-nad+ acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.57 * +EC6.3.5.1 deamido-nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.6 * +EC6.3.5.1 deamido-nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.16 * +EC6.3.5.1 deamido-nmn acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.0032 * +EC6.3.5.1 l-gln mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.0 * +EC6.3.5.1 l-gln thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.288 * +EC6.3.5.1 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.4 * +EC6.3.5.1 nh3 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.24 * +EC6.3.5.10 adenosylcobyrinic acid diamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.6 * +EC6.3.5.10 adenosylcobyrinic acid pentaamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 8.4 * +EC6.3.5.10 adenosylcobyrinic acid tetraamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.6 * +EC6.3.5.10 adenosylcobyrinic acid triamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.4 * +EC6.3.5.11 ammonia salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.18 * +EC6.3.5.11 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.13 * +EC6.3.5.11 cobyrinate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.16 * +EC6.3.5.11 l-glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.16 * +EC6.3.5.2 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.39 * +EC6.3.5.2 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.43 * +EC6.3.5.2 l-gln plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.66 * +EC6.3.5.2 l-glutamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.05 * +EC6.3.5.2 l-glutamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.43 * +EC6.3.5.2 nh3 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.933 * +EC6.3.5.2 xmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.3 * +EC6.3.5.2 xmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.43 * +EC6.3.5.3 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC6.3.5.4 asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.05 * +EC6.3.5.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.94 * +EC6.3.5.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC6.3.5.4 atp vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 5.8 * +EC6.3.5.4 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC6.3.5.4 glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC6.3.5.4 glutamine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 5.8 * +EC6.3.5.4 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.03 * +EC6.3.5.4 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.75 * +EC6.3.5.4 l-asparagine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 5.8 * +EC6.3.5.4 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.94 * +EC6.3.5.4 l-aspartic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC6.3.5.4 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.6 * +EC6.3.5.4 l-glutamic acid gamma-monohydroxamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC6.3.5.4 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.08 * +EC6.3.5.4 nh3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC6.3.5.4 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC6.3.5.5 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC6.3.5.5 ammonia escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.1 * +EC6.3.5.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC6.3.5.5 atp mammalia//*//* 2500.0 * +EC6.3.5.5 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC6.3.5.5 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.4 * +EC6.3.5.5 l-glutamine mammalia//*//* 2660.0 * +EC6.3.5.5 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC6.3.5.6 asn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.027 * +EC6.3.5.6 asp-trnaasn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.3 * +EC6.3.5.6 asp-trnagln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.61 * +EC6.3.5.6 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 6.1 * +EC6.3.5.6 gln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 11.8 * +EC6.3.5.7 asn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.027 * +EC6.3.5.7 asp-trnaasn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.3 * +EC6.3.5.7 asp-trnagln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.61 * +EC6.3.5.7 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 6.1 * +EC6.3.5.7 atp streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.59 * +EC6.3.5.7 gln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 11.8 * +EC6.3.5.7 gln streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.51 * +EC6.3.5.7 glu-trnagln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.23 * +EC6.3.5.7 glu-trnagln methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.2 * +EC6.3.5.7 trnagln1(uug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.006 * +EC6.3.5.7 trnagln2(cug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.41 * +EC6.3.5.7 trnaglu methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.04 * +EC6.3.5.9 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.13 * +EC6.3.5.9 cobyrinic acid c-monoamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.2 * +EC6.3.5.9 cobyrinic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.16 * +EC6.3.5.9 glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.16 * +EC6.3.5.9 nh4+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.18 * +EC6.4.1.1 adp rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.013 * +EC6.4.1.1 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.28 * +EC6.4.1.1 atp rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 10.9 * +EC6.4.1.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 60.0 * +EC6.4.1.1 carbamoyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC6.4.1.1 hco3- rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 11.6 * +EC6.4.1.1 hco3- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 60.0 * +EC6.4.1.1 oxaloacetate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.28 * +EC6.4.1.1 pyruvate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 13.9 * +EC6.4.1.1 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 60.0 * +EC6.4.1.1 pyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 15.7 * +EC6.4.1.2 acetyl-coa acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 11.6 * +EC6.4.1.2 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC6.4.1.2 acetyl-coa klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 30.1 * +EC6.4.1.2 acetyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 2.0 * +EC6.4.1.2 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.6 * +EC6.4.1.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.155 * +EC6.4.1.3 acetyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.66 * +EC6.4.1.3 propanoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 2.0 * +EC6.4.1.3 propionyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 2.86 * +EC6.4.1.4 3-methylcrotonoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.96 * +EC6.4.1.4 3-methylcrotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC6.4.1.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC6.4.1.6 acetone xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.33 * +EC6.4.1.7 2-oxoglutarate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 30.6 * +EC6.4.1.7 atp hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 31.7 * +EC6.5.1.1 (deoxyribonucleotide)20 neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.0018 * +EC6.5.1.1 (deoxyribonucleotide)n ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.056 * +EC6.5.1.1 (single-stranded dna splinted by rna)m chlorella virus//*//* 0.008 * +EC6.5.1.1 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.04 * +EC6.5.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.74 * +EC6.5.1.1 clodronate enterobacteria phage t4//*//* 0.0041 * +EC6.5.1.1 dimethylallyl diphosphate enterobacteria phage t4//*//* 0.0492 * +EC6.5.1.1 dna sealing events per min bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.117 * +EC6.5.1.1 etidronate enterobacteria phage t4//*//* 0.07 * +EC6.5.1.1 farnesyl diphosphate enterobacteria phage t4//*//* 0.0028 * +EC6.5.1.1 farnesyl triphosphate enterobacteria phage t4//*//* 0.0349 * +EC6.5.1.1 geranyl diphosphate enterobacteria phage t4//*//* 0.0008 * +EC6.5.1.1 geranyl triphosphate enterobacteria phage t4//*//* 0.0319 * +EC6.5.1.1 isopentenyl diphosphate enterobacteria phage t4//*//* 0.0316 * +EC6.5.1.1 isopentenyl triphosphate enterobacteria phage t4//*//* 0.0729 * +EC6.5.1.1 methylenebisphosphonate enterobacteria phage t4//*//* 0.0006 * +EC6.5.1.1 nicked dna substrate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0023 * +EC6.5.1.1 nicked dna thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.11 * +EC6.5.1.1 tripolyphosphate enterobacteria phage t4//*//* 0.0062 * +EC6.5.1.2 dna melanoplus sanguinipes//*//* 0.4 * +EC6.5.1.2 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.072 * +EC6.5.1.2 nad+ streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.1 * +EC6.5.1.2 nicked dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.5.1.2 nicked dna pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.047 * +EC6.5.1.2 nicked dna thermus scotoductus//prokaryotes;bacteria;deinococcus-thermus;thermus//tsc 0.132 * +EC6.5.1.2 nicked substrate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.033 * +EC6.5.1.3 (2e,6e)-farnesyl diphosphate enterobacteria phage t4//*//* 12.1 * +EC6.5.1.3 (2e,6e)-farnesyl triphosphate enterobacteria phage t4//*//* 11.6 * +EC6.5.1.3 (ribonucleotide)n+m synthetic construct//*//* 2.94 * +EC6.5.1.3 (rna)n synthetic construct//*//* 6.08 * +EC6.5.1.3 atp enterobacteria phage t4//*//* 0.055 * +EC6.5.1.3 clodronate enterobacteria phage t4//*//* 0.29 * +EC6.5.1.3 dimethylallyl diphosphate enterobacteria phage t4//*//* 3.1 * +EC6.5.1.3 etidronate enterobacteria phage t4//*//* 0.028 * +EC6.5.1.3 geranyl diphosphate enterobacteria phage t4//*//* 8.6 * +EC6.5.1.3 geranyl triphosphate enterobacteria phage t4//*//* 52.2 * +EC6.5.1.3 gtp enterobacteria phage t4//*//* 0.017 * +EC6.5.1.3 isopentenyl diphosphate enterobacteria phage t4//*//* 0.9 * +EC6.5.1.3 isopentenyl triphosphate enterobacteria phage t4//*//* 6.7 * +EC6.5.1.3 methylenebisphosphonate enterobacteria phage t4//*//* 0.28 * +EC6.5.1.8 (ribonucleotide)10-3'-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00055 * +EC6.5.1.8 (ribonucleotide)20-3'-phosphate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.0014 * +EC6.5.1.8 (ribonucleotide)20-3'-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0122 * +EC6.6.1.1 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0067 * +EC6.6.1.1 atp thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.0061 * +EC6.6.1.1 deuteroporphyrin ix synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.013 * +EC6.6.1.1 deuteroporphyrin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0188 * +EC6.6.1.1 mg2+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0081 * +EC6.6.1.1 mg2+ thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.0065 * +EC6.6.1.1 protoporphyrin ix chlorobaculum tepidum//*//* 0.03 * diff --git a/code/quantitative_index/min_KM.txt b/code/quantitative_index/min_KM.txt new file mode 100644 index 0000000..2cb9887 --- /dev/null +++ b/code/quantitative_index/min_KM.txt @@ -0,0 +1,66898 @@ +EC1.1.1.1 (+)-2-methylcyclohexanone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.25 * +EC1.1.1.1 (2e)-but-2-en-1-ol yokenella sp.//*//* 9.1 * +EC1.1.1.1 (2e)-but-2-enal yokenella sp.//*//* 3.3 * +EC1.1.1.1 (r)-1-indanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.4 * +EC1.1.1.1 (r)-2-butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 7.5 * +EC1.1.1.1 (r)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.41 * +EC1.1.1.1 (r)-2-octanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.92 * +EC1.1.1.1 (r)-2-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 31.7 * +EC1.1.1.1 (r)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.22 * +EC1.1.1.1 (r)-2-phenylpropanol brevibacterium sp.//*//* 0.02 * +EC1.1.1.1 (r)-alpha-tetralol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.28 * +EC1.1.1.1 (s)-(+)-1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.2 * +EC1.1.1.1 (s)-(+)-alpha-tetraol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.2 * +EC1.1.1.1 (s)-(-)-1-phenylethanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 18.1 * +EC1.1.1.1 (s)-1-indanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 6.4 * +EC1.1.1.1 (s)-1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.2 * +EC1.1.1.1 (s)-1-phenylethanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 18.1 * +EC1.1.1.1 (s)-2-butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.35 * +EC1.1.1.1 (s)-2-butanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC1.1.1.1 (s)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.012 * +EC1.1.1.1 (s)-2-octanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.18 * +EC1.1.1.1 (s)-2-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.73 * +EC1.1.1.1 (s)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.07 * +EC1.1.1.1 (s)-2-phenylpropanol brevibacterium sp.//*//* 0.157 * +EC1.1.1.1 (s)-alpha-tetralol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.05 * +EC1.1.1.1 (s)-alpha-tetralol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.2 * +EC1.1.1.1 (s)-n-benzyl-3-pyrrolidinol dipodascus capitatus//*//* 8.47 * +EC1.1.1.1 1,2-propanediol fragaria x ananassa//*//* 15.84 * +EC1.1.1.1 1,2-propanediol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 1.65 * +EC1.1.1.1 1-butanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.596 * +EC1.1.1.1 1-butanol fragaria x ananassa//*//* 19.93 * +EC1.1.1.1 1-butanol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 25.78 * +EC1.1.1.1 1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC1.1.1.1 1-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.08 * +EC1.1.1.1 1-formyl-6-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6e-05 * +EC1.1.1.1 1-formyl-8-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5e-05 * +EC1.1.1.1 1-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.1.1.1 1-heptanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.038 * +EC1.1.1.1 1-hexanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.147 * +EC1.1.1.1 1-hexanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.035 * +EC1.1.1.1 1-hydroxymethyl-6-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC1.1.1.1 1-hydroxymethyl-8-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC1.1.1.1 1-hydroxymethylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00059 * +EC1.1.1.1 1-indanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 8.7 * +EC1.1.1.1 1-indanol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.1 * +EC1.1.1.1 1-indanone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 27.6 * +EC1.1.1.1 1-octanol geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 3.88 * +EC1.1.1.1 1-octanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC1.1.1.1 1-octanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC1.1.1.1 1-pentanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.396 * +EC1.1.1.1 1-pentanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.0 * +EC1.1.1.1 1-pentanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC1.1.1.1 1-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.027 * +EC1.1.1.1 1-phenyl-1,2-propandione thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.9 * +EC1.1.1.1 1-phenyl-1,2-propanedione sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 5.0 * +EC1.1.1.1 1-phenyl-1,2-propanedione thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.9 * +EC1.1.1.1 1-phenylethanol brevibacterium sp.//*//* 0.025 * +EC1.1.1.1 1-phenylethanol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 244.0 * +EC1.1.1.1 1-propanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.03 * +EC1.1.1.1 1-propanol fragaria x ananassa//*//* 3.54 * +EC1.1.1.1 1-propanol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 3.09 * +EC1.1.1.1 1-propanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.24 * +EC1.1.1.1 11-cis-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.2 * +EC1.1.1.1 11-cis-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.28 * +EC1.1.1.1 11-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.1.1.1 12-hydroxydodecanoate coturnix coturnix//*//* 0.04 * +EC1.1.1.1 12-hydroxydodecanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC1.1.1.1 12-hydroxydodecanoate mesocricetus auratus//*//* 0.02 * +EC1.1.1.1 12-hydroxydodecanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.1.1.1 12-hydroxydodecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC1.1.1.1 12-hydroxylauric acid methyl ester geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.086 * +EC1.1.1.1 12-oxolauric acid methyl ester geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.066 * +EC1.1.1.1 13-cis-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.11 * +EC1.1.1.1 13-cis-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.257 * +EC1.1.1.1 16-hydroxyhexadecanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC1.1.1.1 2',3',4',5',6'-pentafluoroacetophenone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 11.9 * +EC1.1.1.1 2,2,2-trifluoroacetophenone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 6.3 * +EC1.1.1.1 2,2,2-trifluoroacetophenone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 11.2 * +EC1.1.1.1 2,2-dichloroacetophenone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.11 * +EC1.1.1.1 2,3-butanediol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 61.3 * +EC1.1.1.1 2-butanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.05 * +EC1.1.1.1 2-butanol corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 11.9 * +EC1.1.1.1 2-butanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 15.0 * +EC1.1.1.1 2-buten-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC1.1.1.1 2-decanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.147 * +EC1.1.1.1 2-deoxy-d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 310.0 * +EC1.1.1.1 2-ethoxyethanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.25 * +EC1.1.1.1 2-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC1.1.1.1 2-heptanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.16 * +EC1.1.1.1 2-hexanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 5.01 * +EC1.1.1.1 2-hydroxymethylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00048 * +EC1.1.1.1 2-methylcyclohexanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.021 * +EC1.1.1.1 2-methylpropan-1-ol scaptodrosophila lebanonensis//*//* 2.7 * +EC1.1.1.1 2-nonanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.215 * +EC1.1.1.1 2-octanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.286 * +EC1.1.1.1 2-pentanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.752 * +EC1.1.1.1 2-pentanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 5.15 * +EC1.1.1.1 2-pentanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 14.2 * +EC1.1.1.1 2-phenylpropionaldehyde brevibacterium sp.//*//* 0.864 * +EC1.1.1.1 2-propanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 2.44 * +EC1.1.1.1 2-propanol corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 19.6 * +EC1.1.1.1 2-propanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 268.0 * +EC1.1.1.1 2-propanol fragaria x ananassa//*//* 11.46 * +EC1.1.1.1 2-propanol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 57.8 * +EC1.1.1.1 2-propanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 560.0 * +EC1.1.1.1 2-propanol leifsonia sp.//*//* 57.5 * +EC1.1.1.1 2-propanol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 3.42 * +EC1.1.1.1 2-propanol scaptodrosophila lebanonensis//*//* 1.1 * +EC1.1.1.1 2-propanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.6 * +EC1.1.1.1 3,4-dihydro-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.1.1.1 3,4-dihydro-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC1.1.1.1 3-bromobenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.14 * +EC1.1.1.1 3-bromobenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.14 * +EC1.1.1.1 3-methoxybenzaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.4 * +EC1.1.1.1 3-methoxybenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.1 3-methoxybenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.1 3-methylbutan-2-one sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.5 * +EC1.1.1.1 3-methylcyclohexanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 9.9 * +EC1.1.1.1 3-methylcyclohexanone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 66.0 * +EC1.1.1.1 3-oxo-5beta-androstan-17beta-ol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.031 * +EC1.1.1.1 3-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.6 * +EC1.1.1.1 3-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.27 * +EC1.1.1.1 3-pentanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 75.0 * +EC1.1.1.1 3-phenyl-1-propanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.1.1.1 3-phenylpropanol brevibacterium sp.//*//* 0.033 * +EC1.1.1.1 3beta,12alpha-dihydroxy-5beta-cholanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.128 * +EC1.1.1.1 3beta,7alpha,12alpha-trihydroxy-5beta-cholanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.149 * +EC1.1.1.1 3beta,7alpha-12alpha-trihydroxy-5beta-cholanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC1.1.1.1 3beta-7alpha-dihydroxy-5beta-cholanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC1.1.1.1 4-bromobenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.12 * +EC1.1.1.1 4-bromobenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.12 * +EC1.1.1.1 4-carboxybenzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.28 * +EC1.1.1.1 4-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00048 * +EC1.1.1.1 4-hydroxy-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.1 4-hydroxymethylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC1.1.1.1 4-methoxybenzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.024 * +EC1.1.1.1 4-methoxybenzaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.4 * +EC1.1.1.1 4-methoxybenzyl alcohol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.13 * +EC1.1.1.1 4-methoxybenzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.07 * +EC1.1.1.1 4-methoxybenzyl alcohol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 61.0 * +EC1.1.1.1 4-methoxybenzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.3 * +EC1.1.1.1 4-methoxyphenylacetone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.131 * +EC1.1.1.1 4-methyl-1-pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 53.8 * +EC1.1.1.1 4-methylpentan-1-ol scaptodrosophila lebanonensis//*//* 0.81 * +EC1.1.1.1 4-oxo-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.1.1.1 5alpha-androstan-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC1.1.1.1 5alpha-androstan-17beta-ol-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC1.1.1.1 5beta-androstan-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC1.1.1.1 5beta-androstan-3beta-ol-17 one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.123 * +EC1.1.1.1 5beta-androstan-3beta-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC1.1.1.1 5beta-cholanic acid-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.1.1.1 5beta-pregnan-21-ol-3,20-dione hemisuccinate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.047 * +EC1.1.1.1 5beta-pregnan-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC1.1.1.1 5beta-pregnan-3beta-ol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC1.1.1.1 9-cis-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.16 * +EC1.1.1.1 9-cis-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.3 * +EC1.1.1.1 9-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.1 acetaldehyde acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.3 * +EC1.1.1.1 acetaldehyde aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.053 * +EC1.1.1.1 acetaldehyde chlamydomonas moewusii//*//* 1.25 * +EC1.1.1.1 acetaldehyde corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 0.92 * +EC1.1.1.1 acetaldehyde crocus sativus//*//* 1.9 * +EC1.1.1.1 acetaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 1.8 * +EC1.1.1.1 acetaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 6.0 * +EC1.1.1.1 acetaldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.364 * +EC1.1.1.1 acetaldehyde geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 2.25 * +EC1.1.1.1 acetaldehyde haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 28.0 * +EC1.1.1.1 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC1.1.1.1 acetaldehyde hordeum vulgare//*//* 1.25 * +EC1.1.1.1 acetaldehyde kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.2 * +EC1.1.1.1 acetaldehyde meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.194 * +EC1.1.1.1 acetaldehyde natronomonas pharaonis//prokaryotes;archaea;euryarchaeota;natronomonas//nph 0.013 * +EC1.1.1.1 acetaldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 7.05 * +EC1.1.1.1 acetaldehyde parageobacillus thermoglucosidans//*//* 34.0 * +EC1.1.1.1 acetaldehyde petroselinum crispum//*//* 0.6 * +EC1.1.1.1 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.217 * +EC1.1.1.1 acetaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC1.1.1.1 acetaldehyde saimiri sciureus//*//* 0.1 * +EC1.1.1.1 acetaldehyde sporotrichum pulverulentum//*//* 0.0086 * +EC1.1.1.1 acetaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 85.0 * +EC1.1.1.1 acetaldehyde zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.086 * +EC1.1.1.1 acetoin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.5 * +EC1.1.1.1 acetoin thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 30.2 * +EC1.1.1.1 acetone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 135.0 * +EC1.1.1.1 acetone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.6 * +EC1.1.1.1 acyclonad+ equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.3 * +EC1.1.1.1 all-trans-retinal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.26 * +EC1.1.1.1 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.1 all-trans-retinol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.059 * +EC1.1.1.1 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.1.1.1 all-trans-retinol mesocricetus auratus//*//* 0.02 * +EC1.1.1.1 allyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.39 * +EC1.1.1.1 alpha-tetralol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.3 * +EC1.1.1.1 alpha-tetralone thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.8 * +EC1.1.1.1 anisaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0025 * +EC1.1.1.1 benzaldehyde aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.333 * +EC1.1.1.1 benzaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.148 * +EC1.1.1.1 benzaldehyde saccharomyces carlsbergensis//*//* 2.0 * +EC1.1.1.1 benzaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.0 * +EC1.1.1.1 benzaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.1.1.1 benzaldehyde yokenella sp.//*//* 0.4 * +EC1.1.1.1 benzil sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.43 * +EC1.1.1.1 benzyl alcohol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 5.43 * +EC1.1.1.1 benzyl alcohol brevibacterium sp.//*//* 0.012 * +EC1.1.1.1 benzyl alcohol coturnix coturnix//*//* 0.013 * +EC1.1.1.1 benzyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.046 * +EC1.1.1.1 benzyl alcohol fragaria x ananassa//*//* 19.96 * +EC1.1.1.1 benzyl alcohol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 6.8 * +EC1.1.1.1 benzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.1.1.1 benzyl alcohol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 7.72 * +EC1.1.1.1 benzyl alcohol moraxella sp.//*//* 29.4 * +EC1.1.1.1 benzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.1.1.1 benzyl alcohol saccharomyces carlsbergensis//*//* 24.0 * +EC1.1.1.1 benzyl alcohol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 34.0 * +EC1.1.1.1 benzyl alcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.013 * +EC1.1.1.1 benzyl alcohol yokenella sp.//*//* 14.0 * +EC1.1.1.1 benzylalcohol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.44 * +EC1.1.1.1 benzylalcohol sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.0145 * +EC1.1.1.1 beta-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 240.0 * +EC1.1.1.1 butan-1-ol coturnix coturnix//*//* 2.0 * +EC1.1.1.1 butan-1-ol drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3.31 * +EC1.1.1.1 butan-1-ol drosophila simulans//eukaryotes;animals;arthropods;insects//dsi 3.01 * +EC1.1.1.1 butan-1-ol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 5.65 * +EC1.1.1.1 butan-1-ol scaptodrosophila lebanonensis//*//* 1.9 * +EC1.1.1.1 butan-1-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.055 * +EC1.1.1.1 butan-2,3-diol pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 86.8 * +EC1.1.1.1 butan-2-ol drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.86 * +EC1.1.1.1 butan-2-ol drosophila simulans//eukaryotes;animals;arthropods;insects//dsi 0.41 * +EC1.1.1.1 butan-2-ol drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 1.6 * +EC1.1.1.1 butan-2-ol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 93.3 * +EC1.1.1.1 butan-2-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.35 * +EC1.1.1.1 butan-2-one sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 14.0 * +EC1.1.1.1 butanal corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 4.24 * +EC1.1.1.1 butanal mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.48 * +EC1.1.1.1 butanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC1.1.1.1 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 72.0 * +EC1.1.1.1 butanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.35 * +EC1.1.1.1 butanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.091 * +EC1.1.1.1 butanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC1.1.1.1 butanol saimiri sciureus//*//* 0.012 * +EC1.1.1.1 butyraldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.06 * +EC1.1.1.1 butyraldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.108 * +EC1.1.1.1 butyraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.07 * +EC1.1.1.1 cinnamaldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.03 * +EC1.1.1.1 cinnamyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 4.58 * +EC1.1.1.1 cinnamyl alcohol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.11 * +EC1.1.1.1 cis-4-methylcyclohexanol scaptodrosophila lebanonensis//*//* 1.0 * +EC1.1.1.1 cis-decahydro-1-naphthol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 4.2 * +EC1.1.1.1 crotyl alcohol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.71 * +EC1.1.1.1 cycloheptanol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 5.1 * +EC1.1.1.1 cyclohexanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.703 * +EC1.1.1.1 cyclohexanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.39 * +EC1.1.1.1 cyclohexanol coturnix coturnix//*//* 5.2 * +EC1.1.1.1 cyclohexanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.1 cyclohexanol mesocricetus auratus//*//* 0.04 * +EC1.1.1.1 cyclohexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC1.1.1.1 cyclohexanol scaptodrosophila lebanonensis//*//* 0.72 * +EC1.1.1.1 cyclohexanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.1.1.1 cyclohexanol thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 2.09 * +EC1.1.1.1 cyclohexanone aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.39 * +EC1.1.1.1 cyclohexanone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 14.0 * +EC1.1.1.1 cyclohexanone thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 3.68 * +EC1.1.1.1 cyclopentanone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.3 * +EC1.1.1.1 ethanol acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 2.3 * +EC1.1.1.1 ethanol aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 13.7 * +EC1.1.1.1 ethanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 1.23 * +EC1.1.1.1 ethanol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.1 * +EC1.1.1.1 ethanol aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.3 * +EC1.1.1.1 ethanol brassica napus//eukaryotes;plants;eudicots;mustard family//bna 20.0 * +EC1.1.1.1 ethanol chlamydomonas moewusii//*//* 22.2 * +EC1.1.1.1 ethanol citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 460.0 * +EC1.1.1.1 ethanol corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 6.8 * +EC1.1.1.1 ethanol coturnix coturnix//*//* 8.1 * +EC1.1.1.1 ethanol crocus sativus//*//* 13.0 * +EC1.1.1.1 ethanol desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.15 * +EC1.1.1.1 ethanol drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 8.92 * +EC1.1.1.1 ethanol drosophila simulans//eukaryotes;animals;arthropods;insects//dsi 5.22 * +EC1.1.1.1 ethanol drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 6.44 * +EC1.1.1.1 ethanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.46 * +EC1.1.1.1 ethanol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.6 * +EC1.1.1.1 ethanol euglena gracilis//*//* 3.1 * +EC1.1.1.1 ethanol flavobacterium frigidimaris//*//* 0.147 * +EC1.1.1.1 ethanol fragaria x ananassa//*//* 6.66 * +EC1.1.1.1 ethanol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.91 * +EC1.1.1.1 ethanol geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 7.55 * +EC1.1.1.1 ethanol glycine max//eukaryotes;plants;eudicots;pea family//gmx 16.0 * +EC1.1.1.1 ethanol hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 0.06 * +EC1.1.1.1 ethanol haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 31.0 * +EC1.1.1.1 ethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC1.1.1.1 ethanol hordeum vulgare//*//* 1.7 * +EC1.1.1.1 ethanol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 8.7 * +EC1.1.1.1 ethanol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 29.9 * +EC1.1.1.1 ethanol kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 17.0 * +EC1.1.1.1 ethanol mesocricetus auratus//*//* 0.5 * +EC1.1.1.1 ethanol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 5.38 * +EC1.1.1.1 ethanol meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 4.68 * +EC1.1.1.1 ethanol natronomonas pharaonis//prokaryotes;archaea;euryarchaeota;natronomonas//nph 0.022 * +EC1.1.1.1 ethanol oncorhynchus mykiss//*//* 0.7 * +EC1.1.1.1 ethanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.45 * +EC1.1.1.1 ethanol oryza sativa//eukaryotes;plants;monocots;grass family//osa 47.3 * +EC1.1.1.1 ethanol picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.056 * +EC1.1.1.1 ethanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.64 * +EC1.1.1.1 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC1.1.1.1 ethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.7 * +EC1.1.1.1 ethanol saimiri sciureus//*//* 0.18 * +EC1.1.1.1 ethanol scaptodrosophila lebanonensis//*//* 6.0 * +EC1.1.1.1 ethanol sporotrichum pulverulentum//*//* 2.5 * +EC1.1.1.1 ethanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.26 * +EC1.1.1.1 ethanol sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.0172 * +EC1.1.1.1 ethanol thermomicrobium roseum//prokaryotes;bacteria;chloroflexi;thermomicrobium//tro 24.2 * +EC1.1.1.1 ethanol thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 5.7 * +EC1.1.1.1 ethanol triticum monococcum//*//* 12.0 * +EC1.1.1.1 ethanol triticum turgidum//*//* 12.0 * +EC1.1.1.1 ethanol zea mays//eukaryotes;plants;monocots;grass family//zma 24.0 * +EC1.1.1.1 ethanol zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.8 * +EC1.1.1.1 ethyl 3-methyl-2-oxobutyrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 16.6 * +EC1.1.1.1 ethyl benzoylformate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 4.2 * +EC1.1.1.1 ethyl benzoylformate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.0 * +EC1.1.1.1 ethyl oxo(phenyl)acetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.0 * +EC1.1.1.1 ethylene glycol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC1.1.1.1 ethylene glycol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 200.0 * +EC1.1.1.1 formaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 50.0 * +EC1.1.1.1 formaldehyde methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 4.46 * +EC1.1.1.1 formaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 37.0 * +EC1.1.1.1 furfural saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.8 * +EC1.1.1.1 glycerol fragaria x ananassa//*//* 18.6 * +EC1.1.1.1 glycerol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 2.58 * +EC1.1.1.1 glycolaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 88.0 * +EC1.1.1.1 heptan-4-ol scaptodrosophila lebanonensis//*//* 6.6 * +EC1.1.1.1 hexaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.012 * +EC1.1.1.1 hexan-1-ol scaptodrosophila lebanonensis//*//* 7.4 * +EC1.1.1.1 hexanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.0007 * +EC1.1.1.1 hexanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.03 * +EC1.1.1.1 hexanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.1.1.1 isatin sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.71 * +EC1.1.1.1 iso-propanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.4 * +EC1.1.1.1 isoborneol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.81 * +EC1.1.1.1 isobutyraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.26 * +EC1.1.1.1 isopentanol euglena gracilis//*//* 197.0 * +EC1.1.1.1 isopropanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 9.0 * +EC1.1.1.1 isopropanol euglena gracilis//*//* 20.3 * +EC1.1.1.1 m-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.1.1.1 methanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 5.0 * +EC1.1.1.1 methanol corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 3.04 * +EC1.1.1.1 methanol fragaria x ananassa//*//* 9.69 * +EC1.1.1.1 methanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.4 * +EC1.1.1.1 methanol methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.78 * +EC1.1.1.1 methanol saimiri sciureus//*//* 12.0 * +EC1.1.1.1 methanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 27.0 * +EC1.1.1.1 methyl benzoylformate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 6.5 * +EC1.1.1.1 methyl o-chlorobenzoylformate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.8 * +EC1.1.1.1 methyl oxo(phenyl)acetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.7 * +EC1.1.1.1 methylbenzoylformate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.7 * +EC1.1.1.1 methylglyoxal petroselinum crispum//*//* 35.0 * +EC1.1.1.1 n-benzyl-3-pyrrolidinone devosia riboflavina//*//* 0.58 * +EC1.1.1.1 n-benzyl-3-pyrrolidinone dipodascus capitatus//*//* 0.13 * +EC1.1.1.1 n-butanol corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 35.1 * +EC1.1.1.1 n-butanol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.611 * +EC1.1.1.1 n-butanol mesocricetus auratus//*//* 0.03 * +EC1.1.1.1 n-hexanol mesocricetus auratus//*//* 0.02 * +EC1.1.1.1 n-pentanal corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 10.3 * +EC1.1.1.1 n-propanol corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 7.49 * +EC1.1.1.1 n-propanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.19 * +EC1.1.1.1 nad+ acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.04 * +EC1.1.1.1 nad+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.001 * +EC1.1.1.1 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.65 * +EC1.1.1.1 nad+ aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.9 * +EC1.1.1.1 nad+ brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.136 * +EC1.1.1.1 nad+ candida sp.//*//* 0.195 * +EC1.1.1.1 nad+ chlamydomonas moewusii//*//* 0.125 * +EC1.1.1.1 nad+ coturnix coturnix//*//* 0.23 * +EC1.1.1.1 nad+ crocus sativus//*//* 1.12 * +EC1.1.1.1 nad+ desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.074 * +EC1.1.1.1 nad+ dipodascus capitatus//*//* 0.79 * +EC1.1.1.1 nad+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.26 * +EC1.1.1.1 nad+ drosophila simulans//eukaryotes;animals;arthropods;insects//dsi 0.19 * +EC1.1.1.1 nad+ drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 0.2 * +EC1.1.1.1 nad+ euglena gracilis//*//* 0.1 * +EC1.1.1.1 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.239 * +EC1.1.1.1 nad+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 1.44 * +EC1.1.1.1 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.29 * +EC1.1.1.1 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0074 * +EC1.1.1.1 nad+ hordeum vulgare//*//* 30.0 * +EC1.1.1.1 nad+ leifsonia sp.//*//* 0.12 * +EC1.1.1.1 nad+ meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.076 * +EC1.1.1.1 nad+ mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.02 * +EC1.1.1.1 nad+ oncorhynchus mykiss//*//* 40.0 * +EC1.1.1.1 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00694 * +EC1.1.1.1 nad+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 51.7 * +EC1.1.1.1 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.6 * +EC1.1.1.1 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.1.1.1 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.059 * +EC1.1.1.1 nad+ scaptodrosophila lebanonensis//*//* 0.011 * +EC1.1.1.1 nad+ sporotrichum pulverulentum//*//* 0.17 * +EC1.1.1.1 nad+ sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.18 * +EC1.1.1.1 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.2 * +EC1.1.1.1 nad+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.089 * +EC1.1.1.1 nad+ thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.13 * +EC1.1.1.1 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.24 * +EC1.1.1.1 nad+ triticum monococcum//*//* 0.1 * +EC1.1.1.1 nad+ triticum turgidum//*//* 0.1 * +EC1.1.1.1 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.037 * +EC1.1.1.1 nad+ zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.073 * +EC1.1.1.1 nadh acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.03 * +EC1.1.1.1 nadh aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.0004 * +EC1.1.1.1 nadh aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.35 * +EC1.1.1.1 nadh chlamydomonas moewusii//*//* 0.11 * +EC1.1.1.1 nadh coturnix coturnix//*//* 0.0051 * +EC1.1.1.1 nadh crocus sativus//*//* 0.03 * +EC1.1.1.1 nadh desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.02 * +EC1.1.1.1 nadh dipodascus capitatus//*//* 0.87 * +EC1.1.1.1 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.016 * +EC1.1.1.1 nadh geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 1.4 * +EC1.1.1.1 nadh haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.071 * +EC1.1.1.1 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.1.1.1 nadh hordeum vulgare//*//* 25.0 * +EC1.1.1.1 nadh leifsonia sp.//*//* 0.048 * +EC1.1.1.1 nadh meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.036 * +EC1.1.1.1 nadh mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.09 * +EC1.1.1.1 nadh oryza sativa//eukaryotes;plants;monocots;grass family//osa 31.1 * +EC1.1.1.1 nadh parageobacillus thermoglucosidans//*//* 0.038 * +EC1.1.1.1 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.097 * +EC1.1.1.1 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC1.1.1.1 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.122 * +EC1.1.1.1 nadh sporotrichum pulverulentum//*//* 0.021 * +EC1.1.1.1 nadh sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.04 * +EC1.1.1.1 nadh sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC1.1.1.1 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.105 * +EC1.1.1.1 nadh thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.01 * +EC1.1.1.1 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0035 * +EC1.1.1.1 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 0.085 * +EC1.1.1.1 nadh zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.012 * +EC1.1.1.1 nadp+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.28 * +EC1.1.1.1 nadp+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.066 * +EC1.1.1.1 nadp+ yokenella sp.//*//* 0.7 * +EC1.1.1.1 nadph geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.84 * +EC1.1.1.1 nadph yokenella sp.//*//* 0.6 * +EC1.1.1.1 octan-1-ol coturnix coturnix//*//* 0.011 * +EC1.1.1.1 octanal coturnix coturnix//*//* 0.043 * +EC1.1.1.1 octanal geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 1.15 * +EC1.1.1.1 octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC1.1.1.1 octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC1.1.1.1 octanol alligator mississippiensis//eukaryotes;animals;vertebrates;reptiles//amj 0.0014 * +EC1.1.1.1 octanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.1.1.1 octanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC1.1.1.1 octanol scyliorhinus canicula//*//* 0.6 * +EC1.1.1.1 p-methoxybenzaldehyde saccharomyces carlsbergensis//*//* 3.4 * +EC1.1.1.1 p-methoxybenzaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.9 * +EC1.1.1.1 p-methoxybenzyl alcohol saccharomyces carlsbergensis//*//* 22.0 * +EC1.1.1.1 p-methoxybenzyl alcohol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.9 * +EC1.1.1.1 pentan-1-ol coturnix coturnix//*//* 0.2 * +EC1.1.1.1 pentan-1-ol scaptodrosophila lebanonensis//*//* 4.1 * +EC1.1.1.1 pentan-2-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.05 * +EC1.1.1.1 pentan-3-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.225 * +EC1.1.1.1 pentanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 56.2 * +EC1.1.1.1 pentanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC1.1.1.1 pentanol saimiri sciureus//*//* 0.012 * +EC1.1.1.1 phenyl trifluoromethyl ketone leifsonia sp.//*//* 13.6 * +EC1.1.1.1 phenylacetaldehyde brevibacterium sp.//*//* 0.26 * +EC1.1.1.1 phenylglyoxylic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.45 * +EC1.1.1.1 propan-1-ol desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.28 * +EC1.1.1.1 propan-1-ol scaptodrosophila lebanonensis//*//* 1.9 * +EC1.1.1.1 propan-1-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.019 * +EC1.1.1.1 propan-2-ol aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.3 * +EC1.1.1.1 propan-2-ol drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.87 * +EC1.1.1.1 propan-2-ol drosophila simulans//eukaryotes;animals;arthropods;insects//dsi 0.93 * +EC1.1.1.1 propan-2-ol drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 1.99 * +EC1.1.1.1 propan-2-ol sporotrichum pulverulentum//*//* 64.0 * +EC1.1.1.1 propan-2-ol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.5 * +EC1.1.1.1 propanal corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 0.59 * +EC1.1.1.1 propanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 41.0 * +EC1.1.1.1 propanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.9 * +EC1.1.1.1 propanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC1.1.1.1 propanone corynebacterium glutamicum r//prokaryotes;bacteria;actinobacteria;corynebacterium//cgt 2.01 * +EC1.1.1.1 propionaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.24 * +EC1.1.1.1 r-(+)-1-phenylethanol scaptodrosophila lebanonensis//*//* 3.4 * +EC1.1.1.1 r-(+)-cis-verbenol scaptodrosophila lebanonensis//*//* 1.2 * +EC1.1.1.1 r-(+)-trans-bicyclo(2.2.1)-heptanol scaptodrosophila lebanonensis//*//* 1.5 * +EC1.1.1.1 s-(-)-1-phenylethanol scaptodrosophila lebanonensis//*//* 3.9 * +EC1.1.1.1 s-(-)-2-methylbutan-1-ol scaptodrosophila lebanonensis//*//* 0.95 * +EC1.1.1.1 s-(-)-cis-bicyclo(2.2.1)-heptanol scaptodrosophila lebanonensis//*//* 3.8 * +EC1.1.1.1 s-(-)-trans-bicyclo(2.2.1)-heptanol scaptodrosophila lebanonensis//*//* 0.85 * +EC1.1.1.1 tert-butyl acetoacetate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.694 * +EC1.1.1.1 tetralin-1-ol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 8.5 * +EC1.1.1.1 trans-4-methylcyclohexanol scaptodrosophila lebanonensis//*//* 1.1 * +EC1.1.1.1 trans-cinnamaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.009 * +EC1.1.1.1 tryptophol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.1.1.1 vanillyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC1.1.1.10 1,4-dibromo-2,3-butanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.1.1.10 acetoin cavia porcellus//*//* 13.0 * +EC1.1.1.10 acetoin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.1.1.10 acetoin mesocricetus auratus//*//* 3.3 * +EC1.1.1.10 acetoin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.0 * +EC1.1.1.10 acetoin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.9 * +EC1.1.1.10 d-erythrose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.27 * +EC1.1.1.10 d-erythrose cavia porcellus//*//* 0.59 * +EC1.1.1.10 d-erythrose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC1.1.1.10 d-erythrose mesocricetus auratus//*//* 3.9 * +EC1.1.1.10 d-erythrose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.7 * +EC1.1.1.10 d-erythrose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC1.1.1.10 d-ribulose cavia porcellus//*//* 7.8 * +EC1.1.1.10 d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC1.1.1.10 d-ribulose mesocricetus auratus//*//* 6.3 * +EC1.1.1.10 d-ribulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.7 * +EC1.1.1.10 d-ribulose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 150.0 * +EC1.1.1.10 d-ribulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.3 * +EC1.1.1.10 d-threitol cavia porcellus//*//* 14.0 * +EC1.1.1.10 d-threitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC1.1.1.10 d-threitol mesocricetus auratus//*//* 34.0 * +EC1.1.1.10 d-threitol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 37.0 * +EC1.1.1.10 d-threitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC1.1.1.10 d-threose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.68 * +EC1.1.1.10 d-threose cavia porcellus//*//* 2.0 * +EC1.1.1.10 d-threose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC1.1.1.10 d-threose mesocricetus auratus//*//* 2.7 * +EC1.1.1.10 d-threose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.4 * +EC1.1.1.10 d-threose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC1.1.1.10 d-xylulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.58 * +EC1.1.1.10 d-xylulose cavia porcellus//*//* 18.0 * +EC1.1.1.10 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC1.1.1.10 d-xylulose mesocricetus auratus//*//* 12.0 * +EC1.1.1.10 d-xylulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.0 * +EC1.1.1.10 d-xylulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.0 * +EC1.1.1.10 diacetyl cavia porcellus//*//* 0.52 * +EC1.1.1.10 diacetyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC1.1.1.10 diacetyl mesocricetus auratus//*//* 0.2 * +EC1.1.1.10 diacetyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.67 * +EC1.1.1.10 diacetyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC1.1.1.10 dihydroxyacetone cavia porcellus//*//* 36.0 * +EC1.1.1.10 dihydroxyacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC1.1.1.10 dihydroxyacetone mesocricetus auratus//*//* 60.0 * +EC1.1.1.10 dihydroxyacetone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 47.0 * +EC1.1.1.10 dihydroxyacetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.0 * +EC1.1.1.10 dl-glyceraldehyde cavia porcellus//*//* 1.4 * +EC1.1.1.10 dl-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.1.1.10 dl-glyceraldehyde mesocricetus auratus//*//* 5.1 * +EC1.1.1.10 dl-glyceraldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.0 * +EC1.1.1.10 dl-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC1.1.1.10 l-erythrulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.17 * +EC1.1.1.10 l-erythrulose cavia porcellus//*//* 2.0 * +EC1.1.1.10 l-erythrulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.1.1.10 l-erythrulose mesocricetus auratus//*//* 2.9 * +EC1.1.1.10 l-erythrulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.8 * +EC1.1.1.10 l-erythrulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.5 * +EC1.1.1.10 l-ribulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.18 * +EC1.1.1.10 l-threose cavia porcellus//*//* 2.9 * +EC1.1.1.10 l-threose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC1.1.1.10 l-threose mesocricetus auratus//*//* 4.3 * +EC1.1.1.10 l-threose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.6 * +EC1.1.1.10 l-threose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC1.1.1.10 l-xylitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.1.1.10 l-xylulose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 17.0 * +EC1.1.1.10 l-xylulose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.66 * +EC1.1.1.10 l-xylulose cavia porcellus//*//* 0.05 * +EC1.1.1.10 l-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.1.1.10 l-xylulose mesocricetus auratus//*//* 0.26 * +EC1.1.1.10 l-xylulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.24 * +EC1.1.1.10 l-xylulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.1.1.10 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC1.1.1.10 nad+ mesocricetus auratus//*//* 0.91 * +EC1.1.1.10 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.99 * +EC1.1.1.10 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC1.1.1.10 nadh cavia porcellus//*//* 0.69 * +EC1.1.1.10 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC1.1.1.10 nadh mesocricetus auratus//*//* 0.12 * +EC1.1.1.10 nadh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC1.1.1.10 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC1.1.1.10 nadp+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.13 * +EC1.1.1.10 nadp+ cavia porcellus//*//* 0.002 * +EC1.1.1.10 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.1.1.10 nadp+ mesocricetus auratus//*//* 0.003 * +EC1.1.1.10 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC1.1.1.10 nadp+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.153 * +EC1.1.1.10 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.1.1.10 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.03 * +EC1.1.1.10 nadph cavia porcellus//*//* 0.005 * +EC1.1.1.10 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.1.1.10 nadph mesocricetus auratus//*//* 0.003 * +EC1.1.1.10 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC1.1.1.10 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0026 * +EC1.1.1.10 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.1.1.10 xylitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 925.0 * +EC1.1.1.10 xylitol cavia porcellus//*//* 10.0 * +EC1.1.1.10 xylitol erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 72.0 * +EC1.1.1.10 xylitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.0 * +EC1.1.1.10 xylitol mesocricetus auratus//*//* 40.0 * +EC1.1.1.10 xylitol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.0 * +EC1.1.1.10 xylitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1239.0 * +EC1.1.1.10 xylitol pantoea ananatis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pam 48.0 * +EC1.1.1.10 xylitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC1.1.1.100 1,1,1-trifluoroacetone synechococcus elongatus pcc 7942//*//* 89.2 * +EC1.1.1.100 2',3',4',5',6'-pentafluoroacetophenone synechococcus elongatus pcc 7942//*//* 5.72 * +EC1.1.1.100 3'-fluoroacetophenone synechococcus elongatus pcc 7942//*//* 7.38 * +EC1.1.1.100 4'-chloroacetophenone synechococcus elongatus pcc 7942//*//* 14.34 * +EC1.1.1.100 4'-fluoroacetophenone synechococcus elongatus pcc 7942//*//* 12.29 * +EC1.1.1.100 acetoacetyl-[acyl-carrier protein] brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.003 * +EC1.1.1.100 acetoacetyl-[acyl-carrier protein] carthamus tinctorius//*//* 0.009 * +EC1.1.1.100 acetoacetyl-[acyl-carrier protein] persea americana//*//* 0.0079 * +EC1.1.1.100 acetoacetyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0037 * +EC1.1.1.100 acetoacetyl-coa brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.261 * +EC1.1.1.100 acetoacetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0057 * +EC1.1.1.100 acetoacetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.165 * +EC1.1.1.100 acetoacetyl-coa persea americana//*//* 0.47 * +EC1.1.1.100 acetoacetyl-coa plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.075 * +EC1.1.1.100 acetoacetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC1.1.1.100 acetoacetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8158 * +EC1.1.1.100 acetoacetyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.25 * +EC1.1.1.100 acetoacetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.2 * +EC1.1.1.100 acetoacetyl-n-acetylcysteamine persea americana//*//* 48.0 * +EC1.1.1.100 acetophenone synechococcus elongatus pcc 7942//*//* 46.92 * +EC1.1.1.100 alpha-chloroacetophenone synechococcus elongatus pcc 7942//*//* 2.71 * +EC1.1.1.100 beta-ketobutyryl-coa lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.29 * +EC1.1.1.100 ethyl 4-chloroacetoacetate synechococcus elongatus pcc 7942//*//* 8.31 * +EC1.1.1.100 ethyl acetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.127 * +EC1.1.1.100 ethylbenzoylacetate synechococcus elongatus pcc 7942//*//* 1.92 * +EC1.1.1.100 n-acetoacetyl-n-cysteamine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.035 * +EC1.1.1.100 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.29 * +EC1.1.1.100 nadph brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.023 * +EC1.1.1.100 nadph carthamus tinctorius//*//* 0.016 * +EC1.1.1.100 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.149 * +EC1.1.1.100 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.1.1.100 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.026 * +EC1.1.1.100 nadph persea americana//*//* 0.0093 * +EC1.1.1.100 nadph plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0412 * +EC1.1.1.100 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.29 * +EC1.1.1.100 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0205 * +EC1.1.1.100 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.015 * +EC1.1.1.100 nadph streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.4 * +EC1.1.1.100 propiophenone synechococcus elongatus pcc 7942//*//* 6.03 * +EC1.1.1.101 hexadecyldihydroxyacetone phosphate cavia porcellus//*//* 0.021 * +EC1.1.1.101 nadh cavia porcellus//*//* 0.08 * +EC1.1.1.101 nadph cavia porcellus//*//* 0.01 * +EC1.1.1.101 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC1.1.1.101 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.1.1.101 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC1.1.1.101 palmitoyldihydroxyacetone phosphate cavia porcellus//*//* 0.0154 * +EC1.1.1.102 (s)-2-amino-1-hydroxyeicosane-3-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.1.1.102 (s)-2-amino-1-hydroxyoctadecane-3-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC1.1.1.102 3-ketodihydrosphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.102 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.1.1.103 ethanol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2225 * +EC1.1.1.103 l-allothreonine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC1.1.1.103 l-threonine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 18.0 * +EC1.1.1.103 l-threonine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 10.5 * +EC1.1.1.103 l-threonine capra hircus//eukaryotes;animals;vertebrates;mammals//chx 5.5 * +EC1.1.1.103 l-threonine cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 11.6 * +EC1.1.1.103 l-threonine cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 3.56 * +EC1.1.1.103 l-threonine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC1.1.1.103 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01129 * +EC1.1.1.103 l-threonine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 5.38 * +EC1.1.1.103 l-threonine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 72.4 * +EC1.1.1.103 l-threonine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.013 * +EC1.1.1.103 l-threonine rana catesbeiana//*//* 6.1 * +EC1.1.1.103 l-threonine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 8.7 * +EC1.1.1.103 l-threonine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.0 * +EC1.1.1.103 l-threonine thermococcus kodakarensis kod1//*//* 1.6 * +EC1.1.1.103 l-threonine thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 17.5 * +EC1.1.1.103 n-butanol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00802 * +EC1.1.1.103 nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.1 * +EC1.1.1.103 nad+ arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.14 * +EC1.1.1.103 nad+ capra hircus//eukaryotes;animals;vertebrates;mammals//chx 1.0 * +EC1.1.1.103 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.1 * +EC1.1.1.103 nad+ escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0164 * +EC1.1.1.103 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.19 * +EC1.1.1.103 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.67 * +EC1.1.1.103 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.01 * +EC1.1.1.103 nad+ rana catesbeiana//*//* 0.24 * +EC1.1.1.103 nad+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.047 * +EC1.1.1.103 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC1.1.1.103 nad+ thermococcus kodakarensis kod1//*//* 0.028 * +EC1.1.1.103 nad+ thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 0.185 * +EC1.1.1.104 4-oxoproline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.6 * +EC1.1.1.104 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.84 * +EC1.1.1.105 11-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.1.1.105 9-cis-retinol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0022 * +EC1.1.1.105 all-trans retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00046 * +EC1.1.1.105 all-trans-retinal branchiostoma floridae//eukaryotes;animals;lancelets//bfo 0.0087 * +EC1.1.1.105 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC1.1.1.105 all-trans-retinal kangiella koreensis//prokaryotes;bacteria;gammaproteobacteria - others;kangiella//kko 0.0018 * +EC1.1.1.105 all-trans-retinaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00046 * +EC1.1.1.105 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9e-05 * +EC1.1.1.105 all-trans-retinol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0026 * +EC1.1.1.105 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.1.1.105 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC1.1.1.105 nadh branchiostoma floridae//eukaryotes;animals;lancelets//bfo 0.098 * +EC1.1.1.105 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.105 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC1.1.1.105 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.1.1.105 retinol bound to cellular retinol binding protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.1.1.105 retinol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC1.1.1.106 d-pantoate pseudomonas sp. p2//*//* 0.033 * +EC1.1.1.106 ketopantoate pseudomonas sp. p2//*//* 0.5 * +EC1.1.1.106 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.078 * +EC1.1.1.107 d-arabinose microbacterium luteolum//*//* 0.91 * +EC1.1.1.107 l-fucose microbacterium luteolum//*//* 0.41 * +EC1.1.1.107 l-xylose microbacterium luteolum//*//* 3.5 * +EC1.1.1.107 nad+ mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.28 * +EC1.1.1.107 nad+ microbacterium luteolum//*//* 0.042 * +EC1.1.1.107 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.29 * +EC1.1.1.107 nadp+ microbacterium luteolum//*//* 0.58 * +EC1.1.1.107 pyridoxal mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.091 * +EC1.1.1.107 pyridoxal microbacterium luteolum//*//* 0.473 * +EC1.1.1.107 pyridoxal pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.076 * +EC1.1.1.108 3-dehydrocarnitine agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.72 * +EC1.1.1.108 3-dehydrocarnitine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC1.1.1.108 3-dehydrocarnitine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.1 * +EC1.1.1.108 3-dehydrocarnitine rhizobium sp. ys-240//*//* 0.54 * +EC1.1.1.108 3-dehydrocarnitine rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.54 * +EC1.1.1.108 3-dehydrocarnitine xanthomonas translucens//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xtn 1.71 * +EC1.1.1.108 carnitine rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 1.07 * +EC1.1.1.108 carnitine xanthomonas translucens//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xtn 10.2 * +EC1.1.1.108 l-carnitine agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.29 * +EC1.1.1.108 l-carnitine alcaligenes sp.//*//* 9.3 * +EC1.1.1.108 l-carnitine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.0 * +EC1.1.1.108 l-carnitine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.25 * +EC1.1.1.108 l-carnitine rhizobium sp. ys-240//*//* 1.2 * +EC1.1.1.108 l-carnitine xanthomonas translucens//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xtn 10.0 * +EC1.1.1.108 nad+ agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.018 * +EC1.1.1.108 nad+ alcaligenes sp.//*//* 0.14 * +EC1.1.1.108 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.042 * +EC1.1.1.108 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC1.1.1.108 nad+ rhizobium sp. ys-240//*//* 0.1 * +EC1.1.1.108 nad+ rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.09 * +EC1.1.1.108 nad+ xanthomonas translucens//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xtn 0.25 * +EC1.1.1.108 nadh agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.032 * +EC1.1.1.108 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.022 * +EC1.1.1.108 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.013 * +EC1.1.1.108 nadh rhizobium sp. ys-240//*//* 0.019 * +EC1.1.1.108 nadh xanthomonas translucens//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xtn 0.04 * +EC1.1.1.11 d-arabinitol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 39.8 * +EC1.1.1.11 d-arabinitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.5 * +EC1.1.1.11 d-arabinitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.5 * +EC1.1.1.11 d-arabinitol scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 20.0 * +EC1.1.1.11 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.5 * +EC1.1.1.11 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 78.5 * +EC1.1.1.11 d-mannitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.1 * +EC1.1.1.11 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 127.3 * +EC1.1.1.11 d-xylulose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.14 * +EC1.1.1.11 glycerol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 133.6 * +EC1.1.1.11 nad+ candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.12 * +EC1.1.1.11 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.04 * +EC1.1.1.11 nad+ scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.2 * +EC1.1.1.11 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.036 * +EC1.1.1.11 ribitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 242.8 * +EC1.1.1.11 xylitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 18.5 * +EC1.1.1.110 indoleglycolate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.691 * +EC1.1.1.110 indolelactate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 1.03 * +EC1.1.1.110 nad+ clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.195 * +EC1.1.1.110 nadh clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.0142 * +EC1.1.1.110 p-hydroxyphenyllactate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 1.77 * +EC1.1.1.110 p-hydroxyphenylpyruvate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.075 * +EC1.1.1.110 phenyllactate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 2.21 * +EC1.1.1.110 phenylpyruvate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.106 * +EC1.1.1.114 d-apiitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 10.0 * +EC1.1.1.114 d-apiitol micrococcus sp.//*//* 11.6 * +EC1.1.1.114 d-apiose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 20.0 * +EC1.1.1.114 d-apiose micrococcus sp.//*//* 71.4 * +EC1.1.1.114 nad+ micrococcus sp.//*//* 0.35 * +EC1.1.1.114 nadh micrococcus sp.//*//* 0.015 * +EC1.1.1.115 d-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.7 * +EC1.1.1.115 d-ribose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC1.1.1.115 d-xylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC1.1.1.116 2-deoxy-d-ribose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 24.0 * +EC1.1.1.116 d-arabinose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 29.2 * +EC1.1.1.116 d-arabinose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.67 * +EC1.1.1.116 d-arabinose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.5 * +EC1.1.1.116 d-arabinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 161.0 * +EC1.1.1.116 d-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 19.0 * +EC1.1.1.116 d-ribose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 670.0 * +EC1.1.1.116 digitoxose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 49.0 * +EC1.1.1.116 l-fucose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 28.2 * +EC1.1.1.116 l-fucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.18 * +EC1.1.1.116 l-fucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 98.0 * +EC1.1.1.116 l-fucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.3 * +EC1.1.1.116 l-galactose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 91.3 * +EC1.1.1.116 l-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 180.0 * +EC1.1.1.116 l-xylose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 37.1 * +EC1.1.1.116 l-xylose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.0 * +EC1.1.1.116 nad+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.3 * +EC1.1.1.116 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.087 * +EC1.1.1.116 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.017 * +EC1.1.1.116 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.048 * +EC1.1.1.117 d-arabinose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 29.9 * +EC1.1.1.117 d-arabinose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.82 * +EC1.1.1.117 d-arabinose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 53.0 * +EC1.1.1.117 d-arabinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 161.0 * +EC1.1.1.117 l-fucose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 28.9 * +EC1.1.1.117 l-fucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 98.0 * +EC1.1.1.117 l-galactose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 91.3 * +EC1.1.1.117 l-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 180.0 * +EC1.1.1.117 l-xylose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 37.1 * +EC1.1.1.117 l-xylose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.0 * +EC1.1.1.117 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 22.0 * +EC1.1.1.117 nadp+ candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0446 * +EC1.1.1.117 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.2 * +EC1.1.1.117 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.1e-05 * +EC1.1.1.118 d-fucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.8 * +EC1.1.1.118 d-galactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 22.0 * +EC1.1.1.118 d-glucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.86 * +EC1.1.1.118 d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.44 * +EC1.1.1.118 d-xylose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.2 * +EC1.1.1.118 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 80.0 * +EC1.1.1.118 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.118 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.1.1.119 1,n6-ethanoadenine-nadp+ filobasidium uniguttulatum//*//* 0.05 * +EC1.1.1.119 2-amino-2-deoxy-d-mannose gluconobacter cerinus//*//* 29.0 * +EC1.1.1.119 2-deoxy-d-glucose gluconobacter cerinus//*//* 39.0 * +EC1.1.1.119 beta-d-glucose haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 3.9 * +EC1.1.1.119 d-glucose gluconobacter cerinus//*//* 5.3 * +EC1.1.1.119 d-glucose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 5.0 * +EC1.1.1.119 d-glucose halococcus saccharolyticus//*//* 2.0 * +EC1.1.1.119 d-glucose haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 2.8 * +EC1.1.1.119 d-glucose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0286 * +EC1.1.1.119 d-mannose gluconobacter cerinus//*//* 1.8 * +EC1.1.1.119 n1-(2-aminoethyl)-nadp+ filobasidium uniguttulatum//*//* 0.07 * +EC1.1.1.119 n6-(2-aminoethyl)-nadp+ filobasidium uniguttulatum//*//* 0.03 * +EC1.1.1.119 nad(p)+ haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.035 * +EC1.1.1.119 nad+ halococcus saccharolyticus//*//* 4.0 * +EC1.1.1.119 nad+ haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.4 * +EC1.1.1.119 nadp+ filobasidium uniguttulatum//*//* 0.02 * +EC1.1.1.119 nadp+ gluconobacter cerinus//*//* 0.012 * +EC1.1.1.119 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.01 * +EC1.1.1.119 nadp+ halococcus saccharolyticus//*//* 0.28 * +EC1.1.1.119 nadp+ haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.024 * +EC1.1.1.119 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.00588 * +EC1.1.1.119 nadph gluconobacter cerinus//*//* 0.038 * +EC1.1.1.119 polyethylene glycol(mw 20000)-n6-(2-aminoethyl)-nadp+ filobasidium uniguttulatum//*//* 0.09 * +EC1.1.1.12 adonitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 35.0 * +EC1.1.1.12 d-allitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 11.3 * +EC1.1.1.12 d-arabino-3-hexulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 580.0 * +EC1.1.1.12 d-fructose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 96.0 * +EC1.1.1.12 d-psicose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 81.0 * +EC1.1.1.12 d-sorbitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.12 * +EC1.1.1.12 d-sorbitol rasamsonia emersonii//*//* 483.5 * +EC1.1.1.12 d-sorbitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 46.0 * +EC1.1.1.12 d-sorbose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 115.0 * +EC1.1.1.12 d-talitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 25.0 * +EC1.1.1.12 galactitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 60.0 * +EC1.1.1.12 l-arabinitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.056 * +EC1.1.1.12 l-arabinitol candida arabinofermentans//*//* 57.0 * +EC1.1.1.12 l-arabinitol meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 43.0 * +EC1.1.1.12 l-arabinitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 18.0 * +EC1.1.1.12 l-arabinitol penicillium chrysogenum//*//* 37.0 * +EC1.1.1.12 l-arabinitol rasamsonia emersonii//*//* 13.4 * +EC1.1.1.12 l-arabinitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 4.5 * +EC1.1.1.12 l-arabitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.056 * +EC1.1.1.12 l-iditol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 191.0 * +EC1.1.1.12 l-mannitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 37.0 * +EC1.1.1.12 l-sorbitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 19.0 * +EC1.1.1.12 l-tagatose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 28.0 * +EC1.1.1.12 l-xylo-3-hexulose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 81.0 * +EC1.1.1.12 l-xylulose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 5.0 * +EC1.1.1.12 nad+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.05 * +EC1.1.1.12 nad+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.14 * +EC1.1.1.12 nad+ penicillium chrysogenum//*//* 0.3 * +EC1.1.1.12 nad+ rasamsonia emersonii//*//* 0.06 * +EC1.1.1.12 nad+ trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.2 * +EC1.1.1.12 nadh aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.008 * +EC1.1.1.12 nadp+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 8.0 * +EC1.1.1.12 xylitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.25 * +EC1.1.1.12 xylitol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 290.0 * +EC1.1.1.12 xylitol rasamsonia emersonii//*//* 23.3 * +EC1.1.1.120 2,6-dideoxy-d-allose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 130.0 * +EC1.1.1.120 2-deoxy-d-galactose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 12.0 * +EC1.1.1.120 3,6-dideoxy-d-galactose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.3 * +EC1.1.1.120 3-deoxy-d-galactose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 48.0 * +EC1.1.1.120 6-deoxy-d-galactose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 60.0 * +EC1.1.1.120 d-galactose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 420.0 * +EC1.1.1.120 d-galactose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 0.48 * +EC1.1.1.120 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC1.1.1.121 (r)-indanol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 1.3 * +EC1.1.1.121 (r)-tetralol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 2.5 * +EC1.1.1.121 (s)-indanol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.65 * +EC1.1.1.121 (s)-tetralol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.17 * +EC1.1.1.121 1-acenaphthenol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.14 * +EC1.1.1.121 2-cyclohexen-1-ol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 3.7 * +EC1.1.1.121 2-deoxy-d-galactose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.3 * +EC1.1.1.121 2-deoxy-d-galactose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 33.0 * +EC1.1.1.121 2-deoxy-d-glucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC1.1.1.121 2-deoxy-d-glucose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 24.3 * +EC1.1.1.121 2-deoxy-d-glucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 300.0 * +EC1.1.1.121 4-chromanol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.25 * +EC1.1.1.121 6-deoxy-d-glucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 178.0 * +EC1.1.1.121 alpha-tetralone thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 1.9 * +EC1.1.1.121 cellobiose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 250.0 * +EC1.1.1.121 cis-benzene dihydrodiol thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 27.0 * +EC1.1.1.121 d-allose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 13.0 * +EC1.1.1.121 d-altrose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.4 * +EC1.1.1.121 d-fucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.8 * +EC1.1.1.121 d-fucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 5.5 * +EC1.1.1.121 d-galactosamine thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 2.0 * +EC1.1.1.121 d-galactose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.78 * +EC1.1.1.121 d-galactose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 78.0 * +EC1.1.1.121 d-glucosamine thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 139.0 * +EC1.1.1.121 d-glucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.86 * +EC1.1.1.121 d-glucose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 208.0 * +EC1.1.1.121 d-glucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 580.0 * +EC1.1.1.121 d-mannose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.5 * +EC1.1.1.121 d-mannose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 25.0 * +EC1.1.1.121 d-talose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 131.0 * +EC1.1.1.121 d-xylose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 841.0 * +EC1.1.1.121 isatin thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.012 * +EC1.1.1.121 l-arabinose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 262.0 * +EC1.1.1.121 l-fucose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 162.0 * +EC1.1.1.121 lactose thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 781.0 * +EC1.1.1.121 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.08 * +EC1.1.1.121 phenyl-1,2-propanedione thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 2.0 * +EC1.1.1.122 3-amino-d-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC1.1.1.122 6-deoxy-l-galactose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.0 * +EC1.1.1.122 6-deoxy-l-galactose aureobasidium pullulans//*//* 1.96 * +EC1.1.1.122 6-deoxy-l-galactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC1.1.1.122 6-deoxy-l-galactose ovis aries aries//*//* 0.07 * +EC1.1.1.122 6-deoxy-l-galactose paraburkholderia caryophylli//*//* 2.1 * +EC1.1.1.122 6-deoxy-l-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.32 * +EC1.1.1.122 d-arabinose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 14.3 * +EC1.1.1.122 d-arabinose aureobasidium pullulans//*//* 40.0 * +EC1.1.1.122 d-arabinose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.4 * +EC1.1.1.122 d-arabinose ovis aries aries//*//* 0.4 * +EC1.1.1.122 d-arabinose paraburkholderia caryophylli//*//* 2.8 * +EC1.1.1.122 d-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC1.1.1.122 d-galactose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 11.1 * +EC1.1.1.122 d-lyxose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 48.0 * +EC1.1.1.122 l-fucose acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 2.6 * +EC1.1.1.122 l-galactose aureobasidium pullulans//*//* 50.0 * +EC1.1.1.122 l-galactose ovis aries aries//*//* 0.2 * +EC1.1.1.122 l-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC1.1.1.122 l-glucose paraburkholderia caryophylli//*//* 15.0 * +EC1.1.1.122 l-xylose paraburkholderia caryophylli//*//* 4.5 * +EC1.1.1.122 l-xylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 44.0 * +EC1.1.1.122 nad+ acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 2.7 * +EC1.1.1.122 nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.61 * +EC1.1.1.122 nad+ aureobasidium pullulans//*//* 0.33 * +EC1.1.1.122 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC1.1.1.122 nad+ ovis aries aries//*//* 0.01 * +EC1.1.1.122 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC1.1.1.122 nadp+ acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 1.7 * +EC1.1.1.122 nadp+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.02 * +EC1.1.1.123 5-keto-d-fructose 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.29 * +EC1.1.1.123 5-keto-d-fructose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 5.9 * +EC1.1.1.123 5-keto-d-fructose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC1.1.1.123 fructose bemisia argentifolii//*//* 600.0 * +EC1.1.1.123 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.046 * +EC1.1.1.124 5-keto-d-fructose 1-phosphate gluconobacter cerinus//*//* 4.2 * +EC1.1.1.124 5-keto-d-fructose erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 12.7 * +EC1.1.1.124 5-keto-d-fructose gluconobacter cerinus//*//* 4.5 * +EC1.1.1.124 5-keto-d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.5 * +EC1.1.1.124 d-arabinose erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 140.0 * +EC1.1.1.124 d-fructose erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 9.1 * +EC1.1.1.124 d-fructose gluconobacter cerinus//*//* 70.0 * +EC1.1.1.124 nad+ erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 1.97 * +EC1.1.1.124 nadh erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 0.32 * +EC1.1.1.124 nadp+ erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 0.053 * +EC1.1.1.124 nadp+ gluconobacter cerinus//*//* 1.3 * +EC1.1.1.124 nadph erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 0.071 * +EC1.1.1.124 nadph gluconobacter cerinus//*//* 0.002 * +EC1.1.1.124 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.008 * +EC1.1.1.125 2-deoxy-d-gluconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.54 * +EC1.1.1.126 (4s,5s)-4,5-dihydroxy-2,6-dioxohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.36 * +EC1.1.1.126 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.032 * +EC1.1.1.127 (4s)-4,6-dihydroxy-2,5-dioxohexanoate dickeya chrysanthemi//*//* 0.34 * +EC1.1.1.127 2-dehydro-3-deoxy-d-gluconate dickeya chrysanthemi//*//* 7.7 * +EC1.1.1.127 nad+ dickeya chrysanthemi//*//* 0.4 * +EC1.1.1.127 nadh dickeya chrysanthemi//*//* 0.03 * +EC1.1.1.127 nadh pectobacterium carotovorum subsp. carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0021 * +EC1.1.1.127 nadph pectobacterium carotovorum subsp. carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.005 * +EC1.1.1.130 (4r,5s)-4,5,6-trihydroxy-2,3-dioxohexanoate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.16 * +EC1.1.1.130 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.016 * +EC1.1.1.130 nadph klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.022 * +EC1.1.1.132 deoxy-gdp-mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.084 * +EC1.1.1.132 gdp-d-mannose ectocarpus siliculosus//*//* 0.095 * +EC1.1.1.132 gdp-d-mannose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0149 * +EC1.1.1.132 gdp-d-mannose saccharina japonica//*//* 0.177 * +EC1.1.1.132 gdp-mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.017 * +EC1.1.1.132 nad+ arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.26 * +EC1.1.1.132 nad+ ectocarpus siliculosus//*//* 0.086 * +EC1.1.1.132 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC1.1.1.132 nad+ saccharina japonica//*//* 0.139 * +EC1.1.1.133 dtdp-4-keto-6-deoxy-d-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0169 * +EC1.1.1.133 dtdp-alpha-d-glucose streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.37 * +EC1.1.1.133 nadh salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.106 * +EC1.1.1.133 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.009 * +EC1.1.1.133 udp-4-keto-6-deoxy-d-glucose acanthamoeba polyphaga mimivirus//*//* 1.83 * +EC1.1.1.136 nad+ alcaligenes sp.//*//* 1.5 * +EC1.1.1.136 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.16 * +EC1.1.1.136 nad+ micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.43 * +EC1.1.1.136 udp-n-acetyl-d-glucosamine alcaligenes sp.//*//* 0.5 * +EC1.1.1.136 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.84 * +EC1.1.1.136 udp-n-acetyl-d-glucosamine micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.28 * +EC1.1.1.137 d-ribitol 5-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.66 * +EC1.1.1.137 d-ribulose 5-phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.15 * +EC1.1.1.137 nad+ lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.025 * +EC1.1.1.137 nadp+ lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.009 * +EC1.1.1.138 arabinose candida magnoliae//*//* 385.0 * +EC1.1.1.138 d-arabinitol aspergillus parasiticus//*//* 190.0 * +EC1.1.1.138 d-fructose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 190.0 * +EC1.1.1.138 d-fructose agaricus campestris//*//* 1.4 * +EC1.1.1.138 d-fructose alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 474.0 * +EC1.1.1.138 d-fructose candida magnoliae//*//* 28.0 * +EC1.1.1.138 d-fructose cladosporium herbarum//*//* 117.0 * +EC1.1.1.138 d-fructose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 290.0 * +EC1.1.1.138 d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 12.0 * +EC1.1.1.138 d-fructose lactobacillus intermedius//*//* 20.0 * +EC1.1.1.138 d-fructose tuber borchii//*//* 47.0 * +EC1.1.1.138 d-glucitol aspergillus parasiticus//*//* 560.0 * +EC1.1.1.138 d-mannitol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 16.2 * +EC1.1.1.138 d-mannitol agaricus campestris//*//* 0.46 * +EC1.1.1.138 d-mannitol aspergillus parasiticus//*//* 100.0 * +EC1.1.1.138 d-mannitol candida magnoliae//*//* 680.0 * +EC1.1.1.138 d-mannitol cladosporium herbarum//*//* 33.0 * +EC1.1.1.138 d-mannitol diplodia viticola desm.//*//* 128.0 * +EC1.1.1.138 d-mannitol fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 40.0 * +EC1.1.1.138 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 10.0 * +EC1.1.1.138 d-mannitol penicillium chrysogenum//*//* 0.76 * +EC1.1.1.138 d-mannitol tuber borchii//*//* 600.0 * +EC1.1.1.138 d-mannose candida magnoliae//*//* 352.0 * +EC1.1.1.138 nadh candida magnoliae//*//* 0.612 * +EC1.1.1.138 nadp+ agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.036 * +EC1.1.1.138 nadp+ agaricus campestris//*//* 0.022 * +EC1.1.1.138 nadp+ aspergillus parasiticus//*//* 0.015 * +EC1.1.1.138 nadp+ cladosporium herbarum//*//* 0.053 * +EC1.1.1.138 nadp+ diplodia viticola desm.//*//* 0.082 * +EC1.1.1.138 nadp+ fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 0.078 * +EC1.1.1.138 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.025 * +EC1.1.1.138 nadp+ penicillium chrysogenum//*//* 0.014 * +EC1.1.1.138 nadp+ tuber borchii//*//* 0.066 * +EC1.1.1.138 nadph agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.00525 * +EC1.1.1.138 nadph agaricus campestris//*//* 0.016 * +EC1.1.1.138 nadph alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 0.0187 * +EC1.1.1.138 nadph candida magnoliae//*//* 0.0578 * +EC1.1.1.138 nadph cladosporium herbarum//*//* 0.053 * +EC1.1.1.138 nadph fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 0.07 * +EC1.1.1.138 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.019 * +EC1.1.1.138 nadph tuber borchii//*//* 0.1 * +EC1.1.1.138 ribose candida magnoliae//*//* 212.0 * +EC1.1.1.138 xylose candida magnoliae//*//* 402.0 * +EC1.1.1.14 2-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 15.5 * +EC1.1.1.14 2-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 15.5 * +EC1.1.1.14 3-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.9 * +EC1.1.1.14 3-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 15.5 * +EC1.1.1.14 4-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 26.4 * +EC1.1.1.14 4-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 11.7 * +EC1.1.1.14 6-deoxy-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.48 * +EC1.1.1.14 6-fluoro-d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.74 * +EC1.1.1.14 d-fructose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 180.0 * +EC1.1.1.14 d-fructose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 330.0 * +EC1.1.1.14 d-fructose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC1.1.1.14 d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 20.0 * +EC1.1.1.14 d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 140.0 * +EC1.1.1.14 d-fructose malus domestica//eukaryotes;plants;eudicots;rose family//mdm 215.0 * +EC1.1.1.14 d-fructose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 176.0 * +EC1.1.1.14 d-fructose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 77.0 * +EC1.1.1.14 d-fructose rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 160.0 * +EC1.1.1.14 d-fructose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 99.5 * +EC1.1.1.14 d-galactitol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 500.0 * +EC1.1.1.14 d-galactitol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.1 * +EC1.1.1.14 d-galactitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.7 * +EC1.1.1.14 d-galactitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.5 * +EC1.1.1.14 d-glucitol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.1 * +EC1.1.1.14 d-glucitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 6.2 * +EC1.1.1.14 d-mannitol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 555.0 * +EC1.1.1.14 d-mannitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 381.0 * +EC1.1.1.14 d-mannitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC1.1.1.14 d-ribitol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 125.0 * +EC1.1.1.14 d-ribitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 67.0 * +EC1.1.1.14 d-ribitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.8 * +EC1.1.1.14 d-ribitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC1.1.1.14 d-ribulose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 260.0 * +EC1.1.1.14 d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 34.0 * +EC1.1.1.14 d-ribulose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 54.0 * +EC1.1.1.14 d-sorbitol bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 11.0 * +EC1.1.1.14 d-sorbitol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 11.0 * +EC1.1.1.14 d-sorbitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.0 * +EC1.1.1.14 d-sorbitol candida sp. ha 167//*//* 21.0 * +EC1.1.1.14 d-sorbitol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.24 * +EC1.1.1.14 d-sorbitol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0032 * +EC1.1.1.14 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 5.0 * +EC1.1.1.14 d-sorbitol malus domestica//eukaryotes;plants;eudicots;rose family//mdm 40.3 * +EC1.1.1.14 d-sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.1 * +EC1.1.1.14 d-sorbitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.28 * +EC1.1.1.14 d-sorbitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.8 * +EC1.1.1.14 d-sorbitol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.39 * +EC1.1.1.14 d-tagatose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.0 * +EC1.1.1.14 d-tagatose rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 13.0 * +EC1.1.1.14 d-xylitol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 14.0 * +EC1.1.1.14 d-xylitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.2 * +EC1.1.1.14 d-xylitol malus domestica//eukaryotes;plants;eudicots;rose family//mdm 37.0 * +EC1.1.1.14 d-xylitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.18 * +EC1.1.1.14 d-xylitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC1.1.1.14 d-xylitol scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 26.0 * +EC1.1.1.14 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.1.1.14 l-arabitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 20.0 * +EC1.1.1.14 l-erythrulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.0 * +EC1.1.1.14 l-iditol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 18.0 * +EC1.1.1.14 l-iditol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 20.0 * +EC1.1.1.14 l-iditol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 9.0 * +EC1.1.1.14 l-sorbose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 670.0 * +EC1.1.1.14 l-sorbose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 800.0 * +EC1.1.1.14 l-sorbose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 110.0 * +EC1.1.1.14 l-threitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 268.0 * +EC1.1.1.14 nad+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.22 * +EC1.1.1.14 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.089 * +EC1.1.1.14 nad+ candida sp. ha 167//*//* 0.43 * +EC1.1.1.14 nad+ deinococcus geothermalis//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dge 0.15 * +EC1.1.1.14 nad+ equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.041 * +EC1.1.1.14 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.21 * +EC1.1.1.14 nad+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.21 * +EC1.1.1.14 nad+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.5 * +EC1.1.1.14 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.24 * +EC1.1.1.14 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.082 * +EC1.1.1.14 nad+ scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.16 * +EC1.1.1.14 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.052 * +EC1.1.1.14 nadh equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.007 * +EC1.1.1.14 nadh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.24 * +EC1.1.1.14 nadh gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.28 * +EC1.1.1.14 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.09 * +EC1.1.1.14 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC1.1.1.14 nadh rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.06 * +EC1.1.1.14 nadp+ deinococcus geothermalis//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dge 0.41 * +EC1.1.1.140 d-fructose 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 10.5 * +EC1.1.1.140 d-sorbitol 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC1.1.1.140 fructose 6-phosphate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 2.8 * +EC1.1.1.140 nad+ clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.07 * +EC1.1.1.140 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.1.1.140 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.42 * +EC1.1.1.140 nadh clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.02 * +EC1.1.1.140 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.18 * +EC1.1.1.140 sorbitol 6-phosphate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.04 * +EC1.1.1.140 sorbitol 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.25 * +EC1.1.1.141 (5z,13e)-(15s)-11alpha,15-dihydroxy-9-oxoprost-5,13-dienoate cavia porcellus//*//* 0.01 * +EC1.1.1.141 (5z,13e)-(15s)-11alpha,15-dihydroxy-9-oxoprost-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.1.1.141 (5z,8e,10e,12s)-12-hydroxy-5,8,10-heptadecatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00765 * +EC1.1.1.141 (5z,8e,10e,12s)-12-hydroxy-5,8,10-heptadecatrienoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC1.1.1.141 15-hydroxyeicosatetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.016 * +EC1.1.1.141 15-ketoprostaglandin e1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0521 * +EC1.1.1.141 15-ketoprostaglandin e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0266 * +EC1.1.1.141 19-hydroxyprostaglandin e1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.077 * +EC1.1.1.141 20-hydroxyprostaglandin e1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.283 * +EC1.1.1.141 6-ketoprostaglandin e1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.066 * +EC1.1.1.141 6-ketoprostaglandin f1alpha oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.111 * +EC1.1.1.141 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC1.1.1.141 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0227 * +EC1.1.1.141 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0384 * +EC1.1.1.141 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0156 * +EC1.1.1.141 prostaglandin a1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.1.1.141 prostaglandin a1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.038 * +EC1.1.1.141 prostaglandin a2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.141 prostaglandin d2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.741 * +EC1.1.1.141 prostaglandin e1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0034 * +EC1.1.1.141 prostaglandin e1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC1.1.1.141 prostaglandin e1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.033 * +EC1.1.1.141 prostaglandin e2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.014 * +EC1.1.1.141 prostaglandin e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.1.1.141 prostaglandin e2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.059 * +EC1.1.1.141 prostaglandin e2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00158 * +EC1.1.1.141 prostaglandin e3 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.077 * +EC1.1.1.141 prostaglandin f2alpha gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.025 * +EC1.1.1.141 prostaglandin f2alpha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0213 * +EC1.1.1.141 prostaglandin f2alpha oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.133 * +EC1.1.1.144 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.077 * +EC1.1.1.145 (s)-1-indanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC1.1.1.145 (s)-1-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.093 * +EC1.1.1.145 (s)-phenyl-1-butanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0084 * +EC1.1.1.145 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.089 * +EC1.1.1.145 1-phenylisatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC1.1.1.145 11beta,17alpha,21-trihydroxy-4-pregnene-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0038 * +EC1.1.1.145 11beta,17alpha,21-trihydroxy-5alpha-pregnane-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0827 * +EC1.1.1.145 11beta,17alpha,21-trihydroxy-5beta-pregnane-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0461 * +EC1.1.1.145 13,14-dihydro-15-keto-prostaglandin f2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0621 * +EC1.1.1.145 13,14-dihydro-15-keto-prostaglandin f2alpha sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.13 * +EC1.1.1.145 16alpha-hydroxy-dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC1.1.1.145 16beta-hydroxy-dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC1.1.1.145 17-hydroxyprogesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.206 * +EC1.1.1.145 17alpha-hydroxypregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC1.1.1.145 17beta-hydroxy-5alpha-androstane-3-one sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.684 * +EC1.1.1.145 17beta-hydroxy-5beta-androstane-3-one sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.231 * +EC1.1.1.145 2,3-heptanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.1.1.145 2,3-hexanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.1.1.145 2,3-pentanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC1.1.1.145 3beta,17alpha-dihydroxy-5-pregen-20-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0053 * +EC1.1.1.145 4,4'-dimethylbenzil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.1.1.145 4-benzoylpyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.1.1.145 4-benzylpyridine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.097 * +EC1.1.1.145 4-carboxybenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.319 * +EC1.1.1.145 4-hexanoylpyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.1.1.145 4-nitroacetophenone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.137 * +EC1.1.1.145 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC1.1.1.145 4-nitrobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.966 * +EC1.1.1.145 5-androsten-3beta-ol-17-one digitalis lanata//*//* 0.642 * +EC1.1.1.145 5-androstene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0144 * +EC1.1.1.145 5alpha-androstan-3beta-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0167 * +EC1.1.1.145 5alpha-androstane-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.1.1.145 5alpha-androstane-3,17-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.043 * +EC1.1.1.145 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.1.1.145 5alpha-pregnane-3,20-dione digitalis lanata//*//* 0.196 * +EC1.1.1.145 5alpha-pregnane-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.217 * +EC1.1.1.145 5alpha-pregnane-3beta-ol-20-one digitalis lanata//*//* 0.116 * +EC1.1.1.145 5beta-androstan-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC1.1.1.145 5beta-androstan-3beta-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0079 * +EC1.1.1.145 5beta-androstane-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.1.1.145 5beta-androstane-3,17-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.123 * +EC1.1.1.145 5beta-androstane-3beta,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC1.1.1.145 5beta-pregnan-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC1.1.1.145 5beta-pregnan-3beta-ol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.145 5beta-pregnane-3,20-dione digitalis lanata//*//* 1.725 * +EC1.1.1.145 5beta-pregnane-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC1.1.1.145 5beta-pregnane-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.246 * +EC1.1.1.145 5beta-pregnane-3beta,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.145 5beta-pregnane-3beta-ol-20-one digitalis lanata//*//* 0.11 * +EC1.1.1.145 6-tert-butyl-2,3-epoxy-5-cyclohexene-1,4-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.1.1.145 7alpha,27-dihydroxycholesterol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.1.1.145 7alpha-hydroxycholesterol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0032 * +EC1.1.1.145 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC1.1.1.145 9,10-phenanthrenequinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.408 * +EC1.1.1.145 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC1.1.1.145 allopregnanolone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.1.1.145 androst-5-ene-3beta-ol-17-one digitalis lanata//*//* 0.13 * +EC1.1.1.145 androstanediol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00016 * +EC1.1.1.145 androstenediol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.1.1.145 androstenedione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0703 * +EC1.1.1.145 benzil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.1.1.145 camphorquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.555 * +EC1.1.1.145 caprinaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.69 * +EC1.1.1.145 cyclohexanone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.663 * +EC1.1.1.145 d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.287 * +EC1.1.1.145 d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.122 * +EC1.1.1.145 d-glucuronic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.465 * +EC1.1.1.145 d-glyceraldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.07 * +EC1.1.1.145 d-xylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.467 * +EC1.1.1.145 dehydroepiandrosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.1.1.145 dehydroepiandrosterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.01 * +EC1.1.1.145 dehydroepiandrosterone cricetinae//*//* 0.0024 * +EC1.1.1.145 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.1.1.145 dehydroepiandrosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00012 * +EC1.1.1.145 dehydroepiandrosterone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.221 * +EC1.1.1.145 dehydroepiandrosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9e-05 * +EC1.1.1.145 dehydroepiandrosterone rhinella arenarum//*//* 0.00017 * +EC1.1.1.145 dehydroepiandrosterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.114 * +EC1.1.1.145 dehydrolithocholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.1.1.145 diacetyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.0 * +EC1.1.1.145 dimethyl-2-oxo-glutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC1.1.1.145 hexanophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.1.1.145 hydritantin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.466 * +EC1.1.1.145 isatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC1.1.1.145 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.1.1.145 menadione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.693 * +EC1.1.1.145 methylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.651 * +EC1.1.1.145 n-butyrophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC1.1.1.145 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0062 * +EC1.1.1.145 nad+ digitalis lanata//*//* 0.26 * +EC1.1.1.145 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.1.1.145 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.172 * +EC1.1.1.145 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7e-06 * +EC1.1.1.145 nadh digitalis lanata//*//* 0.106 * +EC1.1.1.145 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC1.1.1.145 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.9 * +EC1.1.1.145 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.1.1.145 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC1.1.1.145 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.1.1.145 phenylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.366 * +EC1.1.1.145 pregnenolone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC1.1.1.145 pregnenolone cricetinae//*//* 0.0055 * +EC1.1.1.145 pregnenolone digitalis lanata//*//* 0.02 * +EC1.1.1.145 pregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC1.1.1.145 pregnenolone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4e-05 * +EC1.1.1.145 pregnenolone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.023 * +EC1.1.1.145 pregnenolone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00013 * +EC1.1.1.145 pregnenolone rhinella arenarum//*//* 0.00102 * +EC1.1.1.145 progesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0346 * +EC1.1.1.145 prostaglandin e1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.373 * +EC1.1.1.145 prostaglandin e2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0152 * +EC1.1.1.145 pyridine-4-aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC1.1.1.145 stanolone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0055 * +EC1.1.1.145 testosterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0583 * +EC1.1.1.145 valerophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC1.1.1.146 1,2-dehydrocortisol cavia porcellus//*//* 0.075 * +EC1.1.1.146 11-dehydrocorticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC1.1.1.146 11-dehydrocorticosterone mesocricetus auratus//*//* 0.0004 * +EC1.1.1.146 11-dehydrocorticosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00025 * +EC1.1.1.146 11-dehydrocorticosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00031 * +EC1.1.1.146 11beta,17,21-trihydroxy-pregn-4-ene-3,20-dione cavia porcellus//*//* 0.027 * +EC1.1.1.146 11beta,17,21-trihydroxy-pregn-4-ene-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC1.1.1.146 11beta,17,21-trihydroxy-pregn-4-ene-3,20-dione rattus sp.//*//* 0.0173 * +EC1.1.1.146 11beta,21-dihydroxypregn-4-en-3,20-dione cavia porcellus//*//* 0.0027 * +EC1.1.1.146 11beta,21-dihydroxypregn-4-en-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-05 * +EC1.1.1.146 11beta,21-dihydroxypregn-4-en-3,20-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00108 * +EC1.1.1.146 11beta,21-dihydroxypregn-4-en-3,20-dione rattus sp.//*//* 0.00108 * +EC1.1.1.146 11beta-hydroxyprogesterone cavia porcellus//*//* 0.0169 * +EC1.1.1.146 11beta-hydroxytestosterone clarias gariepinus//*//* 5.6e-05 * +EC1.1.1.146 16alpha-methyl-1,2-dehydrocortisol cavia porcellus//*//* 0.204 * +EC1.1.1.146 16alpha-methylcortisol cavia porcellus//*//* 0.0487 * +EC1.1.1.146 17,21-dihydroxy-pregn-4-ene-3,11,20-trione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC1.1.1.146 17,21-dihydroxy-pregn-4-ene-3,11,20-trione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00875 * +EC1.1.1.146 17,21-dihydroxy-pregn-4-ene-3,11,20-trione rattus sp.//*//* 0.00875 * +EC1.1.1.146 2,3-benzoylphenyl-propanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.146 2-amino-8-((2,6-difluorobenzyl)thio)-1,9-dihydro-6h-purin-6-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.79 * +EC1.1.1.146 21-hydroxy-pregn-4-en-3,11,20-trione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00156 * +EC1.1.1.146 21-hydroxy-pregn-4-en-3,11,20-trione rattus sp.//*//* 0.00144 * +EC1.1.1.146 5,5-dimethyl-3-(3-fluorphenyl)-4-(4-methylsulphonyl)phenyl-2-(5h-furanone)-lactol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.581 * +EC1.1.1.146 5alpha-androstane-3beta,7alpha,17beta-triol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.1.1.146 5alpha-androstane-3beta,7beta,17beta-triol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC1.1.1.146 7-oxo-5alpha-androstane-3beta,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC1.1.1.146 7-oxocholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00049 * +EC1.1.1.146 7-oxocholesterol mesocricetus auratus//*//* 0.00038 * +EC1.1.1.146 7-oxocholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00042 * +EC1.1.1.146 7alpha-hydroxycholesterol mesocricetus auratus//*//* 0.00049 * +EC1.1.1.146 7beta-hydroxycholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00074 * +EC1.1.1.146 7beta-hydroxycholesterol mesocricetus auratus//*//* 0.00073 * +EC1.1.1.146 7beta-hydroxycholesterol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.5 * +EC1.1.1.146 7beta-hydroxycholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00075 * +EC1.1.1.146 corticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.1.1.146 corticosterone mesocricetus auratus//*//* 0.0032 * +EC1.1.1.146 corticosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC1.1.1.146 corticosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC1.1.1.146 cortisol felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.002 * +EC1.1.1.146 cortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC1.1.1.146 cortisol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.000237 * +EC1.1.1.146 cortisone felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.0008 * +EC1.1.1.146 cortisone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC1.1.1.146 dehydrocorticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.146 metapyrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC1.1.1.146 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.02e-05 * +EC1.1.1.146 nad+ rattus sp.//*//* 0.091 * +EC1.1.1.146 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3e-06 * +EC1.1.1.146 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00427 * +EC1.1.1.146 nadp+ rattus sp.//*//* 0.000196 * +EC1.1.1.146 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00372 * +EC1.1.1.146 nadph rattus sp.//*//* 0.00355 * +EC1.1.1.146 oracin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC1.1.1.147 16-ketotestosterone rattus sp.//*//* 0.28 * +EC1.1.1.147 17alpha-estradiol-16-one rattus sp.//*//* 0.07 * +EC1.1.1.147 17beta-estradiol-16-one rattus sp.//*//* 0.089 * +EC1.1.1.147 nadh rattus sp.//*//* 0.083 * +EC1.1.1.147 nadph rattus sp.//*//* 0.041 * +EC1.1.1.148 17alpha-estradiol 3-glucuronide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.148 17alpha-estradiol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0017 * +EC1.1.1.148 17alpha-estradiol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.017 * +EC1.1.1.148 17alpha-estradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0024 * +EC1.1.1.148 4-androsten-3,17-dione eubacterium sp.//*//* 0.031 * +EC1.1.1.148 epitestosterone eubacterium sp.//*//* 0.07 * +EC1.1.1.148 epitestosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0002 * +EC1.1.1.148 nadp+ eubacterium sp.//*//* 0.002 * +EC1.1.1.148 nadp+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0038 * +EC1.1.1.148 nadph eubacterium sp.//*//* 0.005 * +EC1.1.1.149 (s)-1-indanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.131 * +EC1.1.1.149 (s)-1-tetralol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.112 * +EC1.1.1.149 (s)-ethyl 3-hydroxybutyrate tetrahymena pyriformis//*//* 1.0 * +EC1.1.1.149 (s)-ethyl 3-hydroxybutyrate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 1.0 * +EC1.1.1.149 (s)-methyl 3-hydroxybutyrate tetrahymena pyriformis//*//* 4.8 * +EC1.1.1.149 (s)-methyl 3-hydroxybutyrate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 4.8 * +EC1.1.1.149 (s)-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.1.1.149 1,2-cyclohexanedione tetrahymena pyriformis//*//* 0.092 * +EC1.1.1.149 1,2-cyclohexanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.092 * +EC1.1.1.149 1-phenyl-1,2-propanedione tetrahymena pyriformis//*//* 0.006 * +EC1.1.1.149 1-phenyl-1,2-propanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.006 * +EC1.1.1.149 11-deoxycorticosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0033 * +EC1.1.1.149 17-hydroxyprogesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.073 * +EC1.1.1.149 17alpha,20alpha-dihydroxypregn-4-en-3-one tetrahymena pyriformis//*//* 0.013 * +EC1.1.1.149 17alpha,20alpha-dihydroxyprogesterone tetrahymena pyriformis//*//* 0.013 * +EC1.1.1.149 17alpha,20alpha-dihydroxyprogesterone tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.013 * +EC1.1.1.149 17alpha,21-dihydroxy-5beta-pregnan-3,20-dione tetrahymena pyriformis//*//* 0.022 * +EC1.1.1.149 17alpha,21-dihydroxy-5beta-pregnane-3,11,20-trione tetrahymena pyriformis//*//* 0.02 * +EC1.1.1.149 17alpha-hydroxypregnenolone tetrahymena pyriformis//*//* 0.002 * +EC1.1.1.149 17alpha-hydroxypregnenolone tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.002 * +EC1.1.1.149 17alpha-hydroxyprogesterone equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.003 * +EC1.1.1.149 17alpha-hydroxyprogesterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0058 * +EC1.1.1.149 17alpha-hydroxyprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0154 * +EC1.1.1.149 17alpha-hydroxyprogesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0262 * +EC1.1.1.149 17alpha-hydroxyprogesterone tetrahymena pyriformis//*//* 0.0029 * +EC1.1.1.149 17alpha-hydroxyprogesterone tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.003 * +EC1.1.1.149 17beta-estradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0013 * +EC1.1.1.149 2,3-butanediol tetrahymena pyriformis//*//* 34.8 * +EC1.1.1.149 2,3-butanediol tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 34.8 * +EC1.1.1.149 2,3-butanedione tetrahymena pyriformis//*//* 0.015 * +EC1.1.1.149 2,3-butanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.015 * +EC1.1.1.149 2,3-heptanedione tetrahymena pyriformis//*//* 0.005 * +EC1.1.1.149 2,3-heptanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.005 * +EC1.1.1.149 2,3-hexanedione tetrahymena pyriformis//*//* 0.01 * +EC1.1.1.149 2,3-hexanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.01 * +EC1.1.1.149 2,3-pentanedione tetrahymena pyriformis//*//* 0.018 * +EC1.1.1.149 2,3-pentanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.018 * +EC1.1.1.149 2,4-pentanedione tetrahymena pyriformis//*//* 0.131 * +EC1.1.1.149 2,4-pentanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.131 * +EC1.1.1.149 2-amino-8-((2-fluoro-4-methoxybenzyl)thio)-1,9-dihydro-6h-purin-6-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC1.1.1.149 2-tert-butyl-1,4-benzoquinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.149 20alpha-dihydrocortisol clostridium scindens//*//* 0.041 * +EC1.1.1.149 20alpha-hydroxy-4-pregnen-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.1.1.149 20alpha-hydroxy-4-pregnen-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00102 * +EC1.1.1.149 20alpha-hydroxy-5alpha-pregnan-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.1.1.149 20alpha-hydroxy-5beta-pregnan-3-one tetrahymena pyriformis//*//* 0.073 * +EC1.1.1.149 20alpha-hydroxyprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00117 * +EC1.1.1.149 20alpha-hydroxyprogesterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0022 * +EC1.1.1.149 20alpha-hydroxyprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0058 * +EC1.1.1.149 3,4-hexanedione tetrahymena pyriformis//*//* 0.23 * +EC1.1.1.149 3,4-hexanedione tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.23 * +EC1.1.1.149 3-acetylpyridine adenine dinucleotide phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00208 * +EC1.1.1.149 3-deoxyglucosone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.4 * +EC1.1.1.149 3alpha-hydroxy-5alpha-pregnan-20-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.1.1.149 4-androstene-3,17-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.149 4-chromanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.152 * +EC1.1.1.149 4-hydroxy-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0053 * +EC1.1.1.149 4-nitroacetophenone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0012 * +EC1.1.1.149 4-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3811 * +EC1.1.1.149 4-nitrobenzaldehyde tetrahymena pyriformis//*//* 0.221 * +EC1.1.1.149 4-nitrobenzaldehyde tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.221 * +EC1.1.1.149 4-oxo-2-hexenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0059 * +EC1.1.1.149 4-oxo-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0018 * +EC1.1.1.149 4-pregnen-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.1.1.149 4-pregnen-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.149 5-androstene-3beta,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0031 * +EC1.1.1.149 5alpha-androstan-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0042 * +EC1.1.1.149 5alpha-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0041 * +EC1.1.1.149 5alpha-androstan-3beta,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0022 * +EC1.1.1.149 5alpha-androstan-3beta-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.006 * +EC1.1.1.149 5alpha-dihydrotestosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0034 * +EC1.1.1.149 5alpha-pregnan-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.1.1.149 5alpha-pregnan-20alpha-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0059 * +EC1.1.1.149 5alpha-pregnan-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC1.1.1.149 5alpha-pregnan-3alpha,20alpha-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0008 * +EC1.1.1.149 5alpha-pregnan-3alpha,21-diol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0062 * +EC1.1.1.149 5alpha-pregnan-3alpha-ol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.1.1.149 5alpha-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0013 * +EC1.1.1.149 5alpha-pregnane-21-ol-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.1.1.149 5alpha-pregnane-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.1.1.149 5alpha-pregnane-3alpha,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.1.1.149 5beta-androstan-17beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0062 * +EC1.1.1.149 5beta-androstan-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0014 * +EC1.1.1.149 5beta-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0017 * +EC1.1.1.149 5beta-androstan-3beta,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0025 * +EC1.1.1.149 5beta-androstan-3beta-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0028 * +EC1.1.1.149 5beta-pregnan-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.1.1.149 5beta-pregnan-20alpha-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0057 * +EC1.1.1.149 5beta-pregnan-20alpha-ol-3-one tetrahymena pyriformis//*//* 0.073 * +EC1.1.1.149 5beta-pregnan-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.149 5beta-pregnan-3alpha,20alpha-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0078 * +EC1.1.1.149 5beta-pregnan-3alpha,21-diol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0026 * +EC1.1.1.149 5beta-pregnan-3alpha-ol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC1.1.1.149 5beta-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.149 5beta-pregnane-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.1.1.149 5beta-pregnane-3alpha,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.1.1.149 6-tert-butyl-2,3-epoxy-5-cyclohexen-1,4-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.002 * +EC1.1.1.149 7alpha-hydroxy-dehydroepiandrosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0029 * +EC1.1.1.149 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00195 * +EC1.1.1.149 acetoacetyl-coa tetrahymena pyriformis//*//* 0.02 * +EC1.1.1.149 acetoacetyl-coa tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.02 * +EC1.1.1.149 acetoin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.162 * +EC1.1.1.149 acetoin tetrahymena pyriformis//*//* 0.186 * +EC1.1.1.149 acetoin tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.186 * +EC1.1.1.149 acrolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.014 * +EC1.1.1.149 all-trans-retinal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0089 * +EC1.1.1.149 alpha-tetralone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.053 * +EC1.1.1.149 befunolol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.034 * +EC1.1.1.149 benzene dihydrodiol tetrahymena pyriformis//*//* 2.1 * +EC1.1.1.149 benzyl acetoacetate tetrahymena pyriformis//*//* 0.008 * +EC1.1.1.149 benzyl acetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.008 * +EC1.1.1.149 beta-ionol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.1.1.149 camphorquinone tetrahymena pyriformis//*//* 0.078 * +EC1.1.1.149 cis-benzene-1,2-dihydrodiol tetrahymena pyriformis//*//* 2.02 * +EC1.1.1.149 cis-benzene-1,2-dihydrodiol tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 2.02 * +EC1.1.1.149 cortisol clostridium scindens//*//* 0.032 * +EC1.1.1.149 cortisone clostridium scindens//*//* 0.022 * +EC1.1.1.149 d,l-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 120.0 * +EC1.1.1.149 d-glyceraldehyde tetrahymena pyriformis//*//* 0.3 * +EC1.1.1.149 d-glyceraldehyde tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.3 * +EC1.1.1.149 d-lactaldehyde tetrahymena pyriformis//*//* 0.534 * +EC1.1.1.149 d-lactaldehyde tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.534 * +EC1.1.1.149 dehydroepiandrosterone 3-sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0042 * +EC1.1.1.149 dehydroepiandrosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.006 * +EC1.1.1.149 diacetyl oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.019 * +EC1.1.1.149 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC1.1.1.149 dl-glyceraldehyde-3-phosphate tetrahymena pyriformis//*//* 0.852 * +EC1.1.1.149 dl-glyceraldehyde-3-phosphate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.852 * +EC1.1.1.149 estrone 3-sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0067 * +EC1.1.1.149 estrone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0011 * +EC1.1.1.149 ethyl 2-methylacetoacetate tetrahymena pyriformis//*//* 0.012 * +EC1.1.1.149 ethyl 2-methylacetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.012 * +EC1.1.1.149 ethyl 3-oxovalerate tetrahymena pyriformis//*//* 0.222 * +EC1.1.1.149 ethyl 3-oxovalerate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.222 * +EC1.1.1.149 ethyl 4-chloroacetoacetate tetrahymena pyriformis//*//* 0.027 * +EC1.1.1.149 ethyl 4-chloroacetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.027 * +EC1.1.1.149 ethyl acetoacetate tetrahymena pyriformis//*//* 0.02 * +EC1.1.1.149 ethyl acetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.02 * +EC1.1.1.149 ethyl benzoylacetate tetrahymena pyriformis//*//* 0.303 * +EC1.1.1.149 ethyl benzoylacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.303 * +EC1.1.1.149 ethyl pyruvate tetrahymena pyriformis//*//* 0.025 * +EC1.1.1.149 ethyl pyruvate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.025 * +EC1.1.1.149 geraniol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC1.1.1.149 hexanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0076 * +EC1.1.1.149 isatin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0006 * +EC1.1.1.149 isatin tetrahymena pyriformis//*//* 0.039 * +EC1.1.1.149 isatin tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.039 * +EC1.1.1.149 isocaproaldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.068 * +EC1.1.1.149 ketotifen oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.111 * +EC1.1.1.149 menadione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.1.1.149 methyl acetoacetate tetrahymena pyriformis//*//* 0.117 * +EC1.1.1.149 methyl acetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.117 * +EC1.1.1.149 methylglyoxal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.088 * +EC1.1.1.149 methylglyoxal tetrahymena pyriformis//*//* 0.356 * +EC1.1.1.149 methylglyoxal tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.356 * +EC1.1.1.149 n-butyl acetoacetate tetrahymena pyriformis//*//* 0.004 * +EC1.1.1.149 n-butyl acetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.004 * +EC1.1.1.149 n-hexyl acetoacetate tetrahymena pyriformis//*//* 0.0015 * +EC1.1.1.149 n-hexyl acetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.0024 * +EC1.1.1.149 n-octyl acetoacetate tetrahymena pyriformis//*//* 0.0013 * +EC1.1.1.149 n-octyl acetoacetate tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.0016 * +EC1.1.1.149 nad+ clostridium scindens//*//* 0.526 * +EC1.1.1.149 nadh clostridium scindens//*//* 0.0081 * +EC1.1.1.149 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.75 * +EC1.1.1.149 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC1.1.1.149 nadp+ tetrahymena pyriformis//*//* 0.008 * +EC1.1.1.149 nadp+ tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.012 * +EC1.1.1.149 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.1.1.149 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00138 * +EC1.1.1.149 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC1.1.1.149 nadph tetrahymena pyriformis//*//* 0.0002 * +EC1.1.1.149 nadph tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.002 * +EC1.1.1.149 nicotinamide 1,n6-ethenoadenine dinucleotide phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1429 * +EC1.1.1.149 nicotinamide hypoxanthine dinucleotide phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0588 * +EC1.1.1.149 nonanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0009 * +EC1.1.1.149 phenylglyoxal tetrahymena pyriformis//*//* 0.43 * +EC1.1.1.149 phenylglyoxal tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.447 * +EC1.1.1.149 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC1.1.1.149 progesterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0006 * +EC1.1.1.149 progesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00538 * +EC1.1.1.149 pyridine 3-aldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC1.1.1.149 pyridine-3-aldehyde tetrahymena pyriformis//*//* 0.049 * +EC1.1.1.149 pyridine-3-aldehyde tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.049 * +EC1.1.1.149 pyridine-4-aldehyde tetrahymena pyriformis//*//* 0.945 * +EC1.1.1.149 pyridine-4-aldehyde tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.945 * +EC1.1.1.149 testosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC1.1.1.149 thionicotinamide adenine dinucleotide phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00186 * +EC1.1.1.149 trans-1s,2s-cyclohexanediol tetrahymena pyriformis//*//* 50.9 * +EC1.1.1.149 trans-1s,2s-cyclohexanediol tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 50.9 * +EC1.1.1.149 trans-2-hexenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0074 * +EC1.1.1.149 trans-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0055 * +EC1.1.1.149 trans-benzene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.26 * +EC1.1.1.149 trans-benzene-1s,2s-dihydrodiol tetrahymena pyriformis//*//* 1.6 * +EC1.1.1.149 trans-benzene-1s,2s-dihydrodiol tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 1.6 * +EC1.1.1.150 11beta,17-dihydroxy-pregn-4,11-diene-3,20,21-trione ovis aries aries//*//* 0.172 * +EC1.1.1.150 11beta,17-dihydroxy-pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.182 * +EC1.1.1.150 11beta-hydroxy-pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.105 * +EC1.1.1.150 17-hydroxy-pregn-4-ene-3,11,20,21-tetraone ovis aries aries//*//* 0.221 * +EC1.1.1.150 17-hydroxy-pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.111 * +EC1.1.1.150 nadh ovis aries aries//*//* 0.01 * +EC1.1.1.150 pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.174 * +EC1.1.1.151 11beta,17-dihydroxy-pregn-4,11-diene-3,20,21-trione ovis aries aries//*//* 0.137 * +EC1.1.1.151 11beta,17-dihydroxy-pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.177 * +EC1.1.1.151 11beta-hydroxy-pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.233 * +EC1.1.1.151 17-hydroxy-pregn-4-ene-3,11,20,21-tetraone ovis aries aries//*//* 0.461 * +EC1.1.1.151 17-hydroxy-pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.137 * +EC1.1.1.151 nadph ovis aries aries//*//* 0.021 * +EC1.1.1.151 pregn-4-ene-3,20,21-trione ovis aries aries//*//* 0.118 * +EC1.1.1.153 1'-hydroxy-2'-oxopropyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.1.1.153 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC1.1.1.153 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC1.1.1.153 1-phenyl-1,2-propanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.118 * +EC1.1.1.153 2,3-dimethoxynaphthalene-1,4-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.086 * +EC1.1.1.153 2,4-pentanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.19 * +EC1.1.1.153 2-amino-6-(2-hydroxypropanoyl)pteridin-4(1h)-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0143 * +EC1.1.1.153 7,8-dihydrobiopterin equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0077 * +EC1.1.1.153 9,10-phenanthrene quinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00082 * +EC1.1.1.153 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC1.1.1.153 acetoin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 29.0 * +EC1.1.1.153 acetophenone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC1.1.1.153 benzil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0183 * +EC1.1.1.153 benzylacetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC1.1.1.153 diacetyl chlorobaculum tepidum//*//* 4.0 * +EC1.1.1.153 diacetyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC1.1.1.153 dihydrobiopterin equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.057 * +EC1.1.1.153 lactoyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC1.1.1.153 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0872 * +EC1.1.1.153 menadione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC1.1.1.153 methylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC1.1.1.153 nadp+ equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0057 * +EC1.1.1.153 nadph chlorobaculum tepidum//*//* 0.0062 * +EC1.1.1.153 nadph dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.052 * +EC1.1.1.153 nadph drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0014 * +EC1.1.1.153 nadph equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0014 * +EC1.1.1.153 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.1.1.153 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC1.1.1.153 p-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC1.1.1.153 p-quinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC1.1.1.153 phenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.59 * +EC1.1.1.153 phenylpropanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0218 * +EC1.1.1.153 propiophenone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC1.1.1.153 pyruvoyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.1.1.153 sepiapterin chlorobaculum tepidum//*//* 0.00018 * +EC1.1.1.153 sepiapterin dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.04 * +EC1.1.1.153 sepiapterin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.075 * +EC1.1.1.153 sepiapterin equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0021 * +EC1.1.1.153 sepiapterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.153 sepiapterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC1.1.1.154 (r,s)-ureidoglycolate arthrobacter allantoicus//*//* 9.1 * +EC1.1.1.154 (s)-ureidoglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.06 * +EC1.1.1.154 nad+ arthrobacter allantoicus//*//* 2.16 * +EC1.1.1.154 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC1.1.1.154 nadp+ arthrobacter allantoicus//*//* 0.1 * +EC1.1.1.156 dihydroxyacetone dunaliella parva//*//* 0.8 * +EC1.1.1.156 dihydroxyacetone gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0083 * +EC1.1.1.156 dihydroxyacetone phycomyces blakesleeanus//*//* 3.9 * +EC1.1.1.156 dihydroxyacetone schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.67 * +EC1.1.1.156 dihydroxyacetone trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.0 * +EC1.1.1.156 glycerol dunaliella parva//*//* 1400.0 * +EC1.1.1.156 glycerol phycomyces blakesleeanus//*//* 2437.0 * +EC1.1.1.156 glycerol schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 51.0 * +EC1.1.1.156 glycerol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 350.0 * +EC1.1.1.156 nadp+ dunaliella parva//*//* 0.015 * +EC1.1.1.156 nadp+ phycomyces blakesleeanus//*//* 0.167 * +EC1.1.1.156 nadp+ schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.1 * +EC1.1.1.156 nadp+ trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.11 * +EC1.1.1.156 nadph dunaliella parva//*//* 0.004 * +EC1.1.1.156 nadph phycomyces blakesleeanus//*//* 0.01 * +EC1.1.1.156 nadph schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.34 * +EC1.1.1.156 nadph trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.05 * +EC1.1.1.157 3-acetoacetyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.05 * +EC1.1.1.157 nadph clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.07 * +EC1.1.1.159 12-ketolithocholic acid brevibacterium fuscum//*//* 0.38 * +EC1.1.1.159 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.32 * +EC1.1.1.159 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoyl glycine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.32 * +EC1.1.1.159 3alpha,7alpha,12alpha-trihydroxycholanoyl taurine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.32 * +EC1.1.1.159 3alpha,7alpha-dihydroxy-5beta-cholanoic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.1 * +EC1.1.1.159 3alpha,7alpha-dihydroxy-5beta-cholanoyl glycine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.1 * +EC1.1.1.159 3alpha,7alpha-dihydroxy-5beta-cholanoyl taurine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.1 * +EC1.1.1.159 7,12-diketolithocholic acid brevibacterium fuscum//*//* 0.99 * +EC1.1.1.159 chenodeoxycholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.024 * +EC1.1.1.159 chenodeoxycholic acid clostridium sardiniense//*//* 0.0065 * +EC1.1.1.159 chenodeoxycholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.1.1.159 cholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.177 * +EC1.1.1.159 cholic acid brevibacterium fuscum//*//* 0.22 * +EC1.1.1.159 cholic acid clostridium sardiniense//*//* 0.09 * +EC1.1.1.159 cholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.361 * +EC1.1.1.159 cholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.25 * +EC1.1.1.159 cholic acid stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 1.0 * +EC1.1.1.159 dehydrocholic acid brevibacterium fuscum//*//* 0.7 * +EC1.1.1.159 glycochenodeoxycholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.085 * +EC1.1.1.159 glycocholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.159 nad+ bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.212 * +EC1.1.1.159 nad+ brevibacterium fuscum//*//* 0.27 * +EC1.1.1.159 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.279 * +EC1.1.1.159 nad+ stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.15 * +EC1.1.1.159 nadh brevibacterium fuscum//*//* 0.25 * +EC1.1.1.159 nadp+ clostridium sardiniense//*//* 0.34 * +EC1.1.1.159 taurochenodeoxycholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC1.1.1.159 taurocholic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.16 galactitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 200.0 * +EC1.1.1.16 galactitol rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 8.8 * +EC1.1.1.16 galactitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 200.0 * +EC1.1.1.16 l-arabitol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 55.0 * +EC1.1.1.16 l-arabitol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.0 * +EC1.1.1.162 (1s)-(+)-camphorquinone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.68 * +EC1.1.1.162 1,2-cyclohexanedione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.67 * +EC1.1.1.162 2,3-heptanedione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.26 * +EC1.1.1.162 2,3-pentanedione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.24 * +EC1.1.1.162 3,4-hexanedione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.19 * +EC1.1.1.162 acetoin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 13.0 * +EC1.1.1.162 d-erythrulose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC1.1.1.162 d-erythrulose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.11 * +EC1.1.1.162 diacetyl gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.39 * +EC1.1.1.162 ethyl pyruvate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.1 * +EC1.1.1.162 isatin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.72 * +EC1.1.1.162 methyl pyruvate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.1 * +EC1.1.1.162 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC1.1.1.162 nadh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.067 * +EC1.1.1.162 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0068 * +EC1.1.1.162 nadph gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0079 * +EC1.1.1.162 phenanthrenequinone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.021 * +EC1.1.1.164 hexadecanol acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0016 * +EC1.1.1.165 2-butyne-1,4-diol fusarium merismoides//*//* 9.1 * +EC1.1.1.166 (+-)t-3,t-4-dihydroxycyclohexanecarboxylate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.55 * +EC1.1.1.166 (-)-dihydroshikimate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.52 * +EC1.1.1.166 (-)-quinate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.85 * +EC1.1.1.166 (-)-shikimate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.75 * +EC1.1.1.166 (-)t-3,t-4-dihydroxycyclohexanecarboxylate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.74 * +EC1.1.1.166 nad+ lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.26 * +EC1.1.1.168 1-methylisatin candida parapsilosis//*//* 0.085 * +EC1.1.1.168 1-methylisatin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0057 * +EC1.1.1.168 5-bromoisatin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0031 * +EC1.1.1.168 5-methylisatin candida parapsilosis//*//* 0.016 * +EC1.1.1.168 5-methylisatin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0083 * +EC1.1.1.168 8-bromobornanedione spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.015 * +EC1.1.1.168 alloxan saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.83 * +EC1.1.1.168 beta-naphthoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.093 * +EC1.1.1.168 bornanedione spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.012 * +EC1.1.1.168 dihydro-4,4-diethyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.42 * +EC1.1.1.168 dihydro-4-methyl-4-propyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.983 * +EC1.1.1.168 dihydro-5-(2-butyl)-4-methyl-4-ethyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.043 * +EC1.1.1.168 dihydro-5-(2-pentyl)-4,4-dimethyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC1.1.1.168 dihydro-5-(2-pentyl)-4-methyl-4-propyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC1.1.1.168 dihydro-5-(3-pentyl)-4,4-dimethyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0098 * +EC1.1.1.168 dihydro-5-isopropyl-4,4-dimethyl-2,3-furanedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0093 * +EC1.1.1.168 dl-camphorquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.064 * +EC1.1.1.168 isatin candida parapsilosis//*//* 0.014 * +EC1.1.1.168 isatin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0066 * +EC1.1.1.168 isatin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.1.1.168 ketopantoyl lactone candida parapsilosis//*//* 0.333 * +EC1.1.1.168 ketopantoyl lactone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.031 * +EC1.1.1.168 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.039 * +EC1.1.1.168 ninhydrin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.52 * +EC1.1.1.168 oxopantoyl lactone spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.026 * +EC1.1.1.169 (r)-4-dehydropantoate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0096 * +EC1.1.1.169 2-dehydropantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC1.1.1.169 2-keto-3-hydroxyisovalerate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 8.55 * +EC1.1.1.169 2-oxopantoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.4 * +EC1.1.1.169 d-pantoic acid stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 52.1 * +EC1.1.1.169 ketopantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.1.1.169 ketopantoic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.742 * +EC1.1.1.169 ketopantoic acid stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.4 * +EC1.1.1.169 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC1.1.1.169 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.1.1.169 nadph salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.776 * +EC1.1.1.169 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0072 * +EC1.1.1.169 nadph stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0318 * +EC1.1.1.169 pantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC1.1.1.17 d-fructose 6-phosphate acinetobacter baylyi//*//* 13.6 * +EC1.1.1.17 d-fructose 6-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.54 * +EC1.1.1.17 d-fructose 6-phosphate brochothrix thermosphacta//prokaryotes;bacteria;firmicutes - bacilli;brochothrix//bths 0.25 * +EC1.1.1.17 d-fructose 6-phosphate cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.3 * +EC1.1.1.17 d-fructose 6-phosphate eimeria tenella//*//* 0.2 * +EC1.1.1.17 d-fructose 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.1 * +EC1.1.1.17 d-fructose 6-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 1.66 * +EC1.1.1.17 d-fructose-6-phosphate caloglossa continua//*//* 188.8 * +EC1.1.1.17 d-mannitol 1-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.038 * +EC1.1.1.17 d-mannitol 1-phosphate brochothrix thermosphacta//prokaryotes;bacteria;firmicutes - bacilli;brochothrix//bths 0.05 * +EC1.1.1.17 d-mannitol 1-phosphate cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.055 * +EC1.1.1.17 d-mannitol 1-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.0 * +EC1.1.1.17 d-mannitol 1-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.15 * +EC1.1.1.17 d-mannitol-1-phosphate caloglossa continua//*//* 48.9 * +EC1.1.1.17 ethanol cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.94 * +EC1.1.1.17 hexitol phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC1.1.1.17 nad+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.083 * +EC1.1.1.17 nad+ brochothrix thermosphacta//prokaryotes;bacteria;firmicutes - bacilli;brochothrix//bths 0.05 * +EC1.1.1.17 nad+ caloglossa continua//*//* 32.0 * +EC1.1.1.17 nad+ cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.11 * +EC1.1.1.17 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.1.1.17 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.38 * +EC1.1.1.17 nad+ streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.06 * +EC1.1.1.17 nadh aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.005 * +EC1.1.1.17 nadh brochothrix thermosphacta//prokaryotes;bacteria;firmicutes - bacilli;brochothrix//bths 0.03 * +EC1.1.1.17 nadh caloglossa continua//*//* 3.5 * +EC1.1.1.17 nadh cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.099 * +EC1.1.1.17 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.14 * +EC1.1.1.17 nadh streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.016 * +EC1.1.1.170 3beta-hydroxy-4beta-methyl-5alpha-cholest-7-en-4alpha-oic acid rattus sp.//*//* 0.007 * +EC1.1.1.170 3beta-hydroxy-cholest-8,24-dien-4alpha-carboxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.55 * +EC1.1.1.172 2-oxoadipate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC1.1.1.172 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.173 l-rhamnose aureobasidium pullulans//*//* 0.2 * +EC1.1.1.173 nad+ aureobasidium pullulans//*//* 0.02 * +EC1.1.1.175 d-galactose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 30.0 * +EC1.1.1.175 d-xylose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 17.4 * +EC1.1.1.175 d-xylose caulobacter vibrioides//*//* 0.08 * +EC1.1.1.175 d-xylose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.5 * +EC1.1.1.175 l-arabinose caulobacter vibrioides//*//* 40.0 * +EC1.1.1.175 l-arabinose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.9 * +EC1.1.1.175 nad+ caulobacter vibrioides//*//* 0.26 * +EC1.1.1.175 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC1.1.1.176 12-oxochenodeoxycholic acid clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.0012 * +EC1.1.1.176 3alpha,12alpha-dihydroxy-5beta-cholanoate clostridium leptum//*//* 1.6 * +EC1.1.1.176 3alpha,12alpha-dihydroxy-5beta-cholanoate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.8 * +EC1.1.1.176 3alpha,12alpha-dihydroxy-5beta-cholanoate eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.028 * +EC1.1.1.176 3alpha,12alpha-dihydroxy-5beta-cholanoyl glycine clostridium leptum//*//* 0.57 * +EC1.1.1.176 3alpha,12alpha-dihydroxy-5beta-cholanoyl glycine eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.17 * +EC1.1.1.176 3alpha,12alpha-dihydroxy-5beta-cholanoyl taurine clostridium leptum//*//* 0.44 * +EC1.1.1.176 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoate clostridium leptum//*//* 7.0 * +EC1.1.1.176 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoate eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.059 * +EC1.1.1.176 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoyl glycine clostridium leptum//*//* 2.7 * +EC1.1.1.176 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoyl glycine eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.25 * +EC1.1.1.176 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoyl methyl ester eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.03 * +EC1.1.1.176 3alpha,7alpha,12alpha-trihydroxy-5beta-cholanoyl taurine clostridium leptum//*//* 4.0 * +EC1.1.1.176 7alpha,12alpha-dihydroxy-5beta-cholanoate eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.1 * +EC1.1.1.176 cholic acid clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.072 * +EC1.1.1.176 deoxycholic acid clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.045 * +EC1.1.1.176 nad+ eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.024 * +EC1.1.1.176 nadp+ clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.035 * +EC1.1.1.176 nadph clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.0085 * +EC1.1.1.177 d-glyceraldehyde 3-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.0 * +EC1.1.1.177 l-alpha-glycerol 3-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.1 * +EC1.1.1.177 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.8 * +EC1.1.1.177 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.04 * +EC1.1.1.178 2-methyl-3-hydroxybutyryl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC1.1.1.178 3-hydroxybutyryl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.5 * +EC1.1.1.179 2-deoxy-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 54.0 * +EC1.1.1.179 camphorquinone macaca fuscata//*//* 0.1 * +EC1.1.1.179 d-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 130.0 * +EC1.1.1.179 d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 140.0 * +EC1.1.1.179 d-glucose haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 64.0 * +EC1.1.1.179 d-glucose haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 198.0 * +EC1.1.1.179 d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 49.0 * +EC1.1.1.179 d-ribose haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 2.3 * +EC1.1.1.179 d-ribose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 27.0 * +EC1.1.1.179 d-xylose haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 1.2 * +EC1.1.1.179 d-xylose haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 4.7 * +EC1.1.1.179 d-xylose macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 4.4 * +EC1.1.1.179 d-xylose macaca fuscata//*//* 4.4 * +EC1.1.1.179 d-xylose paenarthrobacter nicotinovorans//*//* 15.2 * +EC1.1.1.179 d-xylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC1.1.1.179 l-arabinose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 57.0 * +EC1.1.1.179 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.36 * +EC1.1.1.179 nad+ paenarthrobacter nicotinovorans//*//* 5.03 * +EC1.1.1.179 nadp+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.031 * +EC1.1.1.179 nadp+ macaca fuscata//*//* 0.0006 * +EC1.1.1.179 nadp+ paenarthrobacter nicotinovorans//*//* 0.32 * +EC1.1.1.179 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC1.1.1.179 nadph macaca fuscata//*//* 0.0006 * +EC1.1.1.18 (1s,2s,3r,4s,5s)-5-(allyloxy)cyclohexane-1,2,3,4-tetrol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.0 * +EC1.1.1.18 (1s,2s,3r,4s,5s)-5-(benzyloxy)cyclohexane-1,2,3,4-tetrol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.0 * +EC1.1.1.18 (1s,2s,3r,4s,5s)-5-methoxycyclohexane-1,2,3,4-tetrol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.0 * +EC1.1.1.18 4-([[(1s,2s,3r,4s,5s)-2,3,4,5-tetrahydroxycyclohexyl]oxy]methyl)benzoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 44.0 * +EC1.1.1.18 alpha-d-glucopyranosyl-(1,6)-myo-inositol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 9.0 * +EC1.1.1.18 alpha-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 56.0 * +EC1.1.1.18 d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 167.0 * +EC1.1.1.18 d-xylose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 190.0 * +EC1.1.1.18 melibiose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 57.0 * +EC1.1.1.18 methyl 4-([[(1s,2s,3r,4s,5s)-2,3,4,5-tetrahydroxycyclohexyl]oxy]methyl)benzoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.0 * +EC1.1.1.18 myo-inositol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 18.0 * +EC1.1.1.18 myo-inositol galdieria sulphuraria//eukaryotes;plants;red algae//gsl 430.0 * +EC1.1.1.18 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.23 * +EC1.1.1.18 scyllo-inosose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 1.3 * +EC1.1.1.181 cholest-5-ene-3beta,7alpha-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.045 * +EC1.1.1.183 3,7-dimethyloct-6-en-1-ol persicaria minor//*//* 2.222 * +EC1.1.1.183 cinnamyl alcohol persicaria minor//*//* 0.435 * +EC1.1.1.183 geranial cymbopogon flexuosus//*//* 0.1 * +EC1.1.1.183 geraniol carpoglyphus lactis//*//* 0.051 * +EC1.1.1.183 geraniol citrus sp.//*//* 0.0465 * +EC1.1.1.183 geraniol cymbopogon flexuosus//*//* 0.12 * +EC1.1.1.183 geraniol ocimum basilicum//*//* 0.03 * +EC1.1.1.183 geraniol persicaria minor//*//* 0.185 * +EC1.1.1.183 linalool persicaria minor//*//* 0.741 * +EC1.1.1.183 nad+ carpoglyphus lactis//*//* 0.0596 * +EC1.1.1.183 nadp+ citrus sp.//*//* 0.454 * +EC1.1.1.183 nadp+ cymbopogon flexuosus//*//* 19.2 * +EC1.1.1.183 nadp+ persicaria minor//*//* 0.021 * +EC1.1.1.183 nadph cymbopogon flexuosus//*//* 8.8 * +EC1.1.1.183 nerol ocimum basilicum//*//* 0.037 * +EC1.1.1.183 nerol persicaria minor//*//* 0.714 * +EC1.1.1.185 2,3-pentanedione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.035 * +EC1.1.1.185 2,3-pentanedione klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 10.0 * +EC1.1.1.185 acetoin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.013 * +EC1.1.1.185 diacetyl gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.109 * +EC1.1.1.185 diacetyl klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.5 * +EC1.1.1.185 ethyl pyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 22.0 * +EC1.1.1.185 glyceraldehyde gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.026 * +EC1.1.1.185 glyoxal gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.053 * +EC1.1.1.185 methylglyoxal gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.09 * +EC1.1.1.185 methylglyoxal klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 90.0 * +EC1.1.1.185 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.006 * +EC1.1.1.185 nadph gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0022 * +EC1.1.1.187 gdp-4-dehydro-6-deoxy-d-mannose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.025 * +EC1.1.1.187 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.027 * +EC1.1.1.187 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.028 * +EC1.1.1.188 (5z,13e)-(15s)-9alpha,11beta,15-trihydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.134 * +EC1.1.1.188 4-nitroacetophenone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0119 * +EC1.1.1.188 4-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0008 * +EC1.1.1.188 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0774 * +EC1.1.1.188 4-nitrobenzaldehyde trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0008 * +EC1.1.1.188 5beta-androstan-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC1.1.1.188 5beta-androstan-3alpha-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.1.1.188 5beta-dihydrotestosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0175 * +EC1.1.1.188 9,10-phenanthrenequinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0001 * +EC1.1.1.188 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.1.1.188 9,10-phenanthrenequinone trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00042 * +EC1.1.1.188 androst-4-ene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC1.1.1.188 cyclohexanone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.053 * +EC1.1.1.188 d-xylose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 135.0 * +EC1.1.1.188 dl-glyceraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.143 * +EC1.1.1.188 hydrindantin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0031 * +EC1.1.1.188 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.013 * +EC1.1.1.188 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0034 * +EC1.1.1.188 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0057 * +EC1.1.1.188 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0074 * +EC1.1.1.188 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC1.1.1.188 p-nitroacetophenone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0119 * +EC1.1.1.188 phenylglyoxal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.1.1.188 prostaglandin a2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC1.1.1.188 prostaglandin d1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC1.1.1.188 prostaglandin d2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC1.1.1.188 prostaglandin d2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.1.1.188 prostaglandin d2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC1.1.1.188 prostaglandin d2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.1.1.188 prostaglandin d3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0056 * +EC1.1.1.188 prostaglandin h2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC1.1.1.188 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC1.1.1.188 prostaglandin h2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0038 * +EC1.1.1.188 prostaglandin h2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.007 * +EC1.1.1.188 prostaglandin h2 trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0013 * +EC1.1.1.188 retinal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.1.1.188 testosterone trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0057 * +EC1.1.1.189 20alpha-hydroxy-pregn-4-en-3-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC1.1.1.189 20alpha-hydroxy-pregn-4-en-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.028 * +EC1.1.1.189 4-nitrobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC1.1.1.189 9,10-phenanthrenequinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC1.1.1.189 9,10-phenanthrenequinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0045 * +EC1.1.1.189 9,10-phenanthrenequinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC1.1.1.189 dl-glyceraldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.83 * +EC1.1.1.189 menadione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC1.1.1.189 methylglyoxal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.1 * +EC1.1.1.189 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.1.1.189 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0164 * +EC1.1.1.189 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0052 * +EC1.1.1.189 prostaglandin e2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.117 * +EC1.1.1.189 prostaglandin e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.1.1.189 prostaglandin e2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.122 * +EC1.1.1.189 prostaglandin e2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.16 * +EC1.1.1.19 2-deoxyglucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 500.0 * +EC1.1.1.19 2-nitrobenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.769 * +EC1.1.1.19 3-nitrobenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.526 * +EC1.1.1.19 4-nitrobenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.133 * +EC1.1.1.19 4-nitrobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC1.1.1.19 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.05 * +EC1.1.1.19 d-arabinose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 139.9 * +EC1.1.1.19 d-galactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 333.0 * +EC1.1.1.19 d-glucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 333.0 * +EC1.1.1.19 d-glucuronate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0543 * +EC1.1.1.19 d-glucuronate canis lupus familiaris//*//* 1.6 * +EC1.1.1.19 d-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC1.1.1.19 d-glucuronate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.1 * +EC1.1.1.19 d-glucuronate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0543 * +EC1.1.1.19 d-glucuronate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.4 * +EC1.1.1.19 d-glucuronolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC1.1.1.19 d-glyceraldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.8 * +EC1.1.1.19 d-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 333.0 * +EC1.1.1.19 d-xylose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 333.0 * +EC1.1.1.19 dl-glyceraldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.671 * +EC1.1.1.19 gamma-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00045 * +EC1.1.1.19 l-gulonate canis lupus familiaris//*//* 2.1 * +EC1.1.1.19 l-gulonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC1.1.1.19 l-gulonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.6 * +EC1.1.1.19 l-gulonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.3 * +EC1.1.1.19 nadp+ mesocricetus auratus//*//* 0.0014 * +EC1.1.1.19 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC1.1.1.19 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.036 * +EC1.1.1.19 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.009 * +EC1.1.1.19 pyridine-3-aldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.6 * +EC1.1.1.190 indole-3-acetaldehyde cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.4 * +EC1.1.1.190 nadh cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.14 * +EC1.1.1.191 acetaldehyde brassica rapa subsp. pekinensis//*//* 0.715 * +EC1.1.1.191 dihydroxyacetone phosphate phycomyces blakesleeanus//*//* 0.645 * +EC1.1.1.191 indole-3-acetaldehyde brassica rapa subsp. pekinensis//*//* 0.125 * +EC1.1.1.191 indole-3-acetaldehyde cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.025 * +EC1.1.1.191 indole-3-acetaldehyde phycomyces blakesleeanus//*//* 0.2 * +EC1.1.1.191 nadph brassica rapa subsp. pekinensis//*//* 0.036 * +EC1.1.1.191 nadph cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.011 * +EC1.1.1.191 nadph phycomyces blakesleeanus//*//* 0.024 * +EC1.1.1.191 phenylacetaldehyde brassica rapa subsp. pekinensis//*//* 0.5 * +EC1.1.1.192 1-butanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 84.0 * +EC1.1.1.192 1-hexanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 3.4 * +EC1.1.1.192 1-octanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 1.2 * +EC1.1.1.192 1-octanol geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 3.88 * +EC1.1.1.192 1-pentanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 26.5 * +EC1.1.1.192 1-propanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 324.0 * +EC1.1.1.192 12-hydroxydodecanoic acid amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 1.7 * +EC1.1.1.192 ethanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 343.0 * +EC1.1.1.192 hexadecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00067 * +EC1.1.1.192 n-butanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.044 * +EC1.1.1.192 n-decanal pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.095 * +EC1.1.1.192 n-decanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.23 * +EC1.1.1.192 n-heptanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.26 * +EC1.1.1.192 n-hexanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.1.1.192 n-nonanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.36 * +EC1.1.1.192 n-octanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.34 * +EC1.1.1.192 n-pentanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.18 * +EC1.1.1.192 n-propanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.053 * +EC1.1.1.192 nad+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 1.44 * +EC1.1.1.192 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.31 * +EC1.1.1.192 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.1.1.192 nadp+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 2.4 * +EC1.1.1.192 nadph geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.84 * +EC1.1.1.192 octanal geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 1.15 * +EC1.1.1.193 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC1.1.1.194 coniferyl alcohol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.83 * +EC1.1.1.194 nadp+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0074 * +EC1.1.1.195 3,4-dimethoxy-cinnamyl alcohol forsythia suspensa//*//* 0.036 * +EC1.1.1.195 3,4-dimethoxycinnamaldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0069 * +EC1.1.1.195 3,4-dimethoxycinnamaldehyde pinus thunbergii//*//* 0.043 * +EC1.1.1.195 3,4-dimethoxycinnamyl alcohol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.022 * +EC1.1.1.195 3-methoxybenzaldehyde petroselinum crispum//*//* 0.106 * +EC1.1.1.195 3-phenyl-1-propanol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.96 * +EC1.1.1.195 4-coumaraldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.013 * +EC1.1.1.195 4-coumaraldehyde petroselinum crispum//*//* 0.048 * +EC1.1.1.195 4-coumarylaldehyde plagiochasma appendiculatum//*//* 0.0382 * +EC1.1.1.195 4-methoxybenzaldehyde petroselinum crispum//*//* 0.13 * +EC1.1.1.195 4-methoxycinnamyl alcohol forsythia suspensa//*//* 0.034 * +EC1.1.1.195 5-hydroxyconiferyl aldehyde triticum aestivum//*//* 0.0244 * +EC1.1.1.195 5-hydroxyconiferylaldehyde plagiochasma appendiculatum//*//* 0.09318 * +EC1.1.1.195 allyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.5 * +EC1.1.1.195 benzaldehyde petroselinum crispum//*//* 0.069 * +EC1.1.1.195 benzyl alcohol phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 1.0 * +EC1.1.1.195 caffeoyl aldehyde triticum aestivum//*//* 0.0891 * +EC1.1.1.195 caffeylaldehyde plagiochasma appendiculatum//*//* 0.06592 * +EC1.1.1.195 cinnamaldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.03 * +EC1.1.1.195 cinnamaldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0025 * +EC1.1.1.195 cinnamaldehyde leucaena leucocephala//*//* 0.0015 * +EC1.1.1.195 cinnamaldehyde petroselinum crispum//*//* 0.037 * +EC1.1.1.195 cinnamaldehyde pinus taeda//*//* 0.0053 * +EC1.1.1.195 cinnamaldehyde pinus thunbergii//*//* 0.014 * +EC1.1.1.195 cinnamaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.46 * +EC1.1.1.195 cinnamaldehyde streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.92 * +EC1.1.1.195 cinnamaldehyde synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.017 * +EC1.1.1.195 cinnamyl alcohol forsythia suspensa//*//* 0.156 * +EC1.1.1.195 cinnamyl alcohol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.11 * +EC1.1.1.195 cinnamyl alcohol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.026 * +EC1.1.1.195 cinnamyl alcohol leucaena leucocephala//*//* 0.0038 * +EC1.1.1.195 cinnamyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.17 * +EC1.1.1.195 cinnamyl alcohol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.27 * +EC1.1.1.195 coniferaldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0017 * +EC1.1.1.195 coniferaldehyde petroselinum crispum//*//* 0.012 * +EC1.1.1.195 coniferaldehyde pinus taeda//*//* 0.0018 * +EC1.1.1.195 coniferaldehyde pinus thunbergii//*//* 0.0091 * +EC1.1.1.195 coniferaldehyde plagiochasma appendiculatum//*//* 0.03115 * +EC1.1.1.195 coniferaldehyde populus x canadensis//*//* 0.00077 * +EC1.1.1.195 coniferaldehyde sinopodophyllum hexandrum//*//* 0.0369 * +EC1.1.1.195 coniferyl alcohol aralia cordata//*//* 0.0069 * +EC1.1.1.195 coniferyl alcohol eucalyptus gunnii//*//* 0.0014 * +EC1.1.1.195 coniferyl alcohol forsythia suspensa//*//* 0.032 * +EC1.1.1.195 coniferyl alcohol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.011 * +EC1.1.1.195 coniferyl alcohol leucaena leucocephala//*//* 0.005 * +EC1.1.1.195 coniferyl alcohol panicum virgatum//*//* 0.00098 * +EC1.1.1.195 coniferyl alcohol phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.14 * +EC1.1.1.195 coniferyl alcohol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.0075 * +EC1.1.1.195 coniferyl alcohol triticum aestivum//*//* 0.051 * +EC1.1.1.195 coniferyl aldehyde aralia cordata//*//* 0.0018 * +EC1.1.1.195 coniferyl aldehyde leucaena leucocephala//*//* 0.0037 * +EC1.1.1.195 coniferyl aldehyde medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0066 * +EC1.1.1.195 coniferyl aldehyde panicum virgatum//*//* 0.0038 * +EC1.1.1.195 coniferyl aldehyde phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0025 * +EC1.1.1.195 coniferyl aldehyde triticum aestivum//*//* 0.0219 * +EC1.1.1.195 coumaryl alcohol panicum virgatum//*//* 0.0042 * +EC1.1.1.195 nad+ eucalyptus gunnii//*//* 1.23 * +EC1.1.1.195 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.45 * +EC1.1.1.195 nad+ streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.052 * +EC1.1.1.195 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.016 * +EC1.1.1.195 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.071 * +EC1.1.1.195 nadp+ aralia cordata//*//* 0.0048 * +EC1.1.1.195 nadp+ eucalyptus gunnii//*//* 0.0038 * +EC1.1.1.195 nadp+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0038 * +EC1.1.1.195 nadp+ leucaena leucocephala//*//* 0.0057 * +EC1.1.1.195 nadph aralia cordata//*//* 0.0081 * +EC1.1.1.195 nadph eucalyptus gunnii//*//* 0.0058 * +EC1.1.1.195 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0072 * +EC1.1.1.195 nadph leucaena leucocephala//*//* 0.0015 * +EC1.1.1.195 nadph pinus taeda//*//* 0.0046 * +EC1.1.1.195 nadph pinus thunbergii//*//* 0.0068 * +EC1.1.1.195 nadph populus x canadensis//*//* 0.008 * +EC1.1.1.195 p-coumaraldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0091 * +EC1.1.1.195 p-coumaraldehyde pinus thunbergii//*//* 0.03 * +EC1.1.1.195 p-coumaraldehyde populus x canadensis//*//* 0.0012 * +EC1.1.1.195 p-coumaryl alcohol forsythia suspensa//*//* 0.132 * +EC1.1.1.195 p-coumaryl alcohol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.057 * +EC1.1.1.195 p-coumaryl alcohol phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.27 * +EC1.1.1.195 p-coumaryl alcohol triticum aestivum//*//* 0.034 * +EC1.1.1.195 p-coumaryl aldehyde leucaena leucocephala//*//* 0.0035 * +EC1.1.1.195 p-coumaryl aldehyde medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.008 * +EC1.1.1.195 p-coumaryl aldehyde triticum aestivum//*//* 0.0272 * +EC1.1.1.195 sinapaldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0043 * +EC1.1.1.195 sinapaldehyde pinus taeda//*//* 0.147 * +EC1.1.1.195 sinapaldehyde plagiochasma appendiculatum//*//* 0.06095 * +EC1.1.1.195 sinapaldehyde populus x canadensis//*//* 0.0048 * +EC1.1.1.195 sinapaldehyde sinopodophyllum hexandrum//*//* 0.04792 * +EC1.1.1.195 sinapyl alcohol aralia cordata//*//* 0.0166 * +EC1.1.1.195 sinapyl alcohol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC1.1.1.195 sinapyl alcohol leucaena leucocephala//*//* 0.0062 * +EC1.1.1.195 sinapyl alcohol panicum virgatum//*//* 0.0156 * +EC1.1.1.195 sinapyl alcohol phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.24 * +EC1.1.1.195 sinapyl alcohol triticum aestivum//*//* 0.054 * +EC1.1.1.195 sinapyl aldehyde aralia cordata//*//* 0.0072 * +EC1.1.1.195 sinapyl aldehyde leucaena leucocephala//*//* 0.0028 * +EC1.1.1.195 sinapyl aldehyde medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0109 * +EC1.1.1.195 sinapyl aldehyde panicum virgatum//*//* 0.0095 * +EC1.1.1.195 sinapyl aldehyde phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.005 * +EC1.1.1.195 sinapyl aldehyde triticum aestivum//*//* 0.0406 * +EC1.1.1.196 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC1.1.1.196 prostaglandin d1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.278 * +EC1.1.1.196 prostaglandin d2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.052 * +EC1.1.1.196 prostaglandin e2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC1.1.1.196 prostaglandin f2alpha sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC1.1.1.196 prostaglandin i2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.54 * +EC1.1.1.197 2-methyl-3-glutathionyl-1,4-benzoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC1.1.1.197 2-methyl-3-glutathionyl-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.1.1.197 4,5-benzo[a]pyrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC1.1.1.197 5,6-chrysenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00051 * +EC1.1.1.197 7,8-benzo[a]pyrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00087 * +EC1.1.1.197 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00036 * +EC1.1.1.197 glutathione-prostaglandin a1 thioether homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC1.1.1.197 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC1.1.1.197 prostaglandin a1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC1.1.1.197 prostaglandin e1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.157 * +EC1.1.1.197 toluquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.1.1.198 (+)-borneol lavandula x intermedia//*//* 0.053 * +EC1.1.1.198 (+)-borneol salvia officinalis//*//* 0.03 * +EC1.1.1.198 (-)-artemisia alcohol artemisia annua//*//* 0.086 * +EC1.1.1.198 (-)-cis-carveol artemisia annua//*//* 0.027 * +EC1.1.1.198 (-)-thujol salvia officinalis//*//* 0.041 * +EC1.1.1.198 nad+ salvia officinalis//*//* 0.07 * +EC1.1.1.2 (+)-camphorquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.33 * +EC1.1.1.2 (2e,4e)-hexa-2,4-dienal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.0 * +EC1.1.1.2 (2r,3r)-2,3-butanediol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 15.2 * +EC1.1.1.2 (2s,3s)-2,3-butanediol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 246.0 * +EC1.1.1.2 (2s,5s)-hexanediol pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.4 * +EC1.1.1.2 (4-hydroxy-3-[3-methyl-3-butene-1-ynyl]benzaldehyde) vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0063 * +EC1.1.1.2 (s)-1-phenylethanol thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.112 * +EC1.1.1.2 1,2-cyclohexanedione gallus sp.//*//* 0.46 * +EC1.1.1.2 1,5-pentanediol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 23.38 * +EC1.1.1.2 1-heptanol phycomyces blakesleeanus//*//* 0.00246 * +EC1.1.1.2 1-hexanal vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.015 * +EC1.1.1.2 1-hexanol euglena gracilis//*//* 6.79 * +EC1.1.1.2 1-hexanol phycomyces blakesleeanus//*//* 0.00251 * +EC1.1.1.2 1-pentanol phycomyces blakesleeanus//*//* 0.00273 * +EC1.1.1.2 1-pentanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.99 * +EC1.1.1.2 1-phenylethanol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 2.9 * +EC1.1.1.2 1-propanol phycomyces blakesleeanus//*//* 0.00522 * +EC1.1.1.2 13-cis-retinal pelophylax perezi//*//* 0.015 * +EC1.1.1.2 2,5-hexanedione pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 56.4 * +EC1.1.1.2 2-butanol pelophylax perezi//*//* 170.0 * +EC1.1.1.2 2-butanol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.38 * +EC1.1.1.2 2-butanone thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.31 * +EC1.1.1.2 2-chloroheptanal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC1.1.1.2 2-methoxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 4.8 * +EC1.1.1.2 2-methoxybenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.049 * +EC1.1.1.2 2-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.85 * +EC1.1.1.2 2-pentanol pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 30.3 * +EC1.1.1.2 2-phenylacetaldehyde thermococcus paralvinellae//prokaryotes;archaea;euryarchaeota;thermococcus//ths 0.05 * +EC1.1.1.2 2-phenylethanol thermococcus paralvinellae//prokaryotes;archaea;euryarchaeota;thermococcus//ths 15.0 * +EC1.1.1.2 2-propanol thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.408 * +EC1.1.1.2 2-propanol thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 168.0 * +EC1.1.1.2 3,4-dihydroxyphenylacetaldehyde platyrrhini//*//* 6.1 * +EC1.1.1.2 3,4-dihydroxyphenylglycolaldehyde platyrrhini//*//* 12.0 * +EC1.1.1.2 3-fluorobenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0054 * +EC1.1.1.2 3-methyl-1,5-pentanediol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 10.27 * +EC1.1.1.2 3-methyl-1-butanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.61 * +EC1.1.1.2 3-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.048 * +EC1.1.1.2 3-pyridinecarboxaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC1.1.1.2 3-pyridinecarboxaldehyde gallus sp.//*//* 2.9 * +EC1.1.1.2 3-pyridinecarboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.2 3-pyridinecarboxaldehyde sporidiobolus salmonicolor//*//* 2.4 * +EC1.1.1.2 3-pyridinecarboxaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC1.1.1.2 3-pyridinemethanol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.5 * +EC1.1.1.2 4-carboxyacetophenone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC1.1.1.2 4-carboxyphenylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.1.1.2 4-hydroxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 21.8 * +EC1.1.1.2 4-methoxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 24.1 * +EC1.1.1.2 4-nitrobenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0053 * +EC1.1.1.2 4-pyridine carboxaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0045 * +EC1.1.1.2 4-pyridinecarboxaldehyde gallus sp.//*//* 0.062 * +EC1.1.1.2 4-pyridinecarboxaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC1.1.1.2 4-pyridinecarboxaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.69 * +EC1.1.1.2 5-hydroxyindoleacetaldehyde platyrrhini//*//* 27.0 * +EC1.1.1.2 5alpha-dihydrotestosterone gallus sp.//*//* 0.11 * +EC1.1.1.2 9-cis-retinal pelophylax perezi//*//* 0.009 * +EC1.1.1.2 9-cis-retinol pelophylax perezi//*//* 0.019 * +EC1.1.1.2 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 28.47 * +EC1.1.1.2 acetaldehyde kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 2.33 * +EC1.1.1.2 acetaldehyde moorella sp.//*//* 10.0 * +EC1.1.1.2 acetaldehyde pelophylax perezi//*//* 7.0 * +EC1.1.1.2 acetaldehyde pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 3.1 * +EC1.1.1.2 acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.17 * +EC1.1.1.2 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC1.1.1.2 acetaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 158.0 * +EC1.1.1.2 acetaldehyde synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.51 * +EC1.1.1.2 acetaldehyde thermoanaerobacter ethanolicus//*//* 0.25 * +EC1.1.1.2 acetaldehyde thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.4 * +EC1.1.1.2 acetaldehyde thermococcus paralvinellae//prokaryotes;archaea;euryarchaeota;thermococcus//ths 0.25 * +EC1.1.1.2 acetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.12 * +EC1.1.1.2 acetoin thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.32 * +EC1.1.1.2 acetone thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.7 * +EC1.1.1.2 acetone thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 1.091 * +EC1.1.1.2 acetophenone thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.034 * +EC1.1.1.2 acetylcoa thermoanaerobacter ethanolicus//*//* 0.5 * +EC1.1.1.2 acrolein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.81 * +EC1.1.1.2 all-trans-retinal pelophylax perezi//*//* 0.008 * +EC1.1.1.2 all-trans-retinol pelophylax perezi//*//* 0.02 * +EC1.1.1.2 androstane-3,17-dione gallus sp.//*//* 0.099 * +EC1.1.1.2 benzalacetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC1.1.1.2 benzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC1.1.1.2 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC1.1.1.2 benzaldehyde mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.053 * +EC1.1.1.2 benzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.5 * +EC1.1.1.2 benzaldehyde thermococcus hydrothermalis//*//* 0.01 * +EC1.1.1.2 benzaldehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.58 * +EC1.1.1.2 benzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.033 * +EC1.1.1.2 benzyl alcohol thermococcus hydrothermalis//*//* 2.0 * +EC1.1.1.2 benzyl alcohol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.43 * +EC1.1.1.2 butan-1-ol mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 43.75 * +EC1.1.1.2 butan-1-ol thermoanaerobacter ethanolicus//*//* 10.0 * +EC1.1.1.2 butan-2-ol thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.31 * +EC1.1.1.2 butan-2-ol thermoanaerobacter ethanolicus//*//* 0.51 * +EC1.1.1.2 butanal pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 6.8 * +EC1.1.1.2 butanal pelophylax perezi//*//* 0.11 * +EC1.1.1.2 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.76 * +EC1.1.1.2 butanal synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.11 * +EC1.1.1.2 butanal thermoanaerobacter ethanolicus//*//* 0.44 * +EC1.1.1.2 butanaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC1.1.1.2 butane 2,3-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.0 * +EC1.1.1.2 butanol pelophylax perezi//*//* 1.7 * +EC1.1.1.2 butanol pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 1.9 * +EC1.1.1.2 butanol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.28 * +EC1.1.1.2 butanol thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.4 * +EC1.1.1.2 butanone thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.12 * +EC1.1.1.2 butanone thermoanaerobacter ethanolicus//*//* 0.24 * +EC1.1.1.2 butyraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC1.1.1.2 butyraldehyde mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.215 * +EC1.1.1.2 butyraldehyde pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.45 * +EC1.1.1.2 camphorquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC1.1.1.2 chloral hydrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 29.0 * +EC1.1.1.2 cinnamaldehyde mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.04 * +EC1.1.1.2 cinnamaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.043 * +EC1.1.1.2 cinnamaldehyde synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.017 * +EC1.1.1.2 cinnamaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.099 * +EC1.1.1.2 cinnamyl alcohol mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.5 * +EC1.1.1.2 cinnamyl alcohol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC1.1.1.2 cinnamyl alcohol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.27 * +EC1.1.1.2 cis-11-hexadecenal marinobacter hydrocarbonoclasticus vt8//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 0.177 * +EC1.1.1.2 coniferylaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.06 * +EC1.1.1.2 cyclohexanone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.18 * +EC1.1.1.2 cyclopentanol thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 8.45 * +EC1.1.1.2 d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 543.0 * +EC1.1.1.2 d-galacturonate gallus sp.//*//* 1.1 * +EC1.1.1.2 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 215.0 * +EC1.1.1.2 d-glucuronate canis lupus familiaris//*//* 2.5 * +EC1.1.1.2 d-glucuronate gallus sp.//*//* 4.5 * +EC1.1.1.2 d-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC1.1.1.2 d-glucuronate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.5 * +EC1.1.1.2 d-glucuronate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC1.1.1.2 d-glucuronate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC1.1.1.2 d-glucuronic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.29 * +EC1.1.1.2 d-glucuronolactone gallus sp.//*//* 19.6 * +EC1.1.1.2 d-glyceraldehyde gallus sp.//*//* 0.43 * +EC1.1.1.2 d-glyceraldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.5 * +EC1.1.1.2 d-xylose canis lupus familiaris//*//* 845.0 * +EC1.1.1.2 d-xylose gallus sp.//*//* 270.0 * +EC1.1.1.2 d-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 500.0 * +EC1.1.1.2 d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 670.0 * +EC1.1.1.2 d-xylose thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 54.4 * +EC1.1.1.2 daunorubicin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC1.1.1.2 decanal vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0033 * +EC1.1.1.2 diacetyl gallus sp.//*//* 1.2 * +EC1.1.1.2 diacetyl sporidiobolus salmonicolor//*//* 7.3 * +EC1.1.1.2 diacetyl thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.21 * +EC1.1.1.2 dl-glyceraldehyde canis lupus familiaris//*//* 4.67 * +EC1.1.1.2 dl-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.1.1.2 dl-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC1.1.1.2 ethanol kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.5 * +EC1.1.1.2 ethanol moorella sp.//*//* 40.0 * +EC1.1.1.2 ethanol pelophylax perezi//*//* 70.0 * +EC1.1.1.2 ethanol phycomyces blakesleeanus//*//* 0.013 * +EC1.1.1.2 ethanol pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 9.7 * +EC1.1.1.2 ethanol pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 29.4 * +EC1.1.1.2 ethanol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 18.8 * +EC1.1.1.2 ethanol thermoanaerobacter ethanolicus//*//* 16.4 * +EC1.1.1.2 ethanol thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 11.1 * +EC1.1.1.2 ethanol thermococcus paralvinellae//prokaryotes;archaea;euryarchaeota;thermococcus//ths 8.0 * +EC1.1.1.2 ethanol thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 10.0 * +EC1.1.1.2 ethyl 4-bromo-3-oxobutanoate sporidiobolus salmonicolor//*//* 0.091 * +EC1.1.1.2 ethyl 4-chloro-3-oxobutanoate sporidiobolus salmonicolor//*//* 0.36 * +EC1.1.1.2 ethyl acetoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.0 * +EC1.1.1.2 ethylacetoacetate gallus sp.//*//* 2.7 * +EC1.1.1.2 formaldehyde thermoanaerobacter ethanolicus//*//* 1.6 * +EC1.1.1.2 furaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.207 * +EC1.1.1.2 glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.1.1.2 glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.1.1.2 glycerol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 775.0 * +EC1.1.1.2 glycolaldehyde gallus sp.//*//* 9.9 * +EC1.1.1.2 heptanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.27 * +EC1.1.1.2 heptanal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC1.1.1.2 hexadecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.1.1.2 hexanal pelophylax perezi//*//* 0.04 * +EC1.1.1.2 hexanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.152 * +EC1.1.1.2 hexanal solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 5.5 * +EC1.1.1.2 hexanol pelophylax perezi//*//* 0.35 * +EC1.1.1.2 hexanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.22 * +EC1.1.1.2 hydroxyindol-3-ylacetaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0038 * +EC1.1.1.2 indol-3-ylacetaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0059 * +EC1.1.1.2 indolacetaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC1.1.1.2 indole-3-acetaldehyde gallus sp.//*//* 0.32 * +EC1.1.1.2 l-arabitol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1360.0 * +EC1.1.1.2 l-glyceraldehyde gallus sp.//*//* 4.9 * +EC1.1.1.2 laurylaldehyde gallus sp.//*//* 0.31 * +EC1.1.1.2 m-chlorobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC1.1.1.2 m-methoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC1.1.1.2 m-methoxybenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.212 * +EC1.1.1.2 m-methylbenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.02 * +EC1.1.1.2 m-nitrobenzaldehyde gallus sp.//*//* 0.082 * +EC1.1.1.2 m-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC1.1.1.2 m-nitrobenzaldehyde pelophylax perezi//*//* 0.002 * +EC1.1.1.2 m-nitrobenzaldehyde sporidiobolus salmonicolor//*//* 4.4 * +EC1.1.1.2 m-nitrobenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0029 * +EC1.1.1.2 malondialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.78 * +EC1.1.1.2 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC1.1.1.2 meso-2,3-butanediol thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 19.3 * +EC1.1.1.2 methylglyoxal gallus sp.//*//* 1.9 * +EC1.1.1.2 methylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.1.1.2 methylglyoxal pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.2 * +EC1.1.1.2 methylglyoxal sporidiobolus salmonicolor//*//* 3.0 * +EC1.1.1.2 n-butanol phycomyces blakesleeanus//*//* 0.0033 * +EC1.1.1.2 n-butanol thermoanaerobacter ethanolicus//*//* 34.0 * +EC1.1.1.2 n-butyraldehyde gallus sp.//*//* 1.1 * +EC1.1.1.2 n-butyraldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 150.0 * +EC1.1.1.2 n-decanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC1.1.1.2 n-dodecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.019 * +EC1.1.1.2 n-hexadecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC1.1.1.2 n-octadecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.1.1.2 n-octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.77 * +EC1.1.1.2 n-propanol thermoanaerobacter ethanolicus//*//* 19.0 * +EC1.1.1.2 n-propanol thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 12.0 * +EC1.1.1.2 n-propanol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 100.0 * +EC1.1.1.2 n-tetradecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.1.1.2 nad+ kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.39 * +EC1.1.1.2 nad+ pelophylax perezi//*//* 0.06 * +EC1.1.1.2 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 20.0 * +EC1.1.1.2 nad+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 9.7 * +EC1.1.1.2 nad+ thermoanaerobacter ethanolicus//*//* 0.096 * +EC1.1.1.2 nad+ thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.5 * +EC1.1.1.2 nadh gallus sp.//*//* 0.052 * +EC1.1.1.2 nadh kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.025 * +EC1.1.1.2 nadh pelophylax perezi//*//* 0.52 * +EC1.1.1.2 nadh scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 20.55 * +EC1.1.1.2 nadh synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.31 * +EC1.1.1.2 nadh thermoanaerobacter ethanolicus//*//* 0.025 * +EC1.1.1.2 nadp+ euglena gracilis//*//* 46.7 * +EC1.1.1.2 nadp+ kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 2.64 * +EC1.1.1.2 nadp+ mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 26.88 * +EC1.1.1.2 nadp+ pelophylax perezi//*//* 0.03 * +EC1.1.1.2 nadp+ pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.02 * +EC1.1.1.2 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.071 * +EC1.1.1.2 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC1.1.1.2 nadp+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.05 * +EC1.1.1.2 nadp+ thermoanaerobacter ethanolicus//*//* 0.02 * +EC1.1.1.2 nadp+ thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.007 * +EC1.1.1.2 nadp+ thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.4 * +EC1.1.1.2 nadp+ thermococcus hydrothermalis//*//* 0.8 * +EC1.1.1.2 nadp+ thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.033 * +EC1.1.1.2 nadp+ thermococcus paralvinellae//prokaryotes;archaea;euryarchaeota;thermococcus//ths 6.3 * +EC1.1.1.2 nadp+ thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.022 * +EC1.1.1.2 nadp+ thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.08 * +EC1.1.1.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.1.1.2 nadph gallus sp.//*//* 0.002 * +EC1.1.1.2 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC1.1.1.2 nadph kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.21 * +EC1.1.1.2 nadph ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.001 * +EC1.1.1.2 nadph pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 0.1 * +EC1.1.1.2 nadph pelophylax perezi//*//* 0.012 * +EC1.1.1.2 nadph pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.006 * +EC1.1.1.2 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.071 * +EC1.1.1.2 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.1.1.2 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.011 * +EC1.1.1.2 nadph scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.24 * +EC1.1.1.2 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC1.1.1.2 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.025 * +EC1.1.1.2 nadph thermoanaerobacter ethanolicus//*//* 0.033 * +EC1.1.1.2 nadph thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.004 * +EC1.1.1.2 nadph thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.011 * +EC1.1.1.2 nadph thermococcus hydrothermalis//*//* 0.13 * +EC1.1.1.2 nadph thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.1 * +EC1.1.1.2 nadph thermococcus paralvinellae//prokaryotes;archaea;euryarchaeota;thermococcus//ths 0.014 * +EC1.1.1.2 nadph thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.02 * +EC1.1.1.2 nadph thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.007 * +EC1.1.1.2 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.004 * +EC1.1.1.2 o-fluorobenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.702 * +EC1.1.1.2 o-methylbenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.125 * +EC1.1.1.2 o-nitrobenzaldehyde gallus sp.//*//* 2.8 * +EC1.1.1.2 o-nitrobenzaldehyde sporidiobolus salmonicolor//*//* 1.3 * +EC1.1.1.2 o-nitrobenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.376 * +EC1.1.1.2 octanal mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.03 * +EC1.1.1.2 octanal pelophylax perezi//*//* 0.01 * +EC1.1.1.2 octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC1.1.1.2 octanol pelophylax perezi//*//* 0.09 * +EC1.1.1.2 octyl 4-chloro-3-oxobutanoate sporidiobolus salmonicolor//*//* 0.1 * +EC1.1.1.2 p-carboxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC1.1.1.2 p-carboxybenzaldehyde gallus sp.//*//* 0.056 * +EC1.1.1.2 p-carboxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.1.1.2 p-carboxybenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC1.1.1.2 p-carboxybenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC1.1.1.2 p-chlorobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC1.1.1.2 p-chlorobenzaldehyde sporidiobolus salmonicolor//*//* 6.7 * +EC1.1.1.2 p-cyanobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC1.1.1.2 p-cyanobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.51 * +EC1.1.1.2 p-fluorobenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.04 * +EC1.1.1.2 p-hydroxyphenylacetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.057 * +EC1.1.1.2 p-hydroxyphenylacetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.91 * +EC1.1.1.2 p-hydroxyphenylacetaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC1.1.1.2 p-hydroxyphenylglycolaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.016 * +EC1.1.1.2 p-hydroxyphenylglycolaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.059 * +EC1.1.1.2 p-hydroxyphenylglycolaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC1.1.1.2 p-methoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.141 * +EC1.1.1.2 p-methoxybenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.15 * +EC1.1.1.2 p-methylbenzaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.041 * +EC1.1.1.2 p-nitroacetophenone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.1.1.2 p-nitroacetophenone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC1.1.1.2 p-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC1.1.1.2 p-nitrobenzaldehyde gallus sp.//*//* 0.034 * +EC1.1.1.2 p-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC1.1.1.2 p-nitrobenzaldehyde ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.044 * +EC1.1.1.2 p-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC1.1.1.2 p-nitrobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC1.1.1.2 p-nitrobenzaldehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.8 * +EC1.1.1.2 p-tolualdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.1.1.2 pentanal pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 0.4 * +EC1.1.1.2 pentanal pelophylax perezi//*//* 0.07 * +EC1.1.1.2 pentanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.049 * +EC1.1.1.2 pentanal synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.075 * +EC1.1.1.2 pentanol pelophylax perezi//*//* 0.22 * +EC1.1.1.2 pentanol synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.54 * +EC1.1.1.2 phenylacetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.091 * +EC1.1.1.2 phenylethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.2 * +EC1.1.1.2 phenylglyoxal gallus sp.//*//* 0.11 * +EC1.1.1.2 phenylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.2 * +EC1.1.1.2 propan-2-ol thermoanaerobacter ethanolicus//*//* 0.56 * +EC1.1.1.2 propanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 27.0 * +EC1.1.1.2 propanone thermoanaerobacter ethanolicus//*//* 0.16 * +EC1.1.1.2 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.31 * +EC1.1.1.2 propionaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.2 propionaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC1.1.1.2 propionaldehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.22 * +EC1.1.1.2 propionaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.087 * +EC1.1.1.2 pyridine 3-aldehyde gallus sp.//*//* 0.042 * +EC1.1.1.2 pyridine 3-aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC1.1.1.2 pyridine 4-aldehyde gallus sp.//*//* 4.0 * +EC1.1.1.2 pyruvaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.2 * +EC1.1.1.2 pyruvaldehyde thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 17.75 * +EC1.1.1.2 ribose gallus sp.//*//* 111.0 * +EC1.1.1.2 salicylaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 6.9 * +EC1.1.1.2 salicylaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.066 * +EC1.1.1.2 sinapylaldehyde vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.126 * +EC1.1.1.2 sodium d-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.95 * +EC1.1.1.2 succinic semialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC1.1.1.2 succinic semialdehyde cricetinae//*//* 0.037 * +EC1.1.1.2 succinic semialdehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC1.1.1.2 succinic semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC1.1.1.2 succinic semialdehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.1.1.2 trans-2-hexenal pelophylax perezi//*//* 0.06 * +EC1.1.1.2 trans-2-hexenal solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 27.1 * +EC1.1.1.2 trans-2-hexenol pelophylax perezi//*//* 0.22 * +EC1.1.1.2 trans-2-hexenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.69 * +EC1.1.1.2 veratraldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.058 * +EC1.1.1.2 xylose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 41.0 * +EC1.1.1.2 xylose gallus sp.//*//* 160.0 * +EC1.1.1.20 d-galacturonic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC1.1.1.20 d-glucuronic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC1.1.1.20 d-glucuronolactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.0 * +EC1.1.1.20 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC1.1.1.200 d-glucose 6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.2 * +EC1.1.1.200 d-glucose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 15.9 * +EC1.1.1.200 d-glucose-6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 5.1 * +EC1.1.1.200 d-sorbitol 6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 3.9 * +EC1.1.1.200 d-sorbitol 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 7.21 * +EC1.1.1.200 d-sorbitol-6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 1.7 * +EC1.1.1.201 3,12-diketocholanoic acid blautia producta//*//* 0.07 * +EC1.1.1.201 3,7,12-triketo-5beta-cholanoic acid blautia producta//*//* 0.123 * +EC1.1.1.201 3,7,12-triketo-5beta-cholanoyl taurine blautia producta//*//* 0.145 * +EC1.1.1.201 3,7-diketo-5beta-cholanoic acid blautia producta//*//* 0.087 * +EC1.1.1.201 3alpha,12alpha-dihydroxy-7-keto-5beta-cholanoic acid blautia producta//*//* 0.142 * +EC1.1.1.201 3alpha,7beta,12alpha-trihydroxy-5beta-cholanoic acid hathewaya limosa//*//* 0.076 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoic acid blautia producta//*//* 0.022 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoic acid clostridium sardiniense//*//* 0.009 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.108 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoic acid hathewaya limosa//*//* 0.018 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoyl glycine blautia producta//*//* 0.238 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoyl glycine collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.909 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoyl taurine blautia producta//*//* 0.286 * +EC1.1.1.201 3alpha,7beta-dihydroxy-5beta-cholanoyl taurine collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 1.639 * +EC1.1.1.201 3alpha-hydroxy-7,12-diketo-5beta-cholanoic acid blautia producta//*//* 0.124 * +EC1.1.1.201 3alpha-hydroxy-7-keto-5beta-cholanoic acid blautia producta//*//* 0.055 * +EC1.1.1.201 7-ketolithocholic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.0052 * +EC1.1.1.201 dehydrocholic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.0092 * +EC1.1.1.201 nadp+ blautia producta//*//* 0.1 * +EC1.1.1.201 nadp+ clostridium sardiniense//*//* 0.072 * +EC1.1.1.201 nadp+ collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.0053 * +EC1.1.1.201 nadp+ hathewaya limosa//*//* 0.14 * +EC1.1.1.201 nadph collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.0045 * +EC1.1.1.201 ursodeoxycholic acid collinsella aerofaciens//prokaryotes;bacteria;actinobacteria;collinsella//caer 0.0062 * +EC1.1.1.202 1,2-propanediol oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 11.5 * +EC1.1.1.202 1,3-propanediol oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 26.7 * +EC1.1.1.202 3-hydroxypropanal citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 8.9 * +EC1.1.1.202 3-hydroxypropanal klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.77 * +EC1.1.1.202 3-hydroxypropanal lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.25 * +EC1.1.1.202 acetaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 4.25 * +EC1.1.1.202 butyraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 4.2 * +EC1.1.1.202 formaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 16.1 * +EC1.1.1.202 glyceraldehyde lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 26.0 * +EC1.1.1.202 glyceraldehyde lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 29.0 * +EC1.1.1.202 glycerol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 300.0 * +EC1.1.1.202 glycerol lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 700.0 * +EC1.1.1.202 nad+ citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.3 * +EC1.1.1.202 nad+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.2 * +EC1.1.1.202 nad+ lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.076 * +EC1.1.1.202 nad+ lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 0.37 * +EC1.1.1.202 nad+ lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.15 * +EC1.1.1.202 nad+ oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.05 * +EC1.1.1.202 nadh citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.033 * +EC1.1.1.202 nadh clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.06 * +EC1.1.1.202 nadh klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.015 * +EC1.1.1.202 nadh lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.0116 * +EC1.1.1.202 nadh lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 0.013 * +EC1.1.1.202 nadh oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.2 * +EC1.1.1.202 propane-1,3-diol citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.25 * +EC1.1.1.202 propane-1,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 7.44 * +EC1.1.1.202 propane-1,3-diol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 2.0 * +EC1.1.1.202 propane-1,3-diol lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 14.0 * +EC1.1.1.202 propionaldehyde citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 11.0 * +EC1.1.1.202 propionaldehyde clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.17 * +EC1.1.1.202 propionaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.94 * +EC1.1.1.202 valeraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.16 * +EC1.1.1.203 beta-d-galacturonate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.16 * +EC1.1.1.203 beta-d-galacturonate polaromonas naphthalenivorans//prokaryotes;bacteria;betaproteobacteria;polaromonas//pna 0.148 * +EC1.1.1.203 beta-d-galacturonate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.106 * +EC1.1.1.203 beta-d-galacturonate pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.053 * +EC1.1.1.203 beta-d-galacturonate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.107 * +EC1.1.1.203 beta-d-glucuronate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 1.27 * +EC1.1.1.203 beta-d-glucuronate polaromonas naphthalenivorans//prokaryotes;bacteria;betaproteobacteria;polaromonas//pna 1.3 * +EC1.1.1.203 beta-d-glucuronate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.69 * +EC1.1.1.203 beta-d-glucuronate pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.48 * +EC1.1.1.203 beta-d-glucuronate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 1.34 * +EC1.1.1.203 d-galacturonate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.16 * +EC1.1.1.203 d-galacturonate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.1.1.203 d-galacturonate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.04 * +EC1.1.1.203 d-galacturonate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.054 * +EC1.1.1.203 d-glucuronate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.37 * +EC1.1.1.203 d-glucuronate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.25 * +EC1.1.1.203 d-glucuronate pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.28 * +EC1.1.1.203 d-glucuronate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.15 * +EC1.1.1.203 nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.18 * +EC1.1.1.203 nad+ chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.24 * +EC1.1.1.203 nad+ polaromonas naphthalenivorans//prokaryotes;bacteria;betaproteobacteria;polaromonas//pna 0.06 * +EC1.1.1.203 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.25 * +EC1.1.1.203 nad+ pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.078 * +EC1.1.1.203 nad+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.21 * +EC1.1.1.203 nad+ pseudomonas syringae pv. tomato//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.17 * +EC1.1.1.203 nad+ pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.08 * +EC1.1.1.205 3-acetylpyridine adenine dinucleotide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.19 * +EC1.1.1.205 5'-amino-5'-deoxyinosine 5'-n-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.038 * +EC1.1.1.205 5'-mercapto-5'-deoxyinosine 5'-s-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.013 * +EC1.1.1.205 6-thio-imp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.02 * +EC1.1.1.205 acetylpyridine adenine dinucleotide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.19 * +EC1.1.1.205 imp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.023 * +EC1.1.1.205 imp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.021 * +EC1.1.1.205 imp eimeria tenella//*//* 0.03 * +EC1.1.1.205 imp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC1.1.1.205 imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.1.1.205 imp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC1.1.1.205 imp pneumocystis carinii//*//* 0.0217 * +EC1.1.1.205 imp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.1.1.205 imp streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.062 * +EC1.1.1.205 imp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.007 * +EC1.1.1.205 inosine 5'-diphosphate babesia gibsoni//*//* 0.0082 * +EC1.1.1.205 inosine 5'-diphosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.018 * +EC1.1.1.205 inosine 5'-diphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.03 * +EC1.1.1.205 inosine 5'-phosphate borreliella burgdorferi//*//* 0.029 * +EC1.1.1.205 inosine 5'-phosphate cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.029 * +EC1.1.1.205 inosine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0132 * +EC1.1.1.205 inosine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.205 inosine 5'-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.021 * +EC1.1.1.205 inosine 5'-phosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.033 * +EC1.1.1.205 inosine 5'-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0509 * +EC1.1.1.205 inosine 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.078 * +EC1.1.1.205 inosine 5'-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.02 * +EC1.1.1.205 inosine 5'-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.062 * +EC1.1.1.205 inosine 5'-phosphate tritrichomonas suis//*//* 0.0017 * +EC1.1.1.205 inosine 5'-phosphate vigna unguiculata//*//* 0.0091 * +EC1.1.1.205 inosine 5'-phosphorothioate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.21 * +EC1.1.1.205 k+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.0 * +EC1.1.1.205 k+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC1.1.1.205 k+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.8 * +EC1.1.1.205 k+ schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 2.0 * +EC1.1.1.205 nad+ babesia gibsoni//*//* 0.36 * +EC1.1.1.205 nad+ bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.55 * +EC1.1.1.205 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.3 * +EC1.1.1.205 nad+ borreliella burgdorferi//*//* 1.1 * +EC1.1.1.205 nad+ cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.029 * +EC1.1.1.205 nad+ cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.14 * +EC1.1.1.205 nad+ eimeria tenella//*//* 0.15 * +EC1.1.1.205 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC1.1.1.205 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00157 * +EC1.1.1.205 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.1 * +EC1.1.1.205 nad+ leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.39 * +EC1.1.1.205 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.025 * +EC1.1.1.205 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.005 * +EC1.1.1.205 nad+ pneumocystis carinii//*//* 0.314 * +EC1.1.1.205 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC1.1.1.205 nad+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.18 * +EC1.1.1.205 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC1.1.1.205 nad+ tritrichomonas suis//*//* 0.15 * +EC1.1.1.205 nad+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.3 * +EC1.1.1.205 nad+ vigna unguiculata//*//* 0.018 * +EC1.1.1.205 thiazole-4-carboxamide adenine dinucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC1.1.1.207 (-)-menthone mentha x piperita//*//* 0.25 * +EC1.1.1.207 nadph mentha x piperita//*//* 0.015 * +EC1.1.1.208 (+)-neomenthol artemisia annua//*//* 0.305 * +EC1.1.1.208 (-)-menthone artemisia annua//*//* 0.0071 * +EC1.1.1.208 nadph mentha x piperita//*//* 0.022 * +EC1.1.1.209 (2z)-2-(5-hydroxy-4,6-dimethyl-2-oxo-1,2-dihydro-3h-indol-3-ylidene)-n,n-di(prop-2-en-1-yl)hydrazinecarbothioamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC1.1.1.209 (r)-1-indanol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC1.1.1.209 4-androstene-3,17-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0002 * +EC1.1.1.209 5alpha-androstan-17alpha-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0004 * +EC1.1.1.209 5alpha-androstan-3alpha-ol-17-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0006 * +EC1.1.1.209 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC1.1.1.209 5alpha-pregnane-3alpha,20alpha-diol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC1.1.1.209 5beta-androstan-17alpha-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0004 * +EC1.1.1.209 5beta-androstane-3alpha,17beta-diol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0001 * +EC1.1.1.209 5beta-pregnane-20alpha-ol-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0002 * +EC1.1.1.209 5beta-pregnane-3,20-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0006 * +EC1.1.1.209 5beta-pregnane-3alpha,20alpha-diol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC1.1.1.209 5beta-pregnane-3alpha-ol-20-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0007 * +EC1.1.1.209 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC1.1.1.209 androsterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0012 * +EC1.1.1.209 cis-benzene dihydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.99 * +EC1.1.1.209 cyclohex-2-ene-1-ol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.23 * +EC1.1.1.209 epitestosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0001 * +EC1.1.1.209 epitestosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00053 * +EC1.1.1.209 glycolithocholic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0004 * +EC1.1.1.209 lithocholic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0001 * +EC1.1.1.209 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.26 * +EC1.1.1.209 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC1.1.1.209 naphthalene dihydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.67 * +EC1.1.1.209 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.1.1.209 trans-benzene dihydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.77 * +EC1.1.1.21 (1s)-camphorquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 1-butanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC1.1.1.21 1-butanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC1.1.1.21 1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 63.0 * +EC1.1.1.21 1-decanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0055 * +EC1.1.1.21 1-decanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC1.1.1.21 1-decanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.082 * +EC1.1.1.21 1-dodecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC1.1.1.21 1-heptanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.1.1.21 1-hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.112 * +EC1.1.1.21 1-hexanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.1.1.21 1-hexanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.1.1.21 1-hexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.97 * +EC1.1.1.21 1-nonanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.1.1.21 1-nonanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.1.1.21 1-nonanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.21 1-nonanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.74 * +EC1.1.1.21 1-octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.1.1.21 1-octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.1.1.21 1-palmitoyl-2-(5-oxovaleryl)sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC1.1.1.21 1-propanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC1.1.1.21 1-tetradecanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC1.1.1.21 16-ketoestrone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC1.1.1.21 2,3-butanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.68 * +EC1.1.1.21 2,3-heptanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC1.1.1.21 2,3-hexanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC1.1.1.21 2,3-hexanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.1.1.21 2,3-pentanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.1.1.21 2,4-decadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC1.1.1.21 2,4-nonadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.064 * +EC1.1.1.21 2-decenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.1.1.21 2-deoxygalactose euonymus japonicus//*//* 10.6 * +EC1.1.1.21 2-deoxyribose euonymus japonicus//*//* 17.5 * +EC1.1.1.21 2-hexenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.075 * +EC1.1.1.21 2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC1.1.1.21 2-phenyl-1-propanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC1.1.1.21 2-phenyl-2-propenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.052 * +EC1.1.1.21 2-pyridinecarboxaldehyde euonymus japonicus//*//* 0.099 * +EC1.1.1.21 20alpha-hydroxyprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.1.1.21 20alpha-isocorticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.1.1.21 21-dehydrocortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC1.1.1.21 21-dehydrocortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0095 * +EC1.1.1.21 3,4-hexanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC1.1.1.21 3-deoxyglucosone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.129 * +EC1.1.1.21 3-deoxyglucosone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC1.1.1.21 3-pyridinecarboxaldehyde euonymus japonicus//*//* 0.046 * +EC1.1.1.21 4-hydroxynonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.1.1.21 4-hydroxyphenylacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.1.1.21 4-nitrobenzaldehyde euonymus japonicus//*//* 0.003 * +EC1.1.1.21 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.1.1.21 4-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0035 * +EC1.1.1.21 4-pyridinecarboxaldehyde euonymus japonicus//*//* 0.004 * +EC1.1.1.21 5-pregnene-3beta,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.1.1.21 5alpha-pregnan-20alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.1.1.21 5alpha-pregnane-3beta,20alpha-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.1.1.21 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC1.1.1.21 acrolein candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 13.0 * +EC1.1.1.21 acrolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC1.1.1.21 benzaldehyde euonymus japonicus//*//* 0.295 * +EC1.1.1.21 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC1.1.1.21 benzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC1.1.1.21 benzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.1.1.21 benzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC1.1.1.21 butyraldehyde euonymus japonicus//*//* 0.444 * +EC1.1.1.21 d-arabinose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 446.7 * +EC1.1.1.21 d-arabinose zea mays//eukaryotes;plants;monocots;grass family//zma 448.4 * +EC1.1.1.21 d-erythrose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC1.1.1.21 d-erythrose euonymus japonicus//*//* 28.1 * +EC1.1.1.21 d-fructose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 9.6 * +EC1.1.1.21 d-fucose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 59.3 * +EC1.1.1.21 d-galactose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 228.0 * +EC1.1.1.21 d-galactose euonymus japonicus//*//* 227.1 * +EC1.1.1.21 d-galactose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 42.9 * +EC1.1.1.21 d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 40.0 * +EC1.1.1.21 d-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 83.0 * +EC1.1.1.21 d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 71.5 * +EC1.1.1.21 d-glucose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 47.3 * +EC1.1.1.21 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.3 * +EC1.1.1.21 d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 204.0 * +EC1.1.1.21 d-glucuronate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.58 * +EC1.1.1.21 d-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.152 * +EC1.1.1.21 d-glucuronate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.2 * +EC1.1.1.21 d-glucuronolactone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC1.1.1.21 d-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.1.1.21 d-lactoaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.74 * +EC1.1.1.21 d-lactoaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.073 * +EC1.1.1.21 d-lyxose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 479.2 * +EC1.1.1.21 d-lyxose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2630.0 * +EC1.1.1.21 d-mannose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 53.4 * +EC1.1.1.21 d-ribose-5-phosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 29.1 * +EC1.1.1.21 d-ribose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC1.1.1.21 d-ribose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 370.9 * +EC1.1.1.21 d-ribose zea mays//eukaryotes;plants;monocots;grass family//zma 108.1 * +EC1.1.1.21 d-sorbitol zea mays//eukaryotes;plants;monocots;grass family//zma 399.5 * +EC1.1.1.21 d-tagatose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 24.8 * +EC1.1.1.21 d-xylitol zea mays//eukaryotes;plants;monocots;grass family//zma 179.5 * +EC1.1.1.21 d-xylose-5-phosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 24.9 * +EC1.1.1.21 d-xylose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC1.1.1.21 d-xylose candida intermedia//*//* 56.0 * +EC1.1.1.21 d-xylose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 76.0 * +EC1.1.1.21 d-xylose cyberlindnera jadinii//*//* 8.0 * +EC1.1.1.21 d-xylose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 27.0 * +EC1.1.1.21 d-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC1.1.1.21 d-xylose meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 17.0 * +EC1.1.1.21 d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.5 * +EC1.1.1.21 d-xylose zea mays//eukaryotes;plants;monocots;grass family//zma 466.8 * +EC1.1.1.21 dl-glyceraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.1.1.21 dl-glyceraldehyde candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 2.0 * +EC1.1.1.21 dl-glyceraldehyde euonymus japonicus//*//* 3.4 * +EC1.1.1.21 dl-glyceraldehyde galdieria sulphuraria//eukaryotes;plants;red algae//gsl 730.2 * +EC1.1.1.21 dl-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.21 dl-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.071 * +EC1.1.1.21 dl-glyceraldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 4.0 * +EC1.1.1.21 galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.2 * +EC1.1.1.21 geraniol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.1.1.21 geranylgeraniol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.1.1.21 glucose-6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 113.0 * +EC1.1.1.21 glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.8 * +EC1.1.1.21 glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 155.0 * +EC1.1.1.21 glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC1.1.1.21 glycoaldehyde euonymus japonicus//*//* 1.8 * +EC1.1.1.21 glycoaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC1.1.1.21 glycolaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC1.1.1.21 glyoxal euonymus japonicus//*//* 18.9 * +EC1.1.1.21 glyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC1.1.1.21 glyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.28 * +EC1.1.1.21 hexanal euonymus japonicus//*//* 0.034 * +EC1.1.1.21 hexanal galdieria sulphuraria//eukaryotes;plants;red algae//gsl 120.5 * +EC1.1.1.21 indole-3-acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.1.1.21 isatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.1.1.21 isatin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.069 * +EC1.1.1.21 isobutyraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.1.1.21 isobutyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.21 isocaproaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC1.1.1.21 l-arabinose euonymus japonicus//*//* 287.2 * +EC1.1.1.21 l-arabinose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 416.8 * +EC1.1.1.21 l-fucose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 80.7 * +EC1.1.1.21 l-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.1.1.21 l-idose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC1.1.1.21 l-idose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.1.1.21 l-lyxose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 312.3 * +EC1.1.1.21 l-rhamnose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 52.3 * +EC1.1.1.21 l-ribose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 245.0 * +EC1.1.1.21 l-sorbose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 22.0 * +EC1.1.1.21 l-xylose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 459.2 * +EC1.1.1.21 l-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 100.0 * +EC1.1.1.21 methylglyoxal candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 6.3 * +EC1.1.1.21 methylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC1.1.1.21 n-pentanal euonymus japonicus//*//* 0.087 * +EC1.1.1.21 nad(p)+ cyberlindnera jadinii//*//* 0.14 * +EC1.1.1.21 nad(p)h cyberlindnera jadinii//*//* 0.016 * +EC1.1.1.21 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC1.1.1.21 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.1.1.21 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC1.1.1.21 nadph euonymus japonicus//*//* 0.01 * +EC1.1.1.21 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC1.1.1.21 nadph meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 85.0 * +EC1.1.1.21 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC1.1.1.21 nerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.21 p-bromobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.21 p-carboxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.1.1.21 p-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.1.1.21 phenyl-1,2-propanedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC1.1.1.21 phenylglyoxal euonymus japonicus//*//* 0.68 * +EC1.1.1.21 phenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC1.1.1.21 propanal candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 365.0 * +EC1.1.1.21 propionaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.1.1.21 pyridine-3-aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC1.1.1.21 pyridine-3-aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.1.1.21 pyridine-3-methanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC1.1.1.21 pyridine-4-aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.1.1.21 ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 102.0 * +EC1.1.1.21 succinic semialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.285 * +EC1.1.1.21 trans,trans-farnesol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.1.1.21 trans-2-buten-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.1.1.21 trans-2-decen-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.21 trans-2-hexen-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.1.1.21 trans-2-nonen-1-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.1.1.21 xylitol cyberlindnera jadinii//*//* 530.0 * +EC1.1.1.21 xylose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.67 * +EC1.1.1.21 xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.77 * +EC1.1.1.210 17beta-hydroxy-5alpha-androstan-3-one ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.074 * +EC1.1.1.210 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0025 * +EC1.1.1.210 progesterone ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.031 * +EC1.1.1.211 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC1.1.1.211 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.1.1.212 acetoacetyl n-acetyl-cysteamide persea americana//*//* 6.2 * +EC1.1.1.212 acetoacetyl-[acyl-carrier protein] persea americana//*//* 0.00965 * +EC1.1.1.212 acetoacetyl-coa persea americana//*//* 0.155 * +EC1.1.1.212 nadh persea americana//*//* 0.00273 * +EC1.1.1.213 17beta-hydroxy-5alpha-androstan-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC1.1.1.213 2-decalone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.54 * +EC1.1.1.213 3alpha-hydroxy-5alpha-androstan-17-one mesocricetus auratus//*//* 0.0094 * +EC1.1.1.213 3alpha-hydroxy-5alpha-androstan-17-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC1.1.1.213 4-nitrobenzyldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.163 * +EC1.1.1.213 4-oxo-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC1.1.1.213 5alpha-androstan-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC1.1.1.213 5alpha-androstane-3,17-dione mesocricetus auratus//*//* 8e-05 * +EC1.1.1.213 5alpha-androstane-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00065 * +EC1.1.1.213 5alpha-androstane-3alpha,17beta-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.781 * +EC1.1.1.213 5beta-pregnane-17alpha,20beta,21-triol-3,11-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.1.1.213 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00122 * +EC1.1.1.213 androsterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0041 * +EC1.1.1.213 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.1.1.213 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC1.1.1.213 nadp+ mesocricetus auratus//*//* 0.0026 * +EC1.1.1.213 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0052 * +EC1.1.1.213 nadph mesocricetus auratus//*//* 0.00016 * +EC1.1.1.213 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC1.1.1.213 prostaglandin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.1.1.215 2,5-diketo-d-gluconate brevibacterium ketosoreductum//*//* 5.0 * +EC1.1.1.215 2-keto-d-galactonate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 16.0 * +EC1.1.1.215 2-keto-d-gluconate acetobacter ascendens//*//* 5.3 * +EC1.1.1.215 2-keto-l-gulonate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 91.0 * +EC1.1.1.215 2-oxo-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 5.16 * +EC1.1.1.215 5-keto-d-gluconate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.86 * +EC1.1.1.215 d-gluconate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 2.4 * +EC1.1.1.215 gluconate acetobacter ascendens//*//* 4.4 * +EC1.1.1.215 glyoxylate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.38 * +EC1.1.1.215 hydroxypyruvate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.065 * +EC1.1.1.215 nadh gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.051 * +EC1.1.1.215 nadp+ acetobacter ascendens//*//* 1.2 * +EC1.1.1.215 nadp+ acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.083 * +EC1.1.1.215 nadph acetobacter ascendens//*//* 0.0074 * +EC1.1.1.215 nadph acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.01 * +EC1.1.1.215 nadph brevibacterium ketosoreductum//*//* 0.01 * +EC1.1.1.215 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.01 * +EC1.1.1.216 (2e,6e)-2-trans,6-trans-farnesol persicaria minor//*//* 0.17 * +EC1.1.1.216 (2e,6e)-farnesol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.091 * +EC1.1.1.216 (2z,6e)-2-cis,6-trans-farnesol persicaria minor//*//* 0.33 * +EC1.1.1.216 (2z,6z)-2-cis,6-cis-farnesol persicaria minor//*//* 0.42 * +EC1.1.1.216 (2z,6z)-farnesol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.097 * +EC1.1.1.216 (e)-geraniol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.208 * +EC1.1.1.216 (s)-perillyl alcohol persicaria minor//*//* 0.77 * +EC1.1.1.216 (z)-nerol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.109 * +EC1.1.1.216 2-decanol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.184 * +EC1.1.1.216 carveol persicaria minor//*//* 0.71 * +EC1.1.1.216 cinnamyl alcohol persicaria minor//*//* 1.04 * +EC1.1.1.216 citronellol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.133 * +EC1.1.1.216 farnesol manduca sexta//*//* 0.001 * +EC1.1.1.216 geraniol ipomoea batatas//*//* 0.729 * +EC1.1.1.216 geraniol persicaria minor//*//* 12.5 * +EC1.1.1.216 nad+ persicaria minor//*//* 0.74 * +EC1.1.1.216 nadp+ persicaria minor//*//* 40.0 * +EC1.1.1.216 nerodiol persicaria minor//*//* 1.0 * +EC1.1.1.216 octanol aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.195 * +EC1.1.1.216 trans,trans-farnesol ipomoea batatas//*//* 0.0156 * +EC1.1.1.217 benzyl (2r,3s)-2-methyl-3-hydroxy-butanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.2 * +EC1.1.1.217 benzyl 2-methyl-3-oxobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.42 * +EC1.1.1.217 benzyl(2s,3s)-2-methyl-3-hydroxybutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.2 * +EC1.1.1.218 1-indanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC1.1.1.218 3-hydroxyhexobarbital oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.92 * +EC1.1.1.218 5alpha-androstan-17beta-ol-3-one mesocricetus auratus//*//* 0.002 * +EC1.1.1.218 benzenedihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.75 * +EC1.1.1.218 codeine cavia porcellus//*//* 0.033 * +EC1.1.1.218 codeine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC1.1.1.218 codeine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.044 * +EC1.1.1.218 codeinone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.12 * +EC1.1.1.218 cyclohexene-2-ol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.54 * +EC1.1.1.218 dihydrocodeine cavia porcellus//*//* 0.54 * +EC1.1.1.218 dihydrocodeine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.39 * +EC1.1.1.218 dihydrocodeine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.91 * +EC1.1.1.218 ethylmorphine cavia porcellus//*//* 0.4 * +EC1.1.1.218 ethylmorphine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.48 * +EC1.1.1.218 morphine cavia porcellus//*//* 0.12 * +EC1.1.1.218 morphine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5 * +EC1.1.1.218 morphine mesocricetus auratus//*//* 1.25 * +EC1.1.1.218 morphine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.52 * +EC1.1.1.218 morphine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.46 * +EC1.1.1.218 morphine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC1.1.1.218 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC1.1.1.218 nadh cavia porcellus//*//* 0.0022 * +EC1.1.1.218 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.033 * +EC1.1.1.218 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.35 * +EC1.1.1.218 nadph cavia porcellus//*//* 0.0065 * +EC1.1.1.218 nalorphine cavia porcellus//*//* 0.015 * +EC1.1.1.218 naloxone cavia porcellus//*//* 0.27 * +EC1.1.1.218 normorphine cavia porcellus//*//* 0.044 * +EC1.1.1.218 normorphine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.64 * +EC1.1.1.218 testosterone mesocricetus auratus//*//* 0.009 * +EC1.1.1.218 trans-naphthalene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC1.1.1.219 (+)-dihydroquercetin cryptomeria japonica//*//* 0.048 * +EC1.1.1.219 (+)-dihydroquercetin pseudotsuga menziesii//*//* 0.037 * +EC1.1.1.219 (4s)-5,5,5-trifluoro-4-hydroxy-4-phenylpentan-2-one komagataella phaffii//eukaryotes;fungi;ascomycetes;saccharomycetes//ppa 1.15 * +EC1.1.1.219 benzaldehyde komagataella phaffii//eukaryotes;fungi;ascomycetes;saccharomycetes//ppa 5.2 * +EC1.1.1.219 dihydrokaempferol delphinium grandiflorum//*//* 0.0061 * +EC1.1.1.219 dihydrokaempferol fragaria x ananassa//*//* 0.0004 * +EC1.1.1.219 dihydromyricetin delphinium grandiflorum//*//* 0.0005 * +EC1.1.1.219 dihydromyricetin fragaria x ananassa//*//* 0.0023 * +EC1.1.1.219 dihydroquercetin delphinium grandiflorum//*//* 0.002 * +EC1.1.1.219 dihydroquercetin fragaria x ananassa//*//* 0.0004 * +EC1.1.1.219 nadph komagataella phaffii//eukaryotes;fungi;ascomycetes;saccharomycetes//ppa 0.0161 * +EC1.1.1.22 5-azido-udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05617 * +EC1.1.1.22 aldehyde intermediate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.058 * +EC1.1.1.22 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.042 * +EC1.1.1.22 nad+ burkholderia cenocepacia j2315//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcj 0.17 * +EC1.1.1.22 nad+ burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.53 * +EC1.1.1.22 nad+ caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.2 * +EC1.1.1.22 nad+ capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.132 * +EC1.1.1.22 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.1.1.22 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.07 * +EC1.1.1.22 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.1.1.22 nad+ lilium longiflorum//*//* 0.4 * +EC1.1.1.22 nad+ phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.02 * +EC1.1.1.22 nad+ phoma herbarum//*//* 0.168 * +EC1.1.1.22 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.47 * +EC1.1.1.22 nad+ pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.006 * +EC1.1.1.22 nad+ saccharum spp.//*//* 0.0722 * +EC1.1.1.22 nad+ sphingomonas elodea//*//* 0.4 * +EC1.1.1.22 nad+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.06 * +EC1.1.1.22 nad+ xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.3 * +EC1.1.1.22 udp-alpha-d-glucose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.23 * +EC1.1.1.22 udp-alpha-d-glucose capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.021 * +EC1.1.1.22 udp-alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.1.1.22 udp-alpha-d-glucose phoma herbarum//*//* 0.0958 * +EC1.1.1.22 udp-alpha-d-glucose pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.32 * +EC1.1.1.22 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.123 * +EC1.1.1.22 udp-glucose burkholderia cenocepacia j2315//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcj 0.02 * +EC1.1.1.22 udp-glucose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.2 * +EC1.1.1.22 udp-glucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.022 * +EC1.1.1.22 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC1.1.1.22 udp-glucose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.12 * +EC1.1.1.22 udp-glucose saccharum spp.//*//* 0.0187 * +EC1.1.1.22 udp-glucose sphingomonas elodea//*//* 0.87 * +EC1.1.1.22 udp-glucose streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.02 * +EC1.1.1.22 udp-glucose xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.9 * +EC1.1.1.22 udp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.38 * +EC1.1.1.22 udp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.1.1.22 udpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.22 udpglucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC1.1.1.22 udpglucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC1.1.1.22 udpglucose lilium longiflorum//*//* 0.3 * +EC1.1.1.22 udpglucose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 5.5 * +EC1.1.1.22 udpglucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC1.1.1.22 udpglucose streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.02 * +EC1.1.1.220 4-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.1.1.220 6-pyruvoyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.1.1.222 d-phenyllactate candida maltosa//*//* 0.083 * +EC1.1.1.222 indolelactate candida maltosa//*//* 0.094 * +EC1.1.1.222 indolepyruvate candida maltosa//*//* 0.067 * +EC1.1.1.222 nad+ candida maltosa//*//* 0.093 * +EC1.1.1.222 nadh candida maltosa//*//* 0.0077 * +EC1.1.1.222 nadp+ candida maltosa//*//* 0.021 * +EC1.1.1.222 nadph candida maltosa//*//* 0.0086 * +EC1.1.1.222 p-hydroxyphenyllactate candida maltosa//*//* 0.076 * +EC1.1.1.222 p-hydroxyphenylpyruvate candida maltosa//*//* 0.044 * +EC1.1.1.223 (+)-cis-isoperitenol mentha x piperita//*//* 0.08 * +EC1.1.1.223 (+)-trans-isoperitenol mentha x piperita//*//* 0.02 * +EC1.1.1.223 (-)-cis-isoperitenol mentha x piperita//*//* 0.08 * +EC1.1.1.223 (-)-trans-isoperitenol mentha x piperita//*//* 0.02 * +EC1.1.1.223 nad+ mentha x piperita//*//* 0.017 * +EC1.1.1.223 nadp+ mentha x piperita//*//* 2.5 * +EC1.1.1.224 d-mannitol 1-phosphate apium graveolens//*//* 45.0 * +EC1.1.1.224 d-mannose 6-phosphate apium graveolens//*//* 13.6 * +EC1.1.1.224 d-mannose 6-phosphate phelipanche ramosa//*//* 8.6 * +EC1.1.1.224 d-mannose 6-phosphate striga hermonthica//*//* 5.9 * +EC1.1.1.224 nadph apium graveolens//*//* 0.0021 * +EC1.1.1.224 nadph phelipanche ramosa//*//* 0.0698 * +EC1.1.1.224 nadph striga hermonthica//*//* 0.0102 * +EC1.1.1.225 chlordecone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.225 chlordecone meriones unguiculatus//*//* 0.0026 * +EC1.1.1.225 nadph meriones unguiculatus//*//* 0.005 * +EC1.1.1.226 4-oxocyclohexanecarboxylate corynebacterium cyclohexanicum//*//* 0.5 * +EC1.1.1.226 nad+ corynebacterium cyclohexanicum//*//* 0.23 * +EC1.1.1.226 nadh corynebacterium cyclohexanicum//*//* 0.28 * +EC1.1.1.226 trans-4-hydroxycyclohexanecarboxylate corynebacterium cyclohexanicum//*//* 0.51 * +EC1.1.1.229 diethyl 2-methyl-3-hydroxysuccinate torulaspora delbrueckii//eukaryotes;fungi;ascomycetes;saccharomycetes//tdl 111.0 * +EC1.1.1.229 diethyl 2-methyl-3-oxosuccinate torulaspora delbrueckii//eukaryotes;fungi;ascomycetes;saccharomycetes//tdl 1.25 * +EC1.1.1.23 l-histidinal salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0027 * +EC1.1.1.23 l-histidinol bacillus caldolyticus//*//* 0.048 * +EC1.1.1.23 l-histidinol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.048 * +EC1.1.1.23 l-histidinol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0027 * +EC1.1.1.23 l-histidinol brucella suis//prokaryotes;bacteria;alphaproteobacteria;brucella//bms 0.012 * +EC1.1.1.23 l-histidinol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.048 * +EC1.1.1.23 l-histidinol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.017 * +EC1.1.1.23 l-histidinol salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.014 * +EC1.1.1.23 l-histidinol sporosarcina psychrophila//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//spsy 0.048 * +EC1.1.1.23 nad+ bacillus caldolyticus//*//* 0.2 * +EC1.1.1.23 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.2 * +EC1.1.1.23 nad+ brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.042 * +EC1.1.1.23 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.57 * +EC1.1.1.23 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.2 * +EC1.1.1.23 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0027 * +EC1.1.1.23 nad+ paenarthrobacter histidinolovorans//*//* 0.08 * +EC1.1.1.23 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0072 * +EC1.1.1.23 nad+ sporosarcina psychrophila//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//spsy 0.2 * +EC1.1.1.230 3-ketoglycyrrhetic acid clostridium innocuum//*//* 0.001 * +EC1.1.1.230 3alpha-hydroxyglycyrrhetic acid clostridium innocuum//*//* 0.002 * +EC1.1.1.230 nadp+ clostridium innocuum//*//* 0.00027 * +EC1.1.1.230 nadph clostridium innocuum//*//* 0.024 * +EC1.1.1.231 4-nitrobenzaldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0667 * +EC1.1.1.231 menadione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC1.1.1.231 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00538 * +EC1.1.1.231 phenanthrene quinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC1.1.1.231 prostaglandin i2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.278 * +EC1.1.1.232 (15s)-15-hydroxy-5,8,11-cis-13-trans-eicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0083 * +EC1.1.1.232 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.06 * +EC1.1.1.233 n-acetyl-d-mannosamine flavobacterium sp.//*//* 1.0 * +EC1.1.1.233 n-glycolyl-d-mannosamine flavobacterium sp.//*//* 13.3 * +EC1.1.1.233 nad+ flavobacterium sp.//*//* 0.41 * +EC1.1.1.234 (2s)-naringenin sinningia cardinalis//*//* 0.021 * +EC1.1.1.235 8-ketocoformycin streptomyces antibioticus//*//* 0.15 * +EC1.1.1.235 8-ketodeoxycoformycin streptomyces antibioticus//*//* 0.25 * +EC1.1.1.236 3-methyl-cyclohexanone hyoscyamus niger//*//* 7.58 * +EC1.1.1.236 3-methylcyclohexanone hyoscyamus niger//*//* 7.58 * +EC1.1.1.236 4-ethyl-cyclohexanone hyoscyamus niger//*//* 0.534 * +EC1.1.1.236 4-ethylcyclohexanone hyoscyamus niger//*//* 0.534 * +EC1.1.1.236 4-methyl-cyclohexanone datura stramonium//*//* 2.8 * +EC1.1.1.236 4-methyl-cyclohexanone hyoscyamus niger//*//* 2.03 * +EC1.1.1.236 4-methylcyclohexanone datura stramonium//*//* 2.8 * +EC1.1.1.236 4-methylcyclohexanone hyoscyamus niger//*//* 2.03 * +EC1.1.1.236 4-piperidone hyoscyamus niger//*//* 21.6 * +EC1.1.1.236 4-tetrahydro-thiopyranone atropa belladonna//*//* 0.38 * +EC1.1.1.236 4-tetrahydro-thiopyranone datura stramonium//*//* 2.0 * +EC1.1.1.236 n-(2-fluoroethyl)nortropinone datura stramonium//*//* 0.67 * +EC1.1.1.236 n-ethylnortropinone datura stramonium//*//* 0.25 * +EC1.1.1.236 n-methyl-4-piperidinone atropa belladonna//*//* 0.65 * +EC1.1.1.236 n-methyl-4-piperidinone datura stramonium//*//* 20.0 * +EC1.1.1.236 n-methyl-4-piperidinone hyoscyamus niger//*//* 0.77 * +EC1.1.1.236 n-methyl-4-piperidone hyoscyamus niger//*//* 0.057 * +EC1.1.1.236 n-methylpiperid-4-one datura stramonium//*//* 1.4 * +EC1.1.1.236 n-propyl-4-piperidinone hyoscyamus niger//*//* 0.265 * +EC1.1.1.236 n-propylyl-4-piperidone hyoscyamus niger//*//* 0.265 * +EC1.1.1.236 nadh hyoscyamus niger//*//* 0.0076 * +EC1.1.1.236 nadp+ hyoscyamus niger//*//* 0.251 * +EC1.1.1.236 nadph atropa belladonna//*//* 0.0021 * +EC1.1.1.236 nadph datura stramonium//*//* 0.016 * +EC1.1.1.236 nadph hyoscyamus niger//*//* 0.0061 * +EC1.1.1.236 nadph solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.002 * +EC1.1.1.236 nortropinone solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.025 * +EC1.1.1.236 tropinone atropa belladonna//*//* 0.09 * +EC1.1.1.236 tropinone brugmansia x candida//*//* 0.16 * +EC1.1.1.236 tropinone datura stramonium//*//* 0.033 * +EC1.1.1.236 tropinone hyoscyamus niger//*//* 0.034 * +EC1.1.1.236 tropinone solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.033 * +EC1.1.1.237 3,4-dihydroxyphenylpyruvate solenostemon scutellarioides//*//* 130.0 * +EC1.1.1.237 3-methoxy-4-hydroxyphenylpyruvate solenostemon scutellarioides//*//* 250.0 * +EC1.1.1.237 4-hydroxyphenylpyruvate solenostemon scutellarioides//*//* 10.0 * +EC1.1.1.237 glyoxylate wickerhamia fluorescens//*//* 18.9 * +EC1.1.1.237 hydroxyphenylpyruvate wickerhamia fluorescens//*//* 0.64 * +EC1.1.1.237 hydroxypyruvate wickerhamia fluorescens//*//* 3.5 * +EC1.1.1.237 nadh solenostemon scutellarioides//*//* 190.0 * +EC1.1.1.237 nadh wickerhamia fluorescens//*//* 0.1 * +EC1.1.1.237 nadph solenostemon scutellarioides//*//* 95.0 * +EC1.1.1.237 nadph wickerhamia fluorescens//*//* 0.01 * +EC1.1.1.237 phenylpyruvate wickerhamia fluorescens//*//* 0.4 * +EC1.1.1.238 3,12-dioxo-5beta-cholanoate clostridium paraputrificum//*//* 0.0895 * +EC1.1.1.238 3,7,12-trioxo-5beta-cholanoate clostridium paraputrificum//*//* 0.171 * +EC1.1.1.238 3,7,12-trioxotaureate clostridium paraputrificum//*//* 0.142 * +EC1.1.1.238 3alpha,7alpha-dihydroxy-12-oxo-5beta-cholanoate clostridium paraputrificum//*//* 0.274 * +EC1.1.1.238 3alpha-hydroxy-12-oxo-5beta-cholanoate clostridium paraputrificum//*//* 0.141 * +EC1.1.1.238 3alpha-hydroxy-7,12-dioxo-5beta-cholanoate clostridium paraputrificum//*//* 0.144 * +EC1.1.1.238 7,12-dioxo-5beta-cholanoate clostridium paraputrificum//*//* 0.0837 * +EC1.1.1.238 7alpha-hydroxy-3,12-dioxo-5beta-cholanoate clostridium paraputrificum//*//* 0.138 * +EC1.1.1.238 nadph clostridium paraputrificum//*//* 0.0854 * +EC1.1.1.239 (s)-1,2,3,4-tetrahydro-1-naphthol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.004 * +EC1.1.1.239 (s)-1-indanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.014 * +EC1.1.1.239 (s)-camphorquinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0019 * +EC1.1.1.239 1-phenyl-1,2-propanedione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0008 * +EC1.1.1.239 16-oxoestrone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0021 * +EC1.1.1.239 17beta-estradiol alcaligenes sp.//*//* 0.0064 * +EC1.1.1.239 17beta-estradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0021 * +EC1.1.1.239 17beta-estradiol streptomyces exfoliatus//*//* 0.021 * +EC1.1.1.239 2,3-butanedione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC1.1.1.239 2-cyclohexen-1-ol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC1.1.1.239 4-oxo-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC1.1.1.239 4-pregnen-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0057 * +EC1.1.1.239 5alpha-androstan-17beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00067 * +EC1.1.1.239 5alpha-androstan-3alpha,17beta-diol mesocricetus auratus//*//* 0.0031 * +EC1.1.1.239 5alpha-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0022 * +EC1.1.1.239 5alpha-androstane-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC1.1.1.239 5alpha-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00067 * +EC1.1.1.239 5beta-androstan-17beta-ol-3-one mesocricetus auratus//*//* 0.0049 * +EC1.1.1.239 5beta-androstan-17beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00067 * +EC1.1.1.239 5beta-androstan-3,17-dione mesocricetus auratus//*//* 0.0066 * +EC1.1.1.239 5beta-androstan-3alpha,17beta-diol mesocricetus auratus//*//* 0.0048 * +EC1.1.1.239 5beta-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0015 * +EC1.1.1.239 5beta-androstane-3alpha,17beta-diol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0022 * +EC1.1.1.239 5beta-pregnan-3,20-dione mesocricetus auratus//*//* 0.0038 * +EC1.1.1.239 5beta-pregnan-3alpha,17beta-diol-20-one mesocricetus auratus//*//* 0.0062 * +EC1.1.1.239 5beta-pregnan-3alpha-ol-20-one mesocricetus auratus//*//* 0.0046 * +EC1.1.1.239 5beta-pregnan-3alpha-ol-20-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0036 * +EC1.1.1.239 6-tert-butyl-2,3-epoxy-4-hydroxy-5-cyclohexen-1-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0021 * +EC1.1.1.239 9,10-phenanthrenequinone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0001 * +EC1.1.1.239 alpha-tetralone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0038 * +EC1.1.1.239 androst-4-ene-3,17-dione alcaligenes sp.//*//* 0.0016 * +EC1.1.1.239 androstendione ilyonectria destructans//*//* 0.024 * +EC1.1.1.239 benzene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC1.1.1.239 beta-ionol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0006 * +EC1.1.1.239 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.1.1.239 farnesol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00074 * +EC1.1.1.239 geraniol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0042 * +EC1.1.1.239 geranylgeraniol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0007 * +EC1.1.1.239 glycochenodeoxycholic acid mesocricetus auratus//*//* 0.0075 * +EC1.1.1.239 glycolithocholic acid mesocricetus auratus//*//* 0.003 * +EC1.1.1.239 isatin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC1.1.1.239 lithocholic acid mesocricetus auratus//*//* 0.0005 * +EC1.1.1.239 lithocholic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC1.1.1.239 morphine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.52 * +EC1.1.1.239 nad+ alcaligenes sp.//*//* 0.027 * +EC1.1.1.239 nad+ cavia porcellus//*//* 0.1 * +EC1.1.1.239 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.1.1.239 nad+ ilyonectria destructans//*//* 0.0068 * +EC1.1.1.239 nad+ mesocricetus auratus//*//* 0.013 * +EC1.1.1.239 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0096 * +EC1.1.1.239 nad+ phascolarctos cinereus//*//* 0.0181 * +EC1.1.1.239 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0181 * +EC1.1.1.239 nad+ streptomyces exfoliatus//*//* 0.125 * +EC1.1.1.239 nadh mesocricetus auratus//*//* 0.013 * +EC1.1.1.239 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0026 * +EC1.1.1.239 nadp+ mesocricetus auratus//*//* 1.38 * +EC1.1.1.239 naphthalene dihydrodiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC1.1.1.239 pyridine-3-aldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC1.1.1.239 testosterone alcaligenes sp.//*//* 0.0036 * +EC1.1.1.239 testosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.033 * +EC1.1.1.239 testosterone cavia porcellus//*//* 0.0022 * +EC1.1.1.239 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.1.1.239 testosterone ilyonectria destructans//*//* 0.0095 * +EC1.1.1.239 testosterone mesocricetus auratus//*//* 0.0022 * +EC1.1.1.239 testosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00167 * +EC1.1.1.239 testosterone phascolarctos cinereus//*//* 0.0174 * +EC1.1.1.239 testosterone streptomyces exfoliatus//*//* 0.013 * +EC1.1.1.24 3-dehydroquinate vigna radiata var. radiata//*//* 0.047 * +EC1.1.1.24 dehydroquinate pinus taeda//*//* 1.0 * +EC1.1.1.24 l-quinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.6 * +EC1.1.1.24 nad+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.031 * +EC1.1.1.24 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.13 * +EC1.1.1.24 nad+ vigna radiata var. radiata//*//* 0.05 * +EC1.1.1.24 nadh vigna radiata var. radiata//*//* 0.009 * +EC1.1.1.24 nadp+ pinus taeda//*//* 0.007 * +EC1.1.1.24 nadp+ vigna radiata var. radiata//*//* 0.7 * +EC1.1.1.24 nadph pinus taeda//*//* 0.005 * +EC1.1.1.24 nadph vigna radiata var. radiata//*//* 0.12 * +EC1.1.1.24 quinate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.32 * +EC1.1.1.24 quinate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.32 * +EC1.1.1.24 quinate pinus taeda//*//* 3.6 * +EC1.1.1.24 quinate vigna radiata var. radiata//*//* 0.37 * +EC1.1.1.24 quinic acid actinidia deliciosa//*//* 0.3 * +EC1.1.1.24 shikimate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 11.5 * +EC1.1.1.24 shikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 10.2 * +EC1.1.1.24 shikimate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.18 * +EC1.1.1.240 n-acetyl-d-galactosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.8 * +EC1.1.1.240 n-acetyl-d-glucosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.3 * +EC1.1.1.240 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.24 * +EC1.1.1.243 (4r,6r)-carveol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.35 * +EC1.1.1.243 (4r,6s)-carveol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.041 * +EC1.1.1.243 (4s,6r)-carveol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 2.0 * +EC1.1.1.243 (4s,6s)-carveol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.39 * +EC1.1.1.244 formaldehyde bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 1.0 * +EC1.1.1.244 nad+ bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 0.02 * +EC1.1.1.247 codeine papaver somniferum//*//* 0.076 * +EC1.1.1.247 codeinone papaver somniferum//*//* 0.009 * +EC1.1.1.247 dihydrocodeine papaver somniferum//*//* 0.422 * +EC1.1.1.247 hydrocodone papaver somniferum//*//* 0.026 * +EC1.1.1.247 hydromorphone papaver somniferum//*//* 0.042 * +EC1.1.1.247 morphine papaver somniferum//*//* 0.063 * +EC1.1.1.247 nadp+ papaver somniferum//*//* 0.029 * +EC1.1.1.247 nadph papaver somniferum//*//* 0.081 * +EC1.1.1.248 nadp+ papaver somniferum//*//* 0.055 * +EC1.1.1.248 nadph papaver somniferum//*//* 0.0035 * +EC1.1.1.248 salutaridine papaver somniferum//*//* 0.0021 * +EC1.1.1.248 salutaridinol papaver somniferum//*//* 0.018 * +EC1.1.1.25 3-dehydroquinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.00036 * +EC1.1.1.25 3-dehydroshikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.2 * +EC1.1.1.25 3-dehydroshikimate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.029 * +EC1.1.1.25 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 11.4 * +EC1.1.1.25 nad+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.43 * +EC1.1.1.25 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.572 * +EC1.1.1.25 nad+ staphylococcus epidermidis rp62a//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ser 10.6 * +EC1.1.1.25 nadp+ aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0424 * +EC1.1.1.25 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.131 * +EC1.1.1.25 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.19 * +EC1.1.1.25 nadp+ aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0135 * +EC1.1.1.25 nadp+ camellia sinensis//*//* 0.032 * +EC1.1.1.25 nadp+ capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.017 * +EC1.1.1.25 nadp+ cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.01 * +EC1.1.1.25 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC1.1.1.25 nadp+ helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.182 * +EC1.1.1.25 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.022 * +EC1.1.1.25 nadp+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.031 * +EC1.1.1.25 nadp+ pisum sativum//*//* 0.007 * +EC1.1.1.25 nadp+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.112 * +EC1.1.1.25 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0073 * +EC1.1.1.25 nadp+ solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.01 * +EC1.1.1.25 nadp+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.04255 * +EC1.1.1.25 nadp+ staphylococcus epidermidis rp62a//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ser 0.1 * +EC1.1.1.25 nadp+ staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.1 * +EC1.1.1.25 nadp+ toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0091 * +EC1.1.1.25 nadp+ vigna mungo//*//* 0.025 * +EC1.1.1.25 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.011 * +EC1.1.1.25 quinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 10.2 * +EC1.1.1.25 quinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.783 * +EC1.1.1.25 shikimate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0424 * +EC1.1.1.25 shikimate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.685 * +EC1.1.1.25 shikimate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.17 * +EC1.1.1.25 shikimate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.311 * +EC1.1.1.25 shikimate camellia sinensis//*//* 0.43 * +EC1.1.1.25 shikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.14 * +EC1.1.1.25 shikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC1.1.1.25 shikimate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.148 * +EC1.1.1.25 shikimate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.03 * +EC1.1.1.25 shikimate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.13 * +EC1.1.1.25 shikimate pisum sativum//*//* 0.19 * +EC1.1.1.25 shikimate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0786 * +EC1.1.1.25 shikimate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0046 * +EC1.1.1.25 shikimate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.038 * +EC1.1.1.25 shikimate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.03746 * +EC1.1.1.25 shikimate staphylococcus epidermidis rp62a//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ser 0.073 * +EC1.1.1.25 shikimate staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.073 * +EC1.1.1.25 shikimate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0527 * +EC1.1.1.25 shikimate vigna mungo//*//* 0.22 * +EC1.1.1.25 shikimic acid capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.087 * +EC1.1.1.25 shikimic acid cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.05 * +EC1.1.1.250 d-arabinitol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 39.8 * +EC1.1.1.250 nad+ candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.12 * +EC1.1.1.252 1,3,6,8-tetrahydroxynaphthalene magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.079 * +EC1.1.1.252 2,3-dihydro-2,5-dihydroxy-4h-benzopyran-4-one curvularia lunata//*//* 0.033 * +EC1.1.1.252 2,3-dihydro-2,5-dihydroxy-4h-benzopyran-4-one magnaporthe grisea//*//* 0.005 * +EC1.1.1.252 nad+ magnaporthe grisea//*//* 3.0 * +EC1.1.1.252 nadp+ magnaporthe grisea//*//* 0.025 * +EC1.1.1.252 nadph magnaporthe grisea//*//* 0.021 * +EC1.1.1.252 nadph magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.0087 * +EC1.1.1.252 phenanthrenequinone magnaporthe grisea//*//* 0.003 * +EC1.1.1.252 scytalone magnaporthe grisea//*//* 0.006 * +EC1.1.1.252 scytalone magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.22 * +EC1.1.1.254 (s)-carnitine agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 5.5 * +EC1.1.1.254 3-dehydrocarnitine agrobacterium sp. 525a//*//* 0.8 * +EC1.1.1.254 3-dehydrocarnitine agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 1.2 * +EC1.1.1.254 d-carnitine agrobacterium sp. 525a//*//* 3.1 * +EC1.1.1.254 d-carnitine agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 5.5 * +EC1.1.1.254 nad+ agrobacterium sp. 525a//*//* 0.07 * +EC1.1.1.254 nad+ agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.15 * +EC1.1.1.254 nadh agrobacterium sp. 525a//*//* 0.06 * +EC1.1.1.254 nadh agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.047 * +EC1.1.1.255 d-mannitol apium graveolens//*//* 64.0 * +EC1.1.1.255 d-mannose apium graveolens//*//* 745.0 * +EC1.1.1.255 nad+ apium graveolens//*//* 0.14 * +EC1.1.1.255 nadh apium graveolens//*//* 0.00127 * +EC1.1.1.26 2-oxobutyrate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 40.0 * +EC1.1.1.26 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC1.1.1.26 glyoxylate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 2.5 * +EC1.1.1.26 glyoxylate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.07 * +EC1.1.1.26 glyoxylate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.73 * +EC1.1.1.26 hydroxypyruvate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 6.8 * +EC1.1.1.26 hydroxypyruvate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.07 * +EC1.1.1.26 hydroxypyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.3 * +EC1.1.1.26 nadh thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.067 * +EC1.1.1.26 phenylpyruvate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.8 * +EC1.1.1.261 dihydroxyacetone phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.05 * +EC1.1.1.261 dihydroxyacetone phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.11 * +EC1.1.1.261 dihydroxyacetone phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.58 * +EC1.1.1.261 dihydroxyacetone phosphate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.31 * +EC1.1.1.261 dihydroxyacetone phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.47 * +EC1.1.1.261 glycerol-1-phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 4.8 * +EC1.1.1.261 nad+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.57 * +EC1.1.1.261 nad+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.127 * +EC1.1.1.261 nadh aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.032 * +EC1.1.1.261 nadh methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.141 * +EC1.1.1.261 nadh methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.129 * +EC1.1.1.261 nadh pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.077 * +EC1.1.1.261 nadp+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.27 * +EC1.1.1.261 nadph aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.044 * +EC1.1.1.261 nadph methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0432 * +EC1.1.1.261 nadph methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.025 * +EC1.1.1.261 nadph pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.031 * +EC1.1.1.261 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.067 * +EC1.1.1.261 sn-glycerol-1-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 8.92 * +EC1.1.1.263 1,5-anhydro-d-fructose ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 8.4 * +EC1.1.1.263 1,5-anhydro-d-fructose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.44 * +EC1.1.1.263 d-glucosone ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 11.0 * +EC1.1.1.263 nadph ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 0.1 * +EC1.1.1.264 5-keto-d-gluconate fusarium sp.//*//* 1.1 * +EC1.1.1.264 5-keto-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.9 * +EC1.1.1.264 d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 20.0 * +EC1.1.1.264 l-idonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.264 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.02 * +EC1.1.1.264 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.006 * +EC1.1.1.265 2-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.85 * +EC1.1.1.265 3-methylbutanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC1.1.1.265 acetaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 158.0 * +EC1.1.1.265 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.76 * +EC1.1.1.265 heptanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.27 * +EC1.1.1.265 hexanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC1.1.1.265 hexanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.22 * +EC1.1.1.265 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC1.1.1.265 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC1.1.1.265 pentanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC1.1.1.265 propanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 27.0 * +EC1.1.1.265 trans-2-hexenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.69 * +EC1.1.1.266 dtdp-4-keto-6-deoxy-d-glucose aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 0.097 * +EC1.1.1.266 nadph aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 0.029 * +EC1.1.1.267 (3r,4s)-dihydroxy-5-oxohexylphosphonic acid synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.69 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.1037 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.137 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.04 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.222 * +EC1.1.1.267 1-deoxy-d-xylulose 5-phosphate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.3 * +EC1.1.1.267 1-deoxy-d-xylulose-5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC1.1.1.267 1-deoxy-d-xylulose-5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC1.1.1.267 1-deoxy-d-xylulose-5-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.063 * +EC1.1.1.267 1-fluoro-1-deoxy-d-xylulose-5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.1.1.267 3-[2h]-d-1-deoxyxylulose-5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00537 * +EC1.1.1.267 4-[2h]-d-1-deoxyxylulose-5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00423 * +EC1.1.1.267 methyl-d-erythritol-4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.158 * +EC1.1.1.267 methyl-d-erythritol-4-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.042 * +EC1.1.1.267 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.05 * +EC1.1.1.267 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.17 * +EC1.1.1.267 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC1.1.1.267 nadph francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.0133 * +EC1.1.1.267 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0004 * +EC1.1.1.267 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.001 * +EC1.1.1.267 nadph thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0028 * +EC1.1.1.267 nadph yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.0127 * +EC1.1.1.268 (r)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 220.0 * +EC1.1.1.268 (r)-2-heptanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.64 * +EC1.1.1.268 (r)-2-hexanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 4.6 * +EC1.1.1.268 (r)-2-octanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.08 * +EC1.1.1.268 (r)-2-pentanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 20.0 * +EC1.1.1.268 (s)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 315.0 * +EC1.1.1.268 (s)-2-pentanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 153.0 * +EC1.1.1.268 2-(2-hydroxyethylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.96 * +EC1.1.1.268 2-(2-ketopropylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.092 * +EC1.1.1.268 2-(r)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.096 * +EC1.1.1.268 2-(s)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.22 * +EC1.1.1.268 2-[(r)-2-hydroxypropylthio]ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.102 * +EC1.1.1.268 2-[(s)-2-hydroxypropylthio]ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.1 * +EC1.1.1.268 2-butanone xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 52.0 * +EC1.1.1.268 2-oxopropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.068 * +EC1.1.1.268 2-propanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1726.0 * +EC1.1.1.269 (r)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 68.0 * +EC1.1.1.269 (s)-2-butanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 28.0 * +EC1.1.1.269 2-(2-hydroxyethylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.97 * +EC1.1.1.269 2-(r)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.096 * +EC1.1.1.269 2-(s)-hydroxypropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.031 * +EC1.1.1.269 2-butanone xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 120.0 * +EC1.1.1.269 2-oxopropyl-com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.068 * +EC1.1.1.269 2-propanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1400.0 * +EC1.1.1.270 17beta-hydroxy-5alpha-androstan-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC1.1.1.270 24-methylenecycloartanone zea mays//eukaryotes;plants;monocots;grass family//zma 0.085 * +EC1.1.1.270 24-methylenelophenone zea mays//eukaryotes;plants;monocots;grass family//zma 0.162 * +EC1.1.1.270 4alpha-methyl-5alpha-cholest-7-en-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC1.1.1.270 5beta-dihydrotestosterone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0035 * +EC1.1.1.270 5beta-pregnane-21-ol-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0024 * +EC1.1.1.270 cholestanone zea mays//eukaryotes;plants;monocots;grass family//zma 0.22 * +EC1.1.1.270 cycloartenone zea mays//eukaryotes;plants;monocots;grass family//zma 0.067 * +EC1.1.1.270 cycloeucalenone zea mays//eukaryotes;plants;monocots;grass family//zma 0.22 * +EC1.1.1.270 cyclolaudenone zea mays//eukaryotes;plants;monocots;grass family//zma 0.1 * +EC1.1.1.270 delta7-cholestenone zea mays//eukaryotes;plants;monocots;grass family//zma 0.42 * +EC1.1.1.270 delta7-chondrillastenone zea mays//eukaryotes;plants;monocots;grass family//zma 0.245 * +EC1.1.1.270 methylglyoxal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.222 * +EC1.1.1.270 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.1.1.270 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00012 * +EC1.1.1.270 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.003 * +EC1.1.1.270 obtusifolione zea mays//eukaryotes;plants;monocots;grass family//zma 0.26 * +EC1.1.1.271 gdp-4-keto-6-deoxy-d-mannose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.064 * +EC1.1.1.271 gdp-4-keto-6-deoxy-d-mannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC1.1.1.271 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.109 * +EC1.1.1.271 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.023 * +EC1.1.1.271 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC1.1.1.273 geissoschizal rauvolfia serpentina//*//* 0.11 * +EC1.1.1.273 nadph rauvolfia serpentina//*//* 0.02 * +EC1.1.1.273 vellosimine rauvolfia serpentina//*//* 0.0167 * +EC1.1.1.274 2,5-didehydro-d-gluconate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.0312 * +EC1.1.1.274 5-keto-d-fructose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 155.0 * +EC1.1.1.274 dihydroxyacetone corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 160.0 * +EC1.1.1.274 ethyl 2-methylacetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC1.1.1.274 ethyl-2-methylacetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC1.1.1.274 glycerol corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 2.2 * +EC1.1.1.274 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.05 * +EC1.1.1.274 nadh corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 1.4 * +EC1.1.1.274 nadph corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.01 * +EC1.1.1.276 d-glycerate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 56.0 * +EC1.1.1.276 d-serine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 44.0 * +EC1.1.1.276 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC1.1.1.276 l-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC1.1.1.276 l-glycerate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 54.0 * +EC1.1.1.276 l-serine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 42.0 * +EC1.1.1.276 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC1.1.1.276 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 95.0 * +EC1.1.1.276 nadp+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.029 * +EC1.1.1.276 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.54 * +EC1.1.1.276 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC1.1.1.277 5beta-pregnane-3,20-dione digitalis purpurea//*//* 0.0171 * +EC1.1.1.277 nadh digitalis purpurea//*//* 0.00139 * +EC1.1.1.277 nadph digitalis purpurea//*//* 0.3 * +EC1.1.1.278 5alpha-pregnan-3,20-dione digitalis lanata//*//* 0.0185 * +EC1.1.1.278 nadph digitalis lanata//*//* 0.05 * +EC1.1.1.279 ethyl 3-oxobutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.0 * +EC1.1.1.279 ethyl 3-oxohexanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC1.1.1.28 (r)-lactate haliotis cracherodii//*//* 1.9 * +EC1.1.1.28 (r)-lactate helix aspersa//*//* 3.2 * +EC1.1.1.28 (r)-lactate lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 1250.0 * +EC1.1.1.28 (r)-lactate lactobacillus delbrueckii subsp. lactis//*//* 20.0 * +EC1.1.1.28 (r)-lactate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 20.0 * +EC1.1.1.28 (r)-lactate lactobacillus jensenii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lje 70.0 * +EC1.1.1.28 (r)-lactate lactobacillus leichmannii//*//* 70.0 * +EC1.1.1.28 (r)-lactate leuconostoc mesenteroides subsp. cremoris//*//* 19.0 * +EC1.1.1.28 (r)-lactate limulus polyphemus//*//* 3.8 * +EC1.1.1.28 (r)-lactate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.59 * +EC1.1.1.28 (r)-lactate staphylococcus sp.//*//* 8.5 * +EC1.1.1.28 2-ketobutyrate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 8.1 * +EC1.1.1.28 2-ketocaproate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 13.3 * +EC1.1.1.28 2-ketoglutarate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 15.5 * +EC1.1.1.28 2-ketoisocaproate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 31.0 * +EC1.1.1.28 2-ketoisovalerate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 5.5 * +EC1.1.1.28 2-ketovalerate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 17.0 * +EC1.1.1.28 2-oxobutyrate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 8.1 * +EC1.1.1.28 2-oxobutyrate staphylococcus sp.//*//* 2.3 * +EC1.1.1.28 alpha-ketobutyrate haliotis cracherodii//*//* 4.4 * +EC1.1.1.28 alpha-ketobutyrate helix aspersa//*//* 10.0 * +EC1.1.1.28 bromopyruvate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 10.0 * +EC1.1.1.28 d-lactate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.8 * +EC1.1.1.28 dl-2-hydroxybutyrate staphylococcus sp.//*//* 19.0 * +EC1.1.1.28 glyoxylate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 100.0 * +EC1.1.1.28 glyoxylate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 5.4 * +EC1.1.1.28 hydroxypyruvate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.28 * +EC1.1.1.28 nad+ haliotis cracherodii//*//* 0.1 * +EC1.1.1.28 nad+ helix aspersa//*//* 0.02 * +EC1.1.1.28 nad+ lactobacillus jensenii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lje 0.41 * +EC1.1.1.28 nad+ leuconostoc lactis//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//llf 2.9 * +EC1.1.1.28 nad+ leuconostoc mesenteroides subsp. cremoris//*//* 0.16 * +EC1.1.1.28 nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 2.2 * +EC1.1.1.28 nad+ limulus polyphemus//*//* 0.00044 * +EC1.1.1.28 nad+ pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 1.05 * +EC1.1.1.28 nadh enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.019 * +EC1.1.1.28 nadh haliotis cracherodii//*//* 0.02 * +EC1.1.1.28 nadh helix aspersa//*//* 0.01 * +EC1.1.1.28 nadh lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.16 * +EC1.1.1.28 nadh lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.001 * +EC1.1.1.28 nadh lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.05 * +EC1.1.1.28 nadh lactobacillus jensenii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lje 0.04 * +EC1.1.1.28 nadh lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.071 * +EC1.1.1.28 nadh leuconostoc mesenteroides subsp. cremoris//*//* 0.03 * +EC1.1.1.28 nadh limulus polyphemus//*//* 0.00021 * +EC1.1.1.28 nadph enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0035 * +EC1.1.1.28 oxaloacetate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 7.0 * +EC1.1.1.28 oxaloacetate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 2.2 * +EC1.1.1.28 phenylpyruvate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.8 * +EC1.1.1.28 phenylpyruvate pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 0.49 * +EC1.1.1.28 pyruvate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.5 * +EC1.1.1.28 pyruvate haliotis cracherodii//*//* 0.16 * +EC1.1.1.28 pyruvate helix aspersa//*//* 0.33 * +EC1.1.1.28 pyruvate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 1.0 * +EC1.1.1.28 pyruvate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.12 * +EC1.1.1.28 pyruvate leuconostoc mesenteroides subsp. cremoris//*//* 0.3 * +EC1.1.1.28 pyruvate limulus polyphemus//*//* 0.07 * +EC1.1.1.28 pyruvate staphylococcus sp.//*//* 0.67 * +EC1.1.1.280 2-methyl-3-oxobutanoate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 5.6 * +EC1.1.1.280 4-oxopentanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.1 * +EC1.1.1.280 5-oxohexanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.1 * +EC1.1.1.280 benzyl 2-methyl-3-oxobutanoate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 12.5 * +EC1.1.1.280 ethyl 3-oxobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.9 * +EC1.1.1.280 ethyl 3-oxohexanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.3 * +EC1.1.1.282 3-acetylpyridine adenine dinucleotide rhodococcus rhodochrous//*//* 0.65 * +EC1.1.1.282 3-dehydroshikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.2 * +EC1.1.1.282 beta-nad+ rhodococcus rhodochrous//*//* 0.15 * +EC1.1.1.282 dehydroquinate pinus taeda//*//* 1.0 * +EC1.1.1.282 dihydroshikimate rhodococcus rhodochrous//*//* 2.56 * +EC1.1.1.282 l-quinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.56 * +EC1.1.1.282 l-quinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0091 * +EC1.1.1.282 l-quinate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.37 * +EC1.1.1.282 l-quinate pinus taeda//*//* 3.4 * +EC1.1.1.282 l-quinate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.321 * +EC1.1.1.282 l-quinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.88 * +EC1.1.1.282 l-quinate rhodococcus rhodochrous//*//* 2.95 * +EC1.1.1.282 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.018 * +EC1.1.1.282 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0122 * +EC1.1.1.282 nad+ pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.572 * +EC1.1.1.282 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.43 * +EC1.1.1.282 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.1.1.282 nadp+ pinus taeda//*//* 0.001 * +EC1.1.1.282 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.65 * +EC1.1.1.282 nadph pinus taeda//*//* 0.005 * +EC1.1.1.282 nicotinamide 1,n6-ethanoadenine dinucleotide rhodococcus rhodochrous//*//* 0.51 * +EC1.1.1.282 nicotinamide hypoxanthine dinucleotide rhodococcus rhodochrous//*//* 0.48 * +EC1.1.1.282 quinate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.783 * +EC1.1.1.282 shikimate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.187 * +EC1.1.1.282 shikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0029 * +EC1.1.1.282 shikimate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.18 * +EC1.1.1.282 shikimate pinus taeda//*//* 0.7 * +EC1.1.1.282 shikimate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.392 * +EC1.1.1.282 shikimate pseudomonas putida kt2440//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.2 * +EC1.1.1.282 shikimate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.18 * +EC1.1.1.282 shikimate rhodococcus rhodochrous//*//* 5.25 * +EC1.1.1.282 t-3,t-4-dihydroxycyclohexane-c-1-carboxylate rhodococcus rhodochrous//*//* 2.47 * +EC1.1.1.283 2-nitrobenzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.31 * +EC1.1.1.283 3-nitrobenzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.91 * +EC1.1.1.283 4-nitrobenzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.85 * +EC1.1.1.283 benzaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.69 * +EC1.1.1.283 d-galactose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 160.0 * +EC1.1.1.283 d-glucose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 445.0 * +EC1.1.1.283 d-xylose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 104.0 * +EC1.1.1.283 dl-glyceraldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.56 * +EC1.1.1.283 glyoxal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 10.0 * +EC1.1.1.283 isopentaldehyde synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.33 * +EC1.1.1.283 l-arabinose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 234.0 * +EC1.1.1.283 methyl glyoxal kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.43 * +EC1.1.1.283 methylglyoxal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.7 * +EC1.1.1.283 methylglyoxal cyberlindnera mrakii//*//* 1.92 * +EC1.1.1.283 methylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.88 * +EC1.1.1.283 methylglyoxal synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.08 * +EC1.1.1.283 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0002 * +EC1.1.1.283 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0068 * +EC1.1.1.283 nadph cyberlindnera mrakii//*//* 0.0408 * +EC1.1.1.283 nadph kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.028 * +EC1.1.1.283 phenylglyoxal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.35 * +EC1.1.1.283 phenylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.54 * +EC1.1.1.284 12-hydroxydodecanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.7 * +EC1.1.1.284 12-hydroxydodecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC1.1.1.284 3-acetylpyridine-adenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0509 * +EC1.1.1.284 3-nitrotyrosine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0626 * +EC1.1.1.284 beta-nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC1.1.1.284 cinnamyl alcohol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5 * +EC1.1.1.284 farnesol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC1.1.1.284 formaldehyde candida boidinii//*//* 0.25 * +EC1.1.1.284 formaldehyde canis lupus familiaris//*//* 0.019 * +EC1.1.1.284 formaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC1.1.1.284 formaldehyde komagataella pastoris//*//* 0.31 * +EC1.1.1.284 formaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.39 * +EC1.1.1.284 formaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0071 * +EC1.1.1.284 formaldehyde schwanniomyces vanrijiae//*//* 1.14 * +EC1.1.1.284 formaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC1.1.1.284 geraniol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.8 * +EC1.1.1.284 glutathione monomethyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC1.1.1.284 glutathione candida boidinii//*//* 0.13 * +EC1.1.1.284 glutathione canis lupus familiaris//*//* 0.062 * +EC1.1.1.284 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.1.1.284 glutathione komagataella pastoris//*//* 0.48 * +EC1.1.1.284 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.1.1.284 glutathione zea mays//eukaryotes;plants;monocots;grass family//zma 0.037 * +EC1.1.1.284 methylglyoxal candida boidinii//*//* 1.2 * +EC1.1.1.284 metronidazole helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0224 * +EC1.1.1.284 nad+ branchiostoma floridae//eukaryotes;animals;lancelets//bfo 0.008 * +EC1.1.1.284 nad+ candida boidinii//*//* 0.025 * +EC1.1.1.284 nad+ canis lupus familiaris//*//* 0.031 * +EC1.1.1.284 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC1.1.1.284 nad+ komagataella pastoris//*//* 0.12 * +EC1.1.1.284 nad+ pisum sativum//*//* 0.0065 * +EC1.1.1.284 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.15 * +EC1.1.1.284 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.1.1.284 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.045 * +EC1.1.1.284 nad+ schwanniomyces vanrijiae//*//* 0.31 * +EC1.1.1.284 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.031 * +EC1.1.1.284 nadh branchiostoma floridae//eukaryotes;animals;lancelets//bfo 0.045 * +EC1.1.1.284 nadh brassica oleracea var. botrytis//*//* 0.054 * +EC1.1.1.284 nadh candida boidinii//*//* 0.025 * +EC1.1.1.284 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.1.1.284 nadh komagataella pastoris//*//* 0.25 * +EC1.1.1.284 nadh lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 0.064 * +EC1.1.1.284 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC1.1.1.284 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.1.1.284 nicotinamide-hypoxanthine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0352 * +EC1.1.1.284 nitrofurantoin helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0423 * +EC1.1.1.284 nitrofurazone helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0143 * +EC1.1.1.284 pyruvylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.1.1.284 reduced glutathione komagataella pastoris//*//* 0.16 * +EC1.1.1.284 s-(hydroxymethyl)glutathione brassica oleracea var. botrytis//*//* 0.066 * +EC1.1.1.284 s-(hydroxymethyl)glutathione lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 0.066 * +EC1.1.1.284 s-(hydroxymethyl)glutathione taiwanofungus camphoratus//*//* 1.2 * +EC1.1.1.284 s-formylglutathione candida boidinii//*//* 0.12 * +EC1.1.1.284 s-formylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC1.1.1.284 s-formylglutathione komagataella pastoris//*//* 0.6 * +EC1.1.1.284 s-hydroxymethyl glutathione drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.006 * +EC1.1.1.284 s-hydroxymethyl glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC1.1.1.284 s-hydroxymethyl glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.1.1.284 s-hydroxymethyl glutathione pisum sativum//*//* 0.002 * +EC1.1.1.284 s-hydroxymethyl glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00092 * +EC1.1.1.284 s-hydroxymethyl glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC1.1.1.284 s-hydroxymethylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.007 * +EC1.1.1.284 s-hydroxymethylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC1.1.1.284 s-hydroxymethylglutathione branchiostoma floridae//eukaryotes;animals;lancelets//bfo 0.004 * +EC1.1.1.284 s-hydroxymethylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00012 * +EC1.1.1.284 s-hydroxymethylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC1.1.1.284 s-nitrosocysteine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0072 * +EC1.1.1.284 s-nitrosoglutathione aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.55 * +EC1.1.1.284 s-nitrosoglutathione branchiostoma floridae//eukaryotes;animals;lancelets//bfo 0.056 * +EC1.1.1.284 s-nitrosoglutathione brassica oleracea var. botrytis//*//* 0.053 * +EC1.1.1.284 s-nitrosoglutathione helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0041 * +EC1.1.1.284 s-nitrosoglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC1.1.1.284 s-nitrosoglutathione lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 0.045 * +EC1.1.1.284 s-nitrosoglutathione staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1806 * +EC1.1.1.284 s-nitrosoglutathione taiwanofungus camphoratus//*//* 0.28 * +EC1.1.1.284 thio-nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0301 * +EC1.1.1.286 3-isopropylmalate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 1.33 * +EC1.1.1.286 homoisocitrate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.211 * +EC1.1.1.286 homoisocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0183 * +EC1.1.1.286 homoisocitrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.486 * +EC1.1.1.286 isocitrate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.291 * +EC1.1.1.286 isocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0164 * +EC1.1.1.286 isocitrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.405 * +EC1.1.1.286 nad+ deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.193 * +EC1.1.1.286 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0771 * +EC1.1.1.287 d-arabitinol uromyces viciae-fabae//*//* 834.0 * +EC1.1.1.287 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.5 * +EC1.1.1.287 d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 47.0 * +EC1.1.1.287 d-fructose uromyces viciae-fabae//*//* 160.0 * +EC1.1.1.287 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 18.5 * +EC1.1.1.287 d-mannitol uromyces viciae-fabae//*//* 425.0 * +EC1.1.1.287 d-ribitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 242.8 * +EC1.1.1.287 d-ribulose uromyces viciae-fabae//*//* 53.9 * +EC1.1.1.287 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 125.0 * +EC1.1.1.287 d-xylulose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 25.0 * +EC1.1.1.287 d-xylulose uromyces viciae-fabae//*//* 7.8 * +EC1.1.1.287 glycerol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 133.6 * +EC1.1.1.287 meso-erythritol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 266.0 * +EC1.1.1.287 nadp+ uromyces viciae-fabae//*//* 0.07 * +EC1.1.1.287 nadph uromyces viciae-fabae//*//* 0.16 * +EC1.1.1.287 xylitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 18.5 * +EC1.1.1.288 xanthoxin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0202 * +EC1.1.1.289 d-fructose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1873.0 * +EC1.1.1.289 d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 160.0 * +EC1.1.1.289 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 7.3 * +EC1.1.1.289 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 167.0 * +EC1.1.1.289 l-sorbose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 3953.0 * +EC1.1.1.289 l-sorbose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 35.0 * +EC1.1.1.289 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.032 * +EC1.1.1.29 glycerate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 2.6 * +EC1.1.1.29 glyoxylate hyphomicrobium methylovorum//*//* 10.8 * +EC1.1.1.29 glyoxylate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 1.5 * +EC1.1.1.29 hydroxypyruvate hyphomicrobium methylovorum//*//* 0.175 * +EC1.1.1.29 hydroxypyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.1 * +EC1.1.1.29 hydroxypyruvate petroselinum crispum//*//* 0.062 * +EC1.1.1.29 hydroxypyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.09 * +EC1.1.1.29 nadh hyphomicrobium methylovorum//*//* 0.055 * +EC1.1.1.29 nadh methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.04 * +EC1.1.1.29 nadh petroselinum crispum//*//* 0.0058 * +EC1.1.1.29 nadph methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.06 * +EC1.1.1.290 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.093 * +EC1.1.1.290 oxaloacetic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.086 * +EC1.1.1.290 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.128 * +EC1.1.1.291 2-hydroxymethylglutarate eubacterium barkeri//*//* 1.1 * +EC1.1.1.291 nad+ eubacterium barkeri//*//* 0.1 * +EC1.1.1.292 1,5-anhydro-d-fructose ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 8.4 * +EC1.1.1.292 d-glucosone ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 11.0 * +EC1.1.1.292 nadph ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 0.1 * +EC1.1.1.295 3beta-hydroxy-9beta-pimara-7,15-diene-19,6beta-olide oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.036 * +EC1.1.1.295 oryzalexin a oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.06 * +EC1.1.1.298 3-hydroxypropanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 16.8 * +EC1.1.1.298 malonate semialdehyde metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.07 * +EC1.1.1.298 nadph metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.07 * +EC1.1.1.299 l-malate flavobacterium frigidimaris//*//* 0.269 * +EC1.1.1.299 malate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.0 * +EC1.1.1.299 nad+ flavobacterium frigidimaris//*//* 0.028 * +EC1.1.1.299 nad+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.5 * +EC1.1.1.299 nadh methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.09 * +EC1.1.1.299 nadph methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.09 * +EC1.1.1.299 oxaloacetate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.09 * +EC1.1.1.3 aspartate 4-semialdehyde pisum sativum//*//* 0.04 * +EC1.1.1.3 dl-aspartate 4-semialdehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.1 * +EC1.1.1.3 l-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC1.1.1.3 l-aspartate 4-semialdehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.098 * +EC1.1.1.3 l-aspartate 4-semialdehyde hordeum vulgare//*//* 0.1 * +EC1.1.1.3 l-aspartate 4-semialdehyde pisum sativum//*//* 0.066 * +EC1.1.1.3 l-aspartate 4-semialdehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.5 * +EC1.1.1.3 l-aspartate 4-semialdehyde triticum aestivum//*//* 0.13 * +EC1.1.1.3 l-aspartate 4-semialdehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.13 * +EC1.1.1.3 l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC1.1.1.3 l-homoserine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.275 * +EC1.1.1.3 l-homoserine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.21 * +EC1.1.1.3 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.7 * +EC1.1.1.3 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.31 * +EC1.1.1.3 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.158 * +EC1.1.1.3 nadh pisum sativum//*//* 0.46 * +EC1.1.1.3 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.3 * +EC1.1.1.3 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC1.1.1.3 nadp+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.034 * +EC1.1.1.3 nadp+ thermophilic bacterium//*//* 0.17 * +EC1.1.1.3 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.17 * +EC1.1.1.3 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC1.1.1.3 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC1.1.1.3 nadph pisum sativum//*//* 0.027 * +EC1.1.1.3 nadph triticum aestivum//*//* 0.031 * +EC1.1.1.3 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.032 * +EC1.1.1.30 (r)-3-hydroxybutanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.59 * +EC1.1.1.30 (r)-3-hydroxybutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.71 * +EC1.1.1.30 (r)-3-hydroxybutanoate jaculus orientalis//*//* 1.6 * +EC1.1.1.30 (r)-3-hydroxybutanoate pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 1.2 * +EC1.1.1.30 (r)-3-hydroxybutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.6 * +EC1.1.1.30 (r)-3-hydroxybutanoate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.34 * +EC1.1.1.30 (r)-3-hydroxybutyrate acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.45 * +EC1.1.1.30 (r)-3-hydroxybutyrate camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 1.07 * +EC1.1.1.30 (r)-3-hydroxybutyrate jaculus orientalis//*//* 0.633 * +EC1.1.1.30 3-acetylpyridine adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.28 * +EC1.1.1.30 acetoacetate acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.24 * +EC1.1.1.30 acetoacetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.26 * +EC1.1.1.30 acetoacetate camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.29 * +EC1.1.1.30 acetoacetate jaculus orientalis//*//* 0.146 * +EC1.1.1.30 acetoacetate pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 0.37 * +EC1.1.1.30 acetoacetate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.25 * +EC1.1.1.30 acetoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.149 * +EC1.1.1.30 acetoacetate staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 0.00547 * +EC1.1.1.30 acetoacetate zoogloea ramigera i-16-m//*//* 0.15 * +EC1.1.1.30 beta-hydroxybutyrate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.3 * +EC1.1.1.30 beta-hydroxybutyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC1.1.1.30 beta-hydroxybutyrate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 7.4 * +EC1.1.1.30 beta-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.866 * +EC1.1.1.30 beta-hydroxybutyrate staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 0.0391 * +EC1.1.1.30 beta-hydroxybutyrate zoogloea ramigera i-16-m//*//* 0.32 * +EC1.1.1.30 d-3-hydroxybutyrate pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 0.8 * +EC1.1.1.30 d-3-hydroxybutyrate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.34 * +EC1.1.1.30 l-threonine pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 388.0 * +EC1.1.1.30 levulinic acid alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.78 * +EC1.1.1.30 nad+ acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.089 * +EC1.1.1.30 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.95 * +EC1.1.1.30 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.175 * +EC1.1.1.30 nad+ camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.21 * +EC1.1.1.30 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0598 * +EC1.1.1.30 nad+ jaculus orientalis//*//* 0.21 * +EC1.1.1.30 nad+ mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.66 * +EC1.1.1.30 nad+ pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 0.13 * +EC1.1.1.30 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.18 * +EC1.1.1.30 nad+ ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.064 * +EC1.1.1.30 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC1.1.1.30 nad+ staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 0.000445 * +EC1.1.1.30 nad+ zoogloea ramigera i-16-m//*//* 0.057 * +EC1.1.1.30 nadh acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.029 * +EC1.1.1.30 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC1.1.1.30 nadh camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.27 * +EC1.1.1.30 nadh jaculus orientalis//*//* 0.058 * +EC1.1.1.30 nadh pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 0.01 * +EC1.1.1.30 nadh ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.24 * +EC1.1.1.30 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.1.1.30 nadh staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 0.00102 * +EC1.1.1.30 nadh zoogloea ramigera i-16-m//*//* 0.015 * +EC1.1.1.30 nadp+ pseudomonas fragi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfz 7.4 * +EC1.1.1.300 11-cis-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC1.1.1.300 11-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.1.1.300 13-cis-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC1.1.1.300 9-cis-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC1.1.1.300 9-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.1.1.300 all-trans-retinal danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0031 * +EC1.1.1.300 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.1.1.300 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.1.1.300 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.004 * +EC1.1.1.300 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.75 * +EC1.1.1.300 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.22 * +EC1.1.1.300 nadp+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0042 * +EC1.1.1.300 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.1.1.300 nadph bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.04 * +EC1.1.1.300 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00048 * +EC1.1.1.300 retinal bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.007 * +EC1.1.1.301 d-arabitol 1-phosphate enterococcus avium//*//* 2.9 * +EC1.1.1.301 d-arabitol 5-phosphate enterococcus avium//*//* 0.63 * +EC1.1.1.301 d-xylulose 5-phosphate enterococcus avium//*//* 0.23 * +EC1.1.1.301 nad+ enterococcus avium//*//* 0.71 * +EC1.1.1.301 nadh enterococcus avium//*//* 0.021 * +EC1.1.1.301 nadp+ enterococcus avium//*//* 2.7 * +EC1.1.1.301 nadph enterococcus avium//*//* 0.24 * +EC1.1.1.304 (2s,3s)-2,3-butanediol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 7.25 * +EC1.1.1.304 (3s)-acetoin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.47 * +EC1.1.1.304 2,3-pentanedione staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.0 * +EC1.1.1.304 diacetyl bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 72.4 * +EC1.1.1.304 diacetyl columba livia//eukaryotes;animals;vertebrates;birds//clv 2.64 * +EC1.1.1.304 diacetyl geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 19.0 * +EC1.1.1.304 diacetyl klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.6 * +EC1.1.1.304 diacetyl mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 4.47 * +EC1.1.1.304 diacetyl staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 15.0 * +EC1.1.1.304 ethyl pyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 20.0 * +EC1.1.1.304 ethyl pyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 24.0 * +EC1.1.1.304 methyl glyoxal klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 75.0 * +EC1.1.1.304 methyl pyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 18.0 * +EC1.1.1.304 methyl pyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 16.0 * +EC1.1.1.304 nad+ bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.34 * +EC1.1.1.304 nadh bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.25 * +EC1.1.1.304 nadh columba livia//eukaryotes;animals;vertebrates;birds//clv 0.087 * +EC1.1.1.304 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.005 * +EC1.1.1.304 nadh mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.05 * +EC1.1.1.304 nadh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.025 * +EC1.1.1.304 pentane-2,3-dione klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.0 * +EC1.1.1.305 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.57 * +EC1.1.1.305 udp-glucuronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.054 * +EC1.1.1.306 1-butanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 84.0 * +EC1.1.1.306 1-hexanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 3.4 * +EC1.1.1.306 1-octanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 1.2 * +EC1.1.1.306 1-pentanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 26.5 * +EC1.1.1.306 1-propanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 324.0 * +EC1.1.1.306 12-hydroxydodecanoic acid amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 1.7 * +EC1.1.1.306 ethanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 343.0 * +EC1.1.1.306 formaldehyde amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 9.6 * +EC1.1.1.306 mycothiol mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0173 * +EC1.1.1.306 nad+ mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.354 * +EC1.1.1.307 2-deoxy-d-galactose candida intermedia//*//* 0.126 * +EC1.1.1.307 2-deoxy-d-glucose candida intermedia//*//* 0.058 * +EC1.1.1.307 2-deoxy-d-ribose candida intermedia//*//* 0.038 * +EC1.1.1.307 benzaldehyde zymomonas mobilis subsp. mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.8 * +EC1.1.1.307 butanal candida intermedia//*//* 2.0 * +EC1.1.1.307 d-arabinose candida parapsilosis//*//* 285.4 * +EC1.1.1.307 d-erythrose candida intermedia//*//* 0.02 * +EC1.1.1.307 d-erythrose candida parapsilosis//*//* 151.7 * +EC1.1.1.307 d-fucose candida intermedia//*//* 0.007 * +EC1.1.1.307 d-galactose candida intermedia//*//* 0.015 * +EC1.1.1.307 d-galactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 180.0 * +EC1.1.1.307 d-galactose rhizomucor pusillus//*//* 72.2 * +EC1.1.1.307 d-glucose candida intermedia//*//* 0.006 * +EC1.1.1.307 d-glucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 360.0 * +EC1.1.1.307 d-glucose rhizomucor pusillus//*//* 177.0 * +EC1.1.1.307 d-ribose candida intermedia//*//* 0.068 * +EC1.1.1.307 d-ribose candida parapsilosis//*//* 302.0 * +EC1.1.1.307 d-ribose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 70.0 * +EC1.1.1.307 d-ribose rhizomucor pusillus//*//* 36.3 * +EC1.1.1.307 d-xylose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 39.0 * +EC1.1.1.307 d-xylose candida intermedia//*//* 0.01 * +EC1.1.1.307 d-xylose candida parapsilosis//*//* 31.5 * +EC1.1.1.307 d-xylose candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 72.0 * +EC1.1.1.307 d-xylose candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 30.0 * +EC1.1.1.307 d-xylose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 34.0 * +EC1.1.1.307 d-xylose rasamsonia emersonii//*//* 24.56 * +EC1.1.1.307 d-xylose rhizomucor pusillus//*//* 28.1 * +EC1.1.1.307 d-xylose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.8 * +EC1.1.1.307 d-xylose scheffersomyces shehatae//*//* 160.0 * +EC1.1.1.307 d-xylose scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 33.0 * +EC1.1.1.307 d-xylose zymomonas mobilis subsp. mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 258.0 * +EC1.1.1.307 dl-glyceraldehyde candida intermedia//*//* 1.14 * +EC1.1.1.307 furfural zymomonas mobilis subsp. mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.2 * +EC1.1.1.307 l-arabinose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 93.0 * +EC1.1.1.307 l-arabinose candida intermedia//*//* 0.02 * +EC1.1.1.307 l-arabinose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 40.0 * +EC1.1.1.307 l-arabinose rhizomucor pusillus//*//* 41.7 * +EC1.1.1.307 l-lyxose candida intermedia//*//* 0.117 * +EC1.1.1.307 nad+ candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.027 * +EC1.1.1.307 nadh candida parapsilosis//*//* 0.0033 * +EC1.1.1.307 nadh candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.015 * +EC1.1.1.307 nadh candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.1619 * +EC1.1.1.307 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.016 * +EC1.1.1.307 nadh rasamsonia emersonii//*//* 0.263 * +EC1.1.1.307 nadh rhizomucor pusillus//*//* 0.35 * +EC1.1.1.307 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC1.1.1.307 nadh scheffersomyces shehatae//*//* 0.15 * +EC1.1.1.307 nadh scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.0106 * +EC1.1.1.307 nadp+ candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.0266 * +EC1.1.1.307 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.008 * +EC1.1.1.307 nadph candida parapsilosis//*//* 0.0365 * +EC1.1.1.307 nadph candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 0.0048 * +EC1.1.1.307 nadph candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0073 * +EC1.1.1.307 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0018 * +EC1.1.1.307 nadph rasamsonia emersonii//*//* 0.244 * +EC1.1.1.307 nadph rhizomucor pusillus//*//* 0.0094 * +EC1.1.1.307 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC1.1.1.307 nadph scheffersomyces shehatae//*//* 0.02 * +EC1.1.1.307 nadph scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.0062 * +EC1.1.1.307 pentanal candida intermedia//*//* 3.9 * +EC1.1.1.307 propionaldehyde candida intermedia//*//* 13.2 * +EC1.1.1.307 xylitol candida parapsilosis//*//* 326.3 * +EC1.1.1.307 xylitol candida tenuis//eukaryotes;fungi;ascomycetes;saccharomycetes//cten 209.0 * +EC1.1.1.308 (r)-2,3-dihydroxypropane-1-sulfonate cupriavidus pinatubonensis//*//* 0.46 * +EC1.1.1.308 nad+ cupriavidus pinatubonensis//*//* 0.16 * +EC1.1.1.309 nadh streptomyces viridochromogenes//*//* 0.0193 * +EC1.1.1.309 phosphonoacetaldehyde streptomyces viridochromogenes//*//* 0.185 * +EC1.1.1.31 (s)-3-hydroxyisobutyrate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.652 * +EC1.1.1.31 (s)-3-hydroxyisobutyrate pseudomonas denitrificans (nomen rejiciendum)//*//* 0.12 * +EC1.1.1.31 2-methyl-d,l-serine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 83.0 * +EC1.1.1.31 3-hydroxyisobutyric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.1.1.31 3-hydroxypropionate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 16.8 * +EC1.1.1.31 3-hydroxypropionate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.0 * +EC1.1.1.31 3-hydroxypropionic acid pseudomonas denitrificans (nomen rejiciendum)//*//* 1.055 * +EC1.1.1.31 d,l-3-hydroxyisobutyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.1 * +EC1.1.1.31 d,l-3-hydroxyisobutyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC1.1.1.31 d-3-hydroxyisobutyrate diutina rugosa//*//* 1.25 * +EC1.1.1.31 l-3-hydroxyisobutyrate diutina rugosa//*//* 0.37 * +EC1.1.1.31 l-3-hydroxyisobutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC1.1.1.31 l-3-hydroxyisobutyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.12 * +EC1.1.1.31 l-3-hydroxyisobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC1.1.1.31 l-serine pseudomonas denitrificans (nomen rejiciendum)//*//* 31.84 * +EC1.1.1.31 l-serine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 44.0 * +EC1.1.1.31 methyl (2s)-3-hydroxy-2-methylpropanoate pseudomonas denitrificans (nomen rejiciendum)//*//* 10.48 * +EC1.1.1.31 methyl dl-serine pseudomonas denitrificans (nomen rejiciendum)//*//* 10.37 * +EC1.1.1.31 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.274 * +EC1.1.1.31 nad+ diutina rugosa//*//* 0.05 * +EC1.1.1.31 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.1.1.31 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.023 * +EC1.1.1.31 nad+ pseudomonas denitrificans (nomen rejiciendum)//*//* 0.164 * +EC1.1.1.31 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.44 * +EC1.1.1.31 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.1.1.31 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.022 * +EC1.1.1.31 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.054 * +EC1.1.1.31 nadp+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.25 * +EC1.1.1.31 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.96 * +EC1.1.1.310 (2s)-3-sulfolactate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 7.0 * +EC1.1.1.310 3-sulfopyruvate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.14 * +EC1.1.1.310 nad+ chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 2.0 * +EC1.1.1.310 nadh chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.05 * +EC1.1.1.311 (s)-1-phenylethanol azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0016 * +EC1.1.1.311 acetophenone azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.001 * +EC1.1.1.311 nad+ azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.051 * +EC1.1.1.311 nadh azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0033 * +EC1.1.1.312 4-carboxy-2-hydroxy-cis,cis-muconate 6-semialdehyde pseudomonas straminea//*//* 0.02 * +EC1.1.1.312 4-carboxy-2-hydroxy-cis,cis-muconate 6-semialdehyde sphingomonas paucimobilis//*//* 0.0206 * +EC1.1.1.312 nad+ pseudomonas straminea//*//* 0.284 * +EC1.1.1.312 nad+ sphingomonas paucimobilis//*//* 0.252 * +EC1.1.1.312 nadp+ pseudomonas straminea//*//* 0.0061 * +EC1.1.1.312 nadp+ sphingomonas paucimobilis//*//* 0.0246 * +EC1.1.1.313 2-sulfoacetaldehyde chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.13 * +EC1.1.1.313 nadph chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.061 * +EC1.1.1.315 11-cis-retinol-[cellular retinaldehyde binding protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC1.1.1.315 11-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC1.1.1.315 9-cis-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC1.1.1.315 all-trans retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC1.1.1.315 all-trans retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC1.1.1.315 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC1.1.1.315 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.1.1.315 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.1.1.315 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.1.1.315 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00069 * +EC1.1.1.315 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.1.1.316 l-fucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 56.3 * +EC1.1.1.316 l-galactose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.085 * +EC1.1.1.316 l-galactose pisum sativum//*//* 0.3 * +EC1.1.1.316 l-galactose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.116 * +EC1.1.1.316 l-gulose pisum sativum//*//* 3.7 * +EC1.1.1.316 l-gulose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.5 * +EC1.1.1.316 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0203 * +EC1.1.1.316 nad+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0179 * +EC1.1.1.316 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.59 * +EC1.1.1.317 4-nitrobenzaldehyde rauvolfia serpentina//*//* 0.28 * +EC1.1.1.317 perakine rauvolfia serpentina//*//* 0.83 * +EC1.1.1.318 4-coumaryl acetate ocimum gratissimum//*//* 1.25 * +EC1.1.1.318 4-coumaryl acetate ocimum kilimandscharicum//*//* 0.55 * +EC1.1.1.318 4-coumaryl acetate ocimum tenuiflorum//*//* 1.7 * +EC1.1.1.318 coniferyl acetate clarkia breweri//*//* 0.0933 * +EC1.1.1.318 coniferyl acetate ocimum basilicum//*//* 0.7 * +EC1.1.1.318 coniferyl acetate ocimum gratissimum//*//* 0.5 * +EC1.1.1.318 coniferyl acetate ocimum kilimandscharicum//*//* 0.41 * +EC1.1.1.318 coniferyl acetate ocimum tenuiflorum//*//* 1.17 * +EC1.1.1.318 coniferyl acetate petunia x hybrida//*//* 0.2453 * +EC1.1.1.319 4-coumaryl acetate pimpinella anisum//*//* 0.134 * +EC1.1.1.319 coniferyl acetate clarkia breweri//*//* 0.2115 * +EC1.1.1.319 coniferyl acetate petunia x hybrida//*//* 0.2261 * +EC1.1.1.319 coniferyl acetate pimpinella anisum//*//* 0.23 * +EC1.1.1.32 (r)-mevaldic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.0 * +EC1.1.1.32 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.1.1.32 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC1.1.1.320 benzil ogataea glucozyma//*//* 0.64 * +EC1.1.1.322 (-)-endo-fenchol foeniculum vulgare//*//* 0.04 * +EC1.1.1.323 (+)-thujan-3-ol tanacetum vulgare//*//* 0.04 * +EC1.1.1.324 nadp+ nepeta racemosa//*//* 0.018 * +EC1.1.1.325 diacetyl chlorobaculum tepidum//*//* 4.0 * +EC1.1.1.325 nadph chlorobaculum tepidum//*//* 0.0062 * +EC1.1.1.325 sepiapterin chlorobaculum tepidum//*//* 0.021 * +EC1.1.1.327 5-exo-hydroxycamphor pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0279 * +EC1.1.1.328 1,4-benzoquinone paenarthrobacter nicotinovorans//*//* 0.0088 * +EC1.1.1.328 1,4-naphthoquinone paenarthrobacter nicotinovorans//*//* 0.0062 * +EC1.1.1.328 2,6-dichlorophenol-indophenol paenarthrobacter nicotinovorans//*//* 0.023 * +EC1.1.1.328 nadh paenarthrobacter nicotinovorans//*//* 0.035 * +EC1.1.1.33 (3rs)-mevaldate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.26 * +EC1.1.1.33 4-cyanobenzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC1.1.1.33 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC1.1.1.330 nadph gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.012 * +EC1.1.1.330 nonanal gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.026 * +EC1.1.1.332 chanoclavine-i aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.27 * +EC1.1.1.332 chanoclavine-i trichophyton benhamiae//eukaryotes;fungi;ascomycetes;eurotiomycetes//abe 0.09 * +EC1.1.1.332 nad+ aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.1 * +EC1.1.1.332 nad+ trichophyton benhamiae//eukaryotes;fungi;ascomycetes;eurotiomycetes//abe 0.36 * +EC1.1.1.334 methyl ecgonine erythroxylum coca//*//* 0.151 * +EC1.1.1.334 methyl ecgonone erythroxylum coca//*//* 0.069 * +EC1.1.1.334 nadp+ erythroxylum coca//*//* 0.0009 * +EC1.1.1.334 nadph erythroxylum coca//*//* 0.0009 * +EC1.1.1.335 nad+ bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.97 * +EC1.1.1.335 nad+ chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.47 * +EC1.1.1.335 udp-2-acetamido-2-deoxy-alpha-d-glucuronate bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.015 * +EC1.1.1.335 udp-2-acetamido-2-deoxy-alpha-d-glucuronate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0056 * +EC1.1.1.335 udp-alpha-d-glucuronate bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 2.05 * +EC1.1.1.335 udp-alpha-d-glucuronate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.2 * +EC1.1.1.336 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC1.1.1.336 nad+ methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.57 * +EC1.1.1.336 udp-n-acetyl-alpha-d-mannosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC1.1.1.337 1-oxo-1,3,4,6-hexanetetracarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 15.0 * +EC1.1.1.337 2-hydroxycaproate weissella confusa//*//* 2.2 * +EC1.1.1.337 2-hydroxyisocaproate weissella confusa//*//* 0.62 * +EC1.1.1.337 2-hydroxyisovalerate weissella confusa//*//* 0.6 * +EC1.1.1.337 2-hydroxyoctanoate weissella confusa//*//* 1.9 * +EC1.1.1.337 2-hydroxyvalerate weissella confusa//*//* 1.8 * +EC1.1.1.337 2-oxobutyrate weissella confusa//*//* 0.45 * +EC1.1.1.337 2-oxocaproate weissella confusa//*//* 0.1 * +EC1.1.1.337 2-oxoglutarate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.9 * +EC1.1.1.337 2-oxoisocaproate weissella confusa//*//* 0.06 * +EC1.1.1.337 2-oxoisovalerate weissella confusa//*//* 0.065 * +EC1.1.1.337 2-oxooctanoate weissella confusa//*//* 0.17 * +EC1.1.1.337 2-oxopentanedioic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.9 * +EC1.1.1.337 2-oxovalerate weissella confusa//*//* 0.1 * +EC1.1.1.337 3-phenyllactate weissella confusa//*//* 0.64 * +EC1.1.1.337 3-sulfopyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.04 * +EC1.1.1.337 3-sulfopyruvate methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.07 * +EC1.1.1.337 4-methyl-2-oxopentanoate weissella confusa//*//* 0.067 * +EC1.1.1.337 glyoxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 46.0 * +EC1.1.1.337 l-lactate weissella confusa//*//* 100.0 * +EC1.1.1.337 oxaloacetate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.13 * +EC1.1.1.337 oxaloacetate methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.11 * +EC1.1.1.337 oxopropandioic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.4 * +EC1.1.1.337 phenylpyruvate weissella confusa//*//* 0.026 * +EC1.1.1.337 pyruvate weissella confusa//*//* 3.5 * +EC1.1.1.338 (s)-3-sulfolactate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 19.0 * +EC1.1.1.338 3-sulfopyruvate chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.14 * +EC1.1.1.338 nadp+ chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 1.2 * +EC1.1.1.338 nadph chromohalobacter salexigens//prokaryotes;bacteria;gammaproteobacteria - others;chromohalobacter//csa 0.1 * +EC1.1.1.34 (r)-mevaldehyde haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.032 * +EC1.1.1.34 (r)-mevalonate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.0 * +EC1.1.1.34 (r)-mevalonate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.252 * +EC1.1.1.34 (r,s)-3-hydroxy-3-methylglutaryl-coa hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.056 * +EC1.1.1.34 (r,s)-3-hydroxy-3-methylglutaryl-coa leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0357 * +EC1.1.1.34 (r,s)-3-hydroxy-3-methylglutaryl-coa leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.04 * +EC1.1.1.34 (r,s)-mevaldehyde haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.47 * +EC1.1.1.34 (s)-3-hydroxy-3-methylglutaryl-coa burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.078 * +EC1.1.1.34 (s)-3-hydroxy-3-methylglutaryl-coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.02 * +EC1.1.1.34 (s)-3-hydroxy-3-methylglutaryl-coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.06 * +EC1.1.1.34 (s)-3-hydroxy-3-methylglutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.1.1.34 (s)-3-hydroxy-3-methylglutaryl-coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.013 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.021 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.003 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.008 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.017 * +EC1.1.1.34 3-hydroxy-3-methylglutaryl-coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.028 * +EC1.1.1.34 coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.22 * +EC1.1.1.34 coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.03 * +EC1.1.1.34 coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.074 * +EC1.1.1.34 coash sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00011 * +EC1.1.1.34 hmg-coa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.045 * +EC1.1.1.34 hydroxymethylglutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.068 * +EC1.1.1.34 mevaldehyde enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.66 * +EC1.1.1.34 mevaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0043 * +EC1.1.1.34 mevalonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0015 * +EC1.1.1.34 nadh burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.072 * +EC1.1.1.34 nadp+ enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.25 * +EC1.1.1.34 nadp+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.035 * +EC1.1.1.34 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0009 * +EC1.1.1.34 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.22 * +EC1.1.1.34 nadph enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.03 * +EC1.1.1.34 nadph haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.032 * +EC1.1.1.34 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC1.1.1.34 nadph leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.07 * +EC1.1.1.34 nadph leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.081 * +EC1.1.1.34 nadph schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.052 * +EC1.1.1.34 nadph streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.062 * +EC1.1.1.34 nadph sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.023 * +EC1.1.1.34 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.037 * +EC1.1.1.340 1-deoxy-11beta-hydroxypentalenic acid streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.0065 * +EC1.1.1.340 nad+ streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.025 * +EC1.1.1.342 nadph salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.026 * +EC1.1.1.343 6-phospho-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.44 * +EC1.1.1.343 6-phospho-d-gluconate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.021 * +EC1.1.1.343 nad+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.064 * +EC1.1.1.343 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.033 * +EC1.1.1.343 nad+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.397 * +EC1.1.1.343 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.3 * +EC1.1.1.345 (r)-2-hydroxy-4-methylpentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 2.3 * +EC1.1.1.345 (r)-mandelate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.76 * +EC1.1.1.345 2-formylbutanethioate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 1.26 * +EC1.1.1.345 2-hydroxyhexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 2.7 * +EC1.1.1.345 2-hydroxyoctanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.6 * +EC1.1.1.345 2-hydroxypentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.3 * +EC1.1.1.345 2-oxo-3-phenylpropanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3.4 * +EC1.1.1.345 2-oxobutanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 4.0 * +EC1.1.1.345 2-oxobutyrate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.36 * +EC1.1.1.345 2-oxobutyrate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 28.0 * +EC1.1.1.345 2-oxocaproate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 40.0 * +EC1.1.1.345 2-oxocaproate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.4 * +EC1.1.1.345 2-oxohexanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.6 * +EC1.1.1.345 2-oxohexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.13 * +EC1.1.1.345 2-oxohexanoate lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.02 * +EC1.1.1.345 2-oxohexanoate lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.11 * +EC1.1.1.345 2-oxoisocaproate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 2.3 * +EC1.1.1.345 2-oxoisocaproate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 71.0 * +EC1.1.1.345 2-oxoisocaproate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.3 * +EC1.1.1.345 2-oxoisovalerate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 46.0 * +EC1.1.1.345 2-oxoisovalerate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.29 * +EC1.1.1.345 2-oxomethylvalerate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.21 * +EC1.1.1.345 2-oxooctanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.12 * +EC1.1.1.345 2-oxopentanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.3 * +EC1.1.1.345 2-oxopentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.12 * +EC1.1.1.345 2-oxopentanoate lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.057 * +EC1.1.1.345 2-oxopentanoate lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.11 * +EC1.1.1.345 2-oxovalerate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 62.0 * +EC1.1.1.345 2-oxovalerate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.53 * +EC1.1.1.345 3-(4-hydroxyphenyl)-2-oxopropanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.6 * +EC1.1.1.345 3-hydroxypyruvate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.9 * +EC1.1.1.345 3-methyl-2-oxobutanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.15 * +EC1.1.1.345 3-methyl-2-oxobutanoate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.29 * +EC1.1.1.345 3-methyl-2-oxopentanoate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.21 * +EC1.1.1.345 4-methyl-2-oxopentanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.11 * +EC1.1.1.345 4-methyl-2-oxopentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.4 * +EC1.1.1.345 4-methyl-2-oxopentanoate lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.022 * +EC1.1.1.345 4-methyl-2-oxopentanoate lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.06 * +EC1.1.1.345 4-methyl-2-oxopentanoate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.3 * +EC1.1.1.345 4-methylthio-2-oxobutanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.26 * +EC1.1.1.345 benzoylformate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 1.5 * +EC1.1.1.345 benzoylformate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.5 * +EC1.1.1.345 d-lactate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.14 * +EC1.1.1.345 d-mandelate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.0 * +EC1.1.1.345 dl-2-hydroxyisocaproate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.0 * +EC1.1.1.345 nad+ lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.5 * +EC1.1.1.345 nadh haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.05 * +EC1.1.1.345 nadh lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.01 * +EC1.1.1.345 nadh lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.14 * +EC1.1.1.345 phenylglyoxylate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.25 * +EC1.1.1.345 phenylpyruvate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.2 * +EC1.1.1.345 phenylpyruvate lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.031 * +EC1.1.1.345 phenylpyruvate lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.15 * +EC1.1.1.345 phenylpyruvate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 20.0 * +EC1.1.1.345 phenylpyruvate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 5.4 * +EC1.1.1.345 phenylpyruvate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.4 * +EC1.1.1.345 pyruvate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.56 * +EC1.1.1.345 pyruvate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.2 * +EC1.1.1.346 2,5-didehydro-d-gluconate brevibacterium ketosoreductum//*//* 5.0 * +EC1.1.1.346 2,5-didehydro-d-gluconate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 1.8 * +EC1.1.1.346 2-dehydro-l-gulonate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 204.0 * +EC1.1.1.346 5-dehydro-d-fructose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 155.0 * +EC1.1.1.346 dihydroxyacetone corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 160.0 * +EC1.1.1.346 ethyl 2-methylacetoacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC1.1.1.346 nadp+ corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.125 * +EC1.1.1.346 nadph brevibacterium ketosoreductum//*//* 0.01 * +EC1.1.1.346 nadph corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.01 * +EC1.1.1.347 (s)-perillyl alcohol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.007 * +EC1.1.1.347 benzyl alcohol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.17 * +EC1.1.1.347 citronellol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.086 * +EC1.1.1.347 cumic alcohol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.021 * +EC1.1.1.347 geraniol carpoglyphus lactis//*//* 0.051 * +EC1.1.1.347 geraniol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.005 * +EC1.1.1.347 nad+ carpoglyphus lactis//*//* 0.0595 * +EC1.1.1.347 nerol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.045 * +EC1.1.1.347 p-cumic alcohol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.021 * +EC1.1.1.348 (3r)-vestitone medicago sativa//*//* 0.045 * +EC1.1.1.35 (3beta,5alpha,17beta)-androstane-3,17-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC1.1.1.35 (s)-3-hydroxybutanoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.06 * +EC1.1.1.35 (s)-3-hydroxybutyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.31 * +EC1.1.1.35 (s)-3-hydroxybutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8e-05 * +EC1.1.1.35 (s)-3-hydroxybutyryl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 43.5 * +EC1.1.1.35 (s)-3-hydroxybutyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0699 * +EC1.1.1.35 (s)-3-hydroxydecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.088 * +EC1.1.1.35 (s)-3-hydroxyhexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC1.1.1.35 (s)-3-hydroxyhexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0286 * +EC1.1.1.35 (s)-3-hydroxylauryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC1.1.1.35 (s)-3-hydroxyoctanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.35 * +EC1.1.1.35 (s)-3-hydroxyoctanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0163 * +EC1.1.1.35 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC1.1.1.35 3-acetoacetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 65.6 * +EC1.1.1.35 acetoacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC1.1.1.35 acetoacetyl-coa euglena gracilis//*//* 0.05 * +EC1.1.1.35 acetoacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0138 * +EC1.1.1.35 acetoacetyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.036 * +EC1.1.1.35 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0169 * +EC1.1.1.35 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.1.1.35 acetoacetyl-n-acetyl-cysteamine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 44.4 * +EC1.1.1.35 acetoacetyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC1.1.1.35 acetoacetyl-n-beta-alanylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC1.1.1.35 acetoacetyl-nacetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC1.1.1.35 acetoacetyl-pantetheine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.19 * +EC1.1.1.35 acetoacetyl-pantetheine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.56 * +EC1.1.1.35 acetoacetyl-pantetheine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC1.1.1.35 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.1.1.35 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9e-05 * +EC1.1.1.35 nad+ metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.25 * +EC1.1.1.35 nad+ mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.083 * +EC1.1.1.35 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 29.5 * +EC1.1.1.35 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0585 * +EC1.1.1.35 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.1.1.35 nadh mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.033 * +EC1.1.1.35 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 50.0 * +EC1.1.1.35 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC1.1.1.35 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.1.1.35 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC1.1.1.35 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.435 * +EC1.1.1.350 (s)-ureidoglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.06 * +EC1.1.1.350 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC1.1.1.351 6-phospho-d-gluconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.1.1.351 6-phospho-d-gluconate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.011 * +EC1.1.1.351 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.5 * +EC1.1.1.351 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.01 * +EC1.1.1.351 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC1.1.1.351 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.38 * +EC1.1.1.352 5'-hydroxyaverantin aspergillus parasiticus//*//* 0.083 * +EC1.1.1.352 5'-hydroxyaverantin lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.0426 * +EC1.1.1.353 versiconal hemiacetal acetate aspergillus parasiticus//*//* 0.0254 * +EC1.1.1.354 geraniol carpoglyphus lactis//*//* 0.051 * +EC1.1.1.354 nad+ carpoglyphus lactis//*//* 0.0595 * +EC1.1.1.356 gdp-4-dehydro-3,6-dideoxy-alpha-d-mannose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.075 * +EC1.1.1.357 (r)-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.1.1.357 (s)-1,2,3,4-tetrahydronaphth-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC1.1.1.357 (s)-indan-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.146 * +EC1.1.1.357 (s)-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.1.1.357 2-(1-imidazolyl)-1-(4-methoxyphenyl)-2-methyl-1-propanone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.0 * +EC1.1.1.357 3-dehydro-alpha-ecdysone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.025 * +EC1.1.1.357 3-dehydro-alpha-ecdysone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.028 * +EC1.1.1.357 3-dehydro-beta-ecdysone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.035 * +EC1.1.1.357 3alpha-androstanediol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC1.1.1.357 3alpha-hydroxydesogestrel comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0152 * +EC1.1.1.357 3alpha-hydroxydesogestrel pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0216 * +EC1.1.1.357 4-nitroacetophenone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.9 * +EC1.1.1.357 4-nitroacetophenone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC1.1.1.357 4-nitrobenzaldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.09 * +EC1.1.1.357 4-nitrobenzaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC1.1.1.357 5alpha-androstan-17-beta-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.003 * +EC1.1.1.357 5alpha-androstan-3alpha-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.1.1.357 5alpha-androstane-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00144 * +EC1.1.1.357 5alpha-androstane-3alpha,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.1.1.357 5alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC1.1.1.357 5alpha-dihydrotestosterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0161 * +EC1.1.1.357 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.1.1.357 5alpha-dihydrotestosterone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.019 * +EC1.1.1.357 5alpha-pregnan-20alpha-ol-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0003 * +EC1.1.1.357 5beta-androstan-3,17-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.003 * +EC1.1.1.357 5beta-androstan-3alpha-ol-17-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.1.1.357 5beta-androstan-3alpha-ol-17-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0021 * +EC1.1.1.357 5beta-androstane-3alpha,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.1.1.357 5beta-dihydrotestosterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0111 * +EC1.1.1.357 5beta-dihydrotestosterone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0201 * +EC1.1.1.357 5beta-pregnane-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0023 * +EC1.1.1.357 9alpha,11beta-prostaglandin f2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.208 * +EC1.1.1.357 allopregnanolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.1.1.357 androstandiol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0328 * +EC1.1.1.357 androstandione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0357 * +EC1.1.1.357 androsterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0244 * +EC1.1.1.357 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.1.1.357 androsterone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0267 * +EC1.1.1.357 chenodeoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.1.1.357 cholic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0301 * +EC1.1.1.357 cholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC1.1.1.357 cholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.025 * +EC1.1.1.357 dehydrolithocholic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.004 * +EC1.1.1.357 deoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC1.1.1.357 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.1.1.357 epiandrosterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0207 * +EC1.1.1.357 fusidic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.003 * +EC1.1.1.357 fusidic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0068 * +EC1.1.1.357 lithocholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.1.1.357 metyrapol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.1 * +EC1.1.1.357 metyrapone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.61 * +EC1.1.1.357 metyrapone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.63 * +EC1.1.1.357 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.97 * +EC1.1.1.357 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC1.1.1.357 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC1.1.1.357 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0084 * +EC1.1.1.358 1-methylisatin candida parapsilosis//*//* 0.085 * +EC1.1.1.358 2-dehydropantolactone candida parapsilosis//*//* 0.333 * +EC1.1.1.358 5-methylisatin candida parapsilosis//*//* 0.016 * +EC1.1.1.358 isatin candida parapsilosis//*//* 0.014 * +EC1.1.1.359 beta-d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.44 * +EC1.1.1.359 beta-d-glucose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 9.4 * +EC1.1.1.359 d-galactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.44 * +EC1.1.1.359 d-xylose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.18 * +EC1.1.1.359 l-arabinose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.47 * +EC1.1.1.359 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC1.1.1.359 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.1.1.359 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.113 * +EC1.1.1.36 (3r)-3-hydroxydecanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0054 * +EC1.1.1.36 (3r)-hydroxybutyryl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.055 * +EC1.1.1.36 (3r)-hydroxyhexadecanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.024 * +EC1.1.1.36 2-methylacetoacetyl-coa zoogloea ramigera//*//* 0.74 * +EC1.1.1.36 acetoacetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.011 * +EC1.1.1.36 acetoacetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC1.1.1.36 acetoacetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.005 * +EC1.1.1.36 acetoacetyl-coa methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.0116 * +EC1.1.1.36 acetoacetyl-coa methylobacterium rhodesianum//*//* 0.015 * +EC1.1.1.36 acetoacetyl-coa pigeon//*//* 0.74 * +EC1.1.1.36 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.1.1.36 acetoacetyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.01 * +EC1.1.1.36 acetoacetyl-coa zoogloea ramigera//*//* 0.002 * +EC1.1.1.36 acetoacetyl-pantetheine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.82 * +EC1.1.1.36 acetoacetyl-s-(d-pantetheine)11-pivalate zoogloea ramigera//*//* 0.99 * +EC1.1.1.36 beta-ketopalmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.1.1.36 butyrylacetyl-coa zoogloea ramigera//*//* 0.01 * +EC1.1.1.36 d-3-hydroxybutyryl-coa zoogloea ramigera//*//* 0.026 * +EC1.1.1.36 d-beta-hydroxybutyryl-coa methylobacterium rhodesianum//*//* 0.03 * +EC1.1.1.36 d-hydroxybutyryl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.033 * +EC1.1.1.36 l-beta-hydroxybutyryl-coa methylobacterium rhodesianum//*//* 0.022 * +EC1.1.1.36 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.25 * +EC1.1.1.36 nadh cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.4 * +EC1.1.1.36 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC1.1.1.36 nadp+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.031 * +EC1.1.1.36 nadp+ methylobacterium rhodesianum//*//* 0.06 * +EC1.1.1.36 nadph azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.02 * +EC1.1.1.36 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.019 * +EC1.1.1.36 nadph methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.041 * +EC1.1.1.36 nadph methylobacterium rhodesianum//*//* 0.018 * +EC1.1.1.36 nadph zoogloea ramigera//*//* 0.02 * +EC1.1.1.36 propionylacetyl-coa zoogloea ramigera//*//* 0.002 * +EC1.1.1.36 s-acetoacetyl-n-acetylcysteamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.1.1.36 s-acetoacetyl-n-acetylcysteamine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.008 * +EC1.1.1.360 d-galactopyranose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 8.7 * +EC1.1.1.360 d-galactose picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 4.5 * +EC1.1.1.360 d-galactose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 8.7 * +EC1.1.1.360 d-glucopyranose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 7.1 * +EC1.1.1.360 d-glucose picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 10.0 * +EC1.1.1.360 d-glucose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 7.1 * +EC1.1.1.360 nadp+ picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 1.12 * +EC1.1.1.363 2-deoxy-d-glucose 6-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 12.0 * +EC1.1.1.363 d-galactose 6-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 10.0 * +EC1.1.1.363 d-glucose 6-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.007 * +EC1.1.1.363 d-glucose 6-phosphate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.946 * +EC1.1.1.363 d-glucose 6-sulfate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 50.0 * +EC1.1.1.363 nad+ deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.053 * +EC1.1.1.363 nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.102 * +EC1.1.1.363 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.127 * +EC1.1.1.363 nadp+ 2',3'-dialdehyde leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 200.0 * +EC1.1.1.363 nadp+ deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.012 * +EC1.1.1.363 nadp+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.0042 * +EC1.1.1.363 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.014 * +EC1.1.1.363 thionicotinamide-nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.011 * +EC1.1.1.363 thionicotinamide-nadp+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.001 * +EC1.1.1.365 d-galacturonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.175 * +EC1.1.1.365 d-galacturonate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 1.4 * +EC1.1.1.365 d-galacturonate euglena gracilis//*//* 3.79 * +EC1.1.1.365 d-galacturonate trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 6.0 * +EC1.1.1.365 d-glucuronate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.12 * +EC1.1.1.365 d-glucuronate euglena gracilis//*//* 4.67 * +EC1.1.1.365 d-glucuronic acid trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 11.0 * +EC1.1.1.365 d-xylose euglena gracilis//*//* 8.48 * +EC1.1.1.365 dl-glyceraldehyde trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 6.0 * +EC1.1.1.365 l-galactonate trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 4.0 * +EC1.1.1.365 nadh aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.326 * +EC1.1.1.365 nadp+ trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.001 * +EC1.1.1.365 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.036 * +EC1.1.1.365 nadph euglena gracilis//*//* 0.0625 * +EC1.1.1.365 nadph trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.03 * +EC1.1.1.368 6-hydroxycyclohex-1-ene-1-carbonyl-coa thauera aromatica//*//* 0.06 * +EC1.1.1.369 1d-chiro-inositol thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.9 * +EC1.1.1.37 (s)-malate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.12 * +EC1.1.1.37 (s)-malate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.26 * +EC1.1.1.37 (s)-malate clonorchis sinensis//*//* 0.056 * +EC1.1.1.37 (s)-malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00012 * +EC1.1.1.37 (s)-malate flavobacterium frigidimaris//*//* 0.269 * +EC1.1.1.37 (s)-malate haemophilus parasuis//*//* 0.55 * +EC1.1.1.37 (s)-malate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.177 * +EC1.1.1.37 (s)-malate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 9.0 * +EC1.1.1.37 (s)-malate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.007 * +EC1.1.1.37 (s)-malate macromonas bipunctata//*//* 0.645 * +EC1.1.1.37 (s)-malate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.19 * +EC1.1.1.37 (s)-malate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.4 * +EC1.1.1.37 (s)-malate nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 5.0 * +EC1.1.1.37 (s)-malate phytophthora infestans//eukaryotes;protists;stramenopiles;oomycetes//pif 0.94 * +EC1.1.1.37 (s)-malate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.063 * +EC1.1.1.37 (s)-malate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.53 * +EC1.1.1.37 (s)-malate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.49 * +EC1.1.1.37 (s)-malate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC1.1.1.37 (s)-malate taenia solium//*//* 0.215 * +EC1.1.1.37 (s)-malate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.56 * +EC1.1.1.37 (s)-malate uncultured bacterium//*//* 4.0 * +EC1.1.1.37 (s)-malate vulcanithermus mediatlanticus//*//* 1.67 * +EC1.1.1.37 3-acetylnicotinamide-nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.089 * +EC1.1.1.37 3-acetylpyridine adenine dinucleotide haemophilus parasuis//*//* 0.0667 * +EC1.1.1.37 3-acetylpyridine-adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.04955 * +EC1.1.1.37 acetylpyridine adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.022 * +EC1.1.1.37 alpha-ketomalonate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.44 * +EC1.1.1.37 deamino-nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.264 * +EC1.1.1.37 ketomalonate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 2.2 * +EC1.1.1.37 l-malate acinetobacter lwoffii//*//* 0.174 * +EC1.1.1.37 l-malate ananas comosus//*//* 0.46 * +EC1.1.1.37 l-malate anthocidaris crassispina//*//* 7.0 * +EC1.1.1.37 l-malate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.9 * +EC1.1.1.37 l-malate beggiatoa leptomitiformis//prokaryotes;bacteria;gammaproteobacteria - others;beggiatoa//blep 0.67 * +EC1.1.1.37 l-malate coccochloris peniocystis//*//* 5.6 * +EC1.1.1.37 l-malate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.069 * +EC1.1.1.37 l-malate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.8 * +EC1.1.1.37 l-malate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.33 * +EC1.1.1.37 l-malate drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 8.0 * +EC1.1.1.37 l-malate echinococcus granulosus//*//* 0.033 * +EC1.1.1.37 l-malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC1.1.1.37 l-malate euglena gracilis//*//* 0.71 * +EC1.1.1.37 l-malate mesembryanthemum cordifolium//*//* 2.068 * +EC1.1.1.37 l-malate mesembryanthemum crystallinum//*//* 0.0341 * +EC1.1.1.37 l-malate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.833 * +EC1.1.1.37 l-malate rasamsonia emersonii//*//* 1.25 * +EC1.1.1.37 l-malate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 2.1 * +EC1.1.1.37 l-malate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC1.1.1.37 l-malate syntrophobacter fumaroxidans//prokaryotes;bacteria;deltaproteobacteria;syntrophobacter//sfu 4.0 * +EC1.1.1.37 l-malate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.019 * +EC1.1.1.37 l-malate trichomonas gallinae//*//* 0.2 * +EC1.1.1.37 l-malate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.0 * +EC1.1.1.37 malate haemophilus parasuis//*//* 0.55 * +EC1.1.1.37 malate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.35 * +EC1.1.1.37 malate triticum aestivum//*//* 3.53 * +EC1.1.1.37 malate vulcanithermus mediatlanticus//*//* 1.7 * +EC1.1.1.37 nad+ acinetobacter lwoffii//*//* 0.435 * +EC1.1.1.37 nad+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.87 * +EC1.1.1.37 nad+ ananas comosus//*//* 0.22 * +EC1.1.1.37 nad+ anthocidaris crassispina//*//* 0.6 * +EC1.1.1.37 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC1.1.1.37 nad+ beggiatoa leptomitiformis//prokaryotes;bacteria;gammaproteobacteria - others;beggiatoa//blep 0.53 * +EC1.1.1.37 nad+ clonorchis sinensis//*//* 0.094 * +EC1.1.1.37 nad+ coccochloris peniocystis//*//* 0.024 * +EC1.1.1.37 nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.109 * +EC1.1.1.37 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC1.1.1.37 nad+ dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC1.1.1.37 nad+ echinococcus granulosus//*//* 0.027 * +EC1.1.1.37 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00087 * +EC1.1.1.37 nad+ euglena gracilis//*//* 0.3 * +EC1.1.1.37 nad+ flavobacterium frigidimaris//*//* 0.0279 * +EC1.1.1.37 nad+ haemophilus parasuis//*//* 0.117 * +EC1.1.1.37 nad+ helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.161 * +EC1.1.1.37 nad+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.27 * +EC1.1.1.37 nad+ leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.069 * +EC1.1.1.37 nad+ macromonas bipunctata//*//* 0.263 * +EC1.1.1.37 nad+ malus domestica//eukaryotes;plants;eudicots;rose family//mdm 3.32 * +EC1.1.1.37 nad+ mesembryanthemum cordifolium//*//* 0.1338 * +EC1.1.1.37 nad+ mesembryanthemum crystallinum//*//* 0.319 * +EC1.1.1.37 nad+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.09 * +EC1.1.1.37 nad+ mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.459 * +EC1.1.1.37 nad+ nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.024 * +EC1.1.1.37 nad+ physarum polycephalum//*//* 0.19 * +EC1.1.1.37 nad+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.152 * +EC1.1.1.37 nad+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.34 * +EC1.1.1.37 nad+ rasamsonia emersonii//*//* 0.12 * +EC1.1.1.37 nad+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.048 * +EC1.1.1.37 nad+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.085 * +EC1.1.1.37 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC1.1.1.37 nad+ streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.15 * +EC1.1.1.37 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC1.1.1.37 nad+ syntrophobacter fumaroxidans//prokaryotes;bacteria;deltaproteobacteria;syntrophobacter//sfu 1.1 * +EC1.1.1.37 nad+ taenia solium//*//* 0.05 * +EC1.1.1.37 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.026 * +EC1.1.1.37 nad+ trichomonas gallinae//*//* 0.07 * +EC1.1.1.37 nad+ trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.022 * +EC1.1.1.37 nad+ triticum aestivum//*//* 0.69 * +EC1.1.1.37 nad+ uncultured bacterium//*//* 1.1 * +EC1.1.1.37 nad+ vulcanithermus mediatlanticus//*//* 0.4 * +EC1.1.1.37 nadh acinetobacter lwoffii//*//* 0.0135 * +EC1.1.1.37 nadh ananas comosus//*//* 0.0152 * +EC1.1.1.37 nadh anthocidaris crassispina//*//* 0.03 * +EC1.1.1.37 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.024 * +EC1.1.1.37 nadh aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.14 * +EC1.1.1.37 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.014 * +EC1.1.1.37 nadh beggiatoa leptomitiformis//prokaryotes;bacteria;gammaproteobacteria - others;beggiatoa//blep 0.017 * +EC1.1.1.37 nadh clonorchis sinensis//*//* 0.007 * +EC1.1.1.37 nadh comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.038 * +EC1.1.1.37 nadh corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.041 * +EC1.1.1.37 nadh dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.03 * +EC1.1.1.37 nadh echinococcus granulosus//*//* 0.007 * +EC1.1.1.37 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC1.1.1.37 nadh euglena gracilis//*//* 0.029 * +EC1.1.1.37 nadh haemophilus parasuis//*//* 0.0165 * +EC1.1.1.37 nadh haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.024 * +EC1.1.1.37 nadh helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.065 * +EC1.1.1.37 nadh kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.085 * +EC1.1.1.37 nadh leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.041 * +EC1.1.1.37 nadh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.057 * +EC1.1.1.37 nadh macromonas bipunctata//*//* 0.0266 * +EC1.1.1.37 nadh malus domestica//eukaryotes;plants;eudicots;rose family//mdm 1.4 * +EC1.1.1.37 nadh mesembryanthemum cordifolium//*//* 0.0104 * +EC1.1.1.37 nadh mesembryanthemum crystallinum//*//* 0.0136 * +EC1.1.1.37 nadh methanospirillum hungatei//prokaryotes;archaea;euryarchaeota;methanospirillum//mhu 0.08 * +EC1.1.1.37 nadh methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.09 * +EC1.1.1.37 nadh moritella sp.//*//* 0.0172 * +EC1.1.1.37 nadh mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0286 * +EC1.1.1.37 nadh nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.022 * +EC1.1.1.37 nadh physarum polycephalum//*//* 0.048 * +EC1.1.1.37 nadh phytophthora infestans//eukaryotes;protists;stramenopiles;oomycetes//pif 0.21 * +EC1.1.1.37 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.036 * +EC1.1.1.37 nadh pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.036 * +EC1.1.1.37 nadh rasamsonia emersonii//*//* 0.025 * +EC1.1.1.37 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.1.1.37 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.025 * +EC1.1.1.37 nadh rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.017 * +EC1.1.1.37 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0136 * +EC1.1.1.37 nadh salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 0.028 * +EC1.1.1.37 nadh sphyraena idiastes//*//* 0.0214 * +EC1.1.1.37 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0381 * +EC1.1.1.37 nadh streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.083 * +EC1.1.1.37 nadh sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0041 * +EC1.1.1.37 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0145 * +EC1.1.1.37 nadh syntrophobacter fumaroxidans//prokaryotes;bacteria;deltaproteobacteria;syntrophobacter//sfu 0.03 * +EC1.1.1.37 nadh taenia solium//*//* 0.048 * +EC1.1.1.37 nadh thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0117 * +EC1.1.1.37 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0024 * +EC1.1.1.37 nadh trichomonas gallinae//*//* 0.011 * +EC1.1.1.37 nadh trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0106 * +EC1.1.1.37 nadh triticum aestivum//*//* 0.39 * +EC1.1.1.37 nadh tritrichomonas suis//*//* 0.013 * +EC1.1.1.37 nadh trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.036 * +EC1.1.1.37 nadh uncultured bacterium//*//* 0.03 * +EC1.1.1.37 nadh vulcanithermus mediatlanticus//*//* 0.0014 * +EC1.1.1.37 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 0.025 * +EC1.1.1.37 nadp+ coccochloris peniocystis//*//* 0.178 * +EC1.1.1.37 nadph corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.25 * +EC1.1.1.37 nadph sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.2 * +EC1.1.1.37 nadph thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0426 * +EC1.1.1.37 nicotinamide 1-n6-ethenoadenine dinucleotide haemophilus parasuis//*//* 1.464 * +EC1.1.1.37 nicotinamide hypoxanthine dinucleotide haemophilus parasuis//*//* 0.25 * +EC1.1.1.37 oxaloacetate acinetobacter lwoffii//*//* 0.0387 * +EC1.1.1.37 oxaloacetate ananas comosus//*//* 0.0643 * +EC1.1.1.37 oxaloacetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.043 * +EC1.1.1.37 oxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.083 * +EC1.1.1.37 oxaloacetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.022 * +EC1.1.1.37 oxaloacetate beggiatoa leptomitiformis//prokaryotes;bacteria;gammaproteobacteria - others;beggiatoa//blep 0.02 * +EC1.1.1.37 oxaloacetate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.041 * +EC1.1.1.37 oxaloacetate clonorchis sinensis//*//* 0.0096 * +EC1.1.1.37 oxaloacetate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.057 * +EC1.1.1.37 oxaloacetate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.025 * +EC1.1.1.37 oxaloacetate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.17 * +EC1.1.1.37 oxaloacetate drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 0.04 * +EC1.1.1.37 oxaloacetate echinococcus granulosus//*//* 0.004 * +EC1.1.1.37 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC1.1.1.37 oxaloacetate euglena gracilis//*//* 0.023 * +EC1.1.1.37 oxaloacetate gallus sp.//*//* 0.038 * +EC1.1.1.37 oxaloacetate geophagus brasiliensis//*//* 0.0151 * +EC1.1.1.37 oxaloacetate haemophilus parasuis//*//* 0.072 * +EC1.1.1.37 oxaloacetate haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.7 * +EC1.1.1.37 oxaloacetate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.128 * +EC1.1.1.37 oxaloacetate hoplias malabaricus//*//* 0.024 * +EC1.1.1.37 oxaloacetate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.0001 * +EC1.1.1.37 oxaloacetate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.027 * +EC1.1.1.37 oxaloacetate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.031 * +EC1.1.1.37 oxaloacetate macromonas bipunctata//*//* 0.053 * +EC1.1.1.37 oxaloacetate malassezia pachydermatis//*//* 0.036 * +EC1.1.1.37 oxaloacetate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.405 * +EC1.1.1.37 oxaloacetate mesembryanthemum cordifolium//*//* 0.0391 * +EC1.1.1.37 oxaloacetate mesembryanthemum crystallinum//*//* 0.0088 * +EC1.1.1.37 oxaloacetate methanospirillum hungatei//prokaryotes;archaea;euryarchaeota;methanospirillum//mhu 0.027 * +EC1.1.1.37 oxaloacetate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.03 * +EC1.1.1.37 oxaloacetate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0443 * +EC1.1.1.37 oxaloacetate nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.02 * +EC1.1.1.37 oxaloacetate phycomyces blakesleeanus//*//* 0.03 * +EC1.1.1.37 oxaloacetate physarum polycephalum//*//* 0.06 * +EC1.1.1.37 oxaloacetate phytophthora infestans//eukaryotes;protists;stramenopiles;oomycetes//pif 0.035 * +EC1.1.1.37 oxaloacetate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.03 * +EC1.1.1.37 oxaloacetate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.032 * +EC1.1.1.37 oxaloacetate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.23 * +EC1.1.1.37 oxaloacetate rasamsonia emersonii//*//* 0.02 * +EC1.1.1.37 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.1.1.37 oxaloacetate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.085 * +EC1.1.1.37 oxaloacetate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.022 * +EC1.1.1.37 oxaloacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0094 * +EC1.1.1.37 oxaloacetate sphyraena idiastes//*//* 0.0135 * +EC1.1.1.37 oxaloacetate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0076 * +EC1.1.1.37 oxaloacetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0189 * +EC1.1.1.37 oxaloacetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.052 * +EC1.1.1.37 oxaloacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0083 * +EC1.1.1.37 oxaloacetate syntrophobacter fumaroxidans//prokaryotes;bacteria;deltaproteobacteria;syntrophobacter//sfu 0.05 * +EC1.1.1.37 oxaloacetate taenia solium//*//* 0.0024 * +EC1.1.1.37 oxaloacetate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0056 * +EC1.1.1.37 oxaloacetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.003 * +EC1.1.1.37 oxaloacetate trichomonas gallinae//*//* 0.016 * +EC1.1.1.37 oxaloacetate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0162 * +EC1.1.1.37 oxaloacetate triticum aestivum//*//* 3.23 * +EC1.1.1.37 oxaloacetate tritrichomonas suis//*//* 0.0175 * +EC1.1.1.37 oxaloacetate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.015 * +EC1.1.1.37 oxaloacetate uncultured bacterium//*//* 0.05 * +EC1.1.1.37 oxaloacetate vigna mungo//*//* 0.112 * +EC1.1.1.37 oxaloacetate vulcanithermus mediatlanticus//*//* 0.0476 * +EC1.1.1.37 oxaloacetate zea mays//eukaryotes;plants;monocots;grass family//zma 0.126 * +EC1.1.1.37 p-hydroxyphenylpyruvate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.7 * +EC1.1.1.37 pyridine 3-aldehyde adenine dinucleotide haemophilus parasuis//*//* 0.19 * +EC1.1.1.37 reduced acetylpyridine adenine dinucleotide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.37 * +EC1.1.1.37 thionicotinamide adenine dinucleotide haemophilus parasuis//*//* 0.132 * +EC1.1.1.37 thionicotinamide-nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.23 * +EC1.1.1.370 2,4,6/3,5-pentahydroxycyclohexanone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.85 * +EC1.1.1.370 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.15 * +EC1.1.1.370 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.019 * +EC1.1.1.370 scyllo-inositol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 17.1 * +EC1.1.1.370 scyllo-inosose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.85 * +EC1.1.1.371 2,4,6/3,5-pentahydroxycyclohexanone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.68 * +EC1.1.1.371 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.096 * +EC1.1.1.371 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.027 * +EC1.1.1.371 scyllo-inositol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 34.3 * +EC1.1.1.372 d-glyceraldehyde trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.9 * +EC1.1.1.372 diacetyl trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.9 * +EC1.1.1.372 dihydroxyacetone trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 5.8 * +EC1.1.1.372 glyoxal trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.4 * +EC1.1.1.372 l-glyceraldehyde trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.9 * +EC1.1.1.372 methylglyoxal trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.4 * +EC1.1.1.374 nad+ methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.18 * +EC1.1.1.374 udp-n-acetyl-alpha-d-glucosamine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.18 * +EC1.1.1.375 (2s)-3-sulfolactate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.6 * +EC1.1.1.375 (s)-malate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.025 * +EC1.1.1.375 3-sulfopyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.19 * +EC1.1.1.375 nadh methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.14 * +EC1.1.1.375 nadph methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.02 * +EC1.1.1.375 oxaloacetate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.06 * +EC1.1.1.375 pyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.84 * +EC1.1.1.376 d-fucose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 1.3 * +EC1.1.1.376 d-galactose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.109 * +EC1.1.1.376 d-galactose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 0.48 * +EC1.1.1.376 d-talose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 3.95 * +EC1.1.1.376 d-talose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 23.39 * +EC1.1.1.376 d-xylose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 2.0 * +EC1.1.1.376 l-arabinose azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.075 * +EC1.1.1.376 l-arabinose rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 0.33 * +EC1.1.1.376 nad+ rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 0.77 * +EC1.1.1.376 nadp+ rhizobium leguminosarum bv. trifolii//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rlt 0.05 * +EC1.1.1.377 l-lyxose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 1.37 * +EC1.1.1.377 l-mannose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 6.74 * +EC1.1.1.377 l-rhamnose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.46 * +EC1.1.1.377 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.1 * +EC1.1.1.378 l-fucose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 582.0 * +EC1.1.1.378 l-lyxose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 4.96 * +EC1.1.1.378 l-mannose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 89.3 * +EC1.1.1.378 l-rhamnose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2.34 * +EC1.1.1.379 (r)-mandelate rhodotorula graminis//*//* 0.325 * +EC1.1.1.379 nad+ rhodotorula graminis//*//* 0.0775 * +EC1.1.1.379 nadh rhodotorula graminis//*//* 0.026 * +EC1.1.1.379 phenylglyoxylate rhodotorula graminis//*//* 0.0455 * +EC1.1.1.38 l-malate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.2 * +EC1.1.1.38 l-malate ascaris suum//*//* 1.0 * +EC1.1.1.38 l-malate citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.8 * +EC1.1.1.38 l-malate digitaria sanguinalis//*//* 2.15 * +EC1.1.1.38 l-malate eleusine indica//*//* 1.76 * +EC1.1.1.38 l-malate erwinia aroidea//*//* 0.5 * +EC1.1.1.38 l-malate escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 1.2 * +EC1.1.1.38 l-malate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.38 l-malate escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.19 * +EC1.1.1.38 l-malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC1.1.1.38 l-malate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 4.3 * +EC1.1.1.38 l-malate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 8.0 * +EC1.1.1.38 l-malate megathyrsus maximus//*//* 1.63 * +EC1.1.1.38 l-malate panicum miliaceum//*//* 1.34 * +EC1.1.1.38 l-malate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.4 * +EC1.1.1.38 l-malate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC1.1.1.38 l-malate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 50.0 * +EC1.1.1.38 l-malate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 8.6 * +EC1.1.1.38 l-malate zea mays//eukaryotes;plants;monocots;grass family//zma 2.21 * +EC1.1.1.38 mn2+ escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.32 * +EC1.1.1.38 mn2+ lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.12 * +EC1.1.1.38 nad+ ascaris suum//*//* 0.004 * +EC1.1.1.38 nad+ digitaria sanguinalis//*//* 0.46 * +EC1.1.1.38 nad+ eleusine indica//*//* 0.39 * +EC1.1.1.38 nad+ eriochloa borumensis//*//* 0.51 * +EC1.1.1.38 nad+ escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.046 * +EC1.1.1.38 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.063 * +EC1.1.1.38 nad+ lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.05 * +EC1.1.1.38 nad+ megathyrsus maximus//*//* 0.49 * +EC1.1.1.38 nad+ panicum miliaceum//*//* 0.45 * +EC1.1.1.38 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC1.1.1.38 nad+ sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.142 * +EC1.1.1.38 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.48 * +EC1.1.1.38 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC1.1.1.38 nadp+ escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 2.3 * +EC1.1.1.38 oxaloacetate escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 5.0 * +EC1.1.1.38 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC1.1.1.381 d-3-hydroxyisobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 61.0 * +EC1.1.1.381 d-3-hydroxyisobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 57.0 * +EC1.1.1.381 d-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC1.1.1.381 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC1.1.1.381 d-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 71.0 * +EC1.1.1.381 d-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC1.1.1.381 d-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.0 * +EC1.1.1.381 l-3-hydroxybutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 95.0 * +EC1.1.1.381 l-3-hydroxyisobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC1.1.1.381 l-3-hydroxyisobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 36.0 * +EC1.1.1.381 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC1.1.1.381 l-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC1.1.1.381 l-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC1.1.1.381 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC1.1.1.381 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 95.0 * +EC1.1.1.381 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.54 * +EC1.1.1.382 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.005 * +EC1.1.1.382 nadh desulfococcus oleovorans//prokaryotes;bacteria;deltaproteobacteria;desulfococcus//dol 0.032 * +EC1.1.1.382 nadh uncultured archaeon//*//* 1.1 * +EC1.1.1.383 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.075 * +EC1.1.1.383 nadh hydrogenobaculum sp. y04aas1//prokaryotes;bacteria;aquificae;hydrogenobaculum//hya 0.039 * +EC1.1.1.383 nadh lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.285 * +EC1.1.1.383 nadh metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.024 * +EC1.1.1.383 nadh shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.415 * +EC1.1.1.383 nadh slackia exigua//*//* 0.045 * +EC1.1.1.383 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.1.1.383 nadph hydrogenobaculum sp. y04aas1//prokaryotes;bacteria;aquificae;hydrogenobaculum//hya 0.046 * +EC1.1.1.383 nadph lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.013 * +EC1.1.1.383 nadph metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.031 * +EC1.1.1.383 nadph shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.001 * +EC1.1.1.383 nadph slackia exigua//*//* 0.001 * +EC1.1.1.386 (4r)-ipsdienol ips pini//*//* 0.58 * +EC1.1.1.387 d-glycerate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.8 * +EC1.1.1.387 dl-threonine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.4 * +EC1.1.1.387 l-serine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.5 * +EC1.1.1.387 methyl 2,2-dimethyl-3-hydroxypropionate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 17.4 * +EC1.1.1.387 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.4 * +EC1.1.1.388 d-glucose 6-phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 5.4 * +EC1.1.1.388 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.18 * +EC1.1.1.39 (2r,3r)-erythrofluoromalate ascaris suum//*//* 2.0 * +EC1.1.1.39 (2s)-aspartate ascaris suum//*//* 60.0 * +EC1.1.1.39 (2s)-malate ascaris suum//*//* 1.0 * +EC1.1.1.39 (2s,3r)-tartrate ascaris suum//*//* 20.0 * +EC1.1.1.39 (s)-malate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.6 * +EC1.1.1.39 (s)-malate ascaris suum//*//* 0.8 * +EC1.1.1.39 (s)-malate brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 12.54 * +EC1.1.1.39 (s)-malate brevundimonas diminuta//*//* 5.97 * +EC1.1.1.39 (s)-malate clupea harengus//*//* 0.16 * +EC1.1.1.39 (s)-malate crassula argentea//*//* 0.59 * +EC1.1.1.39 (s)-malate glossina morsitans//*//* 2.5 * +EC1.1.1.39 (s)-malate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.2 * +EC1.1.1.39 (s)-malate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.52 * +EC1.1.1.39 (s)-malate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.7 * +EC1.1.1.39 (s)-malate sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 0.59 * +EC1.1.1.39 (s)-malate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.76 * +EC1.1.1.39 (s)-malate tritrichomonas suis//*//* 0.1 * +EC1.1.1.39 co2 clupea harengus//*//* 16.8 * +EC1.1.1.39 co2 crassula argentea//*//* 13.48 * +EC1.1.1.39 meso-tartrate ascaris suum//*//* 40.0 * +EC1.1.1.39 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC1.1.1.39 nad+ ascaris suum//*//* 0.8 * +EC1.1.1.39 nad+ atriplex spongiosa//*//* 0.3 * +EC1.1.1.39 nad+ brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.47 * +EC1.1.1.39 nad+ clupea harengus//*//* 0.2 * +EC1.1.1.39 nad+ crassula argentea//*//* 0.77 * +EC1.1.1.39 nad+ glossina morsitans//*//* 0.21 * +EC1.1.1.39 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC1.1.1.39 nad+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.11 * +EC1.1.1.39 nad+ sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.089 * +EC1.1.1.39 nad+ sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 0.101 * +EC1.1.1.39 nad+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.5 * +EC1.1.1.39 nad+ tritrichomonas suis//*//* 0.018 * +EC1.1.1.39 nadh clupea harengus//*//* 0.06 * +EC1.1.1.39 nadh crassula argentea//*//* 0.12 * +EC1.1.1.39 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.32 * +EC1.1.1.39 nadp+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.8 * +EC1.1.1.39 nadp+ sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.56 * +EC1.1.1.39 nadp+ sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 2.1 * +EC1.1.1.39 nadp+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.3 * +EC1.1.1.39 nadp+ tritrichomonas suis//*//* 0.207 * +EC1.1.1.39 pyruvate clupea harengus//*//* 4.1 * +EC1.1.1.39 pyruvate crassula argentea//*//* 15.03 * +EC1.1.1.390 sulfoquinovose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.5 * +EC1.1.1.391 12alpha-hydroxy-3-oxo-5-beta-cholan-24-oic acid eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 2.63 * +EC1.1.1.392 12alpha-hydroxy-3-oxo-5beta-cholan-24-oic acid eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 1280.0 * +EC1.1.1.393 12alpha-hydroxy-3-oxo-5beta-cholan-24-oic acid ruminococcus gnavus//*//* 0.056 * +EC1.1.1.395 3-oxochenodeoxycholoyl-coa clostridium scindens//*//* 0.0011 * +EC1.1.1.395 3-oxocholoyl-coa clostridium scindens//*//* 0.0018 * +EC1.1.1.395 3-oxodeoxycholoyl-coa clostridium scindens//*//* 0.0015 * +EC1.1.1.395 3-oxolithocholoyl-coa clostridium scindens//*//* 0.0013 * +EC1.1.1.395 chenodeoxycholic acid clostridium scindens//*//* 0.334 * +EC1.1.1.395 chenodeoxycholoyl-coa clostridium scindens//*//* 0.023 * +EC1.1.1.395 cholic acid clostridium scindens//*//* 0.802 * +EC1.1.1.395 choloyl-coa clostridium scindens//*//* 0.032 * +EC1.1.1.395 deoxycholoyl-coa clostridium scindens//*//* 0.016 * +EC1.1.1.395 glycocholic acid clostridium scindens//*//* 0.205 * +EC1.1.1.395 lithocholoyl-coa clostridium scindens//*//* 0.018 * +EC1.1.1.395 nad+ clostridium scindens//*//* 0.0067 * +EC1.1.1.395 nadp+ clostridium scindens//*//* 0.084 * +EC1.1.1.395 taurocholic acid clostridium scindens//*//* 0.201 * +EC1.1.1.398 1-hydroxy-2-glutathionyl-2-methyl-3-butene rhodococcus sp. ad45//*//* 1.4 * +EC1.1.1.398 nad+ rhodococcus sp. ad45//*//* 0.07 * +EC1.1.1.399 (r)-2-hydroxyglutarate micrococcus aerogenes//*//* 10.0 * +EC1.1.1.399 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.088 * +EC1.1.1.399 2-oxoglutarate fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 6.4e-05 * +EC1.1.1.399 2-oxoglutarate micrococcus aerogenes//*//* 0.12 * +EC1.1.1.399 nad+ micrococcus aerogenes//*//* 1.0 * +EC1.1.1.399 nadh fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 4e-06 * +EC1.1.1.399 nadh micrococcus aerogenes//*//* 0.3 * +EC1.1.1.4 (2r,3r)-2,3-butanediol clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 65.0 * +EC1.1.1.4 (2r,3r)-2,3-butanediol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.0 * +EC1.1.1.4 (2r,3r)-butane-2,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 119.3 * +EC1.1.1.4 (2r,3r)-butane-2,3-diol paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 1.76 * +EC1.1.1.4 (2r,3r)-butane-2,3-diol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.58 * +EC1.1.1.4 (2s)-acetoin corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.23 * +EC1.1.1.4 (2s,3s)-butane-2,3-diol corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.052 * +EC1.1.1.4 (3r,3s)-acetoin mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.06 * +EC1.1.1.4 (3r,3s)-acetoin paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.2 * +EC1.1.1.4 (3r,3s)-acetoin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC1.1.1.4 (3r,3s)-butane-2,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 4.15 * +EC1.1.1.4 (r)-acetoin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.12 * +EC1.1.1.4 (r)-acetoin clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 98.0 * +EC1.1.1.4 (r)-acetoin corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.49 * +EC1.1.1.4 (r)-acetoin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC1.1.1.4 (r,r)-butane-2,3-diol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.01 * +EC1.1.1.4 (r,r)-butane-2,3-diol corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.01 * +EC1.1.1.4 1,2-propanediol paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 38.0 * +EC1.1.1.4 1-hydroxy-2-propanone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.5 * +EC1.1.1.4 2,3-butanediol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.6 * +EC1.1.1.4 2,3-butanediol pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 86.8 * +EC1.1.1.4 2,3-pentanediol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.0 * +EC1.1.1.4 2-butanone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 1.8 * +EC1.1.1.4 acetaldehyde clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 5.5 * +EC1.1.1.4 acetoin clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 71.0 * +EC1.1.1.4 acetoin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC1.1.1.4 acetoin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.4 * +EC1.1.1.4 acetoin paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.53 * +EC1.1.1.4 acetoin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.5 * +EC1.1.1.4 acetone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 0.6 * +EC1.1.1.4 butanone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 1.2 * +EC1.1.1.4 d-(-)2,3-butanediol paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 3.3 * +EC1.1.1.4 diacetyl bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.13 * +EC1.1.1.4 diacetyl klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.6 * +EC1.1.1.4 diacetyl paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 87.0 * +EC1.1.1.4 diacetyl rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.1 * +EC1.1.1.4 ethyl pyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 20.0 * +EC1.1.1.4 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 14.49 * +EC1.1.1.4 meso-2,3-butanediol paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 6.25 * +EC1.1.1.4 meso-butane-2,3-diol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.38 * +EC1.1.1.4 meso-butane-2,3-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 4.94 * +EC1.1.1.4 meso-butane-2,3-diol paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 2.73 * +EC1.1.1.4 methyl glyoxal klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 75.0 * +EC1.1.1.4 methyl pyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 18.0 * +EC1.1.1.4 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.16 * +EC1.1.1.4 nad+ paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.2 * +EC1.1.1.4 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.6 * +EC1.1.1.4 nad+ rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 1.04 * +EC1.1.1.4 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.55 * +EC1.1.1.4 nadh paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.046 * +EC1.1.1.4 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.097 * +EC1.1.1.4 nadh rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.08 * +EC1.1.1.4 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.045 * +EC1.1.1.4 nadph clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 0.0017 * +EC1.1.1.40 (s)-malate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00296 * +EC1.1.1.40 (s)-malate columba livia//eukaryotes;animals;vertebrates;birds//clv 0.08 * +EC1.1.1.40 (s)-malate columba sp.//*//* 0.23 * +EC1.1.1.40 (s)-malate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC1.1.1.40 (s)-malate mortierella alpina//*//* 2.19 * +EC1.1.1.40 (s)-malate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.13 * +EC1.1.1.40 (s)-malate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.81 * +EC1.1.1.40 (s)-malate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.36 * +EC1.1.1.40 (s)-malate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.018 * +EC1.1.1.40 (s)-malate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.67 * +EC1.1.1.40 (s)-malate zea mays//eukaryotes;plants;monocots;grass family//zma 0.00015 * +EC1.1.1.40 bicarbonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC1.1.1.40 l-malate anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.073 * +EC1.1.1.40 l-malate cenchrus purpureus//*//* 0.04 * +EC1.1.1.40 l-malate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.8 * +EC1.1.1.40 l-malate egeria densa//*//* 4.5 * +EC1.1.1.40 l-malate flaveria floridana//*//* 0.46 * +EC1.1.1.40 l-malate haloxylon persicum//*//* 0.08 * +EC1.1.1.40 l-malate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.1.1.40 l-malate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 2.1 * +EC1.1.1.40 l-malate mangifera indica//*//* 0.666 * +EC1.1.1.40 l-malate mesembryanthemum cordifolium//*//* 1.1 * +EC1.1.1.40 l-malate mesembryanthemum crystallinum//*//* 0.35 * +EC1.1.1.40 l-malate pigeon//*//* 0.041 * +EC1.1.1.40 l-malate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.22 * +EC1.1.1.40 l-malate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.6 * +EC1.1.1.40 l-malate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.53 * +EC1.1.1.40 l-malate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC1.1.1.40 l-malate triticum aestivum//*//* 0.96 * +EC1.1.1.40 l-malate zea mays//eukaryotes;plants;monocots;grass family//zma 0.09 * +EC1.1.1.40 malate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.06 * +EC1.1.1.40 malate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.7 * +EC1.1.1.40 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC1.1.1.40 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.25 * +EC1.1.1.40 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 8.1 * +EC1.1.1.40 nadp+ anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.0046 * +EC1.1.1.40 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0065 * +EC1.1.1.40 nadp+ cenchrus purpureus//*//* 0.002 * +EC1.1.1.40 nadp+ columba livia//eukaryotes;animals;vertebrates;birds//clv 0.00207 * +EC1.1.1.40 nadp+ columba sp.//*//* 0.0034 * +EC1.1.1.40 nadp+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.083 * +EC1.1.1.40 nadp+ egeria densa//*//* 0.0472 * +EC1.1.1.40 nadp+ flaveria floridana//*//* 0.012 * +EC1.1.1.40 nadp+ haloxylon persicum//*//* 0.00315 * +EC1.1.1.40 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00139 * +EC1.1.1.40 nadp+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.046 * +EC1.1.1.40 nadp+ mangifera indica//*//* 0.016 * +EC1.1.1.40 nadp+ mesembryanthemum cordifolium//*//* 0.013 * +EC1.1.1.40 nadp+ mesembryanthemum crystallinum//*//* 0.0099 * +EC1.1.1.40 nadp+ mortierella alpina//*//* 0.38 * +EC1.1.1.40 nadp+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00171 * +EC1.1.1.40 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.014 * +EC1.1.1.40 nadp+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.035 * +EC1.1.1.40 nadp+ pigeon//*//* 0.016 * +EC1.1.1.40 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.07 * +EC1.1.1.40 nadp+ ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0082 * +EC1.1.1.40 nadp+ solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.038 * +EC1.1.1.40 nadp+ sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.011 * +EC1.1.1.40 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.003 * +EC1.1.1.40 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00118 * +EC1.1.1.40 nadp+ trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0028 * +EC1.1.1.40 nadp+ triticum aestivum//*//* 0.037 * +EC1.1.1.40 nadp+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.0036 * +EC1.1.1.40 nadph corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.06 * +EC1.1.1.40 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.1.1.40 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.045 * +EC1.1.1.40 nahco3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.0 * +EC1.1.1.40 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC1.1.1.40 pyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 13.8 * +EC1.1.1.40 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC1.1.1.40 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.69 * +EC1.1.1.40 pyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC1.1.1.40 pyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 3.0 * +EC1.1.1.401 2-dehydro-3-deoxy-l-lyxonate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 1.27 * +EC1.1.1.401 2-dehydro-3-deoxy-l-mannonate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 1.9 * +EC1.1.1.401 2-dehydro-3-deoxy-l-rhamnonate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.646 * +EC1.1.1.401 2-dehydro-3-deoxy-l-rhamnonate sulfobacillus thermosulfidooxidans//*//* 2.0 * +EC1.1.1.401 nad+ sulfobacillus thermosulfidooxidans//*//* 0.42 * +EC1.1.1.404 2,6-dichloroindophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0383 * +EC1.1.1.404 cytochrome c sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0176 * +EC1.1.1.404 nadh sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0115 * +EC1.1.1.404 nadph sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.21 * +EC1.1.1.405 d-arabinose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.0 * +EC1.1.1.405 d-erythrose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.038 * +EC1.1.1.405 d-ribitol 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.05 * +EC1.1.1.405 d-ribose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 2.2 * +EC1.1.1.405 d-ribulose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.076 * +EC1.1.1.405 d-ribulose 5-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.061 * +EC1.1.1.405 d-ribulose haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.1 * +EC1.1.1.405 d-xylulose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.5 * +EC1.1.1.405 nadh haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.6 * +EC1.1.1.405 nadph haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.00706 * +EC1.1.1.405 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00674 * +EC1.1.1.405 ribulose 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.106 * +EC1.1.1.405 ribulose 5-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0285 * +EC1.1.1.406 (s)-1,2,6-hexanetriol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.5 * +EC1.1.1.406 (s)-1,2-butanediol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 49.0 * +EC1.1.1.406 (s)-1,2-hexanediol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.4 * +EC1.1.1.406 (s)-1,2-propanediol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 196.0 * +EC1.1.1.406 1,2-hexanediol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.2 * +EC1.1.1.406 1-hydroxy-2-butanone rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 26.0 * +EC1.1.1.406 2,3-hexanedione rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.4 * +EC1.1.1.406 3,4-hexanedione rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 4.2 * +EC1.1.1.406 acetoin rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 62.0 * +EC1.1.1.406 d-threitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 85.0 * +EC1.1.1.406 dihydroxyacetone rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 48.0 * +EC1.1.1.406 galactitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 22.0 * +EC1.1.1.406 hydroxyacetone rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 202.0 * +EC1.1.1.406 l-erythrulose rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 144.0 * +EC1.1.1.406 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.012 * +EC1.1.1.406 nadh rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.004 * +EC1.1.1.407 d-altritol agrobacterium fabrum//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atu 1.4 * +EC1.1.1.408 4-hydroxy-l-threonine 4-phosphate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.2 * +EC1.1.1.408 4-hydroxy-l-threonine 4-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.19 * +EC1.1.1.408 4-phospho-d-threonate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.12 * +EC1.1.1.408 4-phospho-d-threonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.054 * +EC1.1.1.41 d,l-isocitrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.45 * +EC1.1.1.41 d,l-isocitrate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.03 * +EC1.1.1.41 d,l-isocitrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC1.1.1.41 d-isocitrate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 7.9 * +EC1.1.1.41 d-isocitrate colwellia maris//*//* 62.2 * +EC1.1.1.41 d-isocitrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC1.1.1.41 homoisocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0183 * +EC1.1.1.41 isocitrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC1.1.1.41 isocitrate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.0517 * +EC1.1.1.41 isocitrate pisum sativum//*//* 0.12 * +EC1.1.1.41 isocitrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0164 * +EC1.1.1.41 isocitrate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.581 * +EC1.1.1.41 nad+ acidithiobacillus thiooxidans//*//* 0.18 * +EC1.1.1.41 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC1.1.1.41 nad+ congregibacter litoralis//*//* 0.263 * +EC1.1.1.41 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.3 * +EC1.1.1.41 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.7 * +EC1.1.1.41 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.1.1.41 nad+ pisum sativum//*//* 0.2 * +EC1.1.1.41 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.25 * +EC1.1.1.41 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.068 * +EC1.1.1.41 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0771 * +EC1.1.1.41 nad+ yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.136 * +EC1.1.1.41 nadp+ acidithiobacillus thiooxidans//*//* 6.57 * +EC1.1.1.41 nadp+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 5.8 * +EC1.1.1.41 nadp+ colwellia maris//*//* 6.9 * +EC1.1.1.41 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC1.1.1.41 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.44 * +EC1.1.1.410 d-erythronate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.59 * +EC1.1.1.411 l-threonate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.3 * +EC1.1.1.411 l-threonate pectobacterium atrosepticum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//eca 0.13 * +EC1.1.1.42 (2r,3s)-isocitrate pisum sativum//*//* 0.019 * +EC1.1.1.42 2-oxoglutarate chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.304 * +EC1.1.1.42 2-oxoglutarate pisum sativum//*//* 0.017 * +EC1.1.1.42 2-oxoglutarate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.398 * +EC1.1.1.42 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC1.1.1.42 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.13 * +EC1.1.1.42 co2 pisum sativum//*//* 0.2 * +EC1.1.1.42 d,l-isocitrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.118 * +EC1.1.1.42 d,l-isocitrate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0091 * +EC1.1.1.42 d,l-isocitrate caldococcus noboribetus//*//* 0.072 * +EC1.1.1.42 d,l-isocitrate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0125 * +EC1.1.1.42 d,l-isocitrate desulfobacter vibrioformis//*//* 0.0204 * +EC1.1.1.42 d,l-isocitrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.1.1.42 d,l-isocitrate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.074 * +EC1.1.1.42 d,l-isocitrate phormidium laminosum//*//* 0.022 * +EC1.1.1.42 d,l-isocitrate pinus spp.//*//* 0.08 * +EC1.1.1.42 d,l-isocitrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0026 * +EC1.1.1.42 d,l-isocitrate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0057 * +EC1.1.1.42 d,l-isocitrate thermoleophilum minutum//*//* 0.033 * +EC1.1.1.42 d,l-isocitrate thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.0097 * +EC1.1.1.42 d,l-isocitrate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0017 * +EC1.1.1.42 d-isocitrate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.042 * +EC1.1.1.42 d-isocitrate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.028 * +EC1.1.1.42 dl-isocitrate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.108 * +EC1.1.1.42 dl-isocitrate microcystis aeruginosa//prokaryotes;bacteria;cyanobacteria;microcystis//mar 0.0326 * +EC1.1.1.42 dl-isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01 * +EC1.1.1.42 dl-isocitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC1.1.1.42 dl-isocitrate saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.00013 * +EC1.1.1.42 dl-isocitrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0084 * +EC1.1.1.42 dl-isocitrate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.021 * +EC1.1.1.42 isocitrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.332 * +EC1.1.1.42 isocitrate chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.001 * +EC1.1.1.42 isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC1.1.1.42 isocitrate fomitopsis palustris//*//* 0.0127 * +EC1.1.1.42 isocitrate gryllus firmus//*//* 0.0147 * +EC1.1.1.42 isocitrate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.13 * +EC1.1.1.42 isocitrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC1.1.1.42 isocitrate pisum sativum//*//* 0.004 * +EC1.1.1.42 isocitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC1.1.1.42 isocitrate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.009 * +EC1.1.1.42 isocitrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC1.1.1.42 isocitrate spirodela polyrhiza//*//* 0.07 * +EC1.1.1.42 isocitrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.009 * +EC1.1.1.42 isocitrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0075 * +EC1.1.1.42 mg2+ fomitopsis palustris//*//* 0.0239 * +EC1.1.1.42 mg2+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.012 * +EC1.1.1.42 mg2+ phormidium laminosum//*//* 0.159 * +EC1.1.1.42 mg2+ spirodela polyrhiza//*//* 0.12 * +EC1.1.1.42 mg2+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.125 * +EC1.1.1.42 mn2+ phormidium laminosum//*//* 0.024 * +EC1.1.1.42 mn2+ spirodela polyrhiza//*//* 0.08 * +EC1.1.1.42 mn2+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00011 * +EC1.1.1.42 mn2+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.004 * +EC1.1.1.42 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5.4 * +EC1.1.1.42 nad+ rhodomicrobium vannielii//prokaryotes;bacteria;alphaproteobacteria;rhodomicrobium//rva 0.77 * +EC1.1.1.42 nad+ streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 8.49 * +EC1.1.1.42 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.9 * +EC1.1.1.42 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0179 * +EC1.1.1.42 nadp+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.0444 * +EC1.1.1.42 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0044 * +EC1.1.1.42 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0165 * +EC1.1.1.42 nadp+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0073 * +EC1.1.1.42 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0274 * +EC1.1.1.42 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC1.1.1.42 nadp+ caldococcus noboribetus//*//* 0.043 * +EC1.1.1.42 nadp+ chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.01 * +EC1.1.1.42 nadp+ chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.007 * +EC1.1.1.42 nadp+ desulfobacter vibrioformis//*//* 0.0102 * +EC1.1.1.42 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0392 * +EC1.1.1.42 nadp+ fomitopsis palustris//*//* 0.0029 * +EC1.1.1.42 nadp+ gryllus firmus//*//* 0.0023 * +EC1.1.1.42 nadp+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.101 * +EC1.1.1.42 nadp+ microcystis aeruginosa//prokaryotes;bacteria;cyanobacteria;microcystis//mar 0.0322 * +EC1.1.1.42 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0037 * +EC1.1.1.42 nadp+ mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.053 * +EC1.1.1.42 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.125 * +EC1.1.1.42 nadp+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.007 * +EC1.1.1.42 nadp+ phormidium laminosum//*//* 0.032 * +EC1.1.1.42 nadp+ pinus spp.//*//* 0.01 * +EC1.1.1.42 nadp+ pisum sativum//*//* 0.003 * +EC1.1.1.42 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC1.1.1.42 nadp+ rhodomicrobium vannielii//prokaryotes;bacteria;alphaproteobacteria;rhodomicrobium//rva 0.0025 * +EC1.1.1.42 nadp+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.017 * +EC1.1.1.42 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.1.1.42 nadp+ saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 2.8e-05 * +EC1.1.1.42 nadp+ spirodela polyrhiza//*//* 0.08 * +EC1.1.1.42 nadp+ streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.00242 * +EC1.1.1.42 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.085 * +EC1.1.1.42 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0056 * +EC1.1.1.42 nadp+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.006 * +EC1.1.1.42 nadp+ thermoleophilum minutum//*//* 0.048 * +EC1.1.1.42 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.111 * +EC1.1.1.42 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0552 * +EC1.1.1.42 nadp+ thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.0165 * +EC1.1.1.42 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.045 * +EC1.1.1.42 nadp+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.003 * +EC1.1.1.42 nadph chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.01 * +EC1.1.1.42 nadph pisum sativum//*//* 0.009 * +EC1.1.1.42 nadph rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.034 * +EC1.1.1.42 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.1.1.42 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0092 * +EC1.1.1.42 nahco3 chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 11.68 * +EC1.1.1.42 nahco3 rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 13.82 * +EC1.1.1.42 oxalosuccinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.56 * +EC1.1.1.43 2-keto-6-phospho-d-gluconate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.38 * +EC1.1.1.43 6-phospho-d-gluconate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.02 * +EC1.1.1.43 6-phospho-d-gluconate candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.094 * +EC1.1.1.43 6-phospho-d-gluconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.1.1.43 6-phospho-d-gluconate strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 0.014 * +EC1.1.1.43 6-phospho-d-gluconate zea mays//eukaryotes;plants;monocots;grass family//zma 0.14 * +EC1.1.1.43 nad+ burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.2 * +EC1.1.1.43 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.04 * +EC1.1.1.43 nadp+ burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.02 * +EC1.1.1.43 nadp+ candida boidinii//*//* 0.013 * +EC1.1.1.43 nadp+ candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.028 * +EC1.1.1.43 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC1.1.1.43 nadp+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.023 * +EC1.1.1.44 2-deoxy-3-oxo-6-phosphogluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.082 * +EC1.1.1.44 2-deoxy-3-oxo-6-phosphogluconate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.42 * +EC1.1.1.44 2-deoxy-3-oxo-6-phosphogluconate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0096 * +EC1.1.1.44 2-deoxy-6-phosphogluconate cyberlindnera jadinii//*//* 0.55 * +EC1.1.1.44 2-deoxy-6-phosphogluconate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.4 * +EC1.1.1.44 6,7-dideoxy-7-phosphono-d-glucoheptonate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.011 * +EC1.1.1.44 6,7-dideoxy-7-phosphono-d-glucoheptonate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0048 * +EC1.1.1.44 6-phospho-d-gluconate ctenopharyngodon idella//*//* 0.019 * +EC1.1.1.44 6-phospho-d-gluconate cyberlindnera jadinii//*//* 0.04 * +EC1.1.1.44 6-phospho-d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.093 * +EC1.1.1.44 6-phospho-d-gluconate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0822 * +EC1.1.1.44 6-phospho-d-gluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC1.1.1.44 6-phospho-d-gluconate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.107 * +EC1.1.1.44 6-phospho-d-gluconate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.028 * +EC1.1.1.44 6-phospho-d-gluconate pisum sativum//*//* 0.0102 * +EC1.1.1.44 6-phospho-d-gluconate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.595 * +EC1.1.1.44 6-phospho-d-gluconate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0509 * +EC1.1.1.44 6-phospho-d-gluconate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.011 * +EC1.1.1.44 6-phospho-d-gluconate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00013 * +EC1.1.1.44 6-phosphogluconate arthrobacter globiformis//*//* 0.11 * +EC1.1.1.44 6-phosphogluconate avena fatua//*//* 0.071 * +EC1.1.1.44 6-phosphogluconate beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.065 * +EC1.1.1.44 6-phosphogluconate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.045 * +EC1.1.1.44 6-phosphogluconate candida boidinii//*//* 0.011 * +EC1.1.1.44 6-phosphogluconate catharanthus roseus//*//* 0.015 * +EC1.1.1.44 6-phosphogluconate corylus avellana//*//* 0.11 * +EC1.1.1.44 6-phosphogluconate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.034 * +EC1.1.1.44 6-phosphogluconate cyberlindnera jadinii//*//* 0.0068 * +EC1.1.1.44 6-phosphogluconate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.006 * +EC1.1.1.44 6-phosphogluconate dicentrarchus labrax//*//* 0.02666 * +EC1.1.1.44 6-phosphogluconate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.04 * +EC1.1.1.44 6-phosphogluconate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.024 * +EC1.1.1.44 6-phosphogluconate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0343 * +EC1.1.1.44 6-phosphogluconate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.014 * +EC1.1.1.44 6-phosphogluconate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.098 * +EC1.1.1.44 6-phosphogluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.44 6-phosphogluconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.01 * +EC1.1.1.44 6-phosphogluconate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.054 * +EC1.1.1.44 6-phosphogluconate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0069 * +EC1.1.1.44 6-phosphogluconate phormidium sp.//*//* 0.036 * +EC1.1.1.44 6-phosphogluconate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.071 * +EC1.1.1.44 6-phosphogluconate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0096 * +EC1.1.1.44 6-phosphogluconate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.068 * +EC1.1.1.44 6-phosphogluconate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.08 * +EC1.1.1.44 6-phosphogluconate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0135 * +EC1.1.1.44 6-phosphogluconate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.04 * +EC1.1.1.44 6-phosphogluconate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.035 * +EC1.1.1.44 6-phosphogluconate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.007 * +EC1.1.1.44 6-phosphono-d-gluconate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.016 * +EC1.1.1.44 6-phosphono-d-gluconate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0035 * +EC1.1.1.44 6-phosphono-d-gluconate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.022 * +EC1.1.1.44 co2 cyberlindnera jadinii//*//* 50.0 * +EC1.1.1.44 co2 ovis aries//eukaryotes;animals;vertebrates;mammals//oas 34.0 * +EC1.1.1.44 mg2+ dicentrarchus labrax//*//* 3.33 * +EC1.1.1.44 mgcl2 ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 1.7 * +EC1.1.1.44 nad+ cyberlindnera jadinii//*//* 1.0 * +EC1.1.1.44 nad+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.397 * +EC1.1.1.44 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.38 * +EC1.1.1.44 nadp+ arthrobacter globiformis//*//* 0.035 * +EC1.1.1.44 nadp+ avena fatua//*//* 0.006 * +EC1.1.1.44 nadp+ beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.025 * +EC1.1.1.44 nadp+ brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.036 * +EC1.1.1.44 nadp+ candida boidinii//*//* 0.013 * +EC1.1.1.44 nadp+ catharanthus roseus//*//* 0.008 * +EC1.1.1.44 nadp+ corylus avellana//*//* 0.016 * +EC1.1.1.44 nadp+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.017 * +EC1.1.1.44 nadp+ ctenopharyngodon idella//*//* 0.0052 * +EC1.1.1.44 nadp+ cyberlindnera jadinii//*//* 0.008 * +EC1.1.1.44 nadp+ dicentrarchus labrax//*//* 0.00088 * +EC1.1.1.44 nadp+ dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.018 * +EC1.1.1.44 nadp+ enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.015 * +EC1.1.1.44 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.049 * +EC1.1.1.44 nadp+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.6211 * +EC1.1.1.44 nadp+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0034 * +EC1.1.1.44 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.1.1.44 nadp+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.118 * +EC1.1.1.44 nadp+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.0139 * +EC1.1.1.44 nadp+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.015 * +EC1.1.1.44 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.023 * +EC1.1.1.44 nadp+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.002 * +EC1.1.1.44 nadp+ phormidium sp.//*//* 0.013 * +EC1.1.1.44 nadp+ pisum sativum//*//* 0.011 * +EC1.1.1.44 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.1.1.44 nadp+ ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0041 * +EC1.1.1.44 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC1.1.1.44 nadp+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.007 * +EC1.1.1.44 nadp+ synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.01 * +EC1.1.1.44 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.005 * +EC1.1.1.44 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0046 * +EC1.1.1.44 nadph cyberlindnera jadinii//*//* 0.002 * +EC1.1.1.44 nadph ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00022 * +EC1.1.1.44 ribulose-5-phosphate cyberlindnera jadinii//*//* 1.0 * +EC1.1.1.44 ribulose-5-phosphate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.02 * +EC1.1.1.45 2,3-diketo-l-gulonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.3 * +EC1.1.1.45 acetoacetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.3 * +EC1.1.1.45 acetoacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.4 * +EC1.1.1.45 beta-keto-l-gulonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC1.1.1.45 d-gluconate schwanniomyces occidentalis//*//* 19.0 * +EC1.1.1.45 l-3-hydroxybutanoate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 14.9 * +EC1.1.1.45 l-3-hydroxybutanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.3 * +EC1.1.1.45 l-3-hydroxybutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.3 * +EC1.1.1.45 l-gulonate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.25 * +EC1.1.1.45 l-gulonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.1.1.45 l-gulonate schwanniomyces occidentalis//*//* 55.0 * +EC1.1.1.45 l-gulonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.1 * +EC1.1.1.45 l-idonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.3 * +EC1.1.1.45 l-threonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.9 * +EC1.1.1.45 nad+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.09 * +EC1.1.1.45 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC1.1.1.45 nad+ schwanniomyces occidentalis//*//* 1.1 * +EC1.1.1.45 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.1.1.45 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC1.1.1.45 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.67 * +EC1.1.1.46 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 2.0 * +EC1.1.1.46 nadp+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 2.1 * +EC1.1.1.47 2-deoxy-beta-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 47.8 * +EC1.1.1.47 2-deoxy-d-glucose 6-phosphate oncorhynchus mykiss//*//* 0.3 * +EC1.1.1.47 2-deoxy-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.2 * +EC1.1.1.47 4-o-(beta-d-glucopyranosido)-beta-d-glucopyranoside corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 9.8 * +EC1.1.1.47 6-o-(beta-d-glucopyranosido)-beta-d-glucopyranoside corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.2 * +EC1.1.1.47 beta-d-galactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.44 * +EC1.1.1.47 beta-d-glucose bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 4.5 * +EC1.1.1.47 beta-d-glucose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.2 * +EC1.1.1.47 beta-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.8 * +EC1.1.1.47 beta-d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.38 * +EC1.1.1.47 beta-d-glucose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 2.8 * +EC1.1.1.47 beta-d-glucose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 59.0 * +EC1.1.1.47 beta-d-glucose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 5.0 * +EC1.1.1.47 beta-d-glucose halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.14 * +EC1.1.1.47 beta-d-glucose nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 14.0 * +EC1.1.1.47 beta-d-glucose oncorhynchus mykiss//*//* 20.0 * +EC1.1.1.47 beta-d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.17 * +EC1.1.1.47 beta-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0024 * +EC1.1.1.47 beta-d-glucose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 10.0 * +EC1.1.1.47 beta-d-glucose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.3 * +EC1.1.1.47 beta-d-xylose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 68.0 * +EC1.1.1.47 cellobiose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 11.0 * +EC1.1.1.47 d-galactose 6-phosphate oncorhynchus mykiss//*//* 0.04 * +EC1.1.1.47 d-galactose oncorhynchus mykiss//*//* 800.0 * +EC1.1.1.47 d-glucosamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 35.0 * +EC1.1.1.47 d-glucose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0255 * +EC1.1.1.47 d-glucose 6-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.049 * +EC1.1.1.47 d-glucose 6-phosphate oncorhynchus mykiss//*//* 0.01 * +EC1.1.1.47 d-glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC1.1.1.47 d-glucose-6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0029 * +EC1.1.1.47 d-glucose bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 5.5 * +EC1.1.1.47 d-glucose bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 3.1 * +EC1.1.1.47 d-glucose bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 0.55 * +EC1.1.1.47 d-glucose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 51.0 * +EC1.1.1.47 d-glucose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 5.0 * +EC1.1.1.47 d-glucose lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 5.1 * +EC1.1.1.47 d-glucose oncorhynchus mykiss//*//* 80.0 * +EC1.1.1.47 d-glucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.17 * +EC1.1.1.47 d-xylose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 125.0 * +EC1.1.1.47 d-xylose oncorhynchus mykiss//*//* 70.0 * +EC1.1.1.47 d-xylose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.18 * +EC1.1.1.47 galactose 6-phosphate oncorhynchus mykiss//*//* 0.01 * +EC1.1.1.47 gentiobiose corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.2 * +EC1.1.1.47 nad+ bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.25 * +EC1.1.1.47 nad+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.081 * +EC1.1.1.47 nad+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.082 * +EC1.1.1.47 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.11 * +EC1.1.1.47 nad+ bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 0.17 * +EC1.1.1.47 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0212 * +EC1.1.1.47 nad+ corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.44 * +EC1.1.1.47 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.094 * +EC1.1.1.47 nad+ oncorhynchus mykiss//*//* 0.05 * +EC1.1.1.47 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.57 * +EC1.1.1.47 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0003 * +EC1.1.1.47 nad+ thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.86 * +EC1.1.1.47 nadp+ bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.05 * +EC1.1.1.47 nadp+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.018 * +EC1.1.1.47 nadp+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.061 * +EC1.1.1.47 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.26 * +EC1.1.1.47 nadp+ bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 0.03 * +EC1.1.1.47 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.062 * +EC1.1.1.47 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.01 * +EC1.1.1.47 nadp+ halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.19 * +EC1.1.1.47 nadp+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.072 * +EC1.1.1.47 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.026 * +EC1.1.1.47 nadp+ nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.024 * +EC1.1.1.47 nadp+ oncorhynchus mykiss//*//* 0.09 * +EC1.1.1.47 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.1.1.47 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0036 * +EC1.1.1.47 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.113 * +EC1.1.1.47 nadp+ thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.7 * +EC1.1.1.47 nadph halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.49 * +EC1.1.1.47 xylose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 8.0 * +EC1.1.1.48 d-galactose azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.5 * +EC1.1.1.48 d-galactose pelomonas saccharophila//*//* 1.0 * +EC1.1.1.48 d-galactose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.185 * +EC1.1.1.48 l-arabinose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.215 * +EC1.1.1.48 nad+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.125 * +EC1.1.1.48 nad+ pelomonas saccharophila//*//* 0.14 * +EC1.1.1.48 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.15 * +EC1.1.1.48 nadp+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.3 * +EC1.1.1.49 2-deoxy-d-glucose 6-phosphate canis lupus familiaris//*//* 24.0 * +EC1.1.1.49 6-phosphonogluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.864 * +EC1.1.1.49 6-phosphonogluconate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.279 * +EC1.1.1.49 d-galactose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC1.1.1.49 d-galactose 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.046 * +EC1.1.1.49 d-glucose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.57 * +EC1.1.1.49 d-glucose 6-phosphate aspergillus aculeatus//*//* 0.075 * +EC1.1.1.49 d-glucose 6-phosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.092 * +EC1.1.1.49 d-glucose 6-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.153 * +EC1.1.1.49 d-glucose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.042 * +EC1.1.1.49 d-glucose 6-phosphate canis lupus familiaris//*//* 0.122 * +EC1.1.1.49 d-glucose 6-phosphate coriandrum sativum//*//* 0.026 * +EC1.1.1.49 d-glucose 6-phosphate cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.024 * +EC1.1.1.49 d-glucose 6-phosphate cyberlindnera jadinii//*//* 0.23 * +EC1.1.1.49 d-glucose 6-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.04 * +EC1.1.1.49 d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.1.1.49 d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.1.1.49 d-glucose 6-phosphate hordeum vulgare//*//* 0.78 * +EC1.1.1.49 d-glucose 6-phosphate koliella antarctica//*//* 0.44 * +EC1.1.1.49 d-glucose 6-phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0745 * +EC1.1.1.49 d-glucose 6-phosphate meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.05 * +EC1.1.1.49 d-glucose 6-phosphate meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.05 * +EC1.1.1.49 d-glucose 6-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.037 * +EC1.1.1.49 d-glucose 6-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.24 * +EC1.1.1.49 d-glucose 6-phosphate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.036 * +EC1.1.1.49 d-glucose 6-phosphate pisum sativum//*//* 0.1073 * +EC1.1.1.49 d-glucose 6-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0145 * +EC1.1.1.49 d-glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC1.1.1.49 d-glucose 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.056 * +EC1.1.1.49 d-glucose 6-phosphate taenia crassiceps//*//* 0.014 * +EC1.1.1.49 d-glucose 6-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0578 * +EC1.1.1.49 d-glucose 6-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.077 * +EC1.1.1.49 deamino-nadp+ canis lupus familiaris//*//* 2.0 * +EC1.1.1.49 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.047 * +EC1.1.1.49 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.67 * +EC1.1.1.49 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.024 * +EC1.1.1.49 nadp+ aspergillus aculeatus//*//* 0.006 * +EC1.1.1.49 nadp+ aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.03 * +EC1.1.1.49 nadp+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.026 * +EC1.1.1.49 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0056 * +EC1.1.1.49 nadp+ camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.081 * +EC1.1.1.49 nadp+ canis lupus familiaris//*//* 0.01 * +EC1.1.1.49 nadp+ coriandrum sativum//*//* 0.116 * +EC1.1.1.49 nadp+ cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0016 * +EC1.1.1.49 nadp+ cyberlindnera jadinii//*//* 0.067 * +EC1.1.1.49 nadp+ dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.011 * +EC1.1.1.49 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0075 * +EC1.1.1.49 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.1.1.49 nadp+ hordeum vulgare//*//* 0.0066 * +EC1.1.1.49 nadp+ koliella antarctica//*//* 0.077 * +EC1.1.1.49 nadp+ leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0121 * +EC1.1.1.49 nadp+ meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.017 * +EC1.1.1.49 nadp+ meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 1.98 * +EC1.1.1.49 nadp+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.012 * +EC1.1.1.49 nadp+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.041 * +EC1.1.1.49 nadp+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.2e-05 * +EC1.1.1.49 nadp+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0086 * +EC1.1.1.49 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC1.1.1.49 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC1.1.1.49 nadp+ taenia crassiceps//*//* 0.0013 * +EC1.1.1.49 nadp+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0053 * +EC1.1.1.49 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.016 * +EC1.1.1.49 nadph aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.02 * +EC1.1.1.49 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.1.1.49 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.023 * +EC1.1.1.50 (2z)-2-(5-hydroxy-4,6-dimethyl-2-oxo-1,2-dihydro-3h-indol-3-ylidene)-n,n-di(prop-2-en-1-yl)hydrazinecarbothioamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.1.1.50 (3alpha,5beta,7beta)-3,7-dihydroxycholan-24-oic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.069 * +EC1.1.1.50 17beta-hydroxy-5alpha-androstan-3-one eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.002 * +EC1.1.1.50 17beta-hydroxy-5alpha-androstan-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC1.1.1.50 17beta-hydroxy-5beta-androstan-3-one mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC1.1.1.50 17beta-hydroxy-5beta-androstan-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC1.1.1.50 3-oxo-5beta-cholan-24-oic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0007 * +EC1.1.1.50 3alpha-adiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.1.1.50 3alpha-hydroxy-5alpha-pregnan-20-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC1.1.1.50 3alpha-tetrahydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.1.1.50 4-nitroacetophenone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC1.1.1.50 4-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC1.1.1.50 5alpha-androstan-3,17-dione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0012 * +EC1.1.1.50 5alpha-androstane-3,17-dione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0012 * +EC1.1.1.50 5alpha-androstane-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00065 * +EC1.1.1.50 5alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC1.1.1.50 5alpha-dihydrotestosterone canis lupus familiaris//*//* 0.00062 * +EC1.1.1.50 5alpha-dihydrotestosterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.007 * +EC1.1.1.50 5alpha-dihydrotestosterone eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.007 * +EC1.1.1.50 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC1.1.1.50 5alpha-dihydrotestosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC1.1.1.50 5alpha-dihydrotestosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.1.1.50 5alpha-pregnan-3,20-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.2e-05 * +EC1.1.1.50 5beta-androstan-3,17-dione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00016 * +EC1.1.1.50 5beta-androstan-3,17-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00035 * +EC1.1.1.50 5beta-androstane-3,17-dione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0012 * +EC1.1.1.50 5beta-dihydrocortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.1.1.50 5beta-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00051 * +EC1.1.1.50 5beta-pregnan-3alpha-ol-20-one digitalis purpurea//*//* 0.235 * +EC1.1.1.50 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC1.1.1.50 allopregnanolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.1.1.50 androstanedione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0422 * +EC1.1.1.50 androstanedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.50 androsterone comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0311 * +EC1.1.1.50 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC1.1.1.50 androsterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0095 * +EC1.1.1.50 androsterone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.21 * +EC1.1.1.50 androsterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.1.1.50 camphorquinone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC1.1.1.50 chenodeoxycholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.063 * +EC1.1.1.50 cholate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.015 * +EC1.1.1.50 cholic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0184 * +EC1.1.1.50 cholic acid eggerthella lenta//prokaryotes;bacteria;actinobacteria;eggerthella//ele 0.01 * +EC1.1.1.50 cholic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC1.1.1.50 cholic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.01 * +EC1.1.1.50 cholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.031 * +EC1.1.1.50 deoxycholate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0136 * +EC1.1.1.50 fusidic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0061 * +EC1.1.1.50 fusidic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0062 * +EC1.1.1.50 glycocholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.038 * +EC1.1.1.50 glycolithocholic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0052 * +EC1.1.1.50 glycolithocholic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0052 * +EC1.1.1.50 lithocholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.068 * +EC1.1.1.50 nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0038 * +EC1.1.1.50 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.011 * +EC1.1.1.50 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.64 * +EC1.1.1.50 nadh comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.004 * +EC1.1.1.50 nadh digitalis purpurea//*//* 0.4 * +EC1.1.1.50 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC1.1.1.50 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC1.1.1.50 nadph digitalis purpurea//*//* 0.91 * +EC1.1.1.50 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC1.1.1.50 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00097 * +EC1.1.1.50 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00071 * +EC1.1.1.50 oxidized 8-acetyl-2,3,5,6-tetrahydro-1h,4h-11-oxa-3a-azabenzo[de]anthracen-10-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.1.1.50 taurocholic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.043 * +EC1.1.1.50 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.1.1.50 testosterone ictalurus punctatus//eukaryotes;animals;vertebrates;fishes//ipu 0.119 * +EC1.1.1.50 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC1.1.1.51 20alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00053 * +EC1.1.1.51 3-acetylpyridine adenine dinucleotide comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.685 * +EC1.1.1.51 3-pyridinealdehyde adenine dinucleotide comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.063 * +EC1.1.1.51 5-androsten-3beta-ol-17-one digitalis lanata//*//* 0.642 * +EC1.1.1.51 5-pregnen-3beta-ol-20-one digitalis lanata//*//* 0.09 * +EC1.1.1.51 5alpha-androst-16-en-3-one sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.068 * +EC1.1.1.51 5alpha-dihydrotestosterone cavia porcellus//*//* 0.2 * +EC1.1.1.51 5alpha-dihydrotestosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC1.1.1.51 5alpha-pregnan-3,20-dione digitalis lanata//*//* 0.106 * +EC1.1.1.51 5alpha-pregnan-3beta-ol-20-one digitalis lanata//*//* 0.116 * +EC1.1.1.51 5beta-pregnan-3,20-dione clostridium innocuum//*//* 0.21 * +EC1.1.1.51 5beta-pregnan-3,20-dione digitalis lanata//*//* 1.725 * +EC1.1.1.51 5beta-pregnan-3beta-ol-20-one digitalis lanata//*//* 0.314 * +EC1.1.1.51 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1e-05 * +EC1.1.1.51 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC1.1.1.51 estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC1.1.1.51 nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.083 * +EC1.1.1.51 nad+ digitalis lanata//*//* 0.26 * +EC1.1.1.51 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.1.1.51 nad+ mesocricetus auratus//*//* 0.023 * +EC1.1.1.51 nadh digitalis lanata//*//* 0.642 * +EC1.1.1.51 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC1.1.1.51 nadh mesocricetus auratus//*//* 0.017 * +EC1.1.1.51 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.6 * +EC1.1.1.51 nadp+ mesocricetus auratus//*//* 2.4 * +EC1.1.1.51 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0082 * +EC1.1.1.51 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0018 * +EC1.1.1.51 pregnenolone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00067 * +EC1.1.1.51 testosterone cavia porcellus//*//* 0.2 * +EC1.1.1.51 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00061 * +EC1.1.1.51 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.1.1.51 thionicotinamide adenine dinucleotide comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.083 * +EC1.1.1.53 11alpha-hemisuccinyloxyprogesterone streptomyces exfoliatus//*//* 2.19 * +EC1.1.1.53 17-hydroxy-3,11,20-trioxo-4-pregnen-21-oate streptomyces exfoliatus//*//* 0.49 * +EC1.1.1.53 17-hydroxy-3,20-dioxo-4-pregnen-21-oate streptomyces exfoliatus//*//* 0.64 * +EC1.1.1.53 17-hydroxyprogesterone streptomyces exfoliatus//*//* 0.0105 * +EC1.1.1.53 17alpha-hydroxyprogesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00094 * +EC1.1.1.53 17beta-hydroxyandrostan-2-one streptomyces exfoliatus//*//* 0.46 * +EC1.1.1.53 21-acetoxyprogesterone streptomyces exfoliatus//*//* 2.23 * +EC1.1.1.53 21-hemisuccinyloxyprogesterone streptomyces exfoliatus//*//* 1.43 * +EC1.1.1.53 21-hydroxyprogesterone streptomyces exfoliatus//*//* 0.0251 * +EC1.1.1.53 3,20-dioxo-4-pregnen-21-oic acid streptomyces exfoliatus//*//* 0.14 * +EC1.1.1.53 5alpha-androstan-17beta-ol-3-one sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00018 * +EC1.1.1.53 5alpha-androstan-3alpha-ol-17-one sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00032 * +EC1.1.1.53 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00218 * +EC1.1.1.53 5alpha-pregnane-3,20-dione streptomyces exfoliatus//*//* 0.0045 * +EC1.1.1.53 5alpha-pregnane-3,20-dione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00016 * +EC1.1.1.53 6beta-[bromoacetoxy]-progesterone streptomyces exfoliatus//*//* 0.02 * +EC1.1.1.53 alpha-nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 126.1 * +EC1.1.1.53 alpha-nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 328.0 * +EC1.1.1.53 beta-nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 88.2 * +EC1.1.1.53 beta-nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 294.8 * +EC1.1.1.53 beta-nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.8 * +EC1.1.1.53 beta-nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.2 * +EC1.1.1.53 cortisone danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.142 * +EC1.1.1.53 cortisone streptomyces exfoliatus//*//* 0.024 * +EC1.1.1.53 deoxycorticosterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0086 * +EC1.1.1.53 nadh streptomyces exfoliatus//*//* 0.0035 * +EC1.1.1.53 pregnonolone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.004 * +EC1.1.1.53 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00084 * +EC1.1.1.53 progesterone streptomyces exfoliatus//*//* 0.0011 * +EC1.1.1.53 progesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00015 * +EC1.1.1.54 (r)-(+)-perillyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.012 * +EC1.1.1.54 (r)-pulegone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.025 * +EC1.1.1.54 1-butanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.1 * +EC1.1.1.54 2-buten-1-ol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.044 * +EC1.1.1.54 3-aminobenzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.011 * +EC1.1.1.54 3-chloro-2-buten-1-ol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.007 * +EC1.1.1.54 3-methyl-1-butanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.1.1.54 3-methyl-2-buten-1-ol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC1.1.1.54 3-methyl-3-buten-1-ol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.7 * +EC1.1.1.54 allyl-alcohol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC1.1.1.54 benzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.007 * +EC1.1.1.54 cinnamyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.036 * +EC1.1.1.54 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.064 * +EC1.1.1.54 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.1.1.55 l-lactaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.9 * +EC1.1.1.56 allitol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 107.0 * +EC1.1.1.56 d-ribulose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.8 * +EC1.1.1.56 d-ribulose rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.1 * +EC1.1.1.56 d-xylulose rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 12.5 * +EC1.1.1.56 l-arabitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 147.0 * +EC1.1.1.56 l-arabitol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 84.2 * +EC1.1.1.56 l-mannitol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 233.0 * +EC1.1.1.56 l-ribulose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.5 * +EC1.1.1.56 l-sorbitol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 178.0 * +EC1.1.1.56 l-xylulose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.8 * +EC1.1.1.56 nad+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.08 * +EC1.1.1.56 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.1 * +EC1.1.1.56 nad+ pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 2.36 * +EC1.1.1.56 nad+ providencia alcalifaciens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//pala 0.042 * +EC1.1.1.56 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.077 * +EC1.1.1.56 nadh gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.02 * +EC1.1.1.56 ribitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.2 * +EC1.1.1.56 ribitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 5.0 * +EC1.1.1.56 ribitol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 32.2 * +EC1.1.1.56 ribitol providencia alcalifaciens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//pala 13.9 * +EC1.1.1.56 ribitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 6.3 * +EC1.1.1.56 xylitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 579.0 * +EC1.1.1.56 xylitol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 273.0 * +EC1.1.1.56 xylitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 77.0 * +EC1.1.1.57 d-fructuronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.1.1.57 d-mannonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC1.1.1.57 d-tagaturonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC1.1.1.58 altronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC1.1.1.58 d-tagaturonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.1.1.58 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.075 * +EC1.1.1.58 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.1.1.58 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC1.1.1.58 tagaturonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC1.1.1.59 (r)-3-hydroxyisobutyrate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.58 * +EC1.1.1.59 (s)-3-hydroxyisobutyrate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.13 * +EC1.1.1.59 3-hydroxypropanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 16.8 * +EC1.1.1.59 3-hydroxypropanoate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 5.37 * +EC1.1.1.59 3-hydroxypropanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC1.1.1.59 3-hydroxypropionate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 16.8 * +EC1.1.1.59 l-serine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 46.7 * +EC1.1.1.59 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.4 * +EC1.1.1.59 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.34 * +EC1.1.1.59 nadp+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.25 * +EC1.1.1.6 1,2-propanediol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.06 * +EC1.1.1.6 1,3-butanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.2 * +EC1.1.1.6 1,3-butanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 20.9 * +EC1.1.1.6 1,3-butanediol salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 29.2 * +EC1.1.1.6 2,3-butanediol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.0238 * +EC1.1.1.6 3-amino-1,2-propanediol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 180.0 * +EC1.1.1.6 3-bromo-1,2-propanediol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 6.1 * +EC1.1.1.6 3-chloro-1,2-propanediol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 6.0 * +EC1.1.1.6 3-mercapto-1,2-propanediol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 4.0 * +EC1.1.1.6 dihydroxyacetone cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.385 * +EC1.1.1.6 dihydroxyacetone clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 1.18 * +EC1.1.1.6 dihydroxyacetone klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.3 * +EC1.1.1.6 dihydroxyacetone ogataea angusta//*//* 4.87 * +EC1.1.1.6 dihydroxyacetone pichia membranifaciens//*//* 0.77 * +EC1.1.1.6 dihydroxyacetone schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.06 * +EC1.1.1.6 glycero cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 10.9 * +EC1.1.1.6 glycerol arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.8 * +EC1.1.1.6 glycerol bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.4 * +EC1.1.1.6 glycerol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 5.1 * +EC1.1.1.6 glycerol clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 91.7 * +EC1.1.1.6 glycerol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 39.0 * +EC1.1.1.6 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 21.6 * +EC1.1.1.6 glycerol ogataea angusta//*//* 118.0 * +EC1.1.1.6 glycerol pichia membranifaciens//*//* 58.0 * +EC1.1.1.6 glycerol schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.5 * +EC1.1.1.6 nad+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.3 * +EC1.1.1.6 nad+ cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.089 * +EC1.1.1.6 nad+ clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 4.07 * +EC1.1.1.6 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0165 * +EC1.1.1.6 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.15 * +EC1.1.1.6 nad+ pichia membranifaciens//*//* 0.14 * +EC1.1.1.6 nad+ schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.13 * +EC1.1.1.6 nadh clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.08 * +EC1.1.1.6 nadh klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.014 * +EC1.1.1.6 nadh pichia membranifaciens//*//* 0.048 * +EC1.1.1.6 nadh schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.12 * +EC1.1.1.6 r-1-amino-2-propanol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 4.4 * +EC1.1.1.6 s-1-amino-2-propanol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 500.0 * +EC1.1.1.60 (r)-beta-hydroxybutyrate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.048 * +EC1.1.1.60 2-hydroxy-3-oxopropanoate ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.00019 * +EC1.1.1.60 d-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC1.1.1.60 d-glycerate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.7 * +EC1.1.1.60 d-glycerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC1.1.1.60 d-glycerate ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.0177 * +EC1.1.1.60 d-threonine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.06 * +EC1.1.1.60 l-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC1.1.1.60 l-glycerate ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.123 * +EC1.1.1.60 malonic semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC1.1.1.60 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC1.1.1.60 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.1.1.60 nadh ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.0143 * +EC1.1.1.60 nadp+ ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.0003 * +EC1.1.1.60 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.036 * +EC1.1.1.60 tartronate semialdehyde hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.05 * +EC1.1.1.60 tartronate semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC1.1.1.61 3-hydroxypropane sulfonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.1.61 4-hydroxybutanoate clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.055 * +EC1.1.1.61 4-hydroxybutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 102.0 * +EC1.1.1.61 ethanol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 14.0 * +EC1.1.1.61 gamma-hydroxybutyrate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 2.19 * +EC1.1.1.61 gamma-hydroxybutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 102.0 * +EC1.1.1.61 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC1.1.1.61 nad+ clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.67 * +EC1.1.1.61 nadh clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.15 * +EC1.1.1.61 nadh porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.41 * +EC1.1.1.61 succinate semialdehyde porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.15 * +EC1.1.1.61 succinic semialdehyde clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.56 * +EC1.1.1.61 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.3 * +EC1.1.1.62 1-methyl-6-dehydroestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC1.1.1.62 1-methylestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.1.1.62 11-ketoequilenin acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.1.1.62 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00062 * +EC1.1.1.62 20alpha-dihydroprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.207 * +EC1.1.1.62 3-methyl-o-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.1.1.62 4-methyl-1,3,5(10)-estratriene-1,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.1.1.62 5-androstene-3beta,17beta-diol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC1.1.1.62 5alpha-dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.118 * +EC1.1.1.62 7-ketoestrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC1.1.1.62 androstenedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.124 * +EC1.1.1.62 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.1.1.62 dihydrotestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.1.1.62 equilenin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.1.1.62 equilin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC1.1.1.62 estradiol 3-methyl ether homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.1.1.62 estradiol-17beta equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0017 * +EC1.1.1.62 estradiol-17beta gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0173 * +EC1.1.1.62 estradiol-17beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.1.1.62 estradiol-17beta montipora capitata//*//* 0.0113 * +EC1.1.1.62 estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC1.1.1.62 estradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0416 * +EC1.1.1.62 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC1.1.1.62 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.357 * +EC1.1.1.62 nadp+ curvularia lunata//*//* 6e-05 * +EC1.1.1.62 nadp+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0077 * +EC1.1.1.62 nadp+ montipora capitata//*//* 0.0058 * +EC1.1.1.62 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.37 * +EC1.1.1.62 nadph curvularia lunata//*//* 0.0065 * +EC1.1.1.62 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.62 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0464 * +EC1.1.1.64 17beta-hydroxy-5alpha-androstane-3-one cavia porcellus//*//* 0.077 * +EC1.1.1.64 17beta-hydroxy-5beta-androstane-3-one cavia porcellus//*//* 0.0067 * +EC1.1.1.64 19-nortestosterone cavia porcellus//*//* 0.053 * +EC1.1.1.64 4-oxo-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC1.1.1.64 5alpha-androstane-3alpha,17beta-diol cavia porcellus//*//* 0.023 * +EC1.1.1.64 5beta-androstane-3alpha,17beta-diol cavia porcellus//*//* 0.011 * +EC1.1.1.64 5beta-androstane-3beta,17beta-diol cavia porcellus//*//* 0.029 * +EC1.1.1.64 androstenedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.1.1.64 androstenedione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.1.1.64 androstenedione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.1.1.64 benzene dihydrodiol cavia porcellus//*//* 0.47 * +EC1.1.1.64 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC1.1.1.64 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1012 * +EC1.1.1.64 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.177 * +EC1.1.1.64 nadp+ cavia porcellus//*//* 0.011 * +EC1.1.1.64 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0046 * +EC1.1.1.64 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0083 * +EC1.1.1.64 testosterone cavia porcellus//*//* 0.027 * +EC1.1.1.64 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.1.1.65 2-nitrobenzaldehyde schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.096 * +EC1.1.1.65 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC1.1.1.65 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.002 * +EC1.1.1.65 pyridoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC1.1.1.65 pyridoxal schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.9 * +EC1.1.1.65 pyridoxol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.0 * +EC1.1.1.66 10-hydroxydecanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.125 * +EC1.1.1.66 11-hydroxyundecanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC1.1.1.66 9-hydroxynonanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 40.0 * +EC1.1.1.66 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.066 * +EC1.1.1.67 d-arabinitol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 163.0 * +EC1.1.1.67 d-arabinitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.8 * +EC1.1.1.67 d-arabitol bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 6.5 * +EC1.1.1.67 d-arabitol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 55.85 * +EC1.1.1.67 d-fructose absidia glauca//*//* 16.3 * +EC1.1.1.67 d-fructose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.6 * +EC1.1.1.67 d-fructose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 16.3 * +EC1.1.1.67 d-fructose lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 24.0 * +EC1.1.1.67 d-fructose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 16.3 * +EC1.1.1.67 d-fructose leuconostoc pseudomesenteroides//*//* 44.0 * +EC1.1.1.67 d-fructose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.24 * +EC1.1.1.67 d-fructose rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 16.3 * +EC1.1.1.67 d-fructose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.3 * +EC1.1.1.67 d-fructose tetraselmis subcordiformis//*//* 16.3 * +EC1.1.1.67 d-fructose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 50.0 * +EC1.1.1.67 d-fructose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 20.0 * +EC1.1.1.67 d-glucitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 32.0 * +EC1.1.1.67 d-mannitol absidia glauca//*//* 0.29 * +EC1.1.1.67 d-mannitol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 13.0 * +EC1.1.1.67 d-mannitol bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.29 * +EC1.1.1.67 d-mannitol eimeria tenella//*//* 9.1 * +EC1.1.1.67 d-mannitol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.29 * +EC1.1.1.67 d-mannitol lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 78.0 * +EC1.1.1.67 d-mannitol leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.29 * +EC1.1.1.67 d-mannitol leuconostoc pseudomesenteroides//*//* 12.0 * +EC1.1.1.67 d-mannitol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.4 * +EC1.1.1.67 d-mannitol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.29 * +EC1.1.1.67 d-mannitol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.29 * +EC1.1.1.67 d-mannitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.29 * +EC1.1.1.67 d-mannitol tetraselmis subcordiformis//*//* 0.29 * +EC1.1.1.67 d-mannitol thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.51 * +EC1.1.1.67 d-xylulose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.7 * +EC1.1.1.67 l-sorbitol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 680.0 * +EC1.1.1.67 nad+ absidia glauca//*//* 0.18 * +EC1.1.1.67 nad+ aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.11 * +EC1.1.1.67 nad+ bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.18 * +EC1.1.1.67 nad+ lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.18 * +EC1.1.1.67 nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.18 * +EC1.1.1.67 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.093 * +EC1.1.1.67 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.18 * +EC1.1.1.67 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.14 * +EC1.1.1.67 nadh absidia glauca//*//* 0.01 * +EC1.1.1.67 nadh aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.015 * +EC1.1.1.67 nadh lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.01 * +EC1.1.1.67 nadh leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.01 * +EC1.1.1.67 nadh pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.01 * +EC1.1.1.67 nadh rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.01 * +EC1.1.1.67 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.1.1.67 nadh thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.037 * +EC1.1.1.67 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 7.5 * +EC1.1.1.67 nadph thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.17 * +EC1.1.1.67 polyethyleneglycol-nh-succinyl-aminoethyl-nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC1.1.1.67 polyethyleneglycol-nh-succinyl-nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.125 * +EC1.1.1.67 polyethylenimine-nh-succinyl-nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.074 * +EC1.1.1.69 5-dehydro-d-gluconate gluconacetobacter liquefaciens//*//* 0.9 * +EC1.1.1.69 5-dehydro-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.9 * +EC1.1.1.69 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.6 * +EC1.1.1.69 d-gluconate gluconacetobacter liquefaciens//*//* 18.0 * +EC1.1.1.69 d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 20.0 * +EC1.1.1.69 d-gluconic acid gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 161.0 * +EC1.1.1.69 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 57.0 * +EC1.1.1.69 nadp+ gluconacetobacter liquefaciens//*//* 0.016 * +EC1.1.1.69 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.02 * +EC1.1.1.69 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.006 * +EC1.1.1.7 dl-propane-1,2-diol 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4.4 * +EC1.1.1.7 hydroxyacetone phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC1.1.1.7 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC1.1.1.71 (2s,5s)-2,5-hexanediol thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 13.1 * +EC1.1.1.71 (r)-2-hydroxypropiophenone ralstonia sp.//*//* 1.6 * +EC1.1.1.71 (rs)-1-phenylethanol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 244.0 * +EC1.1.1.71 (s)-2-hydroxypropiophenone ralstonia sp.//*//* 3.6 * +EC1.1.1.71 1-butanol haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 6.7 * +EC1.1.1.71 1-propanol halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 21.4 * +EC1.1.1.71 1-propanol halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 21.4 * +EC1.1.1.71 2,3-pentanedione thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 1.5 * +EC1.1.1.71 2-methoxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 4.8 * +EC1.1.1.71 2-propanol thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 168.0 * +EC1.1.1.71 4-methoxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 24.1 * +EC1.1.1.71 acetaldehyde cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.3 * +EC1.1.1.71 acetaldehyde haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 5.1 * +EC1.1.1.71 acetaldehyde halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 3.4 * +EC1.1.1.71 acetaldehyde halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 3.4 * +EC1.1.1.71 acetaldehyde haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 9.2 * +EC1.1.1.71 acetaldehyde ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.4 * +EC1.1.1.71 acetoin thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 30.2 * +EC1.1.1.71 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.1.1.71 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC1.1.1.71 benzaldehyde ralstonia sp.//*//* 15.6 * +EC1.1.1.71 benzyl alcohol acinetobacter calcoaceticus//*//* 150.0 * +EC1.1.1.71 benzyl alcohol ralstonia sp.//*//* 12.3 * +EC1.1.1.71 butan-1-ol acinetobacter calcoaceticus//*//* 52.7 * +EC1.1.1.71 butan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 78.6 * +EC1.1.1.71 butanal acinetobacter calcoaceticus//*//* 3.97 * +EC1.1.1.71 butanal clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.006 * +EC1.1.1.71 butanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.75 * +EC1.1.1.71 cyclohexanol ralstonia sp.//*//* 5.2 * +EC1.1.1.71 cyclohexanone ralstonia sp.//*//* 10.8 * +EC1.1.1.71 d-xylose thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 54.4 * +EC1.1.1.71 ethanol acinetobacter calcoaceticus//*//* 727.0 * +EC1.1.1.71 ethanol halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 107.9 * +EC1.1.1.71 ethanol halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 107.9 * +EC1.1.1.71 ethanol haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 44.0 * +EC1.1.1.71 ethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4790.0 * +EC1.1.1.71 heptan-1-ol acinetobacter calcoaceticus//*//* 1.09 * +EC1.1.1.71 hexan-1-ol acinetobacter calcoaceticus//*//* 1.22 * +EC1.1.1.71 hexan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.8 * +EC1.1.1.71 hexanal solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 5.5 * +EC1.1.1.71 meso-2,3-butanediol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 61.3 * +EC1.1.1.71 methylglyoxal moniezia expansa//*//* 0.0107 * +EC1.1.1.71 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1060.0 * +EC1.1.1.71 nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.5 * +EC1.1.1.71 nad+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.089 * +EC1.1.1.71 nadh cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.024 * +EC1.1.1.71 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1200.0 * +EC1.1.1.71 nadh leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.095 * +EC1.1.1.71 nadh ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.088 * +EC1.1.1.71 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.105 * +EC1.1.1.71 nadp+ acinetobacter calcoaceticus//*//* 0.038 * +EC1.1.1.71 nadp+ haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.101 * +EC1.1.1.71 nadp+ halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.2 * +EC1.1.1.71 nadp+ halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 0.2 * +EC1.1.1.71 nadp+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.2 * +EC1.1.1.71 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC1.1.1.71 nadp+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.059 * +EC1.1.1.71 nadp+ ralstonia sp.//*//* 0.06 * +EC1.1.1.71 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0202 * +EC1.1.1.71 nadp+ thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.066 * +EC1.1.1.71 nadp+ thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.02 * +EC1.1.1.71 nadph acinetobacter calcoaceticus//*//* 0.00433 * +EC1.1.1.71 nadph cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.32 * +EC1.1.1.71 nadph haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.029 * +EC1.1.1.71 nadph halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.05 * +EC1.1.1.71 nadph halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 0.05 * +EC1.1.1.71 nadph haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.032 * +EC1.1.1.71 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC1.1.1.71 nadph leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.071 * +EC1.1.1.71 nadph ralstonia sp.//*//* 0.005 * +EC1.1.1.71 nadph ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.075 * +EC1.1.1.71 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00079 * +EC1.1.1.71 nadph thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.113 * +EC1.1.1.71 nadph thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 0.02 * +EC1.1.1.71 octan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.2 * +EC1.1.1.71 pentan-1-ol acinetobacter calcoaceticus//*//* 5.8 * +EC1.1.1.71 pentan-1-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.1 * +EC1.1.1.71 pyruvaldehyde thermococcus sibiricus//prokaryotes;archaea;euryarchaeota;thermococcus//tsi 17.75 * +EC1.1.1.71 salicylaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 6.9 * +EC1.1.1.71 trans-2-hexenal solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 27.1 * +EC1.1.1.71 trans-2-nonenal moniezia expansa//*//* 0.0066 * +EC1.1.1.72 d-glucuronate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 186.0 * +EC1.1.1.72 d-glyceraldehyde gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 2.69 * +EC1.1.1.72 d-glyceraldehyde lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 32.3 * +EC1.1.1.72 d-glyceraldehyde lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 12.8 * +EC1.1.1.72 d-glyceraldehyde lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 20.2 * +EC1.1.1.72 d-glyceraldehyde neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 11.5 * +EC1.1.1.72 d-glyceraldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC1.1.1.72 d-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.1.1.72 glycerol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 143.0 * +EC1.1.1.72 glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC1.1.1.72 l-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 193.0 * +EC1.1.1.72 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.02 * +EC1.1.1.72 nadp+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.056 * +EC1.1.1.72 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0125 * +EC1.1.1.72 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0041 * +EC1.1.1.72 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.024 * +EC1.1.1.72 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.016 * +EC1.1.1.72 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0067 * +EC1.1.1.73 1-octanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC1.1.1.73 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC1.1.1.75 1-aminopropan-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.1.1.75 1-aminopropan-2-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC1.1.1.75 d,l-1-aminopropan-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC1.1.1.75 d,l-1-aminopropan-2-ol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.12 * +EC1.1.1.75 d,l-4-amino-3-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 200.0 * +EC1.1.1.75 d-1-aminopropan-2-ol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 54.0 * +EC1.1.1.75 d-1-aminopropan-2-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 110.0 * +EC1.1.1.75 l-1-aminopropan-2-ol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 31.0 * +EC1.1.1.75 l-1-aminopropan-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC1.1.1.75 l-1-aminopropan-2-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 48.0 * +EC1.1.1.75 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.1.1.75 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC1.1.1.75 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC1.1.1.75 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC1.1.1.76 (2s)-acetoin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.47 * +EC1.1.1.76 (r,r)-butane-2,3-diol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 7.25 * +EC1.1.1.76 (r,s)-acetoin mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 42.2 * +EC1.1.1.76 (s,s)-butane-2,3-diol corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.22 * +EC1.1.1.76 diacetyl bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 72.4 * +EC1.1.1.76 l-acetoin corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.44 * +EC1.1.1.76 l-butanediol corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.22 * +EC1.1.1.76 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.07 * +EC1.1.1.76 nadh corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.1 * +EC1.1.1.77 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC1.1.1.77 dl-1,2-propanediol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC1.1.1.77 dl-lactaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.56 * +EC1.1.1.77 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC1.1.1.77 l-1,2-propanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.25 * +EC1.1.1.77 l-lactaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC1.1.1.78 dl-lactaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.1.1.78 methylglyoxal capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.4 * +EC1.1.1.78 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.034 * +EC1.1.1.78 nadh capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.2 * +EC1.1.1.78 phenylglyoxal capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.3 * +EC1.1.1.79 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0045 * +EC1.1.1.79 glyoxylate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.1 * +EC1.1.1.79 glyoxylate euglena gracilis//*//* 0.045 * +EC1.1.1.79 glyoxylate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 5.7 * +EC1.1.1.79 glyoxylate populus gelrica//*//* 0.11 * +EC1.1.1.79 glyoxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.0 * +EC1.1.1.79 glyoxylate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.059 * +EC1.1.1.79 glyoxylate thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.5 * +EC1.1.1.79 hydroxypyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.085 * +EC1.1.1.79 hydroxypyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.4 * +EC1.1.1.79 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.23 * +EC1.1.1.79 nadh pyrococcus horikoshii ot3//*//* 0.013 * +EC1.1.1.79 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.43 * +EC1.1.1.79 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.15 * +EC1.1.1.79 nadh thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.076 * +EC1.1.1.79 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0022 * +EC1.1.1.79 nadph euglena gracilis//*//* 0.0039 * +EC1.1.1.79 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0031 * +EC1.1.1.79 nadph pyrococcus horikoshii ot3//*//* 0.021 * +EC1.1.1.79 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC1.1.1.79 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC1.1.1.79 nadph thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.04 * +EC1.1.1.8 alpha-glycerol phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC1.1.1.8 alpha-glycerophosphate coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.33 * +EC1.1.1.8 alpha-glycerophosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC1.1.1.8 dihydroxyacetone phosphate apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.23 * +EC1.1.1.8 dihydroxyacetone phosphate ceratitis capitata//*//* 0.33 * +EC1.1.1.8 dihydroxyacetone phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.012 * +EC1.1.1.8 dihydroxyacetone phosphate debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.13 * +EC1.1.1.8 dihydroxyacetone phosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.52 * +EC1.1.1.8 dihydroxyacetone phosphate drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 0.2144 * +EC1.1.1.8 dihydroxyacetone phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.23 * +EC1.1.1.8 dihydroxyacetone phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC1.1.1.8 dihydroxyacetone phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.12 * +EC1.1.1.8 dihydroxyacetone phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.075 * +EC1.1.1.8 dihydroxyacetone phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC1.1.1.8 dihydroxyacetone phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.54 * +EC1.1.1.8 dihydroxyacetone phosphate saccharomyces kudriavzevii//*//* 0.61 * +EC1.1.1.8 dihydroxyacetone phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.3 * +EC1.1.1.8 dihydroxyacetone phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.1 * +EC1.1.1.8 dl-glycerol-3-phosphate debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 1.2 * +EC1.1.1.8 dl-glycerol-3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC1.1.1.8 glycerol 3-phosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.59 * +EC1.1.1.8 glycerol 3-phosphate drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 1.89 * +EC1.1.1.8 glycerol 3-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.0 * +EC1.1.1.8 glycerol 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.909 * +EC1.1.1.8 glycerol phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.6 * +EC1.1.1.8 glycerol-3-phosphate jaculus orientalis//*//* 0.468 * +EC1.1.1.8 glycerol-3-phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.7 * +EC1.1.1.8 glycerol-3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 34.0 * +EC1.1.1.8 glycerol-3-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.25 * +EC1.1.1.8 glycerone phosphate cynomys ludovicianus//*//* 0.154 * +EC1.1.1.8 glycerone phosphate eidolon helvum//*//* 0.26 * +EC1.1.1.8 glycerone phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC1.1.1.8 glycerone phosphate jaculus orientalis//*//* 137.0 * +EC1.1.1.8 glycerone jaculus orientalis//*//* 0.137 * +EC1.1.1.8 l-glycerol 3-phosphate ceratitis capitata//*//* 0.74 * +EC1.1.1.8 l-glycerol-3-phosphate eidolon helvum//*//* 2.3 * +EC1.1.1.8 nad+ ceratitis capitata//*//* 0.26 * +EC1.1.1.8 nad+ cynomys ludovicianus//*//* 0.045 * +EC1.1.1.8 nad+ debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.3 * +EC1.1.1.8 nad+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.38 * +EC1.1.1.8 nad+ drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 0.1003 * +EC1.1.1.8 nad+ eidolon helvum//*//* 0.2 * +EC1.1.1.8 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.5 * +EC1.1.1.8 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.1.1.8 nad+ jaculus orientalis//*//* 0.316 * +EC1.1.1.8 nad+ leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.42 * +EC1.1.1.8 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0044 * +EC1.1.1.8 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.1.1.8 nad+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.19 * +EC1.1.1.8 nad+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.32 * +EC1.1.1.8 nad+ urocitellus richardsonii//*//* 0.09 * +EC1.1.1.8 nadh apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.01 * +EC1.1.1.8 nadh ceratitis capitata//*//* 0.018 * +EC1.1.1.8 nadh chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.016 * +EC1.1.1.8 nadh cynomys ludovicianus//*//* 0.001 * +EC1.1.1.8 nadh debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.0066 * +EC1.1.1.8 nadh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.078 * +EC1.1.1.8 nadh drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 0.00526 * +EC1.1.1.8 nadh dunaliella viridis//*//* 0.0592 * +EC1.1.1.8 nadh eidolon helvum//*//* 0.005 * +EC1.1.1.8 nadh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.006 * +EC1.1.1.8 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.1.1.8 nadh jaculus orientalis//*//* 0.032 * +EC1.1.1.8 nadh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.024 * +EC1.1.1.8 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0043 * +EC1.1.1.8 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.1.1.8 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.023 * +EC1.1.1.8 nadh saccharomyces kudriavzevii//*//* 0.11 * +EC1.1.1.8 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.1.1.8 nadh trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.01 * +EC1.1.1.8 nadph dunaliella viridis//*//* 0.0589 * +EC1.1.1.8 sn-glycerol 3-phosphate jaculus orientalis//*//* 469.0 * +EC1.1.1.8 sn-glycerol 3-phosphate urocitellus richardsonii//*//* 0.41 * +EC1.1.1.8 sn-glycerol-3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.143 * +EC1.1.1.80 4-methyl-1-pentanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00071 * +EC1.1.1.80 6-methyl-2-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00259 * +EC1.1.1.80 acetaldehyde trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.00028 * +EC1.1.1.80 acetone clostridium autoethanogenum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cah 0.6 * +EC1.1.1.80 acetone trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 9.3e-05 * +EC1.1.1.80 butan-2-ol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.00078 * +EC1.1.1.80 butanone trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 6.1e-05 * +EC1.1.1.80 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00024 * +EC1.1.1.80 ethanol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.1 * +EC1.1.1.80 nadp+ trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0052 * +EC1.1.1.80 nadph trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.51 * +EC1.1.1.80 pentan-2-ol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0056 * +EC1.1.1.80 pentan-3-ol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0015 * +EC1.1.1.80 pentan-3-one trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.000256 * +EC1.1.1.80 propan-1-ol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0275 * +EC1.1.1.80 propan-2-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00178 * +EC1.1.1.80 propan-2-ol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.00056 * +EC1.1.1.81 d-glycerate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.522 * +EC1.1.1.81 dl-glycerate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC1.1.1.81 glycerate methylobacterium extorquens am1//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mea 2.6 * +EC1.1.1.81 hydroxypyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.1 * +EC1.1.1.81 hydroxypyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0038 * +EC1.1.1.81 hydroxypyruvate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.13 * +EC1.1.1.81 hydroxypyruvate hordeum vulgare//*//* 0.08 * +EC1.1.1.81 hydroxypyruvate hyphomicrobium methylovorum gm2//*//* 0.175 * +EC1.1.1.81 hydroxypyruvate methylobacterium extorquens am1//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mea 0.1 * +EC1.1.1.81 hydroxypyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.09 * +EC1.1.1.81 hydroxypyruvate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.02 * +EC1.1.1.81 hydroxypyruvate pyrococcus yayanosii//prokaryotes;archaea;euryarchaeota;pyrococcus//pya 0.165 * +EC1.1.1.81 hydroxypyruvate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.8 * +EC1.1.1.81 hydroxypyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC1.1.1.81 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.077 * +EC1.1.1.81 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0061 * +EC1.1.1.81 nadh delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.24 * +EC1.1.1.81 nadh hyphomicrobium methylovorum gm2//*//* 0.055 * +EC1.1.1.81 nadh methylobacterium extorquens am1//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mea 0.04 * +EC1.1.1.81 nadh pyrococcus horikoshii ot3//*//* 0.013 * +EC1.1.1.81 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC1.1.1.81 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC1.1.1.81 nadph delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.015 * +EC1.1.1.81 nadph methylobacterium extorquens am1//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mea 0.06 * +EC1.1.1.81 nadph pyrococcus horikoshii ot3//*//* 0.021 * +EC1.1.1.82 (s)-malate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.00012 * +EC1.1.1.82 (s)-malate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.26 * +EC1.1.1.82 (s)-malate cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 2.0 * +EC1.1.1.82 (s)-malate pisum sativum//*//* 0.0145 * +EC1.1.1.82 (s)-malate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.1.1.82 (s)-malate sorghum sp.//*//* 12.0 * +EC1.1.1.82 (s)-malate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00012 * +EC1.1.1.82 (s)-malate zea mays//eukaryotes;plants;monocots;grass family//zma 24.0 * +EC1.1.1.82 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.8 * +EC1.1.1.82 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 0.83 * +EC1.1.1.82 nadp+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.9e-05 * +EC1.1.1.82 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.13 * +EC1.1.1.82 nadp+ cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.029 * +EC1.1.1.82 nadp+ pisum sativum//*//* 0.063 * +EC1.1.1.82 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.023 * +EC1.1.1.82 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.9e-05 * +EC1.1.1.82 nadp+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.045 * +EC1.1.1.82 nadph cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.011 * +EC1.1.1.82 nadph euglena gracilis//*//* 0.035 * +EC1.1.1.82 nadph methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.02 * +EC1.1.1.82 nadph pisum sativum//*//* 0.039 * +EC1.1.1.82 nadph sorghum sp.//*//* 0.042 * +EC1.1.1.82 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.36 * +EC1.1.1.82 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.024 * +EC1.1.1.82 oxaloacetate cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.062 * +EC1.1.1.82 oxaloacetate euglena gracilis//*//* 0.014 * +EC1.1.1.82 oxaloacetate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.03 * +EC1.1.1.82 oxaloacetate pisum sativum//*//* 0.042 * +EC1.1.1.82 oxaloacetate sorghum sp.//*//* 0.04 * +EC1.1.1.82 oxaloacetate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.11 * +EC1.1.1.82 oxaloacetate zea mays//eukaryotes;plants;monocots;grass family//zma 0.018 * +EC1.1.1.83 d-malate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.2 * +EC1.1.1.83 d-malate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.17 * +EC1.1.1.83 malate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.3 * +EC1.1.1.83 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.08 * +EC1.1.1.83 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.13 * +EC1.1.1.84 3,3-dimethyl-d-malate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.15 * +EC1.1.1.84 3,3-dimethyl-d-malate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.15 * +EC1.1.1.84 3-(n-propyl)malate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.33 * +EC1.1.1.84 d-malate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 8.9 * +EC1.1.1.84 d-malate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.9 * +EC1.1.1.84 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.27 * +EC1.1.1.84 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.27 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0035 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.024 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate shewanella benthica//*//* 0.0122 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.0087 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.005 * +EC1.1.1.85 (2r,3s)-3-isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.013 * +EC1.1.1.85 3-(2'-methylthio)ethylmalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC1.1.1.85 3-ethylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.013 * +EC1.1.1.85 3-isoamylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.11 * +EC1.1.1.85 3-isopropylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.015 * +EC1.1.1.85 3-isopropylmalate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.009 * +EC1.1.1.85 3-methylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.05 * +EC1.1.1.85 3-tert-butylmalate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.074 * +EC1.1.1.85 d-3-ethylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0011 * +EC1.1.1.85 d-3-isobutylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0015 * +EC1.1.1.85 d-3-isopentylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0058 * +EC1.1.1.85 d-3-isopropylmalate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.019 * +EC1.1.1.85 d-3-isopropylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0012 * +EC1.1.1.85 d-3-isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0221 * +EC1.1.1.85 d-3-methylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0037 * +EC1.1.1.85 d-3-t-butylmalate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0023 * +EC1.1.1.85 d-malate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 4.0 * +EC1.1.1.85 d-malate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.41 * +EC1.1.1.85 dl-3-isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0044 * +EC1.1.1.85 dl-erythro-beta-ethylmalate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.019 * +EC1.1.1.85 erythro-lg-beta-isopropylmalate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0092 * +EC1.1.1.85 ethylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC1.1.1.85 homoisocitrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 5.9 * +EC1.1.1.85 isopropylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.105 * +EC1.1.1.85 isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.7e-05 * +EC1.1.1.85 l-malate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 12.0 * +EC1.1.1.85 malate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 7.7 * +EC1.1.1.85 malate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.39 * +EC1.1.1.85 malate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.51 * +EC1.1.1.85 nad+ acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.8 * +EC1.1.1.85 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.321 * +EC1.1.1.85 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.28 * +EC1.1.1.85 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC1.1.1.85 nad+ shewanella benthica//*//* 0.1058 * +EC1.1.1.85 nad+ shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.0814 * +EC1.1.1.85 nad+ sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.12 * +EC1.1.1.85 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00321 * +EC1.1.1.85 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.573 * +EC1.1.1.85 propylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.105 * +EC1.1.1.85 tartrate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0407 * +EC1.1.1.85 tert-butylmalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.214 * +EC1.1.1.85 thionicotinamide-nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.051 * +EC1.1.1.85 threo-ds-3-isopropylmalate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.08 * +EC1.1.1.86 (s)-2-acetolactate meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 0.08 * +EC1.1.1.86 (s)-2-acetolactate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.11 * +EC1.1.1.86 2-aceto-2-hydroxybutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate hordeum vulgare//*//* 0.038 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.16 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.78 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.1.1.86 2-aceto-2-hydroxybutyrate vigna radiata var. radiata//*//* 0.12 * +EC1.1.1.86 2-acetolactate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.4 * +EC1.1.1.86 2-acetolactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC1.1.1.86 2-acetolactate hordeum vulgare//*//* 0.011 * +EC1.1.1.86 2-acetolactate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.32 * +EC1.1.1.86 2-acetolactate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.29 * +EC1.1.1.86 2-acetolactate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.1.1.86 2-acetolactate vigna radiata var. radiata//*//* 5.5 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 75.0 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 6.7 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 2.6 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 12.0 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.5 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 5.0 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 10.0 * +EC1.1.1.86 2-hydroxy-2-ethyl-3-oxobutanoate streptomyces viridifaciens//*//* 25.0 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 8.0 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 2.0 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.8 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.6 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.2 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 1.2 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 9.0 * +EC1.1.1.86 2-hydroxy-2-methyl-3-oxobutanoate streptomyces viridifaciens//*//* 1.8 * +EC1.1.1.86 2-ketobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.56 * +EC1.1.1.86 2-ketoisovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.91 * +EC1.1.1.86 2-ketopantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC1.1.1.86 2-ketovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.15 * +EC1.1.1.86 2-methylacetoacetate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 40.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 40.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 30.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 50.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 35.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 45.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 40.0 * +EC1.1.1.86 2-methylacetoacetate streptomyces viridifaciens//*//* 50.0 * +EC1.1.1.86 3-hydroxy-2-ketobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 5.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 20.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 40.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 20.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 35.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 20.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 50.0 * +EC1.1.1.86 3-hydroxy-3-ethyl-2-oxobutanoate streptomyces viridifaciens//*//* 50.0 * +EC1.1.1.86 3-hydroxy-3-methyl-2-ketobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.3 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 4.0 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 13.0 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 3.0 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 8.0 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 4.0 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 8.6 * +EC1.1.1.86 3-hydroxy-3-methyl-2-oxobutanoate streptomyces viridifaciens//*//* 5.0 * +EC1.1.1.86 3-hydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.96 * +EC1.1.1.86 3-hydroxypyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.1 * +EC1.1.1.86 hydroxypyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 40.0 * +EC1.1.1.86 hydroxypyruvate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 50.0 * +EC1.1.1.86 hydroxypyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 60.0 * +EC1.1.1.86 hydroxypyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 40.0 * +EC1.1.1.86 hydroxypyruvate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 30.0 * +EC1.1.1.86 hydroxypyruvate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 50.0 * +EC1.1.1.86 hydroxypyruvate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 60.0 * +EC1.1.1.86 hydroxypyruvate streptomyces viridifaciens//*//* 50.0 * +EC1.1.1.86 nadh alicyclobacillus acidocaldarius subsp. acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.028 * +EC1.1.1.86 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.207 * +EC1.1.1.86 nadh methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.059 * +EC1.1.1.86 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.101 * +EC1.1.1.86 nadph alicyclobacillus acidocaldarius subsp. acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.018 * +EC1.1.1.86 nadph corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 11.2 * +EC1.1.1.86 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.1.1.86 nadph hordeum vulgare//*//* 0.0043 * +EC1.1.1.86 nadph meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 0.02 * +EC1.1.1.86 nadph methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.0173 * +EC1.1.1.86 nadph salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.015 * +EC1.1.1.86 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0017 * +EC1.1.1.86 pyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1070.0 * +EC1.1.1.86 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.54 * +EC1.1.1.86 pyruvate streptomyces ambofaciens//prokaryotes;bacteria;actinobacteria;streptomyces//samb 1050.0 * +EC1.1.1.86 pyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 1200.0 * +EC1.1.1.86 pyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 700.0 * +EC1.1.1.86 pyruvate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1060.0 * +EC1.1.1.86 pyruvate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 1010.0 * +EC1.1.1.86 pyruvate streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 1080.0 * +EC1.1.1.86 pyruvate streptomyces viridifaciens//*//* 1140.0 * +EC1.1.1.87 (1r,2s)-1-hydroxybutane-1,2,4-tricarboxylate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.45 * +EC1.1.1.87 (1r,2s)-1-hydroxybutane-1,2,4-tricarboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.5 * +EC1.1.1.87 1-hydroxy-1,2,3-propanetricarboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.4 * +EC1.1.1.87 1-hydroxy-1,2,4-butanetricarboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 7.5 * +EC1.1.1.87 3-carboxy-2-hydroxyadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.4 * +EC1.1.1.87 alpha-ketoadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC1.1.1.87 co2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.3 * +EC1.1.1.87 homoisocitrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.1.1.87 homoisocitric acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.4 * +EC1.1.1.87 mg-homoisocitrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0042 * +EC1.1.1.87 nad+ candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.042 * +EC1.1.1.87 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC1.1.1.87 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.065 * +EC1.1.1.87 trisodium (2s,3r)-2-(carboxylatomethoxy)-3-hydroxybutanedioate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC1.1.1.87 trisodium (2s,3r)-2-[(carboxylatomethyl)amino]-3-hydroxybutanedioate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC1.1.1.88 (r,s)-mevalonate pseudomonas mevalonii//*//* 0.45 * +EC1.1.1.88 coa mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.1 * +EC1.1.1.88 coa pseudomonas mevalonii//*//* 0.039 * +EC1.1.1.88 coash pseudomonas mevalonii//*//* 0.05 * +EC1.1.1.88 dl-3-hydroxy-3-methylglutaryl-coa pseudomonas mevalonii//*//* 0.05 * +EC1.1.1.88 dl-mevaldate pseudomonas mevalonii//*//* 0.61 * +EC1.1.1.88 dl-mevalonate mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.49 * +EC1.1.1.88 dl-mevalonate pseudomonas mevalonii//*//* 0.35 * +EC1.1.1.88 mevalonate pseudomonas mevalonii//*//* 0.22 * +EC1.1.1.88 nad+ mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.6 * +EC1.1.1.88 nad+ pseudomonas mevalonii//*//* 0.06 * +EC1.1.1.88 nadh pseudomonas mevalonii//*//* 0.032 * +EC1.1.1.88 nadp+ pseudomonas mevalonii//*//* 52.0 * +EC1.1.1.88 r-mevalonate pseudomonas mevalonii//*//* 0.15 * +EC1.1.1.9 d-fructose rhizomucor pusillus//*//* 19.8 * +EC1.1.1.9 d-ribulose blastobotrys adeninivorans//*//* 0.7 * +EC1.1.1.9 d-sorbitol blastobotrys adeninivorans//*//* 4.0 * +EC1.1.1.9 d-sorbitol meyerozyma caribbica//*//* 21.2 * +EC1.1.1.9 d-sorbitol pachysolen tannophilus//*//* 30.0 * +EC1.1.1.9 d-sorbitol rhizomucor pusillus//*//* 31.5 * +EC1.1.1.9 d-xylitol fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 94.0 * +EC1.1.1.9 d-xylitol meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 12.0 * +EC1.1.1.9 d-xylulose blastobotrys adeninivorans//*//* 2.0 * +EC1.1.1.9 d-xylulose candida sp. ha 167//*//* 10.0 * +EC1.1.1.9 d-xylulose cavia porcellus//*//* 0.66 * +EC1.1.1.9 d-xylulose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 43.9 * +EC1.1.1.9 d-xylulose rhizomucor pusillus//*//* 8.25 * +EC1.1.1.9 d-xylulose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC1.1.1.9 l-arabitol meyerozyma caribbica//*//* 31.1 * +EC1.1.1.9 l-sorbose blastobotrys adeninivorans//*//* 0.9 * +EC1.1.1.9 nad+ candida sp. ha 167//*//* 430.0 * +EC1.1.1.9 nad+ candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.038 * +EC1.1.1.9 nad+ fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.14 * +EC1.1.1.9 nad+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.348 * +EC1.1.1.9 nad+ meyerozyma caribbica//*//* 0.11 * +EC1.1.1.9 nad+ meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 323.0 * +EC1.1.1.9 nad+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 500.0 * +EC1.1.1.9 nad+ rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.25 * +EC1.1.1.9 nad+ rhizomucor pusillus//*//* 0.027 * +EC1.1.1.9 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC1.1.1.9 nad+ scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.381 * +EC1.1.1.9 nadh gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 36.4 * +EC1.1.1.9 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.24 * +EC1.1.1.9 nadh scheffersomyces shehatae//*//* 0.037 * +EC1.1.1.9 nadp+ scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 170.0 * +EC1.1.1.9 ribitol meyerozyma caribbica//*//* 15.8 * +EC1.1.1.9 ribitol pachysolen tannophilus//*//* 50.0 * +EC1.1.1.9 ribitol rhizomucor pusillus//*//* 149.0 * +EC1.1.1.9 ribitol serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 496.0 * +EC1.1.1.9 sorbitol candida sp. ha 167//*//* 21.0 * +EC1.1.1.9 sorbitol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 3.0 * +EC1.1.1.9 sorbitol scheffersomyces shehatae//*//* 0.16 * +EC1.1.1.9 xylitol blastobotrys adeninivorans//*//* 4.0 * +EC1.1.1.9 xylitol candida sp. ha 167//*//* 0.039 * +EC1.1.1.9 xylitol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 49.8 * +EC1.1.1.9 xylitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 13.7 * +EC1.1.1.9 xylitol meyerozyma caribbica//*//* 0.11 * +EC1.1.1.9 xylitol morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 16.4 * +EC1.1.1.9 xylitol pachysolen tannophilus//*//* 11.0 * +EC1.1.1.9 xylitol providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 12.6 * +EC1.1.1.9 xylitol rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 12.1 * +EC1.1.1.9 xylitol rhizomucor pusillus//*//* 7.83 * +EC1.1.1.9 xylitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 25.0 * +EC1.1.1.9 xylitol scheffersomyces shehatae//*//* 18.5 * +EC1.1.1.9 xylitol scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 21.7 * +EC1.1.1.9 xylitol serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 7.1 * +EC1.1.1.9 xylulose scheffersomyces shehatae//*//* 13.8 * +EC1.1.1.90 2-hydroxybenzyl alcohol acinetobacter calcoaceticus//*//* 0.09 * +EC1.1.1.90 2-methoxybenzyl alcohol acinetobacter calcoaceticus//*//* 0.111 * +EC1.1.1.90 2-methylbenzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.605 * +EC1.1.1.90 3,4-dimethoxybenzyl alcohol acinetobacter calcoaceticus//*//* 0.053 * +EC1.1.1.90 3-methoxybenzyl alcohol acinetobacter calcoaceticus//*//* 0.145 * +EC1.1.1.90 3-methyl-2-buten-1-ol acinetobacter calcoaceticus//*//* 0.017 * +EC1.1.1.90 3-methyl-2-buten-1-ol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC1.1.1.90 3-methylbenzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.081 * +EC1.1.1.90 4-hydroxybenzyl alcohol acinetobacter calcoaceticus//*//* 0.046 * +EC1.1.1.90 4-hydroxybenzyl alcohol thauera sp.//prokaryotes;bacteria;betaproteobacteria;thauera//tmz 0.3 * +EC1.1.1.90 4-isopropylbenzyl alcohol acinetobacter calcoaceticus//*//* 0.111 * +EC1.1.1.90 4-methoxybenzyl alcohol acinetobacter calcoaceticus//*//* 0.057 * +EC1.1.1.90 4-methylbenzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.106 * +EC1.1.1.90 benzaldehyde acinetobacter baylyi//*//* 0.28 * +EC1.1.1.90 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0257 * +EC1.1.1.90 benzyl alcohol acinetobacter calcoaceticus//*//* 0.0173 * +EC1.1.1.90 benzyl alcohol lactobacillus plantarum wcfs1//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.23 * +EC1.1.1.90 benzyl alcohol lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.23 * +EC1.1.1.90 benzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.121 * +EC1.1.1.90 benzyl alcohol thauera sp.//prokaryotes;bacteria;betaproteobacteria;thauera//tmz 0.32 * +EC1.1.1.90 cinnamyl alcohol acinetobacter calcoaceticus//*//* 0.093 * +EC1.1.1.90 cinnamyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.7 * +EC1.1.1.90 coniferyl alcohol acinetobacter calcoaceticus//*//* 0.044 * +EC1.1.1.90 coniferyl alcohol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.13 * +EC1.1.1.90 coniferyl aldehyde streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 5.1 * +EC1.1.1.90 nad+ acinetobacter calcoaceticus//*//* 0.0152 * +EC1.1.1.90 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0406 * +EC1.1.1.90 nad+ streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.4 * +EC1.1.1.90 nad+ thauera sp.//prokaryotes;bacteria;betaproteobacteria;thauera//tmz 0.05 * +EC1.1.1.90 nadh acinetobacter baylyi//*//* 0.017 * +EC1.1.1.90 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.047 * +EC1.1.1.90 perillyl alcohol acinetobacter calcoaceticus//*//* 0.018 * +EC1.1.1.90 thiophen-2-methanol acinetobacter calcoaceticus//*//* 0.111 * +EC1.1.1.91 (r)-1-phenylethanol ralstonia sp.//*//* 5.5 * +EC1.1.1.91 (s)-1-phenylethanol ralstonia sp.//*//* 9.9 * +EC1.1.1.91 (s)-2-octanol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 7.1 * +EC1.1.1.91 3,4-dimethoxybenzaldehyde phanerochaete chrysosporium//*//* 0.012 * +EC1.1.1.91 3,4-dimethoxybenzyl alcohol phanerochaete chrysosporium//*//* 0.37 * +EC1.1.1.91 3,5-dimethoxybenzaldehyde phanerochaete chrysosporium//*//* 0.022 * +EC1.1.1.91 3-hydroxy-4-methoxy-benzaldehyde phanerochaete chrysosporium//*//* 1.4 * +EC1.1.1.91 3-phenylpropionaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.55 * +EC1.1.1.91 4-hydroxy-3-methoxy-benzaldehyde phanerochaete chrysosporium//*//* 1.4 * +EC1.1.1.91 4-hydroxy-3-methoxy-benzyl alcohol phanerochaete chrysosporium//*//* 25.0 * +EC1.1.1.91 4-methoxybenzaldehyde neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.5 * +EC1.1.1.91 4-methoxybenzaldehyde phanerochaete chrysosporium//*//* 0.09 * +EC1.1.1.91 4-methoxybenzyl alcohol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.7 * +EC1.1.1.91 5-(hydroxymethyl)-2-furaldehyde phanerochaete chrysosporium//*//* 0.27 * +EC1.1.1.91 acetaldehyde neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.7 * +EC1.1.1.91 benzaldehyde phanerochaete chrysosporium//*//* 1.7 * +EC1.1.1.91 benzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.34 * +EC1.1.1.91 benzaldehyde yokenella sp. wzy002//*//* 0.4 * +EC1.1.1.91 benzyl alcohol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.057 * +EC1.1.1.91 benzyl alcohol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 4.35 * +EC1.1.1.91 benzyl alcohol yokenella sp. wzy002//*//* 14.0 * +EC1.1.1.91 cinnamic aldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.22 * +EC1.1.1.91 coniferyl alcohol brassica napus subsp. rapifera//*//* 0.55 * +EC1.1.1.91 coniferyl aldehyde brassica napus subsp. rapifera//*//* 0.14 * +EC1.1.1.91 crotonaldehyde yokenella sp. wzy002//*//* 3.3 * +EC1.1.1.91 crotonyl alcohol yokenella sp. wzy002//*//* 9.1 * +EC1.1.1.91 m-bromobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.16 * +EC1.1.1.91 m-chlorobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.1 * +EC1.1.1.91 m-fluorobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.42 * +EC1.1.1.91 m-hydroxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.1 * +EC1.1.1.91 m-nitrobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.21 * +EC1.1.1.91 nad+ ralstonia sp.//*//* 3.1 * +EC1.1.1.91 nadh brassica napus subsp. rapifera//*//* 0.0026 * +EC1.1.1.91 nadh phanerochaete chrysosporium//*//* 0.22 * +EC1.1.1.91 nadp+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.024 * +EC1.1.1.91 nadp+ phanerochaete chrysosporium//*//* 0.038 * +EC1.1.1.91 nadp+ ralstonia sp.//*//* 0.051 * +EC1.1.1.91 nadp+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.18 * +EC1.1.1.91 nadp+ yokenella sp. wzy002//*//* 0.6 * +EC1.1.1.91 nadph brassica napus subsp. rapifera//*//* 0.1 * +EC1.1.1.91 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC1.1.1.91 nadph phanerochaete chrysosporium//*//* 0.039 * +EC1.1.1.91 nadph solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.017 * +EC1.1.1.91 o-bromobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.25 * +EC1.1.1.91 o-chlorobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.2 * +EC1.1.1.91 o-fluorobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.27 * +EC1.1.1.91 o-nitrobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.05 * +EC1.1.1.91 p-aminobenzyl alcohol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC1.1.1.91 p-bromobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.22 * +EC1.1.1.91 p-chlorobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.34 * +EC1.1.1.91 p-fluorobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.26 * +EC1.1.1.91 p-hydroxybenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.09 * +EC1.1.1.91 p-methylbenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.3 * +EC1.1.1.91 p-nitrobenzaldehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.04 * +EC1.1.1.91 phenylacetaldehyde phanerochaete chrysosporium//*//* 0.53 * +EC1.1.1.91 trans-cinnamaldehyde phanerochaete chrysosporium//*//* 3.4 * +EC1.1.1.91 veratraldehyde taiwanofungus camphoratus//*//* 0.25 * +EC1.1.1.92 2,3-dihydroxysuccinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC1.1.1.92 glyoxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.3 * +EC1.1.1.92 hydroxypyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC1.1.1.92 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.1.1.92 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.015 * +EC1.1.1.93 (2r,3r)-3-aminomalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.58 * +EC1.1.1.93 (2r,3r)-3-bromomalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.22 * +EC1.1.1.93 (2r,3r)-3-chloromalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.1.1.93 (2r,3r)-3-fluoromalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.67 * +EC1.1.1.93 (2r,3r)-3-iodomalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.024 * +EC1.1.1.93 (2r,3r)-3-methyltartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.06 * +EC1.1.1.93 (2r,3s)-3-aminomalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.026 * +EC1.1.1.93 (2r,3s)-3-bromomalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.011 * +EC1.1.1.93 (2r,3s)-3-chloromalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.012 * +EC1.1.1.93 (2r,3s)-3-fluoromalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.019 * +EC1.1.1.93 beta-isopropylmalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.014 * +EC1.1.1.93 d-malate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC1.1.1.93 d-malate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.17 * +EC1.1.1.93 dihydroxyfumarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.0 * +EC1.1.1.93 isopropylmalate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.014 * +EC1.1.1.93 l-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC1.1.1.93 l-tartrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.3 * +EC1.1.1.93 meso-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.06 * +EC1.1.1.93 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.025 * +EC1.1.1.93 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.13 * +EC1.1.1.93 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.4 * +EC1.1.1.94 glycerol-3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC1.1.1.94 glycerone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC1.1.1.94 glycerone phosphate rickettsia prowazekii//prokaryotes;bacteria;alphaproteobacteria;rickettsia//rpr 0.528 * +EC1.1.1.94 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.1.1.94 nadph rickettsia prowazekii//prokaryotes;bacteria;alphaproteobacteria;rickettsia//rpr 0.048 * +EC1.1.1.95 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.1 * +EC1.1.1.95 3-acetylpyridine-nad+ pisum sativum//*//* 0.00025 * +EC1.1.1.95 3-acetylpyridine-nadh pisum sativum//*//* 0.00016 * +EC1.1.1.95 3-phospho-d-glycerate aphanothece halophytica//*//* 0.9 * +EC1.1.1.95 3-phospho-d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.899 * +EC1.1.1.95 3-phospho-d-glycerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.015 * +EC1.1.1.95 3-phospho-d-glycerate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.004 * +EC1.1.1.95 3-phospho-d-glycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.396 * +EC1.1.1.95 3-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.1.1.95 3-phospho-d-glycerate mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.008 * +EC1.1.1.95 3-phospho-d-glycerate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.049 * +EC1.1.1.95 3-phospho-d-glycerate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.025 * +EC1.1.1.95 3-phospho-d-glycerate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.014 * +EC1.1.1.95 3-phospho-d-glycerate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.033 * +EC1.1.1.95 3-phosphoglycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.212 * +EC1.1.1.95 3-phosphohydroxypyruvate aphanothece halophytica//*//* 0.15 * +EC1.1.1.95 3-phosphohydroxypyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.35 * +EC1.1.1.95 3-phosphohydroxypyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.045 * +EC1.1.1.95 3-phosphohydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC1.1.1.95 3-phosphohydroxypyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.1.1.95 3-phosphohydroxypyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.085 * +EC1.1.1.95 3-phosphohydroxypyruvate pisum sativum//*//* 0.00013 * +EC1.1.1.95 3-phosphohydroxypyruvate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0096 * +EC1.1.1.95 3-phosphohydroxypyruvate triticum aestivum//*//* 40.2 * +EC1.1.1.95 alpha-ketoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC1.1.1.95 d-3-phosphoglycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.19 * +EC1.1.1.95 d-3-phosphoglycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC1.1.1.95 d-3-phosphoglycerate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.15 * +EC1.1.1.95 d-3-phosphoglycerate pisum sativum//*//* 0.05 * +EC1.1.1.95 d-3-phosphoglycerate triticum aestivum//*//* 1.35 * +EC1.1.1.95 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC1.1.1.95 nad+ entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0867 * +EC1.1.1.95 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0078 * +EC1.1.1.95 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.25 * +EC1.1.1.95 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC1.1.1.95 nad+ pisum sativum//*//* 0.0078 * +EC1.1.1.95 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.04 * +EC1.1.1.95 nad+ triticum aestivum//*//* 0.5 * +EC1.1.1.95 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC1.1.1.95 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0023 * +EC1.1.1.95 nadh entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0177 * +EC1.1.1.95 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.012 * +EC1.1.1.95 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.1.1.95 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.17 * +EC1.1.1.95 nadh pisum sativum//*//* 0.0005 * +EC1.1.1.95 nadh sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0013 * +EC1.1.1.95 nadh triticum aestivum//*//* 12.0 * +EC1.1.1.95 nadph entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.141 * +EC1.1.1.95 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.15 * +EC1.1.1.95 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC1.1.1.95 oxaloacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5 * +EC1.1.1.95 phosphohydroxypyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.015 * +EC1.1.1.96 3,5-diiodo-4-hydroxyphenylpyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC1.1.1.96 3,5-diiodo-4-hydroxyphenylpyruvate canis lupus familiaris//*//* 0.04 * +EC1.1.1.96 4-hydroxyphenylpyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.9 * +EC1.1.1.96 indolepyruvate canis lupus familiaris//*//* 0.2 * +EC1.1.1.96 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.052 * +EC1.1.1.96 nadh canis lupus familiaris//*//* 0.014 * +EC1.1.1.96 oxaloacetate canis lupus familiaris//*//* 0.14 * +EC1.1.1.96 phenylpyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.8 * +EC1.1.1.96 phenylpyruvate canis lupus familiaris//*//* 1.6 * +EC1.1.1.97 3-hydroxybenzyl alcohol penicillium urticae//*//* 0.05 * +EC1.1.1.B19 d-arabitol aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 2.64 * +EC1.1.1.B19 d-threitol aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 0.83 * +EC1.1.1.B19 l-xylulose aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 1.27 * +EC1.1.1.B19 nad+ aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 0.034 * +EC1.1.1.B19 xylitol aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 2.06 * +EC1.1.1.B20 (2s,3s)-2,3-butanediol serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 31.2 * +EC1.1.1.B20 (3r)-acetoin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.97 * +EC1.1.1.B20 diacetyl serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.3 * +EC1.1.1.B20 meso-2,3-butanediol corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.0 * +EC1.1.1.B20 meso-2,3-butanediol serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 4.1 * +EC1.1.1.B28 dtdp-4-dehydro-6-deoxy-alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC1.1.1.B28 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.84 * +EC1.1.1.B28 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.89 * +EC1.1.1.B3 (s)-1-phenylethanol uncultured bacterium//*//* 0.0055 * +EC1.1.1.B3 (s)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.012 * +EC1.1.1.B3 (s)-2-hexanol nocardia fusca aku 2123//*//* 0.33 * +EC1.1.1.B3 (s)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.07 * +EC1.1.1.B3 (s)-3-pentyn-2-ol nocardia fusca aku 2123//*//* 1.6 * +EC1.1.1.B3 1-chloroacetophenone debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 2.25 * +EC1.1.1.B3 2-hexanone nocardia fusca aku 2123//*//* 2.5 * +EC1.1.1.B3 4-chloro-3-oxobutanoate candida parapsilosis//*//* 6.4 * +EC1.1.1.B3 acetophenone candida viswanathii//*//* 0.153 * +EC1.1.1.B3 acetophenone uncultured bacterium//*//* 0.0113 * +EC1.1.1.B3 ethyl 4-chloro-3-oxobutanoate scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 3.3 * +EC1.1.1.B3 nadh candida viswanathii//*//* 0.157 * +EC1.1.1.B35 d-arabinose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.4 * +EC1.1.1.B35 l-fucose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.22 * +EC1.1.1.B35 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.25 * +EC1.1.1.B35 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.038 * +EC1.1.1.B38 mevalonate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.62 * +EC1.1.1.B38 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.5 * +EC1.1.1.B38 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.16 * +EC1.1.1.B38 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.7 * +EC1.1.1.B38 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.5 * +EC1.1.1.B4 (r)-1,3-butandiol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 5.4 * +EC1.1.1.B4 (r)-2-butanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.045 * +EC1.1.1.B4 (r)-2-butanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.41 * +EC1.1.1.B4 (r)-2-pentanol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.22 * +EC1.1.1.B4 (s)-1,3-butandiol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 52.0 * +EC1.1.1.B4 (s)-2-butanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.35 * +EC1.1.1.B4 1-butanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 10.0 * +EC1.1.1.B4 1-propanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 4.0 * +EC1.1.1.B4 2,3-butanedione gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.72 * +EC1.1.1.B4 2-butanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.065 * +EC1.1.1.B4 2-butanone burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.04 * +EC1.1.1.B4 2-pentanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.84 * +EC1.1.1.B4 2-propanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.11 * +EC1.1.1.B4 2-propanol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.075 * +EC1.1.1.B4 3,5-bis(trifluoromethyl)acetophenone leifsonia xyli//prokaryotes;bacteria;actinobacteria;leifsonia//lxx 0.57 * +EC1.1.1.B4 3-pentanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.76 * +EC1.1.1.B4 acetone burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.065 * +EC1.1.1.B4 ethanol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 6.5 * +EC1.1.1.B4 ethyl 2-oxopropanoate carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 5.3 * +EC1.1.1.B4 ethyl 4-chloro-3-oxobutanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.27 * +EC1.1.1.B4 nad+ burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.15 * +EC1.1.1.B4 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.525 * +EC1.1.1.B4 nadh burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.01 * +EC1.1.1.B4 nadh lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.13 * +EC1.1.1.B4 nadh leifsonia xyli//prokaryotes;bacteria;actinobacteria;leifsonia//lxx 0.025 * +EC1.1.1.B4 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.18 * +EC1.1.1.B4 nadph lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.017 * +EC1.1.1.B40 11beta,17,21-trihydroxy-pregn-4-ene-3,20-dione cavia porcellus//*//* 0.008 * +EC1.1.1.B40 11beta,17,21-trihydroxy-pregn-4-ene-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7e-05 * +EC1.1.1.B40 11beta,21-dihydroxypregn-4-en-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1e-06 * +EC1.1.1.B40 11beta,21-dihydroxypregn-4-en-3,20-dione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.2e-05 * +EC1.1.1.B40 11beta,21-dihydroxypregn-4-en-3,20-dione ovis aries aries//*//* 1.4e-05 * +EC1.1.1.B40 11beta,21-dihydroxypregn-4-en-3,20-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00108 * +EC1.1.1.B40 17,21-dihydroxy-pregn-4-ene-3,11,20-trione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00089 * +EC1.1.1.B40 21-hydroxy-pregn-4-en-3,11,20-trione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.1.1.B40 corticosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7e-05 * +EC1.1.1.B40 corticosterone rhinella arenarum//*//* 0.00013 * +EC1.1.1.B40 cortisol felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.0002 * +EC1.1.1.B40 cortisol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.000154 * +EC1.1.1.B40 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4e-06 * +EC1.1.1.B40 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.091 * +EC1.1.1.B47 nadh metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.18 * +EC1.1.1.B47 nadph metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.006 * +EC1.1.1.B47 succinate semialdehyde metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.052 * +EC1.1.1.B51 3-quinuclidinone rhodotorula mucilaginosa//*//* 0.44 * +EC1.1.1.B51 nadph rhodotorula mucilaginosa//*//* 0.19 * +EC1.1.1.B52 3-quinuclidinone agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.4 * +EC1.1.1.B52 3-quinuclidinone microbacterium luteolum//*//* 6.5 * +EC1.1.1.B52 nadh microbacterium luteolum//*//* 0.02 * +EC1.1.1.B57 3,4-dihydro-1(2h)-naphthalenone pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 2.4 * +EC1.1.1.B60 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 38.9 * +EC1.1.1.B61 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.131 * +EC1.1.1.B61 shikimate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.685 * +EC1.1.1.B61 shikimate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.223 * +EC1.1.2.2 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 17.0 * +EC1.1.2.2 d-mannitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 31.0 * +EC1.1.2.2 d-mannitol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.098 * +EC1.1.2.2 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 20.0 * +EC1.1.2.2 ribitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 44.0 * +EC1.1.2.3 (s)-lactate ogataea angusta//*//* 2.09 * +EC1.1.2.3 (s)-lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC1.1.2.3 (s)-lactate satureja hortensis//*//* 2.6 * +EC1.1.2.3 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.131 * +EC1.1.2.3 ferricyanide crocus sativus//*//* 0.07 * +EC1.1.2.3 ferricyanide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC1.1.2.3 ferricytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.1.2.3 l-lactate ogataea angusta//*//* 0.33 * +EC1.1.2.3 l-lactate rhizopus oryzae//*//* 3.85 * +EC1.1.2.3 l-lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.037 * +EC1.1.2.3 l-lactate wickerhamomyces anomalus//*//* 0.4 * +EC1.1.2.3 l-phenyllactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC1.1.2.3 phenyllactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC1.1.2.3 potassium ferricyanide satureja hortensis//*//* 6.0 * +EC1.1.2.3 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.4 * +EC1.1.2.3 pyruvate wickerhamomyces anomalus//*//* 20.0 * +EC1.1.2.4 (r)-lactate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.264 * +EC1.1.2.4 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0054 * +EC1.1.2.4 d-2-hydroxybutyrate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.061 * +EC1.1.2.4 d-2-hydroxybutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.34 * +EC1.1.2.4 d-2-hydroxyvalerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5 * +EC1.1.2.4 d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.871 * +EC1.1.2.4 d-lactate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.164 * +EC1.1.2.4 d-lactate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.8 * +EC1.1.2.4 d-lactate helianthus tuberosus//*//* 5.0 * +EC1.1.2.4 d-lactate megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.0026 * +EC1.1.2.4 d-lactate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.8 * +EC1.1.2.4 d-lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.055 * +EC1.1.2.4 ferricyanide megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.23 * +EC1.1.2.4 glycolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.432 * +EC1.1.2.4 l-lactate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.486 * +EC1.1.2.4 phenazine methosulfate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.45 * +EC1.1.2.5 d-lactate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.8 * +EC1.1.2.5 dl-2-hydroxybutyrate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 2.4 * +EC1.1.2.7 butanol methylosinus sp.//*//* 6.38 * +EC1.1.2.7 ethanol methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 0.01 * +EC1.1.2.7 ethanol methylosinus sp.//*//* 3.58 * +EC1.1.2.7 ethanol methyloversatilis universalis//*//* 0.05 * +EC1.1.2.7 ferricytochrome cl hyphomicrobium denitrificans//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hdn 0.0003 * +EC1.1.2.7 heptanol methylosinus sp.//*//* 0.58 * +EC1.1.2.7 hexanol methylosinus sp.//*//* 0.79 * +EC1.1.2.7 methanol methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 0.29 * +EC1.1.2.7 methanol methylophaga aminisulfidivorans//*//* 0.013 * +EC1.1.2.7 methanol methylosinus sp.//*//* 0.45 * +EC1.1.2.7 methanol methyloversatilis universalis//*//* 0.01 * +EC1.1.2.7 n-butanol methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 0.01 * +EC1.1.2.7 n-butanol methyloversatilis universalis//*//* 0.5 * +EC1.1.2.7 n-propanol methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 0.09 * +EC1.1.2.7 n-propanol methyloversatilis universalis//*//* 0.5 * +EC1.1.2.7 octanol methylosinus sp.//*//* 0.65 * +EC1.1.2.7 pentanol methylosinus sp.//*//* 1.34 * +EC1.1.2.7 propanol methylosinus sp.//*//* 3.69 * +EC1.1.2.7 sorbic alcohol methylosinus sp.//*//* 0.18 * +EC1.1.2.9 butan-1-ol thauera butanivorans//*//* 0.007 * +EC1.1.2.B2 butanol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 91.4 * +EC1.1.2.B2 ethanol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 3.39 * +EC1.1.2.B2 methanol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.56 * +EC1.1.2.B2 n,n,n',n'-tetramethyl-4-phenylenediamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 3.22 * +EC1.1.2.B2 phenazine ethosulfate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 11.8 * +EC1.1.2.B2 propanol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 10.7 * +EC1.1.2.B3 1,3-propanediol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 21.0 * +EC1.1.2.B3 1-butanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.43 * +EC1.1.2.B3 1-propanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.062 * +EC1.1.2.B3 2-propanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.4 * +EC1.1.2.B3 ethanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.012 * +EC1.1.2.B5 d-arabinose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 30.3 * +EC1.1.2.B5 d-glucosone coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 7.9 * +EC1.1.2.B5 d-lyxose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 66.8 * +EC1.1.2.B5 d-talose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 23.1 * +EC1.1.2.B5 ferricytochrome c coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 3.3 * +EC1.1.2.B5 l-fucose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 24.8 * +EC1.1.2.B5 l-galactose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 49.7 * +EC1.1.2.B5 l-glucose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 363.0 * +EC1.1.2.B5 l-gulose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 84.7 * +EC1.1.2.B5 l-xylose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 236.0 * +EC1.1.3.10 1,4-benzoquinone lyophyllum shimeji//*//* 0.033 * +EC1.1.3.10 1,4-benzoquinone phanerochaete chrysosporium//*//* 0.042 * +EC1.1.3.10 1,4-benzoquinone pseudarthrobacter siccitolerans//*//* 0.12 * +EC1.1.3.10 1,4-benzoquinone trametes ochracea//*//* 0.027 * +EC1.1.3.10 1,5-anhydro-d-glucitol tricholoma matsutake//*//* 10.7 * +EC1.1.3.10 2,2'-azinobis(3-ethylbenzthiazolinesulfonic acid) cation radical phanerochaete chrysosporium//*//* 0.09 * +EC1.1.3.10 2,2'-azinobis(3-ethylbenzthiazolinesulfonic acid) cation radical trametes ochracea//*//* 0.07 * +EC1.1.3.10 2,6-dichloroindophenol lyophyllum shimeji//*//* 0.187 * +EC1.1.3.10 2,6-dichloroindophenol phanerochaete chrysosporium//*//* 0.051 * +EC1.1.3.10 2,6-dichloroindophenol trametes ochracea//*//* 0.065 * +EC1.1.3.10 2,6-dimethyl-1,4-benzoquinone phanerochaete chrysosporium//*//* 1.59 * +EC1.1.3.10 2,6-dimethyl-1,4-benzoquinone trametes ochracea//*//* 0.83 * +EC1.1.3.10 2-chloro-1,4-benzoquinone phanerochaete chrysosporium//*//* 0.31 * +EC1.1.3.10 2-deoxy-d-galactose trametes ochracea//*//* 10.32 * +EC1.1.3.10 2-deoxy-d-glucose phanerochaete chrysosporium//*//* 55.0 * +EC1.1.3.10 2-deoxy-d-glucose phlebiopsis gigantea//*//* 11.3 * +EC1.1.3.10 2-deoxy-d-glucose trametes ochracea//*//* 11.85 * +EC1.1.3.10 2-methoxy-1,4-benzoquinone phanerochaete chrysosporium//*//* 0.21 * +EC1.1.3.10 2-methyl-1,4-benzoquinone phanerochaete chrysosporium//*//* 0.51 * +EC1.1.3.10 5-thioglucose trametes ochracea//*//* 3.9 * +EC1.1.3.10 alpha-d-glucose phanerochaete chrysosporium//*//* 1.53 * +EC1.1.3.10 alpha-d-glucose trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 1.0 * +EC1.1.3.10 beta-d-glucose phanerochaete chrysosporium//*//* 0.97 * +EC1.1.3.10 beta-d-glucose trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.57 * +EC1.1.3.10 cellobiose irpex lacteus//*//* 290.0 * +EC1.1.3.10 d-allose phlebiopsis gigantea//*//* 36.0 * +EC1.1.3.10 d-allose trametes ochracea//*//* 36.0 * +EC1.1.3.10 d-arabinose tricholoma matsutake//*//* 174.0 * +EC1.1.3.10 d-cellobiose trametes ochracea//*//* 0.71 * +EC1.1.3.10 d-fructose irpex lacteus//*//* 727.0 * +EC1.1.3.10 d-fructose phanerochaete chrysosporium//*//* 103.0 * +EC1.1.3.10 d-fucose trametes ochracea//*//* 6.25 * +EC1.1.3.10 d-galactose irpex lacteus//*//* 7.73 * +EC1.1.3.10 d-galactose lyophyllum shimeji//*//* 3.84 * +EC1.1.3.10 d-galactose phanerochaete chrysosporium//*//* 2.94 * +EC1.1.3.10 d-galactose phlebiopsis gigantea//*//* 8.2 * +EC1.1.3.10 d-galactose pseudarthrobacter siccitolerans//*//* 101.0 * +EC1.1.3.10 d-galactose trametes ochracea//*//* 3.7 * +EC1.1.3.10 d-galactose tricholoma matsutake//*//* 45.0 * +EC1.1.3.10 d-glucono-1,5-lactone irpex lacteus//*//* 51.1 * +EC1.1.3.10 d-gluconolactone trametes ochracea//*//* 38.0 * +EC1.1.3.10 d-glucose daedaleopsis styracina//*//* 1.0 * +EC1.1.3.10 d-glucose gloeophyllum sepiarium//*//* 1.8 * +EC1.1.3.10 d-glucose irpex lacteus//*//* 0.74 * +EC1.1.3.10 d-glucose lyophyllum shimeji//*//* 0.314 * +EC1.1.3.10 d-glucose peniophora sp.//*//* 5.0 * +EC1.1.3.10 d-glucose phanerochaete chrysosporium//*//* 0.82 * +EC1.1.3.10 d-glucose phlebiopsis gigantea//*//* 0.74 * +EC1.1.3.10 d-glucose pseudarthrobacter siccitolerans//*//* 1.1 * +EC1.1.3.10 d-glucose trametes hirsuta//*//* 1.7 * +EC1.1.3.10 d-glucose trametes ochracea//*//* 0.13 * +EC1.1.3.10 d-glucose trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.83 * +EC1.1.3.10 d-glucose tricholoma matsutake//*//* 1.28 * +EC1.1.3.10 d-maltoheptaose trametes ochracea//*//* 6.02 * +EC1.1.3.10 d-maltopentaose trametes ochracea//*//* 6.14 * +EC1.1.3.10 d-maltose tricholoma matsutake//*//* 329.0 * +EC1.1.3.10 d-maltotriose trametes ochracea//*//* 6.61 * +EC1.1.3.10 d-mannoheptose trametes ochracea//*//* 110.0 * +EC1.1.3.10 d-mannose irpex lacteus//*//* 370.0 * +EC1.1.3.10 d-mannose tricholoma matsutake//*//* 295.0 * +EC1.1.3.10 d-melibiose trametes ochracea//*//* 1500.0 * +EC1.1.3.10 d-melibose phlebiopsis gigantea//*//* 120.0 * +EC1.1.3.10 d-ribose pseudarthrobacter siccitolerans//*//* 180.0 * +EC1.1.3.10 d-trehalose trametes ochracea//*//* 7.51 * +EC1.1.3.10 d-xylose irpex lacteus//*//* 25.9 * +EC1.1.3.10 d-xylose lyophyllum shimeji//*//* 6.3 * +EC1.1.3.10 d-xylose peniophora sp.//*//* 40.0 * +EC1.1.3.10 d-xylose phanerochaete chrysosporium//*//* 20.0 * +EC1.1.3.10 d-xylose phlebiopsis gigantea//*//* 22.2 * +EC1.1.3.10 d-xylose pseudarthrobacter siccitolerans//*//* 73.0 * +EC1.1.3.10 d-xylose trametes ochracea//*//* 6.21 * +EC1.1.3.10 d-xylose tricholoma matsutake//*//* 45.8 * +EC1.1.3.10 ferricenium hexafluorophosphate phanerochaete chrysosporium//*//* 0.29 * +EC1.1.3.10 ferricenium ion trametes ochracea//*//* 0.07 * +EC1.1.3.10 ferricyanide phanerochaete chrysosporium//*//* 3.43 * +EC1.1.3.10 ferrocenium hexafluorophosphate trametes ochracea//*//* 0.1 * +EC1.1.3.10 ferrocenium ion lyophyllum shimeji//*//* 0.187 * +EC1.1.3.10 gentibiose trametes ochracea//*//* 62.0 * +EC1.1.3.10 glucose trametes ochracea//*//* 0.79 * +EC1.1.3.10 l-arabinose pseudarthrobacter siccitolerans//*//* 14.0 * +EC1.1.3.10 l-arabinose trametes ochracea//*//* 1.55 * +EC1.1.3.10 l-sorbose irpex lacteus//*//* 39.3 * +EC1.1.3.10 l-sorbose lyophyllum shimeji//*//* 14.7 * +EC1.1.3.10 l-sorbose peniophora sp.//*//* 42.0 * +EC1.1.3.10 l-sorbose phanerochaete chrysosporium//*//* 23.5 * +EC1.1.3.10 l-sorbose phlebiopsis gigantea//*//* 16.5 * +EC1.1.3.10 l-sorbose trametes ochracea//*//* 38.0 * +EC1.1.3.10 l-sorbose tricholoma matsutake//*//* 26.4 * +EC1.1.3.10 maltose irpex lacteus//*//* 46.4 * +EC1.1.3.10 maltose phanerochaete chrysosporium//*//* 257.0 * +EC1.1.3.10 melibiose lyophyllum shimeji//*//* 72.8 * +EC1.1.3.10 methyl-1,4-benzoquinone trametes ochracea//*//* 0.35 * +EC1.1.3.10 methyl-beta-d-glucoside phlebiopsis gigantea//*//* 289.0 * +EC1.1.3.10 o2 phanerochaete chrysosporium//*//* 1.22 * +EC1.1.3.10 o2 trametes ochracea//*//* 0.03 * +EC1.1.3.10 oxygen phanerochaete chrysosporium//*//* 0.0832 * +EC1.1.3.10 oxygen phlebiopsis gigantea//*//* 0.65 * +EC1.1.3.10 oxygen trametes ochracea//*//* 0.09 * +EC1.1.3.10 sucrose irpex lacteus//*//* 902.0 * +EC1.1.3.10 tetrabromo-1,4-benzoquinone trametes ochracea//*//* 0.09 * +EC1.1.3.10 tetrachloro-1,4-benzoquinone trametes ochracea//*//* 0.088 * +EC1.1.3.10 tetrafluoro-1,4-benzoquinone phanerochaete chrysosporium//*//* 0.64 * +EC1.1.3.10 tetrafluoro-1,4-benzoquinone trametes ochracea//*//* 0.22 * +EC1.1.3.10 trehalose tricholoma matsutake//*//* 192.0 * +EC1.1.3.11 d-glucose trametes sanguinea//*//* 1.2 * +EC1.1.3.11 l-sorbose trametes sanguinea//*//* 22.0 * +EC1.1.3.12 2,6-dichloroindophenol microbacterium luteolum//*//* 0.0097 * +EC1.1.3.12 2,6-dichloroindophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0083 * +EC1.1.3.12 o2 mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.078 * +EC1.1.3.12 o2 microbacterium luteolum//*//* 0.206 * +EC1.1.3.12 pyridoxine mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.213 * +EC1.1.3.12 pyridoxine microbacterium luteolum//*//* 0.054 * +EC1.1.3.12 pyridoxine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.43 * +EC1.1.3.12 vitamin k3 microbacterium luteolum//*//* 0.05 * +EC1.1.3.13 (r)-2-octanol aspergillus terreus//*//* 18.3 * +EC1.1.3.13 1,4-butynediol candida boidinii//*//* 36.0 * +EC1.1.3.13 1-decanol ochrobactrum sp.//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//och 0.0109 * +EC1.1.3.13 1-hexanol ochrobactrum sp.//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//och 0.41 * +EC1.1.3.13 1-octanol ochrobactrum sp.//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//och 0.0365 * +EC1.1.3.13 1-pentanol ochrobactrum sp.//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//och 5.54 * +EC1.1.3.13 1-propanol phanerochaete chrysosporium//*//* 42.7 * +EC1.1.3.13 2-mercaptoethanol poria contigua//*//* 27.2 * +EC1.1.3.13 2-propanol komagataella pastoris//*//* 261.0 * +EC1.1.3.13 2-propin-1-ol candida boidinii//*//* 10.0 * +EC1.1.3.13 2-propin-1-ol poria contigua//*//* 3.2 * +EC1.1.3.13 4-hepten-1-ol helix aspersa//*//* 0.18 * +EC1.1.3.13 4-hydroxy-2-butynal candida boidinii//*//* 0.44 * +EC1.1.3.13 4-nonen-1-ol helix aspersa//*//* 0.42 * +EC1.1.3.13 allyl alcohol ogataea angusta//*//* 33.3 * +EC1.1.3.13 benzyl alcohol ogataea angusta//*//* 26.6 * +EC1.1.3.13 butanol helix aspersa//*//* 0.075 * +EC1.1.3.13 d-ribose phlebiopsis gigantea//*//* 71.5 * +EC1.1.3.13 decanol helix aspersa//*//* 0.018 * +EC1.1.3.13 dodecanol helix aspersa//*//* 0.038 * +EC1.1.3.13 erythritol phlebiopsis gigantea//*//* 670.0 * +EC1.1.3.13 ethanol aspergillus ochraceus//*//* 12.0 * +EC1.1.3.13 ethanol basidiomycota//*//* 10.0 * +EC1.1.3.13 ethanol candida methanosorbosa//*//* 8.23 * +EC1.1.3.13 ethanol candida sp.//*//* 0.13 * +EC1.1.3.13 ethanol komagataella pastoris//*//* 0.75 * +EC1.1.3.13 ethanol ogataea angusta//*//* 6.6 * +EC1.1.3.13 ethanol paecilomyces variotii//*//* 3.8 * +EC1.1.3.13 ethanol penicillium purpurascens//*//* 20.2 * +EC1.1.3.13 ethanol phanerochaete chrysosporium//*//* 1.97 * +EC1.1.3.13 ethanol phlebiopsis gigantea//*//* 2.9 * +EC1.1.3.13 ethanol poria contigua//*//* 1.0 * +EC1.1.3.13 ethanol thermoascus aurantiacus//*//* 10.2 * +EC1.1.3.13 ethylene glycol aspergillus ochraceus//*//* 1.25 * +EC1.1.3.13 ethylene glycol komagataella pastoris//*//* 8.0 * +EC1.1.3.13 ethylene glycol penicillium purpurascens//*//* 0.95 * +EC1.1.3.13 formaldehyde komagataella pastoris//*//* 1.59 * +EC1.1.3.13 formaldehyde ogataea angusta//*//* 2.6 * +EC1.1.3.13 formaldehyde paecilomyces variotii//*//* 4.9 * +EC1.1.3.13 formaldehyde pichia sp.//*//* 3.5 * +EC1.1.3.13 formaldehyde poria contigua//*//* 6.1 * +EC1.1.3.13 glycerol phanerochaete chrysosporium//*//* 1.9 * +EC1.1.3.13 glycolate ochrobactrum sp.//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//och 167.0 * +EC1.1.3.13 hexadecanol fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 0.0005 * +EC1.1.3.13 hexadecanol helix aspersa//*//* 0.023 * +EC1.1.3.13 hexanol helix aspersa//*//* 0.029 * +EC1.1.3.13 isopropanol poria contigua//*//* 25.0 * +EC1.1.3.13 lactate ochrobactrum sp.//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//och 15.8 * +EC1.1.3.13 methanol basidiomycota//*//* 1.52 * +EC1.1.3.13 methanol candida boidinii//*//* 3.0 * +EC1.1.3.13 methanol candida methanosorbosa//*//* 2.43 * +EC1.1.3.13 methanol candida sp.//*//* 0.019 * +EC1.1.3.13 methanol fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 89.58 * +EC1.1.3.13 methanol gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 2.3 * +EC1.1.3.13 methanol komagataella pastoris//*//* 0.47 * +EC1.1.3.13 methanol ogataea angusta//*//* 0.4 * +EC1.1.3.13 methanol paecilomyces variotii//*//* 1.9 * +EC1.1.3.13 methanol phanerochaete chrysosporium//*//* 0.785 * +EC1.1.3.13 methanol phlebiopsis gigantea//*//* 1.8 * +EC1.1.3.13 methanol pichia sp.//*//* 0.5 * +EC1.1.3.13 methanol poria contigua//*//* 0.2 * +EC1.1.3.13 methanol thermoascus aurantiacus//*//* 0.5 * +EC1.1.3.13 n-butanol aspergillus terreus//*//* 0.028 * +EC1.1.3.13 n-butanol basidiomycota//*//* 133.0 * +EC1.1.3.13 n-butanol komagataella pastoris//*//* 2.79 * +EC1.1.3.13 n-butanol ogataea angusta//*//* 166.0 * +EC1.1.3.13 n-butanol phanerochaete chrysosporium//*//* 35.9 * +EC1.1.3.13 n-butanol poria contigua//*//* 21.3 * +EC1.1.3.13 n-dodecanol aspergillus terreus//*//* 1.86 * +EC1.1.3.13 n-heptanol aspergillus terreus//*//* 0.005 * +EC1.1.3.13 n-octanol aspergillus terreus//*//* 0.05 * +EC1.1.3.13 n-pentanol phanerochaete chrysosporium//*//* 10.9 * +EC1.1.3.13 n-propanol basidiomycota//*//* 54.6 * +EC1.1.3.13 n-propanol komagataella pastoris//*//* 1.23 * +EC1.1.3.13 n-propanol ogataea angusta//*//* 66.0 * +EC1.1.3.13 n-propanol phanerochaete chrysosporium//*//* 13.8 * +EC1.1.3.13 n-propanol poria contigua//*//* 8.3 * +EC1.1.3.13 o2 komagataella pastoris//*//* 0.4 * +EC1.1.3.13 o2 ogataea angusta//*//* 0.34 * +EC1.1.3.13 o2 phlebiopsis gigantea//*//* 0.4 * +EC1.1.3.13 octanol helix aspersa//*//* 0.0032 * +EC1.1.3.13 p-benzoquinone ogataea angusta//*//* 0.05 * +EC1.1.3.13 phenyl-3-propanol aspergillus terreus//*//* 2.3 * +EC1.1.3.13 propanol helix aspersa//*//* 0.067 * +EC1.1.3.13 ribitol phlebiopsis gigantea//*//* 250.0 * +EC1.1.3.13 tetradecanol helix aspersa//*//* 0.0056 * +EC1.1.3.15 (s)-lactate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 0.157 * +EC1.1.3.15 (s)-lactate geotrichum candidum//*//* 3.6 * +EC1.1.3.15 (s)-lactate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0052 * +EC1.1.3.15 2,6-dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.1.3.15 2-hydroxyoctanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.1.3.15 2-mercaptoethanol-glyoxylate adduct rattus sp.//*//* 0.75 * +EC1.1.3.15 2-oxo-octanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.1.3.15 bromopyruvate rattus sp.//*//* 4.4 * +EC1.1.3.15 coenzyme a-glyoxylate adduct rattus sp.//*//* 2.2 * +EC1.1.3.15 dichlorophenolindophenol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC1.1.3.15 dl-2-hydroxy-3-butynoate rattus sp.//*//* 4.0 * +EC1.1.3.15 dl-2-hydroxy-3-heptynoate rattus sp.//*//* 0.38 * +EC1.1.3.15 dl-2-hydroxy-3-hexynoate rattus sp.//*//* 7.0 * +EC1.1.3.15 dl-2-hydroxy-3-octynoate rattus sp.//*//* 0.14 * +EC1.1.3.15 dl-2-hydroxy-3-pentynoate rattus sp.//*//* 9.0 * +EC1.1.3.15 dl-2-hydroxy-4-methylthiobutanoic acid rattus sp.//*//* 0.7 * +EC1.1.3.15 dl-2-hydroxybutyrate rattus sp.//*//* 0.6 * +EC1.1.3.15 dl-2-hydroxycaproate rattus sp.//*//* 0.15 * +EC1.1.3.15 dl-2-hydroxyisocaproate rattus sp.//*//* 0.6 * +EC1.1.3.15 dl-2-hydroxyisovalerate rattus sp.//*//* 0.6 * +EC1.1.3.15 dl-2-hydroxyvalerate rattus sp.//*//* 0.25 * +EC1.1.3.15 dl-3-chlorolactate rattus sp.//*//* 0.7 * +EC1.1.3.15 dl-alpha-hydroxy-n-butyrate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 18.0 * +EC1.1.3.15 dl-alpha-hydroxy-n-valerate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 5.5 * +EC1.1.3.15 dl-alpha-phenyllactate rattus sp.//*//* 71.0 * +EC1.1.3.15 dl-glycerate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 5.0 * +EC1.1.3.15 dl-hydroxybutyrate rattus sp.//*//* 2.04 * +EC1.1.3.15 dl-lactate rattus sp.//*//* 27.0 * +EC1.1.3.15 dl-methionine rattus sp.//*//* 4.0 * +EC1.1.3.15 dl-phenyllactate rattus sp.//*//* 0.1 * +EC1.1.3.15 dl-vinylglycolate rattus sp.//*//* 10.0 * +EC1.1.3.15 glycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 7.14 * +EC1.1.3.15 glycolate amaranthus retroflexus//*//* 0.02 * +EC1.1.3.15 glycolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC1.1.3.15 glycolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.06 * +EC1.1.3.15 glycolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC1.1.3.15 glycolate mesostigma viride//*//* 0.3 * +EC1.1.3.15 glycolate rattus sp.//*//* 0.22 * +EC1.1.3.15 glycolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC1.1.3.15 glycolate zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC1.1.3.15 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC1.1.3.15 glyoxylate rattus sp.//*//* 1.41 * +EC1.1.3.15 l-2-hydroxy octanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC1.1.3.15 l-2-hydroxy palmitate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.36 * +EC1.1.3.15 l-2-hydroxy-4-methylthiobutanoic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.82 * +EC1.1.3.15 l-2-hydroxy-beta-methylvalerate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.4 * +EC1.1.3.15 l-2-hydroxyisocaproate rattus sp.//*//* 0.3 * +EC1.1.3.15 l-2-hydroxyisocaproate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.68 * +EC1.1.3.15 l-alpha-hydroxyphenyllactate rattus sp.//*//* 1.9 * +EC1.1.3.15 l-beta-phenyllactate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.2 * +EC1.1.3.15 l-lactate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 0.34 * +EC1.1.3.15 l-lactate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.5 * +EC1.1.3.15 l-lactate mesostigma viride//*//* 9.3 * +EC1.1.3.15 l-lactate rattus sp.//*//* 1.8 * +EC1.1.3.15 l-lactate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC1.1.3.15 l-leucine rattus sp.//*//* 5.3 * +EC1.1.3.15 l-lysine rattus sp.//*//* 90.0 * +EC1.1.3.15 l-mandelate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 0.3 * +EC1.1.3.15 l-mandelate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.1.3.15 l-mandelate rattus sp.//*//* 0.16 * +EC1.1.3.15 l-methionine rattus sp.//*//* 53.0 * +EC1.1.3.15 l-phenyllactate rattus sp.//*//* 0.09 * +EC1.1.3.15 l-tryptophan rattus sp.//*//* 35.0 * +EC1.1.3.15 n-acetylcysteamine-glyoxylate adduct rattus sp.//*//* 0.4 * +EC1.1.3.15 o2 aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 0.022 * +EC1.1.3.15 o2 rattus sp.//*//* 0.3 * +EC1.1.3.15 pantetheine-glyoxylate adduct rattus sp.//*//* 0.7 * +EC1.1.3.15 propane-1,3-dithiol-glyoxylate adduct rattus sp.//*//* 0.03 * +EC1.1.3.16 2,6-dichloroindophenol calliphora vicina//*//* 0.007 * +EC1.1.3.16 20-hydroxyecdysone calliphora vicina//*//* 0.031 * +EC1.1.3.16 ecdysone calliphora vicina//*//* 0.041 * +EC1.1.3.16 ecdysone manduca sexta//*//* 0.013 * +EC1.1.3.16 ecdysone spodoptera littoralis//*//* 0.0058 * +EC1.1.3.17 3,3-dimethyl-1-butanol arthrobacter globiformis//*//* 1.01 * +EC1.1.3.17 betaine aldehyde alcaligenes sp.//*//* 6.2 * +EC1.1.3.17 betaine aldehyde arthrobacter globiformis//*//* 8.7 * +EC1.1.3.17 betaine aldehyde cylindrocarpon didymum//*//* 5.8 * +EC1.1.3.17 betaine aldehyde fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.39 * +EC1.1.3.17 betaine-aldehyde arthrobacter globiformis//*//* 2.3 * +EC1.1.3.17 choline alcaligenes sp.//*//* 0.87 * +EC1.1.3.17 choline arthrobacter globiformis//*//* 0.25 * +EC1.1.3.17 choline cylindrocarpon didymum//*//* 1.3 * +EC1.1.3.17 choline fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.28 * +EC1.1.3.17 choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.0 * +EC1.1.3.17 n,n-dimethylaminoethanol cylindrocarpon didymum//*//* 14.0 * +EC1.1.3.17 n,n-dimethylethanolamine arthrobacter globiformis//*//* 0.32 * +EC1.1.3.17 n-methylethanolamine arthrobacter globiformis//*//* 0.52 * +EC1.1.3.17 o2 arthrobacter globiformis//*//* 0.6 * +EC1.1.3.18 4-heptanol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.0 * +EC1.1.3.18 polyvinyl alcohol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC1.1.3.19 dl-4-hydroxymandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.44 * +EC1.1.3.20 1,16-hexadecandiol lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.0194 * +EC1.1.3.20 1,16-hexadecanediol lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.019 * +EC1.1.3.20 1-dodecanol lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.059 * +EC1.1.3.20 1-hexadecanol lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.0409 * +EC1.1.3.20 decanol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.042 * +EC1.1.3.20 dodecanol candida cloacae//*//* 0.004 * +EC1.1.3.20 dodecanol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0061 * +EC1.1.3.20 dodecanol simmondsia chinensis//*//* 4.0 * +EC1.1.3.20 geraniol tanacetum vulgare//*//* 1.56 * +EC1.1.3.20 hex-trans-2-ene-1-ol tanacetum vulgare//*//* 0.19 * +EC1.1.3.20 hexadecanol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.005 * +EC1.1.3.20 n-octanol tanacetum vulgare//*//* 0.49 * +EC1.1.3.20 o2 candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.061 * +EC1.1.3.20 octanol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 1.0 * +EC1.1.3.20 tetradecanol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0015 * +EC1.1.3.21 l-alpha-glycerophosphate aerococcus viridans//prokaryotes;bacteria;firmicutes - bacilli;aerococcus//avs 2.3 * +EC1.1.3.21 l-alpha-glycerophosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 4.0 * +EC1.1.3.21 l-alpha-glycerophosphate streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 1.9 * +EC1.1.3.21 o2 streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.052 * +EC1.1.3.21 sn-glycerol-3-phosphate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 6.0 * +EC1.1.3.23 thiamine unidentified soil bacterium//*//* 1.72 * +EC1.1.3.27 l-2-hydroxyphytanate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.1.3.28 inosine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.044 * +EC1.1.3.29 d-galactosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.0 * +EC1.1.3.29 d-galactose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 170.0 * +EC1.1.3.29 d-glucosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 40.0 * +EC1.1.3.29 d-glucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 290.0 * +EC1.1.3.29 d-mannose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 59.0 * +EC1.1.3.29 n,n-diacetylchitobiose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 18.0 * +EC1.1.3.29 n-acetyl muramic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 33.0 * +EC1.1.3.29 n-acetyl-d-galactosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.1.3.29 n-acetyl-d-glucosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.24 * +EC1.1.3.29 n-acetyl-d-mannosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 40.0 * +EC1.1.3.29 n-glycolyl-d-glucosamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.6 * +EC1.1.3.37 d-arabinono-1,4-lactone candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 44.1 * +EC1.1.3.37 d-arabinono-1,4-lactone leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0393 * +EC1.1.3.37 d-arabinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.78 * +EC1.1.3.37 l-galactono-1,4-lactone candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 53.7 * +EC1.1.3.38 (r)-1-(4'-hydroxyphenol)ethanol penicillium simplicissimum//*//* 0.222 * +EC1.1.3.38 (r,s)-1-(4'-hydroxyphenyl)propanol penicillium simplicissimum//*//* 0.03 * +EC1.1.3.38 (s)-1-(4'-hydroxyphenyl)ethanol penicillium simplicissimum//*//* 0.026 * +EC1.1.3.38 1-(4'-hydroxyphenol)-2-butanone penicillium simplicissimum//*//* 0.128 * +EC1.1.3.38 2-(4'-hydroxyphenyl)ethanol penicillium simplicissimum//*//* 0.1 * +EC1.1.3.38 2-amino-p-cresol penicillium simplicissimum//*//* 0.123 * +EC1.1.3.38 2-methoxy-4-n-propylphenol penicillium simplicissimum//*//* 0.006 * +EC1.1.3.38 2-methyl-p-cresol penicillium simplicissimum//*//* 0.021 * +EC1.1.3.38 4-(3'-methylcrotyl)phenol penicillium simplicissimum//*//* 0.065 * +EC1.1.3.38 4-(methoxymethyl)phenol penicillium simplicissimum//*//* 0.058 * +EC1.1.3.38 4-ethylphenol penicillium simplicissimum//*//* 0.007 * +EC1.1.3.38 4-hydroxy-3-methoxybenzylamine penicillium simplicissimum//*//* 0.24 * +EC1.1.3.38 4-isopropylphenol penicillium simplicissimum//*//* 0.016 * +EC1.1.3.38 4-methylphenol penicillium simplicissimum//*//* 0.031 * +EC1.1.3.38 4-n-butylphenol penicillium simplicissimum//*//* 0.002 * +EC1.1.3.38 4-n-pentylphenol penicillium simplicissimum//*//* 0.008 * +EC1.1.3.38 4-propylphenol penicillium simplicissimum//*//* 0.003 * +EC1.1.3.38 4-sec-butylphenol penicillium simplicissimum//*//* 0.072 * +EC1.1.3.38 5,6,7,8-tetrahydro-2-naphthol penicillium simplicissimum//*//* 0.094 * +EC1.1.3.38 5-indanol penicillium simplicissimum//*//* 0.077 * +EC1.1.3.38 chavicol penicillium simplicissimum//*//* 0.0048 * +EC1.1.3.38 creosol penicillium simplicissimum//*//* 0.02 * +EC1.1.3.38 eugenol penicillium simplicissimum//*//* 0.0039 * +EC1.1.3.38 metanephrine penicillium simplicissimum//*//* 1.6 * +EC1.1.3.38 n-heptylphenol penicillium simplicissimum//*//* 0.042 * +EC1.1.3.38 norepinephrine penicillium simplicissimum//*//* 2.9 * +EC1.1.3.38 normetanephrine penicillium simplicissimum//*//* 1.4 * +EC1.1.3.38 o2 penicillium simplicissimum//*//* 0.012 * +EC1.1.3.38 p-cresol penicillium simplicissimum//*//* 0.031 * +EC1.1.3.38 phenazine methosulfate penicillium simplicissimum//*//* 0.043 * +EC1.1.3.38 propylphenol penicillium simplicissimum//*//* 0.0037 * +EC1.1.3.38 vanillyl alcohol penicillium simplicissimum//*//* 0.075 * +EC1.1.3.38 vanillylamine penicillium simplicissimum//*//* 0.048 * +EC1.1.3.39 2'-deoxyadenosine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.02 * +EC1.1.3.39 2'-deoxycytidine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.32 * +EC1.1.3.39 2'-deoxyguanosine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.016 * +EC1.1.3.39 6-mercaptopurine arabinoside elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.035 * +EC1.1.3.39 adenine-beta-d-arabinofuranoside elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.024 * +EC1.1.3.39 adenosine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.048 * +EC1.1.3.39 cytidine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.28 * +EC1.1.3.39 guanosine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.021 * +EC1.1.3.39 inosine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.072 * +EC1.1.3.39 thymidine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.05 * +EC1.1.3.39 tubercidin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.05 * +EC1.1.3.39 uridine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.08 * +EC1.1.3.4 (r)-1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 10.0 * +EC1.1.3.4 (s)-1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 86.0 * +EC1.1.3.4 1,2,4-butanetriol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 170.0 * +EC1.1.3.4 1,2-butanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 150.0 * +EC1.1.3.4 1,2-hexanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 97.0 * +EC1.1.3.4 1,2-pentanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 52.0 * +EC1.1.3.4 1,4-benzoquinone aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.33 * +EC1.1.3.4 1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 83.0 * +EC1.1.3.4 2,6-dichloroindophenol talaromyces pinophilus//*//* 0.0368 * +EC1.1.3.4 2-amino-1-pentanol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 35.0 * +EC1.1.3.4 2-deoxy-d-glucose talaromyces funiculosus//*//* 28.1 * +EC1.1.3.4 2-deoxy-d-glucose talaromyces variabilis//*//* 20.0 * +EC1.1.3.4 3-butene-1,2-diol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 250.0 * +EC1.1.3.4 3-butenol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 480.0 * +EC1.1.3.4 4-pentene-1,2-diol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 42.0 * +EC1.1.3.4 [(1,10-phenanthroline)2(cl)2ru(iii)] aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.694 * +EC1.1.3.4 [(1,8-dimethyl-4,5-phenanthroline)3ru(ii)]pf6- aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.019 * +EC1.1.3.4 [(2,2'-(4,4'dimethyl)bipyridine)2(cl)2ru(iii)] aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.52 * +EC1.1.3.4 [(2,2'-(4,4'dimethyl)bipyridine)2(cl)2ru(iii)]pf6- aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0313 * +EC1.1.3.4 [(2,2'-bipyridine)2(co32-)1/2ru(iii)] aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0922 * +EC1.1.3.4 [(2,2'-bipyridine)2(h2o)2ru(iii)]pf6- aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.153 * +EC1.1.3.4 [(2,2'-bipyridine)2(scn-)2ru(iii)] aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0513 * +EC1.1.3.4 [(2,2'-bipyridine)3ru(ii)]pf6- aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.057 * +EC1.1.3.4 beta-d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.019 * +EC1.1.3.4 beta-d-glucose bombyx mori//eukaryotes;animals;arthropods;insects//bmor 4.0 * +EC1.1.3.4 beta-d-glucose penicillium amagasakiense//*//* 1.9 * +EC1.1.3.4 beta-d-glucose penicillium chrysogenum//*//* 10.5 * +EC1.1.3.4 beta-d-glucose penicillium purpurogenum//*//* 11.0 * +EC1.1.3.4 beta-d-glucose penicillium sp.//*//* 18.4 * +EC1.1.3.4 beta-d-glucose phanerochaete chrysosporium//*//* 37.0 * +EC1.1.3.4 beta-d-glucose pleurotus ostreatus//*//* 1.34 * +EC1.1.3.4 beta-d-glucose talaromyces funiculosus//*//* 14.7 * +EC1.1.3.4 beta-d-glucose talaromyces pinophilus//*//* 6.2 * +EC1.1.3.4 beta-d-glucose talaromyces variabilis//*//* 6.0 * +EC1.1.3.4 d-fructose talaromyces variabilis//*//* 162.0 * +EC1.1.3.4 d-galactose talaromyces funiculosus//*//* 76.9 * +EC1.1.3.4 d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 25.0 * +EC1.1.3.4 d-glucose penicillium adametzii//*//* 15.6 * +EC1.1.3.4 d-glucose penicillium purpurogenum//*//* 12.5 * +EC1.1.3.4 d-glucose talaromyces variabilis//*//* 13.5 * +EC1.1.3.4 d-maltose phanerochaete chrysosporium//*//* 55.5 * +EC1.1.3.4 d-maltose talaromyces funiculosus//*//* 57.3 * +EC1.1.3.4 d-maltose talaromyces variabilis//*//* 117.0 * +EC1.1.3.4 d-mannitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 36.0 * +EC1.1.3.4 d-mannose talaromyces variabilis//*//* 44.0 * +EC1.1.3.4 d-sorbitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.4 * +EC1.1.3.4 d-xylose phanerochaete chrysosporium//*//* 105.2 * +EC1.1.3.4 d-xylose talaromyces funiculosus//*//* 42.9 * +EC1.1.3.4 d-xylose talaromyces variabilis//*//* 33.0 * +EC1.1.3.4 di-(2,2'-bipyridinyl)ruthenium(iii)dichloride aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.19 * +EC1.1.3.4 ferrocinium-methanol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.1107 * +EC1.1.3.4 glycerol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 350.0 * +EC1.1.3.4 l-arabinose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 430.0 * +EC1.1.3.4 l-sorbose phanerochaete chrysosporium//*//* 217.4 * +EC1.1.3.4 l-threitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 25.0 * +EC1.1.3.4 methyl-1,4-benzoquinone aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.9 * +EC1.1.3.4 o2 aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.18 * +EC1.1.3.4 o2 phanerochaete chrysosporium//*//* 0.95 * +EC1.1.3.4 phenazine methosulfate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.43 * +EC1.1.3.4 xylitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.32 * +EC1.1.3.40 d-arabinitol arion ater//*//* 54.6 * +EC1.1.3.40 d-arabinitol helix aspersa//*//* 17.3 * +EC1.1.3.40 d-arabinitol limax flavus//*//* 21.5 * +EC1.1.3.40 d-mannitol arion ater//*//* 5.2 * +EC1.1.3.40 d-mannitol helix aspersa//*//* 5.9 * +EC1.1.3.40 d-mannitol limax flavus//*//* 13.7 * +EC1.1.3.40 o2 helix aspersa//*//* 0.04 * +EC1.1.3.41 (r)-1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 10.0 * +EC1.1.3.41 (s)-1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 86.0 * +EC1.1.3.41 1,2,4-butanetriol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 170.0 * +EC1.1.3.41 1,2-butanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 150.0 * +EC1.1.3.41 1,2-hexanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 97.0 * +EC1.1.3.41 1,2-pentanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 52.0 * +EC1.1.3.41 1-phenyl-1,2-ethanediol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 83.0 * +EC1.1.3.41 2-amino-1-pentanol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 35.0 * +EC1.1.3.41 3-butene-1,2-diol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 250.0 * +EC1.1.3.41 3-butenol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 480.0 * +EC1.1.3.41 4-pentene-1,2-diol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 42.0 * +EC1.1.3.41 d-mannitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 36.0 * +EC1.1.3.41 d-sorbitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.4 * +EC1.1.3.41 glycerol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 350.0 * +EC1.1.3.41 l-arabinose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 430.0 * +EC1.1.3.41 l-threitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 25.0 * +EC1.1.3.41 xylitol streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.32 * +EC1.1.3.42 prosolanapyrone ii alternaria solani//*//* 0.016 * +EC1.1.3.46 (s)-4-hydroxymandelate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 64.0 * +EC1.1.3.46 l-mandelate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 44.0 * +EC1.1.3.47 4-(hydroxymethyl)benzaldehyde methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 0.15 * +EC1.1.3.47 4-hydroxy-3-methoxybenzyl alcohol methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 0.72 * +EC1.1.3.47 5-(hydroxymethyl)furfural methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 1.4 * +EC1.1.3.47 5-formylfuran-2-carboxylate methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 4.0 * +EC1.1.3.47 furan-2,5-dicarbaldehyde methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 1.7 * +EC1.1.3.47 terephthaldehyde methylovorus sp. mp688//prokaryotes;bacteria;betaproteobacteria;methylovorus//mep 0.085 * +EC1.1.3.49 (r,s)-mandelonitrile chamberlinius hualienensis//*//* 2.1 * +EC1.1.3.5 cellobiose chondrus crispus//eukaryotes;plants;red algae//ccp 12.5 * +EC1.1.3.5 d-galactose chondrus crispus//eukaryotes;plants;red algae//ccp 3.8 * +EC1.1.3.5 d-galactose mazzaella flaccida//*//* 5.0 * +EC1.1.3.5 d-glucose chondrus crispus//eukaryotes;plants;red algae//ccp 2.7 * +EC1.1.3.5 d-glucose mazzaella flaccida//*//* 2.5 * +EC1.1.3.5 lactose chondrus crispus//eukaryotes;plants;red algae//ccp 1.7 * +EC1.1.3.5 maltose chondrus crispus//eukaryotes;plants;red algae//ccp 28.0 * +EC1.1.3.5 o2 chondrus crispus//eukaryotes;plants;red algae//ccp 0.3 * +EC1.1.3.6 17beta-hydroxymethyl-5-androsten-3beta-ol nocardia erythropolis//*//* 0.0031 * +EC1.1.3.6 20,22-dihydroxycholesterol nocardia erythropolis//*//* 0.0071 * +EC1.1.3.6 20,25-diazacholesterol nocardia erythropolis//*//* 0.124 * +EC1.1.3.6 20-hydroxycholesterol nocardia erythropolis//*//* 0.0042 * +EC1.1.3.6 22-hydroxycholesterol nocardia erythropolis//*//* 0.0051 * +EC1.1.3.6 23,24-dinor-5-cholene-3beta,22-diol nocardia erythropolis//*//* 0.0093 * +EC1.1.3.6 24-hydroxycholesterol nocardia erythropolis//*//* 0.0043 * +EC1.1.3.6 24-oxocholesterol nocardia erythropolis//*//* 0.0027 * +EC1.1.3.6 25-hydroxy-27-norcholesterol nocardia erythropolis//*//* 0.0014 * +EC1.1.3.6 25-hydroxycholesterol nocardia erythropolis//*//* 0.0015 * +EC1.1.3.6 26-hydroxycholesterol nocardia erythropolis//*//* 0.0012 * +EC1.1.3.6 3beta-hydroxy-5-androsten-17-one nocardia erythropolis//*//* 0.0036 * +EC1.1.3.6 3beta-hydroxy-5-pregnen-20-one nocardia erythropolis//*//* 0.0017 * +EC1.1.3.6 3beta-hydroxy-androst-5-en-17-one brevibacterium sterolicum//*//* 0.8 * +EC1.1.3.6 3beta-hydroxy-androst-5-en-17-one streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.3 * +EC1.1.3.6 4,4-dimethylcholesterol nocardia erythropolis//*//* 0.0075 * +EC1.1.3.6 4alpha-methylcholesterol nocardia erythropolis//*//* 0.0126 * +EC1.1.3.6 4beta-methylcholesterol nocardia erythropolis//*//* 0.0284 * +EC1.1.3.6 5,7-cholestadien-3beta-ol nocardia erythropolis//*//* 0.0055 * +EC1.1.3.6 5-androstene-3,17-dione nocardia erythropolis//*//* 0.548 * +EC1.1.3.6 5-cholene-3beta,24-diol nocardia erythropolis//*//* 0.0048 * +EC1.1.3.6 5-cholesten-3-one brevibacterium sterolicum//*//* 0.27 * +EC1.1.3.6 5-cholesten-3-one nocardia erythropolis//*//* 0.007 * +EC1.1.3.6 5-cholesten-3-one streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 1.52 * +EC1.1.3.6 5-pregnene-3,20-dione nocardia erythropolis//*//* 0.0125 * +EC1.1.3.6 5-pregnene-3beta,20beta-diol nocardia erythropolis//*//* 0.0037 * +EC1.1.3.6 5alpha-cholest-8(14)-en-3beta-ol nocardia erythropolis//*//* 0.0028 * +EC1.1.3.6 5alpha-cholest-8(14)en-3beta-ol nocardia erythropolis//*//* 0.0107 * +EC1.1.3.6 5alpha-cholestan-3beta-ol nocardia erythropolis//*//* 0.0023 * +EC1.1.3.6 beta-sitosterol mycobacterium neoaurum//prokaryotes;bacteria;actinobacteria;mycobacterium//mne 0.18 * +EC1.1.3.6 beta-sitosterol schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.25 * +EC1.1.3.6 cholestanol brevibacterium sterolicum//*//* 0.02 * +EC1.1.3.6 cholestanol streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.7 * +EC1.1.3.6 cholesterol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.5 * +EC1.1.3.6 cholesterol bordetella sp.//prokaryotes;bacteria;betaproteobacteria;bordetella//boh 0.556 * +EC1.1.3.6 cholesterol brevibacterium sp.//*//* 24.3 * +EC1.1.3.6 cholesterol brevibacterium sterolicum//*//* 0.03 * +EC1.1.3.6 cholesterol chromobacterium sp. ds-1//*//* 0.026 * +EC1.1.3.6 cholesterol chromobacterium sp.//prokaryotes;bacteria;betaproteobacteria;chromobacterium//chro 0.0262 * +EC1.1.3.6 cholesterol gamma proteobacterium y-134//*//* 0.026 * +EC1.1.3.6 cholesterol mycobacterium neoaurum//prokaryotes;bacteria;actinobacteria;mycobacterium//mne 0.12 * +EC1.1.3.6 cholesterol nocardia erythropolis//*//* 0.0029 * +EC1.1.3.6 cholesterol nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.0184 * +EC1.1.3.6 cholesterol pleurotus ostreatus//*//* 0.25 * +EC1.1.3.6 cholesterol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.2123 * +EC1.1.3.6 cholesterol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.004 * +EC1.1.3.6 cholesterol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0188 * +EC1.1.3.6 cholesterol rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.032 * +EC1.1.3.6 cholesterol schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.2 * +EC1.1.3.6 cholesterol streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.17 * +EC1.1.3.6 cholesterol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2e-05 * +EC1.1.3.6 cholesterol streptomyces virginiae//*//* 0.524 * +EC1.1.3.6 dehydroandrosterone mycobacterium neoaurum//prokaryotes;bacteria;actinobacteria;mycobacterium//mne 0.2 * +EC1.1.3.6 dehydroepiandrosterone brevibacterium sterolicum//*//* 0.4 * +EC1.1.3.6 dehydroepiandrosterone schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 1.0 * +EC1.1.3.6 dehydroepiandrosterone streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0275 * +EC1.1.3.6 dehydroepiandrosterone streptomyces virginiae//*//* 0.491 * +EC1.1.3.6 diosgenin mycobacterium neoaurum//prokaryotes;bacteria;actinobacteria;mycobacterium//mne 0.23 * +EC1.1.3.6 diosgenin streptomyces virginiae//*//* 0.195 * +EC1.1.3.6 fucosterol nocardia erythropolis//*//* 0.0115 * +EC1.1.3.6 o2 brevibacterium sterolicum//*//* 0.165 * +EC1.1.3.6 o2 streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.53 * +EC1.1.3.6 o2 streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.3 * +EC1.1.3.6 pregnenolone brevibacterium sterolicum//*//* 0.2 * +EC1.1.3.6 pregnenolone mycobacterium neoaurum//prokaryotes;bacteria;actinobacteria;mycobacterium//mne 0.33 * +EC1.1.3.6 pregnenolone schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.5 * +EC1.1.3.6 pregnenolone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.2 * +EC1.1.3.6 sitosterol nocardia erythropolis//*//* 0.0066 * +EC1.1.3.6 sitosterol streptomyces virginiae//*//* 0.59 * +EC1.1.3.6 stigmasterol nocardia erythropolis//*//* 0.0059 * +EC1.1.3.6 stigmasterol schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.45 * +EC1.1.3.6 trans-androsterone brevibacterium sterolicum//*//* 0.8 * +EC1.1.3.6 trans-androsterone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.5 * +EC1.1.3.6 trans-dehydroandrosterone brevibacterium sterolicum//*//* 0.9 * +EC1.1.3.6 trans-dehydroandrosterone streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.2 * +EC1.1.3.8 creatol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.28 * +EC1.1.3.8 l-gulono-1,4-lactone capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.15 * +EC1.1.3.8 l-gulono-1,4-lactone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.007 * +EC1.1.3.8 l-gulono-1,4-lactone grifola frondosa//*//* 24.0 * +EC1.1.3.8 l-gulono-1,4-lactone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.5 * +EC1.1.3.8 l-gulono-1,4-lactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.1.3.9 1-methyl-alpha-d-galactopyranoside fusarium sp.//*//* 56.0 * +EC1.1.3.9 1-o-methyl-alpha-d-galactopyranoside hypomyces rosellus//*//* 77.0 * +EC1.1.3.9 2-methylene-1,3-propanediol fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 57.0 * +EC1.1.3.9 d-galactose aspergillus sp.//*//* 175.0 * +EC1.1.3.9 d-galactose fusarium acuminatum//*//* 16.2 * +EC1.1.3.9 d-galactose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 0.054 * +EC1.1.3.9 glyceraldehyde paenibacillus sp. aiu 311//*//* 7.5 * +EC1.1.3.9 glycolaldehyde paenibacillus sp. aiu 311//*//* 13.2 * +EC1.1.3.9 o2 aspergillus sp.//*//* 3.0 * +EC1.1.3.B4 glycerol phanerochaete chrysosporium//*//* 1.9 * +EC1.1.5.11 2-butanol thauera butanivorans//*//* 0.662 * +EC1.1.5.11 butan-1-ol thauera butanivorans//*//* 0.0017 * +EC1.1.5.11 butyraldehyde thauera butanivorans//*//* 0.369 * +EC1.1.5.12 (r)-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC1.1.5.12 (r,s)-2-hydroxybutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC1.1.5.12 (s)-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC1.1.5.12 d-lactate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.61 * +EC1.1.5.12 d-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.1.5.12 l-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.0 * +EC1.1.5.3 2,6-dichlorophenolindophenol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.076 * +EC1.1.5.3 coenzyme q0 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.125 * +EC1.1.5.3 coenzyme q1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC1.1.5.3 coenzyme q10 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC1.1.5.3 coenzyme q2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.023 * +EC1.1.5.3 coenzyme q6 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC1.1.5.3 dl-alpha-glycerophosphate cyberlindnera jadinii//*//* 5.17 * +EC1.1.5.3 dl-glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC1.1.5.3 ferricyanide vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.55 * +EC1.1.5.3 glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.1.5.3 glycerol 3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC1.1.5.3 l-3-glycerophosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.2 * +EC1.1.5.3 l-3-glycerophosphate vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 3.7 * +EC1.1.5.3 phenazine methosulfate vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.13 * +EC1.1.5.4 (s)-malate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.6 * +EC1.1.5.4 (s)-malate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.45 * +EC1.1.5.4 ubiquinone 9 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0024 * +EC1.1.5.4 ubiquinone-1 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.015 * +EC1.1.5.4 ubiquinone-9 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0024 * +EC1.1.5.4 vitamin k3 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.0 * +EC1.1.5.5 1-propanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.35 * +EC1.1.5.5 acetaldehyde gluconobacter sp.//*//* 3.86 * +EC1.1.5.5 acetaldehyde komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 6.9 * +EC1.1.5.5 acetaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.8 * +EC1.1.5.5 allylic alcohol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.43 * +EC1.1.5.5 citral pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC1.1.5.5 citronellal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.4 * +EC1.1.5.5 citronellol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0073 * +EC1.1.5.5 ethanol gluconobacter sp.//*//* 0.153 * +EC1.1.5.5 ethanol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.66 * +EC1.1.5.5 ethanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0038 * +EC1.1.5.5 ethanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.1.5.5 ferricyanide acidomonas methanolica//*//* 0.025 * +EC1.1.5.5 geraniol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.11 * +EC1.1.5.5 n-butanol komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.36 * +EC1.1.5.5 propionaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.4 * +EC1.1.5.5 pyrroloquinoline quinone gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0035 * +EC1.1.5.5 ubiquinone-1 komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.047 * +EC1.1.5.6 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC1.1.5.7 cyclopentanol gluconobacter frateurii//*//* 1.0 * +EC1.1.5.8 2,6-dichlorophenol indophenol acinetobacter calcoaceticus//*//* 0.89 * +EC1.1.5.8 potassium ferricyanide acinetobacter calcoaceticus//*//* 0.52 * +EC1.1.5.8 quinate acinetobacter calcoaceticus//*//* 0.2 * +EC1.1.5.8 shikimate acinetobacter calcoaceticus//*//* 0.26 * +EC1.1.5.9 2,6-dichlorophenolindophenol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.04 * +EC1.1.5.9 2,6-dichlorophenolindophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC1.1.5.9 coenzyme q1 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.06 * +EC1.1.5.9 d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.8 * +EC1.1.5.9 d-glucose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.09 * +EC1.1.5.9 d-glucose aspergillus terreus//*//* 89.7 * +EC1.1.5.9 d-glucose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.4638 * +EC1.1.5.9 d-glucose glomerella cingulata//*//* 10.2 * +EC1.1.5.9 d-glucose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.47 * +EC1.1.5.9 d-xylose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 22.0 * +EC1.1.5.9 d-xylose glomerella cingulata//*//* 21.0 * +EC1.1.5.9 fe(cn)63- aspergillus terreus//*//* 65.0 * +EC1.1.5.9 ferricyanide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.69 * +EC1.1.5.9 phenazine methosulfate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.4 * +EC1.1.5.9 phenazine methosulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.13 * +EC1.1.5.9 tetramethyl-p-phenylenediamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.56 * +EC1.1.5.B3 l-lactate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.51 * +EC1.1.9.1 (r)-2-butanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 28.0 * +EC1.1.9.1 (r)-2-heptanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.7 * +EC1.1.9.1 (r)-2-hexanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.6 * +EC1.1.9.1 (r)-2-octanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.4 * +EC1.1.9.1 (r)-3-bromo-2-methyl-1-propanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 302.0 * +EC1.1.9.1 (r)-glycidol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 4.8 * +EC1.1.9.1 (r)-solketal aldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 81.0 * +EC1.1.9.1 (r)-solketal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.1 * +EC1.1.9.1 (s)-2-butanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 4.5 * +EC1.1.9.1 (s)-2-heptanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.04 * +EC1.1.9.1 (s)-2-hexanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.09 * +EC1.1.9.1 (s)-2-octanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.05 * +EC1.1.9.1 (s)-glycidol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 4.5 * +EC1.1.9.1 (s)-solketal aldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 182.0 * +EC1.1.9.1 (s)-solketal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.99 * +EC1.1.9.1 1,2-propanediol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.226 * +EC1.1.9.1 1,3-butanediol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.3 * +EC1.1.9.1 1,3-cyclohexandiol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 50.0 * +EC1.1.9.1 1-butanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.005 * +EC1.1.9.1 1-butanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.105 * +EC1.1.9.1 1-octanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.005 * +EC1.1.9.1 1-pentanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.005 * +EC1.1.9.1 1-propanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.06 * +EC1.1.9.1 2-butanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 8.0 * +EC1.1.9.1 2-methylcyclohexanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 81.0 * +EC1.1.9.1 2-octanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.05 * +EC1.1.9.1 2-pentanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.4 * +EC1.1.9.1 2-propanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 22.0 * +EC1.1.9.1 3-heptanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.9 * +EC1.1.9.1 3-hexanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 5.3 * +EC1.1.9.1 3-methyl-2-pentanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.9 * +EC1.1.9.1 3-methylcyclohexanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.11 * +EC1.1.9.1 3-nonanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.8 * +EC1.1.9.1 3-octanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.9 * +EC1.1.9.1 3-pentanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 28.0 * +EC1.1.9.1 4-decanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.4 * +EC1.1.9.1 4-heptanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.7 * +EC1.1.9.1 4-methyl-2-pentanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.75 * +EC1.1.9.1 5-methyl-2-pentanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.24 * +EC1.1.9.1 6-aminohexan-1-ol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.2 * +EC1.1.9.1 acetaldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.9 * +EC1.1.9.1 benzyl alcohol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.001 * +EC1.1.9.1 butanal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.1 * +EC1.1.9.1 butane-1,3-diol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.28 * +EC1.1.9.1 cyclohexanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.8 * +EC1.1.9.1 ethanal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.7 * +EC1.1.9.1 ethanol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.2 * +EC1.1.9.1 ethanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.0 * +EC1.1.9.1 formaldehyde comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 3.0 * +EC1.1.9.1 glycerol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.4 * +EC1.1.9.1 octanal comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.04 * +EC1.1.98.2 d-glucose 6-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.6 * +EC1.1.98.2 d-glucose 6-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.022 * +EC1.1.98.2 d-glucose 6-phosphate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.31 * +EC1.1.98.2 oxidized coenzyme f420 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.004 * +EC1.1.98.2 oxidized coenzyme f420 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0026 * +EC1.1.98.4 2,3-dimethyl-1,4-naphthoquinone archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.19 * +EC1.1.98.4 reduced coenzyme f420 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.05 * +EC1.1.98.4 reduced coenzyme f420 methanosarcina mazei gã¶1//*//* 0.007 * +EC1.1.98.5 (r)-2-butanol methanofollis liminatans//*//* 2.01 * +EC1.1.98.5 (s)-2-butanol methanofollis liminatans//*//* 0.8 * +EC1.1.98.5 2-butanol methanofollis liminatans//*//* 1.2 * +EC1.1.98.5 2-pentanol methanofollis liminatans//*//* 7.2 * +EC1.1.98.5 2-propanol methanoculleus thermophilus//*//* 2.5 * +EC1.1.98.5 2-propanol methanofollis liminatans//*//* 2.2 * +EC1.1.98.5 cyclopentanol methanofollis liminatans//*//* 6.1 * +EC1.1.98.5 cyclopentanone methanofollis liminatans//*//* 4.3 * +EC1.1.98.5 oxidized coenzyme f420 methanofollis liminatans//*//* 0.018 * +EC1.1.98.5 propanone methanoculleus thermophilus//*//* 0.25 * +EC1.1.98.5 propanone methanofollis liminatans//*//* 0.5 * +EC1.1.98.5 reduced coenzyme f420 methanofollis liminatans//*//* 0.008 * +EC1.1.98.6 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC1.1.98.6 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.1.98.6 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.1.98.6 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.1.99.1 2,6-dichlorophenol-indophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC1.1.99.1 betaine aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC1.1.99.1 choline canis lupus familiaris//*//* 4.8 * +EC1.1.99.1 choline pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.7 * +EC1.1.99.1 choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.0 * +EC1.1.99.1 p-benzoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.83 * +EC1.1.99.1 phenazine methosulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.14 * +EC1.1.99.1 phenazine methosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC1.1.99.11 d-fructose gluconobacter cerinus//*//* 10.0 * +EC1.1.99.11 d-fructose gluconobacter japonicus//*//* 2.6 * +EC1.1.99.11 d-fructose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 10.0 * +EC1.1.99.11 d-fructose gluconobacter sp.//*//* 10.0 * +EC1.1.99.11 ferricyanide gluconobacter sp.//*//* 0.0011 * +EC1.1.99.11 fructose gluconobacter sp.//*//* 4.2 * +EC1.1.99.12 1-propanol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 2.0 * +EC1.1.99.12 l-sorbose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.3 * +EC1.1.99.13 cellobiose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.2 * +EC1.1.99.13 d-cellobiose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.31 * +EC1.1.99.13 d-galactose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 26.1 * +EC1.1.99.13 d-galactose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 25.0 * +EC1.1.99.13 d-glucose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.83 * +EC1.1.99.13 d-glucose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.016 * +EC1.1.99.13 d-glucose flavobacterium saccharophilum//*//* 0.12 * +EC1.1.99.13 d-glucose sphingobacterium faecium//*//* 1.1 * +EC1.1.99.13 d-maltose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 13.8 * +EC1.1.99.13 d-maltose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.8 * +EC1.1.99.13 d-xylose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 28.0 * +EC1.1.99.13 l-arabinose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 22.4 * +EC1.1.99.13 lactobionate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.21 * +EC1.1.99.13 lactose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.7 * +EC1.1.99.13 maltobionate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.36 * +EC1.1.99.13 sucrose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 12.6 * +EC1.1.99.13 sucrose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.038 * +EC1.1.99.13 sucrose sphingobacterium faecium//*//* 1.7 * +EC1.1.99.13 validoxylamine a flavobacterium saccharophilum//*//* 1.1 * +EC1.1.99.13 validoxylamine a sphingobacterium faecium//*//* 2.1 * +EC1.1.99.14 d(-)-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC1.1.99.14 d(-)-lactate thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 28.0 * +EC1.1.99.14 d-lactate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.45 * +EC1.1.99.14 dihydroxyacetone trichoderma harzianum//*//* 49.5 * +EC1.1.99.14 glycolate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.21 * +EC1.1.99.14 glycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.1.99.14 glycolate euglena gracilis//*//* 0.16 * +EC1.1.99.14 glycolate thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 16.0 * +EC1.1.99.14 glycolate trichoderma harzianum//*//* 0.94 * +EC1.1.99.14 l(+)-lactate thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 22.0 * +EC1.1.99.14 l-lactate trichoderma harzianum//*//* 3.6 * +EC1.1.99.14 nitro blue tetrazolium trichoderma harzianum//*//* 0.15 * +EC1.1.99.18 1,4-benzoquinone gelatoporia subvermispora//*//* 0.026 * +EC1.1.99.18 1,4-benzoquinone trametes pubescens//*//* 0.019 * +EC1.1.99.18 1,4-benzoquinone trametes villosa//*//* 0.011 * +EC1.1.99.18 2,6-dichloroindophenol crassicarpon hotsonii//*//* 140.4 * +EC1.1.99.18 2,6-dichloroindophenol gelatoporia subvermispora//*//* 0.012 * +EC1.1.99.18 2,6-dichlorophenol indophenol chaetomium atrobrunneum//*//* 0.0092 * +EC1.1.99.18 2,6-dichlorophenol indophenol crassicarpon thermophilum//*//* 0.0698 * +EC1.1.99.18 2,6-dichlorophenol indophenol dichomera saubinetii//*//* 0.0058 * +EC1.1.99.18 2,6-dichlorophenol indophenol fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 0.012 * +EC1.1.99.18 2,6-dichlorophenol indophenol hypoxylon haematostroma//*//* 0.0056 * +EC1.1.99.18 2,6-dichlorophenol indophenol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0087 * +EC1.1.99.18 2,6-dichlorophenol indophenol phanerochaete chrysosporium//*//* 0.0064 * +EC1.1.99.18 2,6-dichlorophenol indophenol stachybotrys bisbyi//*//* 0.0024 * +EC1.1.99.18 2,6-dichlorophenol indophenol termitomyces clypeatus//*//* 0.02253 * +EC1.1.99.18 2,6-dichlorophenol indophenol trametes pubescens//*//* 0.0049 * +EC1.1.99.18 2,6-dichlorophenol indophenol trametes villosa//*//* 0.0099 * +EC1.1.99.18 2,6-dichlorophenol-indophenol phanerochaete chrysosporium//*//* 0.0036 * +EC1.1.99.18 2,6-dichlorophenol-indophenol thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.078 * +EC1.1.99.18 2,6-dichlorophenolindophenol athelia rolfsii//*//* 0.22 * +EC1.1.99.18 2,6-dichlorophenolindophenol monilia sitophila//*//* 0.08 * +EC1.1.99.18 2,6-dichlorophenolindophenol phanerochaete chrysosporium//*//* 0.0036 * +EC1.1.99.18 2,6-dichlorophenolindophenol thermothelomyces heterothallica//*//* 0.0024 * +EC1.1.99.18 2,6-dichlorphenolindophenol humicola insolens//*//* 0.026 * +EC1.1.99.18 2,6-dichlorphenolindophenol schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.01 * +EC1.1.99.18 3,5 di-t-butyl-o-benzoquinone phanerochaete chrysosporium//*//* 0.5 * +EC1.1.99.18 3,5-di-tert-butyl-1,2-benzoquinone phanerochaete chrysosporium//*//* 0.012 * +EC1.1.99.18 3,5-di-tert-butyl-1,2-benzoquinone trametes pubescens//*//* 0.018 * +EC1.1.99.18 3,5-di-tert-butyl-1,2-benzoquinone trametes villosa//*//* 0.041 * +EC1.1.99.18 6'-azido-6'-deoxy-beta-d-glucopyranosyl-(1->4)-d-glucopyranose athelia rolfsii//*//* 0.72 * +EC1.1.99.18 alpha-lactose athelia rolfsii//*//* 54.0 * +EC1.1.99.18 alpha-lactose termitomyces clypeatus//*//* 0.3846 * +EC1.1.99.18 benzoquinone humicola insolens//*//* 0.132 * +EC1.1.99.18 benzyl viologen phanerochaete chrysosporium//*//* 3.0 * +EC1.1.99.18 beta-d-glucopyranosyl-(1->4)-2-azido-2-deoxy-d-glucopyranose athelia rolfsii//*//* 1.7 * +EC1.1.99.18 beta-d-glucopyranosyl-(1->4)-6-azido-6-deoxy-d-glucopyranose athelia rolfsii//*//* 1.77 * +EC1.1.99.18 beta-lactose athelia rolfsii//*//* 2.0 * +EC1.1.99.18 cellobiose athelia rolfsii//*//* 0.0003 * +EC1.1.99.18 cellobiose cerrena unicolor//*//* 0.175 * +EC1.1.99.18 cellobiose chaetomium atrobrunneum//*//* 0.002 * +EC1.1.99.18 cellobiose chaetomium sp.//*//* 0.0045 * +EC1.1.99.18 cellobiose coniophora puteana//eukaryotes;fungi;basidiomycetes//cput 0.046 * +EC1.1.99.18 cellobiose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.156 * +EC1.1.99.18 cellobiose crassicarpon hotsonii//*//* 0.035 * +EC1.1.99.18 cellobiose crassicarpon thermophilum//*//* 0.003 * +EC1.1.99.18 cellobiose dichomera saubinetii//*//* 0.012 * +EC1.1.99.18 cellobiose fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 0.00467 * +EC1.1.99.18 cellobiose gelatoporia subvermispora//*//* 0.082 * +EC1.1.99.18 cellobiose humicola insolens//*//* 0.011 * +EC1.1.99.18 cellobiose hypoxylon haematostroma//*//* 0.005 * +EC1.1.99.18 cellobiose irpex lacteus//*//* 0.034 * +EC1.1.99.18 cellobiose monilia sitophila//*//* 0.012 * +EC1.1.99.18 cellobiose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00579 * +EC1.1.99.18 cellobiose phanerochaete chrysosporium//*//* 0.008 * +EC1.1.99.18 cellobiose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 0.132 * +EC1.1.99.18 cellobiose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.03 * +EC1.1.99.18 cellobiose stachybotrys bisbyi//*//* 0.007 * +EC1.1.99.18 cellobiose termitomyces clypeatus//*//* 0.181 * +EC1.1.99.18 cellobiose thermothelomyces heterothallica//*//* 0.0034 * +EC1.1.99.18 cellobiose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.0039 * +EC1.1.99.18 cellobiose trametes cinnabarina//*//* 0.111 * +EC1.1.99.18 cellobiose trametes hirsuta//*//* 0.042 * +EC1.1.99.18 cellobiose trametes pubescens//*//* 0.21 * +EC1.1.99.18 cellobiose trametes sanguinea//*//* 0.056 * +EC1.1.99.18 cellobiose trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.12 * +EC1.1.99.18 cellobiose trametes villosa//*//* 0.032 * +EC1.1.99.18 cellohexaose athelia rolfsii//*//* 0.1 * +EC1.1.99.18 cellopentaose athelia rolfsii//*//* 0.083 * +EC1.1.99.18 cellopentaose humicola insolens//*//* 0.017 * +EC1.1.99.18 cellopentaose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.043 * +EC1.1.99.18 cellopentaose phanerochaete chrysosporium//*//* 0.055 * +EC1.1.99.18 cellopentaose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.085 * +EC1.1.99.18 cellopentaose termitomyces clypeatus//*//* 0.2222 * +EC1.1.99.18 cellopentaose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.0075 * +EC1.1.99.18 cellopentaose trametes hirsuta//*//* 1.4 * +EC1.1.99.18 cellopentaose trametes pubescens//*//* 0.46 * +EC1.1.99.18 cellopentaose trametes villosa//*//* 0.51 * +EC1.1.99.18 cellotetraose athelia rolfsii//*//* 0.0666 * +EC1.1.99.18 cellotetraose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.281 * +EC1.1.99.18 cellotetraose crassicarpon hotsonii//*//* 0.085 * +EC1.1.99.18 cellotetraose humicola insolens//*//* 0.021 * +EC1.1.99.18 cellotetraose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.061 * +EC1.1.99.18 cellotetraose phanerochaete chrysosporium//*//* 0.061 * +EC1.1.99.18 cellotetraose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 0.041 * +EC1.1.99.18 cellotetraose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.06 * +EC1.1.99.18 cellotetraose termitomyces clypeatus//*//* 0.2105 * +EC1.1.99.18 cellotetraose thermothelomyces heterothallica//*//* 0.0064 * +EC1.1.99.18 cellotetraose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.0056 * +EC1.1.99.18 cellotetraose trametes hirsuta//*//* 0.22 * +EC1.1.99.18 cellotetraose trametes pubescens//*//* 0.42 * +EC1.1.99.18 cellotetraose trametes villosa//*//* 0.47 * +EC1.1.99.18 cellotriose athelia rolfsii//*//* 0.0625 * +EC1.1.99.18 cellotriose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.352 * +EC1.1.99.18 cellotriose humicola insolens//*//* 0.019 * +EC1.1.99.18 cellotriose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.045 * +EC1.1.99.18 cellotriose phanerochaete chrysosporium//*//* 0.062 * +EC1.1.99.18 cellotriose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 0.027 * +EC1.1.99.18 cellotriose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.058 * +EC1.1.99.18 cellotriose termitomyces clypeatus//*//* 0.1905 * +EC1.1.99.18 cellotriose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.0082 * +EC1.1.99.18 cellotriose trametes hirsuta//*//* 0.216 * +EC1.1.99.18 cytochrome c athelia rolfsii//*//* 0.384 * +EC1.1.99.18 cytochrome c chaetomium atrobrunneum//*//* 0.008 * +EC1.1.99.18 cytochrome c crassicarpon hotsonii//*//* 21.5 * +EC1.1.99.18 cytochrome c crassicarpon thermophilum//*//* 0.0046 * +EC1.1.99.18 cytochrome c dichomera saubinetii//*//* 0.0057 * +EC1.1.99.18 cytochrome c fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 0.0158 * +EC1.1.99.18 cytochrome c gelatoporia subvermispora//*//* 0.00094 * +EC1.1.99.18 cytochrome c humicola insolens//*//* 0.093 * +EC1.1.99.18 cytochrome c hypoxylon haematostroma//*//* 0.0259 * +EC1.1.99.18 cytochrome c neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0537 * +EC1.1.99.18 cytochrome c phanerochaete chrysosporium//*//* 0.0003 * +EC1.1.99.18 cytochrome c schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.0028 * +EC1.1.99.18 cytochrome c stachybotrys bisbyi//*//* 0.0049 * +EC1.1.99.18 cytochrome c termitomyces clypeatus//*//* 0.01861 * +EC1.1.99.18 cytochrome c thermothelomyces heterothallica//*//* 0.00067 * +EC1.1.99.18 cytochrome c trametes hirsuta//*//* 0.0013 * +EC1.1.99.18 cytochrome c trametes pubescens//*//* 0.00069 * +EC1.1.99.18 cytochrome c trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.012 * +EC1.1.99.18 cytochrome c trametes villosa//*//* 0.0018 * +EC1.1.99.18 d-galactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3600.0 * +EC1.1.99.18 d-glucose athelia rolfsii//*//* 1250.0 * +EC1.1.99.18 d-glucose chaetomium atrobrunneum//*//* 87.0 * +EC1.1.99.18 d-glucose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 354.4 * +EC1.1.99.18 d-glucose crassicarpon hotsonii//*//* 240.0 * +EC1.1.99.18 d-glucose crassicarpon thermophilum//*//* 21.0 * +EC1.1.99.18 d-glucose dichomera saubinetii//*//* 79.0 * +EC1.1.99.18 d-glucose gelatoporia subvermispora//*//* 3300.0 * +EC1.1.99.18 d-glucose hypoxylon haematostroma//*//* 71.0 * +EC1.1.99.18 d-glucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 170.0 * +EC1.1.99.18 d-glucose phanerochaete chrysosporium//*//* 1.47 * +EC1.1.99.18 d-glucose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 328.6 * +EC1.1.99.18 d-glucose stachybotrys bisbyi//*//* 230.0 * +EC1.1.99.18 d-glucose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 54.0 * +EC1.1.99.18 d-glucose trametes pubescens//*//* 890.0 * +EC1.1.99.18 d-glucose trametes villosa//*//* 1300.0 * +EC1.1.99.18 d-mannose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 10000.0 * +EC1.1.99.18 d-xylose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1545.0 * +EC1.1.99.18 d-xylose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 1000.0 * +EC1.1.99.18 dcpip trametes hirsuta//*//* 0.0122 * +EC1.1.99.18 di-t-butylbenzoqinone phanerochaete chrysosporium//*//* 0.012 * +EC1.1.99.18 fe(iii) phanerochaete chrysosporium//*//* 0.034 * +EC1.1.99.18 ferricenium ion trametes pubescens//*//* 0.00099 * +EC1.1.99.18 ferricenium ion trametes villosa//*//* 0.0012 * +EC1.1.99.18 ferricenium gelatoporia subvermispora//*//* 0.00032 * +EC1.1.99.18 ferricyanide gelatoporia subvermispora//*//* 0.011 * +EC1.1.99.18 ferricyanide humicola insolens//*//* 0.012 * +EC1.1.99.18 ferricyanide phanerochaete chrysosporium//*//* 0.0052 * +EC1.1.99.18 ferricyanide schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.071 * +EC1.1.99.18 ferricyanide termitomyces clypeatus//*//* 0.1379 * +EC1.1.99.18 ferricyanide thermothelomyces heterothallica//*//* 0.0045 * +EC1.1.99.18 ferricytochrome c crassicarpon hotsonii//*//* 0.0005 * +EC1.1.99.18 glucose crassicarpon hotsonii//*//* 157.1 * +EC1.1.99.18 k3fe(cn)6 trametes hirsuta//*//* 0.214 * +EC1.1.99.18 k3fe(cn)6 trametes pubescens//*//* 0.0086 * +EC1.1.99.18 k3fe(cn)6 trametes villosa//*//* 0.0055 * +EC1.1.99.18 lactose athelia rolfsii//*//* 2.4 * +EC1.1.99.18 lactose cerrena unicolor//*//* 1.85 * +EC1.1.99.18 lactose chaetomium atrobrunneum//*//* 0.018 * +EC1.1.99.18 lactose chaetomium sp.//*//* 0.056 * +EC1.1.99.18 lactose coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 1.523 * +EC1.1.99.18 lactose crassicarpon hotsonii//*//* 0.0172 * +EC1.1.99.18 lactose crassicarpon thermophilum//*//* 0.014 * +EC1.1.99.18 lactose dichomera saubinetii//*//* 0.048 * +EC1.1.99.18 lactose fungi//prokaryotes;bacteria;betaproteobacteria;collimonas//cfu 0.056 * +EC1.1.99.18 lactose gelatoporia subvermispora//*//* 4.3 * +EC1.1.99.18 lactose humicola insolens//*//* 0.051 * +EC1.1.99.18 lactose hypoxylon haematostroma//*//* 0.05 * +EC1.1.99.18 lactose irpex lacteus//*//* 1.85 * +EC1.1.99.18 lactose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.028 * +EC1.1.99.18 lactose phanerochaete chrysosporium//*//* 0.27 * +EC1.1.99.18 lactose phanerochaete sordida//*//* 2.3 * +EC1.1.99.18 lactose podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 0.043 * +EC1.1.99.18 lactose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.108 * +EC1.1.99.18 lactose stachybotrys bisbyi//*//* 0.032 * +EC1.1.99.18 lactose thermothelomyces heterothallica//*//* 0.0281 * +EC1.1.99.18 lactose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.023 * +EC1.1.99.18 lactose trametes hirsuta//*//* 2.126 * +EC1.1.99.18 lactose trametes pubescens//*//* 2.4 * +EC1.1.99.18 lactose trametes sanguinea//*//* 0.73 * +EC1.1.99.18 lactose trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.95 * +EC1.1.99.18 lactose trametes villosa//*//* 0.278 * +EC1.1.99.18 maltose athelia rolfsii//*//* 240.0 * +EC1.1.99.18 maltose chaetomium atrobrunneum//*//* 7.8 * +EC1.1.99.18 maltose crassicarpon hotsonii//*//* 6.75 * +EC1.1.99.18 maltose crassicarpon thermophilum//*//* 2.2 * +EC1.1.99.18 maltose dichomera saubinetii//*//* 8.0 * +EC1.1.99.18 maltose gelatoporia subvermispora//*//* 280.0 * +EC1.1.99.18 maltose humicola insolens//*//* 11.0 * +EC1.1.99.18 maltose hypoxylon haematostroma//*//* 7.1 * +EC1.1.99.18 maltose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.44 * +EC1.1.99.18 maltose phanerochaete chrysosporium//*//* 3.65 * +EC1.1.99.18 maltose stachybotrys bisbyi//*//* 24.0 * +EC1.1.99.18 maltose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 2.5 * +EC1.1.99.18 maltose trametes pubescens//*//* 390.0 * +EC1.1.99.18 maltose trametes sanguinea//*//* 60.7 * +EC1.1.99.18 maltose trametes villosa//*//* 350.0 * +EC1.1.99.18 maltotetraose crassicarpon hotsonii//*//* 0.71 * +EC1.1.99.18 maltotetraose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.5 * +EC1.1.99.18 maltotriose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.2 * +EC1.1.99.18 mannopentaose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 8.4 * +EC1.1.99.18 mn(iii)-malonate phanerochaete chrysosporium//*//* 0.15 * +EC1.1.99.18 mn3+-malonate phanerochaete chrysosporium//*//* 0.15 * +EC1.1.99.18 o2 crassicarpon hotsonii//*//* 0.15 * +EC1.1.99.18 oxygen phanerochaete chrysosporium//*//* 0.12 * +EC1.1.99.18 tbbq trametes hirsuta//*//* 0.0389 * +EC1.1.99.18 thiocellobiose athelia rolfsii//*//* 2.3 * +EC1.1.99.18 thiocellobiose trametes pubescens//*//* 1.8 * +EC1.1.99.18 thiocellobiose trametes villosa//*//* 2.5 * +EC1.1.99.18 triiodide ion phanerochaete chrysosporium//*//* 0.0002 * +EC1.1.99.18 ubiquinone phanerochaete chrysosporium//*//* 0.0579 * +EC1.1.99.18 xylobiose athelia rolfsii//*//* 5.4 * +EC1.1.99.18 xylobiose humicola insolens//*//* 7.1 * +EC1.1.99.18 xylobiose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.31 * +EC1.1.99.18 xylobiose trametes pubescens//*//* 7.3 * +EC1.1.99.18 xylobiose trametes villosa//*//* 7.7 * +EC1.1.99.18 xylotriose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.81 * +EC1.1.99.2 (r)-2-hydroxyglutarate alcaligenes sp.//*//* 15.0 * +EC1.1.99.2 (s)-2-hydroxyglutarate alcaligenes sp.//*//* 1.7 * +EC1.1.99.2 (s)-2-hydroxyglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.24 * +EC1.1.99.2 (s)-2-hydroxyglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC1.1.99.2 2-oxoglutarate alcaligenes sp.//*//* 0.12 * +EC1.1.99.2 l-2-hydroxyglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.095 * +EC1.1.99.2 nad+ alcaligenes sp.//*//* 5.3 * +EC1.1.99.2 nadh alcaligenes sp.//*//* 0.14 * +EC1.1.99.20 1-heptanol sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 0.4 * +EC1.1.99.20 1-hexanol sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 0.5 * +EC1.1.99.20 1-propanol sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 6.6 * +EC1.1.99.20 benzyl alcohol sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 0.11 * +EC1.1.99.20 n-butyraldehyde flavobacterium sp.//*//* 0.14 * +EC1.1.99.20 n-butyraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.14 * +EC1.1.99.20 peg-1000 ensifer sp. as08//*//* 3.3 * +EC1.1.99.20 peg-1000 flavobacterium sp.//*//* 1.7 * +EC1.1.99.20 peg-1000 sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 1.6 * +EC1.1.99.20 peg-300 sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 0.8 * +EC1.1.99.20 peg-400 flavobacterium sp.//*//* 1.0 * +EC1.1.99.20 peg-400 sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 0.7 * +EC1.1.99.20 peg-4000 flavobacterium sp.//*//* 2.8 * +EC1.1.99.20 peg-6000 flavobacterium sp.//*//* 0.14 * +EC1.1.99.20 peg-6000 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.14 * +EC1.1.99.20 peg-6000 sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 2.4 * +EC1.1.99.20 peg-mono-4-nonylphenyl ether, averaging 10 ethoxy units ensifer sp. as08//*//* 2.1 * +EC1.1.99.20 teg sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 6.7 * +EC1.1.99.20 tetraethylene glycol-monoethyl ether sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 4.2 * +EC1.1.99.20 tetraethylene glycol flavobacterium sp.//*//* 10.0 * +EC1.1.99.20 tetraethylene glycol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.0 * +EC1.1.99.20 tetraethylene glycol sphingopyxis terrae//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//ster 14.0 * +EC1.1.99.21 d-sorbitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 16.8 * +EC1.1.99.21 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0882 * +EC1.1.99.21 phenazine methosulfate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0314 * +EC1.1.99.21 ubiquinone-2 gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0257 * +EC1.1.99.22 d-arabitol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 22.0 * +EC1.1.99.22 glycerol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 2.3 * +EC1.1.99.22 meso-erythritol gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 19.0 * +EC1.1.99.24 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC1.1.99.24 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC1.1.99.24 4-hydroxybutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC1.1.99.24 4-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC1.1.99.24 d-2-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.5 * +EC1.1.99.24 d-2-hydroxyglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.1.99.24 l-3-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC1.1.99.24 succinic semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0046 * +EC1.1.99.27 (r)-pantolactone nocardia asteroides//*//* 26.8 * +EC1.1.99.28 fructose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 400.0 * +EC1.1.99.28 glucose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 20.0 * +EC1.1.99.29 1,4-benzoquinone agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.566 * +EC1.1.99.29 1,4-benzoquinone agaricus campestris//*//* 0.12 * +EC1.1.99.29 1,4-benzoquinone agaricus xanthodermus//*//* 1.1 * +EC1.1.99.29 1,4-benzoquinone leucoagaricus meleagris//*//* 0.0325 * +EC1.1.99.29 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.079 * +EC1.1.99.29 2,2'-azino-bis[3-ethylbenzothiazoline]-6-sulfonic acid leucoagaricus meleagris//*//* 0.0132 * +EC1.1.99.29 2,5-chloro-1,4-benzoquinone leucoagaricus meleagris//*//* 0.92 * +EC1.1.99.29 2,6-dichloroindophenol agaricus xanthodermus//*//* 0.05 * +EC1.1.99.29 2,6-dichlorophenolindophenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.06 * +EC1.1.99.29 2,6-dichlorophenolindophenol agaricus campestris//*//* 0.11 * +EC1.1.99.29 2,6-dichlorophenolindophenol agaricus xanthodermus//*//* 0.09 * +EC1.1.99.29 2,6-dichlorophenolindophenol leucoagaricus meleagris//*//* 0.14 * +EC1.1.99.29 2-(hydroxymethyl)-6-methoxy-1,4-benzoquinone agaricus xanthodermus//*//* 0.18 * +EC1.1.99.29 2-chloro-1,4-benzoquinone agaricus xanthodermus//*//* 1.6 * +EC1.1.99.29 2-chloro-1,4-benzoquinone leucoagaricus meleagris//*//* 0.55 * +EC1.1.99.29 2-deoxy-d-galactose leucoagaricus meleagris//*//* 12.14 * +EC1.1.99.29 2-deoxy-d-glucose leucoagaricus meleagris//*//* 0.65 * +EC1.1.99.29 2-methylcyclohexa-2,5-diene-1,4-dione agaricus xanthodermus//*//* 0.12 * +EC1.1.99.29 3,5-di-t-butyl-1,2-benzoquinone agaricus xanthodermus//*//* 0.02 * +EC1.1.99.29 3,5-di-tert-butyl-1,4-benzoquinone leucoagaricus meleagris//*//* 0.22 * +EC1.1.99.29 3-ethylbenzthiazolin-6-sulfonic acid cation radical agaricus xanthodermus//*//* 0.0017 * +EC1.1.99.29 beta-lactose agaricus xanthodermus//*//* 120.0 * +EC1.1.99.29 beta-lactose leucoagaricus meleagris//*//* 10.84 * +EC1.1.99.29 cellobiose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.45 * +EC1.1.99.29 cellobiose leucoagaricus meleagris//*//* 6.69 * +EC1.1.99.29 cuso4 agaricus xanthodermus//*//* 0.95 * +EC1.1.99.29 d-allose leucoagaricus meleagris//*//* 18.3 * +EC1.1.99.29 d-arabinose agaricus xanthodermus//*//* 17.0 * +EC1.1.99.29 d-cellobiose leucoagaricus meleagris//*//* 1.05 * +EC1.1.99.29 d-fructose leucoagaricus meleagris//*//* 153.0 * +EC1.1.99.29 d-galactose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 4.19 * +EC1.1.99.29 d-galactose agaricus campestris//*//* 7.13 * +EC1.1.99.29 d-galactose agaricus xanthodermus//*//* 11.0 * +EC1.1.99.29 d-galactose chlorophyllum rhacodes//*//* 29.8 * +EC1.1.99.29 d-galactose leucoagaricus meleagris//*//* 0.64 * +EC1.1.99.29 d-glucosamine leucoagaricus meleagris//*//* 0.74 * +EC1.1.99.29 d-glucose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.54 * +EC1.1.99.29 d-glucose agaricus campestris//*//* 0.35 * +EC1.1.99.29 d-glucose agaricus xanthodermus//*//* 0.44 * +EC1.1.99.29 d-glucose chlorophyllum rhacodes//*//* 1.82 * +EC1.1.99.29 d-glucose leucoagaricus meleagris//*//* 0.53 * +EC1.1.99.29 d-maltoheptaose leucoagaricus meleagris//*//* 0.51 * +EC1.1.99.29 d-maltopentaose leucoagaricus meleagris//*//* 0.64 * +EC1.1.99.29 d-maltose agaricus xanthodermus//*//* 12.0 * +EC1.1.99.29 d-maltose leucoagaricus meleagris//*//* 0.34 * +EC1.1.99.29 d-maltotriose agaricus xanthodermus//*//* 100.0 * +EC1.1.99.29 d-maltotriose leucoagaricus meleagris//*//* 0.64 * +EC1.1.99.29 d-mannose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 109.1 * +EC1.1.99.29 d-mannose leucoagaricus meleagris//*//* 0.62 * +EC1.1.99.29 d-ribose leucoagaricus meleagris//*//* 59.7 * +EC1.1.99.29 d-sorbose leucoagaricus meleagris//*//* 137.0 * +EC1.1.99.29 d-talose leucoagaricus meleagris//*//* 79.1 * +EC1.1.99.29 d-trehalose leucoagaricus meleagris//*//* 0.05 * +EC1.1.99.29 d-xylobiose leucoagaricus meleagris//*//* 10.8 * +EC1.1.99.29 d-xylose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 4.75 * +EC1.1.99.29 d-xylose agaricus campestris//*//* 4.19 * +EC1.1.99.29 d-xylose agaricus xanthodermus//*//* 1.44 * +EC1.1.99.29 d-xylose chlorophyllum rhacodes//*//* 29.2 * +EC1.1.99.29 d-xylose leucoagaricus meleagris//*//* 1.93 * +EC1.1.99.29 dimethylaminomethyl-ferricenium agaricus xanthodermus//*//* 0.42 * +EC1.1.99.29 fe3+ leucoagaricus meleagris//*//* 0.13 * +EC1.1.99.29 ferricenium hexafluorophosphate agaricus xanthodermus//*//* 0.12 * +EC1.1.99.29 ferricenium ion leucoagaricus meleagris//*//* 0.0103 * +EC1.1.99.29 ferricyanide agaricus xanthodermus//*//* 0.33 * +EC1.1.99.29 ferrocenium ion agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.17 * +EC1.1.99.29 ferrocenium ion agaricus campestris//*//* 1.19 * +EC1.1.99.29 ferrocenium ion agaricus xanthodermus//*//* 0.03 * +EC1.1.99.29 ferrocenium ion leucoagaricus meleagris//*//* 0.13 * +EC1.1.99.29 gentiobiose agaricus xanthodermus//*//* 17.0 * +EC1.1.99.29 l-arabinose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.33 * +EC1.1.99.29 l-arabinose agaricus campestris//*//* 4.23 * +EC1.1.99.29 l-arabinose agaricus xanthodermus//*//* 4.16 * +EC1.1.99.29 l-arabinose chlorophyllum rhacodes//*//* 24.0 * +EC1.1.99.29 l-arabinose leucoagaricus meleagris//*//* 0.44 * +EC1.1.99.29 l-fucose leucoagaricus meleagris//*//* 12.31 * +EC1.1.99.29 l-sorbose leucoagaricus meleagris//*//* 137.0 * +EC1.1.99.29 lactose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 40.51 * +EC1.1.99.29 lactose agaricus campestris//*//* 53.16 * +EC1.1.99.29 lactose agaricus xanthodermus//*//* 293.8 * +EC1.1.99.29 lactose leucoagaricus meleagris//*//* 76.7 * +EC1.1.99.29 maltose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.16 * +EC1.1.99.29 maltose leucoagaricus meleagris//*//* 2.22 * +EC1.1.99.29 maltotriose leucoagaricus meleagris//*//* 54.6 * +EC1.1.99.29 methyl-1,4-benzoquinone leucoagaricus meleagris//*//* 0.18 * +EC1.1.99.29 methyl-alpha-d-glucopyranoside leucoagaricus meleagris//*//* 0.66 * +EC1.1.99.29 o2 leucoagaricus meleagris//*//* 0.095 * +EC1.1.99.29 raffinose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 10.79 * +EC1.1.99.29 sucrose leucoagaricus meleagris//*//* 0.35 * +EC1.1.99.29 tetrachloro-1,4-benzoquinone agaricus xanthodermus//*//* 0.28 * +EC1.1.99.29 tetrafluoro-1,4-benzoquinone agaricus xanthodermus//*//* 0.39 * +EC1.1.99.29 xylobiose leucoagaricus meleagris//*//* 10.8 * +EC1.1.99.3 2,6-dichlorophenolindophenol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.21 * +EC1.1.99.3 coenzyme q1 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.11 * +EC1.1.99.3 d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 2.2 * +EC1.1.99.3 d-gluconate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.8 * +EC1.1.99.3 d-gluconate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.8 * +EC1.1.99.3 d-gluconate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.3 * +EC1.1.99.3 d-gluconate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.8 * +EC1.1.99.3 ferricyanide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.5 * +EC1.1.99.3 phenazine methosulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.15 * +EC1.1.99.30 6-phospho-d-gluconate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.64 * +EC1.1.99.30 benzyl viologen proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.042 * +EC1.1.99.30 carboxamido-methyl viologen proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.025 * +EC1.1.99.30 d-galactonate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.48 * +EC1.1.99.30 d-glucarate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.68 * +EC1.1.99.30 d-gluconate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.98 * +EC1.1.99.30 d-gulonate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.64 * +EC1.1.99.30 d-lactate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.68 * +EC1.1.99.30 d-ribonate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.3 * +EC1.1.99.30 d-xylonate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.27 * +EC1.1.99.30 galactarate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.42 * +EC1.1.99.30 l-arabinoic acid proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 2.03 * +EC1.1.99.30 l-arabinuronate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.46 * +EC1.1.99.30 l-mannonate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.92 * +EC1.1.99.30 lactobionate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.66 * +EC1.1.99.30 oxidized antraquinone-2,6-disulfonate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.19 * +EC1.1.99.31 (r,s)-2-hydroxy-3-butynoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 22.0 * +EC1.1.99.31 (r,s)-2-hydroxybutyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 32.0 * +EC1.1.99.31 (r,s)-2-hydroxyhexanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.9 * +EC1.1.99.31 (r,s)-2-hydroxyisocaproate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.3 * +EC1.1.99.31 (r,s)-2-hydroxyisovalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 9.5 * +EC1.1.99.31 (r,s)-2-hydroxyoctanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.75 * +EC1.1.99.31 (r,s)-2-hydroxyvalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 15.3 * +EC1.1.99.31 (r,s)-3-indolelactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.9 * +EC1.1.99.31 (r,s)-3-phenyllacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.1.99.31 (r,s)-indoleglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.1.99.31 (r,s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.33 * +EC1.1.99.31 (s)-3-phenyllactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.3 * +EC1.1.99.31 (s)-mandelate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC1.1.99.31 (s)-mandelate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.92 * +EC1.1.99.31 (s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC1.1.99.31 (s)-mandelate rhodotorula graminis//*//* 0.18 * +EC1.1.99.31 (s)-phenyllactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.6 * +EC1.1.99.31 2-hydroxy-3-butynoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 22.0 * +EC1.1.99.31 2-hydroxybutyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 32.0 * +EC1.1.99.31 2-hydroxyhexanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.9 * +EC1.1.99.31 2-hydroxyisocaproate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.3 * +EC1.1.99.31 2-hydroxyoctanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.29 * +EC1.1.99.31 2-hydroxyvalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 15.3 * +EC1.1.99.31 3-hydroxy-d,l-mandelate rhodotorula graminis//*//* 0.08 * +EC1.1.99.31 3-indolelactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.64 * +EC1.1.99.31 3-methoxy-d,l-mandelate rhodotorula graminis//*//* 0.12 * +EC1.1.99.31 3-phenyllactate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.1.99.31 4-bromo-d,l-mandelate rhodotorula graminis//*//* 0.26 * +EC1.1.99.31 4-chloro-d,l-mandelate rhodotorula graminis//*//* 0.15 * +EC1.1.99.31 4-chloromandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.1.99.31 4-fluoro-d,l-mandelate rhodotorula graminis//*//* 0.16 * +EC1.1.99.31 4-methoxy-d,l-mandelate rhodotorula graminis//*//* 0.12 * +EC1.1.99.31 4-methyl-d,l-mandelate rhodotorula graminis//*//* 0.17 * +EC1.1.99.31 d,l-mandelate rhodotorula graminis//*//* 0.35 * +EC1.1.99.31 dl-[2-1h]-mandelate rhodotorula graminis//*//* 0.47 * +EC1.1.99.31 dl-[2-2h]-mandelate rhodotorula graminis//*//* 0.53 * +EC1.1.99.31 ethyl-(s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.9 * +EC1.1.99.31 ferricyanide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.87 * +EC1.1.99.31 indoleglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.1.99.31 l-mandelate rhodotorula graminis//*//* 0.24 * +EC1.1.99.31 mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.09 * +EC1.1.99.31 methyl-(s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.3 * +EC1.1.99.31 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.2 * +EC1.1.99.32 1,5-anhydro-d-glucitol sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 97.5 * +EC1.1.99.32 l-sorbose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 100.0 * +EC1.1.99.32 l-sorbose sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 62.4 * +EC1.1.99.33 benzyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC1.1.99.33 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC1.1.99.35 2-deoxy-d-glucose acinetobacter calcoaceticus//*//* 90.0 * +EC1.1.99.35 3-o-methyl-d-glucose acinetobacter calcoaceticus//*//* 28.7 * +EC1.1.99.35 d-allose acinetobacter calcoaceticus//*//* 29.0 * +EC1.1.99.35 d-galactose acinetobacter calcoaceticus//*//* 5.3 * +EC1.1.99.35 d-glucose acinetobacter calcoaceticus//*//* 25.0 * +EC1.1.99.35 d-glucose pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.91 * +EC1.1.99.35 d-lactose acinetobacter calcoaceticus//*//* 14.3 * +EC1.1.99.35 d-maltose acinetobacter calcoaceticus//*//* 26.0 * +EC1.1.99.35 d-xylose acinetobacter calcoaceticus//*//* 14.3 * +EC1.1.99.36 1-butanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.0025 * +EC1.1.99.36 1-propanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.0039 * +EC1.1.99.36 2-butanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 10.1 * +EC1.1.99.36 2-propanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 13.4 * +EC1.1.99.36 ethanol amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.082 * +EC1.1.99.38 2-deoxy-scyllo-inosamine bacillus circulans//*//* 0.022 * +EC1.1.99.38 s-adenosyl-l-methionine bacillus circulans//*//* 0.31 * +EC1.1.99.39 (r)-2-hydroxyglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.584 * +EC1.1.99.4 2-dehydro-d-gluconate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 50.0 * +EC1.1.99.40 d-2-hydroxyglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.111 * +EC1.1.99.40 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.45 * +EC1.1.99.6 (r)-lactate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.15 * +EC1.1.99.6 (r)-lactate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.091 * +EC1.1.99.6 d-lactate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC1.1.99.6 d-malate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC1.1.99.6 oxidized 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.247 * +EC1.1.99.7 l-lactate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 1.9 * +EC1.1.99.7 l-malate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 1.4 * +EC1.1.99.7 oxaloacetate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.05 * +EC1.1.99.7 pyruvate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 2.4 * +EC1.1.99.9 o2 arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.28 * +EC1.1.99.9 pyridoxine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.18 * +EC1.1.99.9 pyridoxine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.48 * +EC1.1.99.B3 4-o-methyl-alpha-d-glucopyranosyl uronic acid-(1->2)-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-d-xylose sarocladium strictum//*//* 0.3 * +EC1.1.99.B3 6-deoxy-d-glucose paraconiothyrium sp.//*//* 52.0 * +EC1.1.99.B3 alpha-l-arabinofuranosyl-(1->2)-[alpha-l-arabinofuranosyl-(1->3)]-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-d-xylose sarocladium strictum//*//* 0.078 * +EC1.1.99.B3 alpha-l-arabinofuranosyl-(1->3)-beta-d-xylopyranosyl-(1->4)-d-xylose sarocladium strictum//*//* 0.059 * +EC1.1.99.B3 cellobiose paraconiothyrium sp.//*//* 0.08 * +EC1.1.99.B3 cellobiose sarocladium strictum//*//* 0.04 * +EC1.1.99.B3 cellohexaose paraconiothyrium sp.//*//* 0.06 * +EC1.1.99.B3 cellopentaose paraconiothyrium sp.//*//* 0.03 * +EC1.1.99.B3 cellopentaose sarocladium strictum//*//* 0.06 * +EC1.1.99.B3 cellotetraose paraconiothyrium sp.//*//* 0.06 * +EC1.1.99.B3 cellotetraose sarocladium strictum//*//* 0.07 * +EC1.1.99.B3 cellotriose paraconiothyrium sp.//*//* 0.06 * +EC1.1.99.B3 cellotriose sarocladium strictum//*//* 0.085 * +EC1.1.99.B3 d-galactose paraconiothyrium sp.//*//* 61.0 * +EC1.1.99.B3 d-galactose sarocladium strictum//*//* 132.0 * +EC1.1.99.B3 d-glucose paraconiothyrium sp.//*//* 20.0 * +EC1.1.99.B3 d-glucose sarocladium strictum//*//* 17.4 * +EC1.1.99.B3 d-xylose paraconiothyrium sp.//*//* 2.0 * +EC1.1.99.B3 d-xylose sarocladium strictum//*//* 105.0 * +EC1.1.99.B3 l-arabinose paraconiothyrium sp.//*//* 47.0 * +EC1.1.99.B3 lactose paraconiothyrium sp.//*//* 0.11 * +EC1.1.99.B3 maltohexaose paraconiothyrium sp.//*//* 13.0 * +EC1.1.99.B3 maltopentaose paraconiothyrium sp.//*//* 11.0 * +EC1.1.99.B3 maltose paraconiothyrium sp.//*//* 4.9 * +EC1.1.99.B3 maltose sarocladium strictum//*//* 2.81 * +EC1.1.99.B3 maltotetraose paraconiothyrium sp.//*//* 12.0 * +EC1.1.99.B3 maltotriose paraconiothyrium sp.//*//* 18.0 * +EC1.1.99.B3 n-acetyl-d-glucosamine sarocladium strictum//*//* 340.0 * +EC1.1.99.B3 xylobiose paraconiothyrium sp.//*//* 0.09 * +EC1.1.99.B3 xylobiose sarocladium strictum//*//* 0.057 * +EC1.1.99.B3 xylohexaose sarocladium strictum//*//* 0.06 * +EC1.1.99.B3 xylotetraose sarocladium strictum//*//* 0.07 * +EC1.1.99.B3 xylotriose sarocladium strictum//*//* 0.1 * +EC1.1.99.B6 nadph streptomyces wedmorensis//*//* 0.0098 * +EC1.1.99.B6 phosphonoacetaldehyde streptomyces wedmorensis//*//* 0.031 * +EC1.1.99.B9 (2s)-(2-chlorophenyl)(hydroxy)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 81.2 * +EC1.1.99.B9 (2s)-(2-fluorophenyl)(hydroxy)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 11.5 * +EC1.1.99.B9 (2s)-(3-chlorophenyl)(hydroxy)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 4.9 * +EC1.1.99.B9 (2s)-(4-bromophenyl)(hydroxy)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 3.6 * +EC1.1.99.B9 (2s)-(4-chlorophenyl)(hydroxy)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 3.7 * +EC1.1.99.B9 (2s)-(4-fluorophenyl)(hydroxy)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 66.5 * +EC1.1.99.B9 (2s)-hydroxy(1,5-difluorophenyl)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 8.6 * +EC1.1.99.B9 (2s)-hydroxy(2,4-difluorophenyl)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 15.2 * +EC1.1.99.B9 (2s)-hydroxy(4-hydroxyphenyl)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 73.5 * +EC1.1.99.B9 (2s)-hydroxy(4-methylphenyl)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 65.6 * +EC1.1.99.B9 (2s)-hydroxy(phenyl)acetic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 64.9 * +EC1.1.99.B9 (2s)-hydroxy-3-phenylpropanoic acid sinorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//six 68.5 * +EC1.10.2.1 cytochrome b5 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.10.2.1 cytochrome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC1.10.2.1 cytochrome b5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0017 * +EC1.10.2.1 l-ascorbate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC1.10.2.2 coenzyme q1h2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0046 * +EC1.10.2.2 cytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC1.10.2.2 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.10.2.2 cytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0055 * +EC1.10.2.2 cytochrome c rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.004 * +EC1.10.2.2 cytochrome c2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.001 * +EC1.10.2.2 cytochrome c2 rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.023 * +EC1.10.2.2 decylubiquinol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.10.2.2 horse heart cytochrome c rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.006 * +EC1.10.2.2 qh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.072 * +EC1.10.2.2 rhodoquinol-3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC1.10.2.2 ubiquinol-1 rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.08 * +EC1.10.2.2 ubiquinol-1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0064 * +EC1.10.2.2 ubiquinol-10 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC1.10.2.2 ubiquinol-10 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.004 * +EC1.10.2.2 ubiquinol-2 helianthus tuberosus//*//* 0.002 * +EC1.10.2.2 ubiquinol-2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0054 * +EC1.10.2.2 ubiquinol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0015 * +EC1.10.2.2 ubiquinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.10.3.1 (+)-catechin ferula sp.//prokaryotes;bacteria;betaproteobacteria;sulfuriferula//sulf 0.31 * +EC1.10.3.1 (+)-catechin urtica dioica//*//* 0.99 * +EC1.10.3.1 (-)-epicatechin ferula sp.//prokaryotes;bacteria;betaproteobacteria;sulfuriferula//sulf 0.798 * +EC1.10.3.1 (-)-epigallocatechin gallate mycelia sterilia//*//* 1.3 * +EC1.10.3.1 (-)-epigallocatechin mycelia sterilia//*//* 4.0 * +EC1.10.3.1 1-tert-butyl-catechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.41 * +EC1.10.3.1 2,3,4-trihydroxybenzoic acid ipomoea batatas//*//* 5.6 * +EC1.10.3.1 2,3,4-trihydroxybenzoic acid lablab purpureus//*//* 4.0 * +EC1.10.3.1 3,4-dihydroxyphenyl acetic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 5.1 * +EC1.10.3.1 3,4-dihydroxyphenyl acetic acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.4 * +EC1.10.3.1 3,4-dihydroxyphenyl acetic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1.16 * +EC1.10.3.1 3,4-dihydroxyphenyl propionic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.89 * +EC1.10.3.1 3,4-dihydroxyphenyl propionic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1.05 * +EC1.10.3.1 3,4-dihydroxyphenylacetic acid cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 6.66 * +EC1.10.3.1 3,4-dihydroxyphenylacetic acid ipomoea batatas//*//* 6.0 * +EC1.10.3.1 3,4-dihydroxyphenylacetic acid lablab purpureus//*//* 2.9 * +EC1.10.3.1 4-methylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.12 * +EC1.10.3.1 4-methylcatechol cydonia oblonga//*//* 1.2 * +EC1.10.3.1 4-methylcatechol cynara cardunculus var. scolymus//*//* 11.6 * +EC1.10.3.1 4-methylcatechol ferula sp.//prokaryotes;bacteria;betaproteobacteria;sulfuriferula//sulf 6.58 * +EC1.10.3.1 4-methylcatechol ipomoea batatas//*//* 5.2 * +EC1.10.3.1 4-methylcatechol lablab purpureus//*//* 4.0 * +EC1.10.3.1 4-methylcatechol lactarius salmonicolor//*//* 1.809 * +EC1.10.3.1 4-methylcatechol musa acuminata//eukaryotes;plants;monocots;banana family//mus 8.3 * +EC1.10.3.1 4-methylcatechol musa x paradisiaca//*//* 10.0 * +EC1.10.3.1 4-methylcatechol ocimum basilicum//*//* 2.77 * +EC1.10.3.1 4-methylcatechol streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1.9 * +EC1.10.3.1 4-methylcatechol urtica dioica//*//* 1.25 * +EC1.10.3.1 4-methylcatechol vigna unguiculata//*//* 3.44 * +EC1.10.3.1 4-tert-butylcatechol lablab purpureus//*//* 4.1 * +EC1.10.3.1 4-tertiary butylcatechol ipomoea batatas//*//* 3.9 * +EC1.10.3.1 betanidin agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.66 * +EC1.10.3.1 caffeic acid lycopus europaeus//*//* 5.0 * +EC1.10.3.1 caffeic acid musa acuminata//eukaryotes;plants;monocots;banana family//mus 9.5 * +EC1.10.3.1 catechin mycelia sterilia//*//* 28.6 * +EC1.10.3.1 catechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.1 * +EC1.10.3.1 catechol asimina triloba//*//* 326.6 * +EC1.10.3.1 catechol clonorchis sinensis//*//* 23.52 * +EC1.10.3.1 catechol cynara cardunculus var. scolymus//*//* 10.7 * +EC1.10.3.1 catechol erimacrus isenbeckii//*//* 1.15 * +EC1.10.3.1 catechol ferula sp.//prokaryotes;bacteria;betaproteobacteria;sulfuriferula//sulf 2.34 * +EC1.10.3.1 catechol fragaria x ananassa//*//* 5.95 * +EC1.10.3.1 catechol ipomoea batatas//*//* 9.0 * +EC1.10.3.1 catechol lablab purpureus//*//* 10.5 * +EC1.10.3.1 catechol lactarius salmonicolor//*//* 25.0 * +EC1.10.3.1 catechol lonicera japonica//*//* 0.213 * +EC1.10.3.1 catechol lycopus europaeus//*//* 5.0 * +EC1.10.3.1 catechol musa acuminata//eukaryotes;plants;monocots;banana family//mus 69.0 * +EC1.10.3.1 catechol musa x paradisiaca//*//* 8.0 * +EC1.10.3.1 catechol mycelia sterilia//*//* 4.2 * +EC1.10.3.1 catechol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.2 * +EC1.10.3.1 catechol ocimum basilicum//*//* 1.62 * +EC1.10.3.1 catechol octopus ocellatus//*//* 6.3 * +EC1.10.3.1 catechol panulirus argus//*//* 7.174 * +EC1.10.3.1 catechol pouteria sapota//*//* 44.0 * +EC1.10.3.1 catechol prunus persica//eukaryotes;plants;eudicots;rose family//pper 4.2 * +EC1.10.3.1 catechol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 21.1 * +EC1.10.3.1 catechol streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 4.5 * +EC1.10.3.1 catechol urtica dioica//*//* 0.414 * +EC1.10.3.1 chlorogenic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.87 * +EC1.10.3.1 chlorogenic acid coffea arabica//*//* 0.88 * +EC1.10.3.1 chlorogenic acid eriobotrya japonica//*//* 1.0 * +EC1.10.3.1 chlorogenic acid ferula sp.//prokaryotes;bacteria;betaproteobacteria;sulfuriferula//sulf 0.764 * +EC1.10.3.1 chlorogenic acid lonicera japonica//*//* 1.0 * +EC1.10.3.1 chlorogenic acid lycopus europaeus//*//* 3.5 * +EC1.10.3.1 chlorogenic acid musa acuminata//eukaryotes;plants;monocots;banana family//mus 6.2 * +EC1.10.3.1 chlorogenic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.74 * +EC1.10.3.1 d-2-methyl-3,4-dihydroxyphenylalanine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 8.0 * +EC1.10.3.1 d-catechin alternaria tenuis//*//* 0.47 * +EC1.10.3.1 d-catechin musa acuminata//eukaryotes;plants;monocots;banana family//mus 1.2 * +EC1.10.3.1 d-dopa agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 4.5 * +EC1.10.3.1 d-dopa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000219 * +EC1.10.3.1 d-dopa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.38 * +EC1.10.3.1 d-dopa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 15.02 * +EC1.10.3.1 d-isoproterenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 18.1 * +EC1.10.3.1 digallol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.16 * +EC1.10.3.1 digallol urtica dioica//*//* 1.0 * +EC1.10.3.1 dihydrocaffeic acid lycopus europaeus//*//* 4.3 * +EC1.10.3.1 dopamine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.72 * +EC1.10.3.1 dopamine aphonopelma californicum (nomen dubium)//*//* 1.22 * +EC1.10.3.1 dopamine lablab purpureus//*//* 1.5 * +EC1.10.3.1 dopamine musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.6 * +EC1.10.3.1 dopamine musa x paradisiaca//*//* 2.8 * +EC1.10.3.1 dopamine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.28 * +EC1.10.3.1 dopamine panulirus argus//*//* 0.181 * +EC1.10.3.1 dopamine scyllarides latus//*//* 0.427 * +EC1.10.3.1 dopamine streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 11.9 * +EC1.10.3.1 l-2-methyl-3,4-dihydroxyphenylalanine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 6.8 * +EC1.10.3.1 l-3,4-dihydroxyphenylalanine methyl ester agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.57 * +EC1.10.3.1 l-adrenaline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.39e-05 * +EC1.10.3.1 l-dopa agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.8 * +EC1.10.3.1 l-dopa beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 1.02 * +EC1.10.3.1 l-dopa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000223 * +EC1.10.3.1 l-dopa clonorchis sinensis//*//* 1.6 * +EC1.10.3.1 l-dopa cynara cardunculus var. scolymus//*//* 45.0 * +EC1.10.3.1 l-dopa erimacrus isenbeckii//*//* 0.96 * +EC1.10.3.1 l-dopa lablab purpureus//*//* 1.18 * +EC1.10.3.1 l-dopa lonicera japonica//*//* 2.69 * +EC1.10.3.1 l-dopa musa acuminata//eukaryotes;plants;monocots;banana family//mus 56.3 * +EC1.10.3.1 l-dopa neobellieria bullata//*//* 1.5 * +EC1.10.3.1 l-dopa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.04 * +EC1.10.3.1 l-dopa octopus ocellatus//*//* 3.1 * +EC1.10.3.1 l-dopa panulirus argus//*//* 2.565 * +EC1.10.3.1 l-dopa portulaca grandiflora//*//* 2.0 * +EC1.10.3.1 l-dopa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 5.77 * +EC1.10.3.1 l-dopa urtica dioica//*//* 21.4 * +EC1.10.3.1 l-isoproterenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 7.1 * +EC1.10.3.1 l-noradrenaline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.94e-05 * +EC1.10.3.1 luteolin-7-glycoside lycopus europaeus//*//* 8.0 * +EC1.10.3.1 myricetin lycopus europaeus//*//* 1.0 * +EC1.10.3.1 pyrogallol cynara cardunculus var. scolymus//*//* 5.2 * +EC1.10.3.1 pyrogallol lablab purpureus//*//* 12.5 * +EC1.10.3.1 pyrogallol lactarius salmonicolor//*//* 9.465 * +EC1.10.3.1 pyrogallol mycelia sterilia//*//* 3.9 * +EC1.10.3.1 pyrogallol ocimum basilicum//*//* 3.42 * +EC1.10.3.1 pyrogallol pouteria sapota//*//* 1.3 * +EC1.10.3.1 quercetin lycopus europaeus//*//* 0.8 * +EC1.10.3.1 rosmarinic acid lycopus europaeus//*//* 2.0 * +EC1.10.3.1 tert-butyl-catechol eriobotrya japonica//*//* 1.2 * +EC1.10.3.1 tert-butylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.8 * +EC1.10.3.1 tert-butylcatechol streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.91 * +EC1.10.3.1 verbascosid lycopus europaeus//*//* 2.0 * +EC1.10.3.10 ubiquinol-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC1.10.3.11 o2 sauromatum venosum//*//* 0.018 * +EC1.10.3.11 ubiquinol-1 arum italicum//*//* 0.331 * +EC1.10.3.11 ubiquinol-1 gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0403 * +EC1.10.3.11 ubiquinol-1 glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.1153 * +EC1.10.3.12 2,3-dimethyl-1,4-naphthoquinone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.3 * +EC1.10.3.13 caldariellaquinol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.026 * +EC1.10.3.13 ferrocytochrome c sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.057 * +EC1.10.3.13 menadiol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.23 * +EC1.10.3.13 n,n,n',n'-tetramethyl-1,4-phenylenediamine hydrochloride sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.1 * +EC1.10.3.13 n,n,n',n'-tetramethyl-1,4-phenylenediamine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.333 * +EC1.10.3.13 n,n,n',n'-tetramethyl-1,4-phenylenediamine sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.046 * +EC1.10.3.13 o2 aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.032 * +EC1.10.3.15 2-amino-4-methylphenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.75 * +EC1.10.3.15 3,4-dihydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.41 * +EC1.10.3.15 3-amino-4-hydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.58 * +EC1.10.3.15 catechol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 19.0 * +EC1.10.3.15 l-dopa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 5.5 * +EC1.10.3.15 o-aminophenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.5 * +EC1.10.3.3 5,6-ene-l-ascorbate cucurbita pepo medullosa//*//* 1.12 * +EC1.10.3.3 5,6-isopropylidene-l-ascorbate cucurbita pepo medullosa//*//* 0.554 * +EC1.10.3.3 5-methyl-5-o-(alpha-d-glucopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.433 * +EC1.10.3.3 5-methyl-5-o-(alpha-d-xylopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.162 * +EC1.10.3.3 5-o-(alpha-d-glucopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.402 * +EC1.10.3.3 5-o-(alpha-d-xylopyranosyl)-d-erythroascorbic acid pleurotus ostreatus//*//* 0.642 * +EC1.10.3.3 6-amino-l-ascorbate cucurbita pepo medullosa//*//* 0.887 * +EC1.10.3.3 6-bromo-l-ascorbate cucurbita pepo medullosa//*//* 0.124 * +EC1.10.3.3 6-deoxy-l-ascorbate cucurbita pepo medullosa//*//* 0.187 * +EC1.10.3.3 6-o-phenyl-l-ascorbate cucurbita pepo medullosa//*//* 0.026 * +EC1.10.3.3 6-s-phenyl-l-ascorbate cucurbita pepo medullosa//*//* 0.032 * +EC1.10.3.3 chlorohydroquinone cucurbita sp.//*//* 0.37 * +EC1.10.3.3 d-erythroascorbic acid pleurotus ostreatus//*//* 0.304 * +EC1.10.3.3 d-iso-ascorbate triticum aestivum//*//* 0.53 * +EC1.10.3.3 d-isoascorbate cucurbita pepo medullosa//*//* 1.307 * +EC1.10.3.3 l-ascorbate acremonium//eukaryotes;fungi;ascomycetes;sordariomycetes//tmn 0.29 * +EC1.10.3.3 l-ascorbate brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 10.0 * +EC1.10.3.3 l-ascorbate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.181 * +EC1.10.3.3 l-ascorbate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.166 * +EC1.10.3.3 l-ascorbate cucurbita pepo condensa//*//* 0.039 * +EC1.10.3.3 l-ascorbate cucurbita pepo medullosa//*//* 0.1 * +EC1.10.3.3 l-ascorbate lagenaria siceraria//*//* 0.18 * +EC1.10.3.3 l-ascorbate triticum aestivum//*//* 0.3 * +EC1.10.3.3 l-ascorbic acid cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.126 * +EC1.10.3.3 l-ascorbic acid cucurbita sp.//*//* 1.5 * +EC1.10.3.3 l-ascorbic acid pleurotus ostreatus//*//* 0.338 * +EC1.10.3.3 o2 acremonium//eukaryotes;fungi;ascomycetes;sordariomycetes//tmn 0.47 * +EC1.10.3.4 2-amino-4-methylphenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.75 * +EC1.10.3.4 3,4-dihydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.41 * +EC1.10.3.4 3-amino-4-hydroxybenzaldehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.58 * +EC1.10.3.4 catechol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 19.0 * +EC1.10.3.4 fmn pycnoporus coccineus//*//* 0.264 * +EC1.10.3.4 l-dopa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 5.5 * +EC1.10.3.4 o-aminophenol bauhinia monandra//*//* 0.75 * +EC1.10.3.4 o-aminophenol streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.5 * +EC1.10.3.5 3-hydroxyanthranilate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.10.3.5 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC1.10.3.6 rifamycin b curvularia lunata//*//* 0.67 * +EC1.10.3.6 rifamycin b humicola spp.//*//* 0.05 * +EC1.10.5.1 17beta-17-hydroxyestr-1(10)-ene-3,4-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00075 * +EC1.10.5.1 2,6-dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.10.5.1 3-(4,5-dimethylthiazaol-2-yl)-2,5-diphenyltetrazolium homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.10.5.1 5-(aziridin-1-yl)-2,4-dinitrobenzamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC1.10.5.1 cb 1954 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC1.10.5.1 coenzyme q0 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0137 * +EC1.10.5.1 coenzyme q1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0517 * +EC1.10.5.1 coenzyme q2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0387 * +EC1.10.5.1 dihydrobenzylnicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.10.5.1 dihydrobenzylnicotinamide mesocricetus auratus//*//* 0.0608 * +EC1.10.5.1 dihydronicotinamide riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.10.5.1 estradiol-3,4-quinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3e-05 * +EC1.10.5.1 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC1.10.5.1 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC1.10.5.1 menadione mesocricetus auratus//*//* 0.0252 * +EC1.10.5.1 menadione/3-(4,5-dimethylthiazaol-2-yl)-2,5-diphenyltetrazolium homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.10.5.1 methyl red homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC1.10.5.1 n-benzyl dihydronicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0113 * +EC1.10.5.1 n-benzyldihydronicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.10.5.1 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.252 * +EC1.10.5.1 reduced n1-(n-propyl)-nicotinamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC1.10.5.1 tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.10.9.1 2,3-dimethyl-6-geranyl-1,4-benzoquinol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0032 * +EC1.10.9.1 plastoquinol-1 anabaena variabilis//*//* 0.02 * +EC1.10.9.1 plastoquinol-9 anabaena variabilis//*//* 0.04 * +EC1.10.9.1 plastoquinol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.009 * +EC1.11.1.1 ferricyanide enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.1 * +EC1.11.1.1 h2o2 enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.014 * +EC1.11.1.1 nadh enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.002 * +EC1.11.1.10 2,3,5,6-tetrachloroaniline leptoxyphium fumago//*//* 0.038 * +EC1.11.1.10 2,3,5,6-tetrachlorophenol leptoxyphium fumago//*//* 0.006 * +EC1.11.1.10 4-chloroaniline musa x paradisiaca//*//* 770.0 * +EC1.11.1.10 chlorite leptoxyphium fumago//*//* 10.0 * +EC1.11.1.10 cl- streptomyces toyocaensis//*//* 57.3 * +EC1.11.1.10 h2o2 leptoxyphium fumago//*//* 0.03 * +EC1.11.1.10 h2o2 musa x paradisiaca//*//* 0.12 * +EC1.11.1.10 monochlorodimedon leptoxyphium fumago//*//* 0.0261 * +EC1.11.1.10 monochlorodimedone musa x paradisiaca//*//* 0.02 * +EC1.11.1.10 pentachlorophenol leptoxyphium fumago//*//* 0.12 * +EC1.11.1.10 pyrogallol musa x paradisiaca//*//* 0.089 * +EC1.11.1.10 r-(+)-limonene leptoxyphium fumago//*//* 0.0001 * +EC1.11.1.10 styrene leptoxyphium fumago//*//* 195.0 * +EC1.11.1.11 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) panicum virgatum//*//* 4.3e-05 * +EC1.11.1.11 ascorbate brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.402 * +EC1.11.1.11 ascorbate chlorella vulgaris//*//* 0.111 * +EC1.11.1.11 ascorbate helicoverpa zea//*//* 0.14 * +EC1.11.1.11 ascorbate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.2 * +EC1.11.1.11 ascorbate pisum sativum//*//* 2.9 * +EC1.11.1.11 ascorbate raphanus sativus//*//* 0.77 * +EC1.11.1.11 ascorbate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.3 * +EC1.11.1.11 ascorbate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.076 * +EC1.11.1.11 ascorbate zea mays//eukaryotes;plants;monocots;grass family//zma 0.38 * +EC1.11.1.11 cytochrome c leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 6.0 * +EC1.11.1.11 guaiacol leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 6.7 * +EC1.11.1.11 guaiacol pisum sativum//*//* 4.2 * +EC1.11.1.11 h2o2 brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.024 * +EC1.11.1.11 h2o2 chlorella vulgaris//*//* 0.02 * +EC1.11.1.11 h2o2 citrus limon//*//* 0.11 * +EC1.11.1.11 h2o2 crocus sativus//*//* 0.05 * +EC1.11.1.11 h2o2 euglena gracilis//*//* 0.056 * +EC1.11.1.11 h2o2 galdieria partita//*//* 0.042 * +EC1.11.1.11 h2o2 gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.12 * +EC1.11.1.11 h2o2 helicoverpa zea//*//* 0.12 * +EC1.11.1.11 h2o2 nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0217 * +EC1.11.1.11 h2o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.033 * +EC1.11.1.11 h2o2 pallavicinia lyellii//*//* 0.0287 * +EC1.11.1.11 h2o2 populus tomentosa//*//* 0.12 * +EC1.11.1.11 h2o2 raphanus sativus//*//* 0.13 * +EC1.11.1.11 h2o2 ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.06 * +EC1.11.1.11 h2o2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.08 * +EC1.11.1.11 h2o2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.035 * +EC1.11.1.11 l-ascorbate citrus limon//*//* 0.4 * +EC1.11.1.11 l-ascorbate crocus sativus//*//* 0.15 * +EC1.11.1.11 l-ascorbate galdieria partita//*//* 0.117 * +EC1.11.1.11 l-ascorbate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.43 * +EC1.11.1.11 l-ascorbate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.041 * +EC1.11.1.11 l-ascorbate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.4 * +EC1.11.1.11 l-ascorbate pallavicinia lyellii//*//* 0.123 * +EC1.11.1.11 l-ascorbate panicum virgatum//*//* 0.804 * +EC1.11.1.11 l-ascorbate pisum sativum//*//* 0.355 * +EC1.11.1.11 l-ascorbate populus tomentosa//*//* 0.53 * +EC1.11.1.11 l-ascorbic acid euglena gracilis//*//* 0.41 * +EC1.11.1.11 pyrogallol euglena gracilis//*//* 9.6 * +EC1.11.1.12 1-palmitoyl-2-(13-hydroperoxy-cis-9,trans-11-octadecadienoyl)-l-3-phosphatidylcholine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00014 * +EC1.11.1.12 cumene hydroperoxide solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.119 * +EC1.11.1.12 glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.37 * +EC1.11.1.12 h2o2 bombus ignitus//*//* 0.0008656 * +EC1.11.1.12 h2o2 momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 0.6383 * +EC1.11.1.12 h2o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.799 * +EC1.11.1.12 linoleic acid hydroperoxide solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0393 * +EC1.11.1.12 phosphatidylcholine dilinoleoyl hydroperoxide solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0121 * +EC1.11.1.12 phosphatidylcholine hydroperoxide bombus ignitus//*//* 0.0002353 * +EC1.11.1.12 phosphatidylcholine hydroperoxide momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 0.01113 * +EC1.11.1.12 phospholipid hydroperoxide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC1.11.1.12 tert-butyl hydroperoxide oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.344 * +EC1.11.1.12 tert-butyl hydroperoxide solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0953 * +EC1.11.1.12 tert-butyl-hydroperoxide momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 2.932 * +EC1.11.1.13 2,2'-azino-bis(3-ethyl-benzothiazoline-6-sulfonic acid) schizophyllum sp.//*//* 0.0478 * +EC1.11.1.13 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) lentinus tigrinus//*//* 0.196 * +EC1.11.1.13 2,2'-azinobis(3-ethylbenzthiazoline)-6-sulfonic acid lentinus tigrinus//*//* 0.0713 * +EC1.11.1.13 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) mn2+ lentinus tigrinus//*//* 0.0713 * +EC1.11.1.13 2,2-azino-di-3-ethylbenzothiazoline-6-sulfonate agrocybe praecox//*//* 0.667 * +EC1.11.1.13 2,2-azino-di-3-ethylbenzothiazoline-6-sulfonate bjerkandera adusta//*//* 0.0125 * +EC1.11.1.13 2,6-dimethoxyphenol bjerkandera adusta//*//* 0.00366 * +EC1.11.1.13 2,6-dimethoxyphenol bjerkandera sp.//*//* 0.011 * +EC1.11.1.13 2,6-dimethoxyphenol lentinus tigrinus//*//* 0.076 * +EC1.11.1.13 2,6-dimethoxyphenol phanerochaete chrysosporium//*//* 0.0066 * +EC1.11.1.13 2,6-dimethoxyphenol phanerochaete flavidoalba//*//* 0.00847 * +EC1.11.1.13 2,6-dimethoxyphenol pleurotus eryngii//*//* 0.01 * +EC1.11.1.13 2,6-dimethoxyphenol pleurotus ostreatus//*//* 0.011 * +EC1.11.1.13 2,6-dimethoxyphenol schizophyllum sp.//*//* 0.1229 * +EC1.11.1.13 bromocresol green phanerochaete chrysosporium//*//* 13.0 * +EC1.11.1.13 bromocresol purple phanerochaete chrysosporium//*//* 2000.0 * +EC1.11.1.13 bromophenol blue phanerochaete chrysosporium//*//* 31.0 * +EC1.11.1.13 bromophenol red phanerochaete chrysosporium//*//* 14.0 * +EC1.11.1.13 bromothymol blue phanerochaete chrysosporium//*//* 154.0 * +EC1.11.1.13 ferrocyanide phanerochaete chrysosporium//*//* 3.5 * +EC1.11.1.13 guaiacol bjerkandera adusta//*//* 0.222 * +EC1.11.1.13 guaiacol lentinus tigrinus//*//* 0.213 * +EC1.11.1.13 guaiacol schizophyllum sp.//*//* 0.0131 * +EC1.11.1.13 h2o2 agrocybe praecox//*//* 0.002 * +EC1.11.1.13 h2o2 bjerkandera adusta//*//* 0.0045 * +EC1.11.1.13 h2o2 bjerkandera sp.//*//* 0.0031 * +EC1.11.1.13 h2o2 lentinus tigrinus//*//* 0.016 * +EC1.11.1.13 h2o2 musa x paradisiaca//*//* 0.0095 * +EC1.11.1.13 h2o2 phanerochaete chrysosporium//*//* 0.005 * +EC1.11.1.13 h2o2 pleurotus eryngii//*//* 0.006 * +EC1.11.1.13 h2o2 pleurotus ostreatus//*//* 0.004 * +EC1.11.1.13 h2o2 schizophyllum sp.//*//* 0.0067 * +EC1.11.1.13 h2o2 stropharia coronilla//*//* 0.002 * +EC1.11.1.13 h2o2 trichophyton rubrum//*//* 0.0064 * +EC1.11.1.13 m-cresol purple phanerochaete chrysosporium//*//* 29.0 * +EC1.11.1.13 mn(ii) musa x paradisiaca//*//* 0.021 * +EC1.11.1.13 mn2+ agrocybe praecox//*//* 0.017 * +EC1.11.1.13 mn2+ bjerkandera adusta//*//* 0.017 * +EC1.11.1.13 mn2+ bjerkandera sp.//*//* 0.0165 * +EC1.11.1.13 mn2+ deuteromycotina sp.//*//* 0.0447 * +EC1.11.1.13 mn2+ dichomitus squalens//eukaryotes;fungi;basidiomycetes//dsq 0.025 * +EC1.11.1.13 mn2+ lentinus tigrinus//*//* 0.124 * +EC1.11.1.13 mn2+ phanerochaete chrysosporium//*//* 0.004 * +EC1.11.1.13 mn2+ phanerochaete flavidoalba//*//* 0.05188 * +EC1.11.1.13 mn2+ pleurotus eryngii//*//* 0.015 * +EC1.11.1.13 mn2+ pleurotus ostreatus//*//* 0.01 * +EC1.11.1.13 mn2+ schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.4 * +EC1.11.1.13 mn2+ schizophyllum sp.//*//* 0.0352 * +EC1.11.1.13 mn2+ stropharia coronilla//*//* 0.012 * +EC1.11.1.13 mn2+ trichophyton rubrum//*//* 0.063 * +EC1.11.1.13 nadh pleurotus eryngii//*//* 0.06 * +EC1.11.1.13 nadh pleurotus ostreatus//*//* 0.04 * +EC1.11.1.13 o-cresol red phanerochaete chrysosporium//*//* 42.0 * +EC1.11.1.13 phenol red phanerochaete chrysosporium//*//* 18.0 * +EC1.11.1.13 pyrogallol lentinus tigrinus//*//* 0.293 * +EC1.11.1.13 thymol blue phanerochaete chrysosporium//*//* 25.0 * +EC1.11.1.13 vanillylacetone phanerochaete chrysosporium//*//* 0.022 * +EC1.11.1.13 vanillylideneacetone pleurotus eryngii//*//* 0.005 * +EC1.11.1.13 veratryl alcohol bjerkandera adusta//*//* 0.432 * +EC1.11.1.13 veratryl alcohol bjerkandera sp.//*//* 3.2 * +EC1.11.1.13 veratryl alcohol lentinus tigrinus//*//* 0.56 * +EC1.11.1.13 veratryl alcohol pleurotus eryngii//*//* 3.0 * +EC1.11.1.13 veratryl alcohol pleurotus ostreatus//*//* 0.646 * +EC1.11.1.14 2,4-dichlorophenol phanerochaete chrysosporium//*//* 0.359 * +EC1.11.1.14 2-chloro-1,4-dimethoxybenzene bjerkandera sp.//*//* 0.106 * +EC1.11.1.14 direct blue gll dye comamonas sp.//*//* 6.2 * +EC1.11.1.14 h2o2 agaricus campestris//*//* 0.09 * +EC1.11.1.14 h2o2 gloeophyllum sepiarium//*//* 0.076 * +EC1.11.1.14 h2o2 inonotus linteus//*//* 0.065 * +EC1.11.1.14 h2o2 lentinus sajor-caju//*//* 0.075 * +EC1.11.1.14 h2o2 lenzites betulinus//*//* 0.081 * +EC1.11.1.14 h2o2 loweporus lividus//*//* 0.083 * +EC1.11.1.14 h2o2 phanerochaete chrysosporium//*//* 0.03 * +EC1.11.1.14 h2o2 pleurotus ostreatus//*//* 0.075 * +EC1.11.1.14 h2o2 pleurotus sapidus//*//* 0.06 * +EC1.11.1.14 h2o2 polyporous velutinus//*//* 0.08 * +EC1.11.1.14 h2o2 trametes elegans//*//* 0.08 * +EC1.11.1.14 h2o2 trametes hirsuta//*//* 0.06 * +EC1.11.1.14 h2o2 trametes sanguinea//*//* 0.071 * +EC1.11.1.14 h2o2 trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.075 * +EC1.11.1.14 h2o2 volvariella volvacea//*//* 0.07 * +EC1.11.1.14 methylene blue bjerkandera adusta//*//* 0.013 * +EC1.11.1.14 n-propanol brevibacillus laterosporus//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//blr 1.6 * +EC1.11.1.14 n-propanol lentinus sajor-caju//*//* 0.5 * +EC1.11.1.14 veratryl alcohol agaricus campestris//*//* 0.071 * +EC1.11.1.14 veratryl alcohol bjerkandera sp.//*//* 0.059 * +EC1.11.1.14 veratryl alcohol gloeophyllum sepiarium//*//* 0.054 * +EC1.11.1.14 veratryl alcohol inonotus linteus//*//* 0.059 * +EC1.11.1.14 veratryl alcohol lentinus sajor-caju//*//* 0.057 * +EC1.11.1.14 veratryl alcohol lenzites betulinus//*//* 0.054 * +EC1.11.1.14 veratryl alcohol loweporus lividus//*//* 0.058 * +EC1.11.1.14 veratryl alcohol phanerochaete chrysosporium//*//* 0.055 * +EC1.11.1.14 veratryl alcohol phanerochaete sordida//*//* 0.0271 * +EC1.11.1.14 veratryl alcohol pleurotus ostreatus//*//* 0.057 * +EC1.11.1.14 veratryl alcohol pleurotus sapidus//*//* 0.062 * +EC1.11.1.14 veratryl alcohol polyporous velutinus//*//* 0.06 * +EC1.11.1.14 veratryl alcohol trametes elegans//*//* 0.061 * +EC1.11.1.14 veratryl alcohol trametes hirsuta//*//* 0.065 * +EC1.11.1.14 veratryl alcohol trametes sanguinea//*//* 0.061 * +EC1.11.1.14 veratryl alcohol trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.061 * +EC1.11.1.14 veratryl alcohol volvariella volvacea//*//* 0.066 * +EC1.11.1.15 1-palmitoyl-2-arichidonoyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.129 * +EC1.11.1.15 1-palmitoyl-2-linolenoyl-sn-glycero-3-phosphocholine hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.11.1.15 arachidonoyl hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.135 * +EC1.11.1.15 cumene hydroperoxide fasciola hepatica//*//* 0.0127 * +EC1.11.1.15 cumene hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.11.1.15 cumene hydroperoxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00665 * +EC1.11.1.15 cumene hydroperoxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.107 * +EC1.11.1.15 cumene hydroperoxide seriola lalandi//*//* 0.152 * +EC1.11.1.15 cumene hydroperoxide treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.0096 * +EC1.11.1.15 ethyl hydroperoxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0045 * +EC1.11.1.15 h2o2 aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.072 * +EC1.11.1.15 h2o2 dirofilaria immitis//*//* 16.28 * +EC1.11.1.15 h2o2 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.035 * +EC1.11.1.15 h2o2 entamoeba moshkovskii//*//* 0.036 * +EC1.11.1.15 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC1.11.1.15 h2o2 fasciola hepatica//*//* 0.03 * +EC1.11.1.15 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.11.1.15 h2o2 pisum sativum//*//* 0.0186 * +EC1.11.1.15 h2o2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00078 * +EC1.11.1.15 h2o2 rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.062 * +EC1.11.1.15 h2o2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00475 * +EC1.11.1.15 h2o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC1.11.1.15 h2o2 salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0014 * +EC1.11.1.15 h2o2 seriola lalandi//*//* 0.00098 * +EC1.11.1.15 h2o2 toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.00038 * +EC1.11.1.15 h2o2 treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.012 * +EC1.11.1.15 h2o2 vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.0011 * +EC1.11.1.15 h2o2 xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.165 * +EC1.11.1.15 linolenoyl hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.141 * +EC1.11.1.15 phosphatidylcholine hydroperoxide populus x canadensis//*//* 0.023 * +EC1.11.1.15 reduced thioredoxin a vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.0079 * +EC1.11.1.15 reduced thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC1.11.1.15 s128w ntd escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0058 * +EC1.11.1.15 t-butyl hydroperoxide seriola lalandi//*//* 0.18 * +EC1.11.1.15 t-butyl hydroperoxide treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.104 * +EC1.11.1.15 tert-butyl hydroperoxide fasciola hepatica//*//* 0.0186 * +EC1.11.1.15 tert-butyl hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.142 * +EC1.11.1.15 tert-butyl hydroperoxide leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.0091 * +EC1.11.1.15 tert-butyl hydroperoxide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0625 * +EC1.11.1.15 tert-butyl hydroperoxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.238 * +EC1.11.1.15 tert-butyl hydroperoxide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 4e-05 * +EC1.11.1.15 tert-butyl hydroperoxide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.13 * +EC1.11.1.15 thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.11.1.15 thioredoxin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0189 * +EC1.11.1.15 thioredoxin toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0042 * +EC1.11.1.15 thioredoxin treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.0388 * +EC1.11.1.15 tryparedoxin 2 leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.0319 * +EC1.11.1.16 1-naphthol bjerkandera adusta//*//* 70.0 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) bjerkandera fumosa//*//* 0.48 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) bjerkandera sp.//*//* 0.037 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) pleurotus eryngii//*//* 0.0007 * +EC1.11.1.16 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.5 * +EC1.11.1.16 2,6-dimethoxyphenol bjerkandera fumosa//*//* 0.063 * +EC1.11.1.16 2,6-dimethoxyphenol bjerkandera sp.//*//* 0.0379 * +EC1.11.1.16 2,6-dimethoxyphenol pleurotus eryngii//*//* 0.01 * +EC1.11.1.16 2,7-diaminofluorene bjerkandera fumosa//*//* 0.009 * +EC1.11.1.16 4-hydroquinone pleurotus eryngii//*//* 0.0156 * +EC1.11.1.16 acetosyringone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.035 * +EC1.11.1.16 acid blue 62 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC1.11.1.16 catechol pleurotus eryngii//*//* 5.04 * +EC1.11.1.16 guaiacol pleurotus eryngii//*//* 11.1 * +EC1.11.1.16 guaiacol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.035 * +EC1.11.1.16 h2o2 bjerkandera adusta//*//* 0.0068 * +EC1.11.1.16 h2o2 bjerkandera sp.//*//* 0.0193 * +EC1.11.1.16 h2o2 pleurotus eryngii//*//* 0.002 * +EC1.11.1.16 h2o2 pleurotus ostreatus//*//* 0.009 * +EC1.11.1.16 h2o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.079 * +EC1.11.1.16 h2o2 rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.027 * +EC1.11.1.16 manganese(ii)-substituted polyoxometalate pleurotus eryngii//*//* 6.4 * +EC1.11.1.16 methoxyhydroquinone pleurotus eryngii//*//* 0.017 * +EC1.11.1.16 methylene blue bjerkandera adusta//*//* 0.007 * +EC1.11.1.16 mn2+ bjerkandera fumosa//*//* 0.68 * +EC1.11.1.16 mn2+ bjerkandera sp.//*//* 0.0269 * +EC1.11.1.16 mn2+ pleurotus eryngii//*//* 0.012 * +EC1.11.1.16 mn2+ pleurotus ostreatus//*//* 0.0263 * +EC1.11.1.16 mn2+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.123 * +EC1.11.1.16 mordant black 9 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.32 * +EC1.11.1.16 p-dimethoxybenzene pleurotus eryngii//*//* 2.4 * +EC1.11.1.16 phenol red stereum ostrea//*//* 0.008 * +EC1.11.1.16 reactive black 5 bjerkandera adusta//*//* 0.022 * +EC1.11.1.16 reactive black 5 pleurotus eryngii//*//* 0.002 * +EC1.11.1.16 reactive blue 38 bjerkandera adusta//*//* 0.089 * +EC1.11.1.16 reactive blue 5 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC1.11.1.16 reactive blue 72 bjerkandera adusta//*//* 0.027 * +EC1.11.1.16 reactive violet 5 bjerkandera adusta//*//* 0.047 * +EC1.11.1.16 syringaldazine bjerkandera fumosa//*//* 0.035 * +EC1.11.1.16 syringaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.048 * +EC1.11.1.16 syringol pleurotus eryngii//*//* 0.2 * +EC1.11.1.16 vanillylidenacetone pleurotus eryngii//*//* 0.005 * +EC1.11.1.16 veratryl alcohol bjerkandera adusta//*//* 0.25 * +EC1.11.1.16 veratryl alcohol bjerkandera fumosa//*//* 0.304 * +EC1.11.1.16 veratryl alcohol bjerkandera sp.//*//* 0.116 * +EC1.11.1.16 veratryl alcohol pleurotus eryngii//*//* 2.17 * +EC1.11.1.16 veratryl alcohol pleurotus ostreatus//*//* 4.754 * +EC1.11.1.18 1,1-dimethyl-4-chloro-3,5-cyclohexanedione corallina officinalis//*//* 0.021 * +EC1.11.1.18 1,1-dimethyl-4-chloro-3,5-cyclohexanedione streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.002 * +EC1.11.1.18 br- corallina officinalis//*//* 0.0013 * +EC1.11.1.18 br- ecklonia stolonifera//*//* 0.001 * +EC1.11.1.18 br- gracilaria changii//*//* 4.69 * +EC1.11.1.18 br- kappaphycus alvarezii//*//* 2.5 * +EC1.11.1.18 br- kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 20.0 * +EC1.11.1.18 br- streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 6.4 * +EC1.11.1.18 h2o2 corallina officinalis//*//* 0.027 * +EC1.11.1.18 h2o2 ecklonia stolonifera//*//* 0.052 * +EC1.11.1.18 h2o2 gracilaria changii//*//* 0.71 * +EC1.11.1.18 h2o2 kappaphycus alvarezii//*//* 0.085 * +EC1.11.1.18 h2o2 kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 8.0 * +EC1.11.1.18 h2o2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 95.0 * +EC1.11.1.18 i- gracilaria changii//*//* 0.08 * +EC1.11.1.18 monochlorodimedone ecklonia stolonifera//*//* 0.00012 * +EC1.11.1.19 1-amino-4-methylamino-2-sodium anthraquinone sulfonate geotrichum candidum//*//* 0.084 * +EC1.11.1.19 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) auricularia auricula-judae//*//* 0.02 * +EC1.11.1.19 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.166 * +EC1.11.1.19 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) irpex lacteus//*//* 0.028 * +EC1.11.1.19 2,6-dimethoxyphenol auricularia auricula-judae//*//* 0.023 * +EC1.11.1.19 2,6-dimethoxyphenol irpex lacteus//*//* 0.0726 * +EC1.11.1.19 acid blue 62 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.444 * +EC1.11.1.19 guaiacol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.499 * +EC1.11.1.19 h2o2 anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0058 * +EC1.11.1.19 h2o2 auricularia auricula-judae//*//* 0.005 * +EC1.11.1.19 h2o2 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.009 * +EC1.11.1.19 h2o2 geotrichum candidum//*//* 0.026 * +EC1.11.1.19 h2o2 irpex lacteus//*//* 0.0795 * +EC1.11.1.19 h2o2 thermobifida fusca yx//*//* 0.027 * +EC1.11.1.19 mordant black 9 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.385 * +EC1.11.1.19 reactive black 5 auricularia auricula-judae//*//* 0.005 * +EC1.11.1.19 reactive black 5 irpex lacteus//*//* 0.0112 * +EC1.11.1.19 reactive blue 19 irpex lacteus//*//* 0.0135 * +EC1.11.1.19 reactive blue 19 thermobifida fusca yx//*//* 0.029 * +EC1.11.1.19 reactive blue 5 anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0036 * +EC1.11.1.19 reactive blue 5 auricularia auricula-judae//*//* 0.015 * +EC1.11.1.19 reactive blue 5 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.157 * +EC1.11.1.19 reactive blue 5 geotrichum candidum//*//* 0.054 * +EC1.11.1.19 reactive blue 5 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.107 * +EC1.11.1.19 reactive blue 5 shewanella oneidensis mr-1//*//* 0.084 * +EC1.11.1.19 veratryl alcohol auricularia auricula-judae//*//* 1.779 * +EC1.11.1.19 veratryl alcohol irpex lacteus//*//* 3.61 * +EC1.11.1.20 (5z)-n-(2-hydroxyethyl)-7-[(1r,4s,5r,6r)-6-[(1e,3s)-3-hydroxyoct-1-en-1-yl]-2,3-dioxabicyclo[2.2.1]hept-5-yl]hept-5-enamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0076 * +EC1.11.1.20 (5z)-n-(2-hydroxyethyl)-7-[(1r,4s,5r,6r)-6-[(1e,3s)-3-hydroxyoct-1-en-1-yl]-2,3-dioxabicyclo[2.2.1]hept-5-yl]hept-5-enamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC1.11.1.20 (5z,9alpha,11alpha,13e,15s)-9,11-epidioxy-15-hydroxy-prosta-5,13-dienoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0069 * +EC1.11.1.20 (5z,9alpha,11alpha,13e,15s)-9,11-epidioxy-15-hydroxy-prosta-5,13-dienoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.007 * +EC1.11.1.20 cumene hydroperoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.026 * +EC1.11.1.20 h2o2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0069 * +EC1.11.1.20 prostaglandin h2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0069 * +EC1.11.1.20 prostamide h2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0076 * +EC1.11.1.20 t-butyl hydroperoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC1.11.1.20 tert-butyl hydroperoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC1.11.1.20 thioredoxin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.016 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.14 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.031 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.11 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.067 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.016 * +EC1.11.1.21 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.007 * +EC1.11.1.21 3,3',5,5'-tetramethylbenzidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.7 * +EC1.11.1.21 ascorbate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.13 * +EC1.11.1.21 chlorpromazine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.1 * +EC1.11.1.21 h2o2 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.095 * +EC1.11.1.21 h2o2 bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 3.82 * +EC1.11.1.21 h2o2 bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 6.7 * +EC1.11.1.21 h2o2 burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.31 * +EC1.11.1.21 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.11.1.21 h2o2 geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.21 * +EC1.11.1.21 h2o2 haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.5 * +EC1.11.1.21 h2o2 halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.14 * +EC1.11.1.21 h2o2 klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.65 * +EC1.11.1.21 h2o2 magnaporthe grisea//*//* 3.84 * +EC1.11.1.21 h2o2 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.6 * +EC1.11.1.21 h2o2 mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 1.47 * +EC1.11.1.21 h2o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.36 * +EC1.11.1.21 h2o2 oceanobacillus oncorhynchi subsp. incaldanensis//*//* 24.0 * +EC1.11.1.21 h2o2 penicillium simplicissimum//*//* 10.8 * +EC1.11.1.21 h2o2 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.83 * +EC1.11.1.21 h2o2 synechococcus elongatus pcc 7942//*//* 4.3 * +EC1.11.1.21 h2o2 synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 4.1 * +EC1.11.1.21 h2o2 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.0 * +EC1.11.1.21 isoniazid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.43 * +EC1.11.1.21 n,n,n',n'-tetramethyl-p-phenylenediamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC1.11.1.21 nadh mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.23 * +EC1.11.1.21 nadph mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.17 * +EC1.11.1.21 o-dianisidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.11.1.21 o-dianisidine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.14 * +EC1.11.1.21 o-dianisidine mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.0478 * +EC1.11.1.21 o-dianisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.49 * +EC1.11.1.21 pyrogallol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC1.11.1.21 pyrogallol mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.31 * +EC1.11.1.21 pyrogallol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC1.11.1.21 tert-butyl hydroperoxide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 97.9 * +EC1.11.1.22 alpha-linolenic acid hydroperoxide synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0821 * +EC1.11.1.22 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0573 * +EC1.11.1.3 lauric acid pisum sativum//*//* 0.055 * +EC1.11.1.3 palmitate arachis hypogaea//*//* 0.0009 * +EC1.11.1.5 2,2-azinobis(3-ethylbenzthiazolinesulfonic acid) shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.0113 * +EC1.11.1.5 ascorbate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.71 * +EC1.11.1.5 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 93.0 * +EC1.11.1.5 ferrocytochrome c leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.008 * +EC1.11.1.5 ferrocytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.003 * +EC1.11.1.5 ferrocytochrome c saccharomyces carlsbergensis//*//* 0.0041 * +EC1.11.1.5 ferrocytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0041 * +EC1.11.1.5 ferrocytochrome c550 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.013 * +EC1.11.1.5 ferrocytochrome c555 methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 510.0 * +EC1.11.1.5 ferrocytochrome saccharomyces carlsbergensis//*//* 0.025 * +EC1.11.1.5 ferrocytochrome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC1.11.1.5 guaiacol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC1.11.1.5 h2o2 geobacter sulfurreducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gsu 0.0062 * +EC1.11.1.5 h2o2 methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.51 * +EC1.11.1.5 h2o2 nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.055 * +EC1.11.1.5 h2o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.025 * +EC1.11.1.5 horse cytochrome rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.006 * +EC1.11.1.5 horse heart ferrocytochrome c paracoccus pantotrophus//*//* 0.042 * +EC1.11.1.5 pyrogallol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC1.11.1.5 rhodobacter capsulatus cytochrome c2 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.06 * +EC1.11.1.6 h2o2 anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 42.0 * +EC1.11.1.6 h2o2 aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 27.73 * +EC1.11.1.6 h2o2 bacillus firmus//*//* 2.0 * +EC1.11.1.6 h2o2 bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.67 * +EC1.11.1.6 h2o2 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 52.5 * +EC1.11.1.6 h2o2 bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 279.0 * +EC1.11.1.6 h2o2 beta vulgaris var. cicla//*//* 50.0 * +EC1.11.1.6 h2o2 bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 154.0 * +EC1.11.1.6 h2o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 28.6 * +EC1.11.1.6 h2o2 brassica oleracea var. gongylodes//*//* 0.64 * +EC1.11.1.6 h2o2 brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.64 * +EC1.11.1.6 h2o2 brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 174.0 * +EC1.11.1.6 h2o2 candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 19.2 * +EC1.11.1.6 h2o2 capra capra//*//* 70.0 * +EC1.11.1.6 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC1.11.1.6 h2o2 gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 61.0 * +EC1.11.1.6 h2o2 haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 5.16 * +EC1.11.1.6 h2o2 halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.14 * +EC1.11.1.6 h2o2 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 127.0 * +EC1.11.1.6 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 80.0 * +EC1.11.1.6 h2o2 kloeckera sp.//*//* 25.0 * +EC1.11.1.6 h2o2 komagataella pastoris//*//* 36.0 * +EC1.11.1.6 h2o2 listeria seeligeri//prokaryotes;bacteria;firmicutes - bacilli;listeria//lsg 111.0 * +EC1.11.1.6 h2o2 micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 152.0 * +EC1.11.1.6 h2o2 mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 1.47 * +EC1.11.1.6 h2o2 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.025 * +EC1.11.1.6 h2o2 oceanobacillus oncorhynchi//*//* 24.0 * +EC1.11.1.6 h2o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 11.0 * +EC1.11.1.6 h2o2 proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 537.0 * +EC1.11.1.6 h2o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 67.0 * +EC1.11.1.6 h2o2 pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 65.0 * +EC1.11.1.6 h2o2 psychrobacter piscatorii//*//* 75.0 * +EC1.11.1.6 h2o2 pteris ensiformis//*//* 0.0867 * +EC1.11.1.6 h2o2 pteris vittata//*//* 0.0847 * +EC1.11.1.6 h2o2 pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 170.0 * +EC1.11.1.6 h2o2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 40.0 * +EC1.11.1.6 h2o2 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 21.8 * +EC1.11.1.6 h2o2 ruegeria pomeroyi dss-3//*//* 17.2 * +EC1.11.1.6 h2o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 125.0 * +EC1.11.1.6 h2o2 serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 78.0 * +EC1.11.1.6 h2o2 talaromyces piceae//*//* 158.8 * +EC1.11.1.6 h2o2 thermus brockianus//prokaryotes;bacteria;deinococcus-thermus;thermus//tbc 35.5 * +EC1.11.1.6 h2o2 vigna mungo//*//* 16.2 * +EC1.11.1.6 h2o2 xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 75.0 * +EC1.11.1.6 h2o2 zavarzinia compransoris//*//* 1.93 * +EC1.11.1.6 methanol kloeckera sp.//*//* 83.0 * +EC1.11.1.6 o-dianisidine mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.048 * +EC1.11.1.7 1-naphthol coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.75 * +EC1.11.1.7 2,2'-azino-bis(3-ethylbenzthiazole-6-sulfonic acid) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.11.1.7 2,2'-azino-bis(3-ethylbenzthiazole-6-sulfonic acid) neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.036 * +EC1.11.1.7 2,2'-azino-bis(3-ethylbenzthiazoline)-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000358 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) armoracia rusticana//*//* 0.18 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.9 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.18 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) elais guineensis//*//* 1.6 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.045 * +EC1.11.1.7 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.023 * +EC1.11.1.7 2,2-azino-bis-(3-ethylbenz-thiazoline)-6-sulfonic acid momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 4.9 * +EC1.11.1.7 2,2-azino-bis-(3-ethylbenz-thiazoline-6-sulfonic acid) capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.495 * +EC1.11.1.7 2,3-dimethoxyphenol armoracia rusticana//*//* 5.0 * +EC1.11.1.7 2-chloro-4-methoxyphenol armoracia rusticana//*//* 0.4 * +EC1.11.1.7 2-naphthol coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.18 * +EC1.11.1.7 3,3',5,5'-tetramethylbenzidine armoracia rusticana//*//* 0.09 * +EC1.11.1.7 3,3',5,5'-tetramethylbenzidine brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.045 * +EC1.11.1.7 3,4-dihydroxyphenylacetic acid cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.05 * +EC1.11.1.7 3,4-dimethoxyphenol armoracia rusticana//*//* 1.4 * +EC1.11.1.7 3,5-dibromo-4-hydroxybenzonitrile bjerkandera adusta//*//* 0.031 * +EC1.11.1.7 3,5-dimethoxyphenol armoracia rusticana//*//* 3.7 * +EC1.11.1.7 3-(4-hydroxyphenyl)propanoic acid armoracia rusticana//*//* 9.7 * +EC1.11.1.7 3-methyltyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC1.11.1.7 4-aminoantipyrine ipomoea carnea//*//* 0.12 * +EC1.11.1.7 4-aminophenazone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.33 * +EC1.11.1.7 4-aminophenol armoracia rusticana//*//* 2.36 * +EC1.11.1.7 4-chlorophenol brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 1.1 * +EC1.11.1.7 4-hydroxybiphenyl coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.03 * +EC1.11.1.7 4-methoxy-alpha-naphthol beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.1 * +EC1.11.1.7 4-methoxy-alpha-naphthol prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.39 * +EC1.11.1.7 5-o-(trans-feruloyl)-l-arabinose triticum aestivum//*//* 0.25 * +EC1.11.1.7 amplex red armoracia rusticana//*//* 0.081 * +EC1.11.1.7 ascorbate camellia sinensis//*//* 0.47 * +EC1.11.1.7 ascorbic acid fagopyrum esculentum//*//* 0.029 * +EC1.11.1.7 br- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.11.1.7 br- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.8 * +EC1.11.1.7 caffeic acid cynara cardunculus//*//* 0.08 * +EC1.11.1.7 catechol citrus jambhiri//*//* 125.0 * +EC1.11.1.7 catechol triticum aestivum//*//* 18.2 * +EC1.11.1.7 chlorogenic acid cynara cardunculus//*//* 0.15 * +EC1.11.1.7 chlorogenic acid prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.36 * +EC1.11.1.7 crystal violet pleurotus ostreatus//*//* 0.006 * +EC1.11.1.7 cumene hydroperoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC1.11.1.7 cumene hydroperoxide mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 3.0 * +EC1.11.1.7 esculetin armoracia rusticana//*//* 0.0052 * +EC1.11.1.7 estradiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.107 * +EC1.11.1.7 estriol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.207 * +EC1.11.1.7 estrone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.167 * +EC1.11.1.7 ethynylestradiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.092 * +EC1.11.1.7 ferulic acid cynara cardunculus//*//* 0.01 * +EC1.11.1.7 ferulic acid triticum aestivum//*//* 0.58 * +EC1.11.1.7 guaiacol allium sativum//*//* 9.5 * +EC1.11.1.7 guaiacol armoracia rusticana//*//* 2.8 * +EC1.11.1.7 guaiacol beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 98.61 * +EC1.11.1.7 guaiacol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.3 * +EC1.11.1.7 guaiacol brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.14 * +EC1.11.1.7 guaiacol citrus jambhiri//*//* 5.0 * +EC1.11.1.7 guaiacol cucumis melo var. cantalupo//*//* 24.0 * +EC1.11.1.7 guaiacol cucumis melo var. inodorus//*//* 5.05 * +EC1.11.1.7 guaiacol elais guineensis//*//* 2.0 * +EC1.11.1.7 guaiacol fagopyrum esculentum//*//* 0.202 * +EC1.11.1.7 guaiacol fragaria vesca//eukaryotes;plants;eudicots;rose family//fve 18.18 * +EC1.11.1.7 guaiacol fragaria x ananassa//*//* 50.68 * +EC1.11.1.7 guaiacol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.5 * +EC1.11.1.7 guaiacol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 4.0 * +EC1.11.1.7 guaiacol pelargonium graveolens//*//* 1.96 * +EC1.11.1.7 guaiacol plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.7 * +EC1.11.1.7 guaiacol raphanus sativus//*//* 0.036 * +EC1.11.1.7 guaiacol solanum melongena//*//* 6.5 * +EC1.11.1.7 guaiacol triticum aestivum//*//* 3.8 * +EC1.11.1.7 h2o2 allium sativum//*//* 2.0 * +EC1.11.1.7 h2o2 anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0058 * +EC1.11.1.7 h2o2 armoracia rusticana//*//* 0.005 * +EC1.11.1.7 h2o2 armoracia sp.//*//* 0.11 * +EC1.11.1.7 h2o2 beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.113 * +EC1.11.1.7 h2o2 bjerkandera adusta//*//* 0.019 * +EC1.11.1.7 h2o2 brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.025 * +EC1.11.1.7 h2o2 brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.042 * +EC1.11.1.7 h2o2 camellia sinensis//*//* 0.19 * +EC1.11.1.7 h2o2 capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 1.32 * +EC1.11.1.7 h2o2 chromolaena odorata//*//* 0.016 * +EC1.11.1.7 h2o2 citrus jambhiri//*//* 0.54 * +EC1.11.1.7 h2o2 elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.0095 * +EC1.11.1.7 h2o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC1.11.1.7 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.11.1.7 h2o2 mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 30.0 * +EC1.11.1.7 h2o2 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.044 * +EC1.11.1.7 h2o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 23.3 * +EC1.11.1.7 h2o2 pelargonium graveolens//*//* 8.5 * +EC1.11.1.7 h2o2 pleurotus ostreatus//*//* 0.033 * +EC1.11.1.7 h2o2 prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.17 * +EC1.11.1.7 h2o2 pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.035 * +EC1.11.1.7 h2o2 raphanus sativus//*//* 0.0084 * +EC1.11.1.7 h2o2 sclerocarya birrea//*//* 1.77 * +EC1.11.1.7 h2o2 solanum melongena//*//* 0.33 * +EC1.11.1.7 h2o2 triticum aestivum//*//* 0.12 * +EC1.11.1.7 i- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.66 * +EC1.11.1.7 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.11.1.7 m-hydroxyanisol armoracia rusticana//*//* 3.5 * +EC1.11.1.7 malachite green pleurotus ostreatus//*//* 0.029 * +EC1.11.1.7 mn2+ pleurotus eryngii//*//* 0.189 * +EC1.11.1.7 n,n,n,n-tetramethyl-p-phenyldiamine armoracia rusticana//*//* 0.025 * +EC1.11.1.7 o-cresol brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 9.1 * +EC1.11.1.7 o-dianisidine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 2.134 * +EC1.11.1.7 o-dianisidine citrus jambhiri//*//* 11.0 * +EC1.11.1.7 o-dianisidine fagopyrum esculentum//*//* 0.137 * +EC1.11.1.7 o-dianisidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC1.11.1.7 o-dianisidine ipomoea carnea//*//* 0.5 * +EC1.11.1.7 o-dianisidine momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 1.3 * +EC1.11.1.7 o-dianisidine raphanus sativus//*//* 1.18 * +EC1.11.1.7 o-phenylenediamine armoracia rusticana//*//* 0.38 * +EC1.11.1.7 o-phenylenediamine chromolaena odorata//*//* 9.0 * +EC1.11.1.7 o-phenylenediamine citrus jambhiri//*//* 2.85 * +EC1.11.1.7 o-phenylenediamine ipomoea carnea//*//* 2.02 * +EC1.11.1.7 o-phenylenediamine triticum aestivum//*//* 2.9 * +EC1.11.1.7 o-toluidine armoracia rusticana//*//* 2.5 * +EC1.11.1.7 p-hydroxybenzoic acid armoracia rusticana//*//* 18.76 * +EC1.11.1.7 pentachlorophenol bjerkandera adusta//*//* 0.032 * +EC1.11.1.7 phenol red pleurotus ostreatus//*//* 0.017 * +EC1.11.1.7 phenol armoracia rusticana//*//* 3.59 * +EC1.11.1.7 phenol brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 1.12 * +EC1.11.1.7 promethazine armoracia sp.//*//* 0.11 * +EC1.11.1.7 pyrogallol chromolaena odorata//*//* 55.4 * +EC1.11.1.7 pyrogallol citrus jambhiri//*//* 2.0 * +EC1.11.1.7 pyrogallol elais guineensis//*//* 1.2 * +EC1.11.1.7 pyrogallol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.8 * +EC1.11.1.7 pyrogallol ipomoea carnea//*//* 0.29 * +EC1.11.1.7 pyrogallol triticum aestivum//*//* 2.5 * +EC1.11.1.7 quercetin fagopyrum esculentum//*//* 0.028 * +EC1.11.1.7 reactive black 5 pleurotus eryngii//*//* 0.0028 * +EC1.11.1.7 reactive blue 5 anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0036 * +EC1.11.1.7 reduced 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) chromolaena odorata//*//* 0.21 * +EC1.11.1.7 reduced 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) fagopyrum esculentum//*//* 0.016 * +EC1.11.1.7 reduced 2,2'-azino-bis-(3-ethylbenzthiazole-6-sulfonic acid) sclerocarya birrea//*//* 9.56 * +EC1.11.1.7 remazol brilliant blue r pleurotus ostreatus//*//* 0.011 * +EC1.11.1.7 rubredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.07 * +EC1.11.1.7 scn- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC1.11.1.7 scn- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.43 * +EC1.11.1.7 sinapinic acid pleurotus ostreatus//*//* 0.021 * +EC1.11.1.7 syringic acid pleurotus ostreatus//*//* 0.028 * +EC1.11.1.7 tert-butyl hydroperoxide mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 22.0 * +EC1.11.1.7 thioredoxin 1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC1.11.1.7 vanillic acid pleurotus ostreatus//*//* 0.054 * +EC1.11.1.7 veratryl alcohol pleurotus eryngii//*//* 2.75 * +EC1.11.1.8 3,3',5,5'-tetramethylbenzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.166 * +EC1.11.1.8 3,3'-dimethoxybenzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC1.11.1.8 3,3'-dimethylbenzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.177 * +EC1.11.1.8 benzidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC1.11.1.8 br- ascophyllum nodosum//*//* 22.0 * +EC1.11.1.8 h2o2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.034 * +EC1.11.1.8 i- ascophyllum nodosum//*//* 0.18 * +EC1.11.1.8 i- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC1.11.1.8 i- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC1.11.1.9 cholesterol 5alpha-hydroperoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.11.1.9 cholesterol 7alpha-hydroperoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.11.1.9 cholesterol 7beta-hydroperoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.11.1.9 cumene hydroperoxide aloe vera//*//* 0.26 * +EC1.11.1.9 cumene hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.11.1.9 cumene hydroperoxide lateolabrax japonicus//*//* 0.111 * +EC1.11.1.9 cumene hydroperoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.144 * +EC1.11.1.9 cumene hydroperoxide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.8 * +EC1.11.1.9 cumene peroxide lucilia cuprina//*//* 0.42 * +EC1.11.1.9 cumene peroxide thunnus maccoyii//*//* 0.09 * +EC1.11.1.9 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33 * +EC1.11.1.9 gsh aloe vera//*//* 3.2 * +EC1.11.1.9 gsh brugia pahangi//*//* 4.9 * +EC1.11.1.9 gsh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.11.1.9 gsh lateolabrax japonicus//*//* 0.316 * +EC1.11.1.9 gsh lucilia cuprina//*//* 0.15 * +EC1.11.1.9 gsh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC1.11.1.9 gsh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC1.11.1.9 gsh thunnus maccoyii//*//* 5.9 * +EC1.11.1.9 h2o2 haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.00229 * +EC1.11.1.9 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC1.11.1.9 h2o2 lateolabrax japonicus//*//* 0.003 * +EC1.11.1.9 h2o2 lucilia cuprina//*//* 0.26 * +EC1.11.1.9 h2o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.208 * +EC1.11.1.9 h2o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.3 * +EC1.11.1.9 h2o2 thunnus maccoyii//*//* 0.012 * +EC1.11.1.9 l-alpha-phosphatidylcholine hydroperoxide brugia pahangi//*//* 9.7 * +EC1.11.1.9 l-alpha-phosphatidylcholine hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC1.11.1.9 linolenic acid hydroperoxide brugia pahangi//*//* 3.8 * +EC1.11.1.9 linolenic acid hydroperoxide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.007 * +EC1.11.1.9 tert-butyl hydroperoxide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.2088 * +EC1.11.1.9 tert-butyl hydroperoxide lateolabrax japonicus//*//* 0.059 * +EC1.11.1.9 tert-butyl hydroperoxide lucilia cuprina//*//* 0.91 * +EC1.11.1.9 tert-butyl hydroperoxide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.9 * +EC1.11.1.9 tert-butyl hydroperoxide thunnus maccoyii//*//* 0.09 * +EC1.11.1.9 tert-butylhydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC1.11.1.B2 br- burkholderia pyrrocinia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bpyr 30.0 * +EC1.11.1.B2 br- streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 11.0 * +EC1.11.1.B2 cl- curvularia inaequalis//*//* 0.9 * +EC1.11.1.B2 h2o2 burkholderia pyrrocinia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bpyr 4.7 * +EC1.11.1.B2 h2o2 curvularia inaequalis//*//* 0.04 * +EC1.11.1.B2 h2o2 streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 2.1 * +EC1.11.1.B6 h2o2 laminaria hyperborea//*//* 0.166 * +EC1.11.1.B6 h2o2 laminaria ochroleuca//*//* 0.12 * +EC1.11.1.B6 h2o2 pelvetia canaliculata//*//* 0.11 * +EC1.11.1.B6 i- laminaria digitata//*//* 2.5 * +EC1.11.1.B6 i- laminaria hyperborea//*//* 1.9 * +EC1.11.1.B6 i- laminaria ochroleuca//*//* 1.3 * +EC1.11.1.B6 i- pelvetia canaliculata//*//* 2.1 * +EC1.11.1.B8 br- pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.4 * +EC1.11.1.B8 h2o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.3 * +EC1.11.2.1 1,2-dimethoxy-4-(methoxymethyl)benzene agrocybe aegerita//*//* 1.43 * +EC1.11.2.1 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) agrocybe aegerita//*//* 0.037 * +EC1.11.2.1 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) marasmius rotula//*//* 0.071 * +EC1.11.2.1 2,2'-azinobis-(3-ethylbenzothiazoline-6-sulfonate) agrocybe aegerita//*//* 0.037 * +EC1.11.2.1 2,2'-azinobis-(3-ethylbenzothiazoline-6-sulfonate) coprinellus radians//*//* 0.049 * +EC1.11.2.1 2,6-dimethoxyphenol agrocybe aegerita//*//* 0.298 * +EC1.11.2.1 2,6-dimethoxyphenol coprinellus radians//*//* 0.342 * +EC1.11.2.1 2,6-dimethoxyphenol marasmius rotula//*//* 0.133 * +EC1.11.2.1 2-methyl-2-butene agrocybe aegerita//*//* 4.976 * +EC1.11.2.1 benzene agrocybe aegerita//*//* 3.6 * +EC1.11.2.1 benzyl alcohol agrocybe aegerita//*//* 1.001 * +EC1.11.2.1 benzyl alcohol coprinellus radians//*//* 0.635 * +EC1.11.2.1 benzyl alcohol marasmius rotula//*//* 0.118 * +EC1.11.2.1 cyclohexane agrocybe aegerita//*//* 18.4 * +EC1.11.2.1 ethylbenzene agrocybe aegerita//*//* 694.0 * +EC1.11.2.1 h2o2 agrocybe aegerita//*//* 1.313 * +EC1.11.2.1 h2o2 coprinellus radians//*//* 1.201 * +EC1.11.2.1 h2o2 marasmius rotula//*//* 3.14 * +EC1.11.2.1 h2o2 sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 23.2 * +EC1.11.2.1 methyl 3,4-dimethoxybenzyl ether agrocybe aegerita//*//* 1.43 * +EC1.11.2.1 naphthalene agrocybe aegerita//*//* 0.32 * +EC1.11.2.1 naphthalene coprinellus radians//*//* 0.584 * +EC1.11.2.1 naphthalene marasmius rotula//*//* 0.791 * +EC1.11.2.1 propylbenzene agrocybe aegerita//*//* 480.0 * +EC1.11.2.1 pyridine agrocybe aegerita//*//* 0.069 * +EC1.11.2.1 tetrahydrofuran agrocybe aegerita//*//* 2.1 * +EC1.11.2.1 veratryl alcohol agrocybe aegerita//*//* 2.367 * +EC1.11.2.1 veratryl alcohol coprinellus radians//*//* 0.088 * +EC1.11.2.1 veratryl alcohol marasmius rotula//*//* 0.279 * +EC1.11.2.2 1-acetyl-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.11.2.2 1-chloro-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC1.11.2.2 1-methoxy-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.11.2.2 1-methyl-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.11.2.2 1-nitro-4-(methylsulfanyl)benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC1.11.2.2 3,4-dihydroxyphenylacetic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.52 * +EC1.11.2.2 3,4-dihydroxyphenylacetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.9 * +EC1.11.2.2 4-(methylsulfanyl)aniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC1.11.2.2 benzothiophene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.072 * +EC1.11.2.2 benzyl methyl sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.11.2.2 br- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.11.2.2 catechol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.84 * +EC1.11.2.2 catechol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.1 * +EC1.11.2.2 chloroacetonitrile homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.089 * +EC1.11.2.2 cl- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 175.0 * +EC1.11.2.2 dopamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 136.3 * +EC1.11.2.2 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.64 * +EC1.11.2.2 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.11.2.2 phenyl propan-2-yl sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC1.11.2.2 scn- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.29 * +EC1.11.2.2 scn- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.11.2.2 thioanisole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.11.2.2 thiocyanate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.11.2.3 4-chloroaniline pisum sativum//*//* 0.12 * +EC1.11.2.3 h2o2 pisum sativum//*//* 1.3 * +EC1.11.2.3 indole pisum sativum//*//* 0.07 * +EC1.11.2.3 linoleic acid hydroperoxide pisum sativum//*//* 0.26 * +EC1.11.2.3 linoleic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.078 * +EC1.11.2.3 oleic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.071 * +EC1.11.2.3 phenylsulfide pisum sativum//*//* 0.031 * +EC1.11.2.3 thioanisole pisum sativum//*//* 0.123 * +EC1.11.2.3 trans-10,cis-12-linoleic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.815 * +EC1.11.2.4 3,5,3',5'-tetramethylbenzidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.026 * +EC1.11.2.4 cumene hydroperoxide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.2 * +EC1.11.2.4 h2o2 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.021 * +EC1.11.2.4 myristic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.026 * +EC1.11.2.4 myristic acid sphingomonas paucimobilis//*//* 0.041 * +EC1.11.2.5 3-methyl-l-tyrosine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.63 * +EC1.11.2.5 l-tyrosine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 1.0 * +EC1.12.1.2 2,6-dichlorophenolindophenol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.44 * +EC1.12.1.2 benzyl viologen cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.1 * +EC1.12.1.2 fad rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.38 * +EC1.12.1.2 ferricyanide cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.45 * +EC1.12.1.2 ferricyanide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 4.0 * +EC1.12.1.2 h2 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.037 * +EC1.12.1.2 h2 hydrogenomonas sp.//*//* 0.19 * +EC1.12.1.2 h2 rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.063 * +EC1.12.1.2 methyl viologen cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 5.9 * +EC1.12.1.2 methyl viologen rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.05 * +EC1.12.1.2 methylene blue cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.25 * +EC1.12.1.2 methylene blue rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.44 * +EC1.12.1.2 nad+ caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.09 * +EC1.12.1.2 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.123 * +EC1.12.1.2 nad+ gloeocapsa alpicola//*//* 0.0035 * +EC1.12.1.2 nad+ hydrogenomonas sp.//*//* 0.13 * +EC1.12.1.2 nad+ rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.123 * +EC1.12.1.2 nadh caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.017 * +EC1.12.1.2 nadh cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.013 * +EC1.12.1.2 nadh gloeocapsa alpicola//*//* 0.0023 * +EC1.12.1.2 nadph gloeocapsa alpicola//*//* 0.0007 * +EC1.12.1.2 oxidized benzyl viologen gloeocapsa alpicola//*//* 0.0578 * +EC1.12.1.2 oxidized methyl viologen gloeocapsa alpicola//*//* 0.0375 * +EC1.12.1.2 reduced ferredoxin thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00025 * +EC1.12.1.2 reduced methyl viologen gloeocapsa alpicola//*//* 0.0306 * +EC1.12.1.2 reduced methyl viologen synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.089 * +EC1.12.1.2 resazurin cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.028 * +EC1.12.1.3 ferredoxin tetradesmus obliquus//*//* 0.07951 * +EC1.12.1.3 h2 pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.018 * +EC1.12.1.3 h2 tetradesmus obliquus//*//* 0.012 * +EC1.12.1.3 nadp+ desulfovibrio fructosivorans//*//* 0.09 * +EC1.12.1.3 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.037 * +EC1.12.1.4 nad+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.2 * +EC1.12.2.1 [fe] hydrogenase-cytochrome c3 complex desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.032 * +EC1.12.2.1 [fe] hydrogenase-cytochrome c3-cytochrome hmc complex desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.006 * +EC1.12.2.1 [fe] hydrogenase-cytochrome hmc complex desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.04 * +EC1.12.2.1 cytochrome c desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.025 * +EC1.12.2.1 cytochrome c3 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0126 * +EC1.12.2.1 ferricytochrome c desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.0026 * +EC1.12.2.1 ferricytochrome c3 desulfomicrobium norvegicum//*//* 0.0368 * +EC1.12.2.1 ferrocytochrome c3 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.002 * +EC1.12.2.1 methyl viologen bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.0052 * +EC1.12.2.1 reduced benzyl viologen desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.08 * +EC1.12.2.1 reduced methyl viologen desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.003 * +EC1.12.7.2 benzyl viologen megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 5.0 * +EC1.12.7.2 ferredoxin chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.01 * +EC1.12.7.2 ferredoxin chlorococcum littorale//*//* 0.00068 * +EC1.12.7.2 ferredoxin clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.05 * +EC1.12.7.2 ferredoxin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.001 * +EC1.12.7.2 h2 clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 3.3e-05 * +EC1.12.7.2 h2 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.005 * +EC1.12.7.2 h2 sporomusa sphaeroides//*//* 0.341 * +EC1.12.7.2 methyl viologen chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.83 * +EC1.12.7.2 methyl viologen chlorococcum littorale//*//* 0.5 * +EC1.12.7.2 methyl viologen clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.31 * +EC1.12.7.2 methyl viologen megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 171.0 * +EC1.12.7.2 methyl viologen pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.0 * +EC1.12.7.2 methyl viologen tetradesmus obliquus//*//* 0.8 * +EC1.12.7.2 methylene blue clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.18 * +EC1.12.7.2 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.125 * +EC1.12.7.2 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.07 * +EC1.12.7.2 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.017 * +EC1.12.7.2 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.07 * +EC1.12.7.2 oxidized ferredoxin caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.015 * +EC1.12.7.2 reduced ferredoxin caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.003 * +EC1.12.7.2 reduced ferredoxin clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.051 * +EC1.12.7.2 reduced ferredoxin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.72 * +EC1.12.7.2 reduced ferredoxin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0075 * +EC1.12.7.2 reduced methyl viologen clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 6.25 * +EC1.12.7.2 reduced methyl viologen enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.57 * +EC1.12.7.2 reduced methyl viologen pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.25 * +EC1.12.7.2 sulfur pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.2 * +EC1.12.98.1 coenzyme f0 methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.08 * +EC1.12.98.1 coenzyme f0 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.026 * +EC1.12.98.1 coenzyme f420 methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.037 * +EC1.12.98.1 coenzyme f420 methanococcus voltae//prokaryotes;archaea;euryarchaeota;methanococcus//mvo 0.016 * +EC1.12.98.1 coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.019 * +EC1.12.98.1 fad methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.087 * +EC1.12.98.1 h2 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.003 * +EC1.12.98.1 h2 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.002 * +EC1.12.98.1 methyl viologen methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 1.56 * +EC1.12.98.1 methyl viologen methanococcus voltae//prokaryotes;archaea;euryarchaeota;methanococcus//mvo 1.2 * +EC1.12.98.1 methyl viologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.42 * +EC1.12.98.1 oxidized coenzyme f420 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.025 * +EC1.12.98.1 oxidized methyl viologen methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0033 * +EC1.12.98.1 reduced coenzyme f0 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC1.12.98.2 5,10-methenyltetrahydromethanopterin methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.05 * +EC1.12.98.2 5,10-methenyltetrahydromethanopterin methanothermobacter wolfeii//prokaryotes;archaea;euryarchaeota;methanothermobacter//mwo 0.07 * +EC1.12.98.2 5,10-methylenetetrahydromethanopterin methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.04 * +EC1.12.98.2 5,10-methylenetetrahydromethanopterin methanothermobacter wolfeii//prokaryotes;archaea;euryarchaeota;methanothermobacter//mwo 0.02 * +EC1.12.98.2 h+ methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.002 * +EC1.12.98.2 h2 methanothermococcus thermolithotrophicus//*//* 0.15 * +EC1.12.98.2 n5,n10-methenyltetrahydromethanopterin methanothermococcus thermolithotrophicus//*//* 0.85 * +EC1.12.98.2 n5,n10-methylenetetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.05 * +EC1.12.98.2 n5,n10-methylenetetrahydromethanopterin methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.02 * +EC1.12.98.2 n5,n10-methylenetetrahydromethanopterin methanothermococcus thermolithotrophicus//*//* 0.06 * +EC1.12.98.4 methyl viologen pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.0 * +EC1.12.98.4 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.0 * +EC1.12.98.4 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.04 * +EC1.12.98.4 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.2 * +EC1.12.98.4 polysulfide thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.15 * +EC1.12.99.6 benzyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC1.12.99.6 benzyl viologen hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 1.78 * +EC1.12.99.6 cr6+ desulfomicrobium norvegicum//*//* 0.021 * +EC1.12.99.6 cr6+ desulfovibrio fructosivorans//*//* 0.016 * +EC1.12.99.6 cr6+ desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.016 * +EC1.12.99.6 h2 anabaena variabilis//*//* 0.0113 * +EC1.12.99.6 h2 azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.001 * +EC1.12.99.6 h2 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0004 * +EC1.12.99.6 h2 desulfovibrio multispirans//*//* 0.41 * +EC1.12.99.6 h2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.12.99.6 h2 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.005 * +EC1.12.99.6 h2 pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.08 * +EC1.12.99.6 h2 streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.7e-05 * +EC1.12.99.6 methionaquinone hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 300.0 * +EC1.12.99.6 methyl viologen anabaena variabilis//*//* 0.055 * +EC1.12.99.6 methyl viologen hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 12.5 * +EC1.12.99.6 methylene blue azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.017 * +EC1.12.99.6 methylene blue hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 0.025 * +EC1.12.99.6 methylenetetrahydromethanopterin methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.01 * +EC1.12.99.6 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.128 * +EC1.12.99.6 oxidized ferredoxin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.001 * +EC1.12.99.6 reduced ferredoxin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0075 * +EC1.13.11.1 2,3-dihydroxybenzoic acid rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.7 * +EC1.13.11.1 3-chlorocatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.002 * +EC1.13.11.1 3-chlorocatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0007 * +EC1.13.11.1 3-ethylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0044 * +EC1.13.11.1 3-methylcatechol acinetobacter radioresistens//*//* 0.00225 * +EC1.13.11.1 3-methylcatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.009 * +EC1.13.11.1 3-methylcatechol geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.286 * +EC1.13.11.1 3-methylcatechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0032 * +EC1.13.11.1 3-methylcatechol pseudomonas reinekei//*//* 0.001 * +EC1.13.11.1 3-methylcatechol ralstonia sp.//*//* 0.0037 * +EC1.13.11.1 3-methylcatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0065 * +EC1.13.11.1 3-methylcatechol rhodococcus rhodochrous//*//* 0.0017 * +EC1.13.11.1 3-methylthiocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0005 * +EC1.13.11.1 4,5-difluorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.13.11.1 4-bromocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.3 * +EC1.13.11.1 4-chlorocatechol acinetobacter radioresistens//*//* 0.00198 * +EC1.13.11.1 4-chlorocatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0005 * +EC1.13.11.1 4-chlorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.13.11.1 4-chlorocatechol pseudomonas reinekei//*//* 0.001 * +EC1.13.11.1 4-chlorocatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0015 * +EC1.13.11.1 4-fluorocatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0007 * +EC1.13.11.1 4-fluorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.13.11.1 4-methylcatechol acinetobacter radioresistens//*//* 0.053 * +EC1.13.11.1 4-methylcatechol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0215 * +EC1.13.11.1 4-methylcatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.018 * +EC1.13.11.1 4-methylcatechol cutaneotrichosporon cutaneum//*//* 0.0068 * +EC1.13.11.1 4-methylcatechol geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.4 * +EC1.13.11.1 4-methylcatechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.013 * +EC1.13.11.1 4-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.09 * +EC1.13.11.1 4-methylcatechol pseudomonas reinekei//*//* 0.0017 * +EC1.13.11.1 4-methylcatechol ralstonia sp.//*//* 0.014 * +EC1.13.11.1 4-methylcatechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.004 * +EC1.13.11.1 4-methylcatechol rhodococcus rhodochrous//*//* 0.0012 * +EC1.13.11.1 catechol acinetobacter radioresistens//*//* 0.001 * +EC1.13.11.1 catechol aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.052 * +EC1.13.11.1 catechol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0093 * +EC1.13.11.1 catechol corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.00424 * +EC1.13.11.1 catechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.00025 * +EC1.13.11.1 catechol cutaneotrichosporon cutaneum//*//* 0.009 * +EC1.13.11.1 catechol geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.029 * +EC1.13.11.1 catechol nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.0015 * +EC1.13.11.1 catechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0059 * +EC1.13.11.1 catechol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0005 * +EC1.13.11.1 catechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0019 * +EC1.13.11.1 catechol pseudomonas reinekei//*//* 0.0008 * +EC1.13.11.1 catechol ralstonia sp.//*//* 0.013 * +EC1.13.11.1 catechol rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.0022 * +EC1.13.11.1 catechol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.003 * +EC1.13.11.1 catechol rhodococcus rhodochrous//*//* 0.0011 * +EC1.13.11.1 catechol sphingobium xenophagum//*//* 0.05285 * +EC1.13.11.1 catechol stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0128 * +EC1.13.11.1 hydroxyquinol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.097 * +EC1.13.11.1 oxygen cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.1 * +EC1.13.11.1 oxygen pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.06 * +EC1.13.11.1 protocatechuate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.31 * +EC1.13.11.1 pyrogallol rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0045 * +EC1.13.11.1 tetrachlorocatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0005 * +EC1.13.11.11 5-fluoro-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.1 * +EC1.13.11.11 5-fluoro-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC1.13.11.11 5-hydroxy-d-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.6 * +EC1.13.11.11 5-hydroxy-l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC1.13.11.11 5-methyl-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.357 * +EC1.13.11.11 6-fluoro-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.186 * +EC1.13.11.11 6-methyl-dl-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.975 * +EC1.13.11.11 d-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC1.13.11.11 d-trp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.3 * +EC1.13.11.11 d-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC1.13.11.11 d-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.13.11.11 d-tryptophan micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 0.44 * +EC1.13.11.11 d-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 16.0 * +EC1.13.11.11 indole micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 30.27 * +EC1.13.11.11 l-trp delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.3 * +EC1.13.11.11 l-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0246 * +EC1.13.11.11 l-trp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC1.13.11.11 l-trp pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.3 * +EC1.13.11.11 l-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC1.13.11.11 l-trp streptomyces parvulus//prokaryotes;bacteria;actinobacteria;streptomyces//spav 0.3 * +EC1.13.11.11 l-trp xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.114 * +EC1.13.11.11 l-tryptophan anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.6 * +EC1.13.11.11 l-tryptophan danio rerio//eukaryotes;animals;vertebrates;fishes//dre 28.2 * +EC1.13.11.11 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0825 * +EC1.13.11.11 l-tryptophan micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 0.65 * +EC1.13.11.11 l-tryptophan monodelphis domestica//eukaryotes;animals;vertebrates;mammals//mdo 0.0063 * +EC1.13.11.11 l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0191 * +EC1.13.11.11 l-tryptophan ornithorhynchus anatinus//eukaryotes;animals;vertebrates;mammals//oaa 0.0537 * +EC1.13.11.11 l-tryptophan xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.114 * +EC1.13.11.11 l-tryptophan xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 11.7 * +EC1.13.11.11 o2 brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.044 * +EC1.13.11.11 o2 delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.038 * +EC1.13.11.11 o2 meriones unguiculatus//*//* 2.8 * +EC1.13.11.11 o2 pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.06 * +EC1.13.11.11 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC1.13.11.11 o2 xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.119 * +EC1.13.11.11 serotonin micromonospora sp.//prokaryotes;bacteria;actinobacteria;micromonospora//mil 2.56 * +EC1.13.11.11 serotonin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC1.13.11.11 tryptamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.075 * +EC1.13.11.12 (5z,8z,11z,14z)-eicosatetra-5,8,11,14-enoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.00337 * +EC1.13.11.12 (6z,9z,12z)-octadeca-6,9,12-trienoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.0348 * +EC1.13.11.12 (9z,12z)-octadeca-9,12-dienoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.00689 * +EC1.13.11.12 (9z,12z,15z)-9,12,15-octadecatrienoic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.0316 * +EC1.13.11.12 alpha-linolenate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.032 * +EC1.13.11.12 alpha-linolenate olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.028 * +EC1.13.11.12 linoleate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.021 * +EC1.13.11.12 linoleate olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.0146 * +EC1.13.11.12 linoleic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0117 * +EC1.13.11.12 linoleic acid olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.01459 * +EC1.13.11.12 linolenic acid olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.028 * +EC1.13.11.12 n-linolenoylethanolamide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.015 * +EC1.13.11.12 n-linoleoylethanolamide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.027 * +EC1.13.11.14 2,3-dihydroxy-p-toluate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.003 * +EC1.13.11.14 2,3-dihydroxybenzoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0054 * +EC1.13.11.14 2,3-dihydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.023 * +EC1.13.11.15 3,4-dihydroxybenzoic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.45 * +EC1.13.11.15 3,4-dihydroxybenzoic acid klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.074 * +EC1.13.11.15 3,4-dihydroxymandelate arthrobacter synephrinum//*//* 0.5 * +EC1.13.11.15 3,4-dihydroxyphenylacetate arthrobacter globiformis//*//* 0.014 * +EC1.13.11.15 3,4-dihydroxyphenylacetate arthrobacter synephrinum//*//* 0.025 * +EC1.13.11.15 3,4-dihydroxyphenylacetate brevibacterium fuscum//*//* 0.015 * +EC1.13.11.15 3,4-dihydroxyphenylacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC1.13.11.15 3,4-dihydroxyphenylacetate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0034 * +EC1.13.11.15 3,4-dihydroxyphenylacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.025 * +EC1.13.11.15 3,4-dihydroxyphenylpropionic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0037 * +EC1.13.11.15 4-nitrocatechol brevibacterium fuscum//*//* 0.015 * +EC1.13.11.15 dl-3,4-dihydroxymandelic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.035 * +EC1.13.11.15 o2 arthrobacter globiformis//*//* 0.037 * +EC1.13.11.15 o2 brevibacterium fuscum//*//* 0.05 * +EC1.13.11.16 2,3-dihydroxycinnamic acid cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.014 * +EC1.13.11.16 2,3-dihydroxycinnamic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC1.13.11.16 2,3-dihydroxyphenoxyacetic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.13.11.16 3-(2,3-dihydroxyphenyl)propionate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0071 * +EC1.13.11.16 3-(2,3-dihydroxyphenyl)propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.026 * +EC1.13.11.16 3-ethylcatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.059 * +EC1.13.11.16 3-ethylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.185 * +EC1.13.11.16 3-methylcatechol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.13 * +EC1.13.11.16 3-methylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC1.13.11.16 3-phenethylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC1.13.11.16 3-propylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.154 * +EC1.13.11.16 catechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.72 * +EC1.13.11.16 methyl-2,3-dihydroxyphenylpropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.037 * +EC1.13.11.17 indole tecoma stans//*//* 0.0189 * +EC1.13.11.17 indole zea mays//eukaryotes;plants;monocots;grass family//zma 0.14 * +EC1.13.11.18 glutathione thiobacillus thioparus//*//* 6.3 * +EC1.13.11.18 sulfur acidianus brierleyi//*//* 50.0 * +EC1.13.11.19 3-mercaptopropionic acid equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 5.0 * +EC1.13.11.19 cysteamine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.57 * +EC1.13.11.19 cysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC1.13.11.19 homocysteamine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.83 * +EC1.13.11.19 mercaptoethanol equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.2 * +EC1.13.11.19 n-acetylcysteamine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.71 * +EC1.13.11.19 o2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.13.11.2 3,5-dichlorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00187 * +EC1.13.11.2 3,5-dimethylcatechol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0215 * +EC1.13.11.2 3-methoxycatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00204 * +EC1.13.11.2 3-methylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0024 * +EC1.13.11.2 3-methylcatechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC1.13.11.2 3-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00164 * +EC1.13.11.2 3-methylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.001 * +EC1.13.11.2 3-methylcatechol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0038 * +EC1.13.11.2 3-methylcatechol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0017 * +EC1.13.11.2 4-chlorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00102 * +EC1.13.11.2 4-chlorocatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0009 * +EC1.13.11.2 4-fluorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0625 * +EC1.13.11.2 4-methylcatechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC1.13.11.2 4-methylcatechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.008 * +EC1.13.11.2 4-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00129 * +EC1.13.11.2 4-methylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0019 * +EC1.13.11.2 4-methylcatechol stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0025 * +EC1.13.11.2 4-methylcatechol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.003 * +EC1.13.11.2 4-n-butylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0065 * +EC1.13.11.2 catechol acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.00147 * +EC1.13.11.2 catechol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.13.11.2 catechol planococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;planococcus//pln 0.09 * +EC1.13.11.2 catechol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.002 * +EC1.13.11.2 catechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0014 * +EC1.13.11.2 catechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0011 * +EC1.13.11.2 catechol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.001 * +EC1.13.11.2 catechol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.0038 * +EC1.13.11.2 catechol sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0016 * +EC1.13.11.2 o2 pseudomonas putida mt-2//*//* 0.007 * +EC1.13.11.2 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.009 * +EC1.13.11.2 phenol planococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;planococcus//pln 0.0427 * +EC1.13.11.2 protocatechualdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0228 * +EC1.13.11.20 beta-mercaptoethanol histoplasma capsulatum//eukaryotes;fungi;ascomycetes;eurotiomycetes//aje 16.6 * +EC1.13.11.20 cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.0 * +EC1.13.11.20 cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC1.13.11.20 l-cysteine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 5.7 * +EC1.13.11.20 l-cysteine histoplasma capsulatum//eukaryotes;fungi;ascomycetes;eurotiomycetes//aje 0.02 * +EC1.13.11.20 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC1.13.11.20 l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.1 * +EC1.13.11.20 l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC1.13.11.20 l-cysteine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.2 * +EC1.13.11.24 fisetin penicillium olsonii//*//* 0.085 * +EC1.13.11.24 galangin penicillium olsonii//*//* 0.02 * +EC1.13.11.24 kaempferol penicillium olsonii//*//* 0.013 * +EC1.13.11.24 oxygen aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.12 * +EC1.13.11.24 oxygen bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.079 * +EC1.13.11.24 quercetin aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.0052 * +EC1.13.11.24 quercetin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0066 * +EC1.13.11.24 quercetin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0008 * +EC1.13.11.24 quercetin penicillium olsonii//*//* 0.019 * +EC1.13.11.24 quercetin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0141 * +EC1.13.11.26 l-tryptophan triticum aestivum//*//* 0.8 * +EC1.13.11.26 n-acetyltryptophan triticum aestivum//*//* 0.2 * +EC1.13.11.27 (4-hydroxyphenyl)-pyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.027 * +EC1.13.11.27 2-thienylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.5 * +EC1.13.11.27 3,4-dihydroxyphenylpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.13.11.27 3-thienylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC1.13.11.27 4-hydroxyphenylpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0069 * +EC1.13.11.27 4-hydroxyphenylpyruvate canis lupus familiaris//*//* 0.04 * +EC1.13.11.27 4-hydroxyphenylpyruvate coptis japonica var. dissecta//*//* 0.0432 * +EC1.13.11.27 4-hydroxyphenylpyruvate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.075 * +EC1.13.11.27 4-hydroxyphenylpyruvate echinochloa crus-galli//*//* 0.0043 * +EC1.13.11.27 4-hydroxyphenylpyruvate frog//*//* 0.5 * +EC1.13.11.27 4-hydroxyphenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.13.11.27 4-hydroxyphenylpyruvate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.142 * +EC1.13.11.27 4-hydroxyphenylpyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC1.13.11.27 4-hydroxyphenylpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.13.11.27 4-hydroxyphenylpyruvate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 11.0 * +EC1.13.11.27 4-hydroxyphenylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.13.11.27 4-hydroxytetrafluorophenylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC1.13.11.27 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.13.11.27 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.13.11.27 o2 streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.069 * +EC1.13.11.27 oxygen arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.115 * +EC1.13.11.27 phenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.13.11.27 phenylpyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.5 * +EC1.13.11.27 phenylpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC1.13.11.27 phenylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.066 * +EC1.13.11.28 2,3-dihydroxybenzoate tecoma stans//*//* 65.0 * +EC1.13.11.29 3,4-dihydroxyphenylalanine stizolobium hassjoo//*//* 1.39 * +EC1.13.11.29 nadp+ stizolobium hassjoo//*//* 0.00022 * +EC1.13.11.3 3,4-dihydroxybenzoate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.078 * +EC1.13.11.3 3,4-dihydroxybenzoate geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.007 * +EC1.13.11.3 3,4-dihydroxybenzoate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.017 * +EC1.13.11.3 3,4-dihydroxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC1.13.11.3 4-cresol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.3 4-methylcatechol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.3 4-sulfocatechol agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.058 * +EC1.13.11.3 4-sulfocatechol hydrogenophaga palleronii//*//* 0.042 * +EC1.13.11.3 caffeic acid pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.3 catechin pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.3 catechol geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.033 * +EC1.13.11.3 catechol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.3 feso4 tecoma stans//*//* 0.04 * +EC1.13.11.3 gallate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.002 * +EC1.13.11.3 l-dopa pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.3 o2 acinetobacter calcoaceticus//*//* 0.0588 * +EC1.13.11.3 o2 azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.0275 * +EC1.13.11.3 o2 brevibacterium fuscum//*//* 0.8 * +EC1.13.11.3 o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.043 * +EC1.13.11.3 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC1.13.11.3 protocatechuate acinetobacter calcoaceticus//*//* 0.0714 * +EC1.13.11.3 protocatechuate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.054 * +EC1.13.11.3 protocatechuate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.018 * +EC1.13.11.3 protocatechuate brevibacterium fuscum//*//* 0.125 * +EC1.13.11.3 protocatechuate hydrogenophaga palleronii//*//* 0.058 * +EC1.13.11.3 protocatechuate nocardia erythropolis//*//* 0.1 * +EC1.13.11.3 protocatechuate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.03 * +EC1.13.11.3 protocatechuate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.002 * +EC1.13.11.3 protocatechuate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.0175 * +EC1.13.11.3 protocatechuate tecoma stans//*//* 0.33 * +EC1.13.11.3 pyrogallol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.014 * +EC1.13.11.30 3,4-dihydroxyphenylalanine stizolobium hassjoo//*//* 1.67 * +EC1.13.11.30 nadp+ stizolobium hassjoo//*//* 0.00026 * +EC1.13.11.31 (z,z,z,e)-5,8,11,13-eicosatetraenoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0039 * +EC1.13.11.31 1-linoleoyl lysophosphatidic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0355 * +EC1.13.11.31 1-linoleoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0151 * +EC1.13.11.31 5(s)-hydroxy-6e,8z,11z,14z-eicosatetraenoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0045 * +EC1.13.11.31 5,8,11,14,17-eicosapentaenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.13.11.31 5,8,11,14,17-eicosapentaenoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.13.11.31 8,11,14-eicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC1.13.11.31 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.13.11.31 arachidonic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0082 * +EC1.13.11.31 arachidonic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.13.11.31 arachidonic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0066 * +EC1.13.11.31 linoleic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0169 * +EC1.13.11.31 linoleic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC1.13.11.31 methyl arachidonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC1.13.11.31 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC1.13.11.31 o2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0052 * +EC1.13.11.33 (16(r),5z,8z,11z,14z)-16-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0289 * +EC1.13.11.33 (16(s),5z,8z,11z,14z)-16-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0236 * +EC1.13.11.33 (17(r),5z,8z,11z,14z)-17-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.293 * +EC1.13.11.33 (17(s),5z,8z,11z,14z)-17-hydroxyeicosa-5,8,11,14-tetraenoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.236 * +EC1.13.11.33 1-linoleoyl lysophosphatidic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0083 * +EC1.13.11.33 1-linoleoyl lysophosphatidylcholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0175 * +EC1.13.11.33 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.13.11.33 arachidonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0022 * +EC1.13.11.33 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0106 * +EC1.13.11.33 arachidonic acid oncorhynchus mykiss//*//* 0.025 * +EC1.13.11.33 arachidonic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00301 * +EC1.13.11.33 arachidonic acid pseudoplexaura porosa//*//* 0.0038 * +EC1.13.11.33 dilinoleoyl phosphatidic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.09 * +EC1.13.11.33 dilinoleoyl phosphatidylcholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0717 * +EC1.13.11.33 linoleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.13.11.33 linoleic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0121 * +EC1.13.11.33 lipoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.13.11.33 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC1.13.11.33 o2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0052 * +EC1.13.11.34 1-linoleoyl lysophosphatidic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.002 * +EC1.13.11.34 1-linoleoyl lysophosphatidylcholine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.003 * +EC1.13.11.34 5,8,11,14,17-eicosapentaenoic acid cavia porcellus//*//* 0.013 * +EC1.13.11.34 5,8,11,14,17-eicosapentaenoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC1.13.11.34 5,8,11-eicosatrienoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC1.13.11.34 8,11,14-eicosatrienoic acid cavia porcellus//*//* 0.09 * +EC1.13.11.34 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC1.13.11.34 arachidonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC1.13.11.34 arachidonic acid cavia porcellus//*//* 0.019 * +EC1.13.11.34 arachidonic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.015 * +EC1.13.11.34 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.13.11.34 arachidonic acid hordeum vulgare//*//* 0.022 * +EC1.13.11.34 arachidonic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC1.13.11.34 arachidonic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.03 * +EC1.13.11.34 bishomo-gamma-linolenic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.05 * +EC1.13.11.34 linoleic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.039 * +EC1.13.11.34 linoleic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.004 * +EC1.13.11.36 3-methylpyrocatechol phenylobacterium immobile//*//* 0.017 * +EC1.13.11.36 4-methylpyrocatechol phenylobacterium immobile//*//* 0.16 * +EC1.13.11.36 5-amino-4-chloro-2-(2,3-dihydroxyphenyl)-3(2h)-pyridazinone phenylobacterium immobile//*//* 0.2 * +EC1.13.11.36 pyrocatechol phenylobacterium immobile//*//* 0.66 * +EC1.13.11.37 6-chlorohydroxyquinol streptomyces rochei//*//* 0.06 * +EC1.13.11.37 benzene-1,2,4-triol pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 0.0012 * +EC1.13.11.37 hydroxyquinol burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.007 * +EC1.13.11.37 hydroxyquinol cutaneotrichosporon cutaneum//*//* 0.0057 * +EC1.13.11.37 hydroxyquinol sporotrichum pulverulentum//*//* 3.5e-05 * +EC1.13.11.37 hydroxyquinol streptomyces rochei//*//* 0.02 * +EC1.13.11.38 1-hydroxy-2-naphthoate nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.01 * +EC1.13.11.38 1-hydroxy-2-naphthoate pseudaminobacter salicylatoxidans//*//* 0.134 * +EC1.13.11.38 2-hydroxy-1-naphthoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0135 * +EC1.13.11.39 2'-aminobiphenyl-2,3-diol pseudomonas resinovorans//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pre 0.014 * +EC1.13.11.39 2'-chloro-2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 0.001 * +EC1.13.11.39 2,2'-dichlorobiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0026 * +EC1.13.11.39 2,3-dihydroxybiphenyl bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 9.5e-05 * +EC1.13.11.39 2,3-dihydroxybiphenyl burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.022 * +EC1.13.11.39 2,3-dihydroxybiphenyl dyella ginsengisoli//*//* 0.0189 * +EC1.13.11.39 2,3-dihydroxybiphenyl pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0125 * +EC1.13.11.39 2,3-dihydroxybiphenyl pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.007 * +EC1.13.11.39 2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 0.001 * +EC1.13.11.39 2,3-dihydroxybiphenyl rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 0.0003 * +EC1.13.11.39 2,3-dihydroxybiphenyl sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.003 * +EC1.13.11.39 3'-chloro-2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 0.00045 * +EC1.13.11.39 3,3'-dichlorobiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0033 * +EC1.13.11.39 3,5-dichlorocatechol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.03 * +EC1.13.11.39 3-chlorocatechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 0.8 * +EC1.13.11.39 3-chlorocatechol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.1 * +EC1.13.11.39 3-formylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0108 * +EC1.13.11.39 3-methylcatechol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.0021 * +EC1.13.11.39 3-methylcatechol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.001 * +EC1.13.11.39 3-methylcatechol dyella ginsengisoli//*//* 0.0688 * +EC1.13.11.39 3-methylcatechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.19 * +EC1.13.11.39 3-methylcatechol rhodococcus globerulus//*//* 0.1 * +EC1.13.11.39 3-methylcatechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 1.1 * +EC1.13.11.39 3-methylcatechol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.18 * +EC1.13.11.39 4'-chloro-2,3-dihydroxybiphenyl rhodococcus globerulus//*//* 0.0015 * +EC1.13.11.39 4-chlorocatechol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.025 * +EC1.13.11.39 4-chlorocatechol dyella ginsengisoli//*//* 0.0496 * +EC1.13.11.39 4-methylcatechol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.0273 * +EC1.13.11.39 4-methylcatechol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.11 * +EC1.13.11.39 4-methylcatechol dyella ginsengisoli//*//* 0.3597 * +EC1.13.11.39 4-methylcatechol rhodococcus globerulus//*//* 2.8 * +EC1.13.11.39 4-methylcatechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 5.6 * +EC1.13.11.39 biphenyl-2,3-diol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.00213 * +EC1.13.11.39 biphenyl-2,3-diol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.087 * +EC1.13.11.39 biphenyl-2,3-diol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00046 * +EC1.13.11.39 biphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0062 * +EC1.13.11.39 catechol achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.0062 * +EC1.13.11.39 catechol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.1 * +EC1.13.11.39 catechol dyella ginsengisoli//*//* 0.281 * +EC1.13.11.39 catechol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0589 * +EC1.13.11.39 catechol rhodococcus globerulus//*//* 2.4 * +EC1.13.11.39 catechol rhodococcus pyridinivorans//prokaryotes;bacteria;actinobacteria;rhodococcus//rpy 0.12 * +EC1.13.11.39 catechol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 1.13 * +EC1.13.11.39 o2 burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.28 * +EC1.13.11.39 o2 comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.028 * +EC1.13.11.4 1,4-dihydroxy-2-naphthoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.29 * +EC1.13.11.4 1,4-dihydroxy-2-naphthoate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.045 * +EC1.13.11.4 1-hydroxy 2 naphthoate xanthobacter polyaromaticivorans//*//* 0.0209 * +EC1.13.11.4 1-hydroxy-2-naphthoate pseudaminobacter salicylatoxidans//*//* 0.134 * +EC1.13.11.4 1-hydroxynaphthalene-2-carboxylic acid pseudaminobacter salicylatoxidans//*//* 0.14 * +EC1.13.11.4 2,5-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC1.13.11.4 2,5-dihydroxybenzoate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.0862 * +EC1.13.11.4 2,5-dihydroxybenzoate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 0.056 * +EC1.13.11.4 2,5-dihydroxybenzoate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.012 * +EC1.13.11.4 2,5-dihydroxybenzoate xanthobacter polyaromaticivorans//*//* 0.0186 * +EC1.13.11.4 3,4-dichlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.285 * +EC1.13.11.4 3,4-dimethylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 7.7 * +EC1.13.11.4 3,4-dimethylgentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.14 * +EC1.13.11.4 3,5-dibromosalicylate pseudaminobacter salicylatoxidans//*//* 0.094 * +EC1.13.11.4 3,6-dichlorogentisate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.754 * +EC1.13.11.4 3-aminosalicylate pseudaminobacter salicylatoxidans//*//* 2.3 * +EC1.13.11.4 3-bromogentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.33 * +EC1.13.11.4 3-bromogentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.018 * +EC1.13.11.4 3-bromogentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.015 * +EC1.13.11.4 3-bromogentisate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.011 * +EC1.13.11.4 3-bromosalicylate pseudaminobacter salicylatoxidans//*//* 0.071 * +EC1.13.11.4 3-chlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.027 * +EC1.13.11.4 3-ethylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 3.65 * +EC1.13.11.4 3-ethylgentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.01155 * +EC1.13.11.4 3-fluorogentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.05 * +EC1.13.11.4 3-fluorogentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.035 * +EC1.13.11.4 3-fluorogentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.0505 * +EC1.13.11.4 3-hydroxysalicylate pseudaminobacter salicylatoxidans//*//* 0.067 * +EC1.13.11.4 3-isopropylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.75 * +EC1.13.11.4 3-isopropylgentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.048 * +EC1.13.11.4 3-isopropylgentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.0313 * +EC1.13.11.4 3-isopropylgentisate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0043 * +EC1.13.11.4 3-methylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.75 * +EC1.13.11.4 3-methylgentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.027 * +EC1.13.11.4 3-methylgentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.0549 * +EC1.13.11.4 3-methylgentisate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.036 * +EC1.13.11.4 3-methylsalicylate pseudaminobacter salicylatoxidans//*//* 0.116 * +EC1.13.11.4 3-o-methylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.18 * +EC1.13.11.4 4-chlorogentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.24 * +EC1.13.11.4 4-chlorogentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.025 * +EC1.13.11.4 4-chlorogentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.02326 * +EC1.13.11.4 4-chlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.1 * +EC1.13.11.4 4-fluorogentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.044 * +EC1.13.11.4 4-fluorogentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.015 * +EC1.13.11.4 4-hydroxysalicylate pseudaminobacter salicylatoxidans//*//* 0.039 * +EC1.13.11.4 4-isopropylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.2 * +EC1.13.11.4 4-methylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.52 * +EC1.13.11.4 4-methylgentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.057 * +EC1.13.11.4 4-methylgentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.07426 * +EC1.13.11.4 4-methylsalicylate pseudaminobacter salicylatoxidans//*//* 0.028 * +EC1.13.11.4 4-o-methylgentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.45 * +EC1.13.11.4 5-aminosalicylate pseudaminobacter salicylatoxidans//*//* 0.216 * +EC1.13.11.4 5-bromosalicylate pseudaminobacter salicylatoxidans//*//* 0.126 * +EC1.13.11.4 5-chlorosalicylate pseudaminobacter salicylatoxidans//*//* 0.085 * +EC1.13.11.4 5-fluorosalicylate pseudaminobacter salicylatoxidans//*//* 0.047 * +EC1.13.11.4 5-methylsalicylate pseudaminobacter salicylatoxidans//*//* 0.328 * +EC1.13.11.4 gentisate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.085 * +EC1.13.11.4 gentisate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.074 * +EC1.13.11.4 gentisate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.052 * +EC1.13.11.4 gentisate moraxella osloensis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mos 0.0071 * +EC1.13.11.4 gentisate pseudaminobacter salicylatoxidans//*//* 0.079 * +EC1.13.11.4 gentisate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.092 * +EC1.13.11.4 gentisate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.143 * +EC1.13.11.4 gentisate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.015 * +EC1.13.11.4 o2 comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.096 * +EC1.13.11.4 o2 delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.055 * +EC1.13.11.4 salicylate pseudaminobacter salicylatoxidans//*//* 0.012 * +EC1.13.11.40 (15s)-hydroperoxyeicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.039 * +EC1.13.11.40 (15s)-hydroxyeicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC1.13.11.40 (8r)-8-hydroperoxy-5,9,11,14-eicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0021 * +EC1.13.11.40 (8s)-hydroxyeicosatetraenoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0057 * +EC1.13.11.40 arachidonate plexaura homomalla//*//* 0.008 * +EC1.13.11.40 arachidonic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC1.13.11.43 1,2-bis(4'-hydroxy-3'-methoxyphenyl)ethylene sphingomonas paucimobilis//*//* 0.0042 * +EC1.13.11.43 4,2'-dihydroxy-3,3'-dimethoxy-5'-(2''-carboxyvinyl)stilbene sphingomonas paucimobilis//*//* 0.0033 * +EC1.13.11.43 4-hydroxystilbene sphingomonas paucimobilis//*//* 0.0083 * +EC1.13.11.43 o2 sphingomonas paucimobilis//*//* 0.11 * +EC1.13.11.45 (9z,12z,15z)-octadeca-9,12,15-trienoic acid gaeumannomyces graminis//*//* 0.0005 * +EC1.13.11.45 alpha-linolenic acid gaeumannomyces graminis//*//* 0.0024 * +EC1.13.11.45 linoleate gaeumannomyces graminis//*//* 0.0024 * +EC1.13.11.45 linoleic acid gaeumannomyces graminis//*//* 0.0044 * +EC1.13.11.45 o2 gaeumannomyces graminis//*//* 0.031 * +EC1.13.11.46 2-oxo-4-phenylbutanoic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.035 * +EC1.13.11.46 4-hydroxyphenylpyruvate amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.0476 * +EC1.13.11.46 4-hydroxyphenylpyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.22 * +EC1.13.11.46 4-methoxyphenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.16 * +EC1.13.11.46 phenylpyruvic acid streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.353 * +EC1.13.11.47 1h-3-hydroxy-4-oxoquinaldine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.03 * +EC1.13.11.47 1h-3-hydroxy-4-oxoquinaldine paenarthrobacter nitroguajacolicus//*//* 0.0027 * +EC1.13.11.47 1h-3-hydroxy-4-oxoquinoline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0104 * +EC1.13.11.48 1h-3-hydroxy-4-oxoquinaldine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.03 * +EC1.13.11.48 3-hydroxy-2-methyl-1h-quinolin-4-one paenarthrobacter ilicis//*//* 0.0017 * +EC1.13.11.48 o2 paenarthrobacter ilicis//*//* 0.81 * +EC1.13.11.49 chlorite dechloromonas agitata//*//* 0.215 * +EC1.13.11.49 chlorite ideonella dechloratans//*//* 0.26 * +EC1.13.11.49 chlorite nitrospira defluvii//prokaryotes;bacteria;nitrospirae;nitrospira//nde 15.8 * +EC1.13.11.5 homogentisate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.031 * +EC1.13.11.5 homogentisate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.009 * +EC1.13.11.5 homogentisate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.6 * +EC1.13.11.5 homogentisate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.13.11.5 homogentisate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.188 * +EC1.13.11.5 homogentisate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC1.13.11.5 homogentisate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.6 * +EC1.13.11.5 homogentisate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0532 * +EC1.13.11.50 1,1,1-trifluoro-2,4-pentanedione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.0025 * +EC1.13.11.50 1,1-difluoro-2,4-pentanedione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.0027 * +EC1.13.11.50 4,4-difluoro-1-phenyl-1,3-butanedione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.002 * +EC1.13.11.50 acetylacetate acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.0091 * +EC1.13.11.50 o2 acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.26 * +EC1.13.11.50 pentane-2,4-dione acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 9e-06 * +EC1.13.11.51 9'-cis-neoxanthin vigna unguiculata//*//* 0.049 * +EC1.13.11.51 9'-cis-neoxanthin zea mays//eukaryotes;plants;monocots;grass family//zma 0.027 * +EC1.13.11.51 9-cis-8'r-luteoxanthin zea mays//eukaryotes;plants;monocots;grass family//zma 0.008 * +EC1.13.11.51 9-cis-8's-luteoxanthin zea mays//eukaryotes;plants;monocots;grass family//zma 0.015 * +EC1.13.11.51 9-cis-antheraxanthin zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC1.13.11.51 9-cis-neoxanthin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.024 * +EC1.13.11.51 9-cis-violaxanthin zea mays//eukaryotes;plants;monocots;grass family//zma 0.058 * +EC1.13.11.52 1-methyl-l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC1.13.11.52 5-fluoro-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.13.11.52 5-hydroxy-l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC1.13.11.52 5-hydroxy-l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.21 * +EC1.13.11.52 5-hydroxy-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.13.11.52 5-methoxy-dl-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.113 * +EC1.13.11.52 5-methyl-dl-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC1.13.11.52 5-methyl-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.098 * +EC1.13.11.52 6-methyl-dl-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC1.13.11.52 d-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC1.13.11.52 d-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.062 * +EC1.13.11.52 d-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.66 * +EC1.13.11.52 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00072 * +EC1.13.11.52 l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC1.13.11.52 l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.005 * +EC1.13.11.52 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC1.13.11.52 oxygen meriones unguiculatus//*//* 2.8 * +EC1.13.11.52 oxygen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.8 * +EC1.13.11.53 1,2-dihydroxy-3-keto-1-hexene klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.05 * +EC1.13.11.53 1,2-dihydroxy-5-(methylthio)pent-1-en-3-one klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 500.0 * +EC1.13.11.53 1,2-dihydroxy-5-(methylthio)pent-1-en-3-one oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.044 * +EC1.13.11.53 1-phosphonooxy-2,2-dihydroxy-3-oxo-3-phenylpropane solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0392 * +EC1.13.11.53 o2 klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.11 * +EC1.13.11.54 1,2-dihydroxy-3-oxopent-1-ene oryza sativa//eukaryotes;plants;monocots;grass family//osa 25.9 * +EC1.13.11.54 1,2-dihydroxy-5-(methylthio)pent-1-en-3-one klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 210.0 * +EC1.13.11.54 1,2-dihydroxyhex-1-en-3-one klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.052 * +EC1.13.11.54 o2 klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 210.0 * +EC1.13.11.54 o2 klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.047 * +EC1.13.11.54 o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.1 * +EC1.13.11.55 sulfur acidianus ambivalens//*//* 2.0 * +EC1.13.11.56 1,2-dihydroxynaphthalene pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.28 * +EC1.13.11.56 1,2-dihydroxynaphthalene sphingobium xenophagum//*//* 0.034 * +EC1.13.11.56 3-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.15 * +EC1.13.11.56 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.13.11.57 gallate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.144 * +EC1.13.11.57 gallate sphingomonas paucimobilis//*//* 0.0669 * +EC1.13.11.58 9e,11z,14z-20:3omega6 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.13.11.58 arachidonate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0203 * +EC1.13.11.58 linoleate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.114 * +EC1.13.11.58 linoleate musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.15 * +EC1.13.11.6 3-hydroxy-4-methylanthranilic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 36.0 * +EC1.13.11.6 3-hydroxyanthranilate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.0 * +EC1.13.11.6 3-hydroxyanthranilate cupriavidus metallidurans//prokaryotes;bacteria;betaproteobacteria;cupriavidus//rme 0.0224 * +EC1.13.11.6 3-hydroxyanthranilic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.021 * +EC1.13.11.6 3-hydroxyanthranilic acid papio ursinus//*//* 0.105 * +EC1.13.11.6 3-hydroxyanthranilic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.13.11.6 3-hydroxyanthranilic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0159 * +EC1.13.11.6 4-ethyl-3-hydroxyanthranilic acid papio ursinus//*//* 0.011 * +EC1.13.11.6 4-methyl-3-hydroxyanthranilic acid papio ursinus//*//* 0.037 * +EC1.13.11.6 4-propyl-3-hydroxyanthranilic acid papio ursinus//*//* 0.01 * +EC1.13.11.6 o2 papio ursinus//*//* 0.615 * +EC1.13.11.60 (11z)-icos-11-enoic acid aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0226 * +EC1.13.11.60 linoleate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0183 * +EC1.13.11.60 linoleate gaeumannomyces graminis//*//* 0.008 * +EC1.13.11.60 o2 gaeumannomyces graminis//*//* 0.03 * +EC1.13.11.60 oleate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.00671 * +EC1.13.11.60 palmitoleate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.005 * +EC1.13.11.61 alpha-linolenate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.026 * +EC1.13.11.61 linoleate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.0044 * +EC1.13.11.62 linoleate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.05 * +EC1.13.11.63 10'-apo-beta-carotenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0092 * +EC1.13.11.63 13-cis-beta-carotene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0035 * +EC1.13.11.63 8'-apo-beta-carotenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0077 * +EC1.13.11.63 all-trans-beta-carotene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC1.13.11.63 alpha-carotene galleria mellonella//*//* 0.02213 * +EC1.13.11.63 alpha-carotene gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.37 * +EC1.13.11.63 alpha-carotene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0062 * +EC1.13.11.63 alpha-carotene uncultured marine bacterium//*//* 0.169 * +EC1.13.11.63 beta-apo-10'-carotenol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.067 * +EC1.13.11.63 beta-apo-4'-carotenal uncultured marine bacterium//*//* 0.147 * +EC1.13.11.63 beta-apo-4'carotenal gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.18 * +EC1.13.11.63 beta-apo-8'carotenal gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.19 * +EC1.13.11.63 beta-carotene galleria mellonella//*//* 0.0104 * +EC1.13.11.63 beta-carotene gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.026 * +EC1.13.11.63 beta-carotene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.13.11.63 beta-carotene mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC1.13.11.63 beta-carotene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00052 * +EC1.13.11.63 beta-carotene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC1.13.11.63 beta-carotene uncultured marine bacterium//*//* 0.037 * +EC1.13.11.63 beta-cryptoxanthin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.29 * +EC1.13.11.63 beta-cryptoxanthin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.13.11.63 beta-cryptoxanthin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0067 * +EC1.13.11.63 beta-cryptoxanthin uncultured marine bacterium//*//* 0.029 * +EC1.13.11.63 gamma-carotene gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.69 * +EC1.13.11.63 gamma-carotene uncultured marine bacterium//*//* 0.382 * +EC1.13.11.65 3-hydroxy-beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0438 * +EC1.13.11.65 3-hydroxy-beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0219 * +EC1.13.11.65 alpha-carotene galleria mellonella//*//* 0.0221 * +EC1.13.11.65 apo-8'-carotenal plesiocystis pacifica sir-1//*//* 0.1229 * +EC1.13.11.65 apo-8'-carotenal sphingopyxis alaskensis//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sal 0.1229 * +EC1.13.11.65 beta,beta-carotene galleria mellonella//*//* 0.0104 * +EC1.13.11.65 beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0294 * +EC1.13.11.65 beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0041 * +EC1.13.11.66 2,6-dibromohydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0013 * +EC1.13.11.66 2,6-dichloro-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0135 * +EC1.13.11.66 2,6-dichlorohydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0032 * +EC1.13.11.66 2,6-dimethylhydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.055 * +EC1.13.11.66 2-chloro-6-methylhydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0044 * +EC1.13.11.66 bromohydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0085 * +EC1.13.11.66 chlorohydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.01 * +EC1.13.11.66 hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.255 * +EC1.13.11.66 hydroquinone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.037 * +EC1.13.11.66 hydroquinone sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.0022 * +EC1.13.11.66 methylhydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.041 * +EC1.13.11.66 o2 sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.021 * +EC1.13.11.67 8'-apo-beta-carotenol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC1.13.11.67 8'-apo-beta-carotenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC1.13.11.68 beta-carotene arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0152 * +EC1.13.11.71 beta-carotene arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0152 * +EC1.13.11.71 beta-carotene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC1.13.11.72 2-hydroxyethylphosphonate streptomyces viridochromogenes//*//* 0.0098 * +EC1.13.11.72 o2 streptomyces viridochromogenes//*//* 0.033 * +EC1.13.11.73 (r)-2-hydroxyethylphosphonate nitrosopumilus maritimus//prokaryotes;archaea;thaumarchaeota;nitrosopumilus//nmr 0.0071 * +EC1.13.11.73 (s)-2-hydroxyethylphosphonate nitrosopumilus maritimus//prokaryotes;archaea;thaumarchaeota;nitrosopumilus//nmr 0.0065 * +EC1.13.11.73 2-hydroxyethylphosphonate nitrosopumilus maritimus//prokaryotes;archaea;thaumarchaeota;nitrosopumilus//nmr 0.0045 * +EC1.13.11.74 2-amino-5-chlorophenol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.00077 * +EC1.13.11.74 2-aminophenol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.00089 * +EC1.13.11.74 2-aminophenol pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.0042 * +EC1.13.11.74 2-aminophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0467 * +EC1.13.11.74 o2 comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0775 * +EC1.13.11.74 o2 pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.71 * +EC1.13.11.75 (3r)-3hydroxy-beta-apo-12'-carotenal synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0026 * +EC1.13.11.75 (3r)-3hydroxy-beta-apo-8'-carotenal nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.0021 * +EC1.13.11.75 (3r)-3hydroxy-beta-apo-8'-carotenal synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0014 * +EC1.13.11.75 (3r)-3hydroxy-beta-apo-8'-carotenol synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.031 * +EC1.13.11.75 3-hydroxy-beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0438 * +EC1.13.11.75 3-hydroxy-beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0219 * +EC1.13.11.75 all-trans-beta-apo-8'-carotenal synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0025 * +EC1.13.11.75 beta-apo-10'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0294 * +EC1.13.11.75 beta-apo-10'-carotenal nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.017 * +EC1.13.11.75 beta-apo-8'-carotenal mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00415 * +EC1.13.11.75 beta-apo-8'-carotenal nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.016 * +EC1.13.11.75 beta-apo-8'-carotenol nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.0245 * +EC1.13.11.75 beta-apo-8'-carotenol synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.043 * +EC1.13.11.76 2-amino-5-chlorophenol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.00077 * +EC1.13.11.76 2-aminophenol comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.00089 * +EC1.13.11.77 alpha-linolenate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.73 * +EC1.13.11.77 linoleate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.66 * +EC1.13.11.77 oleate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.74 * +EC1.13.11.79 fmnh2 sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.064 * +EC1.13.11.79 nadh sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 5.1 * +EC1.13.11.79 nadph sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 4.4 * +EC1.13.11.8 5-methoxygallic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.125 * +EC1.13.11.8 gallic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0735 * +EC1.13.11.8 o2 comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.125 * +EC1.13.11.8 protocatechuate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.046 * +EC1.13.11.8 protocatechuate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.02 * +EC1.13.11.80 (3,5-dihydroxyphenyl)acetyl-coa amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.006 * +EC1.13.11.80 (3,5-dihydroxyphenyl)acetyl-coa streptomyces toyocaensis//*//* 0.0039 * +EC1.13.11.80 (3-hydroxyphenyl)acetyl-coa streptomyces toyocaensis//*//* 0.851 * +EC1.13.11.80 (5-hydroxyphenyl)acetyl-coa streptomyces toyocaensis//*//* 0.0044 * +EC1.13.11.80 o2 streptomyces toyocaensis//*//* 0.0017 * +EC1.13.11.80 phenylacetyl-coa amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.3 * +EC1.13.11.80 phenylacetyl-coa streptomyces toyocaensis//*//* 0.102 * +EC1.13.11.81 7,8-dihydroneopterin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.000154 * +EC1.13.11.9 2,5-dihydroxypyridine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.07 * +EC1.13.11.B6 (9z,12z)-octadeca-9,12-dienoic acid nakataea oryzae//*//* 0.0037 * +EC1.13.11.B6 linoleate olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.175 * +EC1.13.11.B6 linoleate pisum sativum//*//* 0.9 * +EC1.13.11.B6 linoleate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.2 * +EC1.13.11.B6 linolenate olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.344 * +EC1.13.12.1 canavanine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 81.0 * +EC1.13.12.1 homoarginine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 100.0 * +EC1.13.12.1 l-arginine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.3 * +EC1.13.12.13 bis-deoxycoelenterazine oplophorus gracilorostris//*//* 4e-05 * +EC1.13.12.13 coelenterazine oplophorus gracilorostris//*//* 0.00014 * +EC1.13.12.16 1-nitrobutane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 15.0 * +EC1.13.12.16 1-nitrohexane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.4 * +EC1.13.12.16 1-nitropentane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 7.1 * +EC1.13.12.16 1-nitropropane cyberlindnera mrakii//*//* 3.23 * +EC1.13.12.16 1-nitropropane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.54 * +EC1.13.12.16 1-nitropropane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 8.3 * +EC1.13.12.16 2-nitropropane cyberlindnera mrakii//*//* 1.61 * +EC1.13.12.16 2-nitropropane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 7.4 * +EC1.13.12.16 2-nitropropane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.1 * +EC1.13.12.16 3-nitro-2-butanol cyberlindnera mrakii//*//* 0.59 * +EC1.13.12.16 3-nitro-2-pentanol cyberlindnera mrakii//*//* 1.04 * +EC1.13.12.16 3-nitro-2-pentanol fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 3.08 * +EC1.13.12.16 3-nitropropionate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.58 * +EC1.13.12.16 butyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 10.0 * +EC1.13.12.16 ethyl nitronate cyberlindnera saturnus//*//* 4.0 * +EC1.13.12.16 ethyl nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.1 * +EC1.13.12.16 ethylnitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 15.9 * +EC1.13.12.16 fad fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.00133 * +EC1.13.12.16 hexyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.4 * +EC1.13.12.16 nitrocyclohexane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.9 * +EC1.13.12.16 nitroethane cyberlindnera mrakii//*//* 3.13 * +EC1.13.12.16 nitroethane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.0 * +EC1.13.12.16 nitroethane neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.0 * +EC1.13.12.16 o2 cyberlindnera mrakii//*//* 0.277 * +EC1.13.12.16 o2 cyberlindnera saturnus//*//* 0.08 * +EC1.13.12.16 o2 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.005 * +EC1.13.12.16 propionate 3-nitronate cyberlindnera saturnus//*//* 0.06 * +EC1.13.12.16 propionate-3-nitronate cyberlindnera saturnus//*//* 0.27 * +EC1.13.12.16 propionate-3-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.34 * +EC1.13.12.16 propyl-1-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 5.5 * +EC1.13.12.16 propyl-2-nitronate cyberlindnera mrakii//*//* 1.61 * +EC1.13.12.16 propyl-2-nitronate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.1 * +EC1.13.12.18 dinoflagellate luciferin lingulodinium polyedrum//*//* 0.0025 * +EC1.13.12.19 2-oxoglutarate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.013 * +EC1.13.12.2 alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.125 * +EC1.13.12.2 arginine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.025 * +EC1.13.12.2 dl-2,7-diaminoheptanoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.35 * +EC1.13.12.2 dl-delta-hydroxylysine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.1 * +EC1.13.12.2 l-arginine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.8 * +EC1.13.12.2 l-lysine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.091 * +EC1.13.12.2 l-ornithine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 14.5 * +EC1.13.12.2 lysine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.33 * +EC1.13.12.2 o2 pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.58 * +EC1.13.12.2 ornithine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.25 * +EC1.13.12.2 phenazine methosulfate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.018 * +EC1.13.12.21 tetracenomycin f1 streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.00747 * +EC1.13.12.3 d,l-3-phenyl-2-hydrazinopropanoic acid pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 1.3 * +EC1.13.12.3 d,l-3-pyridylalanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 32.0 * +EC1.13.12.3 d,l-n-methyl-phenylalanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 22.6 * +EC1.13.12.3 l-alanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 22.6 * +EC1.13.12.3 l-methionine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 22.4 * +EC1.13.12.3 l-phenylalanine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 2.4 * +EC1.13.12.3 l-tryptophan pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.036 * +EC1.13.12.3 o2 pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.09 * +EC1.13.12.3 tryptophan pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.04 * +EC1.13.12.4 (r)-lactate gram-negative soil bacterium//*//* 0.14 * +EC1.13.12.4 (s)-lactate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 34.0 * +EC1.13.12.4 (s)-lactate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 22.0 * +EC1.13.12.4 beta-phenyl-(s)-lactate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 50.0 * +EC1.13.12.4 dl-2-hydroxy-3-butynoate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.41 * +EC1.13.12.4 l-2-hydroxyisovalerate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 25.0 * +EC1.13.12.4 l-alpha-hydroxy-beta-methylvalerate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 11.3 * +EC1.13.12.4 lactate gram-negative soil bacterium//*//* 0.2 * +EC1.13.12.4 o2 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.055 * +EC1.13.12.5 coelenterazine aequorea aequorea//*//* 0.0133 * +EC1.13.12.5 coelenterazine renilla sp.//*//* 0.0029 * +EC1.13.12.6 1-{3-[6-(1h-indol-3-yl)-2-(1-methylpropyl)-3-oxo-3,7-dihydroimidazo[1,2-a]pyrazin-8-yl]propyl}guanidine cypridina noctiluca//*//* 0.03 * +EC1.13.12.6 luciferin vargula hilgendorfii//*//* 0.0005 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1,3-benzoxazol-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.176 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1-benzofuran-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.07 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1-benzothiophen-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.061 * +EC1.13.12.7 (4s)-2-(6-hydroxy-1h-benzimidazol-2-yl)-4,5-dihydro-1,3-thiazole-4-carboxylic acid photinus pyralis//*//* 0.02 * +EC1.13.12.7 5,5-dimethyl-luciferyl-o-adenosine monophosphate photinus pyralis//*//* 0.00025 * +EC1.13.12.7 5,5-dimethyl-luciferyl-o-adenosine monophosphate pyrophorus plagiophthalamus//*//* 0.0003 * +EC1.13.12.7 atp lampyris turkestanicus//*//* 0.071 * +EC1.13.12.7 atp luciola mingrelica//*//* 0.00015 * +EC1.13.12.7 atp photinus pyralis//*//* 0.002 * +EC1.13.12.7 d-luciferin lampyris turkestanicus//*//* 0.01612 * +EC1.13.12.7 d-luciferin luciola cruciata//*//* 0.0024 * +EC1.13.12.7 d-luciferin photinus pyralis//*//* 0.0024 * +EC1.13.12.7 d-luciferyl-o-adenosine monophosphate photinus pyralis//*//* 0.0047 * +EC1.13.12.7 dehydroluciferyl-adenylate photinus pyralis//*//* 0.0149 * +EC1.13.12.7 l-luciferin photinus pyralis//*//* 0.0982 * +EC1.13.12.7 lauric acid luciola cruciata//*//* 0.0163 * +EC1.13.12.7 lauric acid photinus pyralis//*//* 0.00741 * +EC1.13.12.7 linoleic acid photinus pyralis//*//* 0.0136 * +EC1.13.12.7 linolenic acid photinus pyralis//*//* 0.0136 * +EC1.13.12.7 luciferin cratomorphus distinctus//*//* 0.015 * +EC1.13.12.7 luciferin luciola mingrelica//*//* 0.012 * +EC1.13.12.7 luciferin photinus pyralis//*//* 0.0072 * +EC1.13.12.7 luciferyl-o-adenosine monophosphate photinus pyralis//*//* 0.0077 * +EC1.13.12.7 luciferyl-o-adenosine monophosphate pyrophorus plagiophthalamus//*//* 0.0008 * +EC1.13.12.7 mgatp2- photinus pyralis//*//* 0.025 * +EC1.13.12.7 oxyluciferin photinus pyralis//*//* 0.0147 * +EC1.13.12.9 beta-2-thienyl-dl-ala pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.052 * +EC1.13.12.9 beta-2-thienylalanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.071 * +EC1.13.12.9 dl-m-tyr pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.048 * +EC1.13.12.9 dl-o-tyr pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.189 * +EC1.13.12.9 l-met pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.502 * +EC1.13.12.9 l-norleucine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.83 * +EC1.13.12.9 l-phe pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0107 * +EC1.13.12.9 l-phenylalanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0159 * +EC1.13.12.9 l-tyr pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.275 * +EC1.13.12.9 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.82 * +EC1.13.12.9 p-fluoro-dl-phe pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.012 * +EC1.13.99.1 inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.1 * +EC1.13.99.1 inositol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC1.13.99.1 myo-inositol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC1.13.99.1 myo-inositol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.3 * +EC1.13.99.1 myo-inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.6 * +EC1.13.99.1 myo-inositol sporopachydermia lactativora//*//* 5.0 * +EC1.13.99.1 myo-inositol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.9 * +EC1.13.99.1 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0095 * +EC1.13.99.1 o2 sporopachydermia lactativora//*//* 0.06 * +EC1.13.99.3 3-indolemethanol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0435 * +EC1.13.99.3 3-methylindole pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0154 * +EC1.13.99.3 ferricyanide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.67 * +EC1.13.99.3 indole-3-methanol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.48 * +EC1.13.99.3 l-tryptophan pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0015 * +EC1.13.99.3 l-tryptophan pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0015 * +EC1.13.99.3 n-acetyl-l-tryptophanamide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.1 * +EC1.13.99.3 o2 pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.05 * +EC1.14.11.1 (3s)-3-fluoro-4-(trimethylammonio)butanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.14.11.1 2-oxo-glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC1.14.11.1 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.82 * +EC1.14.11.1 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC1.14.11.1 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.063 * +EC1.14.11.1 2-oxoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.018 * +EC1.14.11.1 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC1.14.11.1 4-(trimethylammonio)butanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.14.11.1 4-dimethylaminobutyric acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC1.14.11.1 d-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.47 * +EC1.14.11.1 fe2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC1.14.11.1 gamma-butyrobetaine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.51 * +EC1.14.11.1 gamma-butyrobetaine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.4 * +EC1.14.11.1 gamma-butyrobetaine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.029 * +EC1.14.11.1 l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.052 * +EC1.14.11.11 2-oxoglutarate hyoscyamus niger//*//* 0.043 * +EC1.14.11.11 6,7-dehydrohyoscyamine hyoscyamus niger//*//* 0.01 * +EC1.14.11.11 6beta-hydroxyhyosyamine anisodus tanguticus//*//* 0.017 * +EC1.14.11.11 hyoscyamine anisodus tanguticus//*//* 0.0151 * +EC1.14.11.11 l-hyoscyamine hyoscyamus niger//*//* 0.017 * +EC1.14.11.13 [1,2,3-3h3]gibberellin 20 phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.000302 * +EC1.14.11.13 [1,2-3h2]gibberellin 1 phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 5.2e-05 * +EC1.14.11.13 [1,2-3h2]gibberellin 4 phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 6e-05 * +EC1.14.11.13 [2,3-3h2]gibberellin 9 phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 2.7e-05 * +EC1.14.11.13 alpha-ketoglutarate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.021 * +EC1.14.11.13 gibberellin 1 pisum sativum//*//* 6.9e-05 * +EC1.14.11.13 gibberellin 20 pisum sativum//*//* 2.4e-05 * +EC1.14.11.13 gibberellin 9 pisum sativum//*//* 0.000299 * +EC1.14.11.14 (6s)-6-hydroxyhyoscyamine hyoscyamus niger//*//* 0.015 * +EC1.14.11.15 2-oxoglutarate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.25 * +EC1.14.11.15 gibberellin a15 cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.0087 * +EC1.14.11.15 gibberellin a20 arabidopsis sp.//*//* 0.01 * +EC1.14.11.15 gibberellin a20 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00082 * +EC1.14.11.15 gibberellin a20 phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.00029 * +EC1.14.11.15 gibberellin a20 triticum aestivum//*//* 0.002024 * +EC1.14.11.15 gibberellin a9 arabidopsis sp.//*//* 0.00125 * +EC1.14.11.15 gibberellin a9 phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.00033 * +EC1.14.11.15 gibberellin a9 triticum aestivum//*//* 0.001 * +EC1.14.11.16 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC1.14.11.16 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.14.11.16 fe2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC1.14.11.16 first epidermal growth factor-like domain bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.019 * +EC1.14.11.16 hif-1alpha peptide asp788-leu822 (l-asparagine803) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.14.11.16 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC1.14.11.17 1,3-dioxo-2-isoindolineenthanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.485 * +EC1.14.11.17 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC1.14.11.17 butanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.49 * +EC1.14.11.17 hexanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.51 * +EC1.14.11.17 mops escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.145 * +EC1.14.11.17 n-methyltaurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0051 * +EC1.14.11.17 o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0056 * +EC1.14.11.17 pentanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC1.14.11.17 taurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0194 * +EC1.14.11.18 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC1.14.11.18 3-methylhexadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0408 * +EC1.14.11.19 (2r,3s,4r)-leucocyanidin perilla frutescens//*//* 0.038 * +EC1.14.11.19 2-oxoglutarate perilla frutescens//*//* 0.059 * +EC1.14.11.2 (ala-pro-gly)5 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC1.14.11.2 (ala-thr-pro-pro-pro-val)3 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC1.14.11.2 (atpppv)3 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.26 * +EC1.14.11.2 (l-ser-l-pro)19 l-proline chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.12 * +EC1.14.11.2 (l-ser-l-pro-l-ala-l-pro-l-pro)5 l-proline chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.1 * +EC1.14.11.2 (l-ser-l-pro-l-glu-l-pro-l-pro)5 l-proline chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.1 * +EC1.14.11.2 (l-ser-l-pro-l-lys-l-pro-l-pro)5 l-proline chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.1 * +EC1.14.11.2 (pro-ala-gly)5 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.28 * +EC1.14.11.2 (pro-ala-pro-lys)10 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.002 * +EC1.14.11.2 (pro-ala-pro-lys)3 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC1.14.11.2 (pro-glu-pro-pro-ala)5 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.004 * +EC1.14.11.2 (pro-pro-gly)10 l-proline chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 1.5 * +EC1.14.11.2 (pro-pro-gly)10 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.06 * +EC1.14.11.2 (pro-pro-gly)10 caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.02 * +EC1.14.11.2 (pro-pro-gly)10 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.93 * +EC1.14.11.2 (pro-pro-gly)10 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.018 * +EC1.14.11.2 (pro-pro-gly)10 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.01 * +EC1.14.11.2 (pro-pro-gly)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.11.2 (pro-pro-gly)10 mytilus edulis//*//* 0.17 * +EC1.14.11.2 (pro-pro-gly)10 paramecium bursaria chlorella virus-1//*//* 2.9 * +EC1.14.11.2 (pro-pro-gly)10 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.14.11.2 (pro-pro-gly)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC1.14.11.2 (pro-pro-gly)5 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC1.14.11.2 (pro-pro-gly)5 caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.66 * +EC1.14.11.2 (pro-pro-gly)5 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC1.14.11.2 (pro-pro-gly)5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.14.11.2 (pro-pro-gly)5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.11.2 (ser-pro)5 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.38 * +EC1.14.11.2 (ser-pro-lys-pro-pro)5 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC1.14.11.2 100-amino acid alpha1(i) collagen fragment caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0002 * +EC1.14.11.2 2-oxoadipinate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.14 * +EC1.14.11.2 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.13 * +EC1.14.11.2 2-oxoglutarate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.08 * +EC1.14.11.2 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.03 * +EC1.14.11.2 2-oxoglutarate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.084 * +EC1.14.11.2 2-oxoglutarate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.005 * +EC1.14.11.2 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.14.11.2 2-oxoglutarate paramecium bursaria chlorella virus-1//*//* 0.02 * +EC1.14.11.2 2-oxoglutarate streptomyces griseoviridis//*//* 0.032 * +EC1.14.11.2 2-oxoglutarate volvox carteri//eukaryotes;plants;green algae//vcn 0.17 * +EC1.14.11.2 ascorbate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.3 * +EC1.14.11.2 ascorbate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.35 * +EC1.14.11.2 ascorbate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.3 * +EC1.14.11.2 ascorbate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC1.14.11.2 ascorbate paramecium bursaria chlorella virus-1//*//* 0.3 * +EC1.14.11.2 carboxymethylated collagen panagrellus silusiae//*//* 0.1 * +EC1.14.11.2 daltllapaagdtiisldyg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.14.11.2 daltllapaagdtiislfg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.14.11.2 dansyl-gly-phe-pro-gly-oet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC1.14.11.2 dldlealapyipadddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.14.11.2 dldlemlapaipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.11.2 dldlemlapaipmdddfqlrsfdq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.14.11.2 dldlemlapgipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.14.11.2 dldlemlapyipmd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.14.11.2 dldlemlapyipmdd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.14.11.2 dldlemlapyipmdddf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.2 dldlemlapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.2 dldlemlapyipmdddfqlrsfdq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.14.11.2 dlemlapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.2 emlapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.2 fe2+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC1.14.11.2 fe2+ caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.001 * +EC1.14.11.2 fe2+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.003 * +EC1.14.11.2 fe2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.14.11.2 fe2+ paramecium bursaria chlorella virus-1//*//* 0.0004 * +EC1.14.11.2 gly-val-pro-gly-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.8 * +EC1.14.11.2 his10-rskp1a dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2e-05 * +EC1.14.11.2 l-proline streptomyces griseoviridis//*//* 0.445 * +EC1.14.11.2 lapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.14.11.2 lysine hydroxylated protocollagen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.5e-06 * +EC1.14.11.2 o2 catharanthus roseus//*//* 0.06 * +EC1.14.11.2 o2 cavia porcellus//*//* 0.03 * +EC1.14.11.2 o2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC1.14.11.2 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.14.11.2 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.14.11.2 poly l-proline arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC1.14.11.2 poly(ethylene glycol)-gly-l-tyr-(2s)-4-thiaproline-gly-och2ch2oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC1.14.11.2 poly(ethylene glycol)-gly-l-tyr-l-(2s,4s)-4-fluoroproline-gly-och2ch2oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC1.14.11.2 poly(ethylene glycol)-gly-l-tyr-l-pro-gly-och2ch2oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC1.14.11.2 poly(l-pro) chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.002 * +EC1.14.11.2 poly(l-pro) phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.005 * +EC1.14.11.2 poly(l-proline) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0002 * +EC1.14.11.2 poly(l-proline) catharanthus roseus//*//* 0.23 * +EC1.14.11.2 poly(l-proline) chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.29 * +EC1.14.11.2 poly(l-proline) paramecium bursaria chlorella virus-1//*//* 0.1 * +EC1.14.11.2 poly(l-proline) volvox carteri//eukaryotes;plants;green algae//vcn 0.01 * +EC1.14.11.2 pro-pro-gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 20.0 * +EC1.14.11.2 pro-pro-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC1.14.11.2 procollagen l-proline gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.6e-06 * +EC1.14.11.2 protocollagen type i gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0002 * +EC1.14.11.2 protocollagen type i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.14.11.2 protocollagen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1e-08 * +EC1.14.11.2 protocollagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1e-08 * +EC1.14.11.2 protocollagen panagrellus silusiae//*//* 0.005 * +EC1.14.11.2 protocollagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1e-08 * +EC1.14.11.2 ser-pro-pro-pro-pro-val-ser-pro-pro-pro-val-ser-pro-pro-pro-pro-val arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC1.14.11.2 ser-pro-pro-pro-val-tyr-lys-ser-pro-pro-pro-pro-val-lys-his-tyr-ser-pro-pro-pro-val arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC1.14.11.2 sppppvspppvsppppv arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.66 * +EC1.14.11.2 sppppvyksppppvkhyspppv arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.38 * +EC1.14.11.2 tert-butyloxycarbonyl-gly-val-pro-gly-val-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 22.2 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-ala-pro-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 24.0 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gln-pro-och3 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 32.2 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gly-nhch3 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 37.2 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gly-pro-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 38.9 * +EC1.14.11.2 tert-butyloxycarbonyl-pro-pro-gly-pro-pro-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 37.4 * +EC1.14.11.2 tert-butyloxycarbonyl-val-pro-gly-val-oh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 10.7 * +EC1.14.11.20 2-oxoglutarate catharanthus roseus//*//* 0.045 * +EC1.14.11.20 ascorbate catharanthus roseus//*//* 0.2 * +EC1.14.11.20 desacetoxyvindoline catharanthus roseus//*//* 3e-06 * +EC1.14.11.20 fe2+ catharanthus roseus//*//* 0.0085 * +EC1.14.11.20 o2 catharanthus roseus//*//* 0.045 * +EC1.14.11.21 (2s,3r)-proclavaminate streptomyces antibioticus//*//* 0.38 * +EC1.14.11.21 (2s,3r)-proclavaminate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.19 * +EC1.14.11.21 2-oxoglutarate streptomyces antibioticus//*//* 0.039 * +EC1.14.11.21 2-oxoglutarate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.042 * +EC1.14.11.21 fe2+ streptomyces antibioticus//*//* 0.0032 * +EC1.14.11.21 fe2+ streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.0019 * +EC1.14.11.21 n-alpha-acetyl-l-arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.23 * +EC1.14.11.21 proclavaminate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.13 * +EC1.14.11.21 rac-proclavaminate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.38 * +EC1.14.11.22 2-oxoglutarate petroselinum crispum//*//* 0.016 * +EC1.14.11.22 2s-eriodictyol petroselinum crispum//*//* 0.008 * +EC1.14.11.22 2s-naringenin petroselinum crispum//*//* 0.005 * +EC1.14.11.22 s-naringenin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.02 * +EC1.14.11.23 (2r/3r)-dihydrokaempferol populus deltoides//*//* 0.024 * +EC1.14.11.23 (2r/3r)-dihydroquercetin populus deltoides//*//* 0.031 * +EC1.14.11.23 2-oxoglutarate citrus unshiu//*//* 0.036 * +EC1.14.11.23 dihydrokaempferol citrus unshiu//*//* 0.045 * +EC1.14.11.23 dihydrokaempferol malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.001 * +EC1.14.11.23 dihydrokaempferol pyrus communis//*//* 0.001 * +EC1.14.11.23 dihydroquercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.059 * +EC1.14.11.23 dihydroquercetin camellia sinensis//*//* 0.139 * +EC1.14.11.23 dihydroquercetin citrus unshiu//*//* 0.272 * +EC1.14.11.23 dihydroquercetin malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0012 * +EC1.14.11.23 dihydroquercetin pyrus communis//*//* 0.0012 * +EC1.14.11.26 2-oxoglutarate acremonium chrysogenum//*//* 0.022 * +EC1.14.11.26 2-oxoglutarate actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.01 * +EC1.14.11.26 deacetoxycephalosporin c acremonium chrysogenum//*//* 0.02 * +EC1.14.11.26 deacetoxycephalosporin c actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.059 * +EC1.14.11.26 fe2+ actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.02 * +EC1.14.11.26 penicillin g streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 2.58 * +EC1.14.11.26 penicillin n streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.014 * +EC1.14.11.27 trimethyl-histone 3 l-lysine 36 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC1.14.11.28 2-oxoglutarate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.047 * +EC1.14.11.28 3,4-dehydro-l-proline streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 8.4 * +EC1.14.11.28 l-2-azetidinecarboxylic acid streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.1 * +EC1.14.11.28 l-pipecolic acid streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.8 * +EC1.14.11.28 l-proline streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.2 * +EC1.14.11.29 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.29 daldlemlapyismdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.14.11.29 daltllapaagdtiislfg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.14.11.29 dldlemlapaipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.11.29 dldlemlapgipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.14.11.29 dldlemlapyipmd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.14.11.29 dldlemlapyipmdd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.14.11.29 dldlemlapyipmdddf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.29 dldlemlapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.29 dldlemlapyipmdddfqlrsfdq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.14.11.29 dlemlapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.29 eepdlsclapfvdtydmmqm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.14.11.29 eldletlapyipmdgedfq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.14.11.29 emlapyipmdd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.14.11.29 emlapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.11.29 epeelaqlaptpgdaiisld homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC1.14.11.29 hypoxia-inducible factor1alpha c-terminal oxygen-dependent degradation domain-l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6e-05 * +EC1.14.11.29 hypoxia-inducible factor2alpha c-terminal oxygen-dependent degradation domain-l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC1.14.11.29 lapyipmdddfql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.14.11.29 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC1.14.11.3 2-oxoglutarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.3 * +EC1.14.11.3 5-bromodeoxyuridine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.15 * +EC1.14.11.3 5-hydroxymethyldeoxyuridine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.29 * +EC1.14.11.3 6-azathymidine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.29 * +EC1.14.11.3 deoxyuridine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.19 * +EC1.14.11.3 fe2+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.45 * +EC1.14.11.3 thymidine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.09 * +EC1.14.11.3 thymidylate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.07 * +EC1.14.11.30 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.11.30 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC1.14.11.30 psdlacrllgqsmdesglpqltsydcevnapiqgsrnllqgeellraldqvn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.11.31 2-oxoglutarate papaver somniferum//*//* 0.0164 * +EC1.14.11.31 oripavine papaver somniferum//*//* 0.0154 * +EC1.14.11.31 thebaine papaver somniferum//*//* 0.0203 * +EC1.14.11.32 2-oxoglutarate papaver somniferum//*//* 0.019 * +EC1.14.11.32 codeine papaver somniferum//*//* 0.0205 * +EC1.14.11.32 thebaine papaver somniferum//*//* 0.0419 * +EC1.14.11.33 1-methyl-adenine in 5'-daaaa-1mea-yyaaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.14.11.33 1-methyl-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.14.11.33 1-methyl-datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0055 * +EC1.14.11.33 2'-deoxy-1-methyl-adenosine 3'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC1.14.11.33 d(tpm1a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0044 * +EC1.14.11.33 d(tpm1apt) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC1.14.11.33 double-stranded dna-1-methyladenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0062 * +EC1.14.11.33 double-stranded dna-3-methylcytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0093 * +EC1.14.11.33 n1-methyl-atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.14.11.33 poly(dm1a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC1.14.11.33 single-stranded dna-1-methyladenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0054 * +EC1.14.11.33 single-stranded dna-3-methylcytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0034 * +EC1.14.11.34 2-oxoglutarate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.013 * +EC1.14.11.35 (+/-)-1-deoxypentalenic acid streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.57 * +EC1.14.11.38 2-oxoglutarate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.003 * +EC1.14.11.38 fumitremorgin b aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.021 * +EC1.14.11.39 l-asparagine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.479 * +EC1.14.11.4 (ile-lys-gly)3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC1.14.11.4 (l-ile-l-lys-gly)3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC1.14.11.4 (pro-pro-gly)4-ala-arg-gly-met-lys-gly-his-arg-gly-(pro-pro-gly)4 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC1.14.11.4 2-oxoglutarate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC1.14.11.4 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.14.11.4 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.106 * +EC1.14.11.4 ala-arg-gly-ile-lys-gly-ile-arg-gly-phe-ser-gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.4 * +EC1.14.11.4 ala-arg-gly-ile-lys-gly-ile-arg-gly-phe-ser-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.14.11.4 ala-arg-gly-met-lys-gly-his-arg-gly-(pro-pro-gly)4 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC1.14.11.4 ascorbate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC1.14.11.4 ascorbate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.14.11.4 ascorbate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.122 * +EC1.14.11.4 o2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.04 * +EC1.14.11.4 protocollagen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.4 * +EC1.14.11.4 protocollagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC1.14.11.4 protocollagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.11.4 type i procollagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.14.11.4 type iv procollagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.14.11.41 l-arginine streptomyces vinaceus//*//* 3.4 * +EC1.14.11.41 l-canavanine streptomyces vinaceus//*//* 1.16 * +EC1.14.11.41 l-homoarginine streptomyces vinaceus//*//* 7.05 * +EC1.14.11.43 (s)-(2,4-dichlorophenoxy)propanoate sphingobium herbicidovorans//*//* 0.495 * +EC1.14.11.43 (s)-2-(4-chloro-2-methylphenoxy)propanoate sphingobium herbicidovorans//*//* 0.132 * +EC1.14.11.43 2-oxoglutarate sphingobium herbicidovorans//*//* 0.0196 * +EC1.14.11.43 o2 sphingobium herbicidovorans//*//* 0.159 * +EC1.14.11.44 (r)-(2,4-dichlorophenoxy)propanoate sphingobium herbicidovorans//*//* 0.164 * +EC1.14.11.44 (r)-2-(4-chloro-2-methylphenoxy)propanoate sphingobium herbicidovorans//*//* 0.099 * +EC1.14.11.44 2-oxoglutarate sphingobium herbicidovorans//*//* 0.003 * +EC1.14.11.45 2-oxoglutarate bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.23 * +EC1.14.11.45 l-isoleucine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.27 * +EC1.14.11.45 l-leucine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 2.3 * +EC1.14.11.45 l-methionine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 3.2 * +EC1.14.11.48 2-oxoglutarate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.031 * +EC1.14.11.48 9-methylxanthine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.4 * +EC1.14.11.48 xanthine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.045 * +EC1.14.11.49 2-oxoglutarate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0075 * +EC1.14.11.49 ump streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.014 * +EC1.14.11.52 2-oxoglutarate streptomyces hygroscopicus subsp. limoneus//*//* 0.019 * +EC1.14.11.52 validamycin a streptomyces hygroscopicus subsp. limoneus//*//* 0.303 * +EC1.14.11.53 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.14.11.53 5'-uacacucgaucugg(m6a)cuaaagcugcuc-3'-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000192 * +EC1.14.11.53 cccc(m6a)ccccccccc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.583 * +EC1.14.11.53 ga(m6a)ca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.251 * +EC1.14.11.53 gcgg(m6a)cuccagaug homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.755 * +EC1.14.11.53 gg(m6a)cu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.334 * +EC1.14.11.53 n3-methylthymine in single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00095 * +EC1.14.11.53 n3-methylthymine in single-stranded dna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00192 * +EC1.14.11.53 n3-methyluracil in single-stranded mrna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00851 * +EC1.14.11.53 n3-methyluracil in single-stranded mrna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00208 * +EC1.14.11.53 n6-methyladenine in mrna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00166 * +EC1.14.11.55 2-oxoglutarate acidiphilium cryptum//prokaryotes;bacteria;alphaproteobacteria;acidiphilium//acr 4.1 * +EC1.14.11.55 2-oxoglutarate alkalilimnicola ehrlichii//prokaryotes;bacteria;gammaproteobacteria - others;alkalilimnicola//aeh 5.0 * +EC1.14.11.55 2-oxoglutarate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 4.8 * +EC1.14.11.55 2-oxoglutarate paenibacillus lautus//*//* 3.9 * +EC1.14.11.55 2-oxoglutarate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 4.6 * +EC1.14.11.55 2-oxoglutarate sphingopyxis alaskensis//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sal 2.7 * +EC1.14.11.55 2-oxoglutarate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 6.2 * +EC1.14.11.55 2-oxoglutarate virgibacillus salexigens//*//* 4.9 * +EC1.14.11.55 ectoine acidiphilium cryptum//prokaryotes;bacteria;alphaproteobacteria;acidiphilium//acr 10.0 * +EC1.14.11.55 ectoine alkalilimnicola ehrlichii//prokaryotes;bacteria;gammaproteobacteria - others;alkalilimnicola//aeh 9.0 * +EC1.14.11.55 ectoine halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 5.7 * +EC1.14.11.55 ectoine paenibacillus lautus//*//* 9.5 * +EC1.14.11.55 ectoine pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 6.2 * +EC1.14.11.55 ectoine sphingopyxis alaskensis//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sal 9.8 * +EC1.14.11.55 ectoine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.6 * +EC1.14.11.55 ectoine virgibacillus salexigens//*//* 3.5 * +EC1.14.11.56 2-oxoglutarate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.25 * +EC1.14.11.56 2-oxoglutarate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.3 * +EC1.14.11.56 l-proline mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.54 * +EC1.14.11.56 l-proline sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.54 * +EC1.14.11.57 2-oxoglutarate streptomyces griseoviridis//*//* 0.032 * +EC1.14.11.57 l-proline streptomyces griseoviridis//*//* 0.445 * +EC1.14.11.6 1-ethylthymine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.6 * +EC1.14.11.6 1-ethyluracil neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.0 * +EC1.14.11.6 1-methylthymine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.45 * +EC1.14.11.6 1-methylthymine rhodotorula glutinis//*//* 1.3 * +EC1.14.11.6 1-methyluracil neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.5 * +EC1.14.11.6 2-oxoglutarate rhodotorula glutinis//*//* 0.024 * +EC1.14.11.6 5,6-dihydroxythymine rhodotorula glutinis//*//* 0.087 * +EC1.14.11.6 5-(2-hydroxyethyl)uracil rhodotorula glutinis//*//* 0.124 * +EC1.14.11.6 5-fluorouracil rhodotorula glutinis//*//* 0.322 * +EC1.14.11.6 5-formyluracil neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.22 * +EC1.14.11.6 5-formyluracil rhodotorula glutinis//*//* 1.7 * +EC1.14.11.6 5-hydroxymethyluracil neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.0 * +EC1.14.11.6 5-hydroxymethyluracil rhodotorula glutinis//*//* 0.118 * +EC1.14.11.6 6-azathymine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.25 * +EC1.14.11.6 fe2+ rhodotorula glutinis//*//* 0.0011 * +EC1.14.11.6 n1-methylthymine rhodotorula glutinis//*//* 1.3 * +EC1.14.11.6 n1-methyluracil rhodotorula glutinis//*//* 0.11 * +EC1.14.11.6 o2 rhodotorula glutinis//*//* 0.036 * +EC1.14.11.6 thymine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC1.14.11.6 thymine rhodotorula glutinis//*//* 0.058 * +EC1.14.11.6 uracil neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.2 * +EC1.14.11.7 (gly-l-pro-l-4-hydroxyproline)5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.14.11.7 2-oxoglutarate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.003 * +EC1.14.11.7 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.14.11.7 l-leu-l-asn-gly-l-leu-l-4hyp-gly-l-pro-l-ile-gly-l-pro-l-4hyp-gly-l-pro-l-arg-gly-l-arg-l-thr-gly-l-asp-l-ala-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC1.14.11.7 l-pro-l-thr-gly-l-pro-l-arg-gly-l-phe-l-pro-gly-l-pro-l-4-hydroxyproline-gly-l-pro-l-asp-gly-l-leu-l-4-hydroxyproline-gly-l-ser-l-met-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.14.11.7 l-ser-l-lys-gly-l-glu-l-gln-gly-l-phe-l-met-gly-l-pro-l-4-hydroxyproline-gly-l-pro-l-gln-gly-l-gln-l-4-hydroyproline-gly-l-leu-l-4-hydroxyproline-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC1.14.11.7 o2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC1.14.11.7 procollagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4e-05 * +EC1.14.11.8 2-oxoglutarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.133 * +EC1.14.11.8 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.109 * +EC1.14.11.8 alpha-ketoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC1.14.11.8 n6,n6,n6-trimethyl-l-lysine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.14.11.8 n6,n6,n6-trimethyl-l-lysine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.33 * +EC1.14.11.8 n6,n6,n6-trimethyl-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC1.14.11.8 trimethyllysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC1.14.11.9 (2s)-eriodictyol petroselinum crispum//*//* 0.008 * +EC1.14.11.9 (2s)-eriodictyol petunia x hybrida//*//* 0.012 * +EC1.14.11.9 (2s)-naringenin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.024 * +EC1.14.11.9 (2s)-naringenin petroselinum crispum//*//* 0.005 * +EC1.14.11.9 (2s)-naringenin petunia x hybrida//*//* 0.0056 * +EC1.14.11.9 (s)-eriodictyol oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0057 * +EC1.14.11.9 2-oxoadipate petunia x hybrida//*//* 1.4 * +EC1.14.11.9 2-oxoglutarate petroselinum crispum//*//* 0.016 * +EC1.14.11.9 2-oxoglutarate petunia x hybrida//*//* 0.0019 * +EC1.14.11.9 eriodictyol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.087 * +EC1.14.11.B1 dimethyl-histone 3 l-lysine 9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC1.14.11.B1 histone h3 n6,n6,n6-trimethyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC1.14.11.B1 histone h3 n6,n6-dimethyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 mutant a7h homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 mutant a7r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 mutant g12p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.93 * +EC1.14.11.B1 trimethyl-histone 3 l-lysine 9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC1.14.11.B11 l-asparagine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.479 * +EC1.14.11.B16 3-hydroxyechinenone agrobacterium aurantiacum//*//* 0.0143 * +EC1.14.11.B16 4-oxozeaxanthin agrobacterium aurantiacum//*//* 0.0083 * +EC1.14.11.B16 beta-carotene agrobacterium aurantiacum//*//* 0.0013 * +EC1.14.11.B16 echinenone agrobacterium aurantiacum//*//* 0.002 * +EC1.14.11.B16 zeaxanthin agrobacterium aurantiacum//*//* 0.01 * +EC1.14.12.1 anthranilate pseudomonas chlororaphis subsp. aureofaciens//*//* 0.12 * +EC1.14.12.10 2-methylbenzoate acinetobacter calcoaceticus//*//* 1.401 * +EC1.14.12.10 3-chlorobenzoate acinetobacter calcoaceticus//*//* 0.113 * +EC1.14.12.10 3-methylbenzoate acinetobacter calcoaceticus//*//* 0.089 * +EC1.14.12.10 benzoate acinetobacter calcoaceticus//*//* 0.026 * +EC1.14.12.10 benzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0039 * +EC1.14.12.10 nadh-cytochrome c reductase component pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.026 * +EC1.14.12.10 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0048 * +EC1.14.12.10 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0043 * +EC1.14.12.11 phenol arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 5.429 * +EC1.14.12.12 biphenyl sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.00042 * +EC1.14.12.12 indole pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC1.14.12.12 nadh corynebacterium renale//*//* 1.42 * +EC1.14.12.12 naphthalene corynebacterium renale//*//* 2.9 * +EC1.14.12.12 naphthalene sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.00092 * +EC1.14.12.13 2,5-dichlorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.063 * +EC1.14.12.13 2-chlorobenzoate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.023 * +EC1.14.12.13 2-chlorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.078 * +EC1.14.12.13 nadh burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.079 * +EC1.14.12.14 2-aminobenzenesulfonate alcaligenes sp.//*//* 0.029 * +EC1.14.12.14 4-toluenesulfonate alcaligenes sp.//*//* 0.108 * +EC1.14.12.14 benzenesulfonate alcaligenes sp.//*//* 0.018 * +EC1.14.12.15 nadh comamonas sp.//*//* 0.051 * +EC1.14.12.15 nadph comamonas sp.//*//* 0.01 * +EC1.14.12.15 terephthalate comamonas sp.//*//* 0.072 * +EC1.14.12.17 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0032 * +EC1.14.12.17 nadh hordeum vulgare//*//* 0.003 * +EC1.14.12.17 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC1.14.12.17 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.14.12.17 nadph hordeum vulgare//*//* 0.003 * +EC1.14.12.17 nitric oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-05 * +EC1.14.12.17 no escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00011 * +EC1.14.12.17 no homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.14.12.17 o2 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.08 * +EC1.14.12.17 o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC1.14.12.17 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2e-05 * +EC1.14.12.17 o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC1.14.12.18 benzene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.00433 * +EC1.14.12.18 biphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.094 * +EC1.14.12.18 biphenyl pandoraea pnomenusa//prokaryotes;bacteria;betaproteobacteria;pandoraea//ppk 0.02 * +EC1.14.12.18 biphenyl paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.00018 * +EC1.14.12.18 biphenyl pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.0027 * +EC1.14.12.18 biphenyl pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.011 * +EC1.14.12.18 ethylbenzene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.0108 * +EC1.14.12.18 toluene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.0117 * +EC1.14.12.22 nadh pseudomonas resinovorans//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pre 0.0034 * +EC1.14.12.22 nadph pseudomonas resinovorans//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pre 0.182 * +EC1.14.12.23 2,6-dinitrotoluene comamonas sp.//*//* 0.851 * +EC1.14.12.23 2-nitrotoluene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.0038 * +EC1.14.12.23 3-nitrotoluene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.0042 * +EC1.14.12.23 naphthalene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.121 * +EC1.14.12.23 nitrobenzene acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.0045 * +EC1.14.12.23 nitrobenzene comamonas sp.//*//* 0.0077 * +EC1.14.12.24 2,4-dinitrotoluene burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.04 * +EC1.14.12.24 o2 burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.05 * +EC1.14.12.3 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00782 * +EC1.14.12.3 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0112 * +EC1.14.12.4 5-hydroxynicotinic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.068 * +EC1.14.12.4 n-methyl-5-hydroxynicotinic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00056 * +EC1.14.12.4 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0054 * +EC1.14.12.4 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0059 * +EC1.14.12.5 5-pyridoxate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.036 * +EC1.14.12.5 nadph arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.01 * +EC1.14.12.5 o2 arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.125 * +EC1.14.12.7 o2 burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.125 * +EC1.14.12.7 phthalate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.0002 * +EC1.14.12.8 4-sulfobenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.025 * +EC1.14.12.9 2,6-dichlorophenolindophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0063 * +EC1.14.12.9 cytochrome c pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0023 * +EC1.14.12.9 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.032 * +EC1.14.13.1 1-hydroxy-2-naphthoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.004 * +EC1.14.13.1 2,3-dihydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.028 * +EC1.14.13.1 2,4-dihydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.143 * +EC1.14.13.1 2,5-dihydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.065 * +EC1.14.13.1 2,6-dihydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.011 * +EC1.14.13.1 3-chlorosalicylate pseudomonas reinekei//*//* 0.0038 * +EC1.14.13.1 3-methylsalicylate pseudomonas reinekei//*//* 0.0127 * +EC1.14.13.1 4-(3-benzothiazol-2-yl-4-cyano-2-oxo-2h-chromen-7-yloxymethyl)-2-hydroxy-benzoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0042 * +EC1.14.13.1 4-chlorosalicylate pseudomonas reinekei//*//* 0.0028 * +EC1.14.13.1 4-methylsalicylate pseudomonas reinekei//*//* 0.0158 * +EC1.14.13.1 5-chlorosalicylate pseudomonas reinekei//*//* 0.0006 * +EC1.14.13.1 5-methylsalicylate pseudomonas reinekei//*//* 0.0024 * +EC1.14.13.1 anthranilate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.028 * +EC1.14.13.1 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0037 * +EC1.14.13.1 nadh pseudomonas reinekei//*//* 0.0158 * +EC1.14.13.1 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0026 * +EC1.14.13.1 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.14.13.1 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.14.13.1 o-nitrophenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.034 * +EC1.14.13.1 o-nitrophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.034 * +EC1.14.13.1 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.13 * +EC1.14.13.1 p-aminosalicylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.015 * +EC1.14.13.1 salicylaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.087 * +EC1.14.13.1 salicylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0016 * +EC1.14.13.1 salicylate pseudomonas reinekei//*//* 0.0096 * +EC1.14.13.1 salicylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0005 * +EC1.14.13.1 salicylate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.0011 * +EC1.14.13.10 2,6-dihydroxypyridine paenarthrobacter nicotinovorans//*//* 0.0083 * +EC1.14.13.101 atropine zonocerus variegatus//*//* 0.00983 * +EC1.14.13.101 heliotrine arctia caja//*//* 0.0186 * +EC1.14.13.101 heliotrine creatonotos transiens//*//* 0.0229 * +EC1.14.13.101 heliotrine tyria jacobaeae//*//* 0.284 * +EC1.14.13.101 heliotrine zonocerus variegatus//*//* 0.2639 * +EC1.14.13.101 monocrotaline arctia caja//*//* 0.0051 * +EC1.14.13.101 monocrotaline creatonotos transiens//*//* 0.0029 * +EC1.14.13.101 monocrotaline tyria jacobaeae//*//* 0.0125 * +EC1.14.13.101 monocrotaline zonocerus variegatus//*//* 0.01193 * +EC1.14.13.101 nadph tyria jacobaeae//*//* 0.0013 * +EC1.14.13.101 phalaenopsine zonocerus variegatus//*//* 0.8376 * +EC1.14.13.101 senecionine arctia caja//*//* 0.0048 * +EC1.14.13.101 senecionine creatonotos transiens//*//* 0.0031 * +EC1.14.13.101 senecionine tyria jacobaeae//*//* 0.0014 * +EC1.14.13.101 senecionine zonocerus variegatus//*//* 0.00108 * +EC1.14.13.102 (+)-marmesin apium graveolens//*//* 0.00054 * +EC1.14.13.102 (+)-marmesin pastinaca sativa//*//* 0.0013 * +EC1.14.13.102 5-hydroxymarmesin apium graveolens//*//* 0.054 * +EC1.14.13.102 5-hydroxymarmesin pastinaca sativa//*//* 0.019 * +EC1.14.13.102 nadph petroselinum crispum//*//* 0.052 * +EC1.14.13.103 8-dimethylallylnaringenin sophora flavescens//*//* 0.055 * +EC1.14.13.103 nadph sophora flavescens//*//* 0.034 * +EC1.14.13.105 (1r,4s)-menthone rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.12 * +EC1.14.13.105 (1s,4r)-1-hydroxy-2-oxolimonene rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.13 * +EC1.14.13.105 (4r)-dihydrocarvone rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.13 * +EC1.14.13.105 nadph rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.038 * +EC1.14.13.108 abietadiene abies grandis//*//* 0.0042 * +EC1.14.13.11 (2e)-3-(2-ethoxyphenyl)prop-2-enoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0131 * +EC1.14.13.11 (2e)-3-(2-methoxyphenyl)prop-2-enoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0131 * +EC1.14.13.11 (2e)-3-(2-methylphenyl)prop-2-enoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0131 * +EC1.14.13.11 (2e)-3-(2-nitrophenyl)prop-2-enoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0131 * +EC1.14.13.11 2-chlorocinnamic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0022 * +EC1.14.13.11 2-fluorocinnamic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0023 * +EC1.14.13.11 3-hydroxycinnamic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0131 * +EC1.14.13.11 7-ethoxycoumarin helianthus tuberosus//*//* 0.555 * +EC1.14.13.11 7-methoxycoumarin helianthus tuberosus//*//* 4.0 * +EC1.14.13.11 nadph anthoceros agrestis//*//* 0.06 * +EC1.14.13.11 nadph helianthus tuberosus//*//* 0.013 * +EC1.14.13.11 o2 sorghum sp.//*//* 0.021 * +EC1.14.13.11 p-chloro-n-methylaniline helianthus tuberosus//*//* 1.919 * +EC1.14.13.11 trans-cinnamate ammi majus//*//* 0.0089 * +EC1.14.13.11 trans-cinnamate anthoceros agrestis//*//* 0.005 * +EC1.14.13.11 trans-cinnamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0005 * +EC1.14.13.11 trans-cinnamate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.0025 * +EC1.14.13.11 trans-cinnamate helianthus tuberosus//*//* 0.005 * +EC1.14.13.11 trans-cinnamate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0036 * +EC1.14.13.11 trans-cinnamate ruta graveolens//*//* 1.0 * +EC1.14.13.11 trans-cinnamate sorghum sp.//*//* 0.0023 * +EC1.14.13.112 (22s)-22-hydroxycampest-4-en-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00494 * +EC1.14.13.112 (22s)-22-hydroxycampesterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0181 * +EC1.14.13.112 (22s,24r)-22-hydroxy-5alpha-ergostan-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00861 * +EC1.14.13.112 3-epi-6-deoxocathasterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00106 * +EC1.14.13.112 6-deoxocathasterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0169 * +EC1.14.13.113 nadh klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.5 * +EC1.14.13.113 nadh xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.024 * +EC1.14.13.113 nadph xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.055 * +EC1.14.13.113 urate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.042 * +EC1.14.13.113 urate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.029 * +EC1.14.13.114 4-hydroxybenzoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.15 * +EC1.14.13.114 6-hydroxynicotinate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.098 * +EC1.14.13.115 (+)-columbianetin pastinaca sativa//*//* 0.0014 * +EC1.14.13.115 syn-[3'd]columbianetin pastinaca sativa//*//* 0.0014 * +EC1.14.13.116 geranylhydroquinone lithospermum erythrorhizon//*//* 0.0015 * +EC1.14.13.119 1beta-hydroxy-5-epiaristolochene nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00174 * +EC1.14.13.119 5-epiaristolochene nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01918 * +EC1.14.13.12 2-chlorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.31 * +EC1.14.13.12 2-fluorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.097 * +EC1.14.13.12 2-hydroxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.28 * +EC1.14.13.12 2-methylbenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.6 * +EC1.14.13.12 3-chlorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.127 * +EC1.14.13.12 3-fluorobenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.086 * +EC1.14.13.12 3-methoxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.189 * +EC1.14.13.12 3-methylbenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.673 * +EC1.14.13.12 6,7-dimethyltetrahydropterin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.045 * +EC1.14.13.12 benzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.083 * +EC1.14.13.12 benzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC1.14.13.12 benzoate rhodotorula graminis//*//* 0.029 * +EC1.14.13.12 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.045 * +EC1.14.13.12 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC1.14.13.12 nadph rhodotorula graminis//*//* 0.019 * +EC1.14.13.121 (-)-vetispiradiene hyoscyamus muticus//*//* 0.014 * +EC1.14.13.121 5-epiaristolochene hyoscyamus muticus//*//* 0.0033 * +EC1.14.13.121 valencene hyoscyamus muticus//*//* 0.0074 * +EC1.14.13.125 l-tryptophan arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.021 * +EC1.14.13.125 l-tryptophan sinapis alba//*//* 0.029 * +EC1.14.13.128 1,7-dimethylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0504 * +EC1.14.13.128 3,7-dimethylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.1 * +EC1.14.13.128 7-methylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0153 * +EC1.14.13.128 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.113 * +EC1.14.13.129 3'-hydroxyechinenone agrobacterium aurantiacum//*//* 0.004 * +EC1.14.13.129 3-hydroxyechinenone agrobacterium aurantiacum//*//* 0.00182 * +EC1.14.13.129 beta-carotene agrobacterium aurantiacum//*//* 0.0025 * +EC1.14.13.129 echinenone agrobacterium aurantiacum//*//* 0.00056 * +EC1.14.13.129 phoenicoxanthin agrobacterium aurantiacum//*//* 0.001 * +EC1.14.13.130 nadh rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.094 * +EC1.14.13.130 o2 rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.061 * +EC1.14.13.130 pyrrole-2-carboxylate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.024 * +EC1.14.13.131 dimethyl sulfide hyphomicrobium sulfonivorans//*//* 0.0172 * +EC1.14.13.135 1-hydroxy-2-naphthoate alcaligenes sp.//*//* 0.0716 * +EC1.14.13.135 nadh alcaligenes sp.//*//* 0.087 * +EC1.14.13.135 nadph alcaligenes sp.//*//* 0.0846 * +EC1.14.13.136 7,4'-dihydroxyflavanone glycyrrhiza echinata//*//* 0.008 * +EC1.14.13.137 indole zea mays//eukaryotes;plants;monocots;grass family//zma 0.036 * +EC1.14.13.138 benzoxazin-3-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.018 * +EC1.14.13.138 indolin-2-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.017 * +EC1.14.13.139 3-hydroxyindolin-2-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.031 * +EC1.14.13.140 2-hydroxy-2h-1,4-benzoxazin-3(4h)-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.007 * +EC1.14.13.140 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.005 * +EC1.14.13.141 cholest-4-en-3-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0208 * +EC1.14.13.141 cholesterol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0107 * +EC1.14.13.141 o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC1.14.13.142 1,4-androstadiene-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.11 * +EC1.14.13.142 23,24-bisnorcholesta-4-ene-22-oic acid rhodococcus rhodochrous//*//* 0.01 * +EC1.14.13.142 3-oxo-23,24-bisnorchol-4-en-22-oic acid-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0068 * +EC1.14.13.142 3-oxo-23,24-bisnorchol-4-en-22-oic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC1.14.13.142 3-oxo-23,24-bisnorchola-1,4-dien-22-oic acid-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.017 * +EC1.14.13.142 3-oxo-23,24-bisnorchola-1,4-dien-22-oic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.07 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-1,4-dien-22-oate-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.017 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-1,4-dien-22-oate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.07 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-4-ene-22-oate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC1.14.13.142 3-oxo-23,24-bisnorcholesta-4-ene-22-oyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0068 * +EC1.14.13.142 4-androstene-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.024 * +EC1.14.13.142 androsta-1,4-diene-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC1.14.13.142 o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.09 * +EC1.14.13.143 ent-isokaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.012 * +EC1.14.13.144 syn-pimara-7,15-diene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.002 * +EC1.14.13.144 syn-stemod-13(17)-ene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.009 * +EC1.14.13.145 ent-cassa-12,15-diene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.039 * +EC1.14.13.146 5alpha-acetoxy-10beta-hydroxytaxadiene taxus cuspidata//*//* 0.055 * +EC1.14.13.146 5alpha-acetoxytaxadiene taxus cuspidata//*//* 0.033 * +EC1.14.13.147 (+)-taxusin taxus cuspidata//*//* 0.0076 * +EC1.14.13.148 5-{[3-(dimethylamino)propyl]amino}-8-hydroxy-6h-[1,2,3]triazolo[4,5,1-de]acridin-6-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1116 * +EC1.14.13.148 5-{[3-(dimethylamino)propyl]amino}-8-methoxy-6h-[1,2,3]triazolo[4,5,1-de]acridin-6-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1624 * +EC1.14.13.148 benzydamine canis lupus familiaris//*//* 0.0186 * +EC1.14.13.148 benzydamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0426 * +EC1.14.13.148 ethionamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.336 * +EC1.14.13.148 ethionamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.114 * +EC1.14.13.148 methimazole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.14.13.148 methimazole oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC1.14.13.148 n,n,n-trimethylamine calanus finmarchicus//*//* 0.0003 * +EC1.14.13.148 n,n,n-trimethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC1.14.13.148 nadh aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 2.0 * +EC1.14.13.148 nadph aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.016 * +EC1.14.13.148 nadph calanus finmarchicus//*//* 0.0008 * +EC1.14.13.148 sulindac sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.14.13.149 epoxyphenylacetyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.006 * +EC1.14.13.149 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.023 * +EC1.14.13.149 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC1.14.13.154 erythromycin d saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.008 * +EC1.14.13.157 1,4-cineole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC1.14.13.157 1,4-cineole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.033 * +EC1.14.13.157 1,8-cineole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.14.13.157 1,8-cineole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.14.13.158 artemisinic aldehyde artemisia annua//*//* 0.0026 * +EC1.14.13.158 dihydroartemisinic aldehyde artemisia annua//*//* 0.0088 * +EC1.14.13.16 cyclopentanone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.15 * +EC1.14.13.16 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.001 * +EC1.14.13.160 (+-)-cis-bicyclo[3.2.0]hept-2-en-6-one pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.028 * +EC1.14.13.160 2-methylcyclohexanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.16 * +EC1.14.13.160 2-n-hexylcyclopentanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC1.14.13.160 2-oxo-delta3-4,5,5-trimethylcyclopentenylacetyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.018 * +EC1.14.13.160 2-oxocyclopentyl ethyl acetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.31 * +EC1.14.13.160 4-methylcyclohexanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.4 * +EC1.14.13.160 cyclobutanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.127 * +EC1.14.13.161 (+)-camphor salvia officinalis//*//* 0.034 * +EC1.14.13.162 fad pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.001 * +EC1.14.13.162 fmn pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0004 * +EC1.14.13.162 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.14.13.163 4-(6-hydroxypyridin-3-yl)-4-oxobutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.104 * +EC1.14.13.163 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.175 * +EC1.14.13.165 l-arginine nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.0082 * +EC1.14.13.167 4-nitrophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.012 * +EC1.14.13.167 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1374 * +EC1.14.13.168 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.026 * +EC1.14.13.168 phenylpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.043 * +EC1.14.13.172 2,6-dihydroxybenzoate ralstonia sp.//*//* 0.9398 * +EC1.14.13.172 2-nitrophenol ralstonia sp.//*//* 0.3284 * +EC1.14.13.172 nadh ralstonia sp.//*//* 0.05976 * +EC1.14.13.172 nadph ralstonia sp.//*//* 0.05641 * +EC1.14.13.172 salicylate ralstonia sp.//*//* 0.1071 * +EC1.14.13.175 8-o-methyldihydrosterigmatocystin aspergillus parasiticus//*//* 0.0134 * +EC1.14.13.175 8-o-methylsterigmatocystin aspergillus parasiticus//*//* 0.0012 * +EC1.14.13.178 1-methylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC1.14.13.178 caffeine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC1.14.13.178 paraxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.053 * +EC1.14.13.178 theophylline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0091 * +EC1.14.13.179 3-methylxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.022 * +EC1.14.13.179 caffeine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.042 * +EC1.14.13.179 theobromine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.025 * +EC1.14.13.179 theophylline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.14.13.18 4-hydroxyphenylacetate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.031 * +EC1.14.13.18 nadh delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.095 * +EC1.14.13.18 nadph delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.25 * +EC1.14.13.18 o2 delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.067 * +EC1.14.13.180 aklavinone streptomyces purpurascens//*//* 0.01 * +EC1.14.13.180 nadph streptomyces purpurascens//*//* 2.0 * +EC1.14.13.181 13-deoxycarminomycin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0025 * +EC1.14.13.181 13-deoxydaunorubicin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0011 * +EC1.14.13.181 13-dihydrodaunorubicin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0046 * +EC1.14.13.181 daunorubicin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0009 * +EC1.14.13.182 2-heptyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00011 * +EC1.14.13.182 2-nonyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00013 * +EC1.14.13.182 2-pentyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0016 * +EC1.14.13.182 2-propyl-4(1h)-quinolone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.014 * +EC1.14.13.182 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.032 * +EC1.14.13.182 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.74 * +EC1.14.13.182 o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00052 * +EC1.14.13.184 protopanaxadiol panax notoginseng//*//* 0.034 * +EC1.14.13.188 (9r)-9-deoxo-9-hydroxy-6-deoxyerythronolide b saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.0115 * +EC1.14.13.188 9-aminophenanthrene saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.0103 * +EC1.14.13.188 androstenedione saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.261 * +EC1.14.13.188 dehydroepiandrostenedione saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.326 * +EC1.14.13.188 testosterone saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.278 * +EC1.14.13.189 nadph streptomyces sahachiroi//*//* 2.4 * +EC1.14.13.190 abieta-8,11,13-triene salvia rosmarinus//*//* 0.025 * +EC1.14.13.191 ent-cassadiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.002 * +EC1.14.13.191 ent-kaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.007 * +EC1.14.13.191 ent-sandaracopimaradiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0023 * +EC1.14.13.193 ent-cassadiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.004 * +EC1.14.13.193 ent-isokaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.015 * +EC1.14.13.193 ent-kaurene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.005 * +EC1.14.13.193 ent-pimaradiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.004 * +EC1.14.13.193 ent-sandaracopimaradien-3beta-ol oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.007 * +EC1.14.13.193 syn-pimaradiene oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.002 * +EC1.14.13.194 3-hydroxypalmitate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0564 * +EC1.14.13.194 3-hydroxystearate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC1.14.13.194 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0235 * +EC1.14.13.194 erythromycin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC1.14.13.194 oleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC1.14.13.194 palmitic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC1.14.13.195 l-ornithine saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.286 * +EC1.14.13.195 nadh aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.1 * +EC1.14.13.195 nadph aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.012 * +EC1.14.13.196 l-ornithine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.3 * +EC1.14.13.196 nadh aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.1 * +EC1.14.13.196 nadph aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.012 * +EC1.14.13.198 monacolin l acid aspergillus terreus//*//* 0.0062 * +EC1.14.13.2 2,4-dihydroxybenzoate acinetobacter calcoaceticus//*//* 0.25 * +EC1.14.13.2 2,4-dihydroxybenzoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.014 * +EC1.14.13.2 3-chloro-4-hydroxybenzoate acinetobacter calcoaceticus//*//* 0.18 * +EC1.14.13.2 4-hydroxybenzoate acinetobacter calcoaceticus//*//* 0.041 * +EC1.14.13.2 4-hydroxybenzoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.036 * +EC1.14.13.2 4-hydroxybenzoate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.022 * +EC1.14.13.2 4-hydroxybenzoate moraxella sp.//*//* 0.0095 * +EC1.14.13.2 4-hydroxybenzoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0109 * +EC1.14.13.2 4-hydroxybenzoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0006 * +EC1.14.13.2 4-hydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.075 * +EC1.14.13.2 4-hydroxybenzoate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.003 * +EC1.14.13.2 4-hydroxybenzoate rhodococcus rhodnii//*//* 0.0073 * +EC1.14.13.2 4-hydroxybenzoate rhodococcus rhodochrous//*//* 0.0072 * +EC1.14.13.2 4-hydroxybenzoate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.0033 * +EC1.14.13.2 nadh moraxella sp.//*//* 0.037 * +EC1.14.13.2 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.08 * +EC1.14.13.2 nadh rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0122 * +EC1.14.13.2 nadh rhodococcus rhodnii//*//* 0.0398 * +EC1.14.13.2 nadh rhodococcus rhodochrous//*//* 0.0167 * +EC1.14.13.2 nadh rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.0139 * +EC1.14.13.2 nadp+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.027 * +EC1.14.13.2 nadph corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.195 * +EC1.14.13.2 nadph klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.025 * +EC1.14.13.2 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0232 * +EC1.14.13.2 nadph pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0227 * +EC1.14.13.2 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.14 * +EC1.14.13.2 nadph rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0238 * +EC1.14.13.2 nadph rhodococcus rhodnii//*//* 0.155 * +EC1.14.13.2 nadph rhodococcus rhodochrous//*//* 0.0226 * +EC1.14.13.2 o2 klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.037 * +EC1.14.13.2 o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0371 * +EC1.14.13.2 o2 pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.05 * +EC1.14.13.20 2,4-dichlorophenol acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.004 * +EC1.14.13.20 2,4-dichlorophenol burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.014 * +EC1.14.13.20 2,4-dichlorophenol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.002 * +EC1.14.13.20 2,4-dichlorophenol proteobacteria//prokaryotes;bacteria;betaproteobacteria;unclassified betaproteobacteria//beb 0.003 * +EC1.14.13.20 2,4-dichlorophenol soil bacterium//*//* 0.005 * +EC1.14.13.20 nadh cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.3 * +EC1.14.13.20 nadh proteobacteria//prokaryotes;bacteria;betaproteobacteria;unclassified betaproteobacteria//beb 0.042 * +EC1.14.13.20 nadph acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.083 * +EC1.14.13.20 nadph burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.1 * +EC1.14.13.20 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.048 * +EC1.14.13.20 nadph proteobacteria//prokaryotes;bacteria;betaproteobacteria;unclassified betaproteobacteria//beb 0.024 * +EC1.14.13.20 nadph soil bacterium//*//* 0.006 * +EC1.14.13.20 o2 acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.057 * +EC1.14.13.200 nadh streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.082 * +EC1.14.13.200 nadph streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.26 * +EC1.14.13.200 tetracenomycin a2 streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.0018 * +EC1.14.13.202 methyl (2e,6e)-farnesoate diploptera punctata//*//* 0.38 * +EC1.14.13.202 methyl (2e,6e)-farnesoate locusta migratoria//*//* 0.0077 * +EC1.14.13.205 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.13.205 arachidonic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.14.13.205 arachidonic acid starmerella bombicola//*//* 0.054 * +EC1.14.13.205 lauric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC1.14.13.205 lauric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.14.13.205 linoleic acid starmerella bombicola//*//* 0.068 * +EC1.14.13.205 myristic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.14.13.205 myristic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.14.13.205 oleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.136 * +EC1.14.13.205 oleic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC1.14.13.205 oleic acid starmerella bombicola//*//* 0.04 * +EC1.14.13.205 palmitic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.096 * +EC1.14.13.208 benzoyl-coa azoarcus evansii//*//* 0.03 * +EC1.14.13.21 apigenin fragaria vesca//eukaryotes;plants;eudicots;rose family//fve 0.048 * +EC1.14.13.21 apigenin fragaria x ananassa//*//* 0.0001 * +EC1.14.13.21 apigenin perilla frutescens//*//* 0.019 * +EC1.14.13.21 apigenin torenia sp.//*//* 0.021 * +EC1.14.13.21 dihydrokaempferol perilla frutescens//*//* 0.02 * +EC1.14.13.21 dihydrokaempferol torenia sp.//*//* 0.004 * +EC1.14.13.21 kaempferol columnea hybrida//*//* 0.00715 * +EC1.14.13.21 kaempferol torenia sp.//*//* 0.003 * +EC1.14.13.21 nadph columnea hybrida//*//* 0.0058 * +EC1.14.13.21 naringenin citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 24.0 * +EC1.14.13.21 naringenin fragaria vesca//eukaryotes;plants;eudicots;rose family//fve 0.004 * +EC1.14.13.21 naringenin fragaria x ananassa//*//* 0.001 * +EC1.14.13.21 naringenin perilla frutescens//*//* 0.02 * +EC1.14.13.21 naringenin torenia sp.//*//* 0.0008 * +EC1.14.13.210 4-nitrophenol burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.35 * +EC1.14.13.212 1,3,7-trimethylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0102 * +EC1.14.13.212 1,3-dimethylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1265 * +EC1.14.13.212 1-methylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0012 * +EC1.14.13.212 3,7-dimethylurate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0013 * +EC1.14.13.22 (+)-camphor acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 1.0 * +EC1.14.13.22 1,3-dithiane acinetobacter calcoaceticus//*//* 0.045 * +EC1.14.13.22 1-phenyl-2-propanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.33 * +EC1.14.13.22 2-hydroxycyclobutanone ilyonectria destructans//*//* 0.12 * +EC1.14.13.22 2-hydroxycyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0112 * +EC1.14.13.22 2-hydroxycyclohexanone xanthobacter sp.//*//* 0.0093 * +EC1.14.13.22 2-methylcyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.012 * +EC1.14.13.22 2-methylcyclohexyl boronic acid acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.07 * +EC1.14.13.22 2-phenyl-1-ethanal acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.35 * +EC1.14.13.22 2-phenylcyclohexanone ilyonectria destructans//*//* 0.33 * +EC1.14.13.22 3-thiacyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.01 * +EC1.14.13.22 4-hydroxycyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.39 * +EC1.14.13.22 4-methylcyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.009 * +EC1.14.13.22 4-thiacyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.021 * +EC1.14.13.22 butanal acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.025 * +EC1.14.13.22 cis-hex-2-enyl phenyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0096 * +EC1.14.13.22 cuprizone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0035 * +EC1.14.13.22 cyclobutanone ilyonectria destructans//*//* 0.007 * +EC1.14.13.22 cycloheptanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.2 * +EC1.14.13.22 cycloheptanone ilyonectria destructans//*//* 0.88 * +EC1.14.13.22 cyclohexan-1,2-dione acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.17 * +EC1.14.13.22 cyclohexan-1,2-dione xanthobacter sp.//*//* 0.143 * +EC1.14.13.22 cyclohexan-1,4-dione xanthobacter sp.//*//* 0.19 * +EC1.14.13.22 cyclohexanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.004 * +EC1.14.13.22 cyclohexanone exophiala jeanselmei//*//* 0.00048 * +EC1.14.13.22 cyclohexanone ilyonectria destructans//*//* 0.04 * +EC1.14.13.22 cyclohexanone xanthobacter sp.//*//* 0.0005 * +EC1.14.13.22 cyclooctanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 1.8 * +EC1.14.13.22 cyclooctanone ilyonectria destructans//*//* 1.03 * +EC1.14.13.22 cyclopentanone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 3.6 * +EC1.14.13.22 cyclopentanone ilyonectria destructans//*//* 4.66 * +EC1.14.13.22 dihydrocarvone acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.64 * +EC1.14.13.22 ethyl p-tolyl sulfide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.22 * +EC1.14.13.22 iodide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 2.5 * +EC1.14.13.22 n-butylboronic acid acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.009 * +EC1.14.13.22 n-octylboronic acid acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0025 * +EC1.14.13.22 nadph acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.02 * +EC1.14.13.22 nadph exophiala jeanselmei//*//* 0.0142 * +EC1.14.13.22 nadph nocardia globerula//*//* 0.0185 * +EC1.14.13.22 nadph rhodococcus sp. hi-31//*//* 0.014 * +EC1.14.13.22 nadph xanthobacter sp.//*//* 0.0125 * +EC1.14.13.22 norcamphor acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.14 * +EC1.14.13.22 o2 acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.1 * +EC1.14.13.22 phenyl allyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.03 * +EC1.14.13.22 phenyl allyl sulfide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.11 * +EC1.14.13.22 phenyl methyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.044 * +EC1.14.13.22 phenyl propargyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.128 * +EC1.14.13.22 phenylboronic acid acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.043 * +EC1.14.13.22 thiane sulfoxide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.178 * +EC1.14.13.22 thiane acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.024 * +EC1.14.13.22 trans-hex-2-enyl phenyl selenide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0068 * +EC1.14.13.22 triethyl phosphite acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.36 * +EC1.14.13.221 cholest-4-en-3-one mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0103 * +EC1.14.13.221 cholest-4-en-3-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0118 * +EC1.14.13.221 cholesterol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0077 * +EC1.14.13.223 3-hydroxy-4-methylanthranilyl-[aryl-carrier protein] streptosporangium sibiricum//*//* 0.743 * +EC1.14.13.225 [f-actin]-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.14.13.225 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC1.14.13.225 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC1.14.13.23 2,3-dihydroxybenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.06 * +EC1.14.13.23 2,5-dihydroxybenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.5 * +EC1.14.13.23 3,5-dihydroxybenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.04 * +EC1.14.13.23 3-hydroxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.19 * +EC1.14.13.23 3-hydroxybenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.03 * +EC1.14.13.23 4-fluoro-3-hydroxybenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.12 * +EC1.14.13.23 m-hydroxybenzoate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.03 * +EC1.14.13.23 nadh comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 3.0 * +EC1.14.13.23 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.2 * +EC1.14.13.23 nadph comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.02 * +EC1.14.13.230 butane thauera butanivorans//*//* 0.00024 * +EC1.14.13.230 ethane thauera butanivorans//*//* 0.0022 * +EC1.14.13.230 methane thauera butanivorans//*//* 1.1 * +EC1.14.13.230 pentane thauera butanivorans//*//* 0.00034 * +EC1.14.13.230 propane thauera butanivorans//*//* 0.00094 * +EC1.14.13.231 anhydrotetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.13 * +EC1.14.13.231 chlorotetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.11 * +EC1.14.13.231 chlortetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.11 * +EC1.14.13.231 chlortetracycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.11 * +EC1.14.13.231 demeclocycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.0199 * +EC1.14.13.231 demeclocycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.02 * +EC1.14.13.231 doxycycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.083 * +EC1.14.13.231 doxycycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.084 * +EC1.14.13.231 minocycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.0284 * +EC1.14.13.231 minocycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.028 * +EC1.14.13.231 nadph bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.133 * +EC1.14.13.231 nadph bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.133 * +EC1.14.13.231 oxycycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.076 * +EC1.14.13.231 oxytetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.076 * +EC1.14.13.231 tetracycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.054 * +EC1.14.13.231 tetracycline bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.054 * +EC1.14.13.231 tigecycline bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.044 * +EC1.14.13.236 methyl 4-tolyl sulfide burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.068 * +EC1.14.13.236 methyl 4-tolyl sulfide pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.011 * +EC1.14.13.236 methyl phenyl sulfide burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.129 * +EC1.14.13.236 methyl phenyl sulfide pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.115 * +EC1.14.13.236 toluene pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.005 * +EC1.14.13.24 2,3-dihydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.051 * +EC1.14.13.24 2,5-dihydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.14 * +EC1.14.13.24 3,5-dihydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.25 * +EC1.14.13.24 3-hydroxybenzoate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.162 * +EC1.14.13.24 3-hydroxybenzoate micrococcus sp.//*//* 0.063 * +EC1.14.13.24 3-hydroxybenzoate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.027 * +EC1.14.13.24 nadh burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.04 * +EC1.14.13.24 nadh klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.07 * +EC1.14.13.24 nadh micrococcus sp.//*//* 0.095 * +EC1.14.13.24 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.16 * +EC1.14.13.24 nadh rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.048 * +EC1.14.13.24 nadph burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.064 * +EC1.14.13.24 nadph klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.07 * +EC1.14.13.24 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.8 * +EC1.14.13.24 nadph rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.39 * +EC1.14.13.24 o2 burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.13 * +EC1.14.13.25 furan methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.035 * +EC1.14.13.25 methane methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.003 * +EC1.14.13.25 methane methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.025 * +EC1.14.13.25 nadh methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.0558 * +EC1.14.13.25 nadh methylocystis sp.//prokaryotes;bacteria;alphaproteobacteria;methylocystis//msc 0.0064 * +EC1.14.13.25 nadh methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.05 * +EC1.14.13.25 nadph methylocystis sp.//prokaryotes;bacteria;alphaproteobacteria;methylocystis//msc 5.2 * +EC1.14.13.25 o2 methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.0168 * +EC1.14.13.27 4-aminobenzoate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.0204 * +EC1.14.13.27 nadh agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.0136 * +EC1.14.13.27 nadph agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.133 * +EC1.14.13.27 o2 agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.2 * +EC1.14.13.28 (6ar,11ar)-3,9-dihydroxypterocarpan glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00016 * +EC1.14.13.29 4-nitrocatechol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC1.14.13.29 4-nitrocatechol nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.0083 * +EC1.14.13.30 12-hydroxy-5,8,10,14-eicosatetraenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0142 * +EC1.14.13.30 12-hydroxystearate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0409 * +EC1.14.13.30 20-hydroxy-leukotriene b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC1.14.13.30 5-deoxy-leukotriene b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC1.14.13.30 5-epi-leukotriene b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC1.14.13.30 6-trans-12-epi-leukotriene b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC1.14.13.30 6-trans-leukotriene b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0556 * +EC1.14.13.30 leukotriene b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC1.14.13.30 leukotriene b4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.14.13.30 lipoxin a4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0582 * +EC1.14.13.30 lipoxin b4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0179 * +EC1.14.13.30 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.14.13.30 prostaglandin a1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.14.13.30 z12(13)-epoxyoctadec-z9-enoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0618 * +EC1.14.13.30 z9(10)-epoxyoctadec-z12-enoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0466 * +EC1.14.13.30 z9(10)-epoxyoctadecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC1.14.13.31 2-nitrophenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.008 * +EC1.14.13.31 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.14.13.31 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.14.13.32 albendazole s-oxide dicrocoelium dendriticum//*//* 0.0015 * +EC1.14.13.32 albendazole dicrocoelium dendriticum//*//* 0.0047 * +EC1.14.13.32 albendazole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0198 * +EC1.14.13.33 4-hydroxybenzoate corynebacterium cyclohexanicum//*//* 0.035 * +EC1.14.13.33 nadh corynebacterium cyclohexanicum//*//* 0.045 * +EC1.14.13.33 nadph corynebacterium cyclohexanicum//*//* 0.063 * +EC1.14.13.35 anthranilic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.15 * +EC1.14.13.35 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC1.14.13.37 cis-n-methylcanadine corydalis vaginans//*//* 0.0125 * +EC1.14.13.37 nadph corydalis vaginans//*//* 0.0625 * +EC1.14.13.38 anhydrotetracycline kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.022 * +EC1.14.13.4 3-(2-hydroxyphenyl)propanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0027 * +EC1.14.13.4 melilotate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.086 * +EC1.14.13.4 melilotate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0013 * +EC1.14.13.4 nadh arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.091 * +EC1.14.13.4 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0047 * +EC1.14.13.4 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC1.14.13.40 2-aminobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC1.14.13.40 n-ethylmaleimide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.25 * +EC1.14.13.40 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.026 * +EC1.14.13.40 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.5 * +EC1.14.13.40 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.005 * +EC1.14.13.44 2,2'-dihydroxybiphenyl pseudomonas nitroreducens//*//* 0.0034 * +EC1.14.13.44 2-hydroxybiphenyl pseudomonas nitroreducens//*//* 0.0019 * +EC1.14.13.44 2-sec-butylphenol pseudomonas nitroreducens//*//* 0.0057 * +EC1.14.13.44 nadh pseudomonas nitroreducens//*//* 0.0097 * +EC1.14.13.44 nadph pseudomonas nitroreducens//*//* 0.0943 * +EC1.14.13.44 o2 pseudomonas nitroreducens//*//* 0.0292 * +EC1.14.13.47 (-)-limonene mentha x piperita//*//* 0.018 * +EC1.14.13.48 (-)-limonene mentha spicata//*//* 0.02 * +EC1.14.13.49 (-)-limonene perilla frutescens//*//* 0.021 * +EC1.14.13.5 5-hydroxyindoleacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 23.0 * +EC1.14.13.5 imidazoleacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC1.14.13.5 indoleacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 64.0 * +EC1.14.13.5 n-methylimidazoleacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 44.0 * +EC1.14.13.5 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.002 * +EC1.14.13.5 o2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC1.14.13.5 sodium diethyldithiocarbamate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.01 * +EC1.14.13.50 2,3,5,6-tetrachlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0056 * +EC1.14.13.50 2,6-dichlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0126 * +EC1.14.13.50 3,4,5-trichlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.059 * +EC1.14.13.50 3,5-dichlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.098 * +EC1.14.13.50 nadh flavobacterium sp.//*//* 0.214 * +EC1.14.13.50 nadph flavobacterium sp.//*//* 0.082 * +EC1.14.13.50 pentachlorophenol flavobacterium sp.//*//* 0.03 * +EC1.14.13.50 pentachlorophenol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.001 * +EC1.14.13.52 biochanin a cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 12.5 * +EC1.14.13.52 biochanin a medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.11 * +EC1.14.13.52 formononetin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 11.0 * +EC1.14.13.52 formononetin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.05 * +EC1.14.13.53 biochanin a cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 13.0 * +EC1.14.13.53 formononetin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 3.3 * +EC1.14.13.54 androstenedione ilyonectria destructans//*//* 0.04 * +EC1.14.13.54 nadph ilyonectria destructans//*//* 0.002 * +EC1.14.13.54 nadph rhodococcus rhodochrous//*//* 0.00044 * +EC1.14.13.54 o2 ilyonectria destructans//*//* 0.07 * +EC1.14.13.54 phenylacetone rhodococcus rhodochrous//*//* 1.0 * +EC1.14.13.54 progesterone ilyonectria destructans//*//* 0.0004 * +EC1.14.13.54 progesterone rhodococcus rhodochrous//*//* 0.055 * +EC1.14.13.55 6-hydroxyallocryptopine eschscholzia californica//*//* 0.0087 * +EC1.14.13.55 6-hydroxyprotopine eschscholzia californica//*//* 0.00645 * +EC1.14.13.55 protopine eschscholzia californica//*//* 0.002 * +EC1.14.13.58 benzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC1.14.13.58 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.125 * +EC1.14.13.59 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0033 * +EC1.14.13.59 l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.105 * +EC1.14.13.59 l-lysine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.2 * +EC1.14.13.59 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC1.14.13.59 nadh mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.1 * +EC1.14.13.59 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.14.13.59 nadph mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.4 * +EC1.14.13.6 3-acetylpyridine nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.65 * +EC1.14.13.6 3-cresol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.14.13.6 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.13 * +EC1.14.13.6 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.07 * +EC1.14.13.6 orcinol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.026 * +EC1.14.13.6 resorcinol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.19 * +EC1.14.13.62 1h-4-oxoquinoline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.025 * +EC1.14.13.62 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.087 * +EC1.14.13.63 3,4-dihydroxyphenylacetate flavobacterium sp.//*//* 0.09 * +EC1.14.13.63 3-hydroxyphenylacetate flavobacterium sp.//*//* 0.079 * +EC1.14.13.63 nadh flavobacterium sp.//*//* 0.15 * +EC1.14.13.63 nadph flavobacterium sp.//*//* 0.14 * +EC1.14.13.64 2,3,5,6-tetrafluoro-4-hydroxybenzoate candida parapsilosis//*//* 0.03 * +EC1.14.13.64 2,4-dihydroxybenzoate candida parapsilosis//*//* 0.007 * +EC1.14.13.64 2,5-difluoro-4-hydroxybenzoate candida parapsilosis//*//* 0.005 * +EC1.14.13.64 2,6-difluoro-4-hydroxybenzoate candida parapsilosis//*//* 0.004 * +EC1.14.13.64 2-chloro-4-hydroxybenzoate candida parapsilosis//*//* 0.025 * +EC1.14.13.64 2-fluoro-4-hydroxybenzoate candida parapsilosis//*//* 0.018 * +EC1.14.13.64 3,4-dihydroxybenzoate candida parapsilosis//*//* 0.009 * +EC1.14.13.64 3-amino-4-hydroxybenzoate candida parapsilosis//*//* 0.013 * +EC1.14.13.64 3-fluoro-4-hydroxybenzoate candida parapsilosis//*//* 0.008 * +EC1.14.13.64 4-hydroxy-3-methoxybenzoate candida parapsilosis//*//* 0.125 * +EC1.14.13.64 4-hydroxybenzoate candida parapsilosis//*//* 0.01 * +EC1.14.13.64 nadh candida parapsilosis//*//* 0.019 * +EC1.14.13.64 nadph candida parapsilosis//*//* 0.169 * +EC1.14.13.66 2-hydroxycyclohexan-1-one acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0062 * +EC1.14.13.66 nadph acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0053 * +EC1.14.13.67 quinine canis lupus familiaris//*//* 0.138 * +EC1.14.13.67 quinine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC1.14.13.67 quinine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0297 * +EC1.14.13.67 quinine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0227 * +EC1.14.13.69 propene gordonia rubripertincta//*//* 0.016 * +EC1.14.13.69 trichlorethene gordonia rubripertincta//*//* 0.187 * +EC1.14.13.7 2-fluorophenol cutaneotrichosporon cutaneum//*//* 0.005 * +EC1.14.13.7 3-chlorophenol cutaneotrichosporon cutaneum//*//* 0.055 * +EC1.14.13.7 3-fluorophenol cutaneotrichosporon cutaneum//*//* 0.008 * +EC1.14.13.7 4-chlorophenol cutaneotrichosporon cutaneum//*//* 0.039 * +EC1.14.13.7 4-fluorophenol cutaneotrichosporon cutaneum//*//* 0.017 * +EC1.14.13.7 catechol cutaneotrichosporon cutaneum//*//* 0.012 * +EC1.14.13.7 nadh pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.03779 * +EC1.14.13.7 nadph cutaneotrichosporon cutaneum//*//* 0.03 * +EC1.14.13.7 nadph pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.9 * +EC1.14.13.7 o2 cutaneotrichosporon cutaneum//*//* 0.053 * +EC1.14.13.7 phenol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.7 * +EC1.14.13.7 phenol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.005 * +EC1.14.13.7 phenol cutaneotrichosporon cutaneum//*//* 0.003 * +EC1.14.13.7 phenol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0014 * +EC1.14.13.7 phenol pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.0017 * +EC1.14.13.7 phenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0013 * +EC1.14.13.7 phenol pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.61 * +EC1.14.13.7 resorcinol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0015 * +EC1.14.13.7 resorcinol cutaneotrichosporon cutaneum//*//* 0.032 * +EC1.14.13.70 (3beta,4alpha,5alpha)-4,14-dimethylcholest-8-en-3-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.116 * +EC1.14.13.70 14alpha-methylzymosterol leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.00911 * +EC1.14.13.70 24,25-dihydrolanosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC1.14.13.70 24-methylene-24,25-dihydrolanosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0077 * +EC1.14.13.70 7-lanostene-3beta,32-diol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC1.14.13.70 8-lanostene-3beta,32-diol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC1.14.13.70 eburicol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0041 * +EC1.14.13.70 lanosterol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0031 * +EC1.14.13.70 lanosterol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0074 * +EC1.14.13.70 lanosterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.14.13.70 lanosterol leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.01204 * +EC1.14.13.70 lanosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC1.14.13.70 norlanosterol leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.01852 * +EC1.14.13.70 obtusifoliol leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.01131 * +EC1.14.13.70 obtusifoliol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC1.14.13.70 obtusifoliol zea mays//eukaryotes;plants;monocots;grass family//zma 0.16 * +EC1.14.13.71 (s)-n-methylcoclaurine eschscholzia californica//*//* 0.015 * +EC1.14.13.72 24-ethylidenelophenol zea mays//eukaryotes;plants;monocots;grass family//zma 0.48 * +EC1.14.13.72 24-methylcycloartanol zea mays//eukaryotes;plants;monocots;grass family//zma 0.15 * +EC1.14.13.72 24-methylenelophenol zea mays//eukaryotes;plants;monocots;grass family//zma 0.34 * +EC1.14.13.72 cycloeucalenol zea mays//eukaryotes;plants;monocots;grass family//zma 0.09 * +EC1.14.13.72 cyclolaudenol zea mays//eukaryotes;plants;monocots;grass family//zma 0.25 * +EC1.14.13.73 nadph catharanthus roseus//*//* 0.014 * +EC1.14.13.73 tabersonine catharanthus roseus//*//* 7e-05 * +EC1.14.13.74 7-deoxyloganin lonicera japonica//*//* 0.17 * +EC1.14.13.74 nadph lonicera japonica//*//* 0.018 * +EC1.14.13.75 nadph rauvolfia serpentina//*//* 3.0 * +EC1.14.13.75 vinorine rauvolfia serpentina//*//* 26.0 * +EC1.14.13.77 taxa-4(20),11-dien-5alpha-ol taxus cuspidata//*//* 0.014 * +EC1.14.13.77 taxa-4(20),11-dien-5alpha-yl-acetate taxus cuspidata//*//* 0.024 * +EC1.14.13.78 ent-kaur-16-ene fusarium fujikuroi//*//* 0.0063 * +EC1.14.13.80 (+)-limonene carum carvi//*//* 0.0114 * +EC1.14.13.84 2,4-pentanedione pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.9 * +EC1.14.13.84 2,4-pentanedione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.857 * +EC1.14.13.84 2-acetylpyridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.2 * +EC1.14.13.84 2-acetylpyrrole pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.33 * +EC1.14.13.84 2-acetylpyrrole pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.103 * +EC1.14.13.84 2-decanone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.953 * +EC1.14.13.84 2-hydroxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.61 * +EC1.14.13.84 2-hydroxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.121 * +EC1.14.13.84 2-phenylpropionaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 21.24 * +EC1.14.13.84 2-pyrrole carboxaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.41 * +EC1.14.13.84 3'-hydroxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.246 * +EC1.14.13.84 3-aminoacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.287 * +EC1.14.13.84 3-chloro-2-butanone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.0 * +EC1.14.13.84 3-hydroxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.4 * +EC1.14.13.84 3-methoxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0885 * +EC1.14.13.84 3-nitroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.244 * +EC1.14.13.84 4-acetylpyridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.9 * +EC1.14.13.84 4-aminoacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.003 * +EC1.14.13.84 4-aminoacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0056 * +EC1.14.13.84 4-chloroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.14.13.84 4-fluoroacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.0 * +EC1.14.13.84 4-fluoroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.208 * +EC1.14.13.84 4-hydroxy-3-methylacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.38 * +EC1.14.13.84 4-hydroxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0092 * +EC1.14.13.84 4-hydroxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0381 * +EC1.14.13.84 4-hydroxybenzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.1 * +EC1.14.13.84 4-hydroxypropiophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0024 * +EC1.14.13.84 4-hydroxypropiophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.023 * +EC1.14.13.84 4-methoxyacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.54 * +EC1.14.13.84 4-methoxyacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.199 * +EC1.14.13.84 4-methylacetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.16 * +EC1.14.13.84 4-methylacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.241 * +EC1.14.13.84 4-nitroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.313 * +EC1.14.13.84 acetophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.27 * +EC1.14.13.84 acetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.384 * +EC1.14.13.84 acetylcyclohexane pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.8 * +EC1.14.13.84 benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.6 * +EC1.14.13.84 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.257 * +EC1.14.13.84 bicyclohept-2-en-6-one pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.3 * +EC1.14.13.84 butyrophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.0 * +EC1.14.13.84 butyrophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 30.75 * +EC1.14.13.84 cyclohexane carboxaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.0 * +EC1.14.13.84 hydroxyacetone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 29.0 * +EC1.14.13.84 isobutyrophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.54 * +EC1.14.13.84 methyl 4-tolyl sulfide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.37 * +EC1.14.13.84 methyl-4-tolyl sulfide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.85 * +EC1.14.13.84 methylphenyl sulfide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.4 * +EC1.14.13.84 nadh pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.44 * +EC1.14.13.84 nadph pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.012 * +EC1.14.13.84 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0175 * +EC1.14.13.84 propiophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.53 * +EC1.14.13.84 propiophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0894 * +EC1.14.13.84 trifluoroacetophenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.112 * +EC1.14.13.85 2-(or 4-)dimethylallyl-(6as,11as)-3,6a,9-trihydroxypterocarpan glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.002 * +EC1.14.13.85 perrhenate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.03 * +EC1.14.13.89 biochanin a medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.051 * +EC1.14.13.89 formononetin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.067 * +EC1.14.13.89 nadph medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.00017 * +EC1.14.13.9 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00012 * +EC1.14.13.9 kynurenine ephestia kuehniella//*//* 0.33 * +EC1.14.13.9 kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.14.13.9 kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC1.14.13.9 l-kynurenine meriones unguiculatus//*//* 0.0164 * +EC1.14.13.9 l-kynurenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC1.14.13.9 nadph ephestia kuehniella//*//* 0.15 * +EC1.14.13.9 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.14.13.9 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC1.14.13.91 10-deoxysarpagine rauvolfia serpentina//*//* 0.0074 * +EC1.14.13.91 nadph rauvolfia serpentina//*//* 0.025 * +EC1.14.13.92 (2-methylphenyl)acetone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.83 * +EC1.14.13.92 2-dodecanone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC1.14.13.92 2-dodecanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.26 * +EC1.14.13.92 2-octanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 2.0 * +EC1.14.13.92 2-phenylcyclohexanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 4.0 * +EC1.14.13.92 4-hydroxyacetophenone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 2.2 * +EC1.14.13.92 benzylacetone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.52 * +EC1.14.13.92 benzylacetone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.36 * +EC1.14.13.92 bicyclohept-2-en-6-one thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 15.0 * +EC1.14.13.92 cyclopentanone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 1200.0 * +EC1.14.13.92 ethionamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.34 * +EC1.14.13.92 methyl 4-tolylsulfide thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.86 * +EC1.14.13.92 nadph thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.0007 * +EC1.14.13.92 phenylacetone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.061 * +EC1.14.13.92 phenylacetone thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.059 * +EC1.14.13.93 (+)-abscisic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0034 * +EC1.14.13.93 (+)-s-abscisate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0013 * +EC1.14.13.93 (+)-s-abscisate zea mays//eukaryotes;plants;monocots;grass family//zma 0.016 * +EC1.14.13.97 taurochenodeoxycholate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0629 * +EC1.14.13.B14 (3s)-(e)-nerolidol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00184 * +EC1.14.13.B14 (3s)-(e,e)-geranyllinalool arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00268 * +EC1.14.13.B14 (3s,6e)-nerolidol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00184 * +EC1.14.13.B14 (e,e)-geranyllinalool arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00268 * +EC1.14.13.B28 nadh sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 13.0 * +EC1.14.13.B28 styrene sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.29 * +EC1.14.13.B3 (s)-nicotine nicotiana alata//*//* 0.0203 * +EC1.14.13.B3 (s)-nicotine nicotiana langsdorffii//*//* 0.0684 * +EC1.14.13.B3 nicotine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC1.14.13.B3 nicotine nicotiana sylvestris//eukaryotes;plants;eudicots;nightshade family//nsy 0.015 * +EC1.14.13.B3 nicotine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0039 * +EC1.14.13.B3 nicotine nicotiana tomentosiformis//eukaryotes;plants;eudicots;nightshade family//nto 0.0091 * +EC1.14.14.1 12-methyl-tetradecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0129 * +EC1.14.14.1 13-methyl-tetradecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0165 * +EC1.14.14.1 cytochrome c bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0041 * +EC1.14.14.1 dodecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.102 * +EC1.14.14.1 fenthion-sulfoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.14.14.1 fenthion homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.14.14.1 hexadecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0386 * +EC1.14.14.1 linoleic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0551 * +EC1.14.14.1 myristic acid candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.023 * +EC1.14.14.1 nadh rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 0.126 * +EC1.14.14.1 nadph rhodococcus ruber//prokaryotes;bacteria;actinobacteria;rhodococcus//rrz 0.0034 * +EC1.14.14.1 oleic acid candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.075 * +EC1.14.14.1 omega-(p-nitrophenyl)decanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0245 * +EC1.14.14.1 omega-(p-nitrophenyl)dodecanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0104 * +EC1.14.14.1 omega-(p-nitrophenyl)octanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0618 * +EC1.14.14.1 palmitoleic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0165 * +EC1.14.14.1 stearic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0118 * +EC1.14.14.1 tetradecanoic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0509 * +EC1.14.14.10 fmn aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.0013 * +EC1.14.14.10 nitrilotriacetate aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.0317 * +EC1.14.14.11 styrene pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0046 * +EC1.14.14.11 styrene pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.45 * +EC1.14.14.12 3,17-dihydroxy-9,10-seconandrost-1,3,5(10)-triene-9-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.35 * +EC1.14.14.12 3-hydroxy-9,10-seconandrost-1,3,5(10)-triene-9,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.097 * +EC1.14.14.12 3-hydroxybiphenyl mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.44 * +EC1.14.14.12 o2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC1.14.14.14 16alpha-hydroxytestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC1.14.14.14 androst-4-ene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.14.14.14 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC1.14.14.15 s-((3s)-3-amino-3-(3-chloro-4-hydroxyphenyl)propanoyl)-[peptidyl-carrier protein sgcc2] streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.742 * +EC1.14.14.16 17-hydroxy-progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.5 * +EC1.14.14.16 17-hydroxyprogesterone oncorhynchus mykiss//*//* 0.0038 * +EC1.14.14.16 17-hydroxyprogesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0055 * +EC1.14.14.16 17alpha-hydroxyprogesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0019 * +EC1.14.14.16 17alpha-hydroxyprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00138 * +EC1.14.14.16 progesterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0129 * +EC1.14.14.16 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.14.14.16 progesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0055 * +EC1.14.14.17 1-carba-1-deazafad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00085 * +EC1.14.14.17 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00043 * +EC1.14.14.17 o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0043 * +EC1.14.14.17 squalene candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.05 * +EC1.14.14.17 squalene candida parapsilosis//*//* 0.016 * +EC1.14.14.17 squalene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0036 * +EC1.14.14.17 squalene saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0135 * +EC1.14.14.17 squalene trichophyton rubrum//*//* 0.0133 * +EC1.14.14.18 alpha-meso-oxyprotoheme ix bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0036 * +EC1.14.14.18 co-heme rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC1.14.14.18 fe-heme rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC1.14.14.18 hematoheme rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.14.14.18 heme b bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0009 * +EC1.14.14.18 heme c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.029 * +EC1.14.14.18 heme arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0027 * +EC1.14.14.18 heme bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00093 * +EC1.14.14.18 heme gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0038 * +EC1.14.14.18 heme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.14.14.18 heme pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0269 * +EC1.14.14.18 heme pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0242 * +EC1.14.14.18 heme pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0269 * +EC1.14.14.18 heme rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00024 * +EC1.14.14.18 hemin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.14.14.18 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC1.14.14.18 nadph gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0061 * +EC1.14.14.18 protoheme ix bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0018 * +EC1.14.14.18 protoheme ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0164 * +EC1.14.14.18 protoheme ix rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.14.14.18 protoheme rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC1.14.14.19 17-hydroxypregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.14.14.19 17alpha-hydroxypregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.14.14.19 17alpha-hydroxypregnenolone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0009 * +EC1.14.14.19 17alpha-hydroxyprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000525 * +EC1.14.14.19 17alpha-hydroxyprogesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0024 * +EC1.14.14.19 5alpha-pregnan-3alpha-ol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.14.14.19 pregnenolone cavia porcellus//*//* 8e-05 * +EC1.14.14.19 pregnenolone danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.002 * +EC1.14.14.19 pregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC1.14.14.19 pregnenolone ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0017 * +EC1.14.14.19 pregnenolone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0008 * +EC1.14.14.19 progesterone cavia porcellus//*//* 0.00024 * +EC1.14.14.19 progesterone danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0017 * +EC1.14.14.19 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC1.14.14.19 progesterone ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0016 * +EC1.14.14.19 progesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.42e-05 * +EC1.14.14.19 progesterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC1.14.14.20 fad rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0134 * +EC1.14.14.20 fmn rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0691 * +EC1.14.14.20 nadh rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0533 * +EC1.14.14.20 nadph rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.271 * +EC1.14.14.20 riboflavin rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0677 * +EC1.14.14.21 benzothiophene paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.36 * +EC1.14.14.23 7-dehydrocholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.14.14.23 cholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC1.14.14.23 lathosterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC1.14.14.23 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.14.14.24 1alpha-hydroxycholecalciferol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC1.14.14.24 1alpha-hydroxyvitamin d2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0158 * +EC1.14.14.24 1alpha-hydroxyvitamin d2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0042 * +EC1.14.14.24 1alpha-hydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC1.14.14.24 1alpha-hydroxyvitamin d3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0006 * +EC1.14.14.24 25-hydroxy-vitamin d3 pseudonocardia autotrophica//*//* 0.0071 * +EC1.14.14.24 bufuralol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0014 * +EC1.14.14.24 vitamin d2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC1.14.14.24 vitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC1.14.14.24 vitamin d3 pseudonocardia autotrophica//*//* 0.0135 * +EC1.14.14.24 vitamin d3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00079 * +EC1.14.14.25 (24s)-24-hydroxycholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.14.14.25 cholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC1.14.14.28 hexadecane geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 9.1 * +EC1.14.14.29 17beta-estradiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.14.14.29 4-androstene-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.14.14.29 5alpha-androstane-3beta,17beta-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.14.14.29 5alpha-androstane-3beta,17beta-diol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.14.14.29 cholest-5-ene-3beta,25-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.14.14.29 dehydroepiandrosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.14.14.29 dehydroepiandrosterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.005 * +EC1.14.14.3 aldehydes vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.001 * +EC1.14.14.3 decanal vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0003 * +EC1.14.14.3 fmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0009 * +EC1.14.14.3 fmnh photobacterium phosphoreum//*//* 0.0004 * +EC1.14.14.3 fmnh photorhabdus luminescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;photorhabdus//plu 0.00015 * +EC1.14.14.3 fmnh vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0004 * +EC1.14.14.3 fmnh2 vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.00018 * +EC1.14.14.3 n-decanal vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0012 * +EC1.14.14.3 o2 vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0001 * +EC1.14.14.3 riboflavin vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0013 * +EC1.14.14.32 17alpha-hydroxypregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC1.14.14.32 17alpha-hydroxyprogesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5e-05 * +EC1.14.14.32 5alpha-pregnan-3alpha,17alpha-diol-20-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC1.14.14.33 ethylenediaminetetraacetate edta-degrading bacterium bnc1//*//* 0.0085 * +EC1.14.14.36 1-nitro-2-(4-hydroxyphenyl)ethane sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.05 * +EC1.14.14.36 l-tyrosine sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.14 * +EC1.14.14.36 nadh sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.3 * +EC1.14.14.36 nadph sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.013 * +EC1.14.14.37 p-hydroxyphenylacetaldoxime sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.2 * +EC1.14.14.37 p-hydroxyphenylacetonitrile sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.35 * +EC1.14.14.38 l-isoleucine manihot esculenta//*//* 1.3 * +EC1.14.14.38 l-valine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 1.7 * +EC1.14.14.38 l-valine manihot esculenta//*//* 2.2 * +EC1.14.14.39 l-isoleucine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.7 * +EC1.14.14.39 l-isoleucine manihot esculenta//*//* 1.3 * +EC1.14.14.39 l-valine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 1.7 * +EC1.14.14.40 l-phenylalanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0067 * +EC1.14.14.41 (e)-2-methylbutanal oxime manihot esculenta//*//* 0.021 * +EC1.14.14.42 l-dihomomethionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.034 * +EC1.14.14.42 l-hexahomomethionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.026 * +EC1.14.14.42 l-pentahomomethionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.216 * +EC1.14.14.42 l-tetrahomomethionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.194 * +EC1.14.14.42 l-trihomomethionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.037 * +EC1.14.14.43 (e)-4-hydroxyphenylacetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.065 * +EC1.14.14.43 (e)-phenylacetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.188 * +EC1.14.14.43 indole-3-acetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0031 * +EC1.14.14.44 (e)-phenylacetaldehyde oxime prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.0039 * +EC1.14.14.44 4-hydroxyphenylacetaldoxime prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.007 * +EC1.14.14.44 4-hydroxyphenylacetonitrile prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.195 * +EC1.14.14.44 indole-3-acetaldoxime prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.0082 * +EC1.14.14.44 indole-3-acetonitrile prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.751 * +EC1.14.14.44 phenylacetonitrile prunus mume//eukaryotes;plants;eudicots;rose family//pmum 0.0185 * +EC1.14.14.45 (e)-indol-3-ylacetaldehyde oxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0031 * +EC1.14.14.45 (e)-p-hydroxyphenylacetaldehyde oxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.065 * +EC1.14.14.45 (e)-phenylacetaldehyde oxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.188 * +EC1.14.14.45 indole-3-acetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC1.14.14.45 p-hydroxyphenylacetaldoxime arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.068 * +EC1.14.14.47 2',3'-dialdehyde nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC1.14.14.47 adriamycin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.14.14.47 calmodulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4e-06 * +EC1.14.14.47 dichlorophenolindophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC1.14.14.47 dichlorophenolindophenol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.008 * +EC1.14.14.47 l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC1.14.14.47 l-arginine felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.011 * +EC1.14.14.47 l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC1.14.14.47 l-arginine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC1.14.14.47 l-arginine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00746 * +EC1.14.14.47 l-arginine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0091 * +EC1.14.14.47 l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.14.14.47 l-arginine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0134 * +EC1.14.14.47 l-arginine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0323 * +EC1.14.14.47 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.14.47 mitomycin c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC1.14.14.47 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC1.14.14.47 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0003 * +EC1.14.14.47 nadph nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.000383 * +EC1.14.14.47 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.14.14.47 ngamma-hydroxy-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.019 * +EC1.14.14.47 ngamma-hydroxy-l-arginine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.028 * +EC1.14.14.47 nitroblue tetrazolium sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC1.14.14.47 reduced tetrahydrobiopterin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0001 * +EC1.14.14.47 reduced tetrahydrofolate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0004 * +EC1.14.14.47 tetrahydrobiopterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0016 * +EC1.14.14.47 tetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-05 * +EC1.14.14.5 1,3-dioxo-2-isoindolineethanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.114 * +EC1.14.14.5 2-(4-pyridyl)ethanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.139 * +EC1.14.14.5 4-phenyl-1-butanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC1.14.14.5 butanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.87 * +EC1.14.14.5 decanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC1.14.14.5 hexanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.095 * +EC1.14.14.5 mops escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.617 * +EC1.14.14.5 n-phenyltaurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.237 * +EC1.14.14.5 octanesulfonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.044 * +EC1.14.14.5 octanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.044 * +EC1.14.14.5 pentanesulfonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.189 * +EC1.14.14.5 pipes escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.11 * +EC1.14.14.9 4-hydroxyphenylacetate acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.014 * +EC1.14.14.9 4-hydroxyphenylacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.038 * +EC1.14.14.9 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC1.14.14.9 fad pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0042 * +EC1.14.14.9 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC1.14.14.9 nadh acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.012 * +EC1.14.14.9 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.14.14.9 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.041 * +EC1.14.14.9 phenylacetic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.16 * +EC1.14.14.9 riboflavin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0026 * +EC1.14.15.1 (+)-camphor pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0016 * +EC1.14.15.1 (r)-2-ethylhexanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.086 * +EC1.14.15.1 (s)-2-ethylhexanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.068 * +EC1.14.15.1 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.083 * +EC1.14.15.11 1-deoxypentalenic acid streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.027 * +EC1.14.15.14 15-methylpalmitic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.009 * +EC1.14.15.14 cholest-4-en-3-one mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.036 * +EC1.14.15.14 farnesol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.021 * +EC1.14.15.14 geranylgeraniol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.032 * +EC1.14.15.14 phytanic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.054 * +EC1.14.15.15 (24s)-3beta-hydroxy-24-methyl-5alpha-cholesta-8(14),22-dien-15-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.14.15.15 3beta-hydroxy-5alpha-cholest-8(14)-en-15-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC1.14.15.15 5beta-cholestane-3alpha,7alpha,12alpha-triol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC1.14.15.15 5beta-cholestane-3alpha,7alpha-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.14.15.15 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.14.15.16 1alpha,25-dihydroxy-3-epi-vitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC1.14.15.16 1alpha,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.14.15.16 1alpha,25-dihydroxyvitamin d3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00019 * +EC1.14.15.16 1beta,25-dihydroxy-3-epi-vitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.14.15.16 1beta,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.14.15.16 2-methylene-19-nor-(20r)-1,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC1.14.15.16 2-methylene-19-nor-(20s)-1,25-dihydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC1.14.15.16 25-hydroxyvitamin d3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC1.14.15.18 (24r),25-dihydroxycholecalciferol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.14.15.18 (24r),25-dihydroxyvitamin d3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.0 * +EC1.14.15.18 20-hydroxyvitamin d3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 49.0 * +EC1.14.15.18 24,25-dihydroxycholecalciferol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0013 * +EC1.14.15.18 25-hydroxycholecalciferol cavia porcellus//*//* 0.001 * +EC1.14.15.18 25-hydroxycholecalciferol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0022 * +EC1.14.15.18 25-hydroxycholecalciferol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.8e-05 * +EC1.14.15.18 25-hydroxycholecalciferol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0027 * +EC1.14.15.18 25-hydroxycholecalciferol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.89 * +EC1.14.15.18 25-hydroxycholecalciferol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00097 * +EC1.14.15.18 25-hydroxyvitamin d2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.6 * +EC1.14.15.18 25-hydroxyvitamin d3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.9 * +EC1.14.15.19 androstenedione sorangium cellulosum//prokaryotes;bacteria;deltaproteobacteria;sorangium//scl 0.031 * +EC1.14.15.19 testosterone sorangium cellulosum//prokaryotes;bacteria;deltaproteobacteria;sorangium//scl 0.04 * +EC1.14.15.20 hemin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0013 * +EC1.14.15.20 protoheme arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0013 * +EC1.14.15.22 calcidiol streptomyces griseolus//*//* 0.00091 * +EC1.14.15.22 calciol streptomyces griseolus//*//* 0.00054 * +EC1.14.15.22 vitamin d2 streptomyces griseolus//*//* 0.00059 * +EC1.14.15.3 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.228 * +EC1.14.15.3 decane pseudomonas oleovorans//*//* 0.58 * +EC1.14.15.3 heptanoate pseudomonas oleovorans//*//* 5.2 * +EC1.14.15.3 hexane pseudomonas oleovorans//*//* 6.0 * +EC1.14.15.3 hexanoate pseudomonas oleovorans//*//* 22.0 * +EC1.14.15.3 laurate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC1.14.15.3 laurate pseudomonas oleovorans//*//* 0.032 * +EC1.14.15.3 lauric acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.15 * +EC1.14.15.3 lauric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC1.14.15.3 myristic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC1.14.15.3 nonanoate pseudomonas oleovorans//*//* 0.69 * +EC1.14.15.3 octane pseudomonas oleovorans//*//* 0.77 * +EC1.14.15.3 palmitic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC1.14.15.4 11-deoxycorticosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0008 * +EC1.14.15.4 11-deoxycorticosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0073 * +EC1.14.15.4 11-deoxycortisol curvularia lunata//*//* 0.077 * +EC1.14.15.4 4-androstene-3,17-dione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.013 * +EC1.14.15.4 corticosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0059 * +EC1.14.15.4 deoxycorticosterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC1.14.15.6 17,20-dihydroxyvitamin d2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0181 * +EC1.14.15.6 20-hydroxyvitamin d2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC1.14.15.6 20-hydroxyvitamin d3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.067 * +EC1.14.15.6 20alpha-hydroxycholesterol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC1.14.15.6 adrenodoxin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC1.14.15.6 cholesterol sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC1.14.15.6 cholesterol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC1.14.15.6 vitamin d2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0175 * +EC1.14.15.6 vitamin d3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0296 * +EC1.14.15.7 choline spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.1 * +EC1.14.15.8 11-deoxycortisol bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.093 * +EC1.14.15.8 17alpha-hydroxyprogesterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.56 * +EC1.14.15.8 20alpha-dihydroprogesterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.45 * +EC1.14.15.8 4-androstene-3,17-dione bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.625 * +EC1.14.15.8 corticosterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.095 * +EC1.14.15.8 deoxycorticosterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0015 * +EC1.14.15.8 ferredoxin bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.00314 * +EC1.14.15.8 flavodoxin bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.00734 * +EC1.14.15.8 progesterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0015 * +EC1.14.15.8 testosterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.11 * +EC1.14.15.9 1'-hydroxyspheroidene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0101 * +EC1.14.15.9 1'-hydroxyspheroidene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.0155 * +EC1.14.15.9 spheroidene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0191 * +EC1.14.15.9 spheroidene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.007 * +EC1.14.15.9 spirilloxanthin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0136 * +EC1.14.15.9 spirilloxanthin rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.009 * +EC1.14.16.1 (6r)-l-erythro-5,6,7,8-tetrahydrobiopterin caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.029 * +EC1.14.16.1 (6r)-l-erythro-5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.14.16.1 (s)-carboxymethyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.3 * +EC1.14.16.1 (s)-methyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.3 * +EC1.14.16.1 2-amino-4-hydroxy-6,7-dimethyltetrahydropteridine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.054 * +EC1.14.16.1 4-fluorophenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.14.16.1 5,6,7,8-tetrahydrobiopterin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.14 * +EC1.14.16.1 5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0231 * +EC1.14.16.1 5,6,7,8-tetrahydrobiopterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC1.14.16.1 6,7-dimethyl-5,6,7,8-tetrahydrobiopterin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.044 * +EC1.14.16.1 6,7-dimethyl-5,6,7,8-tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0344 * +EC1.14.16.1 6,7-dimethyltetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC1.14.16.1 6,7-dimethyltetrahydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.14.16.1 6,7-dimethyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.14.16.1 6-methyl-5,6,7,8-tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC1.14.16.1 6-methyltetrahydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.14.16.1 6-methyltetrahydropterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.043 * +EC1.14.16.1 6-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC1.14.16.1 abz-vaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.14.16.1 l-cyclohexylalanine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0024 * +EC1.14.16.1 l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC1.14.16.1 l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.75 * +EC1.14.16.1 l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC1.14.16.1 l-phenylalanine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.059 * +EC1.14.16.1 l-phenylalanine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.287 * +EC1.14.16.1 l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC1.14.16.1 l-phenylalanine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.735 * +EC1.14.16.1 l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC1.14.16.1 l-phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC1.14.16.1 l-tryptophan chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 3.44 * +EC1.14.16.1 l-tryptophan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.9 * +EC1.14.16.1 n-acetyl-(s)-carboxymethyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.8 * +EC1.14.16.1 n-acetyl-(s)-methyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.1 * +EC1.14.16.1 n-acetyl-s-carboxymethyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.15 * +EC1.14.16.1 n-acetyl-s-carboxymethyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 55.97 * +EC1.14.16.1 n-acetyl-s-methyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.54 * +EC1.14.16.1 n-acetyl-s-methyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 58.92 * +EC1.14.16.1 o2 chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.076 * +EC1.14.16.1 phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.14.16.1 phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC1.14.16.1 s-carboxy-methyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC1.14.16.1 s-carboxy-methyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.73 * +EC1.14.16.1 s-carboxymethyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0728 * +EC1.14.16.1 s-carboxymethyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.73 * +EC1.14.16.1 s-methyl-ergothionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC1.14.16.1 s-methyl-ergothionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC1.14.16.1 s-methyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.32 * +EC1.14.16.1 s-methyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 43.25 * +EC1.14.16.1 tetrahydrobiopterin caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.035 * +EC1.14.16.1 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC1.14.16.1 tetrahydrobiopterin legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.125 * +EC1.14.16.1 tetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.14.16.1 thienylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.47 * +EC1.14.16.1 tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC1.14.16.2 (rs)-6-methyl-5,6,7,8-tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.034 * +EC1.14.16.2 2-amino-4-hydroxy-6-methyl-5,6,7,8-tetrahydropteridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC1.14.16.2 6,7-dimethyl-2-amino-4-hydroxy-5,6,7,8-tetrahydopteridine heteropneustes fossilis//*//* 0.0001 * +EC1.14.16.2 6,7-dimethyl-2-amino-4-hydroxy-5,6,7,8-tetrahydopteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.14.16.2 6,7-dimethyl-2-amino-4-hydroxy-5,6,7,8-tetrahydropteridine heteropneustes fossilis//*//* 0.34 * +EC1.14.16.2 6-methyl-5,6,7,8-tetrahydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC1.14.16.2 6-methyl-5,6,7,8-tetrahydropterin portulaca grandiflora//*//* 0.15 * +EC1.14.16.2 6-methyl-5,6,7,8-tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.95 * +EC1.14.16.2 6-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC1.14.16.2 l-phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.16.2 l-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC1.14.16.2 l-tyrosine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.029 * +EC1.14.16.2 l-tyrosine heteropneustes fossilis//*//* 0.04 * +EC1.14.16.2 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.14.16.2 l-tyrosine mucuna pruriens var. utilis//*//* 0.8086 * +EC1.14.16.2 l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.14.16.2 phenylalanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC1.14.16.2 phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC1.14.16.2 tetrahydrobiopterin bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0471 * +EC1.14.16.2 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC1.14.16.2 tetrahydrobiopterin mucuna pruriens var. utilis//*//* 0.0041 * +EC1.14.16.2 tetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.14.16.2 tetrahydrobiopterin schistosoma japonicum//*//* 0.0426 * +EC1.14.16.2 tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC1.14.16.2 tetrahydropterin schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.045 * +EC1.14.16.2 tyramine mucuna pruriens var. utilis//*//* 1.1 * +EC1.14.16.2 tyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC1.14.16.2 tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.14.16.2 tyrosine portulaca grandiflora//*//* 0.5 * +EC1.14.16.2 tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0061 * +EC1.14.16.2 tyrosine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.0095 * +EC1.14.16.4 (6r)-5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC1.14.16.4 (6r)-l-erytho-5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0128 * +EC1.14.16.4 (6r)-l-erythro-5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01789 * +EC1.14.16.4 (6r)-l-erythro-5,6,7,8-tetrahydrobiopterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0344 * +EC1.14.16.4 (7r)-5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC1.14.16.4 2-amino-4-hydroxy-6,7-dimethyl-5,6,7,8-tetrahydropteridine cavia porcellus//*//* 0.006 * +EC1.14.16.4 2-amino-4-hydroxy-6,7-dimethyl-5,6,7,8-tetrahydropteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC1.14.16.4 2-amino-4-hydroxy-6,7-dimethyl-5,6,7,8-tetrahydropteridine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC1.14.16.4 2-amino-4-hydroxy-6-methyl-5,6,7,8-tetrahydropteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.14.16.4 2-amino-4-hydroxy-6-methyltetrahydropteridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.055 * +EC1.14.16.4 2-amino-4-hydroxy-6-methyltetrahydropteridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC1.14.16.4 2-azaisotryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0865 * +EC1.14.16.4 4-azatryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.262 * +EC1.14.16.4 4-methyltryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.994 * +EC1.14.16.4 6-azatryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.295 * +EC1.14.16.4 6-methyl-5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC1.14.16.4 6-methyltryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0151 * +EC1.14.16.4 7-azatryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0662 * +EC1.14.16.4 7-methyltryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0375 * +EC1.14.16.4 l-phenylalanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.032 * +EC1.14.16.4 l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC1.14.16.4 l-tryptophan bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.016 * +EC1.14.16.4 l-tryptophan cavia porcellus//*//* 0.002 * +EC1.14.16.4 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC1.14.16.4 l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0075 * +EC1.14.16.4 l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0021 * +EC1.14.16.4 l-tryptophan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0865 * +EC1.14.16.4 l-tryptophan thunnus albacares//*//* 0.023 * +EC1.14.16.4 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.109 * +EC1.14.16.4 phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC1.14.16.4 phenylalanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.286 * +EC1.14.16.4 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0265 * +EC1.14.16.4 tetrahydrobiopterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.294 * +EC1.14.16.4 tetrahydrobiopterin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.031 * +EC1.14.16.4 tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC1.14.16.5 (6r)-tetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC1.14.16.5 1-o-hexadecylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.66 * +EC1.14.16.5 1-o-pyrenedecyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.14.16.5 1-o-pyrenedecyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0089 * +EC1.14.16.5 2-hexadecyloxypropane-1,3-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0183 * +EC1.14.16.5 2-hexadecylthioethan-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.228 * +EC1.14.16.5 2-octadecyloxyethan-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0313 * +EC1.14.16.5 2-octadecylthioethan-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.521 * +EC1.14.16.5 3-hexadecyloxy-1-methoxypropan-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.265 * +EC1.14.16.5 6-methyl-5,6,7,8-tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.138 * +EC1.14.16.5 6r-5,6,7,8-tetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0246 * +EC1.14.16.5 cis-rs-3-octadec-9'-enyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0397 * +EC1.14.16.5 r-3-dodecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0474 * +EC1.14.16.5 r-3-heptadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0718 * +EC1.14.16.5 r-3-hexadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0329 * +EC1.14.16.5 r-3-nonadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.937 * +EC1.14.16.5 r-3-octadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0415 * +EC1.14.16.5 r-3-pentadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0397 * +EC1.14.16.5 r-3-tridecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0427 * +EC1.14.16.5 rs-2-(1-hexadecyloxy)propan-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.14.16.5 rs-3-(1-hexadecyloxy)-2-hydroxypropane-1-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.173 * +EC1.14.16.5 rs-3-(1-hexadecyloxy)1-methoxypropan-2-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0265 * +EC1.14.16.5 rs-3-(1-hexadecyloxy)propan-1-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.16.5 rs-3-heptyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 51.3 * +EC1.14.16.5 rs-3-hexadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.14.16.5 rs-3-octadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0247 * +EC1.14.16.5 rs-batyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC1.14.16.5 rs-hexadecylthiopropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.121 * +EC1.14.16.5 rs-octadecylthiopropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.428 * +EC1.14.16.5 s-3-(1-hexadecyloxy)-2-hydroxypropane-1-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.137 * +EC1.14.16.5 s-3-hexydecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0375 * +EC1.14.16.5 s-3-octadecyloxypropane-1,2-diol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0204 * +EC1.14.16.5 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00258 * +EC1.14.16.6 (s)-2-hydroxy-2-phenylacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.14.16.6 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.19 * +EC1.14.16.7 6-methyltetrahydropterin streptomyces coeruleorubidus//*//* 0.026 * +EC1.14.16.7 l-phenylalanine streptomyces coeruleorubidus//*//* 1.1 * +EC1.14.17.1 1-(4-chlorophenyl)-3-hydroxyguanidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.45 * +EC1.14.17.1 1-(4-hydroxybenzyl)imidazole bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.9 * +EC1.14.17.1 1-hydroxy-3-(4-methoxyphenyl)guanidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.8 * +EC1.14.17.1 1-phenyl-1-aminomethylethene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.3 * +EC1.14.17.1 2-(4-hydroxyphenyl)prop-2-enylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC1.14.17.1 2-aminoindane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.8 * +EC1.14.17.1 2-bromo-3-(p-hydroxyphenyl)-1-propene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.9 * +EC1.14.17.1 2-chlorophenethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.1 * +EC1.14.17.1 2-hydroxyphenethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 24.0 * +EC1.14.17.1 2-phenylprop-2-enylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.7 * +EC1.14.17.1 3,4-dihydroxyphenethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC1.14.17.1 3-phenylpropylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.2 * +EC1.14.17.1 4-hydroxy-alpha-methylstyrene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.7 * +EC1.14.17.1 4-hydroxybenzyl cyanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC1.14.17.1 ascorbate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.25 * +EC1.14.17.1 ascorbate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.93 * +EC1.14.17.1 ascorbate felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.6 * +EC1.14.17.1 ascorbate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.0 * +EC1.14.17.1 ascorbate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC1.14.17.1 ascorbate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC1.14.17.1 beta,beta-dideuterated tyramine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0906 * +EC1.14.17.1 d-araboascorbic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC1.14.17.1 d-xyloascorbic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.3 * +EC1.14.17.1 dopamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC1.14.17.1 l-araboascorbic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.7 * +EC1.14.17.1 l-xyloascorbic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC1.14.17.1 n-phenylethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.1 * +EC1.14.17.1 o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC1.14.17.1 octopamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 14.0 * +EC1.14.17.1 phenylacetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.4 * +EC1.14.17.1 phenylaminoethyl sulfide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.2 * +EC1.14.17.1 phenylethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC1.14.17.1 tyramine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.55 * +EC1.14.17.1 tyramine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0252 * +EC1.14.17.1 tyramine felis catus//eukaryotes;animals;vertebrates;mammals//fca 2.0 * +EC1.14.17.1 tyramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.14.17.1 tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC1.14.17.3 2,6-difluorohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 19.0 * +EC1.14.17.3 2-aminohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.14.17.3 2-hydroxyhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.86 * +EC1.14.17.3 2-iodohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC1.14.17.3 2-methylhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC1.14.17.3 2-propylmercaptoacetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC1.14.17.3 2-pyridylmercaptoacetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC1.14.17.3 3-(2-furyl)acryloylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC1.14.17.3 3-chlorohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC1.14.17.3 3-indolylacetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC1.14.17.3 3-methylhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.14.17.3 3-phenylthiopropionylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC1.14.17.3 4-aminohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC1.14.17.3 4-bromohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.52 * +EC1.14.17.3 4-chlorohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.62 * +EC1.14.17.3 4-ethylhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC1.14.17.3 4-hydroxyhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC1.14.17.3 4-methoxyhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC1.14.17.3 4-methylhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC1.14.17.3 4-nitrobenzoyl-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC1.14.17.3 4-nitrohippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.47 * +EC1.14.17.3 4-phenylbutyrylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC1.14.17.3 4-propylhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC1.14.17.3 4-trifluoromethylhippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.77 * +EC1.14.17.3 5-phenylpentanoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.14.17.3 6-phenylhexanoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC1.14.17.3 8-phenyloctanoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.17.3 acetyl-d-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1400.0 * +EC1.14.17.3 acetyl-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC1.14.17.3 acetyl-tyr-phe-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.39 * +EC1.14.17.3 acetyl-tyr-phe-gly xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.00035 * +EC1.14.17.3 alanyl-l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.14.17.3 alanyl-l-prolylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.14.17.3 alanylglycyl-l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.14.17.3 alanylglycyl-l-prolylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC1.14.17.3 alanylglycylvalyl-l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.14.17.3 alanylglycylvalyl-l-prolylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.96 * +EC1.14.17.3 alpha-hydroxyhippuric acid cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.292 * +EC1.14.17.3 benzoyl-d-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 84.0 * +EC1.14.17.3 cbz-d-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 35.0 * +EC1.14.17.3 cbz-glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.59 * +EC1.14.17.3 chloroacetyl-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.14.17.3 cinnamoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.14.17.3 d-tyr-pro-gly-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.033 * +EC1.14.17.3 d-tyr-val-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC1.14.17.3 d-tyr-val-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC1.14.17.3 dabsyl-gly-phe-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC1.14.17.3 dansyl-d-tyr-val-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00091 * +EC1.14.17.3 dansyl-l-tyr-l-val-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0082 * +EC1.14.17.3 ferrocyanide cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.03 * +EC1.14.17.3 gamma-glu-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC1.14.17.3 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC1.14.17.3 h2o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.78 * +EC1.14.17.3 hippuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC1.14.17.3 hippuryl-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC1.14.17.3 hippuryl-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC1.14.17.3 hydrocinnamoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.94 * +EC1.14.17.3 isocaproylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.28 * +EC1.14.17.3 l-ascorbate xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.28 * +EC1.14.17.3 l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5 * +EC1.14.17.3 l-prolylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC1.14.17.3 l-pyroglutamyl-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC1.14.17.3 leukotriene c4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC1.14.17.3 n-(2-furoyl)glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC1.14.17.3 n-(2-thienylcarbonyl)glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC1.14.17.3 n-(4-amino-6-methyl-3-oxoheptanoyl)-l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.14.17.3 n-(4-amino-6-methyl-3-oxoheptanoyl)glycylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC1.14.17.3 n-(alpha-methylhydrocinnamoyl)glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.1 * +EC1.14.17.3 n-(phenylacetyl)glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC1.14.17.3 n-(phenylacetyl)glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC1.14.17.3 n-[(2-phenylcyclopropyl)carbonyl]glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC1.14.17.3 n-[(benzylmercapto)carbonyl]glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.059 * +EC1.14.17.3 n-[3-(1-leucylpyrrolidin-2-yl)-3-oxopropanoyl]-l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.14.17.3 n-[3-(1-leucylpyrrolidin-2-yl)-3-oxopropanoyl]glycylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.14.17.3 n-acetyl-arg-gly-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC1.14.17.3 n-acetyl-gln-lys-glu-ser-thr-leu-his-leu-val-leu-arg-leu-arg-gly-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.14.17.3 n-acetyl-l-phe-gly xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.0079 * +EC1.14.17.3 n-acetyl-l-phenylalanylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.14.17.3 n-acetyl-leu-arg-gly-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.14.17.3 n-acetyl-leu-arg-leu-arg-gly-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC1.14.17.3 n-acetyl-leu-his-leu-val-leu-arg-leu-arg-gly-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC1.14.17.3 n-acetylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.9 * +EC1.14.17.3 n-acetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.3 * +EC1.14.17.3 n-acetylglycylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.14.17.3 n-benzoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC1.14.17.3 n-butyrylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC1.14.17.3 n-dan-tyr-val-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.14.17.3 n-dansyl-tyr-phe-gly xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.0032 * +EC1.14.17.3 n-dansyl-tyr-val-d-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC1.14.17.3 n-dansyl-tyr-val-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0077 * +EC1.14.17.3 n-decanoylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC1.14.17.3 n-decanoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.17.3 n-hexanoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC1.14.17.3 n-octanoylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.14.17.3 n-propionylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.4 * +EC1.14.17.3 n-trifluoroacetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.1 * +EC1.14.17.3 nicotinuric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC1.14.17.3 o-acetyl-l-mandelyl-gly xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.17 * +EC1.14.17.3 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC1.14.17.3 peptidylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.14.17.3 phenylhydantoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC1.14.17.3 phenylmercaptoacetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC1.14.17.3 phenylthioacetylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC1.14.17.3 s-(1,2-dicarboxyethyl)-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC1.14.17.3 s-(4-nitrobenzyl)-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC1.14.17.3 s-butyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC1.14.17.3 s-decyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC1.14.17.3 s-ethyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.14.17.3 s-hexyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC1.14.17.3 s-methyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC1.14.17.3 s-octyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC1.14.17.3 s-propyl-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC1.14.17.3 tboc-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC1.14.17.3 tboc-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC1.14.17.3 trinitrophenyl-d-tyr-val-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC1.14.17.3 ubiquitin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC1.14.17.4 1-amino-2-ethylcyclopropane-1-carboxylate diospyros kaki//*//* 114.0 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.25 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.06 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.175 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.051 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate pyrus communis//*//* 0.057 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.15 * +EC1.14.17.4 1-aminocyclopropane-1-carboxylic acid malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.08939 * +EC1.14.17.4 ascorbate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.38 * +EC1.14.17.4 ascorbate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.7 * +EC1.14.17.4 hco3- diospyros kaki//*//* 40.0 * +EC1.14.18.1 (+)-catechin malus sp.//*//* 6.1 * +EC1.14.18.1 (-)-epicatechin litchi chinensis//*//* 0.65 * +EC1.14.18.1 2,4,5-trihydroxyphenethylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.102 * +EC1.14.18.1 2-caffeoylisocitric acid 6-methyl ester dactylis glomerata//*//* 0.82 * +EC1.14.18.1 2-caffeoylisocitric acid dactylis glomerata//*//* 0.37 * +EC1.14.18.1 3,4,5-trihydroxyphenethylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.094 * +EC1.14.18.1 3,4,6-trihydroxyphenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.305 * +EC1.14.18.1 3,4-dihydroxyhydrocinnamic acid macrolepiota gracilenta//*//* 0.8 * +EC1.14.18.1 3,4-dihydroxyphenethylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.047 * +EC1.14.18.1 3,4-dihydroxyphenyl propionic acid mushroom//*//* 1.89 * +EC1.14.18.1 3,4-dihydroxyphenylacetic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.3 * +EC1.14.18.1 3,4-dihydroxyphenylalanine methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.046 * +EC1.14.18.1 3,4-dihydroxyphenylalanine vanilla planifolia//*//* 1.96 * +EC1.14.18.1 3,4-dihydroxyphenylethanol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC1.14.18.1 3,4-dihydroxyphenylglycol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.23 * +EC1.14.18.1 3,4-dihydroxyphenylpropionic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.7 * +EC1.14.18.1 3,4-dihydroxyphenylpropionic acid illex argentinus//*//* 0.24 * +EC1.14.18.1 3,4-dihydroxyphenylserine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.145 * +EC1.14.18.1 3-(3,4-dihydroxyphenyl) propionic acid pholiota nameko//*//* 1240.0 * +EC1.14.18.1 3-(3,4-dihydroxyphenyl)-2-methylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.194 * +EC1.14.18.1 3-(p-hydroxyphenyl)propionic acid vanilla planifolia//*//* 2.89 * +EC1.14.18.1 3-[2-(3,4-dihydroxyphenyl)ethylaminocarbonyl]-3-methyl-1-(4-ethoxycarbonylphenyl)triazene agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.71 * +EC1.14.18.1 3-[2-(4-hydroxyphenyl)ethylaminocarbonyl]-3-methyl-1-(4-cyanophenyl)triazene agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.31 * +EC1.14.18.1 3-chlorophenol streptomyces antibioticus//*//* 11.0 * +EC1.14.18.1 3-fluorophenol streptomyces antibioticus//*//* 6.9 * +EC1.14.18.1 3-hydroxyanthranilic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.78 * +EC1.14.18.1 3-hydroxybenzyl alcohol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 10.1 * +EC1.14.18.1 3-hydroxyphloridzin malus sp.//*//* 0.2 * +EC1.14.18.1 3-methoxyphenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 5.4 * +EC1.14.18.1 3-methylcatechol theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 20.0 * +EC1.14.18.1 4-bromophenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.98 * +EC1.14.18.1 4-chlorocatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.6 * +EC1.14.18.1 4-chlorophenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.87 * +EC1.14.18.1 4-chlorophenol streptomyces antibioticus//*//* 0.35 * +EC1.14.18.1 4-ethoxyphenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.17 * +EC1.14.18.1 4-ethoxyphenol mushroom//*//* 0.17 * +EC1.14.18.1 4-ethylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.17 * +EC1.14.18.1 4-fluorophenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.41 * +EC1.14.18.1 4-fluorophenol streptomyces antibioticus//*//* 2.9 * +EC1.14.18.1 4-hydroxyanisole agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.08 * +EC1.14.18.1 4-hydroxyanisole mushroom//*//* 0.08 * +EC1.14.18.1 4-hydroxybenzaldehyde agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.14 * +EC1.14.18.1 4-hydroxybenzaldehyde vanilla planifolia//*//* 6.37 * +EC1.14.18.1 4-hydroxybenzoic acid vanilla planifolia//*//* 6.33 * +EC1.14.18.1 4-hydroxybenzyl alcohol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.1 * +EC1.14.18.1 4-hydroxybenzyl alcohol vanilla planifolia//*//* 14.77 * +EC1.14.18.1 4-hydroxyphenyl propionic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.44 * +EC1.14.18.1 4-hydroxyphenyl propionic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.48 * +EC1.14.18.1 4-hydroxyphenyl acetic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.91 * +EC1.14.18.1 4-hydroxyphenyl acetic acid mushroom//*//* 1.91 * +EC1.14.18.1 4-hydroxyphenyl acetic acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.18 * +EC1.14.18.1 4-hydroxyphenyl acetic acid streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1.16 * +EC1.14.18.1 4-hydroxyphenyl propionic acid mushroom//*//* 0.44 * +EC1.14.18.1 4-hydroxyphenylpropionic acid macrolepiota gracilenta//*//* 1.0 * +EC1.14.18.1 4-hydroxyphenylpropionic acid streptomyces antibioticus//*//* 0.22 * +EC1.14.18.1 4-iodophenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.02 * +EC1.14.18.1 4-methoxyphenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.08 * +EC1.14.18.1 4-methyl catechol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 21.0 * +EC1.14.18.1 4-methyl catechol vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 4.0 * +EC1.14.18.1 4-methylbenzene-1,2-diol dactylis glomerata//*//* 2.62 * +EC1.14.18.1 4-methylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.1 * +EC1.14.18.1 4-methylcatechol boletus erythropus//*//* 2.8 * +EC1.14.18.1 4-methylcatechol lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 1.0 * +EC1.14.18.1 4-methylcatechol malpighia glabra//*//* 6.9 * +EC1.14.18.1 4-methylcatechol malus sp.//*//* 3.2 * +EC1.14.18.1 4-methylcatechol musa x paradisiaca//*//* 10.0 * +EC1.14.18.1 4-methylcatechol mushroom//*//* 0.17 * +EC1.14.18.1 4-methylcatechol olea europaea//eukaryotes;plants;eudicots;olive family//oeu 3.3 * +EC1.14.18.1 4-methylcatechol persea americana//*//* 0.9 * +EC1.14.18.1 4-methylcatechol populus nigra//*//* 5.0 * +EC1.14.18.1 4-methylcatechol solanum melongena//*//* 2.7 * +EC1.14.18.1 4-methylcatechol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 4.2 * +EC1.14.18.1 4-methylcatechol theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 2.5 * +EC1.14.18.1 4-methylcatechol triticum aestivum//*//* 5.13 * +EC1.14.18.1 4-methylcatechol vanilla planifolia//*//* 1.15 * +EC1.14.18.1 4-methylphenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.38 * +EC1.14.18.1 4-nitrocatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.1 * +EC1.14.18.1 4-t-butylcatechol pholiota nameko//*//* 136.0 * +EC1.14.18.1 4-t-butylphenol pholiota nameko//*//* 119.0 * +EC1.14.18.1 4-tert-butylcatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.45 * +EC1.14.18.1 4-tert-butylcatechol mushroom//*//* 2.8 * +EC1.14.18.1 4-tert-butylcatechol prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.263 * +EC1.14.18.1 4-tert-butylphenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.016 * +EC1.14.18.1 adrenaline bitartrate mucuna pruriens//*//* 1.45 * +EC1.14.18.1 alpha-methyl-dl-tyrosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.12 * +EC1.14.18.1 alpha-methyl-dopa mucuna pruriens//*//* 2.5 * +EC1.14.18.1 alpha-methyl-dopa theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 2.5 * +EC1.14.18.1 alpha-methyl-l-tyrosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.07 * +EC1.14.18.1 ascorbic acid beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.133 * +EC1.14.18.1 caffeic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.69 * +EC1.14.18.1 caffeic acid malpighia glabra//*//* 3.6 * +EC1.14.18.1 caffeic acid malus sp.//*//* 0.2 * +EC1.14.18.1 caffeic acid spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 6.43 * +EC1.14.18.1 caffeic acid trapa acornis//*//* 174.5 * +EC1.14.18.1 caffeic acid trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.9 * +EC1.14.18.1 caffeic acid vanilla planifolia//*//* 0.42 * +EC1.14.18.1 catechin camellia sinensis//*//* 1.6 * +EC1.14.18.1 catechin malus sp.//*//* 4.7 * +EC1.14.18.1 catechin theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 2.1 * +EC1.14.18.1 catechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.16 * +EC1.14.18.1 catechol anethum graveolens//*//* 2.17 * +EC1.14.18.1 catechol bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 34.05 * +EC1.14.18.1 catechol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 12.34 * +EC1.14.18.1 catechol camellia sinensis//*//* 0.2 * +EC1.14.18.1 catechol crocus sativus//*//* 2.0 * +EC1.14.18.1 catechol dioscorea bulbifera//*//* 9.1 * +EC1.14.18.1 catechol dioscorea rotundata//*//* 13.0 * +EC1.14.18.1 catechol lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 3.2 * +EC1.14.18.1 catechol lentinula edodes//*//* 0.014 * +EC1.14.18.1 catechol malpighia glabra//*//* 5.2 * +EC1.14.18.1 catechol musa x paradisiaca//*//* 8.0 * +EC1.14.18.1 catechol mushroom//*//* 0.3 * +EC1.14.18.1 catechol olea europaea//eukaryotes;plants;eudicots;olive family//oeu 8.3 * +EC1.14.18.1 catechol papaver somniferum//*//* 5.0 * +EC1.14.18.1 catechol populus nigra//*//* 5.0 * +EC1.14.18.1 catechol pyrus pyrifolia//*//* 3.8 * +EC1.14.18.1 catechol solanum melongena//*//* 0.7 * +EC1.14.18.1 catechol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 7.95 * +EC1.14.18.1 catechol trapa acornis//*//* 15.4 * +EC1.14.18.1 catechol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.5 * +EC1.14.18.1 chlorogenic acid anethum graveolens//*//* 0.835 * +EC1.14.18.1 chlorogenic acid bactris gasipaes//*//* 0.53 * +EC1.14.18.1 chlorogenic acid dactylis glomerata//*//* 3.47 * +EC1.14.18.1 chlorogenic acid euterpe edulis//*//* 1.19 * +EC1.14.18.1 chlorogenic acid euterpe oleracea//*//* 1.91 * +EC1.14.18.1 chlorogenic acid malus sp.//*//* 4.1 * +EC1.14.18.1 chlorogenic acid olea europaea//eukaryotes;plants;eudicots;olive family//oeu 5.0 * +EC1.14.18.1 chlorogenic acid spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 5.15 * +EC1.14.18.1 chlorogenic acid trapa acornis//*//* 129.5 * +EC1.14.18.1 chlorogenic acid vanilla planifolia//*//* 0.49 * +EC1.14.18.1 d-ascorbic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 4.28 * +EC1.14.18.1 d-catechin metroxylon sagu//*//* 3.0 * +EC1.14.18.1 d-dopa bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.18 * +EC1.14.18.1 d-dopa illex argentinus//*//* 2.7 * +EC1.14.18.1 d-dopa mucuna pruriens//*//* 5.55 * +EC1.14.18.1 d-dopa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.026 * +EC1.14.18.1 d-dopa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 28.7 * +EC1.14.18.1 d-epicatechin metroxylon sagu//*//* 3.22 * +EC1.14.18.1 d-tyr agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.86 * +EC1.14.18.1 d-tyr illex argentinus//*//* 0.24 * +EC1.14.18.1 d-tyr neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.32 * +EC1.14.18.1 d-tyrosine persea americana//*//* 2.0 * +EC1.14.18.1 d-tyrosine ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 6.2 * +EC1.14.18.1 d-tyrosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.98 * +EC1.14.18.1 d-tyrosine vibrio tyrosinaticus//*//* 2.2 * +EC1.14.18.1 diphenol helix vulgaris//*//* 2.86 * +EC1.14.18.1 dl-2-methyltyrosine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.2 * +EC1.14.18.1 dl-dopa dioscorea bulbifera//*//* 4.8 * +EC1.14.18.1 dl-dopa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.022 * +EC1.14.18.1 dl-dopa mushroom//*//* 0.48 * +EC1.14.18.1 dl-dopa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 9.56 * +EC1.14.18.1 dl-epicatechin metroxylon sagu//*//* 3.03 * +EC1.14.18.1 dl-tyrosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.64 * +EC1.14.18.1 dopa methyl ester mushroom//*//* 1.0 * +EC1.14.18.1 dopa agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.25 * +EC1.14.18.1 dopa mesocricetus auratus//*//* 0.77 * +EC1.14.18.1 dopa musca domestica//eukaryotes;animals;arthropods;insects//mde 3.93 * +EC1.14.18.1 dopa solanum melongena//*//* 6.25 * +EC1.14.18.1 dopa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 8.63 * +EC1.14.18.1 dopa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.0 * +EC1.14.18.1 dopa xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.6 * +EC1.14.18.1 dopamine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.84 * +EC1.14.18.1 dopamine amorphophallus paeoniifolius var. campanulatus//*//* 0.2 * +EC1.14.18.1 dopamine anethum graveolens//*//* 1.67 * +EC1.14.18.1 dopamine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.892 * +EC1.14.18.1 dopamine illex argentinus//*//* 0.39 * +EC1.14.18.1 dopamine mucuna pruriens//*//* 1.09 * +EC1.14.18.1 dopamine musca domestica//eukaryotes;animals;arthropods;insects//mde 0.11 * +EC1.14.18.1 dopamine mushroom//*//* 2.2 * +EC1.14.18.1 dopamine palinurus elephas//*//* 3.4 * +EC1.14.18.1 dopamine persea americana//*//* 0.25 * +EC1.14.18.1 dopamine pholiota nameko//*//* 122.0 * +EC1.14.18.1 dopamine streptomyces antibioticus//*//* 0.4 * +EC1.14.18.1 dopamine trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 11.0 * +EC1.14.18.1 ellagic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.1 * +EC1.14.18.1 epicatechin gallate camellia sinensis//*//* 2.0 * +EC1.14.18.1 epicatechin camellia sinensis//*//* 1.4 * +EC1.14.18.1 epicatechin malus sp.//*//* 5.7 * +EC1.14.18.1 epicatechin theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 1.7 * +EC1.14.18.1 epigallocatechin gallate camellia sinensis//*//* 2.0 * +EC1.14.18.1 epigallocatechin camellia sinensis//*//* 2.2 * +EC1.14.18.1 epinephrine musca domestica//eukaryotes;animals;arthropods;insects//mde 1.13 * +EC1.14.18.1 esculetin agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.63 * +EC1.14.18.1 esculetin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.24 * +EC1.14.18.1 gallic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.18 * +EC1.14.18.1 gallic acid trapa acornis//*//* 21.2 * +EC1.14.18.1 gamma-l-glutaminyl-3,4-dihydroxybenzene agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 7.8 * +EC1.14.18.1 gamma-l-glutaminyl-4-hydroxybenzene agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.3 * +EC1.14.18.1 gly-gly-l-tyr agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.11 * +EC1.14.18.1 gly-gly-l-tyr trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.1 * +EC1.14.18.1 gly-l-tyr-gly agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.18 * +EC1.14.18.1 gly-l-tyr-gly trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.9 * +EC1.14.18.1 h2o2 streptomyces refuineus//*//* 1.0 * +EC1.14.18.1 hydrocaffeic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.91 * +EC1.14.18.1 hydrocaffeic acid spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 27.4 * +EC1.14.18.1 hydrocaffeic acid trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.0 * +EC1.14.18.1 hydrocaffeic acid vanilla planifolia//*//* 0.67 * +EC1.14.18.1 hydroquinone monomethylether aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 2.0 * +EC1.14.18.1 l-adrenaline theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 13.7 * +EC1.14.18.1 l-alpha-methyl tyrosine mushroom//*//* 1.2 * +EC1.14.18.1 l-alpha-methyldopa mushroom//*//* 6.8 * +EC1.14.18.1 l-ascorbic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.79 * +EC1.14.18.1 l-dopa aeromonas media//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//amed 0.64 * +EC1.14.18.1 l-dopa agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.17 * +EC1.14.18.1 l-dopa bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.35 * +EC1.14.18.1 l-dopa bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.768 * +EC1.14.18.1 l-dopa charybdis japonica//*//* 2.9 * +EC1.14.18.1 l-dopa crocus sativus//*//* 4.2 * +EC1.14.18.1 l-dopa helix vulgaris//*//* 0.77 * +EC1.14.18.1 l-dopa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC1.14.18.1 l-dopa illex argentinus//*//* 6.5 * +EC1.14.18.1 l-dopa lentinula boryana//*//* 1.9 * +EC1.14.18.1 l-dopa lentinula edodes//*//* 0.074 * +EC1.14.18.1 l-dopa litopenaeus vannamei//*//* 1.5 * +EC1.14.18.1 l-dopa malpighia glabra//*//* 4.1 * +EC1.14.18.1 l-dopa malus sp.//*//* 2.7 * +EC1.14.18.1 l-dopa mucuna pruriens//*//* 6.66 * +EC1.14.18.1 l-dopa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC1.14.18.1 l-dopa mushroom//*//* 0.8 * +EC1.14.18.1 l-dopa neobellieria bullata//*//* 1.838 * +EC1.14.18.1 l-dopa persea americana//*//* 6.0 * +EC1.14.18.1 l-dopa pholiota nameko//*//* 1930.0 * +EC1.14.18.1 l-dopa pieris rapae//eukaryotes;animals;arthropods;insects//prap 0.8 * +EC1.14.18.1 l-dopa pinus densiflora//*//* 8.7 * +EC1.14.18.1 l-dopa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.33 * +EC1.14.18.1 l-dopa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 5.39 * +EC1.14.18.1 l-dopa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.3 * +EC1.14.18.1 l-dopa streptomyces antibioticus//*//* 0.8 * +EC1.14.18.1 l-dopa streptomyces castaneoglobisporus//*//* 8.1 * +EC1.14.18.1 l-dopa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.14 * +EC1.14.18.1 l-dopa thermomicrobium roseum//prokaryotes;bacteria;chloroflexi;thermomicrobium//tro 0.18 * +EC1.14.18.1 l-dopa trametes sanguinea//*//* 0.9 * +EC1.14.18.1 l-dopa trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 7.5 * +EC1.14.18.1 l-dopa urtica dioica//*//* 21.4 * +EC1.14.18.1 l-dopa vibrio tyrosinaticus//*//* 36.0 * +EC1.14.18.1 l-epicatechin metroxylon sagu//*//* 3.85 * +EC1.14.18.1 l-isoproterenol mushroom//*//* 7.1 * +EC1.14.18.1 l-tyr-gly-gly agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.21 * +EC1.14.18.1 l-tyr-gly-gly trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 6.0 * +EC1.14.18.1 l-tyr agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.21 * +EC1.14.18.1 l-tyr bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.563 * +EC1.14.18.1 l-tyr illex argentinus//*//* 0.35 * +EC1.14.18.1 l-tyr neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.59 * +EC1.14.18.1 l-tyr trametes sanguinea//*//* 1.0 * +EC1.14.18.1 l-tyrosine methyl ester agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.38 * +EC1.14.18.1 l-tyrosine methyl ester streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 1.66 * +EC1.14.18.1 l-tyrosine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.18 * +EC1.14.18.1 l-tyrosine bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.038 * +EC1.14.18.1 l-tyrosine charybdis japonica//*//* 7.33 * +EC1.14.18.1 l-tyrosine lentinula edodes//*//* 0.014 * +EC1.14.18.1 l-tyrosine mucuna pruriens//*//* 1.8 * +EC1.14.18.1 l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC1.14.18.1 l-tyrosine mushroom//*//* 0.21 * +EC1.14.18.1 l-tyrosine persea americana//*//* 2.0 * +EC1.14.18.1 l-tyrosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.23 * +EC1.14.18.1 l-tyrosine ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 2.1 * +EC1.14.18.1 l-tyrosine streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.41 * +EC1.14.18.1 l-tyrosine streptomyces refuineus//*//* 0.45 * +EC1.14.18.1 l-tyrosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.25 * +EC1.14.18.1 l-tyrosine trapa acornis//*//* 77.0 * +EC1.14.18.1 l-tyrosine urtica dioica//*//* 0.79 * +EC1.14.18.1 l-tyrosine vibrio tyrosinaticus//*//* 3.1 * +EC1.14.18.1 methyl 3-hydroxy-l-tyrosinate streptomyces antibioticus//*//* 0.28 * +EC1.14.18.1 methyl gallate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.12 * +EC1.14.18.1 n-acetyl-3,4-dihydroxyphenethylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.014 * +EC1.14.18.1 n-acetyldopamine musca domestica//eukaryotes;animals;arthropods;insects//mde 0.48 * +EC1.14.18.1 n-beta-alanyldopamine musca domestica//eukaryotes;animals;arthropods;insects//mde 0.1 * +EC1.14.18.1 n-formyl-l-tyrosine mucuna pruriens//*//* 8.0 * +EC1.14.18.1 n-methyl-3,4-dihydroxyphenethylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.024 * +EC1.14.18.1 noradrenalin mucuna pruriens//*//* 2.0 * +EC1.14.18.1 norepinephrine musca domestica//eukaryotes;animals;arthropods;insects//mde 0.61 * +EC1.14.18.1 o-diphenol rapana venosa//*//* 23.81 * +EC1.14.18.1 o2 agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.015 * +EC1.14.18.1 o2 beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.067 * +EC1.14.18.1 p-coumaric acid beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.268 * +EC1.14.18.1 p-coumaric acid malus sp.//*//* 4.0 * +EC1.14.18.1 p-coumaric acid trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.5 * +EC1.14.18.1 p-coumaric acid vanilla planifolia//*//* 0.42 * +EC1.14.18.1 p-cresol crocus sativus//*//* 130.0 * +EC1.14.18.1 p-cresol cydonia oblonga//*//* 2.2 * +EC1.14.18.1 p-cresol lentinula edodes//*//* 0.001 * +EC1.14.18.1 p-cresol persea americana//*//* 0.65 * +EC1.14.18.1 p-cresol pholiota nameko//*//* 30.6 * +EC1.14.18.1 p-cresol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.0 * +EC1.14.18.1 p-cresol vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.5 * +EC1.14.18.1 p-tyrosol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.06 * +EC1.14.18.1 p-tyrosol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.8 * +EC1.14.18.1 phenol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.33 * +EC1.14.18.1 phenol mushroom//*//* 0.7 * +EC1.14.18.1 phenol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.69 * +EC1.14.18.1 phenol trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.8 * +EC1.14.18.1 phloretic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.64 * +EC1.14.18.1 phloretic acid trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.4 * +EC1.14.18.1 protocatechuic acid agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.07 * +EC1.14.18.1 protocatechuic acid spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 189.0 * +EC1.14.18.1 protocatechuic acid vanilla planifolia//*//* 0.37 * +EC1.14.18.1 protocatechuic aldehyde agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.15 * +EC1.14.18.1 protocatechuic aldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.87 * +EC1.14.18.1 protocatechuic aldehyde vanilla planifolia//*//* 0.59 * +EC1.14.18.1 pyrocatechol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.4 * +EC1.14.18.1 pyrocatechol illex argentinus//*//* 7.3 * +EC1.14.18.1 pyrogallol agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 1.4 * +EC1.14.18.1 pyrogallol camellia sinensis//*//* 0.7 * +EC1.14.18.1 pyrogallol crocus sativus//*//* 0.3 * +EC1.14.18.1 pyrogallol dioscorea bulbifera//*//* 6.3 * +EC1.14.18.1 pyrogallol lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 3000.0 * +EC1.14.18.1 pyrogallol malpighia glabra//*//* 1.24 * +EC1.14.18.1 pyrogallol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.11 * +EC1.14.18.1 pyrogallol theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 1.7 * +EC1.14.18.1 pyrogallol trapa acornis//*//* 57.0 * +EC1.14.18.1 quinol theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 79.0 * +EC1.14.18.1 tert-butylcatechol solanum melongena//*//* 1.0 * +EC1.14.18.1 tert-butylcathechol streptomyces antibioticus//*//* 1.2 * +EC1.14.18.1 trans-cinnamic acid urtica dioica//*//* 0.54 * +EC1.14.18.1 tyramine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.51 * +EC1.14.18.1 tyramine illex argentinus//*//* 0.12 * +EC1.14.18.1 tyramine mucuna pruriens//*//* 0.18 * +EC1.14.18.1 tyramine mushroom//*//* 0.51 * +EC1.14.18.1 tyramine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.67 * +EC1.14.18.1 tyramine palinurus elephas//*//* 1.6 * +EC1.14.18.1 tyramine persea americana//*//* 0.55 * +EC1.14.18.1 tyramine streptomyces antibioticus//*//* 0.51 * +EC1.14.18.1 tyramine trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 4.5 * +EC1.14.18.1 tyrosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.0 * +EC1.14.18.1 tyrosine xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.4 * +EC1.14.18.2 cmp-n-acetylneuraminate asterias rubens//*//* 0.0072 * +EC1.14.18.2 cmp-n-acetylneuraminate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC1.14.18.2 cmp-n-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.14.18.2 ferrocytochrome b5 asterias rubens//*//* 0.0029 * +EC1.14.18.4 o2 ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.004 * +EC1.14.18.5 d-erythro-sphinganine zea mays//eukaryotes;plants;monocots;grass family//zma 0.06 * +EC1.14.18.5 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 0.058 * +EC1.14.18.5 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.033 * +EC1.14.18.8 7alpha-hydroxycholest-4-en-3-one oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC1.14.19.1 fad mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.001 * +EC1.14.19.1 fmn mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0025 * +EC1.14.19.1 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC1.14.19.1 nadh fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.089 * +EC1.14.19.1 nadph fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.038 * +EC1.14.19.1 nadph mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.8 * +EC1.14.19.1 stearoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC1.14.19.1 stearoyl-coa plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0566 * +EC1.14.19.1 stearoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0105 * +EC1.14.19.1 stearoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC1.14.19.11 oleoyl-[acyl-carrier protein] hedera helix//*//* 0.002 * +EC1.14.19.11 palmitoleoyl-[acyl-carrier protein] hedera helix//*//* 0.0021 * +EC1.14.19.11 palmitoyl-[acyl-carrier protein] hedera helix//*//* 0.0015 * +EC1.14.19.11 stearoyl-[acyl-carrier protein] hedera helix//*//* 0.0015 * +EC1.14.19.17 n-octanoyl-d-erythro-c18-sphinganine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC1.14.19.17 n-octanoyldihydroceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00148 * +EC1.14.19.17 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC1.14.19.2 10-(heptyloxy)-decanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0074 * +EC1.14.19.2 7-(decyloxy)-heptanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0066 * +EC1.14.19.2 heptadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0059 * +EC1.14.19.2 hexadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.005 * +EC1.14.19.2 nadph carthamus tinctorius//*//* 0.002 * +EC1.14.19.2 nonadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0013 * +EC1.14.19.2 o2 carthamus tinctorius//*//* 0.06 * +EC1.14.19.2 octadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00046 * +EC1.14.19.2 palmitoyl-[acyl-carrier protein] carthamus tinctorius//*//* 0.00051 * +EC1.14.19.2 pentadecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.069 * +EC1.14.19.2 stearoyl-[acyl-carrier protein] carthamus tinctorius//*//* 0.00038 * +EC1.14.19.2 stearoyl-coa carthamus tinctorius//*//* 0.0083 * +EC1.14.19.2 tetradecanoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0039 * +EC1.14.19.20 5alpha-cholest-7-en-3beta-ol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.032 * +EC1.14.19.20 5alpha-cholest-7-en-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0357 * +EC1.14.19.20 avenasterol zea mays//eukaryotes;plants;monocots;grass family//zma 0.14 * +EC1.14.19.20 episterol zea mays//eukaryotes;plants;monocots;grass family//zma 0.0105 * +EC1.14.19.20 lathosterol zea mays//eukaryotes;plants;monocots;grass family//zma 0.115 * +EC1.14.19.20 stigmast-7-en-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.67 * +EC1.14.19.20 stigmasta-7,22-dien-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.08 * +EC1.14.19.22 1,2-di-oleoyl-sn-glycero-3-phosphorylcholine yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.95 * +EC1.14.19.22 1-acyl-2-oleoyl-sn-glycero-3-phosphocholine yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.25 * +EC1.14.19.22 1-acyl-2-oleoyl-sn-glycero-3-phosphorylcholine yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.25 * +EC1.14.19.22 o2 carthamus tinctorius//*//* 0.0127 * +EC1.14.19.3 linoleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC1.14.19.30 (8z,11z,14z)-icosa-8,11,14-trienoyl-[glycerolipid] rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC1.14.19.30 dihomo-gamma-linolenic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0245 * +EC1.14.19.37 eicosatrienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.14.19.41 beta-sitosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.001 * +EC1.14.19.41 beta-sitosterol physcomitrella patens//eukaryotes;plants;mosses//ppp 0.001 * +EC1.14.19.41 beta-sitosterol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0037 * +EC1.14.19.41 ergosta-5,7-dien-3beta-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0204 * +EC1.14.19.41 ergosta-5,7-dienol candida glabrata//eukaryotes;fungi;ascomycetes;saccharomycetes//cgr 0.0125 * +EC1.14.19.49 (4s)-tetracycline kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.056 * +EC1.14.19.50 (r)-coclaurine narcissus sp. aff. pseudonarcissus//*//* 0.659 * +EC1.14.19.50 (s)-coclaurine narcissus sp. aff. pseudonarcissus//*//* 0.637 * +EC1.14.19.50 4'-o-methyl-n-methylnorbelladine narcissus sp. aff. pseudonarcissus//*//* 0.00328 * +EC1.14.19.50 4'-o-methylnorbelladine narcissus sp. aff. pseudonarcissus//*//* 0.00113 * +EC1.14.19.8 pentalenolactone f streptomyces arenae//*//* 0.43 * +EC1.14.19.8 pentalenolactone f streptomyces exfoliatus//*//* 0.34 * +EC1.14.19.9 l-tryptophan lechevalieria aerocolonigenes//*//* 0.002 * +EC1.14.19.B5 7-chloro-l-tryptophan kutzneria sp. 744//*//* 0.114 * +EC1.14.19.B5 l-tryptophan kutzneria sp. 744//*//* 0.808 * +EC1.14.19.B6 l-tryptophan streptomyces toxytricini//*//* 0.021 * +EC1.14.19.B7 l-tryptophan streptomyces rugosporus//*//* 0.071 * +EC1.14.20.1 2-oxoglutarate acremonium chrysogenum//*//* 0.022 * +EC1.14.20.1 2-oxoglutarate actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.003 * +EC1.14.20.1 2-oxoglutarate amycolatopsis lactamdurans//*//* 0.003 * +EC1.14.20.1 2-oxoglutarate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.022 * +EC1.14.20.1 acetyl-6-aminopenicillanic acid streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 3.28 * +EC1.14.20.1 adipyl 6-aminopenicillanic acid streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 1.3 * +EC1.14.20.1 ampicillin streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 4.86 * +EC1.14.20.1 deacetoxycephalosporin c streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.028 * +EC1.14.20.1 oxoglutarate amycolatopsis lactamdurans//*//* 0.003 * +EC1.14.20.1 penicillin g acremonium chrysogenum//*//* 1.9 * +EC1.14.20.1 penicillin g streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.7 * +EC1.14.20.1 penicillin n acremonium chrysogenum//*//* 0.029 * +EC1.14.20.1 penicillin n actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.052 * +EC1.14.20.1 penicillin n amycolatopsis lactamdurans//*//* 0.052 * +EC1.14.20.1 penicillin n streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.0066 * +EC1.14.20.2 (2r)-4-hydroxy-3-oxo-3,4-dihydro-2h-1,4-benzoxazin-2-yl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.373 * +EC1.14.20.2 2-oxoglutarate zea mays//eukaryotes;plants;monocots;grass family//zma 0.07 * +EC1.14.21.1 (r,s)-scoulerine eschscholzia californica//*//* 0.032 * +EC1.14.21.1 (s)-cheilanthifoline argemone mexicana//*//* 5.2 * +EC1.14.21.1 (s)-cheilanthifoline eschscholzia californica//*//* 0.0004 * +EC1.14.21.1 (s)-scoulerine eschscholzia californica//*//* 0.00054 * +EC1.14.21.12 (s)-scoulerine eschscholzia californica//*//* 0.00054 * +EC1.14.21.2 (s)-scoulerine argemone mexicana//*//* 1.9 * +EC1.14.21.2 (s)-scoulerine eschscholzia californica//*//* 0.0009 * +EC1.14.21.4 (r)-reticuline papaver somniferum//*//* 0.0062 * +EC1.14.21.4 (r)-reticuline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.14.21.4 nadph papaver somniferum//*//* 0.15 * +EC1.14.21.5 (s)-tetrahydrocolumbamine argemone mexicana//*//* 2.7 * +EC1.14.21.5 (s)-tetrahydrocolumbamine papaver somniferum//*//* 0.00463 * +EC1.14.21.5 nadph thalictrum tuberosum//*//* 0.033 * +EC1.14.21.5 tetrahydrocolumbamine thalictrum tuberosum//*//* 0.0115 * +EC1.14.21.7 flaviolin streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0073 * +EC1.14.21.8 calycosin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.002 * +EC1.14.21.8 nadph cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.025 * +EC1.14.21.8 pratensein cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.0012 * +EC1.14.99.1 alpha-linolenic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC1.14.99.1 alpha-linolenic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0048 * +EC1.14.99.1 alpha-linolenic acid salvelinus fontinalis//*//* 0.0101 * +EC1.14.99.1 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.14.99.1 arachidonate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0019 * +EC1.14.99.1 arachidonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.16 * +EC1.14.99.1 arachidonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.14.99.1 arachidonic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0083 * +EC1.14.99.1 cis-11,14-eicosadienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC1.14.99.1 cis-11,14-eicosadienoic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0091 * +EC1.14.99.1 cis-4,7,10,13,16,19-docosahexaenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.14.99.1 cis-4,7,10,13,16,19-docosahexaenoic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0033 * +EC1.14.99.1 cis-4,7,10,13,16,19-docosahexaenoic acid salvelinus fontinalis//*//* 0.0318 * +EC1.14.99.1 cis-5,8,11,14,17-eicosapentaenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.14.99.1 cis-5,8,11,14,17-eicosapentaenoic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0031 * +EC1.14.99.1 cis-5,8,11,14,17-eicosapentaenoic acid salvelinus fontinalis//*//* 0.0153 * +EC1.14.99.1 cis-5,8,11,14-eicosatetraenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.14.99.1 cis-5,8,11,14-eicosatetraenoic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.003 * +EC1.14.99.1 cis-5,8,11,14-eicosatetraenoic acid salvelinus fontinalis//*//* 0.0024 * +EC1.14.99.1 cis-7,10,13,16-docosatetraenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.14.99.1 cis-7,10,13,16-docosatetraenoic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.007 * +EC1.14.99.1 cis-7,10,13,16-docosatetraenoic acid salvelinus fontinalis//*//* 0.0357 * +EC1.14.99.1 cis-8,11,14-eicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.14.99.1 cis-8,11,14-eicosatrienoic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0055 * +EC1.14.99.1 cis-8,11,14-eicosatrienoic acid salvelinus fontinalis//*//* 0.0059 * +EC1.14.99.1 gamma-linolenic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC1.14.99.1 gamma-linolenic acid ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0071 * +EC1.14.99.1 gamma-linolenic acid salvelinus fontinalis//*//* 0.162 * +EC1.14.99.1 guaiacol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.14.99.1 h2o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.14.99.1 linoleic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0055 * +EC1.14.99.1 n,n,n',n'-tetramethyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0163 * +EC1.14.99.1 o2 ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.005 * +EC1.14.99.1 trans-5-phenyl-4-pentenyl-1-hydroperoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.138 * +EC1.14.99.12 androst-4-ene-3,17-dione ilyonectria destructans//*//* 0.04 * +EC1.14.99.12 nadph ilyonectria destructans//*//* 0.002 * +EC1.14.99.14 progesterone bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.203 * +EC1.14.99.15 3-nitro-4-methoxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0003 * +EC1.14.99.15 4-hydroxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.029 * +EC1.14.99.15 4-methoxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7e-05 * +EC1.14.99.15 4-methylaminobenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0058 * +EC1.14.99.15 4-methylbenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0062 * +EC1.14.99.15 4-trifluoromethylbenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0144 * +EC1.14.99.15 benzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0367 * +EC1.14.99.15 n-methyl-4-aminobenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.077 * +EC1.14.99.15 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00063 * +EC1.14.99.15 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.14.99.15 o2 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0019 * +EC1.14.99.15 putidamonooxin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC1.14.99.2 kynurenate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.008 * +EC1.14.99.2 nadh pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.04 * +EC1.14.99.20 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC1.14.99.22 alpha-ecdysone schistocerca gregaria//*//* 0.00125 * +EC1.14.99.22 ecdysone locusta migratoria migratorioides//*//* 0.00027 * +EC1.14.99.22 ecdysone manduca sexta//*//* 3.67e-07 * +EC1.14.99.22 ecdysone schistocerca gregaria//*//* 0.00071 * +EC1.14.99.22 ecdysone spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.025 * +EC1.14.99.22 nadph locusta migratoria migratorioides//*//* 0.0105 * +EC1.14.99.24 nadh mycobacterium fortuitum//prokaryotes;bacteria;actinobacteria;mycobacterium//mft 0.068 * +EC1.14.99.29 6-n-[(r)-4-amino-2-hydroxybutyl]-l-lysine of human translation initiation factor 5a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5e-05 * +EC1.14.99.29 6-n-[(r)-4-amino-2-hydroxybutyl]-l-lysine of yeast translation initiation factor 5a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000376 * +EC1.14.99.29 deoxyhypusine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2e-05 * +EC1.14.99.37 taxa-4(20),11(12)-diene taxus cuspidata//*//* 0.016 * +EC1.14.99.37 taxa-4(5),11(12)-diene taxus cuspidata//*//* 0.0069 * +EC1.14.99.37 taxa-4,11-diene taxus brevifolia//*//* 0.006 * +EC1.14.99.37 taxa-4,11-diene taxus cuspidata//*//* 0.006 * +EC1.14.99.39 ammonia nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.85 * +EC1.14.99.4 progesterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0076 * +EC1.14.99.4 testosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0051 * +EC1.14.99.51 gamma-l-glutamyl-l-cysteine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 7.68 * +EC1.14.99.51 hercynine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.39 * +EC1.14.99.51 l-cysteine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.603 * +EC1.14.99.52 d-histidine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.67 * +EC1.14.99.52 histamine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.23 * +EC1.14.99.52 l-cysteine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.35 * +EC1.14.99.52 l-histidinamide erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.31 * +EC1.14.99.52 l-histidine erwinia tasmaniensis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//eta 0.34 * +EC1.14.99.56 cellotetraose lentinus similis//*//* 0.049 * +EC1.14.99.B1 2,22-dideoxyecdysone locusta migratoria//*//* 0.0015 * +EC1.14.99.B1 campestanol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC1.14.99.B1 campesterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00035 * +EC1.15.1.1 nitro blue tetrazolium psidium guajava//*//* 15.0 * +EC1.15.1.1 nitro blue tetrazolium solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.025 * +EC1.15.1.1 o2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.355 * +EC1.15.1.1 riboflavin psidium guajava//*//* 2.3 * +EC1.15.1.1 riboflavin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0016 * +EC1.16.1.1 hg2+ acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.015 * +EC1.16.1.1 hg2+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.03 * +EC1.16.1.1 hg2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC1.16.1.1 hg2+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 75.0 * +EC1.16.1.1 hg2+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0032 * +EC1.16.1.1 hg2+ serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.014 * +EC1.16.1.1 hgcl2 acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.0089 * +EC1.16.1.1 hgcl2 azotobacter chroococcum//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//acx 0.011 * +EC1.16.1.1 hgcl2 penicillium sp.//*//* 0.0088 * +EC1.16.1.1 hgcl2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.012 * +EC1.16.1.1 hgcl2 yersinia enterolytica//*//* 0.2 * +EC1.16.1.1 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0004 * +EC1.16.1.10 fe(iii)-edta archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.066 * +EC1.16.1.10 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.061 * +EC1.16.1.10 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.08 * +EC1.16.1.2 diferric transferrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC1.16.1.2 ferric ammonium citrate mycobacterium avium subsp. paratuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.213 * +EC1.16.1.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0061 * +EC1.16.1.3 aquacob(iii)alamin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC1.16.1.3 aquacob(iii)alamin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC1.16.1.3 fad clostridium tetanomorphum//*//* 0.015 * +EC1.16.1.3 fmn clostridium tetanomorphum//*//* 0.015 * +EC1.16.1.3 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.16.1.5 aquacobalamin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC1.16.1.5 hydroxycobalamin euglena gracilis//*//* 0.055 * +EC1.16.1.5 nadph euglena gracilis//*//* 0.043 * +EC1.16.1.5 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0048 * +EC1.16.1.8 2,6-dichlorophenolindophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.16.1.8 3-acetylpyridine adenine dinucleotide phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0177 * +EC1.16.1.8 doxorubicin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0286 * +EC1.16.1.8 ferricyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.663 * +EC1.16.1.8 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0177 * +EC1.16.1.8 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00264 * +EC1.16.1.9 fe(iii)-(n-2,3-dihydroxybenzoyl-gly-thr)3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0042 * +EC1.16.1.9 fe(iii)-(n-2,3-dihydroxybenzoyl-l-serine)3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0018 * +EC1.16.1.9 fe(iii)-aerobactin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC1.16.1.9 fe(iii)-citrate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0276 * +EC1.16.1.9 fe(iii)-dicitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0134 * +EC1.16.1.9 fe(iii)-edta escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC1.16.1.9 fe(iii)-edta synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0168 * +EC1.16.1.9 fe(iii)-enterobactin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC1.16.1.9 fe(iii)-vibriobactin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC1.16.1.9 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC1.16.3.1 2-chloro-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.241 * +EC1.16.3.1 2-methoxy-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.161 * +EC1.16.3.1 2-methyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.213 * +EC1.16.3.1 2-nitro-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00126 * +EC1.16.3.1 2-sulfonic acid-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00262 * +EC1.16.3.1 3,4-dihydroxyphenethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00285 * +EC1.16.3.1 4-methylcatechol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0603 * +EC1.16.3.1 4-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.16.3.1 5-hydroxyindol-3-ylacetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00834 * +EC1.16.3.1 5-hydroxytryptamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.908 * +EC1.16.3.1 5-hydroxytryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0163 * +EC1.16.3.1 5-hydroxytryptophol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC1.16.3.1 alimemazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC1.16.3.1 ascorbate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC1.16.3.1 catechol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.282 * +EC1.16.3.1 chlorpromazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC1.16.3.1 cu+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.081 * +EC1.16.3.1 cu+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0368 * +EC1.16.3.1 cu+ rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 8e-05 * +EC1.16.3.1 cu+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0379 * +EC1.16.3.1 diethazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.16.3.1 durenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.171 * +EC1.16.3.1 fe(ii) saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0049 * +EC1.16.3.1 fe2+ agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.125 * +EC1.16.3.1 fe2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.046 * +EC1.16.3.1 fe2+ caretta caretta//*//* 0.12 * +EC1.16.3.1 fe2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.16.3.1 fe2+ gallus sp.//*//* 0.13 * +EC1.16.3.1 fe2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC1.16.3.1 fe2+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.15 * +EC1.16.3.1 fe2+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.002 * +EC1.16.3.1 ferrous ammonium sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC1.16.3.1 fluphenazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.16.3.1 hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC1.16.3.1 l-epinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00255 * +EC1.16.3.1 l-epinephrine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.8 * +EC1.16.3.1 l-norepinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00281 * +EC1.16.3.1 m-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.16.3.1 n,n'-dimethyl-p-phenylenediamine gallus sp.//*//* 0.06 * +EC1.16.3.1 n,n'-dimethyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.16.3.1 n,n,n',n'-tetramethyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.197 * +EC1.16.3.1 n,n-diethyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.556 * +EC1.16.3.1 n,n-dimethyl-m-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00305 * +EC1.16.3.1 n,n-dimethyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.203 * +EC1.16.3.1 n-(p-methoxyphenyl)p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC1.16.3.1 n-acetyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0123 * +EC1.16.3.1 n-ethyl-n-(2-hydroxyethyl)p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.16.3.1 n-ethyl-n-2(s-methylsulfonamido)-ethyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC1.16.3.1 n-phenyl-p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC1.16.3.1 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC1.16.3.1 o-aminophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00288 * +EC1.16.3.1 o-dianisidine anser sp.//*//* 0.15 * +EC1.16.3.1 o-dianisidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.16.3.1 o-dianisidine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.43 * +EC1.16.3.1 o-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00295 * +EC1.16.3.1 o-phenylenediamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.15 * +EC1.16.3.1 o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC1.16.3.1 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0074 * +EC1.16.3.1 o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0011 * +EC1.16.3.1 p-aminophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00154 * +EC1.16.3.1 p-anisidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00614 * +EC1.16.3.1 p-phenylenediamine anser sp.//*//* 0.053 * +EC1.16.3.1 p-phenylenediamine caretta caretta//*//* 0.019 * +EC1.16.3.1 p-phenylenediamine gallus sp.//*//* 0.085 * +EC1.16.3.1 p-phenylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.292 * +EC1.16.3.1 p-phenylenediamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0084 * +EC1.16.3.1 p-phenylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.19 * +EC1.16.3.1 periciazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.16.3.1 perphenazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC1.16.3.1 prochlorperazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC1.16.3.1 promazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC1.16.3.1 promethazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.16.3.1 pyrogallol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0579 * +EC1.16.3.1 quinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0657 * +EC1.16.3.1 thioridazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC1.16.3.1 trifluoperazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC1.16.3.1 triflupromazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.16.5.1 cu(ii)-nitrilotriacetic acid[side 2] mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0152 * +EC1.16.5.1 fe(iii)-nitrilotriacetic acid[side 2] mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.074 * +EC1.16.8.1 fmn pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0059 * +EC1.17.1.1 cdp-4-keto-6-deoxy-d-glucose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.15 * +EC1.17.1.3 2,3-trans-3,4-cis-leucocyanidin desmodium uncinatum//*//* 0.006 * +EC1.17.1.3 3,4-cis-leucoanthocyanidin desmodium uncinatum//*//* 0.006 * +EC1.17.1.3 3,4-cis-leucodelphinidin desmodium uncinatum//*//* 0.005 * +EC1.17.1.3 3,4-cis-leucopelargonidin desmodium uncinatum//*//* 0.026 * +EC1.17.1.3 dihydroquercetin pseudotsuga menziesii//*//* 0.037 * +EC1.17.1.3 nadh desmodium uncinatum//*//* 0.06 * +EC1.17.1.3 nadph desmodium uncinatum//*//* 0.0004 * +EC1.17.1.3 nadph onobrychis viciifolia//*//* 0.042 * +EC1.17.1.4 2,6-dichloroindophenol neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.021 * +EC1.17.1.4 2-amino-4-hydroxypterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.17.1.4 2-amino-4-hydroxypterin colias eurytheme//*//* 0.0061 * +EC1.17.1.4 2-amino-4-hydroxypterin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.004 * +EC1.17.1.4 2-amino-4-hydroxypterin neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0035 * +EC1.17.1.4 3-acetylpyridine adenine dinucleotide+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.102 * +EC1.17.1.4 3-acetylpyridine-adenine dinucleotide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.021 * +EC1.17.1.4 4-hydroxypyrazolo(3,4-d)pyrimidine clostridium purinilyticum//*//* 1.0 * +EC1.17.1.4 4-hydroxypyrazolo(3,4-d)pyrimidine colias eurytheme//*//* 0.0258 * +EC1.17.1.4 adenine colias eurytheme//*//* 0.0071 * +EC1.17.1.4 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.129 * +EC1.17.1.4 dcpip rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0823 * +EC1.17.1.4 guanine streptomyces cyanogenus//*//* 0.015 * +EC1.17.1.4 hypoxanthine clostridium purinilyticum//*//* 0.5 * +EC1.17.1.4 hypoxanthine colias eurytheme//*//* 0.0451 * +EC1.17.1.4 hypoxanthine delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.29 * +EC1.17.1.4 hypoxanthine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.02 * +EC1.17.1.4 hypoxanthine eubacterium barkeri//*//* 0.21 * +EC1.17.1.4 hypoxanthine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.047 * +EC1.17.1.4 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC1.17.1.4 hypoxanthine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.021 * +EC1.17.1.4 hypoxanthine pisum sativum//*//* 0.018 * +EC1.17.1.4 hypoxanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC1.17.1.4 hypoxanthine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0525 * +EC1.17.1.4 hypoxanthine streptomyces cyanogenus//*//* 0.055 * +EC1.17.1.4 hypoxanthine triticum aestivum//*//* 0.0041 * +EC1.17.1.4 methyl viologen gottschalkia acidurici//prokaryotes;bacteria;firmicutes - others;gottschalkia//cad 0.44 * +EC1.17.1.4 methylene blue drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00083 * +EC1.17.1.4 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00274 * +EC1.17.1.4 nad+ capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.00412 * +EC1.17.1.4 nad+ colias eurytheme//*//* 0.1065 * +EC1.17.1.4 nad+ delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.1 * +EC1.17.1.4 nad+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0033 * +EC1.17.1.4 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.019 * +EC1.17.1.4 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0125 * +EC1.17.1.4 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00252 * +EC1.17.1.4 nad+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0022 * +EC1.17.1.4 nad+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00219 * +EC1.17.1.4 nad+ pisum sativum//*//* 0.025 * +EC1.17.1.4 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.052 * +EC1.17.1.4 nad+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0328 * +EC1.17.1.4 nad+ streptomyces cyanogenus//*//* 0.11 * +EC1.17.1.4 nad+ triticum aestivum//*//* 0.171 * +EC1.17.1.4 nadh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.009 * +EC1.17.1.4 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0063 * +EC1.17.1.4 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6.0 * +EC1.17.1.4 nadh triticum aestivum//*//* 0.0057 * +EC1.17.1.4 nadp+ eubacterium barkeri//*//* 0.038 * +EC1.17.1.4 nitroblue tetrazolium triticum aestivum//*//* 0.0113 * +EC1.17.1.4 phenazine methosulfate triticum aestivum//*//* 0.0056 * +EC1.17.1.4 purine colias eurytheme//*//* 0.0182 * +EC1.17.1.4 thio-nad+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.02 * +EC1.17.1.4 xanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC1.17.1.4 xanthine capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.00633 * +EC1.17.1.4 xanthine clostridium purinilyticum//*//* 0.0045 * +EC1.17.1.4 xanthine colias eurytheme//*//* 0.061 * +EC1.17.1.4 xanthine delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.066 * +EC1.17.1.4 xanthine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.018 * +EC1.17.1.4 xanthine eubacterium barkeri//*//* 0.067 * +EC1.17.1.4 xanthine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.017 * +EC1.17.1.4 xanthine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.005 * +EC1.17.1.4 xanthine gottschalkia acidurici//prokaryotes;bacteria;firmicutes - others;gottschalkia//cad 1.35 * +EC1.17.1.4 xanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00774 * +EC1.17.1.4 xanthine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0082 * +EC1.17.1.4 xanthine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00714 * +EC1.17.1.4 xanthine pisum sativum//*//* 0.017 * +EC1.17.1.4 xanthine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.064 * +EC1.17.1.4 xanthine rattus sp.//*//* 0.0017 * +EC1.17.1.4 xanthine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0325 * +EC1.17.1.4 xanthine streptomyces cyanogenus//*//* 0.15 * +EC1.17.1.4 xanthine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02169 * +EC1.17.1.4 xanthine triticum aestivum//*//* 0.0082 * +EC1.17.1.4 xanthine veillonella atypica//prokaryotes;bacteria;firmicutes - others;veillonella//vat 0.017 * +EC1.17.1.4 xanthopterin colias eurytheme//*//* 0.0018 * +EC1.17.1.5 2-hydroxynicotinate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.1 * +EC1.17.1.5 2-pyrazinecarboxylate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 9.8 * +EC1.17.1.5 3-cyanopyridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 150.0 * +EC1.17.1.5 3-pyridinesulfonate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.7 * +EC1.17.1.5 nadp+ clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.028 * +EC1.17.1.5 nicotinate bacillus niacini//*//* 1.0 * +EC1.17.1.5 nicotinate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.07 * +EC1.17.1.5 nicotinate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.11 * +EC1.17.1.5 nicotinate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.11 * +EC1.17.1.8 (2s,4s)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.065 * +EC1.17.1.8 (2s,4s)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.028 * +EC1.17.1.8 (4s)-4-hydroxy-2,3,4,5-tetrahydro-(2s)-dipicolinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.529 * +EC1.17.1.8 2,3-dihydrodipicolinate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0076 * +EC1.17.1.8 3'-nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC1.17.1.8 3-acetylpyridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.17.1.8 alpha-nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC1.17.1.8 dihydrodipicolinate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.062 * +EC1.17.1.8 dihydrodipicolinate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.059 * +EC1.17.1.8 dihydrodipicolinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.77 * +EC1.17.1.8 dihydrodipicolinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC1.17.1.8 dihydrodipicolinate zea mays//eukaryotes;plants;monocots;grass family//zma 0.43 * +EC1.17.1.8 l-dihydrodipicolinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.17.1.8 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC1.17.1.8 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0032 * +EC1.17.1.8 nadh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.026 * +EC1.17.1.8 nadh thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0018 * +EC1.17.1.8 nadph bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.008 * +EC1.17.1.8 nadph bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.013 * +EC1.17.1.8 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.072 * +EC1.17.1.8 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0056 * +EC1.17.1.8 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0118 * +EC1.17.1.8 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC1.17.1.8 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.012 * +EC1.17.1.8 nadph thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0006 * +EC1.17.1.8 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.046 * +EC1.17.1.8 nicotinamide hypoxanthine dinucleotide phosphate reduced escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC1.17.1.8 thio-nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC1.17.2.2 lupanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0036 * +EC1.17.2.2 sparteine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00087 * +EC1.17.3.2 (carboxymethyl)cellulose with endohydrolysed (1->4)-beta-d-glucosidic linkages bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC1.17.3.2 1-methylxanthine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.13 * +EC1.17.3.2 1h-pyrrolo[2,3-d]pyrimidin-2-ol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0298 * +EC1.17.3.2 2,3-dihydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0253 * +EC1.17.3.2 2,5-dihydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.068 * +EC1.17.3.2 2-amino-4-hydroxypteridine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0067 * +EC1.17.3.2 2-amino-4-hydroxypteridine locusta sp.//*//* 0.00143 * +EC1.17.3.2 2-hydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC1.17.3.2 2-mercaptopurine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00088 * +EC1.17.3.2 2-methoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC1.17.3.2 2-methylbenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.17.3.2 2-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC1.17.3.2 2-thioxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00047 * +EC1.17.3.2 3,4-dihydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.039 * +EC1.17.3.2 3,4-dimethoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.68 * +EC1.17.3.2 3,7-dihydro-4h-pyrrolo[2,3-d]pyrimidin-4-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0451 * +EC1.17.3.2 3-hydroxy-4-methoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC1.17.3.2 3-hydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC1.17.3.2 3-methylbenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC1.17.3.2 3-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.17.3.2 4-hydroxy-3-methoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC1.17.3.2 4-hydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC1.17.3.2 4-hydroxyphenylglycolaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.56 * +EC1.17.3.2 4-methoxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC1.17.3.2 4-methylbenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.17.3.2 4-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC1.17.3.2 5-chloro-6-[(2-iminopyrrolidin-1-yl)methyl]-3h-pyrimidin-4-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0649 * +EC1.17.3.2 6-amino-5-bromo-1h-pyrimidin-2-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0325 * +EC1.17.3.2 6-amino-5-bromo-3h-pyrimidin-4-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0238 * +EC1.17.3.2 6-amino-5-bromopyrimidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0444 * +EC1.17.3.2 6-mercaptopurine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC1.17.3.2 6-thioxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00046 * +EC1.17.3.2 7h-pyrrolo[2,3-d]pyrimidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0672 * +EC1.17.3.2 acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 130.0 * +EC1.17.3.2 aldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 20.0 * +EC1.17.3.2 allopurinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.17.3.2 benzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC1.17.3.2 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.93 * +EC1.17.3.2 butyraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 142.0 * +EC1.17.3.2 dibromoacetonitrile bos taurus//eukaryotes;animals;vertebrates;mammals//bta 97.0 * +EC1.17.3.2 formaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 161.5 * +EC1.17.3.2 formycin b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.17.3.2 glyceraldehyde 3-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC1.17.3.2 glyceryl trinitrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.49 * +EC1.17.3.2 hypoxanthine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.133 * +EC1.17.3.2 hypoxanthine blastobotrys adeninivorans//*//* 0.0508 * +EC1.17.3.2 hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC1.17.3.2 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00924 * +EC1.17.3.2 indole-3-acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC1.17.3.2 indole-3-aldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.085 * +EC1.17.3.2 isosorbide dinitrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.64 * +EC1.17.3.2 methylene blue bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.7e-05 * +EC1.17.3.2 n-methylnicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 48.0 * +EC1.17.3.2 nad+ blastobotrys adeninivorans//*//* 0.162 * +EC1.17.3.2 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.86 * +EC1.17.3.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC1.17.3.2 nitrite bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.17.3.2 no2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.25 * +EC1.17.3.2 o-hydroxybenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.03 * +EC1.17.3.2 o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.026 * +EC1.17.3.2 propionaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 430.0 * +EC1.17.3.2 pterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0015 * +EC1.17.3.2 purine blastobotrys adeninivorans//*//* 0.208 * +EC1.17.3.2 pyridine-2-aldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC1.17.3.2 pyridine-3-aldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.046 * +EC1.17.3.2 pyridine-4-aldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7 * +EC1.17.3.2 succinate semialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC1.17.3.2 thionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000325 * +EC1.17.3.2 xanthine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.032 * +EC1.17.3.2 xanthine blastobotrys adeninivorans//*//* 0.0728 * +EC1.17.3.2 xanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00146 * +EC1.17.3.2 xanthine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.024 * +EC1.17.3.2 xanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.17.3.2 xanthine locusta sp.//*//* 0.13 * +EC1.17.3.2 xanthine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.025 * +EC1.17.3.2 xanthine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0018 * +EC1.17.3.3 6-hydroxynicotinate bacillus niacini//*//* 0.8 * +EC1.17.3.4 5-hydroxy-1,4-naphthoquinone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0042 * +EC1.17.4.1 adp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.095 * +EC1.17.4.1 adp enterobacteria phage t4//*//* 0.048 * +EC1.17.4.1 adp herpes simplex virus//*//* 0.0078 * +EC1.17.4.1 adp mesocricetus auratus//*//* 0.012 * +EC1.17.4.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.17.4.1 cdp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.021 * +EC1.17.4.1 cdp enterobacteria phage t4//*//* 0.043 * +EC1.17.4.1 cdp herpes simplex virus//*//* 0.00049 * +EC1.17.4.1 cdp mesocricetus auratus//*//* 0.00065 * +EC1.17.4.1 cdp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC1.17.4.1 cdp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0014 * +EC1.17.4.1 cdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.17.4.1 cdp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.016 * +EC1.17.4.1 datp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.003 * +EC1.17.4.1 dttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC1.17.4.1 gdp enterobacteria phage t4//*//* 0.04 * +EC1.17.4.1 gdp mesocricetus auratus//*//* 0.0012 * +EC1.17.4.1 gdp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.24 * +EC1.17.4.1 glutaredoxin 1 salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.006 * +EC1.17.4.1 glutaredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00013 * +EC1.17.4.1 thioredoxin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC1.17.4.1 udp enterobacteria phage t4//*//* 0.1 * +EC1.17.4.1 udp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC1.17.4.1 udp mesocricetus auratus//*//* 0.08 * +EC1.17.4.2 adenosylcobalamin lactobacillus leichmannii//*//* 0.0003 * +EC1.17.4.2 adp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.08 * +EC1.17.4.2 atp euglena gracilis//*//* 0.25 * +EC1.17.4.2 atp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.015 * +EC1.17.4.2 atp lactobacillus leichmannii//*//* 0.22 * +EC1.17.4.2 atp thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 1.0 * +EC1.17.4.2 cdp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.11 * +EC1.17.4.2 ctp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.02 * +EC1.17.4.2 ctp euglena gracilis//*//* 0.09 * +EC1.17.4.2 ctp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.01 * +EC1.17.4.2 ctp lactobacillus leichmannii//*//* 0.13 * +EC1.17.4.2 ctp thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.32 * +EC1.17.4.2 dgtp lactobacillus leichmannii//*//* 0.017 * +EC1.17.4.2 gtp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.09 * +EC1.17.4.2 gtp thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.29 * +EC1.17.4.2 utp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.01 * +EC1.17.4.4 2,3-epoxy-2,3-dihydro-2-methyl-3-phytyl-1,4-naphthoquinone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1658 * +EC1.17.4.4 2,3-epoxy-2,3-dihydro-2-methyl-3-phytyl-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00425 * +EC1.17.4.4 2,3-epoxy-2,3-dihydro-2-methyl-3-phytyl-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00425 * +EC1.17.4.4 2,3-epoxy-2,3-dihydro-2-methyl-3-phytyl-1,4-naphthoquinone struthio camelus//*//* 0.1875 * +EC1.17.4.4 2,3-epoxyphylloquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0195 * +EC1.17.4.4 2-methyl-3-phytyl-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0084 * +EC1.17.4.4 allylbenzene 2',3'-oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.805 * +EC1.17.4.4 dithiothreitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00042 * +EC1.17.4.4 styrene 1',2'-oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC1.17.4.4 vitamin k 2,3-epoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC1.17.4.4 vitamin k epoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.17.4.4 vitamin k1 2,3-epoxide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00425 * +EC1.17.4.4 vitamin k1 2,3-epoxide canis lupus familiaris//*//* 0.0036 * +EC1.17.4.4 vitamin k1 2,3-epoxide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.00241 * +EC1.17.4.4 vitamin k1 2,3-epoxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00309 * +EC1.17.4.4 vitamin k1 2,3-epoxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00416 * +EC1.17.4.4 vitamin k1 2,3-epoxide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00241 * +EC1.17.4.4 vitamin k1 2,3-epoxide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0032 * +EC1.17.5.1 phenylacetyl-coa thauera aromatica//*//* 0.02 * +EC1.17.5.2 caffeine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0037 * +EC1.17.7.3 2-c-methyl-d-erythritol 2,4-cyclodiphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC1.17.7.4 (e)-4-hydroxy-3-methylbut-2-en-1-yl diphosphate burkholderia glumae//prokaryotes;bacteria;betaproteobacteria;burkholderia//bgl 0.006 * +EC1.17.7.4 (e)-4-hydroxy-3-methylbut-2-en-1-yl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC1.17.99.1 2,4-dimethyl phenol denitrifying bacterium//*//* 0.02 * +EC1.17.99.1 2,4-xylenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0173 * +EC1.17.99.1 3,4-dimethyl phenol denitrifying bacterium//*//* 0.27 * +EC1.17.99.1 3,4-xylenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.072 * +EC1.17.99.1 4-cresol denitrifying bacterium//*//* 0.11 * +EC1.17.99.1 4-cresol geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.0017 * +EC1.17.99.1 4-cresol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0036 * +EC1.17.99.1 4-ethylphenol denitrifying bacterium//*//* 2.17 * +EC1.17.99.1 4-ethylphenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.36 * +EC1.17.99.1 4-hydroxybenzyl alcohol denitrifying bacterium//*//* 0.17 * +EC1.17.99.1 4-hydroxybenzyl alcohol geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.0027 * +EC1.17.99.1 4-hydroxybenzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.027 * +EC1.17.99.1 4-methylcatechol denitrifying bacterium//*//* 0.26 * +EC1.17.99.1 phenazine methosulfate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0264 * +EC1.17.99.2 2-ethylaniline azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0243 * +EC1.17.99.2 2-ethylfuran azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0247 * +EC1.17.99.2 2-ethylphenol azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0052 * +EC1.17.99.2 2-ethylpyrrole azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0023 * +EC1.17.99.2 2-ethylthiophene azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0665 * +EC1.17.99.2 3-ethylphenol azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0093 * +EC1.17.99.2 3-ethylpyridine azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0018 * +EC1.17.99.2 4-ethylphenol aromatoleum aromaticum//prokaryotes;bacteria;betaproteobacteria;aromatoleum//eba 0.004 * +EC1.17.99.2 4-ethylphenol azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0405 * +EC1.17.99.2 allylbenzene aromatoleum aromaticum//prokaryotes;bacteria;betaproteobacteria;aromatoleum//eba 0.003 * +EC1.17.99.2 ethylbenzene aromatoleum aromaticum//prokaryotes;bacteria;betaproteobacteria;aromatoleum//eba 0.00045 * +EC1.17.99.2 ethylbenzene azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.002 * +EC1.17.99.2 ferricenium azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0283 * +EC1.17.99.4 thymine mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.035 * +EC1.17.99.4 uracil mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.131 * +EC1.18.1.1 2,6-dichloroindophenol acinetobacter calcoaceticus//*//* 0.0025 * +EC1.18.1.1 fe(cn)63- acinetobacter calcoaceticus//*//* 0.055 * +EC1.18.1.1 nadh acinetobacter calcoaceticus//*//* 0.11 * +EC1.18.1.1 nadh alcanivorax borkumensis//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//abo 1.6 * +EC1.18.1.2 2,6-dichlorophenol indophenol arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.036 * +EC1.18.1.2 2,6-dichlorophenol-indophenol anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 0.01 * +EC1.18.1.2 2-(p-iodophenyl)-3-(p-nitrophenyl)-5-phenyltetrazolium chloride plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.095 * +EC1.18.1.2 dibromothymoquinone spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0119 * +EC1.18.1.2 fe(iii)-edta escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00364 * +EC1.18.1.2 ferredoxin i equisetum arvense//*//* 0.0114 * +EC1.18.1.2 ferredoxin i spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0025 * +EC1.18.1.2 ferredoxin ii mutant d64n equisetum arvense//*//* 0.0053 * +EC1.18.1.2 ferredoxin ii mutant q39r/s28e equisetum arvense//*//* 0.0115 * +EC1.18.1.2 ferredoxin ii equisetum arvense//*//* 0.0017 * +EC1.18.1.2 ferredoxin anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 0.0045 * +EC1.18.1.2 ferredoxin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.011 * +EC1.18.1.2 ferredoxin arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.0038 * +EC1.18.1.2 ferredoxin chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0026 * +EC1.18.1.2 ferredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC1.18.1.2 ferredoxin pisum sativum//*//* 0.005 * +EC1.18.1.2 ferredoxin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0008 * +EC1.18.1.2 ferredoxin raphanus sativus//*//* 0.0012 * +EC1.18.1.2 ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.049 * +EC1.18.1.2 ferredoxin toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.018 * +EC1.18.1.2 ferricytochrome c triticum aestivum//*//* 0.00312 * +EC1.18.1.2 iodonitrotetrazolium violet euglena gracilis//*//* 0.03 * +EC1.18.1.2 k3fe(cn)6 spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.097 * +EC1.18.1.2 nad+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.77 * +EC1.18.1.2 nadh anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.8 * +EC1.18.1.2 nadh pisum sativum//*//* 0.0143 * +EC1.18.1.2 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.72 * +EC1.18.1.2 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00112 * +EC1.18.1.2 nadh xanthomonas axonopodis//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xax 3.3 * +EC1.18.1.2 nadp+ hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.131 * +EC1.18.1.2 nadp+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.00722 * +EC1.18.1.2 nadph anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 0.011 * +EC1.18.1.2 nadph anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.006 * +EC1.18.1.2 nadph anabaena variabilis//*//* 0.005 * +EC1.18.1.2 nadph arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.0011 * +EC1.18.1.2 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.57 * +EC1.18.1.2 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.007 * +EC1.18.1.2 nadph cyanidium caldarium//*//* 0.0011 * +EC1.18.1.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0018 * +EC1.18.1.2 nadph leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.0195 * +EC1.18.1.2 nadph pisum sativum//*//* 0.0012 * +EC1.18.1.2 nadph plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0055 * +EC1.18.1.2 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00083 * +EC1.18.1.2 nadph raphanus sativus//*//* 0.0092 * +EC1.18.1.2 nadph rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.085 * +EC1.18.1.2 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0031 * +EC1.18.1.2 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00094 * +EC1.18.1.2 nadph toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.015 * +EC1.18.1.2 nadph xanthomonas axonopodis//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xax 0.0108 * +EC1.18.1.2 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.01 * +EC1.18.1.2 oxidized ferredoxin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.54 * +EC1.18.1.2 oxidized ferredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC1.18.1.2 oxidized ferredoxin pisum sativum//*//* 0.0022 * +EC1.18.1.2 reduced ferredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC1.18.1.3 cytochrome c pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0046 * +EC1.18.1.3 ferredoxin mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 5.3e-06 * +EC1.18.1.3 nadh methylosinus trichosporium ob3b//*//* 0.125 * +EC1.18.1.3 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0105 * +EC1.18.1.3 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.058 * +EC1.18.1.3 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.156 * +EC1.18.1.4 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.034 * +EC1.18.1.4 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.005 * +EC1.18.1.4 oxidized benzyl viologen pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.5 * +EC1.18.1.4 oxidized rubredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0016 * +EC1.18.1.4 rubredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0095 * +EC1.18.1.5 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.027 * +EC1.18.1.5 oxidized 2,6-dichlorophenolindolphenol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.097 * +EC1.18.1.6 2,6-dichlorophenolindophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.5 * +EC1.18.1.6 ferricyanide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.16 * +EC1.18.1.6 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.56 * +EC1.18.1.6 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.051 * +EC1.18.1.6 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC1.18.1.6 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0041 * +EC1.18.1.6 oxidized adrenodoxin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7e-05 * +EC1.18.1.8 na+/in acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.155 * +EC1.18.1.8 nad+ acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.085 * +EC1.18.6.1 3,3-difluorocyclopropene azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 5.4 * +EC1.18.6.1 atp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.3 * +EC1.18.6.1 c2h2 azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.3 * +EC1.18.6.1 ch4 azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.6 * +EC1.18.6.1 n2 azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.1 * +EC1.18.6.1 scn- azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.9 * +EC1.19.1.1 ferricyanide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0236 * +EC1.19.1.1 ferricytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.009 * +EC1.19.1.1 ferricytochrome c2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0176 * +EC1.19.1.1 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.19.1.1 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC1.19.1.1 nadph rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.08 * +EC1.19.1.1 reduced flavodoxin i escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0076 * +EC1.19.1.1 reduced flavodoxin ii escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.19.1.1 reduced flavodoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0068 * +EC1.19.1.1 reduced flavodoxin nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.033 * +EC1.19.1.1 reduced flavodoxin pisum sativum//*//* 0.0167 * +EC1.2.1.10 2-mercaptoethanol clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 22.0 * +EC1.2.1.10 acetaldehyde acinetobacter sp. hbs-2//*//* 0.01518 * +EC1.2.1.10 acetaldehyde citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 10.5 * +EC1.2.1.10 acetaldehyde clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.39 * +EC1.2.1.10 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC1.2.1.10 acetaldehyde giardia intestinalis//*//* 0.362 * +EC1.2.1.10 acetaldehyde leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 3.7 * +EC1.2.1.10 acetaldehyde moorella sp.//*//* 4.3 * +EC1.2.1.10 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 23.6 * +EC1.2.1.10 acetaldehyde propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 100.0 * +EC1.2.1.10 acetaldehyde thermoanaerobacter ethanolicus//*//* 1.3 * +EC1.2.1.10 acetaldehyde thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 22.0 * +EC1.2.1.10 acetyl-coa clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.0196 * +EC1.2.1.10 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC1.2.1.10 acetyl-coa giardia intestinalis//*//* 0.018 * +EC1.2.1.10 acetyl-coa moorella sp.//*//* 1.6 * +EC1.2.1.10 acetyl-coa thermoanaerobacter ethanolicus//*//* 0.037 * +EC1.2.1.10 acetyl-coa thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.0094 * +EC1.2.1.10 butanal clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 11.0 * +EC1.2.1.10 butanal thermoanaerobacter ethanolicus//*//* 2.3 * +EC1.2.1.10 butyraldehyde clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 3.7 * +EC1.2.1.10 butyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 31.7 * +EC1.2.1.10 butyraldehyde thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 3.23 * +EC1.2.1.10 butyryl-coa thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.0057 * +EC1.2.1.10 coa clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.064 * +EC1.2.1.10 coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.033 * +EC1.2.1.10 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC1.2.1.10 coa giardia intestinalis//*//* 0.076 * +EC1.2.1.10 coa leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.009 * +EC1.2.1.10 coa propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.04 * +EC1.2.1.10 coa thermoanaerobacter ethanolicus//*//* 0.16 * +EC1.2.1.10 formaldehyde acinetobacter sp. hbs-2//*//* 0.00212 * +EC1.2.1.10 glycolaldehyde clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 20.0 * +EC1.2.1.10 n-butyryl-coa clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.0715 * +EC1.2.1.10 n-butyryl-coa thermoanaerobacter ethanolicus//*//* 0.029 * +EC1.2.1.10 nad+ clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.25 * +EC1.2.1.10 nad+ clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.3 * +EC1.2.1.10 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.2.1.10 nad+ leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.17 * +EC1.2.1.10 nad+ propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.43 * +EC1.2.1.10 nad+ thermoanaerobacter ethanolicus//*//* 0.44 * +EC1.2.1.10 nadh clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.0076 * +EC1.2.1.10 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC1.2.1.10 nadh giardia intestinalis//*//* 0.022 * +EC1.2.1.10 nadh thermoanaerobacter ethanolicus//*//* 0.063 * +EC1.2.1.10 nadph clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.0673 * +EC1.2.1.10 pantetheine clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 11.0 * +EC1.2.1.10 picolinaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 18.2 * +EC1.2.1.10 propanal clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 4.5 * +EC1.2.1.10 propanal giardia intestinalis//*//* 0.603 * +EC1.2.1.10 propanal propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 6.9 * +EC1.2.1.10 propionaldehyde acinetobacter sp. hbs-2//*//* 0.00049 * +EC1.2.1.10 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 23.1 * +EC1.2.1.10 valeraldehyde propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 1.5 * +EC1.2.1.11 arsenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC1.2.1.11 haso42- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.0 * +EC1.2.1.11 l-4-aspartyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC1.2.1.11 l-4-aspartyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.16 * +EC1.2.1.11 l-aspartate 4-semialdehyde amycolatopsis mediterranei u32//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 1.25 * +EC1.2.1.11 l-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.2.1.11 l-aspartate 4-semialdehyde haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.24 * +EC1.2.1.11 l-aspartate 4-semialdehyde pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.12 * +EC1.2.1.11 l-aspartate 4-semialdehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.6 * +EC1.2.1.11 l-aspartate 4-semialdehyde salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.17 * +EC1.2.1.11 l-aspartate 4-semialdehyde vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.16 * +EC1.2.1.11 nad+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.7 * +EC1.2.1.11 nadp+ amycolatopsis mediterranei u32//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.73 * +EC1.2.1.11 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC1.2.1.11 nadp+ haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.15 * +EC1.2.1.11 nadp+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.013 * +EC1.2.1.11 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.13 * +EC1.2.1.11 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.036 * +EC1.2.1.11 nadp+ vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.32 * +EC1.2.1.11 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0929 * +EC1.2.1.11 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.025 * +EC1.2.1.11 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC1.2.1.11 nadph streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 3.3 * +EC1.2.1.11 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC1.2.1.11 phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.6 * +EC1.2.1.11 phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.5 * +EC1.2.1.11 phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.4 * +EC1.2.1.11 phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.032 * +EC1.2.1.11 phosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 1.1 * +EC1.2.1.11 vanadate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC1.2.1.12 1,3-diphosphoglyceric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.2.1.12 3-acetyl-nad+ dissostichus mawsoni//*//* 0.62 * +EC1.2.1.12 3-acetyl-nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.158 * +EC1.2.1.12 3-acetylpyridine hypoxanthine nucleotide dissostichus mawsoni//*//* 8.15 * +EC1.2.1.12 3-acetylpyridine hypoxanthine nucleotide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.43 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.78 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate euglena gracilis//*//* 0.47 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.034 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate oryza sativa japonica group//*//* 0.036 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.036 * +EC1.2.1.12 3-phospho-d-glyceroyl phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.1 * +EC1.2.1.12 arsenate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.0 * +EC1.2.1.12 arsenate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.54 * +EC1.2.1.12 arsenate haloarcula vallismortis//*//* 8.3 * +EC1.2.1.12 c6-(4-(2,2,6,6-tetramethyl-piperidinyl-1-oxyl))-nad+ huso huso//*//* 0.2 * +EC1.2.1.12 c8-(4-(2,2,6,6-tetramethyl-piperidinyl-1-oxyl))-nad+ huso huso//*//* 0.061 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.78 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.51 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.21 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.762 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate dissostichus mawsoni//*//* 0.23 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.89 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate euglena gracilis//*//* 0.081 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.09 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate haloarcula vallismortis//*//* 0.053 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.55 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.082 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate oryza sativa japonica group//*//* 0.111 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.111 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate pinus sylvestris//*//* 0.344 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.4 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.31 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate streptomyces arenae//*//* 0.1 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate tetrahymena pyriformis//*//* 0.147 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.3 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate trichoderma koningii//*//* 0.33 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.15 * +EC1.2.1.12 d-glyceraldehyde 3-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.42 * +EC1.2.1.12 d-glyceraldehyde-3-phosphate sardina pilchardus//*//* 0.0734 * +EC1.2.1.12 d-glyceraldehyde-3-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.425 * +EC1.2.1.12 d-glyceraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.9 * +EC1.2.1.12 d-glyceraldehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0102 * +EC1.2.1.12 dl-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.2.1.12 erythrose 4-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.119 * +EC1.2.1.12 n6-(2-carboxyethyl)-nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.145 * +EC1.2.1.12 n6-(2-carboxyethyl)-nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0674 * +EC1.2.1.12 n6-(2-carboxyethyl)-nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0102 * +EC1.2.1.12 nad+ bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.366 * +EC1.2.1.12 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.27 * +EC1.2.1.12 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC1.2.1.12 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.031 * +EC1.2.1.12 nad+ camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.025 * +EC1.2.1.12 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.048 * +EC1.2.1.12 nad+ cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 3.2e-05 * +EC1.2.1.12 nad+ dissostichus mawsoni//*//* 0.076 * +EC1.2.1.12 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC1.2.1.12 nad+ euglena gracilis//*//* 0.0066 * +EC1.2.1.12 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.039 * +EC1.2.1.12 nad+ haloarcula vallismortis//*//* 0.5 * +EC1.2.1.12 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.2.1.12 nad+ huso huso//*//* 0.097 * +EC1.2.1.12 nad+ lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.2 * +EC1.2.1.12 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC1.2.1.12 nad+ oryza sativa japonica group//*//* 0.059 * +EC1.2.1.12 nad+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.059 * +EC1.2.1.12 nad+ pinus sylvestris//*//* 0.062 * +EC1.2.1.12 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC1.2.1.12 nad+ sardina pilchardus//*//* 0.092 * +EC1.2.1.12 nad+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.25 * +EC1.2.1.12 nad+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 316.0 * +EC1.2.1.12 nad+ streptomyces arenae//*//* 0.11 * +EC1.2.1.12 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.0 * +EC1.2.1.12 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC1.2.1.12 nad+ tetrahymena pyriformis//*//* 0.064 * +EC1.2.1.12 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00519 * +EC1.2.1.12 nad+ trichoderma koningii//*//* 0.014 * +EC1.2.1.12 nad+ trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.04 * +EC1.2.1.12 nad+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.258 * +EC1.2.1.12 nadh euglena gracilis//*//* 0.021 * +EC1.2.1.12 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.012 * +EC1.2.1.12 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.2.1.12 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0033 * +EC1.2.1.12 nadh oryza sativa japonica group//*//* 0.061 * +EC1.2.1.12 nadh oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.061 * +EC1.2.1.12 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.023 * +EC1.2.1.12 nadh trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.007 * +EC1.2.1.12 phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.4 * +EC1.2.1.12 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC1.2.1.12 phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 8.3 * +EC1.2.1.12 phosphate haloarcula vallismortis//*//* 1.25 * +EC1.2.1.12 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.2.1.12 phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC1.2.1.12 phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.54 * +EC1.2.1.12 phosphate trichoderma koningii//*//* 0.2 * +EC1.2.1.12 thio-nad+ dissostichus mawsoni//*//* 0.235 * +EC1.2.1.12 thio-nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0435 * +EC1.2.1.13 3-phospho-d-glyceroyl phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.015 * +EC1.2.1.13 3-phospho-d-glyceroyl phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00041 * +EC1.2.1.13 3-phospho-d-glyceroyl phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 5.8 * +EC1.2.1.13 arsenate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 30.0 * +EC1.2.1.13 arsenate methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 43.0 * +EC1.2.1.13 arsenate pyrococcus woesei//*//* 120.0 * +EC1.2.1.13 arsenate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 88.0 * +EC1.2.1.13 arsenate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 30.0 * +EC1.2.1.13 d-glyceraldehyde 3-phosphate kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.75 * +EC1.2.1.13 d-glyceraldehyde 3-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.838 * +EC1.2.1.13 dl-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.21 * +EC1.2.1.13 nad+ kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.5 * +EC1.2.1.13 nad+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.2 * +EC1.2.1.13 nad+ methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.65 * +EC1.2.1.13 nad+ pyrococcus woesei//*//* 1.0 * +EC1.2.1.13 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.2 * +EC1.2.1.13 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 16.8 * +EC1.2.1.13 nadh chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.12 * +EC1.2.1.13 nadh methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC1.2.1.13 nadh methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.066 * +EC1.2.1.13 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.14 * +EC1.2.1.13 nadh sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.18 * +EC1.2.1.13 nadh sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.61 * +EC1.2.1.13 nadp+ kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.4 * +EC1.2.1.13 nadp+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC1.2.1.13 nadp+ methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.003 * +EC1.2.1.13 nadp+ pyrococcus woesei//*//* 0.01 * +EC1.2.1.13 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.02 * +EC1.2.1.13 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.28 * +EC1.2.1.13 nadp+ thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.027 * +EC1.2.1.13 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.018 * +EC1.2.1.13 nadph methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.01 * +EC1.2.1.13 nadph methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.002 * +EC1.2.1.13 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.029 * +EC1.2.1.13 nadph sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC1.2.1.13 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.18 * +EC1.2.1.13 phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 15.0 * +EC1.2.1.13 phosphate methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 53.0 * +EC1.2.1.13 phosphate pyrococcus woesei//*//* 40.0 * +EC1.2.1.13 phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 182.0 * +EC1.2.1.13 phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 10.7 * +EC1.2.1.13 phosphate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 50.0 * +EC1.2.1.15 malonate semialdehyde pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.043 * +EC1.2.1.15 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.11 * +EC1.2.1.16 2-oxoglutarate semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.2.1.16 2-oxoglutarate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1 * +EC1.2.1.16 3-sulfopropanal cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.041 * +EC1.2.1.16 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.013 * +EC1.2.1.16 benzaldehyde pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0069 * +EC1.2.1.16 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.21 * +EC1.2.1.16 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.23 * +EC1.2.1.16 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC1.2.1.16 nad+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.033 * +EC1.2.1.16 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0092 * +EC1.2.1.16 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.107 * +EC1.2.1.16 nad+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.997 * +EC1.2.1.16 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.4 * +EC1.2.1.16 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.8 * +EC1.2.1.16 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.45 * +EC1.2.1.16 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.043 * +EC1.2.1.16 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 11.1 * +EC1.2.1.16 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.3 * +EC1.2.1.16 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.39 * +EC1.2.1.16 nadp+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.35 * +EC1.2.1.16 nadp+ euglena gracilis//*//* 0.038 * +EC1.2.1.16 nadp+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.154 * +EC1.2.1.16 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0613 * +EC1.2.1.16 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.22 * +EC1.2.1.16 nadp+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 6.14 * +EC1.2.1.16 nadp+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.06 * +EC1.2.1.16 nadp+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.482 * +EC1.2.1.16 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC1.2.1.16 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.043 * +EC1.2.1.16 succinate semialdehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.36 * +EC1.2.1.16 succinate semialdehyde euglena gracilis//*//* 1.06 * +EC1.2.1.16 succinate semialdehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.04 * +EC1.2.1.16 succinate semialdehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC1.2.1.16 succinate semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0073 * +EC1.2.1.16 succinate semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.2.1.16 succinate semialdehyde rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.16 * +EC1.2.1.16 succinate semialdehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC1.2.1.16 succinate semialdehyde salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.027 * +EC1.2.1.16 succinate semialdehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.002 * +EC1.2.1.16 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC1.2.1.16 succinic semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0011 * +EC1.2.1.18 2-methyl-3-oxopropanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC1.2.1.18 3-oxopropanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC1.2.1.18 3-oxopropanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC1.2.1.18 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.2.1.18 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.2.1.18 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC1.2.1.18 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.2.1.19 3-aminopropionaldehyde arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.15 * +EC1.2.1.19 3-aminopropionaldehyde avena sativa//*//* 0.0015 * +EC1.2.1.19 3-aminopropionaldehyde pisum sativum//*//* 0.01 * +EC1.2.1.19 4-aminobutanal pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.015 * +EC1.2.1.19 4-aminobutyraldehyde arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.065 * +EC1.2.1.19 4-aminobutyraldehyde avena sativa//*//* 0.002 * +EC1.2.1.19 4-aminobutyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC1.2.1.19 4-aminobutyraldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.02612 * +EC1.2.1.19 4-aminobutyraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.2.1.19 4-aminobutyraldehyde pisum sativum//*//* 0.029 * +EC1.2.1.19 4-aminobutyraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.26 * +EC1.2.1.19 4-aminobutyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC1.2.1.19 4-guanidinobutyraldehyde arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.085 * +EC1.2.1.19 4-guanidinobutyraldehyde avena sativa//*//* 0.013 * +EC1.2.1.19 4-guanidinobutyraldehyde pisum sativum//*//* 0.007 * +EC1.2.1.19 4-guanidinobutyraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.13 * +EC1.2.1.19 5-aminovaleraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC1.2.1.19 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC1.2.1.19 betaine aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.285 * +EC1.2.1.19 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.196 * +EC1.2.1.19 butyraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.016 * +EC1.2.1.19 butyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.2.1.19 capronaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.2.1.19 delta1-pyrroline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC1.2.1.19 isobutyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC1.2.1.19 n,n,n-trimethyl-4-aminobutyraldehyde pisum sativum//*//* 0.01 * +EC1.2.1.19 nad+ avena sativa//*//* 0.011 * +EC1.2.1.19 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.037 * +EC1.2.1.19 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.02006 * +EC1.2.1.19 nad+ pisum sativum//*//* 0.04 * +EC1.2.1.19 nad+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.04 * +EC1.2.1.19 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.15 * +EC1.2.1.19 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC1.2.1.19 propionaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.2.1.19 putrescine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0225 * +EC1.2.1.19 succinic semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.252 * +EC1.2.1.19 valeraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.013 * +EC1.2.1.19 valeraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.2.1.2 3-acetylpyridine-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.16 * +EC1.2.1.2 3-pyridinecarboxaldehyde-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.19 * +EC1.2.1.2 benzyl viologen cupriavidus oxalaticus//*//* 0.24 * +EC1.2.1.2 benzyl viologen gottschalkia acidurici//prokaryotes;bacteria;firmicutes - others;gottschalkia//cad 0.1 * +EC1.2.1.2 co2 cupriavidus oxalaticus//*//* 30.0 * +EC1.2.1.2 co2 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0157 * +EC1.2.1.2 deamino-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.54 * +EC1.2.1.2 dichloroindophenol cupriavidus oxalaticus//*//* 0.037 * +EC1.2.1.2 ethyl formate candida boidinii//*//* 4.1 * +EC1.2.1.2 ferricyanide cupriavidus oxalaticus//*//* 0.46 * +EC1.2.1.2 fmn methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.03 * +EC1.2.1.2 formate ancylobacter aquaticus//*//* 2.4 * +EC1.2.1.2 formate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0033 * +EC1.2.1.2 formate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 19.6 * +EC1.2.1.2 formate candida boidinii//*//* 0.075 * +EC1.2.1.2 formate candida methanolica//*//* 3.0 * +EC1.2.1.2 formate candida methylica//*//* 4.75 * +EC1.2.1.2 formate chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 3.3 * +EC1.2.1.2 formate citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 0.44 * +EC1.2.1.2 formate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.3 * +EC1.2.1.2 formate cupriavidus oxalaticus//*//* 0.077 * +EC1.2.1.2 formate desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0571 * +EC1.2.1.2 formate gelatoporia subvermispora//*//* 2.5 * +EC1.2.1.2 formate glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.5 * +EC1.2.1.2 formate glycine soja//*//* 0.6 * +EC1.2.1.2 formate gottschalkia acidurici//prokaryotes;bacteria;firmicutes - others;gottschalkia//cad 3.1 * +EC1.2.1.2 formate kloeckera sp.//*//* 22.0 * +EC1.2.1.2 formate komagataella pastoris//*//* 15.0 * +EC1.2.1.2 formate lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 6.1 * +EC1.2.1.2 formate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 1.67 * +EC1.2.1.2 formate methylobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//met 4.7 * +EC1.2.1.2 formate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.146 * +EC1.2.1.2 formate methylotrophic bacterium//*//* 15.0 * +EC1.2.1.2 formate moraxella sp.//*//* 7.7 * +EC1.2.1.2 formate mycobacterium vaccae//prokaryotes;bacteria;actinobacteria;mycobacterium//mvq 4.2 * +EC1.2.1.2 formate ogataea angusta//*//* 0.82 * +EC1.2.1.2 formate paracoccus sp.//prokaryotes;bacteria;alphaproteobacteria;paracoccus//paro 5.6 * +EC1.2.1.2 formate pisum sativum//*//* 1.67 * +EC1.2.1.2 formate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.62 * +EC1.2.1.2 formate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.19 * +EC1.2.1.2 formate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.26 * +EC1.2.1.2 formate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC1.2.1.2 formate thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.6 * +EC1.2.1.2 glyoxylate paracoccus sp.//prokaryotes;bacteria;alphaproteobacteria;paracoccus//paro 7.5 * +EC1.2.1.2 hco3- candida methylica//*//* 0.78 * +EC1.2.1.2 hco3- chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.32 * +EC1.2.1.2 methyl formate candida boidinii//*//* 2.9 * +EC1.2.1.2 nad+ ancylobacter aquaticus//*//* 0.057 * +EC1.2.1.2 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC1.2.1.2 nad+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.091 * +EC1.2.1.2 nad+ candida boidinii//*//* 0.015 * +EC1.2.1.2 nad+ candida methanolica//*//* 0.11 * +EC1.2.1.2 nad+ candida methylica//*//* 0.1 * +EC1.2.1.2 nad+ chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 1.79 * +EC1.2.1.2 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.09 * +EC1.2.1.2 nad+ cupriavidus oxalaticus//*//* 0.105 * +EC1.2.1.2 nad+ gelatoporia subvermispora//*//* 0.028 * +EC1.2.1.2 nad+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0133 * +EC1.2.1.2 nad+ glycine soja//*//* 0.0057 * +EC1.2.1.2 nad+ kloeckera sp.//*//* 0.1 * +EC1.2.1.2 nad+ komagataella pastoris//*//* 0.14 * +EC1.2.1.2 nad+ lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.0259 * +EC1.2.1.2 nad+ methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.07 * +EC1.2.1.2 nad+ methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.2 * +EC1.2.1.2 nad+ methylotrophic bacterium//*//* 0.11 * +EC1.2.1.2 nad+ moraxella sp.//*//* 0.068 * +EC1.2.1.2 nad+ ogataea angusta//*//* 0.07 * +EC1.2.1.2 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.041 * +EC1.2.1.2 nad+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.173 * +EC1.2.1.2 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.032 * +EC1.2.1.2 nad+ thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.048 * +EC1.2.1.2 nadh clostridium carboxidivorans//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cck 0.05 * +EC1.2.1.2 nadp+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.5 * +EC1.2.1.2 nadp+ candida boidinii//*//* 38.0 * +EC1.2.1.2 nadp+ lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 29.5 * +EC1.2.1.2 nadp+ mycobacterium vaccae//prokaryotes;bacteria;actinobacteria;mycobacterium//mvq 0.04 * +EC1.2.1.2 phenyl formate candida boidinii//*//* 1.7 * +EC1.2.1.2 propyl formate candida boidinii//*//* 4.7 * +EC1.2.1.2 reduced 1,1'-diaminoethyl-4,4'-bipyridinium salt candida boidinii//*//* 0.017 * +EC1.2.1.2 reduced 1,1'-dicarboxyl-4,4'-bipyridinium salt candida boidinii//*//* 0.371 * +EC1.2.1.2 reduced 1-methyl-1'-aminoethyl-4,4'-bipyridinium salt candida boidinii//*//* 0.118 * +EC1.2.1.2 reduced 1-methyl-1'-carboxymethyl-4,4'-bipyridinium salt candida boidinii//*//* 0.292 * +EC1.2.1.2 reduced methyl viologen candida boidinii//*//* 0.212 * +EC1.2.1.2 s-formylglutathione ogataea angusta//*//* 1.1 * +EC1.2.1.2 s-formylglutathione pisum sativum//*//* 0.45 * +EC1.2.1.2 thio-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC1.2.1.20 glutarate semialdehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC1.2.1.20 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0078 * +EC1.2.1.21 acetaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.038 * +EC1.2.1.21 benzaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00023 * +EC1.2.1.21 glycolaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.25 * +EC1.2.1.21 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC1.2.1.21 glycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.9e-08 * +EC1.2.1.21 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC1.2.1.21 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC1.2.1.21 propionaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.023 * +EC1.2.1.22 (s)-lactaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.5 * +EC1.2.1.22 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.2 * +EC1.2.1.22 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.2.1.22 d-lactaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.6 * +EC1.2.1.22 d-lactaldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.302 * +EC1.2.1.22 glycoaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC1.2.1.22 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC1.2.1.22 l-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.2.1.22 l-lactaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.2 * +EC1.2.1.22 l-lactaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.2.1.22 l-lactaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC1.2.1.22 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.2.1.22 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.5 * +EC1.2.1.22 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC1.2.1.22 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.9 * +EC1.2.1.22 phenaylacetaldehyd escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.5 * +EC1.2.1.22 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC1.2.1.22 propionaldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.284 * +EC1.2.1.23 2-amino-2-methylpropan-1,3-diol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 4.3 * +EC1.2.1.23 2-amino-2-methylpropan-1-ol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 15.0 * +EC1.2.1.23 2-aminobutan-1-ol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 20.0 * +EC1.2.1.23 2-aminopropane-1,3-diol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 7.7 * +EC1.2.1.23 2-aminopropane ovis aries//eukaryotes;animals;vertebrates;mammals//oas 16.6 * +EC1.2.1.23 2-keto-3-deoxyglucose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.2 * +EC1.2.1.23 3-deoxygluconosone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC1.2.1.23 l-2-aminopropan-1-ol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 5.0 * +EC1.2.1.23 methylglyoxal bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC1.2.1.23 methylglyoxal capra hircus//eukaryotes;animals;vertebrates;mammals//chx 1.7 * +EC1.2.1.23 methylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC1.2.1.23 methylglyoxal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.08 * +EC1.2.1.23 methylglyoxal pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC1.2.1.23 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.5 * +EC1.2.1.23 nad+ capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.19 * +EC1.2.1.23 nad+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.03 * +EC1.2.1.23 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC1.2.1.23 tris ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.4 * +EC1.2.1.24 2,5-dioxopentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.3 * +EC1.2.1.24 3-(methoxycarbonyl)benzoate rhipicephalus microplus//*//* 0.1035 * +EC1.2.1.24 3-acetylpyridine adenine dinucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.2.1.24 3-carboxybenzaldehyde ctenocephalides felis//*//* 0.017 * +EC1.2.1.24 3-carboxybenzaldehyde lucilia cuprina//*//* 0.112 * +EC1.2.1.24 3-carboxybenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0331 * +EC1.2.1.24 3-carboxybenzaldehyde rhipicephalus microplus//*//* 0.1418 * +EC1.2.1.24 3-nitrobenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.287 * +EC1.2.1.24 3-nitrobenzaldehyde rhipicephalus microplus//*//* 0.0502 * +EC1.2.1.24 4-carboxybenzaldehyde ctenocephalides felis//*//* 0.0121 * +EC1.2.1.24 4-carboxybenzaldehyde lucilia cuprina//*//* 0.0776 * +EC1.2.1.24 4-carboxybenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0151 * +EC1.2.1.24 4-carboxybenzaldehyde rhipicephalus microplus//*//* 0.0312 * +EC1.2.1.24 4-nitrobenzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.156 * +EC1.2.1.24 4-nitrobenzaldehyde rhipicephalus microplus//*//* 0.1612 * +EC1.2.1.24 acetaldehyde ctenocephalides felis//*//* 4.076 * +EC1.2.1.24 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.875 * +EC1.2.1.24 acetaldehyde lumbricus rubellus//*//* 0.9 * +EC1.2.1.24 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC1.2.1.24 acetaldehyde rhipicephalus microplus//*//* 2.797 * +EC1.2.1.24 alpha-ketoglutaric semialdehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.011 * +EC1.2.1.24 benzaldehyde ctenocephalides felis//*//* 0.241 * +EC1.2.1.24 benzaldehyde lumbricus rubellus//*//* 0.019 * +EC1.2.1.24 benzaldehyde rhipicephalus microplus//*//* 0.167 * +EC1.2.1.24 butanal ctenocephalides felis//*//* 0.105 * +EC1.2.1.24 glutaraldehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.0163 * +EC1.2.1.24 glutaric semialdehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0034 * +EC1.2.1.24 methyl 3-formylbenzoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.218 * +EC1.2.1.24 n-butanal drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.106 * +EC1.2.1.24 n-butanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.061 * +EC1.2.1.24 n-butanal rhipicephalus microplus//*//* 0.323 * +EC1.2.1.24 n-hexanal drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.051 * +EC1.2.1.24 n-hexanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0253 * +EC1.2.1.24 n-hexanal rhipicephalus microplus//*//* 0.107 * +EC1.2.1.24 n-octanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.137 * +EC1.2.1.24 n-octanal rhipicephalus microplus//*//* 0.0514 * +EC1.2.1.24 n-pentanal drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.057 * +EC1.2.1.24 n-pentanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0287 * +EC1.2.1.24 n-pentanal rhipicephalus microplus//*//* 0.096 * +EC1.2.1.24 nad+ arabidopsis sp.//*//* 0.13 * +EC1.2.1.24 nad+ ctenocephalides felis//*//* 0.076 * +EC1.2.1.24 nad+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0909 * +EC1.2.1.24 nad+ escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC1.2.1.24 nad+ euglena gracilis//*//* 0.071 * +EC1.2.1.24 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.2.1.24 nad+ hordeum vulgare subsp. vulgare//*//* 0.166 * +EC1.2.1.24 nad+ lucilia cuprina//*//* 0.348 * +EC1.2.1.24 nad+ lumbricus rubellus//*//* 0.061 * +EC1.2.1.24 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.227 * +EC1.2.1.24 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.2.1.24 nad+ rhipicephalus microplus//*//* 0.0433 * +EC1.2.1.24 nad+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.031 * +EC1.2.1.24 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.1 * +EC1.2.1.24 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC1.2.1.24 nad+ triticum turgidum subsp. durum//*//* 0.0667 * +EC1.2.1.24 nadp+ ctenocephalides felis//*//* 4.4 * +EC1.2.1.24 nadp+ drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.2 * +EC1.2.1.24 nadp+ lucilia cuprina//*//* 0.552 * +EC1.2.1.24 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.616 * +EC1.2.1.24 p-nitrobenzaldehyde lumbricus rubellus//*//* 0.033 * +EC1.2.1.24 pentanal ctenocephalides felis//*//* 0.025 * +EC1.2.1.24 pentanal lucilia cuprina//*//* 0.0827 * +EC1.2.1.24 propanal ctenocephalides felis//*//* 1.606 * +EC1.2.1.24 propanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.212 * +EC1.2.1.24 propanal rhipicephalus microplus//*//* 1.622 * +EC1.2.1.24 propionaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC1.2.1.24 propionaldehyde lumbricus rubellus//*//* 0.85 * +EC1.2.1.24 succinate semialdehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.0385 * +EC1.2.1.24 succinate semialdehyde ctenocephalides felis//*//* 0.001 * +EC1.2.1.24 succinate semialdehyde drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0047 * +EC1.2.1.24 succinate semialdehyde escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC1.2.1.24 succinate semialdehyde euglena gracilis//*//* 0.16 * +EC1.2.1.24 succinate semialdehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.2.1.24 succinate semialdehyde hordeum vulgare subsp. vulgare//*//* 0.0159 * +EC1.2.1.24 succinate semialdehyde lucilia cuprina//*//* 0.0027 * +EC1.2.1.24 succinate semialdehyde lumbricus rubellus//*//* 0.001 * +EC1.2.1.24 succinate semialdehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00247 * +EC1.2.1.24 succinate semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0027 * +EC1.2.1.24 succinate semialdehyde rhipicephalus microplus//*//* 0.00256 * +EC1.2.1.24 succinate semialdehyde solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0046 * +EC1.2.1.24 succinate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC1.2.1.24 succinate semialdehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.015 * +EC1.2.1.24 succinate semialdehyde triticum turgidum subsp. durum//*//* 0.0074 * +EC1.2.1.25 coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.11 * +EC1.2.1.25 l-alpha-keto-beta-methylvalerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.66 * +EC1.2.1.26 2,5-dioxopentanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC1.2.1.26 acetaldehyde acinetobacter baylyi//*//* 3.9 * +EC1.2.1.26 alpha-ketoglutaric semialdehyde azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.0065 * +EC1.2.1.26 alpha-ketoglutaric semialdehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.094 * +EC1.2.1.26 alpha-ketoglutaric semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.014 * +EC1.2.1.26 butylaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.17 * +EC1.2.1.26 glutaraldehyde acinetobacter baylyi//*//* 0.1 * +EC1.2.1.26 glutaric semialdehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.016 * +EC1.2.1.26 glycolaldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.37 * +EC1.2.1.26 heptaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0393 * +EC1.2.1.26 hexylaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0814 * +EC1.2.1.26 nad+ acinetobacter baylyi//*//* 0.87 * +EC1.2.1.26 nad+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.1169 * +EC1.2.1.26 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.74 * +EC1.2.1.26 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC1.2.1.26 nadp+ acinetobacter baylyi//*//* 0.015 * +EC1.2.1.26 nadp+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.0149 * +EC1.2.1.26 nadp+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.08 * +EC1.2.1.26 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.2.1.26 octylaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0352 * +EC1.2.1.26 propanal acinetobacter baylyi//*//* 0.3 * +EC1.2.1.26 propionaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.46 * +EC1.2.1.26 succinate semialdehyde acinetobacter baylyi//*//* 0.45 * +EC1.2.1.26 valeraldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.145 * +EC1.2.1.27 2-mercaptoethanol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.54 * +EC1.2.1.27 2-methyl-3-oxopropanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.06 * +EC1.2.1.27 2-methyl-3-oxopropanoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.019 * +EC1.2.1.27 2-methyl-3-oxopropanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.2.1.27 coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.063 * +EC1.2.1.27 coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.021 * +EC1.2.1.27 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.2.1.27 malonate semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC1.2.1.27 methylmalonate semialdehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.021 * +EC1.2.1.27 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.033 * +EC1.2.1.27 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.082 * +EC1.2.1.27 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.2.1.27 propanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.1 * +EC1.2.1.27 propionaldehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 9.8 * +EC1.2.1.28 2-hydroxybenzaldehyde acinetobacter calcoaceticus//*//* 0.187 * +EC1.2.1.28 2-hydroxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.497 * +EC1.2.1.28 2-methylbenzaldehyde acinetobacter calcoaceticus//*//* 0.088 * +EC1.2.1.28 2-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.026 * +EC1.2.1.28 2-naphthaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0038 * +EC1.2.1.28 3-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0021 * +EC1.2.1.28 3-fluorobenzaldehyde acinetobacter calcoaceticus//*//* 0.0039 * +EC1.2.1.28 3-fluorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0029 * +EC1.2.1.28 3-hydroxybenzaldehyde acinetobacter calcoaceticus//*//* 0.063 * +EC1.2.1.28 3-hydroxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0028 * +EC1.2.1.28 3-methoxybenzaldehyde acinetobacter calcoaceticus//*//* 0.0065 * +EC1.2.1.28 3-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0026 * +EC1.2.1.28 3-methylbenzaldehyde acinetobacter calcoaceticus//*//* 0.0012 * +EC1.2.1.28 3-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00038 * +EC1.2.1.28 3-nitrobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.022 * +EC1.2.1.28 4-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.003 * +EC1.2.1.28 4-fluorobenzaldehyde acinetobacter calcoaceticus//*//* 0.0028 * +EC1.2.1.28 4-hydroxybenzaldehyde acinetobacter calcoaceticus//*//* 0.018 * +EC1.2.1.28 4-methoxybenzaldehyde acinetobacter calcoaceticus//*//* 0.016 * +EC1.2.1.28 4-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0035 * +EC1.2.1.28 4-methylbenzaldehyde acinetobacter calcoaceticus//*//* 0.003 * +EC1.2.1.28 4-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00097 * +EC1.2.1.28 acetaldehyde antirrhinum majus//*//* 0.00201 * +EC1.2.1.28 benzaldehyde acinetobacter calcoaceticus//*//* 0.00057 * +EC1.2.1.28 benzaldehyde antirrhinum majus//*//* 0.00137 * +EC1.2.1.28 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0014 * +EC1.2.1.28 benzaldehyde sorbus aucuparia//*//* 0.049 * +EC1.2.1.28 cinnamaldehyde acinetobacter calcoaceticus//*//* 0.0015 * +EC1.2.1.28 furan-2-carboxyaldehyde acinetobacter calcoaceticus//*//* 0.059 * +EC1.2.1.28 hexan-1-al acinetobacter calcoaceticus//*//* 0.072 * +EC1.2.1.28 k+ acinetobacter calcoaceticus//*//* 11.2 * +EC1.2.1.28 nad+ acinetobacter calcoaceticus//*//* 0.079 * +EC1.2.1.28 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.115 * +EC1.2.1.28 nad+ sorbus aucuparia//*//* 0.067 * +EC1.2.1.28 octan-1-al acinetobacter calcoaceticus//*//* 0.46 * +EC1.2.1.28 perillaldehyde acinetobacter calcoaceticus//*//* 0.152 * +EC1.2.1.28 phenylacetaldehyde antirrhinum majus//*//* 0.00535 * +EC1.2.1.28 pyridine-3-carboxaldehyde acinetobacter calcoaceticus//*//* 0.026 * +EC1.2.1.28 pyridine-4-carboxaldehyde acinetobacter calcoaceticus//*//* 0.02 * +EC1.2.1.28 thiophen-2-carboxaldehyde acinetobacter calcoaceticus//*//* 0.0051 * +EC1.2.1.3 (3,4-dihydroxyphenyl)(hydroxy)acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.2.1.3 (r)-trans-4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.2.1.3 (s)-trans-4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC1.2.1.3 1,n6-ethenoadenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0358 * +EC1.2.1.3 1-formyl-6-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC1.2.1.3 1-formyl-8-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7e-05 * +EC1.2.1.3 1-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.2.1.3 2,4-dinitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2e-06 * +EC1.2.1.3 2-acetylpyridine-nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.2.1.3 2-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00038 * +EC1.2.1.3 2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-06 * +EC1.2.1.3 2-naphthalene carboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC1.2.1.3 2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC1.2.1.3 3,4-dihydroxyphenyl acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.2.1.3 3,4-dihydroxyphenyl acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC1.2.1.3 3,4-dihydroxyphenylacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.2.1.3 3,4-dimethoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC1.2.1.3 3-hydroxypropionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC1.2.1.3 3-hydroxypropionic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC1.2.1.3 3-pyridinecarboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00196 * +EC1.2.1.3 4-(dimethylamino)cinnamaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.2.1.3 4-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.2.1.3 4-cyanobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.2.1.3 4-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-05 * +EC1.2.1.3 4-hydroxy-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.383 * +EC1.2.1.3 4-hydroxynonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0403 * +EC1.2.1.3 4-hydroxynonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0179 * +EC1.2.1.3 4-hydroxynonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0021 * +EC1.2.1.3 4-methoxy-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5e-05 * +EC1.2.1.3 4-methyoxy-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.2.1.3 5-(dimethylamino)-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3e-06 * +EC1.2.1.3 5-bromo-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-07 * +EC1.2.1.3 5-hydroxyindol acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC1.2.1.3 5-methoxyindole-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0189 * +EC1.2.1.3 5-nitro-1-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-07 * +EC1.2.1.3 6,7-dimethoxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00069 * +EC1.2.1.3 6-(dimethylamino)-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3e-06 * +EC1.2.1.3 6-dimethylamino-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.2.1.3 6-methoxy-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.2.1.3 6-methoxy-2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0054 * +EC1.2.1.3 7-(dimethylamino)-2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00213 * +EC1.2.1.3 7-(dimethylamino)-coumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.2e-05 * +EC1.2.1.3 7-acetoxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.2.1.3 7-hydroxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC1.2.1.3 7-methoxy-2-quinolinone-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.2.1.3 7-methoxycoumarin-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC1.2.1.3 acetaldehyde acanthopagrus schlegelii//*//* 0.009 * +EC1.2.1.3 acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.2.1.3 acetaldehyde ctenopharyngodon idella//*//* 0.00031 * +EC1.2.1.3 acetaldehyde danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0115 * +EC1.2.1.3 acetaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0002 * +EC1.2.1.3 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.2.1.3 acetaldehyde euglena gracilis//*//* 0.01 * +EC1.2.1.3 acetaldehyde geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.0066 * +EC1.2.1.3 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC1.2.1.3 acetaldehyde ipomoea batatas//*//* 0.007 * +EC1.2.1.3 acetaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 5.16 * +EC1.2.1.3 acetaldehyde nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.082 * +EC1.2.1.3 acetaldehyde ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.04 * +EC1.2.1.3 acetaldehyde pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.165 * +EC1.2.1.3 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0004 * +EC1.2.1.3 acetaldehyde ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.6 * +EC1.2.1.3 acetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.38 * +EC1.2.1.3 acetylaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.2.1.3 acrolein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC1.2.1.3 all-trans-retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC1.2.1.3 alpha-aminoadipate semialdehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.169 * +EC1.2.1.3 alpha-phenylpropanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00093 * +EC1.2.1.3 benzaldehyde ctenopharyngodon idella//*//* 6e-05 * +EC1.2.1.3 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.37 * +EC1.2.1.3 benzaldehyde euglena gracilis//*//* 0.15 * +EC1.2.1.3 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-05 * +EC1.2.1.3 benzaldehyde nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.33 * +EC1.2.1.3 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0399 * +EC1.2.1.3 benzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.2.1.3 betaine aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0411 * +EC1.2.1.3 betanad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0234 * +EC1.2.1.3 butanal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00019 * +EC1.2.1.3 butanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.045 * +EC1.2.1.3 butanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC1.2.1.3 butanal rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0038 * +EC1.2.1.3 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.97 * +EC1.2.1.3 butyraldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.74 * +EC1.2.1.3 cinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC1.2.1.3 crotonaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC1.2.1.3 d-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.136 * +EC1.2.1.3 deamino-nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.326 * +EC1.2.1.3 decanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 91.0 * +EC1.2.1.3 decanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9e-06 * +EC1.2.1.3 decanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0013 * +EC1.2.1.3 decanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0071 * +EC1.2.1.3 dl-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.12 * +EC1.2.1.3 dl-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 8.51 * +EC1.2.1.3 dodecanal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC1.2.1.3 dodecanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC1.2.1.3 fluorene-2-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4e-05 * +EC1.2.1.3 formaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC1.2.1.3 formaldehyde nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.65 * +EC1.2.1.3 formaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC1.2.1.3 formaldehyde rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.333 * +EC1.2.1.3 glutaraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC1.2.1.3 glutathione-4-oxonon-2-enal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.183 * +EC1.2.1.3 glyceraldehyde 3-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.372 * +EC1.2.1.3 glyceraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC1.2.1.3 glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.205 * +EC1.2.1.3 glycoaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC1.2.1.3 glycolaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.69 * +EC1.2.1.3 glycolaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.2.1.3 glycolaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC1.2.1.3 glyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC1.2.1.3 heptanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-05 * +EC1.2.1.3 heptanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC1.2.1.3 heptanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0056 * +EC1.2.1.3 hexanal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.071 * +EC1.2.1.3 hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC1.2.1.3 hexanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0035 * +EC1.2.1.3 hexanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0095 * +EC1.2.1.3 hexanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC1.2.1.3 hexanal rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0018 * +EC1.2.1.3 hexanaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.9 * +EC1.2.1.3 hydrocinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.2.1.3 indole 3-acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.2.1.3 indole-3-acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC1.2.1.3 indole-3-acetaldehyde ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.002 * +EC1.2.1.3 indole-3-aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.2.1.3 isobutanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.2.1.3 isovaleraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.68 * +EC1.2.1.3 m-methoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9e-05 * +EC1.2.1.3 m-methylbenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-05 * +EC1.2.1.3 malondialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.2.1.3 malondialdehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC1.2.1.3 malondialdehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.014 * +EC1.2.1.3 methylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC1.2.1.3 monochloroacetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC1.2.1.3 n-acetyl-4-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.2.1.3 n-guanine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.944 * +EC1.2.1.3 n-hypoxanthine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.172 * +EC1.2.1.3 n-nonanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.2.1.3 nad+ acanthopagrus schlegelii//*//* 0.4 * +EC1.2.1.3 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.119 * +EC1.2.1.3 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.047 * +EC1.2.1.3 nad+ ctenopharyngodon idella//*//* 0.0367 * +EC1.2.1.3 nad+ equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.003 * +EC1.2.1.3 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.2.1.3 nad+ euglena gracilis//*//* 0.047 * +EC1.2.1.3 nad+ geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.389 * +EC1.2.1.3 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.2.1.3 nad+ nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.62 * +EC1.2.1.3 nad+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0019 * +EC1.2.1.3 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.044 * +EC1.2.1.3 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC1.2.1.3 nad+ rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.09 * +EC1.2.1.3 nad+ sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.058 * +EC1.2.1.3 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.82 * +EC1.2.1.3 nadh ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.088 * +EC1.2.1.3 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC1.2.1.3 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.81 * +EC1.2.1.3 nonanal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.008 * +EC1.2.1.3 o-methoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.2.1.3 o-methylbenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.2.1.3 o-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3e-06 * +EC1.2.1.3 octanal acanthopagrus schlegelii//*//* 0.007 * +EC1.2.1.3 octanal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.029 * +EC1.2.1.3 octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2e-05 * +EC1.2.1.3 octanal rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 8.5e-05 * +EC1.2.1.3 p-(dimethylamino)-benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2e-05 * +EC1.2.1.3 p-(dimethylamino)benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC1.2.1.3 p-(dimethylamino)cinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-06 * +EC1.2.1.3 p-carboxybenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC1.2.1.3 p-methoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-05 * +EC1.2.1.3 p-methoxybenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.2.1.3 p-methylbenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7e-05 * +EC1.2.1.3 p-nitrobenzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0034 * +EC1.2.1.3 p-nitrobenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-06 * +EC1.2.1.3 p-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC1.2.1.3 p-nitrocinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-07 * +EC1.2.1.3 p-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0043 * +EC1.2.1.3 pentanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-05 * +EC1.2.1.3 pentanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC1.2.1.3 pentanaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.2 * +EC1.2.1.3 phenanthrene-9-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-06 * +EC1.2.1.3 phenylacetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00352 * +EC1.2.1.3 phenylacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.2.1.3 phenylacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9e-05 * +EC1.2.1.3 phenylacetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC1.2.1.3 phosphonoacetaldehyde sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.0032 * +EC1.2.1.3 propanal acanthopagrus schlegelii//*//* 0.007 * +EC1.2.1.3 propanal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0218 * +EC1.2.1.3 propanal ctenopharyngodon idella//*//* 0.00011 * +EC1.2.1.3 propanal danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0061 * +EC1.2.1.3 propanal euglena gracilis//*//* 0.0053 * +EC1.2.1.3 propanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-06 * +EC1.2.1.3 propanal nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.006 * +EC1.2.1.3 propanal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.294 * +EC1.2.1.3 propanal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0023 * +EC1.2.1.3 propanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.064 * +EC1.2.1.3 propanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8e-05 * +EC1.2.1.3 propanal rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0091 * +EC1.2.1.3 propionaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.51 * +EC1.2.1.3 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.21 * +EC1.2.1.3 propionaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.2.1.3 propionaldehyde lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 0.82 * +EC1.2.1.3 propionaldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0662 * +EC1.2.1.3 pyruvic aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.2.1.3 quinoline-3-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC1.2.1.3 quinoline-4-carboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC1.2.1.3 succinic semialdehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.54 * +EC1.2.1.3 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.69 * +EC1.2.1.3 trans-2-hexenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC1.2.1.3 trans-2-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC1.2.1.3 trans-cinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5e-05 * +EC1.2.1.3 valeraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC1.2.1.30 (r)-ibuprofen nocadia sp.//*//* 0.0345 * +EC1.2.1.30 atp mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.115 * +EC1.2.1.30 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.152 * +EC1.2.1.30 atp nocadia sp.//*//* 0.0573 * +EC1.2.1.30 benzoate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.063 * +EC1.2.1.30 benzoate nocadia sp.//*//* 0.645 * +EC1.2.1.30 benzoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.362 * +EC1.2.1.30 benzoyladenosine 5'-monophosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.2 * +EC1.2.1.30 ibuprofen nocadia sp.//*//* 0.155 * +EC1.2.1.30 nadph mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.048 * +EC1.2.1.30 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.13 * +EC1.2.1.30 nadph nocadia sp.//*//* 0.0293 * +EC1.2.1.30 salicylate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.167 * +EC1.2.1.31 2-aminoadipic semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.2.1.31 alpha-aminoadipate blastobotrys adeninivorans//*//* 0.78 * +EC1.2.1.31 alpha-aminoadipate candida maltosa//*//* 0.2 * +EC1.2.1.31 alpha-aminoadipate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.2.1.31 atp blastobotrys adeninivorans//*//* 1.0 * +EC1.2.1.31 atp candida maltosa//*//* 0.5 * +EC1.2.1.31 atp penicillium chrysogenum//*//* 1.3 * +EC1.2.1.31 delta1-piperidine 6-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.002 * +EC1.2.1.31 delta1-piperidine 6-carboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.002 * +EC1.2.1.31 l-2-aminoadipate 6-semialdehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.181 * +EC1.2.1.31 l-2-aminoadipate penicillium chrysogenum//*//* 1.4 * +EC1.2.1.31 mgcl2 blastobotrys adeninivorans//*//* 0.77 * +EC1.2.1.31 mgcl2 candida maltosa//*//* 3.8 * +EC1.2.1.31 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.454 * +EC1.2.1.31 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.2.1.31 nadh candida maltosa//*//* 0.38 * +EC1.2.1.31 nadph blastobotrys adeninivorans//*//* 0.23 * +EC1.2.1.31 nadph candida maltosa//*//* 0.1 * +EC1.2.1.31 nadph penicillium chrysogenum//*//* 0.16 * +EC1.2.1.31 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.62 * +EC1.2.1.31 nalpha-benzyloxycarbonyl-l-aminoadipate-delta-semialdehyde rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.888 * +EC1.2.1.32 2-fluorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.2.1.32 2-hydroxy-5-methyl-6-oxohexa-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0093 * +EC1.2.1.32 2-hydroxy-5-methyl-muconic-6-semialdehyde burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.002 * +EC1.2.1.32 2-hydroxymuconate-6-semialdehyde burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.011 * +EC1.2.1.32 2-hydroxymuconate-6-semialdehyde felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.016 * +EC1.2.1.32 2-hydroxymuconate-6-semialdehyde pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.026 * +EC1.2.1.32 2-hydroxymuconate-6-semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.017 * +EC1.2.1.32 2-nitrobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.48 * +EC1.2.1.32 3-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC1.2.1.32 3-fluorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.2.1.32 3-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.94 * +EC1.2.1.32 3-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.63 * +EC1.2.1.32 3-nitrobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.81 * +EC1.2.1.32 4-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.7 * +EC1.2.1.32 4-fluorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.31 * +EC1.2.1.32 4-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.1 * +EC1.2.1.32 4-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.53 * +EC1.2.1.32 4-nitrobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.31 * +EC1.2.1.32 5-chloro-2-hydroxymuconic-6-semialdehyde burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.083 * +EC1.2.1.32 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.46 * +EC1.2.1.32 nad+ burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.046 * +EC1.2.1.32 nad+ felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.019 * +EC1.2.1.32 nad+ pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.074 * +EC1.2.1.32 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.33 * +EC1.2.1.33 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.07 * +EC1.2.1.36 13-cis retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0034 * +EC1.2.1.36 13-cis-retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0006 * +EC1.2.1.36 2,4-decadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0063 * +EC1.2.1.36 9-cis retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC1.2.1.36 9-cis-retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0023 * +EC1.2.1.36 acetaldehyde xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.019 * +EC1.2.1.36 all-trans retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0039 * +EC1.2.1.36 all-trans-retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0007 * +EC1.2.1.36 all-trans-retinal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC1.2.1.36 all-trans-retinaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC1.2.1.36 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.2.1.36 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.2.1.36 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.103 * +EC1.2.1.36 benzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC1.2.1.36 citral rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0029 * +EC1.2.1.36 decanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.2.1.36 decanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0065 * +EC1.2.1.36 decanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC1.2.1.36 hexanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0221 * +EC1.2.1.36 hexanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC1.2.1.36 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0528 * +EC1.2.1.36 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.2.1.36 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC1.2.1.36 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.2.1.36 octanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0007 * +EC1.2.1.36 octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC1.2.1.36 propanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0066 * +EC1.2.1.36 retinal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC1.2.1.36 retinal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC1.2.1.36 retinal xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.001 * +EC1.2.1.38 n-acetyl-l-glumate 5-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC1.2.1.38 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC1.2.1.38 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC1.2.1.39 3,4-dihydroxyphenylacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC1.2.1.39 4-hydroxyphenylacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.2.1.39 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.15 * +EC1.2.1.39 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC1.2.1.39 heptanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0066 * +EC1.2.1.39 hexanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0056 * +EC1.2.1.39 nad+ achromobacter eurydice//*//* 0.07 * +EC1.2.1.39 nad+ brevibacterium sp.//*//* 0.116 * +EC1.2.1.39 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC1.2.1.39 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC1.2.1.39 phenylacetaldehyde brevibacterium sp.//*//* 0.00124 * +EC1.2.1.39 phenylacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC1.2.1.39 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.2.1.4 4-hydroperoxycyclophosphamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC1.2.1.4 4-hydroxy-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC1.2.1.4 4-hydroxy-2-nonenal mammalia//*//* 0.056 * +EC1.2.1.4 4-hydroxy-2-nonenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.056 * +EC1.2.1.4 4-hydroxy-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.056 * +EC1.2.1.4 acetaldehyde acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.031 * +EC1.2.1.4 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC1.2.1.4 acetaldehyde gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.025 * +EC1.2.1.4 acetaldehyde paenarthrobacter nicotinovorans//*//* 2.5 * +EC1.2.1.4 acetaldehyde proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.04 * +EC1.2.1.4 acetaldehyde pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 35.0 * +EC1.2.1.4 acetaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC1.2.1.4 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC1.2.1.4 benzaldehyde paenarthrobacter nicotinovorans//*//* 2.1 * +EC1.2.1.4 butanal acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.98 * +EC1.2.1.4 butanal acinetobacter calcoaceticus//*//* 1.6 * +EC1.2.1.4 butanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.2 * +EC1.2.1.4 butyraldehyde paenarthrobacter nicotinovorans//*//* 0.15 * +EC1.2.1.4 chloroacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0036 * +EC1.2.1.4 decanal acinetobacter calcoaceticus//*//* 0.0015 * +EC1.2.1.4 decanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.023 * +EC1.2.1.4 dodecanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC1.2.1.4 formaldehyde acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.38 * +EC1.2.1.4 formaldehyde paenarthrobacter nicotinovorans//*//* 4.2 * +EC1.2.1.4 glutaraldehyde paenarthrobacter nicotinovorans//*//* 0.11 * +EC1.2.1.4 glyceraldehyde paenarthrobacter nicotinovorans//*//* 0.65 * +EC1.2.1.4 glyceraldehyde pyrobaculum ferrireducens//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyr 15.0 * +EC1.2.1.4 glycolaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.2 * +EC1.2.1.4 heptanal acinetobacter calcoaceticus//*//* 0.055 * +EC1.2.1.4 heptanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.108 * +EC1.2.1.4 hexanal acinetobacter calcoaceticus//*//* 0.46 * +EC1.2.1.4 hexanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.25 * +EC1.2.1.4 isobutyraldehyde pyrobaculum ferrireducens//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyr 20.0 * +EC1.2.1.4 isopentanal proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.03 * +EC1.2.1.4 muconaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC1.2.1.4 nad+ paenarthrobacter nicotinovorans//*//* 1.26 * +EC1.2.1.4 nadp+ acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.019 * +EC1.2.1.4 nadp+ acinetobacter calcoaceticus//*//* 0.056 * +EC1.2.1.4 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.2.1.4 nadp+ gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.03 * +EC1.2.1.4 nadp+ paenarthrobacter nicotinovorans//*//* 0.0022 * +EC1.2.1.4 nadp+ proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.021 * +EC1.2.1.4 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.065 * +EC1.2.1.4 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC1.2.1.4 nonanal acinetobacter calcoaceticus//*//* 0.0039 * +EC1.2.1.4 nonanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.025 * +EC1.2.1.4 octanal acinetobacter calcoaceticus//*//* 0.0093 * +EC1.2.1.4 octanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.062 * +EC1.2.1.4 pentanal acinetobacter calcoaceticus//*//* 0.92 * +EC1.2.1.4 pentanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.435 * +EC1.2.1.4 propanal acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.15 * +EC1.2.1.4 propanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0058 * +EC1.2.1.4 propanal proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.017 * +EC1.2.1.4 propanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.0 * +EC1.2.1.4 propionaldehyde paenarthrobacter nicotinovorans//*//* 1.5 * +EC1.2.1.4 propionaldehyde pyrobaculum ferrireducens//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyr 21.0 * +EC1.2.1.4 tetradecanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.015 * +EC1.2.1.4 trans-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.155 * +EC1.2.1.4 trans-2-hexenal mammalia//*//* 0.155 * +EC1.2.1.4 trans-2-hexenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.155 * +EC1.2.1.4 trans-2-hexenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.155 * +EC1.2.1.4 trans-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.2.1.4 trans-2-nonenal mammalia//*//* 0.012 * +EC1.2.1.4 trans-2-nonenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC1.2.1.4 trans-2-nonenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC1.2.1.4 trans-2-octenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.2.1.4 trans-2-octenal mammalia//*//* 0.035 * +EC1.2.1.4 trans-2-octenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.035 * +EC1.2.1.4 trans-2-octenal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC1.2.1.4 tridecanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.023 * +EC1.2.1.4 undecanal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.016 * +EC1.2.1.41 dl-pyrroline-5-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC1.2.1.41 glutamic gamma-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC1.2.1.41 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC1.2.1.41 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC1.2.1.41 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC1.2.1.41 phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.3 * +EC1.2.1.41 pyrroline-5-carboxylic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC1.2.1.42 [hexadecanoyl]-acyl carrier protein arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00146 * +EC1.2.1.42 cis-11-hexadecenal marinobacter hydrocarbonoclasticus//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 0.05 * +EC1.2.1.42 hexadecanoyl-coa anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.029 * +EC1.2.1.42 hexadecanoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0036 * +EC1.2.1.42 hexadecanoyl-coa marinobacter hydrocarbonoclasticus//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 0.004 * +EC1.2.1.42 nadh pisum sativum//*//* 0.0016 * +EC1.2.1.42 nadph anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.067 * +EC1.2.1.42 nadph pisum sativum//*//* 0.0032 * +EC1.2.1.43 co2 moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 11.0 * +EC1.2.1.43 formate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 96.0 * +EC1.2.1.43 formate burkholderia stabilis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bstl 55.5 * +EC1.2.1.43 formate candida boidinii//*//* 150.0 * +EC1.2.1.43 formate granulicella mallensis//prokaryotes;bacteria;acidobacteria;granulicella//gma 80.0 * +EC1.2.1.43 formate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.083 * +EC1.2.1.43 formate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 63.0 * +EC1.2.1.43 formate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 120.0 * +EC1.2.1.43 methyl viologen moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 2.35 * +EC1.2.1.43 nad+ burkholderia stabilis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bstl 1.43 * +EC1.2.1.43 nad+ granulicella mallensis//prokaryotes;bacteria;acidobacteria;granulicella//gma 6.5 * +EC1.2.1.43 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.91 * +EC1.2.1.43 nadp+ burkholderia stabilis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bstl 0.16 * +EC1.2.1.43 nadp+ candida boidinii//*//* 0.18 * +EC1.2.1.43 nadp+ granulicella mallensis//prokaryotes;bacteria;acidobacteria;granulicella//gma 0.85 * +EC1.2.1.43 nadp+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.11 * +EC1.2.1.43 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.35 * +EC1.2.1.43 nadp+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.62 * +EC1.2.1.43 nadph moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.02 * +EC1.2.1.44 4-coumaroyl-coa panicum virgatum//*//* 0.0316 * +EC1.2.1.44 4-coumaroyl-coa triticum aestivum//*//* 0.0397 * +EC1.2.1.44 4-coumaroyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.0028 * +EC1.2.1.44 5-hydroxyferuloyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC1.2.1.44 5-hydroxyferuloyl-coa populus tremuloides//*//* 0.099 * +EC1.2.1.44 5-hydroxyferuloyl-coa triticum aestivum//*//* 0.0346 * +EC1.2.1.44 caffeoyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.2 * +EC1.2.1.44 caffeoyl-coa leucaena leucocephala//*//* 0.048 * +EC1.2.1.44 caffeoyl-coa panicum virgatum//*//* 0.0296 * +EC1.2.1.44 caffeoyl-coa populus tremuloides//*//* 0.0763 * +EC1.2.1.44 caffeoyl-coa triticum aestivum//*//* 0.01437 * +EC1.2.1.44 cinnamoyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.9 * +EC1.2.1.44 coniferaldehyde leucaena leucocephala//*//* 0.031 * +EC1.2.1.44 coumaroyl-coa leucaena leucocephala//*//* 0.06 * +EC1.2.1.44 feruloyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00042 * +EC1.2.1.44 feruloyl-coa forsythia suspensa//*//* 0.022 * +EC1.2.1.44 feruloyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.073 * +EC1.2.1.44 feruloyl-coa leucaena leucocephala//*//* 0.036 * +EC1.2.1.44 feruloyl-coa panicum virgatum//*//* 0.0254 * +EC1.2.1.44 feruloyl-coa populus tremuloides//*//* 0.0137 * +EC1.2.1.44 feruloyl-coa populus x canadensis//*//* 0.00235 * +EC1.2.1.44 feruloyl-coa triticum aestivum//*//* 0.023 * +EC1.2.1.44 feruloyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.00926 * +EC1.2.1.44 nadph forsythia suspensa//*//* 0.045 * +EC1.2.1.44 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC1.2.1.44 nadph populus x canadensis//*//* 0.0116 * +EC1.2.1.44 p-coumaroyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00227 * +EC1.2.1.44 p-coumaroyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.1 * +EC1.2.1.44 p-coumaroyl-coa populus x canadensis//*//* 0.00427 * +EC1.2.1.44 sinapaldehyde leucaena leucocephala//*//* 0.039 * +EC1.2.1.44 sinapoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00055 * +EC1.2.1.44 sinapoyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.4 * +EC1.2.1.44 sinapoyl-coa leucaena leucocephala//*//* 0.057 * +EC1.2.1.44 sinapoyl-coa panicum virgatum//*//* 0.0548 * +EC1.2.1.44 sinapoyl-coa populus tremuloides//*//* 0.1045 * +EC1.2.1.44 sinapoyl-coa populus x canadensis//*//* 0.0037 * +EC1.2.1.44 sinapoyl-coa triticum aestivum//*//* 0.0366 * +EC1.2.1.44 sinapoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.00658 * +EC1.2.1.46 acetaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.9 * +EC1.2.1.46 aryl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 100.0 * +EC1.2.1.46 benzyl alcohol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.5 * +EC1.2.1.46 formaldehyde arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.074 * +EC1.2.1.46 formaldehyde ogataea angusta//*//* 0.18 * +EC1.2.1.46 formaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.067 * +EC1.2.1.46 isobutanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 30.0 * +EC1.2.1.46 isobutyraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.2 * +EC1.2.1.46 isopentanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.2 * +EC1.2.1.46 n-butanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 10.6 * +EC1.2.1.46 n-hexanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.0 * +EC1.2.1.46 n-pentanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.5 * +EC1.2.1.46 n-propanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 50.0 * +EC1.2.1.46 nad+ arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.45 * +EC1.2.1.46 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC1.2.1.46 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.056 * +EC1.2.1.46 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.2.1.46 propionaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 47.0 * +EC1.2.1.46 s-hydroxymethylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC1.2.1.46 s-nitrosoglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC1.2.1.47 4-aminobutyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC1.2.1.47 4-dimethylaminobutyraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.051 * +EC1.2.1.47 4-n-trimethylaminobutyraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0074 * +EC1.2.1.47 4-trimethylaminobutyraldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00417 * +EC1.2.1.47 4-trimethylaminobutyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC1.2.1.47 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.102 * +EC1.2.1.47 betaine aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.123 * +EC1.2.1.47 butyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.2.1.47 heptanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.2.1.47 hexadecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0088 * +EC1.2.1.47 hexanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC1.2.1.47 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.125 * +EC1.2.1.47 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.028 * +EC1.2.1.47 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.63 * +EC1.2.1.47 octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.2.1.47 pentanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.2.1.47 propionaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC1.2.1.48 (11z)-hexadec-11-enal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0343 * +EC1.2.1.48 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC1.2.1.48 arachidic aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC1.2.1.48 behenic aldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.2.1.48 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.44 * +EC1.2.1.48 cis,cis-9,12-octadecadienal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.2.1.48 cis-9-hexadecenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.2.1.48 cis-9-octadecenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.2.1.48 crotonaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC1.2.1.48 decanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC1.2.1.48 decyl aldehyde simmondsia chinensis//*//* 0.004 * +EC1.2.1.48 dihydrophytal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.2.1.48 dodecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0136 * +EC1.2.1.48 farnesal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC1.2.1.48 glutaraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC1.2.1.48 hexadecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0083 * +EC1.2.1.48 hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.2.1.48 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC1.2.1.48 nad+ simmondsia chinensis//*//* 0.25 * +EC1.2.1.48 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7 * +EC1.2.1.48 octadecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.2.1.48 octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.2.1.48 pentadecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.2.1.48 propionaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC1.2.1.48 tetradecanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0103 * +EC1.2.1.48 tetraeicosanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.2.1.49 2-keto-3-deoxyglucose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.2 * +EC1.2.1.49 l-2-aminopropan-1-ol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 83.0 * +EC1.2.1.49 l-serine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC1.2.1.49 methylglyoxal capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.21 * +EC1.2.1.49 methylglyoxal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.21 * +EC1.2.1.49 methylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC1.2.1.49 nadp+ capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.04 * +EC1.2.1.49 nadp+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0045 * +EC1.2.1.49 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC1.2.1.5 1,n6-ethenoadenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.096 * +EC1.2.1.5 1-formyl-6-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.2.1.5 1-formyl-8-methylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.2.1.5 1-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.2.1.5 2-bromobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.2.1.5 2-bromobenzaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC1.2.1.5 2-chlorobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.2.1.5 2-chlorobenzaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC1.2.1.5 2-fluorobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC1.2.1.5 2-fluorobenzaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0165 * +EC1.2.1.5 2-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.2.1.5 2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC1.2.1.5 3,4-dihydroxyphenyl acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.39 * +EC1.2.1.5 3,4-dihydroxyphenyl benzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.61 * +EC1.2.1.5 3,4-dihydroxyphenylacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC1.2.1.5 3-acetylpyridine adenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0132 * +EC1.2.1.5 3-pyridinealdehyde adenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0338 * +EC1.2.1.5 3-thionicotinamide adenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0151 * +EC1.2.1.5 4-bromobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.039 * +EC1.2.1.5 4-chlorobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC1.2.1.5 4-fluorobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.2.1.5 4-formylpyrene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00078 * +EC1.2.1.5 4-hydroxynonenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC1.2.1.5 4-iodobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.081 * +EC1.2.1.5 4-pyridinecarboxaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC1.2.1.5 5-hydroxyindole-3-acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC1.2.1.5 6-methoxy-2-naphthaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC1.2.1.5 acetaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.095 * +EC1.2.1.5 acetaldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 18.89 * +EC1.2.1.5 acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.58 * +EC1.2.1.5 acetaldehyde cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 1.7 * +EC1.2.1.5 acetaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0002 * +EC1.2.1.5 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 67.0 * +EC1.2.1.5 acetaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.63 * +EC1.2.1.5 acetaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.2.1.5 acetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.38 * +EC1.2.1.5 aldophosphamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.64 * +EC1.2.1.5 all-trans-retinal bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.007 * +EC1.2.1.5 benzaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.2 * +EC1.2.1.5 benzaldehyde cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 0.083 * +EC1.2.1.5 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC1.2.1.5 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC1.2.1.5 benzaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 4.15 * +EC1.2.1.5 benzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.2.1.5 benzaldehyde saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC1.2.1.5 beta-nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC1.2.1.5 beta-nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.68 * +EC1.2.1.5 betanad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.094 * +EC1.2.1.5 butyraldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.95 * +EC1.2.1.5 chloroacetaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.01 * +EC1.2.1.5 chloroacetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC1.2.1.5 cinnamaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC1.2.1.5 d-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 6.12 * +EC1.2.1.5 d-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 8.51 * +EC1.2.1.5 formaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.27 * +EC1.2.1.5 formaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.9 * +EC1.2.1.5 glycolaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.05 * +EC1.2.1.5 heptanal paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.042 * +EC1.2.1.5 hexanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC1.2.1.5 hexanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.08 * +EC1.2.1.5 indole-3-acetaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC1.2.1.5 isobutyraldehyde cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 0.016 * +EC1.2.1.5 isopentanal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0005 * +EC1.2.1.5 isovaleraldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 9.87 * +EC1.2.1.5 isovaleraldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.66 * +EC1.2.1.5 n-1,n6-ethenoadenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0113 * +EC1.2.1.5 n-dodecanal sphingopyxis macrogoltabida//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//smag 0.137 * +EC1.2.1.5 n-guanine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33 * +EC1.2.1.5 n-hypoxanthine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.121 * +EC1.2.1.5 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.004 * +EC1.2.1.5 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.43 * +EC1.2.1.5 nad+ cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 0.068 * +EC1.2.1.5 nad+ equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.003 * +EC1.2.1.5 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.2.1.5 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.06 * +EC1.2.1.5 nad+ paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.501 * +EC1.2.1.5 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.2.1.5 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC1.2.1.5 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.84 * +EC1.2.1.5 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.25 * +EC1.2.1.5 nadp+ equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.01 * +EC1.2.1.5 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC1.2.1.5 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC1.2.1.5 nadp+ paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.04 * +EC1.2.1.5 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC1.2.1.5 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC1.2.1.5 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.81 * +EC1.2.1.5 octanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC1.2.1.5 pentanal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0001 * +EC1.2.1.5 phenylacetaldehyde equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0003 * +EC1.2.1.5 propanal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC1.2.1.5 propanal equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.005 * +EC1.2.1.5 propanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC1.2.1.5 propanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00039 * +EC1.2.1.5 propanal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC1.2.1.5 propionaldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.46 * +EC1.2.1.5 propionaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC1.2.1.5 propionaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.21 * +EC1.2.1.5 trans-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.2.1.5 trans-2-hexenal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC1.2.1.5 valeraldehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.12 * +EC1.2.1.5 valeraldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.3 * +EC1.2.1.50 nadph anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.067 * +EC1.2.1.50 nadph photobacterium phosphoreum//*//* 0.005 * +EC1.2.1.50 palmitoyl-coa anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.029 * +EC1.2.1.50 tetradecanoyl-coa photobacterium phosphoreum//*//* 0.001 * +EC1.2.1.51 coa euglena gracilis//*//* 0.0066 * +EC1.2.1.51 methyl viologen euglena gracilis//*//* 0.068 * +EC1.2.1.51 nadp+ euglena gracilis//*//* 0.028 * +EC1.2.1.51 pyruvate euglena gracilis//*//* 0.027 * +EC1.2.1.52 2-oxoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.6 * +EC1.2.1.52 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC1.2.1.52 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC1.2.1.54 4-guanidinobutyraldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC1.2.1.54 gamma-aminobutyraldehyde vicia faba//*//* 0.025 * +EC1.2.1.54 gamma-guanidinobutyraldehyde vicia faba//*//* 0.0034 * +EC1.2.1.54 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.2.1.54 nad+ vicia faba//*//* 0.084 * +EC1.2.1.57 acetaldehyde clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 7.2 * +EC1.2.1.57 acetyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.055 * +EC1.2.1.57 butanal clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 1.6 * +EC1.2.1.57 butanoyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.045 * +EC1.2.1.57 hexanal clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.37 * +EC1.2.1.57 nad+ clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.16 * +EC1.2.1.57 nadh clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.003 * +EC1.2.1.57 nadp+ clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 2.0 * +EC1.2.1.57 nadph clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.04 * +EC1.2.1.57 propionaldehyde clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 6.7 * +EC1.2.1.58 coa azoarcus evansii//*//* 0.055 * +EC1.2.1.58 nad+ azoarcus evansii//*//* 0.074 * +EC1.2.1.58 phenylglyoxylate azoarcus evansii//*//* 0.045 * +EC1.2.1.59 3-phospho-d-glyceroyl phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 5.8 * +EC1.2.1.59 d-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.21 * +EC1.2.1.59 d-glyceraldehyde 3-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.27 * +EC1.2.1.59 nad(p)+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.03 * +EC1.2.1.59 nad+ methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.65 * +EC1.2.1.59 nad+ pyrococcus woesei//*//* 1.0 * +EC1.2.1.59 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 16.8 * +EC1.2.1.59 nadh synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.01 * +EC1.2.1.59 nadp+ methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.003 * +EC1.2.1.59 nadp+ pyrococcus woesei//*//* 0.01 * +EC1.2.1.59 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.28 * +EC1.2.1.59 nadph methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.002 * +EC1.2.1.59 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.18 * +EC1.2.1.59 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.01 * +EC1.2.1.59 phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 107.0 * +EC1.2.1.60 5-carboxymethyl-2-hydroxymuconate semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC1.2.1.60 5-carboxymethyl-2-hydroxymuconate semialdehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.005 * +EC1.2.1.60 5-carboxymethyl-2-hydroxymuconate semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.009 * +EC1.2.1.60 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.2.1.60 nad+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.012 * +EC1.2.1.60 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.2.1.60 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC1.2.1.60 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC1.2.1.64 4-hydroxybenzaldehyde daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.0548 * +EC1.2.1.64 nad+ daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.0744 * +EC1.2.1.65 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00016 * +EC1.2.1.65 salicylaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.034 * +EC1.2.1.67 vanillin burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.004 * +EC1.2.1.67 vanillin micrococcus sp.//*//* 0.007 * +EC1.2.1.68 coniferyl aldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.007 * +EC1.2.1.68 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.334 * +EC1.2.1.69 acetaldehyde streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.81 * +EC1.2.1.69 benzaldehyde streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.32 * +EC1.2.1.69 fluoroacetaldehyde streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.08 * +EC1.2.1.69 glycoaldehyde streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.15 * +EC1.2.1.7 3,4-dihydroxybenzaldehyde acinetobacter baylyi//*//* 0.037 * +EC1.2.1.7 4-hydroxy-3-methoxybenzaldehyde acinetobacter baylyi//*//* 0.044 * +EC1.2.1.7 4-hydroxybenzaldehyde acinetobacter baylyi//*//* 0.006 * +EC1.2.1.7 benzaldehyde acinetobacter baylyi//*//* 0.029 * +EC1.2.1.7 benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0002 * +EC1.2.1.7 benzaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.2.1.7 nad+ acinetobacter baylyi//*//* 0.6 * +EC1.2.1.7 nadp+ pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.037 * +EC1.2.1.7 nadp+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.13 * +EC1.2.1.70 l-glutamyl-trnaglu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC1.2.1.70 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.039 * +EC1.2.1.72 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.51 * +EC1.2.1.72 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.074 * +EC1.2.1.73 2-sulfoacetaldehyde rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.026 * +EC1.2.1.73 nad+ neptuniibacter caesariensis//*//* 0.12 * +EC1.2.1.73 nad+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.092 * +EC1.2.1.73 nadp+ neptuniibacter caesariensis//*//* 4.5 * +EC1.2.1.73 nadp+ rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 12.0 * +EC1.2.1.73 sulfoacetaldehyde neptuniibacter caesariensis//*//* 0.49 * +EC1.2.1.75 malonyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.03 * +EC1.2.1.75 malonyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.1 * +EC1.2.1.75 malonyl-coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.04 * +EC1.2.1.75 nadph chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.0238 * +EC1.2.1.75 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.025 * +EC1.2.1.76 coenzyme a clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 2.9 * +EC1.2.1.76 nadp+ clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 4.0 * +EC1.2.1.76 nadph clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 4.3 * +EC1.2.1.76 succinate-semialdehyde clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 2.7 * +EC1.2.1.76 succinyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 3.2 * +EC1.2.1.77 3,4-dehydroadipyl-coa semialdehyde azoarcus evansii//*//* 0.025 * +EC1.2.1.77 benzaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 4.15 * +EC1.2.1.77 formaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.9 * +EC1.2.1.77 heptaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.042 * +EC1.2.1.77 isovaleraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.66 * +EC1.2.1.77 nad+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.501 * +EC1.2.1.77 nadp+ azoarcus evansii//*//* 0.016 * +EC1.2.1.77 nadp+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.04 * +EC1.2.1.77 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 1.21 * +EC1.2.1.77 valeraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.3 * +EC1.2.1.78 2-carboxybenzaldehyde alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.054 * +EC1.2.1.78 2-carboxybenzaldehyde nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.1 * +EC1.2.1.78 nad+ alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.14 * +EC1.2.1.78 nad+ nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.083 * +EC1.2.1.79 2,5-dioxopentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1 * +EC1.2.1.79 nad+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.23 * +EC1.2.1.79 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 11.1 * +EC1.2.1.79 nadp+ escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.2.1.79 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0446 * +EC1.2.1.79 nadp+ euglena gracilis//*//* 0.038 * +EC1.2.1.79 nadp+ klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.25 * +EC1.2.1.79 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0092 * +EC1.2.1.79 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.135 * +EC1.2.1.79 nadp+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.1 * +EC1.2.1.79 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC1.2.1.79 nadp+ synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.439 * +EC1.2.1.79 succinate semialdehyde escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.2.1.79 succinate semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0078 * +EC1.2.1.79 succinate semialdehyde euglena gracilis//*//* 1.06 * +EC1.2.1.79 succinate semialdehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.04 * +EC1.2.1.79 succinate semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0199 * +EC1.2.1.79 succinate semialdehyde streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 3.95 * +EC1.2.1.79 succinate semialdehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.001 * +EC1.2.1.79 succinic semialdehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC1.2.1.8 3-aminopropionaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.7 * +EC1.2.1.8 3-aminopropionaldehyde avena sativa//*//* 5.4e-07 * +EC1.2.1.8 3-aminopropionaldehyde leymus chinensis//*//* 0.453 * +EC1.2.1.8 3-aminopropionaldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0012 * +EC1.2.1.8 3-aminopropionaldehyde zoysia tenuifolia//*//* 0.004 * +EC1.2.1.8 3-dimethylsulfoniopropionaldehyde amaranthus hypochondriacus//*//* 0.0027 * +EC1.2.1.8 3-n-trimethylaminopropionaldehyde leymus chinensis//*//* 0.0914 * +EC1.2.1.8 3-n-trimethylaminopropionaldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.035 * +EC1.2.1.8 4-aminobutyraldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.1 * +EC1.2.1.8 4-aminobutyraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.2.1.8 4-aminobutyraldehyde leymus chinensis//*//* 0.00196 * +EC1.2.1.8 4-aminobutyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.2.1.8 4-aminobutyraldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC1.2.1.8 4-aminobutyraldehyde zoysia tenuifolia//*//* 0.049 * +EC1.2.1.8 4-guanidinobutyraldehyde avena sativa//*//* 2.4e-05 * +EC1.2.1.8 4-n-trimethylaminobutyraldehyde leymus chinensis//*//* 0.0221 * +EC1.2.1.8 4-n-trimethylaminobutyraldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0078 * +EC1.2.1.8 4-trimethylaminobutyraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC1.2.1.8 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC1.2.1.8 acetaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.2.1.8 acetaldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.13 * +EC1.2.1.8 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.2.1.8 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.2.1.8 beta-nad+ avena sativa//*//* 4.1e-06 * +EC1.2.1.8 betaine aldehyde amaranthus hypochondriacus//*//* 0.0561 * +EC1.2.1.8 betaine aldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.81 * +EC1.2.1.8 betaine aldehyde avena sativa//*//* 5e-06 * +EC1.2.1.8 betaine aldehyde cylindrocarpon didymum//*//* 0.31 * +EC1.2.1.8 betaine aldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.2.1.8 betaine aldehyde leymus chinensis//*//* 0.109 * +EC1.2.1.8 betaine aldehyde limulus polyphemus//*//* 0.133 * +EC1.2.1.8 betaine aldehyde oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.23 * +EC1.2.1.8 betaine aldehyde pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.38 * +EC1.2.1.8 betaine aldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC1.2.1.8 betaine aldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.068 * +EC1.2.1.8 betaine aldehyde staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.17 * +EC1.2.1.8 betaine aldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.127 * +EC1.2.1.8 betaine aldehyde zoysia tenuifolia//*//* 0.291 * +EC1.2.1.8 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.2.1.8 d,l-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC1.2.1.8 formaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.8 * +EC1.2.1.8 glycine betaine aldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC1.2.1.8 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.3 * +EC1.2.1.8 glycolaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC1.2.1.8 glycolaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.152 * +EC1.2.1.8 isovaleraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.2.1.8 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC1.2.1.8 nad+ amaranthus hypochondriacus//*//* 0.011 * +EC1.2.1.8 nad+ cylindrocarpon didymum//*//* 0.38 * +EC1.2.1.8 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC1.2.1.8 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.2.1.8 nad+ leymus chinensis//*//* 0.00766 * +EC1.2.1.8 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.083 * +EC1.2.1.8 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.028 * +EC1.2.1.8 nad+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.00946 * +EC1.2.1.8 nad+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.26 * +EC1.2.1.8 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.2.1.8 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC1.2.1.8 nadp+ leymus chinensis//*//* 3.68 * +EC1.2.1.8 nadp+ limulus polyphemus//*//* 0.267 * +EC1.2.1.8 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.089 * +EC1.2.1.8 nadp+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.635 * +EC1.2.1.8 nadp+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.26 * +EC1.2.1.8 p-nitrobenzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.2.1.8 phenyl acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 51.0 * +EC1.2.1.8 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC1.2.1.8 undecanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC1.2.1.8 valeraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.2.1.80 hexacosanoyl-coa cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.91 * +EC1.2.1.80 hexadecanoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00148 * +EC1.2.1.80 oleoyl-[acyl carrier protein] synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.0079 * +EC1.2.1.80 stearoyl-[acyl-carrier protein] nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.024 * +EC1.2.1.81 2-sulfoacetaldehyde cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.33 * +EC1.2.1.81 coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.102 * +EC1.2.1.81 nadp+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.064 * +EC1.2.1.84 nadph cavia porcellus//*//* 0.06 * +EC1.2.1.85 2-hydroxy-5-methyl-6-oxohexa-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0093 * +EC1.2.1.85 2-hydroxymuconate-6-semialdehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.017 * +EC1.2.1.85 3-chlorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC1.2.1.85 3-fluorobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.2.1.85 3-methoxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.94 * +EC1.2.1.85 3-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.63 * +EC1.2.1.85 3-nitrobenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.81 * +EC1.2.1.85 4-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.53 * +EC1.2.1.85 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.46 * +EC1.2.1.85 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.33 * +EC1.2.1.87 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 23.6 * +EC1.2.1.87 acetaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.5 * +EC1.2.1.87 butyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 31.7 * +EC1.2.1.87 isobutyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 7.7 * +EC1.2.1.87 nad+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.0348 * +EC1.2.1.87 nadp+ paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.561 * +EC1.2.1.87 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 2.0 * +EC1.2.1.87 propionaldehyde thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.4 * +EC1.2.1.88 1-pyrroline-5-carboxylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.062 * +EC1.2.1.88 1-pyrroline-5-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC1.2.1.88 1-pyrroline-5-carboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC1.2.1.88 1-pyrroline-5-carboxylate hyalomma dromedarii//*//* 0.2 * +EC1.2.1.88 1-pyrroline-5-carboxylate nicotiana plumbaginifolia//*//* 1.22 * +EC1.2.1.88 1-pyrroline-5-carboxylate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.265 * +EC1.2.1.88 1-pyrroline-5-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC1.2.1.88 1-pyrroline-5-carboxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.104 * +EC1.2.1.88 1-pyrroline-5-carboxylate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.46 * +EC1.2.1.88 1-pyrroline-5-carboxylate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.109 * +EC1.2.1.88 1-pyrroline-5-carboxylate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.037 * +EC1.2.1.88 3-methoxybenzaldehyde hyalomma dromedarii//*//* 0.5 * +EC1.2.1.88 4-methoxybenzaldehyde hyalomma dromedarii//*//* 0.25 * +EC1.2.1.88 acetaldehyde hyalomma dromedarii//*//* 1.0 * +EC1.2.1.88 benzaldehyde hyalomma dromedarii//*//* 0.5 * +EC1.2.1.88 d-glucose hyalomma dromedarii//*//* 0.133 * +EC1.2.1.88 formaldehyde hyalomma dromedarii//*//* 0.76 * +EC1.2.1.88 glyoxylic acid hyalomma dromedarii//*//* 1.0 * +EC1.2.1.88 indol-3-acetaldehyde hyalomma dromedarii//*//* 0.2 * +EC1.2.1.88 l-glutamate 5-semialdehyde trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 97.0 * +EC1.2.1.88 l-pyrroline-5-carboxylate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.42 * +EC1.2.1.88 l-pyrroline-5-carboxylate nicotiana plumbaginifolia//*//* 0.42 * +EC1.2.1.88 l-pyrroline-5-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC1.2.1.88 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.053 * +EC1.2.1.88 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC1.2.1.88 nad+ hyalomma dromedarii//*//* 0.62 * +EC1.2.1.88 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 2.3 * +EC1.2.1.88 nad+ nicotiana plumbaginifolia//*//* 0.02 * +EC1.2.1.88 nad+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.644 * +EC1.2.1.88 nad+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.11 * +EC1.2.1.88 nad+ streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.043 * +EC1.2.1.88 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.071 * +EC1.2.1.88 nad+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 103.0 * +EC1.2.1.88 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC1.2.1.88 nadp+ hyalomma dromedarii//*//* 1.0 * +EC1.2.1.88 nadp+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.0095 * +EC1.2.1.88 nadp+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.662 * +EC1.2.1.88 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.12 * +EC1.2.1.88 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.0 * +EC1.2.1.88 p-nitrobenzaldehyde hyalomma dromedarii//*//* 0.27 * +EC1.2.1.88 pyrroline-5-carboxylate saccharomyces sp.//*//* 0.35 * +EC1.2.1.89 d-glyceraldehyde picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.06 * +EC1.2.1.89 d-glyceraldehyde thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.2 * +EC1.2.1.89 d-glycerate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 5.1 * +EC1.2.1.89 d-glycerate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 18.3 * +EC1.2.1.89 glycolaldehyde picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 11.1 * +EC1.2.1.89 glycolaldehyde thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 12.3 * +EC1.2.1.89 nad+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 22.7 * +EC1.2.1.89 nadp+ picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.42 * +EC1.2.1.89 nadp+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.017 * +EC1.2.1.9 1,n6-ethenoadenine-nicotinamide dinucleotide phosphate apium graveolens//*//* 0.04 * +EC1.2.1.9 3-acetylpyridine-adenine dinucleotide phosphate apium graveolens//*//* 0.016 * +EC1.2.1.9 3-phospho-d-glyceroyl phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.015 * +EC1.2.1.9 beta-nicotinamide adenine dinucleotide 2',3'-cyclic monophosphate apium graveolens//*//* 0.08 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate arachis hypogaea//*//* 0.025 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.051 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate pisum sativum//*//* 0.017 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.031 * +EC1.2.1.9 d-glyceraldehyde 3-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.019 * +EC1.2.1.9 d-glyceraldehyde-3-phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.545 * +EC1.2.1.9 d-glyceraldehyde-3-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.046 * +EC1.2.1.9 d-glyceraldehyde-3-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.666 * +EC1.2.1.9 d-glyceraldehyde-3-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.51 * +EC1.2.1.9 d-glyceraldehyde-3-phosphate triticum aestivum//*//* 0.101 * +EC1.2.1.9 dl-glyceraldehyde 3-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.501 * +EC1.2.1.9 nad+ hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 1.2 * +EC1.2.1.9 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.4 * +EC1.2.1.9 nad+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 18.9 * +EC1.2.1.9 nadh synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.42 * +EC1.2.1.9 nadp+ apium graveolens//*//* 0.007 * +EC1.2.1.9 nadp+ arachis hypogaea//*//* 0.005 * +EC1.2.1.9 nadp+ chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0098 * +EC1.2.1.9 nadp+ clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.2 * +EC1.2.1.9 nadp+ hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.01 * +EC1.2.1.9 nadp+ pisum sativum//*//* 0.0035 * +EC1.2.1.9 nadp+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.017 * +EC1.2.1.9 nadp+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.385 * +EC1.2.1.9 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.09 * +EC1.2.1.9 nadp+ sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.023 * +EC1.2.1.9 nadp+ triticum aestivum//*//* 0.034 * +EC1.2.1.9 nadp+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.0035 * +EC1.2.1.9 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.029 * +EC1.2.1.9 nadph synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.062 * +EC1.2.1.9 nicotinamide-hypoxanthine dinucleotide phosphate apium graveolens//*//* 0.033 * +EC1.2.1.90 d-glyceraldehyde 3-phosphate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.02 * +EC1.2.1.90 nad+ thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 1.0 * +EC1.2.1.91 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC1.2.1.94 (2e,6e)-farnesal persicaria minor//*//* 0.13 * +EC1.2.1.94 alpha-methyl-cinnamaldehyde persicaria minor//*//* 1.28 * +EC1.2.1.94 citral persicaria minor//*//* 0.69 * +EC1.2.1.94 nad+ persicaria minor//*//* 0.31 * +EC1.2.1.94 trans-cinnamaldehyde persicaria minor//*//* 0.86 * +EC1.2.1.95 adipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC1.2.1.95 atp penicillium chrysogenum//*//* 0.65 * +EC1.2.1.95 d-2-aminoadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.7 * +EC1.2.1.95 l-2-aminoadipate penicillium chrysogenum//*//* 0.3 * +EC1.2.1.95 l-2-aminoadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.47 * +EC1.2.1.95 nadph penicillium chrysogenum//*//* 0.06 * +EC1.2.1.95 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.62 * +EC1.2.1.95 s-carboxymethyl-l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.43 * +EC1.2.1.96 4-hydroxy-3-methylbenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00636 * +EC1.2.1.96 4-hydroxybenzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.00357 * +EC1.2.1.97 (2s)-3-sulfolactaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC1.2.1.99 3-hydroxypropionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC1.2.1.99 3-hydroxypropionaldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.48 * +EC1.2.1.99 3-hydroxypropionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC1.2.1.99 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC1.2.1.99 benzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.37 * +EC1.2.1.99 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.97 * +EC1.2.1.99 butyraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.26 * +EC1.2.1.99 isovaleraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.68 * +EC1.2.1.99 isovaleraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.21 * +EC1.2.1.99 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.21 * +EC1.2.1.99 valeraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC1.2.1.99 valeraldehyde klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.14 * +EC1.2.1.B8 5'-hydroxyaverantin lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.0426 * +EC1.2.2.3 ferri-ssc desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.013 * +EC1.2.2.3 ferri-tpic3 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0039 * +EC1.2.2.3 ferricytochrome c-553 desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0027 * +EC1.2.2.3 formate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.0074 * +EC1.2.2.4 co oligotropha carboxidovorans//prokaryotes;bacteria;alphaproteobacteria;oligotropha//oca 0.053 * +EC1.2.2.4 co pseudomonas carboxydohydrogena//*//* 0.063 * +EC1.2.2.B1 formaldehyde methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.143 * +EC1.2.2.B2 formaldehyde methylomonas sp. j//*//* 2.3 * +EC1.2.2.B2 formaldehyde methylophilus methylotrophus//*//* 1.01 * +EC1.2.3.1 (+)-4-(4-cyanoanilino)-5,6-dihydro-7-hydroxy-7h-cyclopenta-[d]-pyrimidine macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0109 * +EC1.2.3.1 (+)-4-(4-cyanoanilino)-5,6-dihydro-7-hydroxy-7h-cyclopenta[d]-pyrimidine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.147 * +EC1.2.3.1 (s)-4-(4-cyanoanilino)-5,6-dihydro-7-hydroxy-7h-cyclopenta[d]-pyrimidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0341 * +EC1.2.3.1 (s)-rs-8359 macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0027 * +EC1.2.3.1 (s)-rs-8359 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0238 * +EC1.2.3.1 1-methyl-3-acetylpyridine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC1.2.3.1 13-cis retinal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.9 * +EC1.2.3.1 2,6-dichlorophenol indophenol cavia porcellus//*//* 0.007 * +EC1.2.3.1 2-ethylbutylaldehyde methylobacillus sp.//*//* 0.57 * +EC1.2.3.1 2-ethylbutylaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.5 * +EC1.2.3.1 2-ethylbutylaldehyde streptomyces moderatus//*//* 2.2 * +EC1.2.3.1 2-hydroxybenzaldehyde cavia porcellus//*//* 0.02 * +EC1.2.3.1 2-hydroxypyrimidine cavia porcellus//*//* 1.65 * +EC1.2.3.1 2-hydroxypyrimidine mesocricetus auratus//*//* 0.0044 * +EC1.2.3.1 2-hydroxypyrimidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.06 * +EC1.2.3.1 2-methoxybenzaldehyde cavia porcellus//*//* 0.004 * +EC1.2.3.1 3,4-dimethoxybenzaldehyde cavia porcellus//*//* 0.019 * +EC1.2.3.1 3-hydroxybenzaldehyde cavia porcellus//*//* 0.005 * +EC1.2.3.1 3-methoxy-4-hydroxybenzaldehyde cavia porcellus//*//* 0.029 * +EC1.2.3.1 3-methoxybenzaldehyde cavia porcellus//*//* 0.02 * +EC1.2.3.1 4-(4-cyanoanilino)-5,6-dihydro-7-hydroxy-7h-cyclopenta[d]-pyrimidine macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0043 * +EC1.2.3.1 4-(4-cyanoanilino)-5,6-dihydro-7-hydroxy-7h-cyclopenta[d]-pyrimidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0043 * +EC1.2.3.1 4-(dimethylamino)cinnamaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0096 * +EC1.2.3.1 4-hydroxybenzaldehyde cavia porcellus//*//* 0.008 * +EC1.2.3.1 6-chloroquinazolin-4(3h)-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC1.2.3.1 6-ethyl-5h-dibenz(c,e)azepine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.04 * +EC1.2.3.1 6-methoxyquinazolin-4(3h)-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.293 * +EC1.2.3.1 6-methylquinazolin-4(3h)-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.142 * +EC1.2.3.1 6-methylthiopurine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC1.2.3.1 9-cis retinal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC1.2.3.1 acetaldehyde burkholderia sp. aiu 129//*//* 0.34 * +EC1.2.3.1 acetaldehyde desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.25 * +EC1.2.3.1 acetaldehyde methylobacillus sp.//*//* 1.4 * +EC1.2.3.1 acetaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5199 * +EC1.2.3.1 acetaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0025 * +EC1.2.3.1 acetaldehyde streptomyces moderatus//*//* 0.13 * +EC1.2.3.1 acetaldehyde streptomyces rimosus//*//* 3.8 * +EC1.2.3.1 acetaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.345 * +EC1.2.3.1 acrolein methylobacillus sp.//*//* 0.48 * +EC1.2.3.1 acrolein pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.4 * +EC1.2.3.1 acrolein streptomyces moderatus//*//* 0.74 * +EC1.2.3.1 all-trans retinal rattus sp.//*//* 0.125 * +EC1.2.3.1 all-trans retinaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.031 * +EC1.2.3.1 all-trans-retinal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.008 * +EC1.2.3.1 allopurinol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.595 * +EC1.2.3.1 benzaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0238 * +EC1.2.3.1 benzaldehyde burkholderia sp. aiu 129//*//* 0.06 * +EC1.2.3.1 benzaldehyde cavia porcellus//*//* 0.0165 * +EC1.2.3.1 benzaldehyde desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.151 * +EC1.2.3.1 benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.2.3.1 benzaldehyde mesocricetus auratus//*//* 0.019 * +EC1.2.3.1 benzaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0025 * +EC1.2.3.1 benzaldehyde oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0103 * +EC1.2.3.1 benzaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00057 * +EC1.2.3.1 benzaldehyde streptomyces rimosus//*//* 2.2 * +EC1.2.3.1 benzaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.0015 * +EC1.2.3.1 butanal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.029 * +EC1.2.3.1 butanaldehyde desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.105 * +EC1.2.3.1 butylaldehyde burkholderia sp. aiu 129//*//* 0.1 * +EC1.2.3.1 butyraldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.008 * +EC1.2.3.1 butyraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0005 * +EC1.2.3.1 butyraldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.026 * +EC1.2.3.1 cinchonidine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0074 * +EC1.2.3.1 cinnamylaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1039 * +EC1.2.3.1 citral methylobacillus sp.//*//* 0.12 * +EC1.2.3.1 citral pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.1 * +EC1.2.3.1 citral streptomyces moderatus//*//* 0.06 * +EC1.2.3.1 clothianidin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.052 * +EC1.2.3.1 diphenylsulfoxide cavia porcellus//*//* 0.02 * +EC1.2.3.1 dl-glyceraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.31 * +EC1.2.3.1 ferricyanide cavia porcellus//*//* 0.03 * +EC1.2.3.1 formaldehyde burkholderia sp. aiu 129//*//* 35.9 * +EC1.2.3.1 formaldehyde methylobacillus sp.//*//* 4.2 * +EC1.2.3.1 formaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.5 * +EC1.2.3.1 formaldehyde pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 29.0 * +EC1.2.3.1 formaldehyde streptomyces moderatus//*//* 3.6 * +EC1.2.3.1 formaldehyde streptomyces rimosus//*//* 8.8 * +EC1.2.3.1 glutaraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.29 * +EC1.2.3.1 glutaraldehyde streptomyces rimosus//*//* 0.6 * +EC1.2.3.1 glycolaldehyde burkholderia sp. aiu 129//*//* 1.0 * +EC1.2.3.1 glyoxal burkholderia sp. aiu 129//*//* 12.3 * +EC1.2.3.1 glyoxal pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0097 * +EC1.2.3.1 glyoxal streptomyces rimosus//*//* 3.8 * +EC1.2.3.1 hexylaldehyde methylobacillus sp.//*//* 1.8 * +EC1.2.3.1 hexylaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00014 * +EC1.2.3.1 hexylaldehyde streptomyces moderatus//*//* 0.26 * +EC1.2.3.1 hypoxanthine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.4 * +EC1.2.3.1 imidacloprid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC1.2.3.1 indole-3-acetaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.07 * +EC1.2.3.1 indole-3-acetaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.0032 * +EC1.2.3.1 indole-3-aldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.0045 * +EC1.2.3.1 m-tolualdehyde streptomyces rimosus//*//* 1.8 * +EC1.2.3.1 methotrexate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.792 * +EC1.2.3.1 methotrexate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.072 * +EC1.2.3.1 methylene blue cavia porcellus//*//* 0.002 * +EC1.2.3.1 n-[(2-dimethylamino)ethyl] acridine-4-carboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.2.3.1 n-[(2-dimethylamino)ethyl] acridine-4-carboxamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.011 * +EC1.2.3.1 n-[(2-dimethylamino)ethyl]acridine-4-carboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC1.2.3.1 n-[2-(dimethylamino)ethyl]acridine-4-carboxamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0029 * +EC1.2.3.1 n-heptanal streptomyces rimosus//*//* 0.73 * +EC1.2.3.1 n-heptylaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.11 * +EC1.2.3.1 n-hexanal streptomyces rimosus//*//* 0.8 * +EC1.2.3.1 n-hexylaldehyde pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.22 * +EC1.2.3.1 n-methylnicotinamide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.08 * +EC1.2.3.1 n-methylnicotinamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.355 * +EC1.2.3.1 n-methylnicotinamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.36 * +EC1.2.3.1 n-pentanal streptomyces rimosus//*//* 1.5 * +EC1.2.3.1 n-valeraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.18 * +EC1.2.3.1 n1-methyl-nicotineamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.128 * +EC1.2.3.1 n1-methylnicotinamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1285 * +EC1.2.3.1 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC1.2.3.1 nitenpyram rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.084 * +EC1.2.3.1 nitrite rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC1.2.3.1 o-tolualdehyde streptomyces rimosus//*//* 4.8 * +EC1.2.3.1 o6-benzylguanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC1.2.3.1 p-hydroxybenzaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0026 * +EC1.2.3.1 p-methoxybenzaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0008 * +EC1.2.3.1 p-tolualdehyde streptomyces rimosus//*//* 1.4 * +EC1.2.3.1 phenanthridine cavia porcellus//*//* 0.0226 * +EC1.2.3.1 phenanthridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC1.2.3.1 phenanthridine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.005 * +EC1.2.3.1 phenylacetaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.25 * +EC1.2.3.1 phthalazine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC1.2.3.1 propionaldehyde burkholderia sp. aiu 129//*//* 0.74 * +EC1.2.3.1 propionaldehyde desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.012 * +EC1.2.3.1 propionaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0028 * +EC1.2.3.1 propionaldehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.074 * +EC1.2.3.1 protocatechualdehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.0029 * +EC1.2.3.1 purine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.22 * +EC1.2.3.1 quinazolin-4(3h)-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.399 * +EC1.2.3.1 retinal mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0038 * +EC1.2.3.1 retinal oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.008 * +EC1.2.3.1 retinal rattus sp.//*//* 0.25 * +EC1.2.3.1 retinalaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC1.2.3.1 retinaldehyde mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0558 * +EC1.2.3.1 salicylaldehyde methylobacillus sp.//*//* 0.07 * +EC1.2.3.1 salicylaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.7 * +EC1.2.3.1 salicylaldehyde streptomyces moderatus//*//* 0.34 * +EC1.2.3.1 salicylaldehyde streptomyces rimosus//*//* 5.2 * +EC1.2.3.1 tropylium tetrafluoroborate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.15 * +EC1.2.3.1 valeraldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0011 * +EC1.2.3.1 vanillin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC1.2.3.1 vanillin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.2.3.1 vanillin streptomyces rimosus//*//* 6.0 * +EC1.2.3.1 xanthine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.7 * +EC1.2.3.1 zebularine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC1.2.3.1 zebularine macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.015 * +EC1.2.3.1 zebularine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.027 * +EC1.2.3.1 zebularine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.2.3.1 zoniporide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.2.3.14 abscisic aldehyde pisum sativum//*//* 0.0051 * +EC1.2.3.15 methylglyoxal phanerochaete chrysosporium//*//* 0.64 * +EC1.2.3.3 2,6-dichlorophenolindophenol lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.02 * +EC1.2.3.3 arsenate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.25 * +EC1.2.3.3 oxygen lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.07 * +EC1.2.3.3 phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.3 * +EC1.2.3.3 pyruvate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.4 * +EC1.2.3.4 oxalate abortiporus biennis//*//* 0.015 * +EC1.2.3.4 oxalate amaranthus spinosus//*//* 0.21 * +EC1.2.3.4 oxalate costus pictus//*//* 0.065 * +EC1.2.3.4 oxalate gelatoporia subvermispora//*//* 0.1 * +EC1.2.3.4 oxalate hordeum vulgare//*//* 0.37 * +EC1.2.3.4 oxalate musa acuminata//eukaryotes;plants;monocots;banana family//mus 1.88 * +EC1.2.3.4 oxalate ochrobactrum intermedium//*//* 0.45 * +EC1.2.3.4 oxalate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.16 * +EC1.2.3.4 oxalate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.121 * +EC1.2.3.4 oxalate triticum aestivum//*//* 0.21 * +EC1.2.3.4 oxalate zea mays//eukaryotes;plants;monocots;grass family//zma 1.31 * +EC1.2.3.4 oxalic acid beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.05 * +EC1.2.3.4 oxalic acid gelatoporia subvermispora//*//* 0.55 * +EC1.2.3.4 oxalic acid hordeum vulgare//*//* 0.27 * +EC1.2.3.4 oxalic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.5 * +EC1.2.3.4 oxalic acid sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.27 * +EC1.2.3.4 oxalic acid sorghum sp.//*//* 0.024 * +EC1.2.3.5 glyoxylate tyromyces palustris//*//* 3.7 * +EC1.2.3.7 indole-3-acetaldehyde avena sativa//*//* 0.345 * +EC1.2.3.7 indole-3-acetaldehyde pisum sativum//*//* 1.4 * +EC1.2.3.8 2,4,5-trimethoxybenzaldehyde drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.57 * +EC1.2.3.8 pyridoxal drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.028 * +EC1.2.4.1 2-keto-4-methylhexanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 40.0 * +EC1.2.4.1 2-ketobutanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.7 * +EC1.2.4.1 2-ketobutyrate brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.166 * +EC1.2.4.1 2-ketohexanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 12.7 * +EC1.2.4.1 2-ketopentanoate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 7.6 * +EC1.2.4.1 2-oxobutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.016 * +EC1.2.4.1 2-oxoisovalerate bacillus caldolyticus//*//* 1.27 * +EC1.2.4.1 2-oxovalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.149 * +EC1.2.4.1 coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC1.2.4.1 coenzyme a ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.003 * +EC1.2.4.1 e2p lipoyl domain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.73 * +EC1.2.4.1 lipoyl domain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.2.4.1 mg2+ pisum sativum//*//* 0.36 * +EC1.2.4.1 n-acetyl-gdllaeietdk(lipoyl)-atig-amide mammalia//*//* 15.0 * +EC1.2.4.1 n-terminal lipoyl domain mammalia//*//* 0.052 * +EC1.2.4.1 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.033 * +EC1.2.4.1 nad+ ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.051 * +EC1.2.4.1 pyruvate bacillus caldolyticus//*//* 0.117 * +EC1.2.4.1 pyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC1.2.4.1 pyruvate brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.25 * +EC1.2.4.1 pyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.7 * +EC1.2.4.1 pyruvate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.14 * +EC1.2.4.1 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2609 * +EC1.2.4.1 pyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0011 * +EC1.2.4.1 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.2.4.1 pyruvate mammalia//*//* 0.0248 * +EC1.2.4.1 pyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.017 * +EC1.2.4.1 pyruvate pigeon//*//* 0.017 * +EC1.2.4.1 pyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.147 * +EC1.2.4.1 pyruvate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.25 * +EC1.2.4.1 pyruvate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.09 * +EC1.2.4.1 pyruvate saccharomyces carlsbergensis//*//* 0.25 * +EC1.2.4.1 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.65 * +EC1.2.4.1 pyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC1.2.4.1 pyruvate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.1 * +EC1.2.4.1 thiamine diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00158 * +EC1.2.4.1 thiamine diphosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.023 * +EC1.2.4.1 thiamine diphosphate pisum sativum//*//* 8e-05 * +EC1.2.4.1 thiamine diphosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.05 * +EC1.2.4.1 thiamine diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.065 * +EC1.2.4.2 2-oxoglutarate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.27 * +EC1.2.4.2 2-oxoglutarate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.4 * +EC1.2.4.2 2-oxoglutarate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.15 * +EC1.2.4.2 2-oxoglutarate brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.116 * +EC1.2.4.2 2-oxoglutarate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.076 * +EC1.2.4.2 2-oxoglutarate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.13 * +EC1.2.4.2 2-oxoglutarate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.0 * +EC1.2.4.2 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.2.4.2 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC1.2.4.2 2-oxoglutarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.07 * +EC1.2.4.2 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC1.2.4.2 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC1.2.4.4 2-oxo-4-methylthiobutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0133 * +EC1.2.4.4 2-oxo-isovalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC1.2.4.4 2-oxobutanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.056 * +EC1.2.4.4 2-oxobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0258 * +EC1.2.4.4 2-oxobutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0075 * +EC1.2.4.4 2-oxoglutarate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC1.2.4.4 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC1.2.4.4 3-methyl-2-oxobutanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00067 * +EC1.2.4.4 3-methyl-2-oxobutanoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.028 * +EC1.2.4.4 3-methyl-2-oxobutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.46 * +EC1.2.4.4 3-methyl-2-oxobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.2.4.4 3-methyl-2-oxobutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.213 * +EC1.2.4.4 3-methyl-2-oxopentanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC1.2.4.4 3-methyl-2-oxopentanoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.014 * +EC1.2.4.4 3-methyl-2-oxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.2.4.4 3-methyl-2-oxopentanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0199 * +EC1.2.4.4 4-methyl-2-oxopentanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0062 * +EC1.2.4.4 4-methyl-2-oxopentanoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.015 * +EC1.2.4.4 4-methyl-2-oxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.2.4.4 4-methyl-2-oxopentanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0218 * +EC1.2.4.4 coenzyme a bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC1.2.4.4 coenzyme a pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.033 * +EC1.2.4.4 dl-3-methyl-2-oxopentanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0172 * +EC1.2.4.4 dl-3-methyl-2-oxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0105 * +EC1.2.4.4 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.2.4.4 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.12 * +EC1.2.4.4 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0387 * +EC1.2.4.4 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0353 * +EC1.2.4.4 pyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.173 * +EC1.2.4.4 pyruvate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.715 * +EC1.2.4.4 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC1.2.5.3 co oligotropha carboxidovorans//prokaryotes;bacteria;alphaproteobacteria;oligotropha//oca 0.0107 * +EC1.2.7.1 2-oxobutyrate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.205 * +EC1.2.7.1 coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC1.2.7.1 coa chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0052 * +EC1.2.7.1 coa citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 0.028 * +EC1.2.7.1 coa desulfomicrobium sp.//*//* 0.42 * +EC1.2.7.1 coa desulfovibrio piger//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dpg 0.54 * +EC1.2.7.1 coa hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.054 * +EC1.2.7.1 coa methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.0058 * +EC1.2.7.1 coa methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.006 * +EC1.2.7.1 coa pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.021 * +EC1.2.7.1 coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.11 * +EC1.2.7.1 coa thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.02 * +EC1.2.7.1 coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.063 * +EC1.2.7.1 oxaloacetate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.264 * +EC1.2.7.1 oxidized benzyl viologen methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.07 * +EC1.2.7.1 oxidized ferredoxin 1 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0046 * +EC1.2.7.1 oxidized ferredoxin 2 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0037 * +EC1.2.7.1 oxidized ferredoxin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.01 * +EC1.2.7.1 oxidized ferredoxin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.03 * +EC1.2.7.1 oxidized ferredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.094 * +EC1.2.7.1 oxidized methyl viologen chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.33 * +EC1.2.7.1 oxidized methyl viologen pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.14 * +EC1.2.7.1 pyruvate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.24 * +EC1.2.7.1 pyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.3 * +EC1.2.7.1 pyruvate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.16 * +EC1.2.7.1 pyruvate citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 0.12 * +EC1.2.7.1 pyruvate desulfomicrobium sp.//*//* 2.5 * +EC1.2.7.1 pyruvate desulfovibrio piger//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dpg 2.72 * +EC1.2.7.1 pyruvate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 3.45 * +EC1.2.7.1 pyruvate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.115 * +EC1.2.7.1 pyruvate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.07 * +EC1.2.7.1 pyruvate pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.13 * +EC1.2.7.1 pyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.46 * +EC1.2.7.1 pyruvate thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.25 * +EC1.2.7.1 pyruvate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.4 * +EC1.2.7.10 oxalate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.058 * +EC1.2.7.11 2-oxobutanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.516 * +EC1.2.7.11 2-oxobutyrate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.07 * +EC1.2.7.11 2-oxobutyrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.516 * +EC1.2.7.11 2-oxobutyrate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.48 * +EC1.2.7.11 2-oxoglutarate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.5 * +EC1.2.7.11 2-oxoglutarate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 1.1 * +EC1.2.7.11 2-oxoglutarate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.163 * +EC1.2.7.11 2-oxoglutarate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.85 * +EC1.2.7.11 2-oxoglutarate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.1 * +EC1.2.7.11 coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.074 * +EC1.2.7.11 oxidized ferredoxin halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.07 * +EC1.2.7.11 pyruvate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.38 * +EC1.2.7.11 pyruvate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.1 * +EC1.2.7.11 pyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.275 * +EC1.2.7.11 pyruvate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.25 * +EC1.2.7.11 pyruvate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.32 * +EC1.2.7.12 formamide methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 3.0 * +EC1.2.7.12 formate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 1.7 * +EC1.2.7.12 formate methanothermobacter wolfeii//prokaryotes;archaea;euryarchaeota;methanothermobacter//mwo 0.035 * +EC1.2.7.12 formylmethanofuran archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.066 * +EC1.2.7.12 formylmethanofuran methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.06 * +EC1.2.7.12 methanofuran methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC1.2.7.12 methylformamide methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 5.0 * +EC1.2.7.12 methylviologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.8 * +EC1.2.7.12 methylviologen methanothermobacter wolfeii//prokaryotes;archaea;euryarchaeota;methanothermobacter//mwo 0.037 * +EC1.2.7.12 n-formylmethanofuran methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.02 * +EC1.2.7.12 n-formylmethanofuran methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.02 * +EC1.2.7.12 n-formylmethanofuran methanothermobacter wolfeii//prokaryotes;archaea;euryarchaeota;methanothermobacter//mwo 0.013 * +EC1.2.7.12 n-furfurylformamide methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.2 * +EC1.2.7.12 n-furfurylformamide methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 70.0 * +EC1.2.7.12 n-furfurylformamide methanothermobacter wolfeii//prokaryotes;archaea;euryarchaeota;methanothermobacter//mwo 0.053 * +EC1.2.7.12 oxidized 1,1',2,2'-tetramethylviologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.125 * +EC1.2.7.12 oxidized benzylviologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.015 * +EC1.2.7.12 oxidized carbamoylviologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.008 * +EC1.2.7.12 oxidized methylviologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.04 * +EC1.2.7.12 reduced 1,1',2,2'-tetramethylviologen methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.4 * +EC1.2.7.3 2-oxoglutarate chlorobium vibrioforme f. thiosulfatophilum//*//* 2.6 * +EC1.2.7.3 2-oxoglutarate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 1.42 * +EC1.2.7.3 2-oxoglutarate thauera aromatica//*//* 0.11 * +EC1.2.7.3 2-oxoglutarate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.25 * +EC1.2.7.3 coa hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.08 * +EC1.2.7.3 coa thauera aromatica//*//* 0.29 * +EC1.2.7.3 coa thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.04 * +EC1.2.7.3 oxidized ferredoxin thauera aromatica//*//* 0.01 * +EC1.2.7.3 oxidized ferredoxin thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.008 * +EC1.2.7.3 reduced ferredoxin hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.00055 * +EC1.2.7.3 succinyl-coa chlorobium vibrioforme f. thiosulfatophilum//*//* 0.25 * +EC1.2.7.4 2,3,5-triphenyltetrazolium chloride methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.5 * +EC1.2.7.4 acetyl-coa moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.6 * +EC1.2.7.4 co archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.35 * +EC1.2.7.4 co carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 0.018 * +EC1.2.7.4 co methanosaeta concilii//prokaryotes;archaea;euryarchaeota;methanosaeta//mcj 0.7 * +EC1.2.7.4 co methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 5.0 * +EC1.2.7.4 co methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.9 * +EC1.2.7.4 co methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.0 * +EC1.2.7.4 co moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.01 * +EC1.2.7.4 co rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.032 * +EC1.2.7.4 coa moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.05 * +EC1.2.7.4 ferredoxin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.008 * +EC1.2.7.4 methyl viologen archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.4 * +EC1.2.7.4 methyl viologen carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 4.0 * +EC1.2.7.4 methyl viologen methanosaeta concilii//prokaryotes;archaea;euryarchaeota;methanosaeta//mcj 0.065 * +EC1.2.7.4 methyl viologen methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 7.1 * +EC1.2.7.4 methyl viologen methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.12 * +EC1.2.7.4 methyl viologen moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 3.03 * +EC1.2.7.4 methylene blue oligotropha carboxidovorans//prokaryotes;bacteria;alphaproteobacteria;oligotropha//oca 0.00295 * +EC1.2.7.4 propionyl-coa moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 5.0 * +EC1.2.7.4 trichloroethylene methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1.7 * +EC1.2.7.5 acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 60.0 * +EC1.2.7.5 acetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.016 * +EC1.2.7.5 acetate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.8 * +EC1.2.7.5 benzaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.057 * +EC1.2.7.5 benzyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.17 * +EC1.2.7.5 crotonaldehyde pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.3 * +EC1.2.7.5 crotonaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.04 * +EC1.2.7.5 crotonaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.13 * +EC1.2.7.5 ferredoxin thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.01 * +EC1.2.7.5 formaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 25.0 * +EC1.2.7.5 formaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.42 * +EC1.2.7.5 glutaric dialdehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.8 * +EC1.2.7.5 glyceraldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.0 * +EC1.2.7.5 glyceraldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.2 * +EC1.2.7.5 indoleacetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 25.0 * +EC1.2.7.5 indoleacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.05 * +EC1.2.7.5 isovalerylaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.028 * +EC1.2.7.5 methyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 2.9 * +EC1.2.7.5 phenylacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.076 * +EC1.2.7.5 phenylpropionaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 15.0 * +EC1.2.7.5 propionaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 60.0 * +EC1.2.7.5 propionaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.15 * +EC1.2.7.5 salicylaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.065 * +EC1.2.7.5 succinic semialdehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.0 * +EC1.2.7.6 benzyl viologen pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 1.0 * +EC1.2.7.6 d-glyceraldehyde 3-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.28 * +EC1.2.7.6 d-glyceraldehyde 3-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.043 * +EC1.2.7.6 d-glyceraldehyde-3-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.043 * +EC1.2.7.6 d-glyceraldehyde-3-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.028 * +EC1.2.7.6 oxidized benzyl viologen pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 1.0 * +EC1.2.7.6 oxidized ferredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.006 * +EC1.2.7.7 2-keto-3-methylvalerate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.15 * +EC1.2.7.7 2-keto-3-methylvalerate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.012 * +EC1.2.7.7 2-ketobutyrate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.17 * +EC1.2.7.7 2-ketobutyrate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.38 * +EC1.2.7.7 2-ketocaproate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.311 * +EC1.2.7.7 2-ketocaproate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.049 * +EC1.2.7.7 2-ketoisocaproate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.176 * +EC1.2.7.7 2-ketoisocaproate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.026 * +EC1.2.7.7 2-ketoisovalerate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.3 * +EC1.2.7.7 2-ketoisovalerate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.11 * +EC1.2.7.7 2-ketoisovalerate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.094 * +EC1.2.7.7 2-ketoisovalerate thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.17 * +EC1.2.7.7 2-ketomethylisobutyrate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.276 * +EC1.2.7.7 4-methylthio-2-oxobutanoate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.058 * +EC1.2.7.7 co2 thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.048 * +EC1.2.7.7 coa methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.004 * +EC1.2.7.7 coa pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.0096 * +EC1.2.7.7 coa thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.05 * +EC1.2.7.7 coenzyme a thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.021 * +EC1.2.7.7 ferredoxin thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.017 * +EC1.2.7.7 isobutyryl-coa thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.25 * +EC1.2.7.7 phenylglyoxalate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.6 * +EC1.2.7.7 phenylglyoxylate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.466 * +EC1.2.7.7 phenylpyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.22 * +EC1.2.7.7 pyruvate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2.8 * +EC1.2.7.7 pyruvate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.75 * +EC1.2.7.8 (indol-3-yl)pyruvate thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.22 * +EC1.2.7.8 4-hydroxyphenylpyruvate thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.13 * +EC1.2.7.8 coa methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.02 * +EC1.2.7.8 coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.017 * +EC1.2.7.8 coa thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.015 * +EC1.2.7.8 ferredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.048 * +EC1.2.7.8 indolepyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.25 * +EC1.2.7.8 indolepyruvate thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.22 * +EC1.2.7.8 oxidized ferredoxin thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.06 * +EC1.2.7.8 p-hydroxyphenylpyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.11 * +EC1.2.7.8 phenylpyruvate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.4 * +EC1.2.7.8 phenylpyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.095 * +EC1.2.7.8 phenylpyruvate thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.018 * +EC1.2.7.B2 acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 60.0 * +EC1.2.7.B2 formaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.021 * +EC1.2.7.B2 glutaric dialdehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.8 * +EC1.2.7.B2 indole-3-acetaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 25.0 * +EC1.2.7.B2 oxidized benzyl viologen pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.073 * +EC1.2.7.B2 oxidized ferredoxin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.014 * +EC1.2.7.B2 phenylpropionaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 15.0 * +EC1.2.7.B2 propionaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 62.0 * +EC1.2.7.B2 succinic semialdehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.0 * +EC1.2.98.1 1-butanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0014 * +EC1.2.98.1 1-propanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0032 * +EC1.2.98.1 butanal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.2.98.1 ethanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.2.98.1 formaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.35 * +EC1.2.98.1 methanol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC1.2.99.6 3,5-dimethoxy-4-hydroxybenzaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 10.0 * +EC1.2.99.6 3-chlorobenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 3.8 * +EC1.2.99.6 3-chlorobenzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 2.4 * +EC1.2.99.6 3-fluorobenzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 3.5 * +EC1.2.99.6 3-hydroxybenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 50.4 * +EC1.2.99.6 3-hydroxybenzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 78.0 * +EC1.2.99.6 3-methoxybenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 44.9 * +EC1.2.99.6 3-methylbenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 12.8 * +EC1.2.99.6 3-methylbenzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 6.1 * +EC1.2.99.6 4-(hydroxymethyl)benzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 8.0 * +EC1.2.99.6 4-chlorobenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 1.2 * +EC1.2.99.6 4-chlorobenzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.0 * +EC1.2.99.6 4-fluorobenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 1.4 * +EC1.2.99.6 4-hydroxy-3-methoxybenzaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 3.0 * +EC1.2.99.6 4-hydroxybenzaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 12.0 * +EC1.2.99.6 4-hydroxybenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 382.0 * +EC1.2.99.6 4-hydroxybenzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 130.0 * +EC1.2.99.6 4-methoxybenzaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.005 * +EC1.2.99.6 4-methoxybenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 2.1 * +EC1.2.99.6 4-methylbenzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 5.0 * +EC1.2.99.6 5-phenyl-2,4-pentadienate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.1 * +EC1.2.99.6 acetaldehyde clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.015 * +EC1.2.99.6 acetaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.0125 * +EC1.2.99.6 acetaldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.019 * +EC1.2.99.6 acetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.016 * +EC1.2.99.6 acetate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 5.6 * +EC1.2.99.6 acetate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.8 * +EC1.2.99.6 benzaldehyde clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.0014 * +EC1.2.99.6 benzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.02 * +EC1.2.99.6 benzaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.009 * +EC1.2.99.6 benzaldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.0073 * +EC1.2.99.6 benzaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.057 * +EC1.2.99.6 benzoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 16.7 * +EC1.2.99.6 benzoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 31.0 * +EC1.2.99.6 benzyl viologen desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.55 * +EC1.2.99.6 benzyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.169 * +EC1.2.99.6 butanal clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.002 * +EC1.2.99.6 butanal moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.006 * +EC1.2.99.6 butanoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.8 * +EC1.2.99.6 butyraldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.012 * +EC1.2.99.6 cinnamaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.012 * +EC1.2.99.6 cinnamate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.7 * +EC1.2.99.6 crotonaldehyde pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.04 * +EC1.2.99.6 crotonaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.13 * +EC1.2.99.6 dl-glyceraldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.016 * +EC1.2.99.6 es-1 ferredoxin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.01 * +EC1.2.99.6 es-1 ferredoxin thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.01 * +EC1.2.99.6 furfural desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.0308 * +EC1.2.99.6 glutaraldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.084 * +EC1.2.99.6 glyceraldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.196 * +EC1.2.99.6 indoleacetaldehyde moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.05 * +EC1.2.99.6 indoleacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.05 * +EC1.2.99.6 isovaleraldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.033 * +EC1.2.99.6 isovaleraldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.028 * +EC1.2.99.6 methanal moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.6 * +EC1.2.99.6 methanal thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.422 * +EC1.2.99.6 methyl viologen moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 2.9 * +EC1.2.99.6 methyl viologen thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 2.9 * +EC1.2.99.6 phenylacetaldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.067 * +EC1.2.99.6 phenylacetaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.076 * +EC1.2.99.6 propanal clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.0055 * +EC1.2.99.6 propanal desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.0108 * +EC1.2.99.6 propanal moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.008 * +EC1.2.99.6 propanal thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.15 * +EC1.2.99.6 propanoate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 6.3 * +EC1.2.99.6 propanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 6.3 * +EC1.2.99.6 propionaldehyde peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 0.017 * +EC1.2.99.6 reduced carbamoyl methyl viologen moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.03 * +EC1.2.99.6 salicylaldehyde thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.065 * +EC1.2.99.6 terephthalate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 4.0 * +EC1.2.99.7 2,3-dihydroxybenzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.044 * +EC1.2.99.7 2,5-dihydroxybenzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 3.457 * +EC1.2.99.7 2-phenylacetaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.27 * +EC1.2.99.7 3-hydroxybenzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.117 * +EC1.2.99.7 3-phenylpropanal desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.029 * +EC1.2.99.7 acetaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.013 * +EC1.2.99.7 benzaldehyde desulfovibrio alaskensis//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dde 0.0067 * +EC1.2.99.7 benzaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.0097 * +EC1.2.99.7 benzylviologen desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.55 * +EC1.2.99.7 cinnamaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.008 * +EC1.2.99.7 furfural desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 30.8 * +EC1.2.99.7 propionaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.015 * +EC1.2.99.7 salicylaldehyde desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.00025 * +EC1.2.99.8 acetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.24 * +EC1.2.99.8 d-glyceraldehyde-3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0035 * +EC1.2.99.8 d-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.011 * +EC1.2.99.8 dl-glyceraldehyde sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.09 * +EC1.2.99.8 indoleacetaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.037 * +EC1.2.99.8 indolepyruvate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.86 * +EC1.2.99.8 propionaldehyde sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.03 * +EC1.2.99.9 fad methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.025 * +EC1.2.99.9 fmn methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.013 * +EC1.2.99.9 formate methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.009 * +EC1.2.99.9 formate methanobrevibacter ruminantium//prokaryotes;archaea;euryarchaeota;methanobrevibacter//mru 0.83 * +EC1.2.99.9 oxidized coenzyme f420 methanobacterium formicicum//prokaryotes;archaea;euryarchaeota;methanobacterium//mfc 0.006 * +EC1.20.1.1 nad+ cupriavidus metallidurans//prokaryotes;bacteria;betaproteobacteria;cupriavidus//rme 0.0045 * +EC1.20.1.1 nad+ methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.0405 * +EC1.20.1.1 nad+ nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0194 * +EC1.20.1.1 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.022 * +EC1.20.1.1 nad+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.035 * +EC1.20.1.1 nad+ ralstonia sp.//*//* 0.0026 * +EC1.20.1.1 nadp+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 2.5 * +EC1.20.1.1 phosphite pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.475 * +EC1.20.1.1 phosphite pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.047 * +EC1.20.1.1 phosphonate cupriavidus metallidurans//prokaryotes;bacteria;betaproteobacteria;cupriavidus//rme 0.0549 * +EC1.20.1.1 phosphonate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.237 * +EC1.20.1.1 phosphonate nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0254 * +EC1.20.1.1 phosphonate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0073 * +EC1.20.1.1 phosphonate ralstonia sp.//*//* 0.0087 * +EC1.20.2.1 arsenite arsenite-oxidising bacterium nt-26//*//* 0.061 * +EC1.20.2.1 arsenite arsenite-oxidising bacterium//*//* 0.061 * +EC1.20.2.1 arsenite hydrogenophaga sp.//prokaryotes;bacteria;betaproteobacteria;hydrogenophaga//hyr 0.035 * +EC1.20.4.1 arsenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC1.20.4.1 arsenate pteris vittata//*//* 2.3 * +EC1.20.4.1 glutaredoxin 1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0042 * +EC1.20.4.1 glutaredoxin 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3e-06 * +EC1.20.4.1 glutaredoxin 3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.20.4.1 glutaredoxin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2e-06 * +EC1.20.4.1 reduced glutathione pteris vittata//*//* 0.57 * +EC1.20.4.2 arsenate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 109.0 * +EC1.20.4.2 dimethylarsonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.9 * +EC1.20.4.2 monomethylarsonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.1 * +EC1.20.4.4 arsenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.047 * +EC1.20.4.4 arsenate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.032 * +EC1.20.4.4 arsenate desulfovibrio alaskensis//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dde 0.006 * +EC1.20.4.4 arsenate salinispora tropica//prokaryotes;bacteria;actinobacteria;salinispora//stp 75.0 * +EC1.20.4.4 arsenate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 6.6e-05 * +EC1.20.4.4 arsenate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.635 * +EC1.20.4.4 thioredoxin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.033 * +EC1.20.9.1 arsenate chrysiogenes arsenatis//*//* 0.3 * +EC1.20.9.1 arsenite alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.07 * +EC1.20.9.1 arsenite arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.026 * +EC1.20.9.1 azurin alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.008 * +EC1.20.99.1 arsenate chrysiogenes arsenatis//*//* 0.3 * +EC1.20.99.1 arsenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC1.20.99.1 arsenate oryza sativa//eukaryotes;plants;monocots;grass family//osa 9.2 * +EC1.20.99.1 arsenite hydrogenophaga sp. nt-14//*//* 0.035 * +EC1.20.99.1 arsenite hydrogenophaga sp. nt-26//*//* 0.061 * +EC1.20.99.1 reduced glutaredoxin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.1 * +EC1.21.1.1 3,5-diiodo-l-tyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0025 * +EC1.21.1.1 3,5-diiodo-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00202 * +EC1.21.1.1 3,5-diiodo-l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC1.21.1.1 3-iodo-l-tyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC1.21.1.1 3-iodo-l-tyrosine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.008 * +EC1.21.1.1 3-iodo-l-tyrosine daphnia pulex//eukaryotes;animals;arthropods;crustaceans//dpx 0.007 * +EC1.21.1.1 3-iodo-l-tyrosine haliscomenobacter hydrossis//prokaryotes;bacteria;bacteroidetes;haliscomenobacter//hhy 0.0066 * +EC1.21.1.1 3-iodo-l-tyrosine hydra magnipapillata//*//* 0.004 * +EC1.21.1.1 3-iodo-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC1.21.1.1 3-iodo-l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.21.1.1 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC1.21.3.1 delta-(l-alpha-aminoadipyl)-l-cysteinyl-d-valine amycolatopsis lactamdurans//*//* 0.18 * +EC1.21.3.1 delta-(l-alpha-aminoadipyl)-l-cysteinyl-d-valine flavobacterium sp.//*//* 0.08 * +EC1.21.3.1 n-[(5s)-5-amino-5-carboxypentanoyl]-l-cysteinyl-d-valine actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.18 * +EC1.21.3.1 n-[(5s)-5-amino-5-carboxypentanoyl]-l-cysteinyl-d-valine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.12 * +EC1.21.3.1 phenylacetyl-l-cysteinyl-d-valine actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 3.6 * +EC1.21.3.2 columbamine berberis stolonifera//*//* 0.002 * +EC1.21.3.3 (s)-reticuline berberis beaniana//*//* 0.00014 * +EC1.21.3.3 (s)-reticuline eschscholzia californica//*//* 0.00027 * +EC1.21.3.3 (s)-scoulerine eschscholzia californica//*//* 0.035 * +EC1.21.3.3 o2 eschscholzia californica//*//* 0.28 * +EC1.21.3.4 (+)-ascorbic acid penicillium glabrum//*//* 150.0 * +EC1.21.3.4 catechol penicillium glabrum//*//* 40.0 * +EC1.21.3.4 hydroquinone penicillium glabrum//*//* 60.0 * +EC1.21.3.4 n,n,n',n'-tetramethyl-p-phenylenediamine penicillium glabrum//*//* 1.0 * +EC1.21.3.4 n,n-dimethyl-p-phenylenediamine penicillium glabrum//*//* 0.4 * +EC1.21.3.4 o-phenylenediamine penicillium glabrum//*//* 5.0 * +EC1.21.3.4 o2 penicillium glabrum//*//* 0.063 * +EC1.21.3.4 p-phenylenediamine penicillium glabrum//*//* 2.0 * +EC1.21.3.4 sulochrin penicillium glabrum//*//* 0.0065 * +EC1.21.3.5 hydroquinone oospora sulphurea-ochracea//*//* 53.0 * +EC1.21.3.5 n,n,n',n'-tetramethyl-p-phenylenediamine oospora sulphurea-ochracea//*//* 1.5 * +EC1.21.3.5 sulochrin oospora sulphurea-ochracea//*//* 0.0085 * +EC1.21.3.6 2',3,4,4',6'-pentahydroxychalcone 4'-beta-d-glucopyranoside antirrhinum majus//*//* 0.0081 * +EC1.21.3.6 2',3,4,4',6'-pentahydroxychalcone antirrhinum majus//*//* 0.0157 * +EC1.21.3.6 2',4,4',6'-tetrahydroxychalcone 4'-beta-d-glucopyranoside antirrhinum majus//*//* 0.0039 * +EC1.21.3.6 2',4,4',6'-tetrahydroxychalcone antirrhinum majus//*//* 0.0043 * +EC1.21.3.6 butein antirrhinum majus//*//* 0.0147 * +EC1.21.3.6 isoliquiritigenin antirrhinum majus//*//* 0.0025 * +EC1.21.3.7 cannabigerolate cannabis sativa//*//* 0.134 * +EC1.21.3.7 cannabinerolate cannabis sativa//*//* 0.254 * +EC1.21.3.8 cannabigerolate cannabis sativa//*//* 0.137 * +EC1.21.3.8 cannabinerolate cannabis sativa//*//* 0.206 * +EC1.21.4.3 dithioerythritol peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 11.0 * +EC1.21.4.3 n-methylglycine peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 3.7 * +EC1.21.4.4 betaine peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 9.0 * +EC1.21.4.4 dithioerythritol peptoclostridium acidaminophilum//prokaryotes;bacteria;firmicutes - clostridia;peptoclostridium//eac 7.5 * +EC1.21.99.1 2,6-dichlorophenolindophenol penicillium cyclopium//*//* 0.00016 * +EC1.21.99.1 beta-cyclopiazonate penicillium cyclopium//*//* 0.0021 * +EC1.21.99.4 3,3',5'-triiodo-l-thyronine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.21.99.4 3,3',5'-triiodothyronine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC1.21.99.4 3,3',5'-triiodothyronine cavia porcellus//*//* 0.51 * +EC1.21.99.4 3,3',5'-triiodothyronine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.66 * +EC1.21.99.4 3,3',5'-triiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC1.21.99.4 3,3',5'-triiodothyronine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC1.21.99.4 3,3',5'-triiodothyronine oncorhynchus mykiss//*//* 0.18 * +EC1.21.99.4 3,3',5'-triiodothyronine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.69 * +EC1.21.99.4 3,3',5'-triiodothyronine rattus sp.//*//* 0.065 * +EC1.21.99.4 3,3',5'-triiodothyronine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.33 * +EC1.21.99.4 3,3',5-triiodo-l-thyronine sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC1.21.99.4 3,3',5-triiodothyronine crocodylus porosus//*//* 0.00256 * +EC1.21.99.4 3,5'-diiodo-l-thyronine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.21.99.4 l-3,5',3'-triiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.21.99.4 l-thyroxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9e-09 * +EC1.21.99.4 l-thyroxine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.4e-06 * +EC1.21.99.4 l-thyroxine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1e-06 * +EC1.21.99.4 l-thyroxine rattus sp.//*//* 0.001 * +EC1.21.99.4 reverse triiodothyronine felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.015 * +EC1.21.99.4 reverse triiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.9e-06 * +EC1.21.99.4 reverse triiodothyronine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00036 * +EC1.21.99.4 sulfated reverse triiodothyronine felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.0007 * +EC1.21.99.4 thyroxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC1.21.99.4 thyroxine rattus sp.//*//* 0.003 * +EC1.21.99.5 1,1,1,2-tetrachloroethane desulfitobacterium sp.//*//* 0.773 * +EC1.21.99.5 1,1,2,2-tetrachloroethane desulfitobacterium sp.//*//* 0.336 * +EC1.21.99.5 1,1,2-trichloroethene desulfitobacterium sp.//*//* 0.535 * +EC1.21.99.5 1,1,3-trichloropropene sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 0.25 * +EC1.21.99.5 2,3-dichloropropene sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 0.6 * +EC1.21.99.5 hexachloroethane desulfitobacterium sp.//*//* 0.125 * +EC1.21.99.5 methyl viologen desulfitobacterium sp. pce-s//*//* 0.3 * +EC1.21.99.5 methyl viologen sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 0.28 * +EC1.21.99.5 pentachloroethane desulfitobacterium sp.//*//* 0.6199 * +EC1.21.99.5 reduced methyl viologen dehalobacter restrictus//prokaryotes;bacteria;firmicutes - clostridia;dehalobacter//drs 0.024 * +EC1.21.99.5 tetrachloroethene dehalobacter restrictus//prokaryotes;bacteria;firmicutes - clostridia;dehalobacter//drs 0.02 * +EC1.21.99.5 tetrachloroethene desulfitobacterium sp. pce-s//*//* 0.01 * +EC1.21.99.5 tetrachloroethene desulfitobacterium sp.//*//* 0.105 * +EC1.21.99.5 tetrachloroethene paraclostridium bifermentans//*//* 0.012 * +EC1.21.99.5 tetrachloroethene shewanella sediminis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sse 0.1 * +EC1.21.99.5 tetrachloroethene sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 0.2 * +EC1.21.99.5 trans-1,3-dichloropropene sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 0.25 * +EC1.21.99.5 trichloroethene dehalobacter restrictus//prokaryotes;bacteria;firmicutes - clostridia;dehalobacter//drs 0.047 * +EC1.21.99.5 trichloroethene desulfitobacterium sp. pce-s//*//* 0.004 * +EC1.21.99.5 trichloroethene sulfurospirillum multivorans//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//smul 0.24 * +EC1.23.1.1 (+)-pinoresinol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0016 * +EC1.23.1.3 (-)-pinoresinol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0073 * +EC1.23.5.1 antheraxanthin mantoniella squamata//*//* 0.006 * +EC1.23.5.1 antheraxanthin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0016 * +EC1.23.5.1 ascorbate lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 4.4 * +EC1.23.5.1 ascorbate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.3 * +EC1.23.5.1 violaxanthin lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 4.9e-05 * +EC1.23.5.1 violaxanthin mantoniella squamata//*//* 0.0033 * +EC1.23.5.1 violaxanthin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0033 * +EC1.3.1.1 5,6-dihydrouracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC1.3.1.1 dihydrothymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC1.3.1.1 thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC1.3.1.1 uracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC1.3.1.10 1-cyclohexenylcarbonyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.025 * +EC1.3.1.10 5-hydroxycyclohex-1-enecarbonyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.03 * +EC1.3.1.10 crotonyl-[acyl-carrier protein] porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0478 * +EC1.3.1.10 crotonyl-[staphylococcus aureus acyl carrier protein] staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0115 * +EC1.3.1.10 crotonyl-n-acetyl-cysteamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.008 * +EC1.3.1.10 dodec-2-enoyl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0241 * +EC1.3.1.10 dodecenoyl-[staphylococcus aureus acyl carrier protein] staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0045 * +EC1.3.1.10 dodecenoyl-n-acetyl-cysteamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0233 * +EC1.3.1.10 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.016 * +EC1.3.1.10 nadph porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0171 * +EC1.3.1.100 chanoclavine-i aldehyde aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.048 * +EC1.3.1.100 nadph aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0401 * +EC1.3.1.102 (1r,2s,4s)-neoisodihydrocarveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 590.0 * +EC1.3.1.102 (2e)-3-methylpent-2-enal nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.837 * +EC1.3.1.102 (2r,4r)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 38.0 * +EC1.3.1.102 (2r,4s)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 52.0 * +EC1.3.1.102 (2s,4r)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.9 * +EC1.3.1.102 (2s,4s)-carveol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.5 * +EC1.3.1.102 1-nitrocyclohexene nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.057 * +EC1.3.1.102 nadph nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0058 * +EC1.3.1.102 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC1.3.1.102 trans-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0776 * +EC1.3.1.102 trans-3-nonen-2-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0282 * +EC1.3.1.102 trans-cinnamaldehyde nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.516 * +EC1.3.1.103 2-bromoacrylate burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.19 * +EC1.3.1.103 2-chloroacrylate burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.45 * +EC1.3.1.103 nadph burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.09 * +EC1.3.1.104 crotonyl-n-acetylcysteamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 8.0 * +EC1.3.1.104 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.016 * +EC1.3.1.105 (2e)-2-butylidene-4-hydroxy-5-methyl-3(2h)-furanone fragaria x ananassa//*//* 0.82 * +EC1.3.1.105 (2e)-2-butylidene-4-hydroxy-5-methyl-3(2h)-furanone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.13 * +EC1.3.1.105 (2e)-4-hydroxy-5-methyl-2-propylidene-3(2h)-furanone fragaria x ananassa//*//* 1.04 * +EC1.3.1.105 (2e)-4-hydroxy-5-methyl-2-propylidene-3(2h)-furanone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.41 * +EC1.3.1.105 (2e)-ethylidene-4-hydroxy-5-methyl-3(2h)-furanone fragaria x ananassa//*//* 2.14 * +EC1.3.1.105 (2e)-ethylidene-4-hydroxy-5-methyl-3(2h)-furanone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.59 * +EC1.3.1.105 9,10-phenanthrenequinone fragaria x ananassa//*//* 0.012 * +EC1.3.1.105 nadh fragaria vesca//eukaryotes;plants;eudicots;rose family//fve 0.361 * +EC1.3.1.105 nadph fragaria vesca//eukaryotes;plants;eudicots;rose family//fve 0.325 * +EC1.3.1.107 sanguinarine eschscholzia californica//*//* 0.0095 * +EC1.3.1.109 butanoyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.01 * +EC1.3.1.109 nadh acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.012 * +EC1.3.1.11 o-coumarate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.0173 * +EC1.3.1.112 cyanidin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0028 * +EC1.3.1.112 nadph vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.111 * +EC1.3.1.12 l-arogenate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.017 * +EC1.3.1.12 nad+ aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.025 * +EC1.3.1.12 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.047 * +EC1.3.1.12 nad+ azomonas insignis//*//* 0.06 * +EC1.3.1.12 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC1.3.1.12 nad+ candida maltosa//*//* 0.13 * +EC1.3.1.12 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.13 * +EC1.3.1.12 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.103 * +EC1.3.1.12 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.6 * +EC1.3.1.12 nad+ methanohalophilus mahii//prokaryotes;archaea;euryarchaeota;methanohalophilus//mmh 1.25 * +EC1.3.1.12 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.28 * +EC1.3.1.12 nad+ pseudomonas flexibilis//*//* 0.45 * +EC1.3.1.12 nad+ streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 3.7 * +EC1.3.1.12 nadp+ methanohalophilus mahii//prokaryotes;archaea;euryarchaeota;methanohalophilus//mmh 0.08 * +EC1.3.1.12 prephenate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.017 * +EC1.3.1.12 prephenate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.45 * +EC1.3.1.12 prephenate azomonas insignis//*//* 0.045 * +EC1.3.1.12 prephenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC1.3.1.12 prephenate candida maltosa//*//* 0.22 * +EC1.3.1.12 prephenate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.83 * +EC1.3.1.12 prephenate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.045 * +EC1.3.1.12 prephenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC1.3.1.12 prephenate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.048 * +EC1.3.1.12 prephenate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.35 * +EC1.3.1.12 prephenate methanohalophilus mahii//prokaryotes;archaea;euryarchaeota;methanohalophilus//mmh 0.56 * +EC1.3.1.12 prephenate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.41 * +EC1.3.1.12 prephenate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.045 * +EC1.3.1.12 prephenate pseudomonas flexibilis//*//* 0.045 * +EC1.3.1.12 prephenate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.75 * +EC1.3.1.12 prephenate uncultured bacterium//*//* 0.87 * +EC1.3.1.12 prephenate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.045 * +EC1.3.1.13 nad+ ignicoccus hospitalis//prokaryotes;archaea;crenarchaeota;ignicoccus//iho 0.561 * +EC1.3.1.13 nad+ nanoarchaeum equitans//prokaryotes;archaea;nanoarchaeota;nanoarchaeum//neq 3.3 * +EC1.3.1.13 nadp+ acinetobacter calcoaceticus//*//* 0.005 * +EC1.3.1.13 nadp+ ignicoccus hospitalis//prokaryotes;archaea;crenarchaeota;ignicoccus//iho 0.062 * +EC1.3.1.13 nadp+ nanoarchaeum equitans//prokaryotes;archaea;nanoarchaeota;nanoarchaeum//neq 0.36 * +EC1.3.1.13 nadp+ phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.077 * +EC1.3.1.13 nadp+ vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.012 * +EC1.3.1.13 prephenate acinetobacter calcoaceticus//*//* 0.033 * +EC1.3.1.13 prephenate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.127 * +EC1.3.1.13 prephenate ignicoccus hospitalis//prokaryotes;archaea;crenarchaeota;ignicoccus//iho 0.319 * +EC1.3.1.13 prephenate medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.223 * +EC1.3.1.13 prephenate nanoarchaeum equitans//prokaryotes;archaea;nanoarchaeota;nanoarchaeum//neq 0.69 * +EC1.3.1.13 prephenate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.13 * +EC1.3.1.13 prephenate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.077 * +EC1.3.1.14 (s)-dihydroorotate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.09 * +EC1.3.1.14 5-fluoroorotate faecalicatena orotica//*//* 0.13 * +EC1.3.1.14 l-dihydroorotate faecalicatena orotica//*//* 0.09 * +EC1.3.1.14 nad+ faecalicatena orotica//*//* 0.13 * +EC1.3.1.14 nad+ lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.062 * +EC1.3.1.14 nadh lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0037 * +EC1.3.1.14 orotate faecalicatena orotica//*//* 0.11 * +EC1.3.1.14 orotate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0213 * +EC1.3.1.14 s-dihydroorotate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.027 * +EC1.3.1.15 5-fluoroorotate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.3 * +EC1.3.1.15 nadph bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.2 * +EC1.3.1.15 orotate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.17 * +EC1.3.1.16 (9e)-9-nitrooctadec-9-enoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.5e-05 * +EC1.3.1.16 3-nitroacrylate penicillium atrovenetum//*//* 0.16 * +EC1.3.1.16 nadph penicillium atrovenetum//*//* 0.037 * +EC1.3.1.19 cis-1,2-dihydrobenzene-1,2-diol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.01 * +EC1.3.1.19 cis-1,2-dihydrobenzene-1,2-diol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.286 * +EC1.3.1.19 glycerol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 46.0 * +EC1.3.1.19 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.068 * +EC1.3.1.19 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0435 * +EC1.3.1.19 naphthalene-cis-1,2-dihydrodiol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.066 * +EC1.3.1.2 5,6-dihydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC1.3.1.2 5,6-dihydrouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC1.3.1.2 5-fluorouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0018 * +EC1.3.1.2 5-fluorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC1.3.1.2 5-fluorouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0089 * +EC1.3.1.2 5-fluorouracil sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC1.3.1.2 dihydrothymine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC1.3.1.2 dihydrouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.193 * +EC1.3.1.2 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC1.3.1.2 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0029 * +EC1.3.1.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00012 * +EC1.3.1.2 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0068 * +EC1.3.1.2 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC1.3.1.2 nadph ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.02297 * +EC1.3.1.2 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.3.1.2 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC1.3.1.2 thymine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0046 * +EC1.3.1.2 thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.3.1.2 thymine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC1.3.1.2 thymine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0068 * +EC1.3.1.2 uracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00012 * +EC1.3.1.2 uracil cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0049 * +EC1.3.1.2 uracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC1.3.1.2 uracil ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.01746 * +EC1.3.1.2 uracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0018 * +EC1.3.1.2 uracil sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC1.3.1.20 (r)-tetralol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.056 * +EC1.3.1.20 (r)-tetralol macaca fuscata fuscata//*//* 0.382 * +EC1.3.1.20 (s)-1-indanol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC1.3.1.20 (s)-indan-1-ol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.076 * +EC1.3.1.20 (s)-indan-1-ol macaca fuscata fuscata//*//* 0.42 * +EC1.3.1.20 (s)-tetralol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.029 * +EC1.3.1.20 (s)-tetralol macaca fuscata fuscata//*//* 0.307 * +EC1.3.1.20 1-acenaphthenol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.54 * +EC1.3.1.20 1-acenaphthenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC1.3.1.20 1-indanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC1.3.1.20 2,3-pentanedione macaca fuscata//*//* 3.9 * +EC1.3.1.20 4-chromanol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.073 * +EC1.3.1.20 4-chromanol macaca fuscata fuscata//*//* 0.34 * +EC1.3.1.20 4-nitrobenzaldehyde macaca fuscata//*//* 3.3 * +EC1.3.1.20 5alpha-androstan-3,17-dione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0031 * +EC1.3.1.20 5beta-androstan-3,17-dione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0029 * +EC1.3.1.20 5beta-androstan-3alpha-ol-17-one bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0074 * +EC1.3.1.20 androsterone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0048 * +EC1.3.1.20 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC1.3.1.20 camphorquinone macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 11.0 * +EC1.3.1.20 camphorquinone macaca fuscata//*//* 0.1 * +EC1.3.1.20 chenodeoxycholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0045 * +EC1.3.1.20 cholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.16 * +EC1.3.1.20 cis-benzene dihydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.67 * +EC1.3.1.20 d-glyceraldehyde macaca fuscata//*//* 45.0 * +EC1.3.1.20 d-xylose canis sp.//*//* 1.6 * +EC1.3.1.20 d-xylose macaca fuscata//*//* 4.4 * +EC1.3.1.20 d-xylose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4.4 * +EC1.3.1.20 d-xylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC1.3.1.20 deoxycholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0045 * +EC1.3.1.20 diacetyl macaca fuscata//*//* 0.8 * +EC1.3.1.20 dihydroxyacetone phosphate macaca fuscata//*//* 5.0 * +EC1.3.1.20 dihydroxyacetone macaca fuscata//*//* 5.4 * +EC1.3.1.20 dl-glyceraldehyde-3-phosphate macaca fuscata//*//* 50.0 * +EC1.3.1.20 l-glyceraldehyde macaca fuscata//*//* 121.0 * +EC1.3.1.20 lithocholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC1.3.1.20 nadp+ macaca fuscata//*//* 0.01 * +EC1.3.1.20 nadph macaca fuscata//*//* 0.001 * +EC1.3.1.20 naphthalene dihydrodiol macaca fuscata//*//* 2.7 * +EC1.3.1.20 naphthalene dihydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.78 * +EC1.3.1.20 taurochenodeoxycholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC1.3.1.20 taurocholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.21 * +EC1.3.1.20 taurolithocholic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0038 * +EC1.3.1.20 trans-benzene dihydrodiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.3.1.20 trans-benzene dihydrodiol macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.72 * +EC1.3.1.20 trans-benzene dihydrodiol macaca fuscata fuscata//*//* 0.025 * +EC1.3.1.20 trans-benzene dihydrodiol macaca fuscata//*//* 2.6 * +EC1.3.1.20 trans-benzene dihydrodiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.77 * +EC1.3.1.20 trans-benzenedihydrodiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.28 * +EC1.3.1.20 trans-naphthalenedihydrodiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC1.3.1.21 7-dehydrocholesterol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.14 * +EC1.3.1.21 7-dehydrocholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.14 * +EC1.3.1.21 ergosterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC1.3.1.22 17-epitestosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00057 * +EC1.3.1.22 20alpha-hydroxypregn-4-en-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00086 * +EC1.3.1.22 20alpha-hydroxyprogesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC1.3.1.22 20alpha-hydroxyprogesterone macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0005 * +EC1.3.1.22 androstenedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.3.1.22 androstenedione macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0004 * +EC1.3.1.22 androstenedione solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.02634 * +EC1.3.1.22 corticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.3.1.22 corticosterone macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.002 * +EC1.3.1.22 corticosterone rhinella arenarum//*//* 0.000569 * +EC1.3.1.22 cortisone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC1.3.1.22 nadph digitalis lanata//*//* 0.13 * +EC1.3.1.22 nadph digitalis purpurea//*//* 0.13 * +EC1.3.1.22 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.3.1.22 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00102 * +EC1.3.1.22 progesterone digitalis lanata//*//* 0.03 * +EC1.3.1.22 progesterone digitalis purpurea//*//* 0.03 * +EC1.3.1.22 progesterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.3.1.22 progesterone macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0002 * +EC1.3.1.22 progesterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.028 * +EC1.3.1.22 progesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.5e-05 * +EC1.3.1.22 progesterone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00075 * +EC1.3.1.22 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3e-06 * +EC1.3.1.22 testosterone macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.0002 * +EC1.3.1.22 testosterone penicillium crustosum//*//* 0.00022 * +EC1.3.1.22 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002 * +EC1.3.1.22 testosterone rhinella arenarum//*//* 0.00119 * +EC1.3.1.22 testosterone solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0446 * +EC1.3.1.22 testosterone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0006 * +EC1.3.1.22 testosterone xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.002 * +EC1.3.1.24 biliverdin ixalpha bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC1.3.1.24 biliverdin ixalpha rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.3.1.24 biliverdin ixalpha salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 0.0006 * +EC1.3.1.24 biliverdin cavia porcellus//*//* 0.001 * +EC1.3.1.24 biliverdin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0207 * +EC1.3.1.24 biliverdin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.3.1.24 biliverdin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC1.3.1.24 biliverdin synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0018 * +EC1.3.1.24 biliverdin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0013 * +EC1.3.1.24 nadh cavia porcellus//*//* 0.24 * +EC1.3.1.24 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.118 * +EC1.3.1.24 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC1.3.1.24 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC1.3.1.24 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.3.1.24 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC1.3.1.24 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC1.3.1.25 (-)-3,5-cyclohexadien-1,2-diol-1-carboxylate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.2 * +EC1.3.1.25 cis-benzene dihydrodiol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.286 * +EC1.3.1.25 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.15 * +EC1.3.1.25 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0435 * +EC1.3.1.25 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.67 * +EC1.3.1.27 1-octen-3-one hordeum vulgare//*//* 0.002 * +EC1.3.1.27 2-cis-hexadecenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC1.3.1.27 2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC1.3.1.27 2-trans-hexadecenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.3.1.27 3-buten-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.3.1.27 4-hydroxy-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.3.1.27 4-hydroxy-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.3.1.27 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.3.1.27 trans-2-hexenal hordeum vulgare//*//* 0.01 * +EC1.3.1.27 trans-2-nonenal hordeum vulgare//*//* 0.001 * +EC1.3.1.27 traumatin hordeum vulgare//*//* 0.0008 * +EC1.3.1.28 2,3-dihydro-2,3-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.3.1.28 2-cyclohexen-1-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 83.3 * +EC1.3.1.28 4-isopropyl-2,3-dihydroxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.017 * +EC1.3.1.28 cis-3,5-cyclohexadiene-1,2-diol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 168.0 * +EC1.3.1.28 cis-3-hydroxy-4-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC1.3.1.28 cis-3-hydroxycyclohexane-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC1.3.1.28 methyl 2,3-dihydro-2,3-dihydroxybenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC1.3.1.28 methyl-3-hydroxy-1,4-cyclohexadiene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC1.3.1.28 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC1.3.1.28 trans-3,5-cyclohexadiene-1,2-diol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.5 * +EC1.3.1.28 trans-3-hydroxy-2-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC1.3.1.28 trans-3-hydroxycyclohexane-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.2 * +EC1.3.1.29 (1r,2s)-1,2-dihydronaphthalene-1,2-diol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.006 * +EC1.3.1.29 3,4-dihydro-3,4-dihydroxy-2,2',5,5'-tetrachlorobiphenyl pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.062 * +EC1.3.1.29 anthracene 1,2-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.002 * +EC1.3.1.29 benzo(a)anthracene 1,2-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.0071 * +EC1.3.1.29 biphenyl 2,3-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.0035 * +EC1.3.1.29 chrysene 3,4-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.0022 * +EC1.3.1.29 cis-2,3-dihydro-2,3-dihydroxybiphenyl pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC1.3.1.29 cis-benzene dihydrodiol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC1.3.1.29 cis-naphthalene dihydrodiol nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.011 * +EC1.3.1.29 cis-naphthalene dihydrodiol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.3.1.29 cis-toluene dihydrodiol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.024 * +EC1.3.1.29 nad+ nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.65 * +EC1.3.1.29 nad+ novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.16 * +EC1.3.1.29 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.029 * +EC1.3.1.29 naphthalene 1,2-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.00141 * +EC1.3.1.29 phenanthrene 3,4-dihydrodiol novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.00185 * +EC1.3.1.3 1,4-androstadien-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC1.3.1.3 4-androstene-3,17-dione digitalis lanata//*//* 0.228 * +EC1.3.1.3 4-androstene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC1.3.1.3 4-androstene-3,17-dione isoplexis canariensis//*//* 2.193 * +EC1.3.1.3 4-androstene-3,17-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC1.3.1.3 4-cholesten-7alpha-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.3.1.3 4-estren-17beta-ol-3-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.3.1.3 7alpha,12alpha-dihydroxy-4-cholesten-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0122 * +EC1.3.1.3 7alpha-hydroxy-4-cholesten-3-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0091 * +EC1.3.1.3 aldosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.3.1.3 androst-4-en-3,17-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.022 * +EC1.3.1.3 androst-4-ene-3,17-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0022 * +EC1.3.1.3 androstenedione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC1.3.1.3 cholestenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.3.1.3 cortexone digitalis lanata//*//* 1.597 * +EC1.3.1.3 cortexone isoplexis canariensis//*//* 2.373 * +EC1.3.1.3 corticosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.3.1.3 cortisol digitalis lanata//*//* 0.291 * +EC1.3.1.3 cortisol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC1.3.1.3 cortisol isoplexis canariensis//*//* 2.079 * +EC1.3.1.3 cortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.3.1.3 cortisone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0151 * +EC1.3.1.3 cortisone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC1.3.1.3 epitestosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC1.3.1.3 nadph digitalis lanata//*//* 0.008 * +EC1.3.1.3 nadph digitalis purpurea//*//* 0.0079 * +EC1.3.1.3 nadph isoplexis canariensis//*//* 0.015 * +EC1.3.1.3 nadph pelophylax esculentus//*//* 0.0052 * +EC1.3.1.3 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.3.1.3 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.085 * +EC1.3.1.3 progesterone digitalis lanata//*//* 0.12 * +EC1.3.1.3 progesterone digitalis purpurea//*//* 0.0391 * +EC1.3.1.3 progesterone isoplexis canariensis//*//* 0.215 * +EC1.3.1.3 progesterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00219 * +EC1.3.1.3 testosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.3.1.3 testosterone pelophylax esculentus//*//* 0.0016 * +EC1.3.1.3 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC1.3.1.31 (2e)-2-methyl-3-phenylacrylic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.029 * +EC1.3.1.31 (2e)-2-methyl-3-phenylbut-2-enoic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.037 * +EC1.3.1.31 (2e)-2-methylbut-2-enedioic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 7.4 * +EC1.3.1.31 (2e)-3-phenylacrylic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.15 * +EC1.3.1.31 (e)-2-butenoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.8 * +EC1.3.1.31 (e)-2-hexenal gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.82 * +EC1.3.1.31 (e)-2-methyl-2-butenoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 1.67 * +EC1.3.1.31 (e)-geraniate clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.014 * +EC1.3.1.31 (z)-2-bromocinnamate clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.5 * +EC1.3.1.31 (z)-geraniate clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.1 * +EC1.3.1.31 12-phenyldodec-2-enoic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.01 * +EC1.3.1.31 2-cyclohexen-1-one lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.94 * +EC1.3.1.31 2-methyl-n-phenylmaleimide achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.0014 * +EC1.3.1.31 2-methylbutenoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 6.0 * +EC1.3.1.31 4-methoxy-2-methyl-4-oxobutanoic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 1.7 * +EC1.3.1.31 4-methoxy-3-methyl-4-oxobutanoic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 16.2 * +EC1.3.1.31 butenoate clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 1.5 * +EC1.3.1.31 cinnamate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.02 * +EC1.3.1.31 cinnamate clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.013 * +EC1.3.1.31 nadh achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.0191 * +EC1.3.1.31 nadh clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.02 * +EC1.3.1.31 nadh clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.012 * +EC1.3.1.31 nadh lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.034 * +EC1.3.1.31 nadph achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.0854 * +EC1.3.1.31 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.16 * +EC1.3.1.31 nadph yersinia bercovieri//*//* 1.24 * +EC1.3.1.31 oct-2-en-4-ynoic acid clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 1.4 * +EC1.3.1.31 reduced methyl viologen clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.4 * +EC1.3.1.32 2,3-dibromomaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.347 * +EC1.3.1.32 2,3-dichloromaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.17 * +EC1.3.1.32 2,3-dichloromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.19 * +EC1.3.1.32 2,5-dichloromaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.288 * +EC1.3.1.32 2,5-dichloromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.279 * +EC1.3.1.32 2-bromo-5-chloromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.519 * +EC1.3.1.32 2-bromomaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.098 * +EC1.3.1.32 2-bromomaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.117 * +EC1.3.1.32 2-bromomaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.113 * +EC1.3.1.32 2-chloro-5-methylmaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.248 * +EC1.3.1.32 2-chloromaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.031 * +EC1.3.1.32 2-chloromaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.078 * +EC1.3.1.32 2-chloromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.076 * +EC1.3.1.32 2-methylmaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.33 * +EC1.3.1.32 2-methylmaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.374 * +EC1.3.1.32 2-methylmaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.272 * +EC1.3.1.32 3-bromomaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.063 * +EC1.3.1.32 3-bromomaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.071 * +EC1.3.1.32 3-bromomaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.065 * +EC1.3.1.32 3-chloromaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.03 * +EC1.3.1.32 3-chloromaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.029 * +EC1.3.1.32 3-chloromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.028 * +EC1.3.1.32 3-fluoromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0043 * +EC1.3.1.32 3-methylmaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.292 * +EC1.3.1.32 3-methylmaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.365 * +EC1.3.1.32 5-bromomaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.084 * +EC1.3.1.32 5-bromomaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.095 * +EC1.3.1.32 5-bromomaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.09 * +EC1.3.1.32 5-chloromaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.044 * +EC1.3.1.32 5-chloromaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC1.3.1.32 5-chloromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC1.3.1.32 5-fluoromaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.014 * +EC1.3.1.32 5-fluoromaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.022 * +EC1.3.1.32 5-fluoromaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC1.3.1.32 5-methylmaleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.133 * +EC1.3.1.32 5-methylmaleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.125 * +EC1.3.1.32 5-methylmaleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.11 * +EC1.3.1.32 maleylacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.031 * +EC1.3.1.32 maleylacetate pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 0.025 * +EC1.3.1.32 maleylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.065 * +EC1.3.1.32 maleylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.058 * +EC1.3.1.32 maleylacetate sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.09 * +EC1.3.1.32 nadh cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.024 * +EC1.3.1.32 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC1.3.1.32 nadph cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.082 * +EC1.3.1.32 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.077 * +EC1.3.1.33 dithionite chlorobaculum tepidum//*//* 0.0527 * +EC1.3.1.33 divinyl protochlorophyllide a thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.00083 * +EC1.3.1.33 monovinyl protochlorophyllide a thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.00136 * +EC1.3.1.33 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0268 * +EC1.3.1.33 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.157 * +EC1.3.1.33 nadph cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 0.172 * +EC1.3.1.33 nadph daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.124 * +EC1.3.1.33 nadph gloeobacter violaceus//prokaryotes;bacteria;cyanobacteria;gloeobacter//gvi 0.0196 * +EC1.3.1.33 nadph hordeum vulgare//*//* 0.00046 * +EC1.3.1.33 nadph lyngbya majuscula//*//* 0.0578 * +EC1.3.1.33 nadph marchantia paleacea//*//* 0.138 * +EC1.3.1.33 nadph nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0059 * +EC1.3.1.33 nadph nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0048 * +EC1.3.1.33 nadph physcomitrella patens//eukaryotes;plants;mosses//ppp 0.0022 * +EC1.3.1.33 nadph pinus mugo//*//* 0.0098 * +EC1.3.1.33 nadph pisum sativum//*//* 0.00867 * +EC1.3.1.33 nadph synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0075 * +EC1.3.1.33 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.2e-05 * +EC1.3.1.33 nadph tetradesmus obliquus//*//* 0.0042 * +EC1.3.1.33 nadph thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 1.3e-05 * +EC1.3.1.33 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.0013 * +EC1.3.1.33 protochlorophyllide a avena sativa//*//* 0.00047 * +EC1.3.1.33 protochlorophyllide a pisum sativum//*//* 0.00027 * +EC1.3.1.33 protochlorophyllide a synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0086 * +EC1.3.1.33 protochlorophyllide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00015 * +EC1.3.1.33 protochlorophyllide chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0017 * +EC1.3.1.33 protochlorophyllide chlorobaculum tepidum//*//* 0.0061 * +EC1.3.1.33 protochlorophyllide cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 0.0012 * +EC1.3.1.33 protochlorophyllide daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.0055 * +EC1.3.1.33 protochlorophyllide gloeobacter violaceus//prokaryotes;bacteria;cyanobacteria;gloeobacter//gvi 0.0005 * +EC1.3.1.33 protochlorophyllide hordeum vulgare//*//* 0.00046 * +EC1.3.1.33 protochlorophyllide lyngbya majuscula//*//* 0.0078 * +EC1.3.1.33 protochlorophyllide marchantia paleacea//*//* 0.0023 * +EC1.3.1.33 protochlorophyllide nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0043 * +EC1.3.1.33 protochlorophyllide nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.002 * +EC1.3.1.33 protochlorophyllide physcomitrella patens//eukaryotes;plants;mosses//ppp 0.0023 * +EC1.3.1.33 protochlorophyllide pinus mugo//*//* 0.0024 * +EC1.3.1.33 protochlorophyllide pisum sativum//*//* 0.00018 * +EC1.3.1.33 protochlorophyllide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0106 * +EC1.3.1.33 protochlorophyllide synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.01083 * +EC1.3.1.33 protochlorophyllide tetradesmus obliquus//*//* 0.00019 * +EC1.3.1.33 protochlorophyllide thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.0018 * +EC1.3.1.33 protochlorophyllide zea mays//eukaryotes;plants;monocots;grass family//zma 0.0077 * +EC1.3.1.34 (2e,4e)-2,4-decadienoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0127 * +EC1.3.1.34 (2e,4e)-2,4-hexadienoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0716 * +EC1.3.1.34 2,4,7,10,13,16,19-docosaheptaenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC1.3.1.34 2,4,7,10,13,16,19-docosaheptaenoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.155 * +EC1.3.1.34 2,4-decadienoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.3.1.34 2,4-decadienoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC1.3.1.34 2,4-hexadienoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC1.3.1.34 2,4-hexadienoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.108 * +EC1.3.1.34 2-trans,4-trans-decadienoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0023 * +EC1.3.1.34 2-trans,4-trans-hexadienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00046 * +EC1.3.1.34 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0008 * +EC1.3.1.34 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.3.1.36 geissoschizine catharanthus roseus//*//* 0.083 * +EC1.3.1.36 nadp+ catharanthus roseus//*//* 7.7e-05 * +EC1.3.1.37 cis-2-octenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.3.1.38 2-dodecenoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0054 * +EC1.3.1.38 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0352 * +EC1.3.1.38 nadph cavia porcellus//*//* 0.038 * +EC1.3.1.38 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0049 * +EC1.3.1.38 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC1.3.1.38 trans-2-crotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.072 * +EC1.3.1.38 trans-2-decenoyl-coa cavia porcellus//*//* 0.011 * +EC1.3.1.38 trans-2-decenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0071 * +EC1.3.1.38 trans-2-dodecenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0037 * +EC1.3.1.38 trans-2-hexenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC1.3.1.38 trans-2-octenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC1.3.1.38 trans-phytenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.3.1.39 crotonyl-coa porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0478 * +EC1.3.1.39 nadph porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.017 * +EC1.3.1.41 xanthommatin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0128 * +EC1.3.1.42 (9s,13s)-12-oxophytodienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC1.3.1.42 12-oxo-cis-phythodienoic acid arabidopsis sp.//*//* 0.045 * +EC1.3.1.42 12-oxophytodienoic acid zea mays//eukaryotes;plants;monocots;grass family//zma 0.19 * +EC1.3.1.42 2-cyclohexen-1-ol oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.05283 * +EC1.3.1.42 cyclohexenone arabidopsis sp.//*//* 2.5 * +EC1.3.1.42 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 4.2 * +EC1.3.1.42 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.013 * +EC1.3.1.43 l-arogenate actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 0.15 * +EC1.3.1.43 l-arogenate phenylobacterium immobile//*//* 0.09 * +EC1.3.1.43 l-arogenate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.17 * +EC1.3.1.43 l-arogenate pseudomonas flexibilis//*//* 0.66 * +EC1.3.1.43 l-arogenate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.56 * +EC1.3.1.43 l-arogenate streptomyces phaeochromogenes//*//* 0.1 * +EC1.3.1.43 l-arogenate zea mays//eukaryotes;plants;monocots;grass family//zma 0.3 * +EC1.3.1.43 l-arogenate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.18 * +EC1.3.1.43 nad+ actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 0.2 * +EC1.3.1.43 nad+ phenylobacterium immobile//*//* 0.02 * +EC1.3.1.43 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.25 * +EC1.3.1.43 nad+ pseudomonas flexibilis//*//* 0.41 * +EC1.3.1.43 nad+ pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.14 * +EC1.3.1.43 nad+ streptomyces phaeochromogenes//*//* 0.01 * +EC1.3.1.43 nad+ zea mays//eukaryotes;plants;monocots;grass family//zma 0.057 * +EC1.3.1.43 nad+ zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.09 * +EC1.3.1.43 prephenate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.07 * +EC1.3.1.43 prephenate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.07 * +EC1.3.1.43 prephenate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.25 * +EC1.3.1.44 (2e)-oct-2-enoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.2327 * +EC1.3.1.44 2-dodecenoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.003 * +EC1.3.1.44 crotonoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.0027 * +EC1.3.1.44 crotonyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.07 * +EC1.3.1.44 decenoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0893 * +EC1.3.1.44 dodec-2-enoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0558 * +EC1.3.1.44 hexadecenoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0295 * +EC1.3.1.44 hexanoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.012 * +EC1.3.1.44 nadh clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.1054 * +EC1.3.1.44 nadh mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.021 * +EC1.3.1.44 nadh treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.0052 * +EC1.3.1.44 nadph treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.19 * +EC1.3.1.44 trans-2-dodecenoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.003 * +EC1.3.1.44 trans-2-hexenoyl-coa treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.012 * +EC1.3.1.45 2'-hydroxyformononetin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.013 * +EC1.3.1.45 2'-hydroxyformononetin medicago sativa//*//* 0.0142 * +EC1.3.1.45 nadph cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.035 * +EC1.3.1.46 biochanin a fusarium striatum//*//* 0.043 * +EC1.3.1.46 nadph fusarium striatum//*//* 0.19 * +EC1.3.1.47 alpha-santonin pseudomonas cichorii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pci 0.067 * +EC1.3.1.47 nadh pseudomonas cichorii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pci 0.044 * +EC1.3.1.48 (5s,12r)-dihydroxy-(6e,8z,10z,14e)-eicosatetraenoic acid cavia porcellus//*//* 0.093 * +EC1.3.1.48 15-keto-prostaglandin e2 cavia porcellus//*//* 0.0085 * +EC1.3.1.48 15-ketoprostaglandin a1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC1.3.1.48 15-ketoprostaglandin b1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0112 * +EC1.3.1.48 15-ketoprostaglandin e1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.3.1.48 15-ketoprostaglandin e1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC1.3.1.48 15-ketoprostaglandin e1 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0344 * +EC1.3.1.48 15-ketoprostaglandin e1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0077 * +EC1.3.1.48 15-ketoprostaglandin e2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.062 * +EC1.3.1.48 15-ketoprostaglandin e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0127 * +EC1.3.1.48 15-ketoprostaglandin e2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0496 * +EC1.3.1.48 15-ketoprostaglandin e2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0078 * +EC1.3.1.48 15-ketoprostaglandin e2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.019 * +EC1.3.1.48 15-ketoprostaglandin f1alpha bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.184 * +EC1.3.1.48 15-ketoprostaglandin f1alpha mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0592 * +EC1.3.1.48 15-ketoprostaglandin f2alpha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0108 * +EC1.3.1.48 15-ketoprostaglandin f2alpha mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1088 * +EC1.3.1.48 15-ketoprostaglandin f2alpha rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000213 * +EC1.3.1.48 15-oxoprostaglandin e1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.3.1.48 3-nonen-2-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC1.3.1.48 3-penten-2-one rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.49 * +EC1.3.1.48 4-hydroxy-2-hexenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC1.3.1.48 4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC1.3.1.48 6,15-diketo-prostaglandin f1alpha bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.258 * +EC1.3.1.48 acrolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.3.1.48 alpha-methylcinnamaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC1.3.1.48 benzylidene acetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0277 * +EC1.3.1.48 benzylidene acetonphenone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1399 * +EC1.3.1.48 chalcone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC1.3.1.48 cinnamaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.075 * +EC1.3.1.48 cinnamoylthiophene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0791 * +EC1.3.1.48 crotonaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.9 * +EC1.3.1.48 ethylvinylketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC1.3.1.48 hypoxanthine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC1.3.1.48 methyl vinyl ketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1289 * +EC1.3.1.48 methylvinylketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.58 * +EC1.3.1.48 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.088 * +EC1.3.1.48 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC1.3.1.48 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.153 * +EC1.3.1.48 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC1.3.1.48 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0946 * +EC1.3.1.48 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.015 * +EC1.3.1.48 phenyl propenyl ketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0123 * +EC1.3.1.48 trans,trans-2,4-nonadienal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC1.3.1.48 trans-2-decenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC1.3.1.48 trans-2-dodecenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC1.3.1.48 trans-2-hexenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC1.3.1.48 trans-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC1.3.1.48 trans-2-octenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC1.3.1.48 trans-2-pentenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.4 * +EC1.3.1.49 (+)-cis-3,4-dihydrophenanthrene-3,4-diol alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.021 * +EC1.3.1.49 nad+ alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.058 * +EC1.3.1.49 nadp+ alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.63 * +EC1.3.1.5 nadh cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.0604 * +EC1.3.1.51 2'-hydroxydaidzein glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC1.3.1.51 2'-hydroxyformomonetin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.06 * +EC1.3.1.51 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.056 * +EC1.3.1.53 (1r,2s)-1,2-dihydroxy-3,5-cyclohexadiene-1,4-dicarboxylate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.09 * +EC1.3.1.53 nad+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.043 * +EC1.3.1.54 nadph pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0235 * +EC1.3.1.54 precorrin-6x pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0036 * +EC1.3.1.56 2,3-dihydro-2,3,-dihydroxybiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.073 * +EC1.3.1.56 3,4-dihydro-3,4-dihydroxy-2,2',5,5'-tetrachlorobiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.5 * +EC1.3.1.56 cis-1,2-dihydro-1,2-dihydroxynaphthalene comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.28 * +EC1.3.1.56 cis-2,3-dihydro-2,3-dihydroxybiphenyl comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0031 * +EC1.3.1.56 nad(p)+ comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.00024 * +EC1.3.1.57 dihydrophloroglucinol eubacterium oxidoreducens//*//* 0.29 * +EC1.3.1.57 nadp+ eubacterium oxidoreducens//*//* 0.027 * +EC1.3.1.57 nadph coprococcus sp.//prokaryotes;bacteria;firmicutes - clostridia;coprococcus//coo 3e-05 * +EC1.3.1.57 nadph eubacterium oxidoreducens//*//* 0.0067 * +EC1.3.1.57 phloroglucinol coprococcus sp.//prokaryotes;bacteria;firmicutes - clostridia;coprococcus//coo 3e-05 * +EC1.3.1.57 phloroglucinol eubacterium oxidoreducens//*//* 0.56 * +EC1.3.1.6 fadh2 ruminobacter amylophilus//*//* 0.28 * +EC1.3.1.6 fmnh2 enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.2 * +EC1.3.1.6 fmnh2 ruminobacter amylophilus//*//* 0.086 * +EC1.3.1.6 fumarate ruminobacter amylophilus//*//* 0.025 * +EC1.3.1.6 fumarate shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 0.007 * +EC1.3.1.6 nadh ruminobacter amylophilus//*//* 0.004 * +EC1.3.1.69 trans-zeatin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.07 * +EC1.3.1.7 (+)-tartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.092 * +EC1.3.1.7 (2r,3r)-3-bromomalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC1.3.1.7 (2r,3r)-3-chloromalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC1.3.1.7 (2r,3r)-3-fluoromalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC1.3.1.7 (2r,3r)-3-iodomalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC1.3.1.7 (2r,3r)-3-methyltartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.3.1.7 (2r,3s)-3-bromomalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC1.3.1.7 (2r,3s)-3-chloromalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC1.3.1.7 (2r,3s)-3-fluoromalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC1.3.1.7 (2r,3s)-3-iodomalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC1.3.1.7 (2r,3s)-3-methyltartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.3.1.7 d-malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC1.3.1.7 l(+)-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.2 * +EC1.3.1.7 meso-tartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.3.1.7 meso-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.45 * +EC1.3.1.7 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.06 * +EC1.3.1.70 4,4-dimethyl-5alpha-cholesta-7,14-dien-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0294 * +EC1.3.1.70 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.1 * +EC1.3.1.70 5alpha-cholesta-8,14-dien-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.45 * +EC1.3.1.70 ergosta-8,14-dien-3beta-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC1.3.1.70 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC1.3.1.70 nadph zea mays//eukaryotes;plants;monocots;grass family//zma 0.023 * +EC1.3.1.71 ergosta-5,7,22,24(241)-tetraen-3beta-ol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0108 * +EC1.3.1.72 4,4',14alpha-trimethyl-5alpha-cholesta-8,24-dien-3beta-ol manduca sexta//*//* 0.018 * +EC1.3.1.72 4,4',14alpha-trimethyl-5alpha-cholesta-8,24-dien-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.109 * +EC1.3.1.72 5alpha-cholesta-5,24-dien-3beta-ol manduca sexta//*//* 0.0026 * +EC1.3.1.72 5alpha-cholesta-5,24-dien-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.163 * +EC1.3.1.72 5alpha-cholesta-7,24-dien-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC1.3.1.72 5alpha-cholesta-8,24-dien-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.176 * +EC1.3.1.72 cycloartenol manduca sexta//*//* 0.033 * +EC1.3.1.72 desmosterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.3 * +EC1.3.1.74 (+)-acylfulvene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.465 * +EC1.3.1.74 (+)-hydroxymethylacylfulvene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.243 * +EC1.3.1.74 (-)-acylfulvene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.538 * +EC1.3.1.74 (-)-hydroxymethylacylfulvene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.213 * +EC1.3.1.74 (2e)-hexenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.232 * +EC1.3.1.74 (2e)-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC1.3.1.74 (2e)-pentenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.42 * +EC1.3.1.74 (2e,6z)-nonadienal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0113 * +EC1.3.1.74 1-penten-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.29 * +EC1.3.1.74 1-penten-3-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.58 * +EC1.3.1.74 13-oxo-(9e,11z)-octadecadienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00392 * +EC1.3.1.74 15-deoxy-delta12,14-prostaglandin j2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0096 * +EC1.3.1.74 15-oxoprostaglandin e1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.3.1.74 2-[4-[(e)-(2-oxocyclohexylidene)methyl]phenyl]propanoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.3.1.74 2e-nonenal artemisia annua//*//* 0.0064 * +EC1.3.1.74 3-buten-2-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.055 * +EC1.3.1.74 3-buten-2-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 2.88 * +EC1.3.1.74 3-nonen-2-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000673 * +EC1.3.1.74 3-penten-2-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0052 * +EC1.3.1.74 3-penten-2-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.63 * +EC1.3.1.74 4-hexen-3-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC1.3.1.74 4-hexen-3-one cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.023 * +EC1.3.1.74 4-hydroxy-(2e)-hexenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.145 * +EC1.3.1.74 4-hydroxy-(2e)-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0134 * +EC1.3.1.74 4-hydroxy-2-nonenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC1.3.1.74 4-oxo-(2e)-nonenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00124 * +EC1.3.1.74 9-oxo-(10e,12z)-octadecadienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC1.3.1.74 acrolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC1.3.1.74 artemisinic aldehyde artemisia annua//*//* 0.071 * +EC1.3.1.74 crotonaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.8 * +EC1.3.1.74 crotonaldehyde cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 29.8 * +EC1.3.1.74 diamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.128 * +EC1.3.1.74 ethyl vinyl ketone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC1.3.1.74 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.053 * +EC1.3.1.74 nadh cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 4.64 * +EC1.3.1.74 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC1.3.1.74 nadph cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.185 * +EC1.3.1.74 propenal arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5 * +EC1.3.1.74 propenal cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 13.6 * +EC1.3.1.74 trans-2-pentenal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC1.3.1.77 cyanidin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0739 * +EC1.3.1.77 cyanidin camellia sinensis//*//* 0.0131 * +EC1.3.1.77 cyanidin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0129 * +EC1.3.1.77 cyanidin vitis bellula//*//* 0.176 * +EC1.3.1.77 delphinidin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0178 * +EC1.3.1.77 delphinidin camellia sinensis//*//* 0.0142 * +EC1.3.1.77 delphinidin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0498 * +EC1.3.1.77 delphinidin vitis bellula//*//* 0.131 * +EC1.3.1.77 nadh medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.94 * +EC1.3.1.77 nadh vitis bellula//*//* 0.817 * +EC1.3.1.77 nadph camellia sinensis//*//* 0.097 * +EC1.3.1.77 nadph medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.45 * +EC1.3.1.77 nadph vitis bellula//*//* 0.193 * +EC1.3.1.77 pelargonidin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0528 * +EC1.3.1.77 pelargonidin camellia sinensis//*//* 0.013 * +EC1.3.1.77 pelargonidin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0145 * +EC1.3.1.77 pelargonidin vitis bellula//*//* 0.135 * +EC1.3.1.78 arogenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0526 * +EC1.3.1.78 l-arogenate acinetobacter calcoaceticus//*//* 0.313 * +EC1.3.1.78 l-arogenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0842 * +EC1.3.1.78 l-arogenate euglena gracilis//*//* 0.0002 * +EC1.3.1.78 l-arogenate nicotiana sylvestris//eukaryotes;plants;eudicots;nightshade family//nsy 0.0001 * +EC1.3.1.78 l-arogenate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.34 * +EC1.3.1.78 l-arogenate synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.331 * +EC1.3.1.78 l-arogenate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.093 * +EC1.3.1.78 l-arogenate zea mays//eukaryotes;plants;monocots;grass family//zma 0.003 * +EC1.3.1.78 nadp+ acinetobacter calcoaceticus//*//* 0.005 * +EC1.3.1.78 nadp+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0102 * +EC1.3.1.78 nadp+ nicotiana sylvestris//eukaryotes;plants;eudicots;nightshade family//nsy 0.0087 * +EC1.3.1.78 nadp+ sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.011 * +EC1.3.1.78 nadp+ synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.038 * +EC1.3.1.78 nadp+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.009 * +EC1.3.1.78 prephenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 17.0 * +EC1.3.1.8 2-cis-octenoyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0011 * +EC1.3.1.8 2-cis-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC1.3.1.8 2-eicosenoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.083 * +EC1.3.1.8 2-trans-hexadecenoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.1 * +EC1.3.1.8 2-trans-hexadecenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC1.3.1.8 2-trans-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC1.3.1.8 2-trans-octenoyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0005 * +EC1.3.1.8 2-trans-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC1.3.1.8 5-hydroxyundec-cis-2-enoyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0025 * +EC1.3.1.8 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.3.1.8 butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0067 * +EC1.3.1.8 crotonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.3.1.8 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.3.1.8 trans-crotonyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0033 * +EC1.3.1.81 (+)-pulegone mentha x piperita//*//* 0.04 * +EC1.3.1.84 acryloyl-coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.003 * +EC1.3.1.84 acrylyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC1.3.1.84 acrylyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0015 * +EC1.3.1.84 acrylyl-coa ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.0028 * +EC1.3.1.84 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC1.3.1.84 nadph rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.028 * +EC1.3.1.84 nadph ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.018 * +EC1.3.1.84 nadph sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.036 * +EC1.3.1.85 (2s)-ethylmalonyl-coa rhodobacter sphaeroides 2.4.1//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.2 * +EC1.3.1.85 (e)-crotonyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.2 * +EC1.3.1.85 acryloyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.5 * +EC1.3.1.85 cinnamoyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.38 * +EC1.3.1.85 co2 rhodobacter sphaeroides 2.4.1//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.2 * +EC1.3.1.85 co2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.2 * +EC1.3.1.85 crotonyl-coa rhodobacter sphaeroides 2.4.1//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.4 * +EC1.3.1.85 crotonyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.58 * +EC1.3.1.85 nadph rhodobacter sphaeroides 2.4.1//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.7 * +EC1.3.1.85 nadph rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.7 * +EC1.3.1.86 butyryl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.01 * +EC1.3.1.86 crotonyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.0025 * +EC1.3.1.86 crotonyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.018 * +EC1.3.1.86 ferredoxin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.002 * +EC1.3.1.86 nadh clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.145 * +EC1.3.1.86 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00364 * +EC1.3.1.86 nadph streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.015 * +EC1.3.1.86 trans-crotonyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0033 * +EC1.3.1.9 (2e)-2-dodecenoyl-coa burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 0.0044 * +EC1.3.1.9 2-decenoyl-[acyl-carrier protein] carthamus tinctorius//*//* 0.007 * +EC1.3.1.9 2-decenoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC1.3.1.9 2-hexadecenoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0029 * +EC1.3.1.9 2-hexenoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0062 * +EC1.3.1.9 2-octenoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0133 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.001 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 0.025 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] carthamus tinctorius//*//* 0.0014 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] persea americana//*//* 0.0014 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.691 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0014 * +EC1.3.1.9 crotonyl-[acyl-carrier protein] vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.195 * +EC1.3.1.9 crotonyl-[acyl-carrier-protein] burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.027 * +EC1.3.1.9 crotonyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.288 * +EC1.3.1.9 crotonyl-coa brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.178 * +EC1.3.1.9 crotonyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.188 * +EC1.3.1.9 crotonyl-coa candidatus liberibacter asiaticus//prokaryotes;bacteria;alphaproteobacteria;liberibacter//las 0.0175 * +EC1.3.1.9 crotonyl-coa carthamus tinctorius//*//* 0.667 * +EC1.3.1.9 crotonyl-coa eimeria tenella//*//* 0.04 * +EC1.3.1.9 crotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC1.3.1.9 crotonyl-coa plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.063 * +EC1.3.1.9 crotonyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.007 * +EC1.3.1.9 crotonyl-coa vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 1.178 * +EC1.3.1.9 crotonyl-coa xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 0.293 * +EC1.3.1.9 crotonyl-n-acetyl-cysteamine persea americana//*//* 1.61 * +EC1.3.1.9 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.007 * +EC1.3.1.9 nadh brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.0076 * +EC1.3.1.9 nadh candidatus liberibacter asiaticus//prokaryotes;bacteria;alphaproteobacteria;liberibacter//las 0.0205 * +EC1.3.1.9 nadh carthamus tinctorius//*//* 0.0059 * +EC1.3.1.9 nadh eimeria tenella//*//* 0.06 * +EC1.3.1.9 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.3.1.9 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.056 * +EC1.3.1.9 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.033 * +EC1.3.1.9 nadh rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.021 * +EC1.3.1.9 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC1.3.1.9 nadh streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.023 * +EC1.3.1.9 nadh vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.053 * +EC1.3.1.9 nadh xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 0.0187 * +EC1.3.1.9 nadh yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.01 * +EC1.3.1.9 nadph carthamus tinctorius//*//* 0.003 * +EC1.3.1.9 nadph vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 3.043 * +EC1.3.1.9 trans-2-decenoyl-[acyl-carrier protein] carthamus tinctorius//*//* 0.007 * +EC1.3.1.9 trans-2-decenoyl-[acyl-carrier protein] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.704 * +EC1.3.1.9 trans-2-decenoyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0056 * +EC1.3.1.9 trans-2-decenoyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.023 * +EC1.3.1.9 trans-2-dodecenoyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0017 * +EC1.3.1.9 trans-2-dodecenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC1.3.1.9 trans-2-dodecenoyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.014 * +EC1.3.1.9 trans-2-octenoyl-[acyl-carrier protein] yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.006 * +EC1.3.1.9 trans-2-octenoyl-coa burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.16 * +EC1.3.1.9 trans-2-octenoyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.007 * +EC1.3.1.9 trans-but-2-enoyl-[acyl-carrier protein] plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.16 * +EC1.3.1.9 trans-but-2-enoyl-[acyl-carrier protein] rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.6 * +EC1.3.1.9 trans-but-2-enoyl-[acyl-carrier protein] streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.009 * +EC1.3.1.92 (+)-carvone artemisia annua//*//* 0.65 * +EC1.3.1.92 2-cyclohexen-1-one artemisia annua//*//* 0.79 * +EC1.3.1.92 artemisinic aldehyde artemisia annua//*//* 0.019 * +EC1.3.1.92 nadh artemisia annua//*//* 0.77 * +EC1.3.1.92 nadph artemisia annua//*//* 0.095 * +EC1.3.1.95 (e)-2-butenoyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.008 * +EC1.3.1.95 3-buten-2-one anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 1.8 * +EC1.3.1.95 acrolein clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 5.6 * +EC1.3.1.95 acryloyl-coa anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 0.002 * +EC1.3.1.95 acryloyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.00083 * +EC1.3.1.95 ethyl vinyl ketone clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.77 * +EC1.3.1.95 n-acetyl-s-acryloylcysteamine clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 35.0 * +EC1.3.1.95 nadh anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 0.008 * +EC1.3.1.98 nadph enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.049 * +EC1.3.1.98 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC1.3.1.98 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0425 * +EC1.3.1.98 nadph streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.079 * +EC1.3.1.98 udp-n-acetyl-3-o-(1-carboxyvinyl)-d-glucosamine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.04 * +EC1.3.1.98 udp-n-acetyl-3-o-(1-carboxyvinyl)-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0065 * +EC1.3.1.98 udp-n-acetyl-3-o-(1-carboxyvinyl)-d-glucosamine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.089 * +EC1.3.1.98 udp-n-acetylenolpyruvylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC1.3.1.B7 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.178 * +EC1.3.2.3 1,4-benzoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.28 * +EC1.3.2.3 cytochrome c arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.034 * +EC1.3.2.3 cytochrome c spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.18 * +EC1.3.2.3 d-arabinono-1,4-lactone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.2 * +EC1.3.2.3 l-galactono-1,4-lactone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC1.3.2.3 l-galactono-gamma-lactone brassica oleracea var. botrytis//*//* 3.3 * +EC1.3.2.3 l-galactono-gamma-lactone ipomoea batatas//*//* 0.12 * +EC1.3.2.3 l-galactono-gamma-lactone spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.192 * +EC1.3.2.3 l-gulono-1,4-lactone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 13.1 * +EC1.3.2.3 phenazine methosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.026 * +EC1.3.3.10 adrenocorticotropic hormone chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.93 * +EC1.3.3.10 indole-3-propionate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.02 * +EC1.3.3.10 l-tryptophan chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0058 * +EC1.3.3.10 l-tryptophanamide chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0091 * +EC1.3.3.10 luteinizing hormone-releasing hormone chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.071 * +EC1.3.3.10 n-acetyl-l-tryptophan chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0791 * +EC1.3.3.10 n-acetyl-l-tryptophanamide chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0195 * +EC1.3.3.10 pentagastrin chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.026 * +EC1.3.3.12 d-altrono-1,4-lactone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC1.3.3.12 d-arabino-1,4-lactone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC1.3.3.12 d-arabinono-1,4-lactone trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 10.82 * +EC1.3.3.12 d-threono-1,4-lactone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.0 * +EC1.3.3.12 l-fucono-1,4-lactone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.36 * +EC1.3.3.12 l-galactono-1,4-lactone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC1.3.3.12 l-galactono-1,4-lactone trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 11.22 * +EC1.3.3.12 oxygen saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC1.3.3.13 cyclo(l-leu-l-phe) streptomyces noursei//prokaryotes;bacteria;actinobacteria;streptomyces//snr 0.053 * +EC1.3.3.13 cyclo(l-phe-l-his) streptomyces noursei//prokaryotes;bacteria;actinobacteria;streptomyces//snr 0.067 * +EC1.3.3.15 coproporphyrinogen iii bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00529 * +EC1.3.3.15 coproporphyrinogen iii staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0067 * +EC1.3.3.15 mesoporphyrinogen ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00429 * +EC1.3.3.15 protoporphyrinogen ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.001 * +EC1.3.3.3 3-[7,13-di(2-carboxy-ethyl)-17-benzyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.002 * +EC1.3.3.3 3-[7,13-di(2-carboxy-ethyl)-17-ethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1e-05 * +EC1.3.3.3 3-[7,17-di(2-carboxy-ethyl)-13-benzyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00088 * +EC1.3.3.3 3-[7,17-di(2-carboxy-ethyl)-13-ethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00085 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-di-tert-butyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0001 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-dibutyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-diethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00099 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-diethyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00056 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-diisopropyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00035 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-13,17-dipropyl-3,8,12,18-tetramethyl-porphyrinogen-2-yl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.3.3.3 3-[7-(2-carboxy-ethyl)-3,8,12,13,17,18-hexamethyl-porphyrinogen-2-yl]-propionic acid gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.001 * +EC1.3.3.3 coproporphyrinogen iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.6e-05 * +EC1.3.3.3 coproporphyrinogen iii plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0151 * +EC1.3.3.3 coproporphyrinogen iv rattus sp.//*//* 0.0009 * +EC1.3.3.3 coproporphyrinogen-iii bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC1.3.3.3 coproporphyrinogen-iii chromatium sp.//*//* 0.035 * +EC1.3.3.3 coproporphyrinogen-iii gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0032 * +EC1.3.3.3 coproporphyrinogen-iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.6e-05 * +EC1.3.3.3 coproporphyrinogen-iii mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.047 * +EC1.3.3.3 coproporphyrinogen-iii nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.036 * +EC1.3.3.3 coproporphyrinogen-iii rattus sp.//*//* 0.00012 * +EC1.3.3.3 coproporphyrinogen-iii rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.03 * +EC1.3.3.3 coproporphyrinogen-iii saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0032 * +EC1.3.3.3 coproporphyrinogen-iv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00065 * +EC1.3.3.3 harderoporphyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC1.3.3.3 harderoporphyrin rattus sp.//*//* 0.0016 * +EC1.3.3.3 harderoporphyrinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.039 * +EC1.3.3.3 harderoporphyrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.3.3.3 mesoporphyrin-vi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00056 * +EC1.3.3.3 mesoporphyrinogen-vi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00056 * +EC1.3.3.3 pentacarboxylate porphyrinogen 5dab homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC1.3.3.3 pentacarboxylate porphyrinogen iii rattus sp.//*//* 0.029 * +EC1.3.3.4 coproporphyrinogen-iii bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0053 * +EC1.3.3.4 hematoporphyrinogen-ix mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.3.3.4 mesoporphyrinogen-ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0049 * +EC1.3.3.4 mesoporphyrinogen-ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.3.3.4 mesoporphyrinogen-ix mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.3.3.4 o2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.125 * +EC1.3.3.4 o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0005 * +EC1.3.3.4 protoporphyrinogen ix amaranthus tuberculatus//*//* 0.001 * +EC1.3.3.4 protoporphyrinogen ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.007 * +EC1.3.3.4 protoporphyrinogen ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC1.3.3.4 protoporphyrinogen ix nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00117 * +EC1.3.3.4 protoporphyrinogen-ix aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.001 * +EC1.3.3.4 protoporphyrinogen-ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.001 * +EC1.3.3.4 protoporphyrinogen-ix bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0166 * +EC1.3.3.4 protoporphyrinogen-ix desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.0021 * +EC1.3.3.4 protoporphyrinogen-ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC1.3.3.4 protoporphyrinogen-ix hordeum vulgare//*//* 0.0005 * +EC1.3.3.4 protoporphyrinogen-ix mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00078 * +EC1.3.3.4 protoporphyrinogen-ix myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0016 * +EC1.3.3.4 protoporphyrinogen-ix nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00117 * +EC1.3.3.4 protoporphyrinogen-ix rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.3.3.4 protoporphyrinogen-ix saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2e-05 * +EC1.3.3.5 2,2'-azino-bis(3-ethylbenzthioline-6-sulfonic acid) myrothecium verrucaria//*//* 0.076 * +EC1.3.3.5 2,2'-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) myrothecium verrucaria//*//* 0.25 * +EC1.3.3.5 bilirubin bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 0.022 * +EC1.3.3.5 bilirubin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.008 * +EC1.3.3.5 bilirubin magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.018 * +EC1.3.3.5 bilirubin myrothecium verrucaria//*//* 0.021 * +EC1.3.3.5 bilirubin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.077 * +EC1.3.3.5 biliverdin myrothecium verrucaria//*//* 0.18 * +EC1.3.3.5 ditaurobilirubin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.015 * +EC1.3.3.5 ditaurobilirubin myrothecium verrucaria//*//* 0.37 * +EC1.3.3.5 p-phenylenediamine myrothecium verrucaria//*//* 9.8 * +EC1.3.3.5 syringaldazine myrothecium verrucaria//*//* 0.047 * +EC1.3.3.6 arachidoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0335 * +EC1.3.3.6 butyryl-coa glutamicibacter nicotianae//*//* 0.1319 * +EC1.3.3.6 butyryl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.032 * +EC1.3.3.6 cis-3-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC1.3.3.6 cis-3-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC1.3.3.6 cis-3-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.057 * +EC1.3.3.6 dec-4-cis-enoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0093 * +EC1.3.3.6 decanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.024 * +EC1.3.3.6 decanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.3.3.6 decanoyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.0072 * +EC1.3.3.6 dodecanoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0157 * +EC1.3.3.6 dodecanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.025 * +EC1.3.3.6 dodecanoyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.1 * +EC1.3.3.6 dodecanoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.002 * +EC1.3.3.6 hexadecanedioyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.00633 * +EC1.3.3.6 hexanoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC1.3.3.6 hexanoyl-coa glutamicibacter nicotianae//*//* 0.092 * +EC1.3.3.6 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.3.3.6 hexanoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.006 * +EC1.3.3.6 lauroyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.024 * +EC1.3.3.6 lauroyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.3.3.6 lignoceroyl-coa beauveria bassiana//*//* 0.0025 * +EC1.3.3.6 linoleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0073 * +EC1.3.3.6 linoleoyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.019 * +EC1.3.3.6 myristoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0053 * +EC1.3.3.6 myristoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.029 * +EC1.3.3.6 myristoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.3.3.6 myristoyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.011 * +EC1.3.3.6 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.3.3.6 octanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.042 * +EC1.3.3.6 octanoyl-coa glutamicibacter nicotianae//*//* 0.061 * +EC1.3.3.6 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0443 * +EC1.3.3.6 oleoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.046 * +EC1.3.3.6 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.3.3.6 palmitoyl-coa cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.02 * +EC1.3.3.6 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.073 * +EC1.3.3.6 palmitoyl-coa paenarthrobacter ureafaciens//*//* 2e-08 * +EC1.3.3.6 palmitoyl-coa phascolarctos cinereus//*//* 0.028 * +EC1.3.3.6 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00181 * +EC1.3.3.6 stearoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0044 * +EC1.3.3.6 stearoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.034 * +EC1.3.3.6 stearoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0096 * +EC1.3.3.6 stearoyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.023 * +EC1.3.3.6 tetradecanoyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.018 * +EC1.3.3.6 trans-3-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC1.3.3.6 trans-3-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC1.3.3.6 trans-3-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.059 * +EC1.3.3.7 dihydrothymine rhodotorula glutinis//*//* 0.05 * +EC1.3.3.7 dihydrouracil rhodotorula glutinis//*//* 0.05 * +EC1.3.3.8 (s)-canadine berberis wilsoniae//*//* 0.0267 * +EC1.3.3.8 (s)-tetrahydroberberine berberis stolonifera//*//* 0.0267 * +EC1.3.3.8 (s)-tetrahydroberberine coptis japonica//*//* 0.0065 * +EC1.3.3.8 (s)-tetrahydroberberine thalictrum minus var. hypoleucum//*//* 0.0021 * +EC1.3.3.8 (s)-tetrahydrojatrorrhizine berberis wilsoniae//*//* 0.0013 * +EC1.3.3.8 tetrahydroberberine coscinium fenestratum//*//* 0.001 * +EC1.3.4.1 fumarate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.2 * +EC1.3.5.1 2,3-dimethoxy-5-methyl-1,4-benzoquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC1.3.5.1 2,3-dimethoxy-5-methyl-6-decyl-1,4-benzoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0034 * +EC1.3.5.1 2,6-dichlorophenol indophenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC1.3.5.1 caldariellaquinone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.18 * +EC1.3.5.1 caldariellaquinone sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.06 * +EC1.3.5.1 d-malate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC1.3.5.1 decylubiquinone bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.011 * +EC1.3.5.1 ferricyanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC1.3.5.1 ferricyanide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.3.5.1 ferricyanide facultative anaerobic bacterium//*//* 0.3 * +EC1.3.5.1 ferricyanide mammalia//*//* 0.3 * +EC1.3.5.1 ferrocyanide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.14 * +EC1.3.5.1 fumarate acidianus ambivalens//*//* 0.06 * +EC1.3.5.1 fumarate ascaris suum//*//* 0.143 * +EC1.3.5.1 fumarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC1.3.5.1 fumarate desulfobulbus elongatus//*//* 0.0149 * +EC1.3.5.1 fumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC1.3.5.1 fumarate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.1 * +EC1.3.5.1 fumarate wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 0.35 * +EC1.3.5.1 l-malate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.2 * +EC1.3.5.1 oxidized 2,6-dichlorophenolindophenol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0654 * +EC1.3.5.1 oxidized 2,6-dichlorophenolindophenol sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.089 * +EC1.3.5.1 oxidized n,n,n',n'-tetramethyl-4-phenylenediamine sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0991 * +EC1.3.5.1 oxidized phenazine methosulfate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.295 * +EC1.3.5.1 phenazine methosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.48 * +EC1.3.5.1 phenazine methosulfate mammalia//*//* 0.48 * +EC1.3.5.1 phenazine methosulfate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.11 * +EC1.3.5.1 succinate acidianus ambivalens//*//* 0.3 * +EC1.3.5.1 succinate ascaris suum//*//* 0.153 * +EC1.3.5.1 succinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.3.5.1 succinate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.25 * +EC1.3.5.1 succinate desulfobulbus elongatus//*//* 0.023 * +EC1.3.5.1 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.3.5.1 succinate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.7 * +EC1.3.5.1 succinate ipomoea batatas//*//* 0.29 * +EC1.3.5.1 succinate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.12 * +EC1.3.5.1 succinate oryctolagus sp.//*//* 0.138 * +EC1.3.5.1 succinate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.27 * +EC1.3.5.1 succinate plasmodium yoelii yoelii//*//* 0.049 * +EC1.3.5.1 succinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.167 * +EC1.3.5.1 succinate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.23 * +EC1.3.5.1 succinate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.165 * +EC1.3.5.1 succinate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.42 * +EC1.3.5.1 succinate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.28 * +EC1.3.5.1 succinate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.21 * +EC1.3.5.1 succinate wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 20.0 * +EC1.3.5.1 ubiquinone-1 ascaris suum//*//* 0.003 * +EC1.3.5.1 ubiquinone-1 plasmodium yoelii yoelii//*//* 0.0016 * +EC1.3.5.1 ubiquinone-1 sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.02 * +EC1.3.5.1 ubiquinone-2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC1.3.5.1 ubiquinone-2 plasmodium yoelii yoelii//*//* 0.00017 * +EC1.3.5.1 ubiquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC1.3.5.1 ubiquinone paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.017 * +EC1.3.5.2 (s)-dihydroorotate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.06 * +EC1.3.5.2 1,4-naphthoquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.028 * +EC1.3.5.2 2,3-dimethoxy-5-methyl-1,4-benzoquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.099 * +EC1.3.5.2 2,5-dimethyl-p-benzoquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.132 * +EC1.3.5.2 2,6-dihydrophenolindophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0058 * +EC1.3.5.2 coenzyme q1 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 11.0 * +EC1.3.5.2 coenzyme q6 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0011 * +EC1.3.5.2 coenzyme q6 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.022 * +EC1.3.5.2 coenzyme q7 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0013 * +EC1.3.5.2 coenzyme qd plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 13.0 * +EC1.3.5.2 decylubiquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.112 * +EC1.3.5.2 decylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0137 * +EC1.3.5.2 decylubiquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.016 * +EC1.3.5.2 decylubiquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC1.3.5.2 decylubiquinone toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.029 * +EC1.3.5.2 dihydroorotate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC1.3.5.2 dihydroorotate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC1.3.5.2 dihydroorotate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.04 * +EC1.3.5.2 dihydroorotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.3.5.2 dihydroorotate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.3.5.2 dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.014 * +EC1.3.5.2 dihydroorotate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.3.5.2 l-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.015 * +EC1.3.5.2 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.184 * +EC1.3.5.2 methyl dihydroorotate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0154 * +EC1.3.5.2 methyl-s-dihydroorotate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0019 * +EC1.3.5.2 s-dihydroorotate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0092 * +EC1.3.5.2 s-dihydroorotate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.115 * +EC1.3.5.2 s-dihydroorotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0288 * +EC1.3.5.2 s-dihydroorotate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC1.3.5.2 s-dihydroorotate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.026 * +EC1.3.5.2 s-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0144 * +EC1.3.5.2 s-dihydroorotate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC1.3.5.2 ubiquinone-0 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.3.5.2 ubiquinone-0 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.075 * +EC1.3.5.2 ubiquinone-30 toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.051 * +EC1.3.5.2 ubiquinone-4 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.035 * +EC1.3.5.2 ubiquinone-50 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.3.5.2 ubiquinone-50 toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.027 * +EC1.3.5.2 ubiquinone-6 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC1.3.5.2 ubiquinone-6 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0225 * +EC1.3.5.2 ubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.3.5.2 ubiquinone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.062 * +EC1.3.5.2 ubiquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.3.5.3 menadione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00376 * +EC1.3.5.3 protoporphyrinogen ix escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC1.3.5.4 2,3-dimethyl-1,4-naphthohydroquinone wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 0.12 * +EC1.3.5.4 fumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0054 * +EC1.3.5.4 menaquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.3.5.4 phenazine methosulfate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.33 * +EC1.3.5.4 succinate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.64 * +EC1.3.5.4 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC1.3.5.5 5-n-undecyl-6-hydroxy-4,7-dioxobenzothiazole narcissus pseudonarcissus//*//* 0.039 * +EC1.3.5.6 neurosporene capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.009 * +EC1.3.5.6 zeta-carotene capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0084 * +EC1.3.5.B4 beta-carotene synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.041 * +EC1.3.5.B4 echinenone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.035 * +EC1.3.7.1 ferredoxin clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.016 * +EC1.3.7.1 methyl viologen clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.3 * +EC1.3.7.12 red chlorophyll catabolite hordeum vulgare//*//* 0.6 * +EC1.3.7.4 ferredoxin avena sativa//*//* 0.0012 * +EC1.3.7.7 protochlorophyllide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0106 * +EC1.3.7.8 2-amino-benzoyl-coa thauera aromatica//*//* 0.019 * +EC1.3.7.8 2-chloro-benzoyl-coa thauera aromatica//*//* 0.066 * +EC1.3.7.8 2-fluoro-benzoyl-coa thauera aromatica//*//* 0.152 * +EC1.3.7.8 2-hydroxy-benzoyl-coa thauera aromatica//*//* 0.056 * +EC1.3.7.8 3-fluoro-benzoyl-coa thauera aromatica//*//* 0.043 * +EC1.3.7.8 atp thauera aromatica//*//* 0.6 * +EC1.3.7.8 benzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC1.3.7.8 benzoyl-coa thauera aromatica//*//* 0.015 * +EC1.3.7.8 furan-2-carbonyl-coa thauera aromatica//*//* 2.5 * +EC1.3.7.8 nh2oh thauera aromatica//*//* 0.15 * +EC1.3.7.8 pyridine-2-carbonyl-coa thauera aromatica//*//* 0.375 * +EC1.3.7.8 pyridine-4-carbonyl-coa thauera aromatica//*//* 0.625 * +EC1.3.7.8 thiophene-2-carbonyl-coa thauera aromatica//*//* 0.094 * +EC1.3.7.9 4-hydroxybenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.06 * +EC1.3.8.1 (e)-2-butenoyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.008 * +EC1.3.8.1 2,6-dichlorophenolindophenol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC1.3.8.1 2-methylbutanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC1.3.8.1 2-methylpropionyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.161 * +EC1.3.8.1 4-methylpentanoyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.097 * +EC1.3.8.1 acrolein clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 5.6 * +EC1.3.8.1 acrylyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.00083 * +EC1.3.8.1 butanoyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.01 * +EC1.3.8.1 butanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC1.3.8.1 butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0027 * +EC1.3.8.1 butyryl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.01 * +EC1.3.8.1 butyryl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.006 * +EC1.3.8.1 butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0129 * +EC1.3.8.1 butyryl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.014 * +EC1.3.8.1 butyryl-coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0024 * +EC1.3.8.1 butyryl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1253 * +EC1.3.8.1 butyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0006 * +EC1.3.8.1 butyryl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.017 * +EC1.3.8.1 crotonyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.0025 * +EC1.3.8.1 cyclobutanecarboxyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.119 * +EC1.3.8.1 cycloheptanecarboxyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.198 * +EC1.3.8.1 cyclohexanecarboxyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.082 * +EC1.3.8.1 cyclopentanecarboxyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.095 * +EC1.3.8.1 electron transfer flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC1.3.8.1 ethyl vinyl ketone clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.77 * +EC1.3.8.1 ferricytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.083 * +EC1.3.8.1 heptanoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02547 * +EC1.3.8.1 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC1.3.8.1 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.3.8.1 hexanoyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.053 * +EC1.3.8.1 hexanoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.09303 * +EC1.3.8.1 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC1.3.8.1 n-acetyl-s-acryloyl-cysteamine clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.035 * +EC1.3.8.1 nadh clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.145 * +EC1.3.8.1 octanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.032 * +EC1.3.8.1 octanoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04231 * +EC1.3.8.1 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0081 * +EC1.3.8.1 pentanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0333 * +EC1.3.8.1 pentanoyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.016 * +EC1.3.8.1 pentanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0329 * +EC1.3.8.1 phenazine ethosulfate megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.59 * +EC1.3.8.1 phenazine methosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.179 * +EC1.3.8.1 phenazine methosulfate megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.8 * +EC1.3.8.1 phenazine methosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC1.3.8.1 propionyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.3.8.1 propionyl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.13 * +EC1.3.8.1 reduced ferredoxin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.002 * +EC1.3.8.1 s-2-methylbutyryl-coa megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.213 * +EC1.3.8.1 valeryl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1238 * +EC1.3.8.10 cyclohex-1,5-diene-1-carbonyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.019 * +EC1.3.8.10 cyclohex-1-ene-1-carbonyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.005 * +EC1.3.8.11 cyclohexane-1-carbonyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.022 * +EC1.3.8.13 crotonobetaine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.7 * +EC1.3.8.2 15-cis-4,4'-diapophytoene staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.049 * +EC1.3.8.2 all-trans-4,4'-diapo-zeta-carotene staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.04 * +EC1.3.8.2 all-trans-4,4'-diapophytofluene staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.01 * +EC1.3.8.2 fad staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.039 * +EC1.3.8.3 (r)-2-benzylsuccinyl-coa thauera aromatica//*//* 0.11 * +EC1.3.8.4 (s)-2-methylbutyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC1.3.8.4 butyryl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0362 * +EC1.3.8.4 butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.3.8.4 electron-transfer flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC1.3.8.4 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00043 * +EC1.3.8.4 hexanoyl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0338 * +EC1.3.8.4 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.3.8.4 isobutyryl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC1.3.8.4 isobutyryl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.79 * +EC1.3.8.4 isovaleryl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC1.3.8.4 isovaleryl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0025 * +EC1.3.8.4 isovaleryl-coa cavia porcellus//*//* 0.0113 * +EC1.3.8.4 isovaleryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.3.8.4 isovaleryl-coa pisum sativum//*//* 0.0042 * +EC1.3.8.4 isovaleryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0029 * +EC1.3.8.4 isovaleryl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.047 * +EC1.3.8.4 n-valeryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0167 * +EC1.3.8.4 n-valeryl-coa pisum sativum//*//* 0.0748 * +EC1.3.8.4 n-valeryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0167 * +EC1.3.8.4 phenazine methosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.833 * +EC1.3.8.4 phenazine methosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.51 * +EC1.3.8.4 valeryl-coa caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0105 * +EC1.3.8.4 valeryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0167 * +EC1.3.8.5 2-methylbutanoyl-coa ascaris suum//*//* 0.018 * +EC1.3.8.5 2-methylpentanoyl-coa ascaris suum//*//* 0.021 * +EC1.3.8.6 4-nitrobutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.3.8.6 5-hexenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC1.3.8.6 crotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.3.8.6 electron-transfer flavoprotein paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0011 * +EC1.3.8.6 electron-transfer flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC1.3.8.6 glutaconyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.3.8.6 glutaconyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.006 * +EC1.3.8.6 glutaramyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC1.3.8.6 glutaryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC1.3.8.6 glutaryl-coa geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.03 * +EC1.3.8.6 glutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.3.8.6 glutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC1.3.8.6 glutaryl-coa paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0012 * +EC1.3.8.6 glutaryl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0012 * +EC1.3.8.6 glutaryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC1.3.8.6 glutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC1.3.8.6 glutaryl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC1.3.8.6 glutarylpantetheine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.0 * +EC1.3.8.6 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC1.3.8.6 human electron transfer protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC1.3.8.6 methyl-glutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.3.8.6 pentanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC1.3.8.7 4-cis,7-cis-decadienoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0023 * +EC1.3.8.7 4-cis-decenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC1.3.8.7 4-decynoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0029 * +EC1.3.8.7 5-cis-decenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC1.3.8.7 6-cis-decenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0021 * +EC1.3.8.7 [4-(dimethylamino)phenyl]propionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0426 * +EC1.3.8.7 [4-(dimethylamino)phenyl]propionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.061 * +EC1.3.8.7 all-cis-4,7,10,13-hexadecatetraenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC1.3.8.7 beta(2-furyl)propionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC1.3.8.7 beta-(2-furyl)propionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0091 * +EC1.3.8.7 butanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0084 * +EC1.3.8.7 butanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC1.3.8.7 butanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.135 * +EC1.3.8.7 butanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.3.8.7 butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00714 * +EC1.3.8.7 crotonyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC1.3.8.7 decanoyl-coa aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.03 * +EC1.3.8.7 decanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0007 * +EC1.3.8.7 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.3.8.7 decanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC1.3.8.7 decanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00094 * +EC1.3.8.7 dodecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0043 * +EC1.3.8.7 dodecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC1.3.8.7 dodecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC1.3.8.7 electron transfer flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.3.8.7 electron transfer flavoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC1.3.8.7 electron transferring flavoprotein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC1.3.8.7 electron transferring flavoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.3.8.7 electron transferring flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00035 * +EC1.3.8.7 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0024 * +EC1.3.8.7 ferricenium hexafluorophosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.055 * +EC1.3.8.7 ferrocenium hexafluorophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC1.3.8.7 furylpropionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0144 * +EC1.3.8.7 furylpropionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC1.3.8.7 hexadecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.3.8.7 hexadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.3.8.7 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0035 * +EC1.3.8.7 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0068 * +EC1.3.8.7 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0094 * +EC1.3.8.7 hexanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0036 * +EC1.3.8.7 indolepropionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC1.3.8.7 indolepropionyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00049 * +EC1.3.8.7 linoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC1.3.8.7 octanoyl 3'-dephospho-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC1.3.8.7 octanoyl-1,n6-etheno-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00928 * +EC1.3.8.7 octanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC1.3.8.7 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.3.8.7 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC1.3.8.7 octanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC1.3.8.7 octanoyl-pantetheine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.107 * +EC1.3.8.7 palmitoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC1.3.8.7 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.3.8.7 pentanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0396 * +EC1.3.8.7 phenazine methosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC1.3.8.7 tetradecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0057 * +EC1.3.8.7 tetradecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC1.3.8.7 tetradecenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.3.8.7 valeryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0563 * +EC1.3.8.8 4-cis,7-cis-decadienoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC1.3.8.8 4-cis-decenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC1.3.8.8 5-cis-decenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC1.3.8.8 6-cis-decenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC1.3.8.8 cis,cis,cis,cis-4,7,10,13-hexadecatetraenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC1.3.8.8 decanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC1.3.8.8 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.3.8.8 decanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.019 * +EC1.3.8.8 decanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0022 * +EC1.3.8.8 dodecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC1.3.8.8 dodecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC1.3.8.8 dodecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00571 * +EC1.3.8.8 dodecanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC1.3.8.8 electron-transfer flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.3.8.8 electron-transfer flavoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC1.3.8.8 electron-transfer flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.009 * +EC1.3.8.8 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC1.3.8.8 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.55 * +EC1.3.8.8 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC1.3.8.8 hexanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0063 * +EC1.3.8.8 octanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC1.3.8.8 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00471 * +EC1.3.8.8 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.123 * +EC1.3.8.8 octanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC1.3.8.8 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC1.3.8.8 omega-phenyldecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00064 * +EC1.3.8.8 omega-phenyldodecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00164 * +EC1.3.8.8 palmitoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.3.8.8 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00087 * +EC1.3.8.8 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.3.8.8 palmitoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0036 * +EC1.3.8.8 phenazine methosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC1.3.8.8 stearoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.29 * +EC1.3.8.8 stearoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.3.8.8 stearoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC1.3.8.8 stearoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0037 * +EC1.3.8.8 tetradecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.38 * +EC1.3.8.8 tetradecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.3.8.8 tetradecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0074 * +EC1.3.8.8 tetradecanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC1.3.98.1 (s)-dihydroorotate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.00856 * +EC1.3.98.1 2,3-dimethoxy-5-methyl-6-(3-methyl-2-butenyl)-1,4-benzoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0131 * +EC1.3.98.1 2,6-dichloroindophenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.115 * +EC1.3.98.1 coq plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.016 * +EC1.3.98.1 dihydroorotate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0192 * +EC1.3.98.1 dihydroorotate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0442 * +EC1.3.98.1 dihydroorotate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0243 * +EC1.3.98.1 ferricyanide crithidia fasciculata//*//* 0.001 * +EC1.3.98.1 ferricyanide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.344 * +EC1.3.98.1 fumarate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0718 * +EC1.3.98.1 fumarate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.08 * +EC1.3.98.1 fumarate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.03 * +EC1.3.98.1 l-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.091 * +EC1.3.98.1 l-dihydroorotate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC1.3.98.1 l-dihydroorotate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0086 * +EC1.3.98.1 s-dihydroorotate crithidia fasciculata//*//* 0.001 * +EC1.3.98.1 s-dihydroorotate lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.5 * +EC1.3.98.1 s-dihydroorotate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC1.3.98.1 s-dihydroorotate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.014 * +EC1.3.98.3 2-deoxy-scyllo-inosamine bacillus circulans//*//* 0.022 * +EC1.3.98.3 coproporphyrinogen iii vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.0052 * +EC1.3.98.3 s-adenosyl-l-methionine bacillus circulans//*//* 0.31 * +EC1.3.98.3 s-adenosyl-l-methionine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.42 * +EC1.3.99.12 (s)-2-methylbutanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.3.99.12 (s)-2-methylbutanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC1.3.99.12 2-methylbutyryl-coa ascaris suum//*//* 0.018 * +EC1.3.99.12 2-methylbutyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.3.99.12 2-methylvaleryl-coa ascaris suum//*//* 0.021 * +EC1.3.99.12 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00051 * +EC1.3.99.12 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.3.99.12 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.044 * +EC1.3.99.12 isobutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.3.99.12 isobutyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.089 * +EC1.3.99.12 phenazine methosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.48 * +EC1.3.99.16 2-(4-iodophenyl)-3-(4-nitrophenyl)-5-phenyl-tetrazolium chloride brevundimonas diminuta//*//* 1.34 * +EC1.3.99.16 isoquinoline brevundimonas diminuta//*//* 0.016 * +EC1.3.99.17 2-(4-iodophenyl)-3-(4-nitrophenyl)-5-phenyl-2h-tetrazolium chloride pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.08 * +EC1.3.99.17 quinoline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.12 * +EC1.3.99.17 quinoline rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.0025 * +EC1.3.99.18 2-(4-iodophenyl)-3-nitrophenyl-5-phenyltetrazolium chloride pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC1.3.99.18 2-(4-iodophenyl)-3-nitrophenyl-5-phenyltetrazolium chloride serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.085 * +EC1.3.99.18 quinaldate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.023 * +EC1.3.99.18 quinaldate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1.45 * +EC1.3.99.19 2-(4-iodophenyl)-3-nitrophenyl-5-phenyltetrazolium chloride agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 8e-05 * +EC1.3.99.19 quinoline-4-carboxylate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.0093 * +EC1.3.99.24 2-amino-2-deoxyisochorismate streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.056 * +EC1.3.99.24 fmn streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.0012 * +EC1.3.99.27 1,1'-dihydroxyneurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.019 * +EC1.3.99.27 1-hydroxylycopene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.04 * +EC1.3.99.27 1-hydroxyneurosporene rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0134 * +EC1.3.99.27 1-hydroxyneurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.025 * +EC1.3.99.28 15-cis-phytoene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0333 * +EC1.3.99.28 all-trans-zeta-carotene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0166 * +EC1.3.99.31 15-cis-phytoene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 14.8 * +EC1.3.99.31 all-trans-neurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 33.1 * +EC1.3.99.32 glutaryl-coa desulfococcus multivorans//prokaryotes;bacteria;deltaproteobacteria;desulfococcus//dml 0.052 * +EC1.3.99.33 urocanate shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.01 * +EC1.3.99.37 1,1'-dihydroxyneurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.019 * +EC1.3.99.37 1-hydroxy-neurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.025 * +EC1.3.99.37 1-hydroxylycopene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.04 * +EC1.3.99.4 11-deoxy-17alpha-hydroxycorticosterone gordonia rubripertincta//*//* 0.0064 * +EC1.3.99.4 11alpha-hydroxyprogesterone gordonia rubripertincta//*//* 0.0196 * +EC1.3.99.4 11beta-cortisol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.064 * +EC1.3.99.4 11beta-hydroxytestosterone gordonia rubripertincta//*//* 0.0063 * +EC1.3.99.4 19-nor-4-androstene-3,17-dione gordonia rubripertincta//*//* 0.0089 * +EC1.3.99.4 19-nortestosterone gordonia rubripertincta//*//* 0.0083 * +EC1.3.99.4 23,24-bis-nor-5alpha-cholestan-3-one acid rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.026 * +EC1.3.99.4 4-androstene-3,17-dione gordonia rubripertincta//*//* 0.021 * +EC1.3.99.4 4-androstene-3,17-dione pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 0.071 * +EC1.3.99.4 4-androstene-3,17-dione rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.005 * +EC1.3.99.4 5alpha-androstan-3-one-17beta-ol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.166 * +EC1.3.99.4 5alpha-androstan-3-one-17beta-ol rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.006 * +EC1.3.99.4 5alpha-androstane-3,17-dione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.033 * +EC1.3.99.4 5alpha-androstane-3,17-dione rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.013 * +EC1.3.99.4 5alpha-pregnane-3,20-dione rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.007 * +EC1.3.99.4 9alpha-hydroxy-4-androstene-3,17-dione rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.058 * +EC1.3.99.4 androstenedione rhodococcus rhodochrous//*//* 0.045 * +EC1.3.99.4 androsterone gordonia rubripertincta//*//* 0.0066 * +EC1.3.99.4 corticosterone gordonia rubripertincta//*//* 0.0204 * +EC1.3.99.4 cortisone gordonia rubripertincta//*//* 0.0256 * +EC1.3.99.4 fad rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 7.5e-05 * +EC1.3.99.4 hydrocorticosterone gordonia rubripertincta//*//* 0.0385 * +EC1.3.99.4 progesterone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.065 * +EC1.3.99.4 progesterone rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.003 * +EC1.3.99.4 testololactone gordonia rubripertincta//*//* 0.0143 * +EC1.3.99.6 4-pregnen-3,20-dione clostridium innocuum//*//* 0.042 * +EC1.3.99.8 2-furoyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC1.3.99.B2 citronellyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0016 * +EC1.3.99.B2 octanoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.13 * +EC1.4.1.1 2-oxo-3-methylbutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 11.0 * +EC1.4.1.1 2-oxobutanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 23.0 * +EC1.4.1.1 2-oxobutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 11.0 * +EC1.4.1.1 2-oxobutanoate streptomyces fradiae//*//* 2.4 * +EC1.4.1.1 2-oxobutyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.48 * +EC1.4.1.1 2-oxohexanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.0 * +EC1.4.1.1 2-oxopentanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 33.0 * +EC1.4.1.1 2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 23.0 * +EC1.4.1.1 3-fluoropyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.61 * +EC1.4.1.1 3-hydroxypyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 80.0 * +EC1.4.1.1 3-methyl-2-oxobutanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 12.0 * +EC1.4.1.1 4-methyl-2-oxopentanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 45.0 * +EC1.4.1.1 glyoxalate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 16.0 * +EC1.4.1.1 glyoxylate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 12.0 * +EC1.4.1.1 hydroxypyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.5 * +EC1.4.1.1 l-2-aminobutanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 176.0 * +EC1.4.1.1 l-2-aminobutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.33 * +EC1.4.1.1 l-2-aminobutyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.085 * +EC1.4.1.1 l-ala anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 0.4 * +EC1.4.1.1 l-ala archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.71 * +EC1.4.1.1 l-ala bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 11.3 * +EC1.4.1.1 l-ala bacillus japonicum//*//* 1.0 * +EC1.4.1.1 l-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.63 * +EC1.4.1.1 l-ala bilophila wadsworthia//*//* 1.6 * +EC1.4.1.1 l-ala carnobacterium sp.//prokaryotes;bacteria;firmicutes - bacilli;carnobacterium//crn 3.8 * +EC1.4.1.1 l-ala halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 5.3 * +EC1.4.1.1 l-ala kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 5.0 * +EC1.4.1.1 l-ala klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.47 * +EC1.4.1.1 l-ala lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.018 * +EC1.4.1.1 l-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 13.8 * +EC1.4.1.1 l-ala phormidium lapideum//*//* 5.0 * +EC1.4.1.1 l-ala rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.37 * +EC1.4.1.1 l-ala rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.45 * +EC1.4.1.1 l-ala shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2.0 * +EC1.4.1.1 l-ala streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 9.1 * +EC1.4.1.1 l-ala streptomyces fradiae//*//* 10.0 * +EC1.4.1.1 l-ala streptomyces phaeochromogenes//*//* 1.9 * +EC1.4.1.1 l-ala thermus caldophilus//*//* 2.6 * +EC1.4.1.1 l-ala thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.18 * +EC1.4.1.1 l-ala vibrio proteolyticus//*//* 30.0 * +EC1.4.1.1 l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 13.3 * +EC1.4.1.1 l-alanine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 10.5 * +EC1.4.1.1 l-alanine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.25 * +EC1.4.1.1 l-alanine thielaviopsis paradoxa//*//* 1.35 * +EC1.4.1.1 l-ile bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 250.0 * +EC1.4.1.1 l-norvaline bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 62.0 * +EC1.4.1.1 l-norvaline lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.014 * +EC1.4.1.1 l-ser bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 57.0 * +EC1.4.1.1 l-ser lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.039 * +EC1.4.1.1 l-val bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 150.0 * +EC1.4.1.1 l-val lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.02 * +EC1.4.1.1 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.6 * +EC1.4.1.1 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.18 * +EC1.4.1.1 nad+ bacillus japonicum//*//* 0.2 * +EC1.4.1.1 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.18 * +EC1.4.1.1 nad+ bilophila wadsworthia//*//* 0.15 * +EC1.4.1.1 nad+ carnobacterium sp.//prokaryotes;bacteria;firmicutes - bacilli;carnobacterium//crn 0.2 * +EC1.4.1.1 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.67 * +EC1.4.1.1 nad+ halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.5 * +EC1.4.1.1 nad+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.11 * +EC1.4.1.1 nad+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.16 * +EC1.4.1.1 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.26 * +EC1.4.1.1 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.31 * +EC1.4.1.1 nad+ phormidium lapideum//*//* 0.036 * +EC1.4.1.1 nad+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.14 * +EC1.4.1.1 nad+ shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.035 * +EC1.4.1.1 nad+ streptomyces fradiae//*//* 0.18 * +EC1.4.1.1 nad+ streptomyces phaeochromogenes//*//* 0.036 * +EC1.4.1.1 nad+ thermus caldophilus//*//* 1.8 * +EC1.4.1.1 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.12 * +EC1.4.1.1 nad+ thielaviopsis paradoxa//*//* 0.274 * +EC1.4.1.1 nad+ vibrio proteolyticus//*//* 0.18 * +EC1.4.1.1 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC1.4.1.1 nadh bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.037 * +EC1.4.1.1 nadh bacillus japonicum//*//* 0.086 * +EC1.4.1.1 nadh bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.017 * +EC1.4.1.1 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.023 * +EC1.4.1.1 nadh bilophila wadsworthia//*//* 0.04 * +EC1.4.1.1 nadh bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.044 * +EC1.4.1.1 nadh desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.055 * +EC1.4.1.1 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.077 * +EC1.4.1.1 nadh halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.031 * +EC1.4.1.1 nadh kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.029 * +EC1.4.1.1 nadh lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.01 * +EC1.4.1.1 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0982 * +EC1.4.1.1 nadh phormidium lapideum//*//* 0.02 * +EC1.4.1.1 nadh pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.059 * +EC1.4.1.1 nadh rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.022 * +EC1.4.1.1 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.067 * +EC1.4.1.1 nadh shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.04 * +EC1.4.1.1 nadh streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.14 * +EC1.4.1.1 nadh streptomyces fradiae//*//* 0.05 * +EC1.4.1.1 nadh streptomyces phaeochromogenes//*//* 0.047 * +EC1.4.1.1 nadh thermus caldophilus//*//* 50.0 * +EC1.4.1.1 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.035 * +EC1.4.1.1 nadh thielaviopsis paradoxa//*//* 0.197 * +EC1.4.1.1 nadh vibrio proteolyticus//*//* 0.09 * +EC1.4.1.1 nadp+ shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 4.0 * +EC1.4.1.1 nh3 lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 28.2 * +EC1.4.1.1 nh3 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 59.0 * +EC1.4.1.1 nh3 thielaviopsis paradoxa//*//* 3.0 * +EC1.4.1.1 nh3 vibrio proteolyticus//*//* 110.0 * +EC1.4.1.1 nh4+ anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 8.0 * +EC1.4.1.1 nh4+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 17.3 * +EC1.4.1.1 nh4+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 22.0 * +EC1.4.1.1 nh4+ bacillus japonicum//*//* 8.9 * +EC1.4.1.1 nh4+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 235.0 * +EC1.4.1.1 nh4+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 38.0 * +EC1.4.1.1 nh4+ bilophila wadsworthia//*//* 31.0 * +EC1.4.1.1 nh4+ desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 24.0 * +EC1.4.1.1 nh4+ halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.82 * +EC1.4.1.1 nh4+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 6.67 * +EC1.4.1.1 nh4+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 66.7 * +EC1.4.1.1 nh4+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 38.0 * +EC1.4.1.1 nh4+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 35.4 * +EC1.4.1.1 nh4+ phormidium lapideum//*//* 111.0 * +EC1.4.1.1 nh4+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 26.0 * +EC1.4.1.1 nh4+ rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 5.5 * +EC1.4.1.1 nh4+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 16.0 * +EC1.4.1.1 nh4+ shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 25.0 * +EC1.4.1.1 nh4+ streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 20.0 * +EC1.4.1.1 nh4+ streptomyces fradiae//*//* 11.6 * +EC1.4.1.1 nh4+ streptomyces phaeochromogenes//*//* 61.0 * +EC1.4.1.1 nh4+ thermus caldophilus//*//* 39.4 * +EC1.4.1.1 oxaloacetate anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 3.0 * +EC1.4.1.1 oxaloacetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.97 * +EC1.4.1.1 oxaloacetate streptomyces fradiae//*//* 2.5 * +EC1.4.1.1 pyruvate anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 0.11 * +EC1.4.1.1 pyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.16 * +EC1.4.1.1 pyruvate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.48 * +EC1.4.1.1 pyruvate bacillus japonicum//*//* 0.49 * +EC1.4.1.1 pyruvate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0512 * +EC1.4.1.1 pyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.53 * +EC1.4.1.1 pyruvate bilophila wadsworthia//*//* 1.1 * +EC1.4.1.1 pyruvate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.68 * +EC1.4.1.1 pyruvate desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 5.0 * +EC1.4.1.1 pyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.0 * +EC1.4.1.1 pyruvate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.8 * +EC1.4.1.1 pyruvate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.56 * +EC1.4.1.1 pyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.22 * +EC1.4.1.1 pyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.5 * +EC1.4.1.1 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.76 * +EC1.4.1.1 pyruvate phormidium lapideum//*//* 0.33 * +EC1.4.1.1 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.3 * +EC1.4.1.1 pyruvate rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.43 * +EC1.4.1.1 pyruvate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.13 * +EC1.4.1.1 pyruvate shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.39 * +EC1.4.1.1 pyruvate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.5 * +EC1.4.1.1 pyruvate streptomyces fradiae//*//* 0.23 * +EC1.4.1.1 pyruvate streptomyces phaeochromogenes//*//* 0.29 * +EC1.4.1.1 pyruvate thermus caldophilus//*//* 0.2 * +EC1.4.1.1 pyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.75 * +EC1.4.1.1 pyruvate thielaviopsis paradoxa//*//* 8.16 * +EC1.4.1.1 pyruvate vibrio proteolyticus//*//* 0.61 * +EC1.4.1.10 glyoxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.22 * +EC1.4.1.10 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0087 * +EC1.4.1.10 nh3 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 120.0 * +EC1.4.1.11 5-amino-3-oxohexanoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.26 * +EC1.4.1.11 l-erythro-3,5-diaminohexanoate brevibacterium l5//*//* 0.75 * +EC1.4.1.11 l-erythro-3,5-diaminohexanoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.18 * +EC1.4.1.11 nad+ clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.13 * +EC1.4.1.11 nadh clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.074 * +EC1.4.1.11 nh4+ clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 140.0 * +EC1.4.1.12 2,4-diaminopentanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 1.2 * +EC1.4.1.12 2,5-diaminohexanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 2.5 * +EC1.4.1.12 nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.6 * +EC1.4.1.12 nadp+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.11 * +EC1.4.1.13 2-oxoglutarate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.029 * +EC1.4.1.13 2-oxoglutarate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.009 * +EC1.4.1.13 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC1.4.1.13 2-oxoglutarate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.015 * +EC1.4.1.13 2-oxoglutarate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.0 * +EC1.4.1.13 2-oxoglutarate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.01 * +EC1.4.1.13 acetylpyridine-nadph azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.017 * +EC1.4.1.13 alpha-ketoglutarate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.053 * +EC1.4.1.13 alpha-ketoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.007 * +EC1.4.1.13 alpha-ketoglutarate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.06 * +EC1.4.1.13 alpha-ketoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0047 * +EC1.4.1.13 alpha-ketoglutarate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0086 * +EC1.4.1.13 alpha-ketoglutarate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.3 * +EC1.4.1.13 alpha-ketoglutarate sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.35 * +EC1.4.1.13 alpha-ketoglutarate thiobacillus thioparus//*//* 0.05 * +EC1.4.1.13 ferricyanide azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.14 * +EC1.4.1.13 iodonitrotetrazolium azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.05 * +EC1.4.1.13 l-glutamine amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.077 * +EC1.4.1.13 l-glutamine azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.23 * +EC1.4.1.13 l-glutamine bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.2 * +EC1.4.1.13 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.102 * +EC1.4.1.13 l-glutamine brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.24 * +EC1.4.1.13 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC1.4.1.13 l-glutamine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.029 * +EC1.4.1.13 l-glutamine gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.59 * +EC1.4.1.13 l-glutamine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.3 * +EC1.4.1.13 l-glutamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.7 * +EC1.4.1.13 l-glutamine rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.065 * +EC1.4.1.13 l-glutamine sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 2.6 * +EC1.4.1.13 l-glutamine thiobacillus thioparus//*//* 1.1 * +EC1.4.1.13 menadione azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.035 * +EC1.4.1.13 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.091 * +EC1.4.1.13 nadph amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.11 * +EC1.4.1.13 nadph azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.0035 * +EC1.4.1.13 nadph bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.013 * +EC1.4.1.13 nadph bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0071 * +EC1.4.1.13 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.006 * +EC1.4.1.13 nadph brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.06 * +EC1.4.1.13 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC1.4.1.13 nadph geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.022 * +EC1.4.1.13 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.014 * +EC1.4.1.13 nadph klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.012 * +EC1.4.1.13 nadph pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.042 * +EC1.4.1.13 nadph rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.015 * +EC1.4.1.13 nadph sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.035 * +EC1.4.1.13 nadph thiobacillus thioparus//*//* 0.003 * +EC1.4.1.13 nh4cl bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 22.0 * +EC1.4.1.13 nh4cl geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 44.0 * +EC1.4.1.13 nh4cl klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.5 * +EC1.4.1.13 thio-nadph azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.01 * +EC1.4.1.14 2-oxoglutarate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 0.0014 * +EC1.4.1.14 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.007 * +EC1.4.1.14 2-oxoglutarate chlorobium vibrioforme f. thiosulfatophilum//*//* 0.27 * +EC1.4.1.14 2-oxoglutarate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.17 * +EC1.4.1.14 2-oxoglutarate derxia gummosa//*//* 0.024 * +EC1.4.1.14 2-oxoglutarate euglena gracilis//*//* 0.015 * +EC1.4.1.14 2-oxoglutarate lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.006 * +EC1.4.1.14 2-oxoglutarate medicago sativa//*//* 0.033 * +EC1.4.1.14 2-oxoglutarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.076 * +EC1.4.1.14 2-oxoglutarate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.022 * +EC1.4.1.14 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC1.4.1.14 3-acetylpyridine adenine dinucleotide lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.003 * +EC1.4.1.14 l-glutamate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 0.001 * +EC1.4.1.14 l-glutamine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.6 * +EC1.4.1.14 l-glutamine chlorobium vibrioforme f. thiosulfatophilum//*//* 0.769 * +EC1.4.1.14 l-glutamine clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.16 * +EC1.4.1.14 l-glutamine derxia gummosa//*//* 0.27 * +EC1.4.1.14 l-glutamine euglena gracilis//*//* 0.3 * +EC1.4.1.14 l-glutamine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.125 * +EC1.4.1.14 l-glutamine medicago sativa//*//* 0.466 * +EC1.4.1.14 l-glutamine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.811 * +EC1.4.1.14 l-glutamine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.24 * +EC1.4.1.14 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.28 * +EC1.4.1.14 nadh chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0076 * +EC1.4.1.14 nadh chlorobium vibrioforme f. thiosulfatophilum//*//* 0.013 * +EC1.4.1.14 nadh clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.11 * +EC1.4.1.14 nadh derxia gummosa//*//* 0.0096 * +EC1.4.1.14 nadh euglena gracilis//*//* 0.02 * +EC1.4.1.14 nadh lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.00124 * +EC1.4.1.14 nadh medicago sativa//*//* 0.0042 * +EC1.4.1.14 nadh oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.003 * +EC1.4.1.14 nadh phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0052 * +EC1.4.1.14 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0026 * +EC1.4.1.15 3-acetylpyridine-nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.13 * +EC1.4.1.15 deamino-nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.85 * +EC1.4.1.15 nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.06 * +EC1.4.1.16 l-2-amino-6-oxopimelate brevibacterium sp.//*//* 0.21 * +EC1.4.1.16 l-2-amino-6-oxopimelate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.28 * +EC1.4.1.16 l-2-amino-6-oxopimelate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.24 * +EC1.4.1.16 meso-2,6-diaminopimelate brevibacterium sp.//*//* 6.25 * +EC1.4.1.16 meso-2,6-diaminopimelate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 2.5 * +EC1.4.1.16 meso-diaminopimelate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.1 * +EC1.4.1.16 nad+ brevibacterium sp.//*//* 2.0 * +EC1.4.1.16 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.0 * +EC1.4.1.16 nadp+ brevibacterium sp.//*//* 0.083 * +EC1.4.1.16 nadp+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.083 * +EC1.4.1.16 nadp+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.00083 * +EC1.4.1.16 nadph brevibacterium sp.//*//* 0.23 * +EC1.4.1.16 nadph corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.13 * +EC1.4.1.16 nadph lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.2 * +EC1.4.1.16 nh3 brevibacterium sp.//*//* 62.5 * +EC1.4.1.16 nh3 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 36.0 * +EC1.4.1.16 nh3 lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 12.5 * +EC1.4.1.17 methylamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 75.0 * +EC1.4.1.17 nadph pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.035 * +EC1.4.1.17 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 15.0 * +EC1.4.1.18 3-acetylpyridine-nad+ achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 1.32 * +EC1.4.1.18 3-acetylpyridine-nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.13 * +EC1.4.1.18 deamino-nad+ achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.11 * +EC1.4.1.18 deamino-nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.85 * +EC1.4.1.18 l-lysine achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 5.0 * +EC1.4.1.18 l-lysine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.5 * +EC1.4.1.18 l-lysine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.73 * +EC1.4.1.18 nad+ achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.09 * +EC1.4.1.18 nad+ agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.059 * +EC1.4.1.18 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.088 * +EC1.4.1.18 nadp+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.48 * +EC1.4.1.18 nicotinamide guanine dinucleotide achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.37 * +EC1.4.1.19 nadh nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.36 * +EC1.4.1.2 2-oxoglutarate achlya sp.//*//* 3.3 * +EC1.4.1.2 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.65 * +EC1.4.1.2 2-oxoglutarate blastocladiella emersonii//*//* 0.56 * +EC1.4.1.2 2-oxoglutarate clostridium symbiosum//*//* 0.125 * +EC1.4.1.2 2-oxoglutarate cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 3.3 * +EC1.4.1.2 2-oxoglutarate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.75 * +EC1.4.1.2 2-oxoglutarate entodinium caudatum//*//* 0.71 * +EC1.4.1.2 2-oxoglutarate laccaria bicolor//eukaryotes;fungi;basidiomycetes//lbc 1.35 * +EC1.4.1.2 2-oxoglutarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.6 * +EC1.4.1.2 2-oxoglutarate peptoniphilus asaccharolyticus//*//* 0.103 * +EC1.4.1.2 2-oxoglutarate pinus sylvestris//*//* 1.7 * +EC1.4.1.2 2-oxoglutarate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 2.36 * +EC1.4.1.2 2-oxoglutarate pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.066 * +EC1.4.1.2 2-oxoglutarate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.2 * +EC1.4.1.2 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00111 * +EC1.4.1.2 2-oxoglutarate salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 5.6 * +EC1.4.1.2 2-oxoglutarate streptomyces fradiae//*//* 3.4 * +EC1.4.1.2 glutamate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 7.4 * +EC1.4.1.2 glutamate peptoniphilus asaccharolyticus//*//* 5.82 * +EC1.4.1.2 l-glutamate achlya sp.//*//* 3.1 * +EC1.4.1.2 l-glutamate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 37.1 * +EC1.4.1.2 l-glutamate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 25.0 * +EC1.4.1.2 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.34 * +EC1.4.1.2 l-glutamate blastocladiella emersonii//*//* 1.4 * +EC1.4.1.2 l-glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.39 * +EC1.4.1.2 l-glutamate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 4.3 * +EC1.4.1.2 l-glutamate clostridium symbiosum//*//* 1.39 * +EC1.4.1.2 l-glutamate entodinium caudatum//*//* 98.0 * +EC1.4.1.2 l-glutamate janthinobacterium lividum//*//* 7.1 * +EC1.4.1.2 l-glutamate laccaria bicolor//eukaryotes;fungi;basidiomycetes//lbc 0.24 * +EC1.4.1.2 l-glutamate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 5.5 * +EC1.4.1.2 l-glutamate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 28.6 * +EC1.4.1.2 l-glutamate pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.17 * +EC1.4.1.2 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00299 * +EC1.4.1.2 l-glutamate streptomyces fradiae//*//* 32.2 * +EC1.4.1.2 l-glutamate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 49.0 * +EC1.4.1.2 nad+ achlya sp.//*//* 0.61 * +EC1.4.1.2 nad+ agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.046 * +EC1.4.1.2 nad+ alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.35 * +EC1.4.1.2 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.56 * +EC1.4.1.2 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.08 * +EC1.4.1.2 nad+ blastocladiella emersonii//*//* 0.4 * +EC1.4.1.2 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC1.4.1.2 nad+ clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.8 * +EC1.4.1.2 nad+ clostridium symbiosum//*//* 0.125 * +EC1.4.1.2 nad+ janthinobacterium lividum//*//* 2.1 * +EC1.4.1.2 nad+ laccaria bicolor//eukaryotes;fungi;basidiomycetes//lbc 0.28 * +EC1.4.1.2 nad+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.33 * +EC1.4.1.2 nad+ peptoniphilus asaccharolyticus//*//* 0.345 * +EC1.4.1.2 nad+ psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 0.5 * +EC1.4.1.2 nad+ pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.019 * +EC1.4.1.2 nad+ streptomyces fradiae//*//* 0.3 * +EC1.4.1.2 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.27 * +EC1.4.1.2 nadh achlya sp.//*//* 0.055 * +EC1.4.1.2 nadh agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.06 * +EC1.4.1.2 nadh alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.07 * +EC1.4.1.2 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.07 * +EC1.4.1.2 nadh blastocladiella emersonii//*//* 0.033 * +EC1.4.1.2 nadh clostridium symbiosum//*//* 0.0108 * +EC1.4.1.2 nadh dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.037 * +EC1.4.1.2 nadh laccaria bicolor//eukaryotes;fungi;basidiomycetes//lbc 0.089 * +EC1.4.1.2 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.55 * +EC1.4.1.2 nadh peptoniphilus asaccharolyticus//*//* 0.0044 * +EC1.4.1.2 nadh pinus sylvestris//*//* 42.5 * +EC1.4.1.2 nadh pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.005 * +EC1.4.1.2 nadh pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.14 * +EC1.4.1.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03609 * +EC1.4.1.2 nadh salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 0.19 * +EC1.4.1.2 nadh streptomyces fradiae//*//* 0.05 * +EC1.4.1.2 nadp+ clostridium symbiosum//*//* 0.163 * +EC1.4.1.2 nadp+ peptoniphilus asaccharolyticus//*//* 3.7 * +EC1.4.1.2 nadph clostridium symbiosum//*//* 0.51 * +EC1.4.1.2 nadph peptoniphilus asaccharolyticus//*//* 1.64 * +EC1.4.1.2 nadph pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.065 * +EC1.4.1.2 nh3 psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 24.6 * +EC1.4.1.2 nh3 salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 300.0 * +EC1.4.1.2 nh4+ achlya sp.//*//* 26.0 * +EC1.4.1.2 nh4+ agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 6.5 * +EC1.4.1.2 nh4+ alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 60.0 * +EC1.4.1.2 nh4+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.033 * +EC1.4.1.2 nh4+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 55.6 * +EC1.4.1.2 nh4+ blastocladiella emersonii//*//* 40.0 * +EC1.4.1.2 nh4+ clostridium symbiosum//*//* 12.9 * +EC1.4.1.2 nh4+ cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 33.3 * +EC1.4.1.2 nh4+ dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 22.8 * +EC1.4.1.2 nh4+ entodinium caudatum//*//* 2.33 * +EC1.4.1.2 nh4+ laccaria bicolor//eukaryotes;fungi;basidiomycetes//lbc 37.0 * +EC1.4.1.2 nh4+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 17.0 * +EC1.4.1.2 nh4+ peptoniphilus asaccharolyticus//*//* 144.0 * +EC1.4.1.2 nh4+ pinus sylvestris//*//* 19.0 * +EC1.4.1.2 nh4+ psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 24.6 * +EC1.4.1.2 nh4+ pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 9.7 * +EC1.4.1.2 nh4+ pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.98 * +EC1.4.1.2 nh4+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00528 * +EC1.4.1.2 nh4+ streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 33.0 * +EC1.4.1.2 nh4+ streptomyces fradiae//*//* 14.2 * +EC1.4.1.20 2-oxo-4-methyl-thiobutanoate thermoactinomyces intermedius//*//* 2.8 * +EC1.4.1.20 2-oxo-4-methylpentanoate thermoactinomyces intermedius//*//* 13.0 * +EC1.4.1.20 2-oxo-4-methylthiobutanoate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.1 * +EC1.4.1.20 2-oxohexanoate sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 2.44 * +EC1.4.1.20 2-oxohexanoate thermoactinomyces intermedius//*//* 2.5 * +EC1.4.1.20 2-oxoisohexanoate thermoactinomyces intermedius//*//* 9.1 * +EC1.4.1.20 2-oxopentanoate thermoactinomyces intermedius//*//* 35.0 * +EC1.4.1.20 3-acetylpyridine-nad+ dietzia maris//*//* 0.25 * +EC1.4.1.20 3-acetylpyridine-nad+ rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 110.0 * +EC1.4.1.20 3-pyridinealdehyde-nad+ rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 50.0 * +EC1.4.1.20 4-hydroxyphenylpyruvate brevibacterium sp.//*//* 0.24 * +EC1.4.1.20 4-hydroxyphenylpyruvate dietzia maris//*//* 1.3 * +EC1.4.1.20 alpha-keto-gamma-methiobutyrate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 11.0 * +EC1.4.1.20 alpha-ketocaproate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 13.0 * +EC1.4.1.20 alpha-ketoisocaproate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 20.0 * +EC1.4.1.20 alpha-ketovalerate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 52.0 * +EC1.4.1.20 deamino-nad+ dietzia maris//*//* 0.18 * +EC1.4.1.20 dl-alpha-keto-beta-methyl-n-valerate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 13.0 * +EC1.4.1.20 dl-propargylglycine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 2.0 * +EC1.4.1.20 indolepyruvate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 7.7 * +EC1.4.1.20 indolylpyruvate brevibacterium sp.//*//* 8.0 * +EC1.4.1.20 l-ethionine thermoactinomyces intermedius//*//* 0.27 * +EC1.4.1.20 l-ile thermoactinomyces intermedius//*//* 0.09 * +EC1.4.1.20 l-isoleucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.14 * +EC1.4.1.20 l-leu thermoactinomyces intermedius//*//* 0.06 * +EC1.4.1.20 l-leucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.55 * +EC1.4.1.20 l-met brevibacterium sp.//*//* 3.5 * +EC1.4.1.20 l-met microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 1.6 * +EC1.4.1.20 l-met rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.43 * +EC1.4.1.20 l-met thermoactinomyces intermedius//*//* 0.34 * +EC1.4.1.20 l-methionine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 2.7 * +EC1.4.1.20 l-norleucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.79 * +EC1.4.1.20 l-norleucine microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 1.54 * +EC1.4.1.20 l-norvaline lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 3.3 * +EC1.4.1.20 l-norvaline thermoactinomyces intermedius//*//* 0.53 * +EC1.4.1.20 l-phe bacillus badius//*//* 0.164 * +EC1.4.1.20 l-phe brevibacterium sp.//*//* 0.4 * +EC1.4.1.20 l-phe lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.21 * +EC1.4.1.20 l-phe microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.1 * +EC1.4.1.20 l-phe nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.75 * +EC1.4.1.20 l-phe rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.75 * +EC1.4.1.20 l-phe thermoactinomyces intermedius//*//* 0.1 * +EC1.4.1.20 l-phenylalanine bacillus badius//*//* 0.087 * +EC1.4.1.20 l-phenylalanine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.018 * +EC1.4.1.20 l-phenylalanine sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 0.038 * +EC1.4.1.20 l-trp rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 11.0 * +EC1.4.1.20 l-tyr brevibacterium sp.//*//* 1.1 * +EC1.4.1.20 l-tyr rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 3.1 * +EC1.4.1.20 l-tyrosine bacillus badius//*//* 8.6 * +EC1.4.1.20 l-tyrosine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.48 * +EC1.4.1.20 l-valine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 2.0 * +EC1.4.1.20 nad+ bacillus badius//*//* 0.13 * +EC1.4.1.20 nad+ brevibacterium sp.//*//* 0.125 * +EC1.4.1.20 nad+ dietzia maris//*//* 0.25 * +EC1.4.1.20 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.13 * +EC1.4.1.20 nad+ microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.2 * +EC1.4.1.20 nad+ nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.23 * +EC1.4.1.20 nad+ rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.27 * +EC1.4.1.20 nad+ sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 0.128 * +EC1.4.1.20 nad+ thermoactinomyces intermedius//*//* 0.17 * +EC1.4.1.20 nadh brevibacterium sp.//*//* 0.047 * +EC1.4.1.20 nadh lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.025 * +EC1.4.1.20 nadh microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.07 * +EC1.4.1.20 nadh rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.13 * +EC1.4.1.20 nadh sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 0.072 * +EC1.4.1.20 nadh thermoactinomyces intermedius//*//* 0.083 * +EC1.4.1.20 nh3 lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 78.0 * +EC1.4.1.20 nh3 microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 85.0 * +EC1.4.1.20 nh3 nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 96.0 * +EC1.4.1.20 nh3 sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 85.0 * +EC1.4.1.20 nh4+ rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 387.0 * +EC1.4.1.20 norleucine thermoactinomyces intermedius//*//* 0.22 * +EC1.4.1.20 oxidized beta-nicotinamide guanine dinucleotide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 170.0 * +EC1.4.1.20 oxidized beta-nicotinamide hypoxanthine dinucleotide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 40.0 * +EC1.4.1.20 p-hydroxy-phenylpyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.19 * +EC1.4.1.20 p-hydroxyphenylpyruvate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.4 * +EC1.4.1.20 p-hydroxyphenylpyruvate sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 0.34 * +EC1.4.1.20 phenylpyruvate brevibacterium sp.//*//* 0.11 * +EC1.4.1.20 phenylpyruvate dietzia maris//*//* 0.5 * +EC1.4.1.20 phenylpyruvate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.37 * +EC1.4.1.20 phenylpyruvate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.3 * +EC1.4.1.20 phenylpyruvate nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.06 * +EC1.4.1.20 phenylpyruvate rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.16 * +EC1.4.1.20 phenylpyruvate sporosarcina ureae//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//sure 0.16 * +EC1.4.1.20 phenylpyruvate thermoactinomyces intermedius//*//* 0.06 * +EC1.4.1.20 thionad+ rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 60.0 * +EC1.4.1.20 thionicotinamide-nad+ dietzia maris//*//* 0.18 * +EC1.4.1.21 l-asp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.067 * +EC1.4.1.21 l-aspartate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.19 * +EC1.4.1.21 l-aspartate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.19 * +EC1.4.1.21 l-aspartate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.74 * +EC1.4.1.21 l-aspartate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.067 * +EC1.4.1.21 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC1.4.1.21 nad+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.11 * +EC1.4.1.21 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.47 * +EC1.4.1.21 nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.25 * +EC1.4.1.21 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.014 * +EC1.4.1.21 nadh cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.014 * +EC1.4.1.21 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.045 * +EC1.4.1.21 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.32 * +EC1.4.1.21 nadp+ cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.32 * +EC1.4.1.21 nadp+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.47 * +EC1.4.1.21 nadp+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.72 * +EC1.4.1.21 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.052 * +EC1.4.1.21 nh3 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 14.9 * +EC1.4.1.21 nh3 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 167.0 * +EC1.4.1.21 nh3 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.1 * +EC1.4.1.21 nh4+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 167.0 * +EC1.4.1.21 oxaloacetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.2 * +EC1.4.1.21 oxaloacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 1.2 * +EC1.4.1.21 oxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.12 * +EC1.4.1.23 2-oxobutanoate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.2 * +EC1.4.1.23 2-oxobutanoate streptomyces cinnamonensis//*//* 0.13 * +EC1.4.1.23 2-oxobutanoate streptomyces fradiae//*//* 1.0 * +EC1.4.1.23 2-oxohexanoate streptomyces cinnamonensis//*//* 0.81 * +EC1.4.1.23 2-oxohexanoate streptomyces fradiae//*//* 2.23 * +EC1.4.1.23 2-oxoisohexanoate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.42 * +EC1.4.1.23 2-oxoisohexanoate streptomyces cinnamonensis//*//* 0.5 * +EC1.4.1.23 2-oxoisohexanoate streptomyces fradiae//*//* 0.82 * +EC1.4.1.23 2-oxoisovalerate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.46 * +EC1.4.1.23 2-oxoisovalerate streptomyces cinnamonensis//*//* 0.81 * +EC1.4.1.23 2-oxoisovalerate streptomyces fradiae//*//* 0.31 * +EC1.4.1.23 2-oxovalerate streptomyces cinnamonensis//*//* 0.48 * +EC1.4.1.23 2-oxovalerate streptomyces fradiae//*//* 1.94 * +EC1.4.1.23 3-methyl-2-oxopentanoate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.06 * +EC1.4.1.23 3-methyl-2-oxopentanoate streptomyces fradiae//*//* 3.33 * +EC1.4.1.23 l-2-aminobutanoate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 4.35 * +EC1.4.1.23 l-2-aminobutanoate streptomyces cinnamonensis//*//* 19.6 * +EC1.4.1.23 l-2-aminobutanoate streptomyces fradiae//*//* 3.07 * +EC1.4.1.23 l-alanine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 333.0 * +EC1.4.1.23 l-alanine streptomyces fradiae//*//* 28.2 * +EC1.4.1.23 l-isoleucine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.72 * +EC1.4.1.23 l-isoleucine streptomyces cinnamonensis//*//* 10.8 * +EC1.4.1.23 l-isoleucine streptomyces fradiae//*//* 1.18 * +EC1.4.1.23 l-leucine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.85 * +EC1.4.1.23 l-leucine streptomyces cinnamonensis//*//* 4.0 * +EC1.4.1.23 l-leucine streptomyces fradiae//*//* 0.67 * +EC1.4.1.23 l-norleucine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 15.6 * +EC1.4.1.23 l-norleucine streptomyces cinnamonensis//*//* 30.0 * +EC1.4.1.23 l-norleucine streptomyces fradiae//*//* 6.68 * +EC1.4.1.23 l-norvaline kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.66 * +EC1.4.1.23 l-norvaline streptomyces cinnamonensis//*//* 3.2 * +EC1.4.1.23 l-norvaline streptomyces fradiae//*//* 1.33 * +EC1.4.1.23 l-valine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.75 * +EC1.4.1.23 l-valine streptomyces cinnamonensis//*//* 1.3 * +EC1.4.1.23 l-valine streptomyces fradiae//*//* 0.43 * +EC1.4.1.23 nad+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.023 * +EC1.4.1.23 nad+ streptomyces fradiae//*//* 0.04 * +EC1.4.1.23 nadh streptomyces fradiae//*//* 0.028 * +EC1.4.1.23 nh3 kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 18.2 * +EC1.4.1.23 nh4+ streptomyces fradiae//*//* 25.6 * +EC1.4.1.23 pyruvate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 15.3 * +EC1.4.1.23 pyruvate streptomyces cinnamonensis//*//* 12.3 * +EC1.4.1.23 pyruvate streptomyces fradiae//*//* 25.0 * +EC1.4.1.3 2-oxoglutarate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.25 * +EC1.4.1.3 2-oxoglutarate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.14 * +EC1.4.1.3 2-oxoglutarate bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.64 * +EC1.4.1.3 2-oxoglutarate bacteroides vulgatus//prokaryotes;bacteria;bacteroidetes;bacteroides//bvu 0.63 * +EC1.4.1.3 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC1.4.1.3 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.36 * +EC1.4.1.3 2-oxoglutarate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.62 * +EC1.4.1.3 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC1.4.1.3 2-oxoglutarate lemna minor//*//* 2.1 * +EC1.4.1.3 2-oxoglutarate parabacteroides distasonis//prokaryotes;bacteria;bacteroidetes;parabacteroides//pdi 0.7 * +EC1.4.1.3 2-oxoglutarate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.0 * +EC1.4.1.3 2-oxoglutarate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.53 * +EC1.4.1.3 2-oxoglutarate pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.25 * +EC1.4.1.3 2-oxoglutarate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.4 * +EC1.4.1.3 2-oxoglutarate salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 7.1 * +EC1.4.1.3 2-oxoglutarate sphagnum fallax//*//* 0.7 * +EC1.4.1.3 2-oxoglutarate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.2 * +EC1.4.1.3 2-oxoglutarate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.2 * +EC1.4.1.3 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.5 * +EC1.4.1.3 2-oxoglutarate urocitellus richardsonii//*//* 0.1 * +EC1.4.1.3 2-oxoglutarate xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 1.0 * +EC1.4.1.3 alpha-ketoglutarate pisum sativum//*//* 0.00294 * +EC1.4.1.3 glutamate lemna minor//*//* 12.0 * +EC1.4.1.3 glutamate pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.32 * +EC1.4.1.3 glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.61 * +EC1.4.1.3 glutamate sphagnum fallax//*//* 2.1 * +EC1.4.1.3 glutamate urocitellus richardsonii//*//* 0.25 * +EC1.4.1.3 l-glutamate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 10.0 * +EC1.4.1.3 l-glutamate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 2.4 * +EC1.4.1.3 l-glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC1.4.1.3 l-glutamate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.64 * +EC1.4.1.3 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.81 * +EC1.4.1.3 l-glutamate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.6 * +EC1.4.1.3 l-glutamate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.6 * +EC1.4.1.3 l-glutamate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.7 * +EC1.4.1.3 l-glutamate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.3 * +EC1.4.1.3 l-glutamate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.0 * +EC1.4.1.3 l-glutamate uncultured bacterium//*//* 0.3 * +EC1.4.1.3 l-glutamate xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.4 * +EC1.4.1.3 n6-(2-aminoethyl)-nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.291 * +EC1.4.1.3 n6-(2-aminoethyl)-nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.273 * +EC1.4.1.3 n6-(2-hydroxy-2-trimethylammoniumpropyl)-nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.148 * +EC1.4.1.3 n6-(3-sulfonatopropyl)-nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.052 * +EC1.4.1.3 nad+ bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.43 * +EC1.4.1.3 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC1.4.1.3 nad+ chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.2 * +EC1.4.1.3 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.59 * +EC1.4.1.3 nad+ lemna minor//*//* 0.46 * +EC1.4.1.3 nad+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.53 * +EC1.4.1.3 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.364 * +EC1.4.1.3 nad+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.016 * +EC1.4.1.3 nad+ sphagnum fallax//*//* 0.014 * +EC1.4.1.3 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.063 * +EC1.4.1.3 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.02 * +EC1.4.1.3 nad+ uncultured bacterium//*//* 0.4 * +EC1.4.1.3 nad+ xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.032 * +EC1.4.1.3 nadh azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.5 * +EC1.4.1.3 nadh bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.13 * +EC1.4.1.3 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.4.1.3 nadh chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.07 * +EC1.4.1.3 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.009 * +EC1.4.1.3 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.4.1.3 nadh lemna minor//*//* 0.11 * +EC1.4.1.3 nadh pisum sativum//*//* 0.000175 * +EC1.4.1.3 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.98 * +EC1.4.1.3 nadh pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.083 * +EC1.4.1.3 nadh pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.09 * +EC1.4.1.3 nadh rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.004 * +EC1.4.1.3 nadh salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 0.064 * +EC1.4.1.3 nadh sphagnum fallax//*//* 0.0083 * +EC1.4.1.3 nadh sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.007 * +EC1.4.1.3 nadh thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.04 * +EC1.4.1.3 nadh xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.015 * +EC1.4.1.3 nadp+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.004 * +EC1.4.1.3 nadp+ bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.013 * +EC1.4.1.3 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC1.4.1.3 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.18 * +EC1.4.1.3 nadp+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.025 * +EC1.4.1.3 nadp+ pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.08 * +EC1.4.1.3 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.443 * +EC1.4.1.3 nadp+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.025 * +EC1.4.1.3 nadp+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.035 * +EC1.4.1.3 nadp+ uncultured bacterium//*//* 0.1 * +EC1.4.1.3 nadph azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.013 * +EC1.4.1.3 nadph bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.011 * +EC1.4.1.3 nadph bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.02 * +EC1.4.1.3 nadph bacteroides vulgatus//prokaryotes;bacteria;bacteroidetes;bacteroides//bvu 0.006 * +EC1.4.1.3 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.4.1.3 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.27 * +EC1.4.1.3 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC1.4.1.3 nadph lemna minor//*//* 0.13 * +EC1.4.1.3 nadph parabacteroides distasonis//prokaryotes;bacteria;bacteroidetes;parabacteroides//pdi 0.018 * +EC1.4.1.3 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.56 * +EC1.4.1.3 nadph pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.037 * +EC1.4.1.3 nadph pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.04 * +EC1.4.1.3 nadph rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.17 * +EC1.4.1.3 nadph salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 0.42 * +EC1.4.1.3 nadph sphagnum fallax//*//* 0.011 * +EC1.4.1.3 nadph sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC1.4.1.3 nadph thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.04 * +EC1.4.1.3 nh3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC1.4.1.3 nh3 pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 9.5 * +EC1.4.1.3 nh3 salinibacter ruber//prokaryotes;bacteria;bacteroidetes;salinibacter//sru 68.0 * +EC1.4.1.3 nh3 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.5 * +EC1.4.1.3 nh3 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 10.0 * +EC1.4.1.3 nh4+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.2 * +EC1.4.1.3 nh4+ chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 13.0 * +EC1.4.1.3 nh4+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 5.8 * +EC1.4.1.3 nh4+ lemna minor//*//* 15.0 * +EC1.4.1.3 nh4+ pisum sativum//*//* 0.0424 * +EC1.4.1.3 nh4+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 2.82 * +EC1.4.1.3 nh4+ pyrococcus//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.3 * +EC1.4.1.3 nh4+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 58.0 * +EC1.4.1.3 nh4+ urocitellus richardsonii//*//* 4.1 * +EC1.4.1.3 nh4cl azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.38 * +EC1.4.1.3 nh4cl bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 1.25 * +EC1.4.1.3 nh4cl bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 2.9 * +EC1.4.1.3 nh4cl bacteroides vulgatus//prokaryotes;bacteria;bacteroidetes;bacteroides//bvu 1.5 * +EC1.4.1.3 nh4cl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 44.0 * +EC1.4.1.3 nh4cl parabacteroides distasonis//prokaryotes;bacteria;bacteroidetes;parabacteroides//pdi 2.4 * +EC1.4.1.3 nh4cl sphagnum fallax//*//* 28.0 * +EC1.4.1.3 nh4cl xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 20.0 * +EC1.4.1.3 norvaline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 49.0 * +EC1.4.1.3 poly(ethyleneglycol)-n6-(2-aminoethyl)-nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.444 * +EC1.4.1.3 poly(ethyleneglycol)-n6-(2-aminoethyl)-nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.425 * +EC1.4.1.4 2-oxoglutarate acropora formosa//*//* 0.93 * +EC1.4.1.4 2-oxoglutarate aeropyrum pernix k1//*//* 0.32 * +EC1.4.1.4 2-oxoglutarate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.7 * +EC1.4.1.4 2-oxoglutarate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 3.2 * +EC1.4.1.4 2-oxoglutarate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.5 * +EC1.4.1.4 2-oxoglutarate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.78 * +EC1.4.1.4 2-oxoglutarate aspergillus ochraceus//*//* 2.41 * +EC1.4.1.4 2-oxoglutarate aspergillus terreus//*//* 6.0 * +EC1.4.1.4 2-oxoglutarate bacillus fastidiosus//*//* 0.5 * +EC1.4.1.4 2-oxoglutarate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.36 * +EC1.4.1.4 2-oxoglutarate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.13 * +EC1.4.1.4 2-oxoglutarate bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.77 * +EC1.4.1.4 2-oxoglutarate bryopsis maxima//*//* 3.0 * +EC1.4.1.4 2-oxoglutarate chlorella sorokiniana//*//* 3.2 * +EC1.4.1.4 2-oxoglutarate debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 2.2 * +EC1.4.1.4 2-oxoglutarate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC1.4.1.4 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC1.4.1.4 2-oxoglutarate giardia intestinalis//*//* 0.28 * +EC1.4.1.4 2-oxoglutarate halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 3.0 * +EC1.4.1.4 2-oxoglutarate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.018 * +EC1.4.1.4 2-oxoglutarate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 5.6 * +EC1.4.1.4 2-oxoglutarate nitrobacter hamburgensis//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nha 5.0 * +EC1.4.1.4 2-oxoglutarate phormidium laminosum//*//* 1.25 * +EC1.4.1.4 2-oxoglutarate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.0 * +EC1.4.1.4 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC1.4.1.4 2-oxoglutarate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 4.0 * +EC1.4.1.4 2-oxoglutarate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 2.0 * +EC1.4.1.4 2-oxoglutarate sphaerostilbe repens//*//* 0.64 * +EC1.4.1.4 2-oxoglutarate streptomyces fradiae//*//* 1.54 * +EC1.4.1.4 2-oxoglutarate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.5 * +EC1.4.1.4 2-oxoglutarate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.16 * +EC1.4.1.4 2-oxoglutarate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.7 * +EC1.4.1.4 2-oxoglutarate thermococcus waiotapuensis//*//* 0.27 * +EC1.4.1.4 2-oxoglutarate thermophilic bacillus//*//* 1.3 * +EC1.4.1.4 2-oxoglutarate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.0 * +EC1.4.1.4 l-glutamate acropora formosa//*//* 18.0 * +EC1.4.1.4 l-glutamate aeropyrum pernix k1//*//* 3.3 * +EC1.4.1.4 l-glutamate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 3.3 * +EC1.4.1.4 l-glutamate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 27.0 * +EC1.4.1.4 l-glutamate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.9 * +EC1.4.1.4 l-glutamate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 34.6 * +EC1.4.1.4 l-glutamate aspergillus terreus//*//* 24.1 * +EC1.4.1.4 l-glutamate bacillus fastidiosus//*//* 44.0 * +EC1.4.1.4 l-glutamate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 29.0 * +EC1.4.1.4 l-glutamate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.06 * +EC1.4.1.4 l-glutamate bryopsis maxima//*//* 3.2 * +EC1.4.1.4 l-glutamate chlorella sorokiniana//*//* 21.0 * +EC1.4.1.4 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC1.4.1.4 l-glutamate halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 14.2 * +EC1.4.1.4 l-glutamate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 79.0 * +EC1.4.1.4 l-glutamate proteus inconstans//*//* 2.3 * +EC1.4.1.4 l-glutamate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 67.4 * +EC1.4.1.4 l-glutamate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.6 * +EC1.4.1.4 l-glutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.36 * +EC1.4.1.4 l-glutamate sphaerostilbe repens//*//* 5.5 * +EC1.4.1.4 l-glutamate streptomyces fradiae//*//* 28.6 * +EC1.4.1.4 l-glutamate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.22 * +EC1.4.1.4 l-glutamate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 9.12 * +EC1.4.1.4 l-glutamate thermococcus waiotapuensis//*//* 1.3 * +EC1.4.1.4 l-glutamate thermophilic bacillus//*//* 1.1 * +EC1.4.1.4 l-glutamate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.0 * +EC1.4.1.4 nad+ symbiobacterium toebii//*//* 3.629 * +EC1.4.1.4 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.36 * +EC1.4.1.4 nadh symbiobacterium toebii//*//* 0.368 * +EC1.4.1.4 nadp+ acropora formosa//*//* 0.03 * +EC1.4.1.4 nadp+ aeropyrum pernix k1//*//* 0.039 * +EC1.4.1.4 nadp+ aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.039 * +EC1.4.1.4 nadp+ agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.117 * +EC1.4.1.4 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.06 * +EC1.4.1.4 nadp+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.017 * +EC1.4.1.4 nadp+ aspergillus terreus//*//* 0.045 * +EC1.4.1.4 nadp+ bacillus fastidiosus//*//* 0.013 * +EC1.4.1.4 nadp+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.05 * +EC1.4.1.4 nadp+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.029 * +EC1.4.1.4 nadp+ bryopsis maxima//*//* 0.01 * +EC1.4.1.4 nadp+ chlorella sorokiniana//*//* 0.015 * +EC1.4.1.4 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC1.4.1.4 nadp+ halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 0.061 * +EC1.4.1.4 nadp+ lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.044 * +EC1.4.1.4 nadp+ proteus inconstans//*//* 0.023 * +EC1.4.1.4 nadp+ psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 0.043 * +EC1.4.1.4 nadp+ pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.02 * +EC1.4.1.4 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0105 * +EC1.4.1.4 nadp+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.013 * +EC1.4.1.4 nadp+ sphaerostilbe repens//*//* 0.043 * +EC1.4.1.4 nadp+ streptomyces fradiae//*//* 0.12 * +EC1.4.1.4 nadp+ symbiobacterium toebii//*//* 0.088 * +EC1.4.1.4 nadp+ thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.0102 * +EC1.4.1.4 nadp+ thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.038 * +EC1.4.1.4 nadp+ thermococcus waiotapuensis//*//* 0.1 * +EC1.4.1.4 nadp+ thermophilic bacillus//*//* 0.3 * +EC1.4.1.4 nadp+ trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.04 * +EC1.4.1.4 nadp+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0064 * +EC1.4.1.4 nadph acropora formosa//*//* 0.11 * +EC1.4.1.4 nadph aeropyrum pernix k1//*//* 0.022 * +EC1.4.1.4 nadph aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.022 * +EC1.4.1.4 nadph agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.074 * +EC1.4.1.4 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC1.4.1.4 nadph aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.011 * +EC1.4.1.4 nadph aspergillus ochraceus//*//* 0.027 * +EC1.4.1.4 nadph aspergillus terreus//*//* 0.055 * +EC1.4.1.4 nadph bacillus fastidiosus//*//* 0.027 * +EC1.4.1.4 nadph bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0087 * +EC1.4.1.4 nadph bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.044 * +EC1.4.1.4 nadph bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.095 * +EC1.4.1.4 nadph bryopsis maxima//*//* 0.03 * +EC1.4.1.4 nadph chlorella sorokiniana//*//* 0.125 * +EC1.4.1.4 nadph debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.021 * +EC1.4.1.4 nadph dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0097 * +EC1.4.1.4 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC1.4.1.4 nadph giardia intestinalis//*//* 0.017 * +EC1.4.1.4 nadph halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 0.024 * +EC1.4.1.4 nadph haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.018 * +EC1.4.1.4 nadph lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.078 * +EC1.4.1.4 nadph phormidium laminosum//*//* 0.064 * +EC1.4.1.4 nadph proteus inconstans//*//* 0.003 * +EC1.4.1.4 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.012 * +EC1.4.1.4 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0113 * +EC1.4.1.4 nadph salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.019 * +EC1.4.1.4 nadph sphaerostilbe repens//*//* 0.049 * +EC1.4.1.4 nadph streptomyces fradiae//*//* 0.07 * +EC1.4.1.4 nadph symbiobacterium toebii//*//* 0.28 * +EC1.4.1.4 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.02 * +EC1.4.1.4 nadph thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.14 * +EC1.4.1.4 nadph thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.066 * +EC1.4.1.4 nadph thermococcus waiotapuensis//*//* 0.17 * +EC1.4.1.4 nadph thermophilic bacillus//*//* 0.053 * +EC1.4.1.4 nadph trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.01 * +EC1.4.1.4 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.004 * +EC1.4.1.4 nh3 aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 83.0 * +EC1.4.1.4 nh3 debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 16.0 * +EC1.4.1.4 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.89 * +EC1.4.1.4 nh3 haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.34 * +EC1.4.1.4 nh3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC1.4.1.4 nh3 thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.00065 * +EC1.4.1.4 nh3 thermococcus waiotapuensis//*//* 9.2 * +EC1.4.1.4 nh4+ acropora formosa//*//* 9.2 * +EC1.4.1.4 nh4+ aeropyrum pernix k1//*//* 83.0 * +EC1.4.1.4 nh4+ agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.1 * +EC1.4.1.4 nh4+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.05 * +EC1.4.1.4 nh4+ aspergillus ochraceus//*//* 7.7 * +EC1.4.1.4 nh4+ aspergillus terreus//*//* 0.95 * +EC1.4.1.4 nh4+ bacillus fastidiosus//*//* 6.5 * +EC1.4.1.4 nh4+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 22.0 * +EC1.4.1.4 nh4+ bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 2.0 * +EC1.4.1.4 nh4+ bryopsis maxima//*//* 2.2 * +EC1.4.1.4 nh4+ chlorella sorokiniana//*//* 3.3 * +EC1.4.1.4 nh4+ dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2.2 * +EC1.4.1.4 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC1.4.1.4 nh4+ halobacterium sp.//prokaryotes;archaea;euryarchaeota;halobacterium//hdl 16.6 * +EC1.4.1.4 nh4+ haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 4.2 * +EC1.4.1.4 nh4+ lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 6.76 * +EC1.4.1.4 nh4+ nitrobacter hamburgensis//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nha 9.0 * +EC1.4.1.4 nh4+ proteus inconstans//*//* 0.37 * +EC1.4.1.4 nh4+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC1.4.1.4 nh4+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.29 * +EC1.4.1.4 nh4+ schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 7.5 * +EC1.4.1.4 nh4+ sphaerostilbe repens//*//* 2.6 * +EC1.4.1.4 nh4+ streptomyces fradiae//*//* 30.8 * +EC1.4.1.4 nh4+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.7 * +EC1.4.1.4 nh4+ thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.63 * +EC1.4.1.4 nh4+ thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 15.5 * +EC1.4.1.4 nh4+ thermophilic bacillus//*//* 21.0 * +EC1.4.1.4 nh4+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.7 * +EC1.4.1.4 nh4cl aeropyrum pernix k1//*//* 4.56 * +EC1.4.1.4 nh4cl archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 4.0 * +EC1.4.1.4 nh4cl bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.96 * +EC1.4.1.4 nh4cl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC1.4.1.4 nh4cl psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 4.0 * +EC1.4.1.5 l-arginine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.2 * +EC1.4.1.5 l-glutamine proteus sp.//*//* 0.012 * +EC1.4.1.5 l-isoleucine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.2 * +EC1.4.1.5 l-isoleucine citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 0.025 * +EC1.4.1.5 l-methionine proteus sp.//*//* 0.034 * +EC1.4.1.5 l-valine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 25.0 * +EC1.4.1.5 l-valine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.044 * +EC1.4.1.5 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.16 * +EC1.4.1.7 hydroxypyruvate petroselinum crispum//*//* 0.0005 * +EC1.4.1.7 nh3 petroselinum crispum//*//* 0.015 * +EC1.4.1.8 2-oxo-3-methylvalerate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.06 * +EC1.4.1.8 2-oxo-3-methylvalerate streptomyces fradiae//*//* 3.33 * +EC1.4.1.8 2-oxobutyrate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.5 * +EC1.4.1.8 2-oxobutyrate streptomyces cinnamonensis//*//* 0.13 * +EC1.4.1.8 2-oxobutyrate streptomyces fradiae//*//* 1.0 * +EC1.4.1.8 2-oxocaproate streptomyces cinnamonensis//*//* 0.81 * +EC1.4.1.8 2-oxocaproate streptomyces fradiae//*//* 2.23 * +EC1.4.1.8 2-oxoisocaproate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.8 * +EC1.4.1.8 2-oxoisocaproate streptomyces cinnamonensis//*//* 0.5 * +EC1.4.1.8 2-oxoisocaproate streptomyces fradiae//*//* 0.82 * +EC1.4.1.8 2-oxoisovalerate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.5 * +EC1.4.1.8 2-oxoisovalerate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.46 * +EC1.4.1.8 2-oxoisovalerate pisum sativum//*//* 0.538 * +EC1.4.1.8 2-oxoisovalerate streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.438 * +EC1.4.1.8 2-oxoisovalerate streptomyces cinnamonensis//*//* 0.81 * +EC1.4.1.8 2-oxoisovalerate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.6 * +EC1.4.1.8 2-oxoisovalerate streptomyces fradiae//*//* 0.31 * +EC1.4.1.8 2-oxovalerate streptomyces cinnamonensis//*//* 0.48 * +EC1.4.1.8 2-oxovalerate streptomyces fradiae//*//* 1.94 * +EC1.4.1.8 l-2-aminobutyrate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 4.35 * +EC1.4.1.8 l-2-aminobutyrate streptomyces cinnamonensis//*//* 19.6 * +EC1.4.1.8 l-2-aminobutyrate streptomyces fradiae//*//* 3.07 * +EC1.4.1.8 l-alanine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 333.3 * +EC1.4.1.8 l-alanine streptomyces fradiae//*//* 28.2 * +EC1.4.1.8 l-isoleucine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.72 * +EC1.4.1.8 l-isoleucine streptomyces cinnamonensis//*//* 10.8 * +EC1.4.1.8 l-isoleucine streptomyces fradiae//*//* 1.18 * +EC1.4.1.8 l-leucine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.85 * +EC1.4.1.8 l-leucine streptomyces cinnamonensis//*//* 4.0 * +EC1.4.1.8 l-leucine streptomyces fradiae//*//* 0.67 * +EC1.4.1.8 l-methionine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 117.6 * +EC1.4.1.8 l-norleucine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 15.6 * +EC1.4.1.8 l-norleucine streptomyces cinnamonensis//*//* 30.0 * +EC1.4.1.8 l-norleucine streptomyces fradiae//*//* 6.68 * +EC1.4.1.8 l-norvaline kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.66 * +EC1.4.1.8 l-norvaline streptomyces cinnamonensis//*//* 3.2 * +EC1.4.1.8 l-norvaline streptomyces fradiae//*//* 1.33 * +EC1.4.1.8 l-valine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.75 * +EC1.4.1.8 l-valine pisum sativum//*//* 1.1 * +EC1.4.1.8 l-valine streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 1.5 * +EC1.4.1.8 l-valine streptomyces cinnamonensis//*//* 1.3 * +EC1.4.1.8 l-valine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 10.0 * +EC1.4.1.8 l-valine streptomyces fradiae//*//* 0.43 * +EC1.4.1.8 nad+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.1 * +EC1.4.1.8 nad+ streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.13 * +EC1.4.1.8 nad+ streptomyces cinnamonensis//*//* 0.18 * +EC1.4.1.8 nad+ streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.17 * +EC1.4.1.8 nad+ streptomyces fradiae//*//* 0.029 * +EC1.4.1.8 nadh bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.05 * +EC1.4.1.8 nadh kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.023 * +EC1.4.1.8 nadh streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.0576 * +EC1.4.1.8 nadh streptomyces cinnamonensis//*//* 0.074 * +EC1.4.1.8 nadh streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.093 * +EC1.4.1.8 nadh streptomyces fradiae//*//* 0.028 * +EC1.4.1.8 nadp+ pisum sativum//*//* 0.235 * +EC1.4.1.8 nadph pisum sativum//*//* 0.14 * +EC1.4.1.8 nh3 streptomyces cinnamonensis//*//* 55.0 * +EC1.4.1.8 nh4+ bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 153.0 * +EC1.4.1.8 nh4+ kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 18.2 * +EC1.4.1.8 nh4+ pisum sativum//*//* 15.5 * +EC1.4.1.8 nh4+ streptomyces fradiae//*//* 22.0 * +EC1.4.1.8 pyruvate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 15.3 * +EC1.4.1.8 pyruvate streptomyces cinnamonensis//*//* 12.3 * +EC1.4.1.8 pyruvate streptomyces fradiae//*//* 25.0 * +EC1.4.1.9 2-ketoisocaproate natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 4.0 * +EC1.4.1.9 2-oxo-3,3-dimethylbutanoate bacillus caldolyticus//*//* 19.0 * +EC1.4.1.9 2-oxo-3-methylpentanoate bacillus caldolyticus//*//* 1.9 * +EC1.4.1.9 2-oxo-3-methylpentanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.9 * +EC1.4.1.9 2-oxo-3-methylpentanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.9 * +EC1.4.1.9 2-oxo-3-methylpentanoate thermoactinomyces intermedius//*//* 2.2 * +EC1.4.1.9 2-oxo-4-methylselenobutanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 13.0 * +EC1.4.1.9 2-oxo-4-methylthiobutanoate bacillus caldolyticus//*//* 8.1 * +EC1.4.1.9 2-oxobutanoate bacillus caldolyticus//*//* 6.9 * +EC1.4.1.9 2-oxobutanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.5 * +EC1.4.1.9 2-oxobutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 7.7 * +EC1.4.1.9 2-oxobutanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 7.3 * +EC1.4.1.9 2-oxobutanoate thermoactinomyces intermedius//*//* 7.2 * +EC1.4.1.9 2-oxohexanoate bacillus caldolyticus//*//* 2.7 * +EC1.4.1.9 2-oxohexanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.2 * +EC1.4.1.9 2-oxohexanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 7.0 * +EC1.4.1.9 2-oxohexanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 6.2 * +EC1.4.1.9 2-oxohexanoate thermoactinomyces intermedius//*//* 1.4 * +EC1.4.1.9 2-oxoisohexanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.88 * +EC1.4.1.9 2-oxopentanoate bacillus caldolyticus//*//* 0.81 * +EC1.4.1.9 2-oxopentanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.4 * +EC1.4.1.9 2-oxopentanoate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.4 * +EC1.4.1.9 2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.08 * +EC1.4.1.9 2-oxopentanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.0 * +EC1.4.1.9 2-oxopentanoate thermoactinomyces intermedius//*//* 0.91 * +EC1.4.1.9 3-acetylpyridine-deamino-nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 2.41 * +EC1.4.1.9 3-acetylpyridine-nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.77 * +EC1.4.1.9 3-methyl-2-oxobutanoate bacillus caldolyticus//*//* 2.4 * +EC1.4.1.9 3-methyl-2-oxobutanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.1 * +EC1.4.1.9 3-methyl-2-oxobutanoate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 3.8 * +EC1.4.1.9 3-methyl-2-oxobutanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.2 * +EC1.4.1.9 3-methyl-2-oxobutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.4 * +EC1.4.1.9 3-methyl-2-oxobutanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 4.0 * +EC1.4.1.9 3-methyl-2-oxobutanoate thermoactinomyces intermedius//*//* 4.4 * +EC1.4.1.9 3-methyl-2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.38 * +EC1.4.1.9 3-methylthio-2-oxobutanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.1 * +EC1.4.1.9 4-methyl-2-oxo-5,5,5-trifluoropentanoate thermoactinomyces intermedius//*//* 2.7 * +EC1.4.1.9 4-methyl-2-oxopentanoate bacillus caldolyticus//*//* 0.7 * +EC1.4.1.9 4-methyl-2-oxopentanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.45 * +EC1.4.1.9 4-methyl-2-oxopentanoate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.0 * +EC1.4.1.9 4-methyl-2-oxopentanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.6 * +EC1.4.1.9 4-methyl-2-oxopentanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.31 * +EC1.4.1.9 4-methyl-2-oxopentanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.8 * +EC1.4.1.9 4-methyl-2-oxopentanoate thermoactinomyces intermedius//*//* 0.63 * +EC1.4.1.9 4-methylthio-2-oxobutanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.7 * +EC1.4.1.9 alpha-keto-beta-methylvalerate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3.8 * +EC1.4.1.9 alpha-keto-caproate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.7 * +EC1.4.1.9 alpha-keto-isocaproate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.88 * +EC1.4.1.9 l-2-aminobutanoate bacillus caldolyticus//*//* 8.9 * +EC1.4.1.9 l-2-aminobutanoate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 22.0 * +EC1.4.1.9 l-2-aminobutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 10.0 * +EC1.4.1.9 l-2-aminobutanoate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.5 * +EC1.4.1.9 l-ile bacillus caldolyticus//*//* 0.7 * +EC1.4.1.9 l-ile bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.0 * +EC1.4.1.9 l-ile bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 3.3 * +EC1.4.1.9 l-ile bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.4 * +EC1.4.1.9 l-ile geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.4 * +EC1.4.1.9 l-ile lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.78 * +EC1.4.1.9 l-ile moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 3.9 * +EC1.4.1.9 l-ile natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.66 * +EC1.4.1.9 l-ile thermoactinomyces intermedius//*//* 0.4 * +EC1.4.1.9 l-leu bacillus caldolyticus//*//* 1.1 * +EC1.4.1.9 l-leu bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.5 * +EC1.4.1.9 l-leu bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.1 * +EC1.4.1.9 l-leu bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.8 * +EC1.4.1.9 l-leu bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.33 * +EC1.4.1.9 l-leu geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.1 * +EC1.4.1.9 l-leu lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.0 * +EC1.4.1.9 l-leu moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 8.5 * +EC1.4.1.9 l-leu natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.69 * +EC1.4.1.9 l-leu thermoactinomyces intermedius//*//* 2.0 * +EC1.4.1.9 l-leucine sporosarcina psychrophila//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//spsy 0.65 * +EC1.4.1.9 l-met bacillus caldolyticus//*//* 23.0 * +EC1.4.1.9 l-met bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 23.0 * +EC1.4.1.9 l-met bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 25.0 * +EC1.4.1.9 l-norleucine bacillus caldolyticus//*//* 2.1 * +EC1.4.1.9 l-norleucine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.5 * +EC1.4.1.9 l-norleucine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.4 * +EC1.4.1.9 l-norleucine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.27 * +EC1.4.1.9 l-norleucine moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 2.3 * +EC1.4.1.9 l-norvaline bacillus caldolyticus//*//* 2.3 * +EC1.4.1.9 l-norvaline bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.9 * +EC1.4.1.9 l-norvaline geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 7.8 * +EC1.4.1.9 l-norvaline lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.98 * +EC1.4.1.9 l-norvaline moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 5.6 * +EC1.4.1.9 l-tert-leu bacillus caldolyticus//*//* 1.8 * +EC1.4.1.9 l-val bacillus caldolyticus//*//* 2.0 * +EC1.4.1.9 l-val bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.0 * +EC1.4.1.9 l-val bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 12.5 * +EC1.4.1.9 l-val bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.4 * +EC1.4.1.9 l-val lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.7 * +EC1.4.1.9 l-val moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 6.8 * +EC1.4.1.9 l-val natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.71 * +EC1.4.1.9 l-val thermoactinomyces intermedius//*//* 2.4 * +EC1.4.1.9 nad+ bacillus caldolyticus//*//* 0.18 * +EC1.4.1.9 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.16 * +EC1.4.1.9 nad+ bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.2 * +EC1.4.1.9 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.16 * +EC1.4.1.9 nad+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.063 * +EC1.4.1.9 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.39 * +EC1.4.1.9 nad+ natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.48 * +EC1.4.1.9 nad+ sporosarcina psychrophila//prokaryotes;bacteria;firmicutes - bacilli;sporosarcina//spsy 0.015 * +EC1.4.1.9 nad+ thermoactinomyces intermedius//*//* 0.36 * +EC1.4.1.9 nadh bacillus caldolyticus//*//* 0.036 * +EC1.4.1.9 nadh bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.034 * +EC1.4.1.9 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC1.4.1.9 nadh geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.035 * +EC1.4.1.9 nadh natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.02 * +EC1.4.1.9 nadh thermoactinomyces intermedius//*//* 0.042 * +EC1.4.1.9 nh3 bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 330.0 * +EC1.4.1.9 nh3 natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 220.0 * +EC1.4.1.9 nh4+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 13.0 * +EC1.4.1.9 nh4+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.0 * +EC1.4.1.9 nh4+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 75.0 * +EC1.4.1.B2 acetylpyridine-nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 3.3 * +EC1.4.1.B2 deamino-nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 22.0 * +EC1.4.1.B2 l-erythro-3,5-diaminohexanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.08 * +EC1.4.1.B2 l-erythro-3,5-diaminohexanoate unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 0.1978 * +EC1.4.1.B2 nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.48 * +EC1.4.1.B2 nad+ unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 16.5 * +EC1.4.1.B2 nadp+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.03 * +EC1.4.1.B2 nadp+ unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 0.0593 * +EC1.4.1.B4 l-aspartic 4-semialdehyde vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 4.68 * +EC1.4.1.B4 nadh vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 2.97 * +EC1.4.1.B4 nadph vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 1.51 * +EC1.4.1.B5 2-oxoglutarate haemonchus contortus//*//* 0.9 * +EC1.4.1.B5 2-oxoglutarate teladorsagia circumcincta//*//* 0.6 * +EC1.4.1.B5 l-glutamine haemonchus contortus//*//* 1.0 * +EC1.4.1.B5 l-glutamine teladorsagia circumcincta//*//* 0.6 * +EC1.4.2.1 cytochrome c nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.016 * +EC1.4.2.1 glycine nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.8 * +EC1.4.3.1 cis-2,3-piperidine dicarboxylic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.5 * +EC1.4.3.1 d-alanine vanrija humicola//*//* 742.0 * +EC1.4.3.1 d-alpha-aminoadipic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.2 * +EC1.4.3.1 d-asp pelophylax esculentus//*//* 4.22 * +EC1.4.3.1 d-asparagine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 60.0 * +EC1.4.3.1 d-asparagine octopus vulgaris//*//* 53.0 * +EC1.4.3.1 d-aspartate dimethylester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 540.0 * +EC1.4.3.1 d-aspartate dimethylester octopus vulgaris//*//* 150.0 * +EC1.4.3.1 d-aspartate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC1.4.3.1 d-aspartate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.38 * +EC1.4.3.1 d-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC1.4.3.1 d-aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.87 * +EC1.4.3.1 d-aspartate octopus vulgaris//*//* 4.3 * +EC1.4.3.1 d-aspartate oncorhynchus mykiss//*//* 5.19 * +EC1.4.3.1 d-aspartate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.86 * +EC1.4.3.1 d-aspartate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.5 * +EC1.4.3.1 d-aspartate vanrija humicola//*//* 1.3 * +EC1.4.3.1 d-aspartic acid-beta-hydroxamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC1.4.3.1 d-glu pelophylax esculentus//*//* 6.77 * +EC1.4.3.1 d-glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.59 * +EC1.4.3.1 d-glutamate octopus vulgaris//*//* 6.2 * +EC1.4.3.1 d-glutamate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.7 * +EC1.4.3.1 d-glutamate vanrija humicola//*//* 62.6 * +EC1.4.3.1 d-glutamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 815.0 * +EC1.4.3.1 d-glutamine octopus vulgaris//*//* 600.0 * +EC1.4.3.1 d-homocysteic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.8 * +EC1.4.3.1 d-proline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC1.4.3.1 d-proline octopus vulgaris//*//* 440.0 * +EC1.4.3.1 dl-amino-3-phosphopropanoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.2 * +EC1.4.3.1 dl-cysteic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7 * +EC1.4.3.1 glycyl-d-aspartic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 143.0 * +EC1.4.3.1 meso-2,3-diaminosuccinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.8 * +EC1.4.3.1 n-methyl-d-asp pelophylax esculentus//*//* 2.85 * +EC1.4.3.1 n-methyl-d-aspartate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC1.4.3.1 n-methyl-d-aspartate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.84 * +EC1.4.3.1 n-methyl-d-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC1.4.3.1 n-methyl-d-aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.59 * +EC1.4.3.1 n-methyl-d-aspartate octopus vulgaris//*//* 42.0 * +EC1.4.3.1 n-methyl-d-aspartate vanrija humicola//*//* 28.0 * +EC1.4.3.1 o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC1.4.3.1 o2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.547 * +EC1.4.3.10 1,6-diaminohexane rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.17 * +EC1.4.3.10 2-hydroxyputrescine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.065 * +EC1.4.3.10 cadaverine meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 1.1 * +EC1.4.3.10 cadaverine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.36 * +EC1.4.3.10 cadaverine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.018 * +EC1.4.3.10 l-ornithine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.33 * +EC1.4.3.10 o2 kocuria rosea//*//* 0.124 * +EC1.4.3.10 putrescine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 3.3 * +EC1.4.3.10 putrescine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0026 * +EC1.4.3.10 putrescine kocuria rosea//*//* 0.038 * +EC1.4.3.10 putrescine meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.02 * +EC1.4.3.10 putrescine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.3 * +EC1.4.3.10 putrescine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC1.4.3.10 putrescine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0035 * +EC1.4.3.10 spermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC1.4.3.10 spermidine kocuria rosea//*//* 0.23 * +EC1.4.3.10 spermidine meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.2 * +EC1.4.3.10 spermidine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.35 * +EC1.4.3.10 spermidine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.1 * +EC1.4.3.10 spermine rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.47 * +EC1.4.3.11 l-gln streptomyces violascens//*//* 6.7 * +EC1.4.3.11 l-glutamate streptomyces endus//*//* 1.1 * +EC1.4.3.11 l-glutamate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.173 * +EC1.4.3.11 l-glutamate streptomyces violascens//*//* 1.1 * +EC1.4.3.11 l-his streptomyces violascens//*//* 5.0 * +EC1.4.3.11 o2 streptomyces endus//*//* 1.86 * +EC1.4.3.12 cyclohexylamine microbacterium oxydans//*//* 1.08 * +EC1.4.3.12 cyclohexylamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.25 * +EC1.4.3.12 cyclooctanamine microbacterium oxydans//*//* 0.59 * +EC1.4.3.14 l-arginine trichoderma pseudokoningii//*//* 0.46 * +EC1.4.3.14 l-arginine trichoderma viride//*//* 0.68 * +EC1.4.3.14 l-lysine trichoderma pseudokoningii//*//* 0.027 * +EC1.4.3.14 l-lysine trichoderma viride//*//* 0.026 * +EC1.4.3.14 l-ornithine trichoderma pseudokoningii//*//* 0.75 * +EC1.4.3.14 l-ornithine trichoderma viride//*//* 0.044 * +EC1.4.3.14 l-phenylalanine trichoderma pseudokoningii//*//* 25.5 * +EC1.4.3.14 l-phenylalanine trichoderma viride//*//* 14.0 * +EC1.4.3.14 o2 trichoderma viride//*//* 1.6 * +EC1.4.3.16 fumarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.43 * +EC1.4.3.16 l-asparagine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 18.1 * +EC1.4.3.16 l-aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC1.4.3.16 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.4.3.16 l-aspartate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.66 * +EC1.4.3.16 l-aspartate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.26 * +EC1.4.3.16 l-aspartate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.3 * +EC1.4.3.16 o2 sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.33 * +EC1.4.3.19 cyclopropylglycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.17 * +EC1.4.3.19 d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 81.0 * +EC1.4.3.19 d-alanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 315.0 * +EC1.4.3.19 d-alanine geobacillus kaustophilus hta426//*//* 20.6 * +EC1.4.3.19 d-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 20.6 * +EC1.4.3.19 d-pipecolate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2000.0 * +EC1.4.3.19 d-pipecolate geobacillus kaustophilus hta426//*//* 221.8 * +EC1.4.3.19 d-pipecolate geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 221.8 * +EC1.4.3.19 d-pro bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 46.0 * +EC1.4.3.19 d-proline bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.9 * +EC1.4.3.19 d-proline geobacillus kaustophilus hta426//*//* 9.3 * +EC1.4.3.19 d-proline geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 9.3 * +EC1.4.3.19 gly bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.99 * +EC1.4.3.19 glycine-ethyl-ester bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.78 * +EC1.4.3.19 glycine-ethyl-ester geobacillus kaustophilus hta426//*//* 0.52 * +EC1.4.3.19 glycine-ethyl-ester geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.52 * +EC1.4.3.19 glycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.37 * +EC1.4.3.19 glycine geobacillus kaustophilus hta426//*//* 0.25 * +EC1.4.3.19 glycine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.25 * +EC1.4.3.19 glycine marinomonas mediterranea//prokaryotes;bacteria;gammaproteobacteria - others;marinomonas//mme 8.33 * +EC1.4.3.19 glyphosate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 87.0 * +EC1.4.3.19 n-ethyl-glycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.8 * +EC1.4.3.19 n-ethylglycine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.66 * +EC1.4.3.19 n-ethylglycine geobacillus kaustophilus hta426//*//* 0.22 * +EC1.4.3.19 n-ethylglycine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.22 * +EC1.4.3.19 o2 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.15 * +EC1.4.3.19 sarcosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.22 * +EC1.4.3.19 sarcosine geobacillus kaustophilus hta426//*//* 0.45 * +EC1.4.3.19 sarcosine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.45 * +EC1.4.3.2 cysteine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.05 * +EC1.4.3.2 djenkolic acid crotalus terrificus terrificus//*//* 3.1 * +EC1.4.3.2 djenkolic acid providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 83.0 * +EC1.4.3.2 l-ala bungarus fasciatus//*//* 28.3 * +EC1.4.3.2 l-ala daboia russelii//*//* 116.5 * +EC1.4.3.2 l-ala rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.274 * +EC1.4.3.2 l-alanine calloselasma rhodostoma//*//* 12.5 * +EC1.4.3.2 l-alanine gloydius ussuriensis//*//* 5.12 * +EC1.4.3.2 l-alanine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.274 * +EC1.4.3.2 l-aminobutyric acid calloselasma rhodostoma//*//* 5.0 * +EC1.4.3.2 l-arg bungarus fasciatus//*//* 18.75 * +EC1.4.3.2 l-arg daboia russelii//*//* 12.2 * +EC1.4.3.2 l-arg rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.07 * +EC1.4.3.2 l-arginine bacillus carotarum//*//* 0.037 * +EC1.4.3.2 l-arginine calloselasma rhodostoma//*//* 2.0 * +EC1.4.3.2 l-arginine gloydius ussuriensis//*//* 2.33 * +EC1.4.3.2 l-arginine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 2.9 * +EC1.4.3.2 l-arginine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 0.27 * +EC1.4.3.2 l-arginine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.07 * +EC1.4.3.2 l-arginine synechococcus cedrorum pcc 6908//*//* 4.0 * +EC1.4.3.2 l-arginine synechococcus elongatus pcc 6301//*//* 5.0 * +EC1.4.3.2 l-arginine synechococcus elongatus pcc 7942//*//* 3.0 * +EC1.4.3.2 l-asn bungarus fasciatus//*//* 19.07 * +EC1.4.3.2 l-asp bungarus fasciatus//*//* 0.04 * +EC1.4.3.2 l-asp rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.028 * +EC1.4.3.2 l-asparagine bacillus carotarum//*//* 0.259 * +EC1.4.3.2 l-asparagine calloselasma rhodostoma//*//* 2.5 * +EC1.4.3.2 l-asparagine gloydius ussuriensis//*//* 0.36 * +EC1.4.3.2 l-asparagine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.028 * +EC1.4.3.2 l-citrulline providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 21.3 * +EC1.4.3.2 l-citrulline rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.026 * +EC1.4.3.2 l-cysteine crotalus terrificus terrificus//*//* 4.5 * +EC1.4.3.2 l-cysteine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 5.3 * +EC1.4.3.2 l-cystine crotalus terrificus terrificus//*//* 5.0 * +EC1.4.3.2 l-gln bungarus fasciatus//*//* 5.88 * +EC1.4.3.2 l-gln rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.085 * +EC1.4.3.2 l-glu bungarus fasciatus//*//* 1.44 * +EC1.4.3.2 l-glu rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.411 * +EC1.4.3.2 l-glutamic acid rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.411 * +EC1.4.3.2 l-glutamine bacillus carotarum//*//* 0.34 * +EC1.4.3.2 l-glutamine calloselasma rhodostoma//*//* 8.0 * +EC1.4.3.2 l-glutamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.085 * +EC1.4.3.2 l-his bungarus fasciatus//*//* 4.84 * +EC1.4.3.2 l-histidine calloselasma rhodostoma//*//* 2.5 * +EC1.4.3.2 l-histidine gloydius ussuriensis//*//* 4.97 * +EC1.4.3.2 l-histidine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 6.2 * +EC1.4.3.2 l-histidine ophiophagus hannah//*//* 2.3 * +EC1.4.3.2 l-histidine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 1.8 * +EC1.4.3.2 l-homocysteine crotalus terrificus terrificus//*//* 1.3 * +EC1.4.3.2 l-homocysteine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 1.3 * +EC1.4.3.2 l-homocystine crotalus terrificus terrificus//*//* 0.72 * +EC1.4.3.2 l-homocystine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 12.5 * +EC1.4.3.2 l-ile bungarus fasciatus//*//* 1.64 * +EC1.4.3.2 l-ile daboia russelii//*//* 1.4 * +EC1.4.3.2 l-ile rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 5.11 * +EC1.4.3.2 l-isoleucine calloselasma rhodostoma//*//* 0.8 * +EC1.4.3.2 l-isoleucine daboia russellii russellii//*//* 0.00144 * +EC1.4.3.2 l-isoleucine gloydius ussuriensis//*//* 4.02 * +EC1.4.3.2 l-isoleucine ophiophagus hannah//*//* 2.9 * +EC1.4.3.2 l-isoleucine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 71.0 * +EC1.4.3.2 l-isoleucine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 5.11 * +EC1.4.3.2 l-leu bungarus fasciatus//*//* 60.7 * +EC1.4.3.2 l-leu daboia russelii//*//* 0.49 * +EC1.4.3.2 l-leu gloydius halys//*//* 0.25 * +EC1.4.3.2 l-leu gloydius ussuriensis//*//* 2.1 * +EC1.4.3.2 l-leu rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.028 * +EC1.4.3.2 l-leucine calloselasma rhodostoma//*//* 0.56 * +EC1.4.3.2 l-leucine crotalus durissus cascavella//*//* 0.0465 * +EC1.4.3.2 l-leucine crotalus durissus cumanensis//*//* 0.00923 * +EC1.4.3.2 l-leucine daboia russellii russellii//*//* 0.6 * +EC1.4.3.2 l-leucine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC1.4.3.2 l-leucine gloydius ussuriensis//*//* 0.11 * +EC1.4.3.2 l-leucine lachesis muta//*//* 0.97 * +EC1.4.3.2 l-leucine macrovipera lebetina//*//* 0.4 * +EC1.4.3.2 l-leucine naja oxiana//*//* 0.75 * +EC1.4.3.2 l-leucine ophiophagus hannah//*//* 0.14 * +EC1.4.3.2 l-leucine protobothrops mucrosquamatus//*//* 1.17 * +EC1.4.3.2 l-leucine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 2.6 * +EC1.4.3.2 l-leucine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.028 * +EC1.4.3.2 l-lys bungarus fasciatus//*//* 21.5 * +EC1.4.3.2 l-lys daboia russelii//*//* 64.0 * +EC1.4.3.2 l-lys myoxocephalus polyacanthocephalus//*//* 0.16 * +EC1.4.3.2 l-lys rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.015 * +EC1.4.3.2 l-lysine calloselasma rhodostoma//*//* 10.0 * +EC1.4.3.2 l-lysine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.04 * +EC1.4.3.2 l-lysine gloydius ussuriensis//*//* 0.97 * +EC1.4.3.2 l-lysine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 1.6 * +EC1.4.3.2 l-lysine ophiophagus hannah//*//* 2.6 * +EC1.4.3.2 l-lysine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 23.2 * +EC1.4.3.2 l-lysine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.015 * +EC1.4.3.2 l-lysine sebastes schlegelii//*//* 0.19 * +EC1.4.3.2 l-met bungarus fasciatus//*//* 15.0 * +EC1.4.3.2 l-met daboia russelii//*//* 0.373 * +EC1.4.3.2 l-met rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.039 * +EC1.4.3.2 l-methionine calloselasma rhodostoma//*//* 0.24 * +EC1.4.3.2 l-methionine crotalus terrificus terrificus//*//* 0.35 * +EC1.4.3.2 l-methionine daboia russellii russellii//*//* 0.223 * +EC1.4.3.2 l-methionine gloydius ussuriensis//*//* 0.88 * +EC1.4.3.2 l-methionine macrovipera lebetina//*//* 0.65 * +EC1.4.3.2 l-methionine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 10.0 * +EC1.4.3.2 l-methionine naja oxiana//*//* 0.885 * +EC1.4.3.2 l-methionine ophiophagus hannah//*//* 0.7 * +EC1.4.3.2 l-methionine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 9.6 * +EC1.4.3.2 l-methionine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.039 * +EC1.4.3.2 l-norleucine calloselasma rhodostoma//*//* 0.13 * +EC1.4.3.2 l-norleucine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.026 * +EC1.4.3.2 l-norvaline calloselasma rhodostoma//*//* 0.91 * +EC1.4.3.2 l-orn rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.034 * +EC1.4.3.2 l-ornithine calloselasma rhodostoma//*//* 13.3 * +EC1.4.3.2 l-ornithine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 6.2 * +EC1.4.3.2 l-ornithine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 14.2 * +EC1.4.3.2 l-ornithine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.034 * +EC1.4.3.2 l-phe bungarus fasciatus//*//* 0.13 * +EC1.4.3.2 l-phe daboia russelii//*//* 0.142 * +EC1.4.3.2 l-phe mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.5 * +EC1.4.3.2 l-phe rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.022 * +EC1.4.3.2 l-phenylalanine calloselasma rhodostoma//*//* 0.05 * +EC1.4.3.2 l-phenylalanine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.011 * +EC1.4.3.2 l-phenylalanine crotalus adamanteus//*//* 0.03782 * +EC1.4.3.2 l-phenylalanine crotalus atrox//*//* 0.03601 * +EC1.4.3.2 l-phenylalanine daboia russellii russellii//*//* 0.0493 * +EC1.4.3.2 l-phenylalanine gloydius ussuriensis//*//* 4.28 * +EC1.4.3.2 l-phenylalanine hebeloma sp.//*//* 2.2 * +EC1.4.3.2 l-phenylalanine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 3.5 * +EC1.4.3.2 l-phenylalanine naja oxiana//*//* 0.051 * +EC1.4.3.2 l-phenylalanine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.16 * +EC1.4.3.2 l-phenylalanine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 26.2 * +EC1.4.3.2 l-phenylalanine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 3.1 * +EC1.4.3.2 l-phenylalanine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.022 * +EC1.4.3.2 l-phenylalanine trichoderma harzianum//*//* 11.73 * +EC1.4.3.2 l-propargylglycine crotalus adamanteus//*//* 7.95 * +EC1.4.3.2 l-propargylglycine crotalus atrox//*//* 11.78 * +EC1.4.3.2 l-ser rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 1.36 * +EC1.4.3.2 l-serine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 1.36 * +EC1.4.3.2 l-trp bungarus fasciatus//*//* 0.27 * +EC1.4.3.2 l-trp daboia russelii//*//* 0.318 * +EC1.4.3.2 l-tryptophan calloselasma rhodostoma//*//* 0.08 * +EC1.4.3.2 l-tryptophan daboia russellii russellii//*//* 0.211 * +EC1.4.3.2 l-tryptophan gloydius ussuriensis//*//* 2.3 * +EC1.4.3.2 l-tryptophan macrovipera lebetina//*//* 0.17 * +EC1.4.3.2 l-tryptophan meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 2.2 * +EC1.4.3.2 l-tryptophan naja oxiana//*//* 0.147 * +EC1.4.3.2 l-tryptophan providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 4.2 * +EC1.4.3.2 l-tyr bungarus fasciatus//*//* 0.05 * +EC1.4.3.2 l-tyr daboia russelii//*//* 0.081 * +EC1.4.3.2 l-tyr rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.019 * +EC1.4.3.2 l-tyrosine daboia russellii russellii//*//* 0.052 * +EC1.4.3.2 l-tyrosine gloydius ussuriensis//*//* 1.57 * +EC1.4.3.2 l-tyrosine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 2.2 * +EC1.4.3.2 l-tyrosine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 1.0 * +EC1.4.3.2 l-tyrosine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.019 * +EC1.4.3.2 l-val daboia russelii//*//* 13.92 * +EC1.4.3.2 l-val rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 3.73 * +EC1.4.3.2 l-valine gloydius ussuriensis//*//* 0.27 * +EC1.4.3.2 l-valine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 3.73 * +EC1.4.3.2 methionine sulfoxide providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 45.0 * +EC1.4.3.2 o2 neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.2 * +EC1.4.3.2 s-adenosyl-l-homocysteine sulfoxide providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 100.0 * +EC1.4.3.2 s-adenosyl-l-homocysteine crotalus terrificus terrificus//*//* 1.9 * +EC1.4.3.2 s-adenosyl-l-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.8 * +EC1.4.3.2 s-adenosylhomocysteine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 14.0 * +EC1.4.3.2 s-adenosylmethionine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 14.0 * +EC1.4.3.2 s-ribosyl-l-homocysteine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.2 * +EC1.4.3.2 s-ribosyl-l-homocysteine crotalus terrificus terrificus//*//* 2.2 * +EC1.4.3.2 s-ribosyl-l-homocysteine providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 13.0 * +EC1.4.3.20 d-lysine pseudoalteromonas tunicata//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//ptu 2.08 * +EC1.4.3.20 l-lysine marinomonas mediterranea//prokaryotes;bacteria;gammaproteobacteria - others;marinomonas//mme 0.0018 * +EC1.4.3.20 l-lysine pseudoalteromonas tunicata//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//ptu 0.02491 * +EC1.4.3.21 1,4-diamino-2-butyne pisum sativum//*//* 1.0 * +EC1.4.3.21 2-aminoethylpyridine huperzia serrata//*//* 1.7 * +EC1.4.3.21 2-phenylethylamine arthrobacter globiformis//*//* 0.0019 * +EC1.4.3.21 2-phenylethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC1.4.3.21 2-phenylethylamine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.0055 * +EC1.4.3.21 3-aminomethylpyridine huperzia serrata//*//* 1.2 * +EC1.4.3.21 4-aminomethylpyridine dihydrochloride sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC1.4.3.21 4-aminomethylpyridine huperzia serrata//*//* 1.9 * +EC1.4.3.21 4-fluorobenzylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.13 * +EC1.4.3.21 aminoacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC1.4.3.21 amylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.71 * +EC1.4.3.21 amylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.11 * +EC1.4.3.21 benzylamine arthrobacter globiformis//*//* 0.1 * +EC1.4.3.21 benzylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.49 * +EC1.4.3.21 benzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0845 * +EC1.4.3.21 benzylamine huperzia serrata//*//* 0.5 * +EC1.4.3.21 benzylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.061 * +EC1.4.3.21 benzylamine mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.0045 * +EC1.4.3.21 benzylamine ogataea angusta//*//* 0.017 * +EC1.4.3.21 benzylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0127 * +EC1.4.3.21 benzylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.04 * +EC1.4.3.21 benzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00128 * +EC1.4.3.21 beta-phenylethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC1.4.3.21 butylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.83 * +EC1.4.3.21 butylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.32 * +EC1.4.3.21 cadaverine huperzia serrata//*//* 0.3 * +EC1.4.3.21 cadaverine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 12.7 * +EC1.4.3.21 cyclohexanemethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.5 * +EC1.4.3.21 cysteamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC1.4.3.21 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.099 * +EC1.4.3.21 dopamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.1 * +EC1.4.3.21 ethanolamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 2.05 * +EC1.4.3.21 ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC1.4.3.21 ethylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.86 * +EC1.4.3.21 hexakis(benzylammonium) decavanadate (v) dihydrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.213 * +EC1.4.3.21 hexakis(benzylammonium) decavanadate (v) dihydrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0865 * +EC1.4.3.21 hexakis(benzylammonium) decavanadate (v) dihydrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC1.4.3.21 histamine huperzia serrata//*//* 0.7 * +EC1.4.3.21 histamine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.41 * +EC1.4.3.21 histamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.28 * +EC1.4.3.21 isoamylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.56 * +EC1.4.3.21 isobutylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.42 * +EC1.4.3.21 methylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.331 * +EC1.4.3.21 methylamine ogataea angusta//*//* 0.01 * +EC1.4.3.21 methylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.18 * +EC1.4.3.21 o2 arthrobacter globiformis//*//* 0.0163 * +EC1.4.3.21 o2 pisum sativum//*//* 0.021 * +EC1.4.3.21 octopamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.03 * +EC1.4.3.21 phenethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.05 * +EC1.4.3.21 phenylethylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.02 * +EC1.4.3.21 propylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.65 * +EC1.4.3.21 propylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.49 * +EC1.4.3.21 putrescine huperzia serrata//*//* 1.2 * +EC1.4.3.21 putrescine pisum sativum//*//* 0.29 * +EC1.4.3.21 spermidine huperzia serrata//*//* 0.8 * +EC1.4.3.21 spermidine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 7.04 * +EC1.4.3.21 tryptamine lens culinaris//*//* 0.5 * +EC1.4.3.21 tyramine arthrobacter globiformis//*//* 0.0104 * +EC1.4.3.21 tyramine lens culinaris//*//* 0.71 * +EC1.4.3.21 tyramine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.02 * +EC1.4.3.21 tyramine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.05 * +EC1.4.3.21 vanillylamine rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.02 * +EC1.4.3.22 (e)-1,4-diamino-2-butene lathyrus odoratus//*//* 0.1 * +EC1.4.3.22 (e)-1,4-diamino-2-butene lathyrus sativus//*//* 0.1 * +EC1.4.3.22 1,3-diaminopropane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.0 * +EC1.4.3.22 1,3-diaminopropane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.4.3.22 1,3-diaminopropane nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.35 * +EC1.4.3.22 1,3-diaminopropane triticum aestivum//*//* 0.25 * +EC1.4.3.22 1,4-diamino-2-butene onobrychis viciifolia//*//* 0.36 * +EC1.4.3.22 1,4-diaminobutane euphorbia characias//*//* 0.2 * +EC1.4.3.22 1,4-diaminobutane hyoscyamus niger//*//* 2.85 * +EC1.4.3.22 1,4-diaminobutane nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.76 * +EC1.4.3.22 1,4-diaminobutane pisum sativum//*//* 0.32 * +EC1.4.3.22 1,4-diaminobutane sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC1.4.3.22 1,4-methylhistamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.14 * +EC1.4.3.22 1,5-diamino-3-oxapentane pisum sativum//*//* 0.2 * +EC1.4.3.22 1,5-diaminopentane euphorbia characias//*//* 0.47 * +EC1.4.3.22 1,6-diaminohexane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC1.4.3.22 1,6-diaminohexane lathyrus odoratus//*//* 0.11 * +EC1.4.3.22 1,6-diaminohexane lathyrus sativus//*//* 0.11 * +EC1.4.3.22 1,8-diaminooctane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00036 * +EC1.4.3.22 1-aminobutane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC1.4.3.22 1-aminononane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0087 * +EC1.4.3.22 1-methylhistamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC1.4.3.22 2-aminoethylpyridine lathyrus cicera//*//* 0.051 * +EC1.4.3.22 2-aminomethylpyridine lathyrus cicera//*//* 0.005 * +EC1.4.3.22 2-hydroxyputrescine lathyrus odoratus//*//* 0.67 * +EC1.4.3.22 2-hydroxyputrescine lathyrus sativus//*//* 0.67 * +EC1.4.3.22 2-phenylethylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.12 * +EC1.4.3.22 3-aminomethylpyridine lathyrus cicera//*//* 0.21 * +EC1.4.3.22 3-hydroxycadaverine lathyrus odoratus//*//* 0.09 * +EC1.4.3.22 3-hydroxycadaverine lathyrus sativus//*//* 0.09 * +EC1.4.3.22 4-aminomethylpyridine dihydrochloride sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.004 * +EC1.4.3.22 4-aminomethylpyridine lathyrus cicera//*//* 0.1 * +EC1.4.3.22 4-aminomethylpyridine pisum sativum//*//* 0.41 * +EC1.4.3.22 acetylcadaverine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.28 * +EC1.4.3.22 acetylputrescine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.71 * +EC1.4.3.22 agmatine lathyrus cicera//*//* 0.017 * +EC1.4.3.22 agmatine lathyrus odoratus//*//* 0.5 * +EC1.4.3.22 agmatine lathyrus sativus//*//* 0.5 * +EC1.4.3.22 aminobutane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.6 * +EC1.4.3.22 aminohexane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.15 * +EC1.4.3.22 aminopentane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.35 * +EC1.4.3.22 aminopropane aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.6 * +EC1.4.3.22 benzaldehyde bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.2 * +EC1.4.3.22 benzaldehyde euphorbia characias//*//* 0.4 * +EC1.4.3.22 benzaldehyde lens culinaris//*//* 0.45 * +EC1.4.3.22 benzaldehyde pisum sativum//*//* 0.45 * +EC1.4.3.22 benzaldehyde sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC1.4.3.22 benzylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.24 * +EC1.4.3.22 benzylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC1.4.3.22 benzylamine lathyrus cicera//*//* 0.29 * +EC1.4.3.22 benzylamine pisum sativum//*//* 0.1 * +EC1.4.3.22 benzylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.64 * +EC1.4.3.22 benzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.557 * +EC1.4.3.22 butylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.877 * +EC1.4.3.22 butylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC1.4.3.22 cadaverine euphorbia characias//*//* 0.47 * +EC1.4.3.22 cadaverine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.065 * +EC1.4.3.22 cadaverine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0279 * +EC1.4.3.22 cadaverine hyoscyamus niger//*//* 6.25 * +EC1.4.3.22 cadaverine lathyrus cicera//*//* 0.06 * +EC1.4.3.22 cadaverine lathyrus odoratus//*//* 0.13 * +EC1.4.3.22 cadaverine lathyrus sativus//*//* 0.13 * +EC1.4.3.22 cadaverine lens culinaris//*//* 0.4 * +EC1.4.3.22 cadaverine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.79 * +EC1.4.3.22 cadaverine onobrychis viciifolia//*//* 0.09 * +EC1.4.3.22 cadaverine pisum sativum//*//* 0.26 * +EC1.4.3.22 cadaverine seriola quinqueradiata//*//* 0.0146 * +EC1.4.3.22 cadaverine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.4.3.22 cadaverine trifolium subterraneum//*//* 0.019 * +EC1.4.3.22 cystamine lathyrus odoratus//*//* 0.1 * +EC1.4.3.22 cystamine lathyrus sativus//*//* 0.1 * +EC1.4.3.22 dopamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.6 * +EC1.4.3.22 ethylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 66.0 * +EC1.4.3.22 ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC1.4.3.22 ethylenediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 66.0 * +EC1.4.3.22 histamine arthrobacter crystallopoietes//prokaryotes;bacteria;actinobacteria;arthrobacter//acry 0.51 * +EC1.4.3.22 histamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.6 * +EC1.4.3.22 histamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC1.4.3.22 histamine lathyrus cicera//*//* 0.091 * +EC1.4.3.22 histamine lathyrus sativus//*//* 0.112 * +EC1.4.3.22 histamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC1.4.3.22 histamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC1.4.3.22 l-lysine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC1.4.3.22 lysine methylester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.5 * +EC1.4.3.22 methylhistamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC1.4.3.22 n(tau)-methylhistamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC1.4.3.22 n-methylputrescine hyoscyamus niger//*//* 0.33 * +EC1.4.3.22 n-methylputrescine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.19 * +EC1.4.3.22 n-methylputrescine pisum sativum//*//* 1.22 * +EC1.4.3.22 n-methylputrescine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.82 * +EC1.4.3.22 n1-acetylspermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.625 * +EC1.4.3.22 n6-(4-amino-trans-but-2-enyl)adenine euphorbia characias//*//* 0.2 * +EC1.4.3.22 n6-(4-amino-trans-but-2-enyl)adenine lathyrus sativus//*//* 0.33 * +EC1.4.3.22 n6-(4-amino-trans-but-2-enyl)adenine lens culinaris//*//* 0.15 * +EC1.4.3.22 n6-(4-aminobutyl)adenine euphorbia characias//*//* 0.25 * +EC1.4.3.22 n6-(4-aminobutyl)adenine lathyrus sativus//*//* 0.48 * +EC1.4.3.22 n6-(4-aminobutyl)adenine lens culinaris//*//* 0.77 * +EC1.4.3.22 n8-acetylspermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.64 * +EC1.4.3.22 norepinephrine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.05 * +EC1.4.3.22 o2 arthrobacter globiformis//*//* 0.033 * +EC1.4.3.22 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.4.3.22 o2 komagataella pastoris//*//* 0.041 * +EC1.4.3.22 o2 pisum sativum//*//* 0.00037 * +EC1.4.3.22 octopamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.36 * +EC1.4.3.22 p-dimethylaminomethylbenzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC1.4.3.22 phenylethylamine arthrobacter globiformis//*//* 0.0015 * +EC1.4.3.22 phenylethylamine komagataella pastoris//*//* 0.039 * +EC1.4.3.22 phenylethylamine lathyrus cicera//*//* 1.2 * +EC1.4.3.22 phenylethylamine lathyrus sativus//*//* 0.84 * +EC1.4.3.22 phenylethylamine pisum sativum//*//* 0.13 * +EC1.4.3.22 propylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.4 * +EC1.4.3.22 propylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.6 * +EC1.4.3.22 putrescine arachis hypogaea//*//* 0.927 * +EC1.4.3.22 putrescine euphorbia characias//*//* 0.2 * +EC1.4.3.22 putrescine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.19 * +EC1.4.3.22 putrescine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.4.3.22 putrescine lathyrus cicera//*//* 0.046 * +EC1.4.3.22 putrescine lathyrus odoratus//*//* 0.3 * +EC1.4.3.22 putrescine lathyrus sativus//*//* 0.219 * +EC1.4.3.22 putrescine lens culinaris//*//* 0.2 * +EC1.4.3.22 putrescine onobrychis viciifolia//*//* 0.24 * +EC1.4.3.22 putrescine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.01 * +EC1.4.3.22 putrescine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 7.0 * +EC1.4.3.22 putrescine pisum sativum//*//* 0.019 * +EC1.4.3.22 putrescine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.87 * +EC1.4.3.22 putrescine trifolium subterraneum//*//* 0.038 * +EC1.4.3.22 putrescine triticum aestivum//*//* 0.435 * +EC1.4.3.22 putrescine vicia faba//*//* 0.23 * +EC1.4.3.22 serotonin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.29 * +EC1.4.3.22 spermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.225 * +EC1.4.3.22 spermidine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC1.4.3.22 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.4.3.22 spermidine lathyrus cicera//*//* 0.029 * +EC1.4.3.22 spermidine lathyrus odoratus//*//* 1.67 * +EC1.4.3.22 spermidine lathyrus sativus//*//* 0.1 * +EC1.4.3.22 spermidine pisum sativum//*//* 0.022 * +EC1.4.3.22 spermidine trifolium subterraneum//*//* 0.074 * +EC1.4.3.22 spermidine vicia faba//*//* 0.96 * +EC1.4.3.22 spermine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.4.3.22 spermine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.065 * +EC1.4.3.22 spermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC1.4.3.22 spermine lathyrus cicera//*//* 0.27 * +EC1.4.3.22 spermine lathyrus sativus//*//* 0.0587 * +EC1.4.3.22 tryptamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.1 * +EC1.4.3.22 tyramine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.12 * +EC1.4.3.22 tyramine lathyrus cicera//*//* 0.69 * +EC1.4.3.22 tyramine lathyrus sativus//*//* 0.53 * +EC1.4.3.22 tyramine pisum sativum//*//* 0.12 * +EC1.4.3.22 tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC1.4.3.23 1-methyl-l-tryptophan lechevalieria aerocolonigenes//*//* 1.43 * +EC1.4.3.23 5-fluoro-l-tryptophan lechevalieria aerocolonigenes//*//* 1.84 * +EC1.4.3.23 7-chloro-l-tryptophan lechevalieria aerocolonigenes//*//* 0.088 * +EC1.4.3.23 l-trp lechevalieria aerocolonigenes//*//* 1.53 * +EC1.4.3.24 4-(methylamino)-1-(pyridin-3-yl)butan-1-one pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.247 * +EC1.4.3.25 l-arginine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.149 * +EC1.4.3.25 l-arginine synechococcus cedorum//*//* 4.0 * +EC1.4.3.25 l-arginine synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 3.0 * +EC1.4.3.25 l-lysine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.25 * +EC1.4.3.3 2,6-dichlorophenolindophenol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.015 * +EC1.4.3.3 arginine trigonopsis variabilis//*//* 8.0 * +EC1.4.3.3 cephalosporin c rhodotorula toruloides//*//* 4.0 * +EC1.4.3.3 cephalosporin c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.3 * +EC1.4.3.3 cephalosporin c trigonopsis variabilis//*//* 0.83 * +EC1.4.3.3 citrulline trigonopsis variabilis//*//* 6.7 * +EC1.4.3.3 d-1-naphthyl-alanine rhodotorula toruloides//*//* 0.04 * +EC1.4.3.3 d-1-naphthyl-glycine rhodotorula toruloides//*//* 0.33 * +EC1.4.3.3 d-2-aminobutyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.46 * +EC1.4.3.3 d-2-chloro-phenylglycine rhodotorula toruloides//*//* 0.13 * +EC1.4.3.3 d-2-naphthyl-alanine rhodotorula toruloides//*//* 0.04 * +EC1.4.3.3 d-2-naphthyl-glycine rhodotorula toruloides//*//* 0.01 * +EC1.4.3.3 d-4-chloro-phenylglycine rhodotorula toruloides//*//* 0.03 * +EC1.4.3.3 d-4-fluoro-phenylglycine rhodotorula toruloides//*//* 0.7 * +EC1.4.3.3 d-4-hydroxy-phenylglycine rhodotorula toruloides//*//* 2.1 * +EC1.4.3.3 d-ala cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.23 * +EC1.4.3.3 d-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC1.4.3.3 d-ala rhodotorula toruloides//*//* 0.8 * +EC1.4.3.3 d-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.77 * +EC1.4.3.3 d-ala trigonopsis variabilis//*//* 7.0 * +EC1.4.3.3 d-alanine candida boidinii//*//* 4.28 * +EC1.4.3.3 d-alanine candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 27.4 * +EC1.4.3.3 d-alanine cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.2 * +EC1.4.3.3 d-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.4.3.3 d-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 140.0 * +EC1.4.3.3 d-alanine rhodotorula toruloides//*//* 0.7 * +EC1.4.3.3 d-alanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC1.4.3.3 d-alanine trigonopsis variabilis//*//* 3.0 * +EC1.4.3.3 d-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.0 * +EC1.4.3.3 d-arginine rhodotorula toruloides//*//* 18.0 * +EC1.4.3.3 d-asn rhodotorula toruloides//*//* 14.4 * +EC1.4.3.3 d-asn trigonopsis variabilis//*//* 22.6 * +EC1.4.3.3 d-asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2000.0 * +EC1.4.3.3 d-asp rhodotorula toruloides//*//* 18.0 * +EC1.4.3.3 d-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2000.0 * +EC1.4.3.3 d-aspartate rhodotorula toruloides//*//* 18.0 * +EC1.4.3.3 d-cysteine rhodotorula toruloides//*//* 21.41 * +EC1.4.3.3 d-dopa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.4.3.3 d-gln rhodotorula toruloides//*//* 4.6 * +EC1.4.3.3 d-glu rhodotorula toruloides//*//* 77.3 * +EC1.4.3.3 d-glutamate rhodotorula toruloides//*//* 76.0 * +EC1.4.3.3 d-homo-phenylalanine rhodotorula toruloides//*//* 0.3 * +EC1.4.3.3 d-ile cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 1.06 * +EC1.4.3.3 d-leu cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 6.5 * +EC1.4.3.3 d-leu trigonopsis variabilis//*//* 0.78 * +EC1.4.3.3 d-leucine candida boidinii//*//* 10.9 * +EC1.4.3.3 d-leucine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.28 * +EC1.4.3.3 d-leucine rhodotorula toruloides//*//* 0.5 * +EC1.4.3.3 d-leucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC1.4.3.3 d-leucine trigonopsis variabilis//*//* 0.08 * +EC1.4.3.3 d-lys cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.425 * +EC1.4.3.3 d-lys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC1.4.3.3 d-lys trigonopsis variabilis//*//* 29.3 * +EC1.4.3.3 d-lysine rhodotorula toruloides//*//* 14.6 * +EC1.4.3.3 d-met rhodotorula toruloides//*//* 0.2 * +EC1.4.3.3 d-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.65 * +EC1.4.3.3 d-met trigonopsis variabilis//*//* 0.46 * +EC1.4.3.3 d-methionine candida boidinii//*//* 27.4 * +EC1.4.3.3 d-methionine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.24 * +EC1.4.3.3 d-methionine rhodotorula toruloides//*//* 0.6 * +EC1.4.3.3 d-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.81 * +EC1.4.3.3 d-methionine trigonopsis variabilis//*//* 0.27 * +EC1.4.3.3 d-norleucine rhodotorula toruloides//*//* 0.39 * +EC1.4.3.3 d-norleucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC1.4.3.3 d-norvaline rhodotorula toruloides//*//* 0.89 * +EC1.4.3.3 d-norvaline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.063 * +EC1.4.3.3 d-phe cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.357 * +EC1.4.3.3 d-phe rhodotorula toruloides//*//* 0.3 * +EC1.4.3.3 d-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.6 * +EC1.4.3.3 d-phe trigonopsis variabilis//*//* 0.37 * +EC1.4.3.3 d-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.4.3.3 d-phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 35.0 * +EC1.4.3.3 d-phenylalanine rhodotorula toruloides//*//* 0.29 * +EC1.4.3.3 d-phenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC1.4.3.3 d-phenylalanine trigonopsis variabilis//*//* 0.2 * +EC1.4.3.3 d-phenylglycine rhodotorula toruloides//*//* 3.5 * +EC1.4.3.3 d-phenylglycine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.0 * +EC1.4.3.3 d-phenylglycine trigonopsis variabilis//*//* 0.38 * +EC1.4.3.3 d-pro cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 1.13 * +EC1.4.3.3 d-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC1.4.3.3 d-pro rhodotorula toruloides//*//* 21.5 * +EC1.4.3.3 d-pro sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.56 * +EC1.4.3.3 d-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.5 * +EC1.4.3.3 d-proline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 86.0 * +EC1.4.3.3 d-proline rhodotorula toruloides//*//* 5.6 * +EC1.4.3.3 d-proline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC1.4.3.3 d-ser cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.909 * +EC1.4.3.3 d-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC1.4.3.3 d-ser rhodotorula toruloides//*//* 3.62 * +EC1.4.3.3 d-ser sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC1.4.3.3 d-ser trigonopsis variabilis//*//* 36.6 * +EC1.4.3.3 d-serine candida boidinii//*//* 33.7 * +EC1.4.3.3 d-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC1.4.3.3 d-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 310.0 * +EC1.4.3.3 d-serine rhodotorula toruloides//*//* 13.75 * +EC1.4.3.3 d-serine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.8 * +EC1.4.3.3 d-serine trigonopsis variabilis//*//* 25.0 * +EC1.4.3.3 d-thr trigonopsis variabilis//*//* 11.1 * +EC1.4.3.3 d-trp trigonopsis variabilis//*//* 0.49 * +EC1.4.3.3 d-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.4.3.3 d-tryptophan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC1.4.3.3 d-tryptophan rhodotorula toruloides//*//* 0.3 * +EC1.4.3.3 d-tryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC1.4.3.3 d-tryptophan trigonopsis variabilis//*//* 0.17 * +EC1.4.3.3 d-tyr cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.226 * +EC1.4.3.3 d-tyr trigonopsis variabilis//*//* 0.45 * +EC1.4.3.3 d-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC1.4.3.3 d-val cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.263 * +EC1.4.3.3 d-val rhodotorula toruloides//*//* 18.9 * +EC1.4.3.3 d-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.63 * +EC1.4.3.3 d-val trigonopsis variabilis//*//* 14.4 * +EC1.4.3.3 d-valine candida boidinii//*//* 3.95 * +EC1.4.3.3 d-valine rhodotorula toruloides//*//* 1.3 * +EC1.4.3.3 d-valine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.67 * +EC1.4.3.3 d-valine trigonopsis variabilis//*//* 3.0 * +EC1.4.3.3 ethionine trigonopsis variabilis//*//* 1.0 * +EC1.4.3.3 fad sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00045 * +EC1.4.3.3 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 140.0 * +EC1.4.3.3 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 180.0 * +EC1.4.3.3 methylene blue sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.067 * +EC1.4.3.3 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC1.4.3.3 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC1.4.3.3 o2 rhodotorula toruloides//*//* 0.18 * +EC1.4.3.3 o2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC1.4.3.3 o2 trigonopsis variabilis//*//* 0.7 * +EC1.4.3.3 phenylalanine trigonopsis variabilis//*//* 0.06 * +EC1.4.3.3 serine trigonopsis variabilis//*//* 17.3 * +EC1.4.3.3 thiazolidine-2-carboxylate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.99 * +EC1.4.3.3 tyrosine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.8 * +EC1.4.3.4 (1r,6s)-3-methyl-6-phenyl-3-aza-bicyclo[4.1.0]heptane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.221 * +EC1.4.3.4 (1s,6r)-3-methyl-6-phenyl-3-aza-bicyclo[4.1.0]heptane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.753 * +EC1.4.3.4 1-(4-bromophenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.103 * +EC1.4.3.4 1-(4-bromophenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.034 * +EC1.4.3.4 1-(4-chlorophenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.094 * +EC1.4.3.4 1-(4-chlorophenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC1.4.3.4 1-(4-fluorophenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.161 * +EC1.4.3.4 1-(4-fluorophenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.174 * +EC1.4.3.4 1-(4-methoxyphenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0555 * +EC1.4.3.4 1-(4-methoxyphenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC1.4.3.4 1-(4-methylphenyl)methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0678 * +EC1.4.3.4 1-(4-methylphenyl)methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.055 * +EC1.4.3.4 1-[4-(trifluoromethyl)phenyl]methanamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.115 * +EC1.4.3.4 1-[4-(trifluoromethyl)phenyl]methanamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.194 * +EC1.4.3.4 1-methyl-3-(4-chlorophenyl)-3-pyrroline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0448 * +EC1.4.3.4 1-methyl-3-(4-chlorophenyl)-3-pyrroline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.021 * +EC1.4.3.4 1-methyl-3-(4-chlorophenyl)-3-pyrroline papio sp.//*//* 0.0461 * +EC1.4.3.4 1-methyl-3-phenyl-3-pyrroline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0564 * +EC1.4.3.4 1-methyl-3-phenyl-3-pyrroline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.125 * +EC1.4.3.4 1-methyl-3-phenyl-3-pyrroline papio sp.//*//* 0.0546 * +EC1.4.3.4 1-methyl-4-(1-methylpyrrol-2-yl)-1,2,3,6-tetrahydropyridine papio anubis//*//* 0.0683 * +EC1.4.3.4 1-methyl-4-(1-methylpyrrol-2-yl)-1,2,3,6-tetrahydropyridine papio sp.//*//* 0.0683 * +EC1.4.3.4 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.4.3.4 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC1.4.3.4 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0521 * +EC1.4.3.4 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine papio sp.//*//* 0.173 * +EC1.4.3.4 2-phenylethylamine avena sativa//*//* 0.71 * +EC1.4.3.4 2-phenylethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC1.4.3.4 2-phenylethylamine coregonus lavaretus ludoga//*//* 4.3 * +EC1.4.3.4 2-phenylethylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 86.0 * +EC1.4.3.4 2-phenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.4.3.4 2-phenylethylamine narcissus tazetta//*//* 1.4 * +EC1.4.3.4 2-phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0208 * +EC1.4.3.4 3-phenyl-3-pyrroline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.252 * +EC1.4.3.4 3-phenylpropylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.8 * +EC1.4.3.4 4-benzyl-1-cyclopropyl-1,2,3,6-tetrahydropyridine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.414 * +EC1.4.3.4 4-carboxybenzylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.076 * +EC1.4.3.4 4-hydroxy-3-methoxy-2-phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.475 * +EC1.4.3.4 4-methoxy-2-phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0238 * +EC1.4.3.4 4-phenylbutylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.185 * +EC1.4.3.4 5-hydroxytryptamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC1.4.3.4 5-hydroxytryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.187 * +EC1.4.3.4 5-methoxytryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0159 * +EC1.4.3.4 alpha-methylbenzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.0 * +EC1.4.3.4 amylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC1.4.3.4 benzylamine hydrobromide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC1.4.3.4 benzylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.56 * +EC1.4.3.4 benzylamine avena sativa//*//* 0.27 * +EC1.4.3.4 benzylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC1.4.3.4 benzylamine coregonus lavaretus ludoga//*//* 4.2 * +EC1.4.3.4 benzylamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0822 * +EC1.4.3.4 benzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC1.4.3.4 benzylamine narcissus tazetta//*//* 0.41 * +EC1.4.3.4 benzylamine papio hamadryas//*//* 0.616 * +EC1.4.3.4 benzylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC1.4.3.4 benzylamine todarodes pacificus//*//* 6.81 * +EC1.4.3.4 beta-phenylethylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.6 * +EC1.4.3.4 dopamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.088 * +EC1.4.3.4 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.111 * +EC1.4.3.4 dopamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.405 * +EC1.4.3.4 ethanolamine narcissus tazetta//*//* 2.0 * +EC1.4.3.4 ethylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 20.0 * +EC1.4.3.4 ethylamine narcissus tazetta//*//* 0.13 * +EC1.4.3.4 histamine coregonus lavaretus ludoga//*//* 3.6 * +EC1.4.3.4 histamine todarodes pacificus//*//* 5.61 * +EC1.4.3.4 kynuramine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC1.4.3.4 kynuramine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.058 * +EC1.4.3.4 kynuramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0161 * +EC1.4.3.4 kynuramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC1.4.3.4 m-chlorobenzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC1.4.3.4 m-methylbenzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC1.4.3.4 methylamine narcissus tazetta//*//* 0.11 * +EC1.4.3.4 n-butylamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.36 * +EC1.4.3.4 n-butylamine narcissus tazetta//*//* 0.11 * +EC1.4.3.4 n-butylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.36 * +EC1.4.3.4 n-pentylamine narcissus tazetta//*//* 0.5 * +EC1.4.3.4 n-propylamine narcissus tazetta//*//* 0.059 * +EC1.4.3.4 o-chlorobenzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC1.4.3.4 o2 danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.108 * +EC1.4.3.4 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC1.4.3.4 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0093 * +EC1.4.3.4 p-chlorobenzylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.095 * +EC1.4.3.4 p-nitrobenzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC1.4.3.4 p-nitrophenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.4.3.4 p-trifluoromethyl-benzylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.4.3.4 p-tyramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC1.4.3.4 p-tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02031 * +EC1.4.3.4 phenethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.89 * +EC1.4.3.4 phenylbutylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC1.4.3.4 phenylethylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC1.4.3.4 phenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC1.4.3.4 phenylethylamine mesocricetus auratus//*//* 0.0004 * +EC1.4.3.4 phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.4.3.4 phenylethylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC1.4.3.4 phenylethylamine todarodes pacificus//*//* 6.34 * +EC1.4.3.4 serotonin coregonus lavaretus ludoga//*//* 3.1 * +EC1.4.3.4 serotonin danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.069 * +EC1.4.3.4 serotonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0863 * +EC1.4.3.4 serotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC1.4.3.4 serotonin todarodes pacificus//*//* 1.12 * +EC1.4.3.4 tryptamine coregonus lavaretus ludoga//*//* 3.0 * +EC1.4.3.4 tryptamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC1.4.3.4 tryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0185 * +EC1.4.3.4 tryptamine todarodes pacificus//*//* 4.53 * +EC1.4.3.4 tyramine coregonus lavaretus ludoga//*//* 3.7 * +EC1.4.3.4 tyramine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.018 * +EC1.4.3.4 tyramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC1.4.3.4 tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC1.4.3.4 tyramine todarodes pacificus//*//* 6.14 * +EC1.4.3.5 5'-homopyridoxine-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0059 * +EC1.4.3.5 5'-methylpyridoxine-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0059 * +EC1.4.3.5 5'-phospho-pyridoxal-o-carboxymethyloxime oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.025 * +EC1.4.3.5 5'-phospho-pyridoxaloxime oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.021 * +EC1.4.3.5 5'-phospho-pyridoxyl-3-aminobenzoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC1.4.3.5 5'-phospho-pyridoxyl-4-aminobenzoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC1.4.3.5 5'-phospho-pyridoxyl-5-aminovalerate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC1.4.3.5 5'-phospho-pyridoxyl-aniline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC1.4.3.5 alpha-n-(5'-phospho-4'-pyridoxyl)-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC1.4.3.5 alpha-n-(5'-phospho-4'-pyridoxyl)-ornithine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.53 * +EC1.4.3.5 fmn oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.1e-05 * +EC1.4.3.5 fmn saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6e-05 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-d-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.77 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-d-alpha-aminobutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-d-leucine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.125 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-d-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.6 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-glycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.068 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.22 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-alpha-aminobutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.091 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-benzylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.033 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-leucine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.075 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-phenylalanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.095 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.031 * +EC1.4.3.5 n-(5'-phospho-4'-pyridoxyl)-n'-(1-naphthyl)ethylenediamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.008 * +EC1.4.3.5 n-phosphopyridoxyl tryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00065 * +EC1.4.3.5 n10-(5'-phospho-4'-pyridoxyl)-1,10-diaminodecane oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC1.4.3.5 n2-acetyl-n6-(5'-phospho-pyridoxyl)-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.065 * +EC1.4.3.5 o2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC1.4.3.5 o2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.085 * +EC1.4.3.5 phospho-pyridoxyl-3-alanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC1.4.3.5 phospho-pyridoxyl-4-aminobutyrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC1.4.3.5 phospho-pyridoxyl-4-aminobutyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC1.4.3.5 pyridoxal phosphate oxime oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.021 * +EC1.4.3.5 pyridoxal phosphate-carboxymethyloxime ester oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.025 * +EC1.4.3.5 pyridoxamine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.105 * +EC1.4.3.5 pyridoxamine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC1.4.3.5 pyridoxamine 5'-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0013 * +EC1.4.3.5 pyridoxamine 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC1.4.3.5 pyridoxamine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.4.3.5 pyridoxamine 5'-phosphate triticum aestivum//*//* 0.0067 * +EC1.4.3.5 pyridoxamine-5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.4.3.5 pyridoxine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.4.3.5 pyridoxine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC1.4.3.5 pyridoxine 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.36 * +EC1.4.3.5 pyridoxine 5'-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0031 * +EC1.4.3.5 pyridoxine 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00092 * +EC1.4.3.5 pyridoxine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0012 * +EC1.4.3.5 pyridoxine 5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC1.4.3.5 pyridoxine 5'-phosphate triticum aestivum//*//* 0.008 * +EC1.4.3.7 d-aspartate faxonius limosus//*//* 5.4 * +EC1.4.3.7 d-aspartate octopus vulgaris//*//* 4.5 * +EC1.4.3.7 d-glutamate faxonius limosus//*//* 15.2 * +EC1.4.3.7 d-glutamate octopus vulgaris//*//* 8.0 * +EC1.4.3.8 ethanolamine phormia regina//*//* 0.16 * +EC1.4.3.8 ethanolamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.0 * +EC1.4.4.2 bicarbonate parvimonas micra//prokaryotes;bacteria;firmicutes - others;parvimonas//pmic 31.0 * +EC1.4.4.2 co2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.4 * +EC1.4.4.2 glycine c3-plants//*//* 6.0 * +EC1.4.4.2 glycine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0034 * +EC1.4.4.2 glycine parvimonas micra//prokaryotes;bacteria;firmicutes - others;parvimonas//pmic 32.0 * +EC1.4.4.2 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0074 * +EC1.4.4.2 glycine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 2.84 * +EC1.4.4.2 h1 protein trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0026 * +EC1.4.4.2 h2 protein trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0037 * +EC1.4.4.2 his-tagged h-apoprotein synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 12.3 * +EC1.4.4.2 lipoamide trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.043 * +EC1.4.4.2 lipoylated h-apoprotein synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.47 * +EC1.4.4.2 lipoylated his-tagged h-apoprotein synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.0 * +EC1.4.4.2 pyridoxal phosphate parvimonas micra//prokaryotes;bacteria;firmicutes - others;parvimonas//pmic 0.0046 * +EC1.4.4.2 rtvh1 protein trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0026 * +EC1.4.4.2 rtvh2 protein trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0037 * +EC1.4.5.1 2,6-dichlorophenolindophenol escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 0.01 * +EC1.4.5.1 d-2-amino-n-butyrate escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 12.0 * +EC1.4.5.1 d-alanine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 2.0 * +EC1.4.5.1 d-alanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 15.0 * +EC1.4.5.1 d-cycloserine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 200.0 * +EC1.4.5.1 d-glutamine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 14.0 * +EC1.4.5.1 d-glutamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 71.0 * +EC1.4.5.1 d-methionine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 11.0 * +EC1.4.5.1 d-phenylalanine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 6.0 * +EC1.4.5.1 d-proline escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 40.0 * +EC1.4.5.1 d-proline helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 40.2 * +EC1.4.5.1 d-serine escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 19.0 * +EC1.4.5.1 oxidized 2,6-dichlorophenolindophenol escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 0.63 * +EC1.4.5.1 oxidized coenzyme q1 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0082 * +EC1.4.7.1 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.17 * +EC1.4.7.1 2-oxoglutarate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 31.0 * +EC1.4.7.1 2-oxoglutarate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.28 * +EC1.4.7.1 2-oxoglutarate medicago sativa//*//* 0.606 * +EC1.4.7.1 2-oxoglutarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.33 * +EC1.4.7.1 2-oxoglutarate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.2 * +EC1.4.7.1 2-oxoglutarate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.062 * +EC1.4.7.1 2-oxoglutarate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.5 * +EC1.4.7.1 ferredoxin chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.015 * +EC1.4.7.1 ferredoxin desmonostoc muscorum//*//* 0.005 * +EC1.4.7.1 ferredoxin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0019 * +EC1.4.7.1 ferredoxin medicago sativa//*//* 0.0018 * +EC1.4.7.1 ferredoxin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0048 * +EC1.4.7.1 ferredoxin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0002 * +EC1.4.7.1 ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.002 * +EC1.4.7.1 ferredoxin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0035 * +EC1.4.7.1 iodonitrotetrazolium synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.1 * +EC1.4.7.1 l-glutamate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.044 * +EC1.4.7.1 l-glutamine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.19 * +EC1.4.7.1 l-glutamine haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 2.1 * +EC1.4.7.1 l-glutamine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 1.1 * +EC1.4.7.1 l-glutamine medicago sativa//*//* 0.182 * +EC1.4.7.1 l-glutamine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.5 * +EC1.4.7.1 l-glutamine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.53 * +EC1.4.7.1 l-glutamine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 2.5 * +EC1.4.7.1 methyl viologen chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 4.7 * +EC1.4.7.1 methyl viologen glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.133 * +EC1.4.7.1 reduced bacterial ferredoxin 1 hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.005 * +EC1.4.7.1 reduced ferredoxin haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.018 * +EC1.4.9.1 1,12-diaminododecane pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC1.4.9.1 1,6-diaminohexane paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.72 * +EC1.4.9.1 1,7-diaminoheptane paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.38 * +EC1.4.9.1 1-aminopentane paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 2.5 * +EC1.4.9.1 12-aminododecanoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.033 * +EC1.4.9.1 2,6-dichloroindophenol paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.12 * +EC1.4.9.1 butylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.87 * +EC1.4.9.1 cytochrome c-550 paracoccus versutus//*//* 0.042 * +EC1.4.9.1 ethylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.019 * +EC1.4.9.1 k3fe(cn)6 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.78 * +EC1.4.9.1 methylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.004 * +EC1.4.9.1 phenazine ethosulfate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.014 * +EC1.4.9.1 propylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.036 * +EC1.4.9.2 azurin alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.044 * +EC1.4.9.2 benzylamine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 6.7 * +EC1.4.9.2 beta-phenylethylamine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.0018 * +EC1.4.9.2 beta-phenylethylamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0045 * +EC1.4.9.2 dopamine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.13 * +EC1.4.9.2 histamine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.171 * +EC1.4.9.2 phenazine ethosulfate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.45 * +EC1.4.9.2 phenazine methosulfate achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.048 * +EC1.4.9.2 phenazine methosulfate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.25 * +EC1.4.9.2 phenazine methosulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.11 * +EC1.4.9.2 tryptamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0092 * +EC1.4.9.2 tyramine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.0069 * +EC1.4.9.2 tyramine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.0054 * +EC1.4.9.2 tyramine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0012 * +EC1.4.99.2 phenazine methosulfate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.056 * +EC1.4.99.2 taurine bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 20.0 * +EC1.4.99.6 2,6-dichlorophenolindophenol pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.07 * +EC1.4.99.6 2-oxo-4-methylvaleric acid ureibacillus thermosphaericus//*//* 32.3 * +EC1.4.99.6 coenzyme q1 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0082 * +EC1.4.99.6 d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.46 * +EC1.4.99.6 d-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.37 * +EC1.4.99.6 d-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.06 * +EC1.4.99.6 d-his pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.81 * +EC1.4.99.6 d-histidine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.52 * +EC1.4.99.6 d-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.45 * +EC1.4.99.6 d-leucine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.8 * +EC1.4.99.6 d-lysine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.19 * +EC1.4.99.6 d-methionine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.43 * +EC1.4.99.6 d-ornithine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.48 * +EC1.4.99.6 d-phe pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.07 * +EC1.4.99.6 d-phenylalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.13 * +EC1.4.99.6 d-pro helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 40.2 * +EC1.4.99.6 d-pro pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.82 * +EC1.4.99.6 d-proline helicobacter pylori nctc 11637 = ccug 17874 = atcc 43504//*//* 0.0082 * +EC1.4.99.6 d-ser pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.65 * +EC1.4.99.6 d-thr pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.47 * +EC1.4.99.6 d-tryptophan pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.47 * +EC1.4.99.6 d-tyr pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.78 * +EC1.4.99.6 d-tyrosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.4 * +EC1.4.99.6 d-val pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.01 * +EC1.4.99.6 methylene blue pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.008 * +EC1.4.99.B3 l-phenylalanine cosenzaea myxofaciens//*//* 2.28 * +EC1.5.1.1 delta1-piperidine-2-carboxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.21 * +EC1.5.1.1 delta1-piperidine-2-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC1.5.1.1 delta1-pyrroline-2-carboxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.86 * +EC1.5.1.1 delta1-pyrroline-2-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.082 * +EC1.5.1.1 nadh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC1.5.1.1 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC1.5.1.1 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC1.5.1.10 l-saccharopine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.32 * +EC1.5.1.10 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.054 * +EC1.5.1.10 nadp+ meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.17 * +EC1.5.1.10 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC1.5.1.10 saccharopine meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 1.25 * +EC1.5.1.10 saccharopine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.92 * +EC1.5.1.11 2-oxobutanoate cerastoderma edule//*//* 6.2 * +EC1.5.1.11 2-oxobutanoate mytilus edulis//*//* 7.3 * +EC1.5.1.11 2-oxobutanoate sepia officinalis//*//* 7.8 * +EC1.5.1.11 2-oxobutyrate pecten maximus//*//* 5.9 * +EC1.5.1.11 2-oxovalerate pecten maximus//*//* 49.8 * +EC1.5.1.11 arg buccinum undatum//*//* 1.22 * +EC1.5.1.11 arg cerastoderma edule//*//* 0.9 * +EC1.5.1.11 arg cerebratulus lacteus//*//* 1.4 * +EC1.5.1.11 arg concholepas concholepas//*//* 2.5 * +EC1.5.1.11 arg mytilus edulis//*//* 0.3 * +EC1.5.1.11 arg sepia officinalis//*//* 0.3 * +EC1.5.1.11 d-lysopine glycymeris glycymeris//*//* 3.2 * +EC1.5.1.11 d-lysopine mytilus edulis//*//* 6.4 * +EC1.5.1.11 d-lysopine sepia officinalis//*//* 3.2 * +EC1.5.1.11 d-octopine buccinum undatum//*//* 0.1 * +EC1.5.1.11 d-octopine cardium edule//*//* 2.0 * +EC1.5.1.11 d-octopine cerastoderma edule//*//* 5.2 * +EC1.5.1.11 d-octopine glycymeris glycymeris//*//* 1.5 * +EC1.5.1.11 d-octopine pecten jacobaeus//*//* 2.0 * +EC1.5.1.11 d-octopine pecten maximus//*//* 1.5 * +EC1.5.1.11 d-octopine sepia officinalis//*//* 0.1 * +EC1.5.1.11 l-arg catharanthus roseus//*//* 5.1 * +EC1.5.1.11 l-arg cerastoderma edule//*//* 3.0 * +EC1.5.1.11 l-arg glycymeris glycymeris//*//* 2.2 * +EC1.5.1.11 l-arg helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 8.8 * +EC1.5.1.11 l-arg mytilus edulis//*//* 1.4 * +EC1.5.1.11 l-arg pecten jacobaeus//*//* 1.05 * +EC1.5.1.11 l-arg pecten maximus//*//* 0.5 * +EC1.5.1.11 l-arg sepia officinalis//*//* 1.4 * +EC1.5.1.11 l-canavanine catharanthus roseus//*//* 3.9 * +EC1.5.1.11 l-citrulline catharanthus roseus//*//* 22.0 * +EC1.5.1.11 l-cys catharanthus roseus//*//* 5.4 * +EC1.5.1.11 l-gln catharanthus roseus//*//* 2.7 * +EC1.5.1.11 l-his catharanthus roseus//*//* 23.0 * +EC1.5.1.11 l-lys mytilus edulis//*//* 3.3 * +EC1.5.1.11 l-lys sepia officinalis//*//* 6.1 * +EC1.5.1.11 l-lysine mytilus galloprovincialis//*//* 1.4 * +EC1.5.1.11 l-met helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 11.2 * +EC1.5.1.11 l-orn catharanthus roseus//*//* 0.7 * +EC1.5.1.11 l-orn cerastoderma edule//*//* 28.0 * +EC1.5.1.11 l-orn helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 1.85 * +EC1.5.1.11 l-orn sepia officinalis//*//* 25.0 * +EC1.5.1.11 lys glycymeris glycymeris//*//* 1.8 * +EC1.5.1.11 lys mytilus edulis//*//* 1.8 * +EC1.5.1.11 nad+ cerastoderma edule//*//* 110.0 * +EC1.5.1.11 nad+ cerebratulus lacteus//*//* 0.014 * +EC1.5.1.11 nad+ glycymeris glycymeris//*//* 75.0 * +EC1.5.1.11 nad+ mytilus edulis//*//* 0.022 * +EC1.5.1.11 nad+ pecten jacobaeus//*//* 0.21 * +EC1.5.1.11 nad+ sepia officinalis//*//* 0.11 * +EC1.5.1.11 nadh buccinum undatum//*//* 0.01 * +EC1.5.1.11 nadh cerastoderma edule//*//* 13.0 * +EC1.5.1.11 nadh cerebratulus lacteus//*//* 0.028 * +EC1.5.1.11 nadh concholepas concholepas//*//* 0.08 * +EC1.5.1.11 nadh glycymeris glycymeris//*//* 2.4 * +EC1.5.1.11 nadh mytilus edulis//*//* 0.011 * +EC1.5.1.11 nadh mytilus galloprovincialis//*//* 0.024 * +EC1.5.1.11 nadh pecten jacobaeus//*//* 0.05 * +EC1.5.1.11 nadh pecten maximus//*//* 0.0198 * +EC1.5.1.11 nadh sepia officinalis//*//* 0.02 * +EC1.5.1.11 nadp+ catharanthus roseus//*//* 0.015 * +EC1.5.1.11 nadph catharanthus roseus//*//* 0.001 * +EC1.5.1.11 octopine buccinum undatum//*//* 0.18 * +EC1.5.1.11 octopine cerebratulus lacteus//*//* 0.22 * +EC1.5.1.11 octopine concholepas concholepas//*//* 0.94 * +EC1.5.1.11 octopine mytilus edulis//*//* 0.22 * +EC1.5.1.11 octopine sepia officinalis//*//* 0.09 * +EC1.5.1.11 orn mytilus edulis//*//* 6.0 * +EC1.5.1.11 oxaloacetate buccinum undatum//*//* 1.6 * +EC1.5.1.11 oxaloacetate cardium edule//*//* 1.0 * +EC1.5.1.11 oxaloacetate catharanthus roseus//*//* 1.0 * +EC1.5.1.11 oxaloacetate glycymeris glycymeris//*//* 1.0 * +EC1.5.1.11 oxaloacetate sepia officinalis//*//* 1.6 * +EC1.5.1.11 pyruvate buccinum undatum//*//* 1.56 * +EC1.5.1.11 pyruvate cerastoderma edule//*//* 0.8 * +EC1.5.1.11 pyruvate cerebratulus lacteus//*//* 0.5 * +EC1.5.1.11 pyruvate concholepas concholepas//*//* 3.1 * +EC1.5.1.11 pyruvate glycymeris glycymeris//*//* 0.8 * +EC1.5.1.11 pyruvate mytilus edulis//*//* 0.4 * +EC1.5.1.11 pyruvate mytilus galloprovincialis//*//* 0.25 * +EC1.5.1.11 pyruvate pecten jacobaeus//*//* 1.18 * +EC1.5.1.11 pyruvate pecten maximus//*//* 0.77 * +EC1.5.1.11 pyruvate sepia officinalis//*//* 0.25 * +EC1.5.1.15 5,10-methenyltetrahydrofolate acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 1.0 * +EC1.5.1.15 5,10-methenyltetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC1.5.1.15 arsenate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.793 * +EC1.5.1.15 l-5,10-methylenetetrahydrofolate acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.26 * +EC1.5.1.15 l-5,10-methylenetetrahydrofolate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.066 * +EC1.5.1.15 l-5,10-methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC1.5.1.15 l-5,10-methylenetetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC1.5.1.15 l-5,10-methylenetetrahydrofolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC1.5.1.15 methenyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.096 * +EC1.5.1.15 methenyltetrahydrofolate spodoptera frugiperda//*//* 0.03 * +EC1.5.1.15 mg2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.171 * +EC1.5.1.15 mg2+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC1.5.1.15 nad+ acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 4.0 * +EC1.5.1.15 nad+ clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.79 * +EC1.5.1.15 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.132 * +EC1.5.1.15 nad+ methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.15 * +EC1.5.1.15 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.111 * +EC1.5.1.15 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC1.5.1.15 nad+ spodoptera frugiperda//*//* 0.013 * +EC1.5.1.15 nadh acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 2.0 * +EC1.5.1.15 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.352 * +EC1.5.1.15 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC1.5.1.15 phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.17 * +EC1.5.1.16 canavanine mytilus edulis//*//* 1.8 * +EC1.5.1.16 d(+)-lysopine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.16 * +EC1.5.1.16 d(+)-octopine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.8 * +EC1.5.1.16 l-arginine mytilus edulis//*//* 1.1 * +EC1.5.1.16 l-arginine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 4.4 * +EC1.5.1.16 l-citrulline nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 17.1 * +EC1.5.1.16 l-glutamine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 6.1 * +EC1.5.1.16 l-histidine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 6.1 * +EC1.5.1.16 l-lysine mytilus edulis//*//* 1.8 * +EC1.5.1.16 l-lysine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.56 * +EC1.5.1.16 l-methionine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.3 * +EC1.5.1.16 l-ornithine mytilus edulis//*//* 6.0 * +EC1.5.1.16 l-ornithine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.3 * +EC1.5.1.16 nadp+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01 * +EC1.5.1.16 nadph nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.003 * +EC1.5.1.16 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.23 * +EC1.5.1.17 2-aminobutanoate crassostrea gigas//eukaryotes;animals;mollusks//crg 150.0 * +EC1.5.1.17 2-oxobutanoate aphrodita aculeata//*//* 2.35 * +EC1.5.1.17 2-oxobutanoate crassostrea gigas//eukaryotes;animals;mollusks//crg 3.45 * +EC1.5.1.17 2-oxobutyrate mercenaria mercenaria//*//* 2.5 * +EC1.5.1.17 2-oxopentanoate aphrodita aculeata//*//* 9.1 * +EC1.5.1.17 2-oxovalerate crassostrea gigas//eukaryotes;animals;mollusks//crg 16.0 * +EC1.5.1.17 alanopine mytilus edulis//*//* 1.0 * +EC1.5.1.17 gly aphrodita aculeata//*//* 285.0 * +EC1.5.1.17 gly busycotypus canaliculatum//*//* 619.0 * +EC1.5.1.17 gly crassostrea gigas//eukaryotes;animals;mollusks//crg 96.0 * +EC1.5.1.17 gly littorina littorea//*//* 50.0 * +EC1.5.1.17 gly mercenaria mercenaria//*//* 291.0 * +EC1.5.1.17 gly mytilus edulis//*//* 50.0 * +EC1.5.1.17 glyoxylate crassostrea gigas//eukaryotes;animals;mollusks//crg 3.49 * +EC1.5.1.17 glyoxylate mercenaria mercenaria//*//* 11.9 * +EC1.5.1.17 hydroxypyruvate aphrodita aculeata//*//* 2.3 * +EC1.5.1.17 hydroxypyruvate crassostrea gigas//eukaryotes;animals;mollusks//crg 6.48 * +EC1.5.1.17 l-2-aminobutyrate mercenaria mercenaria//*//* 15.0 * +EC1.5.1.17 l-ala aphrodita aculeata//*//* 2.75 * +EC1.5.1.17 l-ala busycotypus canaliculatum//*//* 8.84 * +EC1.5.1.17 l-ala crassostrea gigas//eukaryotes;animals;mollusks//crg 98.0 * +EC1.5.1.17 l-ala glycera alba//*//* 7.0 * +EC1.5.1.17 l-ala littorina littorea//*//* 14.9 * +EC1.5.1.17 l-ala mercenaria mercenaria//*//* 15.1 * +EC1.5.1.17 l-ala mytilus edulis//*//* 10.0 * +EC1.5.1.17 l-ala scolelepis fuliginosa//*//* 90.5 * +EC1.5.1.17 l-cys aphrodita aculeata//*//* 12.0 * +EC1.5.1.17 l-cys concholepas concholepas//*//* 12.0 * +EC1.5.1.17 l-cys mercenaria mercenaria//*//* 23.0 * +EC1.5.1.17 l-ser aphrodita aculeata//*//* 48.0 * +EC1.5.1.17 l-ser concholepas concholepas//*//* 52.0 * +EC1.5.1.17 l-ser mercenaria mercenaria//*//* 247.0 * +EC1.5.1.17 l-thr aphrodita aculeata//*//* 25.5 * +EC1.5.1.17 l-thr mercenaria mercenaria//*//* 110.0 * +EC1.5.1.17 l-val aphrodita aculeata//*//* 70.5 * +EC1.5.1.17 l-val mercenaria mercenaria//*//* 20.0 * +EC1.5.1.17 meso-alanopine aphrodita aculeata//*//* 1.68 * +EC1.5.1.17 meso-alanopine littorina littorea//*//* 6.5 * +EC1.5.1.17 nad+ aphrodita aculeata//*//* 0.75 * +EC1.5.1.17 nad+ littorina littorea//*//* 0.18 * +EC1.5.1.17 nad+ mytilus edulis//*//* 0.03 * +EC1.5.1.17 nadh aphrodita aculeata//*//* 9.0 * +EC1.5.1.17 nadh concholepas concholepas//*//* 0.02 * +EC1.5.1.17 nadh crassostrea gigas//eukaryotes;animals;mollusks//crg 0.01 * +EC1.5.1.17 nadh littorina littorea//*//* 9.0 * +EC1.5.1.17 oxaloacetate aphrodita aculeata//*//* 0.9 * +EC1.5.1.17 pyruvate aphrodita aculeata//*//* 0.2 * +EC1.5.1.17 pyruvate concholepas concholepas//*//* 0.7 * +EC1.5.1.17 pyruvate crassostrea gigas//eukaryotes;animals;mollusks//crg 0.45 * +EC1.5.1.17 pyruvate glycera alba//*//* 1.3 * +EC1.5.1.17 pyruvate littorina littorea//*//* 0.17 * +EC1.5.1.17 pyruvate mercenaria mercenaria//*//* 0.38 * +EC1.5.1.17 pyruvate scolelepis fuliginosa//*//* 0.5 * +EC1.5.1.17 ser crassostrea gigas//eukaryotes;animals;mollusks//crg 680.0 * +EC1.5.1.18 (-)-ephedrine arthrobacter globiformis//*//* 0.02 * +EC1.5.1.18 nad+ arthrobacter globiformis//*//* 0.11 * +EC1.5.1.19 2-oxoglutarate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.9 * +EC1.5.1.19 l-arginine helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.74 * +EC1.5.1.19 l-ornithine helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 3.7 * +EC1.5.1.19 nadph helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.008 * +EC1.5.1.2 1-pyrroline-5-carboxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.096 * +EC1.5.1.2 1-pyrroline-5-carboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.667 * +EC1.5.1.2 1-pyrroline-5-carboxylate medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.02 * +EC1.5.1.2 1-pyrroline-5-carboxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC1.5.1.2 1-pyrroline-5-carboxylate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.184 * +EC1.5.1.2 3,4-dehydro-l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.141 * +EC1.5.1.2 delta1-pyrroline-3-hydroxy-5-carboxylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.4 * +EC1.5.1.2 dl-pyrroline-5-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC1.5.1.2 dl-pyrroline-5-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC1.5.1.2 dl-pyrroline-5-carboxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC1.5.1.2 l-proline acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 1.55 * +EC1.5.1.2 l-proline clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 1.25 * +EC1.5.1.2 l-proline drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 50.0 * +EC1.5.1.2 l-proline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC1.5.1.2 l-pyrroline-5-carboxylate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.19 * +EC1.5.1.2 l-pyrroline-5-carboxylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.125 * +EC1.5.1.2 l-pyrroline-5-carboxylate chlorella vulgaris var. autotrophica//*//* 0.17 * +EC1.5.1.2 l-pyrroline-5-carboxylate chloroidium saccharophilum//*//* 0.17 * +EC1.5.1.2 l-pyrroline-5-carboxylate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.33 * +EC1.5.1.2 l-pyrroline-5-carboxylate cucurbita moschata//eukaryotes;plants;eudicots;cucumber family//cmos 0.09 * +EC1.5.1.2 l-pyrroline-5-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC1.5.1.2 l-pyrroline-5-carboxylate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.12 * +EC1.5.1.2 l-pyrroline-5-carboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC1.5.1.2 l-pyrroline-5-carboxylate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.45 * +EC1.5.1.2 l-pyrroline-5-carboxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.09 * +EC1.5.1.2 l-pyrroline-5-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC1.5.1.2 nad+ acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 10.5 * +EC1.5.1.2 nad+ clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 1.0 * +EC1.5.1.2 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.151 * +EC1.5.1.2 nadh acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.025 * +EC1.5.1.2 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.21 * +EC1.5.1.2 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC1.5.1.2 nadh chlorella vulgaris var. autotrophica//*//* 0.1 * +EC1.5.1.2 nadh chloroidium saccharophilum//*//* 0.1 * +EC1.5.1.2 nadh cucurbita moschata//eukaryotes;plants;eudicots;cucumber family//cmos 0.06 * +EC1.5.1.2 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC1.5.1.2 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.1 * +EC1.5.1.2 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC1.5.1.2 nadh medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.468 * +EC1.5.1.2 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.057 * +EC1.5.1.2 nadh pisum sativum//*//* 0.19 * +EC1.5.1.2 nadh pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC1.5.1.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.37 * +EC1.5.1.2 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.048 * +EC1.5.1.2 nadh streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.176 * +EC1.5.1.2 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC1.5.1.2 nadp+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.093 * +EC1.5.1.2 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.026 * +EC1.5.1.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0071 * +EC1.5.1.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC1.5.1.2 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC1.5.1.2 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.283 * +EC1.5.1.2 nadph medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.039 * +EC1.5.1.2 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.059 * +EC1.5.1.2 nadph pisum sativum//*//* 0.1 * +EC1.5.1.2 nadph pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.02 * +EC1.5.1.2 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.5.1.2 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.056 * +EC1.5.1.2 nadph streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.012 * +EC1.5.1.20 (+)-5-methyl-5,6,7,8-tetrahydropteroylpentaglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.5.1.20 (+)-5-methyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC1.5.1.20 (6r)-5,10-methylenetetrahydrofolate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.18 * +EC1.5.1.20 5,10-methylenetetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0005 * +EC1.5.1.20 5,10-methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC1.5.1.20 5,10-methylenetetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.019 * +EC1.5.1.20 5-methyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.085 * +EC1.5.1.20 5-methyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC1.5.1.20 5-methyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC1.5.1.20 5-methyltetrahydropteroylhexaglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0019 * +EC1.5.1.20 5-methyltetrahydropteroylmonoglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC1.5.1.20 benzyl viologen clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 11.1 * +EC1.5.1.20 dl-5-methyltetrahydrofolate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.12 * +EC1.5.1.20 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC1.5.1.20 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.085 * +EC1.5.1.20 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.5.1.20 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC1.5.1.21 delta1-piperideine-2-carboxylate haemonchus contortus//*//* 1.4 * +EC1.5.1.21 delta1-piperideine-2-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.23 * +EC1.5.1.21 delta1-piperideine-2-carboxylate teladorsagia circumcincta//*//* 1.6 * +EC1.5.1.21 delta1-pyrroline-5-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC1.5.1.21 nadp+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.034 * +EC1.5.1.21 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.034 * +EC1.5.1.21 pyroglutamate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.28 * +EC1.5.1.22 2-ketobutyrate marphysa sanguinea//*//* 11.71 * +EC1.5.1.22 2-oxobutanoate aphrodita aculeata//*//* 3.55 * +EC1.5.1.22 2-oxobutanoate mercenaria mercenaria//*//* 2.46 * +EC1.5.1.22 2-oxopentanoate aphrodita aculeata//*//* 23.8 * +EC1.5.1.22 beta-ala meretrix lusoria//*//* 196.0 * +EC1.5.1.22 d-strombine marphysa sanguinea//*//* 9.17 * +EC1.5.1.22 gly aphrodita aculeata//*//* 36.5 * +EC1.5.1.22 gly glycera alba//*//* 180.0 * +EC1.5.1.22 gly marphysa sanguinea//*//* 40.1 * +EC1.5.1.22 gly scolelepis fuliginosa//*//* 42.4 * +EC1.5.1.22 glycine meretrix lusoria//*//* 34.2 * +EC1.5.1.22 glyoxylate aphrodita aculeata//*//* 32.5 * +EC1.5.1.22 glyoxylate mercenaria mercenaria//*//* 4.18 * +EC1.5.1.22 hydroxypyruvate aphrodita aculeata//*//* 8.5 * +EC1.5.1.22 l-2-aminobutanoate aphrodita aculeata//*//* 457.0 * +EC1.5.1.22 l-2-aminobutanoate mercenaria mercenaria//*//* 44.0 * +EC1.5.1.22 l-2-aminobutyrate meretrix lusoria//*//* 45.9 * +EC1.5.1.22 l-ala aphrodita aculeata//*//* 170.0 * +EC1.5.1.22 l-ala marphysa sanguinea//*//* 39.8 * +EC1.5.1.22 l-ala mercenaria mercenaria//*//* 173.0 * +EC1.5.1.22 l-ala meretrix lusoria//*//* 39.2 * +EC1.5.1.22 l-ala mytilus edulis//*//* 40.0 * +EC1.5.1.22 l-cys aphrodita aculeata//*//* 28.0 * +EC1.5.1.22 l-ser aphrodita aculeata//*//* 360.0 * +EC1.5.1.22 l-ser marphysa sanguinea//*//* 382.1 * +EC1.5.1.22 l-ser mercenaria mercenaria//*//* 693.0 * +EC1.5.1.22 l-ser meretrix lusoria//*//* 163.0 * +EC1.5.1.22 l-thr aphrodita aculeata//*//* 48.0 * +EC1.5.1.22 l-thr meretrix lusoria//*//* 303.0 * +EC1.5.1.22 l-val aphrodita aculeata//*//* 310.0 * +EC1.5.1.22 meso-alanopine marphysa sanguinea//*//* 9.07 * +EC1.5.1.22 nad+ marphysa sanguinea//*//* 0.85 * +EC1.5.1.22 nadh marphysa sanguinea//*//* 0.07 * +EC1.5.1.22 oxaloacetate aphrodita aculeata//*//* 1.7 * +EC1.5.1.22 oxaloacetate marphysa sanguinea//*//* 10.2 * +EC1.5.1.22 pyruvate aphrodita aculeata//*//* 0.47 * +EC1.5.1.22 pyruvate glycera alba//*//* 1.2 * +EC1.5.1.22 pyruvate marphysa sanguinea//*//* 0.96 * +EC1.5.1.22 pyruvate mercenaria mercenaria//*//* 0.32 * +EC1.5.1.22 pyruvate meretrix lusoria//*//* 1.39 * +EC1.5.1.22 pyruvate scolelepis fuliginosa//*//* 0.5 * +EC1.5.1.22 pyruvate suberites domuncula//*//* 0.34 * +EC1.5.1.23 2-oxobutanoate arabella iricolor//*//* 3.3 * +EC1.5.1.23 2-oxobutanoate haliotis tuberculata lamellosa//*//* 21.1 * +EC1.5.1.23 2-oxovalerate haliotis discus hannai//*//* 3.6 * +EC1.5.1.23 2-oxovalerate haliotis tuberculata lamellosa//*//* 3.6 * +EC1.5.1.23 ala haliotis tuberculata lamellosa//*//* 235.0 * +EC1.5.1.23 nad+ arabella iricolor//*//* 0.051 * +EC1.5.1.23 nad+ halichondria japonica//*//* 0.16 * +EC1.5.1.23 nad+ haliotis tuberculata lamellosa//*//* 0.29 * +EC1.5.1.23 nad+ rhodoglossum japonicum//*//* 0.12 * +EC1.5.1.23 nadh arabella iricolor//*//* 0.036 * +EC1.5.1.23 nadh halichondria japonica//*//* 0.036 * +EC1.5.1.23 nadh haliotis discus hannai//*//* 0.071 * +EC1.5.1.23 nadh haliotis tuberculata lamellosa//*//* 0.022 * +EC1.5.1.23 nadh patiria pectinifera//*//* 0.054 * +EC1.5.1.23 nadh rhodoglossum japonicum//*//* 0.054 * +EC1.5.1.23 oxaloacetate arabella iricolor//*//* 4.9 * +EC1.5.1.23 pyruvate arabella iricolor//*//* 0.34 * +EC1.5.1.23 pyruvate halichondria japonica//*//* 0.068 * +EC1.5.1.23 pyruvate patiria pectinifera//*//* 0.068 * +EC1.5.1.23 pyruvate rhodoglossum japonicum//*//* 0.8 * +EC1.5.1.23 taurine arabella iricolor//*//* 35.7 * +EC1.5.1.23 taurine halichondria japonica//*//* 37.0 * +EC1.5.1.23 taurine haliotis discus hannai//*//* 44.4 * +EC1.5.1.23 taurine patiria pectinifera//*//* 21.3 * +EC1.5.1.23 taurine rhodoglossum japonicum//*//* 15.0 * +EC1.5.1.23 tauropine arabella iricolor//*//* 4.8 * +EC1.5.1.23 tauropine halichondria japonica//*//* 0.39 * +EC1.5.1.23 tauropine haliotis tuberculata lamellosa//*//* 9.04 * +EC1.5.1.23 tauropine patiria pectinifera//*//* 2.64 * +EC1.5.1.23 tauropine rhodoglossum japonicum//*//* 30.0 * +EC1.5.1.24 l-ornithine clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 29.5 * +EC1.5.1.24 lysine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 18.2 * +EC1.5.1.24 nadph clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 2.95 * +EC1.5.1.24 nadph lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0066 * +EC1.5.1.24 ornithine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.3 * +EC1.5.1.24 pyruvate clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.15 * +EC1.5.1.24 pyruvate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.15 * +EC1.5.1.25 cystathionine ketimine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.0 * +EC1.5.1.25 cystathionine ketimine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC1.5.1.25 delta1-piperidine 2-carboxylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC1.5.1.25 lanthionine ketimine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.17 * +EC1.5.1.25 lanthionine ketimine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.47 * +EC1.5.1.25 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC1.5.1.25 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.027 * +EC1.5.1.25 s-aminoethylcysteine ketimine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC1.5.1.25 s-aminoethylcysteine ketimine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.077 * +EC1.5.1.26 beta-alanine cellana grata//*//* 14.3 * +EC1.5.1.26 beta-alanopine cellana grata//*//* 35.2 * +EC1.5.1.26 nad+ cellana grata//*//* 0.078 * +EC1.5.1.26 nadh cellana grata//*//* 0.032 * +EC1.5.1.26 pyruvate cellana grata//*//* 0.19 * +EC1.5.1.27 1,2-dehydroreticuline papaver somniferum//*//* 0.01 * +EC1.5.1.27 nadph papaver somniferum//*//* 0.007 * +EC1.5.1.28 (r,s)-2,3-diaminopropionic acid arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 11.9 * +EC1.5.1.28 (s)-2-aminobutanoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 20.0 * +EC1.5.1.28 (s)-norleucine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.72 * +EC1.5.1.28 (s)-norvaline arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.17 * +EC1.5.1.28 2-oxohexanoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 28.0 * +EC1.5.1.28 beta-chloro-(s)-alanine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.19 * +EC1.5.1.28 glyoxylate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 8.8 * +EC1.5.1.28 l-ala arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 5.1 * +EC1.5.1.28 l-cys arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.5 * +EC1.5.1.28 l-ile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 6.2 * +EC1.5.1.28 l-leu arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.9 * +EC1.5.1.28 l-met arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.1 * +EC1.5.1.28 l-phe arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 7.5 * +EC1.5.1.28 l-phenylglycine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 28.3 * +EC1.5.1.28 l-ser arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.6 * +EC1.5.1.28 l-thr arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 7.4 * +EC1.5.1.28 l-val arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.0 * +EC1.5.1.28 o-acetyl-(s)-ser arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 5.94 * +EC1.5.1.28 o-phospho-(s)-ser arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 8.7 * +EC1.5.1.28 oxaloacetate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.5 * +EC1.5.1.28 pyruvate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.0 * +EC1.5.1.3 6-hydroxymethylpterin crithidia fasciculata//*//* 0.0034 * +EC1.5.1.3 7,8-dihydrofolate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0337 * +EC1.5.1.3 7,8-dihydrofolate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.0013 * +EC1.5.1.3 7,8-dihydrofolate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.03825 * +EC1.5.1.3 7,8-dihydrofolate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.003 * +EC1.5.1.3 7,8-dihydrofolate crithidia fasciculata//*//* 0.0011 * +EC1.5.1.3 7,8-dihydrofolate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00119 * +EC1.5.1.3 7,8-dihydrofolate enterobacteria phage t4//*//* 0.0023 * +EC1.5.1.3 7,8-dihydrofolate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.004 * +EC1.5.1.3 7,8-dihydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00044 * +EC1.5.1.3 7,8-dihydrofolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00015 * +EC1.5.1.3 7,8-dihydrofolate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0037 * +EC1.5.1.3 7,8-dihydrofolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.017 * +EC1.5.1.3 7,8-dihydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5e-05 * +EC1.5.1.3 7,8-dihydrofolate human gammaherpesvirus 8//*//* 0.0024 * +EC1.5.1.3 7,8-dihydrofolate lactobacillus leichmannii//*//* 0.0062 * +EC1.5.1.3 7,8-dihydrofolate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0013 * +EC1.5.1.3 7,8-dihydrofolate leishmania tropica//*//* 0.0015 * +EC1.5.1.3 7,8-dihydrofolate moritella profunda//*//* 16.4 * +EC1.5.1.3 7,8-dihydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0003 * +EC1.5.1.3 7,8-dihydrofolate mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.0007 * +EC1.5.1.3 7,8-dihydrofolate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0086 * +EC1.5.1.3 7,8-dihydrofolate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0016 * +EC1.5.1.3 7,8-dihydrofolate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.002 * +EC1.5.1.3 7,8-dihydrofolate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0042 * +EC1.5.1.3 7,8-dihydrofolate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.107 * +EC1.5.1.3 7,8-dihydrofolate pneumocystis carinii//*//* 0.0049 * +EC1.5.1.3 7,8-dihydrofolate pneumocystis jirovecii//*//* 0.002 * +EC1.5.1.3 7,8-dihydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC1.5.1.3 7,8-dihydrofolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC1.5.1.3 7,8-dihydrofolate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0004 * +EC1.5.1.3 7,8-dihydrofolate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00268 * +EC1.5.1.3 7,8-dihydrofolate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0018 * +EC1.5.1.3 7,8-dihydrofolate strigomonas oncopelti//*//* 0.003 * +EC1.5.1.3 7,8-dihydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00074 * +EC1.5.1.3 7,8-dihydrofolate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00385 * +EC1.5.1.3 8-methylpterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.5.1.3 8-methylpterin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC1.5.1.3 8-methylpterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.5.1.3 dihydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC1.5.1.3 dihydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC1.5.1.3 dihydrofolate moritella japonica//*//* 0.238 * +EC1.5.1.3 dihydrofolate moritella yayanosii//*//* 0.0018 * +EC1.5.1.3 dihydrofolate photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.0062 * +EC1.5.1.3 dihydrofolate shewanella violacea//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//svo 0.0019 * +EC1.5.1.3 dihydrofolate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.004 * +EC1.5.1.3 dihydropteroate crithidia fasciculata//*//* 0.0009 * +EC1.5.1.3 folate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0067 * +EC1.5.1.3 folate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.5.1.3 folate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0041 * +EC1.5.1.3 l-threo-neopterin crithidia fasciculata//*//* 0.0035 * +EC1.5.1.3 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.268 * +EC1.5.1.3 nadph bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.0082 * +EC1.5.1.3 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00043 * +EC1.5.1.3 nadph crithidia fasciculata//*//* 0.0021 * +EC1.5.1.3 nadph drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0069 * +EC1.5.1.3 nadph enterobacteria phage t4//*//* 0.018 * +EC1.5.1.3 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0019 * +EC1.5.1.3 nadph geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0104 * +EC1.5.1.3 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.03 * +EC1.5.1.3 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.5.1.3 nadph lactobacillus leichmannii//*//* 0.0035 * +EC1.5.1.3 nadph leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0009 * +EC1.5.1.3 nadph leishmania tropica//*//* 0.0027 * +EC1.5.1.3 nadph moritella japonica//*//* 0.0584 * +EC1.5.1.3 nadph moritella profunda//*//* 0.0096 * +EC1.5.1.3 nadph moritella yayanosii//*//* 0.101 * +EC1.5.1.3 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0022 * +EC1.5.1.3 nadph mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.035 * +EC1.5.1.3 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.001 * +EC1.5.1.3 nadph neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.01 * +EC1.5.1.3 nadph photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.0198 * +EC1.5.1.3 nadph plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0027 * +EC1.5.1.3 nadph plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.06 * +EC1.5.1.3 nadph pneumocystis carinii//*//* 0.0145 * +EC1.5.1.3 nadph pneumocystis jirovecii//*//* 0.0065 * +EC1.5.1.3 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.029 * +EC1.5.1.3 nadph shewanella violacea//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//svo 0.0034 * +EC1.5.1.3 nadph staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00238 * +EC1.5.1.3 nadph stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.012 * +EC1.5.1.3 nadph streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0157 * +EC1.5.1.3 nadph strigomonas oncopelti//*//* 0.05 * +EC1.5.1.3 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00322 * +EC1.5.1.3 nadph trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00443 * +EC1.5.1.30 2-thiofmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.007 * +EC1.5.1.30 fad entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.01 * +EC1.5.1.30 fad homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC1.5.1.30 fad streptomyces viridifaciens//*//* 0.0036 * +EC1.5.1.30 fmn bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0047 * +EC1.5.1.30 fmn entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.006 * +EC1.5.1.30 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6e-05 * +EC1.5.1.30 fmn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.5.1.30 fmn rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 14.2 * +EC1.5.1.30 fmn rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0108 * +EC1.5.1.30 fmn streptomyces viridifaciens//*//* 0.0084 * +EC1.5.1.30 fmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.00013 * +EC1.5.1.30 galactoflavin entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.04 * +EC1.5.1.30 nadh bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.65 * +EC1.5.1.30 nadh rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.5 * +EC1.5.1.30 nadh rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.208 * +EC1.5.1.30 nadph bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00085 * +EC1.5.1.30 nadph entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.05 * +EC1.5.1.30 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0054 * +EC1.5.1.30 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.5.1.30 nadph streptomyces viridifaciens//*//* 0.032 * +EC1.5.1.30 nadph vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 1.9e-05 * +EC1.5.1.30 nitrofurazone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0163 * +EC1.5.1.30 oxidized riboflavin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC1.5.1.30 riboflavin entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.04 * +EC1.5.1.30 riboflavin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC1.5.1.30 riboflavin streptomyces viridifaciens//*//* 0.011 * +EC1.5.1.30 riboflavin vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.025 * +EC1.5.1.33 biopterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0101 * +EC1.5.1.33 biopterin leishmania tarentolae//*//* 0.0035 * +EC1.5.1.33 dihydrobiopterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0032 * +EC1.5.1.33 dihydrobiopterin leishmania tarentolae//*//* 0.033 * +EC1.5.1.33 dihydrobiopterin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.94e-05 * +EC1.5.1.33 folate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.001 * +EC1.5.1.33 folate leishmania tarentolae//*//* 0.0019 * +EC1.5.1.33 nadph leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0014 * +EC1.5.1.33 nadph leishmania tarentolae//*//* 0.0169 * +EC1.5.1.33 quinonoid 6,7-dimethyl-7,8-dihydropterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.021 * +EC1.5.1.33 quinonoid 6,7-dimethyl-7,8-dihydropterin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0166 * +EC1.5.1.33 quinonoid dihydrobiopterin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0103 * +EC1.5.1.33 quinonoid dihydrobiopterin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0036 * +EC1.5.1.34 2-amino-4-hydroxy-6,7-dimethyl-5,6,7,8-tetrahydro-pteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.5.1.34 2-amino-4-hydroxy-6,7-dimethyl-5,6,7,8-tetrahydropteridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.5.1.34 2-amino-4-hydroxy-6,7-dimethyl-quinonoid-dihydropteridine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.34 * +EC1.5.1.34 2-amino-4-hydroxy-6,7-dimethyldihydropteridine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0152 * +EC1.5.1.34 5,6,7,8-tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC1.5.1.34 6,7-dimethyl-5,6,7,8-tetrahydrobiopterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0063 * +EC1.5.1.34 6,7-dimethyl-5,6,7,8-tetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC1.5.1.34 6,7-dimethyldihydropterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.03 * +EC1.5.1.34 6-methyl-dihydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC1.5.1.34 6-methyl-quinonoid 7,8-(6h)-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.366 * +EC1.5.1.34 6-methyl-tetrahydropterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0014 * +EC1.5.1.34 6-methyldihydropterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC1.5.1.34 biopterin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.16 * +EC1.5.1.34 cis-6,7-dimethyl-quinonoid 7,8-(6h)-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.754 * +EC1.5.1.34 dihydrobiopterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC1.5.1.34 dihydrobiopterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.004 * +EC1.5.1.34 l-threo-neopterin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.45 * +EC1.5.1.34 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00079 * +EC1.5.1.34 nadh crithidia fasciculata//*//* 0.0028 * +EC1.5.1.34 nadh dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.04651 * +EC1.5.1.34 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.091 * +EC1.5.1.34 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC1.5.1.34 nadh ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.004 * +EC1.5.1.34 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00085 * +EC1.5.1.34 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0014 * +EC1.5.1.34 nadph crithidia fasciculata//*//* 0.0088 * +EC1.5.1.34 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC1.5.1.34 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC1.5.1.34 nadph ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0709 * +EC1.5.1.34 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC1.5.1.34 quinonoid 2-amino-4-hydroxy-6,7-dimethyldihydropteridine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.006 * +EC1.5.1.34 quinonoid 2-amino-4-hydroxy-6,7-dimethyldihydropteridine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.34 * +EC1.5.1.34 quinonoid 6,6-dimethyldihydropterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC1.5.1.34 quinonoid 6,6-dimethyldihydropterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.4 * +EC1.5.1.34 quinonoid 7,8-(6h)-dihydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC1.5.1.34 quinonoid 7,8-(6h)-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.669 * +EC1.5.1.34 quinonoid 7,8-dihydro-6-methylpterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0014 * +EC1.5.1.34 quinonoid 7,8-dihydrobiopterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0011 * +EC1.5.1.34 quinonoid 7,8-dihydropterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0068 * +EC1.5.1.34 quinonoid dihydro-6,7-dimethyldihydropterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.01 * +EC1.5.1.34 quinonoid dihydrobiopterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.226 * +EC1.5.1.34 quinonoid dihydrobiopterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.001 * +EC1.5.1.34 quinonoid dihydrobiopterin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.16 * +EC1.5.1.34 quinonoid dihydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00032 * +EC1.5.1.34 quinonoid dihydromonapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.32 * +EC1.5.1.34 quinonoid dihydroneopterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.05 * +EC1.5.1.34 quinonoid l-threo-dihydroneopterin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.45 * +EC1.5.1.34 quinonoid-6,7-dimethyl-7,8-dihydropterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.525 * +EC1.5.1.34 quinonoid-6-methyl-7,8-dihydrobiopterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.128 * +EC1.5.1.34 quinonoid-dihydro-6-methylpterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0034 * +EC1.5.1.34 tetrahydrobiopterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0011 * +EC1.5.1.34 tetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC1.5.1.34 tetrahydrobiopterin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0009 * +EC1.5.1.34 tetrahydrobiopterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC1.5.1.36 fad escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.0031 * +EC1.5.1.36 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC1.5.1.36 fmn escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.0021 * +EC1.5.1.36 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC1.5.1.36 fmn mycobacterium goodii//prokaryotes;bacteria;actinobacteria;mycobacterium//mgo 0.0066 * +EC1.5.1.36 fmn photobacterium leiognathi//*//* 0.0027 * +EC1.5.1.36 nadh escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.04 * +EC1.5.1.36 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC1.5.1.36 nadh mycobacterium goodii//prokaryotes;bacteria;actinobacteria;mycobacterium//mgo 0.0779 * +EC1.5.1.36 nadh photobacterium leiognathi//*//* 0.015 * +EC1.5.1.36 riboflavin escherichia coli w//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//elw 0.0026 * +EC1.5.1.36 riboflavin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0026 * +EC1.5.1.37 fad paraburkholderia phenoliruptrix//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bpx 0.0048 * +EC1.5.1.37 fad streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.0082 * +EC1.5.1.37 fmn paraburkholderia phenoliruptrix//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bpx 0.0103 * +EC1.5.1.37 nadh paraburkholderia phenoliruptrix//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bpx 0.0401 * +EC1.5.1.37 nadh streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.053 * +EC1.5.1.38 2-thiofmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.007 * +EC1.5.1.38 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0027 * +EC1.5.1.38 fad vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.019 * +EC1.5.1.38 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.4e-05 * +EC1.5.1.38 fmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0005 * +EC1.5.1.38 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5555 * +EC1.5.1.38 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC1.5.1.38 nadph vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.003 * +EC1.5.1.38 riboflavin vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.025 * +EC1.5.1.40 1,5-dihydro-8-hydroxy-5-deazaflavin methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 0.0028 * +EC1.5.1.40 5'-o-methyl-7,8-didemethyl-8-hydroxyflavin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0135 * +EC1.5.1.40 5-deaza-8-hydroxyisoalloxazine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0193 * +EC1.5.1.40 7,8-didemethyl-8-hydroxy-5-deazariboflavin 5'-phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0155 * +EC1.5.1.40 8-hydroxy-5-deazaflavin methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 0.008 * +EC1.5.1.40 8-hydroxypyrimido[4,5-b]-2,4-(3h,10h)-dione streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0775 * +EC1.5.1.40 coenzyme f0 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0057 * +EC1.5.1.40 coenzyme f420 methanosphaera stadtmanae//prokaryotes;archaea;euryarchaeota;methanosphaera//mst 0.0625 * +EC1.5.1.40 coenzyme f420 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0034 * +EC1.5.1.40 nadp+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.04 * +EC1.5.1.40 nadp+ methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 0.0137 * +EC1.5.1.40 nadp+ methanogenium organophilum//*//* 0.1 * +EC1.5.1.40 nadp+ methanosphaera stadtmanae//prokaryotes;archaea;euryarchaeota;methanosphaera//mst 0.37 * +EC1.5.1.40 nadp+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.07 * +EC1.5.1.40 nadp+ streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0144 * +EC1.5.1.40 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.04 * +EC1.5.1.40 nadph methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 0.0104 * +EC1.5.1.40 nadph methanogenium organophilum//*//* 0.05 * +EC1.5.1.40 nadph methanosphaera stadtmanae//prokaryotes;archaea;euryarchaeota;methanosphaera//mst 0.142 * +EC1.5.1.40 nadph methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.05 * +EC1.5.1.40 nadph streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0195 * +EC1.5.1.40 oxidized coenzyme f420 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.01 * +EC1.5.1.40 oxidized coenzyme f420 methanogenium organophilum//*//* 0.1 * +EC1.5.1.40 oxidized coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.3 * +EC1.5.1.40 reduced coenzyme f420 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC1.5.1.40 reduced coenzyme f420 methanogenium organophilum//*//* 0.04 * +EC1.5.1.40 reduced coenzyme f420 methanosphaera stadtmanae//prokaryotes;archaea;euryarchaeota;methanosphaera//mst 0.0077 * +EC1.5.1.40 reduced coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.15 * +EC1.5.1.40 reduced coenzyme f420 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0129 * +EC1.5.1.41 fad escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0008 * +EC1.5.1.41 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0008 * +EC1.5.1.41 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC1.5.1.41 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC1.5.1.41 riboflavin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0006 * +EC1.5.1.42 fmn aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.0013 * +EC1.5.1.42 fmn vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.001 * +EC1.5.1.42 nadh aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.25 * +EC1.5.1.42 nadh vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.012 * +EC1.5.1.43 nadh vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 2.97 * +EC1.5.1.43 nadph vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 1.51 * +EC1.5.1.48 2-methyl-1-pyrroline streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.52 * +EC1.5.1.48 nadph streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0037 * +EC1.5.1.49 delta1-pyrroline-2-carboxylate colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 2.79 * +EC1.5.1.49 l-proline colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 18.3 * +EC1.5.1.5 5,10-methylenetetrahydrofolate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC1.5.1.5 5,10-methylenetetrahydrofolate clostridium cylindrosporum//*//* 0.026 * +EC1.5.1.5 5,10-methylenetetrahydrofolate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.026 * +EC1.5.1.5 5,10-methylenetetrahydrofolate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.03 * +EC1.5.1.5 5,10-methylenetetrahydrofolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.037 * +EC1.5.1.5 5,10-methylenetetrahydrofolate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.045 * +EC1.5.1.5 5,10-methylenetetrahydropteroate clostridium cylindrosporum//*//* 1.6 * +EC1.5.1.5 5,10-methylenetetrahydropteroyltriglutamate clostridium cylindrosporum//*//* 0.0088 * +EC1.5.1.5 dl-tetrahydrofolic acid pisum sativum//*//* 0.21 * +EC1.5.1.5 formaldehyde pisum sativum//*//* 0.79 * +EC1.5.1.5 methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.5.1.5 methylenetetrahydrofolate hyphomicrobium zavarzinii//*//* 0.024 * +EC1.5.1.5 methylenetetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC1.5.1.5 methylenetetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.002 * +EC1.5.1.5 methylenetetrahydrofolate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.039 * +EC1.5.1.5 methylenetetrahydrofolate photobacterium phosphoreum//*//* 0.0011 * +EC1.5.1.5 methylenetetrahydrofolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC1.5.1.5 methylenetetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC1.5.1.5 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.507 * +EC1.5.1.5 nad+ photobacterium phosphoreum//*//* 4.76 * +EC1.5.1.5 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC1.5.1.5 nadp+ clostridium cylindrosporum//*//* 0.034 * +EC1.5.1.5 nadp+ enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.021 * +EC1.5.1.5 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC1.5.1.5 nadp+ hyphomicrobium zavarzinii//*//* 0.13 * +EC1.5.1.5 nadp+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.09 * +EC1.5.1.5 nadp+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.008 * +EC1.5.1.5 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.004 * +EC1.5.1.5 nadp+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.011 * +EC1.5.1.5 nadp+ photobacterium phosphoreum//*//* 0.038 * +EC1.5.1.5 nadp+ pisum sativum//*//* 0.0004 * +EC1.5.1.5 nadp+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC1.5.1.5 nadp+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.092 * +EC1.5.1.5 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.018 * +EC1.5.1.5 tetrahydropteroylglutamic acid pisum sativum//*//* 0.0077 * +EC1.5.1.5 tetrahydropteroylmonoglutamate pisum sativum//*//* 0.021 * +EC1.5.1.5 tetrahydropteroylpentaglutamate pisum sativum//*//* 0.025 * +EC1.5.1.50 7,8-dihydromonapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.147 * +EC1.5.1.6 10-formyl-5,8-dideazafolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0032 * +EC1.5.1.6 10-formyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0114 * +EC1.5.1.6 10-formyltetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC1.5.1.6 10-formyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC1.5.1.6 10-formyltetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0044 * +EC1.5.1.6 nadp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.5.1.6 nadp+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00086 * +EC1.5.1.6 nadp+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC1.5.1.7 2-oxoglutarate candida maltosa//*//* 0.66 * +EC1.5.1.7 2-oxoglutarate meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.5 * +EC1.5.1.7 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC1.5.1.7 alpha-ketoadipate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.3 * +EC1.5.1.7 alpha-ketobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 153.0 * +EC1.5.1.7 alpha-ketomalonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.0 * +EC1.5.1.7 alpha-ketovalerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 94.0 * +EC1.5.1.7 glyoxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.4 * +EC1.5.1.7 l-lysine candida maltosa//*//* 1.6 * +EC1.5.1.7 l-lysine meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.9 * +EC1.5.1.7 l-lysine phycomyces blakesleeanus//*//* 1.34 * +EC1.5.1.7 l-lysine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.89 * +EC1.5.1.7 n6-(l-1,3-dicarboxypropyl)-l-lysine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.7 * +EC1.5.1.7 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC1.5.1.7 nadh candida maltosa//*//* 0.23 * +EC1.5.1.7 nadh meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.13 * +EC1.5.1.7 nadh phycomyces blakesleeanus//*//* 0.12 * +EC1.5.1.7 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.019 * +EC1.5.1.7 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.1 * +EC1.5.1.7 saccharopine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.67 * +EC1.5.1.8 2-oxoglutarate glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.7 * +EC1.5.1.8 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.5.1.8 2-oxoglutarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.79 * +EC1.5.1.8 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.5.1.8 2-oxoglutarate zea mays//eukaryotes;plants;monocots;grass family//zma 1.8 * +EC1.5.1.8 l-lysine glycine max//eukaryotes;plants;eudicots;pea family//gmx 13.7 * +EC1.5.1.8 l-lysine haemonchus contortus//*//* 0.4 * +EC1.5.1.8 l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC1.5.1.8 l-lysine oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.48 * +EC1.5.1.8 l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC1.5.1.8 l-lysine teladorsagia circumcincta//*//* 0.5 * +EC1.5.1.8 l-lysine zea mays//eukaryotes;plants;monocots;grass family//zma 5.0 * +EC1.5.1.8 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC1.5.1.8 nadph oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.032 * +EC1.5.1.8 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC1.5.1.8 s-2-aminoethyl-l-cysteine oryza sativa//eukaryotes;plants;monocots;grass family//osa 17.0 * +EC1.5.1.9 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.333 * +EC1.5.1.9 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0645 * +EC1.5.1.9 nad+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.49 * +EC1.5.1.9 saccharopine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC1.5.1.9 saccharopine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC1.5.1.9 saccharopine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.13 * +EC1.5.1.B1 fad pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 0.0032 * +EC1.5.1.B1 fad pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.056 * +EC1.5.1.B1 fmn pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 0.0286 * +EC1.5.1.B1 lumiflavin pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 0.0584 * +EC1.5.1.B1 nadh pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 0.0431 * +EC1.5.1.B1 nadh pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.008 * +EC1.5.1.B1 riboflavin pseudomonas protegens pf-5//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfl 0.0383 * +EC1.5.1.B5 delta1-pyrroline-2-carboxylate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.944 * +EC1.5.1.B5 l-pipecolate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.608 * +EC1.5.1.B5 l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.12 * +EC1.5.3.1 2,6-dichlorophenolindophenol corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.31 * +EC1.5.3.1 n-methyl-dl-alanine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.8 * +EC1.5.3.1 n-methyl-dl-alanine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 8.7 * +EC1.5.3.1 n-methyl-dl-alanine paenarthrobacter ureafaciens//*//* 16.5 * +EC1.5.3.1 n-methyl-dl-alanine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.6 * +EC1.5.3.1 n-methyl-dl-valine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 173.0 * +EC1.5.3.1 n-methyl-dl-valine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 6.7 * +EC1.5.3.1 n-methyl-l-leucine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 106.0 * +EC1.5.3.1 n-methyl-l-leucine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.58 * +EC1.5.3.1 o2 corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.13 * +EC1.5.3.1 oxygen corynebacterium sp. u-96//*//* 32.9 * +EC1.5.3.1 phenazine methosulfate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 1.67 * +EC1.5.3.1 potassium ferricyanide corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 2.7 * +EC1.5.3.1 sarcosine achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 4.2 * +EC1.5.3.1 sarcosine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.285 * +EC1.5.3.1 sarcosine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.29 * +EC1.5.3.1 sarcosine corynebacterium sp. u-96//*//* 2.76 * +EC1.5.3.1 sarcosine corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.4 * +EC1.5.3.1 sarcosine paenarthrobacter ureafaciens//*//* 6.4 * +EC1.5.3.1 sarcosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.91 * +EC1.5.3.10 n,n-dimethylglycine arthrobacter globiformis//*//* 1.39 * +EC1.5.3.10 n,n-dimethylglycine cylindrocarpon didymum//*//* 9.1 * +EC1.5.3.10 o2 arthrobacter globiformis//*//* 0.041 * +EC1.5.3.12 (s)-scoulerine papaver somniferum//*//* 0.146 * +EC1.5.3.12 dihydrochelerythrine sanguinaria canadensis//*//* 0.012 * +EC1.5.3.12 dihydrochelirubine eschscholzia californica//*//* 0.008 * +EC1.5.3.12 dihydromacarpine eschscholzia californica//*//* 0.006 * +EC1.5.3.12 dihydromacarpine sanguinaria canadensis//*//* 0.006 * +EC1.5.3.12 dihydrosanguinarine eschscholzia californica//*//* 0.016 * +EC1.5.3.12 dihydrosanguinarine papaver somniferum//*//* 0.201 * +EC1.5.3.13 alpha-methylspermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC1.5.3.13 alpha-methylspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC1.5.3.13 n1,n11-diacetylnorspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.5.3.13 n1-acetylspermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC1.5.3.13 n1-acetylspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00085 * +EC1.5.3.13 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC1.5.3.13 spermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC1.5.3.14 n1-acetylspermidine zea mays//eukaryotes;plants;monocots;grass family//zma 0.274 * +EC1.5.3.14 n1-acetylspermine zea mays//eukaryotes;plants;monocots;grass family//zma 0.062 * +EC1.5.3.14 n8-acetylspermine zea mays//eukaryotes;plants;monocots;grass family//zma 1.13 * +EC1.5.3.14 spermidine zea mays//eukaryotes;plants;monocots;grass family//zma 0.0017 * +EC1.5.3.14 spermine zea mays//eukaryotes;plants;monocots;grass family//zma 0.0016 * +EC1.5.3.15 n1-acetylspermine acanthamoeba culbertsoni//*//* 0.338 * +EC1.5.3.15 n8-acetylspermidine acanthamoeba culbertsoni//*//* 0.105 * +EC1.5.3.16 alpha-methylspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC1.5.3.16 benzylamidine ascaris suum//*//* 1.6 * +EC1.5.3.16 n1-acetylspermidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.066 * +EC1.5.3.16 n1-acetylspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.47 * +EC1.5.3.16 n1-acetylspermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC1.5.3.16 n1-acetylspermine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00158 * +EC1.5.3.16 n8-acetylspermidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.027 * +EC1.5.3.16 norspermidine ascaris suum//*//* 5.0 * +EC1.5.3.16 norspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC1.5.3.16 norspermine ascaris suum//*//* 2.0 * +EC1.5.3.16 spermidine ascaris suum//*//* 0.66 * +EC1.5.3.16 spermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.047 * +EC1.5.3.16 spermine ascaris suum//*//* 0.35 * +EC1.5.3.16 spermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC1.5.3.16 spermine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC1.5.3.16 spermine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.5.3.16 thermospermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC1.5.3.16 tryptamine ascaris suum//*//* 2.5 * +EC1.5.3.17 benzylamidine ascaris suum//*//* 1.6 * +EC1.5.3.17 n1-acetylspermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC1.5.3.17 n1-acetylspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.233 * +EC1.5.3.17 norspermidine ascaris suum//*//* 5.0 * +EC1.5.3.17 norspermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC1.5.3.17 norspermine ascaris suum//*//* 2.0 * +EC1.5.3.17 spermidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.274 * +EC1.5.3.17 spermidine ascaris suum//*//* 0.66 * +EC1.5.3.17 spermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.27 * +EC1.5.3.17 spermine ascaris suum//*//* 0.35 * +EC1.5.3.17 thermospermine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC1.5.3.17 tryptamine ascaris suum//*//* 2.5 * +EC1.5.3.18 l-saccharopine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 9.02 * +EC1.5.3.19 4-methylaminobutanoate paenarthrobacter nicotinovorans//*//* 0.14 * +EC1.5.3.19 sarcosine paenarthrobacter nicotinovorans//*//* 25.0 * +EC1.5.3.2 alpha-n-methyl-l-tryptophan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.262 * +EC1.5.3.21 4-aminobutanoate paenarthrobacter nicotinovorans//*//* 6.66 * +EC1.5.3.21 4-methylaminobutanoate paenarthrobacter nicotinovorans//*//* 2.5 * +EC1.5.3.22 o2 methanobrevibacter arboriphilus//*//* 0.002 * +EC1.5.3.22 o2 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.002 * +EC1.5.3.22 reduced coenzyme f420 methanobrevibacter arboriphilus//*//* 0.03 * +EC1.5.3.22 reduced coenzyme f420 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.03 * +EC1.5.3.4 n6,n6-dimethyl-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.87 * +EC1.5.3.4 n6-ethyl-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.95 * +EC1.5.3.4 n6-methyl-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.05 * +EC1.5.3.5 (s)-6-hydroxynicotine paenarthrobacter nicotinovorans//*//* 0.02 * +EC1.5.3.5 6-hydroxy-l-nicotine paenarthrobacter nicotinovorans//*//* 0.02 * +EC1.5.3.5 fad paenarthrobacter nicotinovorans//*//* 8.2e-05 * +EC1.5.3.6 6-amino-d-nicotine paenarthrobacter nicotinovorans//*//* 0.2 * +EC1.5.3.6 6-hydroxy-d-nicotine paenarthrobacter nicotinovorans//*//* 0.05 * +EC1.5.3.7 l-pipecolic acid macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 3.5 * +EC1.5.3.7 l-pipecolic acid macacine alphaherpesvirus 1//*//* 4.2 * +EC1.5.3.7 l-pipecolic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.74 * +EC1.5.3.7 l-pipecolic acid rhodotorula glutinis//*//* 1.7 * +EC1.5.4.1 dihydroneopterin triphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0085 * +EC1.5.4.1 glutathione drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.8 * +EC1.5.5.1 6-(10-bromodecyl)ubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0026 * +EC1.5.5.1 6-(10-hydroxydecyl)ubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC1.5.5.1 6-heptylubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.002 * +EC1.5.5.1 6-nonylubiquinone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0016 * +EC1.5.5.1 decylubiquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0084 * +EC1.5.5.1 electron-transferring flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC1.5.5.1 electron-transferring flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0002 * +EC1.5.5.1 hydroquinone electron-transferring flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00031 * +EC1.5.5.1 semiquinone electron-transferring flavoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0154 * +EC1.5.5.1 semiquinone electron-transferring flavoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0077 * +EC1.5.5.1 ubiquinone-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC1.5.5.1 ubiquinone-1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0045 * +EC1.5.5.1 ubiquinone-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC1.5.5.1 ubiquinone-2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC1.5.5.1 ubiquinone-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0148 * +EC1.5.5.2 2,6-dichlorophenolindophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0034 * +EC1.5.5.2 l-proline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.5.5.2 l-proline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.7 * +EC1.5.5.2 l-proline pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 4.0 * +EC1.5.5.2 l-proline thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 2.0 * +EC1.5.5.2 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0235 * +EC1.5.5.2 trans-4-hydroxy-l-proline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 750.0 * +EC1.5.7.1 5-methyltetrahydrofolate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.01 * +EC1.5.7.1 benzyl viologen clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 11.1 * +EC1.5.7.2 oxidized coenzyme f420 methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.002 * +EC1.5.7.2 reduced ferredoxin methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.0005 * +EC1.5.8.1 dimethylamine hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.0156 * +EC1.5.8.1 n,n,n,n-tetramethyl-o-phenylenediamine hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.11 * +EC1.5.8.1 phenazine methosulfate hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 1.18 * +EC1.5.8.2 2-aminoethyldimethylamine methylotrophic bacterium//*//* 0.067 * +EC1.5.8.2 2-chloroethyldimethylamine methylotrophic bacterium//*//* 0.002 * +EC1.5.8.2 2-hydroxyethyldimethylamine methylotrophic bacterium//*//* 0.006 * +EC1.5.8.2 alphar237k mutant electron transferring flavoprotein methylophilus methylotrophus//*//* 0.0031 * +EC1.5.8.2 diethylamine methylotrophic bacterium//*//* 1.7 * +EC1.5.8.2 diethylmethylamine methylotrophic bacterium//*//* 0.008 * +EC1.5.8.2 electron transferring flavoprotein methylophilus methylotrophus//*//* 0.0105 * +EC1.5.8.2 ethyldimethylamine methylotrophic bacterium//*//* 0.002 * +EC1.5.8.2 phenazine methosulfate methylotrophic bacterium//*//* 1.25 * +EC1.5.8.2 triethylamine methylotrophic bacterium//*//* 0.13 * +EC1.5.8.2 trimethylamine methylophilus methylotrophus//*//* 0.0137 * +EC1.5.8.2 trimethylamine methylotrophic bacterium//*//* 0.002 * +EC1.5.8.2 trimethylamine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.0 * +EC1.5.8.3 n-methylalanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.15 * +EC1.5.8.3 n-methylleucine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 20.0 * +EC1.5.8.3 n-methylvaline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.0 * +EC1.5.8.3 phenazine methosulfate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC1.5.8.3 potassium ferricyanide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC1.5.8.3 sarcosine macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.32 * +EC1.5.8.3 sarcosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC1.5.8.3 sarcosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.32 * +EC1.5.8.3 sarcosine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 6.1 * +EC1.5.8.4 dimethylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.5.8.4 n,n-dimethylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC1.5.98.1 5,10-methylenetetrahydromethanopterin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.017 * +EC1.5.98.1 5,10-methylenetetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.02 * +EC1.5.98.1 5,10-methylenetetrahydromethanopterin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.006 * +EC1.5.98.1 5,10-methylenetetrahydromethanopterin methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.033 * +EC1.5.98.1 5,10-methylenetetrahydromethanopterin uncultured archaeon//*//* 0.005 * +EC1.5.98.1 coenzyme f420 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.004 * +EC1.5.98.1 coenzyme f420 methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.02 * +EC1.5.98.1 coenzyme f420 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.018 * +EC1.5.98.1 coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.065 * +EC1.5.98.1 methylenetetrahydromethanopterin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.017 * +EC1.5.98.1 methylenetetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.08 * +EC1.5.98.1 methylenetetrahydromethanopterin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.006 * +EC1.5.98.1 methylenetetrahydromethanopterin methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.033 * +EC1.5.98.1 oxidized coenzyme f420 methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.08 * +EC1.5.98.1 oxidized coenzyme f420 uncultured archaeon//*//* 0.005 * +EC1.5.98.1 reduced coenzyme f420 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.013 * +EC1.5.98.1 reduced coenzyme f420 methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.02 * +EC1.5.98.1 reduced coenzyme f420 methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.025 * +EC1.5.98.1 reduced coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.065 * +EC1.5.98.2 5,10-methylenetetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.006 * +EC1.5.98.2 n5,n10-methylenetetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.006 * +EC1.5.98.2 n5,n10-methylenetetrahydromethanopterin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.25 * +EC1.5.98.2 n5,n10-methylenetetrahydromethanopterin methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.3 * +EC1.5.98.2 reduced coenzyme f420 methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.0037 * +EC1.5.98.2 reduced coenzyme f420 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.003 * +EC1.5.99.12 2,2'-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) radical zea mays//eukaryotes;plants;monocots;grass family//zma 0.067 * +EC1.5.99.12 4-nitrosoresorcinol-1-monomethyl ether zea mays//eukaryotes;plants;monocots;grass family//zma 0.0041 * +EC1.5.99.12 cis-zeatin zea mays//eukaryotes;plants;monocots;grass family//zma 0.046 * +EC1.5.99.12 hydroxamic acid 2,4-dihydroxy-7-methoxy-1,4-benzoxazin-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.0089 * +EC1.5.99.12 n6-(2-butynyl)adenine zea mays//eukaryotes;plants;monocots;grass family//zma 0.092 * +EC1.5.99.12 n6-(2-isopentenyl)adenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0015 * +EC1.5.99.12 n6-(2-isopentenyl)adenine zea mays//eukaryotes;plants;monocots;grass family//zma 0.0011 * +EC1.5.99.12 n6-(4-hydroxy-2-butynyl)adenine zea mays//eukaryotes;plants;monocots;grass family//zma 0.38 * +EC1.5.99.12 n6-(delta2-isopentenyl)adenine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.001 * +EC1.5.99.12 n6-dimethylallyladenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.015 * +EC1.5.99.12 n6-dimethylallyladenine zea mays//eukaryotes;plants;monocots;grass family//zma 0.0015 * +EC1.5.99.12 n6-isopentenyladenine zea mays//eukaryotes;plants;monocots;grass family//zma 0.0011 * +EC1.5.99.12 n6-isopentenyladenosine zea mays//eukaryotes;plants;monocots;grass family//zma 0.012 * +EC1.5.99.12 trans-zeatin riboside zea mays//eukaryotes;plants;monocots;grass family//zma 0.011 * +EC1.5.99.12 trans-zeatin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.006 * +EC1.5.99.12 trans-zeatin zea mays//eukaryotes;plants;monocots;grass family//zma 0.01 * +EC1.5.99.12 zeatin riboside zea mays//eukaryotes;plants;monocots;grass family//zma 0.063 * +EC1.5.99.12 zeatin zea mays//eukaryotes;plants;monocots;grass family//zma 0.009 * +EC1.5.99.13 2,6-dichloroindophenol pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.14 * +EC1.5.99.13 d-proline pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 0.83 * +EC1.5.99.3 l-pipecolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 17.0 * +EC1.5.99.4 (s)-nicotine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC1.5.99.4 2,6-dichlorophenolindophenol pseudarthrobacter oxydans//*//* 1.24 * +EC1.5.99.4 brilliant cresyl blue pseudarthrobacter oxydans//*//* 0.008 * +EC1.5.99.4 menadione pseudarthrobacter oxydans//*//* 0.49 * +EC1.5.99.4 methylene blue pseudarthrobacter oxydans//*//* 0.027 * +EC1.5.99.4 nicotine pseudarthrobacter oxydans//*//* 0.037 * +EC1.5.99.4 vitamin k5 pseudarthrobacter oxydans//*//* 1.0 * +EC1.5.99.5 2,6-dichlorophenolindophenol aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.019 * +EC1.5.99.5 2,6-dichlorophenolindophenol bacterium at2//*//* 0.2 * +EC1.5.99.5 2,6-dichlorophenolindophenol pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.054 * +EC1.5.99.5 2-(methylamino)acetic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC1.5.99.5 horse heart cytochrome c aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.11 * +EC1.5.99.5 n-methyl d-alanine aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 33.0 * +EC1.5.99.5 n-methyl dl-alanine aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 87.0 * +EC1.5.99.5 n-methyl dl-aspartate aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.46 * +EC1.5.99.5 n-methyl dl-valine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC1.5.99.5 n-methyl l-alanine aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 25.0 * +EC1.5.99.5 n-methyl l-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.0 * +EC1.5.99.5 n-methyl l-aspartate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.3 * +EC1.5.99.5 n-methyl l-isoleucine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC1.5.99.5 n-methyl l-phenylalanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.5 * +EC1.5.99.5 n-methyl l-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 36.0 * +EC1.5.99.5 n-methyl-l-glutamate aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.025 * +EC1.5.99.5 n-methyl-l-glutamate bacterium at2//*//* 0.333 * +EC1.5.99.5 n-methyl-l-glutamate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.043 * +EC1.5.99.5 phenazine methosulfate aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 0.018 * +EC1.5.99.5 phenazine methosulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.011 * +EC1.5.99.5 potassium ferricyanide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.4 * +EC1.5.99.5 sarcosine aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 90.9 * +EC1.5.99.5 sarcosine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 200.0 * +EC1.5.99.6 n-(3-aminopropyl)-1,3-diaminopropane serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.047 * +EC1.5.99.6 spermidine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.0183 * +EC1.5.99.6 spermidine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.61 * +EC1.5.99.6 spermidine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.036 * +EC1.5.99.6 spermine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.0104 * +EC1.5.99.6 spermine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.05 * +EC1.6.1.1 deamino-nad+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.4 * +EC1.6.1.1 fad azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.0003 * +EC1.6.1.1 nad+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.11 * +EC1.6.1.1 nadh azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.025 * +EC1.6.1.1 nadph azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.015 * +EC1.6.1.1 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06829 * +EC1.6.1.1 thio-nad+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.04 * +EC1.6.1.1 thio-nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1332 * +EC1.6.1.1 thio-nadp+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.03 * +EC1.6.1.2 acetylpyridine adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.166 * +EC1.6.1.2 acetylpyridine adenine dinucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC1.6.1.2 acetylpyridine adenine dinucleotide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.065 * +EC1.6.1.2 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC1.6.1.2 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC1.6.1.2 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0017 * +EC1.6.1.2 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.02 * +EC1.6.1.2 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0017 * +EC1.6.1.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC1.6.1.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0051 * +EC1.6.1.2 nadph rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.006 * +EC1.6.1.2 nadph rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.03 * +EC1.6.1.2 nmnh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.6 * +EC1.6.1.2 oxidized acetylpyridine adenine dinucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC1.6.1.2 oxidized acetylpyridine adenine dinucleotide rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.06 * +EC1.6.1.2 thio-nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC1.6.1.2 thio-nadp+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.009 * +EC1.6.1.4 nad+ clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 1.0 * +EC1.6.1.4 nadph clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.025 * +EC1.6.2.2 2,6-dichlorophenolindophenol musca domestica//eukaryotes;animals;arthropods;insects//mde 0.83 * +EC1.6.2.2 aquacobalamin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0419 * +EC1.6.2.2 benzamidoxime homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC1.6.2.2 cytochrome b5 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0143 * +EC1.6.2.2 cytochrome b5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00114 * +EC1.6.2.2 cytochrome b5 musca domestica//eukaryotes;animals;arthropods;insects//mde 0.013 * +EC1.6.2.2 cytochrome b5 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.009 * +EC1.6.2.2 cytochrome b5 ovis aries//eukaryotes;animals;vertebrates;mammals//oas 8.8e-05 * +EC1.6.2.2 cytochrome b5 phascolopsis gouldii//*//* 0.0028 * +EC1.6.2.2 cytochrome b5 pisum sativum//*//* 7e-06 * +EC1.6.2.2 cytochrome b5 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0008 * +EC1.6.2.2 cytochrome b5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0053 * +EC1.6.2.2 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.6.2.2 dapsone hydroxylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC1.6.2.2 ferricyanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0042 * +EC1.6.2.2 ferricyanide brassica napus//eukaryotes;plants;eudicots;mustard family//bna 4.35 * +EC1.6.2.2 ferricyanide canis lupus familiaris//*//* 0.008 * +EC1.6.2.2 ferricyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC1.6.2.2 ferricyanide mucor racemosus//*//* 0.013 * +EC1.6.2.2 ferricyanide musca domestica//eukaryotes;animals;arthropods;insects//mde 0.017 * +EC1.6.2.2 ferricyanide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC1.6.2.2 ferricyanide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.024 * +EC1.6.2.2 ferricyanide phascolopsis gouldii//*//* 0.09 * +EC1.6.2.2 ferricyanide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC1.6.2.2 ferricyanide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0025 * +EC1.6.2.2 ferricytochrome b5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.6.2.2 ferricytochrome b5 physarum polycephalum//*//* 0.014 * +EC1.6.2.2 ferricytochrome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.6.2.2 ferricytochrome b5 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0008 * +EC1.6.2.2 ferricytochrome b5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01353 * +EC1.6.2.2 ferrocytochrome b5 canis lupus familiaris//*//* 0.012 * +EC1.6.2.2 ferrocytochrome b5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC1.6.2.2 methemoglobin-ferrocyanide complex oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.008 * +EC1.6.2.2 n-hydroxy-2-amino-1-methyl-6-phenylimidazol[4,5-b]pyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.6.2.2 n-hydroxy-4-aminobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC1.6.2.2 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00091 * +EC1.6.2.2 nadh brassica napus//eukaryotes;plants;eudicots;mustard family//bna 3.32 * +EC1.6.2.2 nadh canis lupus familiaris//*//* 0.007 * +EC1.6.2.2 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC1.6.2.2 nadh musca domestica//eukaryotes;animals;arthropods;insects//mde 0.044 * +EC1.6.2.2 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0025 * +EC1.6.2.2 nadh phascolopsis gouldii//*//* 0.06 * +EC1.6.2.2 nadh physarum polycephalum//*//* 0.002 * +EC1.6.2.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.6.2.2 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0063 * +EC1.6.2.2 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC1.6.2.2 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.34 * +EC1.6.2.2 nadph brassica napus//eukaryotes;plants;eudicots;mustard family//bna 7.69 * +EC1.6.2.2 nadph musca domestica//eukaryotes;animals;arthropods;insects//mde 14.0 * +EC1.6.2.2 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC1.6.2.2 sulfamethoxazole hydroxylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC1.6.2.2 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC1.6.2.4 2,6-dichlorophenolindophenol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.055 * +EC1.6.2.4 5-cyano-2,3-ditolyl tetrazolium chloride rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.6.2.4 azidonitrophenyl-gamma-aminobutyryl-nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0019 * +EC1.6.2.4 benzalacetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC1.6.2.4 cytochrome c anopheles minimus//*//* 0.0372 * +EC1.6.2.4 cytochrome c candida apicola//*//* 0.0138 * +EC1.6.2.4 cytochrome c candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0043 * +EC1.6.2.4 cytochrome c catharanthus roseus//*//* 0.0078 * +EC1.6.2.4 cytochrome c equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0082 * +EC1.6.2.4 cytochrome c gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0034 * +EC1.6.2.4 cytochrome c helianthus tuberosus//*//* 0.0182 * +EC1.6.2.4 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1e-06 * +EC1.6.2.4 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0034 * +EC1.6.2.4 cytochrome c spodoptera eridania//*//* 0.013 * +EC1.6.2.4 cytochrome c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC1.6.2.4 cytochrome c trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.06289 * +EC1.6.2.4 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.2 * +EC1.6.2.4 ferricytochrome c anopheles minimus//*//* 0.019 * +EC1.6.2.4 ferricytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.048 * +EC1.6.2.4 ferricytochrome c gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.0012 * +EC1.6.2.4 ferricytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.19 * +EC1.6.2.4 ferricytochrome c phanerochaete chrysosporium//*//* 0.011 * +EC1.6.2.4 ferricytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.6.2.4 ferricytochrome c trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0098 * +EC1.6.2.4 hexadecanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC1.6.2.4 menadione cavia porcellus//*//* 0.0053 * +EC1.6.2.4 nadh anopheles minimus//*//* 0.0084 * +EC1.6.2.4 nadh cavia porcellus//*//* 0.23 * +EC1.6.2.4 nadh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0133 * +EC1.6.2.4 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 24.0 * +EC1.6.2.4 nadph anopheles minimus//*//* 0.0125 * +EC1.6.2.4 nadph candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.029 * +EC1.6.2.4 nadph catharanthus roseus//*//* 0.0057 * +EC1.6.2.4 nadph cavia porcellus//*//* 0.025 * +EC1.6.2.4 nadph gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0017 * +EC1.6.2.4 nadph gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.0046 * +EC1.6.2.4 nadph helianthus tuberosus//*//* 0.02 * +EC1.6.2.4 nadph locusta migratoria migratorioides//*//* 0.013 * +EC1.6.2.4 nadph nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.00189 * +EC1.6.2.4 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.001 * +EC1.6.2.4 nadph phanerochaete chrysosporium//*//* 0.0019 * +EC1.6.2.4 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1e-06 * +EC1.6.2.4 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0324 * +EC1.6.2.4 nadph spodoptera eridania//*//* 0.0341 * +EC1.6.2.4 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC1.6.2.4 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.00303 * +EC1.6.2.4 octanal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC1.6.2.4 oxidized 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC1.6.2.4 p-nitroacetophenone nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 1.4 * +EC1.6.2.4 p-nitroacetophenone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC1.6.2.4 p-nitrobenzaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC1.6.2.5 2,6-dichloroindophenol rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0125 * +EC1.6.2.5 ferricytochrome c2 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.037 * +EC1.6.2.5 k3fe(cn)6 rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.125 * +EC1.6.2.6 ferrileghemoglobin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0092 * +EC1.6.2.6 ferrileghemoglobin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0133 * +EC1.6.2.6 ferrileghemoglobin vigna unguiculata//*//* 0.0104 * +EC1.6.2.6 lipoamide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.716 * +EC1.6.2.6 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0188 * +EC1.6.2.6 nadh vigna unguiculata//*//* 0.057 * +EC1.6.3.1 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.6.3.1 nadh sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.413 * +EC1.6.3.1 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC1.6.3.1 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.6.3.1 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC1.6.3.2 nadh giardia intestinalis//*//* 0.0042 * +EC1.6.3.2 nadh thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.24 * +EC1.6.3.2 nadh thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.053 * +EC1.6.3.2 nadph giardia intestinalis//*//* 0.016 * +EC1.6.3.2 nadph thermococcus profundus//prokaryotes;archaea;euryarchaeota;thermococcus//tprf 0.012 * +EC1.6.3.3 beta-nadh pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0037 * +EC1.6.3.3 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0031 * +EC1.6.3.3 nadh brevibacterium sp.//*//* 0.022 * +EC1.6.3.3 nadh pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.0075 * +EC1.6.3.3 nadh streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.00153 * +EC1.6.3.3 nadh thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.042 * +EC1.6.3.3 o2 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.06 * +EC1.6.3.3 o2 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.9 * +EC1.6.3.3 o2 pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 0.085 * +EC1.6.3.3 o2 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.043 * +EC1.6.3.4 nadh anaerocolumna aminovalerica//*//* 0.0192 * +EC1.6.3.4 nadh lactobacillus rhamnosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lrh 0.0058 * +EC1.6.3.4 nadh streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.025 * +EC1.6.3.4 nadh streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.027 * +EC1.6.3.4 o2 anaerocolumna aminovalerica//*//* 0.0619 * +EC1.6.5.10 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.6.5.10 1,2-naphthoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC1.6.5.10 1,4-benzoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC1.6.5.10 1,4-benzoquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.8 * +EC1.6.5.10 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC1.6.5.10 2,3-dichloro-5,6-dicyano-1,4-benzoquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 298.2 * +EC1.6.5.10 2,3-dimethoxy-5-methyl-1,4-benzoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC1.6.5.10 2-methyl-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.6.5.10 5-hydroxy-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC1.6.5.10 5-hydroxy-2-methyl-1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC1.6.5.10 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC1.6.5.10 9,10-phenanthrenequinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.6.5.10 9,10-phenanthrenequinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC1.6.5.10 duroquinone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.019 * +EC1.6.5.10 hydroquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 647.5 * +EC1.6.5.10 menadione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC1.6.5.10 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC1.6.5.10 menadione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.011 * +EC1.6.5.10 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0105 * +EC1.6.5.10 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.006 * +EC1.6.5.10 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.046 * +EC1.6.5.10 phenyl-1,4-benzoquinone kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 728.6 * +EC1.6.5.11 1,4-benzoquinone methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.0481 * +EC1.6.5.11 2,3-dimethoxy-5-methyl-1,4-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.0162 * +EC1.6.5.11 2,3-dimethyl naphthoquinone staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0297 * +EC1.6.5.11 2,5-dimethoxy-1,4-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.005 * +EC1.6.5.11 2,6-dichlorophenol indophenol halophilic bacterium//*//* 0.03 * +EC1.6.5.11 2,6-dichlorophenolindophenol gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.0172 * +EC1.6.5.11 2,6-dichlorophenolindophenol photobacterium phosphoreum//*//* 0.11 * +EC1.6.5.11 2,6-dichlorophenolindophenol rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0029 * +EC1.6.5.11 2,6-dimethoxy-1,4-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.0068 * +EC1.6.5.11 2-methyl-1,4-naphthoquinone halophilic bacterium//*//* 0.021 * +EC1.6.5.11 2-methyl-1,4-naphthoquinone photobacterium phosphoreum//*//* 0.035 * +EC1.6.5.11 4,5-dimethoxy-1,2-benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.005 * +EC1.6.5.11 5-hydroxy-1,4-naphthoquinone halophilic bacterium//*//* 0.133 * +EC1.6.5.11 benzoquinone gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.0038 * +EC1.6.5.11 cytochrome c photobacterium phosphoreum//*//* 0.002 * +EC1.6.5.11 cytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.015 * +EC1.6.5.11 fe(cn)63- gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.2158 * +EC1.6.5.11 ferricyanide methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.0748 * +EC1.6.5.11 ferricyanide photobacterium phosphoreum//*//* 2.1 * +EC1.6.5.11 ferricyanide propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.94 * +EC1.6.5.11 ferrocenium hexafluorophosphate methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.0648 * +EC1.6.5.11 fmn rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0079 * +EC1.6.5.11 menadione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.6.5.11 menadione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC1.6.5.11 nadh corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.031 * +EC1.6.5.11 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.132 * +EC1.6.5.11 nadh gloeophyllum trabeum//eukaryotes;fungi;basidiomycetes//gtr 0.0363 * +EC1.6.5.11 nadh halophilic bacterium//*//* 0.017 * +EC1.6.5.11 nadh propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.087 * +EC1.6.5.11 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.004 * +EC1.6.5.11 nadh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.035 * +EC1.6.5.11 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.012 * +EC1.6.5.11 oxidized 2,6-dichloroindophenol methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.0175 * +EC1.6.5.11 ubiquinone-1 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.0968 * +EC1.6.5.11 ubiquinone-10 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.0337 * +EC1.6.5.2 1,4-benzoquinone archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.037 * +EC1.6.5.2 1,4-benzoquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0058 * +EC1.6.5.2 2,6-dichloroindophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0233 * +EC1.6.5.2 2-methoxy-5-(methoxymethyl)-2,5-cyclohexadiene-1,4-dione phanerochaete chrysosporium//*//* 0.115 * +EC1.6.5.2 2-methoxy-5-(methoxymethyl)-2,5-cyclohexadiene phanerochaete chrysosporium//*//* 0.115 * +EC1.6.5.2 5-(1-aziridinyl)-3-(hydroxymethyl)-2-(3-hydroxy-1-propenyl)-1-methyl-1h-indole-4,7-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC1.6.5.2 5-(1-aziridinyl)-3-(hydroxymethyl)-2-(3-hydroxy-1-propenyl)-1-methyl-1h-indole-4,7-dione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC1.6.5.2 5-(1-aziridinyl)-3-(hydroxymethyl)-2-(3-hydroxy-1-propenyl)-1-methyl-1h-indole-4,7-dione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC1.6.5.2 5-(aziridin-1-yl)-4-hydroxylamino-2-benzamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.37 * +EC1.6.5.2 5-(aziridin-1-yl)-4-hydroxylamino-2-benzamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.28 * +EC1.6.5.2 5-(aziridin-1-yl)-4-hydroxylamino-2-benzamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.84 * +EC1.6.5.2 benzoquinone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC1.6.5.2 benzoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.9 * +EC1.6.5.2 chromate(iv) pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.26 * +EC1.6.5.2 coenzyme q1 pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.12 * +EC1.6.5.2 duroquinone hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.435 * +EC1.6.5.2 duroquinone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.21 * +EC1.6.5.2 fad mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.7e-06 * +EC1.6.5.2 fmn clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.0025 * +EC1.6.5.2 fmn ralstonia eutropha jmp134//prokaryotes;bacteria;betaproteobacteria;cupriavidus//reu 0.0096 * +EC1.6.5.2 menadione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0025 * +EC1.6.5.2 menadione clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.035 * +EC1.6.5.2 menadione giardia intestinalis//*//* 0.000188 * +EC1.6.5.2 menadione halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.04 * +EC1.6.5.2 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC1.6.5.2 menadione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00196 * +EC1.6.5.2 menadione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.23 * +EC1.6.5.2 menadione ralstonia eutropha jmp134//prokaryotes;bacteria;betaproteobacteria;cupriavidus//reu 0.0863 * +EC1.6.5.2 menadione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.6.5.2 menadione triticum monococcum//*//* 0.00336 * +EC1.6.5.2 methylene blue bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC1.6.5.2 nadh archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.019 * +EC1.6.5.2 nadh beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.34 * +EC1.6.5.2 nadh clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.223 * +EC1.6.5.2 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC1.6.5.2 nadh gammarus pulex//*//* 125.0 * +EC1.6.5.2 nadh giardia intestinalis//*//* 0.045 * +EC1.6.5.2 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.341 * +EC1.6.5.2 nadh halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.02 * +EC1.6.5.2 nadh hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.2 * +EC1.6.5.2 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC1.6.5.2 nadh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0643 * +EC1.6.5.2 nadh octopus vulgaris//*//* 0.034 * +EC1.6.5.2 nadh phanerochaete chrysosporium//*//* 0.005 * +EC1.6.5.2 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0051 * +EC1.6.5.2 nadh ralstonia eutropha jmp134//prokaryotes;bacteria;betaproteobacteria;cupriavidus//reu 0.2311 * +EC1.6.5.2 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0062 * +EC1.6.5.2 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.2 * +EC1.6.5.2 nadph archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.031 * +EC1.6.5.2 nadph clostridium tyrobutyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctyk 0.34 * +EC1.6.5.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0656 * +EC1.6.5.2 nadph giardia intestinalis//*//* 0.03 * +EC1.6.5.2 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.19 * +EC1.6.5.2 nadph hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.27 * +EC1.6.5.2 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC1.6.5.2 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0581 * +EC1.6.5.2 nadph octopus vulgaris//*//* 0.22 * +EC1.6.5.2 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.085 * +EC1.6.5.2 naphthoquinone giardia intestinalis//*//* 0.000437 * +EC1.6.5.2 potassium ferricyanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC1.6.5.2 reduced nicotinamide 2-azidoadenine dinucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0143 * +EC1.6.5.2 reduced nicotinamide 8-azidoadenine dinucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0185 * +EC1.6.5.2 ubiquinone-0 beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.0065 * +EC1.6.5.2 vitamin k1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC1.6.5.2 vitamin k1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0641 * +EC1.6.5.3 1,1'-carbamoylmethylviologen moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.55 * +EC1.6.5.3 1,4-benzoquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC1.6.5.3 2,3-dimethoxy-5-methyl-6-[(6-methyl-2,3-dihydroimidazo[2,1-b][1,3]thiazol-5-yl)methyl]benzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0434 * +EC1.6.5.3 2,3-dimethoxy-5-methyl-6-[(6-methylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]benzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3598 * +EC1.6.5.3 2,3-dimethoxy-5-methyl-6-[(6-phenylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]benzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0417 * +EC1.6.5.3 2,5-dimethyl-1,4-benzoquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC1.6.5.3 2,6-dichlorophenolindophenol cyberlindnera jadinii//*//* 0.016 * +EC1.6.5.3 2,6-dichlorophenolindophenol moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.55 * +EC1.6.5.3 2,6-dichlorophenolindophenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0062 * +EC1.6.5.3 2-[(2,6-dimethylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03348 * +EC1.6.5.3 2-[(2-chloro-6-methylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.221 * +EC1.6.5.3 2-[(2-chloro-6-phenylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01683 * +EC1.6.5.3 2-[(6-chloro-2,3-dihydroimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4144 * +EC1.6.5.3 2-[(6-chloro-2-methylimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.417 * +EC1.6.5.3 2-[(6-chloroimidazo[2,1-b][1,3]thiazol-5-yl)methyl]-5,6-dimethoxy-3-methylbenzo-1,4-quinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.227 * +EC1.6.5.3 3'-acetyl pyridine adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.125 * +EC1.6.5.3 5,8-dioxo-1,4-naphthoquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC1.6.5.3 5-oxo-1,4-naphthoquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC1.6.5.3 9,10-phenanthrenequinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC1.6.5.3 benzoquinone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.1 * +EC1.6.5.3 coenzyme q0 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.065 * +EC1.6.5.3 coenzyme q1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC1.6.5.3 coenzyme q1 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.02 * +EC1.6.5.3 coenzyme q1 rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.015 * +EC1.6.5.3 coenzyme q10 methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.297 * +EC1.6.5.3 cytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC1.6.5.3 cytochrome c mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.036 * +EC1.6.5.3 deamino-nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC1.6.5.3 decylubiquinone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC1.6.5.3 decylubiquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC1.6.5.3 duroquinone methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.489 * +EC1.6.5.3 ferricyanide beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.055 * +EC1.6.5.3 ferricyanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.0 * +EC1.6.5.3 ferricyanide moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.4 * +EC1.6.5.3 menadione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC1.6.5.3 menadione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.239 * +EC1.6.5.3 menaquinone methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.1 * +EC1.6.5.3 menaquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC1.6.5.3 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC1.6.5.3 nad+ moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.25 * +EC1.6.5.3 nad+ paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.27 * +EC1.6.5.3 nadh acidianus ambivalens//*//* 0.006 * +EC1.6.5.3 nadh agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.005 * +EC1.6.5.3 nadh aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.012 * +EC1.6.5.3 nadh beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.001 * +EC1.6.5.3 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5e-05 * +EC1.6.5.3 nadh corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0116 * +EC1.6.5.3 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.6.5.3 nadh moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 1.1 * +EC1.6.5.3 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC1.6.5.3 nadh paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.002 * +EC1.6.5.3 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0051 * +EC1.6.5.3 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.006 * +EC1.6.5.3 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0094 * +EC1.6.5.3 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC1.6.5.3 naphthoquinone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.05 * +EC1.6.5.3 oxidized dichlorophenolindophenol plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0046 * +EC1.6.5.3 ubiquinone-0 moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.35 * +EC1.6.5.3 ubiquinone-0 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.35 * +EC1.6.5.3 ubiquinone-0 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.104 * +EC1.6.5.3 ubiquinone-1 beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.143 * +EC1.6.5.3 ubiquinone-1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.6.5.3 ubiquinone-1 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0041 * +EC1.6.5.3 ubiquinone-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC1.6.5.3 ubiquinone-1 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.015 * +EC1.6.5.3 ubiquinone-1 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.002 * +EC1.6.5.3 ubiquinone-2 aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.01 * +EC1.6.5.3 ubiquinone-2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0204 * +EC1.6.5.3 ubiquinone-2 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0032 * +EC1.6.5.3 ubiquinone-2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.083 * +EC1.6.5.3 ubiquinone-2 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.02 * +EC1.6.5.4 2,6-dichloroindophenol cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.03 * +EC1.6.5.4 2,6-dichlorophenol indophenol pisum sativum//*//* 0.052 * +EC1.6.5.4 ferricyanide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.012 * +EC1.6.5.4 ferricyanide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0013 * +EC1.6.5.4 monodehydroascorbate hordeum vulgare//*//* 0.6 * +EC1.6.5.4 monodehydroascorbate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0134 * +EC1.6.5.4 monodehydroascorbate pisum sativum//*//* 0.0057 * +EC1.6.5.4 monodehydroascorbate pleurotus ostreatus//*//* 0.0021 * +EC1.6.5.4 monodehydroascorbate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00144 * +EC1.6.5.4 monodehydroascorbate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0025 * +EC1.6.5.4 nadh cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.0044 * +EC1.6.5.4 nadh hordeum vulgare//*//* 0.004 * +EC1.6.5.4 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.012 * +EC1.6.5.4 nadh oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0006 * +EC1.6.5.4 nadh physcomitrella patens//eukaryotes;plants;mosses//ppp 0.0078 * +EC1.6.5.4 nadh pisum sativum//*//* 0.0053 * +EC1.6.5.4 nadh pleurotus ostreatus//*//* 0.035 * +EC1.6.5.4 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC1.6.5.4 nadh solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0063 * +EC1.6.5.4 nadh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0077 * +EC1.6.5.4 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0063 * +EC1.6.5.4 nadph cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.023 * +EC1.6.5.4 nadph physcomitrella patens//eukaryotes;plants;mosses//ppp 0.088 * +EC1.6.5.4 nadph pisum sativum//*//* 0.0215 * +EC1.6.5.4 nadph solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.03 * +EC1.6.5.4 semidehydroascorbic acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0012 * +EC1.6.5.4 semidehydroascorbic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC1.6.5.5 1,2-naphthoquinone camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.0024 * +EC1.6.5.5 1,2-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC1.6.5.5 1,2-naphthoquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC1.6.5.5 1,4-benzoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.152 * +EC1.6.5.5 1,4-benzoquinone camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.065 * +EC1.6.5.5 1,4-benzoquinone cavia porcellus//*//* 0.143 * +EC1.6.5.5 1,4-naphthoquinone camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.26 * +EC1.6.5.5 2,5-dimethyl-4-benzoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0013 * +EC1.6.5.5 2,6-dichlorophenolindophenol camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.013 * +EC1.6.5.5 2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.45 * +EC1.6.5.5 2-hydroxy-1,4-naphthoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0237 * +EC1.6.5.5 2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.482 * +EC1.6.5.5 2-pentenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6 * +EC1.6.5.5 3-buten-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC1.6.5.5 3-nonen-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC1.6.5.5 3-penten-2-one homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.535 * +EC1.6.5.5 4-hydroxy-2-hexenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC1.6.5.5 4-hydroxy-2-nonenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC1.6.5.5 5-hydroxy-1,4-naphthoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.011 * +EC1.6.5.5 5-hydroxy-1,4-naphthoquinone cavia porcellus//*//* 0.027 * +EC1.6.5.5 9,10-phenanthrenequinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00065 * +EC1.6.5.5 9,10-phenanthrenequinone camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.017 * +EC1.6.5.5 9,10-phenanthrenequinone cavia porcellus//*//* 0.01 * +EC1.6.5.5 9,10-phenanthrenequinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC1.6.5.5 9,10-phenanthrenequinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC1.6.5.5 9,10-phenanthrenequinone staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0491 * +EC1.6.5.5 anthraquinone-2-sulfonate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0345 * +EC1.6.5.5 coenzyme q10 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0119 * +EC1.6.5.5 decyl-plastoquinone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.025 * +EC1.6.5.5 dibromothymoquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0012 * +EC1.6.5.5 duroquinone synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0028 * +EC1.6.5.5 ferricytochrome arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC1.6.5.5 komaroviquinone trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.03 * +EC1.6.5.5 menadione synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0057 * +EC1.6.5.5 menadione trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.019 * +EC1.6.5.5 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0025 * +EC1.6.5.5 nadph camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.0069 * +EC1.6.5.5 nadph cavia porcellus//*//* 0.005 * +EC1.6.5.5 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC1.6.5.5 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC1.6.5.5 nadph synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0315 * +EC1.6.5.5 nifurtimox trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.013 * +EC1.6.5.5 propenal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.45 * +EC1.6.5.6 1-methylisatin mucor ambiguus//*//* 0.0123 * +EC1.6.5.6 acenaphthenequinone mucor ambiguus//*//* 0.21 * +EC1.6.5.6 alloxan mucor ambiguus//*//* 2.5 * +EC1.6.5.6 beta-naphthoquinone mucor ambiguus//*//* 0.053 * +EC1.6.5.6 dihydro-4-methyl-4-propyl-2,3-furanedione mucor ambiguus//*//* 3.3 * +EC1.6.5.6 dihydro-5-(2-butyl)-4-methyl-4-ethyl-2,3-furanedione mucor ambiguus//*//* 1.61 * +EC1.6.5.6 dihydro-5-(2-pentyl)-4,4-dimethyl-2,3-furanedione mucor ambiguus//*//* 0.38 * +EC1.6.5.6 dihydro-5-(2-pentyl)-4-methyl-4-propyl-2,3-furanedione mucor ambiguus//*//* 0.24 * +EC1.6.5.6 dihydro-5-(3-pentyl)-4,4-dimethyl-2,3-furanedione mucor ambiguus//*//* 0.58 * +EC1.6.5.6 dihydro-5-isopropyl-4,4-dimethyl-2,3-furanedione mucor ambiguus//*//* 4.17 * +EC1.6.5.6 isatin mucor ambiguus//*//* 0.05 * +EC1.6.5.6 ketopantoyl lactone mucor ambiguus//*//* 0.71 * +EC1.6.5.6 nadph mucor ambiguus//*//* 0.135 * +EC1.6.5.6 nadph pseudomonas sp. wbc-3//*//* 0.181 * +EC1.6.5.6 p-benzoquinone pseudomonas sp. wbc-3//*//* 0.0067 * +EC1.6.5.6 p-toruquinone mucor ambiguus//*//* 0.41 * +EC1.6.5.8 n li+/in vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 3.5 * +EC1.6.5.8 n na+/in vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 2.5 * +EC1.6.5.8 nadh vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.0296 * +EC1.6.5.8 nadh vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0147 * +EC1.6.5.8 ubiquinone-1 vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.0025 * +EC1.6.5.8 ubiquinone vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.0025 * +EC1.6.5.9 2,6-dichlorophenolindophenol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0062 * +EC1.6.5.9 n-(6-[[(4e,8e)-10-(4-azido-5-methoxy-2-methyl-3,6-dioxocyclohexa-1,4-dien-1-yl)-4,8-dimethyldeca-4,8-dien-1-yl]amino]-6-oxohexyl)-6-([5-[(3as,4s,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanoyl]amino)hexanamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0181 * +EC1.6.5.9 n-[(4e,8e)-10-(4-azido-5-methoxy-2-methyl-3,6-dioxocyclohexa-1,4-dien-1-yl)-4,8-dimethyldeca-4,8-dien-1-yl]-6-([5-[(3as,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanoyl]amino)hexanamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.022 * +EC1.6.5.9 n-[2-[2-(2-[[(4e,8e)-10-(4-azido-5-methoxy-2-methyl-3,6-dioxocyclohexa-1,4-dien-1-yl)-4,8-dimethyldeca-4,8-dien-1-yl]oxy]ethoxy)ethoxy]ethyl]-5-[(3as,4s,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.033 * +EC1.6.5.9 nadh arum maculatum//*//* 0.028 * +EC1.6.5.9 nadh gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.157 * +EC1.6.5.9 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0094 * +EC1.6.5.9 nadh yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.014 * +EC1.6.5.9 ubiquinone-1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0152 * +EC1.6.5.9 ubiquinone-2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0079 * +EC1.6.6.9 trimethylamine n-oxide vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 1.7 * +EC1.6.99.1 2,4,6-trinitrotoluene bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.123 * +EC1.6.99.1 2-cyclohexen-1-one shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.0547 * +EC1.6.99.1 acrolein shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.109 * +EC1.6.99.1 cyclohex-2-enone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.186 * +EC1.6.99.1 n-ethylmaleimide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.001 * +EC1.6.99.1 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC1.6.99.1 nem shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.0016 * +EC1.6.99.1 nitroblue tetrazolium hydrochloride rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0073 * +EC1.6.99.1 nitroglycerin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.045 * +EC1.6.99.1 nitroglycerin shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.0264 * +EC1.6.99.1 trans-hex-2-enal bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.853 * +EC1.6.99.3 2,6-dichlorophenolindophenol moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.03 * +EC1.6.99.3 benzyl viologen trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.17 * +EC1.6.99.3 cytochrome b5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC1.6.99.3 ferricyanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0095 * +EC1.6.99.3 ferricyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC1.6.99.3 ferricyanide trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.06 * +EC1.6.99.3 methyl viologen trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.44 * +EC1.6.99.3 nadh agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.02 * +EC1.6.99.3 nadh bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0157 * +EC1.6.99.3 nadh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC1.6.99.3 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC1.6.99.3 nadh moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.5 * +EC1.6.99.3 nadh trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.1 * +EC1.6.99.3 nadph bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.035 * +EC1.7.1.1 2,6-dichlorophenol indophenol rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 100.0 * +EC1.7.1.1 2,6-dichlorophenolindophenol chlorella sp.//*//* 0.13 * +EC1.7.1.1 2,6-dichlorophenolindophenol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.053 * +EC1.7.1.1 bro3- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.739 * +EC1.7.1.1 bromophenol blue cucurbita sp.//*//* 0.06 * +EC1.7.1.1 clo3- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.221 * +EC1.7.1.1 fad auxenochlorella pyrenoidosa//*//* 0.0026 * +EC1.7.1.1 ferricyanide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.021 * +EC1.7.1.1 ferricytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 80.0 * +EC1.7.1.1 ferricytochrome c spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.006 * +EC1.7.1.1 flavin hydroquinone spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.056 * +EC1.7.1.1 io3- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 10.75 * +EC1.7.1.1 menadione cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 0.275 * +EC1.7.1.1 nadh auxenochlorella pyrenoidosa//*//* 0.01 * +EC1.7.1.1 nadh cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 0.007 * +EC1.7.1.1 nadh emiliania huxleyi//eukaryotes;protists;haptophyta//ehx 0.04 * +EC1.7.1.1 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0029 * +EC1.7.1.1 nadh hordeum vulgare//*//* 0.0038 * +EC1.7.1.1 nadh pyropia yezoensis//*//* 0.023 * +EC1.7.1.1 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.052 * +EC1.7.1.1 nadh skeletonema costatum//*//* 0.0036 * +EC1.7.1.1 nadh solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.035 * +EC1.7.1.1 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.006 * +EC1.7.1.1 nadh thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 0.008 * +EC1.7.1.1 nadh triticum aestivum//*//* 0.033 * +EC1.7.1.1 nadh zea mays//eukaryotes;plants;monocots;grass family//zma 0.003 * +EC1.7.1.1 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.026 * +EC1.7.1.1 nitrate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.197 * +EC1.7.1.1 nitrate auxenochlorella pyrenoidosa//*//* 0.23 * +EC1.7.1.1 nitrate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.05 * +EC1.7.1.1 nitrate cucurbita sp.//*//* 0.5 * +EC1.7.1.1 nitrate emiliania huxleyi//eukaryotes;protists;haptophyta//ehx 0.104 * +EC1.7.1.1 nitrate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.11 * +EC1.7.1.1 nitrate hordeum vulgare//*//* 0.09 * +EC1.7.1.1 nitrate pyropia yezoensis//*//* 0.064 * +EC1.7.1.1 nitrate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.096 * +EC1.7.1.1 nitrate skeletonema costatum//*//* 0.295 * +EC1.7.1.1 nitrate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.27 * +EC1.7.1.1 nitrate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.008 * +EC1.7.1.1 nitrate thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 0.04 * +EC1.7.1.1 nitrate triticum aestivum//*//* 0.34 * +EC1.7.1.1 nitrate zea mays//eukaryotes;plants;monocots;grass family//zma 0.07 * +EC1.7.1.1 reduced bromophenol blue rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.54 * +EC1.7.1.1 reduced methyl viologen rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.87 * +EC1.7.1.10 hydroxylamine derxia gummosa//*//* 5.3 * +EC1.7.1.10 hydroxylamine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.8 * +EC1.7.1.10 hydroxylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC1.7.1.10 hydroxylamine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.0 * +EC1.7.1.10 methyl viologen rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.007 * +EC1.7.1.10 nadh derxia gummosa//*//* 0.15 * +EC1.7.1.10 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.07 * +EC1.7.1.10 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC1.7.1.10 no2- derxia gummosa//*//* 0.0048 * +EC1.7.1.11 4-(dimethylamino)phenylazoxybenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC1.7.1.11 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC1.7.1.13 2-amino-5-cyanopyrrolo[2,3-d]pyrimidin-4-one escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0061 * +EC1.7.1.13 5-cyanopyrrolo[2,3-d]pyrimidin-4-one escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.176 * +EC1.7.1.13 7-cyano-7-deazaguanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC1.7.1.13 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0002 * +EC1.7.1.14 nadh aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.801 * +EC1.7.1.14 nadph aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.934 * +EC1.7.1.14 no fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.6 * +EC1.7.1.14 no histoplasma capsulatum//eukaryotes;fungi;ascomycetes;eurotiomycetes//aje 0.02 * +EC1.7.1.15 cytochrome c escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC1.7.1.15 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.91 * +EC1.7.1.15 k3fe(cn)6 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC1.7.1.15 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0488 * +EC1.7.1.15 nadh rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.02 * +EC1.7.1.15 nitrite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC1.7.1.15 nitrite rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.5 * +EC1.7.1.16 (2e)-2-[(5-nitrofuran-2-yl)methylidene]hydrazine-1-carboxamide gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.016 * +EC1.7.1.16 1,3-dinitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.128 * +EC1.7.1.16 2-chloronitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.468 * +EC1.7.1.16 3-nitrotoluene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.264 * +EC1.7.1.16 4-chloronitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.309 * +EC1.7.1.16 4-nitrotoluene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.282 * +EC1.7.1.16 5-(aziridin-1-yl)-2,4-dinitrobenzamide gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.054 * +EC1.7.1.16 5-(aziridin-1-yl)-2,4-dinitrobenzamide pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.0117 * +EC1.7.1.16 menadione pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.009 * +EC1.7.1.16 nadph gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.153 * +EC1.7.1.16 nadph pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.183 * +EC1.7.1.16 nitrobenzene gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.545 * +EC1.7.1.16 nitrobenzene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.002 * +EC1.7.1.16 nitrofurazone pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 1.763 * +EC1.7.1.2 fad ankistrodesmus braunii//*//* 4e-06 * +EC1.7.1.2 nadh candida nitratophila//*//* 0.017 * +EC1.7.1.2 nadh chlorella variegata//*//* 0.0115 * +EC1.7.1.2 nadh rhodotorula glutinis//*//* 0.16 * +EC1.7.1.2 nadh wickerhamomyces anomalus//*//* 0.1 * +EC1.7.1.2 nadph candida nitratophila//*//* 0.03 * +EC1.7.1.2 nadph chlorella variegata//*//* 0.0145 * +EC1.7.1.2 nadph rhodotorula glutinis//*//* 0.02 * +EC1.7.1.2 nadph wickerhamomyces anomalus//*//* 0.045 * +EC1.7.1.2 nitrate candida nitratophila//*//* 0.11 * +EC1.7.1.2 nitrate chlorella variegata//*//* 0.13 * +EC1.7.1.2 nitrate rhodotorula glutinis//*//* 0.125 * +EC1.7.1.3 cytochrome c aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.024 * +EC1.7.1.3 fadh2 aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 2.5 * +EC1.7.1.3 fmnh2 aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 3.0 * +EC1.7.1.3 nadh neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.0 * +EC1.7.1.3 nadph aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.009 * +EC1.7.1.3 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.013 * +EC1.7.1.3 nitrate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.06 * +EC1.7.1.3 nitrate funaria hygrometrica//*//* 0.012 * +EC1.7.1.3 nitrate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.29 * +EC1.7.1.4 fad neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2e-05 * +EC1.7.1.4 fad torulopsis nitratophila//*//* 4.5e-05 * +EC1.7.1.4 fmn neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.05 * +EC1.7.1.4 hydroxylamine derxia gummosa//*//* 5.3 * +EC1.7.1.4 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3 * +EC1.7.1.4 hydroxylamine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.5 * +EC1.7.1.4 nadh azotobacter chroococcum//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//acx 0.015 * +EC1.7.1.4 nadh derxia gummosa//*//* 0.0063 * +EC1.7.1.4 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC1.7.1.4 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.015 * +EC1.7.1.4 nitrite torulopsis nitratophila//*//* 0.019 * +EC1.7.1.4 no2- azotobacter chroococcum//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//acx 0.0055 * +EC1.7.1.4 no2- derxia gummosa//*//* 0.0048 * +EC1.7.1.4 no2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC1.7.1.4 no2- neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0075 * +EC1.7.1.7 gmp artemia salina//*//* 0.005 * +EC1.7.1.7 gmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0014 * +EC1.7.1.7 gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.096 * +EC1.7.1.7 gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC1.7.1.7 gmp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.096 * +EC1.7.1.7 gmp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.0094 * +EC1.7.1.7 gmp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.096 * +EC1.7.1.7 guanosine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0055 * +EC1.7.1.7 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.031 * +EC1.7.1.7 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0147 * +EC1.7.1.7 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC1.7.1.7 nadph mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.01 * +EC1.7.1.9 4-nitroquinoline n-oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC1.7.1.B1 2,4,6-trinitrotoluene pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC1.7.1.B1 cyclohexenone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.158 * +EC1.7.1.B1 glycerol trinitrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.027 * +EC1.7.1.B1 n-ethylmaleimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.044 * +EC1.7.1.B1 nadph pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.013 * +EC1.7.2.1 azurin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.049 * +EC1.7.2.1 cytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.046 * +EC1.7.2.1 cytochrome c pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0305 * +EC1.7.2.1 cytochrome c551 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0056 * +EC1.7.2.1 ferrocytochrome c-551 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.002 * +EC1.7.2.1 hydroxylamine paracoccus pantotrophus//*//* 0.43 * +EC1.7.2.1 nh2oh paracoccus pantotrophus//*//* 0.434 * +EC1.7.2.1 nitrite achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.0013 * +EC1.7.2.1 nitrite alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.036 * +EC1.7.2.1 nitrite haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 4.04 * +EC1.7.2.1 nitrite hyphomicrobium denitrificans//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hdn 0.62 * +EC1.7.2.1 nitrite paracoccus pantotrophus//*//* 0.007 * +EC1.7.2.1 nitrite pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.006 * +EC1.7.2.1 nitrite rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0357 * +EC1.7.2.1 nitrite uncultured bacterium//*//* 0.25 * +EC1.7.2.1 no2- achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.035 * +EC1.7.2.1 no2- cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.8 * +EC1.7.2.1 no2- magnetospirillum magnetotacticum//*//* 0.00147 * +EC1.7.2.1 no2- paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.046 * +EC1.7.2.1 no2- paracoccus pantotrophus//*//* 0.0073 * +EC1.7.2.1 no2- pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.053 * +EC1.7.2.1 o2 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.027 * +EC1.7.2.1 o2 paracoccus pantotrophus//*//* 0.148 * +EC1.7.2.1 o2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.028 * +EC1.7.2.1 pseudoazurin alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.067 * +EC1.7.2.1 reduced methyl viologen haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.41 * +EC1.7.2.2 hydroxylamine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC1.7.2.2 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.4 * +EC1.7.2.2 hydroxylamine thioalkalivibrio nitratireducens//prokaryotes;bacteria;gammaproteobacteria - others;thioalkalivibrio//tni 16.4 * +EC1.7.2.2 nitrite escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC1.7.2.2 nitrite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00025 * +EC1.7.2.2 nitrite shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.054 * +EC1.7.2.2 nitrite thioalkalivibrio nitratireducens//prokaryotes;bacteria;gammaproteobacteria - others;thioalkalivibrio//tni 16.7 * +EC1.7.2.2 no radical escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC1.7.2.2 reduced diquat desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0064 * +EC1.7.2.2 reduced methyl viologen desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.015 * +EC1.7.2.2 reduced phenosafranine desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.0027 * +EC1.7.2.2 sulfite thioalkalivibrio nitratireducens//prokaryotes;bacteria;gammaproteobacteria - others;thioalkalivibrio//tni 60.0 * +EC1.7.2.3 2-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.01 * +EC1.7.2.3 3-hydroxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.75 * +EC1.7.2.3 3-picoline n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.43 * +EC1.7.2.3 4-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.15 * +EC1.7.2.3 4-methylmorpholine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00754 * +EC1.7.2.3 4-methylmorpholine n-oxide shewanella massilia//*//* 0.022 * +EC1.7.2.3 alpha-picoline n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00991 * +EC1.7.2.3 alpha-picoline n-oxide shewanella massilia//*//* 0.61 * +EC1.7.2.3 benzyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC1.7.2.3 biotin sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC1.7.2.3 chlorate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.2 * +EC1.7.2.3 dimethylsulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.974 * +EC1.7.2.3 dimethylsulfoxide proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 6.0 * +EC1.7.2.3 dimethylsulfoxide rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.67 * +EC1.7.2.3 diphenylsulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0278 * +EC1.7.2.3 gamma-picoline n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00838 * +EC1.7.2.3 gamma-picoline n-oxide shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 6.95 * +EC1.7.2.3 hydroxylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.39 * +EC1.7.2.3 methyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.7.2.3 n,n-dimethyldodecylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.25 * +EC1.7.2.3 n,n-dimethyldodecylamine n-oxide shewanella massilia//*//* 1.0 * +EC1.7.2.3 n,n-dimethyldodecylamine n-oxide shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 2.41 * +EC1.7.2.3 n,n-dimethylhexylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.14 * +EC1.7.2.3 n-cyclohexyldimethylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.74 * +EC1.7.2.3 pyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0108 * +EC1.7.2.3 tetramethylene sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0252 * +EC1.7.2.3 trimethylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00765 * +EC1.7.2.3 trimethylamine n-oxide roseobacter denitrificans//prokaryotes;bacteria;alphaproteobacteria;roseobacter//rde 0.006 * +EC1.7.2.3 trimethylamine n-oxide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.89 * +EC1.7.2.3 trimethylamine n-oxide shewanella massilia//*//* 0.017 * +EC1.7.2.3 trimethylamine n-oxide shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.02 * +EC1.7.2.3 trimethylamine-n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC1.7.2.3 trimethylamine-n-oxide proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.3 * +EC1.7.2.3 trimethylamine-n-oxide rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 24.0 * +EC1.7.2.4 benzyl viologen cation radical pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0043 * +EC1.7.2.4 benzyl viologen wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 0.004 * +EC1.7.2.4 fe2+ pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.033 * +EC1.7.2.4 n2o achromobacter cycloclastes//*//* 0.0191 * +EC1.7.2.4 n2o paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.005 * +EC1.7.2.4 n2o pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0024 * +EC1.7.2.4 n2o pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.032 * +EC1.7.2.4 n2o wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 0.0075 * +EC1.7.2.4 reduced benzyl viologen achromobacter cycloclastes//*//* 0.0138 * +EC1.7.2.4 reduced benzyl viologen paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0009 * +EC1.7.2.4 reduced methyl viologen paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.00095 * +EC1.7.2.4 reduced pseudoazurin achromobacter cycloclastes//*//* 0.0288 * +EC1.7.2.5 5-hydroxy-1,4-naphthoquinone bacillus azotoformans//*//* 0.14 * +EC1.7.2.5 5-hydroxy-2-methyl-1,4-naphthoquinol bacillus azotoformans//*//* 0.26 * +EC1.7.2.5 nadh aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.8 * +EC1.7.2.5 nadh fusarium lichenicola//*//* 0.32 * +EC1.7.2.5 nadh fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.22 * +EC1.7.2.5 nadph aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.93 * +EC1.7.2.5 nadph fusarium lichenicola//*//* 0.32 * +EC1.7.2.5 nitric oxide desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.019 * +EC1.7.2.5 no aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.2 * +EC1.7.2.5 no fusarium lichenicola//*//* 0.02 * +EC1.7.2.5 no fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.06 * +EC1.7.2.5 no moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.004 * +EC1.7.2.5 no paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.00025 * +EC1.7.2.5 no pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.06 * +EC1.7.2.5 phenazine methosulfate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.002 * +EC1.7.2.5 pseudoazurin paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.027 * +EC1.7.2.6 cytochrome c nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.017 * +EC1.7.2.6 ferricyanide nitrosococcus oceani//prokaryotes;bacteria;gammaproteobacteria - others;nitrosococcus//noc 0.0009 * +EC1.7.2.6 ferricytochrome c-554 nitrosococcus oceani//prokaryotes;bacteria;gammaproteobacteria - others;nitrosococcus//noc 0.0011 * +EC1.7.2.6 hydrazine nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.003 * +EC1.7.2.8 hydrazine candidatus brocadia anammoxidans//*//* 0.018 * +EC1.7.2.8 hydrazine candidatus jettenia caeni//*//* 0.0055 * +EC1.7.2.8 hydrazine candidatus kuenenia stuttgartiensis//*//* 0.01 * +EC1.7.2.8 hydroxylamine candidatus brocadia anammoxidans//*//* 0.026 * +EC1.7.2.8 hydroxylamine candidatus jettenia caeni//*//* 0.033 * +EC1.7.3.1 1-nitrohexane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.04 * +EC1.7.3.1 1-nitrooctane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.03 * +EC1.7.3.1 1-nitropropane streptomyces ansochromogenes//*//* 35.7 * +EC1.7.3.1 2-nitropropane streptomyces ansochromogenes//*//* 83.5 * +EC1.7.3.1 benzoate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 5.1 * +EC1.7.3.1 nitroethane fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 2.3 * +EC1.7.3.1 nitroethane podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 13.0 * +EC1.7.3.1 nitroethane streptomyces ansochromogenes//*//* 26.8 * +EC1.7.3.1 o2 fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.023 * +EC1.7.3.1 o2 podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 0.39 * +EC1.7.3.1 phenylacetic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 13.1 * +EC1.7.3.3 o2 glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.031 * +EC1.7.3.3 o2 vigna unguiculata//*//* 0.029 * +EC1.7.3.3 urate arthrobacter globiformis//*//* 0.075 * +EC1.7.3.3 urate aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.0472 * +EC1.7.3.3 urate bacillus fastidiosus//*//* 0.204 * +EC1.7.3.3 urate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0034 * +EC1.7.3.3 urate canis lupus familiaris//*//* 0.0085 * +EC1.7.3.3 urate cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.0047 * +EC1.7.3.3 urate cyberlindnera jadinii//*//* 0.0337 * +EC1.7.3.3 urate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.31 * +EC1.7.3.3 uric acid bacillus fastidiosus//*//* 0.042 * +EC1.7.3.3 uric acid bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.014 * +EC1.7.3.3 uric acid cyberlindnera jadinii//*//* 0.00588 * +EC1.7.3.3 uric acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.5 * +EC1.7.3.3 uric acid geobacillus thermocatenulatus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtm 0.25 * +EC1.7.3.3 uric acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0098 * +EC1.7.3.3 uric acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.042 * +EC1.7.3.3 uric acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.015 * +EC1.7.3.3 uric acid puccinia recondita//*//* 0.035 * +EC1.7.3.3 uric acid streptomyces cyanogenus//*//* 0.099 * +EC1.7.3.3 uric acid uromyces phaseoli//*//* 0.032 * +EC1.7.3.3 uric acid uromyces viciae-fabae//*//* 0.034 * +EC1.7.3.3 uric acid vicia faba//*//* 0.021 * +EC1.7.3.3 uric acid vigna unguiculata//*//* 0.018 * +EC1.7.3.6 ferricytochrome c551 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.01 * +EC1.7.3.6 horse heart ferricytochrome c pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.07 * +EC1.7.3.6 hydroxylamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.35 * +EC1.7.3.6 pseudoazurin paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.033 * +EC1.7.5.1 2-hydroxy-3-(3-methyl-2-butenyl)-1,4-naphthoquinol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.057 * +EC1.7.5.1 5-hydroxy-2-methyl-1,4-naphthoquinol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.282 * +EC1.7.5.1 5-hydroxy-2-methyl-naphthalene-1,4-diol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.147 * +EC1.7.5.1 nitrate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC1.7.5.1 nitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC1.7.5.2 cytochrome c551 bacillus azotoformans//*//* 0.0045 * +EC1.7.5.2 juglone bacillus azotoformans//*//* 0.141 * +EC1.7.5.2 plumbagin bacillus azotoformans//*//* 0.256 * +EC1.7.7.1 ferredoxin arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.02 * +EC1.7.7.1 ferredoxin chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.024 * +EC1.7.7.1 ferredoxin chlorolobion braunii//*//* 0.1 * +EC1.7.7.1 ferredoxin phormidium laminosum//*//* 0.022 * +EC1.7.7.1 ferredoxin pyropia yezoensis//*//* 0.025 * +EC1.7.7.1 ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.006 * +EC1.7.7.1 methyl viologen arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.4 * +EC1.7.7.1 methyl viologen chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.91 * +EC1.7.7.1 methyl viologen chlorolobion braunii//*//* 0.26 * +EC1.7.7.1 methyl viologen cyberlindnera jadinii//*//* 0.08 * +EC1.7.7.1 methyl viologen oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.063 * +EC1.7.7.1 methyl viologen phormidium laminosum//*//* 0.215 * +EC1.7.7.1 methyl viologen spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.1 * +EC1.7.7.1 nadph cyberlindnera jadinii//*//* 0.069 * +EC1.7.7.1 nitrite arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.2 * +EC1.7.7.1 nitrite chlorolobion braunii//*//* 0.7 * +EC1.7.7.1 nitrite haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 8.6 * +EC1.7.7.1 nitrite nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.156 * +EC1.7.7.1 nitrite oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.36 * +EC1.7.7.1 nitrite phormidium laminosum//*//* 0.04 * +EC1.7.7.1 nitrite pyropia yezoensis//*//* 0.28 * +EC1.7.7.1 nitrite spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.7.7.1 reduced ferredoxin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0097 * +EC1.7.7.1 reduced methyl viologen haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 1.9 * +EC1.7.7.2 ferredoxin synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.05 * +EC1.7.7.2 methyl viologen haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.25 * +EC1.7.7.2 nitrate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.1 * +EC1.7.7.2 nitrate haloferax alexandrinus//*//* 0.045 * +EC1.7.7.2 nitrate haloferax denitrificans//*//* 0.19 * +EC1.7.7.2 nitrate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.82 * +EC1.7.7.2 nitrate synechococcus elongatus pcc 7942//*//* 0.69 * +EC1.7.7.2 nitrate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.05 * +EC1.7.7.2 reduced ferredoxin leptolyngbya boryana//prokaryotes;bacteria;cyanobacteria;leptolyngbya//lbo 0.038 * +EC1.7.7.2 reduced ferredoxin synechococcus elongatus pcc 7942//*//* 0.013 * +EC1.7.7.2 reduced methyl viologen haloferax alexandrinus//*//* 0.0646 * +EC1.7.7.2 reduced methyl viologen haloferax denitrificans//*//* 0.0028 * +EC1.7.7.2 reduced methyl viologen haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.066 * +EC1.7.7.2 reduced methyl viologen leptolyngbya boryana//prokaryotes;bacteria;cyanobacteria;leptolyngbya//lbo 2.5 * +EC1.7.99.1 benzyl viologen cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 0.0075 * +EC1.7.99.1 fadh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1e-05 * +EC1.7.99.1 hydroxylamine cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 0.05 * +EC1.7.99.1 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC1.7.99.1 hydroxylamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4e-07 * +EC1.7.99.1 hydroxylamine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.4 * +EC1.7.99.1 reduced methylene blue pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.4e-05 * +EC1.7.99.1 reduced pyocyanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2e-05 * +EC1.8.1.10 coa-glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.8.1.10 coa-glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC1.8.1.11 asparagusate asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 20.0 * +EC1.8.1.11 asparagusic acid asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 20.0 * +EC1.8.1.11 k3fe(cn)6 asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 0.8 * +EC1.8.1.11 lipoate asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 3.0 * +EC1.8.1.11 lipoic acid asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 3.0 * +EC1.8.1.12 (e,z)-ajoene trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.0 * +EC1.8.1.12 3-acetylpyridine adenine dinucleotide trypanosoma congolense//*//* 0.0039 * +EC1.8.1.12 4-aminobutyryl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 0.448 * +EC1.8.1.12 benzyloxycarbonyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 0.052 * +EC1.8.1.12 beta-thio-nadph trypanosoma congolense//*//* 0.0113 * +EC1.8.1.12 deazatrypanothione disulfide trypanosoma congolense//*//* 0.12 * +EC1.8.1.12 glutathionylspermidine disulfide crithidia fasciculata//*//* 0.022 * +EC1.8.1.12 glutathionylspermidine disulfide euglena gracilis//*//* 0.091 * +EC1.8.1.12 glutathionylspermidine disulfide leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.115 * +EC1.8.1.12 glutathionylspermidine disulfide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.022 * +EC1.8.1.12 l-beta-aspartyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 0.693 * +EC1.8.1.12 l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 0.968 * +EC1.8.1.12 l-gamma-glutamyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 0.225 * +EC1.8.1.12 nadh trypanosoma congolense//*//* 0.096 * +EC1.8.1.12 nadph crithidia fasciculata//*//* 0.005 * +EC1.8.1.12 nadph leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.009 * +EC1.8.1.12 nadph trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00077 * +EC1.8.1.12 nadph trypanosoma congolense//*//* 0.0012 * +EC1.8.1.12 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.005 * +EC1.8.1.12 tert-butyloxycarbonyl-l-cysteinylglycyl-3-methylaminopropylamide disulfide crithidia fasciculata//*//* 0.251 * +EC1.8.1.12 trypanothione disulfide crithidia fasciculata//*//* 0.051 * +EC1.8.1.12 trypanothione disulfide euglena gracilis//*//* 0.031 * +EC1.8.1.12 trypanothione disulfide leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.036 * +EC1.8.1.12 trypanothione disulfide leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.0206 * +EC1.8.1.12 trypanothione disulfide trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0069 * +EC1.8.1.12 trypanothione disulfide trypanosoma congolense//*//* 0.031 * +EC1.8.1.12 trypanothione disulfide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0015 * +EC1.8.1.13 bis-gamma-glutamylcystine halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.81 * +EC1.8.1.13 nadph halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.29 * +EC1.8.1.14 coa-disulfide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.002 * +EC1.8.1.14 coa-disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.003 * +EC1.8.1.14 coa-ethyl disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.005 * +EC1.8.1.14 coa-methyl disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.008 * +EC1.8.1.14 coa-sec-butyl disulfide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.004 * +EC1.8.1.14 methyl methanethiolsulfonate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.078 * +EC1.8.1.14 nadh bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.001 * +EC1.8.1.14 nadph bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.003 * +EC1.8.1.14 nadph pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.009 * +EC1.8.1.15 2,6-dimethylbenzoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.0 * +EC1.8.1.15 2-(-n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.463 * +EC1.8.1.15 2-methyl-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.24 * +EC1.8.1.15 5,8-dihydroxy-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.34 * +EC1.8.1.15 5-(benzyl 2-(n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside)-dithio-2-nitrobenzoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.268 * +EC1.8.1.15 5-hydroxy-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.54 * +EC1.8.1.15 7-methyljuglone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.365 * +EC1.8.1.15 8-chloro-5-methoxy-7-methyl-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.142 * +EC1.8.1.15 alpha-nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.055 * +EC1.8.1.15 benzyl 2-(-n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.438 * +EC1.8.1.15 benzyl 2-(n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.438 * +EC1.8.1.15 beta-nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.008 * +EC1.8.1.15 des-myo-inositol mycothione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.4 * +EC1.8.1.15 diospyrin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.118 * +EC1.8.1.15 dtnb mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.3 * +EC1.8.1.15 juglone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.088 * +EC1.8.1.15 menadione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.732 * +EC1.8.1.15 methyl 2-(-n-acetyl-l-cysteinyl) amino-2-deoxy-alpha-d-glucopyranoside disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.61 * +EC1.8.1.15 mycothione mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.073 * +EC1.8.1.15 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.043 * +EC1.8.1.15 neodiospyrin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.308 * +EC1.8.1.15 reduced beta-nicotinamide hypoxanthine dinucleotide phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.023 * +EC1.8.1.15 reduced beta-nicotinamide hypoxanthine dinucleotide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC1.8.1.15 thio-nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.09 * +EC1.8.1.15 thio-nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.001 * +EC1.8.1.16 glutathione amide disulfide marichromatium gracile//*//* 0.097 * +EC1.8.1.16 glutathione disulfide marichromatium gracile//*//* 6.9 * +EC1.8.1.16 nadh marichromatium gracile//*//* 0.0132 * +EC1.8.1.16 nadph marichromatium gracile//*//* 1.98 * +EC1.8.1.18 nadh pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.01 * +EC1.8.1.18 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.018 * +EC1.8.1.18 nadph thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.087 * +EC1.8.1.18 polysulfide(n) thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.54 * +EC1.8.1.19 (sulfide)n+1 pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.25 * +EC1.8.1.19 nadph pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.011 * +EC1.8.1.2 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC1.8.1.2 fad saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC1.8.1.2 fmn saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC1.8.1.2 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.5 * +EC1.8.1.2 hydroxylamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC1.8.1.2 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC1.8.1.2 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC1.8.1.2 nitrite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC1.8.1.2 nitrite saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8 * +EC1.8.1.2 paraquat escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.8.1.2 reduced f420 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.021 * +EC1.8.1.2 sulfite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0043 * +EC1.8.1.2 sulfite methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0122 * +EC1.8.1.2 sulfite saccharomyces bayanus//*//* 2.0 * +EC1.8.1.2 sulfite saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC1.8.1.4 1,4-benzoquinone mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.01 * +EC1.8.1.4 1,4-benzoquinone streptomyces seoulensis//*//* 0.4 * +EC1.8.1.4 1,4-naphthoquinone mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.05 * +EC1.8.1.4 2,6-dichlorophenolindophenol clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.12 * +EC1.8.1.4 2,6-dichlorophenolindophenol moorella thermoacetica atcc 39073//*//* 0.03 * +EC1.8.1.4 2,6-dichlorophenolindophenol ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.015 * +EC1.8.1.4 2,6-dimethyl-1,4-benzoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.86 * +EC1.8.1.4 2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.46 * +EC1.8.1.4 2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.45 * +EC1.8.1.4 3-acetylpyridine adenine dinucleotide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.39 * +EC1.8.1.4 5-hydroxy-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.29 * +EC1.8.1.4 acetaldoxime sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.96 * +EC1.8.1.4 alpha-lipoamide starkeyomyces koorchalomoides//*//* 3.63 * +EC1.8.1.4 dihydrolipoamide acidianus ambivalens//*//* 0.7 * +EC1.8.1.4 dihydrolipoamide clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.3 * +EC1.8.1.4 dihydrolipoamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC1.8.1.4 dihydrolipoamide haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.018 * +EC1.8.1.4 dihydrolipoamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC1.8.1.4 dihydrolipoamide natronobacterium gregoryi//prokaryotes;archaea;euryarchaeota;natronobacterium//nge 0.017 * +EC1.8.1.4 dihydrolipoamide pelobacter carbinolicus//prokaryotes;bacteria;deltaproteobacteria;pelobacter//pca 0.4 * +EC1.8.1.4 dihydrolipoamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.146 * +EC1.8.1.4 dihydrolipoamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.48 * +EC1.8.1.4 dihydrolipoamide thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.83 * +EC1.8.1.4 dihydrolipoamide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.13 * +EC1.8.1.4 dihydrolipoate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 4.7 * +EC1.8.1.4 ferric leghemoglobin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.029 * +EC1.8.1.4 formaldoxime bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.83 * +EC1.8.1.4 formaldoxime sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.73 * +EC1.8.1.4 glycerol trinitrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.42 * +EC1.8.1.4 glycerol trinitrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC1.8.1.4 h-protein pisum sativum//*//* 0.027 * +EC1.8.1.4 hydroxylamine hydrochloride sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.24 * +EC1.8.1.4 lipoamide acidianus ambivalens//*//* 1.26 * +EC1.8.1.4 lipoamide clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.42 * +EC1.8.1.4 lipoamide glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.38 * +EC1.8.1.4 lipoamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC1.8.1.4 lipoamide microbacterium luteolum//*//* 3.3 * +EC1.8.1.4 lipoamide mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.3 * +EC1.8.1.4 lipoamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.56 * +EC1.8.1.4 lipoamide pelobacter carbinolicus//prokaryotes;bacteria;deltaproteobacteria;pelobacter//pca 3.7 * +EC1.8.1.4 lipoamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.87 * +EC1.8.1.4 lipoamide streptomyces seoulensis//*//* 0.37 * +EC1.8.1.4 lipoamide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5.0 * +EC1.8.1.4 lipoate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.9 * +EC1.8.1.4 lipoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 120.0 * +EC1.8.1.4 lipoic acid spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.1 * +EC1.8.1.4 lipoic acid streptomyces seoulensis//*//* 2.15 * +EC1.8.1.4 nad+ acidianus ambivalens//*//* 0.71 * +EC1.8.1.4 nad+ ascaris suum//*//* 0.037 * +EC1.8.1.4 nad+ clostridium cylindrosporum//*//* 0.2 * +EC1.8.1.4 nad+ clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.5 * +EC1.8.1.4 nad+ escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.8.1.4 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC1.8.1.4 nad+ haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.08 * +EC1.8.1.4 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC1.8.1.4 nad+ natronobacterium gregoryi//prokaryotes;archaea;euryarchaeota;natronobacterium//nge 1.1 * +EC1.8.1.4 nad+ pelobacter carbinolicus//prokaryotes;bacteria;deltaproteobacteria;pelobacter//pca 0.62 * +EC1.8.1.4 nad+ peptostreptococcus glycinophilus//*//* 0.25 * +EC1.8.1.4 nad+ pisum sativum//*//* 0.1 * +EC1.8.1.4 nad+ plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.045 * +EC1.8.1.4 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC1.8.1.4 nad+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.52 * +EC1.8.1.4 nad+ trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.28 * +EC1.8.1.4 nadh acidianus ambivalens//*//* 0.00315 * +EC1.8.1.4 nadh ascaris suum//*//* 0.0085 * +EC1.8.1.4 nadh clostridium cylindrosporum//*//* 0.27 * +EC1.8.1.4 nadh clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.038 * +EC1.8.1.4 nadh glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.058 * +EC1.8.1.4 nadh halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 6.2 * +EC1.8.1.4 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC1.8.1.4 nadh microbacterium luteolum//*//* 0.0061 * +EC1.8.1.4 nadh moorella thermoacetica atcc 39073//*//* 0.5 * +EC1.8.1.4 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0041 * +EC1.8.1.4 nadh pelobacter carbinolicus//prokaryotes;bacteria;deltaproteobacteria;pelobacter//pca 0.15 * +EC1.8.1.4 nadh peptostreptococcus glycinophilus//*//* 0.047 * +EC1.8.1.4 nadh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.021 * +EC1.8.1.4 nadh ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.32 * +EC1.8.1.4 nadh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0215 * +EC1.8.1.4 nadh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC1.8.1.4 nadh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.023 * +EC1.8.1.4 nadp+ clostridium cylindrosporum//*//* 0.83 * +EC1.8.1.4 nicotinamide hypoxanthine dinucleotide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.6 * +EC1.8.1.4 no sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC1.8.1.4 pyruvate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC1.8.1.4 r,s-lipoamide pisum sativum//*//* 0.5 * +EC1.8.1.4 s-nitroso-n-acetylpenicillamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.42 * +EC1.8.1.4 s-nitrosoglutathione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC1.8.1.4 sodium nitroprusside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.84 * +EC1.8.1.4 thio-nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.036 * +EC1.8.1.4 thio-nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.11 * +EC1.8.1.5 2-(2-oxopropylthio)ethanesulfonate xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.42 * +EC1.8.1.5 acetoacetate xanthobacter sp.//*//* 6.3 * +EC1.8.1.6 l-cystine histoplasma capsulatum//eukaryotes;fungi;ascomycetes;eurotiomycetes//aje 0.11 * +EC1.8.1.6 l-cystine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.9 * +EC1.8.1.7 (e)-ajoene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC1.8.1.7 (z)-ajoene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC1.8.1.7 1,4-naphthoquinone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.158 * +EC1.8.1.7 1,4-naphthoquinone plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.172 * +EC1.8.1.7 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.114 * +EC1.8.1.7 6,7-dimethylquinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.413 * +EC1.8.1.7 6,7-dimethylquinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0858 * +EC1.8.1.7 6-methylquinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4208 * +EC1.8.1.7 6-methylquinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.4104 * +EC1.8.1.7 7-methylquinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.224 * +EC1.8.1.7 7-methylquinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.404 * +EC1.8.1.7 bis-n,n'-(gamma-glutamylcystine) saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.6 * +EC1.8.1.7 diallyl trisulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC1.8.1.7 fad allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.00052 * +EC1.8.1.7 fad hemicentrotus pulcherrimus//*//* 0.00078 * +EC1.8.1.7 ferricyanide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.56 * +EC1.8.1.7 glutathione disulfide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.077 * +EC1.8.1.7 glutathione disulfide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.065 * +EC1.8.1.7 glutathione disulfide camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.0355 * +EC1.8.1.7 glutathione disulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.072 * +EC1.8.1.7 glutathione disulfide ipomoea batatas//*//* 0.114 * +EC1.8.1.7 glutathione disulfide oncorhynchus mykiss//*//* 0.025 * +EC1.8.1.7 glutathione disulfide phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.06 * +EC1.8.1.7 glutathione disulfide physarum polycephalum//*//* 0.04 * +EC1.8.1.7 glutathione disulfide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.045 * +EC1.8.1.7 glutathione disulfide pteris ensiformis//*//* 0.0123 * +EC1.8.1.7 glutathione disulfide pteris vittata//*//* 0.0138 * +EC1.8.1.7 glutathione disulfide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0531 * +EC1.8.1.7 glutathione disulfide setaria cervi//*//* 0.0465 * +EC1.8.1.7 glutathione disulfide taenia crassiceps//*//* 0.015 * +EC1.8.1.7 glutathione-s-sulfonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC1.8.1.7 glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC1.8.1.7 glutathione equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.059 * +EC1.8.1.7 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC1.8.1.7 glutathione oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.065 * +EC1.8.1.7 glutathione ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.117 * +EC1.8.1.7 glutathione pisum sativum//*//* 7.7 * +EC1.8.1.7 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.057 * +EC1.8.1.7 glutathione setaria cervi//*//* 5.9 * +EC1.8.1.7 gssg acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.3 * +EC1.8.1.7 gssg allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 7.0 * +EC1.8.1.7 gssg anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.21 * +EC1.8.1.7 gssg arthrospira maxima//*//* 0.121 * +EC1.8.1.7 gssg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC1.8.1.7 gssg chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.05 * +EC1.8.1.7 gssg cyberlindnera mrakii//*//* 0.0213 * +EC1.8.1.7 gssg equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.059 * +EC1.8.1.7 gssg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC1.8.1.7 gssg euglena gracilis//*//* 0.054 * +EC1.8.1.7 gssg hemicentrotus pulcherrimus//*//* 0.101 * +EC1.8.1.7 gssg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC1.8.1.7 gssg moniezia expansa//*//* 0.076 * +EC1.8.1.7 gssg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.107 * +EC1.8.1.7 gssg oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.058 * +EC1.8.1.7 gssg oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.032 * +EC1.8.1.7 gssg phycomyces blakesleeanus//*//* 0.13 * +EC1.8.1.7 gssg picea rubens//*//* 0.056 * +EC1.8.1.7 gssg pisum sativum//*//* 0.01 * +EC1.8.1.7 gssg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0263 * +EC1.8.1.7 gssg rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.058 * +EC1.8.1.7 gssg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.055 * +EC1.8.1.7 gssg schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.205 * +EC1.8.1.7 gssg spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC1.8.1.7 gssg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.076 * +EC1.8.1.7 gssg trachemys scripta//*//* 0.00446 * +EC1.8.1.7 gssg triticum aestivum//*//* 0.04 * +EC1.8.1.7 gssg triticum turgidum subsp. durum//*//* 0.0091 * +EC1.8.1.7 menadione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0312 * +EC1.8.1.7 menadione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0822 * +EC1.8.1.7 mixed disulfide of coa and glutathione arthrospira maxima//*//* 3.3 * +EC1.8.1.7 mixed disulfide of coenzyme a and glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC1.8.1.7 nadh acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.125 * +EC1.8.1.7 nadh allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.6 * +EC1.8.1.7 nadh equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.68 * +EC1.8.1.7 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.377 * +EC1.8.1.7 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC1.8.1.7 nadh moniezia expansa//*//* 0.35 * +EC1.8.1.7 nadh pisum sativum//*//* 0.017 * +EC1.8.1.7 nadh xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.0555 * +EC1.8.1.7 nadp+ pisum sativum//*//* 0.22 * +EC1.8.1.7 nadp+ setaria cervi//*//* 0.03 * +EC1.8.1.7 nadph acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.026 * +EC1.8.1.7 nadph anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.009 * +EC1.8.1.7 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.033 * +EC1.8.1.7 nadph bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0015 * +EC1.8.1.7 nadph camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.00706 * +EC1.8.1.7 nadph chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.007 * +EC1.8.1.7 nadph cyberlindnera mrakii//*//* 0.0143 * +EC1.8.1.7 nadph equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.009 * +EC1.8.1.7 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC1.8.1.7 nadph hemicentrotus pulcherrimus//*//* 0.005 * +EC1.8.1.7 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC1.8.1.7 nadph ipomoea batatas//*//* 0.056 * +EC1.8.1.7 nadph moniezia expansa//*//* 0.021 * +EC1.8.1.7 nadph mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0059 * +EC1.8.1.7 nadph oncorhynchus mykiss//*//* 0.055 * +EC1.8.1.7 nadph oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.008 * +EC1.8.1.7 nadph oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.013 * +EC1.8.1.7 nadph ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.061 * +EC1.8.1.7 nadph phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.014 * +EC1.8.1.7 nadph phycomyces blakesleeanus//*//* 0.02 * +EC1.8.1.7 nadph physarum polycephalum//*//* 0.0286 * +EC1.8.1.7 nadph pisum sativum//*//* 0.0023 * +EC1.8.1.7 nadph pteris ensiformis//*//* 0.0037 * +EC1.8.1.7 nadph pteris vittata//*//* 0.0047 * +EC1.8.1.7 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC1.8.1.7 nadph rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.008 * +EC1.8.1.7 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0038 * +EC1.8.1.7 nadph setaria cervi//*//* 0.019 * +EC1.8.1.7 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC1.8.1.7 nadph sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.021 * +EC1.8.1.7 nadph taenia crassiceps//*//* 0.003 * +EC1.8.1.7 nadph trachemys scripta//*//* 0.00682 * +EC1.8.1.7 nadph triticum aestivum//*//* 0.015 * +EC1.8.1.7 nadph triticum turgidum subsp. durum//*//* 0.0037 * +EC1.8.1.7 nadph xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.0526 * +EC1.8.1.7 quinoline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.363 * +EC1.8.1.7 quinoline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.234 * +EC1.8.1.7 quinoxaline-5,8-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0595 * +EC1.8.1.7 quinoxaline-5,8-dione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0562 * +EC1.8.1.7 trypanothione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC1.8.1.8 2,6-dimethyl-1,4-benzoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0016 * +EC1.8.1.8 5-hydroxy-1,4-naphthoquinone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00039 * +EC1.8.1.8 coa-ss-coa bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 7.4 * +EC1.8.1.8 nadh mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.028 * +EC1.8.1.8 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00044 * +EC1.8.1.8 nadph pisum sativum//*//* 0.002 * +EC1.8.1.8 pantethine 4',4''-diphosphate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.65 * +EC1.8.1.8 thio-nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0054 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 172.4 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.7 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.41 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) deinococcus radiophilus//*//* 0.463 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.17 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.1 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.094 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.114 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0186 * +EC1.8.1.9 5,5'-dithiobis(2-nitrobenzoic acid) taenia crassiceps//*//* 0.049 * +EC1.8.1.9 5-hydroxy-1,4-naphthoquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00227 * +EC1.8.1.9 alloxan bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC1.8.1.9 bas1 medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0095 * +EC1.8.1.9 benzyl viologen thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.089 * +EC1.8.1.9 chaetocin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC1.8.1.9 chetomin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0161 * +EC1.8.1.9 dithionitrobenzene plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 1.25 * +EC1.8.1.9 dtnb drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.38 * +EC1.8.1.9 dtnb homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.116 * +EC1.8.1.9 dtnb plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.212 * +EC1.8.1.9 dtnb rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.66 * +EC1.8.1.9 entamoeba histolytica thioredoxin disulfide 41 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0036 * +EC1.8.1.9 escherichia coli thioredoxin disulfide entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0046 * +EC1.8.1.9 gliotoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0169 * +EC1.8.1.9 glutaredoxin 4 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0333 * +EC1.8.1.9 gssg taenia crassiceps//*//* 0.015 * +EC1.8.1.9 h2o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC1.8.1.9 hordeum vulgare thioredoxin disulfide h1 hordeum vulgare//*//* 0.00112 * +EC1.8.1.9 hordeum vulgare thioredoxin disulfide h2 hordeum vulgare//*//* 0.0009 * +EC1.8.1.9 human thioredoxin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0033 * +EC1.8.1.9 hydrogen peroxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.6 * +EC1.8.1.9 lipoamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC1.8.1.9 lipoamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.89 * +EC1.8.1.9 lipoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC1.8.1.9 methaneseleninic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.134 * +EC1.8.1.9 methylseleninate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC1.8.1.9 nadh deinococcus radiophilus//*//* 0.0302 * +EC1.8.1.9 nadh entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.023 * +EC1.8.1.9 nadh medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.011 * +EC1.8.1.9 nadh methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.736 * +EC1.8.1.9 nadh solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.1 * +EC1.8.1.9 nadh thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.073 * +EC1.8.1.9 nadh triticum aestivum//*//* 0.6 * +EC1.8.1.9 nadph aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 3.6 * +EC1.8.1.9 nadph deinococcus radiophilus//*//* 0.0125 * +EC1.8.1.9 nadph drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.001 * +EC1.8.1.9 nadph entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0018 * +EC1.8.1.9 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0008 * +EC1.8.1.9 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC1.8.1.9 nadph medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0024 * +EC1.8.1.9 nadph methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.0063 * +EC1.8.1.9 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC1.8.1.9 nadph solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00235 * +EC1.8.1.9 nadph spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC1.8.1.9 nadph sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0017 * +EC1.8.1.9 nadph taenia crassiceps//*//* 0.003 * +EC1.8.1.9 nadph thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.78 * +EC1.8.1.9 nadph triticum aestivum//*//* 0.0004 * +EC1.8.1.9 protein disulfide-isomerase bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.035 * +EC1.8.1.9 reductase rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.8.1.9 reductase rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0033 * +EC1.8.1.9 selenocysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.62 * +EC1.8.1.9 thioredoxin 1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0013 * +EC1.8.1.9 thioredoxin 2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0006 * +EC1.8.1.9 thioredoxin 3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0011 * +EC1.8.1.9 thioredoxin 41 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0023 * +EC1.8.1.9 thioredoxin 8 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0028 * +EC1.8.1.9 thioredoxin c-2 corynebacterium nephridii//*//* 0.00047 * +EC1.8.1.9 thioredoxin disulfide 41 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0036 * +EC1.8.1.9 thioredoxin disulfide 8 entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0028 * +EC1.8.1.9 thioredoxin disulfide h triticum aestivum//*//* 0.0076 * +EC1.8.1.9 thioredoxin disulfide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.141 * +EC1.8.1.9 thioredoxin disulfide methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.086 * +EC1.8.1.9 thioredoxin disulfide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC1.8.1.9 thioredoxin disulfide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00143 * +EC1.8.1.9 thioredoxin disulfide schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.00637 * +EC1.8.1.9 thioredoxin disulfide taenia crassiceps//*//* 0.017 * +EC1.8.1.9 thioredoxin-1 disulfide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.007 * +EC1.8.1.9 thioredoxin-1 disulfife drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.019 * +EC1.8.1.9 thioredoxin-ii saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0044 * +EC1.8.1.9 thioredoxin aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 12.3 * +EC1.8.1.9 thioredoxin anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.0085 * +EC1.8.1.9 thioredoxin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0028 * +EC1.8.1.9 thioredoxin caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.61 * +EC1.8.1.9 thioredoxin corynebacterium nephridii//*//* 0.00076 * +EC1.8.1.9 thioredoxin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.007 * +EC1.8.1.9 thioredoxin entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0047 * +EC1.8.1.9 thioredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00125 * +EC1.8.1.9 thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00141 * +EC1.8.1.9 thioredoxin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00236 * +EC1.8.1.9 thioredoxin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC1.8.1.9 thioredoxin rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.003 * +EC1.8.1.9 thioredoxin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00031 * +EC1.8.1.9 thioredoxin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0441 * +EC1.8.1.9 thioredoxin triticum aestivum//*//* 0.00076 * +EC1.8.1.B1 2-hydroxyethyl disulfide schistosoma japonicum//*//* 2.792 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma japonicum//*//* 0.1451 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.114 * +EC1.8.1.B1 5,5'-dithiobis(2-nitrobenzoic acid) taenia crassiceps//*//* 0.0345 * +EC1.8.1.B1 cytosolic thioredoxin echinococcus granulosus//*//* 0.034 * +EC1.8.1.B1 gsh schistosoma japonicum//*//* 1.698 * +EC1.8.1.B1 gssg schistosoma japonicum//*//* 0.04955 * +EC1.8.1.B1 gssg schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.042 * +EC1.8.1.B1 gssg taenia crassiceps//*//* 0.015 * +EC1.8.1.B1 mitochondial thioredoxin echinococcus granulosus//*//* 0.0095 * +EC1.8.1.B1 nadph schistosoma japonicum//*//* 0.01097 * +EC1.8.1.B1 nadph schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.0137 * +EC1.8.1.B1 nadph taenia crassiceps//*//* 0.003 * +EC1.8.1.B1 thioredoxin disulfide schistosoma japonicum//*//* 0.00324 * +EC1.8.1.B1 thioredoxin disulfide taenia crassiceps//*//* 0.00087 * +EC1.8.1.B1 thioredoxin taenia crassiceps//*//* 0.017 * +EC1.8.1.B4 [c173s/c178s mutant of protein-disulfide-oxidoreductase]-disulfide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00012 * +EC1.8.1.B4 [c41s/c44s mutant of protein-disulfide-oxidoreductase]-disulfide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00017 * +EC1.8.1.B4 [protein disulfide oxidoreductase]-disulfide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0002 * +EC1.8.1.B5 reduced coenzyme m methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 2.2 * +EC1.8.1.B5 reduced glutathione methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 8.9 * +EC1.8.2.1 cytochrome c paracoccus pantotrophus//*//* 0.019 * +EC1.8.2.1 cytochrome c starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.004 * +EC1.8.2.1 cytochrome c thiobacillus thioparus//*//* 0.013 * +EC1.8.2.1 cytochrome c550 starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.0025 * +EC1.8.2.1 ferricyanide acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.25 * +EC1.8.2.1 ferricyanide rhodotorula sp.//*//* 0.42 * +EC1.8.2.1 ferricyanide starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.02 * +EC1.8.2.1 ferricytochrome c chlorobaculum tepidum//*//* 2.1 * +EC1.8.2.1 ferricytochrome c starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.0018 * +EC1.8.2.1 sulfite acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.54 * +EC1.8.2.1 sulfite acidithiobacillus thiooxidans//*//* 1.95 * +EC1.8.2.1 sulfite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00456 * +EC1.8.2.1 sulfite paracoccus pantotrophus//*//* 0.007 * +EC1.8.2.1 sulfite paracoccus versutus//*//* 0.014 * +EC1.8.2.1 sulfite rhodotorula sp.//*//* 0.06 * +EC1.8.2.1 sulfite starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.0006 * +EC1.8.2.1 sulfite thiobacillus thioparus//*//* 0.088 * +EC1.8.2.2 ferricyanide allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.66 * +EC1.8.2.2 ferricyanide campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.18 * +EC1.8.2.2 ferricyanide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.1 * +EC1.8.2.2 ferricyanide rhodopila globiformis//*//* 0.9 * +EC1.8.2.2 ferricyanide rhodotorula sp.//*//* 0.34 * +EC1.8.2.2 high-potential non-heme iron protein allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.13 * +EC1.8.2.2 thiosulfate acidiphilium acidophilum//*//* 0.54 * +EC1.8.2.2 thiosulfate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.9 * +EC1.8.2.2 thiosulfate acidithiobacillus thiooxidans//*//* 0.81 * +EC1.8.2.2 thiosulfate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.2 * +EC1.8.2.2 thiosulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.67 * +EC1.8.2.2 thiosulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.57 * +EC1.8.2.2 thiosulfate rhodopila globiformis//*//* 0.62 * +EC1.8.2.2 thiosulfate rhodotorula sp.//*//* 0.14 * +EC1.8.2.2 thiosulfate thermithiobacillus tepidarius//*//* 0.004 * +EC1.8.2.2 thiosulfate thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.12 * +EC1.8.2.2 thiosulfate thiobacillus thioparus//*//* 0.005 * +EC1.8.2.3 oxidized cytochrome c thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0038 * +EC1.8.2.3 oxidized heart cytochrome c paracoccus pantotrophus//*//* 0.116 * +EC1.8.2.3 sulfide allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.0125 * +EC1.8.2.3 sulfide paracoccus pantotrophus//*//* 0.0023 * +EC1.8.2.3 sulfide thiobacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0017 * +EC1.8.2.4 dimethyl sulfide rhodovulum sulfidophilum//prokaryotes;bacteria;alphaproteobacteria;rhodovulum//rsu 0.053 * +EC1.8.2.4 ferricytochrome c2 rhodovulum sulfidophilum//prokaryotes;bacteria;alphaproteobacteria;rhodovulum//rsu 0.021 * +EC1.8.2.5 thiosulfate desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.5 * +EC1.8.3.1 cytochrome c gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00092 * +EC1.8.3.1 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00141 * +EC1.8.3.1 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC1.8.3.1 cytochrome c vertebrata//*//* 0.002 * +EC1.8.3.1 ferricyanide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.698 * +EC1.8.3.1 o2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC1.8.3.1 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC1.8.3.1 sulfite arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0226 * +EC1.8.3.1 sulfite bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.39 * +EC1.8.3.1 sulfite deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.0945 * +EC1.8.3.1 sulfite gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00133 * +EC1.8.3.1 sulfite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC1.8.3.1 sulfite malva sylvestris//*//* 5.33 * +EC1.8.3.1 sulfite mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.39 * +EC1.8.3.1 sulfite nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.051 * +EC1.8.3.1 sulfite rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC1.8.3.1 sulfite zea mays//eukaryotes;plants;monocots;grass family//zma 0.0214 * +EC1.8.3.2 2-mercaptoethanol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 7.9 * +EC1.8.3.2 2-mercaptoethanol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 54.0 * +EC1.8.3.2 2-nitro-5-thiobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 100.0 * +EC1.8.3.2 cysteamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.25 * +EC1.8.3.2 cysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC1.8.3.2 d-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.55 * +EC1.8.3.2 d-cys bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.33 * +EC1.8.3.2 dithiothreitol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2.41 * +EC1.8.3.2 dithiothreitol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.15 * +EC1.8.3.2 dithiothreitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.3 * +EC1.8.3.2 dithiothreitol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.51 * +EC1.8.3.2 dithiothreitol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.086 * +EC1.8.3.2 dtt gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.14 * +EC1.8.3.2 dtt rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC1.8.3.2 dtt saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.9 * +EC1.8.3.2 glutathione aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 6.7 * +EC1.8.3.2 glutathione aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2.78 * +EC1.8.3.2 glutathione gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.02 * +EC1.8.3.2 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC1.8.3.2 gly-gly-l-cys bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.31 * +EC1.8.3.2 gsh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC1.8.3.2 gsh gallus gallus//eukaryotes;animals;vertebrates;birds//gga 20.0 * +EC1.8.3.2 gsh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC1.8.3.2 gsh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.73 * +EC1.8.3.2 l-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.9 * +EC1.8.3.2 l-cys bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC1.8.3.2 l-cys gallus gallus//eukaryotes;animals;vertebrates;birds//gga 10.9 * +EC1.8.3.2 l-cys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.42 * +EC1.8.3.2 n-acetyl-eaqcgts gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.72 * +EC1.8.3.2 n-acetyl-l-cys bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.13 * +EC1.8.3.2 n-acetylcysteine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC1.8.3.2 o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.77 * +EC1.8.3.2 o2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0046 * +EC1.8.3.2 o2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC1.8.3.2 o2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC1.8.3.2 reduced aldolase gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.16 * +EC1.8.3.2 reduced insulin a chain gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.215 * +EC1.8.3.2 reduced insulin b chain gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.3 * +EC1.8.3.2 reduced lysozyme gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.11 * +EC1.8.3.2 reduced ovalbumin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.33 * +EC1.8.3.2 reduced pyruvate kinase gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.25 * +EC1.8.3.2 reduced riboflavin-binding protein gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.23 * +EC1.8.3.2 reduced ribonuclease bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0174 * +EC1.8.3.2 reduced ribonuclease gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.115 * +EC1.8.3.2 rnase a gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.014 * +EC1.8.3.2 rrnasea trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.36 * +EC1.8.3.3 2-mercaptoethanol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 9.73 * +EC1.8.3.3 2-mercaptoethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 32.0 * +EC1.8.3.3 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC1.8.3.3 d-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.55 * +EC1.8.3.3 dithiothreitol aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2.41 * +EC1.8.3.3 dithiothreitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC1.8.3.3 dithiothreitol penicillium sp.//*//* 6.7 * +EC1.8.3.3 dithiothreitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC1.8.3.3 glutathione aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2.78 * +EC1.8.3.3 glutathione penicillium sp.//*//* 0.69 * +EC1.8.3.3 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC1.8.3.3 l-cys aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.11 * +EC1.8.3.3 l-cysteine penicillium sp.//*//* 3.6 * +EC1.8.3.3 l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.1 * +EC1.8.3.4 ethyl mercaptan hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.018 * +EC1.8.3.4 methanethiol hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.005 * +EC1.8.3.4 methanethiol thiobacillus thioparus//*//* 0.0097 * +EC1.8.3.4 sulfide hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.06 * +EC1.8.3.5 farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC1.8.3.5 farnesylcysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00069 * +EC1.8.3.5 geranylgeranylcysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00084 * +EC1.8.3.5 o2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC1.8.3.5 s-(2e,6e)-farnesyl-l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC1.8.3.6 s-(2e,6e)-farnesyl-l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC1.8.3.B2 abz-salcsptra-nh2 thermomonospora curvata//prokaryotes;bacteria;actinobacteria;thermomonospora//tcu 0.58 * +EC1.8.4.10 5'-adenylyl sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0114 * +EC1.8.4.10 adenosine-5'-phosphosulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00175 * +EC1.8.4.10 adenosine-5'-phosphosulfate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.003 * +EC1.8.4.10 thioredoxin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC1.8.4.11 calmodulin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.197 * +EC1.8.4.11 dabsylated l-methionine (s)-sulfoxide clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 10.2 * +EC1.8.4.11 dithiothreitol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 15.0 * +EC1.8.4.11 l-methionine (r,s)-sulfoxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 9.0 * +EC1.8.4.11 l-methionine (s)-sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC1.8.4.11 l-methionine (s)-sulfoxide thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 19.0 * +EC1.8.4.11 thioredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.8.4.11 thioredoxin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.075 * +EC1.8.4.11 thioredoxin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0404 * +EC1.8.4.11 thioredoxin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00322 * +EC1.8.4.12 (s)-1-nonen-4-ol neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.2 * +EC1.8.4.12 acetyl-l-methionine (r)-s-oxide methyl ester neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.14 * +EC1.8.4.12 cdsp32 arabidopsis sp.//*//* 0.00021 * +EC1.8.4.12 dithiothreitol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC1.8.4.12 dithiothreitol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.0 * +EC1.8.4.12 glutaredoxin c4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0068 * +EC1.8.4.12 glutaredoxin s12 arabidopsis sp.//*//* 0.00053 * +EC1.8.4.12 l-methionine (r)-sulfoxide glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.451 * +EC1.8.4.12 l-methionine (r)-sulfoxide thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 67.0 * +EC1.8.4.12 l-methionine (r,s)-sulfoxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 56.0 * +EC1.8.4.12 n-acetyl-l-methionine (r)-sulfoxide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.049 * +EC1.8.4.12 thioredoxin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.66 * +EC1.8.4.12 thioredoxin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.026 * +EC1.8.4.13 l-(-)-methionine s-oxide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC1.8.4.13 l-methionine (s)-s-oxide escherichia coli b//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//ebw 0.0003 * +EC1.8.4.14 l-methionine (r)-s-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC1.8.4.14 l-methionine (r)-s-oxide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.0 * +EC1.8.4.14 l-methionine (r)-s-oxide thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.4 * +EC1.8.4.14 thioredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0098 * +EC1.8.4.2 2-mercaptoethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.8.4.2 cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC1.8.4.2 dihydrolipoamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC1.8.4.2 dihydrolipoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC1.8.4.2 gsh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC1.8.4.2 insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC1.8.4.2 insulin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC1.8.4.2 insulin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC1.8.4.2 insulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC1.8.4.2 reduced dithiothreitol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC1.8.4.3 coa-glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.045 * +EC1.8.4.3 gsh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC1.8.4.4 cystine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC1.8.4.4 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.67 * +EC1.8.4.8 3'-phosphoadenylyl-sulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0225 * +EC1.8.4.8 5-phosphoadenosine 3-phosphosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC1.8.4.8 5-phosphoadenosine 3-phosphosulfate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.019 * +EC1.8.4.8 glutaredoxin 1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0149 * +EC1.8.4.8 glutaredoxin mutant 1c14s escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0072 * +EC1.8.4.8 reduced thioredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC1.8.4.8 thioredoxin 1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0137 * +EC1.8.4.8 thioredoxin 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0342 * +EC1.8.4.8 thioredoxin from escherichia coli saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0014 * +EC1.8.4.8 thioredoxin from saccharomyces cerevisiae saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0006 * +EC1.8.4.8 thioredoxin i pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC1.8.4.9 3'-phosphoadenosine 5'-phosphosulfate physcomitrella patens//eukaryotes;plants;mosses//ppp 0.02 * +EC1.8.4.9 3'-phosphoadenosine-5'-phosphosulfate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.031 * +EC1.8.4.9 5'-adenylyl sulfate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0112 * +EC1.8.4.9 5'-adenylyl sulfate ulva intestinalis//*//* 0.011 * +EC1.8.4.9 5'-adenylylsulfate catharanthus roseus//*//* 0.0025 * +EC1.8.4.9 5'-adenylylsulfate lemna minor//*//* 0.0065 * +EC1.8.4.9 5'-adenylylsulfate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00057 * +EC1.8.4.9 5'-adenylylsulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0033 * +EC1.8.4.9 5'-adenylylsulfate ulva intestinalis//*//* 0.0065 * +EC1.8.4.9 adenosine 5'-phosphosulfate physcomitrella patens//eukaryotes;plants;mosses//ppp 0.05 * +EC1.8.4.9 dithiothreitol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.595 * +EC1.8.4.9 dtt catharanthus roseus//*//* 0.4 * +EC1.8.4.9 glutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC1.8.4.9 glutathione catharanthus roseus//*//* 3.0 * +EC1.8.4.9 glutathione glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.495 * +EC1.8.4.9 glutathione lemna minor//*//* 16.8 * +EC1.8.4.9 glutathione ulva intestinalis//*//* 0.0002 * +EC1.8.5.1 dehydroascorbate euglena gracilis//*//* 0.26 * +EC1.8.5.1 dehydroascorbate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC1.8.5.1 dehydroascorbate ipomoea batatas//*//* 0.19 * +EC1.8.5.1 dehydroascorbate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.35 * +EC1.8.5.1 dehydroascorbate pinus bungeana//*//* 0.08 * +EC1.8.5.1 dehydroascorbate pleurotus ostreatus//*//* 2.5 * +EC1.8.5.1 dehydroascorbate populus tomentosa//*//* 0.07 * +EC1.8.5.1 dehydroascorbate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.245 * +EC1.8.5.1 dehydroascorbate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.39 * +EC1.8.5.1 dehydroascorbate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.053 * +EC1.8.5.1 dehydroascorbate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.32 * +EC1.8.5.1 dehydroascorbate taiwanofungus camphoratus//*//* 1.85 * +EC1.8.5.1 dehydroascorbate triticum aestivum//*//* 0.58 * +EC1.8.5.1 glutathione euglena gracilis//*//* 0.85 * +EC1.8.5.1 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.82 * +EC1.8.5.1 glutathione ipomoea batatas//*//* 2.38 * +EC1.8.5.1 glutathione pinus bungeana//*//* 1.03 * +EC1.8.5.1 glutathione populus tomentosa//*//* 2.28 * +EC1.8.5.1 gsh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC1.8.5.1 gsh oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.84 * +EC1.8.5.1 gsh pleurotus ostreatus//*//* 0.7 * +EC1.8.5.1 gsh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.8 * +EC1.8.5.1 gsh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 4.35 * +EC1.8.5.1 gsh spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.5 * +EC1.8.5.1 gsh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.7 * +EC1.8.5.2 6-decylubiquinone acidianus ambivalens//*//* 0.00587 * +EC1.8.5.2 ferricyanide acidianus ambivalens//*//* 3.4 * +EC1.8.5.2 thiosulfate acidianus ambivalens//*//* 2.6 * +EC1.8.5.2 thiosulfate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 15.0 * +EC1.8.5.3 2-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC1.8.5.3 2-methylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.092 * +EC1.8.5.3 3-amidopyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC1.8.5.3 3-carboxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.94 * +EC1.8.5.3 3-hydroxymethylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC1.8.5.3 3-hydroxypyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.17 * +EC1.8.5.3 3-methylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.089 * +EC1.8.5.3 3alpha-hydroxybenzylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.158 * +EC1.8.5.3 4-chloropyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.513 * +EC1.8.5.3 4-hydroxymethylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.372 * +EC1.8.5.3 4-methylmorpholine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.1 * +EC1.8.5.3 4-methylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.452 * +EC1.8.5.3 4-phenylpyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.246 * +EC1.8.5.3 adenosine-1n-oxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.02 * +EC1.8.5.3 dimethyldodecylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.83 * +EC1.8.5.3 dimethylsulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC1.8.5.3 dimethylsulfoxide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0097 * +EC1.8.5.3 dimethylsulfoxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.007 * +EC1.8.5.3 dl-methyl phenyl sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC1.8.5.3 methionine sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC1.8.5.3 methionine sulfoxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.33 * +EC1.8.5.3 pyridine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC1.8.5.3 reduced benzyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC1.8.5.3 tetramethylene sulfoxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.8.5.3 trimethylamine n-oxide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.2 * +EC1.8.5.3 trimethylamine n-oxide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 68.0 * +EC1.8.5.3 trimethylamine-n-oxide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.193 * +EC1.8.5.4 cyanide arenicola marina//*//* 2.6 * +EC1.8.5.4 cyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC1.8.5.4 cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC1.8.5.4 decylubiquinone acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.022 * +EC1.8.5.4 decylubiquinone aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00216 * +EC1.8.5.4 decylubiquinone arenicola marina//*//* 0.0064 * +EC1.8.5.4 decylubiquinone caldivirga maquilingensis//prokaryotes;archaea;crenarchaeota;caldivirga//cma 0.03 * +EC1.8.5.4 decylubiquinone paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0031 * +EC1.8.5.4 decylubiquinone rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.002 * +EC1.8.5.4 homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC1.8.5.4 plastoquinone-1 aphanothece halophytica//*//* 0.04 * +EC1.8.5.4 plastoquinone-1 oscillatoria limnetica//*//* 0.031 * +EC1.8.5.4 reduced glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC1.8.5.4 sulfide acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.0028 * +EC1.8.5.4 sulfide aphanothece halophytica//*//* 0.02 * +EC1.8.5.4 sulfide aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00594 * +EC1.8.5.4 sulfide arenicola marina//*//* 0.23 * +EC1.8.5.4 sulfide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC1.8.5.4 sulfide oscillatoria limnetica//*//* 0.008 * +EC1.8.5.4 sulfide paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.026 * +EC1.8.5.4 sulfide rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.002 * +EC1.8.5.4 sulfite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.174 * +EC1.8.5.4 ubiquinone-1 aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0054 * +EC1.8.5.4 ubiquinone-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC1.8.5.4 ubiquinone-2 acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.014 * +EC1.8.5.4 ubiquinone-4 aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0016 * +EC1.8.5.4 ubiquinone-9 aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00643 * +EC1.8.5.7 (glutathione-s-yl)-2-chloro-1,4-benzoquinone populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.072 * +EC1.8.5.7 2-(glutathione-s-yl)-1,4-benzoquinone populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0926 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.24 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.37 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.43 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.034 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC1.8.5.7 2-(glutathione-s-yl)-hydroxy-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.13 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.017 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.003 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0067 * +EC1.8.5.7 2-(glutathione-s-yl)-menadiol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0034 * +EC1.8.5.7 2-(glutathione-s-yl)-menadione populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.27 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.19 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC1.8.5.7 2-(glutathione-s-yl)-methyl-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.034 * +EC1.8.5.7 2-(glutathione-s-yl)-quercetin populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0027 * +EC1.8.5.7 2-(glutathione-s-yl)-trichloro-p-hydroquinone sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.0044 * +EC1.8.5.7 2-mercaptoethanol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.93 * +EC1.8.5.7 dithiothreitol sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 0.26 * +EC1.8.5.7 glutathione cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.88 * +EC1.8.5.7 glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.84 * +EC1.8.5.7 glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC1.8.5.7 glutathione sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.2 * +EC1.8.5.7 l-cysteine sphingobium chlorophenolicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sch 1.97 * +EC1.8.7.1 ferredoxin brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.0028 * +EC1.8.7.1 ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.019 * +EC1.8.7.1 ferredoxin zea mays//eukaryotes;plants;monocots;grass family//zma 0.0017 * +EC1.8.7.1 nitrite cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 0.221 * +EC1.8.7.1 reduced coenzyme f420 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.021 * +EC1.8.7.1 reduced ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.025 * +EC1.8.7.1 reduced ferredoxin zea mays//eukaryotes;plants;monocots;grass family//zma 0.004 * +EC1.8.7.1 reduced methyl viologen spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.006 * +EC1.8.7.1 s-sulfoglutathione arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.6 * +EC1.8.7.1 sulfite arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.028 * +EC1.8.7.1 sulfite brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.077 * +EC1.8.7.1 sulfite cyanidioschyzon merolae//eukaryotes;plants;red algae//cme 0.0087 * +EC1.8.7.1 sulfite methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0122 * +EC1.8.7.1 sulfite spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.011 * +EC1.8.7.2 ferredoxin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.7 * +EC1.8.98.1 6-mercaptohexanoyl-l-threonine phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.2 * +EC1.8.98.1 coenzyme b methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.25 * +EC1.8.98.1 coenzyme m methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.8 * +EC1.8.98.1 coenzyme m methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.2 * +EC1.8.98.1 dihydromethanophenazine methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.092 * +EC1.8.98.1 h2 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.03 * +EC1.8.98.1 n-(7-[(2-sulfoethyl)dithio]heptanoyl)-3-o-phospho-d-threonine methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 3.0 * +EC1.8.98.1 n-(7-[(2-sulfoethyl)dithio]heptanoyl)-3-o-phospho-l-threonine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.4 * +EC1.8.98.1 n-(7-[(2-sulfoethyl)dithio]heptanoyl)-3-o-phospho-l-threonine methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.144 * +EC1.8.98.1 n-(7-[(2-sulfoethyl)dithio]heptanoyl)-3-o-phospho-l-threonine methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.1 * +EC1.8.98.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC1.8.98.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.125 * +EC1.8.98.2 gamma-s-atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC1.8.98.2 gsh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC1.8.98.2 peroxiredoxin-(s-hydroxy-s-oxocysteine) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.029 * +EC1.8.98.2 thioredoxin 1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC1.8.98.3 reduced coenzyme f420 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.021 * +EC1.8.98.3 sulfite methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.012 * +EC1.8.99.2 5'-adenylylsulfate ulva intestinalis//*//* 0.011 * +EC1.8.99.2 adenylyl sulfate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.015 * +EC1.8.99.2 adenylyl sulfate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.029 * +EC1.8.99.2 adenylyl sulfate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.019 * +EC1.8.99.2 adenylyl sulfate prosthecochloris vibrioformis//*//* 0.25 * +EC1.8.99.2 adenylyl sulfate ulva intestinalis//*//* 0.0065 * +EC1.8.99.2 amp allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.01 * +EC1.8.99.2 amp archaebacterium//*//* 1.0 * +EC1.8.99.2 amp chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.2 * +EC1.8.99.2 amp desulfobulbus propionicus//prokaryotes;bacteria;deltaproteobacteria;desulfobulbus//dpr 0.09 * +EC1.8.99.2 amp desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.16 * +EC1.8.99.2 amp desulfovibrio salexigens//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dsa 0.31 * +EC1.8.99.2 amp desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.05 * +EC1.8.99.2 amp prosthecochloris vibrioformis//*//* 0.13 * +EC1.8.99.2 amp thiobacillus denitrificans//prokaryotes;bacteria;betaproteobacteria;thiobacillus//tbd 0.02 * +EC1.8.99.2 amp thiobacillus thioparus//*//* 0.0025 * +EC1.8.99.2 amp thiocapsa roseopersicina//*//* 0.05 * +EC1.8.99.2 cmp desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 3.1 * +EC1.8.99.2 cytochrome c desulfobulbus propionicus//prokaryotes;bacteria;deltaproteobacteria;desulfobulbus//dpr 0.021 * +EC1.8.99.2 cytochrome c thiocapsa roseopersicina//*//* 0.033 * +EC1.8.99.2 dithiothreitol ulva intestinalis//*//* 0.0002 * +EC1.8.99.2 ferricyanide allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.16 * +EC1.8.99.2 ferricyanide archaebacterium//*//* 0.4 * +EC1.8.99.2 ferricyanide chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.091 * +EC1.8.99.2 ferricyanide desulfobulbus propionicus//prokaryotes;bacteria;deltaproteobacteria;desulfobulbus//dpr 0.089 * +EC1.8.99.2 ferricyanide desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.16 * +EC1.8.99.2 ferricyanide prosthecochloris vibrioformis//*//* 4.2 * +EC1.8.99.2 ferricyanide thiocapsa roseopersicina//*//* 0.13 * +EC1.8.99.2 glutaredoxin 1 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.022 * +EC1.8.99.2 gmp desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 1.25 * +EC1.8.99.2 gmp thiobacillus denitrificans//prokaryotes;bacteria;betaproteobacteria;thiobacillus//tbd 0.63 * +EC1.8.99.2 gmp thiobacillus thioparus//*//* 0.01 * +EC1.8.99.2 gsh ulva intestinalis//*//* 1.4 * +EC1.8.99.2 guanylyl sulfate desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.025 * +EC1.8.99.2 imp desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.8 * +EC1.8.99.2 riboflavin desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.015 * +EC1.8.99.2 sulfite allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 1.7 * +EC1.8.99.2 sulfite archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.3 * +EC1.8.99.2 sulfite chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.91 * +EC1.8.99.2 sulfite desulfobulbus propionicus//prokaryotes;bacteria;deltaproteobacteria;desulfobulbus//dpr 0.071 * +EC1.8.99.2 sulfite desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.18 * +EC1.8.99.2 sulfite desulfovibrio gigas//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dgg 0.34 * +EC1.8.99.2 sulfite desulfovibrio salexigens//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dsa 0.76 * +EC1.8.99.2 sulfite desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.13 * +EC1.8.99.2 sulfite prosthecochloris vibrioformis//*//* 0.17 * +EC1.8.99.2 sulfite thiobacillus denitrificans//prokaryotes;bacteria;betaproteobacteria;thiobacillus//tbd 1.2 * +EC1.8.99.2 sulfite thiobacillus thioparus//*//* 0.017 * +EC1.8.99.2 sulfite thiocapsa roseopersicina//*//* 0.073 * +EC1.8.99.2 thioredoxin 1 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.053 * +EC1.8.99.2 thioredoxin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.7 * +EC1.8.99.2 ump desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 4.5 * +EC1.8.99.5 hydroxylamine desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 48.0 * +EC1.8.99.5 nitrite desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.028 * +EC1.8.99.5 sulfite clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.35 * +EC1.8.99.5 sulfite desulfovibrio africanus//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//daf 3.1 * +EC1.8.99.5 sulfite desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.06 * +EC1.8.99.B2 tetrathionate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.01 * +EC1.9.3.1 cytochrome c-551 bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.067 * +EC1.9.3.1 cytochrome c-552 bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.011 * +EC1.9.3.1 cytochrome c bacillus sp. ps3//*//* 0.0037 * +EC1.9.3.1 cytochrome c bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.002 * +EC1.9.3.1 cytochrome c bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.13 * +EC1.9.3.1 cytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00012 * +EC1.9.3.1 cytochrome c carcharhinus acronotus//*//* 0.06 * +EC1.9.3.1 cytochrome c carcharhinus limbatus//*//* 0.06 * +EC1.9.3.1 cytochrome c dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.00126 * +EC1.9.3.1 cytochrome c erythrobacter longus//*//* 0.0047 * +EC1.9.3.1 cytochrome c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC1.9.3.1 cytochrome c magnetospirillum magnetotacticum//*//* 0.012 * +EC1.9.3.1 cytochrome c nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 2e-05 * +EC1.9.3.1 cytochrome c nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.0017 * +EC1.9.3.1 cytochrome c ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0036 * +EC1.9.3.1 cytochrome c paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0013 * +EC1.9.3.1 cytochrome c pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0087 * +EC1.9.3.1 cytochrome c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC1.9.3.1 cytochrome c rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.024 * +EC1.9.3.1 cytochrome c rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.01 * +EC1.9.3.1 cytochrome c rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.019 * +EC1.9.3.1 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00132 * +EC1.9.3.1 cytochrome c starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.011 * +EC1.9.3.1 cytochrome c thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.002 * +EC1.9.3.1 cytochrome c triticum aestivum//*//* 6e-05 * +EC1.9.3.1 cytochrome c549 erythrobacter longus//*//* 0.0065 * +EC1.9.3.1 cytochrome c550 erythrobacter longus//*//* 0.008 * +EC1.9.3.1 cytochrome c550 magnetospirillum magnetotacticum//*//* 0.003 * +EC1.9.3.1 cytochrome c551 bacillus sp. ps3//*//* 0.067 * +EC1.9.3.1 cytochrome c552 acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.0093 * +EC1.9.3.1 cytochrome c552 bacillus sp. ps3//*//* 0.0043 * +EC1.9.3.1 cytochrome c552 nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.016 * +EC1.9.3.1 cytochrome c552 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.002 * +EC1.9.3.1 cytochrome c553 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0009 * +EC1.9.3.1 ferrocytochrome c bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5e-05 * +EC1.9.3.1 ferrocytochrome c mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.037 * +EC1.9.3.1 ferrocytochrome c nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.11 * +EC1.9.3.1 ferrocytochrome c550 nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.024 * +EC1.9.3.1 ferrocytochrome methylobacillus flagellatus kt//*//* 0.009 * +EC1.9.3.1 n,n,n',n'-tetramethyl-1,4-phenylendiamine dihydrochloride bacillus sp. ps3//*//* 0.27 * +EC1.9.3.1 n,n,n',n'-tetramethyl-1,4-phenylendiamine dihydrochloride thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.23 * +EC1.9.3.1 n,n,n',n'-tetramethyl-p-phenylendiamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC1.9.3.1 n,n,n',n'-tetramethyl-p-phenylenediamine methylobacillus flagellatus kt//*//* 0.86 * +EC1.9.3.1 o-dianisidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC1.9.3.1 o2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC1.9.3.1 o2 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 4e-05 * +EC1.9.3.1 reduced cytochrome c551 geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 2.6e-05 * +EC1.9.6.1 nitrate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.12 * +EC1.9.6.1 nitrate paracoccus pantotrophus//*//* 0.045 * +EC1.9.98.1 cytochrome c acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.0275 * +EC1.9.98.1 fe2+ acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 1.6 * +EC1.97.1.1 benzyl viologen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC1.97.1.1 chlorate azospira oryzae//*//* 0.005 * +EC1.97.1.1 chlorate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC1.97.1.1 chlorate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 2.4 * +EC1.97.1.1 chlorate pseudomonas chloritidismutans//*//* 0.159 * +EC1.97.1.1 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC1.97.1.1 perchlorate azospira oryzae//*//* 0.027 * +EC1.97.1.1 riboflavin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.62 * +EC1.97.1.12 reduced plastocyanin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.007 * +EC1.97.1.2 1,2,3,5-tetrahydroxybenzene pelobacter acidigallici//*//* 0.71 * +EC1.97.1.4 inactive pyruvate formate-lyase escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC1.97.1.4 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC1.97.1.9 benzyl viologen enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 6.25 * +EC1.97.1.9 selenate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.0 * +EC1.97.1.9 selenate sulfurospirillum barnesii//prokaryotes;bacteria;epsilonproteobacteria;sulfurospirillum//sba 0.012 * +EC1.97.1.9 selenate thauera selenatis//*//* 0.0007 * +EC2.1.1.1 1,2,3,4-tetrahydroisoquinoline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC2.1.1.1 isoquinoline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC2.1.1.1 nicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.347 * +EC2.1.1.1 nicotinamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.37 * +EC2.1.1.1 nicotinamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.83 * +EC2.1.1.1 quinoline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC2.1.1.1 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00176 * +EC2.1.1.1 s-adenosyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0065 * +EC2.1.1.1 s-adenosyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC2.1.1.10 dl-homocysteine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.072 * +EC2.1.1.10 l-homocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.018 * +EC2.1.1.10 l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC2.1.1.10 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.225 * +EC2.1.1.10 s-methyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.029 * +EC2.1.1.10 s-methyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC2.1.1.100 4-benzoyl-n-([2-[2-([5-[(3as,4s,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanoyl]amino)ethoxy]ethoxy]acetyl)-l-phenylalanyl-s-[(2e,6e)-3,7,11-trimethyldodeca-2,6,10-trien-1-yl]-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC2.1.1.100 4-benzoyl-n-([2-[2-([5-[(3as,4s,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanoyl]amino)ethoxy]ethoxy]acetyl)-l-phenylalanyl-s-[(2e,6e)-3,7,11-trimethyldodeca-2,6,10-trien-1-yl]-l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0179 * +EC2.1.1.100 biotin-peg4-k(5-fam)yiikgvfwdpac(c10-diazirine)-oh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0066 * +EC2.1.1.100 biotin-peg4-k(5-fam)yiikgvfwdpac(c5-m-bp)-oh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0278 * +EC2.1.1.100 biotin-peg4-yiikgvfwdpac(c10-meta-bp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.1.1.100 biotin-peg4-yiikgvfwdpac(c10-para-bp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC2.1.1.100 biotin-peg4-yiikgvfwdpac(c5-meta-bp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0146 * +EC2.1.1.100 biotin-peg4-yiikgvfwdpac(c5-para-bp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC2.1.1.100 biotin-peg4-yiikgvfwdpac(fr)-oh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0122 * +EC2.1.1.100 biotin-s-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC2.1.1.100 farnesylated and rce1-proteolyzed k-ras protein spodoptera frugiperda//*//* 0.0029 * +EC2.1.1.100 n-((benzoylglycyl)glycyl)-s-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC2.1.1.100 n-(benzoylglycyl)-s-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00255 * +EC2.1.1.100 n-acetyl-s-(e)-geranyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-d-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0116 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.06 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0115 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.073 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.1.1.100 n-acetyl-s-(e,e)-farnesyl-l-cysteine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0014 * +EC2.1.1.100 n-acetyl-s-3,3-dimethylalkyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC2.1.1.100 n-acetyl-s-farnesyl-l-cysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0223 * +EC2.1.1.100 n-acetyl-s-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0159 * +EC2.1.1.100 n-acetyl-s-farnesyl-l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine methyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0032 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0192 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.166 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0116 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.021 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.004 * +EC2.1.1.100 n-acetyl-s-geranylgeranyl-l-cysteinyl-l-alanyl-s-geranylgeranyl-l-cysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.594 * +EC2.1.1.100 n-isobutyryl-s-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00295 * +EC2.1.1.100 n-isovaleryl-s-farnesyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00255 * +EC2.1.1.100 s-[(2e,6e)-8-(3-benzoylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl]-n-([2-[2-([5-[(3as,4s,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanoyl]amino)ethoxy]ethoxy]acetyl)-d-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC2.1.1.100 s-[(2e,6e)-8-(3-benzoylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl]-n-([2-[2-([5-[(3as,4s,6ar)-2-oxohexahydro-1h-thieno[3,4-d]imidazol-4-yl]pentanoyl]amino)ethoxy]ethoxy]acetyl)-d-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0183 * +EC2.1.1.100 s-adenosyl-l-methionine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.0067 * +EC2.1.1.100 s-adenosyl-l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0036 * +EC2.1.1.100 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC2.1.1.100 s-adenosyl-l-methionine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.00013 * +EC2.1.1.100 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC2.1.1.100 s-adenosyl-l-methionine spodoptera frugiperda//*//* 0.0071 * +EC2.1.1.100 s-decyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.48 * +EC2.1.1.100 s-farnesyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC2.1.1.100 s-geranyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.389 * +EC2.1.1.100 s-geranylgeranyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0109 * +EC2.1.1.100 s-octyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.76 * +EC2.1.1.100 s-pentadecyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.12 * +EC2.1.1.100 s-tridecyl-leu-ala-arg-tyr-lys-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.64 * +EC2.1.1.101 lactenocin streptomyces fradiae//*//* 0.007 * +EC2.1.1.101 macrocin streptomyces fradiae//*//* 0.005 * +EC2.1.1.101 s-adenosyl-l-methionine streptomyces fradiae//*//* 0.022 * +EC2.1.1.102 demethyllactenocin streptomyces fradiae//*//* 0.01 * +EC2.1.1.102 demethylmacrocin streptomyces fradiae//*//* 0.006 * +EC2.1.1.102 s-adenosylmethionine streptomyces fradiae//*//* 0.111 * +EC2.1.1.103 ethanolamine phosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0099 * +EC2.1.1.103 ethanolamine phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.054 * +EC2.1.1.103 ethanolamine phosphate plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.1 * +EC2.1.1.103 ethanolamine phosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.21 * +EC2.1.1.103 ethanolamine phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.096 * +EC2.1.1.103 ethanolamine phosphate triticum aestivum//*//* 0.065 * +EC2.1.1.103 n,n-dimethylethanolamine phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.1.1.103 n,n-dimethylethanolamine phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.181 * +EC2.1.1.103 n-methylethanolamine phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.16 * +EC2.1.1.103 phosphodimethylethanolamine haemonchus contortus//*//* 0.217 * +EC2.1.1.103 phosphodimethylethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0668 * +EC2.1.1.103 phosphoethanolamine haemonchus contortus//*//* 0.106 * +EC2.1.1.103 phosphoethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0542 * +EC2.1.1.103 phosphomonomethylethanolamine haemonchus contortus//*//* 0.424 * +EC2.1.1.103 phosphomonomethylethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.181 * +EC2.1.1.103 s-adenosyl-l-methionine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.145 * +EC2.1.1.103 s-adenosyl-l-methionine haemonchus contortus//*//* 0.256 * +EC2.1.1.103 s-adenosyl-l-methionine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0299 * +EC2.1.1.103 s-adenosyl-l-methionine plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.27 * +EC2.1.1.103 s-adenosyl-l-methionine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.23 * +EC2.1.1.103 s-adenosyl-l-methionine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.132 * +EC2.1.1.103 s-adenosyl-l-methionine triticum aestivum//*//* 0.056 * +EC2.1.1.104 3,4-dihydroxybenzoic acid ammi majus//*//* 0.039 * +EC2.1.1.104 5-hydroxy-coniferaldehyde triticum aestivum//*//* 0.0173 * +EC2.1.1.104 5-hydroxy-feruloyl-coa triticum aestivum//*//* 0.0952 * +EC2.1.1.104 5-hydroxyferulic acid ammi majus//*//* 0.068 * +EC2.1.1.104 5-hydroxyferuoyl-coa petroselinum crispum//*//* 0.0007 * +EC2.1.1.104 5-hydroxyferuoyl-coa triticum aestivum//*//* 0.0022 * +EC2.1.1.104 caffeic acid ammi majus//*//* 0.088 * +EC2.1.1.104 caffeic acid triticum aestivum//*//* 0.0688 * +EC2.1.1.104 caffeoyl aldehyde triticum aestivum//*//* 0.0437 * +EC2.1.1.104 caffeoyl-coa ammi majus//*//* 0.0041 * +EC2.1.1.104 caffeoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0275 * +EC2.1.1.104 caffeoyl-coa oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.072 * +EC2.1.1.104 caffeoyl-coa petroselinum crispum//*//* 0.00024 * +EC2.1.1.104 caffeoyl-coa triticum aestivum//*//* 0.083 * +EC2.1.1.104 caffeoyl-d-glucose ammi majus//*//* 0.061 * +EC2.1.1.104 epigallocatechin-3-o-gallate camellia sinensis//*//* 0.101 * +EC2.1.1.104 eriodictyol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.063 * +EC2.1.1.104 eriodictyol mesembryanthemum crystallinum//*//* 0.003 * +EC2.1.1.104 quercetagetin ammi majus//*//* 0.009 * +EC2.1.1.104 quercetagetin mesembryanthemum crystallinum//*//* 0.00033 * +EC2.1.1.104 quercetin ammi majus//*//* 0.031 * +EC2.1.1.104 s-adenosyl-l-methionine camellia sinensis//*//* 0.16 * +EC2.1.1.104 tricetin vanilla planifolia//*//* 0.109 * +EC2.1.1.106 s-adenosyl-l-methionine streptomyces laurentii//prokaryotes;bacteria;actinobacteria;streptomyces//slau 0.12 * +EC2.1.1.107 heptacarboxyporphyrinogen iii pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0042 * +EC2.1.1.107 hexacarboxyporphyrinogen iii pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0047 * +EC2.1.1.107 pentacarboxyporphyrinogen iii pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0034 * +EC2.1.1.107 s-adenosyl-l-methionine pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0063 * +EC2.1.1.107 uroporphyrinogen iii desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.0004 * +EC2.1.1.107 uroporphyrinogen iii methanobacterium ivanovii//*//* 0.052 * +EC2.1.1.107 uroporphyrinogen iii pseudomonas denitrificans (nomen rejiciendum)//*//* 0.001 * +EC2.1.1.109 6-demethylsterigmatocystin aspergillus parasiticus//*//* 0.00094 * +EC2.1.1.109 dihydrodemethylsterigmatocystin aspergillus parasiticus//*//* 0.0025 * +EC2.1.1.11 magnesium deuteroporphyrin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0006 * +EC2.1.1.11 magnesium mesoporphyrin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.001 * +EC2.1.1.11 magnesium protoporphyrin ix hordeum vulgare//*//* 0.048 * +EC2.1.1.11 magnesium protoporphyrin ix triticum aestivum//*//* 0.036 * +EC2.1.1.11 magnesium protoporphyrin chlorobaculum tepidum//*//* 0.0006 * +EC2.1.1.11 protoporphyrin chlorobaculum tepidum//*//* 0.053 * +EC2.1.1.11 s-adenosyl-l-methionine hordeum vulgare//*//* 0.039 * +EC2.1.1.11 s-adenosyl-l-methionine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.045 * +EC2.1.1.11 s-adenosyl-l-methionine synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.038 * +EC2.1.1.11 s-adenosyl-l-methionine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0173 * +EC2.1.1.11 s-adenosyl-l-methionine triticum aestivum//*//* 0.048 * +EC2.1.1.11 zinc protoporphyrin rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0008 * +EC2.1.1.110 s-adenosyl-l-methionine aspergillus parasiticus//*//* 0.0096 * +EC2.1.1.110 sterigmatocystin aspergillus parasiticus//*//* 0.0018 * +EC2.1.1.111 anthranilate ruta graveolens//*//* 0.007 * +EC2.1.1.113 5'-cagtttaggatccatttcac-3'/3'-gtcaaatcctaggtaaaagag-5' bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.00035 * +EC2.1.1.113 5'-gtgaaat*ggatcc*taaactg-3'/3'-cacttta*cctagg*atttgac-5' bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.000196 * +EC2.1.1.113 s-adenosyl-l-methionine bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.00122 * +EC2.1.1.115 (r)-6-o-methylnorlaudanosoline berberis koetineana//*//* 0.004 * +EC2.1.1.115 (r)-norreticuline berberis koetineana//*//* 0.012 * +EC2.1.1.115 (s)-6-o-methylnorlaudanosoline berberis koetineana//*//* 0.0015 * +EC2.1.1.115 (s)-norreticuline berberis koetineana//*//* 0.005 * +EC2.1.1.116 (r,s)-3'-hydroxy-n-methylcoclaurine papaver somniferum//*//* 0.081 * +EC2.1.1.116 (r,s)-6-o-methylnorlaudanosoline papaver somniferum//*//* 0.031 * +EC2.1.1.116 (r,s)-laudanosoline papaver somniferum//*//* 0.039 * +EC2.1.1.116 (r,s)-norlaudanosoline papaver somniferum//*//* 0.037 * +EC2.1.1.116 3'-hydroxy-n-methyl-(s)-coclaurine berberis koetineana//*//* 0.0045 * +EC2.1.1.116 s-adenosyl-l-methionine berberis koetineana//*//* 0.03 * +EC2.1.1.116 s-adenosyl-l-methionine papaver somniferum//*//* 0.136 * +EC2.1.1.117 s-adenosyl-l-methionine berberis wilsoniae//*//* 0.042 * +EC2.1.1.117 s-adenosyl-l-methionine coptis japonica//*//* 0.17 * +EC2.1.1.117 scoulerine berberis wilsoniae//*//* 1.6 * +EC2.1.1.117 scoulerine coptis japonica//*//* 0.1 * +EC2.1.1.118 columbamine berberis aggregata//*//* 0.0013 * +EC2.1.1.118 columbamine berberis wilsoniae//*//* 0.0013 * +EC2.1.1.118 s-adenosyl-l-methionine berberis aggregata//*//* 0.0015 * +EC2.1.1.118 s-adenosyl-l-methionine berberis wilsoniae//*//* 0.0015 * +EC2.1.1.119 10-hydroxydihydrosanguinarine eschscholzia californica//*//* 0.01 * +EC2.1.1.119 s-adenosyl-l-methionine eschscholzia californica//*//* 0.003 * +EC2.1.1.12 l-met wedelia biflora//*//* 0.14 * +EC2.1.1.12 s-adenosyl-l-methionine wedelia biflora//*//* 0.034 * +EC2.1.1.121 6-o-methylnorlaudanosoline argemone platyceras//*//* 0.4 * +EC2.1.1.121 s-adenosyl-l-methionine argemone platyceras//*//* 0.05 * +EC2.1.1.122 (r,s)-stylopine papaver somniferum//*//* 0.0006 * +EC2.1.1.122 (s)-7,8,13,14-tetrahydroprotoberberine sanguinaria canadensis//*//* 0.0021 * +EC2.1.1.122 (s)-canadine corydalis vaginans//*//* 0.007 * +EC2.1.1.122 (s)-canadine eschscholzia californica//*//* 0.0064 * +EC2.1.1.122 (s)-stylopine corydalis vaginans//*//* 0.0031 * +EC2.1.1.122 (s)-stylopine eschscholzia californica//*//* 0.004 * +EC2.1.1.122 (s)-stylopine papaver somniferum//*//* 0.0006 * +EC2.1.1.122 s-adenosyl-l-methionine corydalis vaginans//*//* 0.0017 * +EC2.1.1.122 s-adenosyl-l-methionine eschscholzia californica//*//* 0.012 * +EC2.1.1.122 s-adenosyl-l-methionine papaver somniferum//*//* 0.0115 * +EC2.1.1.122 s-adenosyl-l-methionine sanguinaria canadensis//*//* 0.0012 * +EC2.1.1.123 s-adenosyl-l-methionine euglena gracilis//*//* 0.0166 * +EC2.1.1.127 [chloroplastic fructose 1,6-bisphosphate aldolase isoform 2]-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0138 * +EC2.1.1.127 [chloroplastic fructose 1,6-bisphosphate aldolase isoform 2]-l-lysine pisum sativum//*//* 0.0129 * +EC2.1.1.127 [chloroplastic fructose 1,6-bisphosphate aldolase isoform 3]-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0148 * +EC2.1.1.127 [chloroplastic fructose 1,6-bisphosphate aldolase isoform 3]-l-lysine pisum sativum//*//* 0.014 * +EC2.1.1.127 [gamma-tocopherol methyltransferase]-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.314 * +EC2.1.1.127 [gamma-tocopherol methyltransferase]-l-lysine pisum sativum//*//* 0.32 * +EC2.1.1.127 [large subunit of rubisco]-l-lysine pisum sativum//*//* 0.0045 * +EC2.1.1.127 [ribulose-1,5-bisphosphate carboxylase]-lysine pisum sativum//*//* 0.0014 * +EC2.1.1.127 ribulose-1,5-bisphosphate-carboxylase pisum sativum//*//* 0.0027 * +EC2.1.1.127 ribulose-bisphosphate-carboxylase from spinacia sp. nicotiana sp.//*//* 0.018 * +EC2.1.1.127 s-adenosyl-l-methionine nicotiana sp.//*//* 0.01 * +EC2.1.1.127 s-adenosyl-l-methionine pisum sativum//*//* 0.006 * +EC2.1.1.128 (r,s)-4'-o-methylnorlaudanosoline argemone platyceras//*//* 1.1 * +EC2.1.1.128 (r,s)-laudanosoline argemone platyceras//*//* 0.3 * +EC2.1.1.128 (r,s)-norlaudanosoline argemone platyceras//*//* 0.2 * +EC2.1.1.128 (r,s)-norlaudanosoline coptis japonica//*//* 2.23 * +EC2.1.1.128 s-adenosyl-l-methionine coptis japonica//*//* 3.95 * +EC2.1.1.128 s-adenosylmethionine argemone platyceras//*//* 0.05 * +EC2.1.1.129 1-l-1,3,4/2,5-cyclohexanepentol vigna umbellata//*//* 4.47 * +EC2.1.1.129 2,4,6/3,5-pentahydroxy-cyclohexanone vigna umbellata//*//* 0.67 * +EC2.1.1.129 d,l-2,3,4,6/5-pentahydroxy-cyclohexanone vigna umbellata//*//* 0.3 * +EC2.1.1.129 myo-inositol vigna umbellata//*//* 2.92 * +EC2.1.1.129 s-adenosyl-l-methionine vigna umbellata//*//* 0.063 * +EC2.1.1.13 5-methyl-5,6,7,8-tetrahydropteroylheptaglutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0223 * +EC2.1.1.13 5-methyl-5,6,7,8-tetrahydropteroylmonoglutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0731 * +EC2.1.1.13 5-methyl-5,6,7,8-tetrahydropteroylmonoglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC2.1.1.13 5-methyl-5,6,7,8-tetrahydropteroylpentaglutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0277 * +EC2.1.1.13 5-methyl-5,6,7,8-tetrahydropteroylpentaglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.1.1.13 5-methyl-5,6,7,8-tetrahydropteroyltriglutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0244 * +EC2.1.1.13 5-methyltetrahydropteroylglutamate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 2.4 * +EC2.1.1.13 l-homocysteine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.029 * +EC2.1.1.13 l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC2.1.1.13 l-homocysteine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.43 * +EC2.1.1.13 l-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC2.1.1.13 l-selenohomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.1.1.13 methyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.1.1.13 n5-methyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.089 * +EC2.1.1.13 n5-methyltetrahydropteroylmonoglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.165 * +EC2.1.1.13 n5-methyltetrahydropteroylmonoglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.1.1.13 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00065 * +EC2.1.1.13 s-methyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.1.1.132 precorrin-6y pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0022 * +EC2.1.1.136 2,4,6-trichlorophenol trichoderma longibrachiatum//*//* 0.1359 * +EC2.1.1.136 s-adenosyl-l-methionine trichoderma longibrachiatum//*//* 0.284 * +EC2.1.1.137 arsenite cricetinae//*//* 0.002 * +EC2.1.1.137 arsenite homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC2.1.1.137 arsenite macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.006 * +EC2.1.1.137 arsenite oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.006 * +EC2.1.1.137 methylarsonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC2.1.1.137 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamyl-gamma-glutamylglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.12 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamyl-gamma-glutamylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.094 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamylglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.087 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamylglutamate catharanthus roseus//*//* 0.028 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamyl-gamma-glutamylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.084 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamylglutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.113 * +EC2.1.1.14 5-methyltetrahydropteroyl-gamma-glutamylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.109 * +EC2.1.1.14 5-methyltetrahydropteroylglutamate pisum sativum//*//* 2.6e-05 * +EC2.1.1.14 5-methyltetrahydropteroylmonoglutamate catharanthus roseus//*//* 0.35 * +EC2.1.1.14 5-methyltetrahydropteroyltriglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0044 * +EC2.1.1.14 5-methyltetrahydropteroyltriglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.1.1.14 homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.069 * +EC2.1.1.14 homocysteine phaseolus sp.//*//* 0.041 * +EC2.1.1.14 homocysteine pisum sativum//*//* 0.6 * +EC2.1.1.14 l-homocysteine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.014 * +EC2.1.1.14 l-homocysteine catharanthus roseus//*//* 0.01 * +EC2.1.1.14 l-homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.013 * +EC2.1.1.14 s-adenosylmethionine pisum sativum//*//* 0.004 * +EC2.1.1.14 s-methylmethionine phaseolus sp.//*//* 0.055 * +EC2.1.1.14 s-methylmethionine pisum sativum//*//* 0.0022 * +EC2.1.1.14 selenohomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC2.1.1.140 (r,s)-norreticuline coptis japonica//*//* 0.38 * +EC2.1.1.140 (s)-coclaurine tinospora cordifolia//*//* 0.04 * +EC2.1.1.140 (s)-norcoclaurine tinospora cordifolia//*//* 0.05 * +EC2.1.1.140 s-adenosyl-l-methionine coptis japonica//*//* 0.65 * +EC2.1.1.140 s-adenosyl-l-methionine tinospora cordifolia//*//* 0.04 * +EC2.1.1.141 benzoate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.341 * +EC2.1.1.141 jasmonate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0385 * +EC2.1.1.141 jasmonate brassica rapa subsp. campestris//*//* 0.38 * +EC2.1.1.141 jasmonate fragaria vesca//eukaryotes;plants;eudicots;rose family//fve 0.0223 * +EC2.1.1.141 jasmonate fragaria x ananassa//*//* 0.0223 * +EC2.1.1.141 jasmonate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.175 * +EC2.1.1.141 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0063 * +EC2.1.1.141 s-adenosyl-l-methionine brassica rapa subsp. campestris//*//* 0.0064 * +EC2.1.1.142 14alpha-methylzymosterol prototheca wickerhamii//*//* 0.125 * +EC2.1.1.142 24(28)-methylenecholest-7-enol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC2.1.1.142 24(28)-methylenecholesterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.036 * +EC2.1.1.142 24(28)-methylenecycloartanol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC2.1.1.142 24(28)-methylenecycloartanol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.022 * +EC2.1.1.142 24(28)-methylenelanosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC2.1.1.142 24(28)-methylenelanosterol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.02 * +EC2.1.1.142 24(28)-methylenelophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.1.1.142 24(28)-methylenelophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.022 * +EC2.1.1.142 24(28)methylene lophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC2.1.1.142 24-dehydropollinstanol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.045 * +EC2.1.1.142 24-fluorocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.03 * +EC2.1.1.142 24-methyl-9,19-cyclolanost-24-en-3-ol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.037 * +EC2.1.1.142 26,27-dehydrocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01 * +EC2.1.1.142 26,27-dehydrozymosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.015 * +EC2.1.1.142 26-difluorocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.044 * +EC2.1.1.142 26-fluorocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.036 * +EC2.1.1.142 30,31-dinorcycloartenol prototheca wickerhamii//*//* 0.97 * +EC2.1.1.142 31-norcycloartenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.1.1.142 31-norcycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.032 * +EC2.1.1.142 31-norcycloartenol prototheca wickerhamii//*//* 0.61 * +EC2.1.1.142 4alpha-methylfecosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.1.1.142 4alpha-methylzymosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.1.1.142 cholest-7,24-dienol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.1.1.142 cholesta-5,20(22)e,24-trienol prototheca wickerhamii//*//* 0.1 * +EC2.1.1.142 cholesta-5,7,22e,24-tetraenol prototheca wickerhamii//*//* 0.112 * +EC2.1.1.142 cycloartenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC2.1.1.142 cycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.024 * +EC2.1.1.142 cycloartenol prototheca wickerhamii//*//* 0.03 * +EC2.1.1.142 cyclobranol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.087 * +EC2.1.1.142 dehydropollinastanol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.023 * +EC2.1.1.142 desmosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.038 * +EC2.1.1.142 desmosterol prototheca wickerhamii//*//* 0.063 * +EC2.1.1.142 fecosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.016 * +EC2.1.1.142 lanosterol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.027 * +EC2.1.1.142 lanosterol prototheca wickerhamii//*//* 0.176 * +EC2.1.1.142 obtusifoliol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.038 * +EC2.1.1.142 parkeol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.043 * +EC2.1.1.142 parkeol prototheca wickerhamii//*//* 0.8 * +EC2.1.1.142 zymosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.028 * +EC2.1.1.142 zymosterol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.035 * +EC2.1.1.142 zymosterol prototheca wickerhamii//*//* 0.038 * +EC2.1.1.143 24(28)-methylene lophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC2.1.1.143 24-methylene lophenol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.012 * +EC2.1.1.143 24-methylenelophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0049 * +EC2.1.1.143 cycloartenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0114 * +EC2.1.1.143 cycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.024 * +EC2.1.1.143 cycloartenol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.042 * +EC2.1.1.143 lanosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0124 * +EC2.1.1.143 obtusifoliol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0119 * +EC2.1.1.143 zymosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0052 * +EC2.1.1.144 (2r,3s)-isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC2.1.1.144 cis-aconitate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC2.1.1.144 citrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.1 * +EC2.1.1.144 dl-isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC2.1.1.144 trans-aconitate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC2.1.1.145 (2r,3r)/(2s,3s)-3-isopropylmalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.428 * +EC2.1.1.145 (2r,3s)-3-isopropylmalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.127 * +EC2.1.1.145 (2s,3r)-3-isopropylmalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.341 * +EC2.1.1.145 2-(1-methylethylidine)succinate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.019 * +EC2.1.1.145 3-butylmalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.045 * +EC2.1.1.145 cis-aconitate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 74.0 * +EC2.1.1.145 isopropylfumarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.67 * +EC2.1.1.145 isopropylmaleate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.323 * +EC2.1.1.145 itaconate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 44.0 * +EC2.1.1.145 trans-aconitate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.053 * +EC2.1.1.146 chavicol ocimum basilicum//*//* 0.007 * +EC2.1.1.146 eugenol clarkia breweri//*//* 0.007 * +EC2.1.1.146 eugenol ocimum basilicum//*//* 0.003 * +EC2.1.1.146 eugenol rosa chinensis//*//* 0.159 * +EC2.1.1.146 isoeugenol clarkia breweri//*//* 0.058 * +EC2.1.1.146 isoeugenol pimpinella anisum//*//* 0.0193 * +EC2.1.1.146 isoeugenol rosa chinensis//*//* 0.214 * +EC2.1.1.146 s-adenosyl-l-methionine clarkia breweri//*//* 0.027 * +EC2.1.1.146 s-adenosyl-l-methionine ocimum basilicum//*//* 0.005 * +EC2.1.1.146 s-adenosyl-l-methionine pimpinella anisum//*//* 0.0545 * +EC2.1.1.146 trans-isoeugenol ocimum basilicum//*//* 0.01 * +EC2.1.1.147 berberine corydalis cava//*//* 0.005 * +EC2.1.1.147 nadph corydalis cava//*//* 0.016 * +EC2.1.1.147 s-adenosyl-l-methionine corydalis cava//*//* 0.0027 * +EC2.1.1.148 5,10-methylenetetrahydrofolate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.35 * +EC2.1.1.148 5,10-methylenetetrahydrofolate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC2.1.1.148 5,10-methylenetetrahydrofolate paramecium bursaria chlorella virus-1//*//* 0.02 * +EC2.1.1.148 dump helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0076 * +EC2.1.1.148 dump mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC2.1.1.148 dump paramecium bursaria chlorella virus-1//*//* 0.015 * +EC2.1.1.148 dump thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0122 * +EC2.1.1.148 nadph mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.047 * +EC2.1.1.15 3-hydroxydecanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.099 * +EC2.1.1.15 3-hydroxydodecanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.129 * +EC2.1.1.15 3-hydroxyoctanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.196 * +EC2.1.1.15 decanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.0082 * +EC2.1.1.15 dodecanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.103 * +EC2.1.1.15 octanoic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.077 * +EC2.1.1.15 oleic acid mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 1.3 * +EC2.1.1.15 s-adenosyl-l-methionine mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.0255 * +EC2.1.1.15 s-adenosylmethionine mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.025 * +EC2.1.1.153 s-adenosyl-l-methionine avena sativa//*//* 0.0016 * +EC2.1.1.153 vitexin 2''-o-beta-l-rhamnoside avena sativa//*//* 0.015 * +EC2.1.1.154 isoliquiritigenin medicago sativa//*//* 2.2 * +EC2.1.1.154 s-adenosyl-l-methionine medicago sativa//*//* 17.7 * +EC2.1.1.155 4'-hydroxyflavanone dianthus caryophyllus//*//* 0.011 * +EC2.1.1.155 apigenin dianthus caryophyllus//*//* 0.0033 * +EC2.1.1.155 genistein dianthus caryophyllus//*//* 0.0735 * +EC2.1.1.155 kaempferol dianthus caryophyllus//*//* 0.0017 * +EC2.1.1.156 glycine synechococcus sp. wh 8102//*//* 5.22 * +EC2.1.1.156 n-methylglycine aphanothece halophytica//*//* 0.8 * +EC2.1.1.156 n-methylglycine synechococcus sp. wh 8102//*//* 2.94 * +EC2.1.1.156 s-adenosyl-l-methionine synechococcus sp. wh 8102//*//* 0.3 * +EC2.1.1.157 n,n-dimethylglycine galdieria sulphuraria//eukaryotes;plants;red algae//gsl 2.8 * +EC2.1.1.157 n,n-dimethylglycine methanohalophilus portucalensis//*//* 3.76 * +EC2.1.1.157 s-adenosyl-l-methionine galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.144 * +EC2.1.1.157 s-adenosyl-l-methionine methanohalophilus portucalensis//*//* 0.21 * +EC2.1.1.157 sarcosine galdieria sulphuraria//eukaryotes;plants;red algae//gsl 2.0 * +EC2.1.1.157 sarcosine methanohalophilus portucalensis//*//* 2.29 * +EC2.1.1.158 xanthosine coffea arabica//*//* 0.0737 * +EC2.1.1.159 3,7-dimethylxanthine paullinia cupana//*//* 0.258 * +EC2.1.1.159 7-methylxanthine camellia granthamiana//*//* 0.0072 * +EC2.1.1.159 7-methylxanthine camellia japonica//*//* 0.059 * +EC2.1.1.159 7-methylxanthine camellia lutchuensis//*//* 0.0087 * +EC2.1.1.159 7-methylxanthine coffea arabica//*//* 0.2 * +EC2.1.1.159 paraxanthine coffea arabica//*//* 0.07 * +EC2.1.1.159 s-adenosyl-l-methionine coffea arabica//*//* 0.01 * +EC2.1.1.160 s-adenosyl-l-methionine coffea arabica//*//* 0.01 * +EC2.1.1.160 theobromine coffea arabica//*//* 0.2 * +EC2.1.1.161 n,n-dimethylglycine aphanothece halophytica//*//* 0.5 * +EC2.1.1.161 n,n-dimethylglycine synechococcus sp. wh 8102//*//* 2.11 * +EC2.1.1.161 s-adenosyl-l-methionine aphanothece halophytica//*//* 0.18 * +EC2.1.1.161 s-adenosyl-l-methionine synechococcus sp. wh 8102//*//* 0.41 * +EC2.1.1.162 glycine methanohalophilus portucalensis//*//* 0.4 * +EC2.1.1.162 n,n-dimethylglycine methanohalophilus portucalensis//*//* 2.45 * +EC2.1.1.162 n-methylglycine methanohalophilus portucalensis//*//* 3.14 * +EC2.1.1.164 4'-demethylrebeccamycin lechevalieria aerocolonigenes//*//* 0.0355 * +EC2.1.1.164 dechlorinated 4'-demethyl-rebeccamycin lechevalieria aerocolonigenes//*//* 0.0021 * +EC2.1.1.164 s-adenosyl-l-methionine lechevalieria aerocolonigenes//*//* 0.012 * +EC2.1.1.165 bromide batis maritima//*//* 18.5 * +EC2.1.1.165 bromide brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 29.0 * +EC2.1.1.165 bromide endocladia muricata//*//* 5.0 * +EC2.1.1.165 bromide phellinus pomaceus//*//* 10.0 * +EC2.1.1.165 chloride batis maritima//*//* 155.0 * +EC2.1.1.165 chloride brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 85.0 * +EC2.1.1.165 chloride phellinus pomaceus//*//* 300.0 * +EC2.1.1.165 iodide batis maritima//*//* 8.5 * +EC2.1.1.165 iodide brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 1.3 * +EC2.1.1.165 iodide pavlova gyrans//*//* 63.0 * +EC2.1.1.165 iodide pavlova pinguis//*//* 12.0 * +EC2.1.1.165 iodide phellinus pomaceus//*//* 0.25 * +EC2.1.1.165 iodide rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.26 * +EC2.1.1.165 s-adenosyl-l-methionine batis maritima//*//* 0.0294 * +EC2.1.1.165 s-adenosyl-l-methionine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.03 * +EC2.1.1.165 s-adenosyl-l-methionine endocladia muricata//*//* 0.016 * +EC2.1.1.165 s-adenosyl-l-methionine pavlova gyrans//*//* 0.024 * +EC2.1.1.165 s-adenosyl-l-methionine pavlova pinguis//*//* 0.012 * +EC2.1.1.165 s-adenosyl-l-methionine phellinus pomaceus//*//* 0.0045 * +EC2.1.1.165 s-adenosyl-l-methionine rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.024 * +EC2.1.1.166 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0037 * +EC2.1.1.169 tricetin triticum aestivum//*//* 0.0595 * +EC2.1.1.17 phosphatidyl-n,n-dimethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.1.1.17 phosphatidyl-n-monomethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC2.1.1.17 phosphatidyl-n-monomethylethanolamine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0175 * +EC2.1.1.17 phosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC2.1.1.17 phosphatidylethanolamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.057 * +EC2.1.1.17 phosphatidylethanolamine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0336 * +EC2.1.1.17 s-adenosyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC2.1.1.17 s-adenosylmethionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC2.1.1.17 s-adenosylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0067 * +EC2.1.1.17 s-adenosylmethionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC2.1.1.17 s-adenosylmethionine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0019 * +EC2.1.1.175 tricetin hordeum vulgare//*//* 0.00248 * +EC2.1.1.175 tricetin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.036 * +EC2.1.1.175 tricetin zea mays//eukaryotes;plants;monocots;grass family//zma 0.0417 * +EC2.1.1.176 cytosine967 in 16s rrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00067 * +EC2.1.1.18 s-adenosyl-l-methionine mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.1 * +EC2.1.1.184 23s rrna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.75e-05 * +EC2.1.1.184 262-nucleotide rna fragment within domain v of bacillus subtilis 23s rrna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00091 * +EC2.1.1.184 623-nucleotide rna fragment within domain v of bacillus subtilis 23s rrna with mutation a2086t bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.000144 * +EC2.1.1.184 623-nucleotide rna fragment within domain v of bacillus subtilis 23s rrna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.44e-05 * +EC2.1.1.184 adenine2085 in 23s rrna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.000375 * +EC2.1.1.184 s-adenosyl-l-methionine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.000354 * +EC2.1.1.19 tetrahydrofolate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC2.1.1.19 trimethylsulfonium pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.8 * +EC2.1.1.193 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0267 * +EC2.1.1.193 uracil1498 in 16s rrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.1.1.197 malonyl-[acyl-carrier protein] bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.00108 * +EC2.1.1.197 s-adenosyl-l-methionine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0019 * +EC2.1.1.2 guanidinoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC2.1.1.2 guanidinoacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.027 * +EC2.1.1.2 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.1.1.2 s-adenosyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.049 * +EC2.1.1.20 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0122 * +EC2.1.1.20 gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC2.1.1.20 gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC2.1.1.20 glycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.2 * +EC2.1.1.20 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.1.1.20 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.281 * +EC2.1.1.20 s-adenosyl-l-methionine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.1.1.20 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC2.1.1.20 s-adenosylmethionine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.1.1.20 s-adenosylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.1.1.210 1'-hydroxydemethylspheroidene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0266 * +EC2.1.1.212 2,7,4'-trihydroxyisoflavanone glycyrrhiza echinata//*//* 0.003 * +EC2.1.1.212 2,7,4'-trihydroxyisoflavanone medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0733 * +EC2.1.1.212 2,7,4'-trihydroxyisoflavanone pisum sativum//*//* 0.003 * +EC2.1.1.212 s-adenosyl-l-methionine medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0998 * +EC2.1.1.215 guanine27 in trnatyr aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 8e-05 * +EC2.1.1.216 s-adenosyl-l-methionine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.003 * +EC2.1.1.22 actin peptide h oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.5 * +EC2.1.1.22 carnosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.646 * +EC2.1.1.22 carnosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.96 * +EC2.1.1.22 carnosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.33 * +EC2.1.1.22 s-adenosyl-l-methionine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.025 * +EC2.1.1.22 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC2.1.1.22 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.042 * +EC2.1.1.220 adenine58 in initiator trnamet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5e-06 * +EC2.1.1.220 adenine58 in trnaphe thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00013 * +EC2.1.1.220 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC2.1.1.225 adenosine4 in trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1e-05 * +EC2.1.1.228 guanine37 in aquifex aeolicus trnaarg(acg) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0006 * +EC2.1.1.228 guanine37 in aquifex aeolicus trnaarg(ccg) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0008 * +EC2.1.1.228 guanine37 in aquifex aeolicus trnagln(uug) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0004 * +EC2.1.1.228 guanine37 in aquifex aeolicus trnahis(gug) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0006 * +EC2.1.1.228 guanine37 in aquifex aeolicus trnaleu(cag) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0009 * +EC2.1.1.228 guanine37 in aquifex aeolicus trnapro(ggg) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0007 * +EC2.1.1.228 guanine37 in escherichia coli trna1leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0057 * +EC2.1.1.228 guanine37 in escherichia coli trna1leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.46e-05 * +EC2.1.1.228 guanine37 in escherichia coli trnapro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC2.1.1.228 guanine37 in haloferax volcanii trnacys(gca) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.002 * +EC2.1.1.228 guanine37 in haloferax volcanii trnaleu(caa) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0005 * +EC2.1.1.228 guanine37 in haloferax volcanii trnatrp(cca) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0023 * +EC2.1.1.228 guanine37 in haloferax volcanii trnatyr(gua) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0019 * +EC2.1.1.228 guanine37 in human mitochondrial trnapro possessing an a36g37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.1.1.228 guanine37 in human mitochondrial trnapro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0086 * +EC2.1.1.228 guanine37 in human mitochondrial trnapro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00546 * +EC2.1.1.228 guanine37 in in escherichia coli trnaleu(cag) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0033 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trna(cys) methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.00028 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trnacys methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0007 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trnapro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0073 * +EC2.1.1.228 guanine37 in methanocaldococcus jannaschii trnapro methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0012 * +EC2.1.1.228 guanine37 in trnaarg haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.027 * +EC2.1.1.228 guanine37 in trnaglncug haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.00082 * +EC2.1.1.228 guanine37 in trnaglng36a haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0027 * +EC2.1.1.228 guanine37 in trnaglng36c haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.184 * +EC2.1.1.228 guanine37 in trnaglng36u haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.114 * +EC2.1.1.228 guanine37 in trnaleu(gac) streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0043 * +EC2.1.1.228 guanine37 in trnaleu haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.008 * +EC2.1.1.228 guanine37 in trnapro haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.001 * +EC2.1.1.228 guanine37 in yeast trnaasp possessing a c36g37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5e-05 * +EC2.1.1.228 guanine37 in yeast trnaasp possessing a g36g37 sequence escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC2.1.1.228 guanine37 in yeast trnaasp possessing a g36g37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000244 * +EC2.1.1.228 guanine37 in yeast trnaasp possessing an a36g37 sequence escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC2.1.1.228 guanine37 in yeast trnaasp possessing an a36g37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00059 * +EC2.1.1.228 guanine37 in yeast trnaasp possessing an u36g37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00058 * +EC2.1.1.228 guanine37 in yeast trnaphe possessing an a36g37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.57e-05 * +EC2.1.1.228 guanine37 in yeast trnaphe(gaa) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0008 * +EC2.1.1.228 inosine37 in yeast trnaasp possessing a g36i37 sequence homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00123 * +EC2.1.1.228 s-adenosyl-l-homocysteine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0007 * +EC2.1.1.228 s-adenosyl-l-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.001 * +EC2.1.1.230 adenosine in an rna fragment containing nucleotides 1029-1122 of the 23s ribosomal rna from escherichia coli streptomyces azureus//*//* 0.001 * +EC2.1.1.230 s-adenosyl-l-methionine streptomyces azureus//*//* 0.1 * +EC2.1.1.231 4'-hydroxyflavanone dianthus caryophyllus//*//* 0.011 * +EC2.1.1.231 apigenin dianthus caryophyllus//*//* 0.0033 * +EC2.1.1.231 genistein dianthus caryophyllus//*//* 0.0735 * +EC2.1.1.231 kaempferol dianthus caryophyllus//*//* 0.0017 * +EC2.1.1.234 dtdp-3-amino-3,4,6-trideoxy-alpha-d-glucose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.3074 * +EC2.1.1.234 dtdp-3-amino-3,6-dideoxy-alpha-d-glucopyranose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.2766 * +EC2.1.1.235 dtdp-3-amino-3,6-dideoxy-alpha-d-glucopyranose streptomyces fradiae//*//* 0.045 * +EC2.1.1.235 dtdp-3-methylamino-3,6-dideoxy-alpha-d-glucopyranose streptomyces fradiae//*//* 0.0468 * +EC2.1.1.235 s-adenosyl-l-methionine streptomyces fradiae//*//* 0.0989 * +EC2.1.1.236 dtdp-3-amino-3,6-dideoxy-alpha-d-galactopyranose streptomyces fradiae//*//* 1.54 * +EC2.1.1.237 mycinamicin iii micromonospora griseorubida//*//* 0.0307 * +EC2.1.1.238 mycinamicin vi micromonospora griseorubida//*//* 0.0264 * +EC2.1.1.240 3-methoxy-4',5-dihydroxy-trans-stilbene vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.014 * +EC2.1.1.240 resveratrol vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.012 * +EC2.1.1.244 n-terminal-lpkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0054 * +EC2.1.1.244 n-terminal-ppkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC2.1.1.244 n-terminal-rpkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.1.1.244 n-terminal-spkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC2.1.1.244 n-terminal-wpkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.126 * +EC2.1.1.244 n-terminal-ypkria-[rcc1] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC2.1.1.245 a [methyl-co(iii) corrinoid fe-s protein] moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.012 * +EC2.1.1.245 tetrahydrosarcinapterin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.002 * +EC2.1.1.247 3-mercaptopropionate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 9.0 * +EC2.1.1.247 [methyl-co(iii) trimethylamine-specific corrinoid protein] methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 1.4e-05 * +EC2.1.1.247 coenzyme m methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.02 * +EC2.1.1.25 acetaminophen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.2 * +EC2.1.1.25 phenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.1.1.25 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC2.1.1.251 methylmercaptopropionate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 10.0 * +EC2.1.1.258 5-methyltetrahydrofolate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.002 * +EC2.1.1.258 [co(i) corrinoid fe-s protein] moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.012 * +EC2.1.1.258 [methyl-co(iii) corrinoid fe-s protein] moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.1 * +EC2.1.1.258 cobalamin clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.0178 * +EC2.1.1.258 hydroxocobalamin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 2.0 * +EC2.1.1.258 methylcobalamin moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.665 * +EC2.1.1.258 tetrahydrofolate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.2 * +EC2.1.1.259 [large subunit of spinach rubisco-human carbonic anhydrase ii fusion protein]-l-lysine pisum sativum//*//* 1.2 * +EC2.1.1.259 s-adenosyl-l-methionine pisum sativum//*//* 0.01923 * +EC2.1.1.26 3,5-diiodo-4-hydroxybenzoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0034 * +EC2.1.1.26 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC2.1.1.267 caffeoyl-coenzyme a oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.072 * +EC2.1.1.267 delphinidin 3-o-beta-d-glucoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.012 * +EC2.1.1.267 eriodictyol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0224 * +EC2.1.1.267 luteolin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.09 * +EC2.1.1.267 luteolin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00074 * +EC2.1.1.267 myricetin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.044 * +EC2.1.1.267 quercetin 3-o-beta-d-glucoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.437 * +EC2.1.1.267 quercetin solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00057 * +EC2.1.1.267 tricetin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.036 * +EC2.1.1.269 3-(s,s-dimethylsulfonio)propanoate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 13.2 * +EC2.1.1.269 3-(s,s-dimethylsulfonio)propanoate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 5.4 * +EC2.1.1.269 dimethylsulfoniopropionate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 13.2 * +EC2.1.1.269 dimethylsulfoniopropionate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 5.4 * +EC2.1.1.269 tetrahydrofolate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 0.29 * +EC2.1.1.269 tetrahydrofolate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.21 * +EC2.1.1.27 s-adenosyl-l-methionine hordeum vulgare//*//* 0.03 * +EC2.1.1.27 tyramine hordeum vulgare//*//* 0.02 * +EC2.1.1.270 (+)-6a-hydroxymaackiain medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.062 * +EC2.1.1.270 (+)-6a-hydroxymaackiain pisum sativum//*//* 0.0005 * +EC2.1.1.273 benzoate antirrhinum majus//*//* 1.1 * +EC2.1.1.273 benzoic acid antirrhinum majus//*//* 1.72 * +EC2.1.1.273 benzoic acid arabidopsis lyrata//eukaryotes;plants;eudicots;mustard family//aly 0.131 * +EC2.1.1.273 benzoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.065 * +EC2.1.1.273 s-adenosyl-l-methionine antirrhinum majus//*//* 0.003 * +EC2.1.1.273 s-adenosyl-l-methionine arabidopsis lyrata//eukaryotes;plants;eudicots;mustard family//aly 0.087 * +EC2.1.1.273 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.067 * +EC2.1.1.274 s-adenosyl-l-methionine antirrhinum majus//*//* 0.004 * +EC2.1.1.274 s-adenosyl-l-methionine arabidopsis lyrata//eukaryotes;plants;eudicots;mustard family//aly 0.087 * +EC2.1.1.274 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.067 * +EC2.1.1.274 s-adenosyl-l-methionine clarkia breweri//*//* 0.009 * +EC2.1.1.274 s-adenosyl-l-methionine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0146 * +EC2.1.1.274 salicylate clarkia breweri//*//* 0.0017 * +EC2.1.1.274 salicylate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00046 * +EC2.1.1.274 salicylate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.05 * +EC2.1.1.274 salicylic acid antirrhinum majus//*//* 0.083 * +EC2.1.1.274 salicylic acid arabidopsis lyrata//eukaryotes;plants;eudicots;mustard family//aly 0.127 * +EC2.1.1.274 salicylic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.016 * +EC2.1.1.275 gibberellin a4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0054 * +EC2.1.1.275 gibberellin a9 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0158 * +EC2.1.1.276 gibberellin a4 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0059 * +EC2.1.1.276 gibberellin a9 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0019 * +EC2.1.1.277 anthranilate zea mays//eukaryotes;plants;monocots;grass family//zma 0.311 * +EC2.1.1.277 s-adenosyl-l-methionine zea mays//eukaryotes;plants;monocots;grass family//zma 0.076 * +EC2.1.1.278 (indol-3-yl)acetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.013 * +EC2.1.1.278 (indol-3-yl)acetate oryza sativa japonica group//*//* 0.0179 * +EC2.1.1.278 (indol-3-yl)acetate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0304 * +EC2.1.1.278 s-adenosyl-l-methionine oryza sativa japonica group//*//* 0.0073 * +EC2.1.1.278 s-adenosyl-l-methionine populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0231 * +EC2.1.1.279 isoeugenol pimpinella anisum//*//* 0.0193 * +EC2.1.1.279 s-adenosyl-l-methionine foeniculum vulgare//*//* 0.004 * +EC2.1.1.279 s-adenosyl-l-methionine pimpinella anisum//*//* 0.0545 * +EC2.1.1.279 trans-anol foeniculum vulgare//*//* 0.032 * +EC2.1.1.28 2-hydroxyphenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.676 * +EC2.1.1.28 3,4-dichlorophenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0008 * +EC2.1.1.28 3,4-dichlorophenylethylenediamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC2.1.1.28 3,4-dihydroxyphenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC2.1.1.28 3-chloro-4-hydroxyphenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0024 * +EC2.1.1.28 3-hydroxyphenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.089 * +EC2.1.1.28 3-methoxy-4-hydroxy-phenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.366 * +EC2.1.1.28 3-trifluoromethylphenylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00054 * +EC2.1.1.28 4-aminomethyl-1,2,3,4-tetrahydroisoquinoline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC2.1.1.28 4-hydroxyphenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.017 * +EC2.1.1.28 anti-9-amino-6-(trifluoromethyl)benzonorbornene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.1.1.28 cis-(1r,2s)-2-amino-1-tetralol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC2.1.1.28 d-norepinephrine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0297 * +EC2.1.1.28 l-norepinephrine columba livia//eukaryotes;animals;vertebrates;birds//clv 0.101 * +EC2.1.1.28 l-norepinephrine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.015 * +EC2.1.1.28 m-octopamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.089 * +EC2.1.1.28 norepinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0184 * +EC2.1.1.28 normetanephrine macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.05 * +EC2.1.1.28 octopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0055 * +EC2.1.1.28 phenylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.1.1.28 phenylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.077 * +EC2.1.1.28 s-adenosyl-l-methionine columba livia//eukaryotes;animals;vertebrates;birds//clv 0.024 * +EC2.1.1.28 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC2.1.1.28 s-adenosyl-l-methionine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00543 * +EC2.1.1.280 dl-selenocysteine astragalus bisulcatus//*//* 0.3 * +EC2.1.1.280 dl-selenohomocysteine astragalus bisulcatus//*//* 0.35 * +EC2.1.1.280 dl-selenohomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC2.1.1.280 l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC2.1.1.280 l-selenocysteine astragalus bisulcatus//*//* 0.37 * +EC2.1.1.280 l-selenocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC2.1.1.280 s-adenosyl-l-methionine astragalus bisulcatus//*//* 0.015 * +EC2.1.1.281 2-oxo-3-phenylpropanoate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 2.5 * +EC2.1.1.281 s-adenosyl-l-methionine streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.014 * +EC2.1.1.283 emodin aspergillus terreus//*//* 0.00034 * +EC2.1.1.283 s-adenosyl-l-methionine aspergillus terreus//*//* 0.0041 * +EC2.1.1.284 8-demethylnovobiocic acid streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0265 * +EC2.1.1.285 demethyldecarbamoylnovobiocin streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0095 * +EC2.1.1.291 (r)-reticuline papaver somniferum//*//* 0.017 * +EC2.1.1.291 (s)-reticuline papaver somniferum//*//* 0.016 * +EC2.1.1.291 guaiacol papaver somniferum//*//* 0.017 * +EC2.1.1.291 isovanillic acid papaver somniferum//*//* 0.014 * +EC2.1.1.291 s-adenosyl-l-methionine papaver somniferum//*//* 0.15 * +EC2.1.1.292 13-dihydrocarminomycin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.001 * +EC2.1.1.292 carminomycin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0005 * +EC2.1.1.292 s-adenosyl-l-methionine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.025 * +EC2.1.1.293 6-hydroxytryprostatin b aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.021 * +EC2.1.1.293 s-adenosyl-l-methionine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.011 * +EC2.1.1.3 dl-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC2.1.1.3 thetin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.2 * +EC2.1.1.302 3-hydroxy-5-methylnaphthoate streptomyces sahachiroi//*//* 0.145 * +EC2.1.1.302 s-adenosyl-l-methionine streptomyces sahachiroi//*//* 0.061 * +EC2.1.1.303 1,4-dihydroxy-2-naphthoic acid streptomyces carzinostaticus//*//* 0.024 * +EC2.1.1.303 2,7-dihydroxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.206 * +EC2.1.1.303 3,5-dihydroxy-2-naphthoate streptomyces carzinostaticus//*//* 0.352 * +EC2.1.1.303 3,7-dihydroxy-2-naphthoate streptomyces carzinostaticus//*//* 0.066 * +EC2.1.1.315 27-o-demethylrifamycin sv amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.018 * +EC2.1.1.315 s-adenosyl-l-methionine amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.0193 * +EC2.1.1.316 7-demethylmitomycin a streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.17 * +EC2.1.1.316 s-adenosyl-l-methionine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.0038 * +EC2.1.1.318 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00495 * +EC2.1.1.319 [fysgfns-dimethyl-r8-p-dimethyl-r10-grvyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0222 * +EC2.1.1.319 [fysgfns-dimethyl-r8-prg-dimethyl-r12-vyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC2.1.1.319 [fysgfns-dimethyl-r8-prgrvyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00061 * +EC2.1.1.319 [fysgfnsrp-dimethyl-r10-g-dimethyl-r12-vyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.1.1.319 [fysgfnsrp-methyl-r10-grvyatswy]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00069 * +EC2.1.1.319 [grggfggrggfrggrgg]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC2.1.1.319 [pabpn1 mutant deltac20]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC2.1.1.319 [pabpn1 mutant deltac27]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC2.1.1.319 [pabpn1 mutant deltac33]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC2.1.1.319 [pabpn1 mutant deltac40]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00323 * +EC2.1.1.319 [pabpn1 mutant deltac8]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC2.1.1.320 [histone h4 peptide]-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC2.1.1.320 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2e-05 * +EC2.1.1.321 [histone h2b peptide 23-37]-l-arginine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0069 * +EC2.1.1.323 (-)-pluviatolide sinopodophyllum hexandrum//*//* 0.0014 * +EC2.1.1.325 (2e,6e)-farnesoate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.00223 * +EC2.1.1.325 (2e,6e)-farnesoate diaphorina citri//*//* 0.00046 * +EC2.1.1.325 (2e,6z)-10cis-juvenile hormone i acid diaphorina citri//*//* 0.00458 * +EC2.1.1.325 (2z,6e)-10cis-juvenile hormone i acid diaphorina citri//*//* 0.00565 * +EC2.1.1.325 (cis/trans/cis)-juvenile hormone i acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.00387 * +EC2.1.1.325 (cis/trans/trans)-juvenile hormone i acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.01027 * +EC2.1.1.325 (trans/cis/cis)-juvenile hormone i acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 8e-06 * +EC2.1.1.325 homofarnesoate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.01997 * +EC2.1.1.325 homofarnesoate diaphorina citri//*//* 2e-05 * +EC2.1.1.325 juvenile hormone i acid bisepoxide aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.00028 * +EC2.1.1.325 juvenile hormone iii acid bisepoxide aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.00016 * +EC2.1.1.325 juvenile hormone iii acid aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.01468 * +EC2.1.1.325 juvenile hormone iii acid diaphorina citri//*//* 0.00253 * +EC2.1.1.329 menadione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC2.1.1.33 guanine46 in trna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00025 * +EC2.1.1.33 methyl deficient trna from e. coli escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC2.1.1.33 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC2.1.1.33 s-adenosyl-l-methionine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.053 * +EC2.1.1.33 undermethylated trna salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0034 * +EC2.1.1.336 dopamine narcissus sp. aff. pseudonarcissus//*//* 0.0073 * +EC2.1.1.336 n-methylnorbelladine narcissus sp. aff. pseudonarcissus//*//* 0.0019 * +EC2.1.1.336 norbelladine narcissus sp. aff. pseudonarcissus//*//* 0.0016 * +EC2.1.1.336 s-adenosyl-l-methionine narcissus sp. aff. pseudonarcissus//*//* 0.0285 * +EC2.1.1.337 (r)-reticuline papaver somniferum//*//* 0.085 * +EC2.1.1.337 (s)-reticuline papaver somniferum//*//* 0.042 * +EC2.1.1.337 s-adenosyl-l-methionine papaver somniferum//*//* 0.168 * +EC2.1.1.338 desmethylxanthohumol humulus lupulus//*//* 0.018 * +EC2.1.1.338 s-adenosyl-l-methionine humulus lupulus//*//* 0.286 * +EC2.1.1.339 chalconaringenin humulus lupulus//*//* 0.237 * +EC2.1.1.339 desmethylxanthohumol humulus lupulus//*//* 0.023 * +EC2.1.1.339 resveratrol humulus lupulus//*//* 0.019 * +EC2.1.1.339 s-adenosyl-l-methionine humulus lupulus//*//* 0.034 * +EC2.1.1.339 xanthohumol humulus lupulus//*//* 0.031 * +EC2.1.1.34 escherichia coli trnaile thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6e-06 * +EC2.1.1.34 escherichia coli trnamet thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5e-06 * +EC2.1.1.34 escherichia coli trnaphe thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1e-05 * +EC2.1.1.34 guanosine18 in yeast trnaphe mutant transcript thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 8.2e-05 * +EC2.1.1.34 guanosine18 in yeast trnaphe-aga mutant transcript thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0125 * +EC2.1.1.34 guanosine18 in yeast trnaphe-dg18 mutant transcript thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00082 * +EC2.1.1.34 guanosine18 in yeast trnaphe-gaa mutant transcript thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0002 * +EC2.1.1.34 guanosine18 in yeast trnaphe-gga mutant transcript thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.000245 * +EC2.1.1.34 guanosine18 in yeast trnaphe-gua mutant transcript thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0003 * +EC2.1.1.34 guanosine18 in yeast trnaphe thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00015 * +EC2.1.1.34 s-adenosyl-l-methionine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00047 * +EC2.1.1.34 yeast trnaphe thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5e-06 * +EC2.1.1.340 3-aminomethylindole hordeum vulgare subsp. vulgare//*//* 0.077 * +EC2.1.1.340 n-methyl-3-aminomethylindole hordeum vulgare subsp. vulgare//*//* 0.184 * +EC2.1.1.340 s-adenosyl-l-methionine hordeum vulgare subsp. vulgare//*//* 0.148 * +EC2.1.1.341 dicamba moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 9.0 * +EC2.1.1.341 tetrahydrofolate sphingomonas paucimobilis//*//* 0.72 * +EC2.1.1.341 vanillate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.085 * +EC2.1.1.341 vanillate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.078 * +EC2.1.1.341 vanillate sphingomonas paucimobilis//*//* 0.63 * +EC2.1.1.35 11mer of the t-arm of e. coli trna1val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0037 * +EC2.1.1.35 17mer of the t-arm of e. coli trna1val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC2.1.1.35 dna analog of the t-stem/loop domain of yeast trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0145 * +EC2.1.1.35 methyl deficient trna from e. coli escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC2.1.1.35 methyl deficient trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC2.1.1.35 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.1.1.35 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.006 * +EC2.1.1.35 unmodified e. coli trna1val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC2.1.1.35 unmodified t-stem/loop domain of yeast trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0057 * +EC2.1.1.35 unmodified yeast trnaphe tpsic-stem and loop heptadecamer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0156 * +EC2.1.1.35 uridine54 in trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8e-05 * +EC2.1.1.35 wheat germ trna1gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC2.1.1.35 yeast trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00037 * +EC2.1.1.38 o-demethylpuromycin streptomyces alboniger//*//* 0.21 * +EC2.1.1.38 s-adenosyl-l-methionine streptomyces alboniger//*//* 0.01 * +EC2.1.1.39 myo-inositol vinca minor//*//* 2.5 * +EC2.1.1.39 s-adenosyl-l-methionine vinca minor//*//* 0.8 * +EC2.1.1.4 n-acetylserotonin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.233 * +EC2.1.1.4 n-acetylserotonin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0291 * +EC2.1.1.4 n-acetylserotonin oncorhynchus tshawytscha//*//* 0.005 * +EC2.1.1.4 n-acetylserotonin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.243 * +EC2.1.1.4 n-acetylserotonin ovibos moschatus//*//* 0.015 * +EC2.1.1.4 n-acetylserotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.1.1.4 s-adenosyl-l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00856 * +EC2.1.1.4 s-adenosyl-l-methionine oncorhynchus tshawytscha//*//* 0.11 * +EC2.1.1.4 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.1.1.4 serotonin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.036 * +EC2.1.1.40 myo-inositol pisum sativum//*//* 2.3 * +EC2.1.1.40 s-adenosyl-l-methionine pisum sativum//*//* 2.5 * +EC2.1.1.41 14alpha-methylzymosterol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.033 * +EC2.1.1.41 24(28)-methylene lophenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.03 * +EC2.1.1.41 24,25-dehydropollinastanol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.043 * +EC2.1.1.41 26,27-dehydrolanosterol paracoccidioides brasiliensis//eukaryotes;fungi;ascomycetes;eurotiomycetes//pbn 0.019 * +EC2.1.1.41 26,27-dehydrozymosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC2.1.1.41 26-difluorocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.044 * +EC2.1.1.41 26-fluorocycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.036 * +EC2.1.1.41 31-norcycloartenol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.036 * +EC2.1.1.41 31-norlanosterol paracoccidioides brasiliensis//eukaryotes;fungi;ascomycetes;eurotiomycetes//pbn 0.035 * +EC2.1.1.41 agnosterol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.13 * +EC2.1.1.41 cholesta-5,7,24-trienol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.125 * +EC2.1.1.41 cycloartenol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.03 * +EC2.1.1.41 cycloartenol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.032 * +EC2.1.1.41 cycloartenol prototheca wickerhamii//*//* 0.028 * +EC2.1.1.41 desmosterol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.281 * +EC2.1.1.41 desmosterol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.236 * +EC2.1.1.41 desmosterol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.067 * +EC2.1.1.41 lanosterol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.028 * +EC2.1.1.41 lanosterol paracoccidioides brasiliensis//eukaryotes;fungi;ascomycetes;eurotiomycetes//pbn 0.038 * +EC2.1.1.41 s-adenosyl-l-methionine uromyces phaseoli//*//* 0.0334 * +EC2.1.1.41 zymosterol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.05 * +EC2.1.1.41 zymosterol candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.052 * +EC2.1.1.41 zymosterol helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.063 * +EC2.1.1.41 zymosterol paracoccidioides brasiliensis//eukaryotes;fungi;ascomycetes;eurotiomycetes//pbn 0.03 * +EC2.1.1.41 zymosterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.063 * +EC2.1.1.41 zymosterol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.047 * +EC2.1.1.41 zymosterol uromyces phaseoli//*//* 0.055 * +EC2.1.1.42 2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-2,3-dihydro-4h-chromen-4-one petroselinum crispum//*//* 1.2 * +EC2.1.1.42 3,3',4',5,5',7-hexahydroxyflavone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00338 * +EC2.1.1.42 3,3',4',5,7-pentahydroxyflavone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00176 * +EC2.1.1.42 5,7,3',4'-tetrahydroxyflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.075 * +EC2.1.1.42 5,7,3',4'-tetrahydroxyflavone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.016 * +EC2.1.1.42 5,7,3',4'-tetrahydroxyflavone hordeum vulgare//*//* 0.00618 * +EC2.1.1.42 5,7,3',4'-tetrahydroxyflavone zea mays//eukaryotes;plants;monocots;grass family//zma 0.0159 * +EC2.1.1.42 5,7,3'-trihydroxyflavone 7-o-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.028 * +EC2.1.1.42 5,7,3'-trihydroxyflavone 7-o-glucoside petroselinum crispum//*//* 0.031 * +EC2.1.1.42 5,7,3'-trihydroxyflavone petroselinum crispum//*//* 0.046 * +EC2.1.1.42 5-hydroxy-3-methoxy-4-hydroxycinnamic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.227 * +EC2.1.1.42 6,7-dihydroxy-3'-methoxyisoflavone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.035 * +EC2.1.1.42 dihydroquercetin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.435 * +EC2.1.1.42 luteolin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.09 * +EC2.1.1.42 quercetin petroselinum crispum//*//* 0.035 * +EC2.1.1.42 s-adenosyl-l-methionine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.011 * +EC2.1.1.42 s-adenosyl-l-methionine petroselinum crispum//*//* 0.15 * +EC2.1.1.43 biotinyl-martkqtarkstggkaprkq neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0074 * +EC2.1.1.43 chicken nucleosome homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC2.1.1.43 histone h1 euglena gracilis//*//* 0.00031 * +EC2.1.1.43 histone h3 (1-13) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0011 * +EC2.1.1.43 histone h3 (t11phos) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0006 * +EC2.1.1.43 histone h3(k27) paramecium bursaria chlorella virus 1//*//* 0.2762 * +EC2.1.1.43 histone h3(peptide 21-44) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.1.1.43 histone h3 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0009 * +EC2.1.1.43 histone k4-acetylk9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0022 * +EC2.1.1.43 histone k4-trimethylk9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0006 * +EC2.1.1.43 histone k4ak9 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0015 * +EC2.1.1.43 recombinant nucleosome homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC2.1.1.43 s-adenosyl-l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC2.1.1.43 s-adenosyl-l-methionine euglena gracilis//*//* 0.027 * +EC2.1.1.43 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC2.1.1.43 s-adenosyl-l-methionine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0012 * +EC2.1.1.43 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0017 * +EC2.1.1.45 (+-)5,10-methylene-5,6,7,8-tetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC2.1.1.45 (+-)methylenetetrahydrofolate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.012 * +EC2.1.1.45 (-)-5,10-methylene-tetrahydropteroylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC2.1.1.45 (6s)-tetrahydropteroylglutamate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.061 * +EC2.1.1.45 (l)-tetrahydropteroyltriglutamate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.025 * +EC2.1.1.45 (r)-5,10-methylene-5,6,7,8-tetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.1.1.45 2'-deoxyuridine 5'-monophosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0015 * +EC2.1.1.45 2'-deoxyuridylate 5'-dithiophosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0137 * +EC2.1.1.45 2'-deoxyuridylate 5'-dithiophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0155 * +EC2.1.1.45 2'-deoxyuridylate 5'-thiophosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00632 * +EC2.1.1.45 2'-deoxyuridylate 5'-thiophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC2.1.1.45 2'-deoxyuridylate angiostrongylus cantonensis//*//* 0.01 * +EC2.1.1.45 2'-deoxyuridylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC2.1.1.45 2'-deoxyuridylate crithidia fasciculata//*//* 0.0033 * +EC2.1.1.45 2'-deoxyuridylate cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0026 * +EC2.1.1.45 2'-deoxyuridylate enterobacteria phage t2//*//* 0.018 * +EC2.1.1.45 2'-deoxyuridylate enterobacteria phage t6//*//* 0.03 * +EC2.1.1.45 2'-deoxyuridylate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.0057 * +EC2.1.1.45 2'-deoxyuridylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC2.1.1.45 2'-deoxyuridylate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0075 * +EC2.1.1.45 2'-deoxyuridylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.1.1.45 2'-deoxyuridylate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.00378 * +EC2.1.1.45 2'-deoxyuridylate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.005 * +EC2.1.1.45 2'-deoxyuridylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00315 * +EC2.1.1.45 2'-deoxyuridylate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.0714 * +EC2.1.1.45 2'-deoxyuridylate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0013 * +EC2.1.1.45 2'-deoxyuridylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00365 * +EC2.1.1.45 2'-deoxyuridylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC2.1.1.45 2'-deoxyuridylate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0308 * +EC2.1.1.45 2'-fluoro-2'-deoxyuridine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.1.1.45 5,10-formyltetrahydropteroylheptaglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00068 * +EC2.1.1.45 5,10-methenyltetrahydropteroylpentaglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00074 * +EC2.1.1.45 5,10-methylenetetrahydrofolate angiostrongylus cantonensis//*//* 0.185 * +EC2.1.1.45 5,10-methylenetetrahydrofolate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.039 * +EC2.1.1.45 5,10-methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.1.1.45 5,10-methylenetetrahydrofolate litopenaeus vannamei//*//* 0.0135 * +EC2.1.1.45 5,10-methylenetetrahydrofolate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC2.1.1.45 5,10-methylenetetrahydrofolate shrimp white spot syndrome virus//*//* 0.0134 * +EC2.1.1.45 5,10-methylenetetrahydropteroylglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC2.1.1.45 5,10-methylenetetrahydropteroylpentaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC2.1.1.45 5-bromo-2'-deoxyuridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0097 * +EC2.1.1.45 5-bromo-2'-deoxyuridylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0057 * +EC2.1.1.45 5-bromo-2'-deoxyuridylate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0057 * +EC2.1.1.45 [6r]methylenetetrahydropteroyldiglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC2.1.1.45 [6r]methylenetetrahydropteroylglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC2.1.1.45 [6r]methylenetetrahydropteroylheptaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC2.1.1.45 [6r]methylenetetrahydropteroylhexaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC2.1.1.45 [6r]methylenetetrahydropteroylpentaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0083 * +EC2.1.1.45 [6r]methylenetetrahydropteroyltetraglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC2.1.1.45 [6r]methylenetetrahydropteroyltriglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC2.1.1.45 deoxyuridine phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC2.1.1.45 dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC2.1.1.45 dump litopenaeus vannamei//*//* 0.0021 * +EC2.1.1.45 dump mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.004 * +EC2.1.1.45 dump shrimp white spot syndrome virus//*//* 0.0012 * +EC2.1.1.45 l-5,10-methylenetetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC2.1.1.45 l-5,10-methylenetetrahydrofolate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.266 * +EC2.1.1.45 l-tetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC2.1.1.45 methylenetetrahydrofolate cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0382 * +EC2.1.1.45 methylenetetrahydrofolate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.016 * +EC2.1.1.45 methylenetetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0081 * +EC2.1.1.45 methylenetetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.1.1.45 methylenetetrahydrofolate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.01 * +EC2.1.1.45 methylenetetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0253 * +EC2.1.1.45 methylenetetrahydrofolate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.3125 * +EC2.1.1.45 methylenetetrahydrofolate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.03 * +EC2.1.1.45 methylenetetrahydropteroylgluamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC2.1.1.45 n5,n10-methylenetetrahydrofolate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.0211 * +EC2.1.1.45 nadph kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.0389 * +EC2.1.1.45 tetrahydropteroylglutamate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.077 * +EC2.1.1.46 7,4'-dihydroxyisoflavone cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.08 * +EC2.1.1.46 s-adenosyl-l-methionine cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.16 * +EC2.1.1.47 indolepyruvate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0048 * +EC2.1.1.47 s-adenosyl-l-methionine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.013 * +EC2.1.1.49 7,8-dichloro-1,2,3,4-tetrahydroisoquinoline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC2.1.1.49 aniline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 7.6 * +EC2.1.1.49 beta-phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.25 * +EC2.1.1.49 desmethylimipramine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.24 * +EC2.1.1.49 imidazole oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.1.1.49 pyrazole oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.5 * +EC2.1.1.49 s-adenosyl-l-methionine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.015 * +EC2.1.1.49 tryptamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC2.1.1.49 tryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC2.1.1.5 betaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0227 * +EC2.1.1.5 betaine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.039 * +EC2.1.1.5 betaine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.023 * +EC2.1.1.5 dimethylacetothetin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.155 * +EC2.1.1.5 dl-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.1.1.5 glycinebetaine aphanothece halophytica//*//* 4.3 * +EC2.1.1.5 l-asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC2.1.1.5 l-homocysteine aphanothece halophytica//*//* 1.3 * +EC2.1.1.5 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.1.1.5 l-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.1.1.5 l-homocysteine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.032 * +EC2.1.1.5 s-methyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC2.1.1.5 s-methyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.76 * +EC2.1.1.50 loganic acid catharanthus roseus//*//* 12.5 * +EC2.1.1.50 s-adenosyl-l-methionine catharanthus roseus//*//* 742.1 * +EC2.1.1.53 putrescine calystegia sepium//*//* 0.12 * +EC2.1.1.53 putrescine datura stramonium//*//* 0.0758 * +EC2.1.1.53 putrescine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.4 * +EC2.1.1.53 putrescine solanum dulcamara//*//* 0.169 * +EC2.1.1.53 putrescine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.113 * +EC2.1.1.53 putrescine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.242 * +EC2.1.1.53 s-adenosyl-l-methionine datura stramonium//*//* 0.013 * +EC2.1.1.53 s-adenosyl-l-methionine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.11 * +EC2.1.1.54 dcmp xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 0.0313 * +EC2.1.1.54 tetrahydrofolic acid xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 0.0714 * +EC2.1.1.56 g(5')pppg vaccinia virus//*//* 0.085 * +EC2.1.1.56 g(5')pppr-rna dengue virus//*//* 1.8 * +EC2.1.1.56 g(5')pppr-rna vaccinia virus//*//* 0.023 * +EC2.1.1.56 gdp encephalitozoon cuniculi//eukaryotes;fungi;microsporidians//ecu 2.4 * +EC2.1.1.56 gpppa encephalitozoon cuniculi//eukaryotes;fungi;microsporidians//ecu 0.1 * +EC2.1.1.56 gpppa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.24 * +EC2.1.1.56 gtp encephalitozoon cuniculi//eukaryotes;fungi;microsporidians//ecu 1.0 * +EC2.1.1.56 gtp vaccinia virus//*//* 0.033 * +EC2.1.1.56 s-adenosyl-l-methionine dengue virus//*//* 0.18 * +EC2.1.1.56 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.002 * +EC2.1.1.56 s-adenosyl-l-methionine vaccinia virus//*//* 0.003 * +EC2.1.1.57 7me-gpppa-c5 dengue virus//*//* 0.000394 * +EC2.1.1.57 brome mosaic virus rna vaccinia virus//*//* 5e-06 * +EC2.1.1.57 g(5')pppa-poly(a) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4e-06 * +EC2.1.1.57 m7g(5')pppa-poly(a) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6e-06 * +EC2.1.1.57 m7g(5')pppg-rna dengue virus//*//* 1.8 * +EC2.1.1.57 rna chain length 2-6 nt vaccinia virus//*//* 0.00016 * +EC2.1.1.57 rna chain length 20-50 nt vaccinia virus//*//* 5e-06 * +EC2.1.1.57 s-adenosyl-l-methionine dengue virus//*//* 0.00326 * +EC2.1.1.57 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC2.1.1.57 s-adenosyl-l-methionine vaccinia virus//*//* 0.002 * +EC2.1.1.59 apocytochrome c triticum aestivum//*//* 0.000121 * +EC2.1.1.59 cnbr peptide neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.007 * +EC2.1.1.59 cytochrome c neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.03 * +EC2.1.1.59 cytochrome c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.33 * +EC2.1.1.59 s-adenosyl-l-methionine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0095 * +EC2.1.1.59 s-adenosyl-l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC2.1.1.6 (-)-epicatechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC2.1.1.6 (-)-epigallocatechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC2.1.1.6 (r)-1,2-dihydroxy-4-[2-(methylamino)butyl]benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.1.1.6 (r)-3,4-dihydroxymethamphetamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.1.1.6 (r)-n-ethyl-3,4-dihydroxyamphetamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.1.1.6 (s)-1,2-dihydroxy-4-[2-(methylamino)butyl]benzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.1.1.6 (s)-3,4-dihydroxymethamphetamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.1.1.6 (s)-n-ethyl-3,4-dihydroxyamphetamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.1.1.6 2-hydroxyestradiol-17beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.1.1.6 2-hydroxyestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00032 * +EC2.1.1.6 2-hydroxyestradiol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00015 * +EC2.1.1.6 2-hydroxyestradiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000148 * +EC2.1.1.6 3,4-dihydroxyphenylacetic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.64 * +EC2.1.1.6 4-hydroxyequilenin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.1.1.6 4-hydroxyestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC2.1.1.6 6,7-dihydroxycoumarin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.5 * +EC2.1.1.6 adrenaline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC2.1.1.6 aesculetin sus scrofa domesticus//*//* 0.0064 * +EC2.1.1.6 catechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC2.1.1.6 catechol neotoma albigula//*//* 0.1 * +EC2.1.1.6 catechol neotoma stephensi//*//* 0.145 * +EC2.1.1.6 catechol solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00836 * +EC2.1.1.6 catecholestradiol clarias gariepinus//*//* 0.0006 * +EC2.1.1.6 catecholestrone clarias gariepinus//*//* 0.0012 * +EC2.1.1.6 dobutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.1.1.6 dopamine clarias gariepinus//*//* 0.0005 * +EC2.1.1.6 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC2.1.1.6 epicatechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC2.1.1.6 epigallocatechin gallate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.1.1.6 epigallocatechin gallate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0048 * +EC2.1.1.6 epigallocatechin gallate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00017 * +EC2.1.1.6 epigallocatechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0117 * +EC2.1.1.6 epigallocatechin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0117 * +EC2.1.1.6 epigallocatechin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0081 * +EC2.1.1.6 epinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0288 * +EC2.1.1.6 epinephrine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC2.1.1.6 epinephrine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC2.1.1.6 esculetin candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0062 * +EC2.1.1.6 fisetin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.1.1.6 isoproterenol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00091 * +EC2.1.1.6 norepinephrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0306 * +EC2.1.1.6 norepinephrine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0055 * +EC2.1.1.6 p-nitrocatechol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC2.1.1.6 quercetin cricetinae//*//* 0.0069 * +EC2.1.1.6 quercetin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.1.1.6 quercetin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0061 * +EC2.1.1.6 r-salsolinol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.043 * +EC2.1.1.6 s-adenosyl-l-methionine candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0031 * +EC2.1.1.6 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.1.1.6 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00501 * +EC2.1.1.6 s-adenosyl-l-methionine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.6 * +EC2.1.1.6 s-adenosyl-l-methionine sus scrofa domesticus//*//* 0.0035 * +EC2.1.1.6 s-adenosyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.056 * +EC2.1.1.6 salvianolic acid b rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0113 * +EC2.1.1.60 calmodulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1e-05 * +EC2.1.1.60 mushroom demethylcalmodulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00023 * +EC2.1.1.60 octopus calmodulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-05 * +EC2.1.1.60 s-adenosyl-l-methionine paramecium tetraurelia//eukaryotes;protists;alveolates;ciliates//ptm 0.001 * +EC2.1.1.60 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC2.1.1.60 vu-1 calmodulin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 5e-05 * +EC2.1.1.63 dna (containing 6-o-methylguanine) sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00077 * +EC2.1.1.63 snap-vista green sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.01 * +EC2.1.1.64 3-demethylubiquinol-9 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6e-05 * +EC2.1.1.64 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC2.1.1.65 licodione glycyrrhiza echinata//*//* 0.011 * +EC2.1.1.65 s-adenosyl-l-methionine glycyrrhiza echinata//*//* 0.0028 * +EC2.1.1.67 2-mercaptoethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 168.0 * +EC2.1.1.67 2-thiouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.1.1.67 2-thiouracil mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.7 * +EC2.1.1.67 6-hydroxy-8-mercaptopurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.138 * +EC2.1.1.67 6-mercaptopurine-riboside-5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.27 * +EC2.1.1.67 6-mercaptopurine-riboside-5'-triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.89 * +EC2.1.1.67 6-mercaptopurine-riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.17 * +EC2.1.1.67 6-mercaptopurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00068 * +EC2.1.1.67 6-mercaptopurine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00035 * +EC2.1.1.67 6-selenoguanine-riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.139 * +EC2.1.1.67 6-selenopurine-riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0518 * +EC2.1.1.67 6-selenopurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0291 * +EC2.1.1.67 6-thioguanine-riboside-5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.04 * +EC2.1.1.67 6-thioguanine-riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.761 * +EC2.1.1.67 6-thioguanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0152 * +EC2.1.1.67 6-thiopurine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC2.1.1.67 7-methyl-6-mercaptourine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.231 * +EC2.1.1.67 8-hydroxy-6-mercaptopurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0961 * +EC2.1.1.67 9-(n-butyl)6-mercaptopurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.292 * +EC2.1.1.67 9-(n-propyl)-6-thioguanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.159 * +EC2.1.1.67 9-ethyl-6-mercaptopurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.372 * +EC2.1.1.67 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.1.1.67 s-adenosyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0056 * +EC2.1.1.68 3,4,5-trihydroxycinnamic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.1 * +EC2.1.1.68 3,4-dihydroxy-5-methoxy-benzaldehyde medicago sativa//*//* 0.016 * +EC2.1.1.68 3,4-dihydroxy-trans-cinnamate leucaena leucocephala//*//* 0.22 * +EC2.1.1.68 3,4-dihydroxy-trans-cinnamate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.01013 * +EC2.1.1.68 3,4-dihydroxy-trans-cinnamate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.012 * +EC2.1.1.68 3,4-dihydroxy-trans-cinnamate triticum aestivum//*//* 0.06875 * +EC2.1.1.68 3,4-dihydroxybenzaldehyde vanilla planifolia//*//* 0.255 * +EC2.1.1.68 5-hydroxyconiferaldehyde festuca arundinacea//*//* 0.0185 * +EC2.1.1.68 5-hydroxyconiferaldehyde medicago sativa//*//* 0.005 * +EC2.1.1.68 5-hydroxyconiferaldehyde sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.00086 * +EC2.1.1.68 5-hydroxyconiferaldehyde triticum aestivum//*//* 0.01731 * +EC2.1.1.68 5-hydroxyconiferaldehyde vanilla planifolia//*//* 0.041 * +EC2.1.1.68 5-hydroxyconiferyl alcohol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0316 * +EC2.1.1.68 5-hydroxyconiferyl alcohol festuca arundinacea//*//* 0.068 * +EC2.1.1.68 5-hydroxyconiferyl alcohol medicago sativa//*//* 0.0075 * +EC2.1.1.68 5-hydroxyconiferyl alcohol triticum aestivum//*//* 0.1002 * +EC2.1.1.68 5-hydroxyconiferyl aldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0179 * +EC2.1.1.68 5-hydroxyferulic acid ethyl ester vanilla planifolia//*//* 0.021 * +EC2.1.1.68 5-hydroxyferulic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.032 * +EC2.1.1.68 5-hydroxyferulic acid bambusa sp.//*//* 0.01 * +EC2.1.1.68 5-hydroxyferulic acid festuca arundinacea//*//* 0.0109 * +EC2.1.1.68 5-hydroxyferulic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.055 * +EC2.1.1.68 5-hydroxyferulic acid medicago sativa//*//* 0.01 * +EC2.1.1.68 5-hydroxyferulic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.065 * +EC2.1.1.68 5-hydroxyferulic acid trigonella foenum-graecum//*//* 0.016 * +EC2.1.1.68 5-hydroxyferulic acid vanilla planifolia//*//* 0.091 * +EC2.1.1.68 caffeic acid ethyl ester vanilla planifolia//*//* 0.023 * +EC2.1.1.68 caffeic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0242 * +EC2.1.1.68 caffeic acid bambusa sp.//*//* 0.05 * +EC2.1.1.68 caffeic acid beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.068 * +EC2.1.1.68 caffeic acid festuca arundinacea//*//* 0.0497 * +EC2.1.1.68 caffeic acid glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.133 * +EC2.1.1.68 caffeic acid medicago sativa//*//* 0.043 * +EC2.1.1.68 caffeic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.1 * +EC2.1.1.68 caffeic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.069 * +EC2.1.1.68 caffeic acid trigonella foenum-graecum//*//* 0.026 * +EC2.1.1.68 caffeic acid vanilla planifolia//*//* 0.25 * +EC2.1.1.68 caffeoyl alcohol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0515 * +EC2.1.1.68 caffeoyl alcohol festuca arundinacea//*//* 0.027 * +EC2.1.1.68 caffeoyl alcohol medicago sativa//*//* 0.013 * +EC2.1.1.68 caffeoyl alcohol triticum aestivum//*//* 0.08403 * +EC2.1.1.68 caffeoyl aldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0197 * +EC2.1.1.68 caffeoyl aldehyde festuca arundinacea//*//* 0.0148 * +EC2.1.1.68 caffeoyl aldehyde medicago sativa//*//* 0.01 * +EC2.1.1.68 caffeoyl aldehyde triticum aestivum//*//* 0.04372 * +EC2.1.1.68 caffeoyl aldehyde vanilla planifolia//*//* 0.032 * +EC2.1.1.68 catechol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.0 * +EC2.1.1.68 chlorogenic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.5 * +EC2.1.1.68 esculetin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.03 * +EC2.1.1.68 homocatechol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.04 * +EC2.1.1.68 hydrocaffeic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.23 * +EC2.1.1.68 methyl gallate vanilla planifolia//*//* 0.96 * +EC2.1.1.68 myricetin vanilla planifolia//*//* 0.114 * +EC2.1.1.68 protocatechuic acid medicago sativa//*//* 0.515 * +EC2.1.1.68 protocatechuic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.5 * +EC2.1.1.68 protocatechuic aldehyde glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC2.1.1.68 protocatechuic aldehyde medicago sativa//*//* 0.005 * +EC2.1.1.68 protocatechuic aldehyde nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.7 * +EC2.1.1.68 quercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0237 * +EC2.1.1.68 s-adenosyl-l-methionine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.013 * +EC2.1.1.68 s-adenosyl-l-methionine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.015 * +EC2.1.1.68 s-adenosyl-l-methionine leucaena leucocephala//*//* 0.0021 * +EC2.1.1.68 s-adenosyl-l-methionine medicago sativa//*//* 0.0041 * +EC2.1.1.68 s-adenosyl-l-methionine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0045 * +EC2.1.1.68 s-adenosyl-l-methionine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.051 * +EC2.1.1.68 s-adenosyl-l-methionine sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.017 * +EC2.1.1.69 5-hydroxyxanthotoxin petroselinum crispum//*//* 0.001 * +EC2.1.1.69 bergaptol ammi majus//*//* 0.0028 * +EC2.1.1.69 bergaptol petroselinum crispum//*//* 0.004 * +EC2.1.1.69 s-adenosyl-l-methionine ammi majus//*//* 0.0065 * +EC2.1.1.69 s-adenosyl-l-methionine petroselinum crispum//*//* 0.0031 * +EC2.1.1.7 nicotinate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0125 * +EC2.1.1.7 nicotinate pisum sativum//*//* 0.4 * +EC2.1.1.7 s-adenosyl-l-methionine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.031 * +EC2.1.1.7 s-adenosyl-l-methionine lemna paucicostata//*//* 0.055 * +EC2.1.1.70 s-adenosyl-l-methionine petroselinum crispum//*//* 0.0044 * +EC2.1.1.70 xanthotoxol petroselinum crispum//*//* 0.0098 * +EC2.1.1.71 phosphatidyl-n-dimethylethanolamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.059 * +EC2.1.1.71 phosphatidyl-n-monomethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC2.1.1.71 phosphatidyl-n-monomethylethanolamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.054 * +EC2.1.1.71 s-adenosyl-l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC2.1.1.71 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC2.1.1.72 dna adenine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 9.1e-05 * +EC2.1.1.72 dna adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6e-06 * +EC2.1.1.72 dna adenine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00015 * +EC2.1.1.72 dna adenine klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 9e-05 * +EC2.1.1.72 dna adenine moraxella bovis//*//* 9e-05 * +EC2.1.1.72 dna adenine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1e-14 * +EC2.1.1.72 dna adenine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 9e-05 * +EC2.1.1.72 dna adenine thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.0006 * +EC2.1.1.72 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7e-05 * +EC2.1.1.72 s-adenosyl-l-methionine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0018 * +EC2.1.1.72 s-adenosyl-l-methionine enterobacteria phage t2//*//* 0.0001 * +EC2.1.1.72 s-adenosyl-l-methionine enterobacteria phage t4//*//* 0.0001 * +EC2.1.1.72 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0056 * +EC2.1.1.72 s-adenosyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0058 * +EC2.1.1.72 s-adenosyl-l-methionine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0027 * +EC2.1.1.72 s-adenosyl-l-methionine thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.0037 * +EC2.1.1.72 t4 gt- dam- dna enterobacteria phage t2//*//* 1.1e-09 * +EC2.1.1.72 t4 gt- dam- dna enterobacteria phage t4//*//* 1.1e-09 * +EC2.1.1.72 t7 dna adenine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 9.8e-06 * +EC2.1.1.74 5,10-methylenetetrahydrofolate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.5 * +EC2.1.1.74 trnaphe containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0011 * +EC2.1.1.74 trnaphe mutant a58g containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0022 * +EC2.1.1.74 trnaphe mutant a58u containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0013 * +EC2.1.1.74 trnaphe mutant g57a containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0021 * +EC2.1.1.74 trnaphe nucleotides 18-76 containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0045 * +EC2.1.1.74 trnaphe nucleotides 44-76 containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0026 * +EC2.1.1.74 trnaphe with deletions of aminoacyl stem and d-arm containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0019 * +EC2.1.1.74 trnaphe with deletions of aminoacyl stem containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0013 * +EC2.1.1.74 trnaphe with deletions of anticodon arm containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0012 * +EC2.1.1.74 trnaphe with deletions of d-arm containing uridine at position 54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0015 * +EC2.1.1.75 apigenin robinia pseudoacacia//*//* 0.05 * +EC2.1.1.75 s-adenosyl-l-methionine robinia pseudoacacia//*//* 0.031 * +EC2.1.1.76 3'-o-methylmyricetin solanum habrochaites//*//* 0.00207 * +EC2.1.1.76 7-o-methylmyricetin solanum habrochaites//*//* 0.00998 * +EC2.1.1.76 kaempferol serratula tinctoria//*//* 0.013 * +EC2.1.1.76 myricetin serratula tinctoria//*//* 0.007 * +EC2.1.1.76 myricetin solanum habrochaites//*//* 0.00055 * +EC2.1.1.76 quercetin chrysosplenium americanum//*//* 0.0014 * +EC2.1.1.76 quercetin serratula tinctoria//*//* 0.012 * +EC2.1.1.76 s-adenosyl-l-methionine chrysosplenium americanum//*//* 0.07 * +EC2.1.1.76 s-adenosyl-l-methionine serratula tinctoria//*//* 0.045 * +EC2.1.1.76 s-adenosyl-l-methionine solanum habrochaites//*//* 0.01086 * +EC2.1.1.77 7-nitro-2,1,3-benzoxadiazole-delta sleep-inducing peptide -l-isoaspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.1.1.77 7-nitro-2,1,3-benzoxadiazole-labeled delta sleep-inducing peptide l-isoaspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.1.1.77 beta-101-lysozyme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.183 * +EC2.1.1.77 delta sleep inducing peptide l-isoaspartate cyberlindnera jadinii//*//* 0.03336 * +EC2.1.1.77 gfdl-isod-gggvg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0035 * +EC2.1.1.77 histidine phosphocarrier protein-1 (isoasp-38) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00358 * +EC2.1.1.77 hpr-2 (isoasp-12,-38) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.197 * +EC2.1.1.77 isoacth bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.013 * +EC2.1.1.77 isoaspdsip rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0164 * +EC2.1.1.77 kasa (d-asp) laky homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC2.1.1.77 kasa (d-asp) laky pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.023 * +EC2.1.1.77 kasa (isoasp) laky caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.00912 * +EC2.1.1.77 kasa (isoasp) laky escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0506 * +EC2.1.1.77 kasa (isoasp) laky homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00052 * +EC2.1.1.77 kasa (isoasp) laky pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.00026 * +EC2.1.1.77 kasa (isoasp) laky thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0028 * +EC2.1.1.77 kasa (isoasp) laky triticum aestivum//*//* 0.0127 * +EC2.1.1.77 kasa (isod) laky bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00088 * +EC2.1.1.77 kasa (isod) laky caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.00912 * +EC2.1.1.77 kasa (isod) laky escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0506 * +EC2.1.1.77 kasa (isod) laky homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC2.1.1.77 kasa (isod) laky thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0028 * +EC2.1.1.77 kasa (isod) laky triticum aestivum//*//* 0.0127 * +EC2.1.1.77 kasa(iso-d)laky drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0145 * +EC2.1.1.77 kasa-l-isoasp-laky arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC2.1.1.77 kasa-l-isoasp-laky zea mays//eukaryotes;plants;monocots;grass family//zma 0.092 * +EC2.1.1.77 kqvv-isod-sayevik bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00055 * +EC2.1.1.77 kvtck-isod-gqtncyqsk bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00617 * +EC2.1.1.77 l-val-l-tyr-l-pro-(l-iso-asp)-l-his-l-ala cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.25 * +EC2.1.1.77 lsh-isod-gy-cya-l homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC2.1.1.77 lsh-isod-gycl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC2.1.1.77 n-succinyl-aavap-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC2.1.1.77 n-succinyl-aavap-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.375 * +EC2.1.1.77 native lysozyme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.081 * +EC2.1.1.77 ovalbumin l-isoaspartate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.121 * +EC2.1.1.77 ovalbumin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.2 * +EC2.1.1.77 ovalbumin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0368 * +EC2.1.1.77 ovalbumin cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 1.26 * +EC2.1.1.77 ovalbumin daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 2.53 * +EC2.1.1.77 ovalbumin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.727 * +EC2.1.1.77 ovalbumin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.1.1.77 ovalbumin oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.03 * +EC2.1.1.77 ovalbumin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.00463 * +EC2.1.1.77 ovalbumin thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.326 * +EC2.1.1.77 ovalbumin triticum aestivum//*//* 2.32 * +EC2.1.1.77 ovalbumin zea mays//eukaryotes;plants;monocots;grass family//zma 2.66 * +EC2.1.1.77 plant rna helicase 75 l-isoaspartate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00051 * +EC2.1.1.77 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.006 * +EC2.1.1.77 s-adenosyl-l-methionine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0031 * +EC2.1.1.77 s-adenosyl-l-methionine cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.006 * +EC2.1.1.77 s-adenosyl-l-methionine cyberlindnera jadinii//*//* 0.0035 * +EC2.1.1.77 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.1.1.77 s-adenosyl-l-methionine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.00341 * +EC2.1.1.77 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00089 * +EC2.1.1.77 s-adenosyl-l-methionine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0019 * +EC2.1.1.77 synapsin i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC2.1.1.77 t1-isoasp-12 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0229 * +EC2.1.1.77 t4-isoasp-38 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.339 * +EC2.1.1.77 v2-isoasp-12 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0274 * +EC2.1.1.77 v4-isoasp-38 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0975 * +EC2.1.1.77 val-tyr-pro(l-iso-aspartate)-his-ala cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.208 * +EC2.1.1.77 vyp (isoasp) ha escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0118 * +EC2.1.1.77 vyp (isoasp) ha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00029 * +EC2.1.1.77 vyp (isoasp) ha thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0041 * +EC2.1.1.77 vyp (isod) ha caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0194 * +EC2.1.1.77 vyp (isod) ha escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0118 * +EC2.1.1.77 vyp (isod) ha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00029 * +EC2.1.1.77 vyp (isod) ha thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0041 * +EC2.1.1.77 vyp (isod) ha triticum aestivum//*//* 0.0217 * +EC2.1.1.77 vyp-isod-aa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00167 * +EC2.1.1.77 vyp-isod-ca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC2.1.1.77 vyp-isod-cya-g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC2.1.1.77 vyp-isod-da homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00295 * +EC2.1.1.77 vyp-isod-ga bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00425 * +EC2.1.1.77 vyp-isod-ga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC2.1.1.77 vyp-isod-sa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00304 * +EC2.1.1.77 vyp-l-isoasp-ga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0068 * +EC2.1.1.77 vyp-l-isoasp-ha arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.31 * +EC2.1.1.77 vyp-l-isoasp-ha daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.24 * +EC2.1.1.77 vyp-l-isoasp-ha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00029 * +EC2.1.1.77 vyp-l-isoasp-ha oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.33 * +EC2.1.1.77 vyp-l-isoasp-ha pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.00053 * +EC2.1.1.77 vyp-l-isoasp-ha triticum aestivum//*//* 0.0517 * +EC2.1.1.77 vyp-l-isoasp-ha zea mays//eukaryotes;plants;monocots;grass family//zma 0.043 * +EC2.1.1.77 vyp-l-isoaspartyl-ha cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.38 * +EC2.1.1.77 wm-isod-f-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.1.1.77 yvs-isoasp-ghg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0155 * +EC2.1.1.77 yvs-isod-g-cya-g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.104 * +EC2.1.1.77 yvs-isod-gcg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC2.1.1.77 yvs-isod-gdg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.469 * +EC2.1.1.78 caffeic acid silene latifolia subsp. alba//*//* 0.001 * +EC2.1.1.78 isoorientin 2''-o-rhamnoside silene latifolia subsp. alba//*//* 0.007 * +EC2.1.1.78 isoorientin silene latifolia subsp. alba//*//* 0.32 * +EC2.1.1.78 s-adenosyl-l-methionine silene latifolia subsp. alba//*//* 0.0012 * +EC2.1.1.79 phosphatidylethanolamine clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.53 * +EC2.1.1.79 s-adenosyl-l-methionine clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.057 * +EC2.1.1.79 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.1.1.79 s-adenosyl-l-methionine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 2.6 * +EC2.1.1.79 s-adenosylmethionine sterculia foetida//*//* 0.02 * +EC2.1.1.79 se-adenosyl-l-selenomethionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0564 * +EC2.1.1.79 te-adenosyl-l-telluromethionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.74 * +EC2.1.1.8 histamine cavia porcellus//*//* 0.014 * +EC2.1.1.8 histamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC2.1.1.8 histamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.026 * +EC2.1.1.8 histamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0061 * +EC2.1.1.8 s-adenosyl-l-methionine cavia porcellus//*//* 0.006 * +EC2.1.1.8 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.1.1.8 s-adenosyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0017 * +EC2.1.1.8 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0071 * +EC2.1.1.80 follicle-stimulating hormone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0077 * +EC2.1.1.80 gamma-globulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.046 * +EC2.1.1.80 histone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.1.1.80 pancreatic ribonuclease bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC2.1.1.80 s-adenosyl-l-methionine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.002 * +EC2.1.1.80 s-adenosyl-l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00087 * +EC2.1.1.80 s-adenosyl-l-methionine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.01 * +EC2.1.1.82 3',4',5,7-tetrahydroxy-3-methoxyflavone chrysosplenium americanum//*//* 0.007 * +EC2.1.1.82 kaempferol populus sp.//*//* 0.0324 * +EC2.1.1.82 quercetin populus sp.//*//* 0.0298 * +EC2.1.1.82 s-adenosyl-l-methionine chrysosplenium americanum//*//* 0.065 * +EC2.1.1.83 3,7-dimethylquercetin chrysosplenium americanum//*//* 0.015 * +EC2.1.1.83 s-adenosyl-l-methionine chrysosplenium americanum//*//* 0.13 * +EC2.1.1.84 3,7,3'-trimethylquercetagetin chrysosplenium americanum//*//* 0.018 * +EC2.1.1.84 s-adenosyl-l-methionine chrysosplenium americanum//*//* 0.051 * +EC2.1.1.86 (2-methylthio)ethanesulfonate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 3.7 * +EC2.1.1.86 5,6,7,8-tetrahydromethanopterin methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.88 * +EC2.1.1.86 5-methyl-5,6,7,8-tetrahydromethanopterin methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.135 * +EC2.1.1.86 coenzyme m methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.277 * +EC2.1.1.88 8-hydroxykaempferol lotus corniculatus//*//* 0.0013 * +EC2.1.1.88 s-adenosyl-l-methionine lotus corniculatus//*//* 0.053 * +EC2.1.1.9 1-methylimidazol-2-thiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.1.1.9 2,3-dimercaptopropanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC2.1.1.9 2-benzimidazole thiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.1.1.9 2-mercaptoethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.37 * +EC2.1.1.9 2-mercaptopropionic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.1.1.9 2-thioacetanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC2.1.1.9 3-mercaptopropionic acid methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC2.1.1.9 4-chlorothiophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00054 * +EC2.1.1.9 4-nitrothiophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC2.1.1.9 6-propyl-2-thiouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.1.1.9 benzene thiol catharanthus roseus//*//* 0.218 * +EC2.1.1.9 bisulfide raphanus sativus//*//* 12.24 * +EC2.1.1.9 bromide raphanus sativus//*//* 177.3 * +EC2.1.1.9 chloride raphanus sativus//*//* 1657.0 * +EC2.1.1.9 diethylthiocarbamoyl sulfide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.1.1.9 dihydroziprasidone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.1.1.9 furfuryl thiol catharanthus roseus//*//* 0.056 * +EC2.1.1.9 h2s rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.064 * +EC2.1.1.9 iodide raphanus sativus//*//* 4.47 * +EC2.1.1.9 l-cysteine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.1.1.9 methanethiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.1.1.9 n-acetyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.1.1.9 ncs- arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.099 * +EC2.1.1.9 pentachlorobenzenethiol euglena gracilis//*//* 0.082 * +EC2.1.1.9 phenyl sulfide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC2.1.1.9 s-3'-deoxyadenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.1.1.9 s-3-deazaadenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.224 * +EC2.1.1.9 s-8-azaadenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.719 * +EC2.1.1.9 s-adenosyl-l-methionine catharanthus roseus//*//* 0.096 * +EC2.1.1.9 s-adenosyl-l-methionine euglena gracilis//*//* 0.14 * +EC2.1.1.9 s-adenosyl-l-methionine physcomitrella patens//eukaryotes;plants;mosses//ppp 94.2 * +EC2.1.1.9 s-adenosyl-l-methionine raphanus sativus//*//* 0.19 * +EC2.1.1.9 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.106 * +EC2.1.1.9 s-aristeromycinyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.1.1.9 s-n6-methyladenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.017 * +EC2.1.1.9 s-tubercidinyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.154 * +EC2.1.1.9 scn- oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.145 * +EC2.1.1.9 scn- phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 7.9 * +EC2.1.1.9 sh- phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 9.9 * +EC2.1.1.9 thiobenzoic acid physcomitrella patens//eukaryotes;plants;mosses//ppp 83.2 * +EC2.1.1.9 thioglycolic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC2.1.1.90 methanol methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 40.0 * +EC2.1.1.91 2-methylbutyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.14 * +EC2.1.1.91 3-methylbutyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.16 * +EC2.1.1.91 isobutyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.24 * +EC2.1.1.91 methacrylaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.11 * +EC2.1.1.91 n-butyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.98 * +EC2.1.1.91 n-pentanaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.67 * +EC2.1.1.91 n-propionaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.54 * +EC2.1.1.91 s-adenosyl-l-methionine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.15 * +EC2.1.1.94 16-hydroxytabersonine catharanthus roseus//*//* 0.0026 * +EC2.1.1.94 s-adenosyl-l-methionine catharanthus roseus//*//* 0.0217 * +EC2.1.1.95 delta-tocopherol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC2.1.1.95 delta-tocopherol capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.003 * +EC2.1.1.95 delta-tocopherol chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0028 * +EC2.1.1.95 gamma-tocopherol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC2.1.1.95 gamma-tocopherol capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.003 * +EC2.1.1.95 gamma-tocopherol chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0018 * +EC2.1.1.95 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC2.1.1.95 s-adenosyl-l-methionine capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.002 * +EC2.1.1.95 s-adenosyl-l-methionine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.0087 * +EC2.1.1.95 s-adenosyl-l-methionine euglena gracilis//*//* 0.05 * +EC2.1.1.95 s-adenosyl-l-methionine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.009 * +EC2.1.1.96 dimethyl selenide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0004 * +EC2.1.1.96 dimethyl sulfide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC2.1.1.96 s-adenosylmethionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC2.1.1.97 3-hydroxyanthranilate streptomyces antibioticus//*//* 0.64 * +EC2.1.1.97 s-adenosyl-l-methionine streptomyces antibioticus//*//* 0.18 * +EC2.1.1.B112 [sul7d-chromatin-protein] l-lysine sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.00112 * +EC2.1.1.B114 oligoduplex 5'-ggacgcttcaccggatgtm6acaggcatgcgacgacccctag-3'/3'-cctgcgaagtggcctacatgtccgtacgctgctggggatc-5' pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.000159 * +EC2.1.1.B114 s-adenosyl-l-methionine pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.00128 * +EC2.1.1.B3 n-acetylneuraminic acid asterias rubens//*//* 0.299 * +EC2.1.1.B3 n-acetylneuraminyl alpha2,3-lactose asterias rubens//*//* 0.044 * +EC2.1.1.B3 s-adenosyl-l-methionine asterias rubens//*//* 0.0071 * +EC2.1.1.B74 5,7,4'-trihydroxyflavone hordeum vulgare//*//* 0.0046 * +EC2.1.1.B74 s-adenosyl-l-methionine hordeum vulgare//*//* 0.0109 * +EC2.1.1.B76 2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-4h-1-benzopyran-4-one populus sp.//*//* 0.0298 * +EC2.1.1.B76 3,4',5,7-tetrahydroxyflavanone populus sp.//*//* 0.0324 * +EC2.1.1.B83 cephaeline carapichea ipecacuanha//*//* 0.068 * +EC2.1.1.B83 s-adenosyl-l-methionine carapichea ipecacuanha//*//* 0.097 * +EC2.1.1.B84 7-o-methyl-n-deacetylisoipecoside carapichea ipecacuanha//*//* 0.105 * +EC2.1.1.B84 cephaeline carapichea ipecacuanha//*//* 0.08 * +EC2.1.1.B84 n-deacetylisoipecoside carapichea ipecacuanha//*//* 0.107 * +EC2.1.1.B84 s-adenosyl-l-homocysteine carapichea ipecacuanha//*//* 0.042 * +EC2.1.1.B93 8-amino-8-demethyl-d-riboflavin streptomyces davawensis//*//* 0.0577 * +EC2.1.1.B93 s-adenosyl-l-methionine streptomyces davawensis//*//* 0.0286 * +EC2.1.2.1 (6s)-tetrahydrofolate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.002 * +EC2.1.2.1 d-serine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.071 * +EC2.1.2.1 d-serine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 47.0 * +EC2.1.2.1 glycine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.68 * +EC2.1.2.1 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.1.2.1 l-ser methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.8 * +EC2.1.2.1 l-ser ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.0 * +EC2.1.2.1 l-serine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.22 * +EC2.1.2.1 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.1.2.1 l-serine euglena gracilis//*//* 0.15 * +EC2.1.2.1 l-serine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.7 * +EC2.1.2.1 l-serine glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.5 * +EC2.1.2.1 l-serine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.28 * +EC2.1.2.1 l-serine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.6 * +EC2.1.2.1 l-serine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.2 * +EC2.1.2.1 l-serine methanospirillum hungatei//prokaryotes;archaea;euryarchaeota;methanospirillum//mhu 0.31 * +EC2.1.2.1 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC2.1.2.1 l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC2.1.2.1 l-serine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.0 * +EC2.1.2.1 l-serine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.251 * +EC2.1.2.1 l-serine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.18 * +EC2.1.2.1 l-serine psychromonas ingrahamii//prokaryotes;bacteria;gammaproteobacteria - others;psychromonas//pin 0.4 * +EC2.1.2.1 l-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.1.2.1 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC2.1.2.1 l-serine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.15 * +EC2.1.2.1 l-serine vigna radiata//eukaryotes;plants;eudicots;pea family//vra 1.8 * +EC2.1.2.1 serine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.43 * +EC2.1.2.1 serine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.6 * +EC2.1.2.1 tetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00703 * +EC2.1.2.1 tetrahydrofolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.25 * +EC2.1.2.1 tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC2.1.2.1 tetrahydrofolate hyphomicrobium methylovorum//*//* 0.04 * +EC2.1.2.1 tetrahydrofolate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 2.4 * +EC2.1.2.1 tetrahydrofolate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.086 * +EC2.1.2.1 tetrahydrofolate methanospirillum hungatei//prokaryotes;archaea;euryarchaeota;methanospirillum//mhu 0.065 * +EC2.1.2.1 tetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC2.1.2.1 tetrahydrofolate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.9 * +EC2.1.2.1 tetrahydrofolate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.193 * +EC2.1.2.1 tetrahydrofolate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.14 * +EC2.1.2.1 tetrahydrofolate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.89 * +EC2.1.2.1 tetrahydromethanopterin methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.1 * +EC2.1.2.10 5,10-methylenetetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0677 * +EC2.1.2.10 5,10-methylenetetrahydropteroyltetraglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0092 * +EC2.1.2.10 nh4cl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 65.4 * +EC2.1.2.10 reduced h-protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00069 * +EC2.1.2.10 s-aminomethyldihydrolipoylprotein gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0037 * +EC2.1.2.10 tetrahydrofolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.17 * +EC2.1.2.11 2-oxobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC2.1.2.11 2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC2.1.2.11 3-methyl-2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.1.2.11 3-methyl-2-oxobutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.24 * +EC2.1.2.11 3-methyl-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.9 * +EC2.1.2.11 5,10-methylenetetrahydrofolate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.82 * +EC2.1.2.11 formaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.9 * +EC2.1.2.11 ketopantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.1.2.11 tetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.1.2.11 tetrahydropteroyldiglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC2.1.2.11 tetrahydropteroylheptaglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC2.1.2.11 tetrahydropteroylhexaglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC2.1.2.11 tetrahydropteroylmonoglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.1.2.11 tetrahydropteroylpentaglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.1.2.11 tetrahydropteroyltetraglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.1.2.11 tetrahydropteroyltriglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.1.2.2 (6r)-n10-formyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0775 * +EC2.1.2.2 10-formyl-5,8-dideazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0123 * +EC2.1.2.2 10-formyl-5,8-dideazafolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0019 * +EC2.1.2.2 10-formyl-5,8-dideazafolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC2.1.2.2 10-formyl-5,8-dideazafolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00025 * +EC2.1.2.2 5,8-dideazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC2.1.2.2 acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00368 * +EC2.1.2.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0774 * +EC2.1.2.2 beta-glycinamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC2.1.2.2 beta-glycinamide ribonucleotide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0101 * +EC2.1.2.2 beta-glycinamide ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC2.1.2.2 carbocyclic beta-glycinamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0465 * +EC2.1.2.2 carbocyclic beta-glycinamide ribonucleotide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0369 * +EC2.1.2.2 carbocyclic beta-glycinamide ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC2.1.2.2 carbocyclic glycinamide ribonucleotide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC2.1.2.2 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.319 * +EC2.1.2.2 formyl-beta-glycinamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.102 * +EC2.1.2.2 glycinamide ribonucleotide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC2.1.2.2 glycinamide ribotide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.052 * +EC2.1.2.2 l-(+)-5,10-methenyltetrahydrofolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00576 * +EC2.1.2.2 l-(-)-10-formyltetrahydrofolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00594 * +EC2.1.2.2 l-(-)-10-formyltetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0008 * +EC2.1.2.2 n-formylglycinamide ribotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC2.1.2.2 n10-formyl-5,8-dideazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0211 * +EC2.1.2.2 n10-formyl-5-deazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC2.1.2.2 n10-formyl-8-deazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.1.2.2 n10-formyldideazafolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0167 * +EC2.1.2.2 n10-formylfolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.1.2.2 n5,n10-anhydroformyl tetrahydrofolate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.058 * +EC2.1.2.3 (6r,6s)-10-formyltetrahydrofolic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0602 * +EC2.1.2.3 10-formyldihydrofolic acid pentaglutamate gallus sp.//*//* 0.00051 * +EC2.1.2.3 10-formyltetrahydrofolate gallus sp.//*//* 0.0076 * +EC2.1.2.3 10-formyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.1.2.3 10-formyltetrahydrofolate pisum sativum//*//* 0.2 * +EC2.1.2.3 5'-phosphoribosyl-5-amino-imidazolecarboxamide pisum sativum//*//* 0.031 * +EC2.1.2.3 5-amino-imidazole-4-thiocarboxamide ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC2.1.2.3 5-aminoimidazole-4-carboxamide ribonucleotide gallus sp.//*//* 0.0019 * +EC2.1.2.3 5-aminoimidazole-4-carboxamide ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.1.2.3 n10-formyltetrahydropteroylheptaglutamate gallus sp.//*//* 0.00183 * +EC2.1.2.3 n10-formyltetrahydropteroylhexaglutamate gallus sp.//*//* 0.00164 * +EC2.1.2.3 n10-formyltetrahydropteroylmonoglutamate gallus sp.//*//* 0.00165 * +EC2.1.2.3 n10-formyltetrahydropteroylpentaglutamate gallus sp.//*//* 0.00206 * +EC2.1.2.3 n10-formyltetrahydropteroyltetraglutamate gallus sp.//*//* 0.00099 * +EC2.1.2.3 n10-formyltetrahydropteroyltriglutamate gallus sp.//*//* 0.00595 * +EC2.1.2.3 tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.185 * +EC2.1.2.3 tetrahydrofolic acid gallus sp.//*//* 0.00023 * +EC2.1.2.5 (6r,s)-tetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.141 * +EC2.1.2.5 5-formimidoyltetrahydrofolate candidatus koribacter versatilis//prokaryotes;bacteria;acidobacteria;koribacter//aba 0.0018 * +EC2.1.2.5 5-formimidoyltetrahydrofolate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.0004 * +EC2.1.2.5 5-formimidoyltetrahydrofolate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0054 * +EC2.1.2.5 5-formimidoyltetrahydrofolate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0037 * +EC2.1.2.5 l-glutamate candidatus koribacter versatilis//prokaryotes;bacteria;acidobacteria;koribacter//aba 0.206 * +EC2.1.2.5 l-glutamate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.034 * +EC2.1.2.5 l-glutamate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.03 * +EC2.1.2.5 l-glutamate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.113 * +EC2.1.2.5 n-formimidoyl-l-glu-l-glu-l-glu candidatus koribacter versatilis//prokaryotes;bacteria;acidobacteria;koribacter//aba 0.0058 * +EC2.1.2.5 n-formimidoyl-l-glu-l-glu-l-glu picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.0007 * +EC2.1.2.5 n-formimidoyl-l-glu-l-glu-l-glu streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0048 * +EC2.1.2.5 n-formimidoyl-l-glu-l-glu-l-glu thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0038 * +EC2.1.2.5 n-formimino-l-glutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC2.1.2.5 tetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC2.1.2.5 tetrahydropteroic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC2.1.2.7 2-ethyl-dl-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.2 * +EC2.1.2.7 2-methyl-dl-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC2.1.2.7 2-methyl-l-serine aminobacter sp. aj110403//*//* 1.5 * +EC2.1.2.7 2-methyl-l-serine ensifer sp. aj110404//*//* 1.88 * +EC2.1.2.7 hydroxymethylserine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.8 * +EC2.1.2.7 l-tetrahydrofolate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.25 * +EC2.1.2.7 tetrahydrofolate aminobacter sp. aj110403//*//* 0.09 * +EC2.1.2.7 tetrahydrofolate ensifer sp. aj110404//*//* 0.228 * +EC2.1.2.8 deoxycytidylate enterobacteria phage t4//*//* 0.36 * +EC2.1.2.8 tetrahydrofolate enterobacteria phage t4//*//* 0.04 * +EC2.1.2.9 10-formyltetrahydrofolate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.006 * +EC2.1.2.9 10-formyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0133 * +EC2.1.2.9 10-formyltetrahydropteroyltriglutamate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.011 * +EC2.1.2.9 bovine mitochondrial methionyl-trna bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4e-05 * +EC2.1.2.9 e. coli isoleucyl-trnafmet bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC2.1.2.9 e. coli isoleucyl-trnafmet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0003 * +EC2.1.2.9 e. coli methionyl-trna1val(cau) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC2.1.2.9 e. coli methionyl-trnafmet bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0001 * +EC2.1.2.9 e. coli methionyl-trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0005 * +EC2.1.2.9 e. coli methionyl-trnafmet haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.00112 * +EC2.1.2.9 e. coli methionyl-trnafmet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0003 * +EC2.1.2.9 e. coli methionyl-trnammet bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.7e-05 * +EC2.1.2.9 e. coli valyl-trnafmet bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0014 * +EC2.1.2.9 e. coli valyl-trnafmet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0005 * +EC2.1.2.9 l-methionyl-trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00051 * +EC2.1.2.9 methionyl-trnafmet enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.00072 * +EC2.1.2.9 methionyl-trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00035 * +EC2.1.2.9 methionyl-trnamet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.1.2.9 phenylalanyl-trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.1.2.9 trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00119 * +EC2.1.2.9 trnafmet pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.6e-05 * +EC2.1.2.9 valyl-trnafmet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC2.1.3.1 (2s)-methylmalonyl-coenzyme a propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0077 * +EC2.1.3.1 (2s)-methylmalonyl-coenzyme a propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.0077 * +EC2.1.3.1 acetyl-coa propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.5 * +EC2.1.3.1 butyryl-coa propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.25 * +EC2.1.3.1 malonyl-coa propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.035 * +EC2.1.3.1 oxaloacetate propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.063 * +EC2.1.3.1 propionyl-coa propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.034 * +EC2.1.3.1 pyruvate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0044 * +EC2.1.3.1 pyruvate propionibacterium sp.//prokaryotes;bacteria;actinobacteria;propionibacterium//prl 0.77 * +EC2.1.3.10 acetate malonomonas rubra//*//* 54.0 * +EC2.1.3.10 acetyl-coa malonomonas rubra//*//* 6.9 * +EC2.1.3.10 malonate malonomonas rubra//*//* 0.5 * +EC2.1.3.10 malonyl-coa malonomonas rubra//*//* 1.9 * +EC2.1.3.11 n-succinyl-l-ornithine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.238 * +EC2.1.3.12 carbamoyl phosphate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0051 * +EC2.1.3.12 decarbamoylnovobiocin streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0024 * +EC2.1.3.12 novclobiocin 104 streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0019 * +EC2.1.3.12 novclobiocin 105 streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0143 * +EC2.1.3.2 aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.0 * +EC2.1.3.2 carbamoyl phosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.55 * +EC2.1.3.2 carbamoyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.11 * +EC2.1.3.2 carbamoyl phosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.0077 * +EC2.1.3.2 carbamoyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC2.1.3.2 carbamoyl phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.61 * +EC2.1.3.2 carbamoyl phosphate mesocricetus auratus//*//* 0.004 * +EC2.1.3.2 carbamoyl phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 88.0 * +EC2.1.3.2 carbamoyl phosphate mya arenaria//*//* 3.2 * +EC2.1.3.2 carbamoyl phosphate mytilus edulis//*//* 7.0 * +EC2.1.3.2 carbamoyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.49 * +EC2.1.3.2 carbamoyl phosphate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.014 * +EC2.1.3.2 carbamoyl phosphate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.34 * +EC2.1.3.2 carbamoyl phosphate pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.005 * +EC2.1.3.2 carbamoyl phosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.2 * +EC2.1.3.2 carbamoyl phosphate triticum aestivum//*//* 0.023 * +EC2.1.3.2 carbamoyl phosphate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.3 * +EC2.1.3.2 carbamoyl phosphate vigna radiata var. radiata//*//* 0.091 * +EC2.1.3.2 carbamoylphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 162.0 * +EC2.1.3.2 l-asparagine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 122.0 * +EC2.1.3.2 l-aspartate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.0 * +EC2.1.3.2 l-aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.0 * +EC2.1.3.2 l-aspartate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 10.0 * +EC2.1.3.2 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.9 * +EC2.1.3.2 l-aspartate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 11.6 * +EC2.1.3.2 l-aspartate mesocricetus auratus//*//* 0.009 * +EC2.1.3.2 l-aspartate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 10.9 * +EC2.1.3.2 l-aspartate mya arenaria//*//* 6.25 * +EC2.1.3.2 l-aspartate mytilus edulis//*//* 18.0 * +EC2.1.3.2 l-aspartate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.6 * +EC2.1.3.2 l-aspartate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.75 * +EC2.1.3.2 l-aspartate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.96 * +EC2.1.3.2 l-aspartate triticum aestivum//*//* 0.16 * +EC2.1.3.2 l-aspartate vigna radiata var. radiata//*//* 1.7 * +EC2.1.3.3 carbamoyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.1.3.3 carbamoyl phosphate giardia intestinalis//*//* 0.13 * +EC2.1.3.3 carbamoyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.1.3.3 carbamoyl phosphate moritella abyssi//*//* 0.9 * +EC2.1.3.3 carbamoyl phosphate mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 0.625 * +EC2.1.3.3 carbamoyl phosphate piaractus mesopotamicus//*//* 0.0008 * +EC2.1.3.3 carbamoyl phosphate pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.09 * +EC2.1.3.3 carbamoyl phosphate pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.008 * +EC2.1.3.3 carbamoylphosphate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.033 * +EC2.1.3.3 diaminobutane pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 43.5 * +EC2.1.3.3 l-citrulline giardia intestinalis//*//* 10.4 * +EC2.1.3.3 l-lysine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 25.0 * +EC2.1.3.3 l-ornithine giardia intestinalis//*//* 0.11 * +EC2.1.3.3 l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.1.3.3 l-ornithine moritella abyssi//*//* 1.78 * +EC2.1.3.3 l-ornithine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.25 * +EC2.1.3.3 l-ornithine piaractus mesopotamicus//*//* 0.001 * +EC2.1.3.3 l-ornithine pseudomonas savastanoi//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 1.1 * +EC2.1.3.3 l-ornithine pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 0.0285 * +EC2.1.3.3 l-ornithine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC2.1.3.3 ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.85 * +EC2.1.3.3 ornithine mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 0.85 * +EC2.1.3.3 ornithine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.8 * +EC2.1.3.3 phosphate giardia intestinalis//*//* 2.3 * +EC2.1.3.6 1,3-diaminopropane enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.9 * +EC2.1.3.6 1,6-diaminohexane enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 6.6 * +EC2.1.3.6 arsenate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 4.0 * +EC2.1.3.6 cadaverine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 7.7 * +EC2.1.3.6 carbamoyl phosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.058 * +EC2.1.3.6 n-carbamoylputrescine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 10.0 * +EC2.1.3.6 ornithine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 13.0 * +EC2.1.3.6 putrescine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.0023 * +EC2.1.3.6 spermidine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 19.7 * +EC2.1.3.6 spermine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.35 * +EC2.1.3.8 l-lysine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.3 * +EC2.1.4.1 3-aminopropionic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 57.4 * +EC2.1.4.1 4-aminobutyric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.9 * +EC2.1.4.1 5-aminovaleric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.5 * +EC2.1.4.1 arginine glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.8 * +EC2.1.4.1 arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.1.4.1 arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.4 * +EC2.1.4.1 arginine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC2.1.4.1 ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 163.0 * +EC2.1.4.1 glycine cylindrospermopsis raciborskii//*//* 6.9 * +EC2.1.4.1 glycine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.89 * +EC2.1.4.1 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.1.4.1 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC2.1.4.1 glycine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.3 * +EC2.1.4.1 l-arginine cylindrospermopsis raciborskii//*//* 3.5 * +EC2.1.4.1 lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.0 * +EC2.1.4.1 ornithine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC2.1.4.1 taurine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 392.0 * +EC2.2.1.2 d-erythrose 4-phosphate blastobotrys adeninivorans//*//* 0.013 * +EC2.2.1.2 d-erythrose 4-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC2.2.1.2 d-erythrose 4-phosphate cyberlindnera jadinii//*//* 0.02 * +EC2.2.1.2 d-erythrose 4-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC2.2.1.2 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.078 * +EC2.2.1.2 d-erythrose 4-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0156 * +EC2.2.1.2 d-erythrose 4-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.018 * +EC2.2.1.2 d-erythrose 4-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.27 * +EC2.2.1.2 d-erythrose-4-phosphate blastobotrys adeninivorans//*//* 0.013 * +EC2.2.1.2 d-erythrose-4-phosphate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.49 * +EC2.2.1.2 d-fructose 6-phosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.2 * +EC2.2.1.2 d-fructose 6-phosphate blastobotrys adeninivorans//*//* 0.056 * +EC2.2.1.2 d-fructose 6-phosphate cyberlindnera jadinii//*//* 0.8 * +EC2.2.1.2 d-fructose 6-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.6 * +EC2.2.1.2 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.2.1.2 d-fructose 6-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.64 * +EC2.2.1.2 d-fructose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC2.2.1.2 d-fructose 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.36 * +EC2.2.1.2 d-fructose-6-phosphate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 6.66 * +EC2.2.1.2 d-ribose 5-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.2 * +EC2.2.1.2 erythrose 4-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.132 * +EC2.2.1.2 fructose-6-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.343 * +EC2.2.1.2 glyceraldehyde 3-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.072 * +EC2.2.1.2 glyceraldehyde 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC2.2.1.2 glyceraldehyde 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC2.2.1.2 sedoheptulose 7-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.46 * +EC2.2.1.2 sedoheptulose 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.285 * +EC2.2.1.2 sedoheptulose 7-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC2.2.1.3 d-xylulose 5-phosphate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0333 * +EC2.2.1.3 d-xylulose 5-phosphate candida boidinii//*//* 1.0 * +EC2.2.1.3 dihydroxyacetone candida boidinii//*//* 0.52 * +EC2.2.1.3 formaldehyde acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 1.86 * +EC2.2.1.3 formaldehyde candida boidinii//*//* 0.43 * +EC2.2.1.3 glyceraldehyde 3-phosphate candida boidinii//*//* 0.42 * +EC2.2.1.5 2-oxoglutarate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 2.0 * +EC2.2.1.5 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.84 * +EC2.2.1.5 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC2.2.1.5 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC2.2.1.5 glyoxylate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 3.2 * +EC2.2.1.5 glyoxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.2 * +EC2.2.1.5 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.8 * +EC2.2.1.5 glyoxylate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.6 * +EC2.2.1.6 2-oxobutanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 5.6 * +EC2.2.1.6 2-oxobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.2.1.6 2-oxobutanoate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.37 * +EC2.2.1.6 hydroxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.31 * +EC2.2.1.6 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.01 * +EC2.2.1.6 pyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.0 * +EC2.2.1.6 pyruvate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 7.0 * +EC2.2.1.6 pyruvate claviceps purpurea//*//* 17.0 * +EC2.2.1.6 pyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 7.8 * +EC2.2.1.6 pyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 20.0 * +EC2.2.1.6 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.2.1.6 pyruvate euglena gracilis//*//* 2.1 * +EC2.2.1.6 pyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 8.8 * +EC2.2.1.6 pyruvate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 25.5 * +EC2.2.1.6 pyruvate hordeum vulgare//*//* 3.0 * +EC2.2.1.6 pyruvate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 50.0 * +EC2.2.1.6 pyruvate leuconostoc lactis//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//llf 8.0 * +EC2.2.1.6 pyruvate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 10.0 * +EC2.2.1.6 pyruvate methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 2.3 * +EC2.2.1.6 pyruvate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 4.2 * +EC2.2.1.6 pyruvate methanococcus voltae//prokaryotes;archaea;euryarchaeota;methanococcus//mvo 0.5 * +EC2.2.1.6 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.18 * +EC2.2.1.6 pyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.2 * +EC2.2.1.6 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0117 * +EC2.2.1.6 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 17.5 * +EC2.2.1.6 pyruvate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 4.5 * +EC2.2.1.6 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.93 * +EC2.2.1.6 pyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 10.6 * +EC2.2.1.6 pyruvate schoenoplectiella juncoides//*//* 2.2 * +EC2.2.1.6 pyruvate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 22.6 * +EC2.2.1.6 pyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 5.0 * +EC2.2.1.6 thiamine diphosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.28 * +EC2.2.1.7 1-methyl-2-nitrosobenzene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.099 * +EC2.2.1.7 1-nitrosonaphthalen-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC2.2.1.7 2-hydroxy-4,6-dinitrobenzaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.512 * +EC2.2.1.7 3,5-dimethyl-4-nitroso-1-(propan-2-yl)-1h-pyrazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.387 * +EC2.2.1.7 6-bromo-1-nitrosonaphthalen-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC2.2.1.7 6-hydroxy-5-nitrosonaphthalene-2-sulfonamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC2.2.1.7 7-methoxy-1-nitrosonaphthalen-2-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.063 * +EC2.2.1.7 d-erythrose 4-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.0232 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate botryococcus braunii//*//* 0.47 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.0235 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0061 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.016 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.019 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate populus tremula x populus alba//*//* 0.158 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0185 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.068 * +EC2.2.1.7 d-glyceraldehyde 3-phosphate vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 1.78 * +EC2.2.1.7 d-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.0 * +EC2.2.1.7 d-glyceraldehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.6 * +EC2.2.1.7 d-glyceraldehyde rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 33.0 * +EC2.2.1.7 l-glyceraldehyde mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.5 * +EC2.2.1.7 n,n-dimethyl-4-nitrosoaniline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.054 * +EC2.2.1.7 pyruvate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.04 * +EC2.2.1.7 pyruvate botryococcus braunii//*//* 0.72 * +EC2.2.1.7 pyruvate deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.049 * +EC2.2.1.7 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC2.2.1.7 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC2.2.1.7 pyruvate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.64 * +EC2.2.1.7 pyruvate plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.87 * +EC2.2.1.7 pyruvate populus tremula x populus alba//*//* 0.111 * +EC2.2.1.7 pyruvate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.0878 * +EC2.2.1.7 pyruvate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.44 * +EC2.2.1.7 pyruvate vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.661 * +EC2.2.1.9 (+)-5-(carboxymethoxy)-6-hydroxycyclohexa-2,4-diene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.2.1.9 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC2.2.1.9 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0099 * +EC2.2.1.9 isochorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC2.3.1.1 acetyl-coa chlorella vulgaris//*//* 3.2 * +EC2.3.1.1 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.3.1.1 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.01 * +EC2.3.1.1 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.15 * +EC2.3.1.1 acetyl-coa neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.1 * +EC2.3.1.1 acetyl-coa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 6.3 * +EC2.3.1.1 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC2.3.1.1 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.38 * +EC2.3.1.1 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 4.6 * +EC2.3.1.1 acetyl-coa xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 1.3 * +EC2.3.1.1 glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.1 * +EC2.3.1.1 glutamate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.6 * +EC2.3.1.1 glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC2.3.1.1 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.3.1.1 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.91 * +EC2.3.1.1 l-glutamate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 4.5 * +EC2.3.1.1 l-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.0 * +EC2.3.1.1 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.3.1.1 l-glutamate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.8 * +EC2.3.1.1 l-glutamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 280.0 * +EC2.3.1.100 myristoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.219 * +EC2.3.1.100 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC2.3.1.100 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.041 * +EC2.3.1.100 stearoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.017 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.1 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.04 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.03 * +EC2.3.1.101 5,6,7,8-tetrahydromethanopterin uncultured archaeon//*//* 0.08 * +EC2.3.1.101 formylmethanofuran archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.032 * +EC2.3.1.101 formylmethanofuran methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.05 * +EC2.3.1.101 formylmethanofuran methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.04 * +EC2.3.1.101 formylmethanofuran methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.05 * +EC2.3.1.101 formylmethanofuran methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.05 * +EC2.3.1.101 formylmethanofuran uncultured archaeon//*//* 0.01 * +EC2.3.1.101 n-furfurylformamide methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 20.0 * +EC2.3.1.101 n-furfurylformamide methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 55.0 * +EC2.3.1.101 n-furfurylformamide methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 70.0 * +EC2.3.1.102 1-amino-5-(hydroxyamino)pentane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.3.1.102 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC2.3.1.102 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 329.4 * +EC2.3.1.102 l-n5-hydroxyornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.317 * +EC2.3.1.102 l-n6-hydroxylysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.055 * +EC2.3.1.102 n-methylhydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.396 * +EC2.3.1.103 1-(p-coumaroyl)-glucose raphanus sativus//*//* 0.58 * +EC2.3.1.103 1-feruloyl-beta-d-glucose raphanus sativus//*//* 0.4 * +EC2.3.1.103 1-sinapoyl-beta-d-glucose raphanus sativus//*//* 0.42 * +EC2.3.1.105 acetyl-coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC2.3.1.105 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.226 * +EC2.3.1.106 caffeoyltartronic acid vigna radiata var. radiata//*//* 0.02 * +EC2.3.1.106 coa vigna radiata var. radiata//*//* 0.061 * +EC2.3.1.106 feruloyltartronic acid vigna radiata var. radiata//*//* 0.065 * +EC2.3.1.106 p-coumaroyltartronic acid vigna radiata var. radiata//*//* 0.011 * +EC2.3.1.107 acetyl-coa catharanthus roseus//*//* 0.005 * +EC2.3.1.107 deacetylvindoline catharanthus roseus//*//* 0.0013 * +EC2.3.1.107 vindoline catharanthus roseus//*//* 0.0007 * +EC2.3.1.108 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC2.3.1.108 acetyl-coa chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.002 * +EC2.3.1.108 alpha-tubulin l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0136 * +EC2.3.1.109 l-arginine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 5.0 * +EC2.3.1.109 l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.5 * +EC2.3.1.109 l-ornithine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.04 * +EC2.3.1.109 succinyl-coa burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.04 * +EC2.3.1.110 3-methoxytyramine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.585 * +EC2.3.1.110 4-coumaroyl-coa capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0233 * +EC2.3.1.110 4-coumaroyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.002 * +EC2.3.1.110 4-coumaroyl-coa papaver somniferum//*//* 0.017 * +EC2.3.1.110 4-coumaroyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.0037 * +EC2.3.1.110 4-hydroxyphenylpropylamine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.17 * +EC2.3.1.110 beta-phenylethylamine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 4.276 * +EC2.3.1.110 caffeoyl-coa capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0127 * +EC2.3.1.110 caffeoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.082 * +EC2.3.1.110 cinnamoyl-coa capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0319 * +EC2.3.1.110 cinnamoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0047 * +EC2.3.1.110 cinnamoyl-coa papaver somniferum//*//* 0.002 * +EC2.3.1.110 dopamine capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.721 * +EC2.3.1.110 dopamine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.202 * +EC2.3.1.110 dopamine papaver somniferum//*//* 0.078 * +EC2.3.1.110 dopamine zea mays//eukaryotes;plants;monocots;grass family//zma 0.34 * +EC2.3.1.110 feruloyl-4'-phosphopantetheine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0125 * +EC2.3.1.110 feruloyl-coa capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0035 * +EC2.3.1.110 feruloyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0006 * +EC2.3.1.110 feruloyl-coa papaver somniferum//*//* 0.062 * +EC2.3.1.110 feruloyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.1 * +EC2.3.1.110 feruloyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.0048 * +EC2.3.1.110 isoferuloyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.002 * +EC2.3.1.110 noradrenaline nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.57 * +EC2.3.1.110 octopamine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0113 * +EC2.3.1.110 p-coumaroyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0067 * +EC2.3.1.110 phenethylamine zea mays//eukaryotes;plants;monocots;grass family//zma 0.57 * +EC2.3.1.110 phenylethylamine capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 1.389 * +EC2.3.1.110 serotonin capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.073 * +EC2.3.1.110 sinapoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.001 * +EC2.3.1.110 sinapoyl-coa papaver somniferum//*//* 0.021 * +EC2.3.1.110 sinapoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.0083 * +EC2.3.1.110 tryptamine capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.848 * +EC2.3.1.110 tryptamine zea mays//eukaryotes;plants;monocots;grass family//zma 0.059 * +EC2.3.1.110 tyramine capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 1.165 * +EC2.3.1.110 tyramine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0043 * +EC2.3.1.110 tyramine papaver somniferum//*//* 0.076 * +EC2.3.1.110 tyramine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.04 * +EC2.3.1.110 tyramine zea mays//eukaryotes;plants;monocots;grass family//zma 0.13 * +EC2.3.1.112 d-tryptophan arachis hypogaea//*//* 0.025 * +EC2.3.1.112 malonyl-coa arachis hypogaea//*//* 0.005 * +EC2.3.1.113 anthranilate arachis hypogaea//*//* 0.012 * +EC2.3.1.113 malonyl-coa arachis hypogaea//*//* 0.004 * +EC2.3.1.114 3,4-dichloroaniline arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.023 * +EC2.3.1.114 3,4-dichloroaniline glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.023 * +EC2.3.1.115 (-)-maackiain 3-o-beta-d-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.054 * +EC2.3.1.115 2',4,4'-trihydroxychalcone 4'-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.11 * +EC2.3.1.115 apigenin 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.16 * +EC2.3.1.115 apigenin 7-o-glucoside petroselinum crispum//*//* 0.014 * +EC2.3.1.115 apiin petroselinum crispum//*//* 0.01 * +EC2.3.1.115 biochanin a cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.036 * +EC2.3.1.115 daidzein 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.065 * +EC2.3.1.115 formononetin 7-o-glucoside medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0512 * +EC2.3.1.115 formononetin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.024 * +EC2.3.1.115 genistein 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.088 * +EC2.3.1.115 genistin medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.114 * +EC2.3.1.115 kaempferol 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.067 * +EC2.3.1.115 luteolin 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.47 * +EC2.3.1.115 luteolin 7-o-glucoside petroselinum crispum//*//* 0.02 * +EC2.3.1.115 malonyl-coa cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.048 * +EC2.3.1.115 malonyl-coa medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0111 * +EC2.3.1.115 malonyl-coa petroselinum crispum//*//* 0.006 * +EC2.3.1.115 naringenin 7-o-glucoside medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.028 * +EC2.3.1.115 naringenin 7-o-neohesperidoside medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.0063 * +EC2.3.1.115 orobol 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.46 * +EC2.3.1.115 pratensein 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.098 * +EC2.3.1.115 quercetagetin 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.335 * +EC2.3.1.115 quercetin 7-o-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.381 * +EC2.3.1.115 succinyl-coa cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.101 * +EC2.3.1.116 isorhamnetin 3-o-glucoside petroselinum crispum//*//* 0.006 * +EC2.3.1.116 kaempferol 3-o-glucoside petroselinum crispum//*//* 0.004 * +EC2.3.1.116 malonyl-coa petroselinum crispum//*//* 0.005 * +EC2.3.1.117 (s)-2,3,4,5-tetrahydropyridine-2,6-dicarboxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.0 * +EC2.3.1.117 3,4-dihydro-2h-1,4-thiazine-3,5-dicarboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.3.1.117 l-2-aminopimelate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.3.1.117 succinyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.3.1.117 tetrahydrodipicolinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.3.1.118 2-aminofluorene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.238 * +EC2.3.1.118 4-aminoveratrole salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.6 * +EC2.3.1.118 4-anisidine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.1 * +EC2.3.1.118 4-iodoaniline salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.3 * +EC2.3.1.118 acetyl-coa mesocricetus auratus//*//* 0.37 * +EC2.3.1.118 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0033 * +EC2.3.1.118 aniline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC2.3.1.118 isoniazid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC2.3.1.118 m-aminophenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.71 * +EC2.3.1.118 n-hydroxy-2-acetylaminofluorene mesocricetus auratus//*//* 0.27 * +EC2.3.1.118 o-aminobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.48 * +EC2.3.1.118 o-aminophenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.94 * +EC2.3.1.118 o-anisidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC2.3.1.118 p-aminobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC2.3.1.118 p-aminophenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.54 * +EC2.3.1.118 p-aminotoluene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.63 * +EC2.3.1.118 p-anisidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.83 * +EC2.3.1.118 sulfadiazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC2.3.1.12 acetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.022 * +EC2.3.1.12 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC2.3.1.12 acetyl-coa geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.013 * +EC2.3.1.12 dihydrolipoamide azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 5.37 * +EC2.3.1.12 dihydrolipoamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC2.3.1.12 dihydrolipoamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC2.3.1.12 dihydrolipoamide geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.2 * +EC2.3.1.12 dihydrolipoamide pelobacter carbinolicus//prokaryotes;bacteria;deltaproteobacteria;pelobacter//pca 2.2 * +EC2.3.1.122 alpha,alpha-trehalose 6-monomycolate mycobacterium leprae//prokaryotes;bacteria;actinobacteria;mycobacterium//mle 0.459 * +EC2.3.1.122 alpha,alpha-trehalose 6-monomycolate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.1296 * +EC2.3.1.122 trehalose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0083 * +EC2.3.1.125 linoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC2.3.1.126 caffeoyl-coa amaranthus hybridus subsp. cruentus//*//* 0.045 * +EC2.3.1.126 feruloyl-coa amaranthus hybridus subsp. cruentus//*//* 0.163 * +EC2.3.1.126 isocitric acid amaranthus hybridus subsp. cruentus//*//* 0.208 * +EC2.3.1.126 p-coumaroyl-coa amaranthus hybridus subsp. cruentus//*//* 0.055 * +EC2.3.1.128 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 0.00035 * +EC2.3.1.128 ala-arg-tyr-phe-arg-arg salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 2.2 * +EC2.3.1.129 (r)-3-hydroxytetradecanoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC2.3.1.129 3r-3-hydroxylauroyl-methylphosphopantetheine leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.004 * +EC2.3.1.129 udp-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.099 * +EC2.3.1.13 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.209 * +EC2.3.1.13 alanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1573.0 * +EC2.3.1.13 alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 997.0 * +EC2.3.1.13 asparagine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 129.0 * +EC2.3.1.13 benzoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 41.0 * +EC2.3.1.13 benzoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.3.1.13 benzoyl-coa macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.02 * +EC2.3.1.13 benzoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0094 * +EC2.3.1.13 benzoyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 22.5 * +EC2.3.1.13 butyryl-coa macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.7 * +EC2.3.1.13 butyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.052 * +EC2.3.1.13 glutamic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1150.0 * +EC2.3.1.13 glutamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 353.0 * +EC2.3.1.13 glycine ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.7 * +EC2.3.1.13 glycine methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 29.0 * +EC2.3.1.13 glycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC2.3.1.13 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC2.3.1.13 glycine macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.003 * +EC2.3.1.13 glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.1 * +EC2.3.1.13 glycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.0 * +EC2.3.1.13 hexanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.045 * +EC2.3.1.13 isovaleryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 124.0 * +EC2.3.1.13 isovaleryl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 73.3 * +EC2.3.1.13 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 198.0 * +EC2.3.1.13 octanoyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 108.6 * +EC2.3.1.13 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC2.3.1.13 phenylacetyl-coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC2.3.1.13 salicyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 83.7 * +EC2.3.1.13 salicyl-coa macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.03 * +EC2.3.1.13 salicyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 35.6 * +EC2.3.1.130 feruloyl-coa secale cereale//*//* 0.045 * +EC2.3.1.130 galactarate secale cereale//*//* 33.0 * +EC2.3.1.131 glucarate secale cereale//*//* 8.0 * +EC2.3.1.131 sinapoyl-coa secale cereale//*//* 0.018 * +EC2.3.1.132 glucarolactone secale cereale//*//* 10.0 * +EC2.3.1.132 sinapoyl-coa secale cereale//*//* 0.029 * +EC2.3.1.133 2,3-dihydroxybenzoate solenostemon scutellarioides//*//* 0.188 * +EC2.3.1.133 3,4-dihydroxybenzoate panicum virgatum//*//* 1.48 * +EC2.3.1.133 3-aminobenzoate solenostemon scutellarioides//*//* 2.404 * +EC2.3.1.133 3-hydroxyanthranilate panicum virgatum//*//* 0.83 * +EC2.3.1.133 3-hydroxyanthranilate solenostemon scutellarioides//*//* 0.449 * +EC2.3.1.133 3-hydroxybenzoate solenostemon scutellarioides//*//* 0.733 * +EC2.3.1.133 3-phenylacryloyl-coa equisetum arvense//*//* 1.1 * +EC2.3.1.133 4-coumaroyl-coa cichorium endivia//*//* 1.2 * +EC2.3.1.133 4-coumaroyl-coa equisetum arvense//*//* 0.5 * +EC2.3.1.133 4-coumaroyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.6 * +EC2.3.1.133 4-coumaroyl-coa oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0601 * +EC2.3.1.133 4-coumaroyl-coa phoenix dactylifera//eukaryotes;plants;monocots;palm family//pda 0.0086 * +EC2.3.1.133 4-coumaroyl-coa populus x canadensis//*//* 8.13 * +EC2.3.1.133 4-coumaroyl-coa raphanus sativus//*//* 14.3 * +EC2.3.1.133 4-coumaroyl-coa secale cereale//*//* 0.024 * +EC2.3.1.133 4-coumaroyl-coa solenostemon scutellarioides//*//* 0.0015 * +EC2.3.1.133 4-coumaroylshikimate cichorium endivia//*//* 0.119 * +EC2.3.1.133 caffeoyl-coa cichorium endivia//*//* 12.5 * +EC2.3.1.133 caffeoyl-coa equisetum arvense//*//* 0.41 * +EC2.3.1.133 caffeoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.05 * +EC2.3.1.133 caffeoyl-coa oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.102 * +EC2.3.1.133 caffeoyl-coa phoenix dactylifera//eukaryotes;plants;monocots;palm family//pda 0.0067 * +EC2.3.1.133 caffeoyl-coa raphanus sativus//*//* 30.5 * +EC2.3.1.133 caffeoyl-coa secale cereale//*//* 0.045 * +EC2.3.1.133 caffeoyl-coa solenostemon scutellarioides//*//* 0.0051 * +EC2.3.1.133 cinnamoyl-coa solenostemon scutellarioides//*//* 0.0265 * +EC2.3.1.133 coa cichorium endivia//*//* 0.162 * +EC2.3.1.133 feruloyl-coa cichorium endivia//*//* 15.4 * +EC2.3.1.133 feruloyl-coa equisetum arvense//*//* 1.9 * +EC2.3.1.133 feruloyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.35 * +EC2.3.1.133 feruloyl-coa oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0721 * +EC2.3.1.133 feruloyl-coa phoenix dactylifera//eukaryotes;plants;monocots;palm family//pda 0.006 * +EC2.3.1.133 feruloyl-coa raphanus sativus//*//* 55.5 * +EC2.3.1.133 feruloyl-coa solenostemon scutellarioides//*//* 0.0051 * +EC2.3.1.133 glycerol oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0859 * +EC2.3.1.133 quinate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.07 * +EC2.3.1.133 quinate populus x canadensis//*//* 5.82 * +EC2.3.1.133 shikimate cichorium endivia//*//* 0.039 * +EC2.3.1.133 shikimate equisetum arvense//*//* 4.32 * +EC2.3.1.133 shikimate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.75 * +EC2.3.1.133 shikimate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.1558 * +EC2.3.1.133 shikimate panicum virgatum//*//* 0.699 * +EC2.3.1.133 shikimate phoenix dactylifera//eukaryotes;plants;monocots;palm family//pda 1.0 * +EC2.3.1.133 shikimate populus x canadensis//*//* 0.9 * +EC2.3.1.133 shikimate secale cereale//*//* 0.59 * +EC2.3.1.133 shikimate solenostemon scutellarioides//*//* 0.332 * +EC2.3.1.133 shikimate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.153 * +EC2.3.1.133 sinapoyl-coa solenostemon scutellarioides//*//* 0.02 * +EC2.3.1.135 11-cis-retinol-[cellular retinol-binding protein] bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0023 * +EC2.3.1.135 11-cis-retinol-[cellular retinol-binding protein] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0113 * +EC2.3.1.135 11-cis-retinol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC2.3.1.135 all-trans-retinol-[cellular retinol-binding protein] bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00033 * +EC2.3.1.135 all-trans-retinol-[cellular retinol-binding protein] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0288 * +EC2.3.1.135 all-trans-retinol-[cellular-retinol-binding-protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC2.3.1.135 all-trans-retinol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000243 * +EC2.3.1.135 all-trans-retinol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC2.3.1.135 dipalmitoylphosphatidylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00138 * +EC2.3.1.135 retinol-(cellular-retinol-binding protein) type ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00024 * +EC2.3.1.135 retinol-(cellular-retinol-binding protein) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002 * +EC2.3.1.135 retinol-(cellular-retinol-binding-protein) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.3.1.135 retinol-cellular-retinol-binding protein type ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00032 * +EC2.3.1.135 retinol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00044 * +EC2.3.1.136 ([glc-(alpha1-4)-sia]n) neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.011 * +EC2.3.1.136 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.3.1.136 acetyl-coa neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.21 * +EC2.3.1.136 colominic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.17 * +EC2.3.1.137 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.0 * +EC2.3.1.137 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.155 * +EC2.3.1.137 acetyl-l-carnitine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.783 * +EC2.3.1.137 acyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.3.1.137 carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0948 * +EC2.3.1.137 coash mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC2.3.1.137 decanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00138 * +EC2.3.1.137 decanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002 * +EC2.3.1.137 decanoyl-l-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.4 * +EC2.3.1.137 hexadecanoyl-l-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.036 * +EC2.3.1.137 l-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 108.0 * +EC2.3.1.137 l-carnitine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.13 * +EC2.3.1.137 l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.102 * +EC2.3.1.137 octanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC2.3.1.137 octanoylcarnitine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC2.3.1.137 palmitoyl lysophosphatidic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.104 * +EC2.3.1.137 palmitoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.069 * +EC2.3.1.137 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00046 * +EC2.3.1.137 palmitoyl-l-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.4 * +EC2.3.1.138 caffeoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.003 * +EC2.3.1.138 cinnamoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0025 * +EC2.3.1.138 feruloyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0125 * +EC2.3.1.138 putrescine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01 * +EC2.3.1.139 ecdysone periplaneta americana//*//* 0.0004 * +EC2.3.1.140 3,4-dihydroxyphenyllactate solenostemon scutellarioides//*//* 0.37 * +EC2.3.1.140 3-(3,4-dihydroxyphenyl)lactate melissa officinalis//*//* 0.1528 * +EC2.3.1.140 3-(4-hydroxyphenyl)lactate melissa officinalis//*//* 0.0169 * +EC2.3.1.140 4-coumaroyl-coa melissa officinalis//*//* 0.0048 * +EC2.3.1.140 4-coumaroyl-coa solenostemon scutellarioides//*//* 0.0013 * +EC2.3.1.140 4-hydroxyphenyllactate solenostemon scutellarioides//*//* 0.17 * +EC2.3.1.140 caffeoyl-coa melissa officinalis//*//* 0.0052 * +EC2.3.1.140 caffeoyl-coa solenostemon scutellarioides//*//* 0.0034 * +EC2.3.1.140 coa solenostemon scutellarioides//*//* 0.31 * +EC2.3.1.140 rosmarinic acid solenostemon scutellarioides//*//* 0.015 * +EC2.3.1.143 1,2,3,6-tetra-o-galloyl-beta-d-glucose quercus rubra//*//* 1.0 * +EC2.3.1.143 1-o-galloyl-beta-d-glucose quercus rubra//*//* 2.3 * +EC2.3.1.144 anthranilate dianthus caryophyllus//*//* 0.02 * +EC2.3.1.144 benzoyl-coa dianthus caryophyllus//*//* 0.009 * +EC2.3.1.145 piperidine piper nigrum//*//* 10.0 * +EC2.3.1.145 piperoyl-coa piper nigrum//*//* 3.8 * +EC2.3.1.146 cinnamoyl-coa pinus densiflora//*//* 0.0004 * +EC2.3.1.146 cinnamoyl-coa pinus sylvestris//*//* 0.0005 * +EC2.3.1.146 malonyl-coa pinus densiflora//*//* 0.006 * +EC2.3.1.146 p-coumaroyl-coa pinus densiflora//*//* 0.0009 * +EC2.3.1.146 phenylpropionyl-coa pinus sylvestris//*//* 0.003 * +EC2.3.1.147 1-alkyl-2-lyso-glyceryl-3-phosphorylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC2.3.1.148 1-acyl-2-lyso-glycerophosphocholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0038 * +EC2.3.1.148 1-hexadecyl-2-lyso-glycerophosphocholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0015 * +EC2.3.1.148 lyso-phosphatidylserine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC2.3.1.148 palmitoyl-lyso-glycerophosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC2.3.1.149 alk-1-enyllyso-sn-glycero-phosphoethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1064 * +EC2.3.1.149 hexadecyl-acetyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.3.1.15 acyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.3.1.15 glycerol 3-phosphate cucurbita moschata//eukaryotes;plants;eudicots;cucumber family//cmos 0.117 * +EC2.3.1.15 glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.3.1.15 glycerol 3-phosphate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.354 * +EC2.3.1.15 glycerol 3-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.67 * +EC2.3.1.15 glycerol 3-phosphate persea americana//*//* 0.1 * +EC2.3.1.15 glycerol 3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.46 * +EC2.3.1.15 glycerol 3-phosphate umbelopsis ramanniana//*//* 0.025 * +EC2.3.1.15 myristoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.3.1.15 oleoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.0078 * +EC2.3.1.15 oleoyl-acp cucurbita moschata//eukaryotes;plants;eudicots;cucumber family//cmos 0.003 * +EC2.3.1.15 oleoyl-acp pisum sativum//*//* 0.0003 * +EC2.3.1.15 oleoyl-acp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0003 * +EC2.3.1.15 oleoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC2.3.1.15 oleoyl-coa euglena sp.//*//* 0.014 * +EC2.3.1.15 oleoyl-coa macrobrachium borellii//*//* 0.0312 * +EC2.3.1.15 oleoyl-coa pisum sativum//*//* 0.011 * +EC2.3.1.15 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0084 * +EC2.3.1.15 oleoyl-coa umbelopsis ramanniana//*//* 0.015 * +EC2.3.1.15 palmitoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00196 * +EC2.3.1.15 palmitoyl-acp cucurbita moschata//eukaryotes;plants;eudicots;cucumber family//cmos 0.0034 * +EC2.3.1.15 palmitoyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.3.1.15 palmitoyl-acp pisum sativum//*//* 0.0056 * +EC2.3.1.15 palmitoyl-acp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0032 * +EC2.3.1.15 palmitoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.3.1.15 palmitoyl-coa euglena sp.//*//* 0.021 * +EC2.3.1.15 palmitoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.011 * +EC2.3.1.15 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC2.3.1.15 sn-glycerol 3-phosphate cavia porcellus//*//* 0.5 * +EC2.3.1.15 sn-glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.3.1.15 sn-glycerol 3-phosphate euglena sp.//*//* 2.9 * +EC2.3.1.15 sn-glycerol 3-phosphate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.659 * +EC2.3.1.15 sn-glycerol 3-phosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 2.08 * +EC2.3.1.15 sn-glycerol 3-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC2.3.1.15 sn-glycerol 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.3.1.15 sn-glycerol 3-phosphate pisum sativum//*//* 0.033 * +EC2.3.1.15 sn-glycerol 3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.3.1.15 sn-glycerol 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC2.3.1.15 sn-glycerol 3-phosphate schistocerca gregaria//*//* 0.3 * +EC2.3.1.15 sn-glycerol 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.0 * +EC2.3.1.15 sn-glycerol 3-phosphate theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 4.2 * +EC2.3.1.15 stearoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00612 * +EC2.3.1.15 stearoyl-acp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0033 * +EC2.3.1.15 stearoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0064 * +EC2.3.1.15 stearoyl-coa theobroma cacao//eukaryotes;plants;eudicots;mallow family//tcc 0.004 * +EC2.3.1.15 vaccenoyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC2.3.1.150 acetyl-coa papaver somniferum//*//* 0.046 * +EC2.3.1.150 n-hexanoyl-coa papaver somniferum//*//* 0.093 * +EC2.3.1.150 n-propionyl-coa papaver somniferum//*//* 0.068 * +EC2.3.1.150 nudaurine papaver somniferum//*//* 0.023 * +EC2.3.1.150 salutaridinol papaver somniferum//*//* 0.007 * +EC2.3.1.151 benzoyl-coa hypericum androsaemum//*//* 0.0086 * +EC2.3.1.151 malonyl-coa hypericum androsaemum//*//* 0.031 * +EC2.3.1.153 2-(3,4-dihydroxyphenyl)-3-[[6-o-[(2e)-3-[4-(beta-d-glucopyranosyloxy)phenyl]prop-2-enoyl]-beta-d-glucopyranosyl-(1-6)-[2-o-[(2e)-3-(4-hydroxy-3,5-dimethoxyphenyl)prop-2-enoyl]-beta-d-xylopyranosyl-(1-2)]-beta-d-glucopyranosyl]oxy]-7-hydroxychromenium-5-yl beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0076 * +EC2.3.1.153 2-(3,4-dihydroxyphenyl)-3-[[6-o-[(2e)-3-[4-(beta-d-glucopyranosyloxy)phenyl]prop-2-enoyl]-beta-d-glucopyranosyl-(1-6)-[beta-d-xylopyranosyl-(1-2)]-beta-d-glucopyranosyl]oxy]-7-hydroxychromenium-5-yl beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC2.3.1.153 caffeoyl-coa gentiana triflora//*//* 0.065 * +EC2.3.1.153 cyanidin 3,5-diglucoside gentiana triflora//*//* 0.087 * +EC2.3.1.153 cyanin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.167 * +EC2.3.1.153 delphinidin 3,5-diglucoside gentiana triflora//*//* 0.15 * +EC2.3.1.153 malonyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0021 * +EC2.3.1.153 malvin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.26 * +EC2.3.1.153 p-coumaroyl-coa gentiana triflora//*//* 0.19 * +EC2.3.1.155 3-ketodecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.3.1.155 3-ketododecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC2.3.1.155 3-ketohexadecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC2.3.1.155 3-ketohexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0106 * +EC2.3.1.155 3-ketoocatanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0086 * +EC2.3.1.155 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC2.3.1.156 isobutyryl-coa humulus lupulus//*//* 0.01 * +EC2.3.1.156 isovaleryl-coa humulus lupulus//*//* 0.004 * +EC2.3.1.156 malonyl-coa humulus lupulus//*//* 0.033 * +EC2.3.1.157 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.3.1.157 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.224 * +EC2.3.1.157 acetyl-coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.63 * +EC2.3.1.157 acetyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.52 * +EC2.3.1.157 alpha-d-galactosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.71 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.061 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.59 * +EC2.3.1.157 alpha-d-glucosamine 1-phosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.3 * +EC2.3.1.157 coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 9e-06 * +EC2.3.1.157 d-glucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.3.1.157 d-glucosamine 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.24 * +EC2.3.1.157 n-acetyl-alpha-d-glucosamine 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.003 * +EC2.3.1.157 n-acetyl-d-glucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.3.1.157 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.3.1.159 4-coumaroyl-coa citrus x microcarpa//*//* 0.0136 * +EC2.3.1.159 4-coumaroyl-coa huperzia serrata//*//* 19.7 * +EC2.3.1.159 malonyl-coa ruta graveolens//*//* 0.005 * +EC2.3.1.159 n-methylanthraniloyl-coa citrus x microcarpa//*//* 0.0043 * +EC2.3.1.159 n-methylanthraniloyl-coa ruta graveolens//*//* 0.0106 * +EC2.3.1.16 3-oxodecanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC2.3.1.16 3-oxododecanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0093 * +EC2.3.1.16 3-oxohexanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.028 * +EC2.3.1.16 3-oxohexanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0083 * +EC2.3.1.16 3-oxooctanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.0088 * +EC2.3.1.16 3-oxooctanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0024 * +EC2.3.1.16 3-oxopentanoyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.059 * +EC2.3.1.16 acetoacetyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.01 * +EC2.3.1.16 acetoacetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.394 * +EC2.3.1.16 acetoacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.031 * +EC2.3.1.16 acetoacetyl-coa helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.027 * +EC2.3.1.16 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.3.1.16 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC2.3.1.16 acetoacetyl-coa thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.025 * +EC2.3.1.16 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.71 * +EC2.3.1.16 acetyl-coa thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.011 * +EC2.3.1.16 coa-sh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0087 * +EC2.3.1.16 coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.093 * +EC2.3.1.16 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC2.3.1.16 coa thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.025 * +EC2.3.1.160 11-methoxy-16-epivellosimine rauvolfia serpentina//*//* 0.039 * +EC2.3.1.160 16-epivellosimine rauvolfia serpentina//*//* 0.0194 * +EC2.3.1.160 acetyl-coa rauvolfia serpentina x rhazya stricta//*//* 0.057 * +EC2.3.1.160 acetyl-coa rauvolfia serpentina//*//* 0.064 * +EC2.3.1.160 gardneral rauvolfia serpentina x rhazya stricta//*//* 0.0075 * +EC2.3.1.161 (4e,6e)-3-oxoocta-4,6-dienoyl-n-acetylcysteamine aspergillus terreus//*//* 0.17 * +EC2.3.1.161 3-oxohexanoyl-n-acetylcysteamine aspergillus terreus//*//* 2.0 * +EC2.3.1.161 3-oxooctanoyl-n-acetylcysteamine aspergillus terreus//*//* 5.2 * +EC2.3.1.161 malonyl-coa aspergillus terreus//*//* 0.5 * +EC2.3.1.162 acetyl-coa taxus canadensis//*//* 0.0055 * +EC2.3.1.162 acetyl-coa taxus cuspidata//*//* 0.0055 * +EC2.3.1.162 taxa-4(20),11-dien-5alpha-ol taxus canadensis//*//* 0.0042 * +EC2.3.1.162 taxa-4(20),11-dien-5alpha-ol taxus cuspidata//*//* 0.0042 * +EC2.3.1.162 taxadien-2alpha,5alpha,10beta-triol taxus cuspidata//*//* 0.0129 * +EC2.3.1.162 taxadien-2alpha,5alpha-diol taxus cuspidata//*//* 0.0239 * +EC2.3.1.162 taxadien-5alpha,9alpha,10beta,13alpha-tetraol taxus cuspidata//*//* 0.0173 * +EC2.3.1.162 taxadien-5alpha-acetoxy-9alpha,10beta,13alpha-triol taxus cuspidata//*//* 0.0835 * +EC2.3.1.162 taxadien-5alpha-ol taxus cuspidata//*//* 0.005 * +EC2.3.1.163 acetyl-coa taxus cuspidata//*//* 0.061 * +EC2.3.1.165 acetoacetyl-coa penicillium griseofulvum//*//* 0.065 * +EC2.3.1.165 acetyl-coa penicillium griseofulvum//*//* 0.01 * +EC2.3.1.165 malonyl-coa penicillium griseofulvum//*//* 0.007 * +EC2.3.1.165 nadph penicillium griseofulvum//*//* 0.012 * +EC2.3.1.166 2-debenzoyl-7,13-diacetylbaccatin iii taxus cuspidata//*//* 0.64 * +EC2.3.1.166 benzoyl-coa taxus cuspidata//*//* 0.3 * +EC2.3.1.167 10-deacetylbaccatin iii taxus cuspidata//*//* 0.01 * +EC2.3.1.167 acetyl-coa taxus cuspidata//*//* 0.008 * +EC2.3.1.168 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC2.3.1.168 dihydrolipoanide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC2.3.1.168 isobutyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.3.1.168 isovaleryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.3.1.169 acetyl-coa carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 0.28 * +EC2.3.1.169 ch3i moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 14.7 * +EC2.3.1.169 coa moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 4.3 * +EC2.3.1.17 2,3-diaminosuccinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.92 * +EC2.3.1.17 3-methyl-l-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.3.1.17 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.3.1.17 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.009 * +EC2.3.1.17 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC2.3.1.17 glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.0 * +EC2.3.1.17 l-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.3.1.17 l-aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC2.3.1.17 l-aspartate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.166 * +EC2.3.1.17 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6 * +EC2.3.1.171 cyanidin 3-o-beta-d-glucoside chrysanthemum x morifolium//*//* 0.0028 * +EC2.3.1.171 malonyl-coa chrysanthemum x morifolium//*//* 0.0041 * +EC2.3.1.171 malonyl-coa dahlia pinnata//*//* 0.0188 * +EC2.3.1.171 malonyl-coa pericallis cruenta//*//* 0.061 * +EC2.3.1.171 pelargonidin 3-o-beta-d-glucoside dahlia pinnata//*//* 0.0467 * +EC2.3.1.171 pelargonidin 3-o-beta-d-glucoside pericallis cruenta//*//* 0.011 * +EC2.3.1.172 cyanidin 3-o-[[2-o-(2-o-sinapoyl)-beta-d-xylosyl]-6-o-(6-o-(4-coumaroyl)-beta-d-glucoside)] 5-o-beta-d-glucoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0076 * +EC2.3.1.172 cyanidin 3-o-[[2-o-beta-d-xylosyl]-6-o-(6-o-(4-coumaroyl)-beta-d-glucoside)] 5-o-beta-d-glucoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC2.3.1.172 cyanin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.167 * +EC2.3.1.172 malonyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0021 * +EC2.3.1.172 malonyl-coa salvia splendens//*//* 0.0141 * +EC2.3.1.172 malvin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.26 * +EC2.3.1.172 pelargonidin 3-o-(6-caffeoyl-beta-d-glucoside) 5-o-beta-d-glucoside salvia splendens//*//* 0.101 * +EC2.3.1.172 shisonin salvia splendens//*//* 0.035 * +EC2.3.1.174 3-oxoadipyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.15 * +EC2.3.1.174 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.01 * +EC2.3.1.175 acetyl-coa acremonium chrysogenum//*//* 0.1 * +EC2.3.1.175 deacetylcephalosporin c acremonium chrysogenum//*//* 0.04 * +EC2.3.1.177 2-hydroxybenzoyl-coa sorbus aucuparia//*//* 0.0008 * +EC2.3.1.177 benzoyl-coa sorbus aucuparia//*//* 0.0007 * +EC2.3.1.177 malonyl-coa sorbus aucuparia//*//* 0.0062 * +EC2.3.1.178 2,4-diaminobutyrate methylophaga alcalica//*//* 0.375 * +EC2.3.1.178 2,4-diaminobutyrate methylophaga thalassica//*//* 0.37 * +EC2.3.1.178 acetyl-coa methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.0366 * +EC2.3.1.178 acetyl-coa methylophaga alcalica//*//* 0.03 * +EC2.3.1.178 acetyl-coa methylophaga thalassica//*//* 0.076 * +EC2.3.1.178 l-2,4-diaminobutanoate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.46 * +EC2.3.1.178 l-2,4-diaminobutanoate methylophaga alcalica//*//* 0.375 * +EC2.3.1.178 l-2,4-diaminobutanoate methylophaga thalassica//*//* 0.365 * +EC2.3.1.179 acetyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC2.3.1.179 cis-3-decenoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.3.1.179 decanoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0133 * +EC2.3.1.179 dodec-5-enoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC2.3.1.179 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0537 * +EC2.3.1.179 malonyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0082 * +EC2.3.1.179 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.51 * +EC2.3.1.179 malonyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0055 * +EC2.3.1.179 malonyl-phosphopantetheine-14-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0061 * +EC2.3.1.179 malonyl-phosphopantetheine-16-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0062 * +EC2.3.1.179 malonyl-phosphopantetheine-8-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0237 * +EC2.3.1.179 malonyl-phosphopantetheine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC2.3.1.179 myristoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0139 * +EC2.3.1.179 palmitoleoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.3.1.179 palmitoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0036 * +EC2.3.1.179 tetradec-7-enoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC2.3.1.179 tetradecanoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC2.3.1.18 4-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 27.2 * +EC2.3.1.18 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.3.1.18 butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.221 * +EC2.3.1.18 isopropyl beta-d-thiogalactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 360.0 * +EC2.3.1.18 isopropyl-thio-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 629.0 * +EC2.3.1.18 o-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 67.9 * +EC2.3.1.18 p-nitrophenyl-alpha-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.9 * +EC2.3.1.18 p-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC2.3.1.18 phenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 63.4 * +EC2.3.1.18 propionyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.098 * +EC2.3.1.180 2-methylbutyryl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.0063 * +EC2.3.1.180 acetyl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.0985 * +EC2.3.1.180 acetyl-coa pisum sativum//*//* 0.016 * +EC2.3.1.180 isobutyryl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.0243 * +EC2.3.1.180 isovaleryl-coa listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.0053 * +EC2.3.1.180 malonyl-[acyl-carrier protein] pisum sativum//*//* 0.009 * +EC2.3.1.181 apo-h protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0132 * +EC2.3.1.181 lipoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.3.1.181 octanoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0102 * +EC2.3.1.182 2-oxobutyrate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.695 * +EC2.3.1.182 acetyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 1.118 * +EC2.3.1.182 acetyl-coa methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.303 * +EC2.3.1.182 acetyl-coa rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 3.2 * +EC2.3.1.182 glyoxylate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 1.47 * +EC2.3.1.182 pyruvate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.043 * +EC2.3.1.182 pyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.184 * +EC2.3.1.183 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.03 * +EC2.3.1.183 l-methionine sulfone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.3.1.183 l-methionine sulfoximine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.3.1.183 l-methionine sulfoximine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.156 * +EC2.3.1.183 l-phosphinothricin nocardia sp. ab2253//*//* 2.2 * +EC2.3.1.183 l-phosphinothricin rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.076 * +EC2.3.1.183 methionine sulfone nocardia sp. ab2253//*//* 14.31 * +EC2.3.1.184 hexanoyl-[acyl-carrier protein] aliivibrio fischeri//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vfi 0.0096 * +EC2.3.1.184 s-adenosyl-l-methionine aliivibrio fischeri//prokaryotes;bacteria;gammaproteobacteria - others;aliivibrio//vfi 0.13 * +EC2.3.1.185 acetyl-coa datura stramonium//*//* 0.22 * +EC2.3.1.185 tropine datura stramonium//*//* 0.24 * +EC2.3.1.186 acetyl-coa datura stramonium//*//* 0.22 * +EC2.3.1.186 pseudotropine datura stramonium//*//* 0.36 * +EC2.3.1.186 tigloyl-coa datura stramonium//*//* 1.31 * +EC2.3.1.186 tropine datura stramonium//*//* 0.24 * +EC2.3.1.187 malonyl-coa acinetobacter calcoaceticus//*//* 0.05 * +EC2.3.1.187 malonyl-coa klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.016 * +EC2.3.1.187 methylmalonyl-coa acinetobacter calcoaceticus//*//* 0.01 * +EC2.3.1.187 methylmalonyl-coa klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.016 * +EC2.3.1.188 1-dodecanol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.002 * +EC2.3.1.188 1-dodecanol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.005 * +EC2.3.1.188 1-hexadecanol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.002 * +EC2.3.1.188 1-hexadecanol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.01 * +EC2.3.1.188 1-pentadecanol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0095 * +EC2.3.1.188 1-tetradecanol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.001 * +EC2.3.1.188 1-tetradecanol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.004 * +EC2.3.1.188 15-hydroxypentadecanoic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0112 * +EC2.3.1.188 15-hydroxypentadecanoic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0168 * +EC2.3.1.188 16-hydroxypalmitic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0003 * +EC2.3.1.188 16-hydroxypalmitic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.001 * +EC2.3.1.188 feruloyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.015 * +EC2.3.1.188 feruloyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.005 * +EC2.3.1.188 hexadecan-1,16-diol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0007 * +EC2.3.1.188 hexadecan-1,16-diol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0017 * +EC2.3.1.188 p-coumaroyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01 * +EC2.3.1.188 p-coumaroyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0143 * +EC2.3.1.188 sinapoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0033 * +EC2.3.1.188 sinapoyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0071 * +EC2.3.1.19 acetoacetyl-coa clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 1.1 * +EC2.3.1.19 acetyl-coa clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 3.33 * +EC2.3.1.19 butanoyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.11 * +EC2.3.1.19 butanoyl-coa clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 0.04 * +EC2.3.1.19 butanoylphosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.26 * +EC2.3.1.19 coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.077 * +EC2.3.1.19 phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.14 * +EC2.3.1.19 phosphate clostridium beijerinckii//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbe 6.5 * +EC2.3.1.190 acetoin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0028 * +EC2.3.1.191 (3r)-3-hydroxymyristoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0019 * +EC2.3.1.191 udp-3-o-((3r)-3-hydroxymyristoyl)-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.3.1.192 glycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.0 * +EC2.3.1.192 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 120.0 * +EC2.3.1.194 acetyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.068 * +EC2.3.1.194 malonyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.028 * +EC2.3.1.195 (3z)-hex-3-en-ol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.126 * +EC2.3.1.195 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.012 * +EC2.3.1.196 2-phenylethanol petunia x hybrida//*//* 0.686 * +EC2.3.1.196 3-hydroxybenzyl alcohol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.057 * +EC2.3.1.196 acetyl-coa clarkia breweri//*//* 0.818 * +EC2.3.1.196 acetyl-coa petunia x hybrida//*//* 0.682 * +EC2.3.1.196 acetyl-coa populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.246 * +EC2.3.1.196 benzoyl-coa clarkia breweri//*//* 0.0205 * +EC2.3.1.196 benzoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.035 * +EC2.3.1.196 benzoyl-coa petunia x hybrida//*//* 0.875 * +EC2.3.1.196 benzoyl-coa populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.046 * +EC2.3.1.196 benzoyl-coa vitis labrusca//*//* 0.0118 * +EC2.3.1.196 benzyl alcohol clarkia breweri//*//* 0.0468 * +EC2.3.1.196 benzyl alcohol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.019 * +EC2.3.1.196 benzyl alcohol petunia x hybrida//*//* 0.029 * +EC2.3.1.196 benzyl alcohol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.059 * +EC2.3.1.196 cinnamoyl-coa clarkia breweri//*//* 0.464 * +EC2.3.1.196 cinnamyl alcohol clarkia breweri//*//* 0.0978 * +EC2.3.1.196 salicyl alcohol populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.044 * +EC2.3.1.197 acetyl-coa aneurinibacillus thermoaerophilus//*//* 0.061 * +EC2.3.1.197 dtdp-3-amino-3,6-dideoxy-alpha-d-galactopyranose aneurinibacillus thermoaerophilus//*//* 0.0667 * +EC2.3.1.199 decanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.83 * +EC2.3.1.199 lauroyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC2.3.1.199 myristoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.3.1.199 octanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.3.1.199 palmitoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC2.3.1.20 1,2-diolein mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.014 * +EC2.3.1.20 11-cis-retinol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0085 * +EC2.3.1.20 13-cis-retinol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0188 * +EC2.3.1.20 all-trans-retinol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0099 * +EC2.3.1.20 butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.016 * +EC2.3.1.20 diolein mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.028 * +EC2.3.1.20 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0057 * +EC2.3.1.20 oleoyl-coa helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.06 * +EC2.3.1.20 oleoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.026 * +EC2.3.1.20 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0046 * +EC2.3.1.20 palmitoyl-coa acinetobacter sp. adp1//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0211 * +EC2.3.1.20 palmitoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.006 * +EC2.3.1.20 palmitoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.39 * +EC2.3.1.20 sn-1,2-diolein glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.006 * +EC2.3.1.201 udp-2-acetamido-3-amino-2,3-dideoxy-alpha-d-glucuronate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.107 * +EC2.3.1.203 udp-2-acetamido-4-amino-2,4,6-trideoxy-alpha-d-glucopyranose acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 2.52 * +EC2.3.1.203 udp-2-acetamido-4-amino-2,4,6-trideoxy-alpha-d-glucopyranose neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.099 * +EC2.3.1.203 udp-4-amino-4,6-dideoxy-n-acetyl-alpha-d-glucosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.41 * +EC2.3.1.206 butyryl-coa cannabis sativa//*//* 0.0861 * +EC2.3.1.206 hexanoyl-coa cannabis sativa//*//* 0.0569 * +EC2.3.1.208 2-hydroxybenzoyl-coa sorbus aucuparia//*//* 0.0008 * +EC2.3.1.208 malonyl-coa sorbus aucuparia//*//* 0.0062 * +EC2.3.1.21 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC2.3.1.21 butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0051 * +EC2.3.1.21 butyryl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC2.3.1.21 coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0055 * +EC2.3.1.21 decanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0009 * +EC2.3.1.21 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC2.3.1.21 dodecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC2.3.1.21 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0018 * +EC2.3.1.21 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.152 * +EC2.3.1.21 l-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.108 * +EC2.3.1.21 l-carnitine ctenopharyngodon idella//*//* 0.4893 * +EC2.3.1.21 l-carnitine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.406 * +EC2.3.1.21 l-carnitine felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.424 * +EC2.3.1.21 l-carnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.3.1.21 l-carnitine macrobrachium borellii//*//* 2.18 * +EC2.3.1.21 l-carnitine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.215 * +EC2.3.1.21 l-carnitine pelteobagrus fulvidraco//*//* 0.69 * +EC2.3.1.21 l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0049 * +EC2.3.1.21 l-carnitine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.147 * +EC2.3.1.21 l-octanoylcarnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.139 * +EC2.3.1.21 l-palmitoylcarnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC2.3.1.21 l-palmitoylcarnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.123 * +EC2.3.1.21 lauroyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.013 * +EC2.3.1.21 lauroyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.3.1.21 myristoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC2.3.1.21 myristoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC2.3.1.21 octanoyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0085 * +EC2.3.1.21 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.3.1.21 palmitoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0008 * +EC2.3.1.21 palmitoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.104 * +EC2.3.1.21 palmitoyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0052 * +EC2.3.1.21 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC2.3.1.21 palmitoyl-coa macrobrachium borellii//*//* 0.0989 * +EC2.3.1.21 palmitoyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.03 * +EC2.3.1.21 palmitoyl-coa pelteobagrus fulvidraco//*//* 0.0127 * +EC2.3.1.21 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0049 * +EC2.3.1.21 palmitoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.079 * +EC2.3.1.21 stearoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0017 * +EC2.3.1.21 stearoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.3.1.21 trans-2-hexadecenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC2.3.1.212 4-coumaroyl-coa rubus idaeus//*//* 0.003 * +EC2.3.1.212 d-phenylalanyl-coa rheum palmatum//*//* 0.0033 * +EC2.3.1.212 l-phenylalanyl-coa rheum palmatum//*//* 0.0117 * +EC2.3.1.212 malonyl-coa rubus idaeus//*//* 0.001 * +EC2.3.1.212 n-methylanthraniloyl-coa rheum palmatum//*//* 0.0237 * +EC2.3.1.214 4'''-demalonylsalvianin salvia splendens//*//* 0.0513 * +EC2.3.1.214 malonyl-coa salvia splendens//*//* 0.0069 * +EC2.3.1.215 acetyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0169 * +EC2.3.1.215 caffeoyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0041 * +EC2.3.1.215 coumaroyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0012 * +EC2.3.1.215 cyanidin 3-o,5-o-beta-d-diglucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.064 * +EC2.3.1.215 cyanidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.506 * +EC2.3.1.215 delphinidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.765 * +EC2.3.1.215 malonyl-coa vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.588 * +EC2.3.1.215 malvidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.098 * +EC2.3.1.215 peonidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.079 * +EC2.3.1.217 feruloyl-coa curcuma longa//*//* 0.0022 * +EC2.3.1.219 4-coumaroyl-coa curcuma longa//*//* 0.0034 * +EC2.3.1.22 1-oleoyl-sn-glycerol arachis hypogaea//*//* 0.01481 * +EC2.3.1.22 1-oleoylglycerol arachis hypogaea//*//* 0.00565 * +EC2.3.1.22 1-palmitoylglycerol arachis hypogaea//*//* 0.01639 * +EC2.3.1.22 2-oleoyl-sn-glycerol locusta migratoria//*//* 0.16 * +EC2.3.1.22 linoleoyl-coa zonotrichia albicollis//*//* 0.047 * +EC2.3.1.22 oleoyl-coa arachis hypogaea//*//* 0.00832 * +EC2.3.1.22 palmitoyl-coa arachis hypogaea//*//* 0.01754 * +EC2.3.1.22 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC2.3.1.22 sn-2-monolinolenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0071 * +EC2.3.1.22 sn-2-monolinoleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC2.3.1.22 sn-2-monooleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC2.3.1.22 stearoyl-coa arachis hypogaea//*//* 0.02566 * +EC2.3.1.220 benzoyl-coa garcinia mangostana//*//* 0.00965 * +EC2.3.1.220 benzoyl-coa hypericum androsaemum//*//* 0.0086 * +EC2.3.1.220 malonyl-coa garcinia mangostana//*//* 0.0164 * +EC2.3.1.220 malonyl-coa hypericum androsaemum//*//* 0.0313 * +EC2.3.1.221 acetyl-[acyl-carrier protein] aspergillus parasiticus//*//* 15.38 * +EC2.3.1.221 hexanoyl-[acyl-carrier protein] aspergillus parasiticus//*//* 1.46 * +EC2.3.1.222 acetyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.97 * +EC2.3.1.222 propanoyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.61 * +EC2.3.1.224 acetyl-coa clarkia breweri//*//* 0.024 * +EC2.3.1.224 benzyl alcohol clarkia breweri//*//* 0.12 * +EC2.3.1.224 benzyl alcohol clarkia concinna//*//* 0.12 * +EC2.3.1.224 malonyl-coa salvia splendens//*//* 0.0069 * +EC2.3.1.224 monodemalonylsalvianin salvia splendens//*//* 0.0513 * +EC2.3.1.226 (s)-1-pyrroline-5-carboxylate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0015 * +EC2.3.1.226 malonyl-coa pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0027 * +EC2.3.1.227 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC2.3.1.227 gdp-4-amino-4,6-dideoxy-alpha-d-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC2.3.1.228 isopentyl-coa bradyrhizobium diazoefficiens//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bja 0.0079 * +EC2.3.1.228 isovaleryl-acp bradyrhizobium diazoefficiens//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bja 0.317 * +EC2.3.1.228 isovaleryl-coa bradyrhizobium diazoefficiens//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bja 0.007 * +EC2.3.1.228 s-adenosyl-l-methionine bradyrhizobium diazoefficiens//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bja 0.039 * +EC2.3.1.23 1-acyl-glycero-3-phosphocholine oncorhynchus mykiss//*//* 0.012 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine allium ampeloprasum//*//* 0.032 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine cavia porcellus//*//* 0.0124 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.107 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.069 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphocholine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0017 * +EC2.3.1.23 1-acyl-sn-glycero-3-phosphoinositol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0138 * +EC2.3.1.23 1-alkenyl-sn-glycero-3-phosphocholine cavia porcellus//*//* 0.092 * +EC2.3.1.23 1-palmitoyl-lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7219 * +EC2.3.1.23 acyl-coa mammalia//*//* 0.00105 * +EC2.3.1.23 alpha-linolenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.214 * +EC2.3.1.23 arachidonoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.3.1.23 arachidonoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0032 * +EC2.3.1.23 linoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2014 * +EC2.3.1.23 linoleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0035 * +EC2.3.1.23 lysophosphatidylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC2.3.1.23 lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC2.3.1.23 lysophosphatidylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.3.1.23 oleoyl-coa allium ampeloprasum//*//* 0.026 * +EC2.3.1.23 oleoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.3.1.23 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC2.3.1.23 oleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC2.3.1.23 oleoyl-coa oncorhynchus mykiss//*//* 0.0012 * +EC2.3.1.23 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC2.3.1.23 oleoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.152 * +EC2.3.1.23 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04129 * +EC2.3.1.23 palmitoyl-coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0085 * +EC2.3.1.23 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0027 * +EC2.3.1.23 palmitoyl-glycero-3-phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0065 * +EC2.3.1.23 stearoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC2.3.1.230 2-aminobenzoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.035 * +EC2.3.1.230 3-oxodecanoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.3 * +EC2.3.1.230 malonyl-[acyl-carrier protein] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.018 * +EC2.3.1.230 malonyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0487 * +EC2.3.1.232 anthraniloyl-coa vitis labrusca//*//* 0.00251 * +EC2.3.1.232 methanol vitis labrusca//*//* 0.015 * +EC2.3.1.233 hexanoyl-coa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0132 * +EC2.3.1.233 malonyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0023 * +EC2.3.1.233 malonyl-coa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0011 * +EC2.3.1.238 (s)-2-methylbutanoyl-[2-methylbutanoate polyketide synthase] aspergillus terreus//*//* 0.039 * +EC2.3.1.238 butyryl-coa aspergillus terreus//*//* 1.59 * +EC2.3.1.24 behenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.299 * +EC2.3.1.24 d-sphingosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC2.3.1.24 hexanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.522 * +EC2.3.1.24 lauroyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.358 * +EC2.3.1.24 oleoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC2.3.1.24 palmitoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.141 * +EC2.3.1.24 palmitoyl-coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0124 * +EC2.3.1.24 sphinganine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.144 * +EC2.3.1.24 sphinganine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.035 * +EC2.3.1.24 sphingosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.171 * +EC2.3.1.24 stearoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.146 * +EC2.3.1.24 stearoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC2.3.1.241 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-hydroxytetradecanoyl]amino]-3-o-[(3r)-3-hydroxytetradecanoyl]-4-o-phosphono-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.3.1.241 dodecanoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC2.3.1.246 malonyl-coa amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.015 * +EC2.3.1.247 (5s)-5-amino-3-oxohexanoate candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 0.208 * +EC2.3.1.25 1-alkenyl-glycero-3-phosphorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0265 * +EC2.3.1.25 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00077 * +EC2.3.1.253 malonyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0056 * +EC2.3.1.254 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC2.3.1.254 mfgpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.734 * +EC2.3.1.254 migpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.185 * +EC2.3.1.254 mlalisrrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.3.1.254 mldpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC2.3.1.254 mlgpeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC2.3.1.254 mlgteeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.416 * +EC2.3.1.254 mlgtgparwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.3.1.254 mllpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.478 * +EC2.3.1.254 mlrpeeggrwgrpvgrrrrrpvrvyp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.3.1.255 acetyl-coa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.6717 * +EC2.3.1.258 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.3.1.258 mfgperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.734 * +EC2.3.1.258 migperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.185 * +EC2.3.1.258 mlalirrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.3.1.258 mldperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC2.3.1.258 mlgperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC2.3.1.258 mlgterrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.416 * +EC2.3.1.258 mlgtgrrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.3.1.258 mllperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.478 * +EC2.3.1.258 mlrperrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.3.1.26 cholesterol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.00163 * +EC2.3.1.26 cholesterol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC2.3.1.26 elaidoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC2.3.1.26 linoleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC2.3.1.26 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC2.3.1.26 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.3.1.26 oleoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.069 * +EC2.3.1.26 oleoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.004 * +EC2.3.1.26 oleyl-coa chlorocebus aethiops//*//* 2.66e-06 * +EC2.3.1.26 palmitoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.038 * +EC2.3.1.26 pregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC2.3.1.26 stearoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC2.3.1.263 2-amino-4-oxopentanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.035 * +EC2.3.1.263 coa acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.00025 * +EC2.3.1.28 acetyl-coa bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 0.028 * +EC2.3.1.28 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.055 * +EC2.3.1.28 acetyl-coa flavobacterium sp.//*//* 0.065 * +EC2.3.1.28 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.094 * +EC2.3.1.28 acetyl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0465 * +EC2.3.1.28 acetyl-coa staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.0561 * +EC2.3.1.28 acetyl-coa staphylococcus sp.//*//* 0.0573 * +EC2.3.1.28 acetyl-coa vibrio anguillarum//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//van 0.156 * +EC2.3.1.28 chloramphenicol agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.0205 * +EC2.3.1.28 chloramphenicol bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 0.025 * +EC2.3.1.28 chloramphenicol clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.0215 * +EC2.3.1.28 chloramphenicol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0061 * +EC2.3.1.28 chloramphenicol flavobacterium sp.//*//* 0.03 * +EC2.3.1.28 chloramphenicol haemophilus parainfluenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hpr 0.0175 * +EC2.3.1.28 chloramphenicol morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 5.0 * +EC2.3.1.28 chloramphenicol proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.031 * +EC2.3.1.28 chloramphenicol pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.011 * +EC2.3.1.28 chloramphenicol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00247 * +EC2.3.1.28 chloramphenicol staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.00272 * +EC2.3.1.28 chloramphenicol staphylococcus sp.//*//* 0.00258 * +EC2.3.1.28 chloramphenicol streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.0093 * +EC2.3.1.28 chloramphenicol streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.01 * +EC2.3.1.28 chloramphenicol streptomyces acrimycini//*//* 0.0166 * +EC2.3.1.28 chloramphenicol vibrio anguillarum//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//van 0.0345 * +EC2.3.1.28 d-threo-1-p-nitrophenyl-2-bromoacetamido-1,3-propanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0037 * +EC2.3.1.28 d-threo-1-p-nitrophenyl-2-bromoacetamido-1,3-propanediol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.022 * +EC2.3.1.28 d-threo-1-phenyl-2-dichloroacetamido-1,3-propanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC2.3.1.28 d-threo-1-phenyl-2-dichloroacetamido-1,3-propanediol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.068 * +EC2.3.1.29 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.053 * +EC2.3.1.29 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.059 * +EC2.3.1.29 acetyl-coa thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.03 * +EC2.3.1.29 butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC2.3.1.29 glycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 22.0 * +EC2.3.1.29 glycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC2.3.1.29 glycine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.25 * +EC2.3.1.29 l-alanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 11.8 * +EC2.3.1.29 propionyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.3.1.3 d-glucosamine avena sativa//*//* 0.24 * +EC2.3.1.30 acetyl-coa allium cepa//*//* 0.092 * +EC2.3.1.30 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC2.3.1.30 acetyl-coa citrullus lanatus subsp. vulgaris//*//* 0.13 * +EC2.3.1.30 acetyl-coa entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.2 * +EC2.3.1.30 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC2.3.1.30 acetyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.31 * +EC2.3.1.30 acetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.7 * +EC2.3.1.30 acetyl-coa paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.1 * +EC2.3.1.30 acetyl-coa phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.2 * +EC2.3.1.30 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC2.3.1.30 acetyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.35 * +EC2.3.1.30 acetyl-coa thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.011 * +EC2.3.1.30 acetyl-coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.92 * +EC2.3.1.30 l-ser glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.27 * +EC2.3.1.30 l-serine allium cepa//*//* 0.72 * +EC2.3.1.30 l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.59 * +EC2.3.1.30 l-serine citrullus lanatus subsp. vulgaris//*//* 0.59 * +EC2.3.1.30 l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0435 * +EC2.3.1.30 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.3.1.30 l-serine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.7 * +EC2.3.1.30 l-serine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.4 * +EC2.3.1.30 l-serine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.6 * +EC2.3.1.30 l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.7 * +EC2.3.1.30 l-serine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.29 * +EC2.3.1.30 l-serine thermus thermophilus hb8//prokaryotes;bacteria;deinococcus-thermus;thermus//ttj 0.013 * +EC2.3.1.30 l-serine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.24 * +EC2.3.1.31 3-amino-1-propanol haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 71.0 * +EC2.3.1.31 4-hydroxybutyric acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 19.0 * +EC2.3.1.31 4-nitrophenyl acetate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.4 * +EC2.3.1.31 acetyl-coa bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.185 * +EC2.3.1.31 acetyl-coa brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.05 * +EC2.3.1.31 acetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.14 * +EC2.3.1.31 acetyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.95 * +EC2.3.1.31 acetyl-coa paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.2 * +EC2.3.1.31 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC2.3.1.31 acetyl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0209 * +EC2.3.1.31 acetyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.13 * +EC2.3.1.31 beta-hydroxybutyryl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.083 * +EC2.3.1.31 butyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.21 * +EC2.3.1.31 butyryl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0441 * +EC2.3.1.31 coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.62 * +EC2.3.1.31 coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.14 * +EC2.3.1.31 crotonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.13 * +EC2.3.1.31 d-homoserine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.7 * +EC2.3.1.31 d-homoserine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 280.0 * +EC2.3.1.31 glutaryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.28 * +EC2.3.1.31 glutaryl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.18 * +EC2.3.1.31 isobutyryl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.068 * +EC2.3.1.31 l-homoserine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.2 * +EC2.3.1.31 l-homoserine brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 2.8 * +EC2.3.1.31 l-homoserine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.13 * +EC2.3.1.31 l-homoserine leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 1.6 * +EC2.3.1.31 l-homoserine paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.2 * +EC2.3.1.31 l-homoserine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC2.3.1.31 l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.09 * +EC2.3.1.31 l-homoserine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.24 * +EC2.3.1.31 malonyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.017 * +EC2.3.1.31 o-acetyl-l-homoserine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.85 * +EC2.3.1.31 o-acetylhomoserine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.7 * +EC2.3.1.31 propionyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.09 * +EC2.3.1.31 propionyl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0484 * +EC2.3.1.31 propionyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.044 * +EC2.3.1.31 succinyl-coa bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.273 * +EC2.3.1.31 succinyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.36 * +EC2.3.1.31 succinyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.051 * +EC2.3.1.32 acetyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.35 * +EC2.3.1.32 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0003 * +EC2.3.1.32 acetyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.01 * +EC2.3.1.32 acs (amp forming) salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.132 * +EC2.3.1.32 histone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.075 * +EC2.3.1.32 l-lysine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.24 * +EC2.3.1.32 l-ornithine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.32 * +EC2.3.1.33 acetylcoenzyme a oreochromis niloticus//*//* 0.027 * +EC2.3.1.33 l-histidine oreochromis niloticus//*//* 0.45 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 5.5 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine chlorella vulgaris//*//* 0.2 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.4 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 9.6 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine pisum sativum//*//* 6.25 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 3.6 * +EC2.3.1.35 alpha-n-acetyl-l-ornithine thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 8.1 * +EC2.3.1.35 l-glutamate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.13 * +EC2.3.1.35 l-glutamate citrullus lanatus//*//* 17.8 * +EC2.3.1.35 l-glutamate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 19.2 * +EC2.3.1.35 l-glutamate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 11.3 * +EC2.3.1.35 l-glutamate pisum sativum//*//* 14.65 * +EC2.3.1.35 l-glutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.2 * +EC2.3.1.35 l-glutamate thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 27.9 * +EC2.3.1.35 l-ornithine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC2.3.1.35 n-acetylglutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.1 * +EC2.3.1.35 n2-acetyl-l-ornithine citrullus lanatus//*//* 3.4 * +EC2.3.1.36 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.227 * +EC2.3.1.36 d-tryptophan saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC2.3.1.36 propionyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.263 * +EC2.3.1.37 2-hydroxybutanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0098 * +EC2.3.1.37 butanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0061 * +EC2.3.1.37 glutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.017 * +EC2.3.1.37 glycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.3.1.37 glycine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.0 * +EC2.3.1.37 glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00045 * +EC2.3.1.37 glycine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 12.0 * +EC2.3.1.37 glycine protaminobacter rubrum//*//* 1.05 * +EC2.3.1.37 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC2.3.1.37 glycine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 8.33 * +EC2.3.1.37 glycine rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 2.01 * +EC2.3.1.37 glycine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC2.3.1.37 octanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0034 * +EC2.3.1.37 pyridoxal 5'-phosphate protaminobacter rubrum//*//* 0.00077 * +EC2.3.1.37 pyridoxal 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.3.1.37 pyridoxal 5'-phosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.015 * +EC2.3.1.37 pyridoxal phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC2.3.1.37 succinyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.013 * +EC2.3.1.37 succinyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC2.3.1.37 succinyl-coa paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.01 * +EC2.3.1.37 succinyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.3.1.37 succinyl-coa rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 49.55 * +EC2.3.1.37 succinyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.002 * +EC2.3.1.38 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.3.1.38 acetyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.008 * +EC2.3.1.38 acetyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.0043 * +EC2.3.1.38 acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.3.1.38 butyryl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0083 * +EC2.3.1.38 hexanoyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0086 * +EC2.3.1.39 acyl-carrier protein anabaena variabilis//*//* 0.4 * +EC2.3.1.39 acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.351 * +EC2.3.1.39 acyl-carrier protein persea americana//*//* 0.042 * +EC2.3.1.39 acyl-carrier protein spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.4 * +EC2.3.1.39 acyl-carrier protein streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.073 * +EC2.3.1.39 holo-acyl-carrier protein mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0141 * +EC2.3.1.39 malonyl coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0094 * +EC2.3.1.39 malonyl-coa anabaena variabilis//*//* 0.3 * +EC2.3.1.39 malonyl-coa eimeria tenella//*//* 0.0228 * +EC2.3.1.39 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC2.3.1.39 malonyl-coa klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.016 * +EC2.3.1.39 malonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0167 * +EC2.3.1.39 malonyl-coa persea americana//*//* 0.00326 * +EC2.3.1.39 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC2.3.1.39 malonyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.5 * +EC2.3.1.39 malonyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0208 * +EC2.3.1.39 methylmalonyl-coa klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.016 * +EC2.3.1.39 pantetheine persea americana//*//* 0.00134 * +EC2.3.1.4 acetyl-coa aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.5 * +EC2.3.1.4 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.033 * +EC2.3.1.4 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC2.3.1.4 acetyl-coa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.5 * +EC2.3.1.4 acetyl-coa oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.18 * +EC2.3.1.4 acetyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.25 * +EC2.3.1.4 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.3.1.4 d-glucosamine 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.231 * +EC2.3.1.4 d-glucosamine 6-phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.071 * +EC2.3.1.4 d-glucosamine 6-phosphate blastocladiella emersonii//*//* 0.24 * +EC2.3.1.4 d-glucosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC2.3.1.4 d-glucosamine 6-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.7 * +EC2.3.1.4 d-glucosamine 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.145 * +EC2.3.1.4 d-glucosamine 6-phosphate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.45 * +EC2.3.1.4 d-glucosamine 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.3.1.4 d-glucosamine 6-phosphate vigna radiata var. radiata//*//* 0.7 * +EC2.3.1.4 d-glucosamine-6-phosphate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.3 * +EC2.3.1.4 glucosamine 6-phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.071 * +EC2.3.1.4 na2s-acetyl coenzyme a blastocladiella emersonii//*//* 0.038 * +EC2.3.1.41 acetyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC2.3.1.41 acetyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.3.1.41 acetyl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0062 * +EC2.3.1.41 acetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0403 * +EC2.3.1.41 acetyl-coa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.0024 * +EC2.3.1.41 butanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC2.3.1.41 butyryl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0023 * +EC2.3.1.41 butyryl-coa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.00071 * +EC2.3.1.41 cis-3-decenoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.3.1.41 cis-9-hexadecenoyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.3.1.41 decanoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0031 * +EC2.3.1.41 decanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.3.1.41 decanoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0133 * +EC2.3.1.41 dodecanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0095 * +EC2.3.1.41 dodecanoyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0023 * +EC2.3.1.41 eicosanoyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.002 * +EC2.3.1.41 hexanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC2.3.1.41 hexanoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0075 * +EC2.3.1.41 isobutyryl-coa staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00032 * +EC2.3.1.41 isobutyryl-coa streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.00041 * +EC2.3.1.41 lauroyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0032 * +EC2.3.1.41 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0586 * +EC2.3.1.41 malonyl-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC2.3.1.41 malonyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0135 * +EC2.3.1.41 malonyl-[acyl-carrier protein] streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0186 * +EC2.3.1.41 malonyl-[acyl-carrier protein] streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.0037 * +EC2.3.1.41 malonyl-acp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0115 * +EC2.3.1.41 malonyl-acp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0058 * +EC2.3.1.41 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.153 * +EC2.3.1.41 malonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.009 * +EC2.3.1.41 malonyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.004 * +EC2.3.1.41 malonyl-phosphopantetheine-14-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0158 * +EC2.3.1.41 malonyl-phosphopantetheine-14-mer mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0086 * +EC2.3.1.41 malonyl-phosphopantetheine-16-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC2.3.1.41 malonyl-phosphopantetheine-16-mer mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0051 * +EC2.3.1.41 malonyl-phosphopantetheine-8-mer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0142 * +EC2.3.1.41 malonyl-phosphopantetheine-8-mer mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0047 * +EC2.3.1.41 myristoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0508 * +EC2.3.1.41 octanoyl-[acyl-carrier protein] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC2.3.1.41 palmitoyl-[acyl-carrier protein] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0014 * +EC2.3.1.41 palmitoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0036 * +EC2.3.1.41 palmitoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0004 * +EC2.3.1.41 tetradecanoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0091 * +EC2.3.1.42 dihydroxyacetone phosphate cavia porcellus//*//* 0.04 * +EC2.3.1.42 dihydroxyacetone phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC2.3.1.42 dihydroxyacetone phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.7 * +EC2.3.1.42 dihydroxyacetone phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.79 * +EC2.3.1.42 palmitoyl-coa cavia porcellus//*//* 0.04 * +EC2.3.1.43 1,2-bis-(1-pyrenebutanoyl)-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.3.1.43 apo-a-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.1e-05 * +EC2.3.1.43 cholesterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.4 * +EC2.3.1.44 acetyl-coa cavia porcellus//*//* 0.00061 * +EC2.3.1.44 acetyl-coa equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0321 * +EC2.3.1.44 ganglioside gd3 cavia porcellus//*//* 0.0012 * +EC2.3.1.45 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC2.3.1.45 acetyl-coa cavia porcellus//*//* 0.0036 * +EC2.3.1.45 acetyl-coa equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0321 * +EC2.3.1.45 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00292 * +EC2.3.1.45 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC2.3.1.45 cmp-5-n-acetyl-neuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC2.3.1.45 cmp-5-n-acetylneuraminic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0592 * +EC2.3.1.45 cmp-n-acetylneuraminic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0073 * +EC2.3.1.45 n-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC2.3.1.45 n-acetylneuraminic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1385 * +EC2.3.1.45 n-glycolylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.39 * +EC2.3.1.47 (s)-8-amino-7-oxononanoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0013 * +EC2.3.1.47 l-alanine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.23 * +EC2.3.1.47 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC2.3.1.47 l-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.09 * +EC2.3.1.47 l-alanine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.002 * +EC2.3.1.47 l-alanine symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 2.28 * +EC2.3.1.47 pimeloyl-coa aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.01 * +EC2.3.1.47 pimeloyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.3.1.47 pimeloyl-coa geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.02 * +EC2.3.1.47 pimeloyl-coa lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.001 * +EC2.3.1.47 pimeloyl-coa symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 0.03 * +EC2.3.1.47 s-adenosyl-l-methionine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0014 * +EC2.3.1.48 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC2.3.1.48 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC2.3.1.48 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.3.1.48 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0003 * +EC2.3.1.48 acetyl-coa tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.00058 * +EC2.3.1.48 histone h3 tail peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.112 * +EC2.3.1.48 histone h3-peptide p19 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.12 * +EC2.3.1.48 histone h3-peptide p27 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.3.1.48 histone h3-peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.3.1.48 histone h3-peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.49 * +EC2.3.1.48 histone h3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC2.3.1.48 histone h3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.007 * +EC2.3.1.48 histone h3 tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.357 * +EC2.3.1.48 histone h4 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0208 * +EC2.3.1.48 histone h4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3e-06 * +EC2.3.1.48 piccolonua4 peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.216 * +EC2.3.1.48 protein p53 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.63 * +EC2.3.1.48 spermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC2.3.1.48 spermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.3.1.5 2,3-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.11 * +EC2.3.1.5 2,4-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.06 * +EC2.3.1.5 2,5-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.12 * +EC2.3.1.5 2-amino-4-chlorophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.9 * +EC2.3.1.5 2-amino-4-methylphenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.06 * +EC2.3.1.5 2-aminobenzoic acid klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 13.0 * +EC2.3.1.5 2-aminofluorene anisakis simplex//*//* 1.06 * +EC2.3.1.5 2-aminofluorene bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.084 * +EC2.3.1.5 2-aminofluorene bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 5.8 * +EC2.3.1.5 2-aminofluorene candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.17 * +EC2.3.1.5 2-aminofluorene citrobacter amalonaticus//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cama 0.082 * +EC2.3.1.5 2-aminofluorene citrobacter farmeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfar 0.064 * +EC2.3.1.5 2-aminofluorene citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.165 * +EC2.3.1.5 2-aminofluorene citrobacter koseri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cko 0.096 * +EC2.3.1.5 2-aminofluorene enterobius vermicularis//*//* 0.81 * +EC2.3.1.5 2-aminofluorene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00019 * +EC2.3.1.5 2-aminofluorene helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.106 * +EC2.3.1.5 2-aminofluorene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.109 * +EC2.3.1.5 2-aminofluorene klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.72 * +EC2.3.1.5 2-aminofluorene klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.158 * +EC2.3.1.5 2-aminofluorene klebsiella pneumoniae subsp. rhinoscleromatis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpr 0.141 * +EC2.3.1.5 2-aminofluorene klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.92 * +EC2.3.1.5 2-aminofluorene lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.842 * +EC2.3.1.5 2-aminofluorene morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.117 * +EC2.3.1.5 2-aminofluorene mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 0.146 * +EC2.3.1.5 2-aminofluorene pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.000153 * +EC2.3.1.5 2-aminofluorene salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.311 * +EC2.3.1.5 2-aminofluorene serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.079 * +EC2.3.1.5 2-aminophenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.79 * +EC2.3.1.5 2-ethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.11 * +EC2.3.1.5 2-methylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.32 * +EC2.3.1.5 2-toluidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.3.1.5 2-toluidine mesocricetus auratus//*//* 1.1 * +EC2.3.1.5 3,4-dichloroaniline mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 0.157 * +EC2.3.1.5 3,4-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.352 * +EC2.3.1.5 3,5-dimethyl-4-nitroaniline bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.5 * +EC2.3.1.5 3,5-dimethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.3.1.5 3-amino-4-hydroxybenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.32 * +EC2.3.1.5 3-aminobenzoic acid klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 12.5 * +EC2.3.1.5 3-ethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.576 * +EC2.3.1.5 4-amino-3-hydroxybenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC2.3.1.5 4-amino-3-methylbenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC2.3.1.5 4-amino-3-methylbenzoic acid mesocricetus auratus//*//* 0.18 * +EC2.3.1.5 4-amino-4'-nitroazobenzene bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.04 * +EC2.3.1.5 4-aminobenzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC2.3.1.5 4-aminobenzoate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.42 * +EC2.3.1.5 4-aminobenzoic acid anisakis simplex//*//* 2.25 * +EC2.3.1.5 4-aminobenzoic acid helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.34 * +EC2.3.1.5 4-aminobenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC2.3.1.5 4-aminobenzoic acid mesocricetus auratus//*//* 0.061 * +EC2.3.1.5 4-aminobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.191 * +EC2.3.1.5 4-aminosalicylate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.834 * +EC2.3.1.5 4-aminosalicylate mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 3.827 * +EC2.3.1.5 4-aminosalicylic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.34 * +EC2.3.1.5 4-aminosalicylic acid citrobacter farmeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfar 1.79 * +EC2.3.1.5 4-aminosalicylic acid citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.2 * +EC2.3.1.5 4-aminosalicylic acid citrobacter koseri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cko 0.86 * +EC2.3.1.5 4-aminosalicylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.16 * +EC2.3.1.5 4-aminosalicylic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.258 * +EC2.3.1.5 4-anisidine mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 1.8 * +EC2.3.1.5 4-anisidine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.8 * +EC2.3.1.5 4-anisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.8 * +EC2.3.1.5 4-bromoaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.8 * +EC2.3.1.5 4-butoxyaniline mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 0.462 * +EC2.3.1.5 4-butoxyaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.33 * +EC2.3.1.5 4-chloroaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.0 * +EC2.3.1.5 4-chloroaniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.0 * +EC2.3.1.5 4-ethoxyaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.01 * +EC2.3.1.5 4-ethylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.205 * +EC2.3.1.5 4-fluoroaniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 51.0 * +EC2.3.1.5 4-hydroxybenzhydrazide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 20.0 * +EC2.3.1.5 4-iodoaniline mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 1.386 * +EC2.3.1.5 4-iodoaniline mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.0 * +EC2.3.1.5 4-methylaniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.483 * +EC2.3.1.5 4-methylaniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11.0 * +EC2.3.1.5 4-nitroaniline bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.28 * +EC2.3.1.5 4-nitroaniline pichia ciferrii//*//* 0.28 * +EC2.3.1.5 4-nitroaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.28 * +EC2.3.1.5 4-nitrobenzalhydrazone bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.3 * +EC2.3.1.5 4-nitrophenyl acetate mesocricetus auratus//*//* 9.0 * +EC2.3.1.5 4-phenylenediamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 3.2 * +EC2.3.1.5 5-aminosalicylate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.228 * +EC2.3.1.5 5-aminosalicylate mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 0.662 * +EC2.3.1.5 5-aminosalicylate mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.2 * +EC2.3.1.5 5-aminosalicylate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.25 * +EC2.3.1.5 5-aminosalicylic acid citrobacter amalonaticus//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cama 0.112 * +EC2.3.1.5 5-aminosalicylic acid citrobacter farmeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfar 0.061 * +EC2.3.1.5 5-aminosalicylic acid citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.158 * +EC2.3.1.5 5-aminosalicylic acid citrobacter koseri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cko 0.21 * +EC2.3.1.5 5-aminosalicylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.117 * +EC2.3.1.5 5-aminosalicylic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC2.3.1.5 5-aminosalicylic acid klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.347 * +EC2.3.1.5 5-aminosalicylic acid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 1.2 * +EC2.3.1.5 5-aminosalicylic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC2.3.1.5 5-aminosalicylic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.026 * +EC2.3.1.5 5-aminosalicylic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.208 * +EC2.3.1.5 acetyl-coa bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.05 * +EC2.3.1.5 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC2.3.1.5 acetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.013 * +EC2.3.1.5 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0543 * +EC2.3.1.5 acetyl-coa musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0084 * +EC2.3.1.5 acetyl-coa mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 0.07 * +EC2.3.1.5 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.07 * +EC2.3.1.5 acetyl-coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC2.3.1.5 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.136 * +EC2.3.1.5 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.3.1.5 aniline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.49 * +EC2.3.1.5 aniline mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.0 * +EC2.3.1.5 anisidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 14.0 * +EC2.3.1.5 benzoic acid hydrazide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 14.0 * +EC2.3.1.5 decylamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.77 * +EC2.3.1.5 decylamine pichia ciferrii//*//* 0.77 * +EC2.3.1.5 dodecylamine pichia ciferrii//*//* 0.3 * +EC2.3.1.5 hexylamine pichia ciferrii//*//* 0.14 * +EC2.3.1.5 histamine pichia ciferrii//*//* 0.72 * +EC2.3.1.5 hydralazine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.849 * +EC2.3.1.5 hydralazine mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 0.393 * +EC2.3.1.5 hydralazine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.08 * +EC2.3.1.5 hydralazine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.61 * +EC2.3.1.5 hydroxytyramine pichia ciferrii//*//* 0.71 * +EC2.3.1.5 isoniazid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 76.9 * +EC2.3.1.5 isoniazid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.366 * +EC2.3.1.5 isoniazid mycobacterium abscessus//prokaryotes;bacteria;actinobacteria;mycobacterium//mab 6.754 * +EC2.3.1.5 isoniazid mycobacterium marinum//prokaryotes;bacteria;actinobacteria;mycobacterium//mmi 4.7 * +EC2.3.1.5 isoniazid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.7 * +EC2.3.1.5 isoniazid nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 1.414 * +EC2.3.1.5 isoniazid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.3.1.5 isoniazide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.3.1.5 m-tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC2.3.1.5 n,n-1,4-phenylenediamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 3.2 * +EC2.3.1.5 nicotinic acid hydrazide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 14.0 * +EC2.3.1.5 octylamine pichia ciferrii//*//* 0.08 * +EC2.3.1.5 octylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC2.3.1.5 p-aminobenzoic acid bacteroides sp.//prokaryotes;bacteria;bacteroidetes;parabacteroides//pary 0.87 * +EC2.3.1.5 p-aminobenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC2.3.1.5 p-aminobenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.0 * +EC2.3.1.5 p-aminobenzoic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2 * +EC2.3.1.5 p-aminobenzoic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.283 * +EC2.3.1.5 p-aminosalicylic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC2.3.1.5 p-aminosalicylic acid mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.216 * +EC2.3.1.5 p-anisidine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.136 * +EC2.3.1.5 p-octopamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC2.3.1.5 p-tyramine pichia ciferrii//*//* 0.14 * +EC2.3.1.5 p-tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.3.1.5 pas mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.216 * +EC2.3.1.5 phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.3.1.5 procainamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 45.0 * +EC2.3.1.5 serotonin columba sp.//*//* 0.25 * +EC2.3.1.5 serotonin pichia ciferrii//*//* 0.42 * +EC2.3.1.5 serotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.3.1.5 sulfadiazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC2.3.1.5 sulfamethazine citrobacter farmeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfar 0.07 * +EC2.3.1.5 sulfamethazine citrobacter koseri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cko 0.115 * +EC2.3.1.5 sulfamethazine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.059 * +EC2.3.1.5 sulfamethazine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.3.1.5 sulfamethazine klebsiella pneumoniae subsp. rhinoscleromatis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpr 0.146 * +EC2.3.1.5 sulfamethazine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.55 * +EC2.3.1.5 sulfamethoxazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.662 * +EC2.3.1.5 tetradecylamine pichia ciferrii//*//* 0.07 * +EC2.3.1.5 tryptamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.031 * +EC2.3.1.5 tryptamine columba sp.//*//* 0.24 * +EC2.3.1.5 tryptamine pichia ciferrii//*//* 0.53 * +EC2.3.1.5 tryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.3.1.5 tyramine musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0088 * +EC2.3.1.50 l-serine bacteriovorax stolpii//prokaryotes;bacteria;deltaproteobacteria;bacteriovorax//bsto 3.7 * +EC2.3.1.50 l-serine cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 1.8 * +EC2.3.1.50 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.3.1.50 l-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.3.1.50 l-serine sphingobacterium multivorum//*//* 4.8 * +EC2.3.1.50 l-serine sphingobacterium spiritivorum//*//* 5.0 * +EC2.3.1.50 l-serine sphingomonas paucimobilis//*//* 4.2 * +EC2.3.1.50 l-serine sphingomonas wittichii//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//swi 0.78 * +EC2.3.1.50 palmitoyl-coa sphingobacterium multivorum//*//* 0.1 * +EC2.3.1.50 palmitoyl-coa sphingobacterium spiritivorum//*//* 0.39 * +EC2.3.1.50 palmitoyl-coa sphingomonas paucimobilis//*//* 1.0 * +EC2.3.1.50 palmitoyl-coa sphingomonas wittichii//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//swi 0.0234 * +EC2.3.1.50 stearoyl-coa sphingomonas wittichii//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//swi 0.0129 * +EC2.3.1.51 1-acyl-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC2.3.1.51 1-acyl-sn-glycerol 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.125 * +EC2.3.1.51 1-acyl-sn-glycerol 3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC2.3.1.51 1-oleoyl-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC2.3.1.51 1-oleoyl-sn-glycerol 3-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC2.3.1.51 1-oleoyl-sn-glycerol 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0053 * +EC2.3.1.51 1-palmitoyl-sn-glycerol 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.003 * +EC2.3.1.51 docosahexaenoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0138 * +EC2.3.1.51 oleoyl-coa euglena sp.//*//* 0.004 * +EC2.3.1.51 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.3.1.51 oleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0048 * +EC2.3.1.51 oleoyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0028 * +EC2.3.1.51 palmitoyl-coa euglena sp.//*//* 0.007 * +EC2.3.1.51 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.3.1.51 palmitoyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0014 * +EC2.3.1.53 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.3.1.53 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC2.3.1.54 acetyl-coa clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.26 * +EC2.3.1.54 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.051 * +EC2.3.1.54 coa clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.012 * +EC2.3.1.54 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0068 * +EC2.3.1.54 formate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 10.0 * +EC2.3.1.54 formate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC2.3.1.54 pyruvate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.6 * +EC2.3.1.54 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.3.1.54 pyruvate streptococcus equinus//*//* 2.0 * +EC2.3.1.54 pyruvate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 2.6 * +EC2.3.1.56 4-aminoazobenzene mesocricetus auratus//*//* 0.00089 * +EC2.3.1.56 4-aminoazobenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00064 * +EC2.3.1.56 4-aminoveratrole salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.6 * +EC2.3.1.56 4-anisidine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.1 * +EC2.3.1.56 4-iodoanisidine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.3 * +EC2.3.1.56 n-hydroxy-2-acetylaminofluorene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0063 * +EC2.3.1.57 1,12-diamino-3,6,9-triazadodecane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC2.3.1.57 1,3-diaminopropane ascaris suum//*//* 1.25 * +EC2.3.1.57 1,3-diaminopropane candida boidinii//*//* 0.27 * +EC2.3.1.57 1,3-diaminopropane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.107 * +EC2.3.1.57 1,5-diaminopentane candida boidinii//*//* 0.44 * +EC2.3.1.57 1,5-diaminopentane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.3.1.57 1,6-diaminohexane ascaris suum//*//* 0.4 * +EC2.3.1.57 1,7-diaminoheptane candida boidinii//*//* 1.59 * +EC2.3.1.57 15-deoxyspergualin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.3.1.57 acetyl-coa ascaris suum//*//* 0.0077 * +EC2.3.1.57 acetyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.031 * +EC2.3.1.57 acetyl-coa candida boidinii//*//* 0.014 * +EC2.3.1.57 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC2.3.1.57 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC2.3.1.57 acetyl-coa streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.056 * +EC2.3.1.57 acetylputrescine candida boidinii//*//* 2.4 * +EC2.3.1.57 aminopropylcadaverine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.41 * +EC2.3.1.57 d-glucosamine 6-phosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.215 * +EC2.3.1.57 diethylenetriamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.194 * +EC2.3.1.57 ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.196 * +EC2.3.1.57 n1-acetylspermidine candida boidinii//*//* 4.4 * +EC2.3.1.57 n1-acetylspermine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.295 * +EC2.3.1.57 n1-acetylspermine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.3.1.57 n1-dansylnorspermine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.3.1.57 n1-dansylspermine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC2.3.1.57 n8-acetylspermidine candida boidinii//*//* 1.4 * +EC2.3.1.57 poly-l-lysine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.859 * +EC2.3.1.57 putrescine ascaris suum//*//* 0.25 * +EC2.3.1.57 putrescine candida boidinii//*//* 0.26 * +EC2.3.1.57 putrescine onchocerca volvulus//*//* 0.33 * +EC2.3.1.57 putrescine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC2.3.1.57 spermidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.323 * +EC2.3.1.57 spermidine candida boidinii//*//* 2.4 * +EC2.3.1.57 spermidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.05 * +EC2.3.1.57 spermidine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.055 * +EC2.3.1.57 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.3.1.57 spermidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.267 * +EC2.3.1.57 spermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC2.3.1.57 spermidine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.065 * +EC2.3.1.57 spermine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.076 * +EC2.3.1.57 spermine candida boidinii//*//* 1.7 * +EC2.3.1.57 spermine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.011 * +EC2.3.1.57 spermine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.055 * +EC2.3.1.57 spermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0057 * +EC2.3.1.57 spermine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC2.3.1.57 spermine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.338 * +EC2.3.1.57 sym-norspermidine candida boidinii//*//* 0.5 * +EC2.3.1.57 sym-norspermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.3.1.57 triethylenetetramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC2.3.1.58 l-2,3-diaminopropionic acid lathyrus sativus//*//* 0.3 * +EC2.3.1.58 oxalyl-coa lathyrus sativus//*//* 0.45 * +EC2.3.1.6 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC2.3.1.6 acetyl-coa doryteuthis pealeii//*//* 0.0082 * +EC2.3.1.6 acetyl-coa drosophila sp.//*//* 0.029 * +EC2.3.1.6 acetyl-coa helix aspersa//*//* 0.051 * +EC2.3.1.6 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.3.1.6 acetyl-coa limulus polyphemus//*//* 0.068 * +EC2.3.1.6 acetyl-coa periplaneta americana//*//* 0.016 * +EC2.3.1.6 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00201 * +EC2.3.1.6 acetyl-coa rhizoglyphus echinopus//*//* 0.12 * +EC2.3.1.6 acetylcholine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 2.1 * +EC2.3.1.6 acetylcholine drosophila sp.//*//* 2.0 * +EC2.3.1.6 acetylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0004 * +EC2.3.1.6 choline doryteuthis pealeii//*//* 4.4 * +EC2.3.1.6 choline drosophila sp.//*//* 0.33 * +EC2.3.1.6 choline helix aspersa//*//* 0.37 * +EC2.3.1.6 choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC2.3.1.6 choline limulus polyphemus//*//* 27.0 * +EC2.3.1.6 choline loligo sp.//*//* 2.0 * +EC2.3.1.6 choline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.88 * +EC2.3.1.6 choline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.92 * +EC2.3.1.6 choline periplaneta americana//*//* 0.55 * +EC2.3.1.6 choline platyrrhini//*//* 0.66 * +EC2.3.1.6 choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.192 * +EC2.3.1.6 choline rhizoglyphus echinopus//*//* 1.14 * +EC2.3.1.6 choline torpedo sp.//*//* 3.5 * +EC2.3.1.6 coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.016 * +EC2.3.1.6 coa drosophila sp.//*//* 0.025 * +EC2.3.1.6 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00025 * +EC2.3.1.60 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC2.3.1.60 gentamicin c1a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0003 * +EC2.3.1.61 dihydrolipoamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.2 * +EC2.3.1.61 succinyl-coa acinetobacter lwoffii//*//* 0.06 * +EC2.3.1.61 succinyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC2.3.1.64 4-coumaroyl-coa hordeum vulgare//*//* 0.00074 * +EC2.3.1.64 agmatine hordeum vulgare//*//* 0.0052 * +EC2.3.1.64 caffeoyl-coa hordeum vulgare//*//* 0.0033 * +EC2.3.1.64 cinnamoyl-coa hordeum vulgare//*//* 0.0033 * +EC2.3.1.64 feruloyl-coa hordeum vulgare//*//* 0.0013 * +EC2.3.1.64 sinapoyl-coa hordeum vulgare//*//* 0.05 * +EC2.3.1.65 2-fluoro-beta-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.3.1.65 aminomethanesulfonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.3.1.65 aminomethanesulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.3.1.65 beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 175.0 * +EC2.3.1.65 choloyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0072 * +EC2.3.1.65 choloyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.3.1.65 glycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.8 * +EC2.3.1.65 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC2.3.1.65 glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC2.3.1.65 taurine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.7 * +EC2.3.1.65 taurine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.3.1.65 taurine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.3.1.66 acetyl-coa streptomyces roseus//*//* 0.005 * +EC2.3.1.66 l-leucine streptomyces roseus//*//* 0.06 * +EC2.3.1.67 1-acyl-sn-glycero-3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.011 * +EC2.3.1.67 1-alkyl-sn-glycero-3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.009 * +EC2.3.1.67 1-alkyl-sn-glycero-3-phosphocholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC2.3.1.67 1-o-hexadecyl-sn-glycero-3-phosphocholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1282 * +EC2.3.1.67 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0712 * +EC2.3.1.67 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0824 * +EC2.3.1.67 acetyl-coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.146 * +EC2.3.1.67 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC2.3.1.67 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC2.3.1.67 butyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC2.3.1.67 hexanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.3.1.67 lyso-platelet-activating factor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00921 * +EC2.3.1.67 propionyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.128 * +EC2.3.1.68 phenylacetyl-coa macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.035 * +EC2.3.1.69 (-)-menthol mentha x piperita//*//* 0.2 * +EC2.3.1.69 d-isomenthol mentha x piperita//*//* 0.31 * +EC2.3.1.69 d-neoisomenthol mentha x piperita//*//* 0.24 * +EC2.3.1.69 d-neomenthol mentha x piperita//*//* 0.35 * +EC2.3.1.69 l-menthol mentha x piperita//*//* 0.32 * +EC2.3.1.7 (-)-norcarnitine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC2.3.1.7 (-)carnitine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC2.3.1.7 (trishydroxymethyl)glycine columba sp.//*//* 50.0 * +EC2.3.1.7 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC2.3.1.7 acetyl-coa camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.044 * +EC2.3.1.7 acetyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.014 * +EC2.3.1.7 acetyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.036 * +EC2.3.1.7 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.3.1.7 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.021 * +EC2.3.1.7 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0177 * +EC2.3.1.7 acetyl-dl-carnitine camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.307 * +EC2.3.1.7 acetyl-l-(-)-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC2.3.1.7 acetylcarnitine candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.417 * +EC2.3.1.7 acetylcarnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC2.3.1.7 acetylcarnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.019 * +EC2.3.1.7 butyryl-coa camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.029 * +EC2.3.1.7 butyryl-coa columba sp.//*//* 0.044 * +EC2.3.1.7 butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0435 * +EC2.3.1.7 butyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0166 * +EC2.3.1.7 butyryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC2.3.1.7 butyrylcarnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.48 * +EC2.3.1.7 carnitine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.0 * +EC2.3.1.7 carnitine columba livia//eukaryotes;animals;vertebrates;birds//clv 0.395 * +EC2.3.1.7 carnitine columba sp.//*//* 0.4 * +EC2.3.1.7 carnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.086 * +EC2.3.1.7 carnitine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.086 * +EC2.3.1.7 carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.101 * +EC2.3.1.7 choline columba sp.//*//* 8.7 * +EC2.3.1.7 choline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.1 * +EC2.3.1.7 choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 86.4 * +EC2.3.1.7 coash aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.09 * +EC2.3.1.7 coash bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC2.3.1.7 coash camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.0277 * +EC2.3.1.7 coash candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.257 * +EC2.3.1.7 coash columba sp.//*//* 0.034 * +EC2.3.1.7 coash mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0153 * +EC2.3.1.7 coash rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC2.3.1.7 coash sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.041 * +EC2.3.1.7 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC2.3.1.7 decanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0287 * +EC2.3.1.7 decanoylcarnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.64 * +EC2.3.1.7 dl-beta-hydroxy-gamma-aminobutyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 40.0 * +EC2.3.1.7 dl-carnitine candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 3.3 * +EC2.3.1.7 dl-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.72 * +EC2.3.1.7 dl-norcarnitine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.2 * +EC2.3.1.7 hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0549 * +EC2.3.1.7 hexanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC2.3.1.7 hexanoylcarnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.28 * +EC2.3.1.7 isobutyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.049 * +EC2.3.1.7 l-(-)-carnitine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC2.3.1.7 l-(-)-carnitine camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.039 * +EC2.3.1.7 l-(-)-carnitine columba sp.//*//* 0.12 * +EC2.3.1.7 l-(-)-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.3.1.7 l-(-)-carnitine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC2.3.1.7 l-carnitine candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.622 * +EC2.3.1.7 l-carnitine cavia porcellus//*//* 0.1 * +EC2.3.1.7 l-carnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.3.1.7 l-carnitine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.121 * +EC2.3.1.7 l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.3.1.7 n-butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.041 * +EC2.3.1.7 n-valeryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.071 * +EC2.3.1.7 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0503 * +EC2.3.1.7 octanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0191 * +EC2.3.1.7 octanoylcarnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.39 * +EC2.3.1.7 octanoylcarnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.27 * +EC2.3.1.7 propionyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC2.3.1.7 propionyl-coa camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.0173 * +EC2.3.1.7 propionyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.034 * +EC2.3.1.7 propionyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.1 * +EC2.3.1.7 propionyl-coa columba sp.//*//* 0.037 * +EC2.3.1.7 propionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC2.3.1.7 propionylcarnitine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC2.3.1.71 ala bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1573.0 * +EC2.3.1.71 ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 997.0 * +EC2.3.1.71 asn bos taurus//eukaryotes;animals;vertebrates;mammals//bta 129.0 * +EC2.3.1.71 benzoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.0 * +EC2.3.1.71 benzoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.3.1.71 benzoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0094 * +EC2.3.1.71 butyryl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 130.0 * +EC2.3.1.71 gln bos taurus//eukaryotes;animals;vertebrates;mammals//bta 353.0 * +EC2.3.1.71 glu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1148.0 * +EC2.3.1.71 gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.0 * +EC2.3.1.71 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC2.3.1.71 glycine ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.7 * +EC2.3.1.71 glycine methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 29.0 * +EC2.3.1.71 glycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC2.3.1.71 glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.1 * +EC2.3.1.71 l-asparagine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 170.0 * +EC2.3.1.71 l-glutamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 130.0 * +EC2.3.1.71 methylmalonyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 360.0 * +EC2.3.1.71 salicyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.6 * +EC2.3.1.72 1-o-indol-3-yl-acetyl-beta-d-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.03 * +EC2.3.1.72 myo-inositol zea mays//eukaryotes;plants;monocots;grass family//zma 4.1 * +EC2.3.1.74 4-coumaroyl-coa avena sativa//*//* 0.0015 * +EC2.3.1.74 4-coumaroyl-coa daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.0006 * +EC2.3.1.74 4-coumaroyl-coa fagopyrum esculentum//*//* 0.0006 * +EC2.3.1.74 4-coumaroyl-coa hordeum vulgare//*//* 0.002 * +EC2.3.1.74 4-coumaroyl-coa humulus lupulus//*//* 0.0409 * +EC2.3.1.74 4-coumaroyl-coa hypericum androsaemum//*//* 0.0049 * +EC2.3.1.74 4-coumaroyl-coa juglans sp.//*//* 0.0016 * +EC2.3.1.74 4-coumaroyl-coa petroselinum crispum//*//* 0.0022 * +EC2.3.1.74 4-coumaroyl-coa phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0023 * +EC2.3.1.74 4-coumaroyl-coa scutellaria baicalensis//*//* 0.00517 * +EC2.3.1.74 4-coumaroyl-coa secale cereale//*//* 0.0006 * +EC2.3.1.74 4-coumaroyl-coa sinapis alba//*//* 0.0025 * +EC2.3.1.74 4-coumaroyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0008 * +EC2.3.1.74 4-coumaroyl-coa tulipa hybrid cultivar//*//* 0.0017 * +EC2.3.1.74 benzoyl-coa hypericum androsaemum//*//* 0.0068 * +EC2.3.1.74 caffeoyl-coa daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.0077 * +EC2.3.1.74 caffeoyl-coa secale cereale//*//* 0.00145 * +EC2.3.1.74 caffeoyl-coa tulipa hybrid cultivar//*//* 0.0016 * +EC2.3.1.74 decanoyl-coa scutellaria baicalensis//*//* 0.011 * +EC2.3.1.74 feruloyl-coa hordeum vulgare//*//* 0.001 * +EC2.3.1.74 feruloyl-coa tulipa hybrid cultivar//*//* 0.0025 * +EC2.3.1.74 hexanoyl-coa petroselinum crispum//*//* 0.0007 * +EC2.3.1.74 hexanoyl-coa scutellaria baicalensis//*//* 0.0245 * +EC2.3.1.74 isobutyryl-coa humulus lupulus//*//* 0.0149 * +EC2.3.1.74 isovaleryl-coa humulus lupulus//*//* 0.008 * +EC2.3.1.74 malonyl-coa avena sativa//*//* 0.0063 * +EC2.3.1.74 malonyl-coa daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.003 * +EC2.3.1.74 malonyl-coa fagopyrum esculentum//*//* 0.001 * +EC2.3.1.74 malonyl-coa hypericum androsaemum//*//* 0.0108 * +EC2.3.1.74 malonyl-coa juglans sp.//*//* 0.0026 * +EC2.3.1.74 malonyl-coa phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0214 * +EC2.3.1.74 malonyl-coa physcomitrella patens//eukaryotes;plants;mosses//ppp 35.0 * +EC2.3.1.74 malonyl-coa secale cereale//*//* 0.0014 * +EC2.3.1.74 malonyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0019 * +EC2.3.1.74 nadph glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.017 * +EC2.3.1.74 octanoyl-coa scutellaria baicalensis//*//* 0.0122 * +EC2.3.1.74 p-coumaroyl-coa physcomitrella patens//eukaryotes;plants;mosses//ppp 0.048 * +EC2.3.1.75 hexadecanol marinobacter hydrocarbonoclasticus//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 0.044 * +EC2.3.1.75 hexan-1-ol marinobacter hydrocarbonoclasticus//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 2.4 * +EC2.3.1.75 isoamyl alcohol marinobacter hydrocarbonoclasticus//prokaryotes;bacteria;gammaproteobacteria - others;marinobacter//maq 5.6 * +EC2.3.1.75 palmitoyl-coa acinetobacter sp. adp1//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0156 * +EC2.3.1.76 11-cis-retinol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0087 * +EC2.3.1.76 all-trans-retinol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0041 * +EC2.3.1.76 retinol salvelinus fontinalis//*//* 0.016 * +EC2.3.1.78 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC2.3.1.78 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.55 * +EC2.3.1.78 alpha-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.3.1.78 beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.3.1.79 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC2.3.1.79 d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.0 * +EC2.3.1.79 maltose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 90.0 * +EC2.3.1.79 triethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC2.3.1.8 acetyl phosphate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.464 * +EC2.3.1.8 acetyl phosphate chlorogonium elongatum//*//* 0.311 * +EC2.3.1.8 acetyl phosphate clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.66 * +EC2.3.1.8 acetyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.312 * +EC2.3.1.8 acetyl phosphate lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 1.3 * +EC2.3.1.8 acetyl phosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.096 * +EC2.3.1.8 acetyl phosphate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 4.7 * +EC2.3.1.8 acetyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.129 * +EC2.3.1.8 acetyl phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.024 * +EC2.3.1.8 acetyl phosphate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.59 * +EC2.3.1.8 acetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.041 * +EC2.3.1.8 acetyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.06 * +EC2.3.1.8 acetyl-coa chlorogonium elongatum//*//* 0.078 * +EC2.3.1.8 acetyl-coa desulfomicrobium sp.//*//* 5.97 * +EC2.3.1.8 acetyl-coa desulfovibrio piger//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dpg 3.36 * +EC2.3.1.8 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0095 * +EC2.3.1.8 acetyl-coa lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 0.6 * +EC2.3.1.8 acetyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.3293 * +EC2.3.1.8 acetyl-coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0231 * +EC2.3.1.8 acetyl-coa veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.0086 * +EC2.3.1.8 butyryl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.058 * +EC2.3.1.8 coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.13 * +EC2.3.1.8 coa chlorogonium elongatum//*//* 0.09 * +EC2.3.1.8 coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.56 * +EC2.3.1.8 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0327 * +EC2.3.1.8 coa lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.087 * +EC2.3.1.8 coa lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 0.1 * +EC2.3.1.8 coa methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.065 * +EC2.3.1.8 coa rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.15 * +EC2.3.1.8 coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.046 * +EC2.3.1.8 coa thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.03 * +EC2.3.1.8 coa veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.33 * +EC2.3.1.8 desulfo-coa methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1.4 * +EC2.3.1.8 phosphate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 11.0 * +EC2.3.1.8 phosphate chlorogonium elongatum//*//* 5.44 * +EC2.3.1.8 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC2.3.1.8 phosphate lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 6.7 * +EC2.3.1.8 phosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.742 * +EC2.3.1.8 phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.5 * +EC2.3.1.8 phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.111 * +EC2.3.1.8 phosphate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 9.3 * +EC2.3.1.8 propionyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.15 * +EC2.3.1.80 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.3.1.80 o-benzyl-l-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC2.3.1.80 s-(1,2,3,4,4-pentachloro-butadienyl)-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.3.1.80 s-(1,2,3,4,4-pentachloro-butadienyl)-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.39 * +EC2.3.1.80 s-4-nitrobenzyl-l-cysteine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.176 * +EC2.3.1.80 s-acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC2.3.1.80 s-benzyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC2.3.1.80 s-benzyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.3.1.80 s-butyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC2.3.1.80 s-ethyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.1 * +EC2.3.1.80 s-propyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC2.3.1.81 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.3.1.81 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0154 * +EC2.3.1.81 amikacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00096 * +EC2.3.1.81 apramycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00067 * +EC2.3.1.81 butirosin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.237 * +EC2.3.1.81 butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.16 * +EC2.3.1.81 gentamicin c1 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.066 * +EC2.3.1.81 gentamicin c1a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00012 * +EC2.3.1.81 gentamicin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0029 * +EC2.3.1.81 gentamycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00097 * +EC2.3.1.81 kanamycin a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.3.1.81 kanamycin a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0048 * +EC2.3.1.81 kanamycin b pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0026 * +EC2.3.1.81 lividomycin a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0036 * +EC2.3.1.81 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.477 * +EC2.3.1.81 malonyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.234 * +EC2.3.1.81 n-propionyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0886 * +EC2.3.1.81 neomycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC2.3.1.81 neomycin b pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0012 * +EC2.3.1.81 neomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00036 * +EC2.3.1.81 netilmicin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC2.3.1.81 paromomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00015 * +EC2.3.1.81 paromomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0033 * +EC2.3.1.81 propionyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.499 * +EC2.3.1.81 ribostamycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC2.3.1.81 ribostamycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0023 * +EC2.3.1.81 sisomicin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00057 * +EC2.3.1.81 sisomicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.000724 * +EC2.3.1.81 sisomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00033 * +EC2.3.1.81 sisomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0015 * +EC2.3.1.81 tobramycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00142 * +EC2.3.1.81 tobramycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0013 * +EC2.3.1.82 acetyl-coa enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0158 * +EC2.3.1.82 acetyl-coa enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.038 * +EC2.3.1.82 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0053 * +EC2.3.1.82 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.009 * +EC2.3.1.82 acetyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.01 * +EC2.3.1.82 acetyl-coa serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.044 * +EC2.3.1.82 acetyl-coa streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.0187 * +EC2.3.1.82 amikacin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0131 * +EC2.3.1.82 amikacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.057 * +EC2.3.1.82 amikacin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.112 * +EC2.3.1.82 amikacin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.001 * +EC2.3.1.82 amikacin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.05 * +EC2.3.1.82 amikacin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.00055 * +EC2.3.1.82 amikacin staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.036 * +EC2.3.1.82 amikacin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.032 * +EC2.3.1.82 amikacin streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.00434 * +EC2.3.1.82 arbekacin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.036 * +EC2.3.1.82 butirosin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.014 * +EC2.3.1.82 butyryl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 9.3 * +EC2.3.1.82 ciprofloxacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.3.1.82 dibekacin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.036 * +EC2.3.1.82 dibekacin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.003 * +EC2.3.1.82 dibekacin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.03 * +EC2.3.1.82 dibekacin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.024 * +EC2.3.1.82 dibekacin streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.00038 * +EC2.3.1.82 fortimicin a enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.0254 * +EC2.3.1.82 gentamicin b enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0223 * +EC2.3.1.82 gentamicin c enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0082 * +EC2.3.1.82 gentamicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0083 * +EC2.3.1.82 gentamicin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.00504 * +EC2.3.1.82 gentamicin staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.077 * +EC2.3.1.82 isepamicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0003 * +EC2.3.1.82 isepamicin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.044 * +EC2.3.1.82 kanamycin a enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0114 * +EC2.3.1.82 kanamycin a enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.031 * +EC2.3.1.82 kanamycin a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.001 * +EC2.3.1.82 kanamycin a salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.105 * +EC2.3.1.82 kanamycin a serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.001 * +EC2.3.1.82 kanamycin a streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.0074 * +EC2.3.1.82 kanamycin b enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0189 * +EC2.3.1.82 kanamycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00027 * +EC2.3.1.82 kanamycin b salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.079 * +EC2.3.1.82 kanamycin moraxella sp.//*//* 0.008 * +EC2.3.1.82 kanamycin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.154 * +EC2.3.1.82 kanamycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.00202 * +EC2.3.1.82 kanamycin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.03 * +EC2.3.1.82 lividomycin a streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.04188 * +EC2.3.1.82 malonyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.82 * +EC2.3.1.82 malonyl-coa streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.58 * +EC2.3.1.82 n-butyryl-coa streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.0686 * +EC2.3.1.82 n-propionyl-coa streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.0161 * +EC2.3.1.82 neamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0058 * +EC2.3.1.82 neamine enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.078 * +EC2.3.1.82 neomycin a salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.53 * +EC2.3.1.82 neomycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.3.1.82 neomycin b streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.00052 * +EC2.3.1.82 neomycin c enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.00531 * +EC2.3.1.82 neomycin c salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.014 * +EC2.3.1.82 neomycin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0039 * +EC2.3.1.82 neomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0012 * +EC2.3.1.82 neomycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.023 * +EC2.3.1.82 neomycin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.01 * +EC2.3.1.82 netilmicin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.00638 * +EC2.3.1.82 netilmicin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.001 * +EC2.3.1.82 netilmicin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.008 * +EC2.3.1.82 netilmicin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.00177 * +EC2.3.1.82 netilmicin staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.259 * +EC2.3.1.82 netilmicin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.07 * +EC2.3.1.82 norfloxacin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC2.3.1.82 paromomycin enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.324 * +EC2.3.1.82 poly-l-lys enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.038 * +EC2.3.1.82 propionyl-coa enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0195 * +EC2.3.1.82 propionyl-coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.27 * +EC2.3.1.82 ribostamycin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.00908 * +EC2.3.1.82 ribostamycin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.05 * +EC2.3.1.82 ribostamycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.016 * +EC2.3.1.82 sisomicin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0117 * +EC2.3.1.82 sisomicin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.012 * +EC2.3.1.82 sisomicin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0022 * +EC2.3.1.82 sisomicin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.004 * +EC2.3.1.82 sisomicin streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.00324 * +EC2.3.1.82 tobramicin staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.216 * +EC2.3.1.82 tobramycin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0037 * +EC2.3.1.82 tobramycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC2.3.1.82 tobramycin moraxella sp.//*//* 0.004 * +EC2.3.1.82 tobramycin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.066 * +EC2.3.1.82 tobramycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0079 * +EC2.3.1.82 tobramycin staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.026 * +EC2.3.1.82 tobramycin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.016 * +EC2.3.1.82 tobramycin streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.00353 * +EC2.3.1.83 dolichol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.3.1.84 (-)-beta-citronellol cymbopogon martinii//*//* 0.276 * +EC2.3.1.84 2-phenylethanol fragaria x ananassa//*//* 4.32 * +EC2.3.1.84 2-phenylethyl alcohol hanseniaspora valbyensis//*//* 12.7 * +EC2.3.1.84 acetyl-coa fragaria x ananassa//*//* 0.031 * +EC2.3.1.84 acetyl-coa musa x paradisiaca//*//* 0.05 * +EC2.3.1.84 acetyl-coa rosa hybrid cultivar//*//* 0.04738 * +EC2.3.1.84 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC2.3.1.84 benzyl alcohol fragaria x ananassa//*//* 4.57 * +EC2.3.1.84 benzyl alcohol rosa hybrid cultivar//*//* 1.54 * +EC2.3.1.84 butanol fragaria x ananassa//*//* 2.34 * +EC2.3.1.84 cinnamyl alcohol fragaria x ananassa//*//* 2.03 * +EC2.3.1.84 cis-hex-3-en-1-ol cymbopogon martinii//*//* 0.164 * +EC2.3.1.84 ethanol fragaria x ananassa//*//* 4.35 * +EC2.3.1.84 eugenol fragaria x ananassa//*//* 3.78 * +EC2.3.1.84 geraniol cymbopogon martinii//*//* 0.775 * +EC2.3.1.84 geraniol fragaria x ananassa//*//* 2.04 * +EC2.3.1.84 geraniol rosa hybrid cultivar//*//* 2.783 * +EC2.3.1.84 heptanol cymbopogon martinii//*//* 0.316 * +EC2.3.1.84 heptanol fragaria x ananassa//*//* 2.71 * +EC2.3.1.84 hexanol fragaria x ananassa//*//* 1.53 * +EC2.3.1.84 isoamyl alcohol hanseniaspora valbyensis//*//* 23.2 * +EC2.3.1.84 isoamyl alcohol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC2.3.1.84 isoamylalcohol musa x paradisiaca//*//* 0.4 * +EC2.3.1.84 methanol fragaria x ananassa//*//* 4.05 * +EC2.3.1.84 nonanol cymbopogon martinii//*//* 0.853 * +EC2.3.1.84 octanol cymbopogon martinii//*//* 0.562 * +EC2.3.1.84 octanol fragaria x ananassa//*//* 2.23 * +EC2.3.1.84 pentanol fragaria x ananassa//*//* 5.78 * +EC2.3.1.84 phenyl ethanol rosa hybrid cultivar//*//* 3.4 * +EC2.3.1.84 propanol fragaria x ananassa//*//* 2.4 * +EC2.3.1.85 acetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0043 * +EC2.3.1.85 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.3.1.85 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC2.3.1.85 malonyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.005 * +EC2.3.1.85 malonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.3.1.85 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC2.3.1.85 nadh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.121 * +EC2.3.1.85 nadph gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0041 * +EC2.3.1.85 nadph homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.3.1.85 nadph rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC2.3.1.86 acetyl-coa mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.09 * +EC2.3.1.86 decanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.83 * +EC2.3.1.86 lauroyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC2.3.1.86 malonyl-coa mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0096 * +EC2.3.1.86 myristoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.3.1.86 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.067 * +EC2.3.1.86 octanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.3.1.86 palmitoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC2.3.1.87 2,5-dimethoxyphenylethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.47 * +EC2.3.1.87 2-(2,3-dichlorophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC2.3.1.87 2-(2,3-dichlorophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 3.46 * +EC2.3.1.87 2-(2-chlorophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.74 * +EC2.3.1.87 2-(2-chlorophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.9 * +EC2.3.1.87 2-(3,4-dihydroxyphenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.76 * +EC2.3.1.87 2-(3-chlorophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC2.3.1.87 2-(3-chlorophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.31 * +EC2.3.1.87 2-(3-fluorophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.3.1.87 2-(3-fluorophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.65 * +EC2.3.1.87 2-(4-bromophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.3.1.87 2-(4-bromophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.55 * +EC2.3.1.87 2-(4-chlorophenyl)ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.33 * +EC2.3.1.87 2-(4-fluorophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC2.3.1.87 2-(4-fluorophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.28 * +EC2.3.1.87 2-(p-fluorophenyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.98 * +EC2.3.1.87 2-(p-fluorophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.91 * +EC2.3.1.87 2-(p-nitrophenyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.405 * +EC2.3.1.87 2-(p-tolyl)-ethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.17 * +EC2.3.1.87 2-(p-tolyl)-ethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.58 * +EC2.3.1.87 2-fluorophenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.37 * +EC2.3.1.87 2-fluorophenylethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.37 * +EC2.3.1.87 2-methoxyphenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.3.1.87 2-methoxyphenylethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.49 * +EC2.3.1.87 2-phenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC2.3.1.87 2-phenylethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.8 * +EC2.3.1.87 2-phenylethylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.5 * +EC2.3.1.87 3-(trifluoromethyl)phenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.18 * +EC2.3.1.87 3-methoxy-2-phenylethylamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.07 * +EC2.3.1.87 3-methoxytyramine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.815 * +EC2.3.1.87 3-methyoxyphenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.061 * +EC2.3.1.87 5-benzyloxytryptamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.009 * +EC2.3.1.87 5-hydroxytryptamine onchocerca volvulus//*//* 0.024 * +EC2.3.1.87 5-methoxytryptamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.042 * +EC2.3.1.87 5-methoxytryptamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.3.1.87 6-hydroxydopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.3.1.87 acetyl-coa antheraea pernyi//*//* 0.00142 * +EC2.3.1.87 acetyl-coa bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.00031 * +EC2.3.1.87 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0287 * +EC2.3.1.87 acetyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0061 * +EC2.3.1.87 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC2.3.1.87 acetyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.18 * +EC2.3.1.87 acetyl-coa pelophylax perezi//*//* 0.003 * +EC2.3.1.87 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.3.1.87 acetyl-coa sparus aurata//*//* 0.62 * +EC2.3.1.87 arachidonoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0019 * +EC2.3.1.87 beta-methylphenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.26 * +EC2.3.1.87 beta-phenylethylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.173 * +EC2.3.1.87 beta-phenylethylamine onchocerca volvulus//*//* 0.009 * +EC2.3.1.87 butanoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0018 * +EC2.3.1.87 dopamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.48 * +EC2.3.1.87 dopamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.17 * +EC2.3.1.87 dopamine sparus aurata//*//* 0.33 * +EC2.3.1.87 hexanoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.04 * +EC2.3.1.87 histamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.92 * +EC2.3.1.87 histamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.52 * +EC2.3.1.87 octopamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.12 * +EC2.3.1.87 octopamine onchocerca volvulus//*//* 0.002 * +EC2.3.1.87 oleoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0036 * +EC2.3.1.87 p-phenetidine pelophylax perezi//*//* 0.011 * +EC2.3.1.87 palmitoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0099 * +EC2.3.1.87 phenethylamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.32 * +EC2.3.1.87 phenylethylamine sparus aurata//*//* 0.34 * +EC2.3.1.87 serotonin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.16 * +EC2.3.1.87 serotonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC2.3.1.87 serotonin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.125 * +EC2.3.1.87 serotonin pyropia yezoensis//*//* 0.467 * +EC2.3.1.87 serotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.3.1.87 serotonin sparus aurata//*//* 0.05 * +EC2.3.1.87 stearoyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.006 * +EC2.3.1.87 tryptamine antheraea pernyi//*//* 0.00331 * +EC2.3.1.87 tryptamine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0017 * +EC2.3.1.87 tryptamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0315 * +EC2.3.1.87 tryptamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.12 * +EC2.3.1.87 tryptamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.026 * +EC2.3.1.87 tryptamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC2.3.1.87 tryptamine onchocerca volvulus//*//* 0.002 * +EC2.3.1.87 tryptamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.11 * +EC2.3.1.87 tryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.3.1.87 tryptamine sparus aurata//*//* 0.1 * +EC2.3.1.87 tyramine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.042 * +EC2.3.1.87 tyramine onchocerca volvulus//*//* 0.0015 * +EC2.3.1.87 tyramine sparus aurata//*//* 1.25 * +EC2.3.1.88 acetyl-coa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.067 * +EC2.3.1.88 acetylcoa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC2.3.1.88 adrenocorticotropic hormone (1-10) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.096 * +EC2.3.1.88 adrenocorticotropic hormone (1-13)nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.035 * +EC2.3.1.88 adrenocorticotropic hormone (1-13)nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.3.1.88 adrenocorticotropic hormone (1-16)nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC2.3.1.88 adrenocorticotropic hormone (1-18) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC2.3.1.88 adrenocorticotropic hormone (1-24) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0042 * +EC2.3.1.88 adrenocorticotropic hormone (1-39) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.3.1.88 adrenocorticotropic hormone (4-10)nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC2.3.1.88 beta-endorphin(1-27) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.043 * +EC2.3.1.88 beta-endorphin(1-31) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC2.3.1.9 acetoacatyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.025 * +EC2.3.1.9 acetoacetyl-10-bis-demethylpantetheine 11-pivalate zoogloea ramigera//*//* 0.21 * +EC2.3.1.9 acetoacetyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC2.3.1.9 acetoacetyl-coa bacopa monnieri//*//* 0.02067 * +EC2.3.1.9 acetoacetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC2.3.1.9 acetoacetyl-coa bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.019 * +EC2.3.1.9 acetoacetyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.025 * +EC2.3.1.9 acetoacetyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.032 * +EC2.3.1.9 acetoacetyl-coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.088 * +EC2.3.1.9 acetoacetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0385 * +EC2.3.1.9 acetoacetyl-coa helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.011 * +EC2.3.1.9 acetoacetyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.18 * +EC2.3.1.9 acetoacetyl-coa pyrobaculum neutrophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//tne 0.15 * +EC2.3.1.9 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.3.1.9 acetoacetyl-coa rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.042 * +EC2.3.1.9 acetoacetyl-coa streptomyces collinus//prokaryotes;bacteria;actinobacteria;streptomyces//sci 0.0038 * +EC2.3.1.9 acetoacetyl-coa zoogloea ramigera//*//* 0.01 * +EC2.3.1.9 acetoacetyl-s-(11-methoxymethyl)pantetheine zoogloea ramigera//*//* 0.12 * +EC2.3.1.9 acetoacetyl-s-(11-t-butyldimethylsilyl)pantetheine zoogloea ramigera//*//* 0.074 * +EC2.3.1.9 acetoacetyl-s-(d-pantetheine) 11-pivalate zoogloea ramigera//*//* 0.073 * +EC2.3.1.9 acetoacetyl-s-homopantetheine 12-pivalate zoogloea ramigera//*//* 0.25 * +EC2.3.1.9 acetoacetyl-s-pantetheine zoogloea ramigera//*//* 0.46 * +EC2.3.1.9 acetyl-coa bacopa monnieri//*//* 0.0258 * +EC2.3.1.9 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC2.3.1.9 acetyl-coa bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.104 * +EC2.3.1.9 acetyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.77 * +EC2.3.1.9 acetyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.27 * +EC2.3.1.9 acetyl-coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.6 * +EC2.3.1.9 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.47 * +EC2.3.1.9 acetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.27 * +EC2.3.1.9 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0062 * +EC2.3.1.9 acetyl-coa rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.38 * +EC2.3.1.9 acetyl-coa zoogloea ramigera//*//* 0.33 * +EC2.3.1.9 coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.07 * +EC2.3.1.9 coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC2.3.1.9 coa bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.03 * +EC2.3.1.9 coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.03 * +EC2.3.1.9 coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.0048 * +EC2.3.1.9 coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.01 * +EC2.3.1.9 coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0064 * +EC2.3.1.9 coa helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.014 * +EC2.3.1.9 coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC2.3.1.9 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.3.1.9 coa rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.056 * +EC2.3.1.9 coa zoogloea ramigera//*//* 0.0085 * +EC2.3.1.90 1-o-4-hydroxybenzoyl-beta-d-glucose quercus robur//*//* 2.5 * +EC2.3.1.90 1-o-galloyl-beta-d-glucose quercus robur//*//* 66.7 * +EC2.3.1.90 1-o-protocatechuoyl-beta-d-glucose quercus robur//*//* 44.4 * +EC2.3.1.90 1-o-veratroyl-beta-d-glucose quercus robur//*//* 50.0 * +EC2.3.1.91 1,2-di-o-sinapoyl-beta-d-glucose raphanus sativus//*//* 0.11 * +EC2.3.1.91 1,2-di-o-sinapoyl-beta-d-glucose sinapis alba//*//* 0.2 * +EC2.3.1.91 1-o-caffeoyl-beta-d-glucose arabidopsis sp.//*//* 0.1 * +EC2.3.1.91 1-o-feruloyl-beta-d-glucose arabidopsis sp.//*//* 0.41 * +EC2.3.1.91 1-o-sinapoyl-beta-d-glucose arabidopsis sp.//*//* 0.16 * +EC2.3.1.91 1-o-sinapoyl-beta-d-glucose raphanus sativus//*//* 0.3 * +EC2.3.1.91 1-o-sinapoyl-beta-d-glucose sinapis alba//*//* 0.71 * +EC2.3.1.91 2-methylaminoethanol arabidopsis sp.//*//* 245.0 * +EC2.3.1.91 choline arabidopsis sp.//*//* 3.2 * +EC2.3.1.91 choline raphanus sativus//*//* 5.3 * +EC2.3.1.91 choline sinapis alba//*//* 6.5 * +EC2.3.1.91 n,n-dimethylethanolamine arabidopsis sp.//*//* 19.0 * +EC2.3.1.91 neopentyl alcohol arabidopsis sp.//*//* 25.0 * +EC2.3.1.91 p-coumaroyl-beta-d-glucose arabidopsis sp.//*//* 1.9 * +EC2.3.1.91 tris arabidopsis sp.//*//* 105.0 * +EC2.3.1.92 1-o-sinapoyl-beta-d-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.115 * +EC2.3.1.92 1-o-sinapoyl-beta-d-glucose raphanus sativus//*//* 0.46 * +EC2.3.1.92 l-malate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.89 * +EC2.3.1.92 l-malate raphanus sativus//*//* 54.0 * +EC2.3.1.93 13-alpha-hydroxymultiflorine lupinus albus//*//* 0.021 * +EC2.3.1.93 13-hydroxylupanine lupinus albus//*//* 0.018 * +EC2.3.1.93 tigloyl-coa lupinus albus//*//* 0.14 * +EC2.3.1.95 4-coumaroyl-coa arachis hypogaea//*//* 0.002 * +EC2.3.1.95 4-fluorocinnamoyl-coa arachis hypogaea//*//* 0.0084 * +EC2.3.1.95 malonyl-coa arachis hypogaea//*//* 0.002 * +EC2.3.1.95 p-coumaroyl-coa arachis hypogaea//*//* 0.022 * +EC2.3.1.95 trans-3-(3-thienyl)acryloyl-coa arachis hypogaea//*//* 0.0075 * +EC2.3.1.95 trans-3-furanacryloyl-coa arachis hypogaea//*//* 0.0066 * +EC2.3.1.96 glycoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00059 * +EC2.3.1.96 mucin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00056 * +EC2.3.1.96 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC2.3.1.97 11-(ethylthio)-undecanoyl-coa triticum aestivum//*//* 0.0007 * +EC2.3.1.97 camp-dependent protein kinase-derived peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.3.1.97 camp-dependent protein kinase-derived peptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.3.1.97 cap5.5 peptide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC2.3.1.97 cap5.5 aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.022 * +EC2.3.1.97 gcggskvk trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0113 * +EC2.3.1.97 gltisklfrr-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 3.62e-07 * +EC2.3.1.97 gly-(diaminobutyrate-gamma-nh2-4-azido, 3-iodosalicylamide)-ala-ala-ser-ala-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC2.3.1.97 gly-ala-ala-pro-ser-lys-ile-val saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0009 * +EC2.3.1.97 gly-ala-arg-ala-ala-ala-ala-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC2.3.1.97 gly-ala-arg-ala-ser-val-leu-ser candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.017 * +EC2.3.1.97 gly-ala-arg-ala-ser-val-leu-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0044 * +EC2.3.1.97 gly-asn-ala-ala-ala-ala-arg-arg candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.6 * +EC2.3.1.97 gly-asn-ala-ala-ala-ala-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC2.3.1.97 gly-asn-ala-ala-ala-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC2.3.1.97 gly-asn-ala-ala-ala-arg-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC2.3.1.97 gly-asn-ala-ala-ser-ala-arg-arg candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.006 * +EC2.3.1.97 gly-asn-ala-ala-ser-ala-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC2.3.1.97 gly-asn-ala-ala-ser-ala-arg-arg triticum aestivum//*//* 0.0002 * +EC2.3.1.97 gly-asn-ala-ala-ser-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5e-05 * +EC2.3.1.97 gly-asn-ala-ala-ser-tyr-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC2.3.1.97 gly-asn-ala-pro-ala-ala-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC2.3.1.97 gly-asn-phe-ala-ala-ala-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC2.3.1.97 gly-gln-thr-val-thr-thr-pro-leu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.17 * +EC2.3.1.97 gly-leu-tyr-ala-ser-lys-leu-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7e-05 * +EC2.3.1.97 gly-ser-ser-lys-pro-lys-asp-lys-asp-pro mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.033 * +EC2.3.1.97 gly-ser-ser-lys-ser-lys-pro-lys saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC2.3.1.97 gqlftsln leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.11 * +EC2.3.1.97 hiv-1 negative regulatory factor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0257 * +EC2.3.1.97 hiv1 gag protein n-terminal peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.196 * +EC2.3.1.97 hiv1 nef protein n-terminal peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.3.1.97 l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.195 * +EC2.3.1.97 myristoleoyl-coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0008 * +EC2.3.1.97 myristoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0015 * +EC2.3.1.97 myristoyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.83e-06 * +EC2.3.1.97 myristoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00057 * +EC2.3.1.97 myristoyl-coa leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.00137 * +EC2.3.1.97 myristoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0004 * +EC2.3.1.97 myristoyl-coa triticum aestivum//*//* 0.0003 * +EC2.3.1.97 myristoyl-coa trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00178 * +EC2.3.1.97 myristoyl-coa trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0062 * +EC2.3.1.97 p60src-derived peptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.3.1.97 peptide hs pp60src(2-9) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00276 * +EC2.3.1.97 peptide pp60src(2-16) plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.00571 * +EC2.3.1.98 chlorogenic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 20.0 * +EC2.3.1.98 galactaric acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.7 * +EC2.3.1.98 glucaric acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.4 * +EC2.3.1.99 caffeoyl-coa cichorium endivia//*//* 14.3 * +EC2.3.1.99 caffeoyl-coa malus sylvestris//*//* 0.01 * +EC2.3.1.99 caffeoyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.05 * +EC2.3.1.99 caffeoyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.029 * +EC2.3.1.99 caffeoyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.073 * +EC2.3.1.99 chlorogenic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.06 * +EC2.3.1.99 chlorogenic acid solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.151 * +EC2.3.1.99 coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.084 * +EC2.3.1.99 coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.021 * +EC2.3.1.99 coumaroyl-coa cichorium endivia//*//* 10.0 * +EC2.3.1.99 coumaroyl-coa malus sylvestris//*//* 0.008 * +EC2.3.1.99 coumaroyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.003 * +EC2.3.1.99 coumaroylquinate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.092 * +EC2.3.1.99 feruloyl-coa cichorium endivia//*//* 11.4 * +EC2.3.1.99 feruloyl-coa malus sylvestris//*//* 0.009 * +EC2.3.1.99 feruloyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.35 * +EC2.3.1.99 feruloyl-coa secale cereale//*//* 0.05 * +EC2.3.1.99 p-coumaroyl-coa nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.15 * +EC2.3.1.99 quinate malus sylvestris//*//* 1.3 * +EC2.3.1.99 quinate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.871 * +EC2.3.1.99 quinate secale cereale//*//* 4.3 * +EC2.3.1.99 quinate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.43 * +EC2.3.1.99 shikimate malus sylvestris//*//* 10.0 * +EC2.3.1.99 shikimate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.75 * +EC2.3.1.B16 3-amino-3-phenylpropanoyl-coa taxus cuspidata//*//* 0.0049 * +EC2.3.1.B16 baccatin iii taxus cuspidata//*//* 0.0024 * +EC2.3.1.B2 (r)-3-hydroxybutanoyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.3 * +EC2.3.1.B2 (r)-3-hydroxybutyryl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.19 * +EC2.3.1.B2 3-hydroxypropionyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.189 * +EC2.3.1.B27 [dna-binding protein alba1]-l-lysine16 sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.11 * +EC2.3.1.B27 vligkkpvmny sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.58 * +EC2.3.1.B28 acetyl-coa sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.63 * +EC2.3.1.B28 alpha-d-galactosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.71 * +EC2.3.1.B32 methylmalonyl-coa saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.002 * +EC2.3.1.B33 chlorogenic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 19.0 * +EC2.3.1.B34 [acsa]-l-lys saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.0039 * +EC2.3.1.B34 acetyl-coa saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.056 * +EC2.3.1.B37 l-2-chlorophenylglycine chryseobacterium sp.//prokaryotes;bacteria;bacteroidetes;chryseobacterium//chz 1.41 * +EC2.3.1.B37 l-2-phenylglycine methyl ester chryseobacterium sp.//prokaryotes;bacteria;bacteroidetes;chryseobacterium//chz 0.77 * +EC2.3.1.B37 l-2-phenylglycine chryseobacterium sp.//prokaryotes;bacteria;bacteroidetes;chryseobacterium//chz 0.145 * +EC2.3.1.B38 2-aminobenzoylacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.105 * +EC2.3.1.B38 octanoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.006 * +EC2.3.1.B4 (r)-3-hydroxybutyryl-coa allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.063 * +EC2.3.1.B4 (r)-3-hydroxybutyryl-coa ectothiorhodospira shaposhnikovii//*//* 0.065 * +EC2.3.1.B4 (r)-3-hydroxypentanoyl-coa allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.18 * +EC2.3.1.B4 (r)-3-hydroxyvaleryl-coa ectothiorhodospira shaposhnikovii//*//* 0.03 * +EC2.3.1.B4 4-hydroxybutyryl-coa ectothiorhodospira shaposhnikovii//*//* 0.085 * +EC2.3.1.B5 (r)-3-hydroxybutyryl-coa halopiger aswanensis//*//* 0.056 * +EC2.3.1.B5 3-hydroxybutyryl-coa desmonostoc muscorum//*//* 0.0802 * +EC2.3.1.B5 3-hydroxybutyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.3.1.B6 udp-2-acetamido-3-amino-2,3-dideoxy-d-glucuronic acid pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.107 * +EC2.3.2.10 l-alanyl-trna weissella viridescens//*//* 0.0017 * +EC2.3.2.10 udp-acetylmuramoylpentapeptide weissella viridescens//*//* 0.0002 * +EC2.3.2.10 udp-n-acetylmuramoyl-l-alanyl-d-glutamyl-l-lysyl-d-alanyl-d-alanine weissella viridescens//*//* 0.079 * +EC2.3.2.12 acetylphenylalanyl-trna rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.8e-05 * +EC2.3.2.12 cytidine-puromycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC2.3.2.12 puromycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.3.2.13 ac-pnpqlpf-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.3.2.13 acetyl-alphas1-casein cavia porcellus//*//* 0.0032 * +EC2.3.2.13 actin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.3.2.13 alpha-difluoromethylornithine cavia porcellus//*//* 2.1 * +EC2.3.2.13 alpha-difluoroornithine cavia porcellus//*//* 2.1 * +EC2.3.2.13 alpha2 plasmin inhibitor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.3.2.13 benzyloxycarbonyl-l-glutaminylglycine cavia porcellus//*//* 7.0 * +EC2.3.2.13 beta-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0409 * +EC2.3.2.13 carbobenzoxy-l-glutaminylglycine cavia porcellus//*//* 66.0 * +EC2.3.2.13 casein gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.006 * +EC2.3.2.13 casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.3.2.13 cbz-gln-ala pagrus major//*//* 1.9 * +EC2.3.2.13 cbz-gln-gly-gly pagrus major//*//* 9.4 * +EC2.3.2.13 cbz-gln-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC2.3.2.13 cbz-gln-gly pagrus major//*//* 3.2 * +EC2.3.2.13 cbz-gln-leu pagrus major//*//* 7.0 * +EC2.3.2.13 cbz-gln-phe pagrus major//*//* 2.7 * +EC2.3.2.13 cbz-gln-ser pagrus major//*//* 2.9 * +EC2.3.2.13 cbz-gln-val pagrus major//*//* 4.4 * +EC2.3.2.13 dansylcadaverine cavia porcellus//*//* 0.0019 * +EC2.3.2.13 gtp cavia porcellus//*//* 0.0044 * +EC2.3.2.13 gtp paracentrotus lividus//*//* 0.01 * +EC2.3.2.13 histamine cavia porcellus//*//* 0.52 * +EC2.3.2.13 lgpqskvig homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC2.3.2.13 lgpqslvig homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.782 * +EC2.3.2.13 methylamine cavia porcellus//*//* 0.024 * +EC2.3.2.13 methylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC2.3.2.13 methylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC2.3.2.13 monodansylcadaverine patinopecten sp.//*//* 0.01 * +EC2.3.2.13 monodansylcadaverine physarum polycephalum//*//* 0.034 * +EC2.3.2.13 n,n-dimethylcasein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC2.3.2.13 n-acetyl-pnpqlpf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.3.2.13 n-carboxybenzoyl-l-glutaminyl-glycine streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.05469 * +EC2.3.2.13 n-carboxybenzoyl-l-glutaminylglycine streptomyces mobaraensis//*//* 40.47 * +EC2.3.2.13 n-cbz-gln-gly streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 59.5 * +EC2.3.2.13 n-cbz-l-glutaminyl(gamma-4-nitrophenylester)glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.3.2.13 n-dimethyled casein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.3.2.13 n-methyl-casein cavia porcellus//*//* 0.0033 * +EC2.3.2.13 nalpha-benzyloxycarbonyl-l-gln-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.2 * +EC2.3.2.13 nalpha-benzyloxycarbonyl-l-glutaminylglycine streptomyces mobaraensis//*//* 52.66 * +EC2.3.2.13 nqenvspltllklgn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28 * +EC2.3.2.13 nqenvspltllrlgn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.208 * +EC2.3.2.13 nqeqvspltllklgn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.459 * +EC2.3.2.13 ornithine cavia porcellus//*//* 1.35 * +EC2.3.2.13 putrescine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.203 * +EC2.3.2.13 putrescine cavia porcellus//*//* 0.04 * +EC2.3.2.13 putrescine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.11 * +EC2.3.2.13 putrescine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.3.2.13 putrescine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.051 * +EC2.3.2.13 putrescine physarum polycephalum//*//* 0.049 * +EC2.3.2.13 putrescine pisum sativum//*//* 9.63 * +EC2.3.2.13 putrescine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC2.3.2.13 spermidine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.042 * +EC2.3.2.13 spermidine physarum polycephalum//*//* 0.0214 * +EC2.3.2.13 spermine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.069 * +EC2.3.2.13 spermine physarum polycephalum//*//* 0.0317 * +EC2.3.2.13 succinylated casein patinopecten sp.//*//* 1.16 * +EC2.3.2.13 z-gln-gly cavia porcellus//*//* 1.8 * +EC2.3.2.14 d-alanine pisum sativum//*//* 2.9 * +EC2.3.2.14 l-glutamine pisum sativum//*//* 2.0 * +EC2.3.2.15 bimane-glutathione silene vulgaris//*//* 1.5 * +EC2.3.2.15 cd2+-bis-glutathionate euglena gracilis//*//* 0.0015 * +EC2.3.2.15 glutathione nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 8.6 * +EC2.3.2.15 glutathione silene vulgaris//*//* 6.7 * +EC2.3.2.15 glutathione solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 7.7 * +EC2.3.2.15 monobromobimane-glutathione silene vulgaris//*//* 1.5 * +EC2.3.2.15 zn2+-bis-glutathionate euglena gracilis//*//* 0.0016 * +EC2.3.2.2 1-menaphthylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC2.3.2.2 2,4-dinitrophenylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.075 * +EC2.3.2.2 4-methylbiphenylylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC2.3.2.2 4-nitrobenzylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC2.3.2.2 5-d-glu-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC2.3.2.2 5-d-glutamyl-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.137 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide allium cepa//*//* 12.0 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.021 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 0.073 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.4 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.74 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0125 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0109 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide histoplasma capsulatum//eukaryotes;fungi;ascomycetes;eurotiomycetes//aje 0.75 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC2.3.2.2 5-l-glutamyl-4-nitroanilide raphanus sativus//*//* 0.024 * +EC2.3.2.2 5-l-glutamyl-7-amido-4-methylcoumarin ascaris suum//*//* 0.03 * +EC2.3.2.2 5-l-glutamyl-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.39 * +EC2.3.2.2 5-l-glutamyl-l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0334 * +EC2.3.2.2 7-(n-gamma-glutamylamino)-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0126 * +EC2.3.2.2 9-methylanthracenylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC2.3.2.2 d-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.278 * +EC2.3.2.2 d-glu-3-carboxy-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.61 * +EC2.3.2.2 gamma-glu-cys raphanus sativus//*//* 0.038 * +EC2.3.2.2 gamma-glutamyl-d,l-phenylthioglycylglycine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 11.3 * +EC2.3.2.2 gamma-l-glutamyl-4-nitroanilide picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.1 * +EC2.3.2.2 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0083 * +EC2.3.2.2 glutamine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 10.0 * +EC2.3.2.2 glutamyl-(3-carboxyl)-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 16.7 * +EC2.3.2.2 glutathione sulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0346 * +EC2.3.2.2 glutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.25 * +EC2.3.2.2 glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.3.2.2 glutathione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.67 * +EC2.3.2.2 glutathione proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.033 * +EC2.3.2.2 glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 18.0 * +EC2.3.2.2 glutathione solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.09 * +EC2.3.2.2 glutathione sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0057 * +EC2.3.2.2 glutathionesulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0751 * +EC2.3.2.2 gly-gly helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 2.5 * +EC2.3.2.2 glycyl-glycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.687 * +EC2.3.2.2 glycylglycine ascaris suum//*//* 1.28 * +EC2.3.2.2 glycylglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.0 * +EC2.3.2.2 glycylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 590.0 * +EC2.3.2.2 glycylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.4 * +EC2.3.2.2 glycylglycine penicillium roqueforti//*//* 48.0 * +EC2.3.2.2 glycylglycine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 2.9 * +EC2.3.2.2 glycylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC2.3.2.2 gs-bimane raphanus sativus//*//* 0.21 * +EC2.3.2.2 gsh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC2.3.2.2 gsh raphanus sativus//*//* 0.032 * +EC2.3.2.2 gssg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.3.2.2 gssg raphanus sativus//*//* 0.038 * +EC2.3.2.2 l-alpha-methyl-5-glutamyl-l-alpha-aminobutyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.9 * +EC2.3.2.2 l-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 210.0 * +EC2.3.2.2 l-cysteinylglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.09 * +EC2.3.2.2 l-cystine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC2.3.2.2 l-cystine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.029 * +EC2.3.2.2 l-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC2.3.2.2 l-glu-3-carboxy-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC2.3.2.2 l-glu-3-carboxy-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.09 * +EC2.3.2.2 l-glu-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC2.3.2.2 l-glu-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.3.2.2 l-glu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.3.2.2 l-glu-4-nitroanilide lentinula edodes//*//* 4.0 * +EC2.3.2.2 l-glu-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.67 * +EC2.3.2.2 l-glu-4-nitroanilide penicillium roqueforti//*//* 0.005 * +EC2.3.2.2 l-glu-4-nitroanilide proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.13 * +EC2.3.2.2 l-glu-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.3.2.2 l-glu-4-nitroanilide solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.7 * +EC2.3.2.2 l-glutamic acid 5-(3-carboxy-4-nitroanilide) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.301 * +EC2.3.2.2 l-phe proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 32.0 * +EC2.3.2.2 leukotriene c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0056 * +EC2.3.2.2 leukotriene c4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0102 * +EC2.3.2.2 s-(4-nitro-benzyl)glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC2.3.2.2 s-methylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC2.3.2.2 s-nitroso-glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.398 * +EC2.3.2.23 [ubiquitin carrier protein ubc4]-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC2.3.2.23 [ubiquitin-carrier-protein ubc2b]-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000111 * +EC2.3.2.24 [cytochrome c]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.125 * +EC2.3.2.24 [histone h2a]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00083 * +EC2.3.2.24 [histone h2b]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0015 * +EC2.3.2.24 [histone h3]-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0013 * +EC2.3.2.3 l-lysyl-trna staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0069 * +EC2.3.2.3 phosphatidylglycerol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.056 * +EC2.3.2.4 2-amino-5-(butan-2-ylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC2.3.2.4 2-amino-5-(cyclohexylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC2.3.2.4 2-amino-5-(cyclopropylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.045 * +EC2.3.2.4 2-amino-5-(tert-butylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC2.3.2.4 2-amino-5-[(2-methylbutyl)amino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC2.3.2.4 2-amino-5-[(2s)-butan-2-ylamino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC2.3.2.4 2-amino-5-[[(2s)-2-methylbutyl]amino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC2.3.2.4 2-amino-5-oxo-5-(propan-2-ylamino)pentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.068 * +EC2.3.2.4 5-l-(threo-2-methyl)glutamyl-l-alpha-aminobutyrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.0 * +EC2.3.2.4 5-l-glutamyl-(+)-3-aminobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.3.2.4 5-l-glutamyl-(+)-3-aminoisobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.33 * +EC2.3.2.4 5-l-glutamyl-5-l-glutamyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.3.2.4 5-l-glutamyl-5-l-glutamyl-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.3.2.4 5-l-glutamyl-anilide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.3.2.4 5-l-glutamyl-benzylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.56 * +EC2.3.2.4 5-l-glutamyl-beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.91 * +EC2.3.2.4 5-l-glutamyl-beta-phenethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.44 * +EC2.3.2.4 5-l-glutamyl-cyclopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.084 * +EC2.3.2.4 5-l-glutamyl-ethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.36 * +EC2.3.2.4 5-l-glutamyl-glycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.9 * +EC2.3.2.4 5-l-glutamyl-l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.3.2.4 5-l-glutamyl-l-alpha-aminobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC2.3.2.4 5-l-glutamyl-l-glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC2.3.2.4 5-l-glutamyl-l-phenylalanine musca domestica//eukaryotes;animals;arthropods;insects//mde 2.94 * +EC2.3.2.4 5-l-glutamyl-n-butylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC2.3.2.4 5-l-glutamyl-n-propylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.32 * +EC2.3.2.4 5-l-glutamyl-neohexylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC2.3.2.4 5-l-glutamyl-neopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.61 * +EC2.3.2.4 alpha-n-(gamma-l-glutamyl)-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 100.0 * +EC2.3.2.4 glutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.7 * +EC2.3.2.4 glutathione ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 2.11 * +EC2.3.2.4 nepsilon-(5-l-glutamyl)-d-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.27 * +EC2.3.2.4 nepsilon-(5-l-glutamyl)-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.26 * +EC2.3.2.4 o-(n-butylcarbamyl)-l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.0 * +EC2.3.2.4 s-(cyclohexylamine)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC2.3.2.4 s-(n-butylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.091 * +EC2.3.2.4 s-(n-propylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.093 * +EC2.3.2.5 2-amino-5-(butan-2-ylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.24 * +EC2.3.2.5 2-amino-5-(cyclohexylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.32 * +EC2.3.2.5 2-amino-5-(cyclopropylamino)-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.22 * +EC2.3.2.5 2-amino-5-[(2-methylbutyl)amino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.38 * +EC2.3.2.5 2-amino-5-[(2s)-butan-2-ylamino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.62 * +EC2.3.2.5 2-amino-5-[[(2s)-2-methylbutyl]amino]-5-oxopentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.38 * +EC2.3.2.5 2-amino-5-oxo-5-(propan-2-ylamino)pentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.69 * +EC2.3.2.5 2-amino-5-oxo-5-[(2-phenylethyl)amino]pentanoic acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.44 * +EC2.3.2.5 [gln1,gly4]-thyrotropin releasing hormone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.088 * +EC2.3.2.5 [gln1]-fertilization promoting peptide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.151 * +EC2.3.2.5 [gln1]-fertilization promoting peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC2.3.2.5 [gln1]-gastrin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.033 * +EC2.3.2.5 [gln1]-gastrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC2.3.2.5 [gln1]-gonadotropin releasing-hormone carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.054 * +EC2.3.2.5 [gln1]-gonadotropin releasing-hormone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC2.3.2.5 [gln1]-neurotensin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.023 * +EC2.3.2.5 [gln1]-neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC2.3.2.5 [gln1]-thyrotropin releasing-hormone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.3.2.5 efrh-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC2.3.2.5 efrhhdsgye-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC2.3.2.5 gln 7-amido-4-methylcoumarin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.042 * +EC2.3.2.5 gln(3)-amyloid-beta peptide 3-11 amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC2.3.2.5 gln(3)-amyloid-beta peptide 3-21 amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.162 * +EC2.3.2.5 gln(3)-amyloid-beta peptide 3-40 amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.089 * +EC2.3.2.5 gln-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC2.3.2.5 gln-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC2.3.2.5 gln-ala-ala-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.197 * +EC2.3.2.5 gln-ala-ala-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC2.3.2.5 gln-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.164 * +EC2.3.2.5 gln-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC2.3.2.5 gln-ala-ala-ser-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.216 * +EC2.3.2.5 gln-ala-ala-ser-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC2.3.2.5 gln-ala carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.143 * +EC2.3.2.5 gln-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.232 * +EC2.3.2.5 gln-arg-gly-ile-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.065 * +EC2.3.2.5 gln-arg-gly-ile-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC2.3.2.5 gln-arg-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.124 * +EC2.3.2.5 gln-arg-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.3.2.5 gln-asn-gly-ile-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.153 * +EC2.3.2.5 gln-asn-gly-ile-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.172 * +EC2.3.2.5 gln-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.3.2.5 gln-beta-naphthylamine carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.038 * +EC2.3.2.5 gln-gln-gln carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.31 * +EC2.3.2.5 gln-gln-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC2.3.2.5 gln-gln-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.045 * +EC2.3.2.5 gln-gln-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC2.3.2.5 gln-gln carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.044 * +EC2.3.2.5 gln-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.3.2.5 gln-gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.092 * +EC2.3.2.5 gln-glu-ala-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.102 * +EC2.3.2.5 gln-glu-ala-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC2.3.2.5 gln-glu-ala-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.081 * +EC2.3.2.5 gln-glu-ala-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC2.3.2.5 gln-glu-asp-leu-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.094 * +EC2.3.2.5 gln-glu-asp-leu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.3.2.5 gln-glu-tyr-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.113 * +EC2.3.2.5 gln-glu-tyr-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC2.3.2.5 gln-glu-tyr-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.103 * +EC2.3.2.5 gln-glu-tyr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC2.3.2.5 gln-glu-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.1 * +EC2.3.2.5 gln-glu-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC2.3.2.5 gln-glu carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.094 * +EC2.3.2.5 gln-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.359 * +EC2.3.2.5 gln-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.47 * +EC2.3.2.5 gln-gly-pro carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.333 * +EC2.3.2.5 gln-gly-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.3.2.5 gln-gly-pro mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.102 * +EC2.3.2.5 gln-gly carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.641 * +EC2.3.2.5 gln-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.247 * +EC2.3.2.5 gln-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC2.3.2.5 gln-his-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.092 * +EC2.3.2.5 gln-his-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC2.3.2.5 gln-lys-arg-leu-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.053 * +EC2.3.2.5 gln-lys-arg-leu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC2.3.2.5 gln-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.433 * +EC2.3.2.5 gln-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.401 * +EC2.3.2.5 gln-phe-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.111 * +EC2.3.2.5 gln-phe-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC2.3.2.5 gln-phe-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.3.2.5 gln-phe-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.06 * +EC2.3.2.5 gln-pro-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.149 * +EC2.3.2.5 gln-pro-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.89 * +EC2.3.2.5 gln-ser-tyr-phe-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.135 * +EC2.3.2.5 gln-ser-tyr-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.3.2.5 gln-tert-butyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.223 * +EC2.3.2.5 gln-tert-butyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.235 * +EC2.3.2.5 gln-thr-ala bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.132 * +EC2.3.2.5 gln-trp-ala-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.072 * +EC2.3.2.5 gln-trp-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.3.2.5 gln-tyr-ala carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.063 * +EC2.3.2.5 gln-tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.3.2.5 gln-tyr-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.058 * +EC2.3.2.5 gln-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.211 * +EC2.3.2.5 gln-val carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.12 * +EC2.3.2.5 gln-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.196 * +EC2.3.2.5 gln carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 16.0 * +EC2.3.2.5 glucagon(3-29) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.3.2.5 glutamine tert-butyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.32 * +EC2.3.2.5 gonadotropin releasing hormone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.063 * +EC2.3.2.5 h-gln-7-amido-4-methylcoumarin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC2.3.2.5 h-gln-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC2.3.2.5 h-gln-7-amido-4-methylcoumarin solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.105 * +EC2.3.2.5 h-gln-ala-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.294 * +EC2.3.2.5 h-gln-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 2.8 * +EC2.3.2.5 h-gln-ala-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.838 * +EC2.3.2.5 h-gln-asp-glu-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.487 * +EC2.3.2.5 h-gln-asp-glu-leu-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 2.3 * +EC2.3.2.5 h-gln-asp-glu-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.748 * +EC2.3.2.5 h-gln-beta-naphthylamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.028 * +EC2.3.2.5 h-gln-beta-naphthylamide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.15 * +EC2.3.2.5 h-gln-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC2.3.2.5 h-gln-beta-naphthylamide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.056 * +EC2.3.2.5 h-gln-gln-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.053 * +EC2.3.2.5 h-gln-gln-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.94 * +EC2.3.2.5 h-gln-gln-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.115 * +EC2.3.2.5 h-gln-gln-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.487 * +EC2.3.2.5 h-gln-glu-ala-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC2.3.2.5 h-gln-glu-ala-phe-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.42 * +EC2.3.2.5 h-gln-glu-ala-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.742 * +EC2.3.2.5 h-gln-glu-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.265 * +EC2.3.2.5 h-gln-glu-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 29.5 * +EC2.3.2.5 h-gln-glu-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.705 * +EC2.3.2.5 h-gln-glu-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.516 * +EC2.3.2.5 h-gln-glu-tyr-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.33 * +EC2.3.2.5 h-gln-glu-tyr-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.086 * +EC2.3.2.5 h-gln-glu-tyr-phe-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.065 * +EC2.3.2.5 h-gln-glu-tyr-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.41 * +EC2.3.2.5 h-gln-gly-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.1 * +EC2.3.2.5 h-gln-gly-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 2.4 * +EC2.3.2.5 h-gln-gly-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.424 * +EC2.3.2.5 h-gln-gly-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.64 * +EC2.3.2.5 h-gln-gly-pro-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.59 * +EC2.3.2.5 h-gln-gly-pro-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.17 * +EC2.3.2.5 h-gln-gly-pro-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.214 * +EC2.3.2.5 h-gln-gly-pro-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.791 * +EC2.3.2.5 h-gln-lys-arg-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.06 * +EC2.3.2.5 h-gln-lys-arg-leu-nh2 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.08 * +EC2.3.2.5 h-gln-lys-arg-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.448 * +EC2.3.2.5 h-gln-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.48 * +EC2.3.2.5 h-gln-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.048 * +EC2.3.2.5 h-gln-phe-ala-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.106 * +EC2.3.2.5 h-gln-phe-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.44 * +EC2.3.2.5 h-gln-phe-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.128 * +EC2.3.2.5 h-gln-ser-tyr-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.247 * +EC2.3.2.5 h-gln-tyr-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.72 * +EC2.3.2.5 h-gln-val-ala-oh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.014 * +EC2.3.2.5 h-gln-val-ala-oh drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.1293 * +EC2.3.2.5 h-gln-val-ala-oh solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.282 * +EC2.3.2.5 l-gamma-glutamyl-(+)-3-aminobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.3.2.5 l-gamma-glutamyl-(+)-3-aminoisobutyric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.33 * +EC2.3.2.5 l-gamma-glutamyl-beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.91 * +EC2.3.2.5 l-gamma-glutamyl-ethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.36 * +EC2.3.2.5 l-gamma-glutamyl-n-butylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC2.3.2.5 l-gamma-glutamyl-n-propylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.32 * +EC2.3.2.5 l-gamma-glutamylaniline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.3.2.5 l-gamma-glutamylbenzylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.56 * +EC2.3.2.5 l-gamma-glutamylcyclopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.084 * +EC2.3.2.5 l-gamma-glutamylglycine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.9 * +EC2.3.2.5 l-gamma-glutamylneohexylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC2.3.2.5 l-gamma-glutamylneopentylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.61 * +EC2.3.2.5 l-gln-2-naphthylamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.028 * +EC2.3.2.5 l-gln-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC2.3.2.5 l-gln-2-naphthylamide myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.5 * +EC2.3.2.5 l-gln-2-naphthylamide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.056 * +EC2.3.2.5 l-gln-2-naphthylamide xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.121 * +EC2.3.2.5 l-gln-2-naphthylamide zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.4 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.048 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.05 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.105 * +EC2.3.2.5 l-gln-7-amido-4-methylcoumarin zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.3 * +EC2.3.2.5 l-gln-amide myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 2.7 * +EC2.3.2.5 l-gln-amide zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 2.9 * +EC2.3.2.5 l-gln-gly-l-pro arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.59 * +EC2.3.2.5 l-gln-gly-l-pro mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.17 * +EC2.3.2.5 l-gln-gly-l-pro solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.791 * +EC2.3.2.5 l-gln-gly arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.1 * +EC2.3.2.5 l-gln-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.41 * +EC2.3.2.5 l-gln-gly solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.64 * +EC2.3.2.5 l-gln-gly zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 3.8 * +EC2.3.2.5 l-gln-l-ala arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.294 * +EC2.3.2.5 l-gln-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC2.3.2.5 l-gln-l-ala solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.838 * +EC2.3.2.5 l-gln-l-arg-gly-l-ile-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.32 * +EC2.3.2.5 l-gln-l-asn-gly-l-ile-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.36 * +EC2.3.2.5 l-gln-l-asp-l-glu-l-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.487 * +EC2.3.2.5 l-gln-l-asp-l-glu-l-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.74 * +EC2.3.2.5 l-gln-l-gln arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.053 * +EC2.3.2.5 l-gln-l-gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC2.3.2.5 l-gln-l-gln myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 6.5 * +EC2.3.2.5 l-gln-l-gln solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.487 * +EC2.3.2.5 l-gln-l-gln zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 20.4 * +EC2.3.2.5 l-gln-l-glu-l-ala-l-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC2.3.2.5 l-gln-l-glu-l-ala-l-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.742 * +EC2.3.2.5 l-gln-l-glu-l-tyr-l-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.33 * +EC2.3.2.5 l-gln-l-glu-l-tyr-l-phe-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.086 * +EC2.3.2.5 l-gln-l-glu-l-tyr-l-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.41 * +EC2.3.2.5 l-gln-l-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.265 * +EC2.3.2.5 l-gln-l-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.8 * +EC2.3.2.5 l-gln-l-glu myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 2.4 * +EC2.3.2.5 l-gln-l-glu solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.516 * +EC2.3.2.5 l-gln-l-glu zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.2 * +EC2.3.2.5 l-gln-l-lys-l-arg-l-leu-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.06 * +EC2.3.2.5 l-gln-l-lys-l-arg-l-leu-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.448 * +EC2.3.2.5 l-gln-l-phe-l-ala-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.106 * +EC2.3.2.5 l-gln-l-phe-l-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.44 * +EC2.3.2.5 l-gln-l-ser-l-tyr-l-phe-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.247 * +EC2.3.2.5 l-gln-l-thr-gly-l-ile-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC2.3.2.5 l-gln-l-trp-l-ala-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.072 * +EC2.3.2.5 l-gln-l-val-l-ala-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.014 * +EC2.3.2.5 l-gln-l-val-l-ala-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.272 * +EC2.3.2.5 l-gln-nh2 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.48 * +EC2.3.2.5 l-gln-nh2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.048 * +EC2.3.2.5 l-gln-tert-butyl ester arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.151 * +EC2.3.2.5 l-gln-tert-butyl ester myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.0 * +EC2.3.2.5 l-gln-tert-butyl ester solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.294 * +EC2.3.2.5 l-gln-tert-butyl ester zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 8.2 * +EC2.3.2.5 l-glutamine tert-butyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.379 * +EC2.3.2.5 l-glutaminyl 2-naphthylamide ixodes scapularis//eukaryotes;animals;arthropods;mites and ticks//isc 0.0218 * +EC2.3.2.5 l-glutaminyl 4-methylcoumarin-7-amide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.205 * +EC2.3.2.5 l-glutaminyl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.3.2.5 l-glutaminyl-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC2.3.2.5 l-glutaminyl-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.3.2.5 l-glutaminyl-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC2.3.2.5 n1-naphthalen-2-yl-l-glutamamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.032 * +EC2.3.2.5 n1-naphthalen-2-yl-l-glutamamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC2.3.2.5 nepsilon-(l-gamma-glutamyl)-d-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.27 * +EC2.3.2.5 nepsilon-(l-gamma-glutamyl)-l-lysine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.26 * +EC2.3.2.5 o-(n-butylcarbamyl)-l-serine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.0 * +EC2.3.2.5 qaae myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.1 * +EC2.3.2.5 qaae zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.6 * +EC2.3.2.5 qaaf myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.8 * +EC2.3.2.5 qaaf zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.1 * +EC2.3.2.5 qaar myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.4 * +EC2.3.2.5 qaea myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.7 * +EC2.3.2.5 qaea zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.2 * +EC2.3.2.5 qafa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 2.5 * +EC2.3.2.5 qafa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 2.1 * +EC2.3.2.5 qara myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.1 * +EC2.3.2.5 qara zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 24.4 * +EC2.3.2.5 qeaa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.0 * +EC2.3.2.5 qeaa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.1 * +EC2.3.2.5 qedl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.3.2.5 qedl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC2.3.2.5 qeyf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.3.2.5 qeyf mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.029 * +EC2.3.2.5 qfaa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.9 * +EC2.3.2.5 qfaa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 3.5 * +EC2.3.2.5 qggg myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.1 * +EC2.3.2.5 qggg zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 5.6 * +EC2.3.2.5 qraa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.9 * +EC2.3.2.5 qraa zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 2.9 * +EC2.3.2.5 s-(cyclohexylamine)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC2.3.2.5 s-(n-butylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.091 * +EC2.3.2.5 s-(n-propylcarbamyl)-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.093 * +EC2.3.2.6 kac-acrydonylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC2.3.2.6 kpc-acrydonylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC2.3.2.6 kqc-acrydonylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0051 * +EC2.3.2.6 l-leucyl-trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.3.2.6 l-phenylalanyl-trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0033 * +EC2.3.2.6 repglctwqslr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC2.3.2.6 rgpcrafi escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.3.2.7 hydroxylamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 19.3 * +EC2.3.2.7 l-asparagine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.14 * +EC2.3.2.8 arginyl-trna sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC2.3.2.8 n-l-aspartyl-n'-dansylamido-1,4-butanediamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC2.3.2.B1 ditrans,ocatacis-undecaprenyl diphosphoryl murnac-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.037 * +EC2.3.2.B1 ditrans,ocatacis-undecaprenyl diphosphoryl murnac-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanyl-l-alanyl-gamma-d-glutamyl-l-lysine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.031 * +EC2.3.2.B1 l-alanyl-trna streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.00021 * +EC2.3.2.B1 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl(n6-l-alanyl)-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.237 * +EC2.3.2.B1 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.035 * +EC2.3.2.B11 calmodulin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0009 * +EC2.3.2.B2 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl(n6-l-alanyl)-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 33.1 * +EC2.3.2.B2 udp-murnac-l-alanyl-gamma-d-glutamyl-l-lysyl(n6-l-seryl)-d-alanyl-d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 125.0 * +EC2.3.2.B3 phenylhydrazine cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 4.0 * +EC2.3.2.B3 phenylhydrazine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 8.5 * +EC2.3.3.1 acetyl-coa nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.41 * +EC2.3.3.1 acetyl-coa solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.018 * +EC2.3.3.1 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.005 * +EC2.3.3.1 acetyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.01 * +EC2.3.3.1 oxaloacetate nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.027 * +EC2.3.3.1 oxaloacetate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.019 * +EC2.3.3.1 oxaloacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0059 * +EC2.3.3.1 oxaloacetate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.005 * +EC2.3.3.10 3-oxobutyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.019 * +EC2.3.3.10 acetoacetyl-coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.01 * +EC2.3.3.10 acetoacetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00035 * +EC2.3.3.10 acetoacetyl-coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.0014 * +EC2.3.3.10 acetoacetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC2.3.3.10 acetyl-coa blattella germanica//*//* 0.0015 * +EC2.3.3.10 acetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.051 * +EC2.3.3.10 acetyl-coa brassica juncea//*//* 0.043 * +EC2.3.3.10 acetyl-coa diploptera punctata//*//* 0.2 * +EC2.3.3.10 acetyl-coa enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.35 * +EC2.3.3.10 acetyl-coa gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.011 * +EC2.3.3.10 acetyl-coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.05 * +EC2.3.3.10 acetyl-coa hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.53 * +EC2.3.3.10 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC2.3.3.10 acetyl-coa locusta migratoria//*//* 0.4 * +EC2.3.3.10 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC2.3.3.10 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC2.3.3.10 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.695 * +EC2.3.3.13 2-oxo-3-methylbutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.279 * +EC2.3.3.13 2-oxo-3-methylbutanoate candida maltosa//*//* 0.57 * +EC2.3.3.13 2-oxo-3-methylbutanoate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.06 * +EC2.3.3.13 2-oxo-3-methylbutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0017 * +EC2.3.3.13 2-oxo-3-methylbutanoate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.03 * +EC2.3.3.13 2-oxo-3-methylbutanoate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.01 * +EC2.3.3.13 2-oxo-3-methylbutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC2.3.3.13 2-oxo-3-methylbutanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.06 * +EC2.3.3.13 2-oxo-3-methylbutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.075 * +EC2.3.3.13 2-oxo-3-methylbutanoyl-methylester cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 5.0 * +EC2.3.3.13 2-oxo-butanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.86 * +EC2.3.3.13 2-oxo-butanoate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.1 * +EC2.3.3.13 2-oxo-n-pentanoate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.4 * +EC2.3.3.13 2-oxo-n-pentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.41 * +EC2.3.3.13 2-oxobutanoate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 1.8 * +EC2.3.3.13 2-oxobutanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.57 * +EC2.3.3.13 2-oxobutanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.1 * +EC2.3.3.13 2-oxoisovalerate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.143 * +EC2.3.3.13 3-fluoropyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.3 * +EC2.3.3.13 3-methyl-2-oxobutanoate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.09 * +EC2.3.3.13 3-methyl-2-oxobutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.015 * +EC2.3.3.13 3-methyl-2-oxopentanoate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.027 * +EC2.3.3.13 4-methylthio-2-oxobutyrate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.734 * +EC2.3.3.13 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.016 * +EC2.3.3.13 acetyl-coa candida maltosa//*//* 0.064 * +EC2.3.3.13 acetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.075 * +EC2.3.3.13 acetyl-coa methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.07 * +EC2.3.3.13 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.024 * +EC2.3.3.13 acetyl-coa neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.035 * +EC2.3.3.13 acetyl-coa neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0245 * +EC2.3.3.13 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC2.3.3.13 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.2 * +EC2.3.3.13 acetyl-coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.005 * +EC2.3.3.13 alpha-ketobutyrate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 3.3 * +EC2.3.3.13 alpha-ketoisovalerate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0071 * +EC2.3.3.13 alpha-ketoisovalerate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 5.4 * +EC2.3.3.13 alpha-ketoisovaleric acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.035 * +EC2.3.3.13 butanoyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.4 * +EC2.3.3.13 crotonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.05 * +EC2.3.3.13 malonyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.5 * +EC2.3.3.13 pentanoyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.9 * +EC2.3.3.13 propanoyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.1 * +EC2.3.3.13 propionyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.22 * +EC2.3.3.13 pyruvate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 10.0 * +EC2.3.3.13 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 9.5 * +EC2.3.3.13 pyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.63 * +EC2.3.3.13 pyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 5.8 * +EC2.3.3.13 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC2.3.3.13 pyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 10.0 * +EC2.3.3.14 2-oxoadipate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.24 * +EC2.3.3.14 2-oxoglutarate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.261 * +EC2.3.3.14 2-oxoglutarate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2.24 * +EC2.3.3.14 2-oxoglutarate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.113 * +EC2.3.3.14 2-oxoglutarate candida maltosa//*//* 0.025 * +EC2.3.3.14 2-oxoglutarate penicillium chrysogenum//*//* 2.2 * +EC2.3.3.14 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC2.3.3.14 2-oxoglutarate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.159 * +EC2.3.3.14 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0054 * +EC2.3.3.14 2-oxoglutarate wickerhamomyces anomalus//*//* 11.8 * +EC2.3.3.14 acetyl-coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.017 * +EC2.3.3.14 acetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.06 * +EC2.3.3.14 acetyl-coa candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.48 * +EC2.3.3.14 acetyl-coa candida maltosa//*//* 0.033 * +EC2.3.3.14 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.024 * +EC2.3.3.14 acetyl-coa schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0107 * +EC2.3.3.14 acetyl-coa thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.028 * +EC2.3.3.14 acetyl-coa wickerhamomyces anomalus//*//* 0.2 * +EC2.3.3.14 oxaloacetate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2.28 * +EC2.3.3.14 oxaloacetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.255 * +EC2.3.3.15 2-sulfoacetaldehyde castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 2.1 * +EC2.3.3.15 2-sulfoacetaldehyde uncultured bacterium//*//* 5.0 * +EC2.3.3.15 phosphate castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 6.4 * +EC2.3.3.16 acetyl-coa acinetobacter calcoaceticus subsp. anitratus//*//* 0.1 * +EC2.3.3.16 acetyl-coa agave americana//*//* 0.2 * +EC2.3.3.16 acetyl-coa anthocidaris crassispina//*//* 0.033 * +EC2.3.3.16 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 71.6 * +EC2.3.3.16 acetyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.2 * +EC2.3.3.16 acetyl-coa aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0025 * +EC2.3.3.16 acetyl-coa aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.014 * +EC2.3.3.16 acetyl-coa azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.014 * +EC2.3.3.16 acetyl-coa bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.076 * +EC2.3.3.16 acetyl-coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.6 * +EC2.3.3.16 acetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.094 * +EC2.3.3.16 acetyl-coa dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.01 * +EC2.3.3.16 acetyl-coa drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0067 * +EC2.3.3.16 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.3.3.16 acetyl-coa geobacter sulfurreducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gsu 0.0141 * +EC2.3.3.16 acetyl-coa halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.211 * +EC2.3.3.16 acetyl-coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.075 * +EC2.3.3.16 acetyl-coa hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.143 * +EC2.3.3.16 acetyl-coa komagataeibacter europaeus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//keu 0.051 * +EC2.3.3.16 acetyl-coa mesorhizobium ciceri//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mci 0.088 * +EC2.3.3.16 acetyl-coa methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.007 * +EC2.3.3.16 acetyl-coa methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.084 * +EC2.3.3.16 acetyl-coa natronobacterium gregoryi//prokaryotes;archaea;euryarchaeota;natronobacterium//nge 0.11 * +EC2.3.3.16 acetyl-coa natronomonas pharaonis//prokaryotes;archaea;euryarchaeota;natronomonas//nph 0.45 * +EC2.3.3.16 acetyl-coa nitrosomonas sp.//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//nit 0.247 * +EC2.3.3.16 acetyl-coa penicillium spiculisporum//*//* 0.03 * +EC2.3.3.16 acetyl-coa pisum sativum//*//* 0.031 * +EC2.3.3.16 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC2.3.3.16 acetyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.035 * +EC2.3.3.16 acetyl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.004 * +EC2.3.3.16 acetyl-coa rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.007 * +EC2.3.3.16 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC2.3.3.16 acetyl-coa streptomyces diastaticus//*//* 0.0584 * +EC2.3.3.16 acetyl-coa sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.01 * +EC2.3.3.16 acetyl-coa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.007 * +EC2.3.3.16 acetyl-coa tetrahymena pyriformis//*//* 0.0286 * +EC2.3.3.16 acetyl-coa thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.00067 * +EC2.3.3.16 acetyl-coa thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.007 * +EC2.3.3.16 citrate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.001 * +EC2.3.3.16 oxaloacetate acinetobacter calcoaceticus subsp. anitratus//*//* 0.011 * +EC2.3.3.16 oxaloacetate agave americana//*//* 0.11 * +EC2.3.3.16 oxaloacetate anthocidaris crassispina//*//* 0.0032 * +EC2.3.3.16 oxaloacetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 90.3 * +EC2.3.3.16 oxaloacetate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.007 * +EC2.3.3.16 oxaloacetate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.63 * +EC2.3.3.16 oxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.007 * +EC2.3.3.16 oxaloacetate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.02 * +EC2.3.3.16 oxaloacetate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.012 * +EC2.3.3.16 oxaloacetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.12 * +EC2.3.3.16 oxaloacetate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.007 * +EC2.3.3.16 oxaloacetate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0031 * +EC2.3.3.16 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.3.3.16 oxaloacetate fasciola hepatica//*//* 0.22 * +EC2.3.3.16 oxaloacetate geobacter sulfurreducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gsu 0.0043 * +EC2.3.3.16 oxaloacetate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.018 * +EC2.3.3.16 oxaloacetate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.026 * +EC2.3.3.16 oxaloacetate komagataeibacter europaeus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//keu 0.02 * +EC2.3.3.16 oxaloacetate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.018 * +EC2.3.3.16 oxaloacetate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.012 * +EC2.3.3.16 oxaloacetate natronobacterium gregoryi//prokaryotes;archaea;euryarchaeota;natronobacterium//nge 0.063 * +EC2.3.3.16 oxaloacetate natronomonas pharaonis//prokaryotes;archaea;euryarchaeota;natronomonas//nph 0.21 * +EC2.3.3.16 oxaloacetate nitrosomonas sp.//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//nit 0.011 * +EC2.3.3.16 oxaloacetate penicillium spiculisporum//*//* 0.011 * +EC2.3.3.16 oxaloacetate pisum sativum//*//* 0.016 * +EC2.3.3.16 oxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.002 * +EC2.3.3.16 oxaloacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC2.3.3.16 oxaloacetate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.015 * +EC2.3.3.16 oxaloacetate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.002 * +EC2.3.3.16 oxaloacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC2.3.3.16 oxaloacetate streptomyces diastaticus//*//* 0.0112 * +EC2.3.3.16 oxaloacetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.02 * +EC2.3.3.16 oxaloacetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0183 * +EC2.3.3.16 oxaloacetate tetrahymena pyriformis//*//* 0.0283 * +EC2.3.3.16 oxaloacetate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.002 * +EC2.3.3.16 propionyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.016 * +EC2.3.3.16 propionyl-coa aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0017 * +EC2.3.3.16 propionyl-coa rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.003 * +EC2.3.3.17 2-oxoisovalerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC2.3.3.17 4-methylthio-2-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.932 * +EC2.3.3.17 5-methylthio-2-oxopentanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.476 * +EC2.3.3.17 6-methylthio-2-oxohexanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.463 * +EC2.3.3.17 8-methylthio-2-oxooctanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.253 * +EC2.3.3.17 9-methylthio-2-oxononanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.081 * +EC2.3.3.17 acetyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.245 * +EC2.3.3.17 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.6 * +EC2.3.3.18 3-(hydroxyphosphinoyl)pyruvate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.36 * +EC2.3.3.18 acetyl-coa streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.052 * +EC2.3.3.18 oxaloacetic acid streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.13 * +EC2.3.3.19 3-phosphonopyruvate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.39 * +EC2.3.3.19 acetyl-coa streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.05 * +EC2.3.3.19 oxalacetic acid streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.13 * +EC2.3.3.2 11-formamidoundecanoyl-coa penicillium spiculisporum//*//* 0.03 * +EC2.3.3.2 lauroyl-coa penicillium spiculisporum//*//* 0.0001 * +EC2.3.3.2 oxaloacetate penicillium spiculisporum//*//* 0.035 * +EC2.3.3.3 (r)-citryl-coa clostridium acidi-urici//*//* 0.0015 * +EC2.3.3.3 (r)-malyl-coa clostridium acidi-urici//*//* 0.02 * +EC2.3.3.3 acetyl-coa clostridium acidi-urici//*//* 0.05 * +EC2.3.3.3 acetyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.05 * +EC2.3.3.3 acetyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.13 * +EC2.3.3.3 oxaloacetate clostridium acidi-urici//*//* 0.04 * +EC2.3.3.3 oxaloacetate clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.04 * +EC2.3.3.3 oxaloacetate syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.085 * +EC2.3.3.4 2-oxoglutarate penicillium spiculisporum//*//* 0.75 * +EC2.3.3.4 lauroyl-coa penicillium spiculisporum//*//* 0.001 * +EC2.3.3.5 acetyl-coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0026 * +EC2.3.3.5 acetyl-coa aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0025 * +EC2.3.3.5 acetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.35 * +EC2.3.3.5 acetyl-coa fusarium solani//*//* 0.00126 * +EC2.3.3.5 acetyl-coa fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 0.00271 * +EC2.3.3.5 acetyl-coa rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.007 * +EC2.3.3.5 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.265 * +EC2.3.3.5 acetyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.0029 * +EC2.3.3.5 butyryl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.022 * +EC2.3.3.5 coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0085 * +EC2.3.3.5 oxaloacetate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.003 * +EC2.3.3.5 oxaloacetate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0027 * +EC2.3.3.5 oxaloacetate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.00063 * +EC2.3.3.5 oxaloacetate fusarium solani//*//* 0.00258 * +EC2.3.3.5 oxaloacetate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 0.00281 * +EC2.3.3.5 oxaloacetate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.002 * +EC2.3.3.5 oxaloacetate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.013 * +EC2.3.3.5 oxaloacetate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.025 * +EC2.3.3.5 propanoyl-coa aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0019 * +EC2.3.3.5 propanoyl-coa aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0017 * +EC2.3.3.5 propanoyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.061 * +EC2.3.3.5 propanoyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.045 * +EC2.3.3.5 propionyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.016 * +EC2.3.3.5 propionyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.3.3.5 propionyl-coa fusarium solani//*//* 0.00194 * +EC2.3.3.5 propionyl-coa fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 0.00188 * +EC2.3.3.5 propionyl-coa rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.003 * +EC2.3.3.5 propionyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.0053 * +EC2.3.3.5 valeryl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.025 * +EC2.3.3.8 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0098 * +EC2.3.3.8 atp chlorobaculum tepidum//*//* 0.31 * +EC2.3.3.8 atp chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.065 * +EC2.3.3.8 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC2.3.3.8 atp hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.65 * +EC2.3.3.8 atp lipomyces starkeyi//*//* 0.135 * +EC2.3.3.8 atp penicillium spiculisporum//*//* 0.09 * +EC2.3.3.8 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC2.3.3.8 atp rhodotorula toruloides//*//* 0.15 * +EC2.3.3.8 citrate chlorobaculum tepidum//*//* 0.21 * +EC2.3.3.8 citrate chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.225 * +EC2.3.3.8 citrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0738 * +EC2.3.3.8 citrate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 6.25 * +EC2.3.3.8 citrate lipomyces starkeyi//*//* 0.07 * +EC2.3.3.8 citrate penicillium spiculisporum//*//* 0.18 * +EC2.3.3.8 citrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.3.3.8 citrate rhodotorula toruloides//*//* 0.19 * +EC2.3.3.8 coa chlorobaculum tepidum//*//* 0.024 * +EC2.3.3.8 coa chlorobium limicola//prokaryotes;bacteria;chlorobi;chlorobium//cli 0.077 * +EC2.3.3.8 coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.3.3.8 coa hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.0408 * +EC2.3.3.8 coa penicillium spiculisporum//*//* 0.001 * +EC2.3.3.8 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC2.3.3.8 n6-etheno-adenosine triphosphate penicillium spiculisporum//*//* 0.18 * +EC2.3.3.8 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.177 * +EC2.3.3.8 phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.49 * +EC2.3.3.9 acetyl-coa bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.023 * +EC2.3.3.9 acetyl-coa bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.008 * +EC2.3.3.9 acetyl-coa candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 0.08 * +EC2.3.3.9 acetyl-coa corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.012 * +EC2.3.3.9 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.3.3.9 acetyl-coa euglena gracilis//*//* 0.025 * +EC2.3.3.9 acetyl-coa fomitopsis palustris//*//* 0.0022 * +EC2.3.3.9 acetyl-coa geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.008 * +EC2.3.3.9 acetyl-coa gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.01 * +EC2.3.3.9 acetyl-coa haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.00012 * +EC2.3.3.9 acetyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01 * +EC2.3.3.9 acetyl-coa ogataea angusta//*//* 0.011 * +EC2.3.3.9 acetyl-coa pinus densiflora//*//* 0.052 * +EC2.3.3.9 acetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.012 * +EC2.3.3.9 acetyl-coa ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.01 * +EC2.3.3.9 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC2.3.3.9 acetyl-coa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.05 * +EC2.3.3.9 acetyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC2.3.3.9 glyoxalate fomitopsis palustris//*//* 0.045 * +EC2.3.3.9 glyoxylate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.085 * +EC2.3.3.9 glyoxylate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.058 * +EC2.3.3.9 glyoxylate candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 1.0 * +EC2.3.3.9 glyoxylate colwellia maris//*//* 0.0198 * +EC2.3.3.9 glyoxylate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.03 * +EC2.3.3.9 glyoxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC2.3.3.9 glyoxylate euglena gracilis//*//* 0.04 * +EC2.3.3.9 glyoxylate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.052 * +EC2.3.3.9 glyoxylate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.00011 * +EC2.3.3.9 glyoxylate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.03 * +EC2.3.3.9 glyoxylate ogataea angusta//*//* 0.06 * +EC2.3.3.9 glyoxylate pinus densiflora//*//* 0.076 * +EC2.3.3.9 glyoxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.07 * +EC2.3.3.9 glyoxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.063 * +EC2.3.3.9 glyoxylate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 2.0 * +EC2.3.3.9 glyoxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.093 * +EC2.3.3.9 glyoxylate streptomyces arenae//*//* 1.25 * +EC2.3.3.9 glyoxylate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.00059 * +EC2.3.3.9 glyoxylate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00349 * +EC2.3.3.9 glyoxylate zea mays//eukaryotes;plants;monocots;grass family//zma 0.098 * +EC2.4.1.1 alpha-d-glucose 1-phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.41 * +EC2.4.1.1 alpha-d-glucose 1-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.1 * +EC2.4.1.1 alpha-d-glucose 1-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.054 * +EC2.4.1.1 alpha-glucan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC2.4.1.1 alpha-glucan saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC2.4.1.1 alpha-glucan solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.26 * +EC2.4.1.1 amp lethenteron camtschaticum//*//* 0.1 * +EC2.4.1.1 amp locusta migratoria//*//* 3e-05 * +EC2.4.1.1 amp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.074 * +EC2.4.1.1 amp streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.125 * +EC2.4.1.1 amp voandzeia subterranea//*//* 1.11 * +EC2.4.1.1 amylopectin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0046 * +EC2.4.1.1 amylopectin triticum aestivum//*//* 0.03 * +EC2.4.1.1 amylopectin zea mays//eukaryotes;plants;monocots;grass family//zma 0.017 * +EC2.4.1.1 amylose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.1 * +EC2.4.1.1 amylose triticum aestivum//*//* 0.71 * +EC2.4.1.1 arsenate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 22.7 * +EC2.4.1.1 d-glucose-1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.57 * +EC2.4.1.1 dextrin dp11 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 0.5 * +EC2.4.1.1 dextrin dp14 ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.73 * +EC2.4.1.1 dextrin dp19 ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.39 * +EC2.4.1.1 dextrin dp4 ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.8 * +EC2.4.1.1 dextrin dp9 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 1.22 * +EC2.4.1.1 dextrin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0418 * +EC2.4.1.1 glucose 1-phosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.6 * +EC2.4.1.1 glucose 1-phosphate chlorella vulgaris//*//* 0.12 * +EC2.4.1.1 glucose 1-phosphate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.05 * +EC2.4.1.1 glucose 1-phosphate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 1.04 * +EC2.4.1.1 glucose 1-phosphate cuscuta reflexa//*//* 1.19 * +EC2.4.1.1 glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.4.1.1 glucose 1-phosphate lethenteron camtschaticum//*//* 3.5 * +EC2.4.1.1 glucose 1-phosphate musa x paradisiaca//*//* 0.66 * +EC2.4.1.1 glucose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.7 * +EC2.4.1.1 glucose 1-phosphate papiliotrema laurentii//*//* 0.4 * +EC2.4.1.1 glucose 1-phosphate pisum sativum//*//* 0.72 * +EC2.4.1.1 glucose 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.86 * +EC2.4.1.1 glucose 1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.2 * +EC2.4.1.1 glucose 1-phosphate streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 3.4 * +EC2.4.1.1 glucose 1-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.2 * +EC2.4.1.1 glucose 1-phosphate voandzeia subterranea//*//* 2.78 * +EC2.4.1.1 glucose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 1.51 * +EC2.4.1.1 glucose-1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.4.1.1 glucose-1-phosphate mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 2.2 * +EC2.4.1.1 glucose-1-phosphate streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 3.4 * +EC2.4.1.1 glycogen dp14 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 0.27 * +EC2.4.1.1 glycogen locusta migratoria//*//* 0.1 * +EC2.4.1.1 glycogen manduca sexta//*//* 0.43 * +EC2.4.1.1 glycogen mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 3.0 * +EC2.4.1.1 glycogen oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC2.4.1.1 glycogen oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0138 * +EC2.4.1.1 glycogen saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC2.4.1.1 glycogen solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.3 * +EC2.4.1.1 glycogen sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC2.4.1.1 glycogen triticum aestivum//*//* 0.04 * +EC2.4.1.1 glycogen zea mays//eukaryotes;plants;monocots;grass family//zma 0.25 * +EC2.4.1.1 kf streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.49 * +EC2.4.1.1 maltodecaheptaose chlorella vulgaris//*//* 0.21 * +EC2.4.1.1 maltoheptaose chlorella vulgaris//*//* 1.22 * +EC2.4.1.1 maltoheptaose corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 3.72 * +EC2.4.1.1 maltoheptaose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.4.1.1 maltoheptaose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 7.1 * +EC2.4.1.1 maltoheptaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.9 * +EC2.4.1.1 maltoheptaose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.7 * +EC2.4.1.1 maltoheptaose triticum aestivum//*//* 0.81 * +EC2.4.1.1 maltoheptaose typha latifolia//*//* 0.12 * +EC2.4.1.1 maltoheptaose zea mays//eukaryotes;plants;monocots;grass family//zma 0.08 * +EC2.4.1.1 maltohexaose chlorella vulgaris//*//* 0.68 * +EC2.4.1.1 maltohexaose corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 3.15 * +EC2.4.1.1 maltohexaose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.3 * +EC2.4.1.1 maltohexaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.1 * +EC2.4.1.1 maltohexaose zea mays//eukaryotes;plants;monocots;grass family//zma 0.16 * +EC2.4.1.1 maltooctaose chlorella vulgaris//*//* 0.72 * +EC2.4.1.1 maltopentaose chlorella vulgaris//*//* 0.93 * +EC2.4.1.1 maltopentaose corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 2.73 * +EC2.4.1.1 maltopentaose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 9.1 * +EC2.4.1.1 maltopentaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.8 * +EC2.4.1.1 maltopentaose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.11 * +EC2.4.1.1 maltopentaose typha latifolia//*//* 0.49 * +EC2.4.1.1 maltopentaose zea mays//eukaryotes;plants;monocots;grass family//zma 0.23 * +EC2.4.1.1 maltose sulfolobus tokodaii str. 7//*//* 1.44 * +EC2.4.1.1 maltotetraose chlorella vulgaris//*//* 8.3 * +EC2.4.1.1 maltotetraose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC2.4.1.1 maltotetraose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 53.0 * +EC2.4.1.1 maltotetraose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 44.0 * +EC2.4.1.1 maltotetraose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.11 * +EC2.4.1.1 maltotetraose sulfolobus tokodaii str. 7//*//* 0.28 * +EC2.4.1.1 maltotetraose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.8 * +EC2.4.1.1 maltotetraose triticum aestivum//*//* 0.44 * +EC2.4.1.1 maltotetraose zea mays//eukaryotes;plants;monocots;grass family//zma 0.57 * +EC2.4.1.1 maltotriose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.5 * +EC2.4.1.1 maltotriose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 70.0 * +EC2.4.1.1 maltotriose sulfolobus tokodaii str. 7//*//* 0.31 * +EC2.4.1.1 maltotriose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 13.4 * +EC2.4.1.1 maltotriose typha latifolia//*//* 0.88 * +EC2.4.1.1 phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 1.6 * +EC2.4.1.1 phosphate chlorella vulgaris//*//* 2.4 * +EC2.4.1.1 phosphate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 2.2 * +EC2.4.1.1 phosphate corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 1.18 * +EC2.4.1.1 phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC2.4.1.1 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.4.1.1 phosphate locusta migratoria//*//* 1.15 * +EC2.4.1.1 phosphate manduca sexta//*//* 2.01 * +EC2.4.1.1 phosphate musa x paradisiaca//*//* 10.87 * +EC2.4.1.1 phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 11.0 * +EC2.4.1.1 phosphate papiliotrema laurentii//*//* 1.5 * +EC2.4.1.1 phosphate pisum sativum//*//* 0.45 * +EC2.4.1.1 phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 31.0 * +EC2.4.1.1 phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 7.7 * +EC2.4.1.1 phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 3.2 * +EC2.4.1.1 phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.9 * +EC2.4.1.1 phosphate streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 20.0 * +EC2.4.1.1 phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.0 * +EC2.4.1.1 phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.3 * +EC2.4.1.1 phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.9 * +EC2.4.1.1 phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 1.5 * +EC2.4.1.1 soluble starch oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0106 * +EC2.4.1.1 soluble starch triticum aestivum//*//* 0.1 * +EC2.4.1.1 starch dp24 corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 0.47 * +EC2.4.1.1 starch corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 0.04 * +EC2.4.1.1 starch cuscuta reflexa//*//* 4.4 * +EC2.4.1.1 starch ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.3 * +EC2.4.1.1 starch solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.5 * +EC2.4.1.1 starch sulfolobus tokodaii str. 7//*//* 0.013 * +EC2.4.1.100 1,1-nystose cichorium intybus//*//* 152.0 * +EC2.4.1.100 1-kestose allium cepa//*//* 18.0 * +EC2.4.1.100 1-kestose cichorium intybus//*//* 119.0 * +EC2.4.1.100 1-kestotriose triticum aestivum//*//* 233.0 * +EC2.4.1.100 fructose cichorium intybus//*//* 199.0 * +EC2.4.1.100 nystose allium cepa//*//* 440.0 * +EC2.4.1.100 sucrose helianthus tuberosus//*//* 0.2 * +EC2.4.1.100 sucrose triticum aestivum//*//* 203.0 * +EC2.4.1.101 2-deoxy-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.4.1.101 3-o-(4,4-azopentyl)-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.4.1.101 3-o-(4,5-epoxypentyl)-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC2.4.1.101 3-o-(5-iodoacetamidopentyl)-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.4.1.101 3-o-pentyl-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.5 * +EC2.4.1.101 4-o-methyl-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC2.4.1.101 6-o-methyl-manalpha6(manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.4.1.101 [manalpha6(manalpha3)manalpha6][manalpha3]man-beta4-n-acetyl-d-glucosamine-beta4-n-acetyl-d-glucosamine-asn rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.4.1.101 alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.078 * +EC2.4.1.101 alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosaminyl-1,4-n-acetylglucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC2.4.1.101 alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.03 * +EC2.4.1.101 alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosaminyl-r bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC2.4.1.101 alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosaminyl-r oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0384 * +EC2.4.1.101 alpha-d-mannosyl-1,6-(alpha-d-mannosyl-1,3)-alpha-d-mannosyl-1,6-(alpha-d-mannosyl-1,3)-beta-d-mannosyl-1,4-n-acetyl-d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.45 * +EC2.4.1.101 alpha-d-mannosyl-1,6-(alpha-d-mannosyl-1,3)-alpha-d-mannosyl-1,6-(alpha-d-mannosyl-1,3)-beta-d-mannosyl-1,4-n-acetyl-d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.39 * +EC2.4.1.101 alpha-mannosyl-1,3-beta-mannosyl-1,4-n-acetylglucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.4 * +EC2.4.1.101 man5glcnac2 cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.26 * +EC2.4.1.101 manalpha6(4-deoxy-manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.0 * +EC2.4.1.101 manalpha6(4-o-(5-iodoacetamidopentyl)-manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC2.4.1.101 manalpha6(4-o-methyl-manalpha3)man-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC2.4.1.101 manalpha6(manalpha3)man-o-beta hexyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.4.1.101 manalpha6(manalpha3)man-o-beta(8-methoxycarbonyl)octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC2.4.1.101 manalpha6(manalpha3)man-o-beta-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC2.4.1.101 manalpha6(manalpha3)man-o-beta4-n-acetyl-d-glucosamine-beta4(l-fucose-alpha6)-n-acetyl-d-glucosamine-asn rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.4.1.101 manalpha6(manalpha3)man-o-beta4-n-acetyl-d-glucosamine-beta4-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC2.4.1.101 manalpha6(manalpha3)man-o-beta4-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC2.4.1.101 n-acetyl-d-glucosamine-beta2-manalpha6(manalpha3)man-beta4-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC2.4.1.101 n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosaminyl-pyridinylamine acer pseudoplatanus//*//* 0.43 * +EC2.4.1.101 n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3-(alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-d-glucosaminyl-r bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.0 * +EC2.4.1.101 ovalbumin glycopeptide v bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC2.4.1.101 ovalbumin glycopeptide v rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC2.4.1.101 ovalbumin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC2.4.1.101 udp-n-acetyl-d-glucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.4.1.101 udp-n-acetyl-d-glucosamine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.036 * +EC2.4.1.101 udp-n-acetyl-d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0384 * +EC2.4.1.102 3-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC2.4.1.102 3-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.0 * +EC2.4.1.102 3-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC2.4.1.102 3-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.5 * +EC2.4.1.102 4-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC2.4.1.102 4-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.1 * +EC2.4.1.102 4-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC2.4.1.102 4-deoxy-beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.0 * +EC2.4.1.102 antifreeze glycoprotein polypeptide canis lupus familiaris//*//* 23.0 * +EC2.4.1.102 asialo-blood group a negative psm canis lupus familiaris//*//* 5.2 * +EC2.4.1.102 beta-d-galactosyl-1,3-(6-deoxy)-n-acetyl-d-galactosaminyl-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC2.4.1.102 beta-d-galactosyl-1,3-(6-deoxy)-n-acetyl-d-galactosaminyl-benzyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.0 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-alpha-d-galactosaminyl-benzyl gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.1 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-alpha-d-galactosaminyl-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-alpha-d-galactosaminyl-benzyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.0 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-alpha-d-galactosaminyl-benzyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-alpha-d-galactosaminyl-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-o-nitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-p-nitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.4.1.102 beta-d-galactosyl-1,3-n-acetyl-d-galactosaminyl-phenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-alpha-d-galactosaminyl-benzyl canis lupus familiaris//*//* 0.77 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-alpha-d-galactosaminyl-methyl canis lupus familiaris//*//* 4.2 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-alpha-d-galactosaminyl-phenyl canis lupus familiaris//*//* 1.2 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-beta-d-galactosaminyl-p-nitrophenyl canis lupus familiaris//*//* 0.92 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-d-galactosamine canis lupus familiaris//*//* 1.2 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-d-galactosaminyl-alpha-o-nitrophenyl canis lupus familiaris//*//* 0.86 * +EC2.4.1.102 galactosyl-beta-1,3-n-acetyl-d-galactosaminyl-alpha-p-nitrophenyl canis lupus familiaris//*//* 0.52 * +EC2.4.1.102 galbeta(1-3)galnacalpha-p-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.1.102 galbeta(1-3)galnacalpha-p-nitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC2.4.1.102 porcine submaxillary mucin polypeptide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide canis lupus familiaris//*//* 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide platyrrhini//*//* 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2 * +EC2.4.1.102 porcine submaxillary mucin polypeptide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.2 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine canis lupus familiaris//*//* 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.5 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine platyrrhini//*//* 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.4.1.102 udp-n-acetyl-d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0063 * +EC2.4.1.103 alizarin kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.11 * +EC2.4.1.103 udpglucose kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.0108 * +EC2.4.1.104 daphnetin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.095 * +EC2.4.1.104 esculetin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.025 * +EC2.4.1.104 scopoletin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.15 * +EC2.4.1.104 udpglucose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.043 * +EC2.4.1.105 udpglucose silene latifolia subsp. alba//*//* 0.2 * +EC2.4.1.105 vitexin silene latifolia subsp. alba//*//* 0.01 * +EC2.4.1.106 isoorientin silene latifolia subsp. alba//*//* 0.45 * +EC2.4.1.106 isovitexin silene latifolia subsp. alba//*//* 0.09 * +EC2.4.1.106 udpglucose silene latifolia subsp. alba//*//* 0.3 * +EC2.4.1.109 ac-ala-thr-ala-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 6.7 * +EC2.4.1.109 ac-tyr-ala-thr-ala-val-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.25 * +EC2.4.1.109 ac-tyr-ala-thr-ala-val-nh2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC2.4.1.109 ac-tyr-asn-pro-thr-ser-val-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 4.3 * +EC2.4.1.109 biotin-tyr-leu-ala-val-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.1 * +EC2.4.1.109 biotin-tyr-pro-thr-ala-val-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.85 * +EC2.4.1.109 biotin-tyr-thr-ala-val-nh2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.075 * +EC2.4.1.109 dolichyl phosphate d-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.4.1.109 rspspstq saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC2.4.1.109 synthetic peptide based on a mucin-like domain in alpha-dystroglycan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC2.4.1.109 tyr-ala-thr-ala-val candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.2 * +EC2.4.1.109 tyr-asn-pro-thr-ser-val saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC2.4.1.109 tyr-leu-thr-ala-val candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.5 * +EC2.4.1.109 tyr-pro-thr-ala-val candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 7.3 * +EC2.4.1.11 adp-glucose crypthecodinium cohnii//*//* 11.5 * +EC2.4.1.11 adp-glucose cyanophora paradoxa//*//* 8.0 * +EC2.4.1.11 adp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.1 * +EC2.4.1.11 amylopectin crypthecodinium cohnii//*//* 2.0 * +EC2.4.1.11 dtdp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.0 * +EC2.4.1.11 gdp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.9 * +EC2.4.1.11 glycogen crypthecodinium cohnii//*//* 2.4 * +EC2.4.1.11 udp-glucose ascaris suum//*//* 0.31 * +EC2.4.1.11 udp-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.26 * +EC2.4.1.11 udp-glucose caudiverbera caudiverbera//*//* 0.87 * +EC2.4.1.11 udp-glucose crypthecodinium cohnii//*//* 10.7 * +EC2.4.1.11 udp-glucose cyanophora paradoxa//*//* 15.0 * +EC2.4.1.11 udp-glucose dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2.4 * +EC2.4.1.11 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.4.1.11 udp-glucose mytilus edulis//*//* 0.31 * +EC2.4.1.11 udp-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC2.4.1.11 udp-glucose pelophylax ridibundus//*//* 1.4 * +EC2.4.1.11 udp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.1 * +EC2.4.1.11 udp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.4.1.11 udp-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC2.4.1.111 coniferyl alcohol forsythia ovata//*//* 0.0037 * +EC2.4.1.111 coniferyl alcohol picea abies//*//* 0.25 * +EC2.4.1.111 coniferyl alcohol pinus strobus//*//* 0.1196 * +EC2.4.1.111 coniferyl alcohol rosa sp.//*//* 0.0033 * +EC2.4.1.111 coniferyl aldehyde pinus strobus//*//* 0.3174 * +EC2.4.1.111 coniferyl aldehyde rosa sp.//*//* 0.065 * +EC2.4.1.111 sinapaldehyde pinus strobus//*//* 0.2417 * +EC2.4.1.111 sinapyl alcohol picea abies//*//* 0.58 * +EC2.4.1.111 sinapyl alcohol pinus strobus//*//* 0.153 * +EC2.4.1.111 sinapyl alcohol rosa sp.//*//* 0.0056 * +EC2.4.1.111 udpglucose forsythia ovata//*//* 0.025 * +EC2.4.1.111 udpglucose picea abies//*//* 0.22 * +EC2.4.1.111 udpglucose rosa sp.//*//* 0.02 * +EC2.4.1.111 vanillin picea abies//*//* 0.64 * +EC2.4.1.113 adp-glucose thermococcus hydrothermalis//*//* 0.9 * +EC2.4.1.115 cyanidin brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.4 * +EC2.4.1.115 cyanidin pericallis hybrida//*//* 0.33 * +EC2.4.1.115 cyanidin silene dioica//*//* 0.07 * +EC2.4.1.115 cyanidin vitis labrusca//*//* 0.00479 * +EC2.4.1.115 cyanidin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.018 * +EC2.4.1.115 cyanidin xanthisma gracile//*//* 0.33 * +EC2.4.1.115 delphinidin silene dioica//*//* 0.13 * +EC2.4.1.115 delphinidin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.016 * +EC2.4.1.115 malvidin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0357 * +EC2.4.1.115 pelargonidin silene dioica//*//* 0.13 * +EC2.4.1.115 quercetin vitis labrusca//*//* 0.00216 * +EC2.4.1.115 quercetin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.015 * +EC2.4.1.115 udp-glucose brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.51 * +EC2.4.1.115 udp-glucose pericallis hybrida//*//* 0.2 * +EC2.4.1.115 udp-glucose vitis labrusca//*//* 0.914 * +EC2.4.1.115 udp-glucose vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 1.2 * +EC2.4.1.115 udp-glucose xanthisma gracile//*//* 0.5 * +EC2.4.1.115 udpglucose silene dioica//*//* 0.41 * +EC2.4.1.116 anthocyanidin-3-o-glucoside silene dioica//*//* 2.0 * +EC2.4.1.116 anthocyanidin-3-o-rutinoside silene dioica//*//* 3.6 * +EC2.4.1.116 cyanidin-3-glucoside silene dioica//*//* 23.4 * +EC2.4.1.116 cyanidin-3-o-rutinoside silene dioica//*//* 3.6 * +EC2.4.1.116 cyanidin-3-rhamnosylglucoside silene dioica//*//* 3.6 * +EC2.4.1.116 udp-glucose silene dioica//*//* 0.5 * +EC2.4.1.116 udpglucose silene dioica//*//* 0.5 * +EC2.4.1.117 dolichyl phosphate acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0045 * +EC2.4.1.117 dolichyl phosphate vigna radiata var. radiata//*//* 0.002 * +EC2.4.1.117 dolichyl phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0012 * +EC2.4.1.117 udp-glucose acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0091 * +EC2.4.1.117 udp-glucose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.05 * +EC2.4.1.117 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC2.4.1.117 udp-glucose vigna radiata var. radiata//*//* 0.027 * +EC2.4.1.117 udp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.0005 * +EC2.4.1.118 dihydrozeatin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.16 * +EC2.4.1.118 kinetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC2.4.1.118 n6-benzyladenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC2.4.1.118 n6-isopentenyladenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC2.4.1.118 trans-zeatin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.22 * +EC2.4.1.118 udpglucose raphanus sativus//*//* 0.19 * +EC2.4.1.118 zeatin raphanus sativus//*//* 0.15 * +EC2.4.1.12 udpglucose gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.4 * +EC2.4.1.12 udpglucose hordeum vulgare//*//* 1.0 * +EC2.4.1.12 udpglucose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.0 * +EC2.4.1.12 udpglucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.004 * +EC2.4.1.120 4-coumarate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 3.6 * +EC2.4.1.120 caffeate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 2.3 * +EC2.4.1.120 ferulate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 1.7 * +EC2.4.1.120 sinapate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.72 * +EC2.4.1.120 sinapic acid brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.16 * +EC2.4.1.120 sinapic acid raphanus sativus//*//* 0.03 * +EC2.4.1.120 udp-glucose brassica napus//eukaryotes;plants;eudicots;mustard family//bna 1.0 * +EC2.4.1.120 udpglucose brassica napus//eukaryotes;plants;eudicots;mustard family//bna 2.4 * +EC2.4.1.120 udpglucose raphanus sativus//*//* 0.055 * +EC2.4.1.121 (indol-3-yl)acetate pisum sativum//*//* 0.52 * +EC2.4.1.121 (indol-3-yl)propionate pisum sativum//*//* 1.5 * +EC2.4.1.121 1-naphthalene acetate pisum sativum//*//* 4.0 * +EC2.4.1.121 cinnamic acid arabidopsis sp.//*//* 0.18 * +EC2.4.1.121 indole butyric acid arabidopsis sp.//*//* 0.15 * +EC2.4.1.121 indole propionic acid arabidopsis sp.//*//* 0.14 * +EC2.4.1.121 indole-3-acetate arabidopsis sp.//*//* 0.24 * +EC2.4.1.121 indole-3-acetate zea mays//eukaryotes;plants;monocots;grass family//zma 1.08 * +EC2.4.1.121 udp-glucose pisum sativum//*//* 2.67 * +EC2.4.1.121 udpglucose arabidopsis sp.//*//* 0.25 * +EC2.4.1.121 udpglucose zea mays//eukaryotes;plants;monocots;grass family//zma 2.5 * +EC2.4.1.122 a-p-(n-acetyl-d-galactosaminyl)t-s-s-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.55 * +EC2.4.1.122 asialo cowper's gland mucin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00035 * +EC2.4.1.122 asialo ovine submaxillary mucin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 5.0 * +EC2.4.1.122 n-acetyl-alpha-d-galactosaminyl-benzyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.4.1.122 n-acetyl-alpha-d-galactosaminyl-phenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC2.4.1.122 udp-galactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.025 * +EC2.4.1.122 udp-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC2.4.1.122 udp-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.4.1.123 myo-inositol phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 4.5 * +EC2.4.1.123 udp-galactose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.4 * +EC2.4.1.125 dextran streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.0071 * +EC2.4.1.125 sucrose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 1.3 * +EC2.4.1.126 caffeic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0015 * +EC2.4.1.126 ferulic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0014 * +EC2.4.1.126 p-coumaric acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0008 * +EC2.4.1.126 sinapic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0025 * +EC2.4.1.126 udpglucose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.01 * +EC2.4.1.127 d-neomenthol mentha x piperita//*//* 0.048 * +EC2.4.1.127 l-menthol mentha x piperita//*//* 0.059 * +EC2.4.1.127 udpglucose mentha x piperita//*//* 0.2 * +EC2.4.1.128 scopoletin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0152 * +EC2.4.1.128 scopoletin catharanthus roseus//*//* 0.112 * +EC2.4.1.128 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2772 * +EC2.4.1.128 udp-glucose catharanthus roseus//*//* 1.0 * +EC2.4.1.129 [glcnac-(1-4)-mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)]n-diphosphoundecaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0183 * +EC2.4.1.129 glcnac-(1->4)-mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphoundecaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.4.1.129 glcnac-(1->4)-mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphoundecaprenol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.002 * +EC2.4.1.129 undecaprenyl-diphosphoryl-murnac-(l-ala-gamma-d-glu-meso-(diaminopimelic acid)-d-ala-d-ala)-glcnac staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.002 * +EC2.4.1.13 adp-glucose nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.044 * +EC2.4.1.13 adp acidithiobacillus caldus//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//acu 0.17 * +EC2.4.1.13 adp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 1.15 * +EC2.4.1.13 adp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.15 * +EC2.4.1.13 adp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.13 * +EC2.4.1.13 adp hordeum vulgare//*//* 0.15 * +EC2.4.1.13 adp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.44 * +EC2.4.1.13 adp oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.3 * +EC2.4.1.13 adp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.15 * +EC2.4.1.13 cdp acidithiobacillus caldus//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//acu 16.9 * +EC2.4.1.13 cdp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 3.7 * +EC2.4.1.13 cdp beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.44 * +EC2.4.1.13 cdp chlorella vulgaris//*//* 0.44 * +EC2.4.1.13 cdp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 1.28 * +EC2.4.1.13 cdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.44 * +EC2.4.1.13 cdp tetradesmus obliquus//*//* 0.44 * +EC2.4.1.13 cdp vigna radiata var. radiata//*//* 0.44 * +EC2.4.1.13 d-fructose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 1.1 * +EC2.4.1.13 d-fructose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.05 * +EC2.4.1.13 d-fructose nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 5.6 * +EC2.4.1.13 d-fructose saccharum officinarum//*//* 6.49 * +EC2.4.1.13 d-fructose saccharum sp.//*//* 6.49 * +EC2.4.1.13 d-fructose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.1 * +EC2.4.1.13 dtdp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.012 * +EC2.4.1.13 fructose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 2.08 * +EC2.4.1.13 fructose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.98 * +EC2.4.1.13 fructose ipomoea nil//eukaryotes;plants;eudicots;morning-glory family//ini 3.7 * +EC2.4.1.13 fructose leleba oldhami//*//* 0.98 * +EC2.4.1.13 fructose oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.08 * +EC2.4.1.13 fructose populus tremuloides//*//* 3.7 * +EC2.4.1.13 fructose prunus persica//eukaryotes;plants;eudicots;rose family//pper 3.7 * +EC2.4.1.13 fructose pyrus pyrifolia//*//* 18.6 * +EC2.4.1.13 fructose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.98 * +EC2.4.1.13 fructose triticum aestivum//*//* 0.98 * +EC2.4.1.13 fructose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 6.07 * +EC2.4.1.13 fructose zea mays//eukaryotes;plants;monocots;grass family//zma 0.98 * +EC2.4.1.13 gdp acidithiobacillus caldus//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//acu 8.5 * +EC2.4.1.13 gdp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 4.5 * +EC2.4.1.13 gdp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 1.56 * +EC2.4.1.13 gdp vicia faba//*//* 0.17 * +EC2.4.1.13 gdp vigna radiata var. radiata//*//* 0.17 * +EC2.4.1.13 sucrose anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 288.0 * +EC2.4.1.13 sucrose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 48.0 * +EC2.4.1.13 sucrose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 52.0 * +EC2.4.1.13 sucrose chlorella vulgaris//*//* 52.0 * +EC2.4.1.13 sucrose daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 87.0 * +EC2.4.1.13 sucrose glycine max//eukaryotes;plants;eudicots;pea family//gmx 16.9 * +EC2.4.1.13 sucrose helianthus tuberosus//*//* 56.0 * +EC2.4.1.13 sucrose hordeum vulgare//*//* 30.0 * +EC2.4.1.13 sucrose ipomoea nil//eukaryotes;plants;eudicots;morning-glory family//ini 52.0 * +EC2.4.1.13 sucrose leleba oldhami//*//* 16.9 * +EC2.4.1.13 sucrose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 22.3 * +EC2.4.1.13 sucrose nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 140.0 * +EC2.4.1.13 sucrose oryza sativa//eukaryotes;plants;monocots;grass family//osa 52.0 * +EC2.4.1.13 sucrose prunus persica//eukaryotes;plants;eudicots;rose family//pper 52.0 * +EC2.4.1.13 sucrose pyrus pyrifolia//*//* 37.6 * +EC2.4.1.13 sucrose saccharum officinarum//*//* 35.9 * +EC2.4.1.13 sucrose saccharum sp.//*//* 35.9 * +EC2.4.1.13 sucrose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0916 * +EC2.4.1.13 sucrose tetradesmus obliquus//*//* 52.0 * +EC2.4.1.13 sucrose triticum aestivum//*//* 5.0 * +EC2.4.1.13 sucrose vicia faba//*//* 16.9 * +EC2.4.1.13 sucrose vigna radiata var. radiata//*//* 16.9 * +EC2.4.1.13 sucrose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 16.7 * +EC2.4.1.13 sucrose zea mays//eukaryotes;plants;monocots;grass family//zma 16.9 * +EC2.4.1.13 tdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.65 * +EC2.4.1.13 udp-glcnac solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.77 * +EC2.4.1.13 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC2.4.1.13 udp-glucose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.43 * +EC2.4.1.13 udp-glucose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.42 * +EC2.4.1.13 udp-glucose nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.89 * +EC2.4.1.13 udp-glucose pyrus pyrifolia//*//* 0.05 * +EC2.4.1.13 udp-glucose saccharum officinarum//*//* 0.234 * +EC2.4.1.13 udp-glucose saccharum sp.//*//* 0.234 * +EC2.4.1.13 udp-glucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.5 * +EC2.4.1.13 udp-glucose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.83 * +EC2.4.1.13 udp acidithiobacillus caldus//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//acu 7.8 * +EC2.4.1.13 udp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 1.25 * +EC2.4.1.13 udp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.25 * +EC2.4.1.13 udp beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.061 * +EC2.4.1.13 udp daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.39 * +EC2.4.1.13 udp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.005 * +EC2.4.1.13 udp hordeum vulgare//*//* 0.22 * +EC2.4.1.13 udp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0076 * +EC2.4.1.13 udp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.69 * +EC2.4.1.13 udp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.41 * +EC2.4.1.13 udp prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.061 * +EC2.4.1.13 udp pyrus pyrifolia//*//* 0.069 * +EC2.4.1.13 udp saccharum officinarum//*//* 0.00191 * +EC2.4.1.13 udp saccharum sp.//*//* 0.00191 * +EC2.4.1.13 udp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0041 * +EC2.4.1.13 udp vicia faba//*//* 0.14 * +EC2.4.1.13 udp zea mays//eukaryotes;plants;monocots;grass family//zma 0.14 * +EC2.4.1.13 udpfructose cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 11.5 * +EC2.4.1.13 udpglucose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.3 * +EC2.4.1.13 udpglucose cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.3 * +EC2.4.1.13 udpglucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.012 * +EC2.4.1.13 udpglucose leleba oldhami//*//* 1.92 * +EC2.4.1.13 udpglucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.92 * +EC2.4.1.13 udpglucose populus tremuloides//*//* 0.11 * +EC2.4.1.13 udpglucose prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.012 * +EC2.4.1.13 udpglucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.92 * +EC2.4.1.13 udpglucose tetradesmus obliquus//*//* 5.3 * +EC2.4.1.13 udpglucose vigna radiata var. radiata//*//* 0.3 * +EC2.4.1.131 d-man-alpha-(1->3)-(d-man-alpha-(1->6))-d-man-beta-(1->4)-d-glcnac-beta-(1->4)-d-glcnac-diphosphodolichol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00064 * +EC2.4.1.131 gdp-d-mannose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0047 * +EC2.4.1.131 gdpmannose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0047 * +EC2.4.1.131 oligosaccharide-lipid acceptor oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00064 * +EC2.4.1.132 gdpmannose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00065 * +EC2.4.1.132 tetrasaccharide-diphosphoryl-lipid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00021 * +EC2.4.1.133 4-methylumbelliferyl o-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.4.1.133 4-methylumbelliferyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.1.133 4-methylumbelliferyl-beta-d-xyloside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC2.4.1.133 4-nitrophenyl o-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.27 * +EC2.4.1.133 4-nitrophenyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC2.4.1.133 beta-galactosyl-1,4-n-acetyl-beta-d-glucosaminyl-1,6-(n-acetyl-beta-d-glucosaminyl-1,2)-alpha-d-mannosyl-1,6-beta-d-mannosyl-octyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.41 * +EC2.4.1.133 n-acetyl-beta-d-glucosaminyl-1,2-alpha-d-mannosyl-1,6-beta-d-mannosyl-octyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.91 * +EC2.4.1.133 n-acetyl-beta-d-glucosaminyl-1,6-(beta-galactosyl-1,4-n-acetyl-beta-d-glucosaminyl-1,2)-alpha-d-mannosyl-1,6-beta-d-mannosyl-octyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.29 * +EC2.4.1.133 n-acetyl-beta-d-glucosaminyl-1,6-(n-acetyl-beta-d-glucosaminyl-1,2)-alpha-d-mannosyl-1,6-beta-d-mannosyl-octyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC2.4.1.133 n-acetyl-beta-d-glucosaminyl-1,6-alpha-d-mannosyl-1,6-beta-d-mannosyl-octyl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.88 * +EC2.4.1.133 p-nitrophenyl beta-d-xylose drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.2 * +EC2.4.1.133 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.4.1.133 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.4.1.133 udp-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.4.1.133 udpgalactose drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.05 * +EC2.4.1.133 udpgalactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC2.4.1.133 udpgalactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC2.4.1.134 pyridine 3-o-beta-galactoside gallus gallus//eukaryotes;animals;vertebrates;birds//gga 100.0 * +EC2.4.1.134 udpgalactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.05 * +EC2.4.1.135 3-beta-galactosyl-galactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0091 * +EC2.4.1.135 galbeta(1-3)gal(6-o-sulfate)beta(1-4)xyl(2-o-phosphate)beta1-o-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.4.1.135 galbeta(1-3)gal(6-o-sulfate)beta(1-4)xylbeta1-o-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC2.4.1.135 galbeta(1-3)galbeta(1-4)xyl(2-o-phosphate)beta1-o-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.4.1.135 galbeta(1-3)galbeta(1-4)xyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0804 * +EC2.4.1.135 galbeta(1-3)galbeta(1-4)xylbeta1-o-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC2.4.1.135 galbeta1,3galbeta-o-naphthalenemethanol cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.67 * +EC2.4.1.135 galbeta1,3galnacbeta-o-naphthalenemethanol cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 3.2 * +EC2.4.1.135 galbeta1,3glcnacbeta-o-naphthalenemethanol cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 2.9 * +EC2.4.1.135 galbeta1,4glcnacbeta-o-naphthalenemethanol cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.8 * +EC2.4.1.135 galbeta1-3gal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.48 * +EC2.4.1.135 udp-glca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC2.4.1.135 udp-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.4.1.135 udpglucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0293 * +EC2.4.1.135 udpglucuronate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00025 * +EC2.4.1.136 gallate quercus rubra//*//* 1.1 * +EC2.4.1.136 p-hydroxybenzoate quercus rubra//*//* 3.45 * +EC2.4.1.136 udpglucose quercus rubra//*//* 2.3 * +EC2.4.1.136 vanillate quercus rubra//*//* 0.57 * +EC2.4.1.136 veratrate quercus rubra//*//* 0.72 * +EC2.4.1.137 sn-glycerol 3-phosphate pyropia perforata//*//* 8.0 * +EC2.4.1.137 udpgalactose pyropia perforata//*//* 2.7 * +EC2.4.1.138 mannotetraose acceptor kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 11.0 * +EC2.4.1.138 udp-n-acetylglucosamine kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.0447 * +EC2.4.1.139 alpha-d-glucose 1-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.5 * +EC2.4.1.14 adp-glucose synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 2.0 * +EC2.4.1.14 d-fructose 6-phosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.8 * +EC2.4.1.14 d-fructose 6-phosphate ipomoea batatas//*//* 5.3 * +EC2.4.1.14 d-fructose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.5 * +EC2.4.1.14 d-fructose 6-phosphate pisum sativum//*//* 0.8 * +EC2.4.1.14 d-fructose 6-phosphate prosopis juliflora//*//* 2.0 * +EC2.4.1.14 d-fructose 6-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.7 * +EC2.4.1.14 d-fructose 6-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.2 * +EC2.4.1.14 d-fructose 6-phosphate triticum aestivum//*//* 3.0 * +EC2.4.1.14 gdp-glucose synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.5 * +EC2.4.1.14 udp-glucose anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 1.3 * +EC2.4.1.14 udp-glucose brassica napus//eukaryotes;plants;eudicots;mustard family//bna 4.2 * +EC2.4.1.14 udp-glucose dunaliella tertiolecta//*//* 4.2 * +EC2.4.1.14 udp-glucose hordeum vulgare//*//* 2.7 * +EC2.4.1.14 udp-glucose ipomoea batatas//*//* 5.4 * +EC2.4.1.14 udp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.6 * +EC2.4.1.14 udp-glucose pisum sativum//*//* 2.4 * +EC2.4.1.14 udp-glucose prosopis juliflora//*//* 4.6 * +EC2.4.1.14 udp-glucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.5 * +EC2.4.1.14 udp-glucose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.3 * +EC2.4.1.14 udp-glucose synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.8 * +EC2.4.1.14 udp-glucose trifolium repens//*//* 3.0 * +EC2.4.1.14 udp-glucose triticum aestivum//*//* 7.4 * +EC2.4.1.140 sucrose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 4.9 * +EC2.4.1.141 n-acetyl-d-glucosaminyl-diphosphodolichol cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0002 * +EC2.4.1.141 n-acetyl-d-glucosaminyl-diphosphodolichol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00264 * +EC2.4.1.141 n-acetyl-d-glucosaminyl-diphosphodolichol vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0022 * +EC2.4.1.141 udp-n-acetyl-d-glucosamine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.392 * +EC2.4.1.141 udp-n-acetyl-d-glucosamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0571 * +EC2.4.1.141 udp-n-acetyl-d-glucosamine vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.00025 * +EC2.4.1.142 gdp-mannose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0017 * +EC2.4.1.142 gdp-mannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC2.4.1.143 3-deoxy-manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC2.4.1.143 3-o-methyl-manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.4.1.143 4-deoxy-manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC2.4.1.143 4-o-methyl-alpha-d-mannosyl-1,6-(n-acetyl-beta-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3)-beta-d-mannosyl-o-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC2.4.1.143 4-o-methyl-manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.4.1.143 6-deoxy-manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.4.1.143 6-o-methyl-manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.1.143 alpha-d-mannosyl-1,6-(n-acetyl-beta-d-glucosaminyl-1,2-6-deoxy-alpha-d-mannosyl-1,3)-beta-d-mannosyl-o-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.55 * +EC2.4.1.143 alpha-d-mannosyl-1,6-(n-acetyl-beta-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3)-beta-d-mannosyl-o-octyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.4.1.143 alpha-d-mannosyl-1,6-(n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3)-beta-d-mannosyl-1,4-n-acetylglucosaminyl-r bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.4.1.143 alpha-d-mannosyl-1,6-(n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3)-beta-d-mannosyl-1,4-n-acetylglucosaminyl-r mesocricetus auratus//*//* 0.19 * +EC2.4.1.143 alpha-d-mannosyl-1,6-(n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3)-beta-d-mannosyl-1,4-n-acetylglucosaminyl-r vigna radiata var. radiata//*//* 0.0166 * +EC2.4.1.143 manalpha(1-6)(glcnacbeta(1-2)-6-deoxy-manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC2.4.1.143 manalpha(1-6)(glcnacbeta(1-2)4-o-methyl-manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.1.143 manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))-4-deoxy-manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC2.4.1.143 manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.4.1.143 udp-n-acetylglucosamine mesocricetus auratus//*//* 0.96 * +EC2.4.1.143 udp-n-acetylglucosamine oncorhynchus mykiss//*//* 0.23 * +EC2.4.1.143 udp-n-acetylglucosamine vigna radiata var. radiata//*//* 0.018 * +EC2.4.1.144 (n-acetyl-beta-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3)-(n-acetyl-beta-d-glucosaminyl-1,2-alpha-d-mannosyl-1,6)-beta-d-mannosyl-1,4-n-acetyl-beta-d-glucosaminyl-r gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.23 * +EC2.4.1.144 pyridylaminated acceptor substrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.1.144 pyridylaminated acceptor substrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC2.4.1.144 udp-n-acetyl-d-glucosamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.1 * +EC2.4.1.144 udp-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC2.4.1.144 udp-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC2.4.1.145 pyridylaminated acceptor substrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC2.4.1.145 udp-n-acetylglucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC2.4.1.146 beta-d-galactosyl-1,3-(n-acetyl-d-glucosaminyl-1,6)-n-acetyl-d-galactosaminyl-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.2 * +EC2.4.1.146 beta-d-galactosyl-1,3-(n-acetyl-d-glucosaminyl-1,6)-n-acetyl-d-galactosaminyl-o-nitrophenyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC2.4.1.146 methyl 9-[[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl-(1-2)-6-deoxy-alpha-d-mannopyranosyl-(1-3)-[6-deoxy-alpha-d-mannopyranosyl-(1-6)]-beta-d-mannopyranosyl]oxy]nonanoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC2.4.1.146 udp-n-acetyl-d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC2.4.1.147 n-acetyl-d-galactosaminyl-alpha-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC2.4.1.147 n-acetyl-d-galactosaminyl-alpha-ovine submaxillary mucin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 3.2 * +EC2.4.1.147 n-acetyl-d-galactosaminyl-alpha-phenyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.0 * +EC2.4.1.148 n-acetyl-beta-d-glucosaminyl-1,3-n-acetyl-d-galactosaminyl-alpha-benzyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.4.1.148 n-acetyl-beta-d-glucosaminyl-1,3-n-acetyl-d-galactosaminyl-alpha-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC2.4.1.149 asialo-alpha1-acid glycoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.4.1.149 galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glcnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.4.1.149 galbeta(1-4)glcnacbeta(1-4)glcnac-2-aminopyridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC2.4.1.149 lactoneotetraosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.4.1.149 lactonorhexaosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.4.1.149 lactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.2 * +EC2.4.1.149 lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.8 * +EC2.4.1.149 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2 * +EC2.4.1.149 n-acetyllactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 19.6 * +EC2.4.1.149 n-acetyllactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC2.4.1.149 n-acetyllactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC2.4.1.149 neolactotetraosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC2.4.1.149 udp-n-acetyl-d-glucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.129 * +EC2.4.1.149 udp-n-acetyl-d-glucosamine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.445 * +EC2.4.1.149 udp-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.133 * +EC2.4.1.149 udp-n-acetyl-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC2.4.1.149 udp-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC2.4.1.15 adp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.6 * +EC2.4.1.15 d-glucose 6-phosphate metarhizium anisopliae//*//* 3.9 * +EC2.4.1.15 d-glucose 6-phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 3.0 * +EC2.4.1.15 d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC2.4.1.15 d-glucose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.27 * +EC2.4.1.15 gdp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.4 * +EC2.4.1.15 gdp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.17 * +EC2.4.1.15 gdpglucose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.0 * +EC2.4.1.15 gdpglucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 16.0 * +EC2.4.1.15 glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.5 * +EC2.4.1.15 glucose 6-phosphate halorhodospira halochloris//prokaryotes;bacteria;gammaproteobacteria - others;halorhodospira//hhc 2.0 * +EC2.4.1.15 glucose 6-phosphate hyalophora cecropia//*//* 5.0 * +EC2.4.1.15 glucose 6-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.0 * +EC2.4.1.15 glucose 6-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 8.3 * +EC2.4.1.15 glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.5 * +EC2.4.1.15 glucose-6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC2.4.1.15 glucose-6-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.0 * +EC2.4.1.15 tdp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 2.0 * +EC2.4.1.15 tdp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.38 * +EC2.4.1.15 udp-alpha-d-glucose thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.2 * +EC2.4.1.15 udp-glucose metarhizium anisopliae//*//* 9.6 * +EC2.4.1.15 udp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.3 * +EC2.4.1.15 udp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC2.4.1.15 udpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.1 * +EC2.4.1.15 udpglucose halorhodospira halochloris//prokaryotes;bacteria;gammaproteobacteria - others;halorhodospira//hhc 1.5 * +EC2.4.1.15 udpglucose hyalophora cecropia//*//* 0.3 * +EC2.4.1.15 udpglucose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.04 * +EC2.4.1.15 udpglucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 18.0 * +EC2.4.1.15 udpglucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.8 * +EC2.4.1.15 udpglucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.4.1.150 galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glc mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.44 * +EC2.4.1.150 galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glc mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.55 * +EC2.4.1.150 neuacalpha(2-6)galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glc mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.52 * +EC2.4.1.150 pyridylaminated lacto-n-neotetraose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.96 * +EC2.4.1.150 udp-n-acetyl-d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.59 * +EC2.4.1.155 ac-val-glu-pro-(glcnacbeta(1-2)manalpha1-o-)thr-ala-val-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.4.1.155 glcnac-beta(1-2)man-alpha(1-3)(glcnac-beta(1-2)man-alpha(1-4))man-beta(1-4)glcnac-2-amino pyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28 * +EC2.4.1.155 glcnacbeta(1-2)manalpha(1-2)glc-o-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC2.4.1.155 glcnacbeta(1-2)manalpha1-o-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC2.4.1.155 n-acetyl-d-glucosamine mesocricetus auratus//*//* 0.25 * +EC2.4.1.155 n-acetyl-d-glucosaminyl-1,2-alpha-4-deoxy-mannosyl-1,6-beta-d-glucosyl-o-(ch2)7-ch3 mesocricetus auratus//*//* 0.074 * +EC2.4.1.155 n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,3(6)-(n-acetyl-d-glucosaminyl-1,2-alpha-d-mannosyl-1,6(3))-beta-d-mannosyl-1,4-n-acetyl-d-glucosaminyl-r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.4.1.155 n-acetyl-d-glucosaminyl-1,2-alpha-mannosyl-1,6-beta-glucosyl-o-(ch2)7-ch3 mesocricetus auratus//*//* 0.023 * +EC2.4.1.155 n-acetyl-d-glucosaminyl-1,2-alpha-mannosyl-1,6-beta-mannosyl-o-(ch2)-cooch3 mesocricetus auratus//*//* 0.18 * +EC2.4.1.155 n-acetyl-d-glucosaminyl-1,2-alpha-mannosyl-1,6-beta-mannosyl-o-(ch2)8cooch3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.087 * +EC2.4.1.155 pyridylaminated biantennary acceptor substrates homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.133 * +EC2.4.1.155 tdp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.4.1.155 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC2.4.1.155 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.4.1.155 udp-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC2.4.1.155 udp-n-acetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC2.4.1.155 udp-n-acetylglucosamine mesocricetus auratus//*//* 1.1 * +EC2.4.1.155 udp-n-acetylglucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.6 * +EC2.4.1.155 udp-n-acetylgucosamine mesocricetus auratus//*//* 0.66 * +EC2.4.1.158 udpglucose pseudohyphozyma bogoriensis//*//* 0.04 * +EC2.4.1.16 6-o-dansyl n-acetylglucosamine kluyveromyces bulgaricus//*//* 0.5 * +EC2.4.1.16 6-o-dansyl-n-acetylglucosamine kluyveromyces bulgaricus//*//* 0.0133 * +EC2.4.1.16 chitobiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3 * +EC2.4.1.16 n-acetyl-d-glucosamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.1 * +EC2.4.1.16 udp-glcnac absidia glauca//*//* 0.7 * +EC2.4.1.16 udp-glcnac aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 2.5 * +EC2.4.1.16 udp-glcnac aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.6 * +EC2.4.1.16 udp-glcnac botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 2.0 * +EC2.4.1.16 udp-glcnac mortierella candelabrum//*//* 2.0 * +EC2.4.1.16 udp-glcnac mortierella pusilla//*//* 1.8 * +EC2.4.1.16 udp-glcnac neocallimastix frontalis//*//* 2.0 * +EC2.4.1.16 udp-glcnac phycomyces blakesleeanus//*//* 0.6 * +EC2.4.1.16 udp-glcnac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.4.1.16 udp-glcnac umbelopsis vinacea//*//* 1.8 * +EC2.4.1.16 udp-n-acetyl-alpha-d-glucosamine candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 3.86 * +EC2.4.1.16 udp-n-acetyl-d-glucosamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.6 * +EC2.4.1.16 udp-n-acetylglucosamine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 3.1 * +EC2.4.1.16 udp-n-acetylglucosamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC2.4.1.160 pyridoxamine pisum sativum//*//* 0.26 * +EC2.4.1.160 pyridoxine pisum sativum//*//* 0.25 * +EC2.4.1.160 udpglucose pisum sativum//*//* 0.67 * +EC2.4.1.162 sucrose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 200.0 * +EC2.4.1.164 neolactotetraosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC2.4.1.164 udp-n-acetyl-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC2.4.1.165 fetuin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.222 * +EC2.4.1.165 n-acetylneuraminyl-2,3-alpha-d-galactosyl-1,4-beta-d-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.1.165 neu5ac-alpha(2-3)gal-beta(1-3)glcnac-beta-1-o-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.4.1.165 udp-n-acetyl-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.4.1.165 udp-n-acetylgalactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.4.1.167 sucrose sesamum indicum//eukaryotes;plants;eudicots;sesame family//sind 3.6 * +EC2.4.1.167 udpgalactose sesamum indicum//eukaryotes;plants;eudicots;sesame family//sind 0.2 * +EC2.4.1.168 udpglucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.056 * +EC2.4.1.170 biochanin a cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.012 * +EC2.4.1.170 daidzein pueraria montana var. lobata//*//* 0.0299 * +EC2.4.1.170 eriodictyol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.018 * +EC2.4.1.170 formononetin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.024 * +EC2.4.1.170 genistein glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0027 * +EC2.4.1.170 genistein pueraria montana var. lobata//*//* 0.0204 * +EC2.4.1.170 kaempferol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0263 * +EC2.4.1.170 quercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0353 * +EC2.4.1.170 udp-glucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.072 * +EC2.4.1.170 udpglucose cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.2 * +EC2.4.1.171 methylazoxymethanol cycas revoluta//*//* 0.3 * +EC2.4.1.171 udpglucose cycas revoluta//*//* 1.58 * +EC2.4.1.172 salicyl alcohol gardenia jasminoides//*//* 0.11 * +EC2.4.1.172 udpglucose gardenia jasminoides//*//* 0.031 * +EC2.4.1.173 24-methylene cholesterol withania somnifera//*//* 0.024 * +EC2.4.1.173 3-beta-hydroxy-pregna-5,16-dien-20-one withania somnifera//*//* 0.006 * +EC2.4.1.173 3beta-hydroxy-16,17-alpha-epoxypregnenolene arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.017 * +EC2.4.1.173 3beta-hydroxy-16,17alpha-epoxypregnenolone withania somnifera//*//* 0.01 * +EC2.4.1.173 3beta-hydroxy-pregna-5,16-dien-20-one arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.007 * +EC2.4.1.173 3beta-hydroxy-pregna-5,16-dien-one withania somnifera//*//* 0.01 * +EC2.4.1.173 5alpha-cholestan-3beta-ol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.063 * +EC2.4.1.173 beta-sitosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.059 * +EC2.4.1.173 beta-sitosterol withania somnifera//*//* 0.005 * +EC2.4.1.173 brassicasterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.4.1.173 brassicasterol withania somnifera//*//* 0.0045 * +EC2.4.1.173 cholesterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.056 * +EC2.4.1.173 cholesterol kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.0659 * +EC2.4.1.173 cholesterol ogataea angusta//*//* 0.0672 * +EC2.4.1.173 dehydroepiandrosterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.043 * +EC2.4.1.173 dehydroepiandrosterone withania somnifera//*//* 0.04 * +EC2.4.1.173 diosgenin withania somnifera//*//* 0.002 * +EC2.4.1.173 ergosterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC2.4.1.173 ergosterol withania somnifera//*//* 0.004 * +EC2.4.1.173 poriferasterol physarum polycephalum//*//* 0.0048 * +EC2.4.1.173 pregnenolone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.008 * +EC2.4.1.173 pregnenolone withania somnifera//*//* 0.005 * +EC2.4.1.173 sitosterol avena sativa//*//* 0.24 * +EC2.4.1.173 sitosterol physarum polycephalum//*//* 0.0056 * +EC2.4.1.173 sitosterol sinapis alba//*//* 0.005 * +EC2.4.1.173 sitosterol zea mays//eukaryotes;plants;monocots;grass family//zma 0.2 * +EC2.4.1.173 solasodine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC2.4.1.173 solasodine withania somnifera//*//* 0.007 * +EC2.4.1.173 stigmast-5-en-3beta-ol solanum melongena//*//* 0.00143 * +EC2.4.1.173 stigmasterol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.043 * +EC2.4.1.173 stigmasterol withania somnifera//*//* 0.027 * +EC2.4.1.173 testosterone ogataea angusta//*//* 0.8379 * +EC2.4.1.173 transandrosterone arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.059 * +EC2.4.1.173 transandrosterone withania somnifera//*//* 0.025 * +EC2.4.1.173 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.025 * +EC2.4.1.173 udp-glucose avena sativa//*//* 0.34 * +EC2.4.1.173 udp-glucose gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.023 * +EC2.4.1.173 udp-glucose physarum polycephalum//*//* 0.12 * +EC2.4.1.173 udp-glucose sinapis alba//*//* 0.08 * +EC2.4.1.173 udp-glucose solanum melongena//*//* 0.01429 * +EC2.4.1.173 udp-glucose withania somnifera//*//* 0.008 * +EC2.4.1.173 udp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.025 * +EC2.4.1.175 chondroitin sulfate cs-11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.4.1.175 udp-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.221 * +EC2.4.1.175 udp-n-acetyl-beta-d-galactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.4.1.175 udp-n-acetyl-beta-d-galactosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005895 * +EC2.4.1.175 udp-n-acetyl-beta-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005895 * +EC2.4.1.177 2,4,5-trichlorophenol fragaria x ananassa//*//* 1.14 * +EC2.4.1.177 3,4-dimethoxycinnamic acid fragaria x ananassa//*//* 0.108 * +EC2.4.1.177 3,5-dichloro-4-hydroxybenzoic acid fragaria x ananassa//*//* 2.85 * +EC2.4.1.177 3-aminobenzoic acid fragaria x ananassa//*//* 0.4882 * +EC2.4.1.177 3-hydroxybenzoic acid fragaria x ananassa//*//* 0.4644 * +EC2.4.1.177 4-aminobenzoic acid fragaria x ananassa//*//* 0.4371 * +EC2.4.1.177 4-chlorocinnamic acid fragaria x ananassa//*//* 0.58 * +EC2.4.1.177 5-hydroxyferulic acid fragaria x ananassa//*//* 0.3157 * +EC2.4.1.177 anthranilic acid fragaria x ananassa//*//* 2.74 * +EC2.4.1.177 benzoic acid fragaria x ananassa//*//* 0.5026 * +EC2.4.1.177 caffeic acid fragaria x ananassa//*//* 0.7077 * +EC2.4.1.177 cinnamic acid fragaria x ananassa//*//* 0.3569 * +EC2.4.1.177 cinnamic acid medicago sativa//*//* 0.4 * +EC2.4.1.177 cinnamic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.4 * +EC2.4.1.177 ferulic acid fragaria x ananassa//*//* 0.3585 * +EC2.4.1.177 nicotinic acid fragaria x ananassa//*//* 2.75 * +EC2.4.1.177 p-coumaric acid fragaria x ananassa//*//* 0.6035 * +EC2.4.1.177 p-hydroxybenzoic acid fragaria x ananassa//*//* 0.6424 * +EC2.4.1.177 phenylbutyric acid fragaria x ananassa//*//* 0.431 * +EC2.4.1.177 phenylpropionic acid fragaria x ananassa//*//* 0.4112 * +EC2.4.1.177 sinapic acid fragaria x ananassa//*//* 0.3002 * +EC2.4.1.177 sorbic acid fragaria x ananassa//*//* 3.23 * +EC2.4.1.177 trans-2-hexenoic acid fragaria x ananassa//*//* 5.76 * +EC2.4.1.177 trans-3-(2-furyl)acrylic acid fragaria x ananassa//*//* 1.33 * +EC2.4.1.177 trans-3-(3-pyridyl)acrylic acid fragaria x ananassa//*//* 0.93 * +EC2.4.1.177 trans-cinnamic acid ipomoea batatas//*//* 0.2 * +EC2.4.1.177 udp-glucose fragaria x ananassa//*//* 0.0808 * +EC2.4.1.177 udp-glucose ipomoea batatas//*//* 0.1 * +EC2.4.1.177 vanillic acid fragaria x ananassa//*//* 0.5153 * +EC2.4.1.178 udp-glucose prunus serotina//*//* 0.32 * +EC2.4.1.178 udp-glucose triglochin maritima//*//* 0.5 * +EC2.4.1.179 lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 242.0 * +EC2.4.1.179 lactose notamacropus eugenii//*//* 46.0 * +EC2.4.1.179 lactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.4.1.179 lactotriaosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC2.4.1.179 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC2.4.1.18 amylopectin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0056 * +EC2.4.1.18 amylose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0142 * +EC2.4.1.18 amylose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00018 * +EC2.4.1.18 amylose zea mays//eukaryotes;plants;monocots;grass family//zma 0.0068 * +EC2.4.1.181 1,8-dihydroxyanthraquinone cinchona succirubra//*//* 0.01 * +EC2.4.1.181 2,6-dihydroxyanthracene-9,10-dione cinchona succirubra//*//* 0.01 * +EC2.4.1.181 anthrapurpurin cinchona succirubra//*//* 0.01 * +EC2.4.1.181 emodin cinchona succirubra//*//* 0.01 * +EC2.4.1.181 quinizarin cinchona succirubra//*//* 0.01 * +EC2.4.1.182 2,3-diacylglucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC2.4.1.182 udp-2,3-diacylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.4.1.185 2',4',6',4-tetrahydroxy chalcone citrus x paradisi//*//* 0.13 * +EC2.4.1.185 hesperetin citrus x paradisi//*//* 0.11 * +EC2.4.1.185 naringenin citrus x paradisi//*//* 0.063 * +EC2.4.1.185 naringenin lycium barbarum//*//* 0.0093 * +EC2.4.1.185 naringenin petunia x hybrida//*//* 0.008 * +EC2.4.1.185 udpglucose citrus x paradisi//*//* 0.243 * +EC2.4.1.185 udpglucose petunia x hybrida//*//* 0.074 * +EC2.4.1.186 n-dodecyl-beta-d-maltoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.4.1.186 p-nitrophenyl-alpha-maltoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC2.4.1.186 udp-glucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00441 * +EC2.4.1.186 udp-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.002 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-(hydroxy[[hydroxy(tridecyloxy)phosphoryl]oxy]phosphoryl)-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.193 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[[[[[(2z)-3,7-dimethylocta-2,6-dien-1-yl]oxy](hydroxy)phosphoryl]oxy](hydroxy)phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.258 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[hydroxy[(hydroxy[[(2e,6e,10e)-3,7,11,15-tetramethylhexadeca-2,6,10,14-tetraen-1-yl]oxy]phosphoryl)oxy]phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.03 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[hydroxy[(hydroxy[[(2z,6z)-3,7,11-trimethyldodeca-2,6,10-trien-1-yl]oxy]phosphoryl)oxy]phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.022 * +EC2.4.1.187 2-(acetylamino)-2-deoxy-1-o-[hydroxy[(hydroxy[[(2z,6z,10z)-3,7,11,15-tetramethylhexadeca-2,6,10,14-tetraen-1-yl]oxy]phosphoryl)oxy]phosphoryl]-alpha-d-glucopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.035 * +EC2.4.1.187 udp-n-acetylmannosamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0044 * +EC2.4.1.188 udp-glucose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.021 * +EC2.4.1.189 luteolin secale cereale//*//* 0.008 * +EC2.4.1.189 udpglucuronic acid secale cereale//*//* 0.012 * +EC2.4.1.19 3-ketobutylidene-beta-2-chloro-4-nitrophenylmaltopentaoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.16 * +EC2.4.1.19 4,6-o-ethylidene-4-nitrophenyl alpha-d-maltoheptaoside thermoanaerobacterium thermosulfurigenes//*//* 0.15 * +EC2.4.1.19 4-nitrophenyl-beta-d-glucopyranose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 15.54 * +EC2.4.1.19 alpha-cyclodextrin bacillus circulans//*//* 5.9 * +EC2.4.1.19 alpha-cyclodextrin bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.59 * +EC2.4.1.19 alpha-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.57 * +EC2.4.1.19 alpha-cyclodextrin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 16.0 * +EC2.4.1.19 alpha-cyclodextrin paenibacillus macerans//*//* 1.26 * +EC2.4.1.19 beta-cyclodextrin bacillus circulans//*//* 0.4 * +EC2.4.1.19 beta-cyclodextrin bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.51 * +EC2.4.1.19 beta-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.11 * +EC2.4.1.19 beta-cyclodextrin paenibacillus macerans//*//* 0.08 * +EC2.4.1.19 cassava starch bacillus circulans//*//* 1.69 * +EC2.4.1.19 gamma-cyclodextrin bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.25 * +EC2.4.1.19 gamma-cyclodextrin paenibacillus macerans//*//* 0.25 * +EC2.4.1.19 glucose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 7.3 * +EC2.4.1.19 l-ascorbic acid paenibacillus macerans//*//* 38.3 * +EC2.4.1.19 maltodextrin lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.8 * +EC2.4.1.19 maltodextrin paenibacillus campinasensis//*//* 1.65 * +EC2.4.1.19 maltodextrin paenibacillus macerans//*//* 0.64 * +EC2.4.1.19 maltose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.17 * +EC2.4.1.19 maltose thermoanaerobacterium thermosulfurigenes//*//* 3.3 * +EC2.4.1.19 methyl-alpha-d-glucoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 16.9 * +EC2.4.1.19 soluble potato starch bacillus circulans//*//* 1.1 * +EC2.4.1.19 soluble starch bacillus circulans//*//* 0.043 * +EC2.4.1.19 soluble starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 15.54 * +EC2.4.1.19 starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0574 * +EC2.4.1.19 starch paenibacillus macerans//*//* 0.58 * +EC2.4.1.190 luteolin 7-o-glucuronide secale cereale//*//* 0.012 * +EC2.4.1.190 udpglucuronic acid secale cereale//*//* 0.04 * +EC2.4.1.191 luteolin 7-o-diglucuronide secale cereale//*//* 0.009 * +EC2.4.1.191 udpglucuronic acid secale cereale//*//* 0.09 * +EC2.4.1.194 4-hydroxybenzoate lithospermum erythrorhizon//*//* 0.264 * +EC2.4.1.194 4-hydroxybenzoate pinus densiflora//*//* 2.9 * +EC2.4.1.194 4-nitrophenol lithospermum erythrorhizon//*//* 0.6 * +EC2.4.1.194 udpglucose lithospermum erythrorhizon//*//* 0.268 * +EC2.4.1.194 udpglucose pinus densiflora//*//* 0.24 * +EC2.4.1.195 4-methylthiobutyrothiohydroximate tropaeolum majus//*//* 1.05 * +EC2.4.1.195 phenylacetothiohydroximate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.05 * +EC2.4.1.195 udpglucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.27 * +EC2.4.1.195 udpglucose brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.46 * +EC2.4.1.195 udpglucose tropaeolum majus//*//* 1.47 * +EC2.4.1.196 nicotinic acid petroselinum crispum//*//* 0.17 * +EC2.4.1.196 udpglucose petroselinum crispum//*//* 1.2 * +EC2.4.1.197 methyl o-alpha-mannopyranosyl-1,6-[o-alpha-d-mannopyranosyl-1,3]-alpha-d-mannopyranoside dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.42 * +EC2.4.1.197 o-mannopyranosyl-alpha-1,2-o-mannopyranosyl-alpha-1,2-o-mannopyranosyl-alpha-1,3-[o-mannopyranosyl-alpha-1,2-o-mannopyranosyl-alpha-1,3-(o-mannopyranosyl-alpha-1,2-o-mannopyranosyl-alpha-1,6)-o-mannopyranosyl-alpha-1,6]-o-mannopyranosyl-beta-1,4-n-acetylglucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.65 * +EC2.4.1.197 o-mannopyranosyl-alpha-1,3-[o-mannopyranosyl-alpha-1,3-(o-mannopyranosyl-alpha-1,6)-o-mannopyranosyl-alpha-1,6]-o-mannopyranosyl-beta-1,4-n-acetyl-d-glucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.3 * +EC2.4.1.197 o-mannopyranosyl-alpha-1,3-mannopyranosyl-alpha-methyl dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 18.52 * +EC2.4.1.197 o-mannopyranosyl-alpha-1,3-mannopyranosyl-beta-1,4-n-acetyl-glucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 19.48 * +EC2.4.1.197 o-mannopyranosyl-alpha-1,3[o-mannopyranosyl-alpha-1,6]-o-mannopyranosyl-beta-1,4-n-acetylglucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2.54 * +EC2.4.1.197 udp-n-acetyl-d-glucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC2.4.1.199 1,6-alpha-d-mannopentaose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.6 * +EC2.4.1.199 1,6-alpha-d-mannotetraose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.4 * +EC2.4.1.199 1,6-alpha-d-mannotriose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.0 * +EC2.4.1.199 1,6-alpha-mannobiose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 35.7 * +EC2.4.1.199 mannose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 86.9 * +EC2.4.1.199 methyl-alpha-d-mannoside mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 28.6 * +EC2.4.1.2 maltoheptaose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0017 * +EC2.4.1.2 maltohexaose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0026 * +EC2.4.1.2 maltopentaose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0033 * +EC2.4.1.2 maltotetraose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0064 * +EC2.4.1.2 maltotriose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.01 * +EC2.4.1.2 short-chain amylose gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.00012 * +EC2.4.1.20 1,5-anhydro-d-glucitol ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 9.5 * +EC2.4.1.20 1,5-anhydroglucitol cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 8.0 * +EC2.4.1.20 2-deoxy-2-fluoro-d-glucose cellulomonas uda//*//* 17.2 * +EC2.4.1.20 2-deoxy-d-glucose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 168.0 * +EC2.4.1.20 2-deoxy-d-glucose cellulomonas uda//*//* 24.3 * +EC2.4.1.20 2-deoxy-d-glucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 56.9 * +EC2.4.1.20 2-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 60.2 * +EC2.4.1.20 2-deoxy-d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 47.0 * +EC2.4.1.20 6-deoxy-6-fluoro-d-glucose cellulomonas uda//*//* 7.4 * +EC2.4.1.20 6-deoxy-d-glucose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 24.0 * +EC2.4.1.20 6-deoxy-d-glucose cellulomonas uda//*//* 10.2 * +EC2.4.1.20 6-deoxy-d-glucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 6.1 * +EC2.4.1.20 6-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 9.8 * +EC2.4.1.20 6-deoxy-d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.1 * +EC2.4.1.20 alpha-d-glucose 1-phosphate cellulomonas uda//*//* 2.15 * +EC2.4.1.20 alpha-d-glucose 1-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 8.0 * +EC2.4.1.20 alpha-d-glucose 1-phosphate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 1.46 * +EC2.4.1.20 cellobiose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 1.25 * +EC2.4.1.20 cellobiose cellulomonas uda//*//* 4.3 * +EC2.4.1.20 cellobiose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 6.2 * +EC2.4.1.20 cellobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 7.3 * +EC2.4.1.20 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 1.68 * +EC2.4.1.20 cellobiose saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 0.49 * +EC2.4.1.20 cellobiose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.29 * +EC2.4.1.20 cellobiose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 1.42 * +EC2.4.1.20 d-arabinose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 240.0 * +EC2.4.1.20 d-cellobiose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 2.6 * +EC2.4.1.20 d-gentobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 10.8 * +EC2.4.1.20 d-glucosamine cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 13.0 * +EC2.4.1.20 d-glucosamine ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 5.9 * +EC2.4.1.20 d-glucosamine ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 13.3 * +EC2.4.1.20 d-glucosamine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.7 * +EC2.4.1.20 d-glucose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 2.1 * +EC2.4.1.20 d-glucose cellulomonas uda//*//* 2.26 * +EC2.4.1.20 d-glucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.97 * +EC2.4.1.20 d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 1.46 * +EC2.4.1.20 d-glucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.69 * +EC2.4.1.20 d-glucoseamine cellulomonas uda//*//* 10.8 * +EC2.4.1.20 d-mannose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 115.0 * +EC2.4.1.20 d-mannose cellulomonas uda//*//* 27.3 * +EC2.4.1.20 d-mannose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 85.0 * +EC2.4.1.20 d-mannose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 23.5 * +EC2.4.1.20 d-mannose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 67.0 * +EC2.4.1.20 d-xylose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 84.0 * +EC2.4.1.20 d-xylose cellulomonas uda//*//* 15.9 * +EC2.4.1.20 d-xylose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 21.4 * +EC2.4.1.20 d-xylose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 25.5 * +EC2.4.1.20 d-xylose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 14.0 * +EC2.4.1.20 gentiobiose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 83.0 * +EC2.4.1.20 isomaltose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 71.0 * +EC2.4.1.20 l-fucose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 160.0 * +EC2.4.1.20 melibiose cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 93.0 * +EC2.4.1.20 phosphate cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 0.61 * +EC2.4.1.20 phosphate cellulomonas uda//*//* 1.2 * +EC2.4.1.20 phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2.9 * +EC2.4.1.20 phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.15 * +EC2.4.1.201 n-acetyl-d-glucosaminyl-1,6-beta-d-(n-acetylglucosaminyl-1,2)-beta-d-mannosyl-r gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.09 * +EC2.4.1.201 udp-n-acetyl-d-glucosamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.6 * +EC2.4.1.202 2,4-dihydroxy-1,4-benzoxazin-3-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.638 * +EC2.4.1.202 2,4-dihydroxy-2h-1,4-benzoxazin-3(4h)-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.061 * +EC2.4.1.202 2,4-dihydroxy-7-methoxy-2h-1,4-benzoxazin-3(4h)-one zea mays//eukaryotes;plants;monocots;grass family//zma 0.071 * +EC2.4.1.202 udp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.081 * +EC2.4.1.202 udpglucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.28 * +EC2.4.1.203 cis-zeatin phaseolus lunatus//*//* 0.4 * +EC2.4.1.203 m-topolin phaseolus lunatus//*//* 0.14 * +EC2.4.1.203 trans-zeatin phaseolus lunatus//*//* 0.028 * +EC2.4.1.203 udp-glucose phaseolus lunatus//*//* 0.216 * +EC2.4.1.203 udp-xylose phaseolus lunatus//*//* 2.7 * +EC2.4.1.205 udp-d-galactose helix pomatia//*//* 0.36 * +EC2.4.1.206 d-galactosyl-1,4-beta-d-glucosylceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC2.4.1.206 d-galactosyl-1,4-beta-n-acetyl-d-glucosaminyl-1,3-beta-d-galactosyl-1,4-beta-d-glucosylceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC2.4.1.206 galbeta(1->4)glcnacbeta1->2(galbeta1->4glcnacbeta1->4)manbeta1->3[galbeta1->4glcnacbeta1->2(galbeta1->4glcnacbeta1->6)manbeta1->6]manbeta1->4glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC2.4.1.207 [xylp(alpha1,6)]-glcp(beta1,4)-[galp(beta1,2)-xylp(alpha1,6)]-glcp(beta1,4)-[galp(beta1,2)-xylp(alpha1,6)]-glcp(beta1,4)-glcp hordeum vulgare//*//* 0.0053 * +EC2.4.1.207 [xylp(alpha1,6)]-glcp(beta1,4)-[xylp(alpha1,6)]-glcp(beta1,4)-[galp(beta1,2)-xylp(alpha1,6)]-glcp(beta1,4)-glcp hordeum vulgare//*//* 0.0086 * +EC2.4.1.207 [xylp(alpha1,6)]-glcp(beta1,4)-[xylp(alpha1,6)]-glcp(beta1,4)-[xylp(alpha1,6)]-glcp(beta1,4)-glcp hordeum vulgare//*//* 0.005 * +EC2.4.1.207 reduced xyloglucan-derived heptasaccharide hordeum vulgare//*//* 0.0399 * +EC2.4.1.207 rhodamin-conjugated glc3-xyl3-gal2-glucitol tropaeolum majus//*//* 0.017 * +EC2.4.1.207 xxxg-ol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0386 * +EC2.4.1.207 xxxgol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.031 * +EC2.4.1.207 xyl(1-6)glc(1-4)(xyl(1-6))glc(1-4)(fuc-gal-xyl(1-6))glc(1-4)glc pisum sativum//*//* 0.05 * +EC2.4.1.207 xyl(1-6)glc(1-4)(xyl(1-6))glc(1-4)glc pisum sativum//*//* 0.2 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)glc-ol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.005 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)glc-ol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.071 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)glc-ol vigna radiata var. radiata//*//* 0.016 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)(galbeta(1-2)xylalpha(1-6))glcbeta(1-4)glc pisum sativum//*//* 0.019 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)glc-ol actinidia deliciosa//*//* 0.1 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)glc-ol populus alba//*//* 0.32 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)glc pisum sativum//*//* 0.033 * +EC2.4.1.207 xylalpha(1-6)glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)(xylalpha(1-6))glcbeta(1-4)glc-ol populus alba//*//* 0.23 * +EC2.4.1.207 xyloglucan acceptor arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0003 * +EC2.4.1.208 udp-glucose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.14 * +EC2.4.1.208 udp-glucose staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.7 * +EC2.4.1.209 cis-p-coumaric acid sphagnum fallax//*//* 0.044 * +EC2.4.1.209 udp-glucose sphagnum fallax//*//* 0.11 * +EC2.4.1.21 adp-alpha-d-glucose hordeum vulgare//*//* 0.09 * +EC2.4.1.21 adp-alpha-d-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.33 * +EC2.4.1.21 adp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.28 * +EC2.4.1.21 adp-glucose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.22 * +EC2.4.1.21 adp-glucose triticum aestivum//*//* 0.45 * +EC2.4.1.21 adp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC2.4.1.21 adpglucose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.000164 * +EC2.4.1.21 adpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.4.1.21 adpglucose hordeum vulgare//*//* 0.11 * +EC2.4.1.21 adpglucose pisum sativum//*//* 0.29 * +EC2.4.1.21 adpglucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.07 * +EC2.4.1.21 adpglucose sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.05 * +EC2.4.1.21 adpglucose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.077 * +EC2.4.1.21 adpglucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.033 * +EC2.4.1.21 amylopectin zea saccharata//*//* 0.75 * +EC2.4.1.21 dadpglucose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.000272 * +EC2.4.1.21 glycogen arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.000864 * +EC2.4.1.21 maltopentaose hordeum vulgare//*//* 46.32 * +EC2.4.1.21 maltose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.077 * +EC2.4.1.21 maltotriose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.015 * +EC2.4.1.21 maltotriose zea saccharata//*//* 16.6 * +EC2.4.1.21 phytoglycogen zea saccharata//*//* 1.1 * +EC2.4.1.21 udpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.7 * +EC2.4.1.210 limonin citrus maxima x citrus paradisi//*//* 0.065 * +EC2.4.1.210 limonin citrus maxima//*//* 0.065 * +EC2.4.1.210 udp-glucose citrus maxima//*//* 0.065 * +EC2.4.1.211 alpha-d-galactose 1-phosphate bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 1.72 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-galactosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 140.0 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-galactosamine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 10.0 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-galactosmine bifidobacterium longum subsp. longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bll 5.6 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-galactosmine clostridium perfringens atcc 13124//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpf 1.7 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-glucosamine bifidobacterium longum subsp. longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bll 2.1 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-glucosamine clostridium perfringens atcc 13124//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpf 21.0 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-glucosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 1300.0 * +EC2.4.1.211 beta-d-galactopyranosyl-1,3-n-acetyl-d-glucosamine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 3.6 * +EC2.4.1.211 galacto-n-biose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 7.7 * +EC2.4.1.211 galacto-n-biose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 8.0 * +EC2.4.1.211 galactose-1-phosphate bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 1.6 * +EC2.4.1.211 lacto-n-biose i bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 2.8 * +EC2.4.1.211 lacto-n-biose i lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.8 * +EC2.4.1.211 n-acetyl-d-galactosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 11.0 * +EC2.4.1.211 n-acetyl-d-galactosamine lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 3.3 * +EC2.4.1.211 n-acetyl-d-glucosamine cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 130.0 * +EC2.4.1.211 n-acetyl-d-glucosamine lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.9 * +EC2.4.1.211 phosphate bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 2.7 * +EC2.4.1.211 phosphate bifidobacterium longum subsp. longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bll 0.43 * +EC2.4.1.211 phosphate clostridium perfringens atcc 13124//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpf 0.52 * +EC2.4.1.211 phosphate vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.064 * +EC2.4.1.212 hyaluronic acid tetrasaccharide pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.91 * +EC2.4.1.212 udp-alpha-d-glucuronate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.014 * +EC2.4.1.212 udp-alpha-n-acetyl-d-glucosamine pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.66 * +EC2.4.1.212 udp-d-glucuronate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC2.4.1.212 udp-d-glucuronate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.14 * +EC2.4.1.212 udp-d-glucuronate streptococcus dysgalactiae subsp. equisimilis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sds 0.051 * +EC2.4.1.212 udp-d-glucuronate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.04 * +EC2.4.1.212 udp-d-glucuronate xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.06 * +EC2.4.1.212 udp-n-acetyl-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.08 * +EC2.4.1.212 udp-n-acetyl-d-glucosamine pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.16 * +EC2.4.1.212 udp-n-acetyl-d-glucosamine streptococcus dysgalactiae subsp. equisimilis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sds 0.06 * +EC2.4.1.212 udp-n-acetyl-d-glucosamine streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.149 * +EC2.4.1.212 udp-n-acetyl-d-glucosamine xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.23 * +EC2.4.1.213 adp-glucose synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.48 * +EC2.4.1.213 sn-glycerol 3-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.71 * +EC2.4.1.214 bisected agalacto-glycopeptide-iggf6 lymnaea stagnalis//*//* 0.49 * +EC2.4.1.214 dansyl-gngn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.067 * +EC2.4.1.214 dansyl-gngn drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.046 * +EC2.4.1.214 dansyl-gngnf6 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.011 * +EC2.4.1.214 gdp-beta-l-fucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC2.4.1.214 gdp-fucose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.08831 * +EC2.4.1.214 gdp-fucose lymnaea stagnalis//*//* 0.065 * +EC2.4.1.214 gdp-fucose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.11 * +EC2.4.1.214 glcnacbeta(1->2)manalpha(1->6)[glcnacbeta(1->2)manalpha(1->3)]manbeta(1->4)glcnacbeta(1->4)[l-fucalpha(1->6)]glcnac apis mellifera//eukaryotes;animals;arthropods;insects//ame 1.0 * +EC2.4.1.214 glcnacbeta(1->2)manalpha(1->6)[glcnacbeta(1->2)manalpha(1->3)]manbeta(1->4)glcnacbeta(1->4)glcnac apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.42 * +EC2.4.1.214 gngn-peptide apis mellifera//eukaryotes;animals;arthropods;insects//ame 6.7 * +EC2.4.1.214 gngn-peptide vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.19 * +EC2.4.1.214 gngnf6-peptide vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.06 * +EC2.4.1.214 m5gn-asn vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.23 * +EC2.4.1.214 n-acetyllactosamine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.71 * +EC2.4.1.215 cis-zeatin oryza sativa japonica group//*//* 0.124 * +EC2.4.1.215 cis-zeatin zea mays//eukaryotes;plants;monocots;grass family//zma 0.046 * +EC2.4.1.215 o-topolin zea mays//eukaryotes;plants;monocots;grass family//zma 0.18 * +EC2.4.1.215 udp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC2.4.1.216 beta-d-glucose 1-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.9 * +EC2.4.1.216 glucose 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.0 * +EC2.4.1.216 phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 32.0 * +EC2.4.1.216 trehalose 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 6.0 * +EC2.4.1.217 3-phospho-d-glycerate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.14 * +EC2.4.1.217 3-phospho-d-glycerate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.63 * +EC2.4.1.217 3-phospho-d-glycerate rubrobacter xylanophilus//prokaryotes;bacteria;actinobacteria;rubrobacter//rxy 0.34 * +EC2.4.1.217 3-phospho-d-glycerate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.13 * +EC2.4.1.217 gdp-glucose rubrobacter xylanophilus//prokaryotes;bacteria;actinobacteria;rubrobacter//rxy 1.21 * +EC2.4.1.217 gdp-mannose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.17 * +EC2.4.1.217 gdp-mannose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.5 * +EC2.4.1.217 gdp-mannose rubrobacter xylanophilus//prokaryotes;bacteria;actinobacteria;rubrobacter//rxy 0.26 * +EC2.4.1.217 gdp-mannose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.33 * +EC2.4.1.217 gdpmannose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.17 * +EC2.4.1.218 tdpglucose rauvolfia serpentina//*//* 1.1 * +EC2.4.1.218 udpglucose rauvolfia serpentina//*//* 0.077 * +EC2.4.1.218 umbelliferone rauvolfia serpentina//*//* 0.55 * +EC2.4.1.218 vanillin rauvolfia serpentina//*//* 0.44 * +EC2.4.1.219 raucaffricine rauvolfia serpentina//*//* 1.3 * +EC2.4.1.219 strictosidine rauvolfia serpentina//*//* 1.8 * +EC2.4.1.219 udp-glucose rauvolfia serpentina//*//* 0.8 * +EC2.4.1.219 vomilenine rauvolfia serpentina//*//* 0.04 * +EC2.4.1.22 glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC2.4.1.22 glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.4.1.22 glucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.7 * +EC2.4.1.22 glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC2.4.1.22 udpgalactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC2.4.1.22 udpgalactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC2.4.1.220 4-hydroxyindole baphicacanthus cusia//*//* 1.9 * +EC2.4.1.220 5-hydroxyindole baphicacanthus cusia//*//* 0.5 * +EC2.4.1.220 6-hydroxyindole baphicacanthus cusia//*//* 3.3 * +EC2.4.1.220 7-hydroxyindole baphicacanthus cusia//*//* 1.4 * +EC2.4.1.220 indoxyl baphicacanthus cusia//*//* 1.2 * +EC2.4.1.220 udp-glucose baphicacanthus cusia//*//* 1.7 * +EC2.4.1.220 udp-glucose persicaria tinctoria//*//* 0.13 * +EC2.4.1.221 factor vii egf cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.015 * +EC2.4.1.221 factor vii egf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.4.1.221 gdp-fucose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.006 * +EC2.4.1.221 gdp-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.4.1.221 tsr4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0295 * +EC2.4.1.222 p-nitrophenyl-alpha-l-fucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0109 * +EC2.4.1.222 udp-beta-d-glcnac mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0379 * +EC2.4.1.224 (mannose)9 -n-acetyl-d-glucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.65 * +EC2.4.1.224 [d-glucuronic acid-n-acetyl-glucosamine]14 -d-glucuronic acid-2,5-anhydro-d-mannose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC2.4.1.224 [d-glucuronic acid-n-acetyl-glucosamine]4 -d-glucuronic acid-2,5-anhydro-d-mannose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.06 * +EC2.4.1.224 udp-n-acetyl-d-glucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC2.4.1.224 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC2.4.1.224 udp-n-acetyl-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC2.4.1.226 c11-oligosaccharide of chondroitin sulfate a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC2.4.1.226 chondroitin sulfate undecasaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0653 * +EC2.4.1.226 udp-alpha-d-glucuronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.263 * +EC2.4.1.226 udp-glucuronic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.051 * +EC2.4.1.226 udp-glucuronic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0824 * +EC2.4.1.227 2'-dudp-n-acetyl-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC2.4.1.227 biotin-labelled lipid i analogue escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC2.4.1.227 biotinylated citronellyl-lipid i escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphospho-(6e,10e,14z)-2,6,10,14-tetramethyl-hexadeca-2,6,10,14-tetraene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphospho-(7s)-2,7-dimethyloct-2-ene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphospho-p-nitrophenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphobutane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphododecane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphoicosane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphotetradecane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.039 * +EC2.4.1.227 mur2ac(oyl-l-ala-gamma-d-glu-l-lys-d-ala-d-ala)-diphosphoundecaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.4.1.227 murnac(nepsilon-dansylpentapeptide)-pyrophosphoryl (r,s)-alpha-dihydroheptaprenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC2.4.1.227 murnac(neta-dansylpentapeptide)-diphosphoryl (r,s-alpha-dihydroheptaprenol) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC2.4.1.227 synthetic substrate analogue 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.553 * +EC2.4.1.227 synthetic substrate analogue 7 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC2.4.1.227 udp-glcnac escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC2.4.1.227 udp-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC2.4.1.228 lactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC2.4.1.228 lactosylceramide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.445 * +EC2.4.1.228 lactosylceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.4.1.228 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.132 * +EC2.4.1.228 udp-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.4.1.229 hydroxyproline-peptide dictyostelium sp.//*//* 1.6 * +EC2.4.1.229 skp-1-protein dictyostelium sp.//*//* 0.00056 * +EC2.4.1.229 udp-glcnac dictyostelium sp.//*//* 0.00016 * +EC2.4.1.23 udpgalactose cavia porcellus//*//* 0.25 * +EC2.4.1.230 2-alpha-d-glucosyl-d-glucose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2.5 * +EC2.4.1.230 beta-d-glucose 1-phosphate thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.77 * +EC2.4.1.230 beta-d-glucose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 3.84 * +EC2.4.1.230 d-glucose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 36.8 * +EC2.4.1.230 glucose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 3.52 * +EC2.4.1.230 kojibiose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.77 * +EC2.4.1.230 phosphate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 1.34 * +EC2.4.1.230 phosphate thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.75 * +EC2.4.1.231 alpha,alpha-trehalose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 61.0 * +EC2.4.1.231 alpha,alpha-trehalose flammulina velutipes//*//* 75.0 * +EC2.4.1.231 alpha,alpha-trehalose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 22.0 * +EC2.4.1.231 alpha,alpha-trehalose lentinus sajor-caju//*//* 74.8 * +EC2.4.1.231 alpha,alpha-trehalose pleurotus ostreatus//*//* 75.0 * +EC2.4.1.231 alpha,alpha-trehalose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 71.0 * +EC2.4.1.231 alpha-d-glucose 1-fluoride schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 5.9 * +EC2.4.1.231 alpha-d-glucose 1-phosphate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 6.3 * +EC2.4.1.231 alpha-d-glucose 1-phosphate flammulina velutipes//*//* 47.0 * +EC2.4.1.231 alpha-d-glucose 1-phosphate lentinus sajor-caju//*//* 44.6 * +EC2.4.1.231 alpha-d-glucose 1-phosphate pleurotus ostreatus//*//* 4.1 * +EC2.4.1.231 alpha-d-glucose 1-phosphate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 1.6 * +EC2.4.1.231 alpha-d-glucose agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 24.0 * +EC2.4.1.231 alpha-d-glucose flammulina velutipes//*//* 0.63 * +EC2.4.1.231 alpha-d-glucose lentinus sajor-caju//*//* 34.3 * +EC2.4.1.231 alpha-d-glucose pleurotus ostreatus//*//* 40.0 * +EC2.4.1.231 alpha-d-glucose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 31.0 * +EC2.4.1.231 d-glucose pleurotus ostreatus//*//* 40.0 * +EC2.4.1.231 phosphate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 4.7 * +EC2.4.1.231 phosphate flammulina velutipes//*//* 5.0 * +EC2.4.1.231 phosphate lentinus sajor-caju//*//* 5.4 * +EC2.4.1.231 phosphate pleurotus ostreatus//*//* 3.5 * +EC2.4.1.231 phosphate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.8 * +EC2.4.1.232 manalpha(1-2)manalpha(1-6)[manalpha(1-2)manalpha(1-3)]manalpha(1-6)[manalpha(1-2)manalpha(1-2)manalpha(1-3)]manbeta(1-4)glcnac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC2.4.1.232 manalpha(1-2)manalpha(1-6)[manalpha(1-3)]manalpha(1-6)[manalpha(1-2)manalpha(1-2)manalpha(1-3)]manbeta(1-4)glcnac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.39 * +EC2.4.1.234 kaempferol 3-o-beta-d-galactoside petunia sp.//*//* 0.039 * +EC2.4.1.234 kaempferol 3-o-galactoside petunia x hybrida//*//* 0.00847 * +EC2.4.1.234 kaempferol petunia sp.//*//* 0.0011 * +EC2.4.1.234 kaempferol petunia x hybrida//*//* 0.0011 * +EC2.4.1.234 kaempferol vigna mungo//*//* 0.0004 * +EC2.4.1.234 quercetin 3-o-galactoside petunia x hybrida//*//* 0.00265 * +EC2.4.1.234 quercetin petunia x hybrida//*//* 0.00096 * +EC2.4.1.234 udp-d-galactose vigna mungo//*//* 0.125 * +EC2.4.1.234 udp-galactose petunia sp.//*//* 0.318 * +EC2.4.1.234 udp-galactose petunia x hybrida//*//* 0.387 * +EC2.4.1.234 udp petunia sp.//*//* 0.013 * +EC2.4.1.234 udp petunia x hybrida//*//* 0.066 * +EC2.4.1.236 hesperetin 7-o-glucoside citrus maxima//*//* 0.0415 * +EC2.4.1.236 naringenin 7-o-glucoside citrus maxima//*//* 0.0024 * +EC2.4.1.236 udp-l-rhamnose citrus maxima//*//* 0.0011 * +EC2.4.1.237 apigenin beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.0192 * +EC2.4.1.237 apigenin glebionis segetum//*//* 0.078 * +EC2.4.1.237 betanidin beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.029 * +EC2.4.1.237 eriodictyol glebionis segetum//*//* 0.071 * +EC2.4.1.237 gossypetin glebionis segetum//*//* 0.032 * +EC2.4.1.237 kaempferol euonymus alatus//*//* 0.0111 * +EC2.4.1.237 kaempferol glebionis segetum//*//* 0.029 * +EC2.4.1.237 kaempferol paederia scandens//*//* 0.00769 * +EC2.4.1.237 luteolin glebionis segetum//*//* 0.084 * +EC2.4.1.237 myricetin glebionis segetum//*//* 0.067 * +EC2.4.1.237 naringenin glebionis segetum//*//* 0.073 * +EC2.4.1.237 quercetin beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.0024 * +EC2.4.1.237 quercetin glebionis segetum//*//* 0.049 * +EC2.4.1.237 udp-glucose euonymus alatus//*//* 0.002 * +EC2.4.1.237 udp-glucose paederia scandens//*//* 0.01539 * +EC2.4.1.239 kaempferol 3-o-beta-d-glucoside pisum sativum//*//* 0.004 * +EC2.4.1.239 udp-glucose pisum sativum//*//* 0.64 * +EC2.4.1.24 isomaltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.54 * +EC2.4.1.24 maltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.67 * +EC2.4.1.24 maltotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.18 * +EC2.4.1.24 panose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.84 * +EC2.4.1.240 kaempferol 3-o-beta-d-glucosyl-(1-2)-beta-d-glucoside pisum sativum//*//* 0.008 * +EC2.4.1.240 udp-glucose pisum sativum//*//* 0.8 * +EC2.4.1.242 adp-glucose guillardia theta//eukaryotes;protists;cryptomonads//gtt 2.7 * +EC2.4.1.242 adp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.027 * +EC2.4.1.242 adp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.1 * +EC2.4.1.242 amylopectin gracilaria tenuistipitata//*//* 0.52 * +EC2.4.1.242 dtdp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.0 * +EC2.4.1.242 gdp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.9 * +EC2.4.1.242 glycogen gracilaria tenuistipitata//*//* 0.17 * +EC2.4.1.242 udp-glucose guillardia theta//eukaryotes;protists;cryptomonads//gtt 3.8 * +EC2.4.1.242 udp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.1 * +EC2.4.1.243 1f(1-beta-d-fructofuranosyl)2 sucrose allium cepa//*//* 310.0 * +EC2.4.1.243 1f(1-beta-d-fructofuranosyl)sucrose allium cepa//*//* 88.0 * +EC2.4.1.245 adp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 3.2 * +EC2.4.1.245 adp-glucose thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.14 * +EC2.4.1.245 adp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 14.19 * +EC2.4.1.245 alpha,alpha-1,1-trehalose thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 11.5 * +EC2.4.1.245 alpha,alpha-trehalose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 25.24 * +EC2.4.1.245 d-glucose thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 6.2 * +EC2.4.1.245 d-glucose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 3.57 * +EC2.4.1.245 gdp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 2.08 * +EC2.4.1.245 gdp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 23.77 * +EC2.4.1.245 udp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 2.46 * +EC2.4.1.245 udp-glucose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.23 * +EC2.4.1.245 udp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 29.54 * +EC2.4.1.247 2-deoxy-d-glucose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 290.0 * +EC2.4.1.247 beta-d-galactosyl-(1->4)-l-rhamnose opitutus terrae//prokaryotes;bacteria;verrucomicrobia;opitutus//ote 2.1 * +EC2.4.1.247 d-galactose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 610.0 * +EC2.4.1.247 d-galactosyl-beta-1,4-l-rhamnose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 7.9 * +EC2.4.1.247 d-glucose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 460.0 * +EC2.4.1.247 l-lyxose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 220.0 * +EC2.4.1.247 l-mannose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 78.0 * +EC2.4.1.247 l-rhamnose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.4 * +EC2.4.1.249 delphinidin 3-o-(6''-o-malonyl)-beta-d-glucoside-3'-o-beta-glucoside clitoria ternatea//*//* 0.138 * +EC2.4.1.249 delphinidin 3-o-(6''-o-malonyl)-beta-d-glucoside clitoria ternatea//*//* 0.0389 * +EC2.4.1.249 udp-d-glucose clitoria ternatea//*//* 1.49 * +EC2.4.1.25 6-o-alpha-d-glucosyl-cyclomaltoheptaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.5 * +EC2.4.1.25 dodecyl-beta-maltoside paenibacillus macerans//*//* 18.0 * +EC2.4.1.25 maltoheptaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 5.7 * +EC2.4.1.25 maltoheptaose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 1.5 * +EC2.4.1.25 maltohexaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 4.5 * +EC2.4.1.25 maltohexaose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 3.2 * +EC2.4.1.25 maltopentaose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 4.2 * +EC2.4.1.25 maltopentaose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 6.9 * +EC2.4.1.25 maltose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 71.0 * +EC2.4.1.25 maltose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 8.3 * +EC2.4.1.25 maltosyl-beta-cyclodextrin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.591 * +EC2.4.1.25 maltotetraose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 4.5 * +EC2.4.1.25 maltotetraose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 7.1 * +EC2.4.1.25 maltotetraose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 2.1 * +EC2.4.1.25 maltotriose aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 6.1 * +EC2.4.1.25 maltotriose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 27.5 * +EC2.4.1.25 maltotriose corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 19.6 * +EC2.4.1.25 maltotriose ipomoea batatas//*//* 7.3 * +EC2.4.1.25 maltotriose manihot esculenta//*//* 69.2 * +EC2.4.1.25 maltotriose pisum sativum//*//* 3.3 * +EC2.4.1.25 maltotriose pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 3.7 * +EC2.4.1.25 maltotriose thermus brockianus//prokaryotes;bacteria;deinococcus-thermus;thermus//tbc 2.0 * +EC2.4.1.25 maltotriose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 12.0 * +EC2.4.1.25 phi-dextrin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC2.4.1.250 1d-myo-inositol 3-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.24 * +EC2.4.1.250 1d-myo-inositol 3-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.12 * +EC2.4.1.250 udp-n-acetyl-d-glucosamine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.21 * +EC2.4.1.250 udp-n-acetyl-d-glucosamine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.17 * +EC2.4.1.253 5,6,7-trihydroxy-2-phenyl-4h-chromen-4-one scutellaria baicalensis//*//* 0.0524 * +EC2.4.1.253 scutellarein scutellaria baicalensis//*//* 0.109 * +EC2.4.1.253 udp-glucuronate scutellaria baicalensis//*//* 0.0729 * +EC2.4.1.253 wogonin scutellaria baicalensis//*//* 0.107 * +EC2.4.1.254 cyanidin 3-o-beta-d-glucoside bellis perennis//*//* 0.085 * +EC2.4.1.254 cyanidin 3-o-beta-glucoside bellis perennis//*//* 0.8 * +EC2.4.1.254 cyanidin-3-o-(6-o-malonyl-beta-d-glucoside) bellis perennis//*//* 0.019 * +EC2.4.1.254 udp-beta-d-glucuronate bellis perennis//*//* 1.1 * +EC2.4.1.254 udp-d-glucuronate bellis perennis//*//* 0.476 * +EC2.4.1.255 nup 62 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC2.4.1.255 nup62 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5e-05 * +EC2.4.1.255 oip106 protein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00335 * +EC2.4.1.255 pggstpvssanmm rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.107 * +EC2.4.1.255 udp-4-deoxy-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3695 * +EC2.4.1.255 udp-6-deoxy-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1418 * +EC2.4.1.255 udp-glcnac drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0178 * +EC2.4.1.255 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.4.1.255 udp-glcnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000545 * +EC2.4.1.255 udp-glcnac streptococcus pneumoniae tigr4//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.1 * +EC2.4.1.255 udp-glcnpr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2821 * +EC2.4.1.255 udp-n-azidoacetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC2.4.1.255 ysdspstst homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.1.262 soyasapogenol a glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00403 * +EC2.4.1.262 soyasapogenol b glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01722 * +EC2.4.1.262 soyasapogenol e glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.04194 * +EC2.4.1.262 udp-d-glucuronate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.02394 * +EC2.4.1.263 abscisic acid macleaya microcarpa//*//* 0.4 * +EC2.4.1.263 udp-d-glucose macleaya microcarpa//*//* 8.0 * +EC2.4.1.264 d-man-alpha-(1->3)-d-glc-beta-(1->4)-d-glc-alpha-1-diphosphopolyisoprenol xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.198 * +EC2.4.1.264 udp-glucuronate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.062 * +EC2.4.1.266 3-phospho-d-glycerate methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 0.54 * +EC2.4.1.266 3-phospho-d-glycerate mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 0.24 * +EC2.4.1.266 3-phospho-d-glycerate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.24 * +EC2.4.1.266 3-phospho-d-glycerate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC2.4.1.266 3-phospho-d-glycerate persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 0.09 * +EC2.4.1.266 3-phospho-d-glycerate petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 0.5 * +EC2.4.1.266 3-phospho-d-glycerate prochlorococcus marinus//prokaryotes;bacteria;cyanobacteria;prochlorococcus//pma 3.07 * +EC2.4.1.266 3-phospho-d-glycerate rhodopirellula baltica//prokaryotes;bacteria;planctomycetes;rhodopirellula//rba 0.4 * +EC2.4.1.266 3-phospho-d-glycerate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.81 * +EC2.4.1.266 adp-glucose mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 6.63 * +EC2.4.1.266 adp-glucose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 6.08 * +EC2.4.1.266 adp-glucose prochlorococcus marinus//prokaryotes;bacteria;cyanobacteria;prochlorococcus//pma 0.81 * +EC2.4.1.266 adp-glucose rhodopirellula baltica//prokaryotes;bacteria;planctomycetes;rhodopirellula//rba 0.7 * +EC2.4.1.266 adp-glucose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.54 * +EC2.4.1.266 gdp-glucose methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 1.75 * +EC2.4.1.266 gdp-glucose mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 27.7 * +EC2.4.1.266 gdp-glucose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 32.04 * +EC2.4.1.266 udp-glucose mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 2.43 * +EC2.4.1.266 udp-glucose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.28 * +EC2.4.1.266 udp-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.82 * +EC2.4.1.266 udp-glucose persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 1.47 * +EC2.4.1.266 udp-glucose petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 0.9 * +EC2.4.1.268 adp-glucose persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 1.5 * +EC2.4.1.268 adp-glucose petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 2.0 * +EC2.4.1.268 d-glycerate persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 2.2 * +EC2.4.1.268 d-glycerate petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 0.9 * +EC2.4.1.268 gdp-glucose persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 7.1 * +EC2.4.1.268 udp-glucose persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 6.8 * +EC2.4.1.269 d-glycerate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.0022 * +EC2.4.1.269 d-glycerate selaginella moellendorffii//eukaryotes;plants;ferns//smo 1.2 * +EC2.4.1.269 d-lactate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.0022 * +EC2.4.1.269 gdp-glucose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 124.9 * +EC2.4.1.269 gdp-mannose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.0031 * +EC2.4.1.269 gdp-mannose selaginella moellendorffii//eukaryotes;plants;ferns//smo 0.2 * +EC2.4.1.269 glycolic acid rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 23.7 * +EC2.4.1.27 5-hydroxymethyl cytosine containing phage t4 dna enterobacteria phage t4//*//* 0.0004 * +EC2.4.1.27 dna containing 12 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 0.00023 * +EC2.4.1.27 dna containing 2 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 0.003 * +EC2.4.1.27 dna containing 24 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 0.00022 * +EC2.4.1.27 dna containing 6 5-hydroxymethyl cytosine residues enterobacteria phage t4//*//* 0.0006 * +EC2.4.1.27 udp-d-glucose enterobacteria phage t4//*//* 0.016 * +EC2.4.1.270 2-o-(alpha-d-glucopyranosyl)-3-phospho-d-glycerate petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 0.8 * +EC2.4.1.270 2-o-(alpha-d-glucopyranosyl)-3-phospho-d-glycerate rhodopirellula baltica//prokaryotes;bacteria;planctomycetes;rhodopirellula//rba 0.41 * +EC2.4.1.270 gdp-mannose petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 1.0 * +EC2.4.1.270 gdp-mannose rhodopirellula baltica//prokaryotes;bacteria;planctomycetes;rhodopirellula//rba 0.28 * +EC2.4.1.271 crocetin crocus sativus//*//* 0.17 * +EC2.4.1.271 udp-glucose crocus sativus//*//* 0.72 * +EC2.4.1.272 soyasapogenol b 3-o-beta-d-glucuronide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.012 * +EC2.4.1.274 beta-d-glucosyl-(1<->1)-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.4.1.274 beta-d-glucosyl-(1<->1)-ceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0237 * +EC2.4.1.274 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.4.1.274 udp-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0806 * +EC2.4.1.275 4-nitrophenyl n-acetyl-1-thio-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.238 * +EC2.4.1.275 n-acetyl-beta-d-galactosaminopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->4)-beta-d-glucopyranosyl-(1<->)-ceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC2.4.1.275 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC2.4.1.275 udp-galactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC2.4.1.277 10-deoxymethynolide streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.06 * +EC2.4.1.277 tdp-3-dimethylamino-4,6-dideoxy-alpha-d-glucopyranose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.16 * +EC2.4.1.278 3-alpha-mycarosylerythronolide b saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.05 * +EC2.4.1.279 1,5-anhydro-d-glucitol lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.0 * +EC2.4.1.279 3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.7 * +EC2.4.1.279 beta-d-glucopyranose 1-phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.2 * +EC2.4.1.279 d-galactose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 20.0 * +EC2.4.1.279 d-glucose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.1 * +EC2.4.1.279 d-xylose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.0 * +EC2.4.1.279 methyl alpha-d-glucopyranoside lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 79.0 * +EC2.4.1.279 phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 0.2 * +EC2.4.1.280 n,n'-diacetylchitobiose vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.58 * +EC2.4.1.280 n,n'-diacetylchitobiose vibrio proteolyticus//*//* 2.0 * +EC2.4.1.280 n-acetyl-alpha-d-glucosamine 1-phosphate vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.93 * +EC2.4.1.280 n-acetyl-d-glucosamine vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 1.0 * +EC2.4.1.280 phosphate vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.51 * +EC2.4.1.281 1,5-anhydro-d-glucitol ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 79.2 * +EC2.4.1.281 2-deoxy-2-fluoro-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 48.7 * +EC2.4.1.281 2-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 90.7 * +EC2.4.1.281 3-deoxy-3-fluoro-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 6.44 * +EC2.4.1.281 3-o-methyl-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 7.82 * +EC2.4.1.281 4-o-beta-d-mannopyranosyl-d-glucopyranose bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 8.3 * +EC2.4.1.281 4-o-beta-d-mannopyranosyl-d-glucopyranose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.304 * +EC2.4.1.281 6-deoxy-6-fluoro-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 156.0 * +EC2.4.1.281 6-deoxy-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 119.0 * +EC2.4.1.281 alpha-d-mannose 1-phosphate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.324 * +EC2.4.1.281 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 22.2 * +EC2.4.1.281 d-allose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 6.14 * +EC2.4.1.281 d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 25.9 * +EC2.4.1.281 d-mannose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 45.6 * +EC2.4.1.281 gentiobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 60.8 * +EC2.4.1.281 laminaribiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 29.1 * +EC2.4.1.281 maltose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 50.4 * +EC2.4.1.281 methyl alpha-d-glucoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 85.3 * +EC2.4.1.281 methyl beta-d-glucoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 85.2 * +EC2.4.1.281 n,n'-diacetylchitobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 49.9 * +EC2.4.1.281 n-acetyl-d-glucosamine ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 107.0 * +EC2.4.1.281 phosphate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 2.0 * +EC2.4.1.281 phosphate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.444 * +EC2.4.1.281 sophorose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 49.8 * +EC2.4.1.282 beta-d-glucose 1-phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 9.6 * +EC2.4.1.282 l-rhamnose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.7 * +EC2.4.1.284 2-deoxystreptamine streptomyces kanamyceticus//*//* 0.28 * +EC2.4.1.284 udp-d-glucose streptomyces kanamyceticus//*//* 0.44 * +EC2.4.1.284 udp-n-acetyl-alpha-d-glucosamine streptomyces kanamyceticus//*//* 2.54 * +EC2.4.1.288 beta-d-galf-(1->5)-beta-d-galf-(1->6)-beta-d-galf-o(ch2)7ch3 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.6 * +EC2.4.1.288 dtdp-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.9 * +EC2.4.1.288 udp-3-deoxy-alpha-d-threo-hexofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.5 * +EC2.4.1.288 udp-5-deoxy-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC2.4.1.288 udp-6-deoxy-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC2.4.1.288 udp-alpha-d-arabinofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC2.4.1.288 udp-alpha-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0038 * +EC2.4.1.296 delphinidin 3-o-[2-o-(4-coumaroyl)-alpha-l-rhamnosyl-(1->6)-beta-d-glucoside] petunia x hybrida//*//* 0.003 * +EC2.4.1.296 petunidin 3-o-[2-o-(4-coumaroyl)-alpha-l-rhamnosyl-(1->6)-beta-d-glucoside] petunia x hybrida//*//* 0.003 * +EC2.4.1.296 udp-alpha-d-glucose petunia x hybrida//*//* 0.22 * +EC2.4.1.298 cyanidin 3-o-beta-d-glucoside gentiana triflora//*//* 0.0209 * +EC2.4.1.298 cyanidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.1113 * +EC2.4.1.298 delphinidin 3-o-beta-d-glucoside gentiana triflora//*//* 0.0295 * +EC2.4.1.298 delphinidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0535 * +EC2.4.1.298 malvidin 3-o-beta-d-glucoside vitis amurensis//*//* 0.0809 * +EC2.4.1.298 malvidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.0919 * +EC2.4.1.298 pelargonidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.207 * +EC2.4.1.298 peonidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.3739 * +EC2.4.1.298 petunidin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.1146 * +EC2.4.1.298 quercetin 3-o-beta-d-glucoside vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 4.51 * +EC2.4.1.298 udp-alpha-d-glucose vitis amurensis//*//* 0.213 * +EC2.4.1.299 1-o-vanilloyl-beta-d-glucose dianthus caryophyllus//*//* 0.0465 * +EC2.4.1.299 cyanidin 3-o-beta-d-glucoside dianthus caryophyllus//*//* 0.013 * +EC2.4.1.30 glucose 1-phosphate euglena gracilis//*//* 1.8 * +EC2.4.1.30 glucose euglena gracilis//*//* 40.0 * +EC2.4.1.30 laminaribiose euglena gracilis//*//* 4.0 * +EC2.4.1.30 laminaripentaose euglena gracilis//*//* 2.0 * +EC2.4.1.30 laminaritetraose euglena gracilis//*//* 3.0 * +EC2.4.1.30 laminaritriose euglena gracilis//*//* 4.5 * +EC2.4.1.30 phosphate euglena gracilis//*//* 2.0 * +EC2.4.1.301 paromamine streptomyces kanamyceticus//*//* 0.05 * +EC2.4.1.301 udp-alpha-d-glucose streptomyces kanamyceticus//*//* 0.26 * +EC2.4.1.301 udp-alpha-d-kanosamine streptomyces kanamyceticus//*//* 0.03 * +EC2.4.1.302 cyclonovobiocic acid streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.039 * +EC2.4.1.302 dtdp-beta-l-noviose streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0086 * +EC2.4.1.302 n-(4,7-dihydroxy-8-methyl-2-oxo-2h-chromen-3-yl)-4-hydroxy-3-methylbenzamide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0086 * +EC2.4.1.302 novobiocic acid streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.032 * +EC2.4.1.302 novobiocic acid streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.039 * +EC2.4.1.303 1-o-(11-phenoxyundecyl-diphosphoryl)-alpha-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.4.1.303 udp-alpha-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC2.4.1.304 n-acetyl-alpha-d-glucosaminyl-diphospho-phenoxyundecanol shigella boydii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sbo 0.1 * +EC2.4.1.304 udp-alpha-d-galactose shigella boydii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sbo 0.25 * +EC2.4.1.305 udp-alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.4.1.31 2-deoxy-d-glucose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.7 * +EC2.4.1.31 d-glucose 1-phosphate euglena gracilis//*//* 2.1 * +EC2.4.1.31 d-glucose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.4 * +EC2.4.1.31 d-glucose euglena gracilis//*//* 19.0 * +EC2.4.1.31 laminaribiose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 2.7 * +EC2.4.1.31 laminaribiose euglena gracilis//*//* 5.0 * +EC2.4.1.31 laminaribiose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.48 * +EC2.4.1.31 laminaritriose euglena gracilis//*//* 6.0 * +EC2.4.1.31 phosphate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.4 * +EC2.4.1.31 phosphate euglena gracilis//*//* 2.5 * +EC2.4.1.31 phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.14 * +EC2.4.1.310 udp-alpha-d-glucose amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 1.3 * +EC2.4.1.310 vancomycin aglycone amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.25 * +EC2.4.1.311 devancoaminyl vancomycin amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.107 * +EC2.4.1.311 dtdp-beta-l-4-epi-vancosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.218 * +EC2.4.1.314 ginsenoside rd panax notoginseng//*//* 0.14 * +EC2.4.1.314 udp-alpha-d-glucose panax notoginseng//*//* 0.32 * +EC2.4.1.315 1,2-diacyl-3-o-(alpha-d-glucopyranosyl)-sn-glycerol mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.09 * +EC2.4.1.315 1,2-diacyl-sn-glycerol mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.27 * +EC2.4.1.315 udp-alpha-d-galactose mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.234 * +EC2.4.1.315 udp-alpha-d-glucose mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.05 * +EC2.4.1.319 4-o-beta-d-mannosyl-d-glucose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 28.4 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]2 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 30.7 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]3 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 7.94 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]4 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 3.21 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]5 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.55 * +EC2.4.1.319 [(1->4)-beta-d-mannosyl]6 ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.48 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.48 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.55 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 3.21 * +EC2.4.1.319 beta-d-man-(1->4)-beta-d-man-(1->4)-d-man ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 7.94 * +EC2.4.1.319 beta-d-mannopyranosyl-(1->4)-d-mannopyranose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 30.7 * +EC2.4.1.32 gdp-d-mannose pinus sylvestris//*//* 0.085 * +EC2.4.1.32 gdp-d-mannose pisum sativum//*//* 0.06 * +EC2.4.1.32 gdp-d-mannose vigna radiata var. radiata//*//* 0.1 * +EC2.4.1.320 4-o-beta-d-mannopyranosyl-n-acetyl-d-glucosamine bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 2.1 * +EC2.4.1.320 4-o-beta-n-acetyl-d-glucosaminyl-n-acetyl-d-glucosamine bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 2.7 * +EC2.4.1.320 alpha-d-mannose 1-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 2.6 * +EC2.4.1.320 n,n'-diacetylchitobiose bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 27.0 * +EC2.4.1.320 n-acetyl-d-glucosamine bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 3.8 * +EC2.4.1.320 phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.6 * +EC2.4.1.321 4-o-beta-d-glucopyranosyl-d-gluconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.0 * +EC2.4.1.321 alpha-d-glucose 1-phosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.21 * +EC2.4.1.321 alpha-d-glucose 1-phosphate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.21 * +EC2.4.1.321 d-gluconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.4 * +EC2.4.1.321 d-gluconate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 1.7 * +EC2.4.1.321 d-gluconate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.0 * +EC2.4.1.321 d-gluconate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.0 * +EC2.4.1.321 d-glucuronate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 13.4 * +EC2.4.1.321 d-glucuronate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.4 * +EC2.4.1.321 d-glucuronate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.4 * +EC2.4.1.321 phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC2.4.1.322 desvancosaminyl-vancomycin amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.016 * +EC2.4.1.322 dtdp-beta-l-acosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.232 * +EC2.4.1.322 dtdp-beta-l-daunosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.038 * +EC2.4.1.322 udp-l-epi-vancosamine amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 2.0 * +EC2.4.1.323 7-deoxyloganetate catharanthus roseus//*//* 5.38 * +EC2.4.1.323 udp-alpha-d-glucose catharanthus roseus//*//* 0.088 * +EC2.4.1.324 7-deoxyloganetin catharanthus roseus//*//* 0.202 * +EC2.4.1.324 7-deoxyloganetin gardenia jasminoides//*//* 0.61 * +EC2.4.1.324 genipin gardenia jasminoides//*//* 8.82 * +EC2.4.1.324 udp-alpha-d-glucose catharanthus roseus//*//* 0.117 * +EC2.4.1.324 udp-alpha-d-glucose gardenia jasminoides//*//* 0.17 * +EC2.4.1.326 aklavinone streptomyces galilaeus//*//* 0.0031 * +EC2.4.1.326 dtdp-4-amino-2-deoxyrhamnose streptomyces galilaeus//*//* 0.4072 * +EC2.4.1.326 dtdp-beta-l-rhodosamine streptomyces galilaeus//*//* 0.28 * +EC2.4.1.326 dtdp-l-2-deoxyfucose streptomyces galilaeus//*//* 0.156 * +EC2.4.1.326 epsilon-rhodomycinone streptomyces galilaeus//*//* 0.046 * +EC2.4.1.327 dtdp-l-2-deoxyfucose streptomyces galilaeus//*//* 0.1489 * +EC2.4.1.327 dtdp-l-daunosamine streptomyces galilaeus//*//* 0.94 * +EC2.4.1.327 idarubicin streptomyces galilaeus//*//* 0.138 * +EC2.4.1.327 rhodosaminyl aklavinone streptomyces galilaeus//*//* 0.1044 * +EC2.4.1.329 alpha-d-glucopyranose 1-phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 15.6 * +EC2.4.1.329 beta-d-fructofuranose 6-phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 15.1 * +EC2.4.1.329 beta-d-fructofuranose thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 41.6 * +EC2.4.1.329 phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 6.9 * +EC2.4.1.329 sucrose 6f-phosphate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 12.7 * +EC2.4.1.329 sucrose thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 76.5 * +EC2.4.1.330 beta-d-glucosyl crocetin gardenia jasminoides//*//* 0.072 * +EC2.4.1.330 bis(beta-d-glucosyl) crocetin gardenia jasminoides//*//* 0.023 * +EC2.4.1.332 2-o-alpha-d-glucopyranosyl-sn-glycerol bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 1.1 * +EC2.4.1.332 beta-d-glucose 1-phosphate bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 0.45 * +EC2.4.1.332 phosphate bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 0.57 * +EC2.4.1.332 sn-glycerol bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 5.7 * +EC2.4.1.333 2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-d-glucopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 1.8 * +EC2.4.1.333 2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-d-glucopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 1.2 * +EC2.4.1.333 2-o-beta-d-glucopyranosyl-2-o-beta-d-glucopyranosyl-d-glucopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 1.0 * +EC2.4.1.333 alpha-d-glucose 1-phosphate listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 1.2 * +EC2.4.1.333 sophorose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 8.5 * +EC2.4.1.334 3-o-alpha-d-glucopyranosyl-3-o-alpha-d-glucopyranosyl-3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.9 * +EC2.4.1.334 3-o-alpha-d-glucopyranosyl-3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 1.0 * +EC2.4.1.334 3-o-alpha-d-glucopyranosyl-d-glucopyranose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 3.1 * +EC2.4.1.334 beta-d-glucopyranose 1-phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 8.3 * +EC2.4.1.334 kojibiose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 50.0 * +EC2.4.1.334 maltose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 3.8 * +EC2.4.1.334 phosphate lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 2.6 * +EC2.4.1.336 udpglucose anabaena variabilis//*//* 0.045 * +EC2.4.1.337 udp-alpha-d-glucose acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.37 * +EC2.4.1.339 alpha-d-mannose 1-phosphate listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 3.1 * +EC2.4.1.339 beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-d-mannopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 4.1 * +EC2.4.1.339 beta-d-mannopyranosyl-(1->2)-d-mannopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 0.44 * +EC2.4.1.339 d-fructose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 1.5 * +EC2.4.1.339 d-mannopyranose listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 2.1 * +EC2.4.1.339 phosphate listeria innocua//prokaryotes;bacteria;firmicutes - bacilli;listeria//lin 0.13 * +EC2.4.1.34 [(1,3)-beta-d-glucosyl]n candida glabrata//eukaryotes;fungi;ascomycetes;saccharomycetes//cgr 0.1 * +EC2.4.1.34 udp-glucose cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.21 * +EC2.4.1.34 udpglucose achlya ambisexualis//*//* 7.1 * +EC2.4.1.34 udpglucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.36 * +EC2.4.1.34 udpglucose arachis hypogaea//*//* 0.67 * +EC2.4.1.34 udpglucose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.92 * +EC2.4.1.34 udpglucose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.1 * +EC2.4.1.34 udpglucose euglena gracilis//*//* 0.6 * +EC2.4.1.34 udpglucose exophiala dermatitidis//*//* 1.8 * +EC2.4.1.34 udpglucose gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.43 * +EC2.4.1.34 udpglucose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.1 * +EC2.4.1.34 udpglucose papiliotrema laurentii//*//* 0.86 * +EC2.4.1.34 udpglucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.8 * +EC2.4.1.34 udpglucose saprolegnia monoica//*//* 0.63 * +EC2.4.1.34 udpglucose schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.8 * +EC2.4.1.34 udpglucose staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.45 * +EC2.4.1.34 udpglucose wickerhamomyces anomalus//*//* 0.67 * +EC2.4.1.340 [(1->2)-beta-d-mannosyl]2 thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.52 * +EC2.4.1.340 [(1->2)-beta-d-mannosyl]3 thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.92 * +EC2.4.1.340 [(1->2)-beta-d-mannosyl]4 thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 2.3 * +EC2.4.1.340 alpha-d-mannose 1-phosphate thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 1.4 * +EC2.4.1.340 alpha-d-mannose thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.41 * +EC2.4.1.340 d-fructose thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.2 * +EC2.4.1.340 phosphate thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 0.63 * +EC2.4.1.341 beta-d-galactopyranosyl-(1->3)-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC2.4.1.341 gdp-beta-l-colitose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.76 * +EC2.4.1.341 gdp-l-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC2.4.1.342 adp-alpha-d-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.046 * +EC2.4.1.342 alpha-d-glucose-1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.578 * +EC2.4.1.344 beta-d-galactosyl-(1->3)-n-acetyl-d-glucosaminyl-(1->3)-beta-d-galactosyl-(1->4)-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.4.1.344 beta-d-galactosyl-(1->4)-n-acetyl-beta-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2 * +EC2.4.1.344 beta-d-galactosyl-(1->4)-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.1.344 beta-d-galactosyl-(1->4)-n-acetyl-d-glucosaminyl-(1->3)-beta-d-galactosyl-(1->4)-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC2.4.1.344 beta-d-galactosyl-(1->4)-n-acetyl-d-glucosaminyl-(1->3)-beta-d-galactosyl-(1->4)-glucosylceramide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC2.4.1.344 freezing point-depressing glycoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC2.4.1.344 gdp-beta-l-fucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC2.4.1.344 gdp-beta-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.4.1.344 gdp-beta-l-fucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC2.4.1.344 phenyl beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.4.1.344 phenyl beta-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC2.4.1.345 gdp-alpha-d-mannose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.018 * +EC2.4.1.35 4-methylumbelliferone nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.077 * +EC2.4.1.35 4-nitrophenol carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.07 * +EC2.4.1.35 caffeic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.32 * +EC2.4.1.35 kaempferol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01 * +EC2.4.1.35 lipophosphoglycan leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.072 * +EC2.4.1.35 luteolin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.12 * +EC2.4.1.35 m-coumaric acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.69 * +EC2.4.1.35 o-coumaric acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.8 * +EC2.4.1.35 quercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC2.4.1.35 scopoletin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.4 * +EC2.4.1.35 udpglucose carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.17 * +EC2.4.1.35 udpglucose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.037 * +EC2.4.1.35 udpxylose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.4 * +EC2.4.1.36 adp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.6 * +EC2.4.1.36 d-glucose 6-phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 3.0 * +EC2.4.1.36 d-glucose 6-phosphate rubrobacter xylanophilus//prokaryotes;bacteria;actinobacteria;rubrobacter//rxy 2.9 * +EC2.4.1.36 gdp-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 16.0 * +EC2.4.1.36 gdp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.4 * +EC2.4.1.36 gdp-glucose rubrobacter xylanophilus//prokaryotes;bacteria;actinobacteria;rubrobacter//rxy 0.7 * +EC2.4.1.36 glucose-6-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.0 * +EC2.4.1.36 tdp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 2.0 * +EC2.4.1.36 udp-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 18.0 * +EC2.4.1.36 udp-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.3 * +EC2.4.1.37 2'-fucosyllactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.1.37 2'-fucosyllactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.08 * +EC2.4.1.37 alpha-l-fucp-(1,2)-beta-d-galp-(1,3)-beta-dglcnacp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC2.4.1.37 alpha-l-fucp-(1,2)-beta-d-galp-(1,4)-beta-d-glcnacp-o-(ch2)8co2ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.184 * +EC2.4.1.37 alpha-l-fucp-(1,2)-beta-d-galp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.4.1.37 beta-d-galactosyl-(1->4)-beta-d-glucosyl-(1<->1)-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.4.1.37 fucalpha(1,2)galbeta(1,3)glcnacalpha-1-(4-nitrophenol) dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC2.4.1.37 fucalpha(1,2)galbeta(1,3)glcnacalpha-1-benzyl dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2.2 * +EC2.4.1.37 fucalpha(1,2)galbeta(1,3)glcnacalpha-1-skp1 protein dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.006 * +EC2.4.1.37 fucalpha(1,2)galbeta-1-(4-nitrophenol) dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.82 * +EC2.4.1.37 fucalpha(1,2)galbeta1-benzyl dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.84 * +EC2.4.1.37 fucalpha-1-(4-nitrophenol) dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.7 * +EC2.4.1.37 fucalpha-1-benzyl dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 3.8 * +EC2.4.1.37 l-fucosyl-alpha-1,2-alpha-d-galactosyl-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.4.1.37 l-fucosyl-alpha-1,2-beta-d-galactosyl-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.4.1.37 l-fucosyl-alpha-1,2-beta-galactosyl-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC2.4.1.37 lacto-n-fucopentaose i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.4.1.37 n-acetyllactosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC2.4.1.37 o-alpha-l-fucosyl-1,2-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC2.4.1.37 octyl 3-o-methyl-alpha-l-fucopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.1.37 octyl 4-o-methyl-alpha-l-fucopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC2.4.1.37 octyl 6'-amino-6'-deoxy-alpha-l-fucopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.565 * +EC2.4.1.37 octyl 6'-o-methyl-alpha-l-fucopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.538 * +EC2.4.1.37 octyl alpha-l-xylo-hexopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.1.37 udp-6-deoxygalactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.4.1.37 udp-alpha-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC2.4.1.37 udp-gal dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0035 * +EC2.4.1.37 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.37 udp-galactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.036 * +EC2.4.1.37 udp-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC2.4.1.37 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.4.1.37 udp-n-acetylgalactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.285 * +EC2.4.1.38 4-methylumbelliferyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.1.38 4-nitrophenyl beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC2.4.1.38 agalacto-poly-n-acetyllactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC2.4.1.38 agalactokeratan bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.8 * +EC2.4.1.38 alpha1-acid glycoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.1.38 asialo-agalacto-transferrin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.056 * +EC2.4.1.38 asialogalactofetuin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0608 * +EC2.4.1.38 chitotriose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.96 * +EC2.4.1.38 d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.0 * +EC2.4.1.38 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.4.1.38 fetuin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.029 * +EC2.4.1.38 galactosyl-beta-1,4-n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,6-(n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,3-)mannosyl-beta-1,4-n-acetylglucosaminyl-beta-1,4-(fucosyl-alpha-1,6-)n-acetylglucosaminyl-asparagine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.28 * +EC2.4.1.38 glc-nacbeta1-3galbeta-o-naphthalenemethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.38 glcnacbeta1,2-manalpha1,3-manbeta-or homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.4.1.38 glcnacbeta1,2-manalpha1,6 (glcnacbeta1,2-manalpha1,3)man homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.23 * +EC2.4.1.38 glcnacbeta1,2-manalpha1,6-manbeta-or homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC2.4.1.38 glcnacbeta1,4-manalpha1,3-manbeta-or homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.71 * +EC2.4.1.38 glycopeptide prepared from porcine igg immunoglobulin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC2.4.1.38 igg immunoglobulin heavy chain sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.4.1.38 lacto-n-triaosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC2.4.1.38 lacto-n-triose ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.4.1.38 n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.38 n-acetyl-beta-d-glucosaminyl-1,4-n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.59 * +EC2.4.1.38 n-acetylgalactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.4.1.38 n-acetylglucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0025 * +EC2.4.1.38 n-acetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC2.4.1.38 n-acetylglucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.4.1.38 n-acetylglucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC2.4.1.38 n-acetylglucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.0 * +EC2.4.1.38 n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,6-(galactosyl-beta-1,4-n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,3-)mannosyl-beta-1,4-n-acetylglucosaminyl-beta-1,4-(fucosyl-alpha-1,6-)n-acetylglucosaminyl-asparagine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC2.4.1.38 n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,6-(n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,3-)mannosyl-beta-1,4-n-acetylglucosaminyl-beta-1,4-(fucosyl-alpha-1,6-)n-acetylglucosaminyl-asparagine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.4.1.38 n-acetylglucosaminyl-beta-1,3-(galactosyl-beta-1,4-n-acetylglucosaminyl-beta-1,6-)galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.4 * +EC2.4.1.38 n-acetylglucosaminyl-beta-1,6-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC2.4.1.38 ovalbumin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.4.1.38 ovalbumin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.054 * +EC2.4.1.38 p-nitrophenyl 2-acetamido-2-deoxy-beta-glucoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.66 * +EC2.4.1.38 pnp-beta-glcnac helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.79 * +EC2.4.1.38 udp-gal helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.27 * +EC2.4.1.38 udp-gal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00491 * +EC2.4.1.38 udp-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.093 * +EC2.4.1.38 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.4.1.38 udp-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.031 * +EC2.4.1.38 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.4.1.38 udp-glucuronic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC2.4.1.38 udp-n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC2.4.1.38 udp-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.1.38 udpgalactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC2.4.1.38 udpgalactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.1.38 udpgalactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0127 * +EC2.4.1.38 udpgalactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0108 * +EC2.4.1.38 udpgalactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC2.4.1.39 17alpha-estradiol-3-glucuronoside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.168 * +EC2.4.1.39 udp-n-acetylglucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0684 * +EC2.4.1.4 sucrose bergeriella denitrificans//*//* 9.1 * +EC2.4.1.4 sucrose deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 10.0 * +EC2.4.1.4 sucrose moraxella cuniculi//*//* 26.0 * +EC2.4.1.4 sucrose neisseria canis//*//* 19.0 * +EC2.4.1.4 sucrose neisseria cinerea//*//* 10.5 * +EC2.4.1.4 sucrose neisseria perflava//*//* 10.0 * +EC2.4.1.4 sucrose neisseria polysaccharea//*//* 1.9 * +EC2.4.1.4 sucrose neisseria sicca//prokaryotes;bacteria;betaproteobacteria;neisseria//nsi 20.0 * +EC2.4.1.4 sucrose neisseria subflava//*//* 22.0 * +EC2.4.1.40 2'-fucosyllactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.4.1.40 2'-fucosyllactose mesocricetus auratus//*//* 0.39 * +EC2.4.1.40 alpha-l-fucp-(1,2)-beta-d-galp-(1,3)-beta-dglcnacp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.4.1.40 alpha-l-fucp-(1,2)-beta-d-galp-(1,4)-beta-d-glcnacp-o-(ch2)8co2ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC2.4.1.40 alpha-l-fucp-(1,2)-beta-d-galp-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC2.4.1.40 l-fucosyl-alpha-1,2-beta-galactosyl-o(ch2)7ch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC2.4.1.40 lacto-n-fucopentaose i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC2.4.1.40 octyl 3-o-methyl-alpha-l-fucopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.4.1.40 octyl 4-o-methyl-alpha-l-fucopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.14 * +EC2.4.1.40 octyl beta-d-arabinopyranosyl-(1-2)-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.208 * +EC2.4.1.40 udp-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC2.4.1.40 udp-galnac mesocricetus auratus//*//* 0.048 * +EC2.4.1.40 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.242 * +EC2.4.1.41 ac-asn-leu-thr-pro-pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC2.4.1.41 ac-pro-thr-thr-thr-pro-ile-ser-thr-nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC2.4.1.41 ac-pro-thr-thr-thr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC2.4.1.41 ac-thr-pro-pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.33 * +EC2.4.1.41 ac-tppa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.7 * +EC2.4.1.41 ahgvvtsapdtr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.4.1.41 aqptppp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC2.4.1.41 arg-thr-pro-pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC2.4.1.41 asp-ala-ala-ser-ala-ala-pro-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.9 * +EC2.4.1.41 cpptpsattpappsssappettaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.41 deglycosylated human trachea mucin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0175 * +EC2.4.1.41 deglycosylated swine trachea mucin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0141 * +EC2.4.1.41 dsttpapttk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.4.1.41 ea2 peptide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.595 * +EC2.4.1.41 gln-ala-ala-gly-thr-ser-gly-ala-gly-pro-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 39.5 * +EC2.4.1.41 gly-val-val-pro-thr-val-val-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.4.1.41 gt[galnac]tpspvpttst[galnac]tsap homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.206 * +EC2.4.1.41 gt[galnac]tpspvpttsttsap homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.4.1.41 gttpspvptts-(o-galnac)t-sap rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0209 * +EC2.4.1.41 gttpspvptts-(o-galnac)t-sap toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0721 * +EC2.4.1.41 gttpspvpttst[galnac]tsap homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.115 * +EC2.4.1.41 gttpspvpttsttsap homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC2.4.1.41 gttpspvpttsttsap mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0259 * +EC2.4.1.41 gvvptvvpg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.74 * +EC2.4.1.41 hiv-v3 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.1.41 human mucin muc2 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.4.1.41 iga hinge-4galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.4.1.41 iga hinge homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.4.1.41 muc1-2galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.87 * +EC2.4.1.41 muc1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.4.1.41 muc1a' peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.4.1.41 muc2-6galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC2.4.1.41 muc2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.41 muc5ac-13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.4.1.41 muc5ac-3,13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC2.4.1.41 muc5ac-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC2.4.1.41 muc5ac-9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.4.1.41 muc5ac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.4.1.41 muc7 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.4.1.41 myelin basic protein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC2.4.1.41 n-acetyl-4-benzoyl-l-phe-l-pro-l-tyr-l-pro-l-pro-l-pro-nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC2.4.1.41 polypeptide muc2 biomphalaria glabrata//*//* 0.064 * +EC2.4.1.41 ppdaataapl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC2.4.1.41 pro-pro-ala-ser-thr-ser-ala-pro-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.0 * +EC2.4.1.41 pro-pro-asp-ala-ala-ser-ala-ala-pro-leu-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.6 * +EC2.4.1.41 pro-pro-asp-ala-ala-ser-ala-ala-pro-leu-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.5 * +EC2.4.1.41 pro-pro-asp-ala-ala-thr-ala-ala-pro-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC2.4.1.41 pro-pro-asp-ala-ser-ser-ser-ala-pro-leu-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.0 * +EC2.4.1.41 pro-pro-asp-val-val-ser-val-val-pro-leu-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.9 * +EC2.4.1.41 pro-thr-ala-pro-pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.52 * +EC2.4.1.41 pttds-(o-galnac)t-tpapttk mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.198 * +EC2.4.1.41 pttds-(o-galnac)t-tpapttk rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1058 * +EC2.4.1.41 pttds-(o-galnac)t-tpapttk toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.182 * +EC2.4.1.41 pttdsttpapttk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC2.4.1.41 pttdsttpapttk rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.042 * +EC2.4.1.41 sdc106 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33 * +EC2.4.1.41 sdc155 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC2.4.1.41 sdc165 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.4.1.41 sdc284 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.4.1.41 stpstpstpstpstp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC2.4.1.41 udp-gal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC2.4.1.41 udp-galnac bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0017 * +EC2.4.1.41 udp-galnac drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.02 * +EC2.4.1.41 udp-galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.4.1.41 udp-galnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0417 * +EC2.4.1.41 udp-galnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC2.4.1.41 udp-n-acetyl-alpha-d-galactosamine biomphalaria glabrata//*//* 0.046 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine drosophila sp.//*//* 0.0107 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0788 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0141 * +EC2.4.1.41 udp-n-acetyl-d-galactosamine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.044 * +EC2.4.1.41 val-leu-gly-ala-thr-ala-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.0 * +EC2.4.1.41 val-leu-gly-thr-ala-ala-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.3 * +EC2.4.1.41 val-leu-gly-thr-thr-ala-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.6 * +EC2.4.1.41 val-lys-thr-glu-ala-thr-thr-phe-ile sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.2 * +EC2.4.1.41 val-thr-pro-arg-thr-pro-pro-pro sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC2.4.1.43 fluorogenic pyridylaminated-oligogalacturonic acid petunia axillaris//*//* 0.011 * +EC2.4.1.43 udp-d-galacturonic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0089 * +EC2.4.1.43 udp-d-galacturonic acid petunia axillaris//*//* 0.17 * +EC2.4.1.43 udp-d-galacturonic acid vigna angularis//eukaryotes;plants;eudicots;pea family//var 0.14 * +EC2.4.1.43 udp-d-galacturonic acid vigna radiata var. radiata//*//* 0.0017 * +EC2.4.1.44 udp-galactose salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.074 * +EC2.4.1.46 diacylglycerol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.0 * +EC2.4.1.46 dilinoleoylglycerol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0022 * +EC2.4.1.46 dioleoylglycerol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.02 * +EC2.4.1.46 udp-galactose chlorobaculum tepidum//*//* 0.0183 * +EC2.4.1.46 udpgalactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.087 * +EC2.4.1.46 udpgalactose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.04 * +EC2.4.1.47 2-(2-hydroxyacyl)sphingosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.11 * +EC2.4.1.47 2-(2-hydroxyacyl)sphingosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC2.4.1.47 udpgalactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.04 * +EC2.4.1.47 udpgalactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC2.4.1.48 gdp-mannose cryptococcus laurentii var. flavescens//*//* 0.14 * +EC2.4.1.48 gdpmannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC2.4.1.49 4-nitrophenyl beta-d-glucoside clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.64 * +EC2.4.1.49 alpha-d-galactose 1-phosphate clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 31.1 * +EC2.4.1.49 alpha-d-glucose 1-phosphate clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 2.4 * +EC2.4.1.49 cellobiose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.447 * +EC2.4.1.49 cellobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.53 * +EC2.4.1.49 celloheptaose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.29 * +EC2.4.1.49 cellohexaose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.19 * +EC2.4.1.49 cellohexaose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.37 * +EC2.4.1.49 cellopentaose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.17 * +EC2.4.1.49 cellopentaose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.0 * +EC2.4.1.49 cellotetraose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.05 * +EC2.4.1.49 cellotetraose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.82 * +EC2.4.1.49 cellotriose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.04 * +EC2.4.1.49 cellotriose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.81 * +EC2.4.1.49 glucose 1-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 4.7 * +EC2.4.1.49 octyl beta-d-glucoside clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.623 * +EC2.4.1.49 phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.13 * +EC2.4.1.5 1'-beta-d-fructofuranosyl alpha-acarbose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 189.0 * +EC2.4.1.5 [(1->6)-alpha-d-glucosyl]n weissella cibaria//prokaryotes;bacteria;firmicutes - bacilli;weissella//wcb 13.0 * +EC2.4.1.5 [(1->6)-alpha-d-glucosyl]n weissella confusa//*//* 6.2 * +EC2.4.1.5 alpha-d-glucopyranosyl fluoride leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 26.0 * +EC2.4.1.5 dextran leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 17.8 * +EC2.4.1.5 sucrose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 2.0 * +EC2.4.1.5 sucrose pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 15.4 * +EC2.4.1.5 sucrose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 2.0 * +EC2.4.1.5 sucrose streptococcus oralis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sor 2.0 * +EC2.4.1.50 calf skin collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC2.4.1.50 hydroxylysyl acceptor sites gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC2.4.1.50 ichthyocol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.4.1.50 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01877 * +EC2.4.1.50 udpgalactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.02 * +EC2.4.1.50 udpgalactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC2.4.1.52 poly(glycerophosphate) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC2.4.1.52 udpglucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC2.4.1.53 poly(ribitol phosphate) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.001 * +EC2.4.1.53 udp-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC2.4.1.54 ficaprenyl phosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.02 * +EC2.4.1.54 gdpmannose gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.00067 * +EC2.4.1.56 galbeta1-3galnacbeta-o-p-nitrophenol lipooligosaccharide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 27.0 * +EC2.4.1.56 galbeta1-4glc lipooligosaccharide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 28.0 * +EC2.4.1.56 galbeta1-4glcbeta-o-p-nitrophenol lipooligosaccharide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 4.3 * +EC2.4.1.56 galbeta1-4glcnacbeta-o-p-nitrophenol lipooligosaccharide neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 6.1 * +EC2.4.1.56 lipopolysaccharide aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.016 * +EC2.4.1.56 udp-n-acetyl-d-galactosamine neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.4 * +EC2.4.1.56 udp-n-acetyl-d-glucosamine aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.04 * +EC2.4.1.56 udp-n-acetyl-d-glucosamine neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.22 * +EC2.4.1.58 lipopolysaccharide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.01 * +EC2.4.1.58 udpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC2.4.1.58 udpglucose salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.074 * +EC2.4.1.62 n-acetyl-d-galactosaminyl-(n-acetylneuraminyl)-d-galactosyl-1,4-beta-d-glucosyl-n-acylsphingosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.033 * +EC2.4.1.62 n-acetyl-d-galactosaminyl-(n-acetylneuraminyl)-d-galactosyl-1,4-beta-d-glucosyl-n-acylsphingosine rana pipiens//*//* 0.18 * +EC2.4.1.62 n-acetyl-d-galactosaminyl-(n-acetylneuraminyl)-d-galactosyl-1,4-beta-d-glucosyl-n-acylsphingosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.4.1.62 udp-galactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.022 * +EC2.4.1.62 udp-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.4.1.64 alpha-d-arabinose caldanaerobacter subterraneus subsp. pacificus//*//* 64.8 * +EC2.4.1.64 alpha-d-galactose caldanaerobacter subterraneus subsp. pacificus//*//* 171.5 * +EC2.4.1.64 alpha-d-xylose caldanaerobacter subterraneus subsp. pacificus//*//* 20.3 * +EC2.4.1.64 alpha-l-fucose caldanaerobacter subterraneus subsp. pacificus//*//* 183.4 * +EC2.4.1.64 beta-d-galactose 1-phosphate caldanaerobacter subterraneus//*//* 3.8 * +EC2.4.1.64 beta-d-glucose 1-phosphate caldanaerobacter subterraneus//*//* 0.7 * +EC2.4.1.64 beta-d-glucose 1-phosphate euglena gracilis//*//* 6.0 * +EC2.4.1.64 beta-d-glucose 1-phosphate kocuria varians//*//* 38.0 * +EC2.4.1.64 beta-d-glucose 1-phosphate thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.75 * +EC2.4.1.64 d-galactose caldanaerobacter subterraneus//*//* 125.0 * +EC2.4.1.64 d-galactose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 98.0 * +EC2.4.1.64 d-glucose caldanaerobacter subterraneus subsp. pacificus//*//* 3.5 * +EC2.4.1.64 d-glucose caldanaerobacter subterraneus//*//* 3.7 * +EC2.4.1.64 d-glucose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 2.4 * +EC2.4.1.64 glucose euglena gracilis//*//* 32.0 * +EC2.4.1.64 glucose kocuria varians//*//* 23.0 * +EC2.4.1.64 phosphate euglena gracilis//*//* 9.4 * +EC2.4.1.64 phosphate kocuria varians//*//* 3.1 * +EC2.4.1.64 phosphate thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.57 * +EC2.4.1.64 trehalose euglena gracilis//*//* 33.0 * +EC2.4.1.64 trehalose kocuria varians//*//* 10.0 * +EC2.4.1.64 trehalose thermoanaerobacter brockii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tbo 0.97 * +EC2.4.1.65 2'-fucosyllactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC2.4.1.65 2-o-megalbeta(1,3)glcnacbeta-o-bn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.1.65 3-o-sulfogalbeta(1,3)glcnacbeta-o-al homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC2.4.1.65 ancrod homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC2.4.1.65 asialo ancrod homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC2.4.1.65 fetuin triantennary asialoglycopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC2.4.1.65 fetuin triantennary glycopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC2.4.1.65 fuc-alpha-1,2gal-beta-1,3glcnac-sp-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.1.65 fuc-alpha-1,2gal-beta-1,4glcnac-sp-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.1.65 fuc-alpha1-2galbeta1-4glcnac-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.4.1.65 fucalpha(1,2)galbeta(1,3)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.4.1.65 fucalpha(1,2)galbeta(1,3)glcnacbeta(1,3)galbeta(1,4)glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.4.1.65 fucalpha(1,2)galbeta(1,4)glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.52 * +EC2.4.1.65 gal-beta-1,3-glcnac-o-(ch2)8co2ch3 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 8.4 * +EC2.4.1.65 gal-beta-1,3glcnaco(ch2)3nhco(ch2)5nh-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC2.4.1.65 gal-beta-1,4-glcnac-o-(ch2)8co2ch3 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.17 * +EC2.4.1.65 galbeta(1,3)glcnac-(ch2)3-nhco-(ch2)5-nh-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.76 * +EC2.4.1.65 galbeta(1,3)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC2.4.1.65 galbeta(1,3)glcnacbeta(1,3)galbeta(1,4)glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.4.1.65 galbeta(1,4)(5-thioglc) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.4.1.65 galbeta(1,4)glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.1.65 galbeta(1,4)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.4.1.65 galbeta(1,4)glcnacbeta(1,2)man homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.1.65 galbeta(1,4)glcnacbeta(1,3)galbeta(1,4)glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC2.4.1.65 galbeta(1,4)glcnacbetaoallyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC2.4.1.65 galbeta(1,4)glucal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC2.4.1.65 galbeta(1,6)galbeta(1,4)glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC2.4.1.65 galbeta-1,3glcnac-r helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.114 * +EC2.4.1.65 galbeta1,3glcnac-o(ch2)8co2ch3 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 5.7 * +EC2.4.1.65 galbeta1-4glcnac-4-nitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC2.4.1.65 galnacbeta1-4glcnac-diaminopimelyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC2.4.1.65 galnacbeta1-4glcnac-octyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.4.1.65 gdp-beta-l-fucose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00573 * +EC2.4.1.65 gdp-fucose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0357 * +EC2.4.1.65 gdp-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.4.1.65 gdp-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.1.65 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC2.4.1.65 glcnacbeta(1-2)manalpha(1-6)[glcnacbeta(1-2)manalpha(1-3)]manbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-)aspnhco-biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.4.1.65 gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC2.4.1.65 neuacalpha(2,3)galbeta(1,3)glcnacbeta-o-bn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC2.4.1.65 neuacalpha(2,3)galbeta(1,4)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.4.1.65 neuacalpha(2,3)galbeta(1,4)glcnacbeta(1,6)(galbeta(1,3))galnacalpha-ome homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC2.4.1.65 neuacalpha(2,3)galbeta(1,4)glucal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC2.4.1.65 neuacalpha(2,6)galbeta(1,4)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.4.1.65 siaalpha-2,3galbeta-1,3glcnac-r helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.111 * +EC2.4.1.66 calf skin collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC2.4.1.66 collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.167 * +EC2.4.1.66 d-galactosylhydroxylysine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.003 * +EC2.4.1.66 d-galactosylhydroxylysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.4.1.66 d-galactosylsphingosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.5 * +EC2.4.1.66 tdp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC2.4.1.66 udp-glucose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.006 * +EC2.4.1.66 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.1.66 udp-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0167 * +EC2.4.1.67 1-alpha-d-galactosyl-myo-inositol ajuga reptans//*//* 2.4 * +EC2.4.1.67 1-alpha-d-galactosyl-myo-inositol cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 0.33 * +EC2.4.1.67 1-alpha-d-galactosyl-myo-inositol lens culinaris//*//* 3.3 * +EC2.4.1.67 1-alpha-d-galactosyl-myo-inositol vigna angularis//eukaryotes;plants;eudicots;pea family//var 1.8 * +EC2.4.1.67 alpha-d-galactosyl-d-ononitol vigna angularis//eukaryotes;plants;eudicots;pea family//var 31.3 * +EC2.4.1.67 d-pinitol lens culinaris//*//* 12.4 * +EC2.4.1.67 melibiose cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 5.2 * +EC2.4.1.67 myo-inositol vigna angularis//eukaryotes;plants;eudicots;pea family//var 5.5 * +EC2.4.1.67 raffinose ajuga reptans//*//* 5.8 * +EC2.4.1.67 raffinose cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 4.6 * +EC2.4.1.67 raffinose lens culinaris//*//* 9.7 * +EC2.4.1.67 raffinose vigna angularis//eukaryotes;plants;eudicots;pea family//var 2.4 * +EC2.4.1.68 asialo-agalacto-transferrin-glycopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC2.4.1.68 asn-linked agalacto-biantennary sugar chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0129 * +EC2.4.1.68 factor vii egf-1 domain cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.011 * +EC2.4.1.68 gdp-beta-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0193 * +EC2.4.1.68 gdp-l-fucose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.006 * +EC2.4.1.68 gdp-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC2.4.1.68 gdp-l-fucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.046 * +EC2.4.1.68 n4-[n-acetyl-beta-d-glucosaminyl-(1-2)-alpha-d-mannosyl-(1-3)-[n-acetyl-beta-d-glucosaminyl-(1-2)-alpha-d-mannosyl-(1-6)]-beta-d-mannosyl-(1-4)-n-acetyl-beta-d-glucosaminyl-(1-4)-n-acetyl-beta-d-glucosaminyl]asparagine-bi-(4-(2-pyridylamino)butylamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0174 * +EC2.4.1.68 n4-[n-acetyl-beta-d-glucosaminyl-(1-2)-alpha-d-mannosyl-(1-3)-[n-acetyl-beta-d-glucosaminyl-(1-2)-alpha-d-mannosyl-(1-6)]-beta-d-mannosyl-(1-4)-n-acetyl-beta-d-glucosaminyl-(1-4)-n-acetyl-beta-d-glucosaminyl]asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.4.1.69 6-sulfogalbeta(1-4)glcnacbeta-o-methyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.4.1.69 beta-d-galactose-beta-o-2-(2-carbomethoxyethylthio)ethyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC2.4.1.69 beta-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.4.1.69 beta-d-galactosyl-(1->3)-n-acetyl-beta-d-galactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC2.4.1.69 beta-d-galactosyl-(1->3)-n-acetyl-beta-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.1 * +EC2.4.1.69 beta-d-galactosyl-(1->3)-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.95 * +EC2.4.1.69 bovine igg diantennary glycopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.4.1.69 d-lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3 * +EC2.4.1.69 di-n-acetylchitobiose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC2.4.1.69 fetuin triantennary asialoglycopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.1.69 galacto-n-biose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC2.4.1.69 galalpha(1-3)galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glc-ceramide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC2.4.1.69 galalphach3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 66.0 * +EC2.4.1.69 galbeta(1-3)ara sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.6 * +EC2.4.1.69 galbeta(1-3)galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.4.1.69 galbeta(1-3)galnac lymnaea stagnalis//*//* 20.0 * +EC2.4.1.69 galbeta(1-3)galnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC2.4.1.69 galbeta(1-3)galnacalpha-o-p-nitrophenol caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.61 * +EC2.4.1.69 galbeta(1-3)galnacbeta1-och2ch=ch2 lymnaea stagnalis//*//* 12.0 * +EC2.4.1.69 galbeta(1-3)glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.63 * +EC2.4.1.69 galbeta(1-3)glcnacbeta(1-3)galbeta(1-4)glc-beta-o-pa8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC2.4.1.69 galbeta(1-3)glcnacbeta(1-3)galbeta(1-4)glc sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC2.4.1.69 galbeta(1-3)glcnacbeta-o-allyl/acrylamide copolymer homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC2.4.1.69 galbeta(1-3)glcnacbeta-o-benzoyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC2.4.1.69 galbeta(1-4)glc-beta-o-2-(2-carbomethoxyethylthio)ethyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.4.1.69 galbeta(1-4)glcnac-beta-o-2-(2-carbomethoxyethylthio)ethyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.4.1.69 galbeta(1-4)glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.11 * +EC2.4.1.69 galbeta(1-4)glcnacbeta(1-3)galbeta(1-4)glc-ceramide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC2.4.1.69 galbeta(1-4)glcnacbeta(1-3)galbeta1-4glc sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.94 * +EC2.4.1.69 galbeta(1-4)glcnacbeta-o-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC2.4.1.69 galbeta(1-6)galnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.95 * +EC2.4.1.69 galbeta(1-6)glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.56 * +EC2.4.1.69 galbeta-o-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC2.4.1.69 galbeta-o-me escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 59.62 * +EC2.4.1.69 galbeta1-4glc sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.7 * +EC2.4.1.69 galbeta1-6galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC2.4.1.69 galbetach3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 18.0 * +EC2.4.1.69 gdp-beta-l-fucose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.0 * +EC2.4.1.69 gdp-beta-l-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC2.4.1.69 gdp-beta-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC2.4.1.69 gdp-beta-l-fucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC2.4.1.69 gdp-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.106 * +EC2.4.1.69 gdp-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.4.1.69 gdp-l-fucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC2.4.1.69 gdp-l-fucose dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.00127 * +EC2.4.1.69 gdp-l-fucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.4.1.69 gdp-l-fucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC2.4.1.69 lacto-n-biose i dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2.8 * +EC2.4.1.69 lacto-n-biose i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.4.1.69 lacto-n-biose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.1 * +EC2.4.1.69 lacto-n-neotetraose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.4.1.69 lacto-n-tetraose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.4.1.69 lactose-n-biose i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.9 * +EC2.4.1.69 lactose canis lupus familiaris//*//* 7.0 * +EC2.4.1.69 lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.81 * +EC2.4.1.69 lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC2.4.1.69 lactosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.068 * +EC2.4.1.69 lactulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.26 * +EC2.4.1.69 n-acetyl-beta-lactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.1.69 n-acetyllactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2 * +EC2.4.1.69 phenyl beta-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.0 * +EC2.4.1.69 phenyl beta-d-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC2.4.1.69 phenyl beta-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC2.4.1.69 phenyl-beta-d-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC2.4.1.69 phenyl-beta-o-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC2.4.1.7 alpha-d-glucose 1-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 16.0 * +EC2.4.1.7 alpha-d-glucose 1-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 33.0 * +EC2.4.1.7 cis-1,2-cyclohexanediol pelomonas saccharophila//*//* 390.0 * +EC2.4.1.7 d-fructose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 12.0 * +EC2.4.1.7 d-fructose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 52.0 * +EC2.4.1.7 ethanol pelomonas saccharophila//*//* 2100.0 * +EC2.4.1.7 ethylene glycol pelomonas saccharophila//*//* 870.0 * +EC2.4.1.7 fructose pelomonas saccharophila//*//* 13.0 * +EC2.4.1.7 methanol pelomonas saccharophila//*//* 2300.0 * +EC2.4.1.7 phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 4.4 * +EC2.4.1.7 phosphate pelomonas saccharophila//*//* 2.0 * +EC2.4.1.7 phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 31.0 * +EC2.4.1.7 sorbose pelomonas saccharophila//*//* 130.0 * +EC2.4.1.7 sucrose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 3.0 * +EC2.4.1.7 sucrose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 18.0 * +EC2.4.1.7 trans-1,2-cyclohexanediol pelomonas saccharophila//*//* 400.0 * +EC2.4.1.70 poly(ribitol phosphate) staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.06 * +EC2.4.1.70 udp-n-acetylglucosamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.7 * +EC2.4.1.71 3,4-dichloroaniline glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.563 * +EC2.4.1.71 udpglucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.88 * +EC2.4.1.73 udp-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.4.1.74 udp-galactose dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.006 * +EC2.4.1.79 d-galactosyl-1,4-d-galactosyl-1,4-d-glucosylceramide canis lupus familiaris//*//* 0.0025 * +EC2.4.1.79 d-galactosyl-1,4-d-galactosyl-1,4-d-glucosylceramide cavia porcellus//*//* 0.14 * +EC2.4.1.79 d-galactosyl-1,4-d-galactosyl-1,4-d-glucosylceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.7 * +EC2.4.1.79 globotriosylceramide mesocricetus auratus//*//* 0.42 * +EC2.4.1.79 udp-n-acetyl-d-galactosamine mesocricetus auratus//*//* 0.14 * +EC2.4.1.79 udp-n-acetylgalactosamine cavia porcellus//*//* 0.23 * +EC2.4.1.79 udp-n-acetylgalactosamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC2.4.1.79 udp-n-acetylglucosamine canis lupus familiaris//*//* 0.014 * +EC2.4.1.8 arsenate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.7 * +EC2.4.1.8 beta-d-glucose 1-phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.0067 * +EC2.4.1.8 beta-d-glucose-1-phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 3.3 * +EC2.4.1.8 d-glucose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.0099 * +EC2.4.1.8 d-glucose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 5.0 * +EC2.4.1.8 kojibiose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 24.0 * +EC2.4.1.8 maltose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 0.6 * +EC2.4.1.8 maltose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.9 * +EC2.4.1.8 maltose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.004 * +EC2.4.1.8 maltose propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 1.3 * +EC2.4.1.8 phosphate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 2.6 * +EC2.4.1.8 phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.0071 * +EC2.4.1.8 phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 5.4 * +EC2.4.1.8 sophorose bacillus selenitireducens//prokaryotes;bacteria;firmicutes - bacilli;unclassified sporolactobacillaceae//bse 4.6 * +EC2.4.1.80 c6-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04055 * +EC2.4.1.80 ceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.08 * +EC2.4.1.80 ceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.292 * +EC2.4.1.80 ceramide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.054 * +EC2.4.1.80 n-(6-((4-nitrobenz-2-oxa-1,3-diazol-7-yl)amino)caproyl)-o1-d-glucosyl-sphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC2.4.1.80 nbd c6-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03877 * +EC2.4.1.80 udp-glucose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.12 * +EC2.4.1.80 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC2.4.1.80 udp-glucose raphanus sativus//*//* 0.2 * +EC2.4.1.80 udp-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0087 * +EC2.4.1.80 udp-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC2.4.1.81 apigenin petroselinum crispum//*//* 0.0027 * +EC2.4.1.81 eriodictyol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0018 * +EC2.4.1.81 kaempferol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0263 * +EC2.4.1.81 luteolin petroselinum crispum//*//* 0.0015 * +EC2.4.1.81 naringenin petroselinum crispum//*//* 0.01 * +EC2.4.1.81 quercetin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0353 * +EC2.4.1.81 tdpglucose petroselinum crispum//*//* 0.26 * +EC2.4.1.81 udpglucose petroselinum crispum//*//* 0.12 * +EC2.4.1.82 galactinol pisum sativum//*//* 1.0 * +EC2.4.1.82 galactinol vicia faba//*//* 7.0 * +EC2.4.1.82 raffinose vicia faba//*//* 10.0 * +EC2.4.1.82 sucrose pisum sativum//*//* 22.9 * +EC2.4.1.82 sucrose vicia faba//*//* 1.0 * +EC2.4.1.83 (6z,10e,14e,18e,22e)-3,7,15,19,23,27-hexamethyl-11-[(naphthalen-1-ylamino)methyl]octacosa-6,10,14,18,22,26-hexaen-1-yl dihydrogen phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0751 * +EC2.4.1.83 (6z,10z,14z,18z,22e,26e)-3,7,11,15,19,23,27-heptamethyl-30-(naphthalen-1-ylamino)triaconta-6,10,14,18,22,26-hexaen-1-yl dihydrogen phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0246 * +EC2.4.1.83 (6z,10z,14z,18z,22z,26z,30e,34e,38e)-3,7,11,15,19,23,27,31,35,39-decamethyl-42-(naphthalen-1-ylamino)dotetraconta-6,10,14,18,22,26,30,34,38-nonaen-1-yl dihydrogen phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0248 * +EC2.4.1.83 c110-dolichyl phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00059 * +EC2.4.1.83 c120-dolichyl phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00159 * +EC2.4.1.83 c55-undecaprenyl phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00117 * +EC2.4.1.83 c85-dolichyl phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0023 * +EC2.4.1.83 dolichyl phosphate acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0033 * +EC2.4.1.83 dolichyl phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0143 * +EC2.4.1.83 dolichyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC2.4.1.83 dolichyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0025 * +EC2.4.1.83 dolichyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0026 * +EC2.4.1.83 gdp-mannose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.00018 * +EC2.4.1.83 gdp-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0011 * +EC2.4.1.83 gdpmannose acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.00025 * +EC2.4.1.83 gdpmannose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.00036 * +EC2.4.1.83 gdpmannose entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0041 * +EC2.4.1.83 gdpmannose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00043 * +EC2.4.1.83 gdpmannose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00133 * +EC2.4.1.83 gdpmannose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00069 * +EC2.4.1.83 gdpmannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0015 * +EC2.4.1.83 gdpmannose zea mays//eukaryotes;plants;monocots;grass family//zma 0.00173 * +EC2.4.1.85 1-hexanol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.66 * +EC2.4.1.85 2-hydroxy-3-methoxybenzyl alcohol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 6.33 * +EC2.4.1.85 3-methyl-2-buten-1-ol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 10.3 * +EC2.4.1.85 3-methyl-3-buten-1-ol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.69 * +EC2.4.1.85 benzyl alcohol prunus dulcis//*//* 0.3 * +EC2.4.1.85 beta-citronellol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.13 * +EC2.4.1.85 cis-3-hexen-1-ol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.73 * +EC2.4.1.85 geraniol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.14 * +EC2.4.1.85 mandelonitrile sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.84 * +EC2.4.1.85 nerol sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 1.13 * +EC2.4.1.85 udp-glucose sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.8 * +EC2.4.1.85 udpglucose sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.029 * +EC2.4.1.86 n-acetyl-d-glucosaminyl-1,3-beta-d-galactosyl-1,4-d-glucosylceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.119 * +EC2.4.1.86 n-acetyl-d-glucosaminyl-1,3-beta-d-galactosyl-1,4-d-glucosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC2.4.1.86 n-acetyl-d-glucosaminyl-1,3-beta-d-galactosyl-1,4-d-glucosylceramide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.5 * +EC2.4.1.86 n-acetyl-d-glucosaminyl-1,3-beta-d-galactosyl-1,4-d-glucosylceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.034 * +EC2.4.1.86 udpgalactose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.126 * +EC2.4.1.86 udpgalactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC2.4.1.86 udpgalactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC2.4.1.87 asialo-alpha1-acid glycoprotein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.25 * +EC2.4.1.87 beta-d-gal(1-3)beta-d-glcnac(1-3)beta-d-gal(1-4)-d-glc bos taurus//eukaryotes;animals;vertebrates;mammals//bta 16.0 * +EC2.4.1.87 beta-d-gal(1-4)-d-glc bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.0 * +EC2.4.1.87 beta-d-gal(1-4)-d-glcnac(1-2)-[beta-d-gal(1-4)beta-d-glcnac(1-6)]-d-man mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC2.4.1.87 beta-d-gal(1-4)-d-glcnac bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.39 * +EC2.4.1.87 beta-d-gal(1-4)-d-glcnac mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.15 * +EC2.4.1.87 beta-d-gal(1-4)beta-d-glcnac(1-2)-d-man mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC2.4.1.87 beta-d-gal(1-4)beta-d-glcnac(1-6)-d-man mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.31 * +EC2.4.1.87 d-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 392.0 * +EC2.4.1.87 gal-beta-1,4-glcnac-(ch2)8co2ch3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.31 * +EC2.4.1.87 galactosyl-1,3-n-acetylglucosaminyl-1,3-galactosyl-1,4-glucosyl-1,1-ceramide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.67 * +EC2.4.1.87 galbeta(1-4)glcnacbeta(1-2)man(1-3)manbeta(1-4)glcnac bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.57 * +EC2.4.1.87 lactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.5 * +EC2.4.1.87 n-acetyllactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC2.4.1.87 p-nitrophenyl-alpha-d-galactoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 107.0 * +EC2.4.1.87 p-nitrophenyl-beta-d-galactoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC2.4.1.87 udp-gal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.67 * +EC2.4.1.87 udp-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.4.1.87 udp-galactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.6 * +EC2.4.1.87 udp-galactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.4.1.88 globoside canis lupus familiaris//*//* 0.00156 * +EC2.4.1.88 globoside cavia porcellus//*//* 0.4 * +EC2.4.1.88 udp-n-acetylgalactosamine canis lupus familiaris//*//* 0.01 * +EC2.4.1.88 udp-n-acetylgalactosamine cavia porcellus//*//* 0.1 * +EC2.4.1.9 sucrose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 12.0 * +EC2.4.1.9 sucrose leuconostoc citreum//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lci 11.4 * +EC2.4.1.90 2-aminobenzaminated 1,4-linked beta-d-galactoheptaose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.02 * +EC2.4.1.90 4-methylumbelliferyl-6-sulfo-n-acetyl-beta-d-glucosaminide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC2.4.1.90 6-sulfo-n-acetyl-beta-d-glucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7 * +EC2.4.1.90 agalacto-poly-n-acetyllactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC2.4.1.90 agalactokeratan bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.8 * +EC2.4.1.90 alpha1-acid glycoprotein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.1.90 asialo-agalacto-transferrin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.056 * +EC2.4.1.90 asialogalactofetuin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0608 * +EC2.4.1.90 d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.0 * +EC2.4.1.90 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.4.1.90 fetuin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.029 * +EC2.4.1.90 galactosyl-beta-1,4-n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,6-(n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,3-)mannosyl-beta-1,4-n-acetylglucosaminyl-beta-1,4-(fucosyl-alpha-1,6-)n-acetylglucosaminyl-asparagine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.28 * +EC2.4.1.90 glycopeptide prepared from porcine igg immunoglobulin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC2.4.1.90 igg immunoglobulin heavy chain sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.4.1.90 lacto-n-triaosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC2.4.1.90 lacto-n-triose ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.4.1.90 n-acetylgalactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.4.1.90 n-acetylglucosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC2.4.1.90 n-acetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC2.4.1.90 n-acetylglucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.4.1.90 n-acetylglucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC2.4.1.90 n-acetylglucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.0 * +EC2.4.1.90 n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,6-(galactosyl-beta-1,4-n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,3-)mannosyl-beta-1,4-n-acetylglucosaminyl-beta-1,4-(fucosyl-alpha-1,6-)n-acetylglucosaminyl-asparagine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC2.4.1.90 n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,6-(n-acetylglucosaminyl-beta-1,2-mannosyl-alpha-1,3-)mannosyl-beta-1,4-n-acetylglucosaminyl-beta-1,4-(fucosyl-alpha-1,6-)n-acetylglucosaminyl-asparagine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.4.1.90 n-acetylglucosaminyl-beta-1,3-(galactosyl-beta-1,4-n-acetylglucosaminyl-beta-1,6-)galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.4 * +EC2.4.1.90 n-acetylglucosaminyl-beta-1,6-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC2.4.1.90 ovalbumin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.4.1.90 ovalbumin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.054 * +EC2.4.1.90 p-nitrophenyl 2-acetamido-2-deoxy-beta-glucoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.66 * +EC2.4.1.90 udp-alpha-d-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC2.4.1.90 udp-galactose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.032 * +EC2.4.1.90 udpgalactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC2.4.1.90 udpgalactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.1.90 udpgalactose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0127 * +EC2.4.1.90 udpgalactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0108 * +EC2.4.1.90 udpgalactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC2.4.1.91 2,4,5-trichlorophenol triticum aestivum//*//* 0.0106 * +EC2.4.1.91 3-hydroxyflavone fragaria x ananassa//*//* 0.0053 * +EC2.4.1.91 cyanidin hippeastrum sp.//*//* 0.07 * +EC2.4.1.91 cyanidin vitis labrusca//*//* 0.00479 * +EC2.4.1.91 fisetin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.27 * +EC2.4.1.91 isorhamnetin fragaria x ananassa//*//* 0.0035 * +EC2.4.1.91 isorhamnetin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.2 * +EC2.4.1.91 kaempferol brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.012 * +EC2.4.1.91 kaempferol camellia sinensis//*//* 0.0309 * +EC2.4.1.91 kaempferol citrus x paradisi//*//* 0.012 * +EC2.4.1.91 kaempferol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.172 * +EC2.4.1.91 kaempferol hippeastrum sp.//*//* 0.0125 * +EC2.4.1.91 kaempferol paederia scandens//*//* 0.00114 * +EC2.4.1.91 kaempferol vigna mungo//*//* 0.00067 * +EC2.4.1.91 kaempferol vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.042 * +EC2.4.1.91 myricetin camellia sinensis//*//* 0.0238 * +EC2.4.1.91 myricetin citrus x paradisi//*//* 0.033 * +EC2.4.1.91 quercetin brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.007 * +EC2.4.1.91 quercetin camellia sinensis//*//* 0.0119 * +EC2.4.1.91 quercetin citrus x paradisi//*//* 0.067 * +EC2.4.1.91 quercetin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.126 * +EC2.4.1.91 quercetin hippeastrum sp.//*//* 0.07 * +EC2.4.1.91 quercetin petroselinum crispum//*//* 0.001 * +EC2.4.1.91 quercetin prunus yedoensis//*//* 0.00121 * +EC2.4.1.91 quercetin triticum aestivum//*//* 0.0101 * +EC2.4.1.91 quercetin vitis labrusca//*//* 0.00216 * +EC2.4.1.91 quercetin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.031 * +EC2.4.1.91 udp-alpha-d-glucose fragaria x ananassa//*//* 0.6 * +EC2.4.1.91 udp-alpha-d-glucose vitis labrusca//*//* 0.914 * +EC2.4.1.91 udp-d-glucose vigna mungo//*//* 1.67 * +EC2.4.1.91 udp-glucose camellia sinensis//*//* 0.0141 * +EC2.4.1.91 udp-glucose citrus x paradisi//*//* 0.669 * +EC2.4.1.91 udp-glucose triticum aestivum//*//* 0.0124 * +EC2.4.1.91 udpglucose brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.18 * +EC2.4.1.91 udpglucose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.3 * +EC2.4.1.91 udpglucose hippeastrum sp.//*//* 1.0 * +EC2.4.1.91 udpglucose paederia scandens//*//* 0.0133 * +EC2.4.1.91 udpglucose petroselinum crispum//*//* 0.5 * +EC2.4.1.91 udpglucose prunus yedoensis//*//* 0.0098 * +EC2.4.1.92 gd3(n-acetylneuraminic acid) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.35 * +EC2.4.1.92 gd3(n-glycolylneuraminic acid) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.027 * +EC2.4.1.92 gm3(n-acetylneuraminic acid) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC2.4.1.92 gm3(n-glycolylneuraminic acid) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC2.4.1.92 gm3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0166 * +EC2.4.1.92 p-nitrophenyl-glcnac trichoplusia ni//*//* 0.38 * +EC2.4.1.92 udp-galnac mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.097 * +EC2.4.1.92 udp-n-acetyl-d-galactosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC2.4.1.92 udp-n-acetyl-d-galactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC2.4.1.92 udp-n-acetylgalactosamine trichoplusia ni//*//* 1.64 * +EC2.4.1.95 bilirubin monoglucuronide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC2.4.1.95 bilirubin-glucuronoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00047 * +EC2.4.1.95 bilirubin-glucuronoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00045 * +EC2.4.1.95 bilirubin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.4.1.96 sn-glycerol 3-phosphate poterioochromonas malhamensis//*//* 0.02 * +EC2.4.1.96 udpgalactose poterioochromonas malhamensis//*//* 0.01 * +EC2.4.1.97 glucose 1-phosphate ochromonas malhamensis//*//* 12.0 * +EC2.4.1.97 glucose acacia verek//*//* 0.25 * +EC2.4.1.97 laminaribiose acacia verek//*//* 0.34 * +EC2.4.1.97 laminarin acacia verek//*//* 0.47 * +EC2.4.1.97 laminarin ochromonas malhamensis//*//* 1.0 * +EC2.4.1.97 laminaritriose ochromonas danica//*//* 4.1 * +EC2.4.1.97 phosphate ochromonas danica//*//* 4.4 * +EC2.4.1.97 phosphate ochromonas malhamensis//*//* 25.0 * +EC2.4.1.99 sucrose agave vera cruz//*//* 1.8 * +EC2.4.1.99 sucrose allium cepa//*//* 0.083 * +EC2.4.1.99 sucrose asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 0.11 * +EC2.4.1.99 sucrose aspergillus aculeatus//*//* 27.0 * +EC2.4.1.99 sucrose cenchrus americanus//*//* 74.0 * +EC2.4.1.99 sucrose festuca arundinacea//*//* 5.8 * +EC2.4.1.99 sucrose hordeum vulgare//*//* 200.0 * +EC2.4.1.99 sucrose lolium perenne//*//* 272.0 * +EC2.4.1.99 sucrose triticum aestivum//*//* 266.0 * +EC2.4.1.B34 maltose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 150.0 * +EC2.4.1.B4 (5alpha, 6beta,17alpha)-5,6,17,27-tetrahydroxywithanolide withania somnifera//*//* 0.01 * +EC2.4.1.B4 17alpha-hydroxy withaferin withania somnifera//*//* 0.17 * +EC2.4.1.B4 21beta-hydroxy progesterone withania somnifera//*//* 0.07 * +EC2.4.1.B4 27-hydroxy withanone withania somnifera//*//* 0.11 * +EC2.4.1.B4 estradiol withania somnifera//*//* 0.04 * +EC2.4.1.B4 testosterone withania somnifera//*//* 0.17 * +EC2.4.1.B4 udp-glucose withania somnifera//*//* 0.02 * +EC2.4.1.B4 withanolide a withania somnifera//*//* 0.11 * +EC2.4.1.B4 withanolide u withania somnifera//*//* 0.05 * +EC2.4.1.B46 4-o-(alpha-l-rhodosaminyl)aklavinone streptomyces galilaeus//*//* 0.104 * +EC2.4.1.B46 dtdp-2-deoxy-beta-l-fucose streptomyces galilaeus//*//* 0.149 * +EC2.4.1.B46 dtdp-l-daunosamine streptomyces galilaeus//*//* 0.94 * +EC2.4.1.B46 idarubicin streptomyces galilaeus//*//* 0.138 * +EC2.4.1.B52 (xyl)3-d-glc equisetum fluviatile//*//* 0.0014 * +EC2.4.1.B52 (xyl)3-d-glucitol equisetum fluviatile//*//* 0.00052 * +EC2.4.1.B62 udp-alpha-d-glucose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.006 * +EC2.4.1.B62 udp-n-acetyl-alpha-d-glucosamine clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.96 * +EC2.4.1.B64 alpha-l-glycero-d-manno-heptosyl-(1->3)-alpha-l-glycero-d-manno-heptosyl-(1->5)-[(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)]-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-3-o-[(3r)-3-(tetradecanoyloxy)tetradecanoyl]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.85 * +EC2.4.1.B64 udp-alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.162 * +EC2.4.1.B65 maltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.09 * +EC2.4.1.B65 vanillyl alcohol alpha-d-glucoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 26.24 * +EC2.4.1.B65 vanillyl alcohol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 12.96 * +EC2.4.1.B7 udp-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00175 * +EC2.4.1.B7 udp-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC2.4.1.B7 ursodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC2.4.1.B73 2',4',6'-trihydroxydihydrochalcone oryza sativa indica group//*//* 0.0083 * +EC2.4.1.B73 2,4,6-trihydroxybenzophenone oryza sativa indica group//*//* 0.008 * +EC2.4.1.B73 2,5,7-trihydroxyflavanone oryza sativa indica group//*//* 0.0165 * +EC2.4.1.B73 2-hydroxynaringenin citrus japonica//*//* 0.00085 * +EC2.4.1.B73 2-hydroxynaringenin oryza sativa indica group//*//* 0.0025 * +EC2.4.1.B73 6-beta-d-glucopyranosyl-2-hydroxynaringenin citrus japonica//*//* 0.112 * +EC2.4.1.B73 nothofagin citrus japonica//*//* 0.0144 * +EC2.4.1.B73 phoretin oryza sativa indica group//*//* 0.00478 * +EC2.4.1.B73 udp-alpha-d-glucose citrus japonica//*//* 0.0715 * +EC2.4.2.1 1-methylguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.4.2.1 1-methylinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.4.2.1 2',3'-dideoxyinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC2.4.2.1 2',3'-dideoxyinosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.03 * +EC2.4.2.1 2'-deoxyadenosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.19 * +EC2.4.2.1 2'-deoxyguanosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.05 * +EC2.4.2.1 2'-deoxyguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC2.4.2.1 2'-deoxyguanosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.1 * +EC2.4.2.1 2'-deoxyguanosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.015 * +EC2.4.2.1 2'-deoxyguanosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.01 * +EC2.4.2.1 2'-deoxyinosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.19 * +EC2.4.2.1 2'-deoxyinosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC2.4.2.1 2'-deoxyinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.062 * +EC2.4.2.1 2'-deoxyinosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.92 * +EC2.4.2.1 2'-deoxyinosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.068 * +EC2.4.2.1 2'-deoxyinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.091 * +EC2.4.2.1 2'-deoxyinosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 0.079 * +EC2.4.2.1 2'-deoxyinosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.06 * +EC2.4.2.1 2,6-diamino-8-azapurine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC2.4.2.1 2-amino-6-mercapto-7-methylpurine ribonucleoside mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.029 * +EC2.4.2.1 2-amino-6-mercapto-7-methylpurine ribonucleoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1425 * +EC2.4.2.1 2-amino-6-mercapto-7-methylpurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC2.4.2.1 2-fluoro-2'-deoxyadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC2.4.2.1 2-fluoroadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.4.2.1 3-(beta-d-ribofuranosyl)adenine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC2.4.2.1 3-(beta-d-ribofuranosyl)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.4.2.1 3-(beta-d-ribofuranosyl)hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC2.4.2.1 3-(beta-d-ribofuranosyl)hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC2.4.2.1 5'-deoxyinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.4.2.1 5'-methylthioadenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0106 * +EC2.4.2.1 5'-methylthioadenosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0319 * +EC2.4.2.1 5'-methylthioinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0088 * +EC2.4.2.1 6-mercaptoguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC2.4.2.1 6-mercaptopurine riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.4.2.1 7,8-dimethylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.065 * +EC2.4.2.1 7-(beta-d-ribofuranosyl)guanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC2.4.2.1 7-(beta-d-ribofuranosyl)guanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC2.4.2.1 7-(beta-d-ribofuranosyl)hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.52 * +EC2.4.2.1 7-(beta-d-ribofuranosyl)hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC2.4.2.1 7-(beta-d-ribofuranosyl)hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC2.4.2.1 7-butylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.034 * +EC2.4.2.1 7-ethylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.013 * +EC2.4.2.1 7-isopropylguanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.069 * +EC2.4.2.1 7-methyl-6-thio-guanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.358 * +EC2.4.2.1 7-methylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0147 * +EC2.4.2.1 7-methylguanosine cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.0264 * +EC2.4.2.1 7-methylguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.2 * +EC2.4.2.1 7-methylinosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC2.4.2.1 7-methylinosine cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.169 * +EC2.4.2.1 7-methylinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.247 * +EC2.4.2.1 7-methylinosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.4.2.1 7-methylinosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.033 * +EC2.4.2.1 7-n-methyl-6-thiopurine riboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.4.2.1 7-prolylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC2.4.2.1 8-azaguanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC2.4.2.1 8-azahypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.661 * +EC2.4.2.1 8-methylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.4.2.1 9-beta-d-(2-deoxyribofuranosyl)-6-methylthiopurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.126 * +EC2.4.2.1 9-beta-d-ribofuranosyl-6-methylthiopurine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.4.2.1 adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC2.4.2.1 adenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC2.4.2.1 adenine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 12.3 * +EC2.4.2.1 adenosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.097 * +EC2.4.2.1 adenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC2.4.2.1 adenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.4.2.1 adenosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.075 * +EC2.4.2.1 adenosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.083 * +EC2.4.2.1 adenosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0061 * +EC2.4.2.1 alpha-d-deoxyribose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.129 * +EC2.4.2.1 alpha-d-deoxyribose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.4.2.1 alpha-d-ribose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.041 * +EC2.4.2.1 alpha-d-ribose 1-phosphate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.2 * +EC2.4.2.1 alpha-d-ribose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.4.2.1 alpha-d-ribose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.228 * +EC2.4.2.1 alpha-d-ribose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.134 * +EC2.4.2.1 arsenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC2.4.2.1 arsenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC2.4.2.1 arsenate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.63 * +EC2.4.2.1 deoxyadenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.145 * +EC2.4.2.1 deoxyguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.4.2.1 deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.044 * +EC2.4.2.1 deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.4.2.1 deoxyguanosine hyalomma dromedarii//*//* 0.33 * +EC2.4.2.1 deoxyguanosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.4.2.1 deoxyguanosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.057 * +EC2.4.2.1 deoxyguanosine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.35 * +EC2.4.2.1 deoxyinosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.18 * +EC2.4.2.1 deoxyinosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC2.4.2.1 deoxyinosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.4.2.1 deoxyinosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.2 * +EC2.4.2.1 deoxyinosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC2.4.2.1 deoxyinosine hyalomma dromedarii//*//* 0.67 * +EC2.4.2.1 deoxyinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.091 * +EC2.4.2.1 deoxyinosine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.047 * +EC2.4.2.1 deoxyinosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.259 * +EC2.4.2.1 deoxyribose 1-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC2.4.2.1 guanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC2.4.2.1 guanine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.035 * +EC2.4.2.1 guanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.4.2.1 guanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0182 * +EC2.4.2.1 guanine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 35.9 * +EC2.4.2.1 guanosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.69 * +EC2.4.2.1 guanosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.187 * +EC2.4.2.1 guanosine bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.206 * +EC2.4.2.1 guanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC2.4.2.1 guanosine cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.11 * +EC2.4.2.1 guanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0041 * +EC2.4.2.1 guanosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.14 * +EC2.4.2.1 guanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.4.2.1 guanosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.012 * +EC2.4.2.1 guanosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC2.4.2.1 guanosine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.85 * +EC2.4.2.1 guanosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0094 * +EC2.4.2.1 guanosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 0.0089 * +EC2.4.2.1 guanosine proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.029 * +EC2.4.2.1 guanosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.122 * +EC2.4.2.1 guanosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.4.2.1 guanosine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.19 * +EC2.4.2.1 guanosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0071 * +EC2.4.2.1 guanosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0094 * +EC2.4.2.1 guanosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.06 * +EC2.4.2.1 hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.4.2.1 hypoxanthine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.02 * +EC2.4.2.1 hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0033 * +EC2.4.2.1 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.2.1 hypoxanthine plasmodium lophurae//*//* 0.082 * +EC2.4.2.1 hypoxanthine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC2.4.2.1 hypoxanthine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 45.6 * +EC2.4.2.1 inosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.137 * +EC2.4.2.1 inosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.585 * +EC2.4.2.1 inosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.11 * +EC2.4.2.1 inosine bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.236 * +EC2.4.2.1 inosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00031 * +EC2.4.2.1 inosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0078 * +EC2.4.2.1 inosine cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.043 * +EC2.4.2.1 inosine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.05 * +EC2.4.2.1 inosine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.09 * +EC2.4.2.1 inosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00085 * +EC2.4.2.1 inosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.22 * +EC2.4.2.1 inosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.4.2.1 inosine hyalomma dromedarii//*//* 0.31 * +EC2.4.2.1 inosine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.8 * +EC2.4.2.1 inosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC2.4.2.1 inosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC2.4.2.1 inosine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 1.796 * +EC2.4.2.1 inosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC2.4.2.1 inosine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.92 * +EC2.4.2.1 inosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0047 * +EC2.4.2.1 inosine plasmodium lophurae//*//* 0.032 * +EC2.4.2.1 inosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 0.0086 * +EC2.4.2.1 inosine proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.039 * +EC2.4.2.1 inosine pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.00039 * +EC2.4.2.1 inosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.322 * +EC2.4.2.1 inosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.4.2.1 inosine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.05 * +EC2.4.2.1 inosine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.11 * +EC2.4.2.1 inosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.08 * +EC2.4.2.1 inosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.004 * +EC2.4.2.1 inosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.025 * +EC2.4.2.1 isobutylguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC2.4.2.1 methylthioinosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.4.2.1 methylthioinosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0108 * +EC2.4.2.1 methylthioinosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 0.005 * +EC2.4.2.1 nicotinamide riboside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.48 * +EC2.4.2.1 nicotinamide riboside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.62 * +EC2.4.2.1 p-nitrophenyl beta-d-ribofuranoside trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.09 * +EC2.4.2.1 phosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 5.1 * +EC2.4.2.1 phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.9 * +EC2.4.2.1 phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC2.4.2.1 phosphate cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.0343 * +EC2.4.2.1 phosphate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.2 * +EC2.4.2.1 phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0578 * +EC2.4.2.1 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.4.2.1 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC2.4.2.1 phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.427 * +EC2.4.2.1 phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 15.4 * +EC2.4.2.1 phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.68 * +EC2.4.2.1 phosphate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.013 * +EC2.4.2.1 phosphate pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.21 * +EC2.4.2.1 phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1868 * +EC2.4.2.1 phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC2.4.2.1 phosphate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1.1 * +EC2.4.2.1 ribose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC2.4.2.1 uridine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.085 * +EC2.4.2.1 xanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.28 * +EC2.4.2.1 xanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.4.2.1 xanthosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.095 * +EC2.4.2.1 xanthosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.051 * +EC2.4.2.1 xanthosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC2.4.2.10 5-fluoroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.025 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.064 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.009 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0113 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.044 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.034 * +EC2.4.2.10 5-phospho-alpha-d-ribose 1-diphosphate vigna mungo//*//* 0.0016 * +EC2.4.2.10 diphosphate corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.036 * +EC2.4.2.10 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC2.4.2.10 diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.016 * +EC2.4.2.10 diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0143 * +EC2.4.2.10 diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.096 * +EC2.4.2.10 orotate methylester salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.19 * +EC2.4.2.10 orotate corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.033 * +EC2.4.2.10 orotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.4.2.10 orotate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC2.4.2.10 orotate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0094 * +EC2.4.2.10 orotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0056 * +EC2.4.2.10 orotate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.0276 * +EC2.4.2.10 orotate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.027 * +EC2.4.2.10 orotate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.027 * +EC2.4.2.10 orotate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.025 * +EC2.4.2.10 orotate vigna mungo//*//* 0.0045 * +EC2.4.2.10 orotidine 5'-monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.4.2.10 orotidine 5'-phosphate corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.045 * +EC2.4.2.10 orotidine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC2.4.2.10 orotidine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.4.2.10 orotidine 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0026 * +EC2.4.2.10 orotidine 5'-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0029 * +EC2.4.2.10 orotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC2.4.2.10 orotidine 5'-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0031 * +EC2.4.2.10 orotidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC2.4.2.10 orotidine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.096 * +EC2.4.2.10 phosphonoacetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.84 * +EC2.4.2.10 phosphonoacetic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.59 * +EC2.4.2.10 uracil salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.63 * +EC2.4.2.12 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00537 * +EC2.4.2.12 5-phospho-alpha-d-ribose 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC2.4.2.12 5-phosphoribosyl 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00051 * +EC2.4.2.12 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC2.4.2.12 alpha-d-5-phosphoribosyl 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00063 * +EC2.4.2.12 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC2.4.2.12 nicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-06 * +EC2.4.2.12 nicotinamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00124 * +EC2.4.2.12 nicotinamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.7e-05 * +EC2.4.2.12 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.87 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate artemia sp.//*//* 0.4 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.072 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.66 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate columba livia//eukaryotes;animals;vertebrates;birds//clv 0.24 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.4 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.57 * +EC2.4.2.14 5-phospho-alpha-d-ribose 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.086 * +EC2.4.2.14 glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 193.0 * +EC2.4.2.14 l-glutamine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 3.0 * +EC2.4.2.14 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.3 * +EC2.4.2.14 l-glutamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.75 * +EC2.4.2.14 l-glutamine columba livia//eukaryotes;animals;vertebrates;birds//clv 0.1 * +EC2.4.2.14 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC2.4.2.14 l-glutamine glycine max//eukaryotes;plants;eudicots;pea family//gmx 18.0 * +EC2.4.2.14 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.4.2.14 l-glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.53 * +EC2.4.2.14 mg2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC2.4.2.14 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.34 * +EC2.4.2.14 nh3 glycine max//eukaryotes;plants;eudicots;pea family//gmx 16.0 * +EC2.4.2.14 nh4+ glycine max//eukaryotes;plants;eudicots;pea family//gmx 16.0 * +EC2.4.2.15 deoxyguanosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC2.4.2.15 guanosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.216 * +EC2.4.2.15 phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.376 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.57 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.015 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0184 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.049 * +EC2.4.2.17 5-phospho-alpha-d-ribose 1-diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.067 * +EC2.4.2.17 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.51 * +EC2.4.2.17 atp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.097 * +EC2.4.2.17 atp lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.7 * +EC2.4.2.17 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.263 * +EC2.4.2.17 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.2 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate hansenula henricii//*//* 0.88 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0224 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.013 * +EC2.4.2.18 5-phospho-alpha-d-ribose 1-diphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00016 * +EC2.4.2.18 anthranilate hansenula henricii//*//* 0.0046 * +EC2.4.2.18 anthranilate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0016 * +EC2.4.2.18 anthranilate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.003 * +EC2.4.2.18 anthranilate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5e-06 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.057 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0156 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0232 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate lentinula edodes//*//* 0.023 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.39 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.021 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.045 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.03 * +EC2.4.2.19 5-phospho-alpha-d-ribose 1-diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC2.4.2.19 nicotinic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC2.4.2.19 pyridine-2,3-dicarboxylate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.01 * +EC2.4.2.19 quinolinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC2.4.2.19 quinolinate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.091 * +EC2.4.2.19 quinolinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0064 * +EC2.4.2.19 quinolinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC2.4.2.19 quinolinate lentinula edodes//*//* 0.011 * +EC2.4.2.19 quinolinate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0051 * +EC2.4.2.19 quinolinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.4.2.19 quinolinate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.012 * +EC2.4.2.19 quinolinate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0196 * +EC2.4.2.19 quinolinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC2.4.2.19 quinolinic acid cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.051 * +EC2.4.2.19 quinolinic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0216 * +EC2.4.2.19 quinolinic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC2.4.2.19 quinolinic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.027 * +EC2.4.2.2 2'-deoxyuridine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.58 * +EC2.4.2.2 4-thiothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC2.4.2.2 4-thiouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.4.2.2 5-bromodeoxyuridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.1 * +EC2.4.2.2 5-bromouridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.03 * +EC2.4.2.2 5-fluorodeoxyuridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.169 * +EC2.4.2.2 5-fluorouridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.047 * +EC2.4.2.2 5-iododeoxyuridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.144 * +EC2.4.2.2 5-iodouridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.069 * +EC2.4.2.2 5-methyluridine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.32 * +EC2.4.2.2 5-methyluridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.07 * +EC2.4.2.2 5-trifluorothymidine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.856 * +EC2.4.2.2 deoxyuridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.13 * +EC2.4.2.2 deoxyuridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.578 * +EC2.4.2.2 phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.38 * +EC2.4.2.2 phosphate mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.388 * +EC2.4.2.2 thymidine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.38 * +EC2.4.2.2 thymidine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.11 * +EC2.4.2.2 thymidine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.365 * +EC2.4.2.2 thymidine parageobacillus thermoglucosidans//*//* 1.3 * +EC2.4.2.2 thymidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.43 * +EC2.4.2.2 uridine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.19 * +EC2.4.2.2 uridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.24 * +EC2.4.2.2 uridine mycoplasma hyorhinis//prokaryotes;bacteria;tenericutes;mycoplasma//mhr 0.092 * +EC2.4.2.2 uridine parageobacillus thermoglucosidans//*//* 2.3 * +EC2.4.2.2 uridine streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.158 * +EC2.4.2.2 uridine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.15 * +EC2.4.2.21 5,6-dimethylbenzimidazole sporomusa ovata//*//* 0.415 * +EC2.4.2.21 adenine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.01 * +EC2.4.2.21 benzimidazole acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.5 * +EC2.4.2.21 benzimidazole propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 2.0 * +EC2.4.2.21 dimethylbenzimidazole pseudomonas denitrificans (nomen rejiciendum)//*//* 1.6e-05 * +EC2.4.2.21 dimethylbenzimidazole salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.01 * +EC2.4.2.21 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 9.0 * +EC2.4.2.21 nicotinic acid mononucleotide acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.3 * +EC2.4.2.21 nicotinic acid mononucleotide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.083 * +EC2.4.2.21 nicotinic acid mononucleotide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.68 * +EC2.4.2.21 nmn salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.51 * +EC2.4.2.21 phenol sporomusa ovata//*//* 0.05 * +EC2.4.2.22 5,7-dihydroxy-v-triazolo[4,5-d]pyrimidine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.019 * +EC2.4.2.22 5-phospho-alpha-d-ribose 1-diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.03 * +EC2.4.2.22 5-phospho-alpha-d-ribose 1-diphosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.053 * +EC2.4.2.22 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.139 * +EC2.4.2.22 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0162 * +EC2.4.2.22 9-(5-phospho-beta-d-ribosyl)xanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.092 * +EC2.4.2.22 adenine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0029 * +EC2.4.2.22 diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.039 * +EC2.4.2.22 guanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.281 * +EC2.4.2.22 guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0043 * +EC2.4.2.22 guanine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0013 * +EC2.4.2.22 hypoxanthine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.25 * +EC2.4.2.22 hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0908 * +EC2.4.2.22 hypoxanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.448 * +EC2.4.2.22 hypoxanthine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0012 * +EC2.4.2.22 xanthine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0022 * +EC2.4.2.22 xanthine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.02 * +EC2.4.2.22 xanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0305 * +EC2.4.2.22 xanthine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.001 * +EC2.4.2.22 xanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0071 * +EC2.4.2.22 xanthine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.003 * +EC2.4.2.24 (1,4-beta-d-xylopyranose)6 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.6 * +EC2.4.2.24 pyridylaminated beta-(1,4)-xylotriose hordeum vulgare//*//* 2.1 * +EC2.4.2.24 udp-d-xylose acer pseudoplatanus//*//* 0.4 * +EC2.4.2.24 udp-d-xylose populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 5.27 * +EC2.4.2.24 xylotetraose populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 5.27 * +EC2.4.2.25 apigenin-7-glucoside petroselinum crispum//*//* 0.066 * +EC2.4.2.26 [val36,val38]delta1[gly92,ile94]delta2bikunin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC2.4.2.26 aggrecan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0188 * +EC2.4.2.26 bamcan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0179 * +EC2.4.2.26 betaglycan-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0208 * +EC2.4.2.26 bfgf-peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC2.4.2.26 biglycan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC2.4.2.26 bikunin-derived aminoterminus homologous peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.4.2.26 bikunin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0009 * +EC2.4.2.26 bikunin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0108 * +EC2.4.2.26 bio-qeeegsgggqkk-f homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC2.4.2.26 biotin-nh-qeeegsgggqkk(5-fluorescein)-conh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC2.4.2.26 cartilage chondroitin sulfate proteoglycan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.155 * +EC2.4.2.26 cartilage chondroitin sulfate proteoglycan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.4.2.26 cd44 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0146 * +EC2.4.2.26 cdeasgigpddrd rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.062 * +EC2.4.2.26 cdeasgigpevpddrd rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.062 * +EC2.4.2.26 collagen alpha2(ix) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC2.4.2.26 dddsiegsggr drosophila sp.//*//* 0.5 * +EC2.4.2.26 decorin (pg40) peptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC2.4.2.26 fibroblast growth factor 2 fragment 1-24 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0191 * +EC2.4.2.26 fmledeasgigp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.4.2.26 fragment(1-24) of human basic fibroblast growth factor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0208 * +EC2.4.2.26 gln-ser-gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 8.5 * +EC2.4.2.26 gly-ser-gly-ser-gly-ser-gly-ser-gly-ser gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.04 * +EC2.4.2.26 gly-ser-gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 28.0 * +EC2.4.2.26 gly-thr-gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 87.0 * +EC2.4.2.26 glypican-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC2.4.2.26 gvegsadflk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.67 * +EC2.4.2.26 hf-degraded chondroitin sulfate proteoglycan gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.02 * +EC2.4.2.26 hf-degraded chondroitin sulfate proteoglycan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00011 * +EC2.4.2.26 human basic fibroblast growth factor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0572 * +EC2.4.2.26 kkdsgpy homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.27 * +EC2.4.2.26 ktkgsgffvf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.625 * +EC2.4.2.26 l-aplp2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0104 * +EC2.4.2.26 l-app homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC2.4.2.26 neuroglycan c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC2.4.2.26 nfdeidrsgfgfn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.4.2.26 perlecan-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0133 * +EC2.4.2.26 perlecan-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0102 * +EC2.4.2.26 perlecan-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0094 * +EC2.4.2.26 phosphacan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0166 * +EC2.4.2.26 plvssgedepk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC2.4.2.26 qeeegsgggok homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.4.2.26 qeeegsgggqgg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.4.2.26 qeeegsgggqk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.4.2.26 qeeegsgggqkk mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01172 * +EC2.4.2.26 qeeegsgggqkk rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.093 * +EC2.4.2.26 qeeegtgggqgg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC2.4.2.26 qggggsgggqgg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.6 * +EC2.4.2.26 rat l2 chondroitin sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC2.4.2.26 saaysgsgsg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.39 * +EC2.4.2.26 sddysgsgsg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.79 * +EC2.4.2.26 senegsgmaeqk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.2.26 senegsgmaqqk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.2.26 ser-gly-gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 20.0 * +EC2.4.2.26 serglycin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC2.4.2.26 silk fibroin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.545 * +EC2.4.2.26 silk fibroin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.545 * +EC2.4.2.26 smith-degraded chondroitin sulfate proteoglycan gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.064 * +EC2.4.2.26 smith-degraded chondroitin sulphate proteoglycan gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.155 * +EC2.4.2.26 syndecan-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0074 * +EC2.4.2.26 syndecan-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC2.4.2.26 syndecan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0122 * +EC2.4.2.26 tenegsgltnik homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.4.2.26 tenegsgltnik mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2132 * +EC2.4.2.26 testican-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0082 * +EC2.4.2.26 thrombomodulin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC2.4.2.26 udp-d-xylose drosophila sp.//*//* 0.1 * +EC2.4.2.26 udp-d-xylose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.019 * +EC2.4.2.26 udp-d-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.4.2.26 udp-d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC2.4.2.26 udp-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC2.4.2.26 vcrsgsglvgk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC2.4.2.26 versican-beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0127 * +EC2.4.2.26 waggdasge homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC2.4.2.28 2'-chloro-2'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.032 * +EC2.4.2.28 2'-deoxy-2'-azido-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC2.4.2.28 2'-deoxy-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.4.2.28 2'-fluoro-2'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.005 * +EC2.4.2.28 3'-deoxy-5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC2.4.2.28 5'-deoxy-5'-(1,3-thiazol)-2-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC2.4.2.28 5'-deoxy-5'-(2-(pyridin-2-yl)ethyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.2.28 5'-deoxy-5'-(2-methylbutyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC2.4.2.28 5'-deoxy-5'-(2-methylphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.4.2.28 5'-deoxy-5'-(3-methylphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.4.2.28 5'-deoxy-5'-(4-methoxyphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC2.4.2.28 5'-deoxy-5'-(4-methylphenyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC2.4.2.28 5'-deoxy-5'-(phenylethyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC2.4.2.28 5'-deoxy-5'-(phenylmethyl)-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC2.4.2.28 5'-deoxy-5'-(quinolin-2-yl)-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC2.4.2.28 5'-deoxy-5'-[4-(trifluoromethyl)phenyl]-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.4.2.28 5'-deoxy-5'-butylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.4.2.28 5'-deoxy-5'-cyclohexyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00102 * +EC2.4.2.28 5'-deoxy-5'-cyclopentyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC2.4.2.28 5'-deoxy-5'-ethylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.4.2.28 5'-deoxy-5'-hydroxyethylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.4.2.28 5'-deoxy-5'-imidazol-2-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.4.2.28 5'-deoxy-5'-isobutylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.4.2.28 5'-deoxy-5'-isopentylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC2.4.2.28 5'-deoxy-5'-methyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.4.2.28 5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.4.2.28 5'-deoxy-5'-methylthioadenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC2.4.2.28 5'-deoxy-5'-methylthioadenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1e-05 * +EC2.4.2.28 5'-deoxy-5'-phenyl-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC2.4.2.28 5'-deoxy-5'-pyridin-2-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00088 * +EC2.4.2.28 5'-deoxy-5'-pyridin-4-yl-sulfanyladenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.2.28 5'-deoxy-5'-tert-butylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.4.2.28 5'-deoxy-adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.4.2.28 5'-deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC2.4.2.28 5'-methylthioadenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0034 * +EC2.4.2.28 5'-methylthioadenosine caldariella acidophila//*//* 0.095 * +EC2.4.2.28 5'-methylthioadenosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0055 * +EC2.4.2.28 5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.2.28 5'-methylthioadenosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.009 * +EC2.4.2.28 5'-methylthioadenosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.147 * +EC2.4.2.28 5'-methylthioadenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00047 * +EC2.4.2.28 5'-methylthioadenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.024 * +EC2.4.2.28 5-methylthioribose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.4.2.28 adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.4.2.28 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.184 * +EC2.4.2.28 adenosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.109 * +EC2.4.2.28 adenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0254 * +EC2.4.2.28 adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.013 * +EC2.4.2.28 deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0083 * +EC2.4.2.28 guanosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.916 * +EC2.4.2.28 guanosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1136 * +EC2.4.2.28 inosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.963 * +EC2.4.2.28 inosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.084 * +EC2.4.2.28 phosphate caldariella acidophila//*//* 6.1 * +EC2.4.2.28 phosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 6.1 * +EC2.4.2.28 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC2.4.2.28 phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.5 * +EC2.4.2.28 phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.26 * +EC2.4.2.28 phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC2.4.2.28 phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.123 * +EC2.4.2.28 s-adenosylhomocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2009 * +EC2.4.2.28 s-methyl-5'-thioadenosine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.0022 * +EC2.4.2.28 s-methyl-5'-thioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.4.2.28 s-methyl-5'-thioadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 9e-05 * +EC2.4.2.29 2-amino-5-(fluoromethyl)pyrrolo[2,3-d]pyrimidin-4(3h)-one escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.152 * +EC2.4.2.29 7-(aminomethyl)-7-deazaguanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4e-05 * +EC2.4.2.29 7-(aminomethyl)-7-deazaguanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC2.4.2.29 [rnaecyma]-2'-deoxyguanine 34 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00262 * +EC2.4.2.29 [rnaecyma]-guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00287 * +EC2.4.2.29 [trna]-guanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.001 * +EC2.4.2.29 [trnatyr]7-aminomethyl-7-carbaguanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.00217 * +EC2.4.2.29 guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3e-05 * +EC2.4.2.29 guanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00015 * +EC2.4.2.29 guanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00083 * +EC2.4.2.29 guanine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.00165 * +EC2.4.2.29 guanine triticum aestivum//*//* 6e-05 * +EC2.4.2.29 guanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.00038 * +EC2.4.2.29 hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC2.4.2.29 pre-queuine 0 zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0009 * +EC2.4.2.29 pre-queuine 1 zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0007 * +EC2.4.2.29 queuine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00026 * +EC2.4.2.29 trna guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00016 * +EC2.4.2.29 trna guanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.0009 * +EC2.4.2.29 trna(tyr) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00032 * +EC2.4.2.29 trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00012 * +EC2.4.2.29 trna zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.001 * +EC2.4.2.29 trnaasp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.3e-06 * +EC2.4.2.29 virf minihelix rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00087 * +EC2.4.2.29 virf mrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0018 * +EC2.4.2.29 xanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.224 * +EC2.4.2.3 2'-deoxyuridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.13 * +EC2.4.2.3 2'-deoxyuridine shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.121 * +EC2.4.2.3 5'-deoxy-5-fluorouridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.756 * +EC2.4.2.3 5-bromodeoxyuridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.1 * +EC2.4.2.3 5-bromouridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.03 * +EC2.4.2.3 5-fluoro-2'-deoxyuridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.427 * +EC2.4.2.3 5-fluorouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC2.4.2.3 5-fluorouridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.4.2.3 5-methyluridine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.248 * +EC2.4.2.3 5-methyluridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.07 * +EC2.4.2.3 5-methyluridine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 4.0 * +EC2.4.2.3 5-methyluridine shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.065 * +EC2.4.2.3 alpha-d-ribose-1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.4.2.3 deoxyuridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.4.2.3 deoxyuridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.71 * +EC2.4.2.3 inosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.005 * +EC2.4.2.3 phosphate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.12 * +EC2.4.2.3 phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.42 * +EC2.4.2.3 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC2.4.2.3 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.4.2.3 phosphate hymenolepis diminuta//*//* 0.806 * +EC2.4.2.3 phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.076 * +EC2.4.2.3 phosphate shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 5.1 * +EC2.4.2.3 ribose 1-phosphate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.017 * +EC2.4.2.3 ribose 1-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.14 * +EC2.4.2.3 ribose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC2.4.2.3 ribose 1-phosphate hymenolepis diminuta//*//* 0.05 * +EC2.4.2.3 ribose 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.088 * +EC2.4.2.3 thymidine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.11 * +EC2.4.2.3 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.073 * +EC2.4.2.3 thymidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.148 * +EC2.4.2.3 thymidine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.0489 * +EC2.4.2.3 thymidine shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.215 * +EC2.4.2.3 uracil acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.11 * +EC2.4.2.3 uracil dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.06 * +EC2.4.2.3 uracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.209 * +EC2.4.2.3 uracil hymenolepis diminuta//*//* 0.204 * +EC2.4.2.3 uracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC2.4.2.3 uridine acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.17 * +EC2.4.2.3 uridine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.615 * +EC2.4.2.3 uridine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.24 * +EC2.4.2.3 uridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.91 * +EC2.4.2.3 uridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.24 * +EC2.4.2.3 uridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.4.2.3 uridine hymenolepis diminuta//*//* 0.033 * +EC2.4.2.3 uridine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.7 * +EC2.4.2.3 uridine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.8 * +EC2.4.2.3 uridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.064 * +EC2.4.2.3 uridine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.085 * +EC2.4.2.3 uridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC2.4.2.3 uridine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.031 * +EC2.4.2.3 uridine shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.082 * +EC2.4.2.30 (adp-d-ribosyl)n-actin aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.024 * +EC2.4.2.30 (adp-d-ribosyl)n-rhoa protein paenibacillus larvae subsp. larvae//*//* 0.017 * +EC2.4.2.30 (adp-d-ribosyl)n-soybean-trypsin-inhibitor pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.049 * +EC2.4.2.30 n6-etheno-nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0225 * +EC2.4.2.30 nad+ aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.006 * +EC2.4.2.30 nad+ bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0171 * +EC2.4.2.30 nad+ clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.002 * +EC2.4.2.30 nad+ dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.02 * +EC2.4.2.30 nad+ helix pomatia//*//* 0.0267 * +EC2.4.2.30 nad+ paenibacillus larvae subsp. larvae//*//* 0.034 * +EC2.4.2.30 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.009 * +EC2.4.2.30 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.4.2.30 nad+ streptomyces scabiei//prokaryotes;bacteria;actinobacteria;streptomyces//scb 0.068 * +EC2.4.2.30 nad+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.154 * +EC2.4.2.31 1-(4-aminobutyl)guanidine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.26 * +EC2.4.2.31 1-(4-aminobutyl)guanidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 15.0 * +EC2.4.2.31 agmatine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 1.0 * +EC2.4.2.31 agmatine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.4 * +EC2.4.2.31 alpha-actin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0025 * +EC2.4.2.31 arginine methyl ester meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 1.3 * +EC2.4.2.31 beta/gamma-actin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.015 * +EC2.4.2.31 gamma-actin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.01 * +EC2.4.2.31 nad+ enterobacteria phage t4//*//* 0.0143 * +EC2.4.2.31 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.02 * +EC2.4.2.31 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.4.2.31 nad+ lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.0403 * +EC2.4.2.31 nad+ meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.007 * +EC2.4.2.31 nad+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.118 * +EC2.4.2.31 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.4.2.31 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC2.4.2.31 nad+ vibrio splendidus//*//* 0.276 * +EC2.4.2.31 nomega-(adp-d-ribosyl)-agmatine-l-arginine vibrio splendidus//*//* 0.272 * +EC2.4.2.32 udp-d-xylose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00055 * +EC2.4.2.36 diethylamino(benzylidine-amino)guanidine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 4.0 * +EC2.4.2.36 elongation factor 2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.02 * +EC2.4.2.36 nad+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.275 * +EC2.4.2.36 nad+ vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 14.0 * +EC2.4.2.37 nad+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.166 * +EC2.4.2.37 nad+ rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.7 * +EC2.4.2.4 1-(2',6'-dideoxy-alpha-l-lyxo-hexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.4.2.4 1-(2',6'-dideoxy-alpha-l-lyxohexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.4.2.4 1-(2',6'-dideoxy-beta-d-ribo-hexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.4.2.4 1-(2',6'-dideoxy-beta-d-ribohexafuranosyl)thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.4.2.4 1-(tetrahydro-2-furanyl)-5-fluorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.3 * +EC2.4.2.4 2'-deoxyuridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC2.4.2.4 3'-amino-3'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.4.2.4 3'-deoxy-2',3'-didehydrothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.4.2.4 3'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC2.4.2.4 4-thiothymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC2.4.2.4 5'-amino-5'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.4.2.4 5'-chloro-5'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.4.2.4 5'-deoxy-5-fluorouridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.72 * +EC2.4.2.4 5'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.4.2.4 5-nitro-2'-deoxyuridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC2.4.2.4 5-nitro-2'-deoxyuridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.4.2.4 arsenate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.3 * +EC2.4.2.4 deoxyuridine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 8.0 * +EC2.4.2.4 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.89 * +EC2.4.2.4 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00064 * +EC2.4.2.4 phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.1 * +EC2.4.2.4 phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC2.4.2.4 phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.3 * +EC2.4.2.4 thymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC2.4.2.4 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC2.4.2.4 thymidine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.00166 * +EC2.4.2.4 thymidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.945 * +EC2.4.2.4 thymidine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.1 * +EC2.4.2.4 thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.414 * +EC2.4.2.4 thymine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.141 * +EC2.4.2.4 thymine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0832 * +EC2.4.2.4 uridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 47.6 * +EC2.4.2.40 dihydrozeatin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.01 * +EC2.4.2.40 trans-zeatin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.002 * +EC2.4.2.40 udp-xylose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.003 * +EC2.4.2.42 2-(pyridin-2-ylamino)ethyl beta-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.2 * +EC2.4.2.42 glcbeta-ser53-egf-like domain of bovine factor ix(45-87) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.034 * +EC2.4.2.44 5'-methylthioinosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0026 * +EC2.4.2.44 adenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.023 * +EC2.4.2.44 adenosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.023 * +EC2.4.2.44 inosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.09 * +EC2.4.2.44 s-methyl-5'-thioinosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0026 * +EC2.4.2.48 guanine15 in trna methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.0012 * +EC2.4.2.50 cyanidin 3-o-beta-d-galactoside daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.1 * +EC2.4.2.50 udp-alpha-d-xylose daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.2 * +EC2.4.2.54 4-aminobenzoate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.15 * +EC2.4.2.54 4-aminobenzoate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.058 * +EC2.4.2.54 5-phospho-alpha-d-ribose 1-diphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.5 * +EC2.4.2.54 5-phospho-alpha-d-ribose 1-diphosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 3.6 * +EC2.4.2.56 kaempferol euonymus alatus//*//* 0.00083 * +EC2.4.2.56 quercetin euonymus alatus//*//* 0.00119 * +EC2.4.2.56 udp-alpha-d-xylose euonymus alatus//*//* 0.025 * +EC2.4.2.57 cmp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 6.2 * +EC2.4.2.57 gmp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 18.5 * +EC2.4.2.57 phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.8 * +EC2.4.2.57 ump thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 4.4 * +EC2.4.2.6 2',3'-dideoxycytidine lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.38 * +EC2.4.2.6 2'-deoxycytidine lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.3 * +EC2.4.2.6 2'-deoxycytidine lactobacillus leichmannii//*//* 0.25 * +EC2.4.2.6 2'-deoxyuridine lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 1.14 * +EC2.4.2.6 adenine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.0073 * +EC2.4.2.6 adenine lactobacillus leichmannii//*//* 0.3 * +EC2.4.2.6 adenosine lactobacillus leichmannii//*//* 0.04 * +EC2.4.2.6 cytosine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.073 * +EC2.4.2.6 cytosine lactobacillus leichmannii//*//* 0.05 * +EC2.4.2.6 cytosine lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 10.79 * +EC2.4.2.6 deoxyadenosine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.092 * +EC2.4.2.6 deoxyadenosine lactobacillus leichmannii//*//* 0.1 * +EC2.4.2.6 deoxycytidine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.09 * +EC2.4.2.6 deoxycytidine lactobacillus leichmannii//*//* 0.52 * +EC2.4.2.6 deoxyguanosine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.346 * +EC2.4.2.6 deoxyguanosine lactobacillus leichmannii//*//* 0.16 * +EC2.4.2.6 deoxyinosine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.041 * +EC2.4.2.6 deoxyinosine lactobacillus leichmannii//*//* 0.27 * +EC2.4.2.6 guanine lactobacillus leichmannii//*//* 0.03 * +EC2.4.2.6 hypoxanthine lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.086 * +EC2.4.2.6 thymidine lactobacillus leichmannii//*//* 0.05 * +EC2.4.2.6 thymine lactobacillus leichmannii//*//* 0.13 * +EC2.4.2.7 2,6-diaminopurine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.89 * +EC2.4.2.7 4-aminopyrazolo-(3,4-d)pyrimidine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.036 * +EC2.4.2.7 5-aminoimidazole-4-carboxamide leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.0 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.29 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate artemia sp.//*//* 0.03 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate brassica juncea//*//* 0.015 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate catharanthus roseus//*//* 0.0096 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate giardia intestinalis//*//* 0.143 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.025 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.025 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0007 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.032 * +EC2.4.2.7 5-phospho-alpha-d-ribose 1-diphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0219 * +EC2.4.2.7 6-amino-2-hydroxypurine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.4 * +EC2.4.2.7 6-methylpurine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 3.7 * +EC2.4.2.7 8-azaadenine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.24 * +EC2.4.2.7 adenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0008 * +EC2.4.2.7 adenine artemia sp.//*//* 0.002 * +EC2.4.2.7 adenine brassica juncea//*//* 0.0038 * +EC2.4.2.7 adenine catharanthus roseus//*//* 0.007 * +EC2.4.2.7 adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.4.2.7 adenine giardia intestinalis//*//* 0.0042 * +EC2.4.2.7 adenine hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.0038 * +EC2.4.2.7 adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC2.4.2.7 adenine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0012 * +EC2.4.2.7 adenine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC2.4.2.7 adenine plasmodium chabaudi//eukaryotes;protists;alveolates;apicomplexans//pcb 0.005 * +EC2.4.2.7 adenine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0008 * +EC2.4.2.7 adenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC2.4.2.7 adenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0008 * +EC2.4.2.7 adenine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.069 * +EC2.4.2.7 adenine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0004 * +EC2.4.2.7 adenine triticum aestivum//*//* 0.074 * +EC2.4.2.7 amp giardia intestinalis//*//* 0.087 * +EC2.4.2.7 amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.00523 * +EC2.4.2.7 benzyladenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.015 * +EC2.4.2.7 diphosphate giardia intestinalis//*//* 0.45 * +EC2.4.2.7 diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.255 * +EC2.4.2.7 hypoxanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.5 * +EC2.4.2.7 isopentenyladenine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC2.4.2.7 mg2+ hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.3 * +EC2.4.2.7 mn2+ hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.2 * +EC2.4.2.7 n6-(delta2-isopentenyl)adenine triticum aestivum//*//* 0.13 * +EC2.4.2.7 n6-benzyladenine triticum aestivum//*//* 0.154 * +EC2.4.2.7 n6-furfuryladenine triticum aestivum//*//* 0.11 * +EC2.4.2.7 zeatin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.076 * +EC2.4.2.8 3-hydroxy-2-pyrazinecarboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.069 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate artemia sp.//*//* 0.015 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.112 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0053 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate giardia intestinalis//*//* 0.026 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0191 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.06 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.134 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0065 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.053 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0282 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.1 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate streptomyces cyanogenus//*//* 0.063 * +EC2.4.2.8 5-phospho-alpha-d-ribose 1-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.032 * +EC2.4.2.8 6-fluoro-3-hydroxy-2-pyrazinecarboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.426 * +EC2.4.2.8 6-mercaptopurine plasmodium lophurae//*//* 0.0062 * +EC2.4.2.8 6-thioguanine plasmodium lophurae//*//* 0.0076 * +EC2.4.2.8 8-azahypoxanthine plasmodium lophurae//*//* 0.36 * +EC2.4.2.8 diphosphate giardia intestinalis//*//* 0.324 * +EC2.4.2.8 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0175 * +EC2.4.2.8 diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.103 * +EC2.4.2.8 diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0039 * +EC2.4.2.8 diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.035 * +EC2.4.2.8 gmp giardia intestinalis//*//* 0.0225 * +EC2.4.2.8 guanine artemia sp.//*//* 0.001 * +EC2.4.2.8 guanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC2.4.2.8 guanine caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.0032 * +EC2.4.2.8 guanine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0011 * +EC2.4.2.8 guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.037 * +EC2.4.2.8 guanine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0018 * +EC2.4.2.8 guanine giardia intestinalis//*//* 0.016 * +EC2.4.2.8 guanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC2.4.2.8 guanine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.0105 * +EC2.4.2.8 guanine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.005 * +EC2.4.2.8 guanine methanococcus voltae//prokaryotes;archaea;euryarchaeota;methanococcus//mvo 0.2 * +EC2.4.2.8 guanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01 * +EC2.4.2.8 guanine plasmodium chabaudi//eukaryotes;protists;alveolates;apicomplexans//pcb 0.002 * +EC2.4.2.8 guanine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.002 * +EC2.4.2.8 guanine plasmodium lophurae//*//* 0.0024 * +EC2.4.2.8 guanine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00326 * +EC2.4.2.8 guanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.018 * +EC2.4.2.8 guanine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.0021 * +EC2.4.2.8 guanine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.028 * +EC2.4.2.8 guanine streptomyces cyanogenus//*//* 0.0027 * +EC2.4.2.8 guanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0074 * +EC2.4.2.8 guanine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC2.4.2.8 hypoxanthine artemia sp.//*//* 0.001 * +EC2.4.2.8 hypoxanthine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC2.4.2.8 hypoxanthine caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.0024 * +EC2.4.2.8 hypoxanthine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.00052 * +EC2.4.2.8 hypoxanthine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0052 * +EC2.4.2.8 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.4.2.8 hypoxanthine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0061 * +EC2.4.2.8 hypoxanthine methanococcus voltae//prokaryotes;archaea;euryarchaeota;methanococcus//mvo 0.015 * +EC2.4.2.8 hypoxanthine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.026 * +EC2.4.2.8 hypoxanthine plasmodium chabaudi//eukaryotes;protists;alveolates;apicomplexans//pcb 0.0025 * +EC2.4.2.8 hypoxanthine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.005 * +EC2.4.2.8 hypoxanthine plasmodium lophurae//*//* 0.0038 * +EC2.4.2.8 hypoxanthine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00388 * +EC2.4.2.8 hypoxanthine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.011 * +EC2.4.2.8 hypoxanthine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.0037 * +EC2.4.2.8 hypoxanthine streptomyces cyanogenus//*//* 0.0016 * +EC2.4.2.8 hypoxanthine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0039 * +EC2.4.2.8 hypoxanthine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0086 * +EC2.4.2.8 imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.4.2.8 imp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0016 * +EC2.4.2.8 inosine monophosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.09 * +EC2.4.2.8 inosine monophosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.027 * +EC2.4.2.8 xanthine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.036 * +EC2.4.2.8 xanthine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.095 * +EC2.4.2.9 2-thiouracil lactobacillus leichmannii//*//* 0.67 * +EC2.4.2.9 4-thiouracil leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0071 * +EC2.4.2.9 5-fluorouracil leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0064 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.066 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate bacillus caldolyticus//*//* 0.05 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.068 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.186 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate giardia intestinalis//*//* 0.2 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate lactobacillus bifidus//*//* 0.044 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0993 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.026 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate sulfolobus shibatae//*//* 0.016 * +EC2.4.2.9 5-phospho-alpha-d-ribose 1-diphosphate tetrahymena pyriformis//*//* 0.0069 * +EC2.4.2.9 diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC2.4.2.9 ump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.13 * +EC2.4.2.9 uracil acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.0042 * +EC2.4.2.9 uracil bacillus caldolyticus//*//* 0.002 * +EC2.4.2.9 uracil bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.159 * +EC2.4.2.9 uracil candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0705 * +EC2.4.2.9 uracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC2.4.2.9 uracil giardia intestinalis//*//* 0.024 * +EC2.4.2.9 uracil lactobacillus leichmannii//*//* 0.0077 * +EC2.4.2.9 uracil leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0204 * +EC2.4.2.9 uracil mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0124 * +EC2.4.2.9 uracil saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.021 * +EC2.4.2.9 uracil sulfolobus shibatae//*//* 0.001 * +EC2.4.2.9 uracil tetrahymena pyriformis//*//* 0.0004 * +EC2.4.2.B12 nad+ clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.77 * +EC2.4.2.B14 [histone h3 k9 peptide]-n6-acetyl-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0151 * +EC2.4.2.B14 [histone h3 k9 peptide]-n6-succinyl-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.086 * +EC2.4.2.B14 [protein]-n6-succinyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC2.4.2.B14 ac-(n6-succinyl)lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.084 * +EC2.4.2.B14 ac-leu-gly-(n6-succinyl)lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC2.4.2.B14 benzoyl-gvl(n6-acetyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0243 * +EC2.4.2.B14 benzoyl-gvl(n6-adipoyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC2.4.2.B14 benzoyl-gvl(n6-glutaryl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC2.4.2.B14 benzoyl-gvl(n6-malonyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC2.4.2.B14 benzoyl-gvl(n6-oxalyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.416 * +EC2.4.2.B14 benzoyl-gvl(n6-pimeloyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0805 * +EC2.4.2.B14 benzoyl-gvl(n6-suberoyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.409 * +EC2.4.2.B14 benzoyl-gvl(n6-succinyl)keygv-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC2.4.2.B14 kqtar(n6-malonyl)kstggww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC2.4.2.B14 kqtar(n6-succinyl)kstggww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC2.4.2.B14 ktrsg(n6-malonyl)kvmrrww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.4.2.B14 ktrsg(n6-succinyl)kvmrrww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.4.2.B14 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC2.4.2.B14 sgase(n6-malonyl)kdivhsgww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.4.2.B14 sgase(n6-succinyl)kdivhsgww homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC2.4.2.B15 [histone h3]-n6-acetyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.4.2.B15 [histone h3]-n6-myristoyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC2.4.2.B16 [histone 3]-n6-acetyl-l-lysine9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.232 * +EC2.4.2.B16 [histone h3 peptide]-n6-acetyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.81 * +EC2.4.2.B16 [histone h3 peptide]-n6-acetyl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.039 * +EC2.4.2.B16 [histone h3 peptide]-n6-butyryl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.4.2.B16 [histone h3 peptide]-n6-butyryl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.008 * +EC2.4.2.B16 [histone h3 peptide]-n6-myristoyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC2.4.2.B16 [histone h3 peptide]-n6-octanoyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.4.2.B16 [histone h3 peptide]-n6-octanoyl-l-lysine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0012 * +EC2.4.2.B16 [histone h3 peptide]-n6-palmitoyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC2.4.2.B16 [synthetic tumor necrosis factor alpha peptide]-n6-myristoyl-l-lysine19 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.4.2.B16 [synthetic tumor necrosis factor alpha peptide]-n6-myristoyl-l-lysine20 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC2.4.2.B16 skeyfs(n6-acetyl)kqk archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.22 * +EC2.4.2.B2 n-pyridin-2-yl-3-o-alpha-d-xylopyranosyl-beta-d-glucopyranosylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 52.0 * +EC2.4.2.B2 udp-d-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.4.99.1 (2s,3s,4r,5r,6r)-5-acetylamino-4-hydroxy-6-methoxy-3-((2s,3r,4s,5r,6r)-3,4,5-trihydroxy-6-hydroxymethyl-tetrahydro-pyran-2-yloxy)-tetrahydro-pyran-2-carboxylic acid methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.4.99.1 (2s,3s,4r,5r,6r)-5-acetylamino-4-hydroxy-6-methoxy-3-((2s,3r,4s,5r,6r)-3,4,5-trihydroxy-6-hydroxymethyl-tetrahydro-pyran-2-yloxy)-tetrahydro-pyran-2-carboxylic acid methylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.4 * +EC2.4.99.1 (gal-3-o-me)beta(1-3)(glcnac-6-o-me)beta-o-me rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.2 * +EC2.4.99.1 (gal-3-o-me)beta(1-3)glcnacbeta-o-me rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.1 * +EC2.4.99.1 4-methylumbelliferyl beta-d-lactoside photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 0.6 * +EC2.4.99.1 5-(5-dimethylaminonaphthalene-1-sulfonyl-2-(2-aminoethoxy))ethyl beta-lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.8 * +EC2.4.99.1 5-(5-dimethylaminonaphthalene-1-sulfonyl-2-(2-aminoethoxy))ethyl beta-n-acetyllactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.92 * +EC2.4.99.1 aa-labeled g2 glycan photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 0.0361 * +EC2.4.99.1 aa-labeled g2 glycan photobacterium leiognathi//*//* 0.0278 * +EC2.4.99.1 aa-labeled g2 glycan photobacterium sp.//*//* 0.0047 * +EC2.4.99.1 asialo-alpha1-acid glycoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.4.99.1 asialo-ceruloplasmin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC2.4.99.1 asialo-fetuin cavia porcellus//*//* 0.035 * +EC2.4.99.1 asialo-fetuin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC2.4.99.1 asialo-thyroglobulin glycopeptides bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.59 * +EC2.4.99.1 asialo-transferrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.4.99.1 beta-d-galactosyl-1,4-n-acetyl-beta-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.25 * +EC2.4.99.1 cmp-9''-benzamido-neu5ac photobacterium sp.//*//* 0.11 * +EC2.4.99.1 cmp-9''-benzamido-neu5ac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC2.4.99.1 cmp-9''-phenylacetamido-neu5ac photobacterium sp.//*//* 0.34 * +EC2.4.99.1 cmp-9''-phenylacetamido-neu5ac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.4.99.1 cmp-9''-phenylhexanamido-neu5ac photobacterium sp.//*//* 0.53 * +EC2.4.99.1 cmp-9''-phenylhexanamido-neu5ac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.098 * +EC2.4.99.1 cmp-9''-phenylpropionamido-neu5ac photobacterium sp.//*//* 0.11 * +EC2.4.99.1 cmp-9''-phenylpropionamido-neu5ac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.165 * +EC2.4.99.1 cmp-9-acetamido-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.4.99.1 cmp-9-amino-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.72 * +EC2.4.99.1 cmp-9-benzamido-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.4.99.1 cmp-n-acetylneuraminate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.24 * +EC2.4.99.1 cmp-n-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.27 * +EC2.4.99.1 cmp-n-acetylneuraminate capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.08 * +EC2.4.99.1 cmp-n-acetylneuraminate cavia porcellus//*//* 0.003 * +EC2.4.99.1 cmp-n-acetylneuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0205 * +EC2.4.99.1 cmp-n-acetylneuraminate photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 0.32 * +EC2.4.99.1 cmp-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC2.4.99.1 cytidine-5'-monophospho-sialic acid photobacterium sp.//*//* 0.14 * +EC2.4.99.1 cytidine-5'-monophospho-sialic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.4.99.1 formic acid (2r,3r,4s,5r,6r)-2-((2r,3r,4r,5r,6r)-3-acetylamino-5-hydroxy-2-methoxy-6-methylaminomethyl-tetrahydro-pyran-4-yloxy)-4,5-dihydroxy-6-hydroxymethyl-tetrahydro-pyran-3-yl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC2.4.99.1 fucosyl-alpha-1,2-d-galactosyl-beta-1,4-d-glucose photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 13.6 * +EC2.4.99.1 galbeta(1,4)-glcnacbeta-4-nitrophenyl bombyx mori//eukaryotes;animals;arthropods;insects//bmor 40.2 * +EC2.4.99.1 galbeta(1,4)glcnac-octyl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.04 * +EC2.4.99.1 galbeta(1-3)(glcnac-6-o-me)beta-o-me rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC2.4.99.1 galbeta(1-3)glcnacbeta-o-me rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.4.99.1 galbeta(1-4)glcnac drosophila sp.//*//* 1.4 * +EC2.4.99.1 galnacbeta(1,4)glcnac-octyl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.97 * +EC2.4.99.1 lacto-n-neotetraose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.67 * +EC2.4.99.1 lactose photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 6.82 * +EC2.4.99.1 lactose photobacterium sp.//*//* 1.8 * +EC2.4.99.1 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 129.0 * +EC2.4.99.1 methanesulfonic acid (2r,3s,4r,5r,6r)-5-acetylamino-4-hydroxy-6-methoxy-3-((2s,3r,4s,5r,6r)-3,4,5-trihydroxy-6-hydroxymethyl-tetrahydro-pyran-2-yloxy)-tetrahydro-pyran-2-ylmethyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC2.4.99.1 methyl-beta-d-galactopyranoside photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 174.0 * +EC2.4.99.1 methyl-beta-d-galactopyranoside photobacterium sp.//*//* 99.0 * +EC2.4.99.1 n-((1r,3r,5r,6r,7s,8r,13r,15r,16r,17s)-6,7,17-trihydroxy-5-hydroxymethyl-15-methoxy-2,4,9,11,14-pentaoxa-tricyclo[11.3.1.03,8]heptadec-16-yl)-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.6 * +EC2.4.99.1 n-((1r,3r,5r,6r,7s,8r,14r,16r,17r,18r)-6,7,18-trihydroxy-5-hydroxymethyl-16-methoxy-11-oxo-2,4,9,15-tetraoxa-12-aza-tricyclo[12.3.1.03,8]octadec-17-yl)-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.4.99.1 n-((1r,3r,5r,6r,7s,8r,14r,16r,17r,18s)-6,7,18-trihydroxy-5-hydroxymethyl-16-methoxy-2,4,9,12,15-pentaoxa-tricyclo[12.3.1.03,8]octadec-17-yl)-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.4.99.1 n-[(2r,3r,4r,5s,6r)-4-hydroxy-6-(methanesulfonylamino-methyl)-2-methoxy-5-((2s,3r,4s,5r,6r)-3,4,5-trihydroxy-6-hydroxymethyl-tetrahydro-pyran-2-yloxy)-tetrahydro-pyran-3-yl]-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.4.99.1 n-[(2r,3r,4r,5s,6r)-5-((2s,3r,4s,5r,6r)-4,5-dihydroxy-6-hydroxymethyl-3-methoxy-tetrahydro-pyran-2-yloxy)-6-formylaminomethyl-4-hydroxy-2-methoxy-tetrahydro-pyran-3-yl]-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC2.4.99.1 n-[(2r,3r,4r,5s,6r)-6-(acetylamino-methyl)-4-hydroxy-2-methoxy-5-((2s,3r,4s,5r,6r)-3,4,5-trihydroxy-6-hydroxymethyl-tetrahydro-pyran-2-yloxy)-tetrahydro-pyran-3-yl]-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.4.99.1 n-[(2r,3r,4r,5s,6r)-6-aminomethyl-4-hydroxy-2-methoxy-5-((2s,3r,4s,5r,6r)-3,4,5-trihydroxy-6-hydroxymethyl-tetrahydro-pyran-2-yloxy)-tetrahydro-pyran-3-yl]-acetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.8 * +EC2.4.99.1 n-acetyllactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 12.0 * +EC2.4.99.1 n-acetyllactosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.62 * +EC2.4.99.1 n-acetyllactosaminide photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 8.95 * +EC2.4.99.1 neu5acalpha-2,3-galbeta-1,4-glc photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 8.1 * +EC2.4.99.1 neu5acalpha-4-nitrophenyl photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 53.0 * +EC2.4.99.12 2-deoxy-2-[[(3r)-3-hydroxypentadecanoyl]amino]-3-o-[(3r)-3-hydroxytetradecanoyl]-4-o-phosphono-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC2.4.99.12 cmp-3-deoxy-d-manno-octulosonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.088 * +EC2.4.99.17 7-(aminomethyl)-7-deazaguanine-trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0019 * +EC2.4.99.17 7-aminomethyl-7-deazaguanine in minihelix rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0377 * +EC2.4.99.17 7-aminomethyl-7-deazaguanine in trna(tyr) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC2.4.99.17 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.098 * +EC2.4.99.18 ac-asn-ala-thr-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC2.4.99.18 ac-asn-leu-thr-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC2.4.99.18 acetyl-asn-ala-thr gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.08 * +EC2.4.99.18 acetyl-asn-lys-thr gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.278 * +EC2.4.99.18 acetyl-dfnat-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00087 * +EC2.4.99.18 acetyl-dfnvt-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00122 * +EC2.4.99.18 acetyl-dqnat-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0008 * +EC2.4.99.18 acetyl-dvnas-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.003 * +EC2.4.99.18 acetyl-dvnat-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00106 * +EC2.4.99.18 acetyl-dvnvt-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00144 * +EC2.4.99.18 acetyl-evnat-(4-nitrophenylalanine)-nh2 campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0225 * +EC2.4.99.18 ala-leu-gln-asn-ala-thr-arg gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.3 * +EC2.4.99.18 ala-leu-glu-asn-ala-thr-arg-nh2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.3 * +EC2.4.99.18 asn-ala-thr gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.56 * +EC2.4.99.18 asn-asp-thr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC2.4.99.18 benzoyl-asn-leu-thr-n-methyl-threonine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC2.4.99.18 diphenyl-ala-leu-glu-asn-ala-thr-arg-nh2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.072 * +EC2.4.99.18 diphenyl-alaleu-glu-asn-ala-thr-arg-nh2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.23 * +EC2.4.99.18 dolichyl diphosphochitobiose-(man)9-(glc)3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0005 * +EC2.4.99.18 dolichyl diphosphochitobiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0012 * +EC2.4.99.18 dolichyl-diphosphochitobiose-(man)9-(glc)3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.021 * +EC2.4.99.18 dolichyl-diphosphochitobiose-(man)9 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0315 * +EC2.4.99.18 n-benzoyl-asn-gly-d-allo-thr-nhch3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.5 * +EC2.4.99.18 n-benzoyl-asn-gly-l-threo-beta-hydroxynorvaline-nhch3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.3 * +EC2.4.99.18 n-benzoyl-asn-gly-ser-nhch3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC2.4.99.18 n-benzoyl-asn-gly-thr-nhch3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.16 * +EC2.4.99.18 nalpha-ac-asn-tyr-thr-nh2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00015 * +EC2.4.99.18 tyr-asn-leu-thr-ser-val rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.4.99.18 tyr-asn-leu-thr-ser-val saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC2.4.99.18 tyr-gln-ser-asn-ser-thr-met gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.08 * +EC2.4.99.2 cmp-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC2.4.99.2 ganglioside gd1b rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000196 * +EC2.4.99.2 ganglioside gm1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000538 * +EC2.4.99.2 ganglioside gm1a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.4.99.20 ngdp+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0334 * +EC2.4.99.20 nicotinate aplysia californica//*//* 5.0 * +EC2.4.99.20 nicotinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC2.4.99.3 antifreeze glycoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.02 * +EC2.4.99.3 cmp-9-o-acetyl-n-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC2.4.99.3 cmp-9-o-acetyl-n-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC2.4.99.3 cmp-n-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC2.4.99.3 cmp-n-acetylneuraminate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.57 * +EC2.4.99.3 cmp-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC2.4.99.3 cmp-n-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.27 * +EC2.4.99.3 cmp-n-glycolylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.21 * +EC2.4.99.3 cmp-n-glycolylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.52 * +EC2.4.99.3 submaxillary asialo-mucin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.7 * +EC2.4.99.3 submaxillary asialo-mucin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.9 * +EC2.4.99.3 submaxillary asialo-mucin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.93 * +EC2.4.99.4 3-(4-tetradecyl-1h-1,2,3-triazol-1-yl)propyl 4-o-beta-d-galactopyranosyl-beta-d-glucopyranoside pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 4.1 * +EC2.4.99.4 4-deoxy-galbeta1-3galnacalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.99.4 4-methyl-2-oxo-2h-chromen-7-yl 4-o-beta-d-galactopyranosyl-beta-d-glucopyranoside myxoma virus//*//* 1.2 * +EC2.4.99.4 4-methylumbelliferyl 4-o-beta-d-galactosyl-beta-d-glucoside pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 1.4 * +EC2.4.99.4 4-methylumbelliferyl-lewisx myxoma virus//*//* 3.3 * +EC2.4.99.4 6-deoxy-galbeta1-3galnacalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.99.4 alpha-methyl-galactopyranoside photobacterium sp. jt-ish-224//*//* 0.18 * +EC2.4.99.4 asialo-gm1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.4.99.4 asialo-gm1 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.37 * +EC2.4.99.4 asialofetuin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC2.4.99.4 asialofetuin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC2.4.99.4 asialogm1 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.56 * +EC2.4.99.4 beta-d-galactosyl-1,3-n-acetylgalactosylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.32 * +EC2.4.99.4 beta-methyl-galactopyranoside photobacterium sp. jt-ish-224//*//* 0.2 * +EC2.4.99.4 cmp-n-acetylneuraminate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.02 * +EC2.4.99.4 cmp-n-acetylneuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0137 * +EC2.4.99.4 cmp-n-acetylneuraminate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC2.4.99.4 cmp-n-acetylneuraminate myxoma virus//*//* 1.4 * +EC2.4.99.4 cmp-n-acetylneuraminate pasteurella dagmatis//*//* 1.1 * +EC2.4.99.4 cmp-n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.26 * +EC2.4.99.4 cmp-n-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00434 * +EC2.4.99.4 gal-beta-1,4-glc photobacterium phosphoreum//*//* 1.7 * +EC2.4.99.4 gal-beta-1,4-glc photobacterium sp. jt-ish-224//*//* 0.14 * +EC2.4.99.4 galbeta1,3galnac mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC2.4.99.4 galbeta1-3(2-deoxy)galalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.4.99.4 galbeta1-3(4-deoxy)galnacalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.4.99.4 galbeta1-3(6-deoxy)galnacalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.4.99.4 galbeta1-3(6-sulfo)galnacalpha-o-allyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.105 * +EC2.4.99.4 galbeta1-3(neuacalpha2,6)galnacalpha-o-benzyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.42 * +EC2.4.99.4 galbeta1-3[6-o-(4,4-azo)pentyl]galnacalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.99.4 galbeta1-3galnac-thr antifreeze glycoprotein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC2.4.99.4 galbeta1-3galnac gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC2.4.99.4 galbeta1-3galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.4.99.4 galbeta1-3galnac mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC2.4.99.4 galbeta1-3galnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC2.4.99.4 galbeta1-3galnacalpha-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.4.99.4 galbeta1-3galnacalpha-o-allyl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC2.4.99.4 galbeta1-3galnacalpha-o-allyl/acrylamide copolymer sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC2.4.99.4 galbeta1-3galnacalpha-o-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.4.99.4 galbeta1-3glcnac gallus gallus//eukaryotes;animals;vertebrates;birds//gga 10.0 * +EC2.4.99.4 galbeta1-3glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.7 * +EC2.4.99.4 galbeta1-3glcnacbeta1-3galbeta1-4glc sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.0 * +EC2.4.99.4 galbeta1-4glc sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 130.0 * +EC2.4.99.4 galbeta1-4glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 42.0 * +EC2.4.99.4 galbeta1-6glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 29.0 * +EC2.4.99.4 gd1b gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC2.4.99.4 gd1b mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC2.4.99.4 gm1 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.3 * +EC2.4.99.4 gm1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.4.99.4 gm1 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC2.4.99.4 lactose pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 2.36 * +EC2.4.99.4 methyl 2-([4-[(3-[[3-o-(beta-d-galactopyranosyl)-beta-d-glucopyranosyl]oxy]propyl)amino]-4-oxobutanoyl]amino)benzoate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 14.0 * +EC2.4.99.4 methyl 2-([4-[(3-[[4-o-(beta-d-galactopyranosyl)-beta-d-glucopyranosyl]oxy]propyl)amino]-4-oxobutanoyl]amino)benzoate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 4.9 * +EC2.4.99.4 methyl-alpha-d-galactopyranoside photobacterium phosphoreum//*//* 0.54 * +EC2.4.99.4 methyl-beta-d-galactopyranoside photobacterium phosphoreum//*//* 1.3 * +EC2.4.99.4 n-acetyl-lactosamine photobacterium phosphoreum//*//* 2.5 * +EC2.4.99.5 cmp-acetylneuraminate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.78 * +EC2.4.99.5 cmp-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.057 * +EC2.4.99.5 galactosyldiacylglycerol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.13 * +EC2.4.99.5 galbeta1-3glcnacbeta1-1galbeta1-4glc rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.4.99.5 galbeta1-3glcnacr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.4.99.5 galbeta1-4glcnaacr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.4.99.5 galbeta1-4glcnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.43 * +EC2.4.99.5 galbeta1-4glcnacr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC2.4.99.6 2-(trimethylsilyl)ethyl beta-d-galactopyranosyl-(1,3)-2-acetamido-2-deoxy-beta-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.995 * +EC2.4.99.6 2-(trimethylsilyl)ethyl beta-d-galactopyranosyl-(1,3)-2-deoxy-2-trichloroacetamido-beta-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.812 * +EC2.4.99.6 2-(trimethylsilyl)ethyl beta-d-galactopyranosyl-(1,3)-beta-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.99 * +EC2.4.99.6 4-methylumbelliferyl beta-lactoside pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 1.4 * +EC2.4.99.6 4-methylumbelliferyl lewisx pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 17.0 * +EC2.4.99.6 beta-d-galactopyranosyl-(1,3)-2-acetamido-2-deoxy-beta-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06608 * +EC2.4.99.6 beta-d-galactopyranosyl-(1,4)-2-acetamido-2-deoxy-beta-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08761 * +EC2.4.99.6 beta-d-galactosyl-1,4-n-acetyl-beta-d-glucosaminyl-1,3-beta-d-galactosyl-1,4-d-glucosylceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.5 * +EC2.4.99.6 beta-d-galactosyl-1,4-n-acetyl-d-glucosaminyl-o(ch2)8co2ch3 myxoma virus//*//* 0.11 * +EC2.4.99.6 cmp-n-acetylneuraminate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.67 * +EC2.4.99.6 cmp-n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.39 * +EC2.4.99.6 galbeta(1->3)glcnacbeta(1->3)lac-4-nitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.4.99.6 galbeta(1->4)glcnacbeta(1->3)gal-4-nitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC2.4.99.6 gangliotetraosylceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.027 * +EC2.4.99.6 lacto-n-neohexaosylceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.9 * +EC2.4.99.7 cmp-n-acetylneuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.4.99.7 gm1b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC2.4.99.7 neu5acalpha2-3galbeta1-3galnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC2.4.99.7 neu5acalpha2-3galbeta1-3galnacalpha-o-benzyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.21 * +EC2.4.99.7 sialyl lactoetraosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC2.4.99.8 cmp-alpha-n-acetylneuraminate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC2.4.99.8 cmp-alpha-n-acetylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.4 * +EC2.4.99.8 cmp-n-acetylneuraminate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.07 * +EC2.4.99.8 cmp-n-acetylneuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC2.4.99.8 cmp-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.4.99.8 cmp-neu5ac neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.42 * +EC2.4.99.8 ganglioside gm3 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.078 * +EC2.4.99.8 ganglioside gm3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC2.4.99.8 ganglioside gm3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.4.99.8 ganglioside gt1a gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC2.4.99.8 ganglioside lm1 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.063 * +EC2.4.99.8 neuac-alpha2,8-neuac-alpha2,3-gal-beta1,4-glc-beta-fchase escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.145 * +EC2.4.99.8 neuac-alpha2,8-neuac-alpha2,3-gal-beta1,4-glc-beta-fchase neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.12 * +EC2.4.99.9 cmp-n-acetylneuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.4.99.9 cmp-n-acetylneuraminate mesocricetus auratus//*//* 0.16 * +EC2.4.99.9 cmp-n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00026 * +EC2.4.99.9 lactosylceramide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0815 * +EC2.4.99.9 lactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC2.4.99.9 lactosylceramide mesocricetus auratus//*//* 0.11 * +EC2.4.99.9 lactosylceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00011 * +EC2.4.99.B5 acarbose actinoplanes sp.//prokaryotes;bacteria;actinobacteria;actinoplanes//ase 0.65 * +EC2.4.99.B5 maltose actinoplanes sp.//prokaryotes;bacteria;actinobacteria;actinoplanes//ase 0.96 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-3-o-[(3r)-3-(tetradecanoyloxy)tetradecanoyl]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-hydroxytetradecanoyl]amino]-3-o-[(3r)-3-hydroxytetradecanoyl]-4-o-phosphono-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->4)-(3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-amino-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-2-amino-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00028 * +EC2.4.99.B6 (3-deoxy-alpha-d-manno-oct-2-ulopyranosylonate)-(2->6)-2-deoxy-2-[[(3r)-3-(dodecanoyloxy)tetradecanoyl]amino]-3-o-[(3r)-3-(tetradecanoyloxy)tetradecanoyl]-4-o-phospho-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-(tetradecanoyloxy)tetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC2.4.99.B6 adp-alpha-d-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC2.5.1.1 dimethylallyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.008 * +EC2.5.1.1 dimethylallyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.058 * +EC2.5.1.1 dimethylallyl diphosphate phaedon cochleariae//*//* 0.0116 * +EC2.5.1.1 dimethylallyl diphosphate picea abies//*//* 0.39 * +EC2.5.1.1 farnesyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.02 * +EC2.5.1.1 geranyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.008 * +EC2.5.1.1 isopentenyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.008 * +EC2.5.1.1 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.163 * +EC2.5.1.1 isopentenyl diphosphate phaedon cochleariae//*//* 0.00084 * +EC2.5.1.10 dimethylallyl diphosphate abies grandis//*//* 0.009 * +EC2.5.1.10 dimethylallyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC2.5.1.10 dimethylallyl diphosphate rhizosolenia setigera//*//* 0.0106 * +EC2.5.1.10 dimethylallyl diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0045 * +EC2.5.1.10 dimethylallyl diphosphate streptomyces argenteolus//*//* 0.0666 * +EC2.5.1.10 geranyl diphosphate abies grandis//*//* 0.0018 * +EC2.5.1.10 geranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.018 * +EC2.5.1.10 geranyl diphosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.8 * +EC2.5.1.10 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0098 * +EC2.5.1.10 geranyl diphosphate phaedon cochleariae//*//* 0.0012 * +EC2.5.1.10 geranyl diphosphate pumpkin//*//* 0.0013 * +EC2.5.1.10 geranyl diphosphate rhizosolenia setigera//*//* 0.063 * +EC2.5.1.10 geranyl diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.036 * +EC2.5.1.10 isopentenyl diphosphate abies grandis//*//* 0.0153 * +EC2.5.1.10 isopentenyl diphosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.7 * +EC2.5.1.10 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.043 * +EC2.5.1.10 isopentenyl diphosphate phaedon cochleariae//*//* 0.0015 * +EC2.5.1.10 isopentenyl diphosphate rhizosolenia setigera//*//* 0.0212 * +EC2.5.1.10 isopentenyl diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.032 * +EC2.5.1.10 isopentenyl diphosphate streptomyces argenteolus//*//* 0.0531 * +EC2.5.1.10 mg2+ abies grandis//*//* 0.0712 * +EC2.5.1.10 mn2+ abies grandis//*//* 0.0445 * +EC2.5.1.100 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.013 * +EC2.5.1.100 fumigaclavine a aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.006 * +EC2.5.1.104 agmatine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0076 * +EC2.5.1.104 agmatine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.012 * +EC2.5.1.104 agmatine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.77 * +EC2.5.1.104 cadaverine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.77 * +EC2.5.1.104 cadaverine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0807 * +EC2.5.1.104 norspermidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.57 * +EC2.5.1.104 propane-1,3-diamine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.88 * +EC2.5.1.104 putrescine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 7.7 * +EC2.5.1.104 putrescine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.053 * +EC2.5.1.104 s-adenosyl 3-(methylthio)propylamine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.64 * +EC2.5.1.104 spermidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00173 * +EC2.5.1.104 tris(3-aminopropyl)amine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 38.31 * +EC2.5.1.106 (e)-4-(1h-indol-3-yl)but-3-en-2-one aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.88 * +EC2.5.1.106 brevianamide f aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.055 * +EC2.5.1.106 cyclo-(d-trp-d-pro) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.14 * +EC2.5.1.106 cyclo-(d-trp-l-ala) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.14 * +EC2.5.1.106 cyclo-(l-trp-d-ala) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.41 * +EC2.5.1.106 cyclo-(l-trp-gly) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.69 * +EC2.5.1.106 cyclo-(l-trp-l-ala) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.48 * +EC2.5.1.106 cyclo-(l-trp-l-his) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.45 * +EC2.5.1.106 cyclo-(l-trp-l-pro) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.057 * +EC2.5.1.106 cyclo-(l-trp-l-tyr) aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.27 * +EC2.5.1.106 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.074 * +EC2.5.1.107 12,13-dihydroxyfumitremorgin c aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.157 * +EC2.5.1.107 dimethylallyl diphosphate aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.0615 * +EC2.5.1.107 fumitremorgin b aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.032 * +EC2.5.1.107 verruculogen aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.0057 * +EC2.5.1.109 (s)-benzodiazepinedione aspergillus terreus//*//* 0.204 * +EC2.5.1.109 brevianamide f aspergillus sp.//*//* 0.00433 * +EC2.5.1.109 brevianamide f aspergillus versicolor//*//* 0.032 * +EC2.5.1.109 cyclo-d-trp-d-ala aspergillus versicolor//*//* 1.318 * +EC2.5.1.109 cyclo-d-trp-d-pro aspergillus versicolor//*//* 0.709 * +EC2.5.1.109 cyclo-d-trp-l-ala aspergillus versicolor//*//* 0.139 * +EC2.5.1.109 cyclo-d-trp-l-pro aspergillus versicolor//*//* 2.906 * +EC2.5.1.109 cyclo-l-trp-d-ala aspergillus versicolor//*//* 0.793 * +EC2.5.1.109 cyclo-l-trp-d-pro aspergillus versicolor//*//* 0.082 * +EC2.5.1.109 cyclo-l-trp-gly aspergillus versicolor//*//* 1.3 * +EC2.5.1.109 cyclo-l-trp-l-ala aspergillus versicolor//*//* 0.942 * +EC2.5.1.109 cyclo-l-trp-l-leu aspergillus versicolor//*//* 0.106 * +EC2.5.1.109 cyclo-l-trp-l-phe aspergillus versicolor//*//* 0.094 * +EC2.5.1.109 cyclo-l-trp-l-tyr aspergillus versicolor//*//* 0.214 * +EC2.5.1.109 cyclo-l-tyr-l-tyr aspergillus terreus//*//* 1.411 * +EC2.5.1.109 dimethylallyl diphosphate aspergillus sp.//*//* 0.00131 * +EC2.5.1.109 dimethylallyl diphosphate aspergillus terreus//*//* 0.0785 * +EC2.5.1.109 dimethylallyl diphosphate aspergillus versicolor//*//* 0.098 * +EC2.5.1.110 12alpha,13alpha-dihydroxyfumitremorgin c aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.096 * +EC2.5.1.110 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.186 * +EC2.5.1.111 4-hydroxyphenylpyruvate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0151 * +EC2.5.1.111 4-hydroxyphenylpyruvate streptomyces roseochromogenus subsp. oscitans//*//* 0.016 * +EC2.5.1.111 dimethylallyl diphosphate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0333 * +EC2.5.1.111 dimethylallyl diphosphate streptomyces roseochromogenus subsp. oscitans//*//* 0.025 * +EC2.5.1.112 adp humulus lupulus//*//* 0.0193 * +EC2.5.1.112 adp morus alba//*//* 0.0682 * +EC2.5.1.112 amp humulus lupulus//*//* 0.759 * +EC2.5.1.112 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.018 * +EC2.5.1.112 atp humulus lupulus//*//* 0.0162 * +EC2.5.1.112 dimethylallyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0065 * +EC2.5.1.112 dimethylallyl diphosphate humulus lupulus//*//* 0.0195 * +EC2.5.1.112 dimethylallyl diphosphate morus alba//*//* 0.0374 * +EC2.5.1.115 (2e,7r,11r)-3,7,11,15-tetramethylhexadec-2-en-1-yl trihydrogen diphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.001 * +EC2.5.1.115 homogentisate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.006 * +EC2.5.1.116 geranylgeranyl diphosphate hordeum vulgare//*//* 0.00014 * +EC2.5.1.117 (2e,6e)-farnesyl diphosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.025 * +EC2.5.1.117 homogentisate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.04 * +EC2.5.1.118 o3-acetyl-l-serine lathyrus sativus//*//* 2.1 * +EC2.5.1.121 5,10-dihydrophenazine 1-carboxylate streptomyces anulatus//*//* 0.035 * +EC2.5.1.121 dimethylallyl diphosphate streptomyces anulatus//*//* 0.116 * +EC2.5.1.122 2-pentenyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.23 * +EC2.5.1.122 2-pentenyl diphosphate leptosphaeria maculans//*//* 0.22 * +EC2.5.1.122 3,4-dihydroxy-l-phenylalanine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.19 * +EC2.5.1.122 3-iodo-l-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.29 * +EC2.5.1.122 4-methyl-dl-tryptophan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.25 * +EC2.5.1.122 alpha-methyl-l-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.42 * +EC2.5.1.122 benzyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.52 * +EC2.5.1.122 benzyl diphosphate leptosphaeria maculans//*//* 0.75 * +EC2.5.1.122 d-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.22 * +EC2.5.1.122 dimethylallyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.71 * +EC2.5.1.122 dimethylallyl diphosphate leptosphaeria maculans//*//* 0.17 * +EC2.5.1.122 l-tryptophan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.19 * +EC2.5.1.122 l-tryptophan leptosphaeria maculans//*//* 0.37 * +EC2.5.1.122 l-tyrosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.24 * +EC2.5.1.122 l-tyrosine leptosphaeria maculans//*//* 0.13 * +EC2.5.1.122 methylallyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.029 * +EC2.5.1.122 methylallyl diphosphate leptosphaeria maculans//*//* 0.13 * +EC2.5.1.123 1,3-dihydroxynaphthalene streptomyces cinnamonensis//*//* 1.9 * +EC2.5.1.123 4-hydroxybenzoate streptomyces cinnamonensis//*//* 5.6 * +EC2.5.1.123 flaviolin streptomyces cinnamonensis//*//* 0.021 * +EC2.5.1.123 geranyl diphosphate streptomyces cinnamonensis//*//* 0.0021 * +EC2.5.1.124 1,3-dihydroxynaphthalene streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.32 * +EC2.5.1.124 2-o-methyl-3-methylflaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.054 * +EC2.5.1.124 dimethylallyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.72 * +EC2.5.1.124 flaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.048 * +EC2.5.1.124 geranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.059 * +EC2.5.1.125 1,3-dihydroxynaphthalene streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.32 * +EC2.5.1.125 2-o-methyl-3-methylflaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.054 * +EC2.5.1.125 dimethylallyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.72 * +EC2.5.1.125 flaviolin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.048 * +EC2.5.1.125 geranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.059 * +EC2.5.1.132 d-mannose 6-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.4 * +EC2.5.1.132 d-mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.62 * +EC2.5.1.132 d-mannose 6-phosphate oncorhynchus mykiss//*//* 3.66 * +EC2.5.1.132 phosphoenolpyruvate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.11 * +EC2.5.1.134 l-cystathionine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.0 * +EC2.5.1.135 gdp-valienol streptomyces hygroscopicus subsp. limoneus//*//* 0.0597 * +EC2.5.1.135 validamine 7-phosphate streptomyces hygroscopicus subsp. limoneus//*//* 0.308 * +EC2.5.1.136 dimethylallyl diphosphate humulus lupulus//*//* 0.0436 * +EC2.5.1.136 geranyl diphosphate humulus lupulus//*//* 0.00618 * +EC2.5.1.136 phlorisobutyrophenone humulus lupulus//*//* 0.00668 * +EC2.5.1.136 phlorisovalerophenone humulus lupulus//*//* 0.00339 * +EC2.5.1.139 dimethylallyl diphosphate petroselinum crispum//*//* 0.045 * +EC2.5.1.139 umbelliferone petroselinum crispum//*//* 0.021 * +EC2.5.1.140 l-glutamate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.2 * +EC2.5.1.140 o-phospho-l-serine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.072 * +EC2.5.1.15 (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0148 * +EC2.5.1.15 2-amino-4-hydroxy-6-hydroxymethyl-7,8-dihydropteridine diphosphate escherichia coli mc4100//*//* 0.0019 * +EC2.5.1.15 2-amino-4-hydroxy-6-hydroxymethyl-7,8-dihydropteridine diphosphate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.0014 * +EC2.5.1.15 2-amino-4-hydroxy-6-hydroxymethyl-7,8-dihydropteridine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00122 * +EC2.5.1.15 4-aminobenzoate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0026 * +EC2.5.1.15 4-aminobenzoate escherichia coli mc4100//*//* 0.0005 * +EC2.5.1.15 4-aminobenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00057 * +EC2.5.1.15 4-aminobenzoate plasmodium chabaudi//eukaryotes;protists;alveolates;apicomplexans//pcb 0.0015 * +EC2.5.1.15 4-aminobenzoate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00125 * +EC2.5.1.15 4-aminobenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC2.5.1.15 4-aminobenzoic acid plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.0028 * +EC2.5.1.15 6-hydroxymethyl-7,8-dihydropterin diphosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0027 * +EC2.5.1.15 6-hydroxymethyldihydropteridine diphosphate pisum sativum//*//* 0.03 * +EC2.5.1.15 dapson bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 5.8e-05 * +EC2.5.1.15 p-aminobenzoate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0039 * +EC2.5.1.15 p-aminobenzoic acid campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00085 * +EC2.5.1.15 p-aminobenzoic acid mycobacterium leprae//prokaryotes;bacteria;actinobacteria;mycobacterium//mle 0.0006 * +EC2.5.1.15 p-aminobenzoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00037 * +EC2.5.1.15 p-aminobenzoic acid pisum sativum//*//* 0.0006 * +EC2.5.1.15 p-aminobenzoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0034 * +EC2.5.1.15 sulfadiazine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.00289 * +EC2.5.1.15 sulfamethizole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0007 * +EC2.5.1.15 sulfamethoxazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0027 * +EC2.5.1.15 sulfamethoxazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00012 * +EC2.5.1.15 sulfanilamide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0006 * +EC2.5.1.15 sulfanilamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0048 * +EC2.5.1.15 sulfathiazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.00033 * +EC2.5.1.15 sulfathiazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.5.1.15 sulfisoxazole bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0015 * +EC2.5.1.16 1,4-diaminobutane bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC2.5.1.16 1,4-diaminobutane brassica rapa subsp. pekinensis//*//* 0.032 * +EC2.5.1.16 1,4-diaminobutane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.5.1.16 1,4-diaminobutane glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0325 * +EC2.5.1.16 1,4-diaminobutane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.5.1.16 1,4-diaminobutane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC2.5.1.16 1,4-diaminobutane senecio vulgaris//*//* 0.021 * +EC2.5.1.16 1,4-diaminobutane thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.02 * +EC2.5.1.16 putrescine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.158 * +EC2.5.1.16 putrescine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.052 * +EC2.5.1.16 putrescine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.205 * +EC2.5.1.16 s-adenosyl-(5')-3-methylthio-1-propylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC2.5.1.16 s-adenosyl-(5')-3-methylthio-1-propylamine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0004 * +EC2.5.1.16 s-adenosyl-(5')-3-methylthio-1-propylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.5.1.16 s-adenosyl-(5')-3-methylthio-1-propylamine senecio vulgaris//*//* 0.004 * +EC2.5.1.16 s-adenosyl-3-methylthio-1-propylamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC2.5.1.16 s-adenosyl-3-methylthio-1-propylamine brassica rapa subsp. pekinensis//*//* 0.0067 * +EC2.5.1.16 s-adenosyl-3-methylthio-1-propylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC2.5.1.16 s-adenosyl-3-methylthio-1-propylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.5.1.16 s-adenosylmethioninamine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.111 * +EC2.5.1.16 s-adenosylmethioninamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0353 * +EC2.5.1.16 s-adenosylmethioninamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 9e-05 * +EC2.5.1.17 2'-deoxy-atp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.0016 * +EC2.5.1.17 atp clostridium tetanomorphum//*//* 0.016 * +EC2.5.1.17 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC2.5.1.17 atp lactobacillus leichmannii//*//* 1.3 * +EC2.5.1.17 atp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.0022 * +EC2.5.1.17 atp methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.003 * +EC2.5.1.17 atp protaminobacter rubrum//*//* 0.25 * +EC2.5.1.17 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0028 * +EC2.5.1.17 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0254 * +EC2.5.1.17 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.11 * +EC2.5.1.17 co2+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.27 * +EC2.5.1.17 cob(i)alamin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00158 * +EC2.5.1.17 cob(i)alamin lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.00013 * +EC2.5.1.17 cob(i)alamin methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.001 * +EC2.5.1.17 cob(i)alamin salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0052 * +EC2.5.1.17 cob(i)alamin salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.004 * +EC2.5.1.17 cob(i)inamide lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 9.6e-05 * +EC2.5.1.17 cob(ii)alamin lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.0078 * +EC2.5.1.17 cob(ii)inamide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0163 * +EC2.5.1.17 cobalamin thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.003 * +EC2.5.1.17 ctp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 22.0 * +EC2.5.1.17 cyanocob(i)alamin clostridium tetanomorphum//*//* 0.01 * +EC2.5.1.17 datp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.14 * +EC2.5.1.17 gtp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 1.16 * +EC2.5.1.17 hydroxocobalamin thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.003 * +EC2.5.1.17 itp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 29.0 * +EC2.5.1.17 mg2+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.11 * +EC2.5.1.17 mn2+ thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.11 * +EC2.5.1.17 utp lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 40.0 * +EC2.5.1.19 3-phosphoshikimate alcanivorax sp.//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//aln 0.169 * +EC2.5.1.19 3-phosphoshikimate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.304 * +EC2.5.1.19 3-phosphoshikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0032 * +EC2.5.1.19 3-phosphoshikimate halothermothrix orenii//prokaryotes;bacteria;firmicutes - clostridia;halothermothrix//hor 0.286 * +EC2.5.1.19 3-phosphoshikimate isoptericola variabilis//prokaryotes;bacteria;actinobacteria;isoptericola//iva 0.111 * +EC2.5.1.19 3-phosphoshikimate janibacter sp.//*//* 0.083 * +EC2.5.1.19 3-phosphoshikimate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.045 * +EC2.5.1.19 3-phosphoshikimate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00036 * +EC2.5.1.19 3-phosphoshikimate pisum sativum//*//* 0.0077 * +EC2.5.1.19 3-phosphoshikimate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.275 * +EC2.5.1.19 3-phosphoshikimate rahnella aquatilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;rahnella//raq 0.086 * +EC2.5.1.19 3-phosphoshikimate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.007 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate anabaena variabilis//*//* 0.001 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00025 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate pisum sativum//*//* 0.0052 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.002 * +EC2.5.1.19 5-enolpyruvylshikimate 3-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.00195 * +EC2.5.1.19 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.5.1.19 phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0018 * +EC2.5.1.19 phosphate pisum sativum//*//* 3.7 * +EC2.5.1.19 phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0056 * +EC2.5.1.19 phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.343 * +EC2.5.1.19 phosphoenolpyruvate alcanivorax sp.//prokaryotes;bacteria;gammaproteobacteria - others;alcanivorax//aln 0.078 * +EC2.5.1.19 phosphoenolpyruvate anabaena variabilis//*//* 0.034 * +EC2.5.1.19 phosphoenolpyruvate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.195 * +EC2.5.1.19 phosphoenolpyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.09 * +EC2.5.1.19 phosphoenolpyruvate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.0113 * +EC2.5.1.19 phosphoenolpyruvate eleusine indica//*//* 0.0038 * +EC2.5.1.19 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.5.1.19 phosphoenolpyruvate halothermothrix orenii//prokaryotes;bacteria;firmicutes - clostridia;halothermothrix//hor 0.316 * +EC2.5.1.19 phosphoenolpyruvate isoptericola variabilis//prokaryotes;bacteria;actinobacteria;isoptericola//iva 0.028 * +EC2.5.1.19 phosphoenolpyruvate janibacter sp.//*//* 0.03 * +EC2.5.1.19 phosphoenolpyruvate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.009 * +EC2.5.1.19 phosphoenolpyruvate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.011 * +EC2.5.1.19 phosphoenolpyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0027 * +EC2.5.1.19 phosphoenolpyruvate ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.23 * +EC2.5.1.19 phosphoenolpyruvate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0199 * +EC2.5.1.19 phosphoenolpyruvate pisum sativum//*//* 0.0052 * +EC2.5.1.19 phosphoenolpyruvate plant//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;raoultella//rpln 0.0181 * +EC2.5.1.19 phosphoenolpyruvate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0952 * +EC2.5.1.19 phosphoenolpyruvate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.032 * +EC2.5.1.19 phosphoenolpyruvate rahnella aquatilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;rahnella//raq 0.078 * +EC2.5.1.19 phosphoenolpyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0436 * +EC2.5.1.19 phosphoenolpyruvate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.008 * +EC2.5.1.19 phosphoenolpyruvate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.022 * +EC2.5.1.19 phosphoenolpyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.028 * +EC2.5.1.19 shikimate 3-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.33 * +EC2.5.1.19 shikimate 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.5.1.19 shikimate 3-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.031 * +EC2.5.1.19 shikimate 3-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.029 * +EC2.5.1.2 2-aminopyridine marsilea drummondii//*//* 12.5 * +EC2.5.1.2 2-hydroxyaniline marsilea drummondii//*//* 4.2 * +EC2.5.1.2 3-aminopyridine marsilea drummondii//*//* 2.9 * +EC2.5.1.2 3-hydroxyaniline marsilea drummondii//*//* 2.8 * +EC2.5.1.2 4-aminopyridine marsilea drummondii//*//* 15.4 * +EC2.5.1.2 4-hydroxyaniline marsilea drummondii//*//* 20.0 * +EC2.5.1.2 4-nitrothiophenolate paenibacillus thiaminolyticus//*//* 0.0364 * +EC2.5.1.2 6-aminohexanoic acid marsilea drummondii//*//* 38.0 * +EC2.5.1.2 adenine marsilea drummondii//*//* 9.5 * +EC2.5.1.2 alpha-picoline marsilea drummondii//*//* 3.3 * +EC2.5.1.2 alpha-picolinic acid marsilea drummondii//*//* 21.2 * +EC2.5.1.2 aniline cheilanthes sieberi//*//* 5.1 * +EC2.5.1.2 aniline marsilea drummondii//*//* 1.4 * +EC2.5.1.2 aniline paenibacillus thiaminolyticus//*//* 2.9 * +EC2.5.1.2 aniline pteridium esculentum//*//* 1.4 * +EC2.5.1.2 aniline velesunio ambiguus//*//* 2.0 * +EC2.5.1.2 beta-picoline marsilea drummondii//*//* 0.5 * +EC2.5.1.2 beta-picolinic acid marsilea drummondii//*//* 25.0 * +EC2.5.1.2 cysteine marsilea drummondii//*//* 33.0 * +EC2.5.1.2 gamma-picoline marsilea drummondii//*//* 0.9 * +EC2.5.1.2 gamma-picolinic acid marsilea drummondii//*//* 3.4 * +EC2.5.1.2 hydroxyproline marsilea drummondii//*//* 400.0 * +EC2.5.1.2 imidazole marsilea drummondii//*//* 125.0 * +EC2.5.1.2 m-aminobenzoic acid marsilea drummondii//*//* 37.0 * +EC2.5.1.2 m-nitroaniline marsilea drummondii//*//* 50.0 * +EC2.5.1.2 m-phenylene diamine marsilea drummondii//*//* 1.7 * +EC2.5.1.2 m-toluidine marsilea drummondii//*//* 2.4 * +EC2.5.1.2 methylamine marsilea drummondii//*//* 32.0 * +EC2.5.1.2 nicotinic acid cheilanthes sieberi//*//* 55.0 * +EC2.5.1.2 nicotinic acid marsilea drummondii//*//* 25.0 * +EC2.5.1.2 nicotinic acid pteridium esculentum//*//* 29.0 * +EC2.5.1.2 nicotinic acid velesunio ambiguus//*//* 0.9 * +EC2.5.1.2 o-aminobenzoic acid marsilea drummondii//*//* 37.0 * +EC2.5.1.2 o-mercaptobenzoic acid marsilea drummondii//*//* 5.0 * +EC2.5.1.2 o-phenylene diamine marsilea drummondii//*//* 1.7 * +EC2.5.1.2 o-toluidine marsilea drummondii//*//* 6.4 * +EC2.5.1.2 p-aminobenzoic acid marsilea drummondii//*//* 200.0 * +EC2.5.1.2 p-phenylene diamine marsilea drummondii//*//* 3.3 * +EC2.5.1.2 proline marsilea drummondii//*//* 111.0 * +EC2.5.1.2 pyridine cheilanthes sieberi//*//* 5.0 * +EC2.5.1.2 pyridine marsilea drummondii//*//* 2.5 * +EC2.5.1.2 pyridine pteridium esculentum//*//* 0.7 * +EC2.5.1.2 pyridine velesunio ambiguus//*//* 0.7 * +EC2.5.1.2 quinoline marsilea drummondii//*//* 3.3 * +EC2.5.1.2 sulfanilamide marsilea drummondii//*//* 77.0 * +EC2.5.1.2 sulfanilic acid marsilea drummondii//*//* 50.0 * +EC2.5.1.2 thiamine cheilanthes sieberi//*//* 0.003 * +EC2.5.1.2 thiamine clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.45 * +EC2.5.1.2 thiamine marsilea drummondii//*//* 0.003 * +EC2.5.1.2 thiamine paenibacillus thiaminolyticus//*//* 0.0037 * +EC2.5.1.2 thiamine pteridium esculentum//*//* 0.003 * +EC2.5.1.2 thiamine velesunio ambiguus//*//* 0.003 * +EC2.5.1.2 tris marsilea drummondii//*//* 200.0 * +EC2.5.1.20 dimethylallyl diphosphate parthenium argentatum//*//* 0.096 * +EC2.5.1.20 farnesyl diphosphate ficus carica//*//* 0.0028 * +EC2.5.1.20 farnesyl diphosphate ficus elastica//*//* 0.0003 * +EC2.5.1.20 farnesyl diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 2.2 * +EC2.5.1.20 farnesyl diphosphate parthenium argentatum//*//* 0.04 * +EC2.5.1.20 isopentenyl diphosphate ficus carica//*//* 0.228 * +EC2.5.1.20 isopentenyl diphosphate ficus elastica//*//* 0.16 * +EC2.5.1.20 isopentenyl diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.5 * +EC2.5.1.20 isopentenyl diphosphate parthenium argentatum//*//* 0.083 * +EC2.5.1.20 mg2+ parthenium argentatum//*//* 0.52 * +EC2.5.1.21 (2e,6e)-farnesyl diphosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0038 * +EC2.5.1.21 farnesyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC2.5.1.21 farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0095 * +EC2.5.1.21 farnesyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0025 * +EC2.5.1.21 farnesyl diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC2.5.1.21 farnesyl diphosphate tabernaemontana divaricata//*//* 0.0078 * +EC2.5.1.21 farnesyl diphosphate thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.00097 * +EC2.5.1.21 farnesyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.00525 * +EC2.5.1.21 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC2.5.1.21 nadph leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.04323 * +EC2.5.1.21 nadph saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC2.5.1.21 nadph tabernaemontana divaricata//*//* 0.045 * +EC2.5.1.21 nadph trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.02334 * +EC2.5.1.21 trans-farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.22 6,6-difluorospermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.458 * +EC2.5.1.22 6-monofluorospermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.093 * +EC2.5.1.22 7,7-difluorospermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00054 * +EC2.5.1.22 7-monofluorospermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC2.5.1.22 s-adenosyl 3-(methylthio)propylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.5.1.22 s-adenosylmethioninamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0001 * +EC2.5.1.22 s-adenosylmethioninamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.5.1.22 s-adenosylmethioninamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.5.1.22 spermidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC2.5.1.22 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.5.1.22 spermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.5.1.23 propane-1,3-diamine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.675 * +EC2.5.1.23 putrescine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.85 * +EC2.5.1.23 s-adenosylmethioninamine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0079 * +EC2.5.1.23 spermidine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.539 * +EC2.5.1.23 sym-norspermidine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.954 * +EC2.5.1.24 n6-benzyladenine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0007 * +EC2.5.1.24 s-adenosyl-l-methionine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0185 * +EC2.5.1.26 hexadecanol cavia porcellus//*//* 0.04 * +EC2.5.1.26 hexadecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.044 * +EC2.5.1.26 hexadecanol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.042 * +EC2.5.1.26 hexadecyldihydroxyacetone phosphate cavia porcellus//*//* 0.115 * +EC2.5.1.26 octadecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC2.5.1.26 palmitoyldihydroxyacetone phosphate cavia porcellus//*//* 0.045 * +EC2.5.1.26 palmitoyldihydroxyacetone phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.1 * +EC2.5.1.27 1-hydroxy-2-methyl-2-(e)-butenyl 4-diphosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.0082 * +EC2.5.1.27 adp humulus lupulus//*//* 0.0193 * +EC2.5.1.27 adp morus alba//*//* 0.0682 * +EC2.5.1.27 adp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0147 * +EC2.5.1.27 amp agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 8.6e-05 * +EC2.5.1.27 amp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.185 * +EC2.5.1.27 amp humulus lupulus//*//* 0.759 * +EC2.5.1.27 amp nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.0063 * +EC2.5.1.27 amp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.147 * +EC2.5.1.27 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.018 * +EC2.5.1.27 atp humulus lupulus//*//* 0.0162 * +EC2.5.1.27 atp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0051 * +EC2.5.1.27 dimethylallyl diphosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 8e-06 * +EC2.5.1.27 dimethylallyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0065 * +EC2.5.1.27 dimethylallyl diphosphate humulus lupulus//*//* 0.0195 * +EC2.5.1.27 dimethylallyl diphosphate morus alba//*//* 0.0374 * +EC2.5.1.27 dimethylallyl diphosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.02705 * +EC2.5.1.27 dimethylallyl diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0087 * +EC2.5.1.28 dimethylallyl diphosphate solanum habrochaites//*//* 0.112 * +EC2.5.1.28 dimethylallyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.177 * +EC2.5.1.28 isopentenyl diphosphate solanum habrochaites//*//* 0.14 * +EC2.5.1.28 isopentenyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.152 * +EC2.5.1.29 (2e,6e)-farnesyl diphosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0018 * +EC2.5.1.29 (e,e)-farnesyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0032 * +EC2.5.1.29 dimethylallyl diphosphate antirrhinum majus//*//* 0.029 * +EC2.5.1.29 dimethylallyl diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.033 * +EC2.5.1.29 dimethylallyl diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.00095 * +EC2.5.1.29 dimethylallyl diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.0115 * +EC2.5.1.29 dimethylallyl diphosphate kitasatospora griseola//*//* 0.066 * +EC2.5.1.29 dimethylallyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0168 * +EC2.5.1.29 dimethylallyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.062 * +EC2.5.1.29 dimethylallyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0155 * +EC2.5.1.29 dimethylallyl diphosphate picea abies//*//* 0.39 * +EC2.5.1.29 dimethylallyl diphosphate sinapis alba//*//* 0.002 * +EC2.5.1.29 dimethylallyl diphosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0065 * +EC2.5.1.29 dimethylallyl diphosphate taxus baccata//*//* 0.0127 * +EC2.5.1.29 dimethylallyl diphosphate taxus canadensis//*//* 0.127 * +EC2.5.1.29 dimethylallyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0095 * +EC2.5.1.29 farnesyl diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00074 * +EC2.5.1.29 farnesyl diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0012 * +EC2.5.1.29 farnesyl diphosphate cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 0.0017 * +EC2.5.1.29 farnesyl diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.00678 * +EC2.5.1.29 farnesyl diphosphate kitasatospora griseola//*//* 0.121 * +EC2.5.1.29 farnesyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0147 * +EC2.5.1.29 farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0288 * +EC2.5.1.29 farnesyl diphosphate pantoea ananatis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pam 0.011 * +EC2.5.1.29 farnesyl diphosphate phycomyces blakesleeanus//*//* 0.06 * +EC2.5.1.29 farnesyl diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0005 * +EC2.5.1.29 farnesyl diphosphate taxus baccata//*//* 0.00246 * +EC2.5.1.29 farnesyl diphosphate taxus canadensis//*//* 0.0026 * +EC2.5.1.29 farnesyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0017 * +EC2.5.1.29 farnesyl diphosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0019 * +EC2.5.1.29 geranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0133 * +EC2.5.1.29 geranyl diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0008 * +EC2.5.1.29 geranyl diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.001 * +EC2.5.1.29 geranyl diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.00234 * +EC2.5.1.29 geranyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0126 * +EC2.5.1.29 geranyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00236 * +EC2.5.1.29 geranyl diphosphate pantoea ananatis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pam 0.009 * +EC2.5.1.29 geranyl diphosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.00072 * +EC2.5.1.29 geranyl diphosphate taxus canadensis//*//* 0.0077 * +EC2.5.1.29 geranyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0022 * +EC2.5.1.29 isopentenyl diphosphate antirrhinum majus//*//* 0.0093 * +EC2.5.1.29 isopentenyl diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC2.5.1.29 isopentenyl diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.003 * +EC2.5.1.29 isopentenyl diphosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.024 * +EC2.5.1.29 isopentenyl diphosphate kitasatospora griseola//*//* 0.036 * +EC2.5.1.29 isopentenyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0308 * +EC2.5.1.29 isopentenyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.008 * +EC2.5.1.29 isopentenyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0093 * +EC2.5.1.29 isopentenyl diphosphate pantoea ananatis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pam 0.036 * +EC2.5.1.29 isopentenyl diphosphate phycomyces blakesleeanus//*//* 0.009 * +EC2.5.1.29 isopentenyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0029 * +EC2.5.1.29 isopentenyl diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0035 * +EC2.5.1.29 isopentenyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0008 * +EC2.5.1.29 isopentenyl diphosphate sinapis alba//*//* 0.033 * +EC2.5.1.29 isopentenyl diphosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.000361 * +EC2.5.1.29 isopentenyl diphosphate taxus baccata//*//* 0.0015 * +EC2.5.1.29 isopentenyl diphosphate taxus canadensis//*//* 0.039 * +EC2.5.1.29 isopentenyl diphosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0381 * +EC2.5.1.29 mg2+ taxus canadensis//*//* 0.0034 * +EC2.5.1.29 trans,trans-farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00071 * +EC2.5.1.3 2-(4-methyl-1,3-thiazol-5-yl)ethyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC2.5.1.3 2-(4-methyl-1,3-thiazol-5-yl)ethyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.007 * +EC2.5.1.3 2-methyl-4-amino-5-hydroxymethylpyrimidine diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0007 * +EC2.5.1.3 4-amino-5-hydroxymethyl-2-methylpyrimidine diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0128 * +EC2.5.1.3 4-methyl-5-(2-hydroxyethyl)thiazole phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0085 * +EC2.5.1.3 4-methyl-5-beta-hydroxyethylthiazole phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC2.5.1.3 hydroxymethylpyrimidine diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00085 * +EC2.5.1.3 hydroxymethylpyrimidine diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC2.5.1.30 (2e,6e)-farnesyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0071 * +EC2.5.1.30 geranylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0083 * +EC2.5.1.30 isopentenyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0128 * +EC2.5.1.31 (2e,6e)-8-(n-methyl-2-aminobenzoyloxy)-3,7-dimethyl-2,6-octandien-1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0091 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00037 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00011 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.00013 * +EC2.5.1.31 (2e,6e)-farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0036 * +EC2.5.1.31 (2e,6e,10e)-geranylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0093 * +EC2.5.1.31 (2e,6e,10e)-geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0088 * +EC2.5.1.31 (2z,6e,10e)-geranylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0089 * +EC2.5.1.31 (2z,6e,10e)-geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0082 * +EC2.5.1.31 (2z,6e,10e,14e)-farnesylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0588 * +EC2.5.1.31 (2z,6z,10e,14e)-farnesylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0526 * +EC2.5.1.31 (e,e)-(2-diazo-3-trifluoropropionyloxy)geranyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.00017 * +EC2.5.1.31 (e,e)-farnesyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0091 * +EC2.5.1.31 (e,e)-farnesyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.00013 * +EC2.5.1.31 (e,e)-farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.007 * +EC2.5.1.31 (e,e,e)-geranylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0093 * +EC2.5.1.31 (e,e,e)-geranylgeranyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.037 * +EC2.5.1.31 (e,e,e)-geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.008 * +EC2.5.1.31 (z,e)-farnesyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0189 * +EC2.5.1.31 (z,e)-farnesyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.305 * +EC2.5.1.31 (z,e,e)-geranylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0154 * +EC2.5.1.31 (z,e,e)-geranylgeranyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.134 * +EC2.5.1.31 (z,e,e)-geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0082 * +EC2.5.1.31 (z,e,e,e)-farnesylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0588 * +EC2.5.1.31 (z,z,e,e)-farnesylgeranyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0526 * +EC2.5.1.31 7-(2,6-dimethyl-8-diphospho-2,6-octadienyloxy)-8-methyl-4-trifluoromethyl-chromen-2-one geranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00069 * +EC2.5.1.31 farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC2.5.1.31 farnesyl diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00011 * +EC2.5.1.31 farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0036 * +EC2.5.1.31 geranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC2.5.1.31 geranyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.0032 * +EC2.5.1.31 geranylgeranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0003 * +EC2.5.1.31 isopentenyl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0085 * +EC2.5.1.31 isopentenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00041 * +EC2.5.1.31 isopentenyl diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0092 * +EC2.5.1.31 isopentenyl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.00192 * +EC2.5.1.31 isopentenyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0078 * +EC2.5.1.31 isopentenyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.027 * +EC2.5.1.31 neryl diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0267 * +EC2.5.1.31 neryl diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.032 * +EC2.5.1.32 geranyl diphosphate capsicum sp.//*//* 0.001 * +EC2.5.1.32 geranylgeranyl diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.003 * +EC2.5.1.32 geranylgeranyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.005 * +EC2.5.1.32 prephytoene diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0027 * +EC2.5.1.34 2-pentenyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.056 * +EC2.5.1.34 5-hydroxy-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.509 * +EC2.5.1.34 5-hydroxy-l-tryptophan malbranchea aurantiaca//*//* 0.3031 * +EC2.5.1.34 5-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.039 * +EC2.5.1.34 6-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.103 * +EC2.5.1.34 7-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.129 * +EC2.5.1.34 alpha-methyl-dl-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.35 * +EC2.5.1.34 ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.032 * +EC2.5.1.34 cyclo-l-tryptophan-glycine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.439 * +EC2.5.1.34 cyclo-l-tryptophan-l-leucine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.14 * +EC2.5.1.34 cyclo-l-tryptophan-l-proline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.536 * +EC2.5.1.34 cyclo-l-tryptophan-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.326 * +EC2.5.1.34 cyclo-l-tryptophan-l-tyrosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.354 * +EC2.5.1.34 dia-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.055 * +EC2.5.1.34 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.004 * +EC2.5.1.34 dimethylallyl diphosphate claviceps purpurea//*//* 0.008 * +EC2.5.1.34 dimethylallyl diphosphate claviceps sp.//*//* 0.007 * +EC2.5.1.34 ent-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.011 * +EC2.5.1.34 indole-3-propionic acid aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.558 * +EC2.5.1.34 l-abrine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.081 * +EC2.5.1.34 l-beta-homotryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.242 * +EC2.5.1.34 l-tryptophan methyl ester aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.186 * +EC2.5.1.34 l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0067 * +EC2.5.1.34 l-tryptophan claviceps purpurea//*//* 0.012 * +EC2.5.1.34 l-tryptophan claviceps sp.//*//* 0.067 * +EC2.5.1.34 l-tryptophan malbranchea aurantiaca//*//* 0.04888 * +EC2.5.1.34 methylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.04 * +EC2.5.1.34 n-methyl-l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.13 * +EC2.5.1.34 nalpha-methyl-l-tryptophan malbranchea aurantiaca//*//* 0.106 * +EC2.5.1.34 tryptophan claviceps sp.//*//* 0.009 * +EC2.5.1.35 aspulvinone e aspergillus terreus//*//* 0.0137 * +EC2.5.1.35 aspulvinone g aspergillus terreus//*//* 0.0077 * +EC2.5.1.35 dimethylallyl diphosphate aspergillus terreus//*//* 0.04 * +EC2.5.1.36 (6as,11as)-3,6a,9-trihydroxypterocarpan glycine max//eukaryotes;plants;eudicots;pea family//gmx 45.0 * +EC2.5.1.36 (6as,11as)-3,9,6a-trihydroxypterocarpan glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.068 * +EC2.5.1.36 dimethylallyl diphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.15 * +EC2.5.1.39 4-hydroxybenzoate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00604 * +EC2.5.1.39 4-hydroxybenzoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.054 * +EC2.5.1.39 4-hydroxybenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00114 * +EC2.5.1.39 farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.5.1.39 geranyl diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0597 * +EC2.5.1.39 geranylgeranyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.254 * +EC2.5.1.39 nonaprenyl diphosphate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.14 * +EC2.5.1.39 nonaprenyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000833 * +EC2.5.1.39 solanesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.031 * +EC2.5.1.4 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.5.1.4 s-adenosyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC2.5.1.41 geranylgeranyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0041 * +EC2.5.1.41 geranylgeranyl diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 7.5e-05 * +EC2.5.1.41 sn-glycerol 1-phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.041 * +EC2.5.1.41 sn-glycerol 1-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0212 * +EC2.5.1.44 nad+ blastochloris viridis//prokaryotes;bacteria;alphaproteobacteria;blastochloris//bvr 0.001 * +EC2.5.1.44 putrescine acinetobacter tartarogenes//*//* 0.28 * +EC2.5.1.44 putrescine blastochloris viridis//prokaryotes;bacteria;alphaproteobacteria;blastochloris//bvr 0.2 * +EC2.5.1.44 putrescine bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.05 * +EC2.5.1.44 putrescine lathyrus sativus//*//* 3.0 * +EC2.5.1.44 spermidine blastochloris viridis//prokaryotes;bacteria;alphaproteobacteria;blastochloris//bvr 1.5 * +EC2.5.1.45 nad+ eupatorium cannabinum//*//* 0.003 * +EC2.5.1.45 putrescine eupatorium cannabinum//*//* 0.0135 * +EC2.5.1.45 spermidine eupatorium cannabinum//*//* 0.012 * +EC2.5.1.46 1,3-diaminopropane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0954 * +EC2.5.1.46 [eif5a-1-precursor]-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.5.1.46 [eif5a-2-precursor]-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0083 * +EC2.5.1.46 [eif5a-precursor]-deoxyhypusine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC2.5.1.46 [eif5a-precursor]-lysine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.00091 * +EC2.5.1.46 [eif5a-precursor]-lysine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0007 * +EC2.5.1.46 eif5a-precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC2.5.1.46 eif5a-precursor rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8e-05 * +EC2.5.1.46 eif5a-precursor senecio vernalis//*//* 0.0013 * +EC2.5.1.46 eif5a leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.00177 * +EC2.5.1.46 homospermine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0193 * +EC2.5.1.46 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC2.5.1.46 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.5.1.46 putrescine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.5.1.46 spermidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.0123 * +EC2.5.1.46 spermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC2.5.1.46 spermidine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0072 * +EC2.5.1.46 spermidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.46 spermidine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.043 * +EC2.5.1.47 5-thio-2-nitrobenzoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.12 * +EC2.5.1.47 5-thio-2-nitrobenzoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.049 * +EC2.5.1.47 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.5.1.47 acetyl-coa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.12 * +EC2.5.1.47 chloroalanine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.785 * +EC2.5.1.47 cn- solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 14.2 * +EC2.5.1.47 cysteine arabidopsis sp.//*//* 0.0526 * +EC2.5.1.47 cysteine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0384 * +EC2.5.1.47 cysteine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.108 * +EC2.5.1.47 dithiothreitol lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.7 * +EC2.5.1.47 h2s lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 6.7 * +EC2.5.1.47 h2s streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.12 * +EC2.5.1.47 hydrogen sulfide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.0 * +EC2.5.1.47 hydrogen sulfide streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.12 * +EC2.5.1.47 l-cys lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.7 * +EC2.5.1.47 l-cys trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.8 * +EC2.5.1.47 l-cysteine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.25 * +EC2.5.1.47 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.5.1.47 l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.7 * +EC2.5.1.47 na2s trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.029 * +EC2.5.1.47 nacn enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 5.2 * +EC2.5.1.47 nan3 hordeum vulgare//*//* 2.3 * +EC2.5.1.47 o-acetyl-l-ser aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 24.0 * +EC2.5.1.47 o-acetyl-l-ser allium tuberosum//*//* 9.0 * +EC2.5.1.47 o-acetyl-l-ser allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 1.0 * +EC2.5.1.47 o-acetyl-l-ser arabidopsis sp.//*//* 0.7 * +EC2.5.1.47 o-acetyl-l-ser brassica juncea//*//* 2.5 * +EC2.5.1.47 o-acetyl-l-ser capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 2.0 * +EC2.5.1.47 o-acetyl-l-ser chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.0 * +EC2.5.1.47 o-acetyl-l-ser citrullus lanatus subsp. vulgaris//*//* 1.5 * +EC2.5.1.47 o-acetyl-l-ser enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 6.7 * +EC2.5.1.47 o-acetyl-l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC2.5.1.47 o-acetyl-l-ser hordeum vulgare//*//* 8.2 * +EC2.5.1.47 o-acetyl-l-ser lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.6 * +EC2.5.1.47 o-acetyl-l-ser lathyrus sativus//*//* 2.1 * +EC2.5.1.47 o-acetyl-l-ser paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 2.7 * +EC2.5.1.47 o-acetyl-l-ser penicillium chrysogenum//*//* 1.3 * +EC2.5.1.47 o-acetyl-l-ser pisum sativum//*//* 2.1 * +EC2.5.1.47 o-acetyl-l-ser raphanus sativus//*//* 2.17 * +EC2.5.1.47 o-acetyl-l-ser rhodocyclus tenuis//*//* 2.9 * +EC2.5.1.47 o-acetyl-l-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.12 * +EC2.5.1.47 o-acetyl-l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.0 * +EC2.5.1.47 o-acetyl-l-ser spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.3 * +EC2.5.1.47 o-acetyl-l-ser synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.7 * +EC2.5.1.47 o-acetyl-l-ser thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.8 * +EC2.5.1.47 o-acetyl-l-ser trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 39.5 * +EC2.5.1.47 o-acetyl-l-ser trifolium repens//*//* 3.5 * +EC2.5.1.47 o-acetyl-l-ser triticum aestivum//*//* 0.037 * +EC2.5.1.47 o-acetyl-l-ser xanthium pennsylvanicum//*//* 0.045 * +EC2.5.1.47 o-acetyl-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.46 * +EC2.5.1.47 o-acetyl-l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.5.1.47 o-acetyl-l-serine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.063 * +EC2.5.1.47 o-acetyl-l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 15.0 * +EC2.5.1.47 o-acetyl-l-serine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.83 * +EC2.5.1.47 o-acetylhomoserine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.67 * +EC2.5.1.47 o-acetylserine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.03 * +EC2.5.1.47 o-phosphoserine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 227.0 * +EC2.5.1.47 o3-acetyl-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.31 * +EC2.5.1.47 o3-acetyl-l-serine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 7.0 * +EC2.5.1.47 o3-acetyl-l-serine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.36 * +EC2.5.1.47 o3-acetyl-l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.749 * +EC2.5.1.47 s2- allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.4 * +EC2.5.1.47 s2- brassica juncea//*//* 0.043 * +EC2.5.1.47 s2- capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.02 * +EC2.5.1.47 s2- chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.75 * +EC2.5.1.47 s2- citrullus lanatus subsp. vulgaris//*//* 0.033 * +EC2.5.1.47 s2- enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 0.5 * +EC2.5.1.47 s2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC2.5.1.47 s2- methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.5 * +EC2.5.1.47 s2- paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.25 * +EC2.5.1.47 s2- penicillium chrysogenum//*//* 0.25 * +EC2.5.1.47 s2- pisum sativum//*//* 0.033 * +EC2.5.1.47 s2- rhodocyclus tenuis//*//* 0.6 * +EC2.5.1.47 s2- salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC2.5.1.47 s2- solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.998 * +EC2.5.1.47 s2- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.022 * +EC2.5.1.47 s2- synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.8 * +EC2.5.1.47 s2- thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.05 * +EC2.5.1.47 s2- trifolium repens//*//* 0.51 * +EC2.5.1.47 s2- triticum aestivum//*//* 0.59 * +EC2.5.1.47 sodium thiosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.133 * +EC2.5.1.47 sulfide corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.031 * +EC2.5.1.47 sulfide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.062 * +EC2.5.1.47 thiosulfate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 21.0 * +EC2.5.1.47 thiosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.93 * +EC2.5.1.47 thiosulfate streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 22.0 * +EC2.5.1.48 2-mercaptoethanol nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.6 * +EC2.5.1.48 ch3sh salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 100.0 * +EC2.5.1.48 h2s salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.0 * +EC2.5.1.48 l-cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.5.1.48 l-cysteine methyl ester nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.89 * +EC2.5.1.48 l-cysteine astragalus racemosus//*//* 0.14 * +EC2.5.1.48 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.5.1.48 l-cysteine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.23 * +EC2.5.1.48 l-cysteine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 4.07 * +EC2.5.1.48 l-cysteine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.18 * +EC2.5.1.48 l-cysteine triticum aestivum//*//* 0.5 * +EC2.5.1.48 l-selenocysteine astragalus racemosus//*//* 0.07 * +EC2.5.1.48 o-acetyl-l-homoserine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 64.5 * +EC2.5.1.48 o-acetyl-l-homoserine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 64.5 * +EC2.5.1.48 o-phospho-l-homoserine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 7.1 * +EC2.5.1.48 o-phospho-l-homoserine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.4 * +EC2.5.1.48 o-phospho-l-homoserine triticum aestivum//*//* 3.6 * +EC2.5.1.48 o-phospho-l-serine astragalus racemosus//*//* 2.85 * +EC2.5.1.48 o-succinyl-l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.5.1.48 o-succinyl-l-homoserine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.02 * +EC2.5.1.48 o-succinyl-l-homoserine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 45.5 * +EC2.5.1.48 o-succinyl-l-homoserine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.32 * +EC2.5.1.48 o-succinyl-l-homoserine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 45.5 * +EC2.5.1.48 o-succinyl-l-homoserine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.05 * +EC2.5.1.48 o-succinyl-l-homoserine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 13.34 * +EC2.5.1.48 o-succinyl-l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.7 * +EC2.5.1.48 s2- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.6 * +EC2.5.1.48 sodium sulfide nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.55 * +EC2.5.1.49 ethanol corynebacterium acetophilum//*//* 40.0 * +EC2.5.1.49 h2s brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.083 * +EC2.5.1.49 h2s corynebacterium acetophilum//*//* 2.4 * +EC2.5.1.49 h2s neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.7 * +EC2.5.1.49 h2s schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.053 * +EC2.5.1.49 h2s thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.3 * +EC2.5.1.49 l-homocysteine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.17 * +EC2.5.1.49 l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 10.4 * +EC2.5.1.49 l-serine-o-sulfate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC2.5.1.49 methyl-mercaptan neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.8 * +EC2.5.1.49 na2se saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC2.5.1.49 nahse saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC2.5.1.49 o-acetyl-l-homoserine brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 2.0 * +EC2.5.1.49 o-acetyl-l-homoserine corynebacterium acetophilum//*//* 1.1 * +EC2.5.1.49 o-acetyl-l-homoserine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.87 * +EC2.5.1.49 o-acetyl-l-homoserine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 7.0 * +EC2.5.1.49 o-acetyl-l-homoserine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.1 * +EC2.5.1.49 o-acetyl-l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 12.5 * +EC2.5.1.49 o-acetyl-l-homoserine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.0 * +EC2.5.1.49 o-acetyl-l-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.6 * +EC2.5.1.49 o-acetyl-l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5 * +EC2.5.1.49 o-succinyl-l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 11.1 * +EC2.5.1.49 s2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.52 * +EC2.5.1.49 se2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.9 * +EC2.5.1.50 adenine lupinus luteus//*//* 26.0 * +EC2.5.1.50 o-acetyl-serine lupinus luteus//*//* 0.047 * +EC2.5.1.50 o-glycosylzeatin lupinus luteus//*//* 2.5 * +EC2.5.1.50 zeatin lupinus luteus//*//* 0.88 * +EC2.5.1.51 o-acetylserine citrullus lanatus subsp. vulgaris//*//* 2.5 * +EC2.5.1.51 pyrazole citrullus lanatus subsp. vulgaris//*//* 74.0 * +EC2.5.1.52 3,4-dihydroxypyridine leucaena leucocephala//*//* 5.0 * +EC2.5.1.52 o-acetylserine leucaena leucocephala//*//* 6.25 * +EC2.5.1.53 uracil pisum sativum//*//* 3.3 * +EC2.5.1.54 (3s)-2-deoxyerythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.65 * +EC2.5.1.54 2-deoxy-d-erythrose 4-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.006 * +EC2.5.1.54 2-deoxy-d-ribose 5-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.5 * +EC2.5.1.54 d-arabinose 5-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.7 * +EC2.5.1.54 d-erythrose 4-phosphate actinosynnema pretiosum subsp. auranticum//*//* 0.43 * +EC2.5.1.54 d-erythrose 4-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.28 * +EC2.5.1.54 d-erythrose 4-phosphate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.25 * +EC2.5.1.54 d-erythrose 4-phosphate amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 1.1 * +EC2.5.1.54 d-erythrose 4-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.4 * +EC2.5.1.54 d-erythrose 4-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.018 * +EC2.5.1.54 d-erythrose 4-phosphate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.055 * +EC2.5.1.54 d-erythrose 4-phosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.07 * +EC2.5.1.54 d-erythrose 4-phosphate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.77 * +EC2.5.1.54 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC2.5.1.54 d-erythrose 4-phosphate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.16 * +EC2.5.1.54 d-erythrose 4-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.037 * +EC2.5.1.54 d-erythrose 4-phosphate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 3.638 * +EC2.5.1.54 d-erythrose 4-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.56 * +EC2.5.1.54 d-erythrose 4-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.009 * +EC2.5.1.54 d-erythrose 4-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC2.5.1.54 d-erythrose 4-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.013 * +EC2.5.1.54 d-erythrose 4-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.95 * +EC2.5.1.54 d-erythrose 4-phosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.195 * +EC2.5.1.54 d-erythrose 4-phosphate streptomyces rimosus//*//* 0.0026 * +EC2.5.1.54 d-erythrose 4-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.013 * +EC2.5.1.54 d-erythrose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.5 * +EC2.5.1.54 d-glyceraldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.5 * +EC2.5.1.54 d-ribose 5-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.58 * +EC2.5.1.54 d-threose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 8.4 * +EC2.5.1.54 dl-glyceraldehyde 3-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.0 * +EC2.5.1.54 erythrose 4-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.006 * +EC2.5.1.54 glycolaldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 8.6 * +EC2.5.1.54 glyoxylate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.6 * +EC2.5.1.54 l-erythrose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 5.1 * +EC2.5.1.54 l-glyceraldehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.3 * +EC2.5.1.54 l-threose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 13.9 * +EC2.5.1.54 phosphoenolpyruvate actinosynnema pretiosum subsp. auranticum//*//* 0.09 * +EC2.5.1.54 phosphoenolpyruvate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.891 * +EC2.5.1.54 phosphoenolpyruvate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.4 * +EC2.5.1.54 phosphoenolpyruvate amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.4 * +EC2.5.1.54 phosphoenolpyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.139 * +EC2.5.1.54 phosphoenolpyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0032 * +EC2.5.1.54 phosphoenolpyruvate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.043 * +EC2.5.1.54 phosphoenolpyruvate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.03 * +EC2.5.1.54 phosphoenolpyruvate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.2 * +EC2.5.1.54 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0058 * +EC2.5.1.54 phosphoenolpyruvate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.003 * +EC2.5.1.54 phosphoenolpyruvate kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.3 * +EC2.5.1.54 phosphoenolpyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.011 * +EC2.5.1.54 phosphoenolpyruvate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 2.724 * +EC2.5.1.54 phosphoenolpyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC2.5.1.54 phosphoenolpyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.033 * +EC2.5.1.54 phosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.018 * +EC2.5.1.54 phosphoenolpyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.015 * +EC2.5.1.54 phosphoenolpyruvate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.092 * +EC2.5.1.54 phosphoenolpyruvate streptomyces rimosus//*//* 0.0067 * +EC2.5.1.54 phosphoenolpyruvate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00485 * +EC2.5.1.55 2-deoxy-d-ribose 5-phosphate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 5.0 * +EC2.5.1.55 2-deoxy-d-ribose 5-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.23 * +EC2.5.1.55 2-deoxyribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.5.1.55 d-arabinose 5-phosphate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.021 * +EC2.5.1.55 d-arabinose 5-phosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0005 * +EC2.5.1.55 d-arabinose 5-phosphate aquifex pyrophilus//*//* 0.067 * +EC2.5.1.55 d-arabinose 5-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0038 * +EC2.5.1.55 d-arabinose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00773 * +EC2.5.1.55 d-arabinose 5-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00593 * +EC2.5.1.55 d-arabinose 5-phosphate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.0085 * +EC2.5.1.55 d-arabinose 5-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.0025 * +EC2.5.1.55 d-arabinose 5-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0044 * +EC2.5.1.55 l-xylose 5-phosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.057 * +EC2.5.1.55 phosphoenolpyruvate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.012 * +EC2.5.1.55 phosphoenolpyruvate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 6.6e-06 * +EC2.5.1.55 phosphoenolpyruvate aquifex pyrophilus//*//* 0.026 * +EC2.5.1.55 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0036 * +EC2.5.1.55 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00443 * +EC2.5.1.55 phosphoenolpyruvate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0026 * +EC2.5.1.55 phosphoenolpyruvate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.0031 * +EC2.5.1.55 phosphoenolpyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.001 * +EC2.5.1.55 phosphoenolpyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0028 * +EC2.5.1.56 n-acetyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 17.6 * +EC2.5.1.56 n-acetyl-d-mannosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC2.5.1.56 n-acetyl-d-mannosamine neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 6.25 * +EC2.5.1.56 n-butanoyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 15.0 * +EC2.5.1.56 n-pentanoyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 31.1 * +EC2.5.1.56 n-propanoyl-d-mannosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 5.5 * +EC2.5.1.56 phosphoenolpyruvate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 7.3 * +EC2.5.1.56 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.5.1.56 phosphoenolpyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.042 * +EC2.5.1.57 d-mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.62 * +EC2.5.1.57 n-acetyl-d-mannosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.04 * +EC2.5.1.57 n-acetyl-d-mannosamine 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC2.5.1.57 n-acetyl-d-mannosamine 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.69 * +EC2.5.1.57 n-glycolyl-d-mannosamine 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC2.5.1.57 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-(2,3,5,6-tetrafluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0512 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-(phenylamino)octa-2,6-dien-1-yl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0004 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-(phenylsulfanyl)octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(2-methylphenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(3-methylphenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00017 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(4-methylphenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[(4-nitrophenyl)amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[3-(1-methylethyl)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[3-(trifluoromethoxy)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[3-(trifluoromethyl)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[4-(1-methylethyl)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0214 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[4-(trifluoromethoxy)phenoxy]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[[2-(trifluoromethyl)phenyl]amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[[3-(trifluoromethoxy)phenyl]amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-[[4-(trifluoromethoxy)phenyl]amino]octa-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-8-phenoxyocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.5.1.58 (2e,6e)-3,7-dimethyl-9-phenylnona-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC2.5.1.58 (2e,6e)-8-(2,3-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC2.5.1.58 (2e,6e)-8-(2,6-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0165 * +EC2.5.1.58 (2e,6e)-8-(2-bromophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC2.5.1.58 (2e,6e)-8-(2-ethylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC2.5.1.58 (2e,6e)-8-(2-fluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC2.5.1.58 (2e,6e)-8-(2-iodophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0032 * +EC2.5.1.58 (2e,6e)-8-(3,4-dichlorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC2.5.1.58 (2e,6e)-8-(3,4-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC2.5.1.58 (2e,6e)-8-(3,5-dichlorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC2.5.1.58 (2e,6e)-8-(3,5-difluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC2.5.1.58 (2e,6e)-8-(3-bromophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.5.1.58 (2e,6e)-8-(3-cyanophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00042 * +EC2.5.1.58 (2e,6e)-8-(3-ethylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC2.5.1.58 (2e,6e)-8-(3-fluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC2.5.1.58 (2e,6e)-8-(3-iodophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0004 * +EC2.5.1.58 (2e,6e)-8-(4-benzylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC2.5.1.58 (2e,6e)-8-(4-bromophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0187 * +EC2.5.1.58 (2e,6e)-8-(4-cyanophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC2.5.1.58 (2e,6e)-8-(4-ethylphenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0044 * +EC2.5.1.58 (2e,6e)-8-(4-fluorophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC2.5.1.58 (2e,6e)-8-(4-iodophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC2.5.1.58 (2e,6e)-8-(4-nitrophenoxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0063 * +EC2.5.1.58 (2e,6e)-8-(benzyloxy)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.58 (2e,6e)-8-(isoxazol-3-ylamino)-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC2.5.1.58 (2e,6e)-8-[(2-ethylphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC2.5.1.58 (2e,6e)-8-[(2-fluorophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC2.5.1.58 (2e,6e)-8-[(2-methoxyphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC2.5.1.58 (2e,6e)-8-[(3-bromophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.58 (2e,6e)-8-[(3-cyanophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.5.1.58 (2e,6e)-8-[(3-ethylphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC2.5.1.58 (2e,6e)-8-[(3-fluorophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00034 * +EC2.5.1.58 (2e,6e)-8-[(3-iodophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC2.5.1.58 (2e,6e)-8-[(3-methoxyphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0043 * +EC2.5.1.58 (2e,6e)-8-[(4-bromophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC2.5.1.58 (2e,6e)-8-[(4-cyanophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0102 * +EC2.5.1.58 (2e,6e)-8-[(4-fluorophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00026 * +EC2.5.1.58 (2e,6e)-8-[(4-iodophenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC2.5.1.58 (2e,6e)-8-[(4-methoxyphenyl)amino]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.5.1.58 (2e,6e)-8-[3-(hydroxymethyl)phenoxy]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.5.1.58 (2e,6e)-8-[4-(hydroxymethyl)phenoxy]-3,7-dimethylocta-2,6-dien-1-yl trihydrogen diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.5.1.58 (2e,6e)-farnesyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00076 * +EC2.5.1.58 (2e,6e)-farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC2.5.1.58 (e)-[4-[(3,7-dimethylocta-2,6-dien-1-yl)oxy]phenyl]-methanyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC2.5.1.58 10-benzyloxy-3-methyl-2-decen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.089 * +EC2.5.1.58 6-benzyloxy-3-methyl-2-hexen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.89 * +EC2.5.1.58 7-benzyloxy-3-methyl-2-hepten-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.5.1.58 8-benzyloxy-3-methyl-2-octen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC2.5.1.58 9-benzyloxy-3-methyl-2-nonen-1-ol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.091 * +EC2.5.1.58 [3-[(3-phenoxyphenoxy)methyl]phenyl]-methanyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC2.5.1.58 aaa-gpp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003976 * +EC2.5.1.58 apo-gpp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.84e-05 * +EC2.5.1.58 dansyl-gly-cys-lys-thr-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC2.5.1.58 dansyl-gly-cys-lys-val-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC2.5.1.58 dansyl-gly-cys-val-ile-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00014 * +EC2.5.1.58 dansyl-gly-cys-val-leu-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC2.5.1.58 farnesyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003703 * +EC2.5.1.58 farnesyl diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.383e-05 * +EC2.5.1.58 farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC2.5.1.58 farnesyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00042 * +EC2.5.1.58 geranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC2.5.1.58 geranylgeranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.5.1.58 gst-ciis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0051 * +EC2.5.1.58 hom-gpp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.86e-05 * +EC2.5.1.58 kgcvim aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00131 * +EC2.5.1.58 kgcvvm aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00184 * +EC2.5.1.58 n-dansyl-gcvia saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.006 * +EC2.5.1.58 yrasnrscaim plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00064 * +EC2.5.1.59 (biotin-conh-(ch2)5-co-)-npfrekkffcai-leu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00027 * +EC2.5.1.59 3,7,11-trimethyl-12-(7-nitro-benzo[1,2,5]-oxadiazo-4-ylamino)-dodeca-2,6,10-trien-1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-05 * +EC2.5.1.59 arg-arg-cys-val-leu-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-05 * +EC2.5.1.59 asp-asp-pro-thr-ala-ser-ala-cys-val-leu-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.33e-06 * +EC2.5.1.59 dansyl-gly-cys-ile-ile-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0018 * +EC2.5.1.59 geranylgeranyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.934e-05 * +EC2.5.1.59 geranylgeranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3e-06 * +EC2.5.1.59 geranylgeranyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1e-05 * +EC2.5.1.59 glutathione s-transferase-gcvkikkcvil saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00143 * +EC2.5.1.59 gst-cdc42 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.016 * +EC2.5.1.59 gst-rhoa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC2.5.1.59 ki-ras4a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC2.5.1.59 ki-ras4b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.5.1.59 lys-lys-cys-ile-ile-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00013 * +EC2.5.1.59 lys-pro-cys-val-val-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.5.1.59 n-ras homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC2.5.1.59 phe-phe-cys-ala-ile-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.5.1.59 ras-cys-val-leu-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC2.5.1.59 ras-cys-val-leu-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC2.5.1.59 ser-ser-cys-ile-leu-leu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC2.5.1.6 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.92 * +EC2.5.1.6 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.5.1.6 atp catharanthus roseus//*//* 0.18 * +EC2.5.1.6 atp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.07 * +EC2.5.1.6 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC2.5.1.6 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC2.5.1.6 atp lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 2.84 * +EC2.5.1.6 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.22 * +EC2.5.1.6 atp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.076 * +EC2.5.1.6 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.115 * +EC2.5.1.6 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.5.1.6 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.5.1.6 atp streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.34 * +EC2.5.1.6 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0145 * +EC2.5.1.6 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 6.54 * +EC2.5.1.6 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.19 * +EC2.5.1.6 ctp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.4 * +EC2.5.1.6 d-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.5 * +EC2.5.1.6 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.62 * +EC2.5.1.6 itp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.4 * +EC2.5.1.6 l-ethionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.74 * +EC2.5.1.6 l-ethionine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0056 * +EC2.5.1.6 l-methionine methyl esther methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.6 * +EC2.5.1.6 l-methionine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.26 * +EC2.5.1.6 l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC2.5.1.6 l-methionine catharanthus roseus//*//* 0.1 * +EC2.5.1.6 l-methionine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.51 * +EC2.5.1.6 l-methionine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.096 * +EC2.5.1.6 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.5.1.6 l-methionine felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.0029 * +EC2.5.1.6 l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC2.5.1.6 l-methionine lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 1.47 * +EC2.5.1.6 l-methionine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.04 * +EC2.5.1.6 l-methionine macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.003 * +EC2.5.1.6 l-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.14 * +EC2.5.1.6 l-methionine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.288 * +EC2.5.1.6 l-methionine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.031 * +EC2.5.1.6 l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC2.5.1.6 l-methionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.12 * +EC2.5.1.6 l-methionine streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.11 * +EC2.5.1.6 l-methionine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0023 * +EC2.5.1.6 l-methionine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.31 * +EC2.5.1.6 l-methionine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.2 * +EC2.5.1.6 methionine pisum sativum//*//* 0.4 * +EC2.5.1.6 methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0083 * +EC2.5.1.6 mg2+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.5.1.6 mgatp2- pisum sativum//*//* 0.3 * +EC2.5.1.6 tripolyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.5.1.6 utp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.2 * +EC2.5.1.60 geranylgeranyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-05 * +EC2.5.1.60 geranylgeranyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0016 * +EC2.5.1.60 rab3a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-05 * +EC2.5.1.60 ypt1p saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0011 * +EC2.5.1.61 hydroxymethylbilane chlorella regularis//*//* 0.085 * +EC2.5.1.61 hydroxymethylbilane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC2.5.1.61 hydroxymethylbilane rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.013 * +EC2.5.1.61 porphobilinogen arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.017 * +EC2.5.1.61 porphobilinogen chlorella regularis//*//* 0.089 * +EC2.5.1.61 porphobilinogen desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 0.214 * +EC2.5.1.61 porphobilinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC2.5.1.61 porphobilinogen mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.037 * +EC2.5.1.61 porphobilinogen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC2.5.1.61 porphobilinogen rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.02 * +EC2.5.1.61 porphobilinogen saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC2.5.1.61 porphobilinogen spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.072 * +EC2.5.1.61 porphobilinogen tetradesmus obliquus//*//* 0.079 * +EC2.5.1.61 porphobilinogen triticum aestivum//*//* 0.05 * +EC2.5.1.63 fluoride streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 8.56 * +EC2.5.1.63 s-adenosyl-l-methionine streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.0065 * +EC2.5.1.65 hydrogen sulfide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.25 * +EC2.5.1.65 o-acetyl-l-serine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 21.0 * +EC2.5.1.65 o-phospho-l-serine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 200.0 * +EC2.5.1.65 sulfide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.2 * +EC2.5.1.68 (e)-geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.038 * +EC2.5.1.68 (e)-neryl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.016 * +EC2.5.1.68 geranyl diphosphate corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 0.0041 * +EC2.5.1.68 geranyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0068 * +EC2.5.1.68 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0078 * +EC2.5.1.68 geranyl diphosphate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.0023 * +EC2.5.1.68 isopentenyl diphosphate corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 0.0027 * +EC2.5.1.68 isopentenyl diphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0067 * +EC2.5.1.68 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0045 * +EC2.5.1.68 isopentenyl diphosphate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.0012 * +EC2.5.1.69 dimethylallyl diphosphate lavandula x intermedia//*//* 0.208 * +EC2.5.1.7 phosphoenolpyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.008 * +EC2.5.1.7 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC2.5.1.7 phosphoenolpyruvate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.024 * +EC2.5.1.7 phosphoenolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.199 * +EC2.5.1.7 phosphoenolpyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.121 * +EC2.5.1.7 phosphoenolpyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00045 * +EC2.5.1.7 phosphoenolpyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.01148 * +EC2.5.1.7 phosphoenolpyruvate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.011 * +EC2.5.1.7 udp-glcnac enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.08 * +EC2.5.1.7 udp-glcnac escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0057 * +EC2.5.1.7 udp-glcnac streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.12 * +EC2.5.1.7 udp-n-acetyl-alpha-d-glucosamine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.743 * +EC2.5.1.7 udp-n-acetyl-alpha-d-glucosamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.32 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.08 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.031 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0178 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1239 * +EC2.5.1.7 udp-n-acetyl-d-glucosamine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.244 * +EC2.5.1.70 (2s)-naringenin sophora flavescens//*//* 0.036 * +EC2.5.1.70 3,3-dimethylallyl diphosphate sophora flavescens//*//* 0.025 * +EC2.5.1.70 naringenin sophora flavescens//*//* 0.055 * +EC2.5.1.71 dimethylallyl diphosphate sophora flavescens//*//* 0.059 * +EC2.5.1.71 leachianone g sophora flavescens//*//* 0.0023 * +EC2.5.1.72 dihydroxyacetone phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.36 * +EC2.5.1.75 delta2-isopentenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000632 * +EC2.5.1.75 delta2-isopentenyl diphosphate lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.003 * +EC2.5.1.75 dimethylallyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0032 * +EC2.5.1.75 gcggacucaaaauccgc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0065 * +EC2.5.1.75 ggccauugaaaauggcc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC2.5.1.75 gggaauugaaaauuccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.5.1.75 gggcauugaaaaugccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.5.1.75 ggggauugaaaaagggg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC2.5.1.75 ggggauugaaaaucccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0047 * +EC2.5.1.75 ggggauugaaagucccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0033 * +EC2.5.1.75 ggggauugagaaucccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC2.5.1.75 ggggguugaaaaccccc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.059 * +EC2.5.1.75 seventeen-base rna oligonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.2 * +EC2.5.1.75 trna lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.013 * +EC2.5.1.75 trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.6e-05 * +EC2.5.1.76 l-phosphoserine methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 0.43 * +EC2.5.1.78 (3s)-3,4-dihydroxy-2-butanone bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.13 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.01 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00857 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.004 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione brucella sp.//*//* 0.09 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0042 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.0025 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0125 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.005 * +EC2.5.1.78 5-amino-6-ribitylamino-2,4(1h,3h)-pyrimidinedione spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.02 * +EC2.5.1.78 5-nitro-6-ribitylamino-2,4(1h,3h)-pyrimidinedione bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.005 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.026 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0052 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.225 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate brucella sp.//*//* 0.125 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.062 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.015 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.052 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0052 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.067 * +EC2.5.1.78 l-3,4-dihydroxybutan-2-one 4-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.026 * +EC2.5.1.79 s-adenosyl-l-methioninamine thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 0.091 * +EC2.5.1.79 spermidine thalassiosira pseudonana//eukaryotes;protists;stramenopiles;diatoms//tps 0.104 * +EC2.5.1.80 ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.1 * +EC2.5.1.80 biochanin a aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.07 * +EC2.5.1.80 dia,ent-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.34 * +EC2.5.1.80 dia-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.18 * +EC2.5.1.80 dimethylallyl diphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.067 * +EC2.5.1.80 dimethylallyl diphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.71 * +EC2.5.1.80 ent-ardeemin fumiquinazoline aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.14 * +EC2.5.1.80 eriodictyol aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.26 * +EC2.5.1.80 genistein aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.16 * +EC2.5.1.80 hesperetin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.1 * +EC2.5.1.80 l-tryptophan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.137 * +EC2.5.1.80 l-tryptophan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.19 * +EC2.5.1.80 naringenin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.99 * +EC2.5.1.80 phloretin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.13 * +EC2.5.1.81 geranylgeranyl diphosphate leucosceptrum canum//*//* 0.00165 * +EC2.5.1.81 isopentenyl diphosphate leucosceptrum canum//*//* 0.00304 * +EC2.5.1.83 (2e,6e)-farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0089 * +EC2.5.1.83 geranylgeranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0124 * +EC2.5.1.83 isopentenyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0184 * +EC2.5.1.84 all-trans-farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.00025 * +EC2.5.1.84 all-trans-farnesyl methylenediphosphonate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.001 * +EC2.5.1.84 farnesyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0052 * +EC2.5.1.84 farnesyl imidodiphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0057 * +EC2.5.1.84 farnesyl phosphosulfate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0133 * +EC2.5.1.84 geranyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.00075 * +EC2.5.1.84 geranyl imidodiphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0077 * +EC2.5.1.84 geranyl methylenediphosphonate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0054 * +EC2.5.1.84 geranyl phosphosulfate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0909 * +EC2.5.1.84 isopentenyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.017 * +EC2.5.1.85 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00689 * +EC2.5.1.85 farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00512 * +EC2.5.1.85 farnesyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.00459 * +EC2.5.1.85 geranyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0548 * +EC2.5.1.85 geranylgeranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.000565 * +EC2.5.1.85 geranylgeranyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.00707 * +EC2.5.1.85 isopentenyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0289 * +EC2.5.1.85 isopentenyl diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0192 * +EC2.5.1.86 (2e,6e)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.084 * +EC2.5.1.86 (2z,6e)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.29 * +EC2.5.1.86 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.49 * +EC2.5.1.86 geranylgeranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC2.5.1.86 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.089 * +EC2.5.1.86 neryl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.029 * +EC2.5.1.87 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00013 * +EC2.5.1.87 (2e,6e)-farnesyl diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC2.5.1.87 dimethylallyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0094 * +EC2.5.1.87 farnesyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.00096 * +EC2.5.1.87 geranyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.00175 * +EC2.5.1.87 geranylgeranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00362 * +EC2.5.1.87 isopentenyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.023 * +EC2.5.1.87 isopentenyl diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.000532 * +EC2.5.1.87 isopentenyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.00588 * +EC2.5.1.9 6,7-dimethyl-8-(1'-d-ribityl)lumazine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.013 * +EC2.5.1.9 6,7-dimethyl-8-(1'-d-ribityl)lumazine eremothecium gossypii//*//* 0.029 * +EC2.5.1.9 6,7-dimethyl-8-(1'-d-ribityl)lumazine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC2.5.1.9 6,7-dimethyl-8-(1'-d-ribityl)lumazine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.045 * +EC2.5.1.90 (2e,6e)-farnesyl diphosphate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00025 * +EC2.5.1.90 (2e,6e)-farnesyl diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0011 * +EC2.5.1.90 (2e,6e)-farnesyl diphosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0015 * +EC2.5.1.90 isopentenyl diphosphate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00018 * +EC2.5.1.90 isopentenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC2.5.1.90 isopentenyl diphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0024 * +EC2.5.1.90 isopentenyl diphosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.002 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0005 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.084 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 6e-05 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0131 * +EC2.5.1.91 (2e,6e)-farnesyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00863 * +EC2.5.1.91 (2e,6e,10e)-geranylgeranyl diphosphate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.00032 * +EC2.5.1.91 (2e,6e,10e)-geranylgeranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC2.5.1.91 (2e,6e,10e)-geranylgeranyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0115 * +EC2.5.1.91 (2e,6e,10e)-geranylgeranyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00418 * +EC2.5.1.91 (2e,6z)-farnesyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.29 * +EC2.5.1.91 all-e-geranylgeranyl diphosphate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0029 * +EC2.5.1.91 geranyl diphosphate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.007 * +EC2.5.1.91 geranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.49 * +EC2.5.1.91 geranyl diphosphate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.005 * +EC2.5.1.91 geranyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0185 * +EC2.5.1.91 geranyl geranyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0115 * +EC2.5.1.91 geranylgeranyl diphosphate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.00032 * +EC2.5.1.91 isopentenyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.089 * +EC2.5.1.91 isopentenyl diphosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0138 * +EC2.5.1.91 neryl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.029 * +EC2.5.1.92 dimethylallyl diphosphate solanum habrochaites//*//* 0.01 * +EC2.5.1.92 isopentenyl diphosphate solanum habrochaites//*//* 0.147 * +EC2.5.1.92 neryl diphosphate solanum habrochaites//*//* 0.051 * +EC2.5.1.93 4-hydroxybenzoate lithospermum erythrorhizon//*//* 0.0103 * +EC2.5.1.93 geranyl diphosphate lithospermum erythrorhizon//*//* 0.0051 * +EC2.5.1.94 5'-chloro-5'-deoxyadenosine salinispora tropica cnb-440//*//* 0.0002 * +EC2.5.1.94 5'-deoxy-5'-iodoadenosine salinispora tropica cnb-440//*//* 0.0046 * +EC2.5.1.94 bromide salinispora tropica cnb-440//*//* 150.0 * +EC2.5.1.94 chloride salinispora tropica cnb-440//*//* 45.0 * +EC2.5.1.94 iodide salinispora tropica cnb-440//*//* 260.0 * +EC2.5.1.94 s-adenosyl-l-methionine salinispora tropica cnb-440//*//* 0.001 * +EC2.5.1.96 (2e,6e)-farnesyl diphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0012 * +EC2.5.1.97 2,4-diacetamido-2,4,6-trideoxy-beta-l-altropyranose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0095 * +EC2.5.1.97 phosphoenolpyruvate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0065 * +EC2.5.1.99 geranylgeranyl diphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.035 * +EC2.5.1.B14 (2e,6e)-farnesyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00151 * +EC2.5.1.B14 geranylgeranyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00046 * +EC2.5.1.B21 s-adenosyl-l-methionine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0392 * +EC2.5.1.B21 s-adenosyl-l-methionine salinispora arenicola//prokaryotes;bacteria;actinobacteria;salinispora//saq 0.001 * +EC2.5.1.B25 2,7-dihydroxynaphthalene aspergillus terreus//*//* 0.324 * +EC2.5.1.B25 2,7-dihydroxynaphthalene botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.996 * +EC2.5.1.B25 2,7-dihydroxynaphthalene sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.59 * +EC2.5.1.B25 dimethylallyl diphosphate aspergillus terreus//*//* 0.325 * +EC2.5.1.B25 dimethylallyl diphosphate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 1.01 * +EC2.5.1.B25 dimethylallyl diphosphate sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 1.232 * +EC2.5.1.B31 2-pentenyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.13 * +EC2.5.1.B31 2-pentenyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.028 * +EC2.5.1.B31 ardeemin fumiquinazoline aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.21 * +EC2.5.1.B31 ardeemin fumiquinazoline streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.21 * +EC2.5.1.B31 benzyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.04 * +EC2.5.1.B31 benzyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.11 * +EC2.5.1.B31 dimethylallyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.076 * +EC2.5.1.B31 dimethylallyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.05 * +EC2.5.1.B31 ent-ardeemin fumiquinazoline aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.2 * +EC2.5.1.B31 ent-ardeemin fumiquinazoline streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.2 * +EC2.5.1.B31 methylallyl diphosphate aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.04 * +EC2.5.1.B31 methylallyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.054 * +EC2.6.1.1 2-oxo-4-phenyl-butanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.77 * +EC2.6.1.1 2-oxoglutarate atriplex spongiosa//*//* 0.08 * +EC2.6.1.1 2-oxoglutarate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.6 * +EC2.6.1.1 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.3 * +EC2.6.1.1 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC2.6.1.1 2-oxoglutarate bubalus bubalis//*//* 1.4 * +EC2.6.1.1 2-oxoglutarate canis lupus familiaris//*//* 1.7 * +EC2.6.1.1 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.55 * +EC2.6.1.1 2-oxoglutarate eleusine coracana//*//* 0.2 * +EC2.6.1.1 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.071 * +EC2.6.1.1 2-oxoglutarate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.088 * +EC2.6.1.1 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.06 * +EC2.6.1.1 2-oxoglutarate hyalomma dromedarii//*//* 0.67 * +EC2.6.1.1 2-oxoglutarate lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.2 * +EC2.6.1.1 2-oxoglutarate medicago sativa//*//* 0.39 * +EC2.6.1.1 2-oxoglutarate megathyrsus maximus//*//* 0.11 * +EC2.6.1.1 2-oxoglutarate methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.2 * +EC2.6.1.1 2-oxoglutarate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.3 * +EC2.6.1.1 2-oxoglutarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.105 * +EC2.6.1.1 2-oxoglutarate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.093 * +EC2.6.1.1 2-oxoglutarate panicum miliaceum//*//* 0.07 * +EC2.6.1.1 2-oxoglutarate phormidium lapideum//*//* 0.2 * +EC2.6.1.1 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.25 * +EC2.6.1.1 2-oxoglutarate spirodela polyrhiza//*//* 1.33 * +EC2.6.1.1 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.4 * +EC2.6.1.1 2-oxoglutarate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.062 * +EC2.6.1.1 2-oxoglutarate triticum aestivum//*//* 0.13 * +EC2.6.1.1 2-oxoglutarate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.5 * +EC2.6.1.1 2-oxoglutarate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.2 * +EC2.6.1.1 l-2-amino-4-methoxy-4-oxobutanoic acid lupinus albus//*//* 4.1 * +EC2.6.1.1 l-alanine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 3.5 * +EC2.6.1.1 l-alanine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 140.0 * +EC2.6.1.1 l-aspartate atriplex spongiosa//*//* 0.5 * +EC2.6.1.1 l-aspartate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.0 * +EC2.6.1.1 l-aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.7 * +EC2.6.1.1 l-aspartate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC2.6.1.1 l-aspartate bubalus bubalis//*//* 4.6 * +EC2.6.1.1 l-aspartate canis lupus familiaris//*//* 0.51 * +EC2.6.1.1 l-aspartate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.53 * +EC2.6.1.1 l-aspartate eleusine coracana//*//* 1.7 * +EC2.6.1.1 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC2.6.1.1 l-aspartate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.1 * +EC2.6.1.1 l-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.5 * +EC2.6.1.1 l-aspartate hyalomma dromedarii//*//* 15.1 * +EC2.6.1.1 l-aspartate lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 2.2 * +EC2.6.1.1 l-aspartate medicago sativa//*//* 1.2 * +EC2.6.1.1 l-aspartate megathyrsus maximus//*//* 2.3 * +EC2.6.1.1 l-aspartate methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 3.7 * +EC2.6.1.1 l-aspartate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.9 * +EC2.6.1.1 l-aspartate oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.4 * +EC2.6.1.1 l-aspartate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.4 * +EC2.6.1.1 l-aspartate panicum miliaceum//*//* 1.3 * +EC2.6.1.1 l-aspartate phormidium lapideum//*//* 5.0 * +EC2.6.1.1 l-aspartate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC2.6.1.1 l-aspartate spirodela polyrhiza//*//* 0.43 * +EC2.6.1.1 l-aspartate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.25 * +EC2.6.1.1 l-aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.7 * +EC2.6.1.1 l-aspartate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.96 * +EC2.6.1.1 l-aspartate triticum aestivum//*//* 7.1 * +EC2.6.1.1 l-aspartate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 6.8 * +EC2.6.1.1 l-aspartate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.1 * +EC2.6.1.1 l-glutamate atriplex spongiosa//*//* 0.75 * +EC2.6.1.1 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.0 * +EC2.6.1.1 l-glutamate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 3.88 * +EC2.6.1.1 l-glutamate eleusine coracana//*//* 12.2 * +EC2.6.1.1 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC2.6.1.1 l-glutamate lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 12.0 * +EC2.6.1.1 l-glutamate medicago sativa//*//* 18.5 * +EC2.6.1.1 l-glutamate megathyrsus maximus//*//* 13.0 * +EC2.6.1.1 l-glutamate oryza sativa//eukaryotes;plants;monocots;grass family//osa 13.2 * +EC2.6.1.1 l-glutamate panicum miliaceum//*//* 7.5 * +EC2.6.1.1 l-glutamate phormidium lapideum//*//* 5.7 * +EC2.6.1.1 l-glutamate spirodela polyrhiza//*//* 0.5 * +EC2.6.1.1 l-glutamate triticum aestivum//*//* 8.2 * +EC2.6.1.1 l-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.724 * +EC2.6.1.1 l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 189.0 * +EC2.6.1.1 l-methionine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 56.0 * +EC2.6.1.1 l-methionine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 6.9 * +EC2.6.1.1 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.17 * +EC2.6.1.1 l-phenylalanine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 6.6 * +EC2.6.1.1 l-phenylalanine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.1 * +EC2.6.1.1 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC2.6.1.1 l-tryptophan oryza sativa//eukaryotes;plants;monocots;grass family//osa 5.0 * +EC2.6.1.1 l-tryptophan trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.3 * +EC2.6.1.1 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.43 * +EC2.6.1.1 l-tyrosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.6 * +EC2.6.1.1 l-tyrosine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.5 * +EC2.6.1.1 oxaloacetate atriplex spongiosa//*//* 0.045 * +EC2.6.1.1 oxaloacetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.6 * +EC2.6.1.1 oxaloacetate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.044 * +EC2.6.1.1 oxaloacetate eleusine coracana//*//* 0.2 * +EC2.6.1.1 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.6.1.1 oxaloacetate lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.02 * +EC2.6.1.1 oxaloacetate medicago sativa//*//* 0.027 * +EC2.6.1.1 oxaloacetate megathyrsus maximus//*//* 0.049 * +EC2.6.1.1 oxaloacetate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.043 * +EC2.6.1.1 oxaloacetate panicum miliaceum//*//* 0.023 * +EC2.6.1.1 oxaloacetate phormidium lapideum//*//* 0.032 * +EC2.6.1.1 oxaloacetate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.017 * +EC2.6.1.1 oxaloacetate spirodela polyrhiza//*//* 2.04 * +EC2.6.1.1 oxaloacetate triticum aestivum//*//* 0.037 * +EC2.6.1.1 pyridoxyl 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00025 * +EC2.6.1.102 gdp-4-dehydro-3,6-dideoxy-alpha-d-mannose caulobacter vibrioides//*//* 0.016 * +EC2.6.1.102 gdp-4-dehydro-6-deoxy-alpha-d-mannose caulobacter vibrioides//*//* 0.013 * +EC2.6.1.102 gdp-4-dehydro-6-deoxy-alpha-d-mannose vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.06 * +EC2.6.1.102 gdp-4-dehydro-6-deoxy-d-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.6.1.102 l-glutamate caulobacter vibrioides//*//* 0.13 * +EC2.6.1.102 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.6.1.102 l-glutamate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.1 * +EC2.6.1.105 8-amino-7-oxononanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 25.0 * +EC2.6.1.105 l-lysine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC2.6.1.11 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.6.1.11 2-oxoglutarate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.7 * +EC2.6.1.11 l-ornithine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 100.0 * +EC2.6.1.11 l-ornithine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.64 * +EC2.6.1.11 n2-acetyl-l-ornithine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 6.3 * +EC2.6.1.11 n2-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC2.6.1.11 n2-acetyl-l-ornithine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.1 * +EC2.6.1.11 n2-acetyl-l-ornithine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.037 * +EC2.6.1.11 n2-succinyl-l ornithine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.25 * +EC2.6.1.111 (3s)-3-aminobutanoyl-coa candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 0.0043 * +EC2.6.1.111 2-oxoglutarate candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 2.9 * +EC2.6.1.111 pyruvate candidatus cloacimonas acidaminovorans//prokaryotes;bacteria;cloacimonetes;cloacimonas//caci 20.1 * +EC2.6.1.113 putrescine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0769 * +EC2.6.1.113 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00625 * +EC2.6.1.13 2-oxoglutarate ancylostoma ceylanicum//*//* 43.4 * +EC2.6.1.13 2-oxoglutarate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 6.2 * +EC2.6.1.13 2-oxoglutarate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.1 * +EC2.6.1.13 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC2.6.1.13 2-oxoglutarate cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 6.3 * +EC2.6.1.13 2-oxoglutarate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.03 * +EC2.6.1.13 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.69 * +EC2.6.1.13 2-oxoglutarate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 4.6 * +EC2.6.1.13 2-oxoglutarate manduca sexta//*//* 3.2 * +EC2.6.1.13 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC2.6.1.13 2-oxoglutarate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.3 * +EC2.6.1.13 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.191 * +EC2.6.1.13 2-oxoglutarate vigna aconitifolia//*//* 0.75 * +EC2.6.1.13 dl-pyrroline-5-carboxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.6.1.13 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.7 * +EC2.6.1.13 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC2.6.1.13 l-ornithine ancylostoma ceylanicum//*//* 5.79 * +EC2.6.1.13 l-ornithine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 87.0 * +EC2.6.1.13 l-ornithine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 6.2 * +EC2.6.1.13 l-ornithine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.0 * +EC2.6.1.13 l-ornithine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.78 * +EC2.6.1.13 l-ornithine cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 4.7 * +EC2.6.1.13 l-ornithine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 6.31 * +EC2.6.1.13 l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC2.6.1.13 l-ornithine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.8 * +EC2.6.1.13 l-ornithine manduca sexta//*//* 2.3 * +EC2.6.1.13 l-ornithine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.9 * +EC2.6.1.13 l-ornithine pisum sativum//*//* 15.0 * +EC2.6.1.13 l-ornithine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.9 * +EC2.6.1.13 l-ornithine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.6.1.13 l-ornithine vigna aconitifolia//*//* 2.0 * +EC2.6.1.13 n-acetylornithine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.53 * +EC2.6.1.13 ornithine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.6.1.13 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.0 * +EC2.6.1.14 2-aminoisobutanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 28.8 * +EC2.6.1.14 2-oxobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 100.0 * +EC2.6.1.14 2-oxosuccinamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC2.6.1.14 4-methylsulfanyl-2-oxobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC2.6.1.14 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.077 * +EC2.6.1.14 l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.8 * +EC2.6.1.14 l-asparagine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.6.1.14 l-glutamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.43 * +EC2.6.1.14 l-homocysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 24.7 * +EC2.6.1.14 l-homoserine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC2.6.1.14 l-leucine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 28.7 * +EC2.6.1.14 l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC2.6.1.14 l-norvaline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.5 * +EC2.6.1.14 phenylpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.6.1.14 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.1 * +EC2.6.1.15 2-oxoglutaramate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.0 * +EC2.6.1.15 3-hydroxypyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC2.6.1.15 3-mercaptopyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.8 * +EC2.6.1.15 4-methylsulfanyl-2-oxobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.2 * +EC2.6.1.15 gamma-glutamylhydrazone of glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 23.0 * +EC2.6.1.15 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC2.6.1.15 l-glutamic acid gamma-methylester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC2.6.1.15 l-glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC2.6.1.15 l-methionine (sr)-sulfoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC2.6.1.15 l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC2.6.1.15 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.5 * +EC2.6.1.16 d-fructose 6-phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.08 * +EC2.6.1.16 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.6.1.16 d-fructose 6-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.5 * +EC2.6.1.16 d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.04 * +EC2.6.1.16 d-fructose 6-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.75 * +EC2.6.1.16 d-fructose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.38 * +EC2.6.1.16 d-fructose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.39 * +EC2.6.1.16 d-fructose 6-phosphate vigna radiata var. radiata//*//* 3.8 * +EC2.6.1.16 d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC2.6.1.16 glutamine bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 1.0 * +EC2.6.1.16 l-gamma -glutamyl-p-nitroanilide candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.67 * +EC2.6.1.16 l-gamma-glutamyl-p-nitroanilide candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.31 * +EC2.6.1.16 l-gamma-glutamyl-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.6.1.16 l-glutamate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.34 * +EC2.6.1.16 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.6.1.16 l-glutamine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.6 * +EC2.6.1.16 l-glutamine bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 5.1 * +EC2.6.1.16 l-glutamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC2.6.1.16 l-glutamine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.34 * +EC2.6.1.16 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.6.1.16 l-glutamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.3 * +EC2.6.1.16 l-glutamine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.225 * +EC2.6.1.16 l-glutamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.85 * +EC2.6.1.16 l-glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.6.1.16 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.74 * +EC2.6.1.16 l-glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.3 * +EC2.6.1.16 l-glutamine vigna radiata var. radiata//*//* 0.5 * +EC2.6.1.17 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.21 * +EC2.6.1.17 n-succinyl-2-amino-6-oxoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.6.1.17 prephenate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.021 * +EC2.6.1.18 beta-alanine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.1 * +EC2.6.1.18 beta-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 14.0 * +EC2.6.1.18 pyruvate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 62.0 * +EC2.6.1.19 (4r)-4-amino-1-cyclopentene-1-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC2.6.1.19 (r)-4-amino-3-fluorobutanoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.059 * +EC2.6.1.19 (r,s)-4-amino-3-fluorobutanoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.045 * +EC2.6.1.19 1h-tetrazole-5-butanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC2.6.1.19 1h-tetrazole-5-ethanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.3 * +EC2.6.1.19 1h-tetrazole-5-propanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.4 * +EC2.6.1.19 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC2.6.1.19 2-oxoglutarate candida guilliermondii var. membranaefaciens//*//* 1.5 * +EC2.6.1.19 2-oxoglutarate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 6.3 * +EC2.6.1.19 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.07 * +EC2.6.1.19 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.6.1.19 2-oxoglutarate lachancea kluyveri//*//* 0.22 * +EC2.6.1.19 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.13 * +EC2.6.1.19 2-oxoglutarate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC2.6.1.19 2-oxoglutarate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.22 * +EC2.6.1.19 2-oxoglutarate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.75 * +EC2.6.1.19 2-oxoglutarate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.47 * +EC2.6.1.19 2-oxoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.8 * +EC2.6.1.19 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.5 * +EC2.6.1.19 2-oxoglutarate schistocerca gregaria//*//* 0.27 * +EC2.6.1.19 2-oxoglutarate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 8.3 * +EC2.6.1.19 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.13 * +EC2.6.1.19 3-aminopropanesulfonate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 8.5 * +EC2.6.1.19 4-(aminomethyl)-1h-pyrrole-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC2.6.1.19 4-(aminomethyl)furan-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC2.6.1.19 4-(aminomethyl)furan-3-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.8 * +EC2.6.1.19 4-(aminomethyl)thiophene-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.7 * +EC2.6.1.19 4-(aminomethyl)thiophene-3-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC2.6.1.19 4-aminobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC2.6.1.19 4-aminobutanoate candida guilliermondii var. membranaefaciens//*//* 2.2 * +EC2.6.1.19 4-aminobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.8 * +EC2.6.1.19 4-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC2.6.1.19 4-aminobutanoate lachancea kluyveri//*//* 3.2 * +EC2.6.1.19 4-aminobutanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.077 * +EC2.6.1.19 4-aminobutanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC2.6.1.19 4-aminobutanoate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.2 * +EC2.6.1.19 4-aminobutanoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 12.8 * +EC2.6.1.19 4-aminobutanoate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.2 * +EC2.6.1.19 4-aminobutanoate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2 * +EC2.6.1.19 4-aminobutanoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.79 * +EC2.6.1.19 4-aminobutanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.3 * +EC2.6.1.19 4-aminobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC2.6.1.19 4-aminobutanoate schistocerca gregaria//*//* 0.79 * +EC2.6.1.19 4-aminobutanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.3 * +EC2.6.1.19 4-aminobutanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC2.6.1.19 4-aminobutyrate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 9.9 * +EC2.6.1.19 4-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.014 * +EC2.6.1.19 5-(aminomethyl)-1h-pyrrole-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.5 * +EC2.6.1.19 5-(aminomethyl)furan-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.49 * +EC2.6.1.19 5-(aminomethyl)thiophene-2-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.3 * +EC2.6.1.19 alpha-ketoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.6.1.19 beta-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC2.6.1.19 beta-alanine lachancea kluyveri//*//* 7.6 * +EC2.6.1.19 beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 18.0 * +EC2.6.1.19 beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.05 * +EC2.6.1.19 dl-3-amino-1-cyclopentene-1-carboxylic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.3 * +EC2.6.1.19 gamma-aminobutanoate lachancea kluyveri//*//* 3.2 * +EC2.6.1.19 gamma-aminobutanoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.6 * +EC2.6.1.19 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC2.6.1.19 glyoxylate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0165 * +EC2.6.1.19 l-3-aminoisobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.72 * +EC2.6.1.19 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.4 * +EC2.6.1.19 l-ornithine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.9 * +EC2.6.1.19 putrescine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.5 * +EC2.6.1.19 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.14 * +EC2.6.1.19 pyruvate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0188 * +EC2.6.1.19 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.24 * +EC2.6.1.19 tetrazole-5-butanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.0 * +EC2.6.1.19 tetrazole-5-ethanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.3 * +EC2.6.1.19 tetrazole-5-propanamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.4 * +EC2.6.1.2 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC2.6.1.2 2-oxoglutarate atriplex spongiosa//*//* 0.028 * +EC2.6.1.2 2-oxoglutarate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.32 * +EC2.6.1.2 2-oxoglutarate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.23 * +EC2.6.1.2 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0058 * +EC2.6.1.2 2-oxoglutarate candida maltosa//*//* 0.37 * +EC2.6.1.2 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.05 * +EC2.6.1.2 2-oxoglutarate clarias batrachus//*//* 0.29 * +EC2.6.1.2 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.6.1.2 2-oxoglutarate hordeum vulgare//*//* 0.2 * +EC2.6.1.2 2-oxoglutarate labeo rohita//*//* 0.33 * +EC2.6.1.2 2-oxoglutarate lachancea kluyveri//*//* 2.1 * +EC2.6.1.2 2-oxoglutarate lagenorhynchus obliquidens//*//* 0.45 * +EC2.6.1.2 2-oxoglutarate leptosphaeria michotii//*//* 0.2 * +EC2.6.1.2 2-oxoglutarate medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.2 * +EC2.6.1.2 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC2.6.1.2 2-oxoglutarate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.54 * +EC2.6.1.2 2-oxoglutarate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.25 * +EC2.6.1.2 2-oxoglutarate panicum miliaceum//*//* 0.15 * +EC2.6.1.2 2-oxoglutarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.05 * +EC2.6.1.2 2-oxoglutarate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.02 * +EC2.6.1.2 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.6.1.2 2-oxoglutarate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.2 * +EC2.6.1.2 2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC2.6.1.2 2-oxoglutarate schistocerca gregaria//*//* 1.6 * +EC2.6.1.2 2-oxoglutarate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.28 * +EC2.6.1.2 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC2.6.1.2 2-oxoglutarate trichoderma viride//*//* 1.85 * +EC2.6.1.2 2-oxoglutarate triticum aestivum//*//* 0.19 * +EC2.6.1.2 2-oxoglutarate zea mays//eukaryotes;plants;monocots;grass family//zma 0.2 * +EC2.6.1.2 4-aminobutanoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.51 * +EC2.6.1.2 alanine atriplex spongiosa//*//* 0.25 * +EC2.6.1.2 alanine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 6.2 * +EC2.6.1.2 alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC2.6.1.2 alanine hordeum vulgare//*//* 17.0 * +EC2.6.1.2 alanine panicum miliaceum//*//* 6.67 * +EC2.6.1.2 alanine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.8 * +EC2.6.1.2 alanine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.8 * +EC2.6.1.2 alanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC2.6.1.2 beta-alanine lachancea kluyveri//*//* 7.6 * +EC2.6.1.2 beta-alanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.9 * +EC2.6.1.2 dl-alanine trichoderma viride//*//* 8.3 * +EC2.6.1.2 glutamate atriplex spongiosa//*//* 0.55 * +EC2.6.1.2 glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.3 * +EC2.6.1.2 glutamate hordeum vulgare//*//* 1.0 * +EC2.6.1.2 glutamate lagenorhynchus obliquidens//*//* 15.0 * +EC2.6.1.2 glutamate panicum miliaceum//*//* 5.0 * +EC2.6.1.2 glutamate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.3 * +EC2.6.1.2 glutamate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.3 * +EC2.6.1.2 glutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 32.0 * +EC2.6.1.2 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.6.1.2 glyoxylate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.9 * +EC2.6.1.2 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.4 * +EC2.6.1.2 l-alanine bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 5.15 * +EC2.6.1.2 l-alanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.59 * +EC2.6.1.2 l-alanine candida maltosa//*//* 2.6 * +EC2.6.1.2 l-alanine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.7 * +EC2.6.1.2 l-alanine clarias batrachus//*//* 18.5 * +EC2.6.1.2 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC2.6.1.2 l-alanine hordeum vulgare//*//* 3.8 * +EC2.6.1.2 l-alanine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 8.1 * +EC2.6.1.2 l-alanine labeo rohita//*//* 23.55 * +EC2.6.1.2 l-alanine lagenorhynchus obliquidens//*//* 8.2 * +EC2.6.1.2 l-alanine leptosphaeria michotii//*//* 6.85 * +EC2.6.1.2 l-alanine medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 1.0 * +EC2.6.1.2 l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.5 * +EC2.6.1.2 l-alanine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.4 * +EC2.6.1.2 l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.21 * +EC2.6.1.2 l-alanine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.0 * +EC2.6.1.2 l-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.51 * +EC2.6.1.2 l-alanine rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.5 * +EC2.6.1.2 l-alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.6 * +EC2.6.1.2 l-alanine schistocerca gregaria//*//* 19.05 * +EC2.6.1.2 l-alanine triticum aestivum//*//* 6.05 * +EC2.6.1.2 l-alanine zea mays//eukaryotes;plants;monocots;grass family//zma 0.62 * +EC2.6.1.2 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.5 * +EC2.6.1.2 l-glutamate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.44 * +EC2.6.1.2 l-glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.6 * +EC2.6.1.2 l-glutamate candida maltosa//*//* 6.3 * +EC2.6.1.2 l-glutamate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.52 * +EC2.6.1.2 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.22 * +EC2.6.1.2 l-glutamate hordeum vulgare//*//* 0.8 * +EC2.6.1.2 l-glutamate medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.1 * +EC2.6.1.2 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 13.0 * +EC2.6.1.2 l-glutamate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.68 * +EC2.6.1.2 l-glutamate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.57 * +EC2.6.1.2 l-glutamate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.9 * +EC2.6.1.2 l-glutamate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.2 * +EC2.6.1.2 l-glutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.24 * +EC2.6.1.2 l-glutamate triticum aestivum//*//* 6.25 * +EC2.6.1.2 l-glutamate zea mays//eukaryotes;plants;monocots;grass family//zma 0.55 * +EC2.6.1.2 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC2.6.1.2 pyruvate atriplex spongiosa//*//* 0.022 * +EC2.6.1.2 pyruvate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.08 * +EC2.6.1.2 pyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC2.6.1.2 pyruvate candida maltosa//*//* 0.16 * +EC2.6.1.2 pyruvate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.24 * +EC2.6.1.2 pyruvate hordeum vulgare//*//* 0.06 * +EC2.6.1.2 pyruvate lagenorhynchus obliquidens//*//* 0.87 * +EC2.6.1.2 pyruvate medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 18.0 * +EC2.6.1.2 pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.5 * +EC2.6.1.2 pyruvate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.11 * +EC2.6.1.2 pyruvate panicum miliaceum//*//* 0.33 * +EC2.6.1.2 pyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC2.6.1.2 pyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.4 * +EC2.6.1.2 pyruvate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.08 * +EC2.6.1.2 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.6.1.2 pyruvate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.09 * +EC2.6.1.2 pyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC2.6.1.2 pyruvate triticum aestivum//*//* 0.22 * +EC2.6.1.2 pyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.42 * +EC2.6.1.21 2-oxobutanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 14.0 * +EC2.6.1.21 2-oxoglutarate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.63 * +EC2.6.1.21 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.4 * +EC2.6.1.21 2-oxoglutarate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.06 * +EC2.6.1.21 2-oxoglutarate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 3.4 * +EC2.6.1.21 2-oxoglutarate pisum sativum//*//* 4.9 * +EC2.6.1.21 2-oxoisovalerate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 28.0 * +EC2.6.1.21 d-alanine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.2 * +EC2.6.1.21 d-alanine bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 2.4 * +EC2.6.1.21 d-alanine lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.3 * +EC2.6.1.21 d-alanine pisum sativum//*//* 2.7 * +EC2.6.1.22 (s)-3-amino-2-methylpropanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC2.6.1.22 beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.6.1.23 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC2.6.1.23 4-hydroxyglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC2.6.1.23 erythro-l-hydroxyglutamic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 240.0 * +EC2.6.1.23 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.0 * +EC2.6.1.24 3,5-dibromo-l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC2.6.1.24 3,5-dichloro-l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.1 * +EC2.6.1.24 3,5-diiodo-l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.6.1.24 3-iodo-l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.5 * +EC2.6.1.26 2-oxoglutarate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.6.1.26 3,5-diiodo-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.9 * +EC2.6.1.26 3,5-dinitro-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4.4 * +EC2.6.1.26 3-iodo-l-tyrosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.8 * +EC2.6.1.26 l-thyronine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.12 * +EC2.6.1.26 l-triiodothyronine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.034 * +EC2.6.1.26 pyruvate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC2.6.1.27 2-oxoglutarate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.158 * +EC2.6.1.27 2-oxoglutarate malassezia furfur//*//* 2.9 * +EC2.6.1.27 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.74 * +EC2.6.1.27 4-fluorophenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.0 * +EC2.6.1.27 l-3,4-dihydroxyphenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.0 * +EC2.6.1.27 l-phenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC2.6.1.27 l-tryptophan bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 1.22 * +EC2.6.1.27 l-tryptophan clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 2.68 * +EC2.6.1.27 l-tryptophan malassezia furfur//*//* 7.0 * +EC2.6.1.27 l-tryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.0 * +EC2.6.1.27 l-tyrosine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.8 * +EC2.6.1.28 2-oxobutanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.4 * +EC2.6.1.28 2-oxohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.08 * +EC2.6.1.28 2-oxoisohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC2.6.1.28 2-oxoisopentanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.11 * +EC2.6.1.28 2-oxopentanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.12 * +EC2.6.1.28 indolepyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC2.6.1.28 l-2-aminobutanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 30.0 * +EC2.6.1.28 l-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 250.0 * +EC2.6.1.28 l-histidine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 23.8 * +EC2.6.1.28 l-isoleucine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.47 * +EC2.6.1.28 l-leucine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.4 * +EC2.6.1.28 l-norleucine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.4 * +EC2.6.1.28 l-norvaline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.5 * +EC2.6.1.28 l-phenylalanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.8 * +EC2.6.1.28 l-tryptophan aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.198 * +EC2.6.1.28 l-tryptophan pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.4 * +EC2.6.1.28 l-tyrosine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC2.6.1.28 l-valine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.5 * +EC2.6.1.28 phenylpyruvate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.43 * +EC2.6.1.28 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 12.0 * +EC2.6.1.29 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.88 * +EC2.6.1.29 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.7 * +EC2.6.1.3 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.6.1.3 l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.2 * +EC2.6.1.30 (s)-2-aminobutyrate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 20.0 * +EC2.6.1.30 2-norpyridoxal pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.59 * +EC2.6.1.30 2-norpyridoxamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.16 * +EC2.6.1.30 2-oxobutyrate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 7.1 * +EC2.6.1.30 2-oxoglutarate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 80.1 * +EC2.6.1.30 3-hydroxypyridine-4-aldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.89 * +EC2.6.1.30 5-deoxypyridoxal pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.009 * +EC2.6.1.30 5-deoxypyridoxamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.014 * +EC2.6.1.30 l-alanine mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 11.0 * +EC2.6.1.30 l-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.58 * +EC2.6.1.30 l-glutamate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 123.4 * +EC2.6.1.30 omega-methylpyridoxal pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.3 * +EC2.6.1.30 pyridoxal mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.059 * +EC2.6.1.30 pyridoxal pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.012 * +EC2.6.1.30 pyridoxamine mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.044 * +EC2.6.1.30 pyridoxamine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.09 * +EC2.6.1.30 pyridoxamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.013 * +EC2.6.1.30 pyruvate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.34 * +EC2.6.1.30 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.31 * +EC2.6.1.30 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC2.6.1.31 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.034 * +EC2.6.1.31 oxaloacetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.57 * +EC2.6.1.31 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.6.1.31 pyridoxamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC2.6.1.31 pyridoxamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.7 * +EC2.6.1.33 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC2.6.1.33 dtdp-4-dehydro-6-deoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0458 * +EC2.6.1.33 dtdp-4-dehydro-6-deoxy-d-glucose shigella dysenteriae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sdy 0.98 * +EC2.6.1.33 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.1 * +EC2.6.1.33 tdp-4-amino-4,6-dideoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC2.6.1.33 tdp-4-keto-6-deoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.6.1.34 udp-2-acetamido-2,6-dideoxy-alpha-d-xylo-4-hexulose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.048 * +EC2.6.1.35 glyoxylate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.43 * +EC2.6.1.35 l-aspartate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.9 * +EC2.6.1.36 2-oxoglutarate cyberlindnera jadinii//*//* 3.8 * +EC2.6.1.36 2-oxoglutarate flavobacterium lutescens//*//* 0.13 * +EC2.6.1.36 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.3 * +EC2.6.1.36 l-lysine cyberlindnera jadinii//*//* 2.5 * +EC2.6.1.36 l-lysine flavobacterium lutescens//*//* 2.8 * +EC2.6.1.36 l-lysine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC2.6.1.36 l-ornithine flavobacterium lutescens//*//* 2.0 * +EC2.6.1.36 s-(2-aminoethyl)-l-cysteine flavobacterium lutescens//*//* 2.0 * +EC2.6.1.37 (2-aminoethyl)phosphonate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.11 * +EC2.6.1.37 2-aminoethylarsonic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.0 * +EC2.6.1.37 2-aminoethylphosphonate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.85 * +EC2.6.1.37 2-phosphonoacetaldehyde salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.009 * +EC2.6.1.37 d-alanine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 11.0 * +EC2.6.1.37 l-alanine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.4 * +EC2.6.1.37 pyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.5 * +EC2.6.1.37 pyruvate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.15 * +EC2.6.1.38 imidazolylpyruvate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.5 * +EC2.6.1.38 l-glutamate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 5.0 * +EC2.6.1.38 l-histidine comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 4.0 * +EC2.6.1.38 l-histidine streptomyces tendae//*//* 25.0 * +EC2.6.1.38 pyruvate streptomyces tendae//*//* 10.0 * +EC2.6.1.4 2-oxoglutarate oryza sativa japonica group//*//* 0.55 * +EC2.6.1.4 glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.6.1.4 glutamate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.75 * +EC2.6.1.4 glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.6 * +EC2.6.1.4 glutamate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.75 * +EC2.6.1.4 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.6.1.4 glyoxylate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 6.5 * +EC2.6.1.4 glyoxylate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 6.25 * +EC2.6.1.4 glyoxylate oryza sativa japonica group//*//* 0.21 * +EC2.6.1.4 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC2.6.1.4 glyoxylate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 3.75 * +EC2.6.1.4 glyoxylate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 6.25 * +EC2.6.1.4 l-alanine oryza sativa japonica group//*//* 2.37 * +EC2.6.1.4 l-glutamate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 1.2 * +EC2.6.1.4 l-glutamate oryza sativa japonica group//*//* 1.57 * +EC2.6.1.4 l-glutamate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 6.2 * +EC2.6.1.40 beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.81 * +EC2.6.1.40 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC2.6.1.42 (r)-3-methyl-2-oxopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC2.6.1.42 (r,s)-3-methyl-2-oxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.6.1.42 (s)-3-methyl-2-oxopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC2.6.1.42 2-(3-hydroxy-1-adamantyl)-2-oxoethanoic acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 9.52 * +EC2.6.1.42 2-(3-hydroxy-1-adamantyl)-2-oxoethanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.38 * +EC2.6.1.42 2-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.8 * +EC2.6.1.42 2-oxo-3-methylpentanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 2.5 * +EC2.6.1.42 2-oxo-3-methylpentanoate hordeum vulgare//*//* 0.2 * +EC2.6.1.42 2-oxo-3-methylvalerate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.034 * +EC2.6.1.42 2-oxobutanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.55 * +EC2.6.1.42 2-oxobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.62 * +EC2.6.1.42 2-oxocaproate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.06 * +EC2.6.1.42 2-oxoglutarate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.77 * +EC2.6.1.42 2-oxoglutarate canis lupus familiaris//*//* 1.0 * +EC2.6.1.42 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC2.6.1.42 2-oxoglutarate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.57 * +EC2.6.1.42 2-oxoglutarate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.085 * +EC2.6.1.42 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.6.1.42 2-oxoglutarate hordeum vulgare//*//* 0.8 * +EC2.6.1.42 2-oxoglutarate methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.1 * +EC2.6.1.42 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.95 * +EC2.6.1.42 2-oxoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC2.6.1.42 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.68 * +EC2.6.1.42 2-oxoglutarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.57 * +EC2.6.1.42 2-oxoglutarate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.7 * +EC2.6.1.42 2-oxohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC2.6.1.42 2-oxohexanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC2.6.1.42 2-oxoisocaproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.6.1.42 2-oxoisocaproate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.06 * +EC2.6.1.42 2-oxoisohexanoate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.37 * +EC2.6.1.42 2-oxoisohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC2.6.1.42 2-oxoisohexanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.91 * +EC2.6.1.42 2-oxoisohexanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC2.6.1.42 2-oxoisohexanoate hordeum vulgare//*//* 0.1 * +EC2.6.1.42 2-oxoisohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC2.6.1.42 2-oxoisopentanoate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.34 * +EC2.6.1.42 2-oxoisopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC2.6.1.42 2-oxoisopentanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.33 * +EC2.6.1.42 2-oxoisopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.6.1.42 2-oxoisopentanoate hordeum vulgare//*//* 0.4 * +EC2.6.1.42 2-oxoisovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.6.1.42 2-oxoisovalerate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.18 * +EC2.6.1.42 2-oxooctanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.54 * +EC2.6.1.42 2-oxovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.6.1.42 2-oxovalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.64 * +EC2.6.1.42 2-oxovalerate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.16 * +EC2.6.1.42 3-methyl-2-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.69 * +EC2.6.1.42 3-methyl-2-oxobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC2.6.1.42 3-methyl-2-oxobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.6.1.42 3-methyl-2-oxobutanoic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.15 * +EC2.6.1.42 3-methyl-2-oxobutanoic acid solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 7.09 * +EC2.6.1.42 3-methyl-2-oxobutyric acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 0.78 * +EC2.6.1.42 3-methyl-2-oxobutyric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.64 * +EC2.6.1.42 3-methyl-2-oxopentanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.08 * +EC2.6.1.42 3-methyl-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.6.1.42 3-methyl-2-oxopentanoic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.14 * +EC2.6.1.42 3-methyl-2-oxopentanoic acid solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 7.9 * +EC2.6.1.42 3-methyl-2-oxovaleric acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 0.63 * +EC2.6.1.42 3-methyl-2-oxovaleric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.99 * +EC2.6.1.42 4,4-dimethyl-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.6.1.42 4-methyl-2-oxopentanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.64 * +EC2.6.1.42 4-methyl-2-oxopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC2.6.1.42 4-methyl-2-oxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.6.1.42 4-methyl-2-oxopentanoate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.045 * +EC2.6.1.42 4-methyl-2-oxopentanoic acid solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.22 * +EC2.6.1.42 4-methyl-2-oxopentanoic acid solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 11.65 * +EC2.6.1.42 4-methyl-2-oxovaleric acid enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 0.97 * +EC2.6.1.42 4-methyl-2-oxovaleric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC2.6.1.42 4-methylsulfanyl-2-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC2.6.1.42 4-methylthio-2-oxo-butanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.2 * +EC2.6.1.42 4-methylthio-2-oxobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.83 * +EC2.6.1.42 dl-2-aminoheptanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 2.0 * +EC2.6.1.42 dl-2-aminooctanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.73 * +EC2.6.1.42 dl-2-oxo-3-methyl-n-pentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.6.1.42 dl-2-oxo-3-methylpentanoate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.21 * +EC2.6.1.42 glutamate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 16.7 * +EC2.6.1.42 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.6.1.42 isoleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC2.6.1.42 l-2-aminobutanoate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 2.4 * +EC2.6.1.42 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.0 * +EC2.6.1.42 l-alloisoleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.54 * +EC2.6.1.42 l-aspartate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 10.0 * +EC2.6.1.42 l-glutamate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.56 * +EC2.6.1.42 l-glutamate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 24.0 * +EC2.6.1.42 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.9 * +EC2.6.1.42 l-glutamate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 18.2 * +EC2.6.1.42 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC2.6.1.42 l-glutamate hordeum vulgare//*//* 1.3 * +EC2.6.1.42 l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 9.53 * +EC2.6.1.42 l-glutamate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.2 * +EC2.6.1.42 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.45 * +EC2.6.1.42 l-glutamate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 3.9 * +EC2.6.1.42 l-isoleucine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.27 * +EC2.6.1.42 l-isoleucine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.43 * +EC2.6.1.42 l-isoleucine canis lupus familiaris//*//* 4.2 * +EC2.6.1.42 l-isoleucine entodinium sp.//*//* 0.9 * +EC2.6.1.42 l-isoleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC2.6.1.42 l-isoleucine gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 3.03 * +EC2.6.1.42 l-isoleucine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.34 * +EC2.6.1.42 l-isoleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC2.6.1.42 l-isoleucine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 1.4 * +EC2.6.1.42 l-isoleucine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.85 * +EC2.6.1.42 l-isoleucine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.84 * +EC2.6.1.42 l-isoleucine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.31 * +EC2.6.1.42 l-isoleucine solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 0.65 * +EC2.6.1.42 l-isoleucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.67 * +EC2.6.1.42 l-isoleucine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.15 * +EC2.6.1.42 l-leucine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.34 * +EC2.6.1.42 l-leucine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.25 * +EC2.6.1.42 l-leucine canis lupus familiaris//*//* 2.3 * +EC2.6.1.42 l-leucine entodinium sp.//*//* 0.79 * +EC2.6.1.42 l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.58 * +EC2.6.1.42 l-leucine gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.82 * +EC2.6.1.42 l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC2.6.1.42 l-leucine hordeum vulgare//*//* 0.8 * +EC2.6.1.42 l-leucine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 1.1 * +EC2.6.1.42 l-leucine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.5 * +EC2.6.1.42 l-leucine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC2.6.1.42 l-leucine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.6.1.42 l-leucine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.2 * +EC2.6.1.42 l-leucine solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 0.67 * +EC2.6.1.42 l-leucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.56 * +EC2.6.1.42 l-leucine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.2 * +EC2.6.1.42 l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.93 * +EC2.6.1.42 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC2.6.1.42 l-norleucine gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 1.7 * +EC2.6.1.42 l-norleucine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 12.0 * +EC2.6.1.42 l-norvaline gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 4.7 * +EC2.6.1.42 l-norvaline thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 1.9 * +EC2.6.1.42 l-phenylalanine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 2.0 * +EC2.6.1.42 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.89 * +EC2.6.1.42 l-phenylalanine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.1 * +EC2.6.1.42 l-phenylalanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.44 * +EC2.6.1.42 l-phenylalanine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 4.2 * +EC2.6.1.42 l-tryptophan brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 2.9 * +EC2.6.1.42 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 72.0 * +EC2.6.1.42 l-tryptophan methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 2.8 * +EC2.6.1.42 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC2.6.1.42 l-tyrosine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 1.1 * +EC2.6.1.42 l-valine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.41 * +EC2.6.1.42 l-valine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.22 * +EC2.6.1.42 l-valine canis lupus familiaris//*//* 3.0 * +EC2.6.1.42 l-valine entodinium sp.//*//* 0.29 * +EC2.6.1.42 l-valine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.7 * +EC2.6.1.42 l-valine gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 6.45 * +EC2.6.1.42 l-valine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.96 * +EC2.6.1.42 l-valine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 2.8 * +EC2.6.1.42 l-valine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.77 * +EC2.6.1.42 l-valine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC2.6.1.42 l-valine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.35 * +EC2.6.1.42 l-valine solanum pennellii//eukaryotes;plants;eudicots;nightshade family//spen 0.56 * +EC2.6.1.42 l-valine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC2.6.1.42 l-valine thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.83 * +EC2.6.1.42 phenylpyruvate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 1.2 * +EC2.6.1.42 phenylpyruvate thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.34 * +EC2.6.1.42 prephenate brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 1.4 * +EC2.6.1.42 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.72 * +EC2.6.1.42 trimethylpyruvate enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 0.06 * +EC2.6.1.42 trimethylpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC2.6.1.43 4,5-dioxopentanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC2.6.1.43 4,5-dioxopentanoate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0105 * +EC2.6.1.43 4,5-dioxopentanoate cenchrus americanus//*//* 1.8 * +EC2.6.1.43 4,5-dioxopentanoate chlorella regularis//*//* 0.12 * +EC2.6.1.43 4,5-dioxopentanoate clostridium tetanomorphum//*//* 0.26 * +EC2.6.1.43 4,5-dioxopentanoate devosia riboflavina//*//* 0.75 * +EC2.6.1.43 4,5-dioxopentanoate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.06 * +EC2.6.1.43 4,5-dioxopentanoate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.44 * +EC2.6.1.43 4,5-dioxopentanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC2.6.1.43 4,5-dioxopentanoate raphanus sativus//*//* 0.71 * +EC2.6.1.43 4,5-dioxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC2.6.1.43 4,5-dioxopentanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.4 * +EC2.6.1.43 glyoxylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.67 * +EC2.6.1.43 glyoxylate chlorella regularis//*//* 1.3 * +EC2.6.1.43 l-alanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC2.6.1.43 l-alanine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.00028 * +EC2.6.1.43 l-alanine cenchrus americanus//*//* 3.44 * +EC2.6.1.43 l-alanine chlorella regularis//*//* 3.0 * +EC2.6.1.43 l-alanine clostridium tetanomorphum//*//* 1.96 * +EC2.6.1.43 l-alanine devosia riboflavina//*//* 1.7 * +EC2.6.1.43 l-alanine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.4 * +EC2.6.1.43 l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.97 * +EC2.6.1.43 l-alanine raphanus sativus//*//* 1.7 * +EC2.6.1.43 l-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC2.6.1.43 l-alanine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 8.0 * +EC2.6.1.44 2-aminobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.0 * +EC2.6.1.44 2-oxobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC2.6.1.44 3-hydroxykynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 18.0 * +EC2.6.1.44 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.0 * +EC2.6.1.44 glyoxylate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.6 * +EC2.6.1.44 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.14 * +EC2.6.1.44 glyoxylate canis lupus familiaris//*//* 0.13 * +EC2.6.1.44 glyoxylate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 64.0 * +EC2.6.1.44 glyoxylate felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.1 * +EC2.6.1.44 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.6.1.44 glyoxylate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.9 * +EC2.6.1.44 glyoxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC2.6.1.44 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.6.1.44 glyoxylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC2.6.1.44 glyoxylate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.15 * +EC2.6.1.44 glyoxylate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.32 * +EC2.6.1.44 kynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 3.7 * +EC2.6.1.44 l-alanine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 2.6 * +EC2.6.1.44 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.56 * +EC2.6.1.44 l-alanine canis lupus familiaris//*//* 3.0 * +EC2.6.1.44 l-alanine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 149.0 * +EC2.6.1.44 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.5 * +EC2.6.1.44 l-alanine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 8.1 * +EC2.6.1.44 l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC2.6.1.44 l-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.6.1.44 l-alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC2.6.1.44 l-alanine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.6 * +EC2.6.1.44 l-alanine suncus murinus//*//* 0.52 * +EC2.6.1.44 l-alanine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.92 * +EC2.6.1.44 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.6.1.44 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.97 * +EC2.6.1.44 l-glutamate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.7 * +EC2.6.1.44 l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.39 * +EC2.6.1.44 l-serine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 256.0 * +EC2.6.1.44 pyruvate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 51.0 * +EC2.6.1.44 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC2.6.1.44 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC2.6.1.45 2-oxomalonate hyphomicrobium methylovorum//*//* 1.13 * +EC2.6.1.45 3-hydroxypyruvate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.63 * +EC2.6.1.45 glycine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.59 * +EC2.6.1.45 glycine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 11.0 * +EC2.6.1.45 glyoxalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC2.6.1.45 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.91 * +EC2.6.1.45 glyoxylate hyphomicrobium methylovorum//*//* 0.23 * +EC2.6.1.45 glyoxylate oryza sativa japonica group//*//* 0.45 * +EC2.6.1.45 glyoxylate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.6 * +EC2.6.1.45 glyoxylate pisum sativum//*//* 4.6 * +EC2.6.1.45 glyoxylate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.15 * +EC2.6.1.45 hydroxypyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.57 * +EC2.6.1.45 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.58 * +EC2.6.1.45 l-alanine oryza sativa japonica group//*//* 52.53 * +EC2.6.1.45 l-alanine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 20.0 * +EC2.6.1.45 l-asparagine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.82 * +EC2.6.1.45 l-asparagine pisum sativum//*//* 3.9 * +EC2.6.1.45 l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.99 * +EC2.6.1.45 l-serine hyphomicrobium methylovorum//*//* 0.28 * +EC2.6.1.45 l-serine oryza sativa japonica group//*//* 2.19 * +EC2.6.1.45 l-serine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.39 * +EC2.6.1.45 l-serine pisum sativum//*//* 0.5 * +EC2.6.1.45 l-serine secale cereale//*//* 2.4 * +EC2.6.1.45 l-serine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.7 * +EC2.6.1.45 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.22 * +EC2.6.1.45 pyruvate oryza sativa japonica group//*//* 0.61 * +EC2.6.1.45 pyruvate pisum sativum//*//* 2.0 * +EC2.6.1.46 l-2-amino-4-oxobutanoate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 4.5 * +EC2.6.1.46 l-glutamate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 1.85 * +EC2.6.1.46 l-glutamate halorhodospira halochloris//prokaryotes;bacteria;gammaproteobacteria - others;halorhodospira//hhc 1.2 * +EC2.6.1.48 2-oxoglutarate anaerocolumna aminovalerica//*//* 4.7 * +EC2.6.1.48 2-oxoglutarate meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 3.6 * +EC2.6.1.48 2-oxoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.0 * +EC2.6.1.48 delta-aminovaleric acid anaerocolumna aminovalerica//*//* 4.0 * +EC2.6.1.48 delta-aminovaleric acid meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 4.9 * +EC2.6.1.48 delta-aminovaleric acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.0 * +EC2.6.1.48 glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.1 * +EC2.6.1.49 2-oxoglutarate cavia porcellus//*//* 0.48 * +EC2.6.1.49 l-dopa cavia porcellus//*//* 41.0 * +EC2.6.1.5 (s)-beta-phenylalanine variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 1.5 * +EC2.6.1.5 2-oxo-3-phenylpropanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.13 * +EC2.6.1.5 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.19 * +EC2.6.1.5 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3300.0 * +EC2.6.1.5 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC2.6.1.5 2-oxoglutarate papaver somniferum//*//* 0.35 * +EC2.6.1.5 2-oxoglutarate petunia x hybrida//*//* 1.8 * +EC2.6.1.5 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.6.1.5 2-oxoglutarate trichoderma viride//*//* 0.25 * +EC2.6.1.5 2-oxoglutarate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 4.6 * +EC2.6.1.5 2-oxoglutarate variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 0.3 * +EC2.6.1.5 2-oxohexanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.3 * +EC2.6.1.5 2-oxoisocaproate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 20.4 * +EC2.6.1.5 3,4-dihydroxyphenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.0 * +EC2.6.1.5 3-(4-hydroxyphenyl)-2-oxopropanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.22 * +EC2.6.1.5 4-hydroxyphenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC2.6.1.5 4-hydroxyphenylpyruvate petunia x hybrida//*//* 7.9 * +EC2.6.1.5 l-alanine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.9 * +EC2.6.1.5 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.4 * +EC2.6.1.5 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.9 * +EC2.6.1.5 l-glutamate petunia x hybrida//*//* 11.1 * +EC2.6.1.5 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC2.6.1.5 l-phenylalanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.84 * +EC2.6.1.5 l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.4 * +EC2.6.1.5 l-phenylalanine papaver somniferum//*//* 6.33 * +EC2.6.1.5 l-phenylalanine petunia x hybrida//*//* 4.3 * +EC2.6.1.5 l-tryptophan papaver somniferum//*//* 7.83 * +EC2.6.1.5 l-tyrosine anchusa officinalis//*//* 0.45 * +EC2.6.1.5 l-tyrosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.19 * +EC2.6.1.5 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC2.6.1.5 l-tyrosine felis catus//eukaryotes;animals;vertebrates;mammals//fca 2.1 * +EC2.6.1.5 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 870.0 * +EC2.6.1.5 l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC2.6.1.5 l-tyrosine oncorhynchus mykiss//*//* 1.86 * +EC2.6.1.5 l-tyrosine papaver somniferum//*//* 1.82 * +EC2.6.1.5 l-tyrosine petunia x hybrida//*//* 1.9 * +EC2.6.1.5 l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.6.1.5 l-tyrosine trichoderma viride//*//* 0.5 * +EC2.6.1.5 l-tyrosine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.2 * +EC2.6.1.5 oxaloacetate papaver somniferum//*//* 56.13 * +EC2.6.1.5 oxaloacetate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 16.0 * +EC2.6.1.5 p-hydroxyphenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 580.0 * +EC2.6.1.5 phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 80.0 * +EC2.6.1.5 phenylalanine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 17.9 * +EC2.6.1.5 phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC2.6.1.5 phenylpyruvate petunia x hybrida//*//* 1.5 * +EC2.6.1.5 pyruvate papaver somniferum//*//* 2.45 * +EC2.6.1.5 pyruvate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.5 * +EC2.6.1.5 tryptophan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 30.0 * +EC2.6.1.5 tryptophan trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 21.4 * +EC2.6.1.51 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.6.1.51 hydroxypyruvate oncorhynchus mykiss//*//* 4.0 * +EC2.6.1.51 l-alanine oncorhynchus mykiss//*//* 2.2 * +EC2.6.1.51 l-serine oncorhynchus mykiss//*//* 8.1 * +EC2.6.1.51 pyruvate canis lupus familiaris//*//* 1.7 * +EC2.6.1.51 pyruvate felis catus//eukaryotes;animals;vertebrates;mammals//fca 1.6 * +EC2.6.1.51 pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC2.6.1.51 pyruvate oncorhynchus mykiss//*//* 0.21 * +EC2.6.1.51 pyruvate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 38.0 * +EC2.6.1.51 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.48 * +EC2.6.1.51 serine canis lupus familiaris//*//* 8.0 * +EC2.6.1.51 serine felis catus//eukaryotes;animals;vertebrates;mammals//fca 10.0 * +EC2.6.1.51 serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 18.0 * +EC2.6.1.51 serine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.39 * +EC2.6.1.51 serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC2.6.1.52 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0651 * +EC2.6.1.52 2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC2.6.1.52 2-oxoglutarate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.043 * +EC2.6.1.52 2-oxoglutarate tetradesmus obliquus//*//* 0.18 * +EC2.6.1.52 2-oxoglutarate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.2028 * +EC2.6.1.52 3-o-phospho-l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.6.1.52 3-phosphohydroxypyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.797 * +EC2.6.1.52 3-phosphohydroxypyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC2.6.1.52 3-phosphohydroxypyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.058 * +EC2.6.1.52 3-phosphohydroxypyruvate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.25 * +EC2.6.1.52 3-phosphohydroxypyruvate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.0 * +EC2.6.1.52 3-phosphonooxypyruvate bacillus circulans//*//* 0.09 * +EC2.6.1.52 3-phosphonooxypyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.6.1.52 4,5-dioxopentanoate tetradesmus obliquus//*//* 0.84 * +EC2.6.1.52 4-(phosphonooxy)-l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.6.1.52 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC2.6.1.52 l-glutamate bacillus circulans//*//* 0.2 * +EC2.6.1.52 l-glutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC2.6.1.52 l-glutamate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.788 * +EC2.6.1.52 l-glutamate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.7 * +EC2.6.1.52 l-glutamate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.15 * +EC2.6.1.52 l-glutamate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.03 * +EC2.6.1.52 l-phosphoserine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.035 * +EC2.6.1.52 l-phosphoserine tetradesmus obliquus//*//* 0.083 * +EC2.6.1.52 o-phospho-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.225 * +EC2.6.1.52 o-phospho-l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0368 * +EC2.6.1.52 o-phospho-l-serine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0544 * +EC2.6.1.54 2-oxoglutarate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.015 * +EC2.6.1.54 d-glutamate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 9.0 * +EC2.6.1.54 pyridoxal 5'-phosphate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.01 * +EC2.6.1.54 pyridoxamine 5'-phosphate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 0.004 * +EC2.6.1.55 2-oxoglutarate achromobacter superficialis//*//* 11.0 * +EC2.6.1.55 beta-alanine achromobacter superficialis//*//* 17.0 * +EC2.6.1.55 hypotaurine achromobacter superficialis//*//* 16.0 * +EC2.6.1.55 taurine achromobacter superficialis//*//* 12.0 * +EC2.6.1.57 2-oxo-4-methylpentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.6.1.57 2-oxoadipate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.1 * +EC2.6.1.57 2-oxoglutarate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.58 * +EC2.6.1.57 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.1 * +EC2.6.1.57 2-oxoglutarate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.15 * +EC2.6.1.57 2-oxoglutarate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 5.19 * +EC2.6.1.57 2-oxoglutarate candida maltosa//*//* 5.0 * +EC2.6.1.57 2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC2.6.1.57 2-oxoglutarate flavobacterium sp.//*//* 0.97 * +EC2.6.1.57 2-oxoglutarate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.08 * +EC2.6.1.57 2-oxoglutarate methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.3 * +EC2.6.1.57 2-oxoglutarate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.14 * +EC2.6.1.57 2-oxoglutarate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.76 * +EC2.6.1.57 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.54 * +EC2.6.1.57 2-oxoglutarate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.23 * +EC2.6.1.57 3-(4-hydroxyphenyl)pyruvate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.059 * +EC2.6.1.57 4-hydroxyphenylpyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.032 * +EC2.6.1.57 4-hydroxyphenylpyruvate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.03 * +EC2.6.1.57 4-hydroxyphenylpyruvate candida maltosa//*//* 0.05 * +EC2.6.1.57 4-hydroxyphenylpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC2.6.1.57 alpha-ketomethiobutyrate crithidia fasciculata//*//* 0.33 * +EC2.6.1.57 alpha-ketomethiobutyrate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.33 * +EC2.6.1.57 glyoxylate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 7.04 * +EC2.6.1.57 hydroxyphenylpyruvate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.8 * +EC2.6.1.57 indolepyruvate candida maltosa//*//* 0.06 * +EC2.6.1.57 indolepyruvate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.1 * +EC2.6.1.57 l-5-fluorotryptophan azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.36 * +EC2.6.1.57 l-5-methyltryptophan azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 1.2 * +EC2.6.1.57 l-arogenate candida maltosa//*//* 0.45 * +EC2.6.1.57 l-aspartate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 3.7 * +EC2.6.1.57 l-aspartate brevibacterium linens//prokaryotes;bacteria;actinobacteria;brevibacterium//bly 8.4 * +EC2.6.1.57 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.8 * +EC2.6.1.57 l-aspartate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.8 * +EC2.6.1.57 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC2.6.1.57 l-glutamine candida maltosa//*//* 7.0 * +EC2.6.1.57 l-histidine azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.35 * +EC2.6.1.57 l-histidine candida maltosa//*//* 5.0 * +EC2.6.1.57 l-histidine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 70.0 * +EC2.6.1.57 l-leucine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 7.1 * +EC2.6.1.57 l-leucine candida maltosa//*//* 4.0 * +EC2.6.1.57 l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.8 * +EC2.6.1.57 l-methionine candida maltosa//*//* 5.0 * +EC2.6.1.57 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC2.6.1.57 l-phenylalanine azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.43 * +EC2.6.1.57 l-phenylalanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.08 * +EC2.6.1.57 l-phenylalanine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.17 * +EC2.6.1.57 l-phenylalanine brevibacterium linens//prokaryotes;bacteria;actinobacteria;brevibacterium//bly 1.3 * +EC2.6.1.57 l-phenylalanine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.05 * +EC2.6.1.57 l-phenylalanine candida maltosa//*//* 0.44 * +EC2.6.1.57 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.6.1.57 l-phenylalanine flavobacterium sp.//*//* 1.33 * +EC2.6.1.57 l-phenylalanine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.08 * +EC2.6.1.57 l-phenylalanine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 0.4 * +EC2.6.1.57 l-phenylalanine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.15 * +EC2.6.1.57 l-phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC2.6.1.57 l-phenylalanine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.55 * +EC2.6.1.57 l-phenylalanine vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.07 * +EC2.6.1.57 l-tryptophan azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 1.05 * +EC2.6.1.57 l-tryptophan brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.21 * +EC2.6.1.57 l-tryptophan brevibacterium linens//prokaryotes;bacteria;actinobacteria;brevibacterium//bly 0.7 * +EC2.6.1.57 l-tryptophan candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.07 * +EC2.6.1.57 l-tryptophan candida maltosa//*//* 2.5 * +EC2.6.1.57 l-tryptophan crithidia fasciculata//*//* 1.64 * +EC2.6.1.57 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.6.1.57 l-tryptophan flavobacterium sp.//*//* 1.37 * +EC2.6.1.57 l-tryptophan klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.6 * +EC2.6.1.57 l-tryptophan methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 1.0 * +EC2.6.1.57 l-tryptophan paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.4 * +EC2.6.1.57 l-tryptophan pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.31 * +EC2.6.1.57 l-tryptophan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC2.6.1.57 l-tryptophan thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.47 * +EC2.6.1.57 l-tryptophan trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.64 * +EC2.6.1.57 l-tryptophan vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.095 * +EC2.6.1.57 l-tyrosine azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.19 * +EC2.6.1.57 l-tyrosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.31 * +EC2.6.1.57 l-tyrosine brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.11 * +EC2.6.1.57 l-tyrosine brevibacterium linens//prokaryotes;bacteria;actinobacteria;brevibacterium//bly 1.4 * +EC2.6.1.57 l-tyrosine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.1 * +EC2.6.1.57 l-tyrosine candida maltosa//*//* 0.4 * +EC2.6.1.57 l-tyrosine crithidia fasciculata//*//* 0.57 * +EC2.6.1.57 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC2.6.1.57 l-tyrosine flavobacterium sp.//*//* 1.4 * +EC2.6.1.57 l-tyrosine methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 1.0 * +EC2.6.1.57 l-tyrosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.31 * +EC2.6.1.57 l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.8 * +EC2.6.1.57 l-tyrosine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 2.37 * +EC2.6.1.57 l-tyrosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.57 * +EC2.6.1.57 l-tyrosine vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.08 * +EC2.6.1.57 oxaloacetate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 5.1 * +EC2.6.1.57 oxaloacetate candida maltosa//*//* 3.3 * +EC2.6.1.57 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.13 * +EC2.6.1.57 oxaloacetate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.12 * +EC2.6.1.57 phenylalanine crithidia fasciculata//*//* 2.18 * +EC2.6.1.57 phenylalanine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.18 * +EC2.6.1.57 phenylpyruvate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.01 * +EC2.6.1.57 phenylpyruvate candida maltosa//*//* 0.08 * +EC2.6.1.57 phenylpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC2.6.1.57 phenylpyruvate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.02 * +EC2.6.1.57 phenylpyruvate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.083 * +EC2.6.1.57 prephenate candida maltosa//*//* 0.08 * +EC2.6.1.57 pyridoxal 5'-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.025 * +EC2.6.1.57 pyridoxal 5'-phosphate candida maltosa//*//* 0.001 * +EC2.6.1.57 pyruvate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 8.8 * +EC2.6.1.57 pyruvate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 3.59 * +EC2.6.1.58 histidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.9 * +EC2.6.1.58 pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 21.0 * +EC2.6.1.59 2-oxoglutarate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.22 * +EC2.6.1.59 dtdp-4-dehydro-6-deoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.6.1.59 l-glutamate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 7.9 * +EC2.6.1.59 tdp-4-amino-4,6-dideoxy-d-galactose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.16 * +EC2.6.1.59 tdp-4-keto-6-deoxy-d-glucose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 1.0 * +EC2.6.1.6 2-oxoglutarate glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.3 * +EC2.6.1.6 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC2.6.1.6 l-leucine glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.67 * +EC2.6.1.6 leucine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC2.6.1.60 alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC2.6.1.60 glyoxylate macaca fuscata//*//* 0.4 * +EC2.6.1.60 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.6.1.60 histidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC2.6.1.60 l-kynurenine macaca fuscata//*//* 1.5 * +EC2.6.1.60 l-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.6.1.60 phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC2.6.1.60 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.6.1.60 serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC2.6.1.62 7-amino-8-oxononanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.1 * +EC2.6.1.62 7-amino-8-oxononanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.6.1.62 8-amino-7-oxononanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0048 * +EC2.6.1.62 8-amino-7-oxononanoate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.069 * +EC2.6.1.62 8-amino-7-oxononanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC2.6.1.62 8-amino-7-oxononanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0038 * +EC2.6.1.62 pyridoxal 5'-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.00083 * +EC2.6.1.62 pyridoxal 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC2.6.1.62 pyridoxamine 5'-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0012 * +EC2.6.1.62 pyridoxamine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC2.6.1.62 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC2.6.1.62 s-adenosyl-l-methionine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.55 * +EC2.6.1.62 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0002 * +EC2.6.1.62 s-adenosyl-l-methionine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.45 * +EC2.6.1.62 sinefungin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.7 * +EC2.6.1.63 glyoxylate macaca fuscata//*//* 0.4 * +EC2.6.1.63 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC2.6.1.63 l-kynurenine macaca fuscata//*//* 1.5 * +EC2.6.1.63 l-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.6.1.64 (-)allocystathionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.9 * +EC2.6.1.64 2-oxo-4-methiolbutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC2.6.1.64 2-oxoadipate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 25.0 * +EC2.6.1.64 2-oxobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.19 * +EC2.6.1.64 2-oxoglutaramate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.6.1.64 2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 39.0 * +EC2.6.1.64 2-oxovalerate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.76 * +EC2.6.1.64 3-mercaptopyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.61 * +EC2.6.1.64 4-hydroxyphenylpyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.14 * +EC2.6.1.64 alpha-keto-gamma-methiolbutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.92 * +EC2.6.1.64 alpha-keto-n-caproate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.7 * +EC2.6.1.64 alpha-keto-n-valerate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.8 * +EC2.6.1.64 alpha-ketobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.0 * +EC2.6.1.64 cystine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC2.6.1.64 glyoxalate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.46 * +EC2.6.1.64 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC2.6.1.64 indolepyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.16 * +EC2.6.1.64 l-5-n-methylglutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.91 * +EC2.6.1.64 l-alanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 63.0 * +EC2.6.1.64 l-arginine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 130.0 * +EC2.6.1.64 l-asparagine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.0 * +EC2.6.1.64 l-aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 19.0 * +EC2.6.1.64 l-cystathionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.9 * +EC2.6.1.64 l-ethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.53 * +EC2.6.1.64 l-glutamate-5-ethylester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 96.0 * +EC2.6.1.64 l-glutamate-5-methylester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.5 * +EC2.6.1.64 l-glutamate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 21.0 * +EC2.6.1.64 l-glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.6.1.64 l-glutamine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.5 * +EC2.6.1.64 l-histidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 18.0 * +EC2.6.1.64 l-kynurenine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.2 * +EC2.6.1.64 l-leucine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 180.0 * +EC2.6.1.64 l-methionine(sr)sulfoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.15 * +EC2.6.1.64 l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.96 * +EC2.6.1.64 l-methionine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.2 * +EC2.6.1.64 l-phenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.092 * +EC2.6.1.64 l-phenylalanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.76 * +EC2.6.1.64 l-s-methylcysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.85 * +EC2.6.1.64 l-serine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 37.0 * +EC2.6.1.64 l-threonine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 55.0 * +EC2.6.1.64 l-tryptophan thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.0 * +EC2.6.1.64 l-tyrosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.82 * +EC2.6.1.64 lanthionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC2.6.1.64 phenylpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC2.6.1.64 phenylpyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.13 * +EC2.6.1.64 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.5 * +EC2.6.1.64 pyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.06 * +EC2.6.1.64 s-aminomethyl-l-cysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC2.6.1.65 2-oxoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC2.6.1.65 6-acetamido-3-aminohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.0 * +EC2.6.1.67 2-oxoglutarate candida guilliermondii var. membranaefaciens//*//* 2.0 * +EC2.6.1.67 l-leucine candida guilliermondii var. membranaefaciens//*//* 6.6 * +EC2.6.1.67 l-norleucine candida guilliermondii var. membranaefaciens//*//* 1.8 * +EC2.6.1.7 2-aminobutanoate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 92.7 * +EC2.6.1.7 2-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.3 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate haemaphysalis longicornis//*//* 0.00438 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.7 * +EC2.6.1.7 2-oxo-4-methylthiobutyrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00241 * +EC2.6.1.7 2-oxoadipate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.9 * +EC2.6.1.7 2-oxoadipate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.6.1.7 2-oxobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC2.6.1.7 2-oxobutyrate haemaphysalis longicornis//*//* 0.000217 * +EC2.6.1.7 2-oxobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.7 * +EC2.6.1.7 2-oxobutyrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.6.1.7 2-oxobutyrate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00173 * +EC2.6.1.7 2-oxocaproate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.6.1.7 2-oxocaproic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC2.6.1.7 2-oxoglutarate hansenula schneggii//*//* 1.1 * +EC2.6.1.7 2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC2.6.1.7 2-oxoglutarate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.4 * +EC2.6.1.7 2-oxoglutarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.7 * +EC2.6.1.7 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC2.6.1.7 2-oxoisocaproate hansenula schneggii//*//* 1.0 * +EC2.6.1.7 2-oxoisocaproate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.6.1.7 2-oxoisocaproic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.3 * +EC2.6.1.7 2-oxovalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.6.1.7 2-oxovalerate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC2.6.1.7 3-(2-aminobenzoyl)-l-alanine hansenula schneggii//*//* 1.9 * +EC2.6.1.7 3-hydroxykynurenine haemaphysalis longicornis//*//* 0.2062 * +EC2.6.1.7 3-methyl-2-oxobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.9 * +EC2.6.1.7 4-methyl-2-oxopentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC2.6.1.7 alpha-oxo-gamma-methiol-butyric acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC2.6.1.7 beta-phenylpyruvate hansenula schneggii//*//* 1.2 * +EC2.6.1.7 glyoxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.6.1.7 glyoxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC2.6.1.7 hydroxyphenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.6.1.7 hydroxyphenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.6.1.7 indo-3-pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.6.1.7 indo-3-pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC2.6.1.7 indole-3-pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.6 * +EC2.6.1.7 l-3-hydroxykynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC2.6.1.7 l-alanine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 246.0 * +EC2.6.1.7 l-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.2 * +EC2.6.1.7 l-asparagine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 6.1 * +EC2.6.1.7 l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 23.1 * +EC2.6.1.7 l-asparagine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC2.6.1.7 l-cysteine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.3 * +EC2.6.1.7 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC2.6.1.7 l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC2.6.1.7 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.6 * +EC2.6.1.7 l-glutamine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 3.8 * +EC2.6.1.7 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC2.6.1.7 l-glutamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC2.6.1.7 l-histidine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.5 * +EC2.6.1.7 l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC2.6.1.7 l-histidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC2.6.1.7 l-kynurenine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 4.3 * +EC2.6.1.7 l-kynurenine haemaphysalis longicornis//*//* 0.1116 * +EC2.6.1.7 l-kynurenine hansenula schneggii//*//* 2.2 * +EC2.6.1.7 l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.68 * +EC2.6.1.7 l-kynurenine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC2.6.1.7 l-kynurenine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.5 * +EC2.6.1.7 l-kynurenine penaeus monodon//*//* 0.25 * +EC2.6.1.7 l-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.6.1.7 l-leucine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 34.5 * +EC2.6.1.7 l-leucine hansenula schneggii//*//* 5.0 * +EC2.6.1.7 l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6 * +EC2.6.1.7 l-methionine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.4 * +EC2.6.1.7 l-methionine hansenula schneggii//*//* 5.0 * +EC2.6.1.7 l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC2.6.1.7 l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC2.6.1.7 l-phenylalanine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 3.5 * +EC2.6.1.7 l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC2.6.1.7 l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC2.6.1.7 l-serine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 32.7 * +EC2.6.1.7 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.0 * +EC2.6.1.7 l-tryptophan aedes aegypti//eukaryotes;animals;arthropods;insects//aag 12.9 * +EC2.6.1.7 l-tryptophan hansenula schneggii//*//* 2.6 * +EC2.6.1.7 l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.6.1.7 l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.1 * +EC2.6.1.7 l-tyrosine aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.9 * +EC2.6.1.7 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC2.6.1.7 l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.7 * +EC2.6.1.7 l-vinylglycine hansenula schneggii//*//* 2.7 * +EC2.6.1.7 mercaptopyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.6.1.7 mercaptopyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.4 * +EC2.6.1.7 oxaloacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC2.6.1.7 oxaloacetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC2.6.1.7 phenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.6.1.7 phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.6 * +EC2.6.1.7 pyridoxal 5'-phosphate hansenula schneggii//*//* 0.0013 * +EC2.6.1.7 pyridoxal 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00085 * +EC2.6.1.7 pyridoxamine 5'-phosphate hansenula schneggii//*//* 0.0032 * +EC2.6.1.7 pyruvate haemaphysalis longicornis//*//* 0.0175 * +EC2.6.1.7 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.15 * +EC2.6.1.7 pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.3 * +EC2.6.1.7 pyruvate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.7 * +EC2.6.1.7 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC2.6.1.75 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC2.6.1.75 s-(4-bromophenyl)-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC2.6.1.76 2-oxoglutarate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 1.07 * +EC2.6.1.76 2-oxoglutaric acid acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 1.46 * +EC2.6.1.76 l-2,4-diaminobutanoate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 0.09 * +EC2.6.1.76 l-2,4-diaminobutyric acid acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 4.3 * +EC2.6.1.76 l-aspartate 4-semialdehyde halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 4.5 * +EC2.6.1.76 l-glutamate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 9.1 * +EC2.6.1.77 hypotaurine bilophila wadsworthia//*//* 8.1 * +EC2.6.1.77 pyruvate bilophila wadsworthia//*//* 0.82 * +EC2.6.1.77 taurine bilophila wadsworthia//*//* 7.1 * +EC2.6.1.77 taurine geobacillus thermodenitrificans subsp. thermodenitrificans//*//* 5.3 * +EC2.6.1.78 l-aspartate anchusa officinalis//*//* 0.08 * +EC2.6.1.78 l-aspartate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.0 * +EC2.6.1.78 oxaloacetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.025 * +EC2.6.1.78 prephenate anchusa officinalis//*//* 0.08 * +EC2.6.1.79 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC2.6.1.79 l-arogenate sorghum bicolor x sorghum sudanesis//*//* 0.8 * +EC2.6.1.79 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.6 * +EC2.6.1.79 l-glutamate sorghum bicolor x sorghum sudanesis//*//* 1.07 * +EC2.6.1.79 prephenate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.1 * +EC2.6.1.79 prephenate sorghum bicolor x sorghum sudanesis//*//* 0.07 * +EC2.6.1.79 prephenate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.02 * +EC2.6.1.79 prephenate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.13 * +EC2.6.1.80 nicotianamine hordeum vulgare//*//* 0.4 * +EC2.6.1.81 l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.391 * +EC2.6.1.81 n2-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.338 * +EC2.6.1.81 n2-succinyl-l-ornithine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.25 * +EC2.6.1.81 n2-succinyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.284 * +EC2.6.1.81 n2-succinyl-l-ornithine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.42 * +EC2.6.1.82 2-oxoglutaric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC2.6.1.82 putrescine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0225 * +EC2.6.1.83 2-oxoglutarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.7 * +EC2.6.1.83 2-oxoglutarate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.2 * +EC2.6.1.83 2-oxoglutarate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.42 * +EC2.6.1.83 l-2-amino-6-oxopimelate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.038 * +EC2.6.1.83 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.9 * +EC2.6.1.83 l-glutamate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.9 * +EC2.6.1.83 ll-2,6-diaminoheptanedioate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.7 * +EC2.6.1.83 ll-2,6-diaminoheptanedioate leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 1.1 * +EC2.6.1.83 ll-2,6-diaminoheptanedioate verrucomicrobium spinosum//*//* 4.0 * +EC2.6.1.83 ll-2,6-diaminopimelate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.067 * +EC2.6.1.83 ll-diaminopimelate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.3 * +EC2.6.1.83 ll-diaminopimelate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.0828 * +EC2.6.1.83 tetrahydrodipicolinate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.1 * +EC2.6.1.84 l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.8 * +EC2.6.1.84 pyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.6 * +EC2.6.1.85 chorismate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.117 * +EC2.6.1.85 chorismate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0016 * +EC2.6.1.85 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC2.6.1.85 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.02 * +EC2.6.1.85 chorismate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.24 * +EC2.6.1.85 l-glutamine agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 2.4 * +EC2.6.1.85 l-glutamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC2.6.1.85 l-glutamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.0 * +EC2.6.1.85 nh3 arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 195.0 * +EC2.6.1.85 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 145.0 * +EC2.6.1.86 chorismate burkholderia lata//prokaryotes;bacteria;betaproteobacteria;burkholderia//bur 0.0024 * +EC2.6.1.86 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.02 * +EC2.6.1.88 2-oxo-4-methylthiobutanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.2 * +EC2.6.1.88 l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 9.53 * +EC2.6.1.88 l-isoleucine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.85 * +EC2.6.1.88 l-leucine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.5 * +EC2.6.1.88 l-phenylalanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.44 * +EC2.6.1.88 l-valine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.77 * +EC2.6.1.9 2-oxoglutarate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.1 * +EC2.6.1.9 2-oxoglutarate neurospora sp.//*//* 1.2 * +EC2.6.1.9 l-histidinol phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.15 * +EC2.6.1.9 l-histidinol phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.89 * +EC2.6.1.9 l-histidinol phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.42 * +EC2.6.1.9 l-histidinol phosphate neurospora sp.//*//* 1.1 * +EC2.6.1.9 l-histidinol phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.8 * +EC2.6.1.9 l-histidinol phosphate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.17 * +EC2.6.1.9 l-leucine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 94.9 * +EC2.6.1.9 l-phenylalanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.5 * +EC2.6.1.9 l-phenylalanine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 106.0 * +EC2.6.1.9 l-phenylalanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.1 * +EC2.6.1.9 l-phenylalanine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 38.0 * +EC2.6.1.9 l-tryptophan thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3.4 * +EC2.6.1.9 l-tyrosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.71 * +EC2.6.1.9 l-tyrosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 9.8 * +EC2.6.1.9 l-tyrosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.3 * +EC2.6.1.9 phenylalanine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 43.48 * +EC2.6.1.9 tyrosine zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 3.39 * +EC2.6.1.92 udp-2-acetamido-2,6-dideoxy-beta-l-arabino-hex-4-ulose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.052 * +EC2.6.1.96 4-aminobutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC2.6.1.96 4-aminobutanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.077 * +EC2.6.1.96 4-aminobutanoate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.2 * +EC2.6.1.96 glyoxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.11 * +EC2.6.1.96 glyoxylate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.017 * +EC2.6.1.96 l-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.2 * +EC2.6.1.96 pyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.14 * +EC2.6.1.96 pyruvate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.019 * +EC2.6.1.96 pyruvate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.24 * +EC2.6.1.96 succinate semialdehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.014 * +EC2.6.1.B16 (s)-1-phenylethylamine halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 2.57 * +EC2.6.1.B16 pyruvate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 0.56 * +EC2.6.1.B3 (2s,3s,5r,10s,12r,14r,15s,16s)-2-amino-12,16-dimethylicosane-3,5,10,14,15-pentol sphingopyxis sp.//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sphp 0.0011 * +EC2.6.1.B3 oxaloacetate sphingopyxis sp.//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sphp 4.15 * +EC2.6.1.B3 pyruvate sphingopyxis sp.//prokaryotes;bacteria;alphaproteobacteria;sphingopyxis//sphp 0.49 * +EC2.6.99.3 hydroxyurea streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 9.0 * +EC2.7.1.1 1,5-anhydro-d-glucitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.0 * +EC2.7.1.1 1-thio-d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC2.7.1.1 2-deoxy-2-fluoroglucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC2.7.1.1 2-deoxy-2-fluoroglucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC2.7.1.1 2-deoxy-d-glucose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.33 * +EC2.7.1.1 2-deoxy-d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.125 * +EC2.7.1.1 2-deoxy-d-glucose bubalus bubalis//*//* 0.134 * +EC2.7.1.1 2-deoxy-d-glucose eimeria tenella//*//* 5.66 * +EC2.7.1.1 2-deoxy-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.1.1 2-deoxy-d-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.9 * +EC2.7.1.1 2-deoxy-d-glucose rana catesbeiana//*//* 3.6 * +EC2.7.1.1 2-deoxy-d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.7.1.1 2-deoxy-d-glucose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.44 * +EC2.7.1.1 2-deoxy-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC2.7.1.1 2-deoxy-d-glucose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.187 * +EC2.7.1.1 2-fluoro-2-deoxy-d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.055 * +EC2.7.1.1 2-fluoro-2-deoxy-d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.068 * +EC2.7.1.1 3-deoxy-3-amino-d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 30.0 * +EC2.7.1.1 5-thio-d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC2.7.1.1 atp aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.42 * +EC2.7.1.1 atp ascaris suum//*//* 0.2 * +EC2.7.1.1 atp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.54 * +EC2.7.1.1 atp brugia malayi//eukaryotes;animals;nematodes//bmy 1.09 * +EC2.7.1.1 atp bubalus bubalis//*//* 0.125 * +EC2.7.1.1 atp catharanthus roseus//*//* 0.052 * +EC2.7.1.1 atp cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.673 * +EC2.7.1.1 atp helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.03054 * +EC2.7.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.7.1.1 atp leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.303 * +EC2.7.1.1 atp littorina littorea//*//* 0.14 * +EC2.7.1.1 atp lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.52 * +EC2.7.1.1 atp mammalia//*//* 0.5 * +EC2.7.1.1 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.208 * +EC2.7.1.1 atp ogataea angusta//*//* 0.28 * +EC2.7.1.1 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.075 * +EC2.7.1.1 atp rana sylvatica//*//* 0.239 * +EC2.7.1.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.7.1.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC2.7.1.1 atp schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.93 * +EC2.7.1.1 atp solanum chacoense//*//* 0.061 * +EC2.7.1.1 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.09 * +EC2.7.1.1 atp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.12 * +EC2.7.1.1 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC2.7.1.1 atp thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.29 * +EC2.7.1.1 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.16 * +EC2.7.1.1 atp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 1.05 * +EC2.7.1.1 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.22 * +EC2.7.1.1 atp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.03 * +EC2.7.1.1 atp xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 4.14 * +EC2.7.1.1 ctp helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 1.993 * +EC2.7.1.1 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC2.7.1.1 ctp solanum chacoense//*//* 2.0 * +EC2.7.1.1 ctp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.52 * +EC2.7.1.1 d-fructose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.15 * +EC2.7.1.1 d-fructose ascaris suum//*//* 80.0 * +EC2.7.1.1 d-fructose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 29.0 * +EC2.7.1.1 d-fructose botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.7 * +EC2.7.1.1 d-fructose brassica rapa subsp. campestris//*//* 0.47 * +EC2.7.1.1 d-fructose brugia malayi//eukaryotes;animals;nematodes//bmy 75.0 * +EC2.7.1.1 d-fructose bubalus bubalis//*//* 1.44 * +EC2.7.1.1 d-fructose catharanthus roseus//*//* 0.23 * +EC2.7.1.1 d-fructose cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 6.49 * +EC2.7.1.1 d-fructose eimeria tenella//*//* 0.5 * +EC2.7.1.1 d-fructose helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 3.625 * +EC2.7.1.1 d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC2.7.1.1 d-fructose leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.142 * +EC2.7.1.1 d-fructose ogataea angusta//*//* 1.1 * +EC2.7.1.1 d-fructose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4.0 * +EC2.7.1.1 d-fructose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC2.7.1.1 d-fructose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.7.1.1 d-fructose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.5 * +EC2.7.1.1 d-fructose schwanniomyces occidentalis//*//* 9.3 * +EC2.7.1.1 d-fructose solanum chacoense//*//* 5.2 * +EC2.7.1.1 d-fructose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 8.7 * +EC2.7.1.1 d-fructose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 30.0 * +EC2.7.1.1 d-fructose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC2.7.1.1 d-fructose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.734 * +EC2.7.1.1 d-fructose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1510.0 * +EC2.7.1.1 d-fructose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.0 * +EC2.7.1.1 d-galactose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 105.0 * +EC2.7.1.1 d-glucosamine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.06 * +EC2.7.1.1 d-glucosamine bubalus bubalis//*//* 0.116 * +EC2.7.1.1 d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.1.1 d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC2.7.1.1 d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.7.1.1 d-glucosamine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.23 * +EC2.7.1.1 d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC2.7.1.1 d-glucose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.044 * +EC2.7.1.1 d-glucose ascaris suum//*//* 4.7 * +EC2.7.1.1 d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.023 * +EC2.7.1.1 d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.032 * +EC2.7.1.1 d-glucose botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.132 * +EC2.7.1.1 d-glucose brassica rapa subsp. campestris//*//* 1.25 * +EC2.7.1.1 d-glucose brugia malayi//eukaryotes;animals;nematodes//bmy 0.035 * +EC2.7.1.1 d-glucose bubalus bubalis//*//* 0.012 * +EC2.7.1.1 d-glucose catharanthus roseus//*//* 0.06 * +EC2.7.1.1 d-glucose cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.183 * +EC2.7.1.1 d-glucose eimeria tenella//*//* 0.67 * +EC2.7.1.1 d-glucose helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.0338 * +EC2.7.1.1 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC2.7.1.1 d-glucose leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.066 * +EC2.7.1.1 d-glucose littorina littorea//*//* 0.059 * +EC2.7.1.1 d-glucose lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.31 * +EC2.7.1.1 d-glucose mammalia//*//* 0.003 * +EC2.7.1.1 d-glucose ogataea angusta//*//* 0.05 * +EC2.7.1.1 d-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.04 * +EC2.7.1.1 d-glucose rana catesbeiana//*//* 0.14 * +EC2.7.1.1 d-glucose rana sylvatica//*//* 0.139 * +EC2.7.1.1 d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.7.1.1 d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC2.7.1.1 d-glucose schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.13 * +EC2.7.1.1 d-glucose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.16 * +EC2.7.1.1 d-glucose schwanniomyces occidentalis//*//* 0.98 * +EC2.7.1.1 d-glucose solanum chacoense//*//* 0.023 * +EC2.7.1.1 d-glucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.035 * +EC2.7.1.1 d-glucose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.05 * +EC2.7.1.1 d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.015 * +EC2.7.1.1 d-glucose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.058 * +EC2.7.1.1 d-glucose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.28 * +EC2.7.1.1 d-glucose toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.008 * +EC2.7.1.1 d-glucose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.043 * +EC2.7.1.1 d-glucose xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.74 * +EC2.7.1.1 d-mannosamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC2.7.1.1 d-mannose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.11 * +EC2.7.1.1 d-mannose bubalus bubalis//*//* 0.024 * +EC2.7.1.1 d-mannose cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.109 * +EC2.7.1.1 d-mannose eimeria tenella//*//* 25.41 * +EC2.7.1.1 d-mannose helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.01911 * +EC2.7.1.1 d-mannose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.7.1.1 d-mannose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.7.1.1 d-mannose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.7.1.1 d-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC2.7.1.1 d-mannose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.07 * +EC2.7.1.1 d-mannose solanum chacoense//*//* 0.03 * +EC2.7.1.1 d-mannose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.038 * +EC2.7.1.1 d-mannose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.13 * +EC2.7.1.1 d-mannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.014 * +EC2.7.1.1 d-mannose thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.043 * +EC2.7.1.1 d-mannose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.37 * +EC2.7.1.1 d-mannose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.85 * +EC2.7.1.1 gtp helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.654 * +EC2.7.1.1 gtp solanum chacoense//*//* 0.231 * +EC2.7.1.1 itp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.6 * +EC2.7.1.1 itp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.9 * +EC2.7.1.1 itp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC2.7.1.1 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.56 * +EC2.7.1.1 n-acetyl-d-glucosamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 41.6 * +EC2.7.1.1 n-acetyl-d-glucosamine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.32 * +EC2.7.1.1 ttp solanum chacoense//*//* 0.231 * +EC2.7.1.1 utp catharanthus roseus//*//* 0.288 * +EC2.7.1.1 utp helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 1.162 * +EC2.7.1.1 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC2.7.1.1 utp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 30.0 * +EC2.7.1.1 utp solanum chacoense//*//* 2.2 * +EC2.7.1.100 5-methylthioribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.06 * +EC2.7.1.100 5-methylthioribose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0081 * +EC2.7.1.100 5-methylthioribose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.012 * +EC2.7.1.100 5-methylthioribose lupinus luteus//*//* 0.0043 * +EC2.7.1.100 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.074 * +EC2.7.1.100 atp lupinus luteus//*//* 0.0083 * +EC2.7.1.100 d-ribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.8 * +EC2.7.1.100 s-methyl-5-thio-d-ribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.06 * +EC2.7.1.100 s-methyl-5-thio-d-ribose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0168 * +EC2.7.1.101 atp mycobacterium butyricum//*//* 1.0 * +EC2.7.1.101 d-tagatose mycobacterium butyricum//*//* 0.8 * +EC2.7.1.102 atp kluyvera cryocrescens//*//* 2.5 * +EC2.7.1.102 d-hamamelose kluyvera cryocrescens//*//* 3.0 * +EC2.7.1.105 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.19 * +EC2.7.1.105 atp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.7 * +EC2.7.1.105 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.055 * +EC2.7.1.105 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.7.1.105 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC2.7.1.105 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC2.7.1.105 atp mytilus galloprovincialis//*//* 0.62 * +EC2.7.1.105 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0169 * +EC2.7.1.105 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.29 * +EC2.7.1.105 atp sparus aurata//*//* 0.018 * +EC2.7.1.105 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.5 * +EC2.7.1.105 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.88 * +EC2.7.1.105 beta-d-fructose 2,6-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.7.1.105 beta-d-fructose 2,6-bisphosphate sparus aurata//*//* 0.21 * +EC2.7.1.105 beta-d-fructose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC2.7.1.105 beta-d-fructose 6-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.6 * +EC2.7.1.105 beta-d-fructose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC2.7.1.105 beta-d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.057 * +EC2.7.1.105 beta-d-fructose 6-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.02 * +EC2.7.1.105 beta-d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.7.1.105 beta-d-fructose 6-phosphate mytilus galloprovincialis//*//* 0.37 * +EC2.7.1.105 beta-d-fructose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.7.1.105 beta-d-fructose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.7.1.105 beta-d-fructose 6-phosphate sparus aurata//*//* 0.156 * +EC2.7.1.105 beta-d-fructose 6-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.5 * +EC2.7.1.105 beta-d-fructose 6-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.8 * +EC2.7.1.105 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC2.7.1.105 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC2.7.1.105 d-psicose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.4 * +EC2.7.1.105 d-tagatose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC2.7.1.105 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.7.1.105 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.7.1.105 l-sorbose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.175 * +EC2.7.1.105 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0095 * +EC2.7.1.105 mgatp2- columba sp.//*//* 0.0072 * +EC2.7.1.105 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.7.1.105 mgatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.29 * +EC2.7.1.105 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC2.7.1.105 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.7.1.105 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC2.7.1.106 3-phospho-d-glyceroyl 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.7e-05 * +EC2.7.1.106 d-glucose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC2.7.1.106 d-glucose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC2.7.1.107 1,2-diarachidonoyl-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC2.7.1.107 1,2-diolein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.7.1.107 1,2-dioleoyl-sn-glycerol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.125 * +EC2.7.1.107 1-stearoyl-2-arachidonoyl-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.7.1.107 2'-deoxy-atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC2.7.1.107 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.107 atp catharanthus roseus//*//* 0.1 * +EC2.7.1.107 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC2.7.1.107 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.16 * +EC2.7.1.107 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.7.1.107 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.105 * +EC2.7.1.107 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC2.7.1.107 atp triticum aestivum//*//* 0.1 * +EC2.7.1.107 ceramide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC2.7.1.107 diacylglycerol catharanthus roseus//*//* 0.25 * +EC2.7.1.107 diolein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.7.1.107 dioleoylglycerol catharanthus roseus//*//* 0.9 * +EC2.7.1.107 gtp catharanthus roseus//*//* 0.104 * +EC2.7.1.107 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.7 * +EC2.7.1.107 gtp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC2.7.1.107 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC2.7.1.107 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.9 * +EC2.7.1.107 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.7.1.107 sn-1,2-dioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.7.1.108 ctp ascaris suum//*//* 0.85 * +EC2.7.1.108 ctp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0065 * +EC2.7.1.108 ctp onchocerca volvulus//*//* 0.75 * +EC2.7.1.108 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC2.7.1.108 ctp tetrahymena pyriformis//*//* 3.0 * +EC2.7.1.108 dctp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0091 * +EC2.7.1.108 dolichol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.055 * +EC2.7.1.108 dolichol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC2.7.1.108 dolichol tetrahymena pyriformis//*//* 0.07 * +EC2.7.1.11 2-dehydro-3-deoxy-d-gluconate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 8.8 * +EC2.7.1.11 adenosine aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.0 * +EC2.7.1.11 adp desulfurococcus amylolyticus//prokaryotes;archaea;crenarchaeota;desulfurococcus//dka 0.49 * +EC2.7.1.11 adp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.4 * +EC2.7.1.11 atp aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.027 * +EC2.7.1.11 atp amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.6 * +EC2.7.1.11 atp anguilla anguilla//*//* 0.019 * +EC2.7.1.11 atp ascaris suum//*//* 0.022 * +EC2.7.1.11 atp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.08 * +EC2.7.1.11 atp austromegabalanus psittacus//*//* 0.07 * +EC2.7.1.11 atp auxenochlorella pyrenoidosa//*//* 0.009 * +EC2.7.1.11 atp bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.07 * +EC2.7.1.11 atp bombus atratus//*//* 0.039 * +EC2.7.1.11 atp citrus x paradisi//*//* 0.04 * +EC2.7.1.11 atp clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.055 * +EC2.7.1.11 atp crassostrea virginica//*//* 0.05 * +EC2.7.1.11 atp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.005 * +EC2.7.1.11 atp cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.022 * +EC2.7.1.11 atp desulfurococcus amylolyticus//prokaryotes;archaea;crenarchaeota;desulfurococcus//dka 0.1 * +EC2.7.1.11 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.017 * +EC2.7.1.11 atp dunaliella marina//*//* 0.06 * +EC2.7.1.11 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC2.7.1.11 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.07 * +EC2.7.1.11 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.3 * +EC2.7.1.11 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC2.7.1.11 atp monoraphidium minutum//*//* 0.009 * +EC2.7.1.11 atp musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.021 * +EC2.7.1.11 atp oceanimonas doudoroffii//*//* 0.14 * +EC2.7.1.11 atp oncorhynchus mykiss//*//* 0.015 * +EC2.7.1.11 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.7.1.11 atp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0087 * +EC2.7.1.11 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.027 * +EC2.7.1.11 atp sparus aurata//*//* 0.051 * +EC2.7.1.11 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.081 * +EC2.7.1.11 atp streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 0.22 * +EC2.7.1.11 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC2.7.1.11 atp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.009 * +EC2.7.1.11 atp trachemys scripta//*//* 0.023 * +EC2.7.1.11 atp triticum aestivum//*//* 0.7 * +EC2.7.1.11 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.013 * +EC2.7.1.11 atp vigna mungo//*//* 0.22 * +EC2.7.1.11 ctp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.018 * +EC2.7.1.11 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC2.7.1.11 ctp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.6 * +EC2.7.1.11 ctp musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.03 * +EC2.7.1.11 d-fructose 1,6-bisphosphate desulfurococcus amylolyticus//prokaryotes;archaea;crenarchaeota;desulfurococcus//dka 16.7 * +EC2.7.1.11 d-fructose 1,6-bisphosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 7.6 * +EC2.7.1.11 d-fructose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.68 * +EC2.7.1.11 d-fructose 6-phosphate anguilla anguilla//*//* 0.024 * +EC2.7.1.11 d-fructose 6-phosphate auxenochlorella pyrenoidosa//*//* 0.19 * +EC2.7.1.11 d-fructose 6-phosphate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.05 * +EC2.7.1.11 d-fructose 6-phosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.05 * +EC2.7.1.11 d-fructose 6-phosphate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.62 * +EC2.7.1.11 d-fructose 6-phosphate crassostrea virginica//*//* 0.5 * +EC2.7.1.11 d-fructose 6-phosphate cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.071 * +EC2.7.1.11 d-fructose 6-phosphate desulfurococcus amylolyticus//prokaryotes;archaea;crenarchaeota;desulfurococcus//dka 0.57 * +EC2.7.1.11 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC2.7.1.11 d-fructose 6-phosphate fasciola hepatica//*//* 1.8 * +EC2.7.1.11 d-fructose 6-phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.023 * +EC2.7.1.11 d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC2.7.1.11 d-fructose 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.3 * +EC2.7.1.11 d-fructose 6-phosphate kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.29 * +EC2.7.1.11 d-fructose 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.25 * +EC2.7.1.11 d-fructose 6-phosphate oncorhynchus mykiss//*//* 0.019 * +EC2.7.1.11 d-fructose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.086 * +EC2.7.1.11 d-fructose 6-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.7 * +EC2.7.1.11 d-fructose 6-phosphate streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 1.44 * +EC2.7.1.11 d-fructose 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.023 * +EC2.7.1.11 d-fructose 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.44 * +EC2.7.1.11 d-fructose 6-phosphate trachemys scripta//*//* 0.043 * +EC2.7.1.11 d-fructose 6-phosphate triticum aestivum//*//* 1.43 * +EC2.7.1.11 d-fructose 6-phosphate vigna mungo//*//* 1.5 * +EC2.7.1.11 d-glucose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.6 * +EC2.7.1.11 d-ribose 5-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 3.0 * +EC2.7.1.11 d-ribose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 5.0 * +EC2.7.1.11 fructose 6-phosphate auxenochlorella pyrenoidosa//*//* 0.2 * +EC2.7.1.11 fructose 6-phosphate bombus atratus//*//* 0.039 * +EC2.7.1.11 fructose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.7.1.11 fructose 6-phosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.016 * +EC2.7.1.11 fructose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.0 * +EC2.7.1.11 gtp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.08 * +EC2.7.1.11 gtp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.0006 * +EC2.7.1.11 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.3 * +EC2.7.1.11 gtp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.18 * +EC2.7.1.11 gtp musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.038 * +EC2.7.1.11 gtp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.36 * +EC2.7.1.11 itp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.003 * +EC2.7.1.11 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC2.7.1.11 itp musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.035 * +EC2.7.1.11 k+ clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 20.0 * +EC2.7.1.11 mg2+ amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.025 * +EC2.7.1.11 mg2+ crassostrea virginica//*//* 0.01 * +EC2.7.1.11 mgatp2- lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.18 * +EC2.7.1.11 nh4+ clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.18 * +EC2.7.1.11 utp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.009 * +EC2.7.1.11 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.1 * +EC2.7.1.11 utp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.8 * +EC2.7.1.11 utp musa acuminata//eukaryotes;plants;monocots;banana family//mus 0.032 * +EC2.7.1.113 2'-deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC2.7.1.113 2'-deoxyguanosine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.01 * +EC2.7.1.113 2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.7.1.113 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.78 * +EC2.7.1.113 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC2.7.1.113 deoxyadenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.206 * +EC2.7.1.113 deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC2.7.1.113 deoxyguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0047 * +EC2.7.1.113 deoxyguanosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0014 * +EC2.7.1.113 deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC2.7.1.113 deoxyguanosine lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.065 * +EC2.7.1.113 deoxyguanosine lactobacillus johnsonii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ljo 0.087 * +EC2.7.1.113 deoxyguanosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC2.7.1.113 deoxyguanosine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00032 * +EC2.7.1.113 deoxyinosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.021 * +EC2.7.1.113 dttp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC2.7.1.113 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.7.1.113 mgatp2- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.023 * +EC2.7.1.113 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC2.7.1.113 mgdttp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC2.7.1.113 triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.092 * +EC2.7.1.113 utp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.125 * +EC2.7.1.114 adenosine asplenium nidus//*//* 1.28 * +EC2.7.1.114 amp asplenium nidus//*//* 0.11 * +EC2.7.1.114 amp herpes simplex virus//*//* 0.0023 * +EC2.7.1.114 thymidine asplenium nidus//*//* 0.84 * +EC2.7.1.114 thymidine herpes simplex virus//*//* 0.0021 * +EC2.7.1.114 uridine asplenium nidus//*//* 4.71 * +EC2.7.1.118 adp herpes simplex virus//*//* 0.012 * +EC2.7.1.118 thymidine herpes simplex virus//*//* 0.0005 * +EC2.7.1.119 atp streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.0364 * +EC2.7.1.119 hygromycin b streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.00056 * +EC2.7.1.12 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC2.7.1.12 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.344 * +EC2.7.1.12 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.116 * +EC2.7.1.12 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC2.7.1.12 d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.7.1.12 d-gluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC2.7.1.12 d-gluconate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.74 * +EC2.7.1.12 d-gluconate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.033 * +EC2.7.1.121 dihydroxyacetone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.7.1.127 1d-myo-inositol 1,4,5-trisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00056 * +EC2.7.1.127 1d-myo-inositol 1,4,5-trisphosphate caudiverbera caudiverbera//*//* 0.0016 * +EC2.7.1.127 1d-myo-inositol 1,4,5-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00076 * +EC2.7.1.127 1d-myo-inositol 1,4,5-trisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00021 * +EC2.7.1.127 1d-myo-inositol 1,4,5-trisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC2.7.1.127 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.7.1.13 2-dehydro-d-gluconate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 4.6 * +EC2.7.1.134 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.17 * +EC2.7.1.134 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.7.1.134 myo-inositol-1,3,4-trisphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.2 * +EC2.7.1.134 myo-inositol-3,4,5,6-tetrakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00036 * +EC2.7.1.136 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0106 * +EC2.7.1.137 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.067 * +EC2.7.1.137 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.7.1.137 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 25.0 * +EC2.7.1.137 phosphatidylinositol 4,5-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.7.1.137 phosphatidylinositol 4,5-bisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.0 * +EC2.7.1.137 phosphatidylinositol 4-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC2.7.1.137 phosphatidylinositol 4-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC2.7.1.137 phosphatidylinositol-4,5-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.7.1.137 phosphatidylinositol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.034 * +EC2.7.1.137 phosphatidylinositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.7.1.137 phosphatidylinositol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 64.0 * +EC2.7.1.138 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.7.1.138 c12-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.107 * +EC2.7.1.138 ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC2.7.1.138 n-(6-((7-nitro-2-1,3-benzoxadiazol-4-yl)amino)hexanoyl)-d-erythro-sphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.7.1.138 n-acetyl-sphingenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.7.1.138 n-hexanoyl-sphingenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.1.138 stearoylceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.7.1.14 sedoheptulose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.19 * +EC2.7.1.140 myo-inositol-1,3,4,5-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC2.7.1.140 myo-inositol-1,3,4,6-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC2.7.1.140 myo-inositol-1,4,5-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC2.7.1.144 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.16 * +EC2.7.1.144 ctp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 18.0 * +EC2.7.1.144 d-fructose 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.15 * +EC2.7.1.144 d-tagatose 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.016 * +EC2.7.1.144 gtp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.4 * +EC2.7.1.144 itp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.17 * +EC2.7.1.144 ttp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 20.0 * +EC2.7.1.144 utp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.9 * +EC2.7.1.145 (e)-5-(2-bromovinyl)-2'-deoxyuridine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0045 * +EC2.7.1.145 1-(beta-d-arabinofuranosyl)-cytosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0243 * +EC2.7.1.145 1-(beta-d-arabinofuranosyl)-thymine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.062 * +EC2.7.1.145 1-beta-d-arabinofuranosylcytosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.028 * +EC2.7.1.145 2',3'-dideoxycytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.124 * +EC2.7.1.145 2'-deoxy-2',2'-difluorocytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0207 * +EC2.7.1.145 2'-deoxyadenosine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.501 * +EC2.7.1.145 2'-deoxyadenosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.109 * +EC2.7.1.145 2'-deoxyadenosine xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 2.1 * +EC2.7.1.145 2'-deoxycytidine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0061 * +EC2.7.1.145 2'-deoxycytidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.001 * +EC2.7.1.145 2'-deoxycytidine xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.031 * +EC2.7.1.145 2'-deoxyguanosine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.429 * +EC2.7.1.145 2'-deoxyguanosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.654 * +EC2.7.1.145 2'-deoxyguanosine xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 1.2 * +EC2.7.1.145 2'-deoxythymidine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0153 * +EC2.7.1.145 2'-deoxythymidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0012 * +EC2.7.1.145 2'-deoxythymidine xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.138 * +EC2.7.1.145 3'-azido-2',3'-dideoxythymidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0083 * +EC2.7.1.145 5-(e)-(2-bromvinyl)-2'-deoxyuridine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0022 * +EC2.7.1.145 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0014 * +EC2.7.1.145 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0014 * +EC2.7.1.145 atp xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.0025 * +EC2.7.1.145 thymidine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0009 * +EC2.7.1.146 acetyl-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 11.9 * +EC2.7.1.146 adp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.3 * +EC2.7.1.146 adp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.49 * +EC2.7.1.146 adp methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 8.0 * +EC2.7.1.146 adp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.008 * +EC2.7.1.146 amp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.4 * +EC2.7.1.146 d-fructose 1,6-bisphosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5.7 * +EC2.7.1.146 d-fructose 1,6-bisphosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.1 * +EC2.7.1.146 d-fructose 6-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.2 * +EC2.7.1.146 d-fructose 6-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0096 * +EC2.7.1.146 d-fructose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.065 * +EC2.7.1.146 d-fructose 6-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0152 * +EC2.7.1.146 d-fructose 6-phosphate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 2.56 * +EC2.7.1.146 d-glucose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.1 * +EC2.7.1.146 d-glucose methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 40.0 * +EC2.7.1.147 adp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.07 * +EC2.7.1.147 adp caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.9 * +EC2.7.1.147 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC2.7.1.147 adp methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 16.0 * +EC2.7.1.147 adp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.028 * +EC2.7.1.147 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.014 * +EC2.7.1.147 adp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.008 * +EC2.7.1.147 adp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.0086 * +EC2.7.1.147 d-fructose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.065 * +EC2.7.1.147 d-glucose 6-phosphate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.1 * +EC2.7.1.147 d-glucose archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.78 * +EC2.7.1.147 d-glucose caldanaerobacter subterraneus subsp. tengcongensis//*//* 2.1 * +EC2.7.1.147 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC2.7.1.147 d-glucose methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 40.0 * +EC2.7.1.147 d-glucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.096 * +EC2.7.1.147 d-glucose thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.218 * +EC2.7.1.147 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.7.1.147 gdp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.0 * +EC2.7.1.148 4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.1.148 4-diphosphocytidyl-2c-methyl-d-erythritol aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.121 * +EC2.7.1.148 atp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.222 * +EC2.7.1.148 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.7.1.149 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00394 * +EC2.7.1.15 2-deoxy-d-ribitol salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 33.3 * +EC2.7.1.15 2-deoxy-d-ribose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.035 * +EC2.7.1.15 2-deoxy-d-ribose lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.8 * +EC2.7.1.15 2-deoxy-d-ribose salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC2.7.1.15 2-deoxy-d-ribose salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.1 * +EC2.7.1.15 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC2.7.1.15 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC2.7.1.15 atp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.2 * +EC2.7.1.15 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.5 * +EC2.7.1.15 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.19 * +EC2.7.1.15 d-ribose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC2.7.1.15 d-ribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.7.1.15 d-ribose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.3 * +EC2.7.1.15 d-ribose salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.0 * +EC2.7.1.15 d-ribose salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 2.0 * +EC2.7.1.151 1d-myo-inositol 1,3,4,5-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0308 * +EC2.7.1.151 1d-myo-inositol 1,4,5,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.075 * +EC2.7.1.151 1d-myo-inositol 1,4,5-trisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.162 * +EC2.7.1.151 1d-myo-inositol 4,5-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.7.1.151 1d-myo-inositol 4,5-bisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC2.7.1.151 1d-myo-inositol-1,4,5,6-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000222 * +EC2.7.1.151 inositol (1,3,4,5)-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000129 * +EC2.7.1.151 inositol (1,3,4,6)-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000295 * +EC2.7.1.151 inositol (1,4,5)-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000112 * +EC2.7.1.151 inositol (1,4,5,6)-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC2.7.1.154 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.7.1.154 caatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.1.154 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.1.154 phosphatidylinositol 4-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.7.1.154 phosphatidylinositol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC2.7.1.156 5'-deoxyadenosylcobinamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.066 * +EC2.7.1.156 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.206 * +EC2.7.1.157 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC2.7.1.157 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.063 * +EC2.7.1.157 d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.5 * +EC2.7.1.157 galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.1.157 n-acetyl-alpha-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.7.1.157 n-acetyl-alpha-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC2.7.1.157 n-acetyl-alpha-d-mannosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC2.7.1.157 n-acetyl-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.1.157 n-acetyl-d-galactosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.022 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0023 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.000644 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0628 * +EC2.7.1.158 1d-myo-inositol 1,3,4,5,6-pentakisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.119 * +EC2.7.1.158 1d-myo-inositol 1,3,4,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.06681 * +EC2.7.1.158 1d-myo-inositol 1,4,5,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05599 * +EC2.7.1.158 1d-myo-inositol 1,4,5-triphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.00055 * +EC2.7.1.158 1d-myo-inositol 3,4,5,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04754 * +EC2.7.1.158 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.4 * +EC2.7.1.158 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0084 * +EC2.7.1.158 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.7.1.158 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0628 * +EC2.7.1.158 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0093 * +EC2.7.1.158 myo-inositol 1,3,4,5,6-pentakisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.119 * +EC2.7.1.159 1d-myo-inositol 1,3,4,6-tetrakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.042 * +EC2.7.1.159 1d-myo-inositol-1,3,4-trisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8e-05 * +EC2.7.1.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.7.1.16 d-ribitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5 * +EC2.7.1.16 d-ribulose anoxybacillus kestanbolensis//*//* 0.94 * +EC2.7.1.16 d-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC2.7.1.16 d-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC2.7.1.16 l-arabitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC2.7.1.16 l-ribulose clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.96 * +EC2.7.1.16 l-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.111 * +EC2.7.1.16 l-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC2.7.1.161 ctp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.8 * +EC2.7.1.161 riboflavin methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.159 * +EC2.7.1.162 atp bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 0.08 * +EC2.7.1.162 atp bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.06 * +EC2.7.1.162 n-acetyl-alpha-d-galactosamine bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 0.09 * +EC2.7.1.162 n-acetyl-alpha-d-galactosamine bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.065 * +EC2.7.1.162 n-acetyl-alpha-d-glucosamine bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 0.06 * +EC2.7.1.162 n-acetyl-alpha-d-glucosamine bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.06 * +EC2.7.1.163 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.1.163 hygromycin b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC2.7.1.164 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.6 * +EC2.7.1.164 l-seryl-trnasec methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4e-05 * +EC2.7.1.165 (r)-glycerate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC2.7.1.165 (r)-glycerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.051 * +EC2.7.1.165 (r)-glycerate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.34 * +EC2.7.1.165 (r)-glycerate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.044 * +EC2.7.1.165 (r)-glycerate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.56 * +EC2.7.1.165 (r)-glycerate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.02 * +EC2.7.1.165 atp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.121 * +EC2.7.1.165 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC2.7.1.165 atp hyphomicrobium methylovorum//*//* 0.13 * +EC2.7.1.165 atp picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.5 * +EC2.7.1.165 atp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.102 * +EC2.7.1.165 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.212 * +EC2.7.1.165 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.32 * +EC2.7.1.165 atp thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.03 * +EC2.7.1.165 d-glycerate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.043 * +EC2.7.1.165 d-glycerate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.56 * +EC2.7.1.165 glycerate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.044 * +EC2.7.1.166 3-deoxy-alpha-d-manno-oct-2-ulopyranosyl-(2->6)-2-deoxy-2-[[(3r)-3-hydroxypentadecanoyl]amino]-3-o-[(3r)-3-hydroxytetradecanoyl]-4-o-phosphono-beta-d-glucopyranosyl-(1->6)-2-deoxy-3-o-[(3r)-3-hydroxytetradecanoyl]-2-[[(3r)-3-hydroxytetradecanoyl]amino]-1-o-phosphono-alpha-d-glucopyranose haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0116 * +EC2.7.1.169 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.32 * +EC2.7.1.169 ctp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.34 * +EC2.7.1.169 gtp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.43 * +EC2.7.1.169 pantoate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.2 * +EC2.7.1.169 pantothenate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.3 * +EC2.7.1.169 utp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.17 * +EC2.7.1.17 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.28 * +EC2.7.1.17 atp mucor circinelloides//*//* 0.51 * +EC2.7.1.17 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.55 * +EC2.7.1.17 atp scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.28 * +EC2.7.1.17 d-arabitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 141.0 * +EC2.7.1.17 d-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC2.7.1.17 d-xylulose 5-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC2.7.1.17 d-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC2.7.1.17 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.7.1.17 d-xylulose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.8 * +EC2.7.1.17 d-xylulose mucor circinelloides//*//* 0.29 * +EC2.7.1.17 d-xylulose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.31 * +EC2.7.1.17 d-xylulose scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 0.52 * +EC2.7.1.17 mgatp2- parageobacillus caldoxylosilyticus//*//* 0.16 * +EC2.7.1.17 xylitol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 127.0 * +EC2.7.1.17 xylulose parageobacillus caldoxylosilyticus//*//* 0.09 * +EC2.7.1.170 1,6-anhydro-n-acetyl-beta-muramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.170 1,6-anhydro-n-acetyl-beta-muramate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.2 * +EC2.7.1.170 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.171 1-deoxy-1-morpholin-4-yl-d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.7.1.171 1-deoxy-1-morpholin-4-yl-d-fructose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC2.7.1.171 1-deoxy-1-morpholin-4-yl-d-psicose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.7.1.171 1-deoxy-1-morpholin-4-yl-d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC2.7.1.171 [protein]-n6-d-fructosyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.7.1.171 d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC2.7.1.171 n2-(1-deoxy-d-fructosyl)-glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.7.1.171 n2-(1-deoxy-d-fructosyl)-glycine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC2.7.1.171 n2-(1-deoxy-d-fructosyl)-glycylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.7.1.171 n2-(1-deoxy-d-fructosyl)-l-valine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.7.1.171 n5-d-fructosyl-l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.1.171 n6-(1-deoxy-d-fructosyl)-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC2.7.1.171 n6-(1-deoxy-d-fructosyl)-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0132 * +EC2.7.1.171 n6-(1-deoxy-d-fructosyl)-lysine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0074 * +EC2.7.1.171 n6-d-fructosyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.7.1.171 n6-d-psicosyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.7.1.172 1-deoxy-1-morpholin-4-yl-d-psicose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.7.1.172 1-deoxy-1-morpholin-4-yl-d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC2.7.1.172 [lysozyme]-n6-d-erythrulosyl-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.104 * +EC2.7.1.172 [lysozyme]-n6-d-erythrulosyl-l-lysine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.008 * +EC2.7.1.172 [lysozyme]-n6-d-psicosyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC2.7.1.172 [lysozyme]-n6-d-ribulosyl-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.274 * +EC2.7.1.172 [lysozyme]-n6-d-ribulosyl-l-lysine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.659 * +EC2.7.1.172 n6-d-erythrulosyl-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.025 * +EC2.7.1.172 n6-d-erythrulosyl-l-lysine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.279 * +EC2.7.1.172 n6-d-psicosyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.7.1.172 n6-d-ribulosyl-l-lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.135 * +EC2.7.1.172 n6-d-ribulosyl-l-lysine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.119 * +EC2.7.1.173 beta-d-ribosylnicotinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC2.7.1.173 beta-d-ribosylnicotinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC2.7.1.173 cytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC2.7.1.173 tiazofurin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.7.1.173 uridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.7.1.175 atp actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 0.54 * +EC2.7.1.175 maltose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 2.6 * +EC2.7.1.177 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0547 * +EC2.7.1.177 l-threonine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.127 * +EC2.7.1.178 2-dehydro-3-deoxy-d-galactonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 8.1 * +EC2.7.1.178 2-dehydro-3-deoxy-d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.14 * +EC2.7.1.178 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.8 * +EC2.7.1.18 atp pelomonas saccharophila//*//* 1.0 * +EC2.7.1.18 ribose 5-phosphate pelomonas saccharophila//*//* 1.0 * +EC2.7.1.185 (r)-mevalonate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.131 * +EC2.7.1.185 (r)-mevalonate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.097 * +EC2.7.1.185 atp picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.023 * +EC2.7.1.187 acarbose actinoplanes sp.//prokaryotes;bacteria;actinobacteria;actinoplanes//ase 0.81 * +EC2.7.1.187 atp actinoplanes sp.//prokaryotes;bacteria;actinobacteria;actinoplanes//ase 0.47 * +EC2.7.1.189 1,2-dihydroxyheptane-3,4-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.4 * +EC2.7.1.189 1,2-dihydroxyhexane-3,4-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.1 * +EC2.7.1.189 1,2-dihydroxyoctane-3,4-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.27 * +EC2.7.1.189 4,5-dihydroxypentane-2,3-dione salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.0 * +EC2.7.1.189 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.15 * +EC2.7.1.19 atp anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 1.42 * +EC2.7.1.19 atp brassica sp.//*//* 0.1 * +EC2.7.1.19 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.062 * +EC2.7.1.19 atp halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 0.71 * +EC2.7.1.19 atp heterosigma carterae//*//* 0.208 * +EC2.7.1.19 atp odontella sinensis//*//* 0.084 * +EC2.7.1.19 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.625 * +EC2.7.1.19 atp synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.09 * +EC2.7.1.19 atp triticum aestivum//*//* 0.07 * +EC2.7.1.19 d-ribulose 5-phosphate anabaena cylindrica//prokaryotes;bacteria;cyanobacteria;anabaena//acy 0.29 * +EC2.7.1.19 d-ribulose 5-phosphate brassica sp.//*//* 0.29 * +EC2.7.1.19 d-ribulose 5-phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.056 * +EC2.7.1.19 d-ribulose 5-phosphate halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 0.24 * +EC2.7.1.19 d-ribulose 5-phosphate heterosigma carterae//*//* 0.226 * +EC2.7.1.19 d-ribulose 5-phosphate odontella sinensis//*//* 0.118 * +EC2.7.1.19 d-ribulose 5-phosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.096 * +EC2.7.1.19 d-ribulose 5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.222 * +EC2.7.1.19 d-ribulose 5-phosphate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.27 * +EC2.7.1.19 d-ribulose 5-phosphate triticum aestivum//*//* 0.05 * +EC2.7.1.190 amikacin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.26 * +EC2.7.1.190 amikacin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.033 * +EC2.7.1.190 arbekacin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0062 * +EC2.7.1.190 arbekacin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0008 * +EC2.7.1.190 atp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 2.0 * +EC2.7.1.190 atp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 0.069 * +EC2.7.1.190 atp enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 1.6 * +EC2.7.1.190 atp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.09 * +EC2.7.1.190 dibekacin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0012 * +EC2.7.1.190 dibekacin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0003 * +EC2.7.1.190 gentamicin c campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0007 * +EC2.7.1.190 gentamicin c staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.006 * +EC2.7.1.190 gtp campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0008 * +EC2.7.1.190 gtp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 0.168 * +EC2.7.1.190 gtp enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 0.04 * +EC2.7.1.190 gtp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.0045 * +EC2.7.1.190 isepamicin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.56 * +EC2.7.1.190 itp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.039 * +EC2.7.1.190 kanamycin a campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0011 * +EC2.7.1.190 kanamycin a enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.0045 * +EC2.7.1.190 kanamycin b campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00055 * +EC2.7.1.190 netilmicin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.01 * +EC2.7.1.190 netilmicin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0041 * +EC2.7.1.190 sisomicin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0016 * +EC2.7.1.190 sisomicin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0008 * +EC2.7.1.190 tobramycin campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.001 * +EC2.7.1.190 utp enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.1 * +EC2.7.1.191 2-deoxy-d-glucose[side 1] salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.2 * +EC2.7.1.191 d-fructose[side 1] salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.02 * +EC2.7.1.191 d-glucose[side 1] salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.015 * +EC2.7.1.191 d-mannose[side 1] salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.045 * +EC2.7.1.194 l-ascorbate[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.7.1.195 2-o-alpha-mannosyl-d-glycerate [side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.7.1.197 2-amino-2-deoxy-d-mannitol[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.1.197 2-deoxy-d-mannitol[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.1.197 d-arabitol[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.1.197 d-mannitol 1-phosphate[side 2] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC2.7.1.197 d-mannitol[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.7.1.199 2',3'-epoxypropyl beta-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC2.7.1.199 2-deoxy-d-glucose[side 1] salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.2 * +EC2.7.1.199 chloroacetyl beta-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.7.1.199 d-glucose[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.7.1.199 d-glucose[side 1] salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.01 * +EC2.7.1.199 d-glucose[side 1] staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 0.012 * +EC2.7.1.199 d-mannose[side 1] salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.04 * +EC2.7.1.199 methyl alpha-glucoside[side 1] salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.006 * +EC2.7.1.2 2-deoxy-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.7.1.2 2-deoxyglucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 18.0 * +EC2.7.1.2 6-n-(carboxyethyl)atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.67 * +EC2.7.1.2 6-n-(carboxyethyl)atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.5 * +EC2.7.1.2 6-n-(carboxymethyl)atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.65 * +EC2.7.1.2 6-n-(carboxymethyl)atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.55 * +EC2.7.1.2 6-n-(succinyl)atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.0 * +EC2.7.1.2 6-n-(succinyl)atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.38 * +EC2.7.1.2 6-n-[n-(6-aminohexhyl)carbamoyl]atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.5 * +EC2.7.1.2 6-n-[n-(6-aminohexhyl)carbamoyl]atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.25 * +EC2.7.1.2 alpha-d-glucose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.15 * +EC2.7.1.2 atp aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.5 * +EC2.7.1.2 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.1 * +EC2.7.1.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.1.2 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.13 * +EC2.7.1.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3e-07 * +EC2.7.1.2 atp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.35 * +EC2.7.1.2 atp lysinibacillus sphaericus c3-41//*//* 0.52 * +EC2.7.1.2 atp paracoccus versutus//*//* 0.78 * +EC2.7.1.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC2.7.1.2 atp streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.21 * +EC2.7.1.2 atp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.36 * +EC2.7.1.2 atp yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.21 * +EC2.7.1.2 atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.4 * +EC2.7.1.2 ctp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.56 * +EC2.7.1.2 d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC2.7.1.2 d-glucose aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.054 * +EC2.7.1.2 d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.063 * +EC2.7.1.2 d-glucose botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.048 * +EC2.7.1.2 d-glucose caldanaerobacter subterraneus subsp. tengcongensis//*//* 2.4 * +EC2.7.1.2 d-glucose dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.12 * +EC2.7.1.2 d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.7.1.2 d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.1.2 d-glucose lysinibacillus sphaericus c3-41//*//* 0.31 * +EC2.7.1.2 d-glucose paracoccus versutus//*//* 0.86 * +EC2.7.1.2 d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.4 * +EC2.7.1.2 d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.028 * +EC2.7.1.2 d-glucose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.61 * +EC2.7.1.2 d-glucose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.0 * +EC2.7.1.2 d-glucose urocitellus undulatus//*//* 2.0 * +EC2.7.1.2 d-glucose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.095 * +EC2.7.1.2 d-mannose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.7.1.2 gtp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.25 * +EC2.7.1.2 itp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.36 * +EC2.7.1.2 mgatp2- zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.19 * +EC2.7.1.2 utp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.63 * +EC2.7.1.20 2'-amino-2',3'-dideoxyadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.34 * +EC2.7.1.20 2'-deoxyadenosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.077 * +EC2.7.1.20 2'-deoxyadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.7.1.20 2'-deoxyadenosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.66 * +EC2.7.1.20 2,6-diaminopurine riboside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.42 * +EC2.7.1.20 2-fluoroadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.43 * +EC2.7.1.20 2-methyladenosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.079 * +EC2.7.1.20 3'-amino-3'-deoxyadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.61 * +EC2.7.1.20 3'-amino-3'-deoxyadenosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.26 * +EC2.7.1.20 3'-deoxyadenosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.036 * +EC2.7.1.20 3'-deoxyadenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.46 * +EC2.7.1.20 3'-deoxyadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.35 * +EC2.7.1.20 3'-deoxyadenosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.84 * +EC2.7.1.20 4'-thioadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.7.1.20 6-chloropurine riboside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.55 * +EC2.7.1.20 6-methylmercaptopurine riboside leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.00384 * +EC2.7.1.20 6-methylmercaptopurine riboside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC2.7.1.20 adenosine-n1-oxide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.41 * +EC2.7.1.20 adenosine anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 8.1e-06 * +EC2.7.1.20 adenosine babesia canis rossi//*//* 7e-05 * +EC2.7.1.20 adenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00015 * +EC2.7.1.20 adenosine cavia porcellus//*//* 0.0058 * +EC2.7.1.20 adenosine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.7 * +EC2.7.1.20 adenosine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.0014 * +EC2.7.1.20 adenosine felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.0058 * +EC2.7.1.20 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC2.7.1.20 adenosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.005 * +EC2.7.1.20 adenosine lupinus luteus//*//* 0.00125 * +EC2.7.1.20 adenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00015 * +EC2.7.1.20 adenosine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0008 * +EC2.7.1.20 adenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00015 * +EC2.7.1.20 adenosine pelophylax ridibundus//*//* 0.00089 * +EC2.7.1.20 adenosine prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.0018 * +EC2.7.1.20 adenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00012 * +EC2.7.1.20 adenosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC2.7.1.20 adenosine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.002 * +EC2.7.1.20 adenosine triticum aestivum//*//* 0.0087 * +EC2.7.1.20 adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 4.1e-05 * +EC2.7.1.20 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC2.7.1.20 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC2.7.1.20 arabinofuranosyladenine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.14 * +EC2.7.1.20 atp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.0014 * +EC2.7.1.20 atp cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.041 * +EC2.7.1.20 atp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.033 * +EC2.7.1.20 atp lupinus luteus//*//* 0.3 * +EC2.7.1.20 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.025 * +EC2.7.1.20 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.1 * +EC2.7.1.20 atp prunus persica//eukaryotes;plants;eudicots;rose family//pper 0.2 * +EC2.7.1.20 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.7.1.20 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC2.7.1.20 atp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.05 * +EC2.7.1.20 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.026 * +EC2.7.1.20 cordycepin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.013 * +EC2.7.1.20 ctp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.049 * +EC2.7.1.20 ctp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.61 * +EC2.7.1.20 cytidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.9 * +EC2.7.1.20 deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.7.1.20 deoxyadenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC2.7.1.20 deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.11 * +EC2.7.1.20 fludarabine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.54 * +EC2.7.1.20 formycin a leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.024 * +EC2.7.1.20 gtp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.054 * +EC2.7.1.20 gtp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.082 * +EC2.7.1.20 guanosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.24 * +EC2.7.1.20 inosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8 * +EC2.7.1.20 inosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.57 * +EC2.7.1.20 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.7.1.20 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.7.1.20 mgatp2- leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.02 * +EC2.7.1.20 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC2.7.1.20 mgcl2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.7.1.20 n6-delta2-isopentenyl-adenosine triticum aestivum//*//* 0.031 * +EC2.7.1.20 n6-methyl-3'-deoxyadenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.54 * +EC2.7.1.20 n6-methyladenosine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.16 * +EC2.7.1.20 purine riboside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.78 * +EC2.7.1.20 ribavirin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC2.7.1.20 toyocamycin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC2.7.1.20 ttp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.245 * +EC2.7.1.20 tubercidin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0833 * +EC2.7.1.20 tubercidin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC2.7.1.20 uridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.86 * +EC2.7.1.20 utp anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 0.056 * +EC2.7.1.20 utp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.34 * +EC2.7.1.20 xylofuranosyladenine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC2.7.1.200 d-glucitol[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC2.7.1.200 galactitol[side 1] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0044 * +EC2.7.1.202 d-fructose[side 1] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.018 * +EC2.7.1.209 d-erythrulose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0106 * +EC2.7.1.209 dihydroxyacetone mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0378 * +EC2.7.1.209 l-erythrulose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.003 * +EC2.7.1.21 2',3'-didehydro-2',3'-dideoxythymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.05 * +EC2.7.1.21 2'-deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.7.1.21 2'-deoxythymidine canid alphaherpesvirus 1//*//* 0.016 * +EC2.7.1.21 2'-deoxythymidine felid alphaherpesvirus 1//*//* 0.041 * +EC2.7.1.21 2'-deoxythymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.7.1.21 2'-deoxythymidine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0011 * +EC2.7.1.21 2'-deoxythymidine vaccinia virus//*//* 0.025 * +EC2.7.1.21 2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.011 * +EC2.7.1.21 3'-azido-2',3'-dideoxythymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.032 * +EC2.7.1.21 3'-azido-3'-deoxythymidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00038 * +EC2.7.1.21 3'-azido-3'-deoxythymidine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.012 * +EC2.7.1.21 3'-azido-3'-deoxythymidine canid alphaherpesvirus 1//*//* 0.05 * +EC2.7.1.21 3'-azido-3'-deoxythymidine felid alphaherpesvirus 1//*//* 0.015 * +EC2.7.1.21 3'-azido-3'-deoxythymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00052 * +EC2.7.1.21 3'-azido-3'-deoxythymidine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.003 * +EC2.7.1.21 3'-azido-3'-deoxythymidine vaccinia virus//*//* 0.6 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylbutyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0174 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylbutyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0563 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylethyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0356 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylethyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0318 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylpropyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0799 * +EC2.7.1.21 3-[1(2)-closo-1,7-carboranylpropyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0552 * +EC2.7.1.21 3-[1(2)-propyltetrazol-5-yl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0552 * +EC2.7.1.21 3-[1(2)-propyltetrazol-5-ylmethyl]thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0373 * +EC2.7.1.21 5-bromo-2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.002 * +EC2.7.1.21 5-fluoro-2'-deoxyuridine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.04 * +EC2.7.1.21 5-fluoro-2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0057 * +EC2.7.1.21 5-fluorodeoxyuridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.03 * +EC2.7.1.21 5-hydroxymethyl-2'-deoxyuridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0967 * +EC2.7.1.21 5-iodo-2'-deoxythymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC2.7.1.21 aciclovir monophosphate herpes simplex virus//*//* 0.011 * +EC2.7.1.21 acyclovir herpes simplex virus//*//* 0.417 * +EC2.7.1.21 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.7.1.21 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.015 * +EC2.7.1.21 atp cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.14 * +EC2.7.1.21 atp herpes simplex virus//*//* 0.013 * +EC2.7.1.21 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC2.7.1.21 atp human alphaherpesvirus 3//*//* 0.01163 * +EC2.7.1.21 atp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.058 * +EC2.7.1.21 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC2.7.1.21 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC2.7.1.21 atp shrimp white spot syndrome virus//*//* 0.076 * +EC2.7.1.21 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.098 * +EC2.7.1.21 beta-l-thymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.29 * +EC2.7.1.21 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.1.21 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC2.7.1.21 deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 8.4 * +EC2.7.1.21 deoxycytidine herpes simplex virus//*//* 0.106 * +EC2.7.1.21 deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.7.1.21 deoxycytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0115 * +EC2.7.1.21 deoxycytidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0414 * +EC2.7.1.21 deoxyguanosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.6 * +EC2.7.1.21 deoxyinosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.5 * +EC2.7.1.21 deoxyuridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0066 * +EC2.7.1.21 deoxyuridine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.118 * +EC2.7.1.21 deoxyuridine herpes simplex virus//*//* 0.0047 * +EC2.7.1.21 deoxyuridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.08 * +EC2.7.1.21 difluorodeoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC2.7.1.21 difluorodeoxyuridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC2.7.1.21 ganciclovir monophosphate herpes simplex virus//*//* 0.12 * +EC2.7.1.21 ganciclovir herpes simplex virus//*//* 0.0476 * +EC2.7.1.21 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.7.1.21 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC2.7.1.21 mgatp2- human alphaherpesvirus 3//*//* 0.0001 * +EC2.7.1.21 mgcl2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.7.1.21 thymidine anolis carolinensis//eukaryotes;animals;vertebrates;reptiles//acs 0.002 * +EC2.7.1.21 thymidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0006 * +EC2.7.1.21 thymidine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0006 * +EC2.7.1.21 thymidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.057 * +EC2.7.1.21 thymidine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0006 * +EC2.7.1.21 thymidine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.00015 * +EC2.7.1.21 thymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.048 * +EC2.7.1.21 thymidine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0006 * +EC2.7.1.21 thymidine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0024 * +EC2.7.1.21 thymidine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.00027 * +EC2.7.1.21 thymidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0017 * +EC2.7.1.21 thymidine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0012 * +EC2.7.1.21 thymidine herpes simplex virus//*//* 0.0002 * +EC2.7.1.21 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.7.1.21 thymidine human alphaherpesvirus 1//*//* 0.00044 * +EC2.7.1.21 thymidine human alphaherpesvirus 3//*//* 0.0003 * +EC2.7.1.21 thymidine hymenolepis diminuta//*//* 0.0039 * +EC2.7.1.21 thymidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0034 * +EC2.7.1.21 thymidine physarum polycephalum//*//* 0.0007 * +EC2.7.1.21 thymidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC2.7.1.21 thymidine shrimp white spot syndrome virus//*//* 0.0041 * +EC2.7.1.21 thymidine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0078 * +EC2.7.1.21 thymidine xenopus tropicalis//eukaryotes;animals;vertebrates;amphibians//xtr 0.0016 * +EC2.7.1.21 trifluoromethylthymidine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.022 * +EC2.7.1.21 uridine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.462 * +EC2.7.1.21 uridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 7.8 * +EC2.7.1.21 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.7.1.210 d-erythrulose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0046 * +EC2.7.1.210 dihydroxyacetone mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.339 * +EC2.7.1.211 sucrose[side 1] streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.07 * +EC2.7.1.212 2-deoxy-alpha-d-ribose 1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 12.0 * +EC2.7.1.212 2-deoxy-alpha-d-ribose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 12.0 * +EC2.7.1.212 adp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 4.19 * +EC2.7.1.212 alpha-d-ribose 1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.53 * +EC2.7.1.212 alpha-d-ribose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.53 * +EC2.7.1.212 gdp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 19.0 * +EC2.7.1.213 3'-deoxycytidine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 4.11 * +EC2.7.1.213 atp schistosoma mansoni//eukaryotes;animals;flatworms//smm 2.1 * +EC2.7.1.213 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 5.72 * +EC2.7.1.213 cytidine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.073 * +EC2.7.1.213 cytidine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.71 * +EC2.7.1.214 validone streptomyces hygroscopicus subsp. jinggangensis//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.026 * +EC2.7.1.214 valienone streptomyces hygroscopicus subsp. jinggangensis//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.019 * +EC2.7.1.215 atp brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 9.8 * +EC2.7.1.215 meso-erythritol brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 0.26 * +EC2.7.1.216 (2e,6e)-farnesol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC2.7.1.22 nicotinamide mononucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.14 * +EC2.7.1.22 nicotinamide riboside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC2.7.1.22 phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC2.7.1.23 adp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 4.3 * +EC2.7.1.23 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC2.7.1.23 atp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.0 * +EC2.7.1.23 atp corynebacterium glutamicum subsp. lactofermentum//*//* 1.95 * +EC2.7.1.23 atp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.49 * +EC2.7.1.23 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.4 * +EC2.7.1.23 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC2.7.1.23 atp euglena gracilis//*//* 0.032 * +EC2.7.1.23 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.5 * +EC2.7.1.23 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC2.7.1.23 atp listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 2.8 * +EC2.7.1.23 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.35 * +EC2.7.1.23 atp micrococcus flavus//*//* 0.23 * +EC2.7.1.23 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.5 * +EC2.7.1.23 atp pisum sativum//*//* 0.24 * +EC2.7.1.23 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC2.7.1.23 atp sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 1.92 * +EC2.7.1.23 ctp pisum sativum//*//* 0.59 * +EC2.7.1.23 fructose-1,6-bisphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.43 * +EC2.7.1.23 gtp pisum sativum//*//* 2.86 * +EC2.7.1.23 itp pisum sativum//*//* 1.54 * +EC2.7.1.23 mgatp2- arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC2.7.1.23 mgatp2- pisum sativum//*//* 0.18 * +EC2.7.1.23 mgatp2- solanum pimpinellifolium//*//* 0.08 * +EC2.7.1.23 mggtp2- euglena gracilis//*//* 0.2 * +EC2.7.1.23 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC2.7.1.23 nad+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.4 * +EC2.7.1.23 nad+ bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.7 * +EC2.7.1.23 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC2.7.1.23 nad+ corynebacterium glutamicum subsp. lactofermentum//*//* 4.02 * +EC2.7.1.23 nad+ corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.67 * +EC2.7.1.23 nad+ entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.59 * +EC2.7.1.23 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.85 * +EC2.7.1.23 nad+ euglena gracilis//*//* 0.26 * +EC2.7.1.23 nad+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.2 * +EC2.7.1.23 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC2.7.1.23 nad+ listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 1.0 * +EC2.7.1.23 nad+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.0 * +EC2.7.1.23 nad+ micrococcus flavus//*//* 0.26 * +EC2.7.1.23 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC2.7.1.23 nad+ pisum sativum//*//* 0.11 * +EC2.7.1.23 nad+ pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.3 * +EC2.7.1.23 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.68 * +EC2.7.1.23 nad+ solanum pimpinellifolium//*//* 0.2 * +EC2.7.1.23 nad+ sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.43 * +EC2.7.1.23 nadh entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.05 * +EC2.7.1.23 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC2.7.1.23 nadp+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.18 * +EC2.7.1.23 nadph methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.3 * +EC2.7.1.23 poly(p)4 micrococcus flavus//*//* 0.33 * +EC2.7.1.23 polyphosphate(20) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 5.9 * +EC2.7.1.23 polyphosphate(25) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 17.2 * +EC2.7.1.23 polyphosphate(45) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 14.1 * +EC2.7.1.23 polyphosphate(65) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 18.4 * +EC2.7.1.23 polyphosphate(75) corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.1 * +EC2.7.1.23 polyphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.5 * +EC2.7.1.23 tetraphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.1 * +EC2.7.1.23 tetrapolyphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC2.7.1.23 triphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.4 * +EC2.7.1.23 utp pisum sativum//*//* 0.42 * +EC2.7.1.24 3'-dephospho-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0349 * +EC2.7.1.24 atp corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.14 * +EC2.7.1.24 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0568 * +EC2.7.1.24 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.7.1.24 dephospho-coa columba sp.//*//* 0.003 * +EC2.7.1.24 dephospho-coa corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.76 * +EC2.7.1.24 dephospho-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.7.1.24 dephospho-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0041 * +EC2.7.1.25 3'-phosphoadenosine 5'-phosphosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC2.7.1.25 3'-phosphoadenosine 5'-phosphosulfate penicillium chrysogenum//*//* 0.003 * +EC2.7.1.25 adenosine 5'-o-(3-thiotriphosphate) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.7.1.25 adenosine 5'-phosphosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00014 * +EC2.7.1.25 adenosine 5'-phosphosulfate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.002 * +EC2.7.1.25 adenosine 5'-phosphosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00025 * +EC2.7.1.25 adenosine 5'-phosphosulfate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.042 * +EC2.7.1.25 adenosine 5'-phosphosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC2.7.1.25 adenosine 5'-phosphosulfate penicillium chrysogenum//*//* 0.0008 * +EC2.7.1.25 adenosine 5'-phosphosulfate pyropia yezoensis//*//* 0.00045 * +EC2.7.1.25 adenosine-5'-phosphosulfate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00072 * +EC2.7.1.25 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.147 * +EC2.7.1.25 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.007 * +EC2.7.1.25 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.7.1.25 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.22 * +EC2.7.1.25 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.7.1.25 atp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.75 * +EC2.7.1.25 atp penicillium chrysogenum//*//* 1.5 * +EC2.7.1.25 atp thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.46 * +EC2.7.1.25 mgadp- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.7.1.25 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.7.1.25 mgatp2- penicillium chrysogenum//*//* 0.8 * +EC2.7.1.26 adenosine-5'-o-(3-thiotriphosphate) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.7.1.26 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0002 * +EC2.7.1.26 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0065 * +EC2.7.1.26 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0083 * +EC2.7.1.26 atp corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.0137 * +EC2.7.1.26 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0037 * +EC2.7.1.26 d-alloflavin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC2.7.1.26 d-erythroflavin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC2.7.1.26 d-riboflavin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC2.7.1.26 mgatp2- corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.005 * +EC2.7.1.26 mgatp2- neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.1e-05 * +EC2.7.1.26 riboflavin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.03e-05 * +EC2.7.1.26 riboflavin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.055 * +EC2.7.1.26 riboflavin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0153 * +EC2.7.1.26 riboflavin corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.013 * +EC2.7.1.26 riboflavin megasphaera elsdenii//prokaryotes;bacteria;firmicutes - others;megasphaera//med 0.0047 * +EC2.7.1.26 riboflavin neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00012 * +EC2.7.1.26 riboflavin nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.00032 * +EC2.7.1.26 riboflavin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC2.7.1.26 riboflavin streptomyces davawensis//*//* 0.04 * +EC2.7.1.26 roseoflavin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.03 * +EC2.7.1.26 roseoflavin streptomyces davawensis//*//* 0.03 * +EC2.7.1.27 atp acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 4.8 * +EC2.7.1.27 erythritol acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 0.876 * +EC2.7.1.28 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0432 * +EC2.7.1.28 d-glyceraldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0181 * +EC2.7.1.28 d-glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.7.1.28 dihydroxyacetone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0155 * +EC2.7.1.28 dihydroxyacetone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.7.1.28 glyceraldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.7.1.28 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC2.7.1.29 1,3-dihydroxy-2-propanone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.022 * +EC2.7.1.29 atp citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.00035 * +EC2.7.1.29 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC2.7.1.29 d,l-glyceraldehyde citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.18 * +EC2.7.1.29 dihydroxyacetone candida methylica//*//* 0.011 * +EC2.7.1.29 dihydroxyacetone citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.00122 * +EC2.7.1.29 dihydroxyacetone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC2.7.1.29 dihydroxyacetone saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC2.7.1.29 dl-glyceraldehyde candida methylica//*//* 0.024 * +EC2.7.1.29 glycerone phosphate citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.005 * +EC2.7.1.29 glycerone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC2.7.1.29 mgatp2- candida boidinii//*//* 0.35 * +EC2.7.1.3 2,5-anhydro-d-glucitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.9 * +EC2.7.1.3 2,5-anhydro-d-glucitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 47.0 * +EC2.7.1.3 2,5-anhydro-d-lyxitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.0 * +EC2.7.1.3 2,5-anhydro-d-mannitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC2.7.1.3 2,5-anhydro-d-mannitol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.3 * +EC2.7.1.3 2,5-anhydro-d-mannose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC2.7.1.3 2,5-anhydro-d-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.31 * +EC2.7.1.3 5-keto-d-fructose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC2.7.1.3 atp haloarcula vallismortis//*//* 3.3 * +EC2.7.1.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.43 * +EC2.7.1.3 d-fructose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.7.1.3 d-fructose haloarcula vallismortis//*//* 5.0 * +EC2.7.1.3 d-fructose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC2.7.1.3 d-fructose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.56 * +EC2.7.1.3 d-mannoheptulose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 120.0 * +EC2.7.1.3 d-psicose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11.0 * +EC2.7.1.3 d-ribono-gamma-lactone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 58.0 * +EC2.7.1.3 d-ribose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 142.0 * +EC2.7.1.3 d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 201.0 * +EC2.7.1.3 d-ribulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC2.7.1.3 d-sedoheptulose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.2 * +EC2.7.1.3 d-tagatose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC2.7.1.3 d-xylose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC2.7.1.3 d-xylose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC2.7.1.3 d-xylulose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC2.7.1.3 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.53 * +EC2.7.1.3 l-galacto-2-heptulose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.8 * +EC2.7.1.3 l-ribulose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.37 * +EC2.7.1.3 l-sorbose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC2.7.1.3 l-sorbose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.8 * +EC2.7.1.3 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.1.30 1-deoxy-sn-glycerol candida mycoderma//*//* 45.0 * +EC2.7.1.30 2-deoxyglycerol candida mycoderma//*//* 88.0 * +EC2.7.1.30 2-mercaptoethanol candida mycoderma//*//* 0.046 * +EC2.7.1.30 2-methylglycerol candida mycoderma//*//* 5.7 * +EC2.7.1.30 adp trypanosoma brucei brucei//*//* 0.37 * +EC2.7.1.30 adp trypanosoma brucei gambiense//*//* 0.9 * +EC2.7.1.30 adp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.56 * +EC2.7.1.30 adp trypanosoma congolense//*//* 0.24 * +EC2.7.1.30 adp trypanosoma vivax//*//* 0.69 * +EC2.7.1.30 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.095 * +EC2.7.1.30 atp candida mycoderma//*//* 0.09 * +EC2.7.1.30 atp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.03 * +EC2.7.1.30 atp epidermophyton floccosum//*//* 1.8 * +EC2.7.1.30 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0078 * +EC2.7.1.30 atp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.045 * +EC2.7.1.30 atp pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 0.37 * +EC2.7.1.30 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.021 * +EC2.7.1.30 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.015 * +EC2.7.1.30 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.038 * +EC2.7.1.30 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.19 * +EC2.7.1.30 ctp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.515 * +EC2.7.1.30 dichloro-monoacetin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.7.1.30 dihydroxyacetone candida mycoderma//*//* 5.0 * +EC2.7.1.30 dihydroxyacetone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.1.30 dihydroxyacetone geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 100.0 * +EC2.7.1.30 glyceric acid candida mycoderma//*//* 0.15 * +EC2.7.1.30 glyceric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.7.1.30 glyceric acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.15 * +EC2.7.1.30 glycerol-3-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 12.56 * +EC2.7.1.30 glycerol bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.32 * +EC2.7.1.30 glycerol candida mycoderma//*//* 0.01 * +EC2.7.1.30 glycerol cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.036 * +EC2.7.1.30 glycerol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.088 * +EC2.7.1.30 glycerol epidermophyton floccosum//*//* 0.18 * +EC2.7.1.30 glycerol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.025 * +EC2.7.1.30 glycerol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC2.7.1.30 glycerol pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 0.11 * +EC2.7.1.30 glycerol plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.018 * +EC2.7.1.30 glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.7.1.30 glycerol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC2.7.1.30 glycerol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.111 * +EC2.7.1.30 glycerol thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.162 * +EC2.7.1.30 glycerol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.169 * +EC2.7.1.30 gtp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.145 * +EC2.7.1.30 l-glyceraldehyde candida mycoderma//*//* 42.0 * +EC2.7.1.30 l-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC2.7.1.30 l-glyceraldehyde geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 42.0 * +EC2.7.1.30 l-glycerol-3-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.83 * +EC2.7.1.30 monoacetin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.169 * +EC2.7.1.30 monobutyrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.491 * +EC2.7.1.30 monothioglycerol candida mycoderma//*//* 4.9 * +EC2.7.1.30 monothioglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC2.7.1.30 monothioglycerol geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.9 * +EC2.7.1.30 sn-glycerol 3-phosphate trypanosoma brucei brucei//*//* 1.13 * +EC2.7.1.30 sn-glycerol 3-phosphate trypanosoma brucei gambiense//*//* 5.54 * +EC2.7.1.30 sn-glycerol 3-phosphate trypanosoma congolense//*//* 1.09 * +EC2.7.1.30 sn-glycerol 3-phosphate trypanosoma vivax//*//* 1.37 * +EC2.7.1.30 utp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.62 * +EC2.7.1.31 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.834 * +EC2.7.1.31 atp brassica rapa subsp. campestris//*//* 0.13 * +EC2.7.1.31 atp nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.206 * +EC2.7.1.31 atp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.812 * +EC2.7.1.31 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.89 * +EC2.7.1.31 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.21 * +EC2.7.1.31 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.25 * +EC2.7.1.31 d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.266 * +EC2.7.1.31 d-glycerate brassica rapa subsp. campestris//*//* 0.17 * +EC2.7.1.31 d-glycerate nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 0.104 * +EC2.7.1.31 d-glycerate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.45 * +EC2.7.1.31 d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.208 * +EC2.7.1.31 d-glycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.25 * +EC2.7.1.31 d-glycerate zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC2.7.1.32 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.7 * +EC2.7.1.32 atp culex quinquefasciatus//eukaryotes;animals;arthropods;insects//cqu 0.95 * +EC2.7.1.32 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.486 * +EC2.7.1.32 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.1 * +EC2.7.1.32 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.5 * +EC2.7.1.32 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.7.1.32 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC2.7.1.32 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0206 * +EC2.7.1.32 beta-methylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.444 * +EC2.7.1.32 choline caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.002 * +EC2.7.1.32 choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC2.7.1.32 choline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC2.7.1.32 choline pisum sativum//*//* 0.42 * +EC2.7.1.32 choline plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.145 * +EC2.7.1.32 choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC2.7.1.32 choline saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.27 * +EC2.7.1.32 choline streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.15 * +EC2.7.1.32 choline toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.77 * +EC2.7.1.32 choline trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0314 * +EC2.7.1.32 dimethylethanolamine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.94 * +EC2.7.1.32 ethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.01 * +EC2.7.1.32 ethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.0 * +EC2.7.1.32 ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.787 * +EC2.7.1.32 ethanolamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.56 * +EC2.7.1.32 n,n-diethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.7.1.32 n,n-diisopropylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.7.1.32 n,n-dimethylaminopropanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.208 * +EC2.7.1.32 n,n-dimethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC2.7.1.32 n-monomethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.118 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-[[2-oxo-2-(pentylamino)ethyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-[[3-(morpholin-4-yl)propyl]amino]-3-oxopropyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-oxo-3-[[(piperidin-4-yl)methyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-oxo-3-[[2-(piperazin-1-yl)ethyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-(3-oxo-3-[[2-(pyridin-2-yl)ethyl]amino]propyl)butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[(1-pentyl-1h-1,2,3-triazol-4-yl)methyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-(1-propyl-1h-1,2,3-triazol-4-yl)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-[(3-methylpyridin-2-yl)amino]-3-oxopropyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.039 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-(pentylamino)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-(phenylamino)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-(pyrimidin-4-ylamino)propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(3-phenylpropyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(pyridin-2-ylmethyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(pyridin-3-ylmethyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC2.7.1.33 (2r)-2,4-dihydroxy-3,3-dimethyl-n-[3-oxo-3-[(pyridin-4-ylmethyl)amino]propyl]butanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.7.1.33 (2r)-2,4-dihydroxy-n-(3-[[3-(1h-imidazol-1-yl)propyl]amino]-3-oxopropyl)-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.7.1.33 (2r)-n-[3-(1,3-dihydro-2h-isoindol-2-yl)-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.1.33 (2r)-n-[3-(2,3-dihydro-1h-indol-1-yl)-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.7.1.33 (2r)-n-[3-(benzylamino)-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC2.7.1.33 (2r)-n-[3-[(2-butanamidoethyl)amino]-3-oxopropyl]-2,4-dihydroxy-3,3-dimethylbutanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC2.7.1.33 (2s)-2-hydroxy-3-(hydroxymethyl)-3-methyl-n-[3-oxo-3-(pentylamino)propyl]pentanamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC2.7.1.33 (2s)-3-ethyl-2-hydroxy-3-(hydroxymethyl)-n-[3-oxo-3-(pentylamino)propyl]hept-6-ynamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.7.1.33 (2s)-3-ethyl-2-hydroxy-3-(hydroxymethyl)-n-[3-oxo-3-(pentylamino)propyl]hex-5-enamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC2.7.1.33 (r)-pantothenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.168 * +EC2.7.1.33 (r)-pantothenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC2.7.1.33 (r)-pantothenate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.101 * +EC2.7.1.33 (r)-pantothenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.7.1.33 (r)-pantothenate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.043 * +EC2.7.1.33 3-[[(2r)-2,4-dihydroxy-3,3-dimethylbutanoyl]amino]-2-(pentylamino)propanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.7.1.33 atp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.51 * +EC2.7.1.33 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.05 * +EC2.7.1.33 atp corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.035 * +EC2.7.1.33 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.115 * +EC2.7.1.33 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 9.59 * +EC2.7.1.33 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.311 * +EC2.7.1.33 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.05 * +EC2.7.1.33 atp picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.099 * +EC2.7.1.33 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.027 * +EC2.7.1.33 atp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 6.04 * +EC2.7.1.33 ctp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.759 * +EC2.7.1.33 datp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.138 * +EC2.7.1.33 dctp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.839 * +EC2.7.1.33 dgtp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.117 * +EC2.7.1.33 dttp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.723 * +EC2.7.1.33 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 668.0 * +EC2.7.1.33 mgatp2- corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 1.0 * +EC2.7.1.33 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.225 * +EC2.7.1.33 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.7.1.33 n-[(2r)-2,4-dihydroxy-3,3-dimethylbutanoyl]-beta-alanyl-n-pentylglycinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.7.1.33 pantheteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.7.1.33 pantothenate corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.067 * +EC2.7.1.33 pantothenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.7.1.33 pantothenate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC2.7.1.33 pantothenate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.621 * +EC2.7.1.33 pantothenate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC2.7.1.33 pantothenate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.8 * +EC2.7.1.33 pantothenate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.027 * +EC2.7.1.33 pantothenol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.25 * +EC2.7.1.33 utp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 1.715 * +EC2.7.1.35 4'-deoxypyridoxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0216 * +EC2.7.1.35 4'-o-methylpyridoxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00495 * +EC2.7.1.35 4-amino-5-hydroxymethyl-2-methylpyrimidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.03 * +EC2.7.1.35 4-amino-5-hydroxymethyl-2-methylpyrimidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.99 * +EC2.7.1.35 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0579 * +EC2.7.1.35 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.7.1.35 atp ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.02 * +EC2.7.1.35 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.082 * +EC2.7.1.35 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.102 * +EC2.7.1.35 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.012 * +EC2.7.1.35 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0091 * +EC2.7.1.35 ginkgotoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00495 * +EC2.7.1.35 mgatp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC2.7.1.35 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.7.1.35 mgatp2- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.101 * +EC2.7.1.35 mnatp2- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.194 * +EC2.7.1.35 pyridoxal bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.047 * +EC2.7.1.35 pyridoxal bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0441 * +EC2.7.1.35 pyridoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.7.1.35 pyridoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00122 * +EC2.7.1.35 pyridoxal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.04 * +EC2.7.1.35 pyridoxal plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.07 * +EC2.7.1.35 pyridoxal plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.0153 * +EC2.7.1.35 pyridoxal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.053 * +EC2.7.1.35 pyridoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC2.7.1.35 pyridoxal staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.111 * +EC2.7.1.35 pyridoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.025 * +EC2.7.1.35 pyridoxal trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.022 * +EC2.7.1.35 pyridoxal trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0216 * +EC2.7.1.35 pyridoxamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.7.1.35 pyridoxamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC2.7.1.35 pyridoxamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.006 * +EC2.7.1.35 pyridoxine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC2.7.1.35 pyridoxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00172 * +EC2.7.1.35 pyridoxine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.026 * +EC2.7.1.35 pyridoxine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.212 * +EC2.7.1.35 pyridoxine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.7.1.35 pyridoxine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.07 * +EC2.7.1.35 pyridoxine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.017 * +EC2.7.1.35 znatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.7.1.35 znatp2- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.06 * +EC2.7.1.36 (r)-mevalonate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.09 * +EC2.7.1.36 (r)-mevalonate bacopa monnieri//*//* 0.3319 * +EC2.7.1.36 (r)-mevalonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0408 * +EC2.7.1.36 (r)-mevalonate methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.068 * +EC2.7.1.36 (r)-mevalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC2.7.1.36 (r,s)-mevalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.288 * +EC2.7.1.36 (r,s)mevalonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.7.1.36 (rs)-mevalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC2.7.1.36 (rs)mevalonate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.069 * +EC2.7.1.36 (rs)mevalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC2.7.1.36 (rs)mevalonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.019 * +EC2.7.1.36 atp aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.14 * +EC2.7.1.36 atp agave americana//*//* 0.14 * +EC2.7.1.36 atp bacopa monnieri//*//* 0.1474 * +EC2.7.1.36 atp catharanthus roseus//*//* 0.13 * +EC2.7.1.36 atp cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.4 * +EC2.7.1.36 atp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.1 * +EC2.7.1.36 atp hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 2.0 * +EC2.7.1.36 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.074 * +EC2.7.1.36 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.18 * +EC2.7.1.36 atp methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.464 * +EC2.7.1.36 atp neobellieria bullata//*//* 4.7 * +EC2.7.1.36 atp phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 1.5 * +EC2.7.1.36 atp pinus pinaster//*//* 0.14 * +EC2.7.1.36 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.166 * +EC2.7.1.36 atp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.26 * +EC2.7.1.36 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.4 * +EC2.7.1.36 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.339 * +EC2.7.1.36 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC2.7.1.36 ca-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC2.7.1.36 ca-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC2.7.1.36 cd-adenosine 5'-o-(1-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.22 * +EC2.7.1.36 cd-adenosine 5'-o-(1-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC2.7.1.36 cd-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.059 * +EC2.7.1.36 cd-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.46 * +EC2.7.1.36 co-adenosine 5'-o-(1-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC2.7.1.36 co-adenosine 5'-o-(1-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC2.7.1.36 co-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC2.7.1.36 co-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC2.7.1.36 ctp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.8 * +EC2.7.1.36 dl-mevalonate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.13 * +EC2.7.1.36 dl-mevalonate neobellieria bullata//*//* 0.62 * +EC2.7.1.36 dl-mevalonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.1 * +EC2.7.1.36 gtp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.3 * +EC2.7.1.36 itp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.4 * +EC2.7.1.36 mevalonate agave americana//*//* 0.05 * +EC2.7.1.36 mevalonate catharanthus roseus//*//* 0.076 * +EC2.7.1.36 mevalonate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.33 * +EC2.7.1.36 mevalonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.7.1.36 mevalonate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.11 * +EC2.7.1.36 mevalonate pinus pinaster//*//* 0.08 * +EC2.7.1.36 mevalonate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 1.92 * +EC2.7.1.36 mg-adenosine 5'-o-(1-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.44 * +EC2.7.1.36 mg-adenosine 5'-o-(1-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.16 * +EC2.7.1.36 mg-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.59 * +EC2.7.1.36 mg-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC2.7.1.36 mg2+ enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3.3 * +EC2.7.1.36 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.75 * +EC2.7.1.36 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.68 * +EC2.7.1.36 mn-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.29 * +EC2.7.1.36 mn-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.075 * +EC2.7.1.36 ni-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.091 * +EC2.7.1.36 ni-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC2.7.1.36 r,s-mevalonate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.041 * +EC2.7.1.36 rs-mevalonate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0426 * +EC2.7.1.36 ttp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.9 * +EC2.7.1.36 utp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.8 * +EC2.7.1.36 zn-adenosine 5'-o-(2-thio-(r)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC2.7.1.36 zn-adenosine 5'-o-(2-thio-(s)triphosphate) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.058 * +EC2.7.1.39 4-hydroxynorvaline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.8 * +EC2.7.1.39 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.32 * +EC2.7.1.39 atp brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 1.2 * +EC2.7.1.39 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.7.1.39 atp hordeum vulgare//*//* 1.0 * +EC2.7.1.39 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.11 * +EC2.7.1.39 atp pisum sativum//*//* 2.7 * +EC2.7.1.39 atp rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.44 * +EC2.7.1.39 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.6 * +EC2.7.1.39 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0676 * +EC2.7.1.39 atp triticum aestivum//*//* 0.33 * +EC2.7.1.39 d-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 31.8 * +EC2.7.1.39 homoserine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.087 * +EC2.7.1.39 l-2-amino-1,4-butanediol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.6 * +EC2.7.1.39 l-2-amino-5-hydroxyvalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.7.1.39 l-aspartate beta-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC2.7.1.39 l-aspartate semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.58 * +EC2.7.1.39 l-homoserine ethyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC2.7.1.39 l-homoserine isobutyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.9 * +EC2.7.1.39 l-homoserine isopropyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC2.7.1.39 l-homoserine methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC2.7.1.39 l-homoserine n-butyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.8 * +EC2.7.1.39 l-homoserine n-propyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC2.7.1.39 l-homoserine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.4 * +EC2.7.1.39 l-homoserine brevibacterium flavum//prokaryotes;bacteria;actinobacteria;corynebacterium//bfv 0.77 * +EC2.7.1.39 l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.7.1.39 l-homoserine hordeum vulgare//*//* 0.4 * +EC2.7.1.39 l-homoserine pisum sativum//*//* 6.7 * +EC2.7.1.39 l-homoserine rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 3.0 * +EC2.7.1.39 l-homoserine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC2.7.1.39 l-homoserine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.463 * +EC2.7.1.39 l-homoserine triticum aestivum//*//* 0.24 * +EC2.7.1.4 atp bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.756 * +EC2.7.1.4 atp catharanthus roseus//*//* 0.05 * +EC2.7.1.4 atp lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.59 * +EC2.7.1.4 atp methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 1.3 * +EC2.7.1.4 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.7 * +EC2.7.1.4 atp saccharum sp.//*//* 0.14 * +EC2.7.1.4 atp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.11 * +EC2.7.1.4 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.025 * +EC2.7.1.4 atp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.81 * +EC2.7.1.4 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.024 * +EC2.7.1.4 atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.16 * +EC2.7.1.4 ctp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.156 * +EC2.7.1.4 d-fructose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.068 * +EC2.7.1.4 d-fructose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.739 * +EC2.7.1.4 d-fructose camellia japonica//*//* 0.3 * +EC2.7.1.4 d-fructose catharanthus roseus//*//* 0.13 * +EC2.7.1.4 d-fructose entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.156 * +EC2.7.1.4 d-fructose gleditsia triacanthos//*//* 0.19 * +EC2.7.1.4 d-fructose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.055 * +EC2.7.1.4 d-fructose hordeum vulgare//*//* 0.006 * +EC2.7.1.4 d-fructose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.31 * +EC2.7.1.4 d-fructose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.4 * +EC2.7.1.4 d-fructose lilium longiflorum//*//* 0.18 * +EC2.7.1.4 d-fructose methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.26 * +EC2.7.1.4 d-fructose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.34 * +EC2.7.1.4 d-fructose persea americana//*//* 0.14 * +EC2.7.1.4 d-fructose pisum sativum//*//* 0.057 * +EC2.7.1.4 d-fructose rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.31 * +EC2.7.1.4 d-fructose saccharum sp.//*//* 0.018 * +EC2.7.1.4 d-fructose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.054 * +EC2.7.1.4 d-fructose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.041 * +EC2.7.1.4 d-fructose spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.085 * +EC2.7.1.4 d-fructose streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 0.5 * +EC2.7.1.4 d-fructose thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 2.3 * +EC2.7.1.4 d-fructose zea mays//eukaryotes;plants;monocots;grass family//zma 0.109 * +EC2.7.1.4 d-fructose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.07 * +EC2.7.1.4 d-glucose pisum sativum//*//* 0.14 * +EC2.7.1.4 d-gtp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.9 * +EC2.7.1.4 d-mannose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.4 * +EC2.7.1.4 fructose persea americana//*//* 0.1 * +EC2.7.1.4 fructose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.7 * +EC2.7.1.4 gtp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.69 * +EC2.7.1.4 gtp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.132 * +EC2.7.1.4 itp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.25 * +EC2.7.1.4 mgatp2- pisum sativum//*//* 0.06 * +EC2.7.1.4 mgatp2- streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 0.2 * +EC2.7.1.4 utp catharanthus roseus//*//* 0.15 * +EC2.7.1.4 utp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.18 * +EC2.7.1.4 utp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.228 * +EC2.7.1.4 utp zea mays//eukaryotes;plants;monocots;grass family//zma 0.222 * +EC2.7.1.4 utp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.26 * +EC2.7.1.40 adp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.6 * +EC2.7.1.40 adp bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.7 * +EC2.7.1.40 adp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC2.7.1.40 adp brassica juncea//*//* 0.0965 * +EC2.7.1.40 adp brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.075 * +EC2.7.1.40 adp brassica rapa subsp. campestris//*//* 0.11 * +EC2.7.1.40 adp busycotypus canaliculatum//*//* 0.2 * +EC2.7.1.40 adp cardium tuberculatum//*//* 0.2 * +EC2.7.1.40 adp cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.16 * +EC2.7.1.40 adp cynodon dactylon//*//* 0.235 * +EC2.7.1.40 adp entodinium sp.//*//* 0.2 * +EC2.7.1.40 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC2.7.1.40 adp lethenteron camtschaticum//*//* 0.31 * +EC2.7.1.40 adp monoraphidium minutum//*//* 0.03 * +EC2.7.1.40 adp musa cavendishii//*//* 0.12 * +EC2.7.1.40 adp nautilus pompilius//*//* 0.2 * +EC2.7.1.40 adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.357 * +EC2.7.1.40 adp pelophylax ridibundus//*//* 0.98 * +EC2.7.1.40 adp periplaneta americana//*//* 0.2 * +EC2.7.1.40 adp pigeon//*//* 0.4 * +EC2.7.1.40 adp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.12 * +EC2.7.1.40 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.082 * +EC2.7.1.40 adp rhodotorula toruloides//*//* 0.12 * +EC2.7.1.40 adp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.03 * +EC2.7.1.40 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC2.7.1.40 adp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.16 * +EC2.7.1.40 adp selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.24 * +EC2.7.1.40 adp streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.39 * +EC2.7.1.40 adp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.069 * +EC2.7.1.40 adp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC2.7.1.40 adp takifugu rubripes//eukaryotes;animals;vertebrates;fishes//tru 0.3 * +EC2.7.1.40 adp tenebrio molitor//*//* 0.16 * +EC2.7.1.40 adp thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.7 * +EC2.7.1.40 adp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 7.99 * +EC2.7.1.40 adp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.082 * +EC2.7.1.40 adp vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.16 * +EC2.7.1.40 adp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.16 * +EC2.7.1.40 atp selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.35 * +EC2.7.1.40 cdp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 6.8 * +EC2.7.1.40 cdp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.53 * +EC2.7.1.40 gdp lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.098 * +EC2.7.1.40 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC2.7.1.40 gdp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.25 * +EC2.7.1.40 gdp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.1 * +EC2.7.1.40 gdp streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.026 * +EC2.7.1.40 gdp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0544 * +EC2.7.1.40 gdp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.098 * +EC2.7.1.40 idp cardium tuberculatum//*//* 0.049 * +EC2.7.1.40 idp cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.049 * +EC2.7.1.40 idp metacarcinus magister//*//* 0.049 * +EC2.7.1.40 idp monoraphidium minutum//*//* 0.049 * +EC2.7.1.40 idp pelophylax ridibundus//*//* 0.049 * +EC2.7.1.40 idp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.049 * +EC2.7.1.40 idp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.049 * +EC2.7.1.40 idp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.049 * +EC2.7.1.40 idp streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.049 * +EC2.7.1.40 idp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.193 * +EC2.7.1.40 mgadp- ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.037 * +EC2.7.1.40 phosphoenolpyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.3 * +EC2.7.1.40 phosphoenolpyruvate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.2 * +EC2.7.1.40 phosphoenolpyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC2.7.1.40 phosphoenolpyruvate brassica juncea//*//* 0.1785 * +EC2.7.1.40 phosphoenolpyruvate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.052 * +EC2.7.1.40 phosphoenolpyruvate brassica rapa subsp. campestris//*//* 0.1 * +EC2.7.1.40 phosphoenolpyruvate busycotypus canaliculatum//*//* 0.04 * +EC2.7.1.40 phosphoenolpyruvate canis lupus familiaris//*//* 0.04 * +EC2.7.1.40 phosphoenolpyruvate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.15 * +EC2.7.1.40 phosphoenolpyruvate cynodon dactylon//*//* 0.064 * +EC2.7.1.40 phosphoenolpyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.21 * +EC2.7.1.40 phosphoenolpyruvate entodinium sp.//*//* 0.15 * +EC2.7.1.40 phosphoenolpyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.186 * +EC2.7.1.40 phosphoenolpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC2.7.1.40 phosphoenolpyruvate lethenteron camtschaticum//*//* 0.41 * +EC2.7.1.40 phosphoenolpyruvate meganyctiphanes norvegica//*//* 0.024 * +EC2.7.1.40 phosphoenolpyruvate metacarcinus magister//*//* 0.04 * +EC2.7.1.40 phosphoenolpyruvate monoraphidium minutum//*//* 0.18 * +EC2.7.1.40 phosphoenolpyruvate musa cavendishii//*//* 0.098 * +EC2.7.1.40 phosphoenolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.04 * +EC2.7.1.40 phosphoenolpyruvate nautilus pompilius//*//* 0.04 * +EC2.7.1.40 phosphoenolpyruvate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.076 * +EC2.7.1.40 phosphoenolpyruvate periplaneta americana//*//* 0.04 * +EC2.7.1.40 phosphoenolpyruvate pigeon//*//* 0.4 * +EC2.7.1.40 phosphoenolpyruvate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.19 * +EC2.7.1.40 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.7.1.40 phosphoenolpyruvate rhodotorula toruloides//*//* 0.4 * +EC2.7.1.40 phosphoenolpyruvate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.033 * +EC2.7.1.40 phosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.021 * +EC2.7.1.40 phosphoenolpyruvate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.11 * +EC2.7.1.40 phosphoenolpyruvate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.04 * +EC2.7.1.40 phosphoenolpyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.093 * +EC2.7.1.40 phosphoenolpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.7.1.40 phosphoenolpyruvate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.45 * +EC2.7.1.40 phosphoenolpyruvate takifugu rubripes//eukaryotes;animals;vertebrates;fishes//tru 0.059 * +EC2.7.1.40 phosphoenolpyruvate tenebrio molitor//*//* 0.04 * +EC2.7.1.40 phosphoenolpyruvate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.04 * +EC2.7.1.40 phosphoenolpyruvate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.116 * +EC2.7.1.40 phosphoenolpyruvate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.05 * +EC2.7.1.40 pyruvate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.48 * +EC2.7.1.40 pyruvate sparus aurata//*//* 0.025 * +EC2.7.1.40 udp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.25 * +EC2.7.1.40 udp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 2.4 * +EC2.7.1.40 udp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.72 * +EC2.7.1.40 udp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.41 * +EC2.7.1.41 alpha-d-glucose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.021 * +EC2.7.1.41 beta-d-glucose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.006 * +EC2.7.1.43 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.555 * +EC2.7.1.43 atp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.059 * +EC2.7.1.43 atp lilium longiflorum//*//* 1.9 * +EC2.7.1.43 d-glucuronate danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.031 * +EC2.7.1.43 d-glucuronate lilium longiflorum//*//* 0.5 * +EC2.7.1.43 d-glucuronic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.697 * +EC2.7.1.43 d-glucuronic acid lilium longiflorum//*//* 0.62 * +EC2.7.1.44 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.195 * +EC2.7.1.44 d-galacturonate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0708 * +EC2.7.1.45 2-dehydro-3-deoxy-d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.45 2-dehydro-3-deoxy-d-gluconate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.027 * +EC2.7.1.45 2-dehydro-3-deoxy-d-gluconate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.32 * +EC2.7.1.45 2-keto-d-gluconate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.3 * +EC2.7.1.45 2-keto-d-gluconate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.6 * +EC2.7.1.45 atp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.057 * +EC2.7.1.47 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.83 * +EC2.7.1.47 d-arabitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 140.0 * +EC2.7.1.47 d-ribulose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.4 * +EC2.7.1.47 ribitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 220.0 * +EC2.7.1.48 3-deazauridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC2.7.1.48 5-azacytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC2.7.1.48 5-fluorouridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC2.7.1.48 6-azauridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.34 * +EC2.7.1.48 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.349 * +EC2.7.1.48 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC2.7.1.48 cytidine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.22 * +EC2.7.1.48 cytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.7.1.48 cytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC2.7.1.48 cytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.023 * +EC2.7.1.48 cytidine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.072 * +EC2.7.1.48 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.37 * +EC2.7.1.48 uridine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.74 * +EC2.7.1.48 uridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.7.1.48 uridine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.21 * +EC2.7.1.48 uridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC2.7.1.48 uridine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC2.7.1.48 uridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.052 * +EC2.7.1.49 2-methyl-4-amino-5-hydroxymethylpyrimidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0335 * +EC2.7.1.49 2-methyl-4-amino-5-hydroxymethylpyrimidine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.012 * +EC2.7.1.49 4-amino-5-hydroxymethyl-2-methylpyrimidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.99 * +EC2.7.1.49 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1431 * +EC2.7.1.49 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.117 * +EC2.7.1.49 pyridoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC2.7.1.49 pyridoxal staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.111 * +EC2.7.1.49 pyridoxamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.4 * +EC2.7.1.49 pyridoxine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0285 * +EC2.7.1.49 pyridoxine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.07 * +EC2.7.1.5 d-psicose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC2.7.1.5 d-ribulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC2.7.1.5 d-sorbose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC2.7.1.5 l-fructose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC2.7.1.5 l-fuculose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC2.7.1.5 l-rhamnulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.1.5 l-tagatose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.0 * +EC2.7.1.5 l-xylulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.1.50 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.79 * +EC2.7.1.50 hydroxyethylthiazole saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0057 * +EC2.7.1.51 l-fuculose citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.4 * +EC2.7.1.51 l-fuculose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC2.7.1.52 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.45 * +EC2.7.1.52 atp canis lupus familiaris//*//* 0.29 * +EC2.7.1.52 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC2.7.1.52 atp vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.8 * +EC2.7.1.52 l-fucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC2.7.1.52 l-fucose canis lupus familiaris//*//* 0.017 * +EC2.7.1.52 l-fucose mortierella alpina//*//* 1.59 * +EC2.7.1.52 l-fucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.027 * +EC2.7.1.52 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC2.7.1.53 d-xylulose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.4 * +EC2.7.1.54 atp acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 0.83 * +EC2.7.1.54 d-arabinose acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 1.2 * +EC2.7.1.55 d-allose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.98 * +EC2.7.1.56 atp clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.14 * +EC2.7.1.56 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.7.1.56 atp haloarcula vallismortis//*//* 1.44 * +EC2.7.1.56 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.08 * +EC2.7.1.56 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.7 * +EC2.7.1.56 atp oceanimonas doudoroffii//*//* 0.34 * +EC2.7.1.56 atp pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.41 * +EC2.7.1.56 d-fructose 1-phosphate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.62 * +EC2.7.1.56 d-fructose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC2.7.1.56 d-fructose 1-phosphate haloarcula vallismortis//*//* 0.8 * +EC2.7.1.56 d-fructose 1-phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.31 * +EC2.7.1.56 d-fructose 1-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.3 * +EC2.7.1.56 d-fructose 1-phosphate oceanimonas doudoroffii//*//* 0.3 * +EC2.7.1.56 d-fructose 1-phosphate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.16 * +EC2.7.1.56 d-fructose 6-phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 1.12 * +EC2.7.1.56 fructose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC2.7.1.56 itp clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.67 * +EC2.7.1.58 2-dehydro-3-deoxy-d-galactonate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.2 * +EC2.7.1.58 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.3 * +EC2.7.1.59 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.152 * +EC2.7.1.59 atp candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.82 * +EC2.7.1.59 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00014 * +EC2.7.1.59 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC2.7.1.59 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.7.1.59 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC2.7.1.59 atp yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 1.0 * +EC2.7.1.59 d-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 55.56 * +EC2.7.1.59 d-glucose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.483 * +EC2.7.1.59 d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC2.7.1.59 d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 410.0 * +EC2.7.1.59 d-glucose streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0011 * +EC2.7.1.59 d-glucose yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 135.0 * +EC2.7.1.59 d-mannose candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.426 * +EC2.7.1.59 d-mannose yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 67.0 * +EC2.7.1.59 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00025 * +EC2.7.1.59 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.7.1.59 n-acetyl-d-galactosamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.268 * +EC2.7.1.59 n-acetyl-d-glucosamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.046 * +EC2.7.1.59 n-acetyl-d-glucosamine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.376 * +EC2.7.1.59 n-acetyl-d-glucosamine clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.127 * +EC2.7.1.59 n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5e-05 * +EC2.7.1.59 n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.089 * +EC2.7.1.59 n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.7.1.59 n-acetyl-d-glucosamine streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.00077 * +EC2.7.1.59 n-acetyl-d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC2.7.1.59 n-acetyl-d-glucosamine yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.5 * +EC2.7.1.59 n-acetyl-d-mannosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.95 * +EC2.7.1.6 2-amino-deoxy-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC2.7.1.6 2-deoxy-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC2.7.1.6 2-deoxy-d-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 29.21 * +EC2.7.1.6 2-deoxy-d-galactose vicia faba//*//* 2.2 * +EC2.7.1.6 3-deoxy-3--methyl-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.4 * +EC2.7.1.6 6-deoxy-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC2.7.1.6 alpha-d-galactose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.48 * +EC2.7.1.6 alpha-d-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.698 * +EC2.7.1.6 atp bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.167 * +EC2.7.1.6 atp bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 2.46 * +EC2.7.1.6 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.24 * +EC2.7.1.6 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC2.7.1.6 atp lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.053 * +EC2.7.1.6 atp mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.29 * +EC2.7.1.6 atp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.132 * +EC2.7.1.6 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0948 * +EC2.7.1.6 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.046 * +EC2.7.1.6 atp tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.15 * +EC2.7.1.6 atp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.1 * +EC2.7.1.6 atp vicia faba//*//* 1.5 * +EC2.7.1.6 d-galactosamine vicia faba//*//* 1.2 * +EC2.7.1.6 d-galactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 1.11 * +EC2.7.1.6 d-galactose bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 0.895 * +EC2.7.1.6 d-galactose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.116 * +EC2.7.1.6 d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.09 * +EC2.7.1.6 d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.7.1.6 d-galactose mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 1.0 * +EC2.7.1.6 d-galactose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.403 * +EC2.7.1.6 d-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.539 * +EC2.7.1.6 d-galactose streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 37.23 * +EC2.7.1.6 d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.58 * +EC2.7.1.6 d-galactose tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.6 * +EC2.7.1.6 d-galactose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.091 * +EC2.7.1.6 d-galactose vicia faba//*//* 0.5 * +EC2.7.1.6 d-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.225 * +EC2.7.1.6 d-glucose streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 49.37 * +EC2.7.1.6 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC2.7.1.6 n-acetyl-d-galactosamine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 15.76 * +EC2.7.1.60 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.18 * +EC2.7.1.60 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.15 * +EC2.7.1.60 n-acetyl-d-mannosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.093 * +EC2.7.1.60 n-acetyl-d-mannosamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.75 * +EC2.7.1.60 n-glycolylmannosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.7.1.61 acetyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.4 * +EC2.7.1.61 d-glucose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.16 * +EC2.7.1.61 d-mannose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 12.0 * +EC2.7.1.61 d-ribose 5-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.0 * +EC2.7.1.61 mannitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 67.0 * +EC2.7.1.62 glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.5 * +EC2.7.1.63 (phosphate)120 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.1 * +EC2.7.1.63 (phosphate)15 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.6 * +EC2.7.1.63 (phosphate)20 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC2.7.1.63 (phosphate)25 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.3 * +EC2.7.1.63 (phosphate)4 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.5 * +EC2.7.1.63 (phosphate)45 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.2 * +EC2.7.1.63 (phosphate)45 nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.00176 * +EC2.7.1.63 (phosphate)5 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.8 * +EC2.7.1.63 (phosphate)6 streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.004 * +EC2.7.1.63 (phosphate)65 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.1 * +EC2.7.1.63 (phosphate)75 corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.3 * +EC2.7.1.63 (phosphate)n anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.00176 * +EC2.7.1.63 (phosphate)n streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.004 * +EC2.7.1.63 atp acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 0.4 * +EC2.7.1.63 atp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.2 * +EC2.7.1.63 atp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 6.0 * +EC2.7.1.63 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.88 * +EC2.7.1.63 atp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.15 * +EC2.7.1.63 ctp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.9 * +EC2.7.1.63 ctp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 5.9 * +EC2.7.1.63 d-glucose anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.118 * +EC2.7.1.63 d-glucose mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.28 * +EC2.7.1.63 d-glucose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.06 * +EC2.7.1.63 d-glucose nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.118 * +EC2.7.1.63 d-glucose propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 1.1 * +EC2.7.1.63 d-glucose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.012 * +EC2.7.1.63 d-mannose nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 24.3 * +EC2.7.1.63 datp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 1.2 * +EC2.7.1.63 glucose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.5 * +EC2.7.1.63 gtp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.5 * +EC2.7.1.63 gtp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.8 * +EC2.7.1.63 hexametaphosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.02 * +EC2.7.1.63 itp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.8 * +EC2.7.1.63 mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.15 * +EC2.7.1.63 poly(p) mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.175 * +EC2.7.1.63 poly(p10) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.033 * +EC2.7.1.63 poly(p138) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.037 * +EC2.7.1.63 poly(p15) mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0072 * +EC2.7.1.63 poly(p209) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.025 * +EC2.7.1.63 poly(p30) microlunatus phosphovorus//prokaryotes;bacteria;actinobacteria;microlunatus//mph 3.8 * +EC2.7.1.63 poly(p31) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0012 * +EC2.7.1.63 poly(p347) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0086 * +EC2.7.1.63 poly(p35) acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 0.0088 * +EC2.7.1.63 poly(p35) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0046 * +EC2.7.1.63 poly(p35) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0012 * +EC2.7.1.63 poly(p40) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.94 * +EC2.7.1.63 poly(p400) acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 0.037 * +EC2.7.1.63 poly(p400) mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8e-05 * +EC2.7.1.63 poly(p400) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 5e-06 * +EC2.7.1.63 poly(p430) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0067 * +EC2.7.1.63 poly(p575) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.004 * +EC2.7.1.63 poly(p68) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.18 * +EC2.7.1.63 poly(p700) microlunatus phosphovorus//prokaryotes;bacteria;actinobacteria;microlunatus//mph 0.06 * +EC2.7.1.63 poly(p724) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.002 * +EC2.7.1.63 poly(p75) propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.013 * +EC2.7.1.63 poly(p8) microlunatus phosphovorus//prokaryotes;bacteria;actinobacteria;microlunatus//mph 0.012 * +EC2.7.1.63 utp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.5 * +EC2.7.1.63 utp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 2.6 * +EC2.7.1.64 1d-myo-inositol zea mays//eukaryotes;plants;monocots;grass family//zma 0.0531 * +EC2.7.1.64 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.036 * +EC2.7.1.64 d-allose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 863.0 * +EC2.7.1.64 d-lyxose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 171.0 * +EC2.7.1.64 d-ribose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 951.0 * +EC2.7.1.64 d-tagatose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 53.0 * +EC2.7.1.64 d-talose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 438.0 * +EC2.7.1.64 d-xylose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 418.0 * +EC2.7.1.64 d-xylulose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 524.0 * +EC2.7.1.64 myo-inositol thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.36 * +EC2.7.1.66 atp lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.0 * +EC2.7.1.66 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.057 * +EC2.7.1.66 dolichol lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.0055 * +EC2.7.1.66 ficaprenol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.5 * +EC2.7.1.66 undecaprenol lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.008 * +EC2.7.1.67 1-phosphatidyl-1d-myo-inositol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC2.7.1.67 1-phosphatidyl-1d-myo-inositol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC2.7.1.67 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC2.7.1.67 atp daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.036 * +EC2.7.1.67 atp dunaliella parva//*//* 0.39 * +EC2.7.1.67 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.1.67 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC2.7.1.67 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.7.1.67 atp ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.067 * +EC2.7.1.67 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC2.7.1.67 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC2.7.1.67 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.44 * +EC2.7.1.67 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.06 * +EC2.7.1.67 atp tatlockia micdadei//prokaryotes;bacteria;gammaproteobacteria - others;tatlockia//tmc 1.5 * +EC2.7.1.67 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.62 * +EC2.7.1.67 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.044 * +EC2.7.1.67 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC2.7.1.67 phosphatidylinositol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC2.7.1.67 phosphatidylinositol dunaliella parva//*//* 0.027 * +EC2.7.1.67 phosphatidylinositol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.7.1.67 phosphatidylinositol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.022 * +EC2.7.1.67 phosphatidylinositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC2.7.1.67 phosphatidylinositol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC2.7.1.67 phosphatidylinositol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.17 * +EC2.7.1.67 phosphatidylinositol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC2.7.1.68 1-phosphatidyl-1d-inositol 4-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.262 * +EC2.7.1.68 1-phosphatidyl-1d-myo-inositol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.7.1.68 1-phosphatidyl-1d-myo-inositol 4-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC2.7.1.68 1-phosphatidyl-1d-myo-inositol 4-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC2.7.1.68 1-phosphatidyl-1d-myo-inositol 4-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.7.1.68 1-stearoyl-2-arachidonoyl phosphatidyl-1d-myo-inositol 4-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.9 * +EC2.7.1.68 1-stearoyl-2-oleoyl phosphatidyl-1d-myo-inositol 4-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.6 * +EC2.7.1.68 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.019 * +EC2.7.1.68 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.7.1.68 atp ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.043 * +EC2.7.1.68 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.7.1.68 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.008 * +EC2.7.1.68 atp triticum aestivum//*//* 0.2 * +EC2.7.1.68 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.133 * +EC2.7.1.68 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.129 * +EC2.7.1.68 phosphatidylinositol 3,4-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.7.1.68 phosphatidylinositol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.1.7 2-deoxy-d-mannose streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 15.0 * +EC2.7.1.7 2-deoxyglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC2.7.1.7 atp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.2 * +EC2.7.1.7 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.1.7 d-fructose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.7.1.7 d-fructose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.4 * +EC2.7.1.7 d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC2.7.1.7 d-glucose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.5 * +EC2.7.1.7 d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC2.7.1.7 d-mannosamine streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 20.0 * +EC2.7.1.7 d-mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 15.0 * +EC2.7.1.7 d-mannose leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 0.4 * +EC2.7.1.7 d-mannose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.33 * +EC2.7.1.7 d-mannose streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 0.05 * +EC2.7.1.7 datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.7.1.7 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.1.7 hexametaphosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.02 * +EC2.7.1.7 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.7.1.7 mannoheptulose streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 0.4 * +EC2.7.1.7 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.1.7 mgatp2- streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.1 * +EC2.7.1.7 ttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC2.7.1.7 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.1.72 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.03 * +EC2.7.1.72 atp streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.4 * +EC2.7.1.72 dihydrostreptomycin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 11.0 * +EC2.7.1.72 streptidine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 28.0 * +EC2.7.1.72 streptomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC2.7.1.72 streptomycin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.5 * +EC2.7.1.73 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.51 * +EC2.7.1.73 datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC2.7.1.73 guanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0061 * +EC2.7.1.73 guanosine helianthus tuberosus//*//* 0.014 * +EC2.7.1.73 inosine arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.166 * +EC2.7.1.73 inosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC2.7.1.73 inosine helianthus tuberosus//*//* 0.07 * +EC2.7.1.73 inosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.078 * +EC2.7.1.73 mgatp2- helianthus tuberosus//*//* 1.45 * +EC2.7.1.74 (-)-beta-2',3'-dideoxy-3'-thiacytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC2.7.1.74 1-beta-d-arabinofuranosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC2.7.1.74 1-beta-d-arabinosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC2.7.1.74 2',2'-difluorodeoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC2.7.1.74 2',3'-dideoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.1.74 2',3'-dideoxycytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.48 * +EC2.7.1.74 2'-deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC2.7.1.74 2'-deoxyadenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC2.7.1.74 2'-deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC2.7.1.74 2'-deoxycytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0001 * +EC2.7.1.74 2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.7.1.74 2-chloro-2'-deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00099 * +EC2.7.1.74 2-chloro-2'-deoxyadenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0063 * +EC2.7.1.74 2-chlorodeoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC2.7.1.74 4'-thio-2'-deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00032 * +EC2.7.1.74 4'-thio-beta-d-arabinofuranosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.1.74 9-beta-d-arabinofuranosylguanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.7.1.74 9-beta-d-arabinofuranosylguanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.0 * +EC2.7.1.74 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC2.7.1.74 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.7.1.74 beta-d-arabinofuranosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00041 * +EC2.7.1.74 cladribine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00065 * +EC2.7.1.74 clofarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC2.7.1.74 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC2.7.1.74 cytarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0282 * +EC2.7.1.74 cytidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC2.7.1.74 cytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.7.1.74 cytosine arabinoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC2.7.1.74 cytosine arabinoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.7.1.74 deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.1.74 deoxycytidine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC2.7.1.74 deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC2.7.1.74 deoxycytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0033 * +EC2.7.1.74 deoxyguanosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC2.7.1.74 deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.1.74 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.7.1.74 fludarabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC2.7.1.74 gemcitabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0161 * +EC2.7.1.74 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC2.7.1.74 thymidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.485 * +EC2.7.1.74 troxacitabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.7.1.74 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.7.1.76 2',2'-difluorodeoxycytidine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0335 * +EC2.7.1.76 2',2'-difluorodesoxycytidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.192 * +EC2.7.1.76 2'-deoxyadenosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0332 * +EC2.7.1.76 2'-deoxyadenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0227 * +EC2.7.1.76 2'-deoxyadenosine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0292 * +EC2.7.1.76 2'-deoxycytidine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.027 * +EC2.7.1.76 2'-deoxycytidine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0344 * +EC2.7.1.76 2'-fluoro-arabinosyl adenine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.146 * +EC2.7.1.76 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.7.1.76 atp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.016 * +EC2.7.1.76 ctp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.021 * +EC2.7.1.76 deoxyadenosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0332 * +EC2.7.1.76 deoxyadenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC2.7.1.76 deoxyadenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0227 * +EC2.7.1.76 deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC2.7.1.76 deoxyadenosine mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.01 * +EC2.7.1.76 deoxyadenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC2.7.1.76 deoxycytidine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.027 * +EC2.7.1.76 deoxycytidine mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.121 * +EC2.7.1.76 deoxyguanosine mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.019 * +EC2.7.1.76 fludarabine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.146 * +EC2.7.1.76 gemcitabine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0335 * +EC2.7.1.76 ribavirin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.2 * +EC2.7.1.76 thymidine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.004 * +EC2.7.1.76 triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.074 * +EC2.7.1.76 ttp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.077 * +EC2.7.1.76 utp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.135 * +EC2.7.1.77 1-naphthyl phosphate hordeum vulgare//*//* 0.44 * +EC2.7.1.77 2'-deoxyadenosine leishmania tropica//*//* 0.0059 * +EC2.7.1.77 2'-deoxycytidine leishmania tropica//*//* 0.0153 * +EC2.7.1.77 2'-deoxyguanosine leishmania tropica//*//* 0.0063 * +EC2.7.1.77 2'-deoxyinosine leishmania tropica//*//* 0.0057 * +EC2.7.1.77 2-naphthyl phosphate hordeum vulgare//*//* 0.26 * +EC2.7.1.77 3'-amp hordeum vulgare//*//* 0.023 * +EC2.7.1.77 3'-deoxyadenosine leishmania tropica//*//* 0.0071 * +EC2.7.1.77 3'-deoxyinosine leishmania tropica//*//* 0.0084 * +EC2.7.1.77 3'-fluoroinosine leishmania tropica//*//* 0.0066 * +EC2.7.1.77 3'-ump hordeum vulgare//*//* 0.092 * +EC2.7.1.77 4-nitrophenyl phosphate hordeum vulgare//*//* 0.28 * +EC2.7.1.77 5'-amp hordeum vulgare//*//* 0.018 * +EC2.7.1.77 5'-amp lupinus luteus//*//* 0.4 * +EC2.7.1.77 5'-ump hordeum vulgare//*//* 0.09 * +EC2.7.1.77 adenosine 5'-phosphorothionate hordeum vulgare//*//* 0.22 * +EC2.7.1.77 adenosine leishmania tropica//*//* 0.0061 * +EC2.7.1.77 cytidine hordeum vulgare//*//* 6.39 * +EC2.7.1.77 cytidine leishmania tropica//*//* 0.0169 * +EC2.7.1.77 deoxyadenosine hordeum vulgare//*//* 0.087 * +EC2.7.1.77 deoxycytidine hordeum vulgare//*//* 4.15 * +EC2.7.1.77 deoxyguanosine hordeum vulgare//*//* 0.412 * +EC2.7.1.77 deoxythymidine hordeum vulgare//*//* 0.89 * +EC2.7.1.77 diphosphate morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.73 * +EC2.7.1.77 guanosine hordeum vulgare//*//* 2.13 * +EC2.7.1.77 guanosine leishmania tropica//*//* 0.0064 * +EC2.7.1.77 inosine leishmania tropica//*//* 0.0059 * +EC2.7.1.77 inosine lupinus luteus//*//* 0.4 * +EC2.7.1.77 inosine morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 122.0 * +EC2.7.1.77 phenylphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 3.5 * +EC2.7.1.77 thymidine leishmania tropica//*//* 0.014 * +EC2.7.1.77 uridine daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 3.5 * +EC2.7.1.77 uridine hordeum vulgare//*//* 3.93 * +EC2.7.1.77 uridine leishmania tropica//*//* 0.0167 * +EC2.7.1.78 5'-dephospho-gaaaa-rna caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.099 * +EC2.7.1.78 5'-dephospho-gc-rna caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.109 * +EC2.7.1.78 5'-ho-ccgaccaacgaaggt ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.0028 * +EC2.7.1.78 5'-hydroxyl poly(a) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC2.7.1.78 5'-hydroxyl poly(c) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC2.7.1.78 5'-oh dna pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.016 * +EC2.7.1.78 5'-oh-dna enterobacteria phage t4//*//* 0.0027 * +EC2.7.1.78 5'-oh-dna rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC2.7.1.78 5'-phospho-dna pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.021 * +EC2.7.1.78 [gamma-s]atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC2.7.1.78 [gamma-s]atp synthetic ribozyme//*//* 3.1 * +EC2.7.1.78 [gamma-s]gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.53 * +EC2.7.1.78 adp enterobacteria phage t4//*//* 0.2 * +EC2.7.1.78 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC2.7.1.78 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.259 * +EC2.7.1.78 atp enterobacteria phage t2//*//* 0.014 * +EC2.7.1.78 atp enterobacteria phage t4//*//* 0.004 * +EC2.7.1.78 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.1.78 atp mycobacterium virus cjw1//*//* 0.04 * +EC2.7.1.78 atp mycobacterium virus omega//*//* 0.007 * +EC2.7.1.78 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00069 * +EC2.7.1.78 atp rhodothermus phage rm378//*//* 0.02 * +EC2.7.1.78 atp synthetic ribozyme//*//* 3.4 * +EC2.7.1.78 atp unidentified baculovirus//*//* 0.6 * +EC2.7.1.78 ctp enterobacteria phage t2//*//* 0.025 * +EC2.7.1.78 gggcc(ag)10ggccc-fluorescein enterobacteria phage t4//*//* 0.00056 * +EC2.7.1.78 gtp enterobacteria phage t2//*//* 0.033 * +EC2.7.1.78 mg2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC2.7.1.78 mg2+ enterobacteria phage t2//*//* 0.5 * +EC2.7.1.78 mn2+ enterobacteria phage t2//*//* 0.1 * +EC2.7.1.78 oligo (dt)25 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC2.7.1.78 oligonucleotides enterobacteria phage t4//*//* 0.0222 * +EC2.7.1.78 poly(a) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0036 * +EC2.7.1.78 r(a20) rhodothermus phage rm378//*//* 0.0013 * +EC2.7.1.78 utp enterobacteria phage t2//*//* 0.015 * +EC2.7.1.8 atp vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 1.96 * +EC2.7.1.8 d-glucosamine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.48 * +EC2.7.1.80 diphosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.1 * +EC2.7.1.80 l-serine propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 1.9 * +EC2.7.1.80 mg2+ propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.13 * +EC2.7.1.81 5-hydroxy-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC2.7.1.81 5-hydroxy-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0238 * +EC2.7.1.81 allohydroxy-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0062 * +EC2.7.1.81 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.81 * +EC2.7.1.81 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC2.7.1.81 hydroxy-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0056 * +EC2.7.1.82 atp achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.5 * +EC2.7.1.82 atp flavobacterium rhenanum//*//* 0.5 * +EC2.7.1.82 atp microbacterium arborescens//*//* 0.5 * +EC2.7.1.82 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0206 * +EC2.7.1.82 choline saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC2.7.1.82 choline trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0314 * +EC2.7.1.82 dl-1-aminopropan-2-ol flavobacterium rhenanum//*//* 0.36 * +EC2.7.1.82 ethanolamine flavobacterium rhenanum//*//* 0.53 * +EC2.7.1.82 ethanolamine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.008 * +EC2.7.1.82 ethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.7.1.82 ethanolamine plasmodium falciparum 3d7//eukaryotes;protists;alveolates;apicomplexans//pfa 0.4757 * +EC2.7.1.82 ethanolamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.458 * +EC2.7.1.82 ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.041 * +EC2.7.1.82 ethanolamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.171 * +EC2.7.1.82 ethanolamine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.042 * +EC2.7.1.82 ethanolamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0184 * +EC2.7.1.82 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC2.7.1.83 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.7.1.83 k+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC2.7.1.83 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC2.7.1.83 pseudouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.7.1.84 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.6 * +EC2.7.1.85 amygdalin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.1 * +EC2.7.1.85 amygdalin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.47 * +EC2.7.1.85 arbutin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.6 * +EC2.7.1.85 arbutin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.21 * +EC2.7.1.85 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.7 * +EC2.7.1.85 atp klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.24 * +EC2.7.1.85 cellobiitol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 4.0 * +EC2.7.1.85 cellobiitol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.56 * +EC2.7.1.85 cellobiose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.0 * +EC2.7.1.85 cellobiose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.47 * +EC2.7.1.85 cellotetraose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.3 * +EC2.7.1.85 cellotriose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.7 * +EC2.7.1.85 d-glucose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 40.29 * +EC2.7.1.85 gentiobiose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.5 * +EC2.7.1.85 gentiobiose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.56 * +EC2.7.1.85 isopropyl beta-d-thioglucopyranoside klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.03 * +EC2.7.1.85 laminaribiose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.63 * +EC2.7.1.85 methyl beta-d-glucopyranoside klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.23 * +EC2.7.1.85 methyl beta-d-glucoside klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 13.1 * +EC2.7.1.85 n-octyl beta-d-glucopyranoside klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.11 * +EC2.7.1.85 phenyl beta-d-glucopyranoside klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.65 * +EC2.7.1.85 phenyl beta-d-glucoside klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.5 * +EC2.7.1.85 salicin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.5 * +EC2.7.1.85 salicin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.18 * +EC2.7.1.85 sophorose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.1 * +EC2.7.1.85 sophorose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.15 * +EC2.7.1.85 thiocellobiose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 10.54 * +EC2.7.1.86 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.062 * +EC2.7.1.86 atp fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 2.59 * +EC2.7.1.86 atp micrococcus flavus//*//* 0.32 * +EC2.7.1.86 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.133 * +EC2.7.1.86 ctp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.759 * +EC2.7.1.86 gtp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.461 * +EC2.7.1.86 nad+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.39 * +EC2.7.1.86 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC2.7.1.86 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.042 * +EC2.7.1.86 nadh fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.13 * +EC2.7.1.86 nadh micrococcus flavus//*//* 0.35 * +EC2.7.1.86 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.027 * +EC2.7.1.86 tetrapolyphosphate micrococcus flavus//*//* 0.58 * +EC2.7.1.86 utp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.156 * +EC2.7.1.89 thiamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC2.7.1.90 2,5-anhydro-d-mannitol-6-phosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.97 * +EC2.7.1.90 2,5-anhydro-d-mannitol-6-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.92 * +EC2.7.1.90 arsenate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 3.6 * +EC2.7.1.90 d-fructose 1,6-bisphosphate ananas comosus//*//* 0.094 * +EC2.7.1.90 d-fructose 1,6-bisphosphate brassica nigra//*//* 0.09 * +EC2.7.1.90 d-fructose 1,6-bisphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 1.0 * +EC2.7.1.90 d-fructose 1,6-bisphosphate dictyoglomus thermophilum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dth 2.9 * +EC2.7.1.90 d-fructose 1,6-bisphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.009 * +EC2.7.1.90 d-fructose 1,6-bisphosphate hexamita inflata//*//* 0.018 * +EC2.7.1.90 d-fructose 1,6-bisphosphate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 0.043 * +EC2.7.1.90 d-fructose 1,6-bisphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.328 * +EC2.7.1.90 d-fructose 1,6-bisphosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.095 * +EC2.7.1.90 d-fructose 1,6-bisphosphate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.07 * +EC2.7.1.90 d-fructose 1,6-bisphosphate naegleria fowleri//*//* 0.035 * +EC2.7.1.90 d-fructose 1,6-bisphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.139 * +EC2.7.1.90 d-fructose 1,6-bisphosphate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.11 * +EC2.7.1.90 d-fructose 1,6-bisphosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.051 * +EC2.7.1.90 d-fructose 1,6-bisphosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.03 * +EC2.7.1.90 d-fructose 1,6-bisphosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.018 * +EC2.7.1.90 d-fructose 1,6-bisphosphate saccharum hybrid cultivar//*//* 0.039 * +EC2.7.1.90 d-fructose 1,6-bisphosphate sansevieria trifasciata//*//* 0.83 * +EC2.7.1.90 d-fructose 1,6-bisphosphate triticum aestivum//*//* 0.139 * +EC2.7.1.90 d-fructose 1,6-bisphosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.024 * +EC2.7.1.90 d-fructose 1,6-diphosphate musa cavendishii//*//* 0.025 * +EC2.7.1.90 d-fructose 6-phosphate ananas comosus//*//* 0.89 * +EC2.7.1.90 d-fructose 6-phosphate brassica nigra//*//* 0.05 * +EC2.7.1.90 d-fructose 6-phosphate bruguiera sexangula//*//* 0.05 * +EC2.7.1.90 d-fructose 6-phosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.13 * +EC2.7.1.90 d-fructose 6-phosphate dictyoglomus thermophilum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dth 0.23 * +EC2.7.1.90 d-fructose 6-phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.038 * +EC2.7.1.90 d-fructose 6-phosphate giardia intestinalis//*//* 0.25 * +EC2.7.1.90 d-fructose 6-phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.8 * +EC2.7.1.90 d-fructose 6-phosphate hexamita inflata//*//* 0.8 * +EC2.7.1.90 d-fructose 6-phosphate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 0.65 * +EC2.7.1.90 d-fructose 6-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 2.27 * +EC2.7.1.90 d-fructose 6-phosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.64 * +EC2.7.1.90 d-fructose 6-phosphate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.24 * +EC2.7.1.90 d-fructose 6-phosphate musa cavendishii//*//* 0.032 * +EC2.7.1.90 d-fructose 6-phosphate naegleria fowleri//*//* 0.01 * +EC2.7.1.90 d-fructose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.8 * +EC2.7.1.90 d-fructose 6-phosphate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 2.2 * +EC2.7.1.90 d-fructose 6-phosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.24 * +EC2.7.1.90 d-fructose 6-phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.13 * +EC2.7.1.90 d-fructose 6-phosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.3 * +EC2.7.1.90 d-fructose 6-phosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.3 * +EC2.7.1.90 d-fructose 6-phosphate saccharum hybrid cultivar//*//* 0.15 * +EC2.7.1.90 d-fructose 6-phosphate sansevieria trifasciata//*//* 0.8 * +EC2.7.1.90 d-fructose 6-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.3 * +EC2.7.1.90 d-fructose 6-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.53 * +EC2.7.1.90 d-fructose 6-phosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.27 * +EC2.7.1.90 d-fructose 6-phosphate treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.53 * +EC2.7.1.90 d-fructose 6-phosphate triticum aestivum//*//* 0.3 * +EC2.7.1.90 d-fructose 6-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.23 * +EC2.7.1.90 d-fructose 6-phosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.2 * +EC2.7.1.90 d-fructose1,6-bisphosphate treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.27 * +EC2.7.1.90 d-sedoheptulose 6-phosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 1.01 * +EC2.7.1.90 d-sedoheptulose 7-phosphate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 0.21 * +EC2.7.1.90 d-sedoheptulose 7-phosphate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.51 * +EC2.7.1.90 diphosphate ananas comosus//*//* 0.011 * +EC2.7.1.90 diphosphate brassica nigra//*//* 0.014 * +EC2.7.1.90 diphosphate bruguiera sexangula//*//* 0.19 * +EC2.7.1.90 diphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.014 * +EC2.7.1.90 diphosphate dictyoglomus thermophilum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dth 0.022 * +EC2.7.1.90 diphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.006 * +EC2.7.1.90 diphosphate giardia intestinalis//*//* 0.039 * +EC2.7.1.90 diphosphate hexamita inflata//*//* 0.011 * +EC2.7.1.90 diphosphate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 0.006 * +EC2.7.1.90 diphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.027 * +EC2.7.1.90 diphosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.118 * +EC2.7.1.90 diphosphate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 0.011 * +EC2.7.1.90 diphosphate musa cavendishii//*//* 0.0097 * +EC2.7.1.90 diphosphate naegleria fowleri//*//* 0.014 * +EC2.7.1.90 diphosphate naegleria gruberi//eukaryotes;protists;heterolobosea;amoeboflagellate//ngr 0.014 * +EC2.7.1.90 diphosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.069 * +EC2.7.1.90 diphosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.005 * +EC2.7.1.90 diphosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.025 * +EC2.7.1.90 diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.014 * +EC2.7.1.90 diphosphate saccharum hybrid cultivar//*//* 0.037 * +EC2.7.1.90 diphosphate sansevieria trifasciata//*//* 0.58 * +EC2.7.1.90 diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.014 * +EC2.7.1.90 diphosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.025 * +EC2.7.1.90 diphosphate treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 0.042 * +EC2.7.1.90 diphosphate triticum aestivum//*//* 0.025 * +EC2.7.1.90 diphosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.29 * +EC2.7.1.90 diphosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.041 * +EC2.7.1.90 fructose 1,6-bisphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.023 * +EC2.7.1.90 mg2+ ananas comosus//*//* 0.63 * +EC2.7.1.90 mg2+ daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.5 * +EC2.7.1.90 mg2+ entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.008 * +EC2.7.1.90 mg2+ phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.1 * +EC2.7.1.90 mg2+ propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.083 * +EC2.7.1.90 mg2+ propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.1 * +EC2.7.1.90 mn2+ propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.064 * +EC2.7.1.90 phosphate ananas comosus//*//* 0.15 * +EC2.7.1.90 phosphate brassica nigra//*//* 0.25 * +EC2.7.1.90 phosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 1.7 * +EC2.7.1.90 phosphate dictyoglomus thermophilum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dth 4.3 * +EC2.7.1.90 phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.59 * +EC2.7.1.90 phosphate hexamita inflata//*//* 1.14 * +EC2.7.1.90 phosphate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 1.04 * +EC2.7.1.90 phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 8.69 * +EC2.7.1.90 phosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 3.4 * +EC2.7.1.90 phosphate methylosinus trichosporium//prokaryotes;bacteria;alphaproteobacteria;methylosinus//mtw 2.4 * +EC2.7.1.90 phosphate musa cavendishii//*//* 0.38 * +EC2.7.1.90 phosphate naegleria fowleri//*//* 0.59 * +EC2.7.1.90 phosphate naegleria gruberi//eukaryotes;protists;heterolobosea;amoeboflagellate//ngr 0.59 * +EC2.7.1.90 phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.59 * +EC2.7.1.90 phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.56 * +EC2.7.1.90 phosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.59 * +EC2.7.1.90 phosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.63 * +EC2.7.1.90 phosphate saccharum hybrid cultivar//*//* 0.46 * +EC2.7.1.90 phosphate sansevieria trifasciata//*//* 0.14 * +EC2.7.1.90 phosphate treponema pallidum//prokaryotes;bacteria;spirochaetes;treponema//tpa 1.39 * +EC2.7.1.90 phosphate triticum aestivum//*//* 0.129 * +EC2.7.1.90 phosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.5 * +EC2.7.1.90 sedoheptulose 7-phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.06 * +EC2.7.1.90 sedoheptulose 7-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.027 * +EC2.7.1.90 sedoheptulose 7-phosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.38 * +EC2.7.1.90 sedoheptulose 7-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.49 * +EC2.7.1.91 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.7.1.91 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.093 * +EC2.7.1.91 d(+)erythro-sphinganine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.072 * +EC2.7.1.91 d(+)erythro-sphinganine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0034 * +EC2.7.1.91 d(+)erythro-sphinganine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.7.1.91 d(+)erythro-sphinganine tetrahymena pyriformis//*//* 0.1 * +EC2.7.1.91 d-erythro-sphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC2.7.1.91 d-erythrosphinganine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC2.7.1.91 dl-erythro-dihydrosphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.1.91 l(-)threo-sphinganine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.1.91 nitrobenzoxadiazole-labeled sphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.1.91 sphinganine tetrahymena pyriformis//*//* 0.09 * +EC2.7.1.91 sphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC2.7.1.91 sphingosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.7.1.92 2-deoxy-5-keto-d-gluconic acid klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.097 * +EC2.7.1.92 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.22 * +EC2.7.1.93 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.6 * +EC2.7.1.95 3'-phosphokanamycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.32 * +EC2.7.1.95 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.7.1.95 atp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 0.0106 * +EC2.7.1.95 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC2.7.1.95 kanamycin a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC2.7.1.95 kanamycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.3 * +EC2.7.1.B19 atp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.65 * +EC2.7.1.B19 geranylgeraniol sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.7e-05 * +EC2.7.1.B20 2'-deoxyadenosine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 1.1 * +EC2.7.1.B20 adenosine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.02 * +EC2.7.1.B20 adenosine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.001 * +EC2.7.1.B20 atp burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.6 * +EC2.7.1.B20 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0469 * +EC2.7.1.B20 cytidine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.017 * +EC2.7.1.B20 cytidine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.000411 * +EC2.7.1.B20 gtp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.185 * +EC2.7.1.B20 guanosine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.46 * +EC2.7.1.B20 guanosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.062 * +EC2.7.1.B20 guanosine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.000208 * +EC2.7.1.B20 inosine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.15 * +EC2.7.1.B20 inosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.021 * +EC2.7.1.B20 inosine thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.000712 * +EC2.7.1.B20 mizoribine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.87 * +EC2.7.1.B20 ribavirin burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.79 * +EC2.7.1.B20 uridine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 1.7 * +EC2.7.1.B26 1-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0518 * +EC2.7.1.B26 2'-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0359 * +EC2.7.1.B26 3-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0071 * +EC2.7.1.B26 6'-deaminoneamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0818 * +EC2.7.1.B26 amikacin enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.245 * +EC2.7.1.B26 amikacin micromonospora echinospora//*//* 0.048 * +EC2.7.1.B26 atp enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0277 * +EC2.7.1.B26 kanamycin a enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.0126 * +EC2.7.1.B26 kanamycin a micromonospora echinospora//*//* 0.018 * +EC2.7.1.B26 kanamycin b micromonospora echinospora//*//* 0.012 * +EC2.7.1.B26 neamine enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.02 * +EC2.7.1.B26 neomycin b enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.00772 * +EC2.7.1.B26 neomycin b micromonospora echinospora//*//* 0.014 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 70.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 60.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose buckleyzyma aurantiaca//*//* 102.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose cryptococcus luteolus//*//* 95.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose lipomyces starkeyi//*//* 68.6 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose papiliotrema flavescens//*//* 80.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose papiliotrema laurentii//*//* 84.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose penicillium herquei//*//* 48.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose penicillium javanicum//*//* 56.0 * +EC2.7.1.B28 1,6-anhydro-beta-d-glucopyranose sporidiobolus salmonicolor//*//* 85.0 * +EC2.7.1.B28 atp alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 0.3 * +EC2.7.1.B28 atp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.25 * +EC2.7.1.B28 atp buckleyzyma aurantiaca//*//* 0.3 * +EC2.7.1.B28 atp cryptococcus luteolus//*//* 0.35 * +EC2.7.1.B28 atp lipomyces starkeyi//*//* 0.2 * +EC2.7.1.B28 atp papiliotrema flavescens//*//* 0.29 * +EC2.7.1.B28 atp papiliotrema laurentii//*//* 0.3 * +EC2.7.1.B28 atp penicillium herquei//*//* 0.21 * +EC2.7.1.B28 atp penicillium javanicum//*//* 0.29 * +EC2.7.1.B28 atp sporidiobolus salmonicolor//*//* 0.19 * +EC2.7.10.1 ac-dyfe-6-chloro-w-nhme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC2.7.10.1 ac-dyfgw-nhme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.7.10.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.7.10.1 yfew homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.232 * +EC2.7.10.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.7.10.2 atp monosiga brevicollis//eukaryotes;protists;choanoflagellates//mbr 0.29 * +EC2.7.10.2 eeeeyiq[dp]-8-hydroxy-5-(n,n-dimethylsulfonamido)-2-methylquinoline-g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC2.7.10.2 s1 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC2.7.11.1 atp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.64 * +EC2.7.11.1 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0008 * +EC2.7.11.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC2.7.11.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC2.7.11.1 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00074 * +EC2.7.11.1 gtp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.46 * +EC2.7.11.1 kkraarassnvfa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.02 * +EC2.7.11.1 kkraaratsnvfa sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.013 * +EC2.7.11.1 lys-lys-phe-asn-arg-thr-leu-ser-val-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC2.7.11.1 pah1 phosphatidate phosphatase saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00023 * +EC2.7.11.11 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC2.7.11.11 histone manduca sexta//*//* 0.73 * +EC2.7.11.11 kemptide manduca sexta//*//* 0.031 * +EC2.7.11.11 kemptide mytilus galloprovincialis//*//* 0.0125 * +EC2.7.11.11 leu-arg-arg-ala-ser-leu-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.023 * +EC2.7.11.11 mgatp2- manduca sexta//*//* 0.039 * +EC2.7.11.11 n-(8-([4-[3-(ethoxycarbonyl)-6,8,8-trimethyl-2-oxo-7,8-dihydro-2h-pyrano[3,2-g]quinolin-9(6h)-yl]butanoyl]amino)octanoyl)-grtgrrfsyp-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0019 * +EC2.7.11.11 n-(8-([[7-(diethylamino)-2-oxo-2h-chromen-3-yl]carbonyl]amino)octanoyl)-grtgrrfsyp-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0022 * +EC2.7.11.11 n-(8-[[(11-oxo-2,3,6,7-tetrahydro-1h,5h,11h-pyrano[2,3-f]pyrido[3,2,1-ij]quinolin-10-yl)carbonyl]amino]octanoyl)-grtgrrfsyp-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0062 * +EC2.7.11.11 peptide rrysv mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.027 * +EC2.7.11.11 rrasva zea mays//eukaryotes;plants;monocots;grass family//zma 0.021 * +EC2.7.11.12 hsert i425v homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00026 * +EC2.7.11.12 hsert t276a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00019 * +EC2.7.11.12 hsert t276a/i425v homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00012 * +EC2.7.11.12 hsert t276d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC2.7.11.12 hsert t276d/i425v homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-05 * +EC2.7.11.12 hsert t276e homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC2.7.11.12 hsert homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC2.7.11.12 septin 3 peptide 86-98 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0865 * +EC2.7.11.13 fkkqgsfakkk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0166 * +EC2.7.11.13 s6-(229-239) peptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0036 * +EC2.7.11.14 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC2.7.11.14 atp musca domestica//eukaryotes;animals;arthropods;insects//mde 0.009 * +EC2.7.11.14 atpgammas bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC2.7.11.14 ddeasttvsktetsqvarrr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.1 * +EC2.7.11.14 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC2.7.11.14 rhodopsin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00062 * +EC2.7.11.14 rhodopsin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC2.7.11.14 rrreeeeesaaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.7.11.15 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.033 * +EC2.7.11.15 beta-adrenergic receptor bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00025 * +EC2.7.11.15 demefteaesnmn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0339 * +EC2.7.11.15 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC2.7.11.15 peptide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC2.7.11.15 rhodopsin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0053 * +EC2.7.11.17 atp candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.014 * +EC2.7.11.17 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.012 * +EC2.7.11.17 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC2.7.11.17 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC2.7.11.17 biotinylated thr-arg-ser-ala-ile-arg-arg-ala-ser-thr-ile-glu-met-pro-gln-gln-ala-arg-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC2.7.11.17 caldesmon gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0049 * +EC2.7.11.17 histone iiis nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0445 * +EC2.7.11.17 l-prolyl-l-leucyl-l-alanyl-l-arginyl-l-threonyl-l-leucyl-l-seryl-l-valyl-l-alanylglycyl-l-leucyl-l-prolylglycyl-l-lysyl-l-lysine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.022 * +EC2.7.11.17 lys-lys-ala-leu-arg-arg-gln-glu-ala-val-asp-ala-leu candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.063 * +EC2.7.11.17 map2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00074 * +EC2.7.11.17 microtubule associated protein 2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC2.7.11.17 syntide-2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.02 * +EC2.7.11.18 [non-muscle heavy meromyosin iib] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0025 * +EC2.7.11.18 [non-muscle regulatory light chain] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0051 * +EC2.7.11.18 [smooth muscle heavy meromyosin] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0026 * +EC2.7.11.18 [smooth muscle regulatory light chain] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0072 * +EC2.7.11.18 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.075 * +EC2.7.11.18 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.167 * +EC2.7.11.18 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.121 * +EC2.7.11.18 atp meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.05 * +EC2.7.11.18 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.224 * +EC2.7.11.18 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.073 * +EC2.7.11.18 bovine cardiac muscle myosin light chain gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC2.7.11.18 bpakkraaratsnvfa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0075 * +EC2.7.11.18 calmodulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2e-06 * +EC2.7.11.18 calmodulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2e-06 * +EC2.7.11.18 dictyostelium myosin dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.004 * +EC2.7.11.18 isolated myosin light chain oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC2.7.11.18 kemptamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC2.7.11.18 kkraaratsnvfa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0084 * +EC2.7.11.18 limulus myosin light chain limulus sp.//*//* 0.0156 * +EC2.7.11.18 myosin light chain bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC2.7.11.18 myosin light chain gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.005 * +EC2.7.11.18 myosin light chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.7.11.18 myosin light chain meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.005 * +EC2.7.11.18 myosin light chain mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0043 * +EC2.7.11.18 myosin light chain oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.005 * +EC2.7.11.18 myosin light chain rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC2.7.11.18 myosin regulatory light chain oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0067 * +EC2.7.11.18 myosin dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.004 * +EC2.7.11.18 rabbit white skeletal muscle myosin p-light chain oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.7.11.18 skeletal muscle myosin light chain gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.094 * +EC2.7.11.18 turkey gizzard myosin light chain bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.7.11.18 turkey gizzard myosin light chain ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.04 * +EC2.7.11.18 turkey gizzard myosin light chain sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.7.11.19 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC2.7.11.19 atp cavia porcellus//*//* 0.03 * +EC2.7.11.19 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC2.7.11.19 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC2.7.11.19 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.018 * +EC2.7.11.19 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.7.11.19 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.018 * +EC2.7.11.19 atp squalus acanthias//*//* 0.03 * +EC2.7.11.19 glycogen phosphorylase b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0093 * +EC2.7.11.19 gtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.6 * +EC2.7.11.19 lys-arg-lys-gln-ile-ser-val-asp-gly-ile mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC2.7.11.19 melittin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0098 * +EC2.7.11.19 mgatp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.017 * +EC2.7.11.19 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.7.11.19 mgatp2- squalus acanthias//*//* 0.1 * +EC2.7.11.19 peptides oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC2.7.11.19 phosphorylase b bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC2.7.11.19 phosphorylase b cavia porcellus//*//* 0.019 * +EC2.7.11.19 phosphorylase b gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.002 * +EC2.7.11.19 phosphorylase b mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC2.7.11.19 phosphorylase b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC2.7.11.19 phosphorylase b rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.019 * +EC2.7.11.19 phosphorylase b saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.019 * +EC2.7.11.19 phosphorylase b squalus acanthias//*//* 0.019 * +EC2.7.11.19 ser-asp-gln-glu-lys-arg-lys-gln-ile-ser-val-asp-gly-ile mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC2.7.11.19 ser-asp-gln-glu-lys-arg-lys-gln-ile-ser-val-asp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.0 * +EC2.7.11.19 tetradecapeptide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.3085 * +EC2.7.11.19 utp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.4 * +EC2.7.11.2 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.7.11.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.7.11.2 atp pisum sativum//*//* 0.02 * +EC2.7.11.2 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC2.7.11.2 mg2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC2.7.11.2 pyruvate dehydrogenase bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0006 * +EC2.7.11.21 atp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0064 * +EC2.7.11.21 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC2.7.11.21 cdc25c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00066 * +EC2.7.11.22 adaqhatppkkkrkvedpkdf saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.046 * +EC2.7.11.22 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00522 * +EC2.7.11.22 fin1 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC2.7.11.22 pktpkkakkl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00285 * +EC2.7.11.23 arg-hepta peptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.212 * +EC2.7.11.23 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.11.23 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC2.7.11.23 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.027 * +EC2.7.11.23 ctd-containing fusion protein saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00022 * +EC2.7.11.23 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.18 * +EC2.7.11.23 hepta-six peptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.189 * +EC2.7.11.23 synthetic peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.11.24 atf2delta109 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC2.7.11.24 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.096 * +EC2.7.11.24 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.062 * +EC2.7.11.24 egf receptor peptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.656 * +EC2.7.11.24 elkerk synthetic construct//*//* 0.0044 * +EC2.7.11.24 erkmek1 synthetic construct//*//* 0.344 * +EC2.7.11.24 erkmek2 synthetic construct//*//* 0.388 * +EC2.7.11.24 erkste7' synthetic construct//*//* 0.173 * +EC2.7.11.24 erksub synthetic construct//*//* 0.127 * +EC2.7.11.24 mek1erk synthetic construct//*//* 0.0037 * +EC2.7.11.24 mek2erk synthetic construct//*//* 0.0056 * +EC2.7.11.24 scrammmek2 synthetic construct//*//* 0.096 * +EC2.7.11.24 ste7erk synthetic construct//*//* 0.0006 * +EC2.7.11.27 acetyl-coa carboxylase rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.5e-05 * +EC2.7.11.27 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.7.11.27 histone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.7.11.27 protamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC2.7.11.28 alpha-tropomyosin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC2.7.11.28 alpha[264-284] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.5 * +EC2.7.11.28 alphaalpha-tropomyosin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.047 * +EC2.7.11.28 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC2.7.11.28 beta[264-284] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.66 * +EC2.7.11.28 betabeta-tropomyosin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.264 * +EC2.7.11.28 his-276-beta[264-284] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.48 * +EC2.7.11.28 ile-284-beta[264-284] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.36 * +EC2.7.11.28 met-281-beta[264-284] gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.33 * +EC2.7.11.29 low-density lipoprotein receptor bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5e-06 * +EC2.7.11.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC2.7.11.31 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02604 * +EC2.7.11.31 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.028 * +EC2.7.11.31 biotin-gghmrsamsglhlvkrr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02667 * +EC2.7.11.31 hgrsamsglhlvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0404 * +EC2.7.11.31 histone h1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0029 * +EC2.7.11.31 hmgsamsglhlvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.573 * +EC2.7.11.31 hmhsamsglhlvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.118 * +EC2.7.11.31 hmksamsglhlvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.111 * +EC2.7.11.31 hmrsagsglhlvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.069 * +EC2.7.11.31 hmrsamsglhggkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.049 * +EC2.7.11.31 hmrsamsglhgvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.013 * +EC2.7.11.31 hmrsamsglhlgkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.038 * +EC2.7.11.31 hmrsamsglhlvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0498 * +EC2.7.11.31 hmrsamtglhgvkrr brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.034 * +EC2.7.11.31 hydroxymethylglutaryl-coa reductase rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00085 * +EC2.7.11.31 peptide sams rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.055 * +EC2.7.11.31 peptide qkfqrelstkwvln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.101 * +EC2.7.11.32 adp zea mays//eukaryotes;plants;monocots;grass family//zma 0.05 * +EC2.7.11.32 pyruvate, phosphate dikinase zea mays//eukaryotes;plants;monocots;grass family//zma 0.0012 * +EC2.7.11.32 pyruvate,pi dikinase zea mays//eukaryotes;plants;monocots;grass family//zma 0.0012 * +EC2.7.11.4 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.025 * +EC2.7.11.4 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.7.11.4 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0126 * +EC2.7.11.5 [isocitrate dehydrogenase (nadp+)] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00035 * +EC2.7.11.5 [isocitrate dehydrogenase (nadp+)]is escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.7.11.5 [isocitrate dehydrogenase (nadp+)]n15l escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0009 * +EC2.7.11.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0069 * +EC2.7.11.5 bacillus subtilis [isocitrate dehydrogenase (nadp+)] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0049 * +EC2.7.11.7 akrvsmmr dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.098 * +EC2.7.11.7 atp acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.043 * +EC2.7.11.7 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.23 * +EC2.7.11.7 grgrssvys acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.05 * +EC2.7.11.7 grsarvstya dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.016 * +EC2.7.11.7 myosin heavy chain dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.015 * +EC2.7.11.7 myosin ia acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0003 * +EC2.7.11.7 myosin ib acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0002 * +EC2.7.11.7 protein lmm58 heavy chain dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.015 * +EC2.7.11.7 rkkfgesektktkefl-amide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC2.7.11.7 yaydtryrr dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.55 * +EC2.7.12.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0807 * +EC2.7.12.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0533 * +EC2.7.12.2 erk2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000184 * +EC2.7.12.2 k52r-[erk2] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000129 * +EC2.7.12.2 k53m-[p38alpha] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC2.7.12.2 p38alpha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000205 * +EC2.7.13.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC2.7.13.1 histone h4 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC2.7.13.1 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC2.7.13.1 peptide corresponding to residues 70-102 of histone h4 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.085 * +EC2.7.13.3 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.75 * +EC2.7.2.1 acetate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 38.5 * +EC2.7.2.1 acetate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 73.0 * +EC2.7.2.1 acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC2.7.2.1 acetate lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 48.0 * +EC2.7.2.1 acetate methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 1.0 * +EC2.7.2.1 acetate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 1.5 * +EC2.7.2.1 acetate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 5.6 * +EC2.7.2.1 acetate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 135.0 * +EC2.7.2.1 acetate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 80.9 * +EC2.7.2.1 acetate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 40.0 * +EC2.7.2.1 acetate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 135.0 * +EC2.7.2.1 acetate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.2 * +EC2.7.2.1 acetate spirochaeta sp.//*//* 11.7 * +EC2.7.2.1 acetate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 90.0 * +EC2.7.2.1 acetate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 40.0 * +EC2.7.2.1 acetate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 30.0 * +EC2.7.2.1 acetyl phosphate acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.1 * +EC2.7.2.1 acetyl phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.58 * +EC2.7.2.1 acetyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC2.7.2.1 acetyl phosphate lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 1.0 * +EC2.7.2.1 acetyl phosphate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.26 * +EC2.7.2.1 acetyl phosphate methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 0.11 * +EC2.7.2.1 acetyl phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.44 * +EC2.7.2.1 acetyl phosphate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.0026 * +EC2.7.2.1 acetyl phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.16 * +EC2.7.2.1 acetyl phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.44 * +EC2.7.2.1 acetyl phosphate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 1.2 * +EC2.7.2.1 adp acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.24 * +EC2.7.2.1 adp clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.71 * +EC2.7.2.1 adp desulfovibrio vulgaris//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dvu 1.12 * +EC2.7.2.1 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.2.1 adp lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 0.3 * +EC2.7.2.1 adp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.098 * +EC2.7.2.1 adp methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 1.28 * +EC2.7.2.1 adp propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.2 * +EC2.7.2.1 adp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.087 * +EC2.7.2.1 adp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC2.7.2.1 adp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3.0 * +EC2.7.2.1 adp veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.3 * +EC2.7.2.1 atp acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.3 * +EC2.7.2.1 atp clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.37 * +EC2.7.2.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.7.2.1 atp lactobacillus sanfranciscensis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsn 0.6 * +EC2.7.2.1 atp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.0713 * +EC2.7.2.1 atp methylomicrobium alcaliphilum//prokaryotes;bacteria;gammaproteobacteria - others;methylomicrobium//mah 2.36 * +EC2.7.2.1 atp propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.22 * +EC2.7.2.1 atp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.1 * +EC2.7.2.1 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.07 * +EC2.7.2.1 atp spirochaeta sp.//*//* 3.7 * +EC2.7.2.1 atp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.7 * +EC2.7.2.1 atp veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 2.0 * +EC2.7.2.1 butyrate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 39.0 * +EC2.7.2.1 butyrate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 200.0 * +EC2.7.2.1 ctp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 3.2 * +EC2.7.2.1 ctp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.9 * +EC2.7.2.1 ctp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.088 * +EC2.7.2.1 formate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 13.5 * +EC2.7.2.1 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.7.2.1 gtp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 7.2 * +EC2.7.2.1 gtp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 5.7 * +EC2.7.2.1 gtp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.078 * +EC2.7.2.1 isobuytyrate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 420.0 * +EC2.7.2.1 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC2.7.2.1 itp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 4.7 * +EC2.7.2.1 itp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 3.7 * +EC2.7.2.1 propionate methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 14.4 * +EC2.7.2.1 propionate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 63.3 * +EC2.7.2.1 propionate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 150.0 * +EC2.7.2.1 propionate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 11.2 * +EC2.7.2.1 propionate spirochaeta sp.//*//* 40.0 * +EC2.7.2.1 propionate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 300.0 * +EC2.7.2.1 propionyl phosphate propionibacterium freudenreichii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.14 * +EC2.7.2.1 ttp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 2.7 * +EC2.7.2.1 utp methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 2.7 * +EC2.7.2.1 utp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 1.3 * +EC2.7.2.1 utp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.096 * +EC2.7.2.10 3-phosphoglycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.4 * +EC2.7.2.10 adp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 10.0 * +EC2.7.2.10 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.2 * +EC2.7.2.10 gdp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.07 * +EC2.7.2.10 gtp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.016 * +EC2.7.2.10 idp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.7 * +EC2.7.2.10 itp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.8 * +EC2.7.2.11 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC2.7.2.11 l-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 12.0 * +EC2.7.2.12 acetate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 106.0 * +EC2.7.2.12 acetyl phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.06 * +EC2.7.2.12 butyrate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 75.6 * +EC2.7.2.12 diphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 3.2 * +EC2.7.2.12 hexanoate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 20.5 * +EC2.7.2.12 phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.2 * +EC2.7.2.12 propionate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 79.8 * +EC2.7.2.12 valerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 56.7 * +EC2.7.2.14 2-methylbutyrate spirochaeta sp.//*//* 10.8 * +EC2.7.2.14 atp spirochaeta sp.//*//* 1.8 * +EC2.7.2.14 butyrate spirochaeta sp.//*//* 16.9 * +EC2.7.2.14 isobutyrate spirochaeta sp.//*//* 4.3 * +EC2.7.2.14 isovalerate spirochaeta sp.//*//* 9.5 * +EC2.7.2.14 propionate spirochaeta sp.//*//* 14.3 * +EC2.7.2.14 valerate spirochaeta sp.//*//* 12.5 * +EC2.7.2.15 acetate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 25.3 * +EC2.7.2.15 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.112 * +EC2.7.2.15 butyrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 35.2 * +EC2.7.2.15 ctp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 226.0 * +EC2.7.2.15 gtp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 115.0 * +EC2.7.2.15 propanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.5 * +EC2.7.2.15 propionate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.33 * +EC2.7.2.15 utp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.0 * +EC2.7.2.2 acetate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.7 * +EC2.7.2.2 acetate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.7 * +EC2.7.2.2 adp giardia intestinalis//*//* 0.07 * +EC2.7.2.2 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.001 * +EC2.7.2.2 atp giardia intestinalis//*//* 0.035 * +EC2.7.2.2 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.0 * +EC2.7.2.2 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.017 * +EC2.7.2.2 bicarbonate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.0 * +EC2.7.2.2 carbamate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3.8 * +EC2.7.2.2 carbamate giardia intestinalis//*//* 43.0 * +EC2.7.2.2 carbamoyl phosphate giardia intestinalis//*//* 0.085 * +EC2.7.2.2 carbamoyl phosphate lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 1.1 * +EC2.7.2.2 carbamoyl phosphate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.13 * +EC2.7.2.2 mgadp- lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 0.57 * +EC2.7.2.2 mgatp2- enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.62 * +EC2.7.2.2 mgdatp2- enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.5 * +EC2.7.2.2 mnadp- lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 0.68 * +EC2.7.2.3 3-phospho-d-glycerate beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.6 * +EC2.7.2.3 3-phospho-d-glycerate fasciola hepatica//*//* 1.26 * +EC2.7.2.3 3-phospho-d-glycerate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.2 * +EC2.7.2.3 3-phospho-d-glycerate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.589 * +EC2.7.2.3 3-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.7.2.3 3-phospho-d-glycerate lactobacillus delbrueckii subsp. lactis//*//* 2.6 * +EC2.7.2.3 3-phospho-d-glycerate monoraphidium minutum//*//* 0.46 * +EC2.7.2.3 3-phospho-d-glycerate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.028 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira multiformis atcc 25196//*//* 0.5 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira sp. gs833//*//* 1.39 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira sp. kan8//*//* 1.02 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira sp. nrs527//*//* 0.9 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira sp. pja1//*//* 0.57 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira sp. tch716//*//* 0.8 * +EC2.7.2.3 3-phospho-d-glycerate nitrosospira sp. tym9//*//* 0.72 * +EC2.7.2.3 3-phospho-d-glycerate nitrosovibrio sp. fji423//*//* 1.4 * +EC2.7.2.3 3-phospho-d-glycerate nitrosovibrio sp. fji82//*//* 1.41 * +EC2.7.2.3 3-phospho-d-glycerate nitrosovibrio sp. ry3c//*//* 0.52 * +EC2.7.2.3 3-phospho-d-glycerate nitrosovibrio sp. ry6a//*//* 0.81 * +EC2.7.2.3 3-phospho-d-glycerate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0022 * +EC2.7.2.3 3-phospho-d-glycerate pisum sativum//*//* 7.6 * +EC2.7.2.3 3-phospho-d-glycerate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.52 * +EC2.7.2.3 3-phospho-d-glycerate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.48 * +EC2.7.2.3 3-phospho-d-glycerate pyrococcus woesei//*//* 1.1 * +EC2.7.2.3 3-phospho-d-glycerate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.7.2.3 3-phospho-d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.77 * +EC2.7.2.3 3-phospho-d-glycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.1 * +EC2.7.2.3 3-phospho-d-glycerate spirulina geitleri//*//* 1.5 * +EC2.7.2.3 3-phospho-d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.54 * +EC2.7.2.3 3-phospho-d-glycerate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.18 * +EC2.7.2.3 3-phospho-d-glycerate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.79 * +EC2.7.2.3 3-phospho-d-glycerate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.25 * +EC2.7.2.3 3-phospho-d-glycerate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.174 * +EC2.7.2.3 3-phospho-d-glycerate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.5 * +EC2.7.2.3 3-phospho-d-glyceroyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.7.2.3 3-phospho-d-glyceroyl phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.6 * +EC2.7.2.3 adp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 7.4 * +EC2.7.2.3 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC2.7.2.3 adp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.039 * +EC2.7.2.3 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC2.7.2.3 adp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.085 * +EC2.7.2.3 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 5.0 * +EC2.7.2.3 atp fasciola hepatica//*//* 0.9 * +EC2.7.2.3 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.9 * +EC2.7.2.3 atp helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.215 * +EC2.7.2.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC2.7.2.3 atp lactobacillus delbrueckii subsp. lactis//*//* 0.7 * +EC2.7.2.3 atp methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 1.1 * +EC2.7.2.3 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.038 * +EC2.7.2.3 atp nitrosospira multiformis atcc 25196//*//* 0.53 * +EC2.7.2.3 atp nitrosospira sp. gs833//*//* 0.51 * +EC2.7.2.3 atp nitrosospira sp. kan8//*//* 0.76 * +EC2.7.2.3 atp nitrosospira sp. nrs527//*//* 0.77 * +EC2.7.2.3 atp nitrosospira sp. pja1//*//* 2.11 * +EC2.7.2.3 atp nitrosospira sp. tch716//*//* 0.57 * +EC2.7.2.3 atp nitrosospira sp. tym9//*//* 0.59 * +EC2.7.2.3 atp nitrosovibrio sp. fji423//*//* 0.63 * +EC2.7.2.3 atp nitrosovibrio sp. fji82//*//* 0.66 * +EC2.7.2.3 atp nitrosovibrio sp. ry3c//*//* 1.96 * +EC2.7.2.3 atp nitrosovibrio sp. ry6a//*//* 1.58 * +EC2.7.2.3 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.63 * +EC2.7.2.3 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.24 * +EC2.7.2.3 atp pyrococcus woesei//*//* 1.11 * +EC2.7.2.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC2.7.2.3 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.7.2.3 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.7 * +EC2.7.2.3 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.19 * +EC2.7.2.3 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.28 * +EC2.7.2.3 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.28 * +EC2.7.2.3 atp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.01 * +EC2.7.2.3 atp zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.1 * +EC2.7.2.3 d-adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC2.7.2.3 d-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.2.3 d-gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.2.3 l-2'-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.7.2.3 l-2'-dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.2.3 l-adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.7.2.3 l-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC2.7.2.3 l-ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC2.7.2.3 l-gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.2.3 mgadp- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC2.7.2.3 mgadp- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.27 * +EC2.7.2.3 mgatp2- beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.15 * +EC2.7.2.3 mgatp2- monoraphidium minutum//*//* 0.32 * +EC2.7.2.3 mgatp2- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.37 * +EC2.7.2.3 mgatp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.35 * +EC2.7.2.3 mgatp2- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.09 * +EC2.7.2.3 mgatp2- pisum sativum//*//* 4.1 * +EC2.7.2.3 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.7.2.3 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC2.7.2.3 mgatp2- spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.3 * +EC2.7.2.3 mgatp2- spirulina geitleri//*//* 0.48 * +EC2.7.2.3 mgdatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.45 * +EC2.7.2.4 aspartate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.095 * +EC2.7.2.4 atp amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 2.3 * +EC2.7.2.4 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.42 * +EC2.7.2.4 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.35 * +EC2.7.2.4 atp daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.6 * +EC2.7.2.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.7.2.4 atp paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 1.0 * +EC2.7.2.4 atp pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.8 * +EC2.7.2.4 atp pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 1.3 * +EC2.7.2.4 atp rhodocyclus tenuis//*//* 3.0 * +EC2.7.2.4 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.74 * +EC2.7.2.4 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.0 * +EC2.7.2.4 atp streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 2.2 * +EC2.7.2.4 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.5 * +EC2.7.2.4 atp triticum aestivum//*//* 1.2 * +EC2.7.2.4 atp xenorhabdus bovienii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;xenorhabdus//xbo 2.56 * +EC2.7.2.4 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.43 * +EC2.7.2.4 dl-threo-3-methyl aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 147.0 * +EC2.7.2.4 l-asparagine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC2.7.2.4 l-aspartate beta-benzyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.7.2.4 l-aspartate beta-hydroxamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC2.7.2.4 l-aspartate beta-methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC2.7.2.4 l-aspartate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 3.4 * +EC2.7.2.4 l-aspartate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.095 * +EC2.7.2.4 l-aspartate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC2.7.2.4 l-aspartate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 2.35 * +EC2.7.2.4 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC2.7.2.4 l-aspartate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.6 * +EC2.7.2.4 l-aspartate paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 1.5 * +EC2.7.2.4 l-aspartate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.8 * +EC2.7.2.4 l-aspartate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 21.6 * +EC2.7.2.4 l-aspartate rhodocyclus tenuis//*//* 0.9 * +EC2.7.2.4 l-aspartate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC2.7.2.4 l-aspartate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 2.0 * +EC2.7.2.4 l-aspartate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 5.5 * +EC2.7.2.4 l-aspartate streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 50.1 * +EC2.7.2.4 l-aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.31 * +EC2.7.2.4 l-aspartate triticum aestivum//*//* 16.7 * +EC2.7.2.4 l-aspartate xenorhabdus bovienii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;xenorhabdus//xbo 2.73 * +EC2.7.2.4 l-aspartate zea mays//eukaryotes;plants;monocots;grass family//zma 1.04 * +EC2.7.2.4 l-aspartic acid 1-benzyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3 * +EC2.7.2.4 l-aspartic acid amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 184.0 * +EC2.7.2.4 n-acetyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 48.0 * +EC2.7.2.4 n-chloroacetyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 68.0 * +EC2.7.2.4 n-formyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 41.0 * +EC2.7.2.6 formate clostridium cylindrosporum//*//* 400.0 * +EC2.7.2.7 atp clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 1.4 * +EC2.7.2.7 atp clostridium tetanomorphum//*//* 4.23 * +EC2.7.2.7 butanoate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 14.0 * +EC2.7.2.7 butanoate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 20.0 * +EC2.7.2.7 butanoate clostridium tetanomorphum//*//* 10.8 * +EC2.7.2.7 isobutanoate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 9.0 * +EC2.7.2.7 isobutanoate clostridium tetanomorphum//*//* 77.0 * +EC2.7.2.7 propionate clostridium butyricum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbut 26.0 * +EC2.7.2.7 valerate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 14.0 * +EC2.7.2.7 valerate clostridium tetanomorphum//*//* 15.3 * +EC2.7.2.8 accoa xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 1.3 * +EC2.7.2.8 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.3 * +EC2.7.2.8 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 1.6 * +EC2.7.2.8 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC2.7.2.8 atp pisum sativum//*//* 1.7 * +EC2.7.2.8 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.0 * +EC2.7.2.8 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.3 * +EC2.7.2.8 atp synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.6 * +EC2.7.2.8 l-glutamate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.8 * +EC2.7.2.8 n-acetyl-l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.85 * +EC2.7.2.8 n-acetyl-l-glutamate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 4.0 * +EC2.7.2.8 n-acetyl-l-glutamate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.52 * +EC2.7.2.8 n-acetyl-l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.2.8 n-acetyl-l-glutamate pisum sativum//*//* 1.9 * +EC2.7.2.8 n-acetyl-l-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.0 * +EC2.7.2.8 n-acetyl-l-glutamate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC2.7.2.8 n-acetyl-l-glutamate synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 2.7 * +EC2.7.3.1 adp nephtys caeca//*//* 10.0 * +EC2.7.3.1 atp namalycastis sp.//*//* 0.89 * +EC2.7.3.1 atp nephtys caeca//*//* 3.3 * +EC2.7.3.1 atp perinereis sp.//*//* 0.8 * +EC2.7.3.1 glycocyamine namalycastis sp.//*//* 4.7 * +EC2.7.3.1 guanidinoacetate nephtys caeca//*//* 0.33 * +EC2.7.3.1 guanidinoacetate perinereis sp.//*//* 4.1 * +EC2.7.3.1 phosphoguanidinoacetate nephtys caeca//*//* 6.8 * +EC2.7.3.2 adp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.047 * +EC2.7.3.2 adp chaenocephalus aceratus//*//* 0.06 * +EC2.7.3.2 adp cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.2 * +EC2.7.3.2 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.3.2 adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.065 * +EC2.7.3.2 adp pagrus major//*//* 0.2 * +EC2.7.3.2 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.7.3.2 adp scomber japonicus//*//* 0.2 * +EC2.7.3.2 adp tetronarce californica//*//* 0.027 * +EC2.7.3.2 alpha-(rp)-borano substituted adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC2.7.3.2 alpha-(sp)-borano substituted adp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.008 * +EC2.7.3.2 atp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.2 * +EC2.7.3.2 atp dendronephthya gigantea//*//* 1.35 * +EC2.7.3.2 atp hediste diversicolor//*//* 0.8 * +EC2.7.3.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.7.3.2 atp lethenteron camtschaticum//*//* 0.7 * +EC2.7.3.2 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.31 * +EC2.7.3.2 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.37 * +EC2.7.3.2 atp pelodiscus sinensis//eukaryotes;animals;vertebrates;reptiles//pss 0.729 * +EC2.7.3.2 atp physeter catodon//*//* 1.01 * +EC2.7.3.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.37 * +EC2.7.3.2 atp tetronarce californica//*//* 0.8 * +EC2.7.3.2 atp urocitellus richardsonii//*//* 0.68 * +EC2.7.3.2 creatine phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC2.7.3.2 creatine phosphate chaenocephalus aceratus//*//* 17.0 * +EC2.7.3.2 creatine phosphate cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 2.0 * +EC2.7.3.2 creatine phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.4 * +EC2.7.3.2 creatine phosphate ginglymostoma cirratum//*//* 50.0 * +EC2.7.3.2 creatine phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC2.7.3.2 creatine phosphate pagrus major//*//* 2.0 * +EC2.7.3.2 creatine phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.7.3.2 creatine phosphate scomber japonicus//*//* 2.0 * +EC2.7.3.2 creatine phosphate tetronarce californica//*//* 3.7 * +EC2.7.3.2 creatine phosphate torpedo marmorata//*//* 1.9 * +EC2.7.3.2 creatine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.4 * +EC2.7.3.2 creatine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.7 * +EC2.7.3.2 creatine dendronephthya gigantea//*//* 20.2 * +EC2.7.3.2 creatine ginglymostoma cirratum//*//* 12.0 * +EC2.7.3.2 creatine hediste diversicolor//*//* 10.8 * +EC2.7.3.2 creatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC2.7.3.2 creatine lethenteron camtschaticum//*//* 14.5 * +EC2.7.3.2 creatine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.35 * +EC2.7.3.2 creatine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 6.4 * +EC2.7.3.2 creatine pelodiscus sinensis//eukaryotes;animals;vertebrates;reptiles//pss 26.38 * +EC2.7.3.2 creatine physeter catodon//*//* 4.3 * +EC2.7.3.2 creatine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.9 * +EC2.7.3.2 creatine tetronarce californica//*//* 79.0 * +EC2.7.3.2 creatine torpedo marmorata//*//* 2.5 * +EC2.7.3.2 creatine urocitellus richardsonii//*//* 1.2 * +EC2.7.3.2 mgadp- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC2.7.3.2 mgadp- ginglymostoma cirratum//*//* 1.2 * +EC2.7.3.2 mgadp- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.3.2 mgadp- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC2.7.3.2 mgadp- torpedo marmorata//*//* 0.22 * +EC2.7.3.2 mgatp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.042 * +EC2.7.3.2 mgatp2- ginglymostoma cirratum//*//* 1.6 * +EC2.7.3.2 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC2.7.3.2 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.73 * +EC2.7.3.2 phosphocreatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC2.7.3.2 phosphocreatine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.61 * +EC2.7.3.5 d-lombricine megascolides cameroni//*//* 9.1 * +EC2.7.3.5 l-lombricine megascolides cameroni//*//* 11.7 * +EC2.7.3.5 phospholombricine megascolides cameroni//*//* 7.4 * +EC2.7.3.7 2-guanidinoethyl phosphate ophelia neglecta//*//* 13.0 * +EC2.7.3.7 adp ophelia neglecta//*//* 0.85 * +EC2.7.3.7 atp ophelia neglecta//*//* 3.0 * +EC2.7.3.7 lombricine ophelia neglecta//*//* 15.0 * +EC2.7.3.7 opheline ophelia neglecta//*//* 5.8 * +EC2.7.3.7 phosphoopheline ophelia neglecta//*//* 1.1 * +EC2.7.3.7 phosphotaurocyamine ophelia neglecta//*//* 1.8 * +EC2.7.3.7 taurocyamine ophelia neglecta//*//* 50.0 * +EC2.7.3.8 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.115 * +EC2.7.3.8 phosphoramide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.139 * +EC2.7.3.9 histidine-containing protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0105 * +EC2.7.3.9 histidine-containing protein salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0054 * +EC2.7.3.9 histidine-containing protein streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.026 * +EC2.7.3.9 hpr streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 12.0 * +EC2.7.3.9 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC2.7.3.9 phosphoenolpyruvate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.68 * +EC2.7.3.9 phosphoenolpyruvate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.195 * +EC2.7.3.9 phosphoenolpyruvate streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.47 * +EC2.7.4.1 (phosphate)45 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.005 * +EC2.7.4.1 (phosphate)65 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0054 * +EC2.7.4.1 (phosphate)n corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 15.0 * +EC2.7.4.1 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.072 * +EC2.7.4.1 adp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.546 * +EC2.7.4.1 adp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.1 * +EC2.7.4.1 adp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC2.7.4.1 adp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.5 * +EC2.7.4.1 atp burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.83 * +EC2.7.4.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4 * +EC2.7.4.1 atp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.372 * +EC2.7.4.1 atp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 2.5 * +EC2.7.4.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.33 * +EC2.7.4.1 atp neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.5 * +EC2.7.4.1 atp salmonella enterica subsp. enterica serovar minnesota//*//* 1.25 * +EC2.7.4.1 atp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.075 * +EC2.7.4.1 gdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC2.7.4.1 gdp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.727 * +EC2.7.4.1 gdp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 11.3 * +EC2.7.4.1 gdp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.3 * +EC2.7.4.1 gtp francisella tularensis subsp. tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.692 * +EC2.7.4.1 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.66 * +EC2.7.4.1 mnatp2- sinomonas atrocyanea//prokaryotes;bacteria;actinobacteria;sinomonas//satk 0.53 * +EC2.7.4.1 phosphate sinomonas atrocyanea//prokaryotes;bacteria;actinobacteria;sinomonas//satk 1.67 * +EC2.7.4.1 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.7.4.1 polyphosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.0 * +EC2.7.4.10 adp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.29 * +EC2.7.4.10 amp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.033 * +EC2.7.4.10 amp clonorchis sinensis//*//* 0.118 * +EC2.7.4.10 amp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.21 * +EC2.7.4.10 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC2.7.4.10 ctp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.1 * +EC2.7.4.10 gdp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC2.7.4.10 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.056 * +EC2.7.4.10 gtp clonorchis sinensis//*//* 0.359 * +EC2.7.4.10 gtp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.13 * +EC2.7.4.10 itp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.63 * +EC2.7.4.10 utp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.4 * +EC2.7.4.11 amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.7.4.11 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC2.7.4.11 damp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC2.7.4.12 5-hydroxymethyl-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC2.7.4.12 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.82 * +EC2.7.4.12 dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.085 * +EC2.7.4.12 dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.278 * +EC2.7.4.13 atp escherichia virus t5//*//* 0.36 * +EC2.7.4.13 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC2.7.4.13 damp escherichia virus t5//*//* 0.22 * +EC2.7.4.13 damp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC2.7.4.13 dcmp escherichia virus t5//*//* 0.034 * +EC2.7.4.13 dcmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.53 * +EC2.7.4.13 dgmp escherichia virus t5//*//* 0.22 * +EC2.7.4.13 dgmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.33 * +EC2.7.4.13 dtmp escherichia virus t5//*//* 0.173 * +EC2.7.4.13 dtmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.89 * +EC2.7.4.13 dump escherichia virus t5//*//* 2.8 * +EC2.7.4.14 2',2'-difluorodeoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.7.4.14 2'-azido-d-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.7.4.14 2'-azido-d-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC2.7.4.14 2'-azido-l-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.4.14 2'-azido-l-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.7.4.14 ara-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC2.7.4.14 aracmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC2.7.4.14 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.029 * +EC2.7.4.14 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.204 * +EC2.7.4.14 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC2.7.4.14 atp tetrahymena pyriformis//*//* 0.5 * +EC2.7.4.14 beta-d-2',3'-dideoxy-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.272 * +EC2.7.4.14 beta-d-2'-azido-2'-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC2.7.4.14 beta-d-2'-azido-2'-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC2.7.4.14 beta-l-(-)-2',3'-dideoxy-2',3'-didehydro-5-fluoro-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.228 * +EC2.7.4.14 beta-l-2',3'-dideoxy-3'-thiacytidine monophosphate dictyostelium sp.//*//* 2.0 * +EC2.7.4.14 beta-l-2',3'-dideoxy-3'-thiacytidine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.4.14 beta-l-2',3'-dideoxy-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.697 * +EC2.7.4.14 beta-l-2'-azido-2'-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.4.14 beta-l-2'-azido-2'-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.7.4.14 ccmp dictyostelium sp.//*//* 2.0 * +EC2.7.4.14 cidofovir homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.4.14 cmp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.266 * +EC2.7.4.14 cmp dictyostelium sp.//*//* 0.2 * +EC2.7.4.14 cmp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.023 * +EC2.7.4.14 cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.7.4.14 cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC2.7.4.14 cmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.071 * +EC2.7.4.14 cmp tetrahymena pyriformis//*//* 0.8 * +EC2.7.4.14 d-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.4.14 d-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.4.14 d-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC2.7.4.14 d-ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.7.4.14 datp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.074 * +EC2.7.4.14 dcmp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.017 * +EC2.7.4.14 dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.7.4.14 dcmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC2.7.4.14 dcmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.54 * +EC2.7.4.14 dctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC2.7.4.14 dump drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.43 * +EC2.7.4.14 dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.7.4.14 dump saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.5 * +EC2.7.4.14 gemcitabine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.581 * +EC2.7.4.14 gemcitabine phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.246 * +EC2.7.4.14 gemcitabine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0146 * +EC2.7.4.14 l-(-)-2',3'-dideoxy-3'-thia-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.494 * +EC2.7.4.14 l-(-)-2',3'-dideoxy-5-fluoro-3'-thia-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.7.4.14 l-3tcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.4.14 l-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC2.7.4.14 l-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.73 * +EC2.7.4.14 l-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC2.7.4.14 ump arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.153 * +EC2.7.4.14 ump dictyostelium sp.//*//* 0.2 * +EC2.7.4.14 ump drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.095 * +EC2.7.4.14 ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.4.14 ump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.7.4.14 ump saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.052 * +EC2.7.4.15 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC2.7.4.15 atp cavia porcellus//*//* 0.01 * +EC2.7.4.15 thiamine diphosphate cavia porcellus//*//* 1.1 * +EC2.7.4.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC2.7.4.16 thiamine phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0011 * +EC2.7.4.18 trans-farnesyl triphosphate fusarium fujikuroi//*//* 0.0118 * +EC2.7.4.2 (r)-5-phosphomevalonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC2.7.4.2 (r)-5-phosphomevalonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.88 * +EC2.7.4.2 (r)-5-phosphomevalonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.012 * +EC2.7.4.2 (r,s)-5-phosphomevalonate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.19 * +EC2.7.4.2 5-phosphomevalonate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.042 * +EC2.7.4.2 adp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.35 * +EC2.7.4.2 adpbetas streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.38 * +EC2.7.4.2 atp catharanthus roseus//*//* 0.22 * +EC2.7.4.2 atp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.17 * +EC2.7.4.2 atp hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.19 * +EC2.7.4.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0743 * +EC2.7.4.2 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.074 * +EC2.7.4.2 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.056 * +EC2.7.4.2 diphosphomevalonate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.012 * +EC2.7.4.2 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.043 * +EC2.7.4.2 phosphomevalonate catharanthus roseus//*//* 0.35 * +EC2.7.4.2 phosphomevalonate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0042 * +EC2.7.4.2 phosphomevalonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0082 * +EC2.7.4.21 1d-myo-inositol hexakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00039 * +EC2.7.4.21 5-diphospho-1d-myo-inositol (1,2,3,4,6)pentakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00197 * +EC2.7.4.21 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.57 * +EC2.7.4.21 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC2.7.4.21 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.35 * +EC2.7.4.21 d-myo-inositol-1,3,4,5,6-pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0055 * +EC2.7.4.21 inositol hexakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC2.7.4.21 inositol hexakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0007 * +EC2.7.4.21 inositol hexakisphosphate xenopus sp.//*//* 0.0061 * +EC2.7.4.22 5-fluoro-ump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC2.7.4.22 5-fluoro-ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC2.7.4.22 6-aza-ump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.14 * +EC2.7.4.22 6-aza-ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.71 * +EC2.7.4.22 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.9 * +EC2.7.4.22 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC2.7.4.22 atp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.46 * +EC2.7.4.22 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.304 * +EC2.7.4.22 atp neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.83 * +EC2.7.4.22 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.742 * +EC2.7.4.22 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.92 * +EC2.7.4.22 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.081 * +EC2.7.4.22 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.4.22 ump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.008 * +EC2.7.4.22 ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC2.7.4.22 ump haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.04 * +EC2.7.4.22 ump helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.054 * +EC2.7.4.22 ump mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0177 * +EC2.7.4.22 ump neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.0087 * +EC2.7.4.22 ump staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00276 * +EC2.7.4.22 ump streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0997 * +EC2.7.4.22 ump sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.014 * +EC2.7.4.22 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC2.7.4.24 1,5-bis-diphospho-1d-myo-inositol 2,3,4,6-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2e-05 * +EC2.7.4.24 1-diphospho-1d-myo-inositol 2,3,4,5,6-pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC2.7.4.24 1d-myo-inositol 5-diphosphate pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC2.7.4.24 5-diphospho-1d-myo-inositol 1,2,3,4,6-pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC2.7.4.24 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC2.7.4.24 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.39 * +EC2.7.4.24 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC2.7.4.24 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.89 * +EC2.7.4.24 diphosphoinositol pentakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC2.7.4.24 diphosphoinositol tetrakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.94 * +EC2.7.4.25 1-beta-d-arabinofuranosylcytosine 5'-phosphate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC2.7.4.25 2',3'-dideoxy-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.46 * +EC2.7.4.25 ara-cmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.37 * +EC2.7.4.25 ara-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC2.7.4.25 aracmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.37 * +EC2.7.4.25 aracmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC2.7.4.25 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC2.7.4.25 atp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC2.7.4.25 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC2.7.4.25 cmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC2.7.4.25 cmp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.7.4.25 cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.7.4.25 cmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.12 * +EC2.7.4.25 datp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC2.7.4.25 datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC2.7.4.25 dcmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.33 * +EC2.7.4.25 dcmp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0394 * +EC2.7.4.25 dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC2.7.4.25 dcmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.165 * +EC2.7.4.25 dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.094 * +EC2.7.4.25 dump escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.46 * +EC2.7.4.25 gtp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC2.7.4.25 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC2.7.4.25 itp escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.87 * +EC2.7.4.25 ump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.6 * +EC2.7.4.25 ump escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.93 * +EC2.7.4.25 ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.93 * +EC2.7.4.25 ump mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 13.85 * +EC2.7.4.26 adp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.013 * +EC2.7.4.26 adp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0031 * +EC2.7.4.26 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.29 * +EC2.7.4.26 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.198 * +EC2.7.4.26 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0134 * +EC2.7.4.26 atp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.006 * +EC2.7.4.26 but-3-en-1-yl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0297 * +EC2.7.4.26 but-3-en-1-yl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.103 * +EC2.7.4.26 butyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0263 * +EC2.7.4.26 butyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.173 * +EC2.7.4.26 dimethylallyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.033 * +EC2.7.4.26 dimethylallyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0432 * +EC2.7.4.26 dimethylallyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.174 * +EC2.7.4.26 fosfomycin thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.15 * +EC2.7.4.26 geranyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.22 * +EC2.7.4.26 geranyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.74 * +EC2.7.4.26 geranyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 4.7 * +EC2.7.4.26 isopentenyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0076 * +EC2.7.4.26 isopentenyl diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0027 * +EC2.7.4.26 isopentenyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.032 * +EC2.7.4.26 isopentenyl phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.077 * +EC2.7.4.26 isopentenyl phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0043 * +EC2.7.4.26 isopentenyl phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0127 * +EC2.7.4.26 isopentenyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0044 * +EC2.7.4.26 isopentenyl thiolophosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0237 * +EC2.7.4.26 isopentenyl thiolophosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.0145 * +EC2.7.4.27 [pyruvate,pi dikinase]phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0007 * +EC2.7.4.27 phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.65 * +EC2.7.4.4 [2-[(2r,3s,5r)-3-hydroxy-5-(5-methyl-2,4-dioxo-3,4-dihydropyrimidin-1(2h)-yl)tetrahydrofuran-2-yl]ethyl]boronic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.119 * +EC2.7.4.4 damp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC2.7.4.4 tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.7.4.6 8-bromo-idp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC2.7.4.6 adp acanthamoeba polyphaga mimivirus//*//* 0.77 * +EC2.7.4.6 adp halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.6 * +EC2.7.4.6 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.7.4.6 adp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.079 * +EC2.7.4.6 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.042 * +EC2.7.4.6 atp acanthamoeba polyphaga mimivirus//*//* 0.005 * +EC2.7.4.6 atp avena sativa//*//* 0.19 * +EC2.7.4.6 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.7.4.6 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.33 * +EC2.7.4.6 atp saccharum officinarum//*//* 2.3 * +EC2.7.4.6 atp solanum chacoense//*//* 0.4 * +EC2.7.4.6 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.89 * +EC2.7.4.6 atp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.085 * +EC2.7.4.6 atp white spot syndrome virus//*//* 0.224 * +EC2.7.4.6 cdp acanthamoeba polyphaga mimivirus//*//* 0.05 * +EC2.7.4.6 cdp avena sativa//*//* 0.26 * +EC2.7.4.6 cdp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC2.7.4.6 cdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC2.7.4.6 cdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.26 * +EC2.7.4.6 ctp acanthamoeba polyphaga mimivirus//*//* 0.04 * +EC2.7.4.6 ctp oryza sativa//eukaryotes;plants;monocots;grass family//osa 5.28 * +EC2.7.4.6 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC2.7.4.6 ctp solanum chacoense//*//* 1.03 * +EC2.7.4.6 dcdp acanthamoeba polyphaga mimivirus//*//* 0.01 * +EC2.7.4.6 dcdp avena sativa//*//* 0.42 * +EC2.7.4.6 dcdp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.56 * +EC2.7.4.6 dcdp pisum sativum//*//* 0.2 * +EC2.7.4.6 dcdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.7.4.6 dctp acanthamoeba polyphaga mimivirus//*//* 0.02 * +EC2.7.4.6 dgdp acanthamoeba polyphaga mimivirus//*//* 0.14 * +EC2.7.4.6 dgdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC2.7.4.6 dgtp acanthamoeba polyphaga mimivirus//*//* 0.041 * +EC2.7.4.6 dtdp acanthamoeba polyphaga mimivirus//*//* 0.001 * +EC2.7.4.6 dtdp avena sativa//*//* 0.21 * +EC2.7.4.6 dtdp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.21 * +EC2.7.4.6 dtdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC2.7.4.6 dtdp pisum sativum//*//* 0.1 * +EC2.7.4.6 dtdp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.42 * +EC2.7.4.6 dtdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC2.7.4.6 dtdp trypanosoma cruzi strain cl brener//*//* 0.47 * +EC2.7.4.6 dtdp white spot syndrome virus//*//* 0.251 * +EC2.7.4.6 dudp acanthamoeba polyphaga mimivirus//*//* 0.01 * +EC2.7.4.6 dudp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC2.7.4.6 dutp acanthamoeba polyphaga mimivirus//*//* 0.025 * +EC2.7.4.6 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC2.7.4.6 gdp saccharum officinarum//*//* 0.2 * +EC2.7.4.6 gdp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.091 * +EC2.7.4.6 gdp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.02 * +EC2.7.4.6 gtp acanthamoeba polyphaga mimivirus//*//* 0.83 * +EC2.7.4.6 gtp avena sativa//*//* 0.07 * +EC2.7.4.6 gtp halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 3.0 * +EC2.7.4.6 gtp halomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hak 2.13 * +EC2.7.4.6 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.4.6 gtp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.45 * +EC2.7.4.6 gtp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.88 * +EC2.7.4.6 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.7.4.6 gtp solanum chacoense//*//* 0.075 * +EC2.7.4.6 tdp solanum chacoense//*//* 1.17 * +EC2.7.4.6 ttp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.89 * +EC2.7.4.6 udp acanthamoeba polyphaga mimivirus//*//* 0.1 * +EC2.7.4.6 udp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC2.7.4.6 udp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.28 * +EC2.7.4.6 udp solanum chacoense//*//* 0.21 * +EC2.7.4.6 utp acanthamoeba polyphaga mimivirus//*//* 0.11 * +EC2.7.4.6 utp halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 6.1 * +EC2.7.4.6 utp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC2.7.4.9 (e)-5-(2-bromovinyl)-deoxyuridine monophosphate vaccinia virus//*//* 0.19 * +EC2.7.4.9 2',3'-didehydro-2',3'-dideoxythymidine 5'-monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC2.7.4.9 2',3'-didehydro-2',3'-dideoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.7.4.9 2',3'-didehydro-2',3'-dideoxythymidine 5'-monophosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.27 * +EC2.7.4.9 3'-azido-3'-deoxythymidine 5'-monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC2.7.4.9 3'-azido-3'-deoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.7.4.9 3'-azido-3'-deoxythymidine 5'-monophosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.09 * +EC2.7.4.9 3'-azido-3'-deoxythymidine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC2.7.4.9 3'-fluoro-3'-deoxythymidine 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC2.7.4.9 5-bromo-2'-deoxyuridine 5'-monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.7.4.9 5-bromo-2'-deoxyuridine 5'-monophosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.1 * +EC2.7.4.9 5-bromo-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.7.4.9 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.7.4.9 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC2.7.4.9 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC2.7.4.9 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.235 * +EC2.7.4.9 atp white spot syndrome virus//*//* 0.092 * +EC2.7.4.9 atp wolbachia endosymbiont of brugia malayi//*//* 0.066 * +EC2.7.4.9 d-2'-fluoroarabinosyl-5-methyldeoxyuridine 5'-monophosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0044 * +EC2.7.4.9 d-dtmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.4.9 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.7.4.9 dgmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.03 * +EC2.7.4.9 dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.7.4.9 dimp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.577 * +EC2.7.4.9 dtmp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.033 * +EC2.7.4.9 dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC2.7.4.9 dtmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC2.7.4.9 dtmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.19 * +EC2.7.4.9 dtmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0045 * +EC2.7.4.9 dtmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.022 * +EC2.7.4.9 dtmp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.066 * +EC2.7.4.9 dtmp white spot syndrome virus//*//* 0.11 * +EC2.7.4.9 dtmp wolbachia endosymbiont of brugia malayi//*//* 0.017 * +EC2.7.4.9 dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC2.7.4.9 dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC2.7.4.9 dump plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.78 * +EC2.7.4.9 dump yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 3.8 * +EC2.7.4.9 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC2.7.4.9 l-2'-fluoroarabinosyl-5-methyldeoxyuridine 5'-monophosphate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.167 * +EC2.7.4.9 l-dtmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.7.4.9 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC2.7.4.9 mgatp2- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC2.7.4.9 mgdatp2- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC2.7.4.9 n1-[(e)-3-dihydroxyphosphonyl-prop-2-enyl]-thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-5-chlorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-5-fluorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.7.4.9 n1-[(e)-4-dihydroxyphosphonyl-but-2-enyl]-uracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-5-bromouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-5-chlorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-5-fluorouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-thymine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.7.4.9 n1-[(e)-5-dihydroxyphosphonyl-pent-2-enyl]-uracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC2.7.4.9 tmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.7.4.9 tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC2.7.4.9 tmp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC2.7.4.9 tmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.022 * +EC2.7.4.9 tmp yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.045 * +EC2.7.4.B2 (phosphate)n acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0008 * +EC2.7.4.B2 [phosphate]n acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.0008 * +EC2.7.4.B2 adp acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 8.3 * +EC2.7.4.B2 amp acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 0.26 * +EC2.7.4.B2 amp acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.26 * +EC2.7.6.1 (r)9-(2-phosphonylmethoxypropyl)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.29 * +EC2.7.6.1 (r)9-(2-phosphonylmethoxypropyl)adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.571 * +EC2.7.6.1 (r)9-(3-fluoro-2-phosphonylmethoxypropyl)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.14 * +EC2.7.6.1 (r)9-(3-fluoro-2-phosphonylmethoxypropyl)adenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.923 * +EC2.7.6.1 (s)9-(2-phosphonylmethoxypropyl)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.54 * +EC2.7.6.1 (s)9-(2-phosphonylmethoxypropyl)adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.174 * +EC2.7.6.1 (s)9-(3-fluoro-2-phosphonylmethoxypropyl)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.575 * +EC2.7.6.1 (s)9-(3-fluoro-2-phosphonylmethoxypropyl)adenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.636 * +EC2.7.6.1 2',3'-dideoxy-2',3'-didehydro-adenosine-5'-monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.377 * +EC2.7.6.1 2',3'-dideoxy-2',3'-didehydro-adenosine-5'-monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.317 * +EC2.7.6.1 5-phospho-alpha-d-ribose 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0289 * +EC2.7.6.1 5-phospho-d-ribose diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.7.6.1 5-phospho-d-ribose diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.29 * +EC2.7.6.1 9-(2-phosphonylmethoxyethoxy)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.588 * +EC2.7.6.1 9-(2-phosphonylmethoxyethoxy)adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.422 * +EC2.7.6.1 9-(2-phosphonylmethoxyethoxy)adenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.308 * +EC2.7.6.1 9-(2-phosphonylmethoxyethyl)adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.47 * +EC2.7.6.1 9-(2-phosphonylmethoxyethyl)adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.661 * +EC2.7.6.1 9-(2-phosphonylmethoxyethyl)adenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.656 * +EC2.7.6.1 amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.132 * +EC2.7.6.1 amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.122 * +EC2.7.6.1 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.117 * +EC2.7.6.1 amp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.15 * +EC2.7.6.1 atp bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.05 * +EC2.7.6.1 atp bacillus caldolyticus//*//* 0.31 * +EC2.7.6.1 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.191 * +EC2.7.6.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.053 * +EC2.7.6.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC2.7.6.1 atp hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.2 * +EC2.7.6.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC2.7.6.1 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.6 * +EC2.7.6.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.025 * +EC2.7.6.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.7.6.1 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.193 * +EC2.7.6.1 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.077 * +EC2.7.6.1 ctp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.116 * +EC2.7.6.1 d-ribose 5-phosphate bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.105 * +EC2.7.6.1 d-ribose 5-phosphate bacillus caldolyticus//*//* 0.53 * +EC2.7.6.1 d-ribose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.23 * +EC2.7.6.1 d-ribose 5-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.038 * +EC2.7.6.1 d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC2.7.6.1 d-ribose 5-phosphate hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.04 * +EC2.7.6.1 d-ribose 5-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC2.7.6.1 d-ribose 5-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.8 * +EC2.7.6.1 d-ribose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0082 * +EC2.7.6.1 d-ribose 5-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.7.6.1 d-ribose 5-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.05 * +EC2.7.6.1 d-ribose 5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.048 * +EC2.7.6.1 datp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.233 * +EC2.7.6.1 gtp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.65 * +EC2.7.6.1 mg2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC2.7.6.1 mg2+ hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 1.5 * +EC2.7.6.1 mg2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC2.7.6.1 mg2+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.6 * +EC2.7.6.1 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC2.7.6.1 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC2.7.6.1 mgatp2- salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.046 * +EC2.7.6.1 mnatp2- salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.06 * +EC2.7.6.1 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC2.7.6.1 phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC2.7.6.1 phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.3 * +EC2.7.6.1 ribose 5-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC2.7.6.1 utp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.137 * +EC2.7.6.2 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 18.3 * +EC2.7.6.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC2.7.6.2 atp paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.38 * +EC2.7.6.2 atp petroselinum crispum//*//* 0.8 * +EC2.7.6.2 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.1 * +EC2.7.6.2 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.9 * +EC2.7.6.2 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0041 * +EC2.7.6.2 ctp glycine max//eukaryotes;plants;eudicots;pea family//gmx 7.6 * +EC2.7.6.2 gtp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.021 * +EC2.7.6.2 mgatp2- petroselinum crispum//*//* 4.5 * +EC2.7.6.2 pyrithiamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.062 * +EC2.7.6.2 thiamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00096 * +EC2.7.6.2 thiamine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00464 * +EC2.7.6.2 thiamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC2.7.6.2 thiamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.01 * +EC2.7.6.2 thiamine petroselinum crispum//*//* 0.00015 * +EC2.7.6.2 thiamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.073 * +EC2.7.6.2 thiamine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.006 * +EC2.7.6.2 utp glycine max//eukaryotes;plants;eudicots;pea family//gmx 11.2 * +EC2.7.6.3 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.7.6.3 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine plasmodium chabaudi//eukaryotes;protists;alveolates;apicomplexans//pcb 0.01 * +EC2.7.6.3 6-hydroxymethyl-7,8-dihydropteridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC2.7.6.3 6-hydroxymethyl-7,8-dihydropteridine pisum sativum//*//* 0.001 * +EC2.7.6.3 6-hydroxymethyl-7,8-dihydropteridine pneumocystis carinii//*//* 0.0036 * +EC2.7.6.3 6-hydroxymethyl-7,8-dihydropterin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00039 * +EC2.7.6.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC2.7.6.3 atp plasmodium chabaudi//eukaryotes;protists;alveolates;apicomplexans//pcb 0.011 * +EC2.7.6.4 adp streptomyces aspergilloides//*//* 0.44 * +EC2.7.6.4 adp streptomyces morookaense//*//* 1.61 * +EC2.7.6.4 amp streptomyces morookaense//*//* 2.78 * +EC2.7.6.4 gdp streptomyces morookaense//*//* 0.2 * +EC2.7.6.4 gmp streptomyces morookaense//*//* 0.89 * +EC2.7.6.4 gtp streptomyces morookaense//*//* 0.47 * +EC2.7.6.5 atp brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.62 * +EC2.7.6.5 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.05 * +EC2.7.6.5 gdp brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.14 * +EC2.7.6.5 gdp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.532 * +EC2.7.6.5 gtp brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.77 * +EC2.7.6.5 gtp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.163 * +EC2.7.6.5 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.33 * +EC2.7.7.1 3-acetylpyridine-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.27 * +EC2.7.7.1 3-pyridinealdehyde-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.74 * +EC2.7.7.1 adp-ribose francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.041 * +EC2.7.7.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC2.7.7.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0017 * +EC2.7.7.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC2.7.7.1 atp katsuwonus pelamis//*//* 0.11 * +EC2.7.7.1 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.08 * +EC2.7.7.1 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0335 * +EC2.7.7.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC2.7.7.1 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0008 * +EC2.7.7.1 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.088 * +EC2.7.7.1 beta-nmnh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.625 * +EC2.7.7.1 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC2.7.7.1 deamido-nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC2.7.7.1 deamido-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.029 * +EC2.7.7.1 diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.167 * +EC2.7.7.1 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.7.7.1 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC2.7.7.1 diphosphate katsuwonus pelamis//*//* 0.22 * +EC2.7.7.1 diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC2.7.7.1 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.276 * +EC2.7.7.1 itp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC2.7.7.1 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.37 * +EC2.7.7.1 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC2.7.7.1 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC2.7.7.1 nad+ katsuwonus pelamis//*//* 0.25 * +EC2.7.7.1 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.023 * +EC2.7.7.1 nicotinamide mononucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.7.7.1 nicotinamide mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.7.7.1 nicotinamide mononucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC2.7.7.1 nicotinamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.147 * +EC2.7.7.1 nicotinamide ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.7.1 nicotinamide ribonucleotide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00691 * +EC2.7.7.1 nicotinamide ribonucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC2.7.7.1 nicotinamide ribonucleotide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC2.7.7.1 nicotinate ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.7.7.1 nicotinate ribonucleotide katsuwonus pelamis//*//* 0.08 * +EC2.7.7.1 nicotinate ribonucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC2.7.7.1 nicotinic acid mononucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC2.7.7.1 nicotinic acid mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0145 * +EC2.7.7.1 nicotinic acid mononucleotide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.017 * +EC2.7.7.1 nicotinic acid-adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.91 * +EC2.7.7.1 nmn bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC2.7.7.1 nmn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0213 * +EC2.7.7.1 nmn methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.08 * +EC2.7.7.1 nmn saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.9e-05 * +EC2.7.7.1 nmn sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0014 * +EC2.7.7.1 nmn sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0719 * +EC2.7.7.1 nmnh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC2.7.7.1 reduced nicotinamide mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0304 * +EC2.7.7.1 tiazofurin monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.7.7.1 tiazofurin riboside 5'-monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.7.7.1 tiazofurin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.055 * +EC2.7.7.10 alpha-d-galactose 1-phosphate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 1.2 * +EC2.7.7.10 alpha-d-galactose 1-phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.415 * +EC2.7.7.10 alpha-d-glucose 1-phosphate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.75 * +EC2.7.7.10 alpha-d-glucose 1-phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.23 * +EC2.7.7.10 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.7.7.10 mg-diphosphate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.18 * +EC2.7.7.10 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC2.7.7.10 utp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.1 * +EC2.7.7.10 utp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.034 * +EC2.7.7.12 alpha-d-galactose 1-phosphate bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.3 * +EC2.7.7.12 alpha-d-galactose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC2.7.7.12 alpha-d-galactose 1-phosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.4 * +EC2.7.7.12 alpha-d-galactose 1-phosphate gracilaria changii//*//* 0.116 * +EC2.7.7.12 alpha-d-galactose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC2.7.7.12 alpha-d-galactose 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC2.7.7.12 alpha-d-glucose 1-phosphate bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.14 * +EC2.7.7.12 alpha-d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC2.7.7.12 alpha-d-glucose 1-phosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.105 * +EC2.7.7.12 alpha-d-glucose 1-phosphate gracilaria changii//*//* 0.092 * +EC2.7.7.12 alpha-d-glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.159 * +EC2.7.7.12 udp-alpha-d-galactose gracilaria changii//*//* 0.051 * +EC2.7.7.12 udp-alpha-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.141 * +EC2.7.7.12 udp-alpha-d-glucose gracilaria changii//*//* 0.134 * +EC2.7.7.12 udp-alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0816 * +EC2.7.7.12 udp-galactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.031 * +EC2.7.7.12 udp-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC2.7.7.12 udp-galactose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.03 * +EC2.7.7.12 udp-glucose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.023 * +EC2.7.7.12 udp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.7.12 udp-glucose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.02 * +EC2.7.7.12 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.7.7.12 udp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC2.7.7.13 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.29 * +EC2.7.7.13 d-glucose 1-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.094 * +EC2.7.7.13 d-mannose 1-phosphate leptospira interrogans serovar copenhageni//prokaryotes;bacteria;spirochaetes;leptospira//lic 0.063 * +EC2.7.7.13 d-mannose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0205 * +EC2.7.7.13 d-mannose 1-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.062 * +EC2.7.7.13 d-mannose 1-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.012 * +EC2.7.7.13 dgdp-mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.12 * +EC2.7.7.13 diphosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.09 * +EC2.7.7.13 diphosphate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 2.9 * +EC2.7.7.13 diphosphate leptospira interrogans serovar copenhageni//prokaryotes;bacteria;spirochaetes;leptospira//lic 0.089 * +EC2.7.7.13 diphosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.356 * +EC2.7.7.13 diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.33 * +EC2.7.7.13 gdp-alpha-d-mannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC2.7.7.13 gdp-mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.052 * +EC2.7.7.13 gdp-mannose leptospira interrogans serovar copenhageni//prokaryotes;bacteria;spirochaetes;leptospira//lic 0.202 * +EC2.7.7.13 gdpmannose helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.1 * +EC2.7.7.13 gdpmannose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.14 * +EC2.7.7.13 gdpmannose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0142 * +EC2.7.7.13 gdpmannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.78 * +EC2.7.7.13 gdpmannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.7.7.13 glucose 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.85 * +EC2.7.7.13 gtp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.13 * +EC2.7.7.13 gtp leptospira interrogans serovar copenhageni//prokaryotes;bacteria;spirochaetes;leptospira//lic 0.236 * +EC2.7.7.13 gtp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.113 * +EC2.7.7.13 gtp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0295 * +EC2.7.7.13 gtp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.04 * +EC2.7.7.13 gtp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0035 * +EC2.7.7.13 gtp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.067 * +EC2.7.7.13 idp-mannose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.3 * +EC2.7.7.13 itp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.28 * +EC2.7.7.13 mannose 1-phosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.035 * +EC2.7.7.13 mannose 1-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.022 * +EC2.7.7.13 mannose 1-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.168 * +EC2.7.7.13 mannose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0082 * +EC2.7.7.13 mannose 1-phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.01 * +EC2.7.7.13 mannose 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC2.7.7.13 mg2+ arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.9 * +EC2.7.7.13 mg2+ leptospira interrogans serovar copenhageni//prokaryotes;bacteria;spirochaetes;leptospira//lic 0.466 * +EC2.7.7.13 mg2+ salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.002 * +EC2.7.7.14 2-aminoethylarsonic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC2.7.7.14 2-aminoethylphosphonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 30.0 * +EC2.7.7.14 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC2.7.7.14 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.08409 * +EC2.7.7.14 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC2.7.7.14 ctp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.01267 * +EC2.7.7.14 ethanolamine phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.179 * +EC2.7.7.14 ethanolamine phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1403 * +EC2.7.7.14 ethanolamine phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.373 * +EC2.7.7.14 ethanolamine phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC2.7.7.14 ethanolamine-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.01209 * +EC2.7.7.14 phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.2 * +EC2.7.7.14 phosphodimethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.8 * +EC2.7.7.14 phosphoethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.072 * +EC2.7.7.14 phosphomonomethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC2.7.7.15 cdpcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.7.7.15 choline phosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.5 * +EC2.7.7.15 choline phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.167 * +EC2.7.7.15 choline phosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.37 * +EC2.7.7.15 ctp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.72 * +EC2.7.7.15 ctp pisum sativum//*//* 0.55 * +EC2.7.7.15 ctp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 10.9 * +EC2.7.7.15 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.208 * +EC2.7.7.15 ctp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.2 * +EC2.7.7.15 ctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.81 * +EC2.7.7.15 ctp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.133 * +EC2.7.7.15 diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC2.7.7.15 phosphocholine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.49 * +EC2.7.7.15 phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.7.7.15 phosphocholine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8 * +EC2.7.7.15 phosphocholine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.083 * +EC2.7.7.15 phosphodimethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC2.7.7.15 phosphoethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 69.4 * +EC2.7.7.15 phosphoethanolamine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.43 * +EC2.7.7.15 phosphomonomethylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.9 * +EC2.7.7.15 phosphorylcholine pisum sativum//*//* 2.1 * +EC2.7.7.15 phosphorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.7.7.18 3-acetylpyridine-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.27 * +EC2.7.7.18 3-pyridinealdehyde-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.74 * +EC2.7.7.18 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.135 * +EC2.7.7.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0017 * +EC2.7.7.18 atp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 4.0 * +EC2.7.7.18 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC2.7.7.18 deamido-nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0068 * +EC2.7.7.18 deamido-nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC2.7.7.18 deamido-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.029 * +EC2.7.7.18 diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.2 * +EC2.7.7.18 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.7.7.18 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.119 * +EC2.7.7.18 diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC2.7.7.18 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.7 * +EC2.7.7.18 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC2.7.7.18 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC2.7.7.18 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.069 * +EC2.7.7.18 nicotinamide mononucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC2.7.7.18 nicotinamide mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.7.7.18 nicotinamide mononucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC2.7.7.18 nicotinamide ribonucleotide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.043 * +EC2.7.7.18 nicotinamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.7.7.18 nicotinamide ribonucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC2.7.7.18 nicotinate ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.7.7.18 nicotinate ribonucleotide nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.3 * +EC2.7.7.18 nicotinate ribonucleotide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC2.7.7.18 nicotinic acid mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.7.7.18 nmn bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.3 * +EC2.7.7.18 reduced nicotinamide mononucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0304 * +EC2.7.7.19 (a)15 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00092 * +EC2.7.7.19 (a)n saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0468 * +EC2.7.7.19 2-aminopurine riboside triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0197 * +EC2.7.7.19 atp artemia sp.//*//* 0.04 * +EC2.7.7.19 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.143 * +EC2.7.7.19 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.7.7.19 atp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.05 * +EC2.7.7.19 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.7.7.19 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0636 * +EC2.7.7.19 atp mesocricetus auratus//*//* 0.03 * +EC2.7.7.19 atp pisum sativum//*//* 0.039 * +EC2.7.7.19 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.028 * +EC2.7.7.19 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0359 * +EC2.7.7.19 atp triticum aestivum//*//* 0.086 * +EC2.7.7.19 atp vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.047 * +EC2.7.7.19 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC2.7.7.19 ctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1036 * +EC2.7.7.19 datp artemia sp.//*//* 0.06 * +EC2.7.7.19 gtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.062 * +EC2.7.7.19 oligo(a) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC2.7.7.19 oligo(a)12 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00039 * +EC2.7.7.19 oligo(a)14 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0005 * +EC2.7.7.19 oligo(a)17c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0263 * +EC2.7.7.19 oligo(a)18 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0468 * +EC2.7.7.19 oligoadenylate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC2.7.7.19 poly(a) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0036 * +EC2.7.7.19 rna (a)15 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.34 * +EC2.7.7.19 rna primer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.7.7.19 short poly(a) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC2.7.7.23 d-glucose 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.8 * +EC2.7.7.23 diphosphate giardia intestinalis//*//* 0.57 * +EC2.7.7.23 diphosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 5.4 * +EC2.7.7.23 diphosphate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.79 * +EC2.7.7.23 diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC2.7.7.23 diphosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.016 * +EC2.7.7.23 n-acetyl-alpha-d-glucosamine 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.008 * +EC2.7.7.23 n-acetyl-d-galactosamine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.7.7.23 n-acetyl-d-galactosamine 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.1 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate giardia intestinalis//*//* 2.25 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.044 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC2.7.7.23 n-acetyl-d-glucosamine 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.29 * +EC2.7.7.23 udp-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.3 * +EC2.7.7.23 udp-n-acetyl-alpha-d-glucosamine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.016 * +EC2.7.7.23 udp-n-acetyl-d-galactosamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.808 * +EC2.7.7.23 udp-n-acetyl-d-galactosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.2 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.065 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine giardia intestinalis//*//* 0.4 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.2 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.36 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.1 * +EC2.7.7.23 udp-n-acetyl-d-glucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC2.7.7.23 utp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.203 * +EC2.7.7.23 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC2.7.7.23 utp giardia intestinalis//*//* 1.21 * +EC2.7.7.23 utp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.024 * +EC2.7.7.23 utp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.0017 * +EC2.7.7.23 utp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.42 * +EC2.7.7.24 2-deoxy-2-amino-alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.69 * +EC2.7.7.24 3-deoxy-3-amino-alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.1 * +EC2.7.7.24 3-deoxy-3-azido-alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.1 * +EC2.7.7.24 [[(2s,3r,4s,5s,6r)-3,4,5-trihydroxy-6-(hydroxymethyl)tetrahydro-2h-pyran-2-yl]methyl]phosphonic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.18 * +EC2.7.7.24 alpha-d-glucose 1-phosphate acinetobacter calcoaceticus//*//* 0.8 * +EC2.7.7.24 alpha-d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.034 * +EC2.7.7.24 alpha-d-glucose 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.069 * +EC2.7.7.24 alpha-d-glucose 1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.083 * +EC2.7.7.24 alpha-d-glucose 1-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.12 * +EC2.7.7.24 atp salmonella enterica typhimurium//*//* 9.0 * +EC2.7.7.24 ctp salmonella enterica typhimurium//*//* 13.7 * +EC2.7.7.24 datp salmonella enterica typhimurium//*//* 7.8 * +EC2.7.7.24 dctp salmonella enterica typhimurium//*//* 10.5 * +EC2.7.7.24 dgtp salmonella enterica typhimurium//*//* 3.7 * +EC2.7.7.24 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.154 * +EC2.7.7.24 diphosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.39 * +EC2.7.7.24 dtdp-alpha-d-glucose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.05 * +EC2.7.7.24 dtdp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.095 * +EC2.7.7.24 dtdp-glucose sphingomonas elodea//*//* 0.0094 * +EC2.7.7.24 dttp acinetobacter calcoaceticus//*//* 1.27 * +EC2.7.7.24 dttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0205 * +EC2.7.7.24 dttp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.02 * +EC2.7.7.24 dttp salmonella enterica typhimurium//*//* 0.29 * +EC2.7.7.24 dttp streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.2 * +EC2.7.7.24 dttp streptomyces peucetius//*//* 1.66 * +EC2.7.7.24 dttp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.02 * +EC2.7.7.24 gtp salmonella enterica typhimurium//*//* 8.5 * +EC2.7.7.24 tdp-glucose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC2.7.7.24 ttp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC2.7.7.24 utp salmonella enterica typhimurium//*//* 4.6 * +EC2.7.7.24 utp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.2 * +EC2.7.7.27 8-azaatp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.76 * +EC2.7.7.27 adp-d-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.48 * +EC2.7.7.27 adp-glucose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.45 * +EC2.7.7.27 adp-glucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.24 * +EC2.7.7.27 adp-glucose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.1 * +EC2.7.7.27 adp-glucose zea mays//eukaryotes;plants;monocots;grass family//zma 0.62 * +EC2.7.7.27 alpha-d-glucose 1-phosphate aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 30.0 * +EC2.7.7.27 alpha-d-glucose 1-phosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.39 * +EC2.7.7.27 alpha-d-glucose 1-phosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.13 * +EC2.7.7.27 alpha-d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.019 * +EC2.7.7.27 alpha-d-glucose 1-phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.22 * +EC2.7.7.27 alpha-d-glucose 1-phosphate citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.13 * +EC2.7.7.27 alpha-d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.7.7.27 alpha-d-glucose 1-phosphate hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 0.026 * +EC2.7.7.27 alpha-d-glucose 1-phosphate hordeum vulgare//*//* 0.11 * +EC2.7.7.27 alpha-d-glucose 1-phosphate lens culinaris//*//* 0.071 * +EC2.7.7.27 alpha-d-glucose 1-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.8 * +EC2.7.7.27 alpha-d-glucose 1-phosphate nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.11 * +EC2.7.7.27 alpha-d-glucose 1-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.17 * +EC2.7.7.27 alpha-d-glucose 1-phosphate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.021 * +EC2.7.7.27 alpha-d-glucose 1-phosphate rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.07 * +EC2.7.7.27 alpha-d-glucose 1-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.21 * +EC2.7.7.27 alpha-d-glucose 1-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.086 * +EC2.7.7.27 alpha-d-glucose 1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.017 * +EC2.7.7.27 alpha-d-glucose 1-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.031 * +EC2.7.7.27 alpha-d-glucose 1-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.07 * +EC2.7.7.27 alpha-d-glucose 1-phosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.37 * +EC2.7.7.27 alpha-d-glucose 1-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.18 * +EC2.7.7.27 alpha-d-glucose 1-phosphate thermus caldophilus//*//* 4.2 * +EC2.7.7.27 alpha-d-glucose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.017 * +EC2.7.7.27 alpha-d-glucose-1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.083 * +EC2.7.7.27 atp aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.15 * +EC2.7.7.27 atp agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.086 * +EC2.7.7.27 atp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.11 * +EC2.7.7.27 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.067 * +EC2.7.7.27 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.48 * +EC2.7.7.27 atp citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.72 * +EC2.7.7.27 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.155 * +EC2.7.7.27 atp hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 0.36 * +EC2.7.7.27 atp hordeum vulgare//*//* 0.08 * +EC2.7.7.27 atp lens culinaris//*//* 0.18 * +EC2.7.7.27 atp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.6 * +EC2.7.7.27 atp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.18 * +EC2.7.7.27 atp rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.079 * +EC2.7.7.27 atp rhodococcus jostii//prokaryotes;bacteria;actinobacteria;rhodococcus//rha 0.15 * +EC2.7.7.27 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.0 * +EC2.7.7.27 atp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.05 * +EC2.7.7.27 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.05 * +EC2.7.7.27 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.045 * +EC2.7.7.27 atp streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.37 * +EC2.7.7.27 atp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.39 * +EC2.7.7.27 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.2 * +EC2.7.7.27 atp thermus caldophilus//*//* 1.9 * +EC2.7.7.27 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.032 * +EC2.7.7.27 diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.08 * +EC2.7.7.27 diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.35 * +EC2.7.7.27 diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.033 * +EC2.7.7.28 d-glucose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.6 * +EC2.7.7.28 diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.082 * +EC2.7.7.28 gdpglucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.62 * +EC2.7.7.28 gdpmannose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0001 * +EC2.7.7.28 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.6 * +EC2.7.7.3 3'-dephospho-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC2.7.7.3 3'-dephospho-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0067 * +EC2.7.7.3 3'-dephospho-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0147 * +EC2.7.7.3 atp corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.53 * +EC2.7.7.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC2.7.7.3 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1157 * +EC2.7.7.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.7.7.3 dephospho-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.7.7.3 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.7.7.3 diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.272 * +EC2.7.7.3 mg-atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC2.7.7.3 pantetheine 4'-phosphate corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 0.19 * +EC2.7.7.3 pantetheine 4'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0377 * +EC2.7.7.3 pantetheine 4'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC2.7.7.3 phosphopantetheine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0047 * +EC2.7.7.30 2-amino-6-chloropurine-beta-d-riboside 5'-triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.163 * +EC2.7.7.30 2-aminoadenosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC2.7.7.30 7-deazaguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0754 * +EC2.7.7.30 8-oxoguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0636 * +EC2.7.7.30 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.516 * +EC2.7.7.30 atp vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.8 * +EC2.7.7.30 beta-l-fucose 1-phosphate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.03 * +EC2.7.7.30 d-arabinose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0854 * +EC2.7.7.30 d-fructose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.823 * +EC2.7.7.30 d-galactose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.677 * +EC2.7.7.30 d-glucosamine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.828 * +EC2.7.7.30 d-glucose 1,6-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.621 * +EC2.7.7.30 d-glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.346 * +EC2.7.7.30 d-mannose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.542 * +EC2.7.7.30 diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.135 * +EC2.7.7.30 fucose 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.06 * +EC2.7.7.30 gdp-l-fucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC2.7.7.30 gtp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.17 * +EC2.7.7.30 gtp bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.012 * +EC2.7.7.30 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0502 * +EC2.7.7.30 gtp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.054 * +EC2.7.7.30 gtp vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.2 * +EC2.7.7.30 itp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0616 * +EC2.7.7.30 l-fucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC2.7.7.30 l-fucose-1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.052 * +EC2.7.7.30 n1-methylguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.423 * +EC2.7.7.30 n2-methylguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.263 * +EC2.7.7.30 o6-methylguanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.121 * +EC2.7.7.30 tricyclic guanosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.232 * +EC2.7.7.30 xanthosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.823 * +EC2.7.7.31 alpha-[2-n-(9-fluorenylmethoxycarbonyl)aminoethylphosphonyl]-beta,gamma-difluoromethylenediphosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9e-06 * +EC2.7.7.31 alpha-[2-n-(9-fluorenylmethoxycarbonyl)aminoethylphosphonyl]-beta,gamma-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3e-05 * +EC2.7.7.31 d-beta-deoxythymidine-triphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.7.7.31 datp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC2.7.7.31 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC2.7.7.31 dctp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.071 * +EC2.7.7.31 dgtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.083 * +EC2.7.7.31 dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC2.7.7.31 dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-05 * +EC2.7.7.31 dttp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.248 * +EC2.7.7.31 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2e-05 * +EC2.7.7.31 homopolymer primers homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.7.31 oligo(da)12-18 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC2.7.7.31 oligonucleotide primers homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC2.7.7.31 poly(da)50 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC2.7.7.31 poly(da)50 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC2.7.7.33 alpha-d-glucose 1-phosphate salmonella enterica subsp. enterica serovar paratyphi a//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//spt 0.09 * +EC2.7.7.33 alpha-d-glucose 1-phosphate salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.052 * +EC2.7.7.33 alpha-d-glucose 1-phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.64 * +EC2.7.7.33 alpha-d-glucose 1-phosphate streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.195 * +EC2.7.7.33 alpha-d-glucose 1-phosphate streptomyces sp. 139//*//* 0.429 * +EC2.7.7.33 alpha-d-glucose 1-phosphate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.079 * +EC2.7.7.33 alpha-d-glucose-1-phosphate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.11 * +EC2.7.7.33 cdp-d-glucose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.41 * +EC2.7.7.33 cdp-glucose salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.011 * +EC2.7.7.33 cdpglucose salmonella enterica subsp. enterica serovar paratyphi a//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//spt 0.015 * +EC2.7.7.33 ctp salmonella enterica subsp. enterica serovar paratyphi a//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//spt 0.034 * +EC2.7.7.33 ctp salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.148 * +EC2.7.7.33 ctp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.11 * +EC2.7.7.33 ctp streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.044 * +EC2.7.7.33 ctp streptomyces sp. 139//*//* 0.142 * +EC2.7.7.33 ctp yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.082 * +EC2.7.7.33 d-glucosamine 1-phosphate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 5.0 * +EC2.7.7.33 diphosphate salmonella enterica subsp. enterica serovar paratyphi a//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//spt 0.1 * +EC2.7.7.33 diphosphate salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.067 * +EC2.7.7.33 diphosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.89 * +EC2.7.7.33 magnesium diphosphate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.56 * +EC2.7.7.33 magnesium diphosphate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.43 * +EC2.7.7.33 udp-glucose salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 2.535 * +EC2.7.7.34 diphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.8 * +EC2.7.7.34 gdpglucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC2.7.7.35 adp-ribose euglena gracilis//*//* 0.04 * +EC2.7.7.35 adp euglena gracilis//*//* 0.6 * +EC2.7.7.35 phosphate euglena gracilis//*//* 0.4 * +EC2.7.7.37 gdp-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.2 * +EC2.7.7.37 phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.12 * +EC2.7.7.37 udp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC2.7.7.37 udp-mannose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC2.7.7.38 3-deoxy-d-manno-octulosonate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.452 * +EC2.7.7.38 3-deoxy-d-manno-octulosonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC2.7.7.38 ctp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.16 * +EC2.7.7.38 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC2.7.7.38 ctp zea mays//eukaryotes;plants;monocots;grass family//zma 0.024 * +EC2.7.7.38 dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC2.7.7.38 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.88 * +EC2.7.7.39 cdpglycerol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 60.0 * +EC2.7.7.39 ctp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.39 * +EC2.7.7.39 ctp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.036 * +EC2.7.7.39 diphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 9.7 * +EC2.7.7.39 glycerol 3-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.09 * +EC2.7.7.39 glycerol 3-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0014 * +EC2.7.7.40 ctp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.00851 * +EC2.7.7.40 ctp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0789 * +EC2.7.7.40 d-ribitol 5-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0147 * +EC2.7.7.40 d-ribitol 5-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.28 * +EC2.7.7.41 1,2-dioleoyl-sn-glycero-3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.114 * +EC2.7.7.41 1-palmitoyl-2-[12-[(7-nitro-2-1,3-benzoxadiazol-4-yl)amino]dodecanoyl]-sn-glycero-3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.067 * +EC2.7.7.41 1-stearoyl-2-arachidonoyl-sn-glycero-3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.102 * +EC2.7.7.41 ctp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.26 * +EC2.7.7.41 ctp catharanthus roseus//*//* 0.17 * +EC2.7.7.41 ctp cavia porcellus//*//* 1.0 * +EC2.7.7.41 ctp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.18 * +EC2.7.7.41 ctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.076 * +EC2.7.7.41 ctp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC2.7.7.41 dctp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.26 * +EC2.7.7.41 dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.58 * +EC2.7.7.41 phosphatidate cavia porcellus//*//* 2.5 * +EC2.7.7.41 phosphatidate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.067 * +EC2.7.7.41 phosphatidate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.65 * +EC2.7.7.41 phosphatidic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.3 * +EC2.7.7.41 phosphatidic acid catharanthus roseus//*//* 0.08 * +EC2.7.7.41 phosphatidic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.22 * +EC2.7.7.41 phosphatidic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC2.7.7.41 phosphatidic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.138 * +EC2.7.7.42 [l-glutamate:ammonia ligase (adp-forming)] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC2.7.7.42 adenylyl-[glutamine synthase] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0009 * +EC2.7.7.42 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC2.7.7.42 glutamine synthase escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0029 * +EC2.7.7.42 glutamine synthetase escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0032 * +EC2.7.7.42 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC2.7.7.42 potassium phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.7.7.43 2-keto-3-deoxy-d-glycero-d-galacto-nononic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.56 * +EC2.7.7.43 2-keto-3-deoxy-d-glycero-d-galacto-nononic acid oncorhynchus mykiss//*//* 3.0 * +EC2.7.7.43 3-deoxy-d-glycero-d-galacto-nononate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.56 * +EC2.7.7.43 3-deoxy-d-glycero-d-galacto-nononate oncorhynchus mykiss//*//* 3.0 * +EC2.7.7.43 4-o-methyl-n-acetylneuraminate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.5 * +EC2.7.7.43 8-o-methyl-n-acetylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 5.3 * +EC2.7.7.43 cdp mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 2.1 * +EC2.7.7.43 ctp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.3 * +EC2.7.7.43 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.31 * +EC2.7.7.43 ctp haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.0106 * +EC2.7.7.43 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC2.7.7.43 ctp mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 0.36 * +EC2.7.7.43 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.034 * +EC2.7.7.43 ctp neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.017 * +EC2.7.7.43 ctp oncorhynchus mykiss//*//* 1.7 * +EC2.7.7.43 ctp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.24 * +EC2.7.7.43 ctp pelophylax esculentus//*//* 0.00046 * +EC2.7.7.43 ctp photobacterium leiognathi//*//* 1.57 * +EC2.7.7.43 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC2.7.7.43 ctp ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.24 * +EC2.7.7.43 ctp streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.96 * +EC2.7.7.43 ctp streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 1.4 * +EC2.7.7.43 ctp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC2.7.7.43 deaminoneuraminic acid streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.62 * +EC2.7.7.43 n-acetyl-4-o-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC2.7.7.43 n-acetyl-4-o-acetylneuraminate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.2 * +EC2.7.7.43 n-acetyl-4-o-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC2.7.7.43 n-acetyl-7(8)-o-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC2.7.7.43 n-acetyl-7(8)-o-acetylneuraminate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.1 * +EC2.7.7.43 n-acetyl-7(8)-o-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.6 * +EC2.7.7.43 n-acetylneuraminate methyl ester mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 1.3 * +EC2.7.7.43 n-acetylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC2.7.7.43 n-acetylneuraminate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.34 * +EC2.7.7.43 n-acetylneuraminate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.7 * +EC2.7.7.43 n-acetylneuraminate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC2.7.7.43 n-acetylneuraminate haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.076 * +EC2.7.7.43 n-acetylneuraminate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC2.7.7.43 n-acetylneuraminate mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 1.6 * +EC2.7.7.43 n-acetylneuraminate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.26 * +EC2.7.7.43 n-acetylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.068 * +EC2.7.7.43 n-acetylneuraminate oncorhynchus mykiss//*//* 2.1 * +EC2.7.7.43 n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.14 * +EC2.7.7.43 n-acetylneuraminate pelophylax esculentus//*//* 0.00036 * +EC2.7.7.43 n-acetylneuraminate photobacterium leiognathi//*//* 0.867 * +EC2.7.7.43 n-acetylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC2.7.7.43 n-acetylneuraminate streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 7.6 * +EC2.7.7.43 n-acetylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC2.7.7.43 n-acetylneuraminic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.26 * +EC2.7.7.43 n-acetylneuraminic acid oncorhynchus mykiss//*//* 2.8 * +EC2.7.7.43 n-acylneuraminate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC2.7.7.43 n-acylneuraminate haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.26 * +EC2.7.7.43 n-acylneuraminate mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 1.82 * +EC2.7.7.43 n-acylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.34 * +EC2.7.7.43 n-acylneuraminate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.13 * +EC2.7.7.43 n-acylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC2.7.7.43 n-glycolylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC2.7.7.43 n-glycolylneuraminate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.3 * +EC2.7.7.43 n-glycolylneuraminate mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 3.0 * +EC2.7.7.43 n-glycolylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.6 * +EC2.7.7.43 n-glycolylneuraminate oncorhynchus mykiss//*//* 2.9 * +EC2.7.7.43 n-glycolylneuraminate pelophylax esculentus//*//* 2.3 * +EC2.7.7.43 n-glycolylneuraminate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC2.7.7.43 n-glycolylneuraminic acid ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.16 * +EC2.7.7.43 n-glycolylneuraminic acid streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.35 * +EC2.7.7.43 n-methylglycolylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.0 * +EC2.7.7.43 neu5ac streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 5.6 * +EC2.7.7.43 neuac ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.13 * +EC2.7.7.43 neugc ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.16 * +EC2.7.7.43 sialic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.045 * +EC2.7.7.43 ttp mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 8.1 * +EC2.7.7.43 udp mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 3.0 * +EC2.7.7.43 utp mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 2.7 * +EC2.7.7.44 alpha-d-glucose 1-phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.23 * +EC2.7.7.44 alpha-d-glucuronic acid 1-phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.14 * +EC2.7.7.44 d-glucuronic acid 1-phosphate hordeum vulgare//*//* 0.33 * +EC2.7.7.44 udp-d-glucuronic acid hordeum vulgare//*//* 0.5 * +EC2.7.7.45 diphosphate artemia salina//*//* 0.84 * +EC2.7.7.45 gp4g artemia salina//*//* 1.06 * +EC2.7.7.45 gtp artemia salina//*//* 2.2 * +EC2.7.7.45 gtp artemia sp.//*//* 6.7 * +EC2.7.7.46 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.404 * +EC2.7.7.46 mgctp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.008 * +EC2.7.7.46 mgdatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.7.7.46 mgdctp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC2.7.7.46 mgdgtp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.7.7.46 mgdttp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC2.7.7.46 tobramycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00276 * +EC2.7.7.47 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.011 * +EC2.7.7.47 atp serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.014 * +EC2.7.7.47 spectinomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0004 * +EC2.7.7.47 spectinomycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0014 * +EC2.7.7.47 streptomycin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8e-05 * +EC2.7.7.47 streptomycin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00032 * +EC2.7.7.47 streptomycin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0018 * +EC2.7.7.47 streptomycin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0013 * +EC2.7.7.48 atp hepatitis c virus//*//* 0.0029 * +EC2.7.7.48 atp human rhinovirus a16//*//* 0.008 * +EC2.7.7.48 atp influenza a virus//*//* 0.0047 * +EC2.7.7.48 ctp hepatitis c virus//*//* 0.00028 * +EC2.7.7.48 ctp human rhinovirus a16//*//* 0.00026 * +EC2.7.7.48 ctp influenza a virus//*//* 0.0027 * +EC2.7.7.48 gtp escherichia virus qbeta//*//* 0.012 * +EC2.7.7.48 gtp hepatitis c virus//*//* 0.00027 * +EC2.7.7.48 gtp human rhinovirus a16//*//* 0.001 * +EC2.7.7.48 gtp influenza a virus//*//* 0.0107 * +EC2.7.7.48 utp black beetle virus//*//* 0.03 * +EC2.7.7.48 utp hepatitis c virus//*//* 0.0006 * +EC2.7.7.48 utp human rhinovirus a16//*//* 0.0021 * +EC2.7.7.48 utp influenza a virus//*//* 0.0075 * +EC2.7.7.48 utp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.004 * +EC2.7.7.49 (-)-beta-2',3'-dideoxy-3'-thiacytidine triphosphate human immunodeficiency virus 1//*//* 0.01123 * +EC2.7.7.49 2',3'-dideoxy-ctp human immunodeficiency virus 1//*//* 0.00217 * +EC2.7.7.49 2'-deoxyadenosine 5'-triphosphate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.0021 * +EC2.7.7.49 2'-deoxyguanosine 5'-triphosphate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.028 * +EC2.7.7.49 2'-deoxythymidine 5'-triphosphate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.0046 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2,6-diaminopurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 0.00029 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2-amino-6-chloropurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 0.00092 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2-amino-6-methoxypurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 0.012 * +EC2.7.7.49 3'-azido-2',3'-dideoxy-2-amino-6-n-allylaminopurine-beta-d-ribofuranosyl 5'-triphosphate human immunodeficiency virus 1//*//* 0.0048 * +EC2.7.7.49 3'-azido-2',3'-dideoxyadenosine triphosphate human immunodeficiency virus 1//*//* 0.00032 * +EC2.7.7.49 datp feline immunodeficiency virus//*//* 8.1e-05 * +EC2.7.7.49 datp feline leukemia virus//*//* 0.004674 * +EC2.7.7.49 datp human immunodeficiency virus 1//*//* 0.00033 * +EC2.7.7.49 datp rauscher murine leukemia virus//*//* 0.015 * +EC2.7.7.49 datp simian immunodeficiency virus//*//* 0.003 * +EC2.7.7.49 dctp feline immunodeficiency virus//*//* 2.8e-05 * +EC2.7.7.49 dctp feline leukemia virus//*//* 0.00148 * +EC2.7.7.49 dctp human immunodeficiency virus 1//*//* 2e-05 * +EC2.7.7.49 dctp simian immunodeficiency virus//*//* 0.0047 * +EC2.7.7.49 deoxy-5'-ctp streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.00035 * +EC2.7.7.49 dgtp feline immunodeficiency virus//*//* 6e-05 * +EC2.7.7.49 dgtp feline leukemia virus//*//* 0.000936 * +EC2.7.7.49 dgtp human immunodeficiency virus 1//*//* 0.00017 * +EC2.7.7.49 dgtp mouse mammary tumor virus//*//* 0.0034 * +EC2.7.7.49 dgtp simian immunodeficiency virus//*//* 0.0055 * +EC2.7.7.49 dttp feline immunodeficiency virus//*//* 5.1e-05 * +EC2.7.7.49 dttp feline leukemia virus//*//* 0.00255 * +EC2.7.7.49 dttp human immunodeficiency virus 1//*//* 0.004 * +EC2.7.7.49 dttp moloney murine leukemia virus//*//* 0.01304 * +EC2.7.7.49 dttp mouse mammary tumor virus//*//* 0.0045 * +EC2.7.7.49 dttp rauscher murine leukemia virus//*//* 0.026 * +EC2.7.7.49 dttp simian immunodeficiency virus//*//* 0.0028 * +EC2.7.7.49 n-cyclobutyladenosine-phosphonyl diphosphate human immunodeficiency virus 1//*//* 0.0047 * +EC2.7.7.49 poly(ra)/(dt)18 moloney murine leukemia virus//*//* 0.01171 * +EC2.7.7.49 tenofovir diphosphate human immunodeficiency virus 1//*//* 0.0066 * +EC2.7.7.5 adenosine 5'-phosphosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC2.7.7.5 adenosine 5'-phosphosulfate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 26.0 * +EC2.7.7.5 adenosine 5'-phosphosulfate prosthecochloris vibrioformis//*//* 0.25 * +EC2.7.7.5 adenosine 5'-phosphosulfate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC2.7.7.5 adenosine 5'-phosphosulfate thiobacillus denitrificans//prokaryotes;bacteria;betaproteobacteria;thiobacillus//tbd 0.3 * +EC2.7.7.5 adp saccharomyces fragilis//*//* 0.0005 * +EC2.7.7.5 gdp saccharomyces fragilis//*//* 0.0003 * +EC2.7.7.5 phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 600.0 * +EC2.7.7.5 phosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 46.0 * +EC2.7.7.5 phosphate prosthecochloris vibrioformis//*//* 8.0 * +EC2.7.7.5 phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.9 * +EC2.7.7.5 phosphate saccharomyces fragilis//*//* 0.0015 * +EC2.7.7.5 phosphate thiobacillus denitrificans//prokaryotes;bacteria;betaproteobacteria;thiobacillus//tbd 12.0 * +EC2.7.7.50 diphosphate terminated poly(a) with an average chain length of 2000 nucleotides homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.7.7.50 diphosphate-ended poly(a) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9e-05 * +EC2.7.7.50 diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC2.7.7.50 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC2.7.7.50 gtp triticum aestivum//*//* 0.0027 * +EC2.7.7.50 gtp vaccinia virus//*//* 0.013 * +EC2.7.7.50 lambdac17rna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC2.7.7.50 pp(5')a(pa)n triticum aestivum//*//* 1.4e-05 * +EC2.7.7.50 pp(5')apgp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000285 * +EC2.7.7.50 pp(5')gcc(a2,u2g)n saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0005 * +EC2.7.7.50 rna vaccinia virus//*//* 0.00025 * +EC2.7.7.50 termini of 5'-triphosphate poly(a) vaccinia virus//*//* 0.0002 * +EC2.7.7.51 adenosine 5'-phosphorofluoridate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC2.7.7.51 adenosine 5'-phosphosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC2.7.7.51 adenylylsulfate auxenochlorella pyrenoidosa//*//* 0.82 * +EC2.7.7.51 adenylylsulfate chlorella sp.//*//* 0.82 * +EC2.7.7.51 ammonia auxenochlorella pyrenoidosa//*//* 10.0 * +EC2.7.7.51 ammonia chlorella sp.//*//* 10.0 * +EC2.7.7.51 nh3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 60.0 * +EC2.7.7.52 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000228 * +EC2.7.7.52 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC2.7.7.52 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC2.7.7.52 rnan containing a terminal u residue trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0208 * +EC2.7.7.52 rnan trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0004 * +EC2.7.7.52 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.169 * +EC2.7.7.52 utp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0025 * +EC2.7.7.53 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.31 * +EC2.7.7.53 arsenate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC2.7.7.53 arsenate tetradesmus obliquus//*//* 0.13 * +EC2.7.7.53 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.7 * +EC2.7.7.53 chromate tetradesmus obliquus//*//* 0.52 * +EC2.7.7.53 gdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.7 * +EC2.7.7.53 molybdate tetradesmus obliquus//*//* 0.45 * +EC2.7.7.53 p1,p3-bis(5'-adenosyl) triphosphate with cf2-bridge between p1 and p2 acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.004 * +EC2.7.7.53 p1,p3-bis(5'-adenosyl) triphosphate with ch2-bridge between p1 and p2 acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.012 * +EC2.7.7.53 p1,p3-bis(5'-adenosyl) triphosphate with chf-bridge between p1 and p2 acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0035 * +EC2.7.7.53 p1,p3-bis(5'-adenosyl) triphosphate acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.009 * +EC2.7.7.53 p1,p3-bis(5'-adenosyl) triphosphate euglena gracilis//*//* 0.025 * +EC2.7.7.53 p1,p4-bis(5'-adenosyl) tetraphosphate dolichospermum flos-aquae//*//* 0.006 * +EC2.7.7.53 p1,p4-bis(5'-adenosyl) tetraphosphate euglena gracilis//*//* 0.027 * +EC2.7.7.53 p1,p4-bis(5'-adenosyl) tetraphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC2.7.7.53 p1,p4-bis(5'-adenosyl) tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC2.7.7.53 p1,p4-bis(5'-adenosyl) tetraphosphate tetradesmus obliquus//*//* 0.0053 * +EC2.7.7.53 phosphate euglena gracilis//*//* 0.5 * +EC2.7.7.53 phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.94 * +EC2.7.7.53 phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC2.7.7.53 phosphate tetradesmus obliquus//*//* 0.16 * +EC2.7.7.53 tungstate tetradesmus obliquus//*//* 1.75 * +EC2.7.7.53 vanadate tetradesmus obliquus//*//* 0.07 * +EC2.7.7.56 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.7.56 trna-c-c-a-c2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.7.7.56 trna-c-c-a-c3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC2.7.7.58 2,3,4-trihydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.093 * +EC2.7.7.58 2,3-dihydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0027 * +EC2.7.7.58 2,4-dihydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.242 * +EC2.7.7.58 2,5-dihydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.552 * +EC2.7.7.58 2-hydroxybenzoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.091 * +EC2.7.7.58 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.12 * +EC2.7.7.6 a10g2a2c2c enterobacteria phage t7//*//* 0.018 * +EC2.7.7.6 a9g3a2c2c enterobacteria phage t7//*//* 0.041 * +EC2.7.7.6 atp enterobacteria phage t7//*//* 0.0095 * +EC2.7.7.6 ctp enterobacteria phage t7//*//* 0.143 * +EC2.7.7.6 d(ap4t) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00211 * +EC2.7.7.6 d(tp4c) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00222 * +EC2.7.7.6 d(tp4g) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00174 * +EC2.7.7.6 d(tp4t) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00072 * +EC2.7.7.6 dgtp enterobacteria phage t7//*//* 0.387 * +EC2.7.7.6 dttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC2.7.7.6 dutp enterobacteria phage t7//*//* 1.2 * +EC2.7.7.6 g2cac2c enterobacteria phage t7//*//* 0.043 * +EC2.7.7.6 gtp enterobacteria phage t7//*//* 0.234 * +EC2.7.7.6 gtp pisum sativum//*//* 0.1 * +EC2.7.7.6 promoter complex enterobacteria phage t7//*//* 1.6e-05 * +EC2.7.7.6 rgtp enterobacteria phage t7//*//* 0.0103 * +EC2.7.7.6 rutp enterobacteria phage t7//*//* 0.036 * +EC2.7.7.6 t10g2t2c2c enterobacteria phage t7//*//* 0.0018 * +EC2.7.7.6 utp enterobacteria phage t7//*//* 0.079 * +EC2.7.7.60 2-c-methyl-d-erythritol 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC2.7.7.60 2-c-methyl-d-erythritol 4-phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.178 * +EC2.7.7.60 2-c-methyl-d-erythritol 4-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.043 * +EC2.7.7.60 2-c-methyl-d-erythritol-4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00314 * +EC2.7.7.60 2-c-methyl-d-erythritol-4-phosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 3.26 * +EC2.7.7.60 4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC2.7.7.60 4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.131 * +EC2.7.7.60 ctp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.114 * +EC2.7.7.60 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC2.7.7.60 ctp francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.073 * +EC2.7.7.60 ctp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.092 * +EC2.7.7.60 ctp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.45 * +EC2.7.7.62 5'-deoxyadenosylcobinamide phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.102 * +EC2.7.7.62 adenosylcobinamide phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0184 * +EC2.7.7.62 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0024 * +EC2.7.7.62 gtp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0213 * +EC2.7.7.64 alpha-d-galactose 1-phosphate cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.43 * +EC2.7.7.64 alpha-d-glucose 1-phosphate cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.27 * +EC2.7.7.64 arabinose 1-phosphate pisum sativum//*//* 0.96 * +EC2.7.7.64 d-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.27 * +EC2.7.7.64 d-galactose 1-phosphate giardia intestinalis//*//* 0.09 * +EC2.7.7.64 d-galactose 1-phosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.86 * +EC2.7.7.64 d-galactose 1-phosphate pisum sativum//*//* 0.58 * +EC2.7.7.64 d-galactose 1-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.818 * +EC2.7.7.64 d-galacturonic acid 1-phosphate pisum sativum//*//* 1.15 * +EC2.7.7.64 d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.23 * +EC2.7.7.64 d-glucose 1-phosphate giardia intestinalis//*//* 0.13 * +EC2.7.7.64 d-glucose 1-phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.23 * +EC2.7.7.64 d-glucose 1-phosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.7 * +EC2.7.7.64 d-glucose 1-phosphate pisum sativum//*//* 0.34 * +EC2.7.7.64 d-glucose 1-phosphate populus deltoides//*//* 1.49 * +EC2.7.7.64 d-glucose 1-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.177 * +EC2.7.7.64 d-glucuronic acid 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.094 * +EC2.7.7.64 d-glucuronic acid 1-phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.14 * +EC2.7.7.64 d-glucuronic acid 1-phosphate pisum sativum//*//* 0.48 * +EC2.7.7.64 d-xylose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC2.7.7.64 d-xylose 1-phosphate pisum sativum//*//* 1.98 * +EC2.7.7.64 d-xylose 1-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.538 * +EC2.7.7.64 diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.16 * +EC2.7.7.64 diphosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.307 * +EC2.7.7.64 diphosphate pisum sativum//*//* 0.25 * +EC2.7.7.64 diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.134 * +EC2.7.7.64 dttp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.14 * +EC2.7.7.64 dutp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.74 * +EC2.7.7.64 l-arabinose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.5 * +EC2.7.7.64 l-arabinose 1-phosphate pisum sativum//*//* 0.96 * +EC2.7.7.64 n-acetylglucosamine 1-phosphate thermus caldophilus//*//* 0.6 * +EC2.7.7.64 ttp giardia intestinalis//*//* 0.9 * +EC2.7.7.64 ttp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.54 * +EC2.7.7.64 udp-alpha-d-galacturonate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.79 * +EC2.7.7.64 udp-beta-l-arabinopyranose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.373 * +EC2.7.7.64 udp-d-galactose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.148 * +EC2.7.7.64 udp-d-galacturonate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.79 * +EC2.7.7.64 udp-d-glucose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.174 * +EC2.7.7.64 udp-d-glucose pisum sativum//*//* 0.34 * +EC2.7.7.64 udp-galactose cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.44 * +EC2.7.7.64 udp-galactose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.148 * +EC2.7.7.64 udp-galacturonic acid pisum sativum//*//* 1.26 * +EC2.7.7.64 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.28 * +EC2.7.7.64 udp-glucose cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.14 * +EC2.7.7.64 udp-glucose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.174 * +EC2.7.7.64 udp-glucose pisum sativum//*//* 0.34 * +EC2.7.7.64 udp-glucose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.026 * +EC2.7.7.64 udp-l-arabinopyranose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.373 * +EC2.7.7.64 utp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.077 * +EC2.7.7.64 utp giardia intestinalis//*//* 0.08 * +EC2.7.7.64 utp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.15 * +EC2.7.7.64 utp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.098 * +EC2.7.7.64 utp pisum sativum//*//* 0.048 * +EC2.7.7.64 utp populus deltoides//*//* 1.98 * +EC2.7.7.64 utp thermus caldophilus//*//* 0.2 * +EC2.7.7.65 cyclic di-3',5'-guanylate caulobacter vibrioides//*//* 0.026 * +EC2.7.7.65 gtp pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.00597 * +EC2.7.7.65 gtp xanthomonas citri subsp. citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xci 0.061 * +EC2.7.7.67 2,3-bis-(o-geranylgeranyl)-sn-glycerol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.12 * +EC2.7.7.68 (2s)-2-phospholactate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.036 * +EC2.7.7.68 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.056 * +EC2.7.7.69 alpha-d-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 16.0 * +EC2.7.7.69 alpha-d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.0 * +EC2.7.7.69 alpha-d-mannose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 54.0 * +EC2.7.7.69 alpha-l-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.0 * +EC2.7.7.69 gdp-alpha-d-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0044 * +EC2.7.7.69 gdp-alpha-d-mannose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.52 * +EC2.7.7.69 gdp-alpha-l-galactose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0079 * +EC2.7.7.69 phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.13 * +EC2.7.7.7 2'-deoxyguanosine triphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00012 * +EC2.7.7.7 2-aminopurine-2'-deoxy-d-ribose 5'-triphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.006 * +EC2.7.7.7 2-thio-dctp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.067 * +EC2.7.7.7 5-[(1e)-3-[(4-[[(5-azido-2-nitrophenyl)carbonyl]amino]butanoyl)amino]prop-1-en-1-yl]uridine 5'-triphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0003 * +EC2.7.7.7 5-[(1e)-3-{[(5-azido-2-nitrophenyl)carbonyl]amino}prop-1-en-1-yl]-2'-deoxyuridine 5'-triphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0055 * +EC2.7.7.7 5-[n-(2-nitro-5-azidobenzoyl)ami-nomethyl]-2'-deoxyuridine 5'-triphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.04 * +EC2.7.7.7 5-methyl-dctp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.013 * +EC2.7.7.7 7-deaza-2'-deoxyadenosine 5'-triphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0011 * +EC2.7.7.7 damp:da oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.1056 * +EC2.7.7.7 damp:dg oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.153 * +EC2.7.7.7 datp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0025 * +EC2.7.7.7 datp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0077 * +EC2.7.7.7 datp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.2 * +EC2.7.7.7 datp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0008 * +EC2.7.7.7 datp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.43 * +EC2.7.7.7 datp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.1 * +EC2.7.7.7 dcmp:da oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.551 * +EC2.7.7.7 dcmp:dg oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.772e-05 * +EC2.7.7.7 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00464 * +EC2.7.7.7 dctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.024 * +EC2.7.7.7 dctp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.65 * +EC2.7.7.7 dctp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.7e-05 * +EC2.7.7.7 dctp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.0062 * +EC2.7.7.7 deoxynucleoside triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC2.7.7.7 deoxynucleoside triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00118 * +EC2.7.7.7 deoxynucleoside triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00305 * +EC2.7.7.7 deoxynucleoside triphosphate thermococcus pacificus//prokaryotes;archaea;euryarchaeota;thermococcus//tpaf 0.17 * +EC2.7.7.7 dgmp:da oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.091 * +EC2.7.7.7 dgmp:dg oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.3511 * +EC2.7.7.7 dgtp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.4 * +EC2.7.7.7 dgtp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.012 * +EC2.7.7.7 dgtp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.084 * +EC2.7.7.7 dnan thermococcus pacificus//prokaryotes;archaea;euryarchaeota;thermococcus//tpaf 3.2e-06 * +EC2.7.7.7 dnan thermococcus thioreducens//prokaryotes;archaea;euryarchaeota;thermococcus//ttd 6.6e-07 * +EC2.7.7.7 dnan thermococcus waiotapuensis//*//* 1.04e-05 * +EC2.7.7.7 dnan thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0013 * +EC2.7.7.7 dntp thermococcus thioreducens//prokaryotes;archaea;euryarchaeota;thermococcus//ttd 0.0105 * +EC2.7.7.7 dptp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.16 * +EC2.7.7.7 dtmp:da oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.176e-05 * +EC2.7.7.7 dtmp:dg oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.26 * +EC2.7.7.7 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC2.7.7.7 dttp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.5 * +EC2.7.7.7 dttp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.006 * +EC2.7.7.7 dttp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.38 * +EC2.7.7.7 dttp thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.2 * +EC2.7.7.7 dttp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.002 * +EC2.7.7.7 n1-methyl-2'-deoxyadenosine 5'-triphosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.223 * +EC2.7.7.7 north-methanocarba-datp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0012 * +EC2.7.7.7 ratp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.189 * +EC2.7.7.7 rctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.139 * +EC2.7.7.7 south-methanocarba-datp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0013 * +EC2.7.7.72 a trna precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.119 * +EC2.7.7.72 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.24 * +EC2.7.7.72 atp sulfolobus shibatae//*//* 0.5 * +EC2.7.7.72 ctp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.05 * +EC2.7.7.72 ctp sulfolobus shibatae//*//* 0.015 * +EC2.7.7.72 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC2.7.7.74 1d-myo-inositol 3-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.87 * +EC2.7.7.74 1l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.87 * +EC2.7.7.74 ctp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.58 * +EC2.7.7.74 ctp rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 1.8 * +EC2.7.7.74 inositol 1-phosphate rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 2.6 * +EC2.7.7.75 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.062 * +EC2.7.7.76 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0034 * +EC2.7.7.77 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0065 * +EC2.7.7.78 gdp-alpha-d-glucose caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.01 * +EC2.7.7.78 gdp-alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.7.7.78 phosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.2 * +EC2.7.7.78 phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC2.7.7.79 p-trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0017 * +EC2.7.7.79 ppp-trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00016 * +EC2.7.7.79 ppp-trnaphe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC2.7.7.8 2',3'-cyclic rnan staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.042 * +EC2.7.7.8 3'-phosphorylated rna(n) staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.156 * +EC2.7.7.8 adp brevibacterium sp.//*//* 0.42 * +EC2.7.7.8 adp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.0 * +EC2.7.7.8 adp rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 1.0 * +EC2.7.7.8 cdp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.0 * +EC2.7.7.8 globin mrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000166 * +EC2.7.7.8 heptauridylate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.05 * +EC2.7.7.8 mg2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC2.7.7.8 nonaadenylate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.033 * +EC2.7.7.8 phosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.25 * +EC2.7.7.8 poly(a) sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.32 * +EC2.7.7.8 rna(n) staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.022 * +EC2.7.7.8 tetrauridylate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.25 * +EC2.7.7.8 triadenylate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 2.5 * +EC2.7.7.8 udp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.4 * +EC2.7.7.8 udp kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 1.0 * +EC2.7.7.83 n-acetyl-d-galactosamine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.7.7.83 n-acetyl-d-glucosamine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC2.7.7.83 n-acetylglucosamine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC2.7.7.83 udp-n-acetyl-alpha-d-galactosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.7.83 udp-n-acetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC2.7.7.83 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC2.7.7.84 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00044 * +EC2.7.7.84 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC2.7.7.87 l-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00011 * +EC2.7.7.89 [l-glutamate:ammonia ligase (adp-forming)]-o4-(5'-adenylyl)-l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC2.7.7.89 adenylyl-[l-glutamate:ammonia ligase (adp-forming)] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC2.7.7.89 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC2.7.7.9 alpha-d-galactose 1-phosphate giardia intestinalis//*//* 0.09 * +EC2.7.7.9 alpha-d-galactose 1-phosphate hordeum vulgare//*//* 10.0 * +EC2.7.7.9 alpha-d-glucose 1-phosphate acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.14 * +EC2.7.7.9 alpha-d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.14 * +EC2.7.7.9 alpha-d-glucose 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC2.7.7.9 alpha-d-glucose 1-phosphate cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.24 * +EC2.7.7.9 alpha-d-glucose 1-phosphate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.68 * +EC2.7.7.9 alpha-d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.7.7.9 alpha-d-glucose 1-phosphate ganoderma lucidum//*//* 0.031 * +EC2.7.7.9 alpha-d-glucose 1-phosphate giardia intestinalis//*//* 0.13 * +EC2.7.7.9 alpha-d-glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC2.7.7.9 alpha-d-glucose 1-phosphate hordeum vulgare subsp. vulgare//*//* 0.074 * +EC2.7.7.9 alpha-d-glucose 1-phosphate hordeum vulgare//*//* 0.033 * +EC2.7.7.9 alpha-d-glucose 1-phosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.192 * +EC2.7.7.9 alpha-d-glucose 1-phosphate lilium longiflorum//*//* 0.46 * +EC2.7.7.9 alpha-d-glucose 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04455 * +EC2.7.7.9 alpha-d-glucose 1-phosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.742 * +EC2.7.7.9 alpha-d-glucose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC2.7.7.9 alpha-d-glucose 1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.055 * +EC2.7.7.9 alpha-d-glucose 1-phosphate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.03 * +EC2.7.7.9 alpha-d-glucose 1-phosphate streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 0.0364 * +EC2.7.7.9 alpha-d-glucose 1-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.085 * +EC2.7.7.9 alpha-d-glucose 1-phosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.06 * +EC2.7.7.9 d-glucose-1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.83 * +EC2.7.7.9 d-glucose-1-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.19 * +EC2.7.7.9 diphosphate acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 2.4 * +EC2.7.7.9 diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.7.7.9 diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.084 * +EC2.7.7.9 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC2.7.7.9 diphosphate hordeum vulgare subsp. vulgare//*//* 0.17 * +EC2.7.7.9 diphosphate hordeum vulgare//*//* 0.039 * +EC2.7.7.9 diphosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.2 * +EC2.7.7.9 diphosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.376 * +EC2.7.7.9 diphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.084 * +EC2.7.7.9 diphosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.115 * +EC2.7.7.9 diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.11 * +EC2.7.7.9 diphosphate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.054 * +EC2.7.7.9 diphosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.26 * +EC2.7.7.9 diphosphate xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.48 * +EC2.7.7.9 farnesyl triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC2.7.7.9 geranyl triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.21 * +EC2.7.7.9 isopentenyl triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.51 * +EC2.7.7.9 methylenebisphosphonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC2.7.7.9 mg-diphosphate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.33 * +EC2.7.7.9 mg-diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.56 * +EC2.7.7.9 mg-utp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.22 * +EC2.7.7.9 mg2+ xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.58 * +EC2.7.7.9 tripolyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC2.7.7.9 ttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.7.9 ttp giardia intestinalis//*//* 0.9 * +EC2.7.7.9 ttp xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.36 * +EC2.7.7.9 ttp xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 0.35 * +EC2.7.7.9 udp-galactose cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.26 * +EC2.7.7.9 udp-galactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.42 * +EC2.7.7.9 udp-glucose acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.05 * +EC2.7.7.9 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC2.7.7.9 udp-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC2.7.7.9 udp-glucose cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.11 * +EC2.7.7.9 udp-glucose ganoderma lucidum//*//* 0.774 * +EC2.7.7.9 udp-glucose gracilaria chouae//*//* 0.00167 * +EC2.7.7.9 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.7.7.9 udp-glucose hordeum vulgare subsp. vulgare//*//* 0.19 * +EC2.7.7.9 udp-glucose hordeum vulgare//*//* 0.034 * +EC2.7.7.9 udp-glucose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.105 * +EC2.7.7.9 udp-glucose nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 3.04 * +EC2.7.7.9 udp-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC2.7.7.9 udp-glucose saccharina japonica//*//* 0.00433 * +EC2.7.7.9 udp-glucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC2.7.7.9 udp-glucose solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.12 * +EC2.7.7.9 udp-glucose sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.05 * +EC2.7.7.9 udp-glucose streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.4 * +EC2.7.7.9 udp-glucose xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.99 * +EC2.7.7.9 utp acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.058 * +EC2.7.7.9 utp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.031 * +EC2.7.7.9 utp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC2.7.7.9 utp cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.32 * +EC2.7.7.9 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.058 * +EC2.7.7.9 utp giardia intestinalis//*//* 0.08 * +EC2.7.7.9 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC2.7.7.9 utp hordeum vulgare subsp. vulgare//*//* 0.093 * +EC2.7.7.9 utp hordeum vulgare//*//* 0.025 * +EC2.7.7.9 utp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.07 * +EC2.7.7.9 utp lilium longiflorum//*//* 0.14 * +EC2.7.7.9 utp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01187 * +EC2.7.7.9 utp nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.0424 * +EC2.7.7.9 utp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.048 * +EC2.7.7.9 utp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.1 * +EC2.7.7.9 utp sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.03 * +EC2.7.7.9 utp sphingomonas elodea//*//* 0.0075 * +EC2.7.7.9 utp streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 0.0085 * +EC2.7.7.9 utp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.24 * +EC2.7.7.9 utp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.18 * +EC2.7.7.9 utp xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.21 * +EC2.7.7.9 utp xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 0.11 * +EC2.7.7.92 3,5-dideoxy-5-fluoro-d-glycero-d-galacto-nonulosonic acid oncorhynchus mykiss//*//* 6.7 * +EC2.7.7.92 3-deoxy-d-glycero-d-galacto-nononate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.04 * +EC2.7.7.92 3-deoxy-d-glycero-d-galacto-nononate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.56 * +EC2.7.7.92 3-deoxy-d-glycero-d-galacto-nononate oncorhynchus mykiss//*//* 3.0 * +EC2.7.7.92 5-bromo-3,5-dideoxy-d-glycero-d-galacto-nonulosonic acid oncorhynchus mykiss//*//* 0.4 * +EC2.7.7.92 5-chloro-3,5-dideoxy-d-glycero-d-galacto-nonulosonic acid oncorhynchus mykiss//*//* 0.53 * +EC2.7.7.92 ctp bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.51 * +EC2.7.7.92 ctp oncorhynchus mykiss//*//* 1.7 * +EC2.7.7.92 n-acetylneuraminic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.26 * +EC2.7.7.92 n-acetylneuraminic acid oncorhynchus mykiss//*//* 2.8 * +EC2.7.7.97 3-hydroxy-4-methylanthranilate streptomyces anulatus//*//* 0.0004 * +EC2.7.7.97 3-hydroxy-4-methylbenzylate streptomyces anulatus//*//* 0.005 * +EC2.7.7.97 3-hydroxy-anthranilate streptomyces anulatus//*//* 0.018 * +EC2.7.7.B16 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.08 * +EC2.7.7.B16 datp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.03 * +EC2.7.7.B16 dgtp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.05 * +EC2.7.7.B16 dntp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.028 * +EC2.7.7.B16 gtp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.25 * +EC2.7.7.B16 ntp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.025 * +EC2.7.7.B3 thiamine diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC2.7.7.B5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC2.7.7.B5 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.84 * +EC2.7.8.1 1,2-dioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0118 * +EC2.7.8.1 1-alkyl-2-acyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC2.7.8.1 1-arachidoyl-2-octadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.182 * +EC2.7.8.1 1-dodecanoyl-2-octadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.111 * +EC2.7.8.1 1-heptadecanoyl-2-octadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.7.8.1 1-nonadecanoyl-2-octadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.128 * +EC2.7.8.1 1-octadecanoyl-2-octadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.167 * +EC2.7.8.1 1-pentadecanoyl-2-octadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.114 * +EC2.7.8.1 cdp-choline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC2.7.8.1 cdp-choline chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 10.7 * +EC2.7.8.1 cdp-choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC2.7.8.1 cdp-ethanolamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00057 * +EC2.7.8.1 cdp-ethanolamine chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.061 * +EC2.7.8.1 cdp-ethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.7.8.1 cdp-ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC2.7.8.1 cdp-ethanolamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.022 * +EC2.7.8.1 cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.7.8.1 diacylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC2.7.8.11 1-stearoyl-2-arachidonoylglycerol cavia porcellus//*//* 0.045 * +EC2.7.8.11 2-deoxy-cdp-diacylglycerol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.029 * +EC2.7.8.11 2-deoxy-cdp-diacylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC2.7.8.11 cdp-1-stearoyl-2-oleoylglycerol cavia porcellus//*//* 0.03 * +EC2.7.8.11 cdp-diacylglycerol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC2.7.8.11 cdp-diacylglycerol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.036 * +EC2.7.8.11 cdp-diacylglycerol canis lupus familiaris//*//* 0.018 * +EC2.7.8.11 cdp-diacylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC2.7.8.11 cdp-diacylglycerol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC2.7.8.11 cdp-diacylglycerol plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.16 * +EC2.7.8.11 cdp-diacylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0095 * +EC2.7.8.11 cdp-diacylglycerol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC2.7.8.11 cdp-didecanoyl-sn-glycerol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC2.7.8.11 cdp-dipalmitin canis lupus familiaris//*//* 0.01929 * +EC2.7.8.11 cdp-dipalmitoylglyceride ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 1.35 * +EC2.7.8.11 cdp-distearoylglycerol cavia porcellus//*//* 0.16 * +EC2.7.8.11 cdpdiglyceride rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.7.8.11 cmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.8 * +EC2.7.8.11 cmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.022 * +EC2.7.8.11 dipalmitoyl-sn-glycerol cavia porcellus//*//* 0.05 * +EC2.7.8.11 myo-inositol cdp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.71 * +EC2.7.8.11 myo-inositol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.4 * +EC2.7.8.11 myo-inositol candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.55 * +EC2.7.8.11 myo-inositol canis lupus familiaris//*//* 0.6 * +EC2.7.8.11 myo-inositol chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.015 * +EC2.7.8.11 myo-inositol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC2.7.8.11 myo-inositol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC2.7.8.11 myo-inositol plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 1.0 * +EC2.7.8.11 myo-inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.7.8.11 myo-inositol ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.3 * +EC2.7.8.11 myo-inositol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.066 * +EC2.7.8.12 cdp-glycerol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.34 * +EC2.7.8.12 cdpglycerol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.00083 * +EC2.7.8.13 5'-ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC2.7.8.13 dansyl-udp-nac-muramoyl-pentapeptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC2.7.8.13 dodecaprenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC2.7.8.13 heptaprenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC2.7.8.13 udp-mur2ac(oyl-l-ala-d-gamma-glu-l-lys-d-ala-d-ala) bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC2.7.8.13 udp-murnac-ala-d-glu-d-ala-glu staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.083 * +EC2.7.8.13 udp-murnac-ala-d-glu-dap-d-ala-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.022 * +EC2.7.8.13 udp-murnac-ala-d-glu-lys-d-ala-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.02 * +EC2.7.8.13 udp-murnac-ala-d-glu-lys-d-ala-gly staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.029 * +EC2.7.8.13 udp-murnac-ala-d-glu-lys-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.058 * +EC2.7.8.13 udp-murnac-ala-d-glu-lys-gly-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.063 * +EC2.7.8.13 udp-murnac-ala-d-glu-lys staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.18 * +EC2.7.8.13 udp-murnac-ala-d-glu-mdap-d-ala-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1 * +EC2.7.8.13 udp-murnac-ala-d-glu-orn-d-ala-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.016 * +EC2.7.8.13 udp-murnac-ala-glu-lys staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.4 * +EC2.7.8.13 udp-murnac-gly-d-glu-lys-d-ala-d-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.044 * +EC2.7.8.13 udp-murnac-pentapeptide bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.093 * +EC2.7.8.13 udp-murnac-pentapeptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC2.7.8.13 udp-n-acetylmuramoyl-pentapeptide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.94 * +EC2.7.8.13 udp-nac-muramoyl-pentapeptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0056 * +EC2.7.8.13 udp-nac-muramoyl-pentapeptide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0018 * +EC2.7.8.13 ump staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.027 * +EC2.7.8.13 undecaprenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.16 * +EC2.7.8.14 cdpribitol staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.1 * +EC2.7.8.15 dolichyl phosphate acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0045 * +EC2.7.8.15 dolichyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.016 * +EC2.7.8.15 dolichyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0062 * +EC2.7.8.15 dolichyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC2.7.8.15 dolichyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC2.7.8.15 udp-glcnac acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.0005 * +EC2.7.8.15 udp-glcnac bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0045 * +EC2.7.8.15 udp-glcnac glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00042 * +EC2.7.8.15 udp-glcnac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC2.7.8.15 udp-glcnac sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0001 * +EC2.7.8.17 cathepsin d bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC2.7.8.17 cathepsin d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.7.8.17 dnase i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.7.8.17 man9glcnac1 oligosaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC2.7.8.17 methyl alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 33.0 * +EC2.7.8.17 methyl-alpha-d-mannoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.064 * +EC2.7.8.17 methyl-alpha-d-mannoside ceratitis capitata//*//* 0.021 * +EC2.7.8.17 methyl-alpha-d-mannoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.117 * +EC2.7.8.17 methyl-alpha-d-mannoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 183.0 * +EC2.7.8.17 npc2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.352 * +EC2.7.8.17 pro-tripeptidyl peptidase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC2.7.8.17 ribonuclease b bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.244 * +EC2.7.8.17 ribonuclease b rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.916 * +EC2.7.8.17 rnase b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC2.7.8.17 soybean agglutinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC2.7.8.17 udp-glcnac bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC2.7.8.17 udp-glcnac ceratitis capitata//*//* 0.2 * +EC2.7.8.17 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC2.7.8.17 udp-glcnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC2.7.8.17 uteroferrin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC2.7.8.17 uteroferrin ceratitis capitata//*//* 0.065 * +EC2.7.8.17 uteroferrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.7.8.2 1,2-dioleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.7.8.2 1,2-dioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0509 * +EC2.7.8.2 1-arachidoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC2.7.8.2 1-heptadecanoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.7.8.2 1-hexadecanoyl-2-octadecanoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0143 * +EC2.7.8.2 1-hexadecyl-2-octadecenoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0262 * +EC2.7.8.2 1-lauroyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.133 * +EC2.7.8.2 1-myristoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.104 * +EC2.7.8.2 1-nonadecanoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.7.8.2 1-o-alkyl-2-acetyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0593 * +EC2.7.8.2 1-palmitoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.116 * +EC2.7.8.2 1-pentadecanoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.109 * +EC2.7.8.2 1-stearoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC2.7.8.2 1-tridecanoyl-2-oleoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.122 * +EC2.7.8.2 bacterial diacylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0405 * +EC2.7.8.2 cdp-choline fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.53 * +EC2.7.8.2 cdp-choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0166 * +EC2.7.8.2 cdp-choline phytophthora infestans//eukaryotes;protists;stramenopiles;oomycetes//pif 0.02098 * +EC2.7.8.2 cdp-choline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0239 * +EC2.7.8.2 cdp-ethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.098 * +EC2.7.8.2 cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC2.7.8.2 didecanoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0141 * +EC2.7.8.2 didodecanoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC2.7.8.2 dihexadecanoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0314 * +EC2.7.8.2 dihexanoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0681 * +EC2.7.8.2 dimyristoyl-sn-glycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.118 * +EC2.7.8.2 dioctadecenoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0501 * +EC2.7.8.20 arbutin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC2.7.8.21 gentiobiose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC2.7.8.23 carboxyphosphinopyruvate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.0022 * +EC2.7.8.23 carboxyphosphoenolpyruvate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.25 * +EC2.7.8.26 adenosylcobinamide-gdp pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0009 * +EC2.7.8.26 alpha-ribazole 5'-phosphate pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0027 * +EC2.7.8.26 alpha-ribazole pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0078 * +EC2.7.8.28 7,8-didemethyl-8-hydroxy-5-deazariboflavin methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.032 * +EC2.7.8.28 lactyl-2-diphospho-5'-adenosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.515 * +EC2.7.8.28 lactyl-2-diphospho-5'-guanosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.017 * +EC2.7.8.29 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC2.7.8.33 ditrans,polycis-undecaprenyl phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.12 * +EC2.7.8.33 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8e-05 * +EC2.7.8.33 udp-n-acetyl-d-glucosamine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.62 * +EC2.7.8.36 udp-6-hydroxybacillosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0043 * +EC2.7.8.36 udp-bacillosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.0062 * +EC2.7.8.4 cdp-ethanolamine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.085 * +EC2.7.8.4 cmp-aminoethylphosphonate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.011 * +EC2.7.8.4 l-serine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC2.7.8.41 1,2-dioleoylphosphatidylglycerol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC2.7.8.41 cdp-1,2-dimyristoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0024 * +EC2.7.8.41 cdp-dimyristoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC2.7.8.41 cdp-dioleoylglycerol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0014 * +EC2.7.8.41 cdp-dioleoylglycerol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.036 * +EC2.7.8.41 dioleoylphosphatidylglycerol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.15 * +EC2.7.8.41 egg yolk phosphatidylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC2.7.8.5 (d)cdp-diacylglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC2.7.8.5 cdp-diacylglycerol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.012 * +EC2.7.8.5 cdp-diacylglycerol cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.288 * +EC2.7.8.5 cdp-diacylglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC2.7.8.5 cdp-diacylglycerol glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.1 * +EC2.7.8.5 cdp-diacylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC2.7.8.5 cdp-diacylglycerol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.033 * +EC2.7.8.5 cdp-diacylglycerol schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.13 * +EC2.7.8.5 cmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC2.7.8.5 dcdp-diacylglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.034 * +EC2.7.8.5 dl-2-hexadecoxy-3-octadecoxypropylphosphonyl-o-(cytidine 5'-phosphate) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC2.7.8.5 dl-3,4-dioctadecoxybutylphosphonyl-o-(cytidine 5'-phosphate) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC2.7.8.5 glycerol 3-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.052 * +EC2.7.8.5 glycerol 3-phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.17 * +EC2.7.8.5 glycerol 3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.7.8.5 glycerol 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.027 * +EC2.7.8.5 glycerol 3-phosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.026 * +EC2.7.8.5 sn-glycerol 3-phosphate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.15 * +EC2.7.8.5 sn-glycerol 3-phosphate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.1 * +EC2.7.8.5 sn-glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC2.7.8.6 udp-alpha-d-galactose salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.00055 * +EC2.7.8.6 undecaprenyl phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0785 * +EC2.7.8.7 acetoacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0088 * +EC2.7.8.7 acetoacetyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.051 * +EC2.7.8.7 acetoacetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.019 * +EC2.7.8.7 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0077 * +EC2.7.8.7 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0249 * +EC2.7.8.7 acetyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.043 * +EC2.7.8.7 acetyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.011 * +EC2.7.8.7 apo-[acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC2.7.8.7 apo-[acyl-carrier protein] mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0008 * +EC2.7.8.7 apo-[acyl-carrier protein] streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0018 * +EC2.7.8.7 apo-[bpsa protein] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0033 * +EC2.7.8.7 apo-[bpsa protein] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0065 * +EC2.7.8.7 apo-[bpsa protein] pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0086 * +EC2.7.8.7 apo-[entb-arcp-h6 escherichia coli] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.016 * +EC2.7.8.7 apo-[fredericamycin h acyl-carrier protein] streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0058 * +EC2.7.8.7 apo-[lys2-pcp-h6 saccharomyces cerevisiae] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.005 * +EC2.7.8.7 apo-[pcph6srfb2.18] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0018 * +EC2.7.8.7 apo-[peptidyl carrier protein] streptomyces verticillus//*//* 0.0031 * +EC2.7.8.7 apo-[streptomyces sp. frenolicin-acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC2.7.8.7 apo-[streptomyces sp. granaticin-acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC2.7.8.7 apo-[streptomyces sp. oxytetracycline-acyl-carrier protein] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.039 * +EC2.7.8.7 apo-[streptomyces sp. tetracenomycin-acyl-carrier protein(his6)] escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC2.7.8.7 apo-[tetracenomycin m acyl-carrier protein] streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.1 * +EC2.7.8.7 apo-acp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.038 * +EC2.7.8.7 apo-acp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC2.7.8.7 apo-acyl-carrier protein bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0002 * +EC2.7.8.7 apo-acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC2.7.8.7 apo-acyl-carrier protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.7.8.7 apo-acyl-carrier protein spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.002 * +EC2.7.8.7 apo-acyl-carrier protein streptomyces pneumoniae//*//* 0.0005 * +EC2.7.8.7 apo-acyl-carrier protein vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.0079 * +EC2.7.8.7 apo-peptide(1-->74) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.7.8.7 apo-peptidyl carrier protein bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00445 * +EC2.7.8.7 apo-peptidyl carrier protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC2.7.8.7 butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0081 * +EC2.7.8.7 butyryl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.035 * +EC2.7.8.7 butyryl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.007 * +EC2.7.8.7 coa-[4'-phosphopantetheine] bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00062 * +EC2.7.8.7 coa-[4'-phosphopantetheine] pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0038 * +EC2.7.8.7 coa-[4'-phosphopantetheine] pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.011 * +EC2.7.8.7 coa bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.007 * +EC2.7.8.7 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0093 * +EC2.7.8.7 coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.04 * +EC2.7.8.7 coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0011 * +EC2.7.8.7 coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.004 * +EC2.7.8.7 coa streptomyces pneumoniae//*//* 0.0071 * +EC2.7.8.7 crotonyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0052 * +EC2.7.8.7 crotonyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.018 * +EC2.7.8.7 decanoyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0014 * +EC2.7.8.7 decanoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0015 * +EC2.7.8.7 dslefiaskla bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.123 * +EC2.7.8.7 dslefiaskla escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.242 * +EC2.7.8.7 gdsldmlewslm bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.534 * +EC2.7.8.7 gdsldmlewslm escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.117 * +EC2.7.8.7 gdslswllrcln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC2.7.8.7 gdslswllrcln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.108 * +EC2.7.8.7 gdslswllrlln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0515 * +EC2.7.8.7 gdslswllrlln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.076 * +EC2.7.8.7 gdslswllrsln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.221 * +EC2.7.8.7 gdslswllrsln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.254 * +EC2.7.8.7 gdslswlvrcln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.139 * +EC2.7.8.7 gdslswlvrcln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0772 * +EC2.7.8.7 gdslswlvrlln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0618 * +EC2.7.8.7 gdslswlvrlln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.105 * +EC2.7.8.7 malonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0071 * +EC2.7.8.7 malonyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.094 * +EC2.7.8.7 malonyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.015 * +EC2.7.8.7 mg2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC2.7.8.7 myristoleoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0025 * +EC2.7.8.7 myristoyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0018 * +EC2.7.8.7 myristoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.001 * +EC2.7.8.7 palmitoleoyl-coa mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0009 * +EC2.7.8.7 palmitoleoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0016 * +EC2.7.8.7 palmitoyl-coa streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0012 * +EC2.7.8.8 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.085 * +EC2.7.8.B10 chicken egg phosphatidylglycerol enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 3.55 * +EC2.7.9.1 2',3'-dideoxyadenosine 5'-triphosphate clostridium symbiosum//*//* 0.28 * +EC2.7.9.1 2'-damp clostridium symbiosum//*//* 0.1 * +EC2.7.9.1 2'-datp clostridium symbiosum//*//* 0.35 * +EC2.7.9.1 3'-datp clostridium symbiosum//*//* 0.25 * +EC2.7.9.1 amp acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.006 * +EC2.7.9.1 amp arundinaria sp.//*//* 0.004 * +EC2.7.9.1 amp clostridium symbiosum//*//* 0.0035 * +EC2.7.9.1 amp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.002 * +EC2.7.9.1 amp giardia intestinalis//*//* 0.0013 * +EC2.7.9.1 amp komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.0016 * +EC2.7.9.1 amp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0015 * +EC2.7.9.1 amp thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.02 * +EC2.7.9.1 amp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0075 * +EC2.7.9.1 atp acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.2 * +EC2.7.9.1 atp clostridium symbiosum//*//* 0.05 * +EC2.7.9.1 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.284 * +EC2.7.9.1 atp flaveria bidentis//*//* 0.025 * +EC2.7.9.1 atp flaveria brownii//*//* 0.05 * +EC2.7.9.1 atp giardia intestinalis//*//* 0.03 * +EC2.7.9.1 atp komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.4 * +EC2.7.9.1 atp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.004 * +EC2.7.9.1 atp thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 8.0 * +EC2.7.9.1 atp triticum aestivum//*//* 0.036 * +EC2.7.9.1 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.6 * +EC2.7.9.1 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.009 * +EC2.7.9.1 diphosphate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.062 * +EC2.7.9.1 diphosphate arundinaria sp.//*//* 0.04 * +EC2.7.9.1 diphosphate clostridium symbiosum//*//* 0.08 * +EC2.7.9.1 diphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.047 * +EC2.7.9.1 diphosphate giardia intestinalis//*//* 0.029 * +EC2.7.9.1 diphosphate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.06 * +EC2.7.9.1 diphosphate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.08 * +EC2.7.9.1 diphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.05 * +EC2.7.9.1 diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.04 * +EC2.7.9.1 phosphate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.83 * +EC2.7.9.1 phosphate clostridium symbiosum//*//* 0.6 * +EC2.7.9.1 phosphate flaveria bidentis//*//* 0.118 * +EC2.7.9.1 phosphate flaveria brownii//*//* 0.256 * +EC2.7.9.1 phosphate giardia intestinalis//*//* 0.0014 * +EC2.7.9.1 phosphate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.8 * +EC2.7.9.1 phosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 1.0 * +EC2.7.9.1 phosphate triticum aestivum//*//* 0.43 * +EC2.7.9.1 phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.5 * +EC2.7.9.1 phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.134 * +EC2.7.9.1 phosphoenolpyruvate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.13 * +EC2.7.9.1 phosphoenolpyruvate clostridium symbiosum//*//* 0.1 * +EC2.7.9.1 phosphoenolpyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.02 * +EC2.7.9.1 phosphoenolpyruvate giardia intestinalis//*//* 0.024 * +EC2.7.9.1 phosphoenolpyruvate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.1 * +EC2.7.9.1 phosphoenolpyruvate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.5 * +EC2.7.9.1 phosphoenolpyruvate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.04 * +EC2.7.9.1 phosphoenolpyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.046 * +EC2.7.9.1 pyruvate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.027 * +EC2.7.9.1 pyruvate arundinaria sp.//*//* 0.11 * +EC2.7.9.1 pyruvate clostridium symbiosum//*//* 0.08 * +EC2.7.9.1 pyruvate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.068 * +EC2.7.9.1 pyruvate flaveria bidentis//*//* 0.059 * +EC2.7.9.1 pyruvate flaveria brownii//*//* 0.032 * +EC2.7.9.1 pyruvate giardia intestinalis//*//* 0.07 * +EC2.7.9.1 pyruvate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.2 * +EC2.7.9.1 pyruvate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.1 * +EC2.7.9.1 pyruvate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.8 * +EC2.7.9.1 pyruvate triticum aestivum//*//* 0.025 * +EC2.7.9.1 pyruvate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.3 * +EC2.7.9.1 pyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.065 * +EC2.7.9.2 amp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.0 * +EC2.7.9.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC2.7.9.2 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.39 * +EC2.7.9.2 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.47 * +EC2.7.9.2 atp thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 1.0 * +EC2.7.9.2 phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.5 * +EC2.7.9.2 phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 38.4 * +EC2.7.9.2 phosphoenolpyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.4 * +EC2.7.9.2 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.083 * +EC2.7.9.2 pyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.11 * +EC2.7.9.2 pyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.46 * +EC2.7.9.2 pyruvate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.4 * +EC2.7.9.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC2.7.9.3 atp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.3 * +EC2.7.9.3 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.75 * +EC2.7.9.3 selenide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC2.7.9.3 selenide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.025 * +EC2.7.9.3 selenide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.046 * +EC2.7.9.4 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.00023 * +EC2.8.1.1 3-mercaptopyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.7 * +EC2.8.1.1 cn- acinetobacter calcoaceticus//*//* 0.03 * +EC2.8.1.1 cn- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC2.8.1.1 cn- cavia porcellus//*//* 14.2 * +EC2.8.1.1 cn- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.0 * +EC2.8.1.1 cn- fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 3.0 * +EC2.8.1.1 cn- fusarium solani//*//* 2.0 * +EC2.8.1.1 cn- methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 1.57 * +EC2.8.1.1 cn- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.61 * +EC2.8.1.1 cn- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC2.8.1.1 cn- starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.3 * +EC2.8.1.1 cn- trichoderma harzianum//*//* 6.0 * +EC2.8.1.1 cyanide aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.7 * +EC2.8.1.1 cyanide eidolon helvum//*//* 13.5 * +EC2.8.1.1 cyanide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 14.0 * +EC2.8.1.1 h2s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.8 * +EC2.8.1.1 polysulfide aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.05 * +EC2.8.1.1 tetrathionate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 6.9 * +EC2.8.1.1 thioredoxin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.034 * +EC2.8.1.1 thiosulfate acinetobacter calcoaceticus//*//* 3.2 * +EC2.8.1.1 thiosulfate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.0 * +EC2.8.1.1 thiosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC2.8.1.1 thiosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.7 * +EC2.8.1.1 thiosulfate cavia porcellus//*//* 35.7 * +EC2.8.1.1 thiosulfate eidolon helvum//*//* 19.5 * +EC2.8.1.1 thiosulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.6 * +EC2.8.1.1 thiosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC2.8.1.1 thiosulfate methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.53 * +EC2.8.1.1 thiosulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.58 * +EC2.8.1.1 thiosulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC2.8.1.1 thiosulfate rana temporaria//*//* 26.9 * +EC2.8.1.1 thiosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.7 * +EC2.8.1.1 thiosulfate starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 1.0 * +EC2.8.1.1 thiosulfate trametes sanguinea//*//* 8.3 * +EC2.8.1.2 2-mercaptoethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 108.0 * +EC2.8.1.2 2-mercaptoethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 152.0 * +EC2.8.1.2 2-mercaptoethanol trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 19.0 * +EC2.8.1.2 3-mercaptopyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 11.0 * +EC2.8.1.2 3-mercaptopyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.08 * +EC2.8.1.2 3-mercaptopyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.34 * +EC2.8.1.2 3-mercaptopyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.8.1.2 3-mercaptopyruvate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.2 * +EC2.8.1.2 3-mercaptopyruvate rana temporaria//*//* 7.3 * +EC2.8.1.2 3-mercaptopyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.8.1.2 3-mercaptopyruvate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.053 * +EC2.8.1.2 cyanide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.45 * +EC2.8.1.2 cysteine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 8.2 * +EC2.8.1.2 dihydrolipoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC2.8.1.2 dithiothreitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.59 * +EC2.8.1.2 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.0 * +EC2.8.1.2 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC2.8.1.2 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.5 * +EC2.8.1.2 reduced thioredoxin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.3 * +EC2.8.1.2 thioredoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC2.8.1.2 thioredoxin trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.0028 * +EC2.8.1.2 thiosulfate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.7 * +EC2.8.1.2 thiosulfate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 266.0 * +EC2.8.1.3 benzenethiosulfonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.24 * +EC2.8.1.3 cyanide acinetobacter calcoaceticus//*//* 3.0 * +EC2.8.1.3 glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.89 * +EC2.8.1.3 thiosulfate acinetobacter calcoaceticus//*//* 3.2 * +EC2.8.1.3 thiosulfate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.9 * +EC2.8.1.4 3-mercaptopyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0069 * +EC2.8.1.4 l-cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC2.8.1.4 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC2.8.1.4 sulfide methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 1.0 * +EC2.8.1.4 trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0027 * +EC2.8.1.5 dithioerythritol chlorella fusca//*//* 1.54 * +EC2.8.1.5 kcn chlorella fusca//*//* 20.0 * +EC2.8.1.5 nadh thermophilic iron-oxidizing bacterium strain ti-1//*//* 0.125 * +EC2.8.1.5 nadph thermophilic iron-oxidizing bacterium strain ti-1//*//* 5.0 * +EC2.8.1.5 thiosulfate chlorella fusca//*//* 0.156 * +EC2.8.1.5 thiosulfate phormidium uncinatum//*//* 0.1 * +EC2.8.1.5 thiosulfate thermophilic iron-oxidizing bacterium strain ti-1//*//* 0.29 * +EC2.8.1.6 9-mercaptodethiobiotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC2.8.1.6 9-mercaptodethiobiotin lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.005 * +EC2.8.1.6 dethiobiotin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC2.8.1.6 dethiobiotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC2.8.1.6 dethiobiotin lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.0016 * +EC2.8.1.6 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC2.8.1.6 nadh arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC2.8.1.6 nadph arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0024 * +EC2.8.1.6 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC2.8.1.7 [sufu]-cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.003 * +EC2.8.1.7 l-cysteine sulfinic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC2.8.1.7 l-cysteine sulfinic acid synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.28 * +EC2.8.1.7 l-cysteine acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.11 * +EC2.8.1.7 l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.043 * +EC2.8.1.7 l-cysteine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.075 * +EC2.8.1.7 l-cysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.086 * +EC2.8.1.7 l-cysteine lentinula edodes//*//* 1.72 * +EC2.8.1.7 l-cysteine streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 5.1 * +EC2.8.1.7 l-selenocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.9 * +EC2.8.1.7 l-selenocysteine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.13 * +EC2.8.1.7 l-selenocysteine dickeya chrysanthemi//*//* 2.0 * +EC2.8.1.7 l-selenocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC2.8.1.7 l-selenocysteine streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.36 * +EC2.8.1.7 l-selenocysteine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.43 * +EC2.8.1.9 l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC2.8.1.9 l-selenocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC2.8.2.1 1-naphthol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00099 * +EC2.8.2.1 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.8.2.1 2-aminophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC2.8.2.1 2-chlorophenol euglena gracilis//*//* 0.5 * +EC2.8.2.1 2-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.8.2.1 2-naphthol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC2.8.2.1 3'-phosphoadenylyl sulfate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0012 * +EC2.8.2.1 3'-phosphoadenylyl sulfate haliangium ochraceum//prokaryotes;bacteria;deltaproteobacteria;haliangium//hoh 0.004 * +EC2.8.2.1 3'-phosphoadenylylsulfate canis lupus familiaris//*//* 0.0017 * +EC2.8.2.1 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC2.8.2.1 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC2.8.2.1 3,3',5'-triiodo-l-thyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC2.8.2.1 3,3',5-triiodo-d-thyronine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0277 * +EC2.8.2.1 3,3',5-triiodo-l-thyronine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0387 * +EC2.8.2.1 3,3',5-triiodo-l-thyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.084 * +EC2.8.2.1 3,3'-diiodo-l-thyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00051 * +EC2.8.2.1 3,4-dihydroxyphenylglycol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC2.8.2.1 3-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.8.2.1 3-cyano-7-hydroxycoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.8.2.1 3-hydroxybenzo[a]pyrene ictalurus punctatus//eukaryotes;animals;vertebrates;fishes//ipu 5.3e-05 * +EC2.8.2.1 3-hydroxyindole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.2.1 3-methoxy-4-hydroxyphenylglycol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC2.8.2.1 3-methylphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.8.2.1 3-nitro-l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1305 * +EC2.8.2.1 3-nitrophenol euglena gracilis//*//* 0.42 * +EC2.8.2.1 3-nitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC2.8.2.1 3alpha-tibolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC2.8.2.1 3beta-tibolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00042 * +EC2.8.2.1 4-acetamidophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC2.8.2.1 4-chlorophenol euglena gracilis//*//* 0.55 * +EC2.8.2.1 4-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.8.2.1 4-hydroxybiphenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.8.2.1 4-methoxyphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC2.8.2.1 4-methylphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC2.8.2.1 4-nitrophenol canis lupus familiaris//*//* 6.9e-05 * +EC2.8.2.1 4-nitrophenol drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.037 * +EC2.8.2.1 4-nitrophenol euglena gracilis//*//* 1.25 * +EC2.8.2.1 4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00041 * +EC2.8.2.1 4-nitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0032 * +EC2.8.2.1 4-nitrophenol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0033 * +EC2.8.2.1 4-nitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC2.8.2.1 4-nitrophenyl sulfate haliangium ochraceum//prokaryotes;bacteria;deltaproteobacteria;haliangium//hoh 0.0459 * +EC2.8.2.1 5-hydroxyindole rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.8.2.1 5-hydroxytryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.53 * +EC2.8.2.1 6-hydroxydopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC2.8.2.1 6-hydroxymelatonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC2.8.2.1 6-hydroxymelatonin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC2.8.2.1 6-hydroxymelatonin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC2.8.2.1 6-hydroxymelatonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.8.2.1 7-hydroxybenzo[a]pyrene ictalurus punctatus//eukaryotes;animals;vertebrates;fishes//ipu 0.000125 * +EC2.8.2.1 7-hydroxyserotonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.8.2.1 9-hydroxybenzo[a]pyrene ictalurus punctatus//eukaryotes;animals;vertebrates;fishes//ipu 3.6e-05 * +EC2.8.2.1 acetaminophen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC2.8.2.1 adenosine 2',3'-cyclic phosphate 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC2.8.2.1 adenosine 2',5'-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC2.8.2.1 adenosine 3',5'-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0004 * +EC2.8.2.1 adenosine 5'-monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC2.8.2.1 apigenin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00172 * +EC2.8.2.1 beta-estradiol canis lupus familiaris//*//* 0.014 * +EC2.8.2.1 beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC2.8.2.1 beta-naphthol danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0977 * +EC2.8.2.1 chrysin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC2.8.2.1 d-3,4-dihydroxyphenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.44 * +EC2.8.2.1 daidzein 4'-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0443 * +EC2.8.2.1 daidzein 7-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0435 * +EC2.8.2.1 daidzein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00047 * +EC2.8.2.1 dihydroxyphenylacetic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC2.8.2.1 dobutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC2.8.2.1 dopamine canis lupus familiaris//*//* 0.0036 * +EC2.8.2.1 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC2.8.2.1 dopamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.098 * +EC2.8.2.1 dopamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.5 * +EC2.8.2.1 dopamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.8.2.1 epicatechin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC2.8.2.1 genistein 4'-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0114 * +EC2.8.2.1 genistein 7-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC2.8.2.1 genistein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00051 * +EC2.8.2.1 homovanillic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC2.8.2.1 hydroquinone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC2.8.2.1 l-3,4-dihydroxyphenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC2.8.2.1 l-4-hydroxyphenylglycine euglena gracilis//*//* 0.714 * +EC2.8.2.1 l-thyroxine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0445 * +EC2.8.2.1 l-thyroxine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.101 * +EC2.8.2.1 l-triiodothyronine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0939 * +EC2.8.2.1 l-tyrosine euglena gracilis//*//* 0.033 * +EC2.8.2.1 minoxidil canis lupus familiaris//*//* 0.55 * +EC2.8.2.1 minoxidil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC2.8.2.1 norepinephrine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.8.2.1 p-nitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00035 * +EC2.8.2.1 phenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.8.2.1 quercetin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0351 * +EC2.8.2.1 resveratrol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC2.8.2.1 ritodrine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.438 * +EC2.8.2.1 serotonin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.133 * +EC2.8.2.1 trans-resveratrol-3-o sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC2.8.2.1 tyrosylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.833 * +EC2.8.2.1 vanillylmandelic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.8.2.1 xanthurenic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0433 * +EC2.8.2.1 xanthurenic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00053 * +EC2.8.2.11 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.8.2.11 3'-phosphoadenylylsulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC2.8.2.11 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC2.8.2.11 cerebroside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0603 * +EC2.8.2.11 cerebroside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.026 * +EC2.8.2.11 galactocerebroside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.8.2.11 galactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC2.8.2.11 psychosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.103 * +EC2.8.2.13 galactosylsphingosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC2.8.2.14 3'-phosphoadenylylsulfate cavia porcellus//*//* 0.0014 * +EC2.8.2.14 3'-phosphoadenylylsulfate heterodontus portusjacksoni//*//* 0.004 * +EC2.8.2.14 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC2.8.2.14 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC2.8.2.14 3-beta-5-cholenic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC2.8.2.14 3alpha,7alpha,12alpha-cholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC2.8.2.14 3alpha-7alpha-chenodeoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC2.8.2.14 5beta-scymnol heterodontus portusjacksoni//*//* 0.014 * +EC2.8.2.14 chenodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01566 * +EC2.8.2.14 chenodeoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01566 * +EC2.8.2.14 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC2.8.2.14 deoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00886 * +EC2.8.2.14 deoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00886 * +EC2.8.2.14 glycine conjugated chenodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04899 * +EC2.8.2.14 glycine conjugated deoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05459 * +EC2.8.2.14 glycine conjugated lithocholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00192 * +EC2.8.2.14 glycine conjugated ursodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04957 * +EC2.8.2.14 glycochenodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03673 * +EC2.8.2.14 glycolithocholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.8.2.14 glycolithocholate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.8.2.14 lithocholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC2.8.2.14 lithocholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00202 * +EC2.8.2.14 petromyzonol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04938 * +EC2.8.2.14 taurine conjugated chenodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04509 * +EC2.8.2.14 taurine conjugated deoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01836 * +EC2.8.2.14 taurine conjugated lithocholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00186 * +EC2.8.2.14 taurine conjugated ursodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00993 * +EC2.8.2.14 taurolithocholate cavia porcellus//*//* 0.077 * +EC2.8.2.14 taurolithocholate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC2.8.2.14 ursodeoxycholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01286 * +EC2.8.2.14 ursodeoxycholic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01286 * +EC2.8.2.15 1-naphthol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC2.8.2.15 17alpha-ethynylestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.191 * +EC2.8.2.15 17beta-estradiol cavia porcellus//*//* 0.000125 * +EC2.8.2.15 17beta-estradiol danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0091 * +EC2.8.2.15 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1e-05 * +EC2.8.2.15 24-epicathasterone brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.0014 * +EC2.8.2.15 24-epiteasterone brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.003 * +EC2.8.2.15 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC2.8.2.15 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00628 * +EC2.8.2.15 3,3',5-triiodothyronine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0036 * +EC2.8.2.15 3,4-dihydroxyphenylacetic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0209 * +EC2.8.2.15 3-(10,11-dihydro-5h-dibenzo[b,f]azepin-5-yl)-n-methylpropan-1-amine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.238 * +EC2.8.2.15 4'-hydroxy-2',3,4-trichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0262 * +EC2.8.2.15 4'-hydroxy-2,3',4-trichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC2.8.2.15 4-hydroxy-2',3,5-trichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC2.8.2.15 4-hydroxy-2,4'-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0568 * +EC2.8.2.15 4-hydroxy-3,3',5-trichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0136 * +EC2.8.2.15 4-hydroxy-3,3'-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0366 * +EC2.8.2.15 4-hydroxy-3,5-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC2.8.2.15 4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0399 * +EC2.8.2.15 allopregnanolone cavia porcellus//*//* 0.00019 * +EC2.8.2.15 androstenediol brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.012 * +EC2.8.2.15 androsterone cavia porcellus//*//* 0.00026 * +EC2.8.2.15 androsterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC2.8.2.15 cortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00682 * +EC2.8.2.15 dehydroepiandrosterone brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.02 * +EC2.8.2.15 dehydroepiandrosterone cavia porcellus//*//* 0.000788 * +EC2.8.2.15 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC2.8.2.15 dehydroepiandrosterone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0051 * +EC2.8.2.15 dehydroepidandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC2.8.2.15 diethylstilbestrol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00046 * +EC2.8.2.15 estradiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC2.8.2.15 estrone danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0125 * +EC2.8.2.15 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.05e-05 * +EC2.8.2.15 l-triiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.145 * +EC2.8.2.15 n-propyl gallate danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0283 * +EC2.8.2.15 pregnenolone brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.014 * +EC2.8.2.15 pregnenolone cavia porcellus//*//* 0.00025 * +EC2.8.2.15 pregnenolone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.8.2.15 testosterone cavia porcellus//*//* 0.0002 * +EC2.8.2.15 thyroxine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0046 * +EC2.8.2.15 xanthurenic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC2.8.2.15 xanthurenic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC2.8.2.16 3'-phosphoadenylylsulfate cyanophora paradoxa//*//* 0.0083 * +EC2.8.2.16 3'-phosphoadenylylsulfate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.02 * +EC2.8.2.17 3'-phosphoadenylylsulfate coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.00011 * +EC2.8.2.17 3'-phosphoadenylylsulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0007 * +EC2.8.2.17 3'-phosphoadenylylsulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC2.8.2.17 chondroitin 4-sulfate coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.00049 * +EC2.8.2.17 chondroitin 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC2.8.2.17 chondroitin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC2.8.2.17 chondroitin coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.15 * +EC2.8.2.17 decasaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.9 * +EC2.8.2.17 desulfated chondroitin sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC2.8.2.17 dodecasaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.48 * +EC2.8.2.17 glcuabeta(1->3)galnac(4s)beta(1->4)glcuabeta(1->3)gal(4s)beta(1->3)galbeta(1->4)xylbeta(1->o)-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC2.8.2.17 hexasaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC2.8.2.17 n-acetylgalactosamine 4-sulfate coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.36 * +EC2.8.2.17 native chondroitin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.06 * +EC2.8.2.17 octasaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC2.8.2.17 udp-n-acetylgalactosamine 4-sulfate coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.027 * +EC2.8.2.18 3'-phosphoadenylylsulfate cavia porcellus//*//* 0.15 * +EC2.8.2.18 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00628 * +EC2.8.2.18 cortisol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC2.8.2.18 cortisol cavia porcellus//*//* 0.06 * +EC2.8.2.18 cortisol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.007 * +EC2.8.2.18 cortisol meriones sp.//*//* 0.009 * +EC2.8.2.18 cortisol mesocricetus auratus//*//* 0.009 * +EC2.8.2.18 cortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00648 * +EC2.8.2.19 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00085 * +EC2.8.2.19 alpha-d-glucosyl-1,6-alpha-d-glucosyl-1,6-alpha-d-glucosyl-1,3-1-o-alkyl-2-o-acylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0588 * +EC2.8.2.2 (12-methyltetraphen-7-yl)methanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.8.2.2 (r)-(+)-1-naphthyl-1-ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.96 * +EC2.8.2.2 (r)-(+)-1-phenyl-1-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.8.2.2 (r)-(-)-2-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC2.8.2.2 (s)-(+)-2-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.9 * +EC2.8.2.2 (s)-(-)-1-phenyl-1-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC2.8.2.2 1-amylalcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.8.2.2 1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC2.8.2.2 1-decanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC2.8.2.2 1-dodecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC2.8.2.2 1-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC2.8.2.2 1-hexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC2.8.2.2 1-methylcyclohexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.8 * +EC2.8.2.2 1-nonanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.37 * +EC2.8.2.2 1-octanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.77 * +EC2.8.2.2 1-pentanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC2.8.2.2 1-propanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.0 * +EC2.8.2.2 1-tetradecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC2.8.2.2 1-tridecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC2.8.2.2 1-undecanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC2.8.2.2 11-deoxycorticosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.52 * +EC2.8.2.2 17-hydroxypregnenolone cavia porcellus//*//* 0.000897 * +EC2.8.2.2 2'-fluoro-4-hydroxy-3,5-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC2.8.2.2 2-ethylphenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.16 * +EC2.8.2.2 2-fluoro-4-hydroxy-3,5-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0256 * +EC2.8.2.2 2-methyl-2-hexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.6 * +EC2.8.2.2 2-nitrophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.312 * +EC2.8.2.2 2-propanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC2.8.2.2 3'-fluoro-4-hydroxy-3,5-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC2.8.2.2 3'-phosphoadenylyl sulfate rana catesbeiana//*//* 0.00109 * +EC2.8.2.2 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC2.8.2.2 3'-phosphoadenylylsulfate mesocricetus auratus//*//* 0.062 * +EC2.8.2.2 3'-phosphoadenylylsulfate petromyzon marinus//*//* 0.0025 * +EC2.8.2.2 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.8.2.2 3,3',5-triiodothyroacetic acid rana catesbeiana//*//* 0.00477 * +EC2.8.2.2 3,3',5-triiodothyronine rana catesbeiana//*//* 0.00022 * +EC2.8.2.2 3,3'-diiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00295 * +EC2.8.2.2 3,5-diiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00484 * +EC2.8.2.2 3-ethyl-3-pentanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.3 * +EC2.8.2.2 3-ethylphenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.152 * +EC2.8.2.2 3-methyl-1-butanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.8.2.2 3-nitrophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.475 * +EC2.8.2.2 3beta,20beta-pregnenediol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00063 * +EC2.8.2.2 4'-fluoro-4-hydroxy-3,5-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0121 * +EC2.8.2.2 4,4'-isopropylidenediphenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC2.8.2.2 4-(1,1,3,3-tetramethylbutyl)phenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC2.8.2.2 4-butylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.2.2 4-ethylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC2.8.2.2 4-ethylphenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.135 * +EC2.8.2.2 4-heptanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.2 * +EC2.8.2.2 4-heptylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC2.8.2.2 4-hexylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC2.8.2.2 4-hydroxy-3,5-dichlorobiphenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC2.8.2.2 4-methylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.2.2 4-n-nonylphenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0715 * +EC2.8.2.2 4-nitrophenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.276 * +EC2.8.2.2 4-octylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.8.2.2 4-pentylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC2.8.2.2 4-propylbenzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC2.8.2.2 5alpha-petromyzonol petromyzon marinus//*//* 0.008 * +EC2.8.2.2 7-hydroxymethyl-12-methylbenz[a]anthracene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.72 * +EC2.8.2.2 aldosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC2.8.2.2 allopregnanolone cavia porcellus//*//* 8.3e-05 * +EC2.8.2.2 androsterone cavia porcellus//*//* 0.000175 * +EC2.8.2.2 benzyl alcohol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0685 * +EC2.8.2.2 benzyl alcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.8 * +EC2.8.2.2 beta-estradiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC2.8.2.2 budesonide-22r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0209 * +EC2.8.2.2 budesonide-22s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0111 * +EC2.8.2.2 cholesterol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC2.8.2.2 cis-4-methylcyclohexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.5 * +EC2.8.2.2 cortisol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC2.8.2.2 cycloheximide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC2.8.2.2 cyclohexylmethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC2.8.2.2 daidzein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1673 * +EC2.8.2.2 dehydroepiandrosterone cavia porcellus//*//* 0.001157 * +EC2.8.2.2 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC2.8.2.2 dehydroepiandrosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC2.8.2.2 e-(+)-alpha-hydroxytamoxifen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0465 * +EC2.8.2.2 e-(-)-alpha-hydroxytamoxifen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0358 * +EC2.8.2.2 estriol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC2.8.2.2 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 42.0 * +EC2.8.2.2 genistein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC2.8.2.2 hexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC2.8.2.2 isoamylalcohol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.8.2.2 m-cresol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC2.8.2.2 minoxidil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC2.8.2.2 o-cresol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.035 * +EC2.8.2.2 p-cresol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.494 * +EC2.8.2.2 pregnenolone cavia porcellus//*//* 0.000257 * +EC2.8.2.2 pregnenolone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC2.8.2.2 r-(+)-1-naphthyl-1-ethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC2.8.2.2 r-(+)-2-naphthyl-1-ethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC2.8.2.2 s-(-)-2-naphthyl-1-ethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.54 * +EC2.8.2.2 testosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.2.2 tetraiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00136 * +EC2.8.2.2 trans-4-methylcyclohexanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.1 * +EC2.8.2.2 triiodothyronine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00607 * +EC2.8.2.2 z-(+)-alpha-hydroxytamoxifen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0669 * +EC2.8.2.2 z-(-)-alpha-hydroxytamoxifen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0405 * +EC2.8.2.20 3'-phosphoadenylyl sulfate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0021 * +EC2.8.2.20 3'-phosphoadenylyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC2.8.2.20 3'-phosphoadenylylsulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0014 * +EC2.8.2.20 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00025 * +EC2.8.2.20 [y+3 peptide]-l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC2.8.2.20 atefefldydfl danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0315 * +EC2.8.2.20 atefeyldydfl danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0085 * +EC2.8.2.20 ateyefldydfl danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0052 * +EC2.8.2.20 ateyeyldydfl danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0359 * +EC2.8.2.20 benzyl-glu-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.223 * +EC2.8.2.20 cck-(107-115) hirudo medicinalis//*//* 0.017 * +EC2.8.2.20 eay rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4e-05 * +EC2.8.2.20 eefhtdyiytqdvk asparagus officinalis//eukaryotes;plants;monocots;asparagus family//aof 0.457 * +EC2.8.2.20 eefhtdyiytqdvk oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.071 * +EC2.8.2.20 kke(epeyge)2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0017 * +EC2.8.2.20 kke(epeyge)3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.4e-05 * +EC2.8.2.20 kkeepeyge(epefge)2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00034 * +EC2.8.2.20 kkeepeyge bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC2.8.2.20 kksaedyeypsmg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.021 * +EC2.8.2.20 kksaedyqypsmg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.37 * +EC2.8.2.20 kksaenyeypsmg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.55 * +EC2.8.2.20 kksaenyqypsmg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.59 * +EC2.8.2.20 p-selectin glycoprotein ligand-1 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.011 * +EC2.8.2.20 peptide cck-(107-115) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC2.8.2.20 peptide cck-2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC2.8.2.20 peptide cck-3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC2.8.2.20 peptide ccki bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.035 * +EC2.8.2.20 peptide eay homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC2.8.2.20 peptide eay rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC2.8.2.20 peptide hir-(57-65) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC2.8.2.20 peptide hir-(57-65) hirudo medicinalis//*//* 0.41 * +EC2.8.2.20 peptide tub-1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC2.8.2.20 psgl-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC2.8.2.20 recombinant hirudin hv2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.6 * +EC2.8.2.20 statherin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC2.8.2.20 tyr-tyr-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0175 * +EC2.8.2.20 vtdsyysypdi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC2.8.2.20 vtdsyyypdi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC2.8.2.20 vtdyyypdi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0193 * +EC2.8.2.21 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00058 * +EC2.8.2.21 keratan sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC2.8.2.21 keratan sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC2.8.2.22 4-methylumbelliferyl sulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0445 * +EC2.8.2.22 4-nitrophenyl sulfate eubacterium sp.//*//* 0.104 * +EC2.8.2.22 4-nitrophenyl sulfate haemophilus sp.//*//* 0.095 * +EC2.8.2.22 4-nitrophenyl sulfate klebsiella sp.//*//* 0.11 * +EC2.8.2.22 4-nitrophenyl sulfate lelliottia amnigena//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;lelliottia//laz 0.163 * +EC2.8.2.22 4-nitrophenyl sulfate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0481 * +EC2.8.2.22 methylumbelliferone sulfate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0345 * +EC2.8.2.22 phenol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.35 * +EC2.8.2.22 phenol haemophilus sp.//*//* 0.71 * +EC2.8.2.22 phenol klebsiella sp.//*//* 0.66 * +EC2.8.2.22 phenol lelliottia amnigena//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;lelliottia//laz 0.314 * +EC2.8.2.22 phenol streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0259 * +EC2.8.2.22 tyramine eubacterium sp.//*//* 3.5 * +EC2.8.2.23 3'-phosphoadenosine 5'-phosphosulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC2.8.2.23 glcnso3(6-oso3)-glca-glcnso3(6-oso3)-idoa(2-oso3)-glcnso3(6-oso3) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC2.8.2.24 3'-phosphoadenosine-5'-phosphosulfate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC2.8.2.24 3'-phosphoadenylylsulfate brassica juncea//*//* 0.00078 * +EC2.8.2.24 3'-phosphoadenylylsulfate lepidium sativum//*//* 0.06 * +EC2.8.2.24 desulfo-3-methylthiopropylglucosinolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.055 * +EC2.8.2.24 desulfo-4-methylthiobutylglucosinolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.043 * +EC2.8.2.24 desulfo-p-hydroxy-benzylglucosinolate lepidium sativum//*//* 0.67 * +EC2.8.2.24 desulfoallylglucosinolate lepidium sativum//*//* 0.0065 * +EC2.8.2.24 desulfobenzylglucosinolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.025 * +EC2.8.2.24 desulfobenzylglucosinolate brassica juncea//*//* 0.0023 * +EC2.8.2.24 desulfobenzylglucosinolate lepidium sativum//*//* 0.082 * +EC2.8.2.24 glucoerucin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.043 * +EC2.8.2.24 glucoiberverin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.055 * +EC2.8.2.25 3'-phosphoadenylylsulfate flaveria chlorifolia//*//* 0.00018 * +EC2.8.2.25 quercetin flaveria chlorifolia//*//* 0.0002 * +EC2.8.2.25 rhamnetin flaveria chlorifolia//*//* 0.0002 * +EC2.8.2.26 3'-phosphoadenylylsulfate flaveria chlorifolia//*//* 0.00035 * +EC2.8.2.26 quercetin 3-sulfate flaveria chlorifolia//*//* 0.00029 * +EC2.8.2.27 3'-phosphoadenylylsulfate flaveria chlorifolia//*//* 0.00038 * +EC2.8.2.27 quercetin 3-sulfate flaveria chlorifolia//*//* 0.00036 * +EC2.8.2.28 3'-phosphoadenylylsulfate flaveria bidentis//*//* 0.00033 * +EC2.8.2.28 quercetin 3,3'-disulfate flaveria bidentis//*//* 0.0002 * +EC2.8.2.28 quercetin 3,4'-disulfate flaveria bidentis//*//* 0.00026 * +EC2.8.2.3 1,2,3,4-tetrahydroisoquinoline cavia porcellus//*//* 14.0 * +EC2.8.2.3 1,2,3,4-tetrahydroquinoline cavia porcellus//*//* 38.0 * +EC2.8.2.3 1-naphthol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0157 * +EC2.8.2.3 1-naphthylamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2331 * +EC2.8.2.3 2-naphthylamine cavia porcellus//*//* 3400.0 * +EC2.8.2.3 2-naphthylamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.322 * +EC2.8.2.3 3'-phosphoadenylylsulfate cavia porcellus//*//* 0.03 * +EC2.8.2.3 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC2.8.2.3 3'-phosphoadenylylsulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC2.8.2.3 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC2.8.2.3 4-phenyl-1,2,3,6-tetrahydropyridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.382 * +EC2.8.2.31 3'-phosphoadenosine 5'-phosphosulfate petromyzon marinus//*//* 0.0025 * +EC2.8.2.31 sinapic acid methyl ester petromyzon marinus//*//* 0.008 * +EC2.8.2.32 (24r)-3alpha,7alpha,12alpha,24,26-pentahydroxy-5-beta-cholestane-27-ol trygonoptera sp.//*//* 0.018 * +EC2.8.2.32 (24r)-3alpha,7alpha,12alpha,24,26-pentahydroxy-5beta-cholestane-27-ol heterodontus portusjacksoni//*//* 0.003 * +EC2.8.2.32 (24r)-3alpha,7alpha,12alpha,24,26-pentahydroxy-5beta-cholestane-27-ol trygonorrhina fasciata//*//* 0.0059 * +EC2.8.2.32 3'-phosphoadenosine 5'-phosphosulfate heterodontus portusjacksoni//*//* 0.0044 * +EC2.8.2.32 3'-phosphoadenosine-5'-phosphosulfate heterodontus portusjacksoni//*//* 0.004 * +EC2.8.2.32 5beta-scymnol heterodontus portusjacksoni//*//* 0.014 * +EC2.8.2.33 3'-phosphoadenylyl sulfate squid//*//* 0.0005 * +EC2.8.2.33 chondroitin sulfate a squid//*//* 0.0011 * +EC2.8.2.33 chondroitin sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC2.8.2.33 dermatan sulfate squid//*//* 0.0013 * +EC2.8.2.33 galnac(4so4)-d-glucuronic acid-galnac(4so4) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC2.8.2.33 galnac(4so4)-d-glucuronic acid-galnac(6so4) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC2.8.2.33 galnac(4so4)-glc(2so4)-galnac(6so4) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC2.8.2.33 udp-galnac 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC2.8.2.34 3beta-hydroxy-5beta-cholanoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00024 * +EC2.8.2.34 dehydroepiandrosterone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00072 * +EC2.8.2.34 glycochenodeoxycholate mesocricetus auratus//*//* 0.00023 * +EC2.8.2.34 lithocholate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC2.8.2.37 3'-phosphoadenylyl sulfate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.018 * +EC2.8.2.37 alpha,alpha-trehalose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 18.0 * +EC2.8.2.37 alpha,alpha-trehalose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 15.0 * +EC2.8.2.4 16-epiestriol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC2.8.2.4 17-deoxyestrone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC2.8.2.4 17-epiestriol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC2.8.2.4 17beta-estradiol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC2.8.2.4 17beta-estradiol cavia porcellus//*//* 7e-05 * +EC2.8.2.4 17beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-06 * +EC2.8.2.4 17beta-estradiol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6e-06 * +EC2.8.2.4 2-(4-aminophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00211 * +EC2.8.2.4 2-(4-cyanophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00025 * +EC2.8.2.4 2-(4-dimethylaminophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00142 * +EC2.8.2.4 2-(4-fluorophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00056 * +EC2.8.2.4 2-(4-iodophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00052 * +EC2.8.2.4 2-(4-methoxyphenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC2.8.2.4 2-(4-methylamino-3-fluorophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC2.8.2.4 2-(4-methylaminophenyl)-1,3-benzothiazol-5-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00077 * +EC2.8.2.4 2-(4-methylaminophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00142 * +EC2.8.2.4 2-(4-methylsulfonylphenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00132 * +EC2.8.2.4 2-(4-n-acetylaminophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00236 * +EC2.8.2.4 2-(4-nitrophenyl)-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00012 * +EC2.8.2.4 2-[4-dimethylaminophenyl]-1,3-benzothiazol-5-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00043 * +EC2.8.2.4 2-naphthol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00591 * +EC2.8.2.4 2-phenyl-1,3-benzothiazol-6-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00099 * +EC2.8.2.4 3'-phosphoadenylyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-06 * +EC2.8.2.4 3'-phosphoadenylylsulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC2.8.2.4 3'-phosphoadenylylsulfate cavia porcellus//*//* 0.0012 * +EC2.8.2.4 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9e-05 * +EC2.8.2.4 4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC2.8.2.4 8-bromoadenosine 3'-phosphate 5'-phosphosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC2.8.2.4 adenosine 3',5'-bisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC2.8.2.4 adenosine 3',5'-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8e-05 * +EC2.8.2.4 adenosine 3'-phosphate 5'-phosphosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.044 * +EC2.8.2.4 androstenediol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003224 * +EC2.8.2.4 beta-estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC2.8.2.4 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC2.8.2.4 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2407 * +EC2.8.2.4 estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-06 * +EC2.8.2.4 estradiol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.5e-05 * +EC2.8.2.4 estriol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC2.8.2.4 estriol cavia porcellus//*//* 4e-05 * +EC2.8.2.4 estrone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0027 * +EC2.8.2.4 estrone cavia porcellus//*//* 6e-05 * +EC2.8.2.4 estrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC2.8.2.4 ethinyl estradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-06 * +EC2.8.2.4 formycin 3'-phosphate 5'-phosphosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC2.8.2.4 p-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0766 * +EC2.8.2.4 quercetin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00032 * +EC2.8.2.4 resveratrol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00058 * +EC2.8.2.4 tubercidin 3'-phosphate 5'-phosphosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.021 * +EC2.8.2.5 3'-phosphoadenylylsulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.3 * +EC2.8.2.5 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00027 * +EC2.8.2.5 chondroitin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC2.8.2.6 3'-phosphoadenylylsulfate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0222 * +EC2.8.2.6 3'-phosphoadenylylsulfate limonium perezii//*//* 0.0055 * +EC2.8.2.6 3'-phosphoadenylylsulfate penicillium chrysogenum//*//* 0.012 * +EC2.8.2.6 choline aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 12.0 * +EC2.8.2.6 choline limonium perezii//*//* 0.025 * +EC2.8.2.6 choline penicillium chrysogenum//*//* 0.017 * +EC2.8.2.6 dimethylaminoethanol aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 25.0 * +EC2.8.2.6 dimethylethylaminoethanol aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 20.0 * +EC2.8.2.6 n,n,n-triethylaminoethanol penicillium chrysogenum//*//* 2.8 * +EC2.8.2.6 n,n-dimethylaminoethanol penicillium chrysogenum//*//* 0.8 * +EC2.8.2.7 chondroitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.56 * +EC2.8.2.7 delta4,5-glucuronido-n-acetylgalactosamine 4-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.0 * +EC2.8.2.7 dermatan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC2.8.2.7 n-acetylgalactosamine 1-phosphate 4-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.13 * +EC2.8.2.7 n-acetylgalactosamine 4-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.4 * +EC2.8.2.7 udp-n-acetylgalactosamine 4-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC2.8.2.8 3'-phosphoadenylylsulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0173 * +EC2.8.2.8 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC2.8.2.8 3'-phosphoadenylylsulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC2.8.2.8 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC2.8.2.8 n,o-desulfoheparan sulfate tetrasaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC2.8.2.8 n-deacetylase k5-polysaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0087 * +EC2.8.2.8 n-deacetylase k5-polysaccharide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0009 * +EC2.8.2.8 n-desulfoheparan sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.89 * +EC2.8.2.8 n-desulfoheparin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC2.8.2.9 (r)-(-)-1,2,3,4-tetrahydro-1-naphthol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.8.2.9 2-chloro-4-nitrophenyl sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC2.8.2.9 2-chlorophenol euglena gracilis//*//* 0.5 * +EC2.8.2.9 2-cyanoethyl-n-hydroxythioacetamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.9 * +EC2.8.2.9 2-naphthol euglena gracilis//*//* 0.1 * +EC2.8.2.9 2-naphthol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC2.8.2.9 2-naphthylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC2.8.2.9 3'-phosphoadenylylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000203 * +EC2.8.2.9 3'-phosphoadenylylsulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00012 * +EC2.8.2.9 3-chlorophenol euglena gracilis//*//* 0.39 * +EC2.8.2.9 3-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.39 * +EC2.8.2.9 3-methoxy-4-hydroxyphenylglycol euglena gracilis//*//* 0.2 * +EC2.8.2.9 3-methoxy-4-hydroxyphenylglycol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC2.8.2.9 3-nitrophenol euglena gracilis//*//* 0.416 * +EC2.8.2.9 3-nitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC2.8.2.9 4-chloro-n-hydroxyaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC2.8.2.9 4-chlorophenol euglena gracilis//*//* 0.55 * +EC2.8.2.9 4-chlorophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC2.8.2.9 4-methoxyphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC2.8.2.9 4-methylphenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC2.8.2.9 4-nitrophenol euglena gracilis//*//* 1.25 * +EC2.8.2.9 4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00775 * +EC2.8.2.9 4-nitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.072 * +EC2.8.2.9 5-hydroxytryptophol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC2.8.2.9 adenosine 3',5'-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.4 * +EC2.8.2.9 adenosine 3'-phosphate 5'-sulfophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8e-06 * +EC2.8.2.9 alatyr euglena gracilis//*//* 0.35 * +EC2.8.2.9 dopamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC2.8.2.9 epinephrine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC2.8.2.9 estrone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC2.8.2.9 glytyr euglena gracilis//*//* 2.5 * +EC2.8.2.9 hydrocortisone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC2.8.2.9 l-4-hydroxyphenylglycine euglena gracilis//*//* 0.714 * +EC2.8.2.9 l-tyrosine benzyl ester euglena gracilis//*//* 0.133 * +EC2.8.2.9 l-tyrosine ethyl ester euglena gracilis//*//* 0.37 * +EC2.8.2.9 l-tyrosine methyl ester euglena gracilis//*//* 0.15 * +EC2.8.2.9 l-tyrosine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC2.8.2.9 l-tyrosine tert-butyl ester euglena gracilis//*//* 0.08 * +EC2.8.2.9 l-tyrosine euglena gracilis//*//* 0.033 * +EC2.8.2.9 n-acetylserotonin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC2.8.2.9 n-ethyl-n-hydroxyaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC2.8.2.9 n-hydroxy-n-ethylaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC2.8.2.9 n-hydroxy-n-methylaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.119 * +EC2.8.2.9 n-hydroxy-n-n-propylaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.161 * +EC2.8.2.9 n-hydroxyaniline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC2.8.2.9 phenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.92 * +EC2.8.2.9 quercetin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00085 * +EC2.8.2.9 t-butyloxycarbonyl-cholecystokinin-octapeptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC2.8.2.9 tyr-gly euglena gracilis//*//* 0.833 * +EC2.8.2.9 tyramine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.46 * +EC2.8.2.9 tyrosine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.91 * +EC2.8.2.9 tyrosine methylester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.62 * +EC2.8.2.B1 adenosine 5'-phosphosulfate euglena gracilis//*//* 0.0001 * +EC2.8.2.B1 adenosine 5'-phosphosulfate nicotiana sylvestris//eukaryotes;plants;eudicots;nightshade family//nsy 0.011 * +EC2.8.2.B1 adenosine 5'-phosphosulfate picea abies//*//* 29.0 * +EC2.8.2.B1 adenosine 5'-phosphosulfate pyropia yezoensis//*//* 0.0021 * +EC2.8.2.B1 adenosine 5'-phosphosulfate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.05 * +EC2.8.2.B1 adenosine 5'-phosphosulfate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.013 * +EC2.8.2.B1 dithioerythritol pyropia yezoensis//*//* 1.5 * +EC2.8.2.B1 dithioerythritol spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.6 * +EC2.8.2.B1 dithiothreitol pyropia yezoensis//*//* 1.5 * +EC2.8.2.B1 glutathione pyropia yezoensis//*//* 0.6 * +EC2.8.2.B1 reduced l-glutathione pyropia yezoensis//*//* 0.6 * +EC2.8.3.1 3-hydroxybutyrate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.5 * +EC2.8.3.1 acetate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.5 * +EC2.8.3.1 acetyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.6 * +EC2.8.3.1 propionate anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 0.035 * +EC2.8.3.1 propionyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.3 * +EC2.8.3.10 (3s)-citryl-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.2 * +EC2.8.3.10 acetyl-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.3 * +EC2.8.3.10 acetyl-dephospho-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.3 * +EC2.8.3.10 butyryl-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.3 * +EC2.8.3.10 propionyl-coa klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.3 * +EC2.8.3.12 (r)-2-hydroxyglutarate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 1.5 * +EC2.8.3.12 (r)-2-hydroxyglutaryl-1-coa acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.035 * +EC2.8.3.12 (s)-2-hydroxyglutarate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 14.0 * +EC2.8.3.12 3-hydroxyglutarate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 13.0 * +EC2.8.3.12 acetate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 26.0 * +EC2.8.3.12 acetyl-coa acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.17 * +EC2.8.3.12 acrylate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 10.0 * +EC2.8.3.12 adipate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 8.0 * +EC2.8.3.12 butyrate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 150.0 * +EC2.8.3.12 crotonate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 500.0 * +EC2.8.3.12 glutaconate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.2 * +EC2.8.3.12 glutaconyl-coa acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.017 * +EC2.8.3.12 glutarate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.7 * +EC2.8.3.12 glutaryl-coa acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 0.015 * +EC2.8.3.12 isocrotonate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 100.0 * +EC2.8.3.12 propionate acidaminococcus fermentans//prokaryotes;bacteria;firmicutes - others;acidaminococcus//afn 16.0 * +EC2.8.3.13 3-hydroxy-3-methylglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC2.8.3.13 3-hydroxy-3-methylglutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.8.3.13 adipate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.39 * +EC2.8.3.13 adipyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.3.13 glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC2.8.3.13 glutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.3.13 malonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.01 * +EC2.8.3.13 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC2.8.3.13 methylmalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.95 * +EC2.8.3.13 methylmalonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC2.8.3.13 succinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC2.8.3.13 succinyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC2.8.3.13 succinylcoa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC2.8.3.14 (z)-5-hydroxy-2-pentenoate anaerocolumna aminovalerica//*//* 4.0 * +EC2.8.3.14 (z)-5-hydroxypentenoyl-coa anaerocolumna aminovalerica//*//* 0.03 * +EC2.8.3.14 5-hydroxypentanoyl-coa anaerocolumna aminovalerica//*//* 0.0038 * +EC2.8.3.14 acetate anaerocolumna aminovalerica//*//* 20.0 * +EC2.8.3.14 acetyl-coa anaerocolumna aminovalerica//*//* 0.018 * +EC2.8.3.14 butyryl-coa anaerocolumna aminovalerica//*//* 0.029 * +EC2.8.3.14 pentanoyl-coa anaerocolumna aminovalerica//*//* 0.037 * +EC2.8.3.14 propionyl-coa anaerocolumna aminovalerica//*//* 0.009 * +EC2.8.3.15 (r)-2-benzylsuccinyl-coa thauera aromatica//*//* 0.04 * +EC2.8.3.15 succinate thauera aromatica//*//* 0.16 * +EC2.8.3.16 formyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.0034 * +EC2.8.3.16 formyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC2.8.3.16 formyl-coa oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 0.002 * +EC2.8.3.16 oxalate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 1.11 * +EC2.8.3.16 oxalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.51 * +EC2.8.3.16 oxalate oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 0.43 * +EC2.8.3.16 succinate oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 2.3 * +EC2.8.3.17 cinnamoyl-coa clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.003 * +EC2.8.3.17 phenylpropionate clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.009 * +EC2.8.3.18 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 29.0 * +EC2.8.3.18 acetoacetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 130.0 * +EC2.8.3.18 acetyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.022 * +EC2.8.3.18 succinate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.9 * +EC2.8.3.18 succinate trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.36 * +EC2.8.3.18 succinate tritrichomonas foetus//*//* 0.045 * +EC2.8.3.18 succinyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.0221 * +EC2.8.3.19 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC2.8.3.19 oxalate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.0 * +EC2.8.3.20 (r)-citramalate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 2.2 * +EC2.8.3.20 succinyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.08 * +EC2.8.3.23 (2e)-3-(3,4-dihydroxyphenyl)prop-2-enoate acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.075 * +EC2.8.3.23 3,4-dihydroxyphenylpropanoyl-coa acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.008 * +EC2.8.3.5 acetoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC2.8.3.5 acetoacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0002 * +EC2.8.3.5 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC2.8.3.5 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC2.8.3.5 maleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 35.0 * +EC2.8.3.5 succinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC2.8.3.5 succinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC2.8.3.5 succinyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.156 * +EC2.8.3.5 succinyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.2 * +EC2.8.3.6 3-oxoadipate pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 0.4 * +EC2.8.3.6 succinyl-coa pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 0.2 * +EC2.8.3.8 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 110.0 * +EC2.8.3.9 3-hydroxypropionate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 250.0 * +EC2.8.3.9 3-mercaptopropionate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 29.0 * +EC2.8.3.9 3-methylvinylacetate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 42.0 * +EC2.8.3.9 4-hydroxybuyrate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 33.0 * +EC2.8.3.9 acetate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 24.0 * +EC2.8.3.9 acetoacetate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 1.1 * +EC2.8.3.9 acetoacetyl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.0034 * +EC2.8.3.9 acetoacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC2.8.3.9 acetyl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.135 * +EC2.8.3.9 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC2.8.3.9 acrylate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 40.0 * +EC2.8.3.9 butanoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.8 * +EC2.8.3.9 butyryl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.023 * +EC2.8.3.9 crotonate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 2.0 * +EC2.8.3.9 crotonyl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.167 * +EC2.8.3.9 dl-2-hydroxybuyrate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 49.0 * +EC2.8.3.9 dl-2-hydroxypentanoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 21.0 * +EC2.8.3.9 dl-3-hydroxybutyrate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 44.0 * +EC2.8.3.9 epsilon-acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.7 * +EC2.8.3.9 isobutyrate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 14.0 * +EC2.8.3.9 isopentanoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 21.0 * +EC2.8.3.9 monochloroacetate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 29.0 * +EC2.8.3.9 pentanoate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 7.0 * +EC2.8.3.9 propionate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 3.2 * +EC2.8.3.9 propionyl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.205 * +EC2.8.3.9 vinylacetate clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 17.0 * +EC2.8.4.1 ch3-s-com methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.03 * +EC2.8.4.1 ch3-s-com3 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 62.0 * +EC2.8.4.1 cob methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.169 * +EC2.8.4.1 coenzyme b methanosaeta concilii//prokaryotes;archaea;euryarchaeota;methanosaeta//mcj 0.023 * +EC2.8.4.1 coenzyme b methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.059 * +EC2.8.4.1 coenzyme b methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.075 * +EC2.8.4.1 ethyl coenzyme m methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 20.0 * +EC2.8.4.1 hs-cob8 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.016 * +EC2.8.4.1 hs-cob9 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.46 * +EC2.8.4.1 methyl coenzyme m methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.0033 * +EC2.8.4.1 methyl coenzyme m methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 5.0 * +EC2.8.4.1 methyl coenzyme m methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.6 * +EC2.8.4.1 methyl-coenzyme m methanosaeta concilii//prokaryotes;archaea;euryarchaeota;methanosaeta//mcj 2.0 * +EC2.8.4.1 sh-cob5 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.34 * +EC2.8.4.1 sh-cob6 methanothermobacter marburgensis//prokaryotes;archaea;euryarchaeota;methanothermobacter//mmg 0.08 * +EC2.8.4.2 arsenate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.036 * +EC2.9.1.1 selenophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0003 * +EC2.9.1.1 thiophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC3.1.1.1 (+)-trans-ethyl crysanthemate arthrobacter globiformis//*//* 0.33 * +EC3.1.1.1 (1rs)-cis-permethrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC3.1.1.1 (1rs)-cis-permethrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 16.7 * +EC3.1.1.1 (1rs)-cis-permethrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.93 * +EC3.1.1.1 (1rs)-trans-permethrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00757 * +EC3.1.1.1 (1rs)-trans-permethrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.96 * +EC3.1.1.1 (1rs)-trans-permethrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.74 * +EC3.1.1.1 (r)-cyano(6-methoxy-2-naphthyl)methyl (1r,3r)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.1.1.1 (r)-cyano(6-methoxy-2-naphthyl)methyl (1r,3s)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.1.1.1 (r)-cyano(6-methoxy-2-naphthyl)methyl (1s,3r)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.1.1.1 (r)-cyano(6-methoxy-2-naphthyl)methyl (1s,3s)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.1.1.1 (r)-cyano(6-methoxynaphthalen-2-yl)methyl (2r)-2-(4-chlorophenyl)-3-methylbutanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.1.1.1 (s)-cyano(6-methoxy-2-naphthyl)methyl (1r,3r)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.1.1.1 (s)-cyano(6-methoxy-2-naphthyl)methyl (1r,3s)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.1.1.1 (s)-cyano(6-methoxy-2-naphthyl)methyl (1s,3r)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.1.1.1 (s)-cyano(6-methoxy-2-naphthyl)methyl (1s,3s)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.1.1.1 (s)-cyano(6-methoxynaphthalen-2-yl)methyl (2r)-2-(4-chlorophenyl)-3-methylbutanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.1.1.1 (s)-ketoprofen ethyl ester archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.1 * +EC3.1.1.1 (z)-3-hexenyl acetate spodoptera littoralis//*//* 9.6 * +EC3.1.1.1 1,4-diacetoxybenzene rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.9 * +EC3.1.1.1 1-naphthyl acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.01 * +EC3.1.1.1 1-naphthyl acetate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.37 * +EC3.1.1.1 1-naphthyl acetate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.008 * +EC3.1.1.1 1-naphthyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.1.1.1 1-naphthyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.1.1.1 1-naphthyl acetate myzus persicae//*//* 0.131 * +EC3.1.1.1 1-naphthyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.64 * +EC3.1.1.1 1-naphthyl butanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.1 * +EC3.1.1.1 1-naphthyl butyrate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.055 * +EC3.1.1.1 1-naphthyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.1.1.1 1-naphthyl butyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.18 * +EC3.1.1.1 1-naphthyl propionate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.143 * +EC3.1.1.1 2'-ethylcarbonate-linked paclitaxel oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0088 * +EC3.1.1.1 2,4-dinitrophenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.00029 * +EC3.1.1.1 2,4-dinitrophenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0001 * +EC3.1.1.1 2-acetoxy-5-(alpha-cyclopropylcarbonyl-2-fluorobenzyl)-4,5,6,7-tetrahydrothieno[3,2-c]pyridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00925 * +EC3.1.1.1 2-naphthyl acetate alicyclobacillus tengchongensis//*//* 1.0 * +EC3.1.1.1 2-naphthyl acetate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 5.0 * +EC3.1.1.1 2-naphthyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.4 * +EC3.1.1.1 2-naphthyl propionate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.56 * +EC3.1.1.1 2-nitrophenyl acetate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.31 * +EC3.1.1.1 2-nitrophenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0005 * +EC3.1.1.1 2-nitrophenyl butyrate galeocerdo cuvier//*//* 0.00024 * +EC3.1.1.1 2-nitrophenyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00141 * +EC3.1.1.1 2-nitrophenyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.1.1 2-nitrophenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00043 * +EC3.1.1.1 2-nitrophenyl propionate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.084 * +EC3.1.1.1 3'-d-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.97 * +EC3.1.1.1 3'-d-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.43 * +EC3.1.1.1 3'-l-isoleucyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.94 * +EC3.1.1.1 3'-l-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.51 * +EC3.1.1.1 3'-l-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.1.1.1 3-acetoxypyridine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.8 * +EC3.1.1.1 3-nitrophenyl acetate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.21 * +EC3.1.1.1 4'-chloroacetanilide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.6 * +EC3.1.1.1 4-aminobenzoic acid butyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.1.1.1 4-aminobenzoic acid ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.356 * +EC3.1.1.1 4-aminobenzoic acid propyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.322 * +EC3.1.1.1 4-methylbenzyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.2 * +EC3.1.1.1 4-methylumbelliferyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.24 * +EC3.1.1.1 4-methylumbelliferyl butanoate actinidia eriantha//*//* 0.0167 * +EC3.1.1.1 4-methylumbelliferyl butanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.738 * +EC3.1.1.1 4-methylumbelliferyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.1.1 4-methylumbelliferyl butyrate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0227 * +EC3.1.1.1 4-methylumbelliferyl butyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.16 * +EC3.1.1.1 4-methylumbelliferyl heptanoate actinidia eriantha//*//* 0.0191 * +EC3.1.1.1 4-methylumbelliferyl heptanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.000618 * +EC3.1.1.1 4-methylumbelliferyl heptanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.024 * +EC3.1.1.1 4-methylumbelliferyl laurate actinidia eriantha//*//* 0.000117 * +EC3.1.1.1 4-methylumbelliferyl laurate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 8.6e-05 * +EC3.1.1.1 4-methylumbelliferyl octanoate actinidia eriantha//*//* 0.00634 * +EC3.1.1.1 4-methylumbelliferyl octanoate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.00031 * +EC3.1.1.1 4-methylumbelliferyl palmitate actinidia eriantha//*//* 2.4e-05 * +EC3.1.1.1 4-methylumbelliferyl palmitate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 5.3e-05 * +EC3.1.1.1 4-naphthyl valerate xeropicta derbentina//*//* 0.187 * +EC3.1.1.1 4-nitroacetanilide rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.65 * +EC3.1.1.1 4-nitrophenyl acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.761 * +EC3.1.1.1 4-nitrophenyl acetate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0853 * +EC3.1.1.1 4-nitrophenyl acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0768 * +EC3.1.1.1 4-nitrophenyl acetate aspergillus nomius//*//* 1.3 * +EC3.1.1.1 4-nitrophenyl acetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC3.1.1.1 4-nitrophenyl acetate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 2.86 * +EC3.1.1.1 4-nitrophenyl acetate culex quinquefasciatus//eukaryotes;animals;arthropods;insects//cqu 0.0989 * +EC3.1.1.1 4-nitrophenyl acetate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3.7 * +EC3.1.1.1 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.1.1.1 4-nitrophenyl acetate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.47 * +EC3.1.1.1 4-nitrophenyl acetate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.055 * +EC3.1.1.1 4-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0229 * +EC3.1.1.1 4-nitrophenyl acetate klebsiella sp.//*//* 0.261 * +EC3.1.1.1 4-nitrophenyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.077 * +EC3.1.1.1 4-nitrophenyl acetate lactobacillus delbrueckii subsp. lactis//*//* 0.47 * +EC3.1.1.1 4-nitrophenyl acetate paenarthrobacter nitroguajacolicus//*//* 0.06 * +EC3.1.1.1 4-nitrophenyl acetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.43 * +EC3.1.1.1 4-nitrophenyl acetate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 0.35 * +EC3.1.1.1 4-nitrophenyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC3.1.1.1 4-nitrophenyl acetate rhizobium viscosum//*//* 0.0308 * +EC3.1.1.1 4-nitrophenyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.52 * +EC3.1.1.1 4-nitrophenyl acetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0215 * +EC3.1.1.1 4-nitrophenyl acetate sulfolobus shibatae//*//* 0.013 * +EC3.1.1.1 4-nitrophenyl acetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.5 * +EC3.1.1.1 4-nitrophenyl acetate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.464 * +EC3.1.1.1 4-nitrophenyl acetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.043 * +EC3.1.1.1 4-nitrophenyl acetate vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 4.47 * +EC3.1.1.1 4-nitrophenyl acetate xeropicta derbentina//*//* 0.98 * +EC3.1.1.1 4-nitrophenyl butanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.86 * +EC3.1.1.1 4-nitrophenyl butanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.05 * +EC3.1.1.1 4-nitrophenyl butanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0327 * +EC3.1.1.1 4-nitrophenyl butanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.004 * +EC3.1.1.1 4-nitrophenyl butanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0242 * +EC3.1.1.1 4-nitrophenyl butanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.1.1 4-nitrophenyl butanoate klebsiella sp.//*//* 0.092 * +EC3.1.1.1 4-nitrophenyl butanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.097 * +EC3.1.1.1 4-nitrophenyl butanoate lactobacillus delbrueckii subsp. lactis//*//* 0.28 * +EC3.1.1.1 4-nitrophenyl butanoate paenarthrobacter nitroguajacolicus//*//* 0.38 * +EC3.1.1.1 4-nitrophenyl butanoate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 0.28 * +EC3.1.1.1 4-nitrophenyl butanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.164 * +EC3.1.1.1 4-nitrophenyl butanoate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.1287 * +EC3.1.1.1 4-nitrophenyl butanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 127.0 * +EC3.1.1.1 4-nitrophenyl butyrate acinetobacter lwoffii//*//* 0.011 * +EC3.1.1.1 4-nitrophenyl butyrate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0705 * +EC3.1.1.1 4-nitrophenyl butyrate anoxybacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//anm 0.348 * +EC3.1.1.1 4-nitrophenyl butyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.021 * +EC3.1.1.1 4-nitrophenyl butyrate aspergillus nomius//*//* 0.06 * +EC3.1.1.1 4-nitrophenyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0011 * +EC3.1.1.1 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.1.1.1 4-nitrophenyl butyrate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.32 * +EC3.1.1.1 4-nitrophenyl butyrate galeocerdo cuvier//*//* 0.00449 * +EC3.1.1.1 4-nitrophenyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00055 * +EC3.1.1.1 4-nitrophenyl butyrate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.041 * +EC3.1.1.1 4-nitrophenyl butyrate klebsiella sp.//*//* 0.092 * +EC3.1.1.1 4-nitrophenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00043 * +EC3.1.1.1 4-nitrophenyl butyrate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 1.27 * +EC3.1.1.1 4-nitrophenyl butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.263 * +EC3.1.1.1 4-nitrophenyl butyrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.056 * +EC3.1.1.1 4-nitrophenyl butyrate sulfolobus shibatae//*//* 0.01 * +EC3.1.1.1 4-nitrophenyl butyrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.222 * +EC3.1.1.1 4-nitrophenyl butyrate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.239 * +EC3.1.1.1 4-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC3.1.1.1 4-nitrophenyl butyrate thalassobacillus sp.//*//* 0.69 * +EC3.1.1.1 4-nitrophenyl butyrate uncultured bacterium//*//* 0.00603 * +EC3.1.1.1 4-nitrophenyl caprate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.011 * +EC3.1.1.1 4-nitrophenyl caprate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.043 * +EC3.1.1.1 4-nitrophenyl caproate aspergillus nomius//*//* 0.33 * +EC3.1.1.1 4-nitrophenyl caproate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.008 * +EC3.1.1.1 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.1.1.1 4-nitrophenyl caproate klebsiella sp.//*//* 0.037 * +EC3.1.1.1 4-nitrophenyl caproate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.019 * +EC3.1.1.1 4-nitrophenyl caproate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.8 * +EC3.1.1.1 4-nitrophenyl caprylate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.017 * +EC3.1.1.1 4-nitrophenyl caprylate klebsiella sp.//*//* 0.068 * +EC3.1.1.1 4-nitrophenyl caprylate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.014 * +EC3.1.1.1 4-nitrophenyl caprylate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.028 * +EC3.1.1.1 4-nitrophenyl decanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.018 * +EC3.1.1.1 4-nitrophenyl decanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.651 * +EC3.1.1.1 4-nitrophenyl decanoate lactobacillus delbrueckii subsp. lactis//*//* 0.032 * +EC3.1.1.1 4-nitrophenyl decanoate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 4.99 * +EC3.1.1.1 4-nitrophenyl decanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.024 * +EC3.1.1.1 4-nitrophenyl decanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.033 * +EC3.1.1.1 4-nitrophenyl dodecanoate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.00862 * +EC3.1.1.1 4-nitrophenyl dodecanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.019 * +EC3.1.1.1 4-nitrophenyl dodecanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.654 * +EC3.1.1.1 4-nitrophenyl dodecanoate klebsiella sp.//*//* 0.339 * +EC3.1.1.1 4-nitrophenyl dodecanoate lactobacillus delbrueckii subsp. lactis//*//* 0.0038 * +EC3.1.1.1 4-nitrophenyl dodecanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.037 * +EC3.1.1.1 4-nitrophenyl dodecanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.015 * +EC3.1.1.1 4-nitrophenyl hexadecanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.042 * +EC3.1.1.1 4-nitrophenyl hexadecanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.507 * +EC3.1.1.1 4-nitrophenyl hexadecanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.13 * +EC3.1.1.1 4-nitrophenyl hexadecanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.005 * +EC3.1.1.1 4-nitrophenyl hexanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0126 * +EC3.1.1.1 4-nitrophenyl hexanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.011 * +EC3.1.1.1 4-nitrophenyl hexanoate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 3.9 * +EC3.1.1.1 4-nitrophenyl hexanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.021 * +EC3.1.1.1 4-nitrophenyl hexanoate klebsiella sp.//*//* 0.037 * +EC3.1.1.1 4-nitrophenyl hexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.034 * +EC3.1.1.1 4-nitrophenyl hexanoate lactobacillus delbrueckii subsp. lactis//*//* 0.12 * +EC3.1.1.1 4-nitrophenyl hexanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC3.1.1.1 4-nitrophenyl hexanoate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 0.07 * +EC3.1.1.1 4-nitrophenyl hexanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.044 * +EC3.1.1.1 4-nitrophenyl hexanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.47 * +EC3.1.1.1 4-nitrophenyl hexanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.048 * +EC3.1.1.1 4-nitrophenyl hexanoate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.01036 * +EC3.1.1.1 4-nitrophenyl hexanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.051 * +EC3.1.1.1 4-nitrophenyl hexanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.59 * +EC3.1.1.1 4-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.1.1.1 4-nitrophenyl laurate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.01 * +EC3.1.1.1 4-nitrophenyl laurate klebsiella sp.//*//* 0.339 * +EC3.1.1.1 4-nitrophenyl laurate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.186 * +EC3.1.1.1 4-nitrophenyl laurate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC3.1.1.1 4-nitrophenyl myristate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0086 * +EC3.1.1.1 4-nitrophenyl octanoate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.0232 * +EC3.1.1.1 4-nitrophenyl octanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0165 * +EC3.1.1.1 4-nitrophenyl octanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.119 * +EC3.1.1.1 4-nitrophenyl octanoate bacillus circulans//*//* 0.2 * +EC3.1.1.1 4-nitrophenyl octanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.012 * +EC3.1.1.1 4-nitrophenyl octanoate klebsiella sp.//*//* 0.068 * +EC3.1.1.1 4-nitrophenyl octanoate lactobacillus delbrueckii subsp. lactis//*//* 0.072 * +EC3.1.1.1 4-nitrophenyl octanoate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 0.04 * +EC3.1.1.1 4-nitrophenyl octanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.051 * +EC3.1.1.1 4-nitrophenyl octanoate pyrobaculum sp.//prokaryotes;archaea;crenarchaeota;pyrobaculum//pyw 2.64 * +EC3.1.1.1 4-nitrophenyl octanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.1.1.1 4-nitrophenyl octanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.033 * +EC3.1.1.1 4-nitrophenyl octanoate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0606 * +EC3.1.1.1 4-nitrophenyl octanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.029 * +EC3.1.1.1 4-nitrophenyl octanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.152 * +EC3.1.1.1 4-nitrophenyl palmitate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.876 * +EC3.1.1.1 4-nitrophenyl palmitate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0031 * +EC3.1.1.1 4-nitrophenyl pentanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0566 * +EC3.1.1.1 4-nitrophenyl pentanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC3.1.1.1 4-nitrophenyl pentanoate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.031 * +EC3.1.1.1 4-nitrophenyl pentanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.1.1.1 4-nitrophenyl pentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.12 * +EC3.1.1.1 4-nitrophenyl pentanoate lactobacillus delbrueckii subsp. lactis//*//* 0.079 * +EC3.1.1.1 4-nitrophenyl pentanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.071 * +EC3.1.1.1 4-nitrophenyl pentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.53 * +EC3.1.1.1 4-nitrophenyl pentanoate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.1517 * +EC3.1.1.1 4-nitrophenyl pentanoate sulfolobus shibatae//*//* 0.039 * +EC3.1.1.1 4-nitrophenyl pentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.1 * +EC3.1.1.1 4-nitrophenyl propanoate klebsiella sp.//*//* 0.139 * +EC3.1.1.1 4-nitrophenyl propanoate pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 0.348 * +EC3.1.1.1 4-nitrophenyl propionate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0828 * +EC3.1.1.1 4-nitrophenyl propionate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.106 * +EC3.1.1.1 4-nitrophenyl propionate aspergillus nomius//*//* 0.35 * +EC3.1.1.1 4-nitrophenyl propionate bacillus circulans//*//* 1.5 * +EC3.1.1.1 4-nitrophenyl propionate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 1.05 * +EC3.1.1.1 4-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.1.1.1 4-nitrophenyl propionate ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.37 * +EC3.1.1.1 4-nitrophenyl propionate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.05 * +EC3.1.1.1 4-nitrophenyl propionate klebsiella sp.//*//* 0.139 * +EC3.1.1.1 4-nitrophenyl propionate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.12 * +EC3.1.1.1 4-nitrophenyl propionate lactobacillus delbrueckii subsp. lactis//*//* 0.67 * +EC3.1.1.1 4-nitrophenyl propionate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC3.1.1.1 4-nitrophenyl propionate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC3.1.1.1 4-nitrophenyl propionate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0338 * +EC3.1.1.1 4-nitrophenyl tetradecanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.031 * +EC3.1.1.1 4-nitrophenyl tetradecanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.054 * +EC3.1.1.1 4-nitrophenyl tetradecanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.009 * +EC3.1.1.1 4-nitrophenyl valerate aspergillus nomius//*//* 0.034 * +EC3.1.1.1 4-nitrophenyl valerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.15 * +EC3.1.1.1 4-nitrophenyl valerate psychrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//prw 0.19 * +EC3.1.1.1 4-yethylumbelliferyl acetate actinidia eriantha//*//* 0.0333 * +EC3.1.1.1 4-yethylumbelliferyl acetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.29 * +EC3.1.1.1 4-yethylumbelliferyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.1.1.1 4-yethylumbelliferyl acetate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.0828 * +EC3.1.1.1 4-yethylumbelliferyl acetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.45 * +EC3.1.1.1 5'-cinnamic acid-floxuridine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.63 * +EC3.1.1.1 5'-d-phenylalanyl-bdcrb sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.1.1.1 5'-d-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.22 * +EC3.1.1.1 5'-d-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.16 * +EC3.1.1.1 5'-l-isoleucyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.85 * +EC3.1.1.1 5'-l-phenylalanine-floxuridine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.46 * +EC3.1.1.1 5'-l-phenylalanyl-bdcrb sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.91 * +EC3.1.1.1 5'-l-phenylalanyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC3.1.1.1 5'-l-valyl-gemcitabine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.96 * +EC3.1.1.1 7-amino cephalosporanic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.02 * +EC3.1.1.1 7-ethyl-10-(4-(1-piperidino)-1-amino)carbonyloxycampothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.1.1.1 7-ethyl-10-(4-(1-piperidino)-1-piperidino)carbonyloxycampothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.1.1.1 7-ethyl-10-(4-n-(5-aminopentanoic acid)-1-piperidino)carbonyloxycampothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.1.1 7-ethyl-10-[4-(1-piperidino)-1-piperidino] carbonyloxycamptothecin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0186 * +EC3.1.1.1 7-ethyl-10[4-(1-piperidino)-1-piperdino]carbonyloxy-camptothecin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC3.1.1.1 acetylsalicylic acid streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 3.3 * +EC3.1.1.1 alpha-naphthyl acetate reticulitermes flavipes//*//* 0.027 * +EC3.1.1.1 alpha-naphthyl acetate tribolium castaneum//eukaryotes;animals;arthropods;insects//tca 1e-05 * +EC3.1.1.1 alpha-naphthyl acetate xeropicta derbentina//*//* 0.222 * +EC3.1.1.1 anisamidobutyric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0702 * +EC3.1.1.1 anisilic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0689 * +EC3.1.1.1 aspirin cavia porcellus//*//* 0.447 * +EC3.1.1.1 benazepril rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0804 * +EC3.1.1.1 benzoyl-gly-farnesyl-l-cysteine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC3.1.1.1 benzyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.6 * +EC3.1.1.1 bioresmethrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00672 * +EC3.1.1.1 bioresmethrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 25.75 * +EC3.1.1.1 bis(2-ethylhexyl)phthalate triticum aestivum//*//* 0.005 * +EC3.1.1.1 bisphenyl carbonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.044 * +EC3.1.1.1 butanilcain sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.1.1.1 butyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.4 * +EC3.1.1.1 butyl paraben enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.45 * +EC3.1.1.1 butyrylbutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 6.7 * +EC3.1.1.1 camostat mesilate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.141 * +EC3.1.1.1 capric acid calotropis procera//*//* 9.64 * +EC3.1.1.1 capsaicin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1336 * +EC3.1.1.1 cefazolin uncultured bacterium//*//* 0.07849 * +EC3.1.1.1 cholesterol oleate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.1.1 cis-permethrin klebsiella sp.//*//* 0.00016 * +EC3.1.1.1 cyano(3-phenoxyphenyl)methyl 3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.1.1.1 cyano(6-methoxy-2-naphthyl)methyl 2,2,3,3-tetramethylcyclopropanecarboxylate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.1.1.1 cyano(6-methoxynaphthalen-2-yl)methyl 2,2-dimethyl-3-(2-methylprop-1-en-1-yl)cyclopropanecarboxylic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.1.1.1 cyclic poly(ethylene terephthalate) trimer thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.5 * +EC3.1.1.1 cypermethrin klebsiella sp.//*//* 0.00021 * +EC3.1.1.1 d-glucose pentaacetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.01 * +EC3.1.1.1 d-methyl phenidate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6635 * +EC3.1.1.1 d-xylose tetraacetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.16 * +EC3.1.1.1 delapril rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0688 * +EC3.1.1.1 deltamethrin klebsiella sp.//*//* 0.00123 * +EC3.1.1.1 derapril homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC3.1.1.1 derapril rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.028 * +EC3.1.1.1 diethyl succinate culex quinquefasciatus//eukaryotes;animals;arthropods;insects//cqu 4.65 * +EC3.1.1.1 diltiazem rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0842 * +EC3.1.1.1 enalapril homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.734 * +EC3.1.1.1 ethyl 2-naphthyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.62 * +EC3.1.1.1 ethyl 3-hydroxybenzoate aspergillus nomius//*//* 1.2 * +EC3.1.1.1 ethyl 3-methoxybenzoate aspergillus nomius//*//* 2.3 * +EC3.1.1.1 ethyl 4-hydroxybenzoate aspergillus nomius//*//* 0.39 * +EC3.1.1.1 ethyl 4-nitrophenyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.42 * +EC3.1.1.1 ethyl 4-nitrophenyl methylphosphonate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.22 * +EC3.1.1.1 ethyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 39.0 * +EC3.1.1.1 ethyl acetate streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 56.0 * +EC3.1.1.1 ethyl benzoate aspergillus nomius//*//* 0.11 * +EC3.1.1.1 ethyl bromoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0313 * +EC3.1.1.1 ethyl butanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 6.8 * +EC3.1.1.1 ethyl butanoate lactobacillus delbrueckii subsp. lactis//*//* 62.0 * +EC3.1.1.1 ethyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0106 * +EC3.1.1.1 ethyl butyrate galeocerdo cuvier//*//* 0.185 * +EC3.1.1.1 ethyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0077 * +EC3.1.1.1 ethyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0025 * +EC3.1.1.1 ethyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0072 * +EC3.1.1.1 ethyl butyrylacetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.33 * +EC3.1.1.1 ethyl cetraxate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.12 * +EC3.1.1.1 ethyl chloroacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.083 * +EC3.1.1.1 ethyl d-pantothenate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 16.7 * +EC3.1.1.1 ethyl fluoroacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.333 * +EC3.1.1.1 ethyl hexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 2.8 * +EC3.1.1.1 ethyl hexanoate lactobacillus delbrueckii subsp. lactis//*//* 7.5 * +EC3.1.1.1 ethyl iodoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0184 * +EC3.1.1.1 ethyl l-pantothenate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 18.3 * +EC3.1.1.1 ethyl pentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 6.6 * +EC3.1.1.1 ethyl pentanoate lactobacillus delbrueckii subsp. lactis//*//* 19.0 * +EC3.1.1.1 ethyl propionate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 10.0 * +EC3.1.1.1 ethylene glycol dibenzoate aspergillus nomius//*//* 0.66 * +EC3.1.1.1 fenvalerate klebsiella sp.//*//* 0.00091 * +EC3.1.1.1 fluorescein diacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00194 * +EC3.1.1.1 glucose pentaacetate rhizobium viscosum//*//* 0.0558 * +EC3.1.1.1 hexyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.19 * +EC3.1.1.1 hostacaine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC3.1.1.1 hydrocinnamoyl farnesyl-l-cysteine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.025 * +EC3.1.1.1 imidapril homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.245 * +EC3.1.1.1 imidapril rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3297 * +EC3.1.1.1 indoxyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.9 * +EC3.1.1.1 irinotecan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0828 * +EC3.1.1.1 irinotecan oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0062 * +EC3.1.1.1 irinotecan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.21 * +EC3.1.1.1 isobutyl 4-nitrophenyl methylphosphonate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.7 * +EC3.1.1.1 isopropyl 4-nitrophenyl methylphosphonate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.2 * +EC3.1.1.1 isopropyl cetraxate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.17 * +EC3.1.1.1 ketoprofen ethyl ester archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.6 * +EC3.1.1.1 l-methyl phenidate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7757 * +EC3.1.1.1 l-phenylalanine butyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.1.1.1 l-phenylalanine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.18 * +EC3.1.1.1 malathion culex sp.//*//* 39.3 * +EC3.1.1.1 malathion klebsiella sp.//*//* 0.00087 * +EC3.1.1.1 malathion tribolium castaneum//eukaryotes;animals;arthropods;insects//tca 0.0015 * +EC3.1.1.1 methyl 3-(4-hydroxyphenyl)propionate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 2.49 * +EC3.1.1.1 methyl butyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.0589 * +EC3.1.1.1 methyl butyrate galeocerdo cuvier//*//* 2.18 * +EC3.1.1.1 methyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0182 * +EC3.1.1.1 methyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.1.1.1 methyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0026 * +EC3.1.1.1 methyl cetraxate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 0.38 * +EC3.1.1.1 methyl d-pantothenate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 29.4 * +EC3.1.1.1 methyl l-pantothenate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 105.0 * +EC3.1.1.1 methyl octanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC3.1.1.1 methyl paraben enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.88 * +EC3.1.1.1 methyl paraoxon rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.42 * +EC3.1.1.1 monobutyl phthalate micrococcus sp.//*//* 1.67 * +EC3.1.1.1 monopentyl phthalate micrococcus sp.//*//* 1.39 * +EC3.1.1.1 monopropyl phthalate micrococcus sp.//*//* 5.88 * +EC3.1.1.1 mycophenolate mofetil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.03 * +EC3.1.1.1 n-(4-nitrobenzoyl)-s-trans,trans-farnesyl-l-cysteine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0236 * +EC3.1.1.1 n-acetyl l-phenylalanine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.1.1.1 n-acetyl-l-ala-1-naphthyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.211 * +EC3.1.1.1 n-butyl benzoate aspergillus nomius//*//* 0.075 * +EC3.1.1.1 n-butyl n-butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC3.1.1.1 n-butyryl salicylate cavia porcellus//*//* 0.799 * +EC3.1.1.1 n-decanoyl salicylate cavia porcellus//*//* 0.132 * +EC3.1.1.1 n-hexanoyl salicylate cavia porcellus//*//* 0.679 * +EC3.1.1.1 n-octanoyl salicylate cavia porcellus//*//* 0.21 * +EC3.1.1.1 n-propionyl salicylate cavia porcellus//*//* 0.576 * +EC3.1.1.1 n-propyl d-pantothenate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 10.0 * +EC3.1.1.1 n-propyl l-pantothenate microbacterium sp.//prokaryotes;bacteria;actinobacteria;microbacterium//mim 12.1 * +EC3.1.1.1 n-valeryl salicylate cavia porcellus//*//* 0.983 * +EC3.1.1.1 oxybutynin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.094 * +EC3.1.1.1 oxybutynin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9284 * +EC3.1.1.1 p-nitrophenyl acetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 119.0 * +EC3.1.1.1 p-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.1.1.1 p-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.1.1.1 p-nitrophenyl acetate klebsiella sp.//*//* 0.261 * +EC3.1.1.1 p-nitrophenyl acetate pseudomonas aeruginosa pao1//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.43 * +EC3.1.1.1 p-nitrophenyl acetate sulfolobus shibatae//*//* 0.013 * +EC3.1.1.1 p-nitrophenyl acetate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.15 * +EC3.1.1.1 p-nitrophenyl butanoate sulfolobus shibatae//*//* 0.01 * +EC3.1.1.1 p-nitrophenyl butanoate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.243 * +EC3.1.1.1 p-nitrophenyl butyrate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.4 * +EC3.1.1.1 p-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.1.1.1 p-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.1.1.1 p-nitrophenyl caproate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0005 * +EC3.1.1.1 p-nitrophenyl caprylate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0047 * +EC3.1.1.1 p-nitrophenyl decanoate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00031 * +EC3.1.1.1 p-nitrophenyl hexanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 50.0 * +EC3.1.1.1 p-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.1.1.1 p-nitrophenyl myristate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0021 * +EC3.1.1.1 p-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.1.1.1 p-nitrophenyl valerate sulfolobus shibatae//*//* 0.039 * +EC3.1.1.1 palmitoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC3.1.1.1 paraoxon rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.11 * +EC3.1.1.1 phenyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.93 * +EC3.1.1.1 phenyl acetate lactobacillus delbrueckii subsp. lactis//*//* 35.0 * +EC3.1.1.1 phenyl acetate paenarthrobacter nitroguajacolicus//*//* 4.0 * +EC3.1.1.1 phenyl acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.8 * +EC3.1.1.1 phenyl acetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC3.1.1.1 phenyl butyrate galeocerdo cuvier//*//* 0.0033 * +EC3.1.1.1 phenyl butyrate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00202 * +EC3.1.1.1 phenyl butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.00064 * +EC3.1.1.1 phenyl butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.1.1.1 phenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0027 * +EC3.1.1.1 phenyl pentanoate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.00049 * +EC3.1.1.1 phenylthioacetate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.0 * +EC3.1.1.1 phenylthioacetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.42 * +EC3.1.1.1 phenylthioacetate lactobacillus delbrueckii subsp. lactis//*//* 13.0 * +EC3.1.1.1 phenylthiobutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.71 * +EC3.1.1.1 phenylthioisobutyrate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.5 * +EC3.1.1.1 phenylthiopentanoate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.1 * +EC3.1.1.1 phenylthiopropionate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.0 * +EC3.1.1.1 pranlukast rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0512 * +EC3.1.1.1 procaine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1177 * +EC3.1.1.1 propyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 6.0 * +EC3.1.1.1 propyl paraben enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.6 * +EC3.1.1.1 ramipril homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.901 * +EC3.1.1.1 retinyl palmitate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00089 * +EC3.1.1.1 temocapril rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.229 * +EC3.1.1.1 trandolapril homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.639 * +EC3.1.1.1 trans-permethrin klebsiella sp.//*//* 0.00011 * +EC3.1.1.1 triacetin alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 12.0 * +EC3.1.1.1 triacetin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 10.0 * +EC3.1.1.1 triacetin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.196 * +EC3.1.1.1 triacetin ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 2.2 * +EC3.1.1.1 triacetin streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 203.0 * +EC3.1.1.1 tributyrin alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.07 * +EC3.1.1.1 tributyrin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.05 * +EC3.1.1.1 tributyrin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.22 * +EC3.1.1.1 tributyrin ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 7.4 * +EC3.1.1.1 tributyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.1.1 trinotecan rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4992 * +EC3.1.1.1 triolein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC3.1.1.1 tripropionin alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.75 * +EC3.1.1.1 tripropionin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.3 * +EC3.1.1.1 tripropionin ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 3.5 * +EC3.1.1.1 tripropionin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.1.1.1 tripropionin streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 29.0 * +EC3.1.1.1 tyr ethyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.22 * +EC3.1.1.1 vinyl acetate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 2.5 * +EC3.1.1.1 vinyl acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 4.0 * +EC3.1.1.1 vinyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 170.0 * +EC3.1.1.1 vinyl butanoate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 3.0 * +EC3.1.1.1 vinyl butanoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.5 * +EC3.1.1.1 vinyl butanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.1.1.1 vinyl laurate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.1.1 vinyl propionate alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 6.0 * +EC3.1.1.1 vinyl propionate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 7.0 * +EC3.1.1.1 vinyl propionate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.0 * +EC3.1.1.1 vinyl propionate streptococcus equi//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sez 68.0 * +EC3.1.1.10 atropine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.012 * +EC3.1.1.10 butyrylcholine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.9 * +EC3.1.1.102 bis(2-hydroxyethyl) terephthalic acid thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 3.9 * +EC3.1.1.102 ethylene terephthalate ideonella sakaiensis//*//* 0.0073 * +EC3.1.1.102 ethylene terephthalate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 7.3 * +EC3.1.1.11 citrus pectin linum usitatissimum//*//* 0.016 * +EC3.1.1.11 pectin dickeya chrysanthemi//*//* 0.13 * +EC3.1.1.11 pectin malpighia glabra//*//* 0.08 * +EC3.1.1.11 pectin prunus armeniaca//*//* 0.51 * +EC3.1.1.13 4-methylumbelliferyl oleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC3.1.1.13 4-nitrophenyl butyrate candida cylindracea//*//* 0.061 * +EC3.1.1.13 4-nitrophenyl butyrate ophiostoma piceae//*//* 0.27 * +EC3.1.1.13 4-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.37 * +EC3.1.1.13 4-nitrophenyl laurate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.53 * +EC3.1.1.13 4-nitrophenyl laurate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.63 * +EC3.1.1.13 4-nitrophenyl myristate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.8 * +EC3.1.1.13 4-nitrophenyl myristate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.77 * +EC3.1.1.13 4-nitrophenyl palmitate ophiostoma piceae//*//* 0.33 * +EC3.1.1.13 4-nitrophenyl palmitate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 1.0 * +EC3.1.1.13 4-nitrophenyl palmitate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.85 * +EC3.1.1.13 cholesteryl acetate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.0 * +EC3.1.1.13 cholesteryl butyrate ophiostoma piceae//*//* 3.0 * +EC3.1.1.13 cholesteryl linoleate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.536 * +EC3.1.1.13 cholesteryl linoleate ophiostoma piceae//*//* 0.99 * +EC3.1.1.13 cholesteryl linoleate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.21 * +EC3.1.1.13 cholesteryl linoleate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.18 * +EC3.1.1.13 cholesteryl linoleate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.09 * +EC3.1.1.13 cholesteryl myristate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.49 * +EC3.1.1.13 cholesteryl myristate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.35 * +EC3.1.1.13 cholesteryl myristate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.34 * +EC3.1.1.13 cholesteryl oleate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC3.1.1.13 cholesteryl oleate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.1.1.13 cholesteryl oleate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC3.1.1.13 cholesteryl oleate ophiostoma piceae//*//* 1.0 * +EC3.1.1.13 cholesteryl oleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.002 * +EC3.1.1.13 cholesteryl oleate rattus sp.//*//* 0.011 * +EC3.1.1.13 cholesteryl oleate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.107 * +EC3.1.1.13 cholesteryl palmitate ophiostoma piceae//*//* 0.87 * +EC3.1.1.13 cholesteryl palmitate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 2.86 * +EC3.1.1.13 cholesteryl palmitate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 6.8 * +EC3.1.1.13 cholesteryl stearate ophiostoma piceae//*//* 1.1 * +EC3.1.1.13 cholesteryl stearate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.67 * +EC3.1.1.13 cholesteryl stearate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.0 * +EC3.1.1.13 diolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC3.1.1.13 lipoyl 4-aminobenzoate rattus sp.//*//* 0.024 * +EC3.1.1.13 monoolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.13 p-nitrophenyl butyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.052 * +EC3.1.1.13 p-nitrophenyl butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.073 * +EC3.1.1.13 p-nitrophenyl caproate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.046 * +EC3.1.1.13 p-nitrophenyl hexanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0122 * +EC3.1.1.13 p-nitrophenyl laurate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.3 * +EC3.1.1.13 p-nitrophenyl myristate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.1 * +EC3.1.1.13 p-nitrophenyl palmitate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.1 * +EC3.1.1.13 triacetin rattus sp.//*//* 0.015 * +EC3.1.1.13 tributyrin ophiostoma piceae//*//* 9.9 * +EC3.1.1.13 triolein ophiostoma piceae//*//* 0.98 * +EC3.1.1.13 triolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC3.1.1.14 bacteriochlorophyll a secale cereale//*//* 0.004 * +EC3.1.1.14 bacteriochlorophyll ginkgo biloba//*//* 0.0334 * +EC3.1.1.14 chlorophyll a auxenochlorella protothecoides//eukaryotes;plants;green algae//apro 0.002 * +EC3.1.1.14 chlorophyll a brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.308 * +EC3.1.1.14 chlorophyll a capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.011 * +EC3.1.1.14 chlorophyll a chenopodium album//*//* 0.004 * +EC3.1.1.14 chlorophyll a citrus unshiu//*//* 0.00265 * +EC3.1.1.14 chlorophyll a ginkgo biloba//*//* 0.0113 * +EC3.1.1.14 chlorophyll a prunus cerasus//*//* 0.0034 * +EC3.1.1.14 chlorophyll a prunus domestica//*//* 0.0035 * +EC3.1.1.14 chlorophyll a prunus padus//*//* 0.0028 * +EC3.1.1.14 chlorophyll a secale cereale//*//* 0.012 * +EC3.1.1.14 chlorophyll b brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.311 * +EC3.1.1.14 chlorophyll b capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.004 * +EC3.1.1.14 chlorophyll b chenopodium album//*//* 0.0031 * +EC3.1.1.14 chlorophyll b ginkgo biloba//*//* 0.011 * +EC3.1.1.14 chlorophyll b prunus cerasus//*//* 0.0037 * +EC3.1.1.14 chlorophyll b prunus domestica//*//* 0.0039 * +EC3.1.1.14 chlorophyll b prunus padus//*//* 0.003 * +EC3.1.1.14 chlorophyll citrus limon//*//* 0.278 * +EC3.1.1.14 chlorophyll phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.006 * +EC3.1.1.14 chlorophyll triticum aestivum//*//* 69.0 * +EC3.1.1.14 p-nitrophenyl butyrate triticum aestivum//*//* 570.0 * +EC3.1.1.14 p-nitrophenyl decanoate triticum aestivum//*//* 0.52 * +EC3.1.1.14 p-nitrophenyl palmitate triticum aestivum//*//* 0.2 * +EC3.1.1.14 pheophorbide a methyl ester brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0764 * +EC3.1.1.14 pheophytin a capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0027 * +EC3.1.1.14 pheophytin a ginkgo biloba//*//* 0.0123 * +EC3.1.1.14 pheophytin a secale cereale//*//* 0.015 * +EC3.1.1.14 pheophytin b capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.0064 * +EC3.1.1.14 pheophytin b ginkgo biloba//*//* 0.0055 * +EC3.1.1.14 pheophytin phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.000206 * +EC3.1.1.17 d-glucono-1,5-lactone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.1 * +EC3.1.1.17 d-glucono-1,5-lactone euglena gracilis//*//* 9.4 * +EC3.1.1.17 d-glucono-1,5-lactone gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 25.0 * +EC3.1.1.17 d-glucono-1,5-lactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.4 * +EC3.1.1.17 d-glucono-1,5-lactone xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.0162 * +EC3.1.1.17 glucono-1,5-lactone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.2 * +EC3.1.1.19 d-glucurono-6,2-lactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC3.1.1.2 1-naphthyl acetate uncultured organism//*//* 0.041 * +EC3.1.1.2 1-phenylvinyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.1.1.2 2,2,2-trifluoroethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.1.1.2 2,2-difluoroethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.8 * +EC3.1.1.2 2,3-difluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.19 * +EC3.1.1.2 2,4-difluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.23 * +EC3.1.1.2 2,6-difluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.1.1.2 2-fluoroethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 54.0 * +EC3.1.1.2 2-fluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.1.1.2 2-naphthyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0079 * +EC3.1.1.2 2-naphthyl acetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.1.1.2 2-naphthyl acetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.211 * +EC3.1.1.2 2-naphthyl butanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0128 * +EC3.1.1.2 3,4-dimethyl phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.1.1.2 3-cyanophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.1.1.2 3-fluorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.1.2 3-naphthyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0052 * +EC3.1.1.2 3-naphthyl butanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0088 * +EC3.1.1.2 3-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.1.1.2 4-acetoxy methyl benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.1.1.2 4-acetoxyacetophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.1.1.2 4-acetoxybenzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.1.1.2 4-chlorophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.1.2 4-methoxy phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC3.1.1.2 4-nitrophenyl acetate cavia porcellus//*//* 4.3e-05 * +EC3.1.1.2 4-nitrophenyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.0174 * +EC3.1.1.2 4-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.289 * +EC3.1.1.2 4-nitrophenyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.9 * +EC3.1.1.2 4-nitrophenyl acetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.336 * +EC3.1.1.2 4-nitrophenyl acetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.11 * +EC3.1.1.2 4-nitrophenyl acetate sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.124 * +EC3.1.1.2 4-nitrophenyl acetate triticum aestivum//*//* 4.2 * +EC3.1.1.2 4-nitrophenyl acetate uncultured organism//*//* 0.96 * +EC3.1.1.2 4-nitrophenyl acetate vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 8.19 * +EC3.1.1.2 4-nitrophenyl butanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.174 * +EC3.1.1.2 4-nitrophenyl butanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.38 * +EC3.1.1.2 4-nitrophenyl decanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.084 * +EC3.1.1.2 4-nitrophenyl hexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.029 * +EC3.1.1.2 4-nitrophenyl octanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.23 * +EC3.1.1.2 4-nitrophenyl pentanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.063 * +EC3.1.1.2 4-nitrophenyl propionate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.4 * +EC3.1.1.2 alpha-naphthyl acetate felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.19 * +EC3.1.1.2 benzyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.0 * +EC3.1.1.2 beta-naphthyl acetate macrobrachium lamarrei//*//* 2.1 * +EC3.1.1.2 butyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.1.1.2 ethyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.4 * +EC3.1.1.2 ethyl hexanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.2 * +EC3.1.1.2 ketoprofen ethyl ester archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.6 * +EC3.1.1.2 p-nitrophenyl acetate cavia porcellus//*//* 0.043 * +EC3.1.1.2 p-nitrophenyl acetate felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.29 * +EC3.1.1.2 p-tolyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC3.1.1.2 paraoxon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.42 * +EC3.1.1.2 phenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.1.1.2 phenyl acetate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.01 * +EC3.1.1.2 phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.265 * +EC3.1.1.2 phenyl acetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 16.0 * +EC3.1.1.2 phenyl acetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.014 * +EC3.1.1.2 phenyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.46 * +EC3.1.1.2 phenyl acetate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 8.18 * +EC3.1.1.2 phenyl acetate uncultured organism//*//* 0.53 * +EC3.1.1.2 phenylthioacetate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 5.5 * +EC3.1.1.2 propyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.1.1.2 s-methyl thiobutanoate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 7.2 * +EC3.1.1.20 1,2,3,4,6-pentagalloyl glucose quercus robur//*//* 5.9 * +EC3.1.1.20 1,2,3,6-tetra-o-galloyl-beta-d-glucose quercus robur//*//* 6.9 * +EC3.1.1.20 1,2,6-tri-o-galloyl-beta-d-glucose quercus robur//*//* 2.3 * +EC3.1.1.20 1,6-di-o-galloyl-beta-d-glucose quercus robur//*//* 1.3 * +EC3.1.1.20 1-o-anisoyl-beta-d-glucose quercus robur//*//* 12.7 * +EC3.1.1.20 1-o-benzoyl-beta-d-glucose quercus robur//*//* 2.0 * +EC3.1.1.20 1-o-galloyl-beta-d-glucose aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.14 * +EC3.1.1.20 1-o-galloyl-beta-d-glucose quercus robur//*//* 9.1 * +EC3.1.1.20 1-o-p-hydroxybenzoyl-beta-d-glucose quercus robur//*//* 2.1 * +EC3.1.1.20 1-o-protocatechuoyl-beta-d-glucose quercus robur//*//* 6.0 * +EC3.1.1.20 1-o-syringoyl-beta-d-glucose quercus robur//*//* 0.85 * +EC3.1.1.20 1-o-vanilloyl-beta-d-glucose quercus robur//*//* 17.5 * +EC3.1.1.20 1-o-veratroyl-beta-d-glucose quercus robur//*//* 4.0 * +EC3.1.1.20 3,6-di-o-galloyl-beta-d-glucose quercus robur//*//* 5.5 * +EC3.1.1.20 4-o-digalloyl-1,2,3,6-tetra-o-galloyl-beta-d-glucose quercus robur//*//* 6.0 * +EC3.1.1.20 6-o-galloyl-beta-d-glucose quercus robur//*//* 4.7 * +EC3.1.1.20 catechin gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.45 * +EC3.1.1.20 catechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.05 * +EC3.1.1.20 catechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.08 * +EC3.1.1.20 catechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.05 * +EC3.1.1.20 chlorogenic acid quercus robur//*//* 4.1 * +EC3.1.1.20 epicatechin gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.34 * +EC3.1.1.20 epicatechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.06 * +EC3.1.1.20 epicatechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.05 * +EC3.1.1.20 epicatechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.03 * +EC3.1.1.20 epigallocatechin gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.32 * +EC3.1.1.20 epigallocatechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.06 * +EC3.1.1.20 epigallocatechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.06 * +EC3.1.1.20 epigallocatechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.1 * +EC3.1.1.20 epigallocatechin-3-o-(3-o-methyl) gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.04 * +EC3.1.1.20 epigallocatechin-3-o-(3-o-methyl) gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.005 * +EC3.1.1.20 epigallocatechin-3-o-(3-o-methyl) gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.04 * +EC3.1.1.20 ethyl gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.86 * +EC3.1.1.20 ethyl gallate quercus robur//*//* 2.3 * +EC3.1.1.20 gallocatechin gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.06 * +EC3.1.1.20 gallocatechin gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.07 * +EC3.1.1.20 gallocatechin gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.03 * +EC3.1.1.20 m-digallic acid aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.7 * +EC3.1.1.20 m-digallic acid quercus robur//*//* 0.99 * +EC3.1.1.20 methyl 3,4,5-trihydroxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.41 * +EC3.1.1.20 methyl gallate aspergillus awamori//*//* 1.9 * +EC3.1.1.20 methyl gallate aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.86 * +EC3.1.1.20 methyl gallate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 4.78 * +EC3.1.1.20 methyl gallate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.433 * +EC3.1.1.20 methyl gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.02 * +EC3.1.1.20 methyl gallate blastobotrys adeninivorans//*//* 4.4 * +EC3.1.1.20 methyl gallate enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 3.7 * +EC3.1.1.20 methyl gallate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 0.5 * +EC3.1.1.20 methyl gallate lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 0.87 * +EC3.1.1.20 methyl gallate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.37 * +EC3.1.1.20 methyl gallate quercus robur//*//* 71.4 * +EC3.1.1.20 methyl gallate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 1.6 * +EC3.1.1.20 methyl gallate talaromyces variabilis//*//* 14.0 * +EC3.1.1.20 propyl gallate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 7.69 * +EC3.1.1.20 propyl gallate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.85 * +EC3.1.1.20 propyl gallate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.12 * +EC3.1.1.20 propyl gallate quercus robur//*//* 2.4 * +EC3.1.1.20 propyl gallate talaromyces variabilis//*//* 12.0 * +EC3.1.1.20 pyrogallol aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 16.94 * +EC3.1.1.20 tannic acid aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.05 * +EC3.1.1.20 tannic acid aspergillus foetidus//*//* 0.21 * +EC3.1.1.20 tannic acid aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 14.01 * +EC3.1.1.20 tannic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.1e-05 * +EC3.1.1.20 tannic acid aspergillus sp.//*//* 0.28 * +EC3.1.1.20 tannic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.445 * +EC3.1.1.20 tannic acid blastobotrys adeninivorans//*//* 0.14 * +EC3.1.1.20 tannic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.00337 * +EC3.1.1.20 tannic acid fusarium subglutinans//*//* 3.57 * +EC3.1.1.20 tannic acid paecilomyces variotii//*//* 0.00061 * +EC3.1.1.20 tannic acid penicillium chrysogenum//*//* 0.048 * +EC3.1.1.20 tannic acid rhizopus oryzae//*//* 0.21 * +EC3.1.1.20 tannic acid talaromyces variabilis//*//* 32.0 * +EC3.1.1.20 tannic acid trametes elegans//*//* 5.5 * +EC3.1.1.20 tannic acid verticillium sp.//*//* 1.05 * +EC3.1.1.20 tannin paecilomyces variotii//*//* 0.00061 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoloxy)butanoate acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.7 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoloxy)butanoate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.35 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoloxy)butanoate ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.61 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)11butanoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 1.3 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate acidovorax sp. sa1//*//* 1.5 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 5.2 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.0 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate paucimonas lemoignei//*//* 0.55 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.17 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)2butanoate zoogloea ramigera//*//* 0.33 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)3butanoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 11.1 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)3butanoate paucimonas lemoignei//*//* 0.85 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)3butanoate zoogloea ramigera//*//* 0.36 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)4butanoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 4.0 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)4butanoate zoogloea ramigera//*//* 0.12 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)7butanoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 1.5 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate acidovorax sp. sa1//*//* 1.3 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 32.8 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.7 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate paucimonas lemoignei//*//* 0.2 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.18 * +EC3.1.1.22 (r)-3-((r)-3-hydroxybutanoyloxy)butanoate zoogloea ramigera//*//* 0.59 * +EC3.1.1.22 (r)-3-((s)-3-hydroxybutanoyloxy)butanoate paucimonas lemoignei//*//* 0.2 * +EC3.1.1.23 1-decanoyl-rac-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.1.23 1-monolauroylglycerol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.14 * +EC3.1.1.23 1-monomyristoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.1.1.23 1-monooleoylglycerol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.083 * +EC3.1.1.23 1-monooleoylglycerol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.1.1.23 1-monooleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.51 * +EC3.1.1.23 2-(15-deoxy-delta12,14-prostaglandin j2)-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0122 * +EC3.1.1.23 2-arachidonoylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC3.1.1.23 2-arachidonoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.1.1.23 2-monomyristoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.1.1.23 2-monooleoylglycerol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.059 * +EC3.1.1.23 2-oleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4e-05 * +EC3.1.1.23 4-methylumbelliferyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.162 * +EC3.1.1.23 4-nitrophenylacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.1.23 7-hydroxycoumarinyl arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0098 * +EC3.1.1.23 arachidonoyl-1-thio-glycerol bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.25 * +EC3.1.1.23 methyl butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 200.0 * +EC3.1.1.23 oleoylethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.1.1.23 prostaglandin d2-g rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.133 * +EC3.1.1.23 prostaglandin e2-g rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.1.1.23 prostaglandin f3alpha-g rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.311 * +EC3.1.1.23 sn-1(3)-monooleoylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.1.23 sn-2-monooleoylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.1.1.23 sn-2-monooleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.49 * +EC3.1.1.23 tributyrylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 40.0 * +EC3.1.1.24 2-(5-oxo-4,5-dihydrofuran-2-yl)acetic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.012 * +EC3.1.1.25 2-coumaranone agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.55 * +EC3.1.1.25 3,4-dihydrocoumarin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.56 * +EC3.1.1.25 3-hydroxyoctanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.1.1.25 3-oxo-decanoyl-l-homoserine lactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.231 * +EC3.1.1.25 3-oxo-octanoyl-l-homoserine lactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.186 * +EC3.1.1.25 5-(thiobutyl)butyrolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.1.25 5-butyl-4-methyldihydro-2(3h)-furanone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.93 * +EC3.1.1.25 7-oxo-n-(2-oxotetrahydrofuran-3-yl)nonanamide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.836 * +EC3.1.1.25 9-oxo-n-(2-oxotetrahydrofuran-3-yl)undecanamide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.213 * +EC3.1.1.25 coumaranone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.1.25 delta-dodecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.839 * +EC3.1.1.25 delta-dodecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.678 * +EC3.1.1.25 delta-nonalactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.812 * +EC3.1.1.25 delta-nonalactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.359 * +EC3.1.1.25 delta-nonalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 1.22 * +EC3.1.1.25 delta-undecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.105 * +EC3.1.1.25 delta-undecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.094 * +EC3.1.1.25 delta-valerolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.1.1.25 delta-valerolactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1.9 * +EC3.1.1.25 dihydrocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.1.25 dihydrocoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.748 * +EC3.1.1.25 dihydrocoumarin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.376 * +EC3.1.1.25 dodecanoic-1,4-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.242 * +EC3.1.1.25 dodecanoic-1,5-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.185 * +EC3.1.1.25 dodecanoic-delta-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.12 * +EC3.1.1.25 dodecanoic-gamma-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.48 * +EC3.1.1.25 epsilon-caprolactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.031 * +EC3.1.1.25 epsilon-caprolactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.37 * +EC3.1.1.25 epsilon-caprolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.234 * +EC3.1.1.25 gamma-(r)-caprolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.55 * +EC3.1.1.25 gamma-(r)-valerolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 4.56 * +EC3.1.1.25 gamma-(s)-caprolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.75 * +EC3.1.1.25 gamma-(s)-valerolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 1.95 * +EC3.1.1.25 gamma-butyrolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.1.1.25 gamma-butyrolactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC3.1.1.25 gamma-butyrolactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.16 * +EC3.1.1.25 gamma-butyrolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 11.57 * +EC3.1.1.25 gamma-caprolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.1.1.25 gamma-caprolactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.1.1.25 gamma-caprolactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 3.7 * +EC3.1.1.25 gamma-dodecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.0021 * +EC3.1.1.25 gamma-dodecanoic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.1.1.25 gamma-dodecanoic lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.1.1.25 gamma-dodecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.22 * +EC3.1.1.25 gamma-heptalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.872 * +EC3.1.1.25 gamma-heptanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.166 * +EC3.1.1.25 gamma-heptanolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.1.1.25 gamma-heptanolide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.388 * +EC3.1.1.25 gamma-heptanolide sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.13 * +EC3.1.1.25 gamma-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 140.0 * +EC3.1.1.25 gamma-hydroxycaproate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC3.1.1.25 gamma-hydroxyvalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.0 * +EC3.1.1.25 gamma-hydroxyvalerate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 20.0 * +EC3.1.1.25 gamma-nonalactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.1.1.25 gamma-nonalactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.943 * +EC3.1.1.25 gamma-nonalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.047 * +EC3.1.1.25 gamma-nonanoic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.1.1.25 gamma-octalactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.1.25 gamma-octalactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.1.1.25 gamma-thiobutyrolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.1.1.25 gamma-undecalactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.12 * +EC3.1.1.25 gamma-undecanoic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.1.1.25 gamma-undecanolactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.099 * +EC3.1.1.25 gamma-valerolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.1.1.25 gamma-valerolactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.1.1.25 homocysteine thiolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.2 * +EC3.1.1.25 homogentisic acid lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.1.1.25 l-pantoyl lactone agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.59 * +EC3.1.1.25 n-(2-oxotetrahydrofuran-3-yl)pentanamide sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.178 * +EC3.1.1.25 n-(3-oxodecanoyl)-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.1 * +EC3.1.1.25 n-(3-oxodecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.143 * +EC3.1.1.25 n-(3-oxododecanoyl)-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.44 * +EC3.1.1.25 n-(3-oxododecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.456 * +EC3.1.1.25 n-(3-oxohexanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.558 * +EC3.1.1.25 n-(3-oxohexanoyl)homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.592 * +EC3.1.1.25 n-(3-oxooctanoyl)-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.042 * +EC3.1.1.25 n-(3-oxooctanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.123 * +EC3.1.1.25 n-(3-oxooctanoyl)homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.256 * +EC3.1.1.25 n-dodecanoyl-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1.3 * +EC3.1.1.25 n-dodecanoylhomoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.345 * +EC3.1.1.25 n-hexanoylhomoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.459 * +EC3.1.1.25 n-octanoyl-dl-homoserine lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.68 * +EC3.1.1.25 n-octanoylhomoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.145 * +EC3.1.1.25 nonanoic-1,4-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.109 * +EC3.1.1.25 nonanoic-1,5-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.348 * +EC3.1.1.25 nonanoic-delta-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.06 * +EC3.1.1.25 nonanoic-gamma-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.015 * +EC3.1.1.25 octanoyl-l-homoserine lactone vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.262 * +EC3.1.1.25 pantoyl lactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.3 * +EC3.1.1.25 paraoxon sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 24.2 * +EC3.1.1.25 phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC3.1.1.25 undecanoic-1,4-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.578 * +EC3.1.1.25 undecanoic-1,5-lactone sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.168 * +EC3.1.1.25 undecanoic-gamma-lactone sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.39 * +EC3.1.1.26 digalactosyldiacylglycerol phaseolus coccineus//*//* 0.31 * +EC3.1.1.26 digalactosyldilinolenin phaseolus coccineus//*//* 7.8 * +EC3.1.1.26 monogalactosyldiacylglycerol oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.34 * +EC3.1.1.26 monogalactosyldiacylglycerol phaseolus coccineus//*//* 0.65 * +EC3.1.1.26 monogalactosyldiacylglycerol phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.24 * +EC3.1.1.26 monogalactosyldiacylglycerol solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.26 * +EC3.1.1.26 monogalactosyldiacylglycerol vigna unguiculata//*//* 0.119 * +EC3.1.1.26 monogalactosyldilinolenin phaseolus coccineus//*//* 1.5 * +EC3.1.1.26 phosphatidylcholine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.53 * +EC3.1.1.26 phosphatidylcholine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.54 * +EC3.1.1.27 4-pyridoxate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.319 * +EC3.1.1.27 4-pyridoxolactone mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.008 * +EC3.1.1.27 4-pyridoxolactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0031 * +EC3.1.1.28 decanoyl-l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC3.1.1.28 lauroyl-l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.95 * +EC3.1.1.28 myristoyl-l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC3.1.1.28 octanoyl-l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.093 * +EC3.1.1.28 p-nitrophenyl acetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.392 * +EC3.1.1.28 palmitoyl carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC3.1.1.28 palmitoyl-dl-carnitine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0988 * +EC3.1.1.28 palmitoyl-l-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC3.1.1.29 acetyl-his-trnahis sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.6e-05 * +EC3.1.1.29 acetyl-histidyl-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.6e-05 * +EC3.1.1.29 bulk peptidyl-trna bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.008 * +EC3.1.1.29 dephosphorylated diacyl-lysine-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3e-06 * +EC3.1.1.29 dephosphorylated formyl-methioninyl-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3e-05 * +EC3.1.1.29 diacetyl-lys-trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.1.1.29 diacetyl-lys-trnalys sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.8e-06 * +EC3.1.1.29 diacetyl-lysine-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.1.1.29 diacetyl-lysine-trna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC3.1.1.29 diacetyl-lysine-trna staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0028 * +EC3.1.1.29 diacetyl-lysine-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1e-05 * +EC3.1.1.29 diacetyl-lysyl-trnalys mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0007 * +EC3.1.1.29 diacetyl-lysyl-trnalys sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.1 * +EC3.1.1.29 formyl-met-trnafmet, dephosphorylated sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3e-05 * +EC3.1.1.29 formyl-met-trnafmet sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2e-05 * +EC3.1.1.29 formyl-methionyl-trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2e-05 * +EC3.1.1.29 n-acetyl-ala-trna(ala) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00471 * +EC3.1.1.29 n-acetyl-met-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC3.1.1.29 n-acetyl-phe-trna fusarium culmorum//*//* 0.0008 * +EC3.1.1.29 n-acetyl-phenylalanyl-trna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1e-06 * +EC3.1.1.29 oregon green-methionine-trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0055 * +EC3.1.1.29 phe-trna fusarium culmorum//*//* 0.0008 * +EC3.1.1.3 (+/-)-trans-3-(4'-methoxy-phenyl)-glycidyl methyl ester serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 222.0 * +EC3.1.1.3 1,2-didecanoyl-1-thioglycerol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.038 * +EC3.1.1.3 1-caprin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.17 * +EC3.1.1.3 1-olein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.86 * +EC3.1.1.3 1-stearoyl-2-arachidonoyl-sn-glycerol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.055 * +EC3.1.1.3 4-methylumbelliferyl butyrate litopenaeus vannamei//*//* 41.03 * +EC3.1.1.3 4-methylumbelliferyl oleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC3.1.1.3 4-nitrophenyl acetate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 14.0 * +EC3.1.1.3 4-nitrophenyl acetate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.04533 * +EC3.1.1.3 4-nitrophenyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.5 * +EC3.1.1.3 4-nitrophenyl butanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.129 * +EC3.1.1.3 4-nitrophenyl butyrate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.2 * +EC3.1.1.3 4-nitrophenyl butyrate burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.038 * +EC3.1.1.3 4-nitrophenyl butyrate rhodotorula glutinis//*//* 2.7 * +EC3.1.1.3 4-nitrophenyl butyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC3.1.1.3 4-nitrophenyl butyrate staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 0.43 * +EC3.1.1.3 4-nitrophenyl butyrate uncultured bacterium//*//* 0.22 * +EC3.1.1.3 4-nitrophenyl caprate macruronus novaezelandiae//*//* 0.068 * +EC3.1.1.3 4-nitrophenyl caprate oncorhynchus tshawytscha//*//* 0.078 * +EC3.1.1.3 4-nitrophenyl caprate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0466 * +EC3.1.1.3 4-nitrophenyl caproate fervidobacterium changbaicum//*//* 0.00467 * +EC3.1.1.3 4-nitrophenyl caprylate lymantria dispar//*//* 0.31 * +EC3.1.1.3 4-nitrophenyl laurate aureobasidium pullulans//*//* 0.608 * +EC3.1.1.3 4-nitrophenyl laurate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.5 * +EC3.1.1.3 4-nitrophenyl laurate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 5.05 * +EC3.1.1.3 4-nitrophenyl laurate rhodotorula glutinis//*//* 0.7 * +EC3.1.1.3 4-nitrophenyl laurate uncultured bacterium//*//* 0.00073 * +EC3.1.1.3 4-nitrophenyl palmitate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.099 * +EC3.1.1.3 4-nitrophenyl palmitate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.3 * +EC3.1.1.3 4-nitrophenyl palmitate bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 28.0 * +EC3.1.1.3 4-nitrophenyl palmitate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 29.0 * +EC3.1.1.3 4-nitrophenyl palmitate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.11 * +EC3.1.1.3 4-nitrophenyl palmitate diutina rugosa//*//* 0.00017 * +EC3.1.1.3 4-nitrophenyl palmitate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.33 * +EC3.1.1.3 4-nitrophenyl palmitate geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 1.1 * +EC3.1.1.3 4-nitrophenyl palmitate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 50.0 * +EC3.1.1.3 4-nitrophenyl palmitate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.24 * +EC3.1.1.3 4-nitrophenyl palmitate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0241 * +EC3.1.1.3 alpha-naphthyl butyrate micrococcus sp.//*//* 0.08 * +EC3.1.1.3 alpha-naphthyl caprylate micrococcus sp.//*//* 0.06 * +EC3.1.1.3 cholesterol oleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.04 * +EC3.1.1.3 diolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.07 * +EC3.1.1.3 monoolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.3 olive oil sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 330.0 * +EC3.1.1.3 phosphocholine oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.02 * +EC3.1.1.3 triacetin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.1089 * +EC3.1.1.3 tributyrin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 34.0 * +EC3.1.1.3 tributyrin burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 16.6 * +EC3.1.1.3 tributyrin camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 5.5 * +EC3.1.1.3 tributyrin micrococcus sp.//*//* 5.0 * +EC3.1.1.3 tributyrin scorpio maurus//*//* 17.0 * +EC3.1.1.3 tributyrin staphylococcus xylosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sxy 31.25 * +EC3.1.1.3 tricaprin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.47 * +EC3.1.1.3 tricaprylin geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 1.82 * +EC3.1.1.3 tricaprylin micrococcus sp.//*//* 0.6 * +EC3.1.1.3 trilaurin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 22.0 * +EC3.1.1.3 trioctanoin camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 11.0 * +EC3.1.1.3 triolein bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 9.3 * +EC3.1.1.3 triolein geotrichum marinum//*//* 11.5 * +EC3.1.1.3 triolein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC3.1.1.3 triolein oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.71 * +EC3.1.1.3 triolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.82 * +EC3.1.1.3 triolein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.36 * +EC3.1.1.3 trioleoylglycerol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC3.1.1.3 trioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.91 * +EC3.1.1.3 tripalmitin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 15.0 * +EC3.1.1.3 tristearin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 12.0 * +EC3.1.1.31 6-phospho-d-glucono-1,5-lactone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC3.1.1.31 6-phospho-d-glucono-1,5-lactone dicentrarchus labrax//*//* 0.09 * +EC3.1.1.31 6-phospho-d-glucono-1,5-lactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC3.1.1.32 1-palmitoyl-2-arachidonylglycerophosphocholine mesocricetus auratus//*//* 0.5 * +EC3.1.1.32 diacyl-sn-glycero-3-phosphorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.1.1.32 diacyl-sn-glycero-3-phosphorylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.92 * +EC3.1.1.32 diacyl-sn-glycero-3-phosphorylserine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.19 * +EC3.1.1.32 phosphatidylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.1.1.32 phosphatidylcholine serratia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srs 0.11 * +EC3.1.1.32 phosphatidylglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0003 * +EC3.1.1.34 chylomicron gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.12 * +EC3.1.1.34 chylomicron rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.77 * +EC3.1.1.34 chylomicrons rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.075 * +EC3.1.1.34 triolein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC3.1.1.34 triolein gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.98 * +EC3.1.1.34 triolein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.57 * +EC3.1.1.34 trioleoin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.1.1.34 very-low-density lipoprotein gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.97 * +EC3.1.1.34 very-low-density lipoprotein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.62 * +EC3.1.1.34 very-low-density lipoproteins rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC3.1.1.35 2-coumaranone geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.81 * +EC3.1.1.35 3,4-dihydrocoumarin acinetobacter calcoaceticus//*//* 0.8 * +EC3.1.1.35 3,4-dihydrocoumarin geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.996 * +EC3.1.1.35 3,4-dihydroxycoumarin acinetobacter calcoaceticus//*//* 0.81 * +EC3.1.1.35 dihydrocoumarin melilotus albus//*//* 0.24 * +EC3.1.1.35 dimethyl-(r)-methylsuccinate acinetobacter calcoaceticus//*//* 54.1 * +EC3.1.1.35 dl-beta-acetylthioisobutyrate methyl ester acinetobacter calcoaceticus//*//* 25.9 * +EC3.1.1.35 gentisic acid gamma-lactone geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.66 * +EC3.1.1.35 methyl cetraxate hydrochloride acinetobacter calcoaceticus//*//* 6.88 * +EC3.1.1.35 methyl-3-(4-hydroxyphenyl)-propionate acinetobacter calcoaceticus//*//* 2.54 * +EC3.1.1.35 methyl-dl-beta-acetylthioisobutyrate acinetobacter calcoaceticus//*//* 25.9 * +EC3.1.1.35 peracetic acid acinetobacter calcoaceticus//*//* 0.39 * +EC3.1.1.39 actinomycin actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 0.0114 * +EC3.1.1.4 (3e)-3-[(3as,7as)-3-methyl-2-oxo-6-(propan-2-ylidene)hexahydro-1-benzofuran-7(4h)-ylidene]propanoic acid bothrops jararacussu//*//* 0.742 * +EC3.1.1.4 (3r,3as,5as,8br)-3,5a,5b-trimethyl-3a,4,5,5a,5b,8b-hexahydro-2h-cyclopenta[2,3]cyclopropa[1,2-g]benzofuran-2,6(3h)-dione bothrops jararacussu//*//* 0.746 * +EC3.1.1.4 (3r,3as,5as,9br)-3,5a,9-trimethyl-3a,4,5,5a-tetrahydronaphtho[1,2-b]furan-2,8(3h,9bh)-dione bothrops jararacussu//*//* 0.734 * +EC3.1.1.4 (3r,3as,6r,8s,9bs)-6,8-dihydroxy-3,6,9-trimethyl-3,3a,4,5,6,6a,7,8-octahydroazuleno[4,5-b]furan-2(9bh)-one bothrops jararacussu//*//* 0.744 * +EC3.1.1.4 (3r,3as,6r,8s,9bs)-8-hydroxy-3,6,9-trimethyl-2-oxo-2,3,3a,4,5,6,6a,7,8,9b-decahydroazuleno[4,5-b]furan-6-yl acetate bothrops jararacussu//*//* 0.738 * +EC3.1.1.4 (3r,3as,6r,9bs)-3,6,9-trimethyl-2,8-dioxo-2,3,3a,4,5,6,6a,7,8,9b-decahydroazuleno[4,5-b]furan-6-yl acetate bothrops jararacussu//*//* 0.742 * +EC3.1.1.4 (3r,3as,6r,9bs)-6-hydroxy-3,6,9-trimethyl-3a,4,5,6,6a,7-hexahydroazuleno[4,5-b]furan-2,8(3h,9bh)-dione bothrops jararacussu//*//* 0.744 * +EC3.1.1.4 (3s)-5a-(1-bromo-1-methylethyl)-3-methyl-3,3a,5,5a,8,9b-hexahydro-4h-furo[2,3-f]chromene-2,7-dione bothrops jararacussu//*//* 0.738 * +EC3.1.1.4 1,2-diheptanoyl-sn-glycero-3-phophorylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.12 * +EC3.1.1.4 1,2-diheptanoyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.1.1.4 1,2-diheptanoyl-sn-glycero-3-phosphocholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.1.1.4 1,2-dihexanoyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.1.1.4 1,2-dihexanoyl-sn-glycero-3-phosphocholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.1.1.4 1,2-dinonanoyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.1.1.4 1,2-dioctanoyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.1.4 1,2-dioctanoyl-sn-glycero-3-phosphocholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.2 * +EC3.1.1.4 1,2-dioctanoyl-sn-glycero-3-phosphoglycol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.1.4 1,2-dioctanoyl-sn-glycero-3-phosphoglycol sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC3.1.1.4 1,2-dipalmitoyl-phosphatidylcholine, small unilamellar vesicles sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.1.1.4 1-decanoyl-2-(4-nitrophenylglutaryl) phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.1.1.4 1-hexadecyl-2-acetyl-sn-glycerol-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0137 * +EC3.1.1.4 1-palmitoyl-2-(12-(3-(4-hydroxyphenyl)propionyl)amino dodecanoyl)phosphatidylcholine naja naja//*//* 0.19 * +EC3.1.1.4 1-palmitoyl-2-arachidonoylphosphatidylcholine mesocricetus auratus//*//* 0.5 * +EC3.1.1.4 1-palmitoyl-2-arachidonoylphosphatidylethanolamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC3.1.1.4 1-palmitoyl-2-arachidonylphosphatidylcholine mesocricetus auratus//*//* 0.0016 * +EC3.1.1.4 1-stearoyl-2-arachidonoyl-sn-glycero-3-phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0139 * +EC3.1.1.4 1-stearyl-2-arachidonoylphosphatidylcholine mesocricetus auratus//*//* 0.5 * +EC3.1.1.4 4-nitro-3-(octanoyloxy) benzoic acid porthidium hyoprora//*//* 1.96 * +EC3.1.1.4 4-nitro-3-(octanoyloxy)benzoic acid bothrops jararacussu//*//* 1.7 * +EC3.1.1.4 arachidonyl phosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.1.1.4 ca2+ aiptasia pallida//eukaryotes;animals;cnidarians//epa 1.5 * +EC3.1.1.4 choline plasmalogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.1.1.4 dimyristoyl-sn-phosphatidylcholine trypanosoma congolense//*//* 1.85 * +EC3.1.1.4 dimyristoyl-sn-phosphatidylinositol trypanosoma congolense//*//* 58.0 * +EC3.1.1.4 dimyristoyl-sn-phosphatidylserine trypanosoma congolense//*//* 3.65 * +EC3.1.1.4 dioleolyl-sn-phosphatidylcholine trypanosoma congolense//*//* 2.12 * +EC3.1.1.4 dioleolyl-sn-phosphatidylethanolamine trypanosoma congolense//*//* 4.6 * +EC3.1.1.4 dipalmitoyl-phosphatidylcholine trypanosoma congolense//*//* 86.0 * +EC3.1.1.4 dipalmitoyl-phosphatidylethanolamine trypanosoma congolense//*//* 98.0 * +EC3.1.1.4 dipalmitoyl-sn-phosphatidylserine trypanosoma congolense//*//* 56.0 * +EC3.1.1.4 ethanolamine plasmalogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC3.1.1.4 l-1-acyl-2-arachidonyl-sn-glycerol-3-phosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.83 * +EC3.1.1.4 l-alpha-dipalmitoyl phosphatidylcholine aiptasia pallida//eukaryotes;animals;cnidarians//epa 0.65 * +EC3.1.1.4 lecithin crotalus atrox//*//* 8.3 * +EC3.1.1.4 lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.9 * +EC3.1.1.4 mg2+ aiptasia pallida//eukaryotes;animals;cnidarians//epa 3.6 * +EC3.1.1.4 mn2+ aiptasia pallida//eukaryotes;animals;cnidarians//epa 12.0 * +EC3.1.1.4 p-nitrophenyl propionate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.103 * +EC3.1.1.4 phosphatidylcholine daboia russelii//*//* 0.61 * +EC3.1.1.4 phosphatidylcholine dasyatis pastinaca//*//* 17.0 * +EC3.1.1.4 phosphatidylcholine echis carinatus//*//* 0.25 * +EC3.1.1.4 phosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC3.1.1.4 phosphatidylcholine naja naja//*//* 2.0 * +EC3.1.1.4 phosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.9 * +EC3.1.1.4 phosphatidylcholine synthetic construct//*//* 3.347 * +EC3.1.1.4 phosphatidylethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC3.1.1.4 phosphatidylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC3.1.1.4 platelet activating factor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.1.1.4 soya lecithin daboia russellii russellii//*//* 0.02 * +EC3.1.1.40 evernic acid evernia prunastri//*//* 7.5 * +EC3.1.1.40 lecanoric acid umbilicaria pustulata//*//* 0.056 * +EC3.1.1.41 7-aminocephalosporanic acid amycolatopsis lactamdurans//*//* 8.3 * +EC3.1.1.41 7-aminocephalosporanic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.8 * +EC3.1.1.41 7-aminocephalosporanic acid rhodotorula glutinis//*//* 1.43 * +EC3.1.1.41 benzyloxycarbonyl-7-aminocephalosporanic acid rhodotorula glutinis//*//* 1.11 * +EC3.1.1.41 cephaloglycin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 11.5 * +EC3.1.1.41 cephalosporin c acremonium chrysogenum//*//* 20.0 * +EC3.1.1.41 cephalosporin c amycolatopsis lactamdurans//*//* 7.0 * +EC3.1.1.41 cephalosporin c bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 24.0 * +EC3.1.1.41 cephalosporin c citrus sp.//*//* 4.7 * +EC3.1.1.41 cephalosporin c rhodotorula glutinis//*//* 8.39 * +EC3.1.1.41 cephalosporin c rhodotorula toruloides//*//* 51.8 * +EC3.1.1.41 cephalothin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.3 * +EC3.1.1.41 cephalotin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 11.1 * +EC3.1.1.41 cephalotin citrus sp.//*//* 8.6 * +EC3.1.1.41 cephapirin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.9 * +EC3.1.1.41 monochloroacetyl-7-aminocephalosporanic acid rhodotorula glutinis//*//* 2.03 * +EC3.1.1.41 p-nitrophenyl acetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC3.1.1.41 triacetin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.46 * +EC3.1.1.41 triacetin citrus sp.//*//* 30.0 * +EC3.1.1.42 chlorogenic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.01 * +EC3.1.1.43 4-carbamimidamidobenzyl l-isoleucinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.1.1.43 4-carbamimidamidobenzyl l-phenylalaninate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.207 * +EC3.1.1.43 4-carbamimidamidobenzyl l-valinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.1.1.43 7-amino-3-deacetoxycephalosporanic acid xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 5.08 * +EC3.1.1.43 amoxicillin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 2.6 * +EC3.1.1.43 ampicillin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.0006 * +EC3.1.1.43 ampicillin pseudomonas melanogenum//*//* 0.00434 * +EC3.1.1.43 ampicillin xanthomonas sp.//*//* 0.0006 * +EC3.1.1.43 cefadroxil acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 1.7 * +EC3.1.1.43 cefaloglycin pseudomonas melanogenum//*//* 0.00196 * +EC3.1.1.43 cefradine pseudomonas melanogenum//*//* 0.00179 * +EC3.1.1.43 cephalexin acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.0015 * +EC3.1.1.43 cephalexin pseudomonas melanogenum//*//* 0.00161 * +EC3.1.1.43 cephalexin xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 0.0017 * +EC3.1.1.43 cephalexin xanthomonas sp.//*//* 0.00035 * +EC3.1.1.43 d-2-nitro-5-[(phenylglycyl)amino]benzoic acid acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 1.1 * +EC3.1.1.43 d-4-hydroxyphenylglycine methyl ester acidovorax avenae//prokaryotes;bacteria;betaproteobacteria;acidovorax//aaa 82.0 * +EC3.1.1.43 d-alanine methyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 40.9 * +EC3.1.1.43 d-alpha-phenylglycine methyl ester xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 8.26 * +EC3.1.1.43 d-phenylglycine amide acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.013 * +EC3.1.1.43 d-phenylglycine methyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.0026 * +EC3.1.1.43 d-phenylglycine methyl ester xanthomonas citri//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xac 0.0083 * +EC3.1.1.43 d-phenylglycine methyl ester xanthomonas sp.//*//* 0.0036 * +EC3.1.1.43 ethyl dl-alpha-amino-n-butyrate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 2.6 * +EC3.1.1.43 glycine ethyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 5.0 * +EC3.1.1.43 l-s-benzylcysteine ethyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.5 * +EC3.1.1.43 l-valine methyl ester acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 0.8 * +EC3.1.1.43 methyl d-alpha-aminophenylacetate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 4.3 * +EC3.1.1.43 methyl dl-alpha-aminoisobutyrate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 32.2 * +EC3.1.1.43 methyl l-alpha-aminophenylacetate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 24.0 * +EC3.1.1.43 valacyclovir homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC3.1.1.45 4-fluoromuconolactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.2 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-chloro-2-en-4-olide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0022 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.59 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.14 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 0.381 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-en-4-olide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0281 * +EC3.1.1.45 cis-4-carboxymethylenebut-2-methyl-2-en-4-olide rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.31 * +EC3.1.1.45 olmesartan medoxomil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.1.1.45 protoanemonin pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 0.415 * +EC3.1.1.45 trans-4-carboxymethylenebut-2-en-4-olide cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.11 * +EC3.1.1.45 trans-4-carboxymethylenebut-2-en-4-olide pseudomonas knackmussii//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pkc 0.015 * +EC3.1.1.45 trans-4-carboxymethylenebut-2-en-4-olide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.8 * +EC3.1.1.45 trans-dienelactone pseudomonas reinekei//*//* 0.55 * +EC3.1.1.45 trans-dienelactone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.48 * +EC3.1.1.45 trans-dienelactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1017 * +EC3.1.1.47 1,2-didecanoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.1.1.47 1,2-dioctanoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.1.47 1,2-dioctanoylethyleneglycol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.1.47 1-acetyl-2-hexadecyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.1.47 1-decanoyl-rac-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.086 * +EC3.1.1.47 1-hexadecyl-2-acetyl-sn-glycerol-3-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC3.1.1.47 1-o-alkyl-2-acetyl-sn-glycero-3-phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0876 * +EC3.1.1.47 1-o-alkyl-2-acetyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.1.1.47 1-o-alkyl-2-acetyl-sn-glycero-3-phosphocholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0074 * +EC3.1.1.47 1-octanoyl-rac-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.1.47 2-acetyl-1-alkyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.1.1.47 2-acetyl-1-alkyl-sn-glycero-3-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0049 * +EC3.1.1.47 2-acetyl-1-hexadecyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.1.47 2-acetyl-1-octadecyl-sn-glycero-3-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.1.47 2-acetyl-1-oleoyl-sn-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.1.1.47 acetylated platelet-activation factor bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.206 * +EC3.1.1.47 butyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 63.0 * +EC3.1.1.47 dibutanoyl-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.1.1.47 didecanoyl-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.1.47 dioctanoyl-phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.1.1.47 methyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 143.0 * +EC3.1.1.47 octyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.1.1.47 platelet activating factor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.1.1.47 triacetylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 131.0 * +EC3.1.1.47 tributyryl-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.136 * +EC3.1.1.48 n5-dinitrophenyl-l-ornithine methyl ester fusarium roseum//*//* 0.1 * +EC3.1.1.48 triacetylfusarinine c escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC3.1.1.49 3-phenylpropionylcholine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.101 * +EC3.1.1.49 caffeoylcholine raphanus sativus//*//* 0.038 * +EC3.1.1.49 cinnamoylcholine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.011 * +EC3.1.1.49 cinnamoylcholine raphanus sativus//*//* 0.032 * +EC3.1.1.49 feruloylcholine raphanus sativus//*//* 0.017 * +EC3.1.1.49 isoferuloylcholine barbarea intermedia//*//* 0.0233 * +EC3.1.1.49 isoferuloylcholine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.0039 * +EC3.1.1.49 isoferuloylcholine brassica nigra//*//* 0.0011 * +EC3.1.1.49 isoferuloylcholine brassica rapa subsp. campestris//*//* 0.0058 * +EC3.1.1.49 isoferuloylcholine sinapis alba//*//* 0.0032 * +EC3.1.1.49 p-coumaroylcholine barbarea intermedia//*//* 0.0031 * +EC3.1.1.49 p-coumaroylcholine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.0037 * +EC3.1.1.49 p-coumaroylcholine brassica nigra//*//* 0.0043 * +EC3.1.1.49 p-coumaroylcholine brassica rapa subsp. campestris//*//* 0.0082 * +EC3.1.1.49 p-coumaroylcholine raphanus sativus//*//* 0.017 * +EC3.1.1.49 p-coumaroylcholine sinapis alba//*//* 0.00066 * +EC3.1.1.49 sinapoylcholine barbarea intermedia//*//* 0.0239 * +EC3.1.1.49 sinapoylcholine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.0026 * +EC3.1.1.49 sinapoylcholine brassica nigra//*//* 0.006 * +EC3.1.1.49 sinapoylcholine brassica rapa subsp. campestris//*//* 0.0146 * +EC3.1.1.49 sinapoylcholine raphanus sativus//*//* 0.0195 * +EC3.1.1.49 sinapoylcholine sinapis alba//*//* 0.004 * +EC3.1.1.5 1,2-didecanoyl-sn-glycero-3-phosphocholine penicillium chrysogenum//*//* 1.0 * +EC3.1.1.5 1,2-didecanoylphosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.1.1.5 1,2-dioctanoyl-sn-glycero-3-phosphocholine penicillium chrysogenum//*//* 2.9 * +EC3.1.1.5 1,2-dipalmitoyl-sn-glycero-3-phosphocholine penicillium chrysogenum//*//* 0.82 * +EC3.1.1.5 1,2-dipalmitoylphosphatidylcholine cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.19 * +EC3.1.1.5 1-(4z,7z,10z,13z,16z,19z)-docosahexaenoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04498 * +EC3.1.1.5 1-acyl-2-oleoyl-phosphatidylcholine mycobacterium lepraemurium//*//* 1.6 * +EC3.1.1.5 1-arachidonoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0676 * +EC3.1.1.5 1-arachidonoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0676 * +EC3.1.1.5 1-docosahexaenoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04498 * +EC3.1.1.5 1-hexanoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0992 * +EC3.1.1.5 1-hexanoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0992 * +EC3.1.1.5 1-hexyl-glycerophosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.22 * +EC3.1.1.5 1-lauroyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1203 * +EC3.1.1.5 1-lauroyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1203 * +EC3.1.1.5 1-lauryl-glycerophosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.78 * +EC3.1.1.5 1-linoleoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08892 * +EC3.1.1.5 1-linoleoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08892 * +EC3.1.1.5 1-myristoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.127 * +EC3.1.1.5 1-myristoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.127 * +EC3.1.1.5 1-oleoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.306 * +EC3.1.1.5 1-oleoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.306 * +EC3.1.1.5 1-palmitoyl lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0273 * +EC3.1.1.5 1-palmitoyl lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.19 * +EC3.1.1.5 1-palmitoyl-2-lysophosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.19 * +EC3.1.1.5 1-palmitoyl-glycerophosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.04 * +EC3.1.1.5 1-palmitoyl-lysophosphatidylcholine cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.092 * +EC3.1.1.5 1-palmitoyl-sn-glycero-3-phosphatidylcholine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.076 * +EC3.1.1.5 1-palmitoyl-sn-glycero-3-phosphocholine candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.0606 * +EC3.1.1.5 1-palmitoyl-sn-glycero-3-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.1.1.5 2-oleoyl-lysophosphatidylcholine mycobacterium lepraemurium//*//* 0.75 * +EC3.1.1.5 4-nitrophenyl butyrate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.6071 * +EC3.1.1.5 ghrelin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC3.1.1.5 lysolecithin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.132 * +EC3.1.1.5 lysophosphatidylcholine acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.083 * +EC3.1.1.5 lysophosphatidylcholine hordeum vulgare//*//* 0.03 * +EC3.1.1.5 lysophosphatidylcholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.022 * +EC3.1.1.5 lysophosphatidylcholine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC3.1.1.5 palmitoyl-peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00349 * +EC3.1.1.5 palmitoyllysophosphatidylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC3.1.1.5 phosphatidylcholine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC3.1.1.50 cholesteryl palmitate sinapis alba//*//* 0.0045 * +EC3.1.1.50 hexadecanyl palmitate sinapis alba//*//* 0.028 * +EC3.1.1.50 n-methylindoxyl myristate simmondsia chinensis//*//* 0.093 * +EC3.1.1.52 1-acyl-2-oleoyl-sn-glycerol-3-phosphoinositol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.52 * +EC3.1.1.53 4-o-acetyl-sialic acid equus sp.//*//* 0.3 * +EC3.1.1.53 4-yethylumbelliferyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC3.1.1.53 4-yethylumbelliferyl acetate influenza c virus//*//* 0.13 * +EC3.1.1.53 9-o-acetyl-sialic acid equus sp.//*//* 1.1 * +EC3.1.1.53 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.28 * +EC3.1.1.53 alacepril rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.0 * +EC3.1.1.53 alpha-naphthyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.71 * +EC3.1.1.53 n-acetyl-9-o-acetylneuraminic acid lactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 24.0 * +EC3.1.1.53 n-acetyl-9-o-acetylneuraminic acid lactose influenza c virus//*//* 0.9 * +EC3.1.1.53 n-acetyl-9-o-acetylneuraminic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.0 * +EC3.1.1.53 n-acetyl-9-o-acetylneuraminic acid equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.1 * +EC3.1.1.53 n-acetyl-9-o-acetylneuraminic acid influenza c virus//*//* 0.8 * +EC3.1.1.53 n-acetyl-9-o-acetylneuraminic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.8 * +EC3.1.1.53 spironolactone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.652 * +EC3.1.1.54 5-(4-acetoxybut-1-ynyl)-2,2'-bithiophene tagetes patula//*//* 0.02 * +EC3.1.1.55 1-naphthyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00043 * +EC3.1.1.55 2-nitrophenyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.1.1.55 2-nitrophenyl butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC3.1.1.55 4-acetoxybenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.098 * +EC3.1.1.55 4-nitrophenyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0042 * +EC3.1.1.55 4-nitrophenyl butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0093 * +EC3.1.1.55 acetyl salicylate cavia porcellus//*//* 0.447 * +EC3.1.1.55 acetyl salicylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0059 * +EC3.1.1.55 acetylsalicylic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.17 * +EC3.1.1.55 n-butyryl salicylate cavia porcellus//*//* 0.799 * +EC3.1.1.55 n-decanoyl salicylate cavia porcellus//*//* 0.132 * +EC3.1.1.55 n-hexanoyl salicylate cavia porcellus//*//* 0.679 * +EC3.1.1.55 n-octanoyl salicylate cavia porcellus//*//* 0.201 * +EC3.1.1.55 n-pentanoyl salicylate cavia porcellus//*//* 0.983 * +EC3.1.1.55 n-propionyl salicylate cavia porcellus//*//* 0.576 * +EC3.1.1.55 phenyl acetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0018 * +EC3.1.1.56 1-naphthyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.1.1.56 1-naphthyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.86 * +EC3.1.1.56 2-naphthyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.1.1.56 4-methylumbelliferyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.1.1.56 4-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.1.1.56 4-nitrophenyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC3.1.1.56 4-yethylumbelliferyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.1.1.56 4-yethylumbelliferyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.076 * +EC3.1.1.56 carboxyfluorescin diacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.056 * +EC3.1.1.56 naphthyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.1.1.56 p-nitrophenyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC3.1.1.56 s-formylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.88 * +EC3.1.1.57 2-pyrone-4,6-dicarboxylate pseudomonas straminea//*//* 0.087 * +EC3.1.1.57 2-pyrone-4,6-dicarboxylate sphingomonas paucimobilis//*//* 0.048 * +EC3.1.1.57 4-oxalmesaconate pseudomonas straminea//*//* 0.026 * +EC3.1.1.57 4-oxalomesaconate pseudomonas straminea//*//* 0.025 * +EC3.1.1.58 n-acetylated polygalactosamine aspergillus parasiticus//*//* 0.54 * +EC3.1.1.58 n-acetylgalactosamine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0159 * +EC3.1.1.59 alpha-naphthyl acetate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.12 * +EC3.1.1.59 alpha-naphthyl acetate manduca sexta//*//* 0.41 * +EC3.1.1.59 juvenile hormone i drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 4.2 * +EC3.1.1.59 juvenile hormone i galleria mellonella//*//* 0.00021 * +EC3.1.1.59 juvenile hormone i trichoplusia ni//*//* 0.0004 * +EC3.1.1.59 juvenile hormone ii trichoplusia ni//*//* 0.00034 * +EC3.1.1.59 juvenile hormone iii drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 8.9e-05 * +EC3.1.1.59 juvenile hormone iii leptinotarsa decemlineata//*//* 0.0014 * +EC3.1.1.59 juvenile hormone iii lymantria dispar//*//* 0.00036 * +EC3.1.1.59 juvenile hormone iii manduca sexta//*//* 3e-05 * +EC3.1.1.59 juvenile hormone iii tribolium castaneum//eukaryotes;animals;arthropods;insects//tca 0.000657 * +EC3.1.1.59 juvenile hormone iii trichoplusia ni//*//* 0.00025 * +EC3.1.1.59 juvenile hormone galleria mellonella//*//* 0.00179 * +EC3.1.1.59 juvenile hormone rhyparobia maderae//*//* 0.00015 * +EC3.1.1.59 juvenile hormone trichoplusia ni//*//* 0.00038 * +EC3.1.1.59 methyl farnesoate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3.7 * +EC3.1.1.59 saturated juvenile hormone iii manduca sexta//*//* 4.6e-05 * +EC3.1.1.6 (r)-1,2-o-isopropylidene glycol acetate kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.07 * +EC3.1.1.6 1-acetoxynaphthalene meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 2.63 * +EC3.1.1.6 1-naphthol acetate bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 1.54 * +EC3.1.1.6 2-benzylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 0.06 * +EC3.1.1.6 2-ethylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 0.11 * +EC3.1.1.6 2-isopropylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 1.87 * +EC3.1.1.6 2-methylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 0.09 * +EC3.1.1.6 2-n-pentylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 0.3 * +EC3.1.1.6 2-n-propylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 0.54 * +EC3.1.1.6 2-o-acetyl 4-nitrophenyl beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 4.42 * +EC3.1.1.6 2-o-acetyl-4-nitrophenyl beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3.6 * +EC3.1.1.6 2-t-butylcyclohex-1-en-1-yl acetate marchantia polymorpha//*//* 2.01 * +EC3.1.1.6 3-o-acetyl 4-nitrophenyl beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 1.55 * +EC3.1.1.6 3-o-acetyl-4-nitrophenyl beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.2 * +EC3.1.1.6 4-nitrophenyl acetate lichtheimia corymbifera//*//* 3.76 * +EC3.1.1.6 4-nitrophenyl acetate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.185 * +EC3.1.1.6 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.1.1.6 4-nitrophenyl propionate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.137 * +EC3.1.1.6 4-nitrophenyl-2-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 44.6 * +EC3.1.1.6 4-nitrophenyl-2-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.28 * +EC3.1.1.6 4-nitrophenyl-3-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 9.44 * +EC3.1.1.6 4-nitrophenyl-4-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.78 * +EC3.1.1.6 4-nitrophenyl-5-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 16.4 * +EC3.1.1.6 4-o-acetyl 4-nitrophenyl beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 1.24 * +EC3.1.1.6 4-o-acetyl 4-nitrophenyl beta-d-xylopyranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2.46 * +EC3.1.1.6 4-o-acetyl-4-nitrophenyl beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.0 * +EC3.1.1.6 acetylxylan rhodotorula mucilaginosa//*//* 0.056 * +EC3.1.1.6 alpha-naphthyl acetate fibrobacter succinogenes//prokaryotes;bacteria;fibrobacteres;fibrobacter//fsu 2.7 * +EC3.1.1.6 alpha-naphthyl acetate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.8 * +EC3.1.1.6 cellulose acetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 9.1 * +EC3.1.1.6 ethyl acetate nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.36 * +EC3.1.1.6 glyceryl triacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 90.0 * +EC3.1.1.6 methylumbelliferone acetate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.15 * +EC3.1.1.6 p-nitrophenyl acetate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 32.5 * +EC3.1.1.6 p-nitrophenyl acetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.023 * +EC3.1.1.6 p-nitrophenyl acetate nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.0067 * +EC3.1.1.6 p-nitrophenyl acetate orpinomyces sp.//*//* 0.9 * +EC3.1.1.6 p-nitrophenyl acetate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.43 * +EC3.1.1.6 triacetin lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 14.0 * +EC3.1.1.6 tributyrin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC3.1.1.60 bis(2-ethylhexyl)phthalate triticum aestivum//*//* 0.005 * +EC3.1.1.61 deaminated calmodulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC3.1.1.61 methyl-accepting chemotaxis protein salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.015 * +EC3.1.1.61 methylated adrenocorticotropic hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC3.1.1.61 methylated bovine gamma-globulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC3.1.1.61 methylated calmodulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC3.1.1.61 methylated follicle-stimulating hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0024 * +EC3.1.1.61 methylated gelatin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC3.1.1.61 methylated growth hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0174 * +EC3.1.1.61 methylated histone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC3.1.1.61 methylated luteinizing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC3.1.1.61 methylated methyl-accepting chemotaxis protein bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1e-05 * +EC3.1.1.61 methylated ovalbumin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0072 * +EC3.1.1.61 methylated prolactin salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.026 * +EC3.1.1.61 methylated seminal-plasma protein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC3.1.1.61 ovalbumin methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0059 * +EC3.1.1.63 11-cis-retinyl palmitate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.66 * +EC3.1.1.63 11-cis-retinyl palmitate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.004 * +EC3.1.1.63 11-cis-retinyl palmitate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.1.1.64 all-trans-retinyl palmitate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC3.1.1.64 all-trans-retinyl palmitate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0036 * +EC3.1.1.64 all-trans-retinyl palmitate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.141 * +EC3.1.1.64 an all-trans retinyl ester danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0026 * +EC3.1.1.64 an all-trans-retinyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00104 * +EC3.1.1.67 1-butanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 70.0 * +EC3.1.1.67 1-propanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 530.0 * +EC3.1.1.67 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.1.1.67 arachidonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.67 ethanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 300.0 * +EC3.1.1.67 ethanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 650.0 * +EC3.1.1.67 ethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC3.1.1.67 linoleate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.1.67 linoleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.67 methanol oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1300.0 * +EC3.1.1.67 oleate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.1.67 oleate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.67 oleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.1.1.67 oleic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.1.1.67 palmitate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.1.1.67 palmitate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.67 stearate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.1.67 stearate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.1.1.7 (s)-butyrylthiocholine iodide schizaphis graminum//*//* 0.2011 * +EC3.1.1.7 3-(acetamido)-n,n,n-trimethylanilinum homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.1.1.7 acetyl thiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.1.1.7 acetyl(beta-methyl)thiocholine iodide schizaphis graminum//*//* 0.1139 * +EC3.1.1.7 acetyl-(beta-methyl)thiocholine schizaphis graminum//*//* 0.061 * +EC3.1.1.7 acetylcholine chloride macroptilium atropurpureum//*//* 0.08 * +EC3.1.1.7 acetylcholine iodide gallotia galloti//*//* 0.0123 * +EC3.1.1.7 acetylcholine iodide gammarus pulex//*//* 0.1065 * +EC3.1.1.7 acetylcholine carassius auratus auratus//*//* 0.12 * +EC3.1.1.7 acetylcholine cavia porcellus//*//* 0.147 * +EC3.1.1.7 acetylcholine cichla ocellaris//*//* 0.769 * +EC3.1.1.7 acetylcholine electrophorus electricus//*//* 0.0739 * +EC3.1.1.7 acetylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0714 * +EC3.1.1.7 acetylcholine liposcelis entomophila//*//* 0.37 * +EC3.1.1.7 acetylcholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.046 * +EC3.1.1.7 acetylcholine oncorhynchus mykiss//*//* 0.114 * +EC3.1.1.7 acetylcholine pseudorasbora parva//*//* 0.11 * +EC3.1.1.7 acetylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.423 * +EC3.1.1.7 acetylthiocholine chloride macroptilium atropurpureum//*//* 1.9 * +EC3.1.1.7 acetylthiocholine iodide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.000232 * +EC3.1.1.7 acetylthiocholine iodide eisenia andrei//*//* 0.142 * +EC3.1.1.7 acetylthiocholine iodide electrophorus electricus//*//* 0.9 * +EC3.1.1.7 acetylthiocholine iodide heterorhabditis bacteriophora//*//* 0.27 * +EC3.1.1.7 acetylthiocholine iodide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.1.1.7 acetylthiocholine iodide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.054 * +EC3.1.1.7 acetylthiocholine iodide musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0003437 * +EC3.1.1.7 acetylthiocholine iodide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0003437 * +EC3.1.1.7 acetylthiocholine iodide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC3.1.1.7 acetylthiocholine iodide schizaphis graminum//*//* 0.0883 * +EC3.1.1.7 acetylthiocholine apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.089 * +EC3.1.1.7 acetylthiocholine arapaima gigas//*//* 0.42 * +EC3.1.1.7 acetylthiocholine bactrocera dorsalis//*//* 0.0877 * +EC3.1.1.7 acetylthiocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.1.1.7 acetylthiocholine bungarus fasciatus//*//* 0.052 * +EC3.1.1.7 acetylthiocholine colossoma macropomum//*//* 0.43 * +EC3.1.1.7 acetylthiocholine crassostrea hongkongensis//*//* 0.0531 * +EC3.1.1.7 acetylthiocholine ctenocephalides felis//*//* 0.0243 * +EC3.1.1.7 acetylthiocholine dendrobaena veneta//*//* 0.887 * +EC3.1.1.7 acetylthiocholine electrophorus electricus//*//* 0.084 * +EC3.1.1.7 acetylthiocholine eledone moschata//*//* 0.72 * +EC3.1.1.7 acetylthiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.1.1.7 acetylthiocholine locusta migratoria manilensis//*//* 0.0248 * +EC3.1.1.7 acetylthiocholine lucilia cuprina//*//* 0.0355 * +EC3.1.1.7 acetylthiocholine lytechinus variegatus//*//* 0.308 * +EC3.1.1.7 acetylthiocholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC3.1.1.7 acetylthiocholine nephotettix cincticeps uhler//*//* 0.0511 * +EC3.1.1.7 acetylthiocholine nippostrongylus brasiliensis//*//* 0.128 * +EC3.1.1.7 acetylthiocholine oreochromis niloticus//*//* 0.39 * +EC3.1.1.7 acetylthiocholine ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.082 * +EC3.1.1.7 acetylthiocholine pisum sativum//*//* 0.2 * +EC3.1.1.7 acetylthiocholine rachycentron canadum//*//* 0.43 * +EC3.1.1.7 acetylthiocholine rhopalosiphum padi//*//* 2.18 * +EC3.1.1.7 acetylthiocholine schistosoma bovis//*//* 0.189 * +EC3.1.1.7 acetylthiocholine schistosoma haematobium//eukaryotes;animals;flatworms//shx 0.199 * +EC3.1.1.7 acetylthiocholine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.196 * +EC3.1.1.7 acetylthiocholine schizaphis graminum//*//* 0.0576 * +EC3.1.1.7 acetylthiocholine sitobion avenae//*//* 2.28 * +EC3.1.1.7 acetylthiocholine stomoxys calcitrans//*//* 0.0639 * +EC3.1.1.7 acetylthiocholine zea mays//eukaryotes;plants;monocots;grass family//zma 4.7 * +EC3.1.1.7 bis-n,n-dimethylfulleropyrrolidinium salts electrophorus electricus//*//* 0.0644 * +EC3.1.1.7 butylthiocholine rhopalosiphum padi//*//* 0.67 * +EC3.1.1.7 butylthiocholine sitobion avenae//*//* 1.69 * +EC3.1.1.7 butyrylthiocholine iodide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.00041 * +EC3.1.1.7 butyrylthiocholine iodide heterorhabditis bacteriophora//*//* 0.59 * +EC3.1.1.7 butyrylthiocholine apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.179 * +EC3.1.1.7 butyrylthiocholine arapaima gigas//*//* 5.14 * +EC3.1.1.7 butyrylthiocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.78 * +EC3.1.1.7 butyrylthiocholine colossoma macropomum//*//* 1.61 * +EC3.1.1.7 butyrylthiocholine ctenocephalides felis//*//* 0.0244 * +EC3.1.1.7 butyrylthiocholine locusta migratoria manilensis//*//* 0.012 * +EC3.1.1.7 butyrylthiocholine lucilia cuprina//*//* 0.0568 * +EC3.1.1.7 butyrylthiocholine lytechinus variegatus//*//* 0.036 * +EC3.1.1.7 butyrylthiocholine nephotettix cincticeps uhler//*//* 0.0461 * +EC3.1.1.7 butyrylthiocholine pisum sativum//*//* 4.7 * +EC3.1.1.7 butyrylthiocholine rachycentron canadum//*//* 4.23 * +EC3.1.1.7 butyrylthiocholine schistosoma bovis//*//* 0.395 * +EC3.1.1.7 butyrylthiocholine schistosoma haematobium//eukaryotes;animals;flatworms//shx 0.399 * +EC3.1.1.7 butyrylthiocholine schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.374 * +EC3.1.1.7 butyrylthiocholine stomoxys calcitrans//*//* 0.0967 * +EC3.1.1.7 edrophonium chloride electrophorus electricus//*//* 0.0689 * +EC3.1.1.7 methylthiocholine rhopalosiphum padi//*//* 2.45 * +EC3.1.1.7 methylthiocholine sitobion avenae//*//* 2.23 * +EC3.1.1.7 propionylcholine chloride macroptilium atropurpureum//*//* 0.02 * +EC3.1.1.7 propionylcholine iodide gammarus pulex//*//* 0.2677 * +EC3.1.1.7 propionylthiocholine chloride macroptilium atropurpureum//*//* 2.0 * +EC3.1.1.7 propionylthiocholine iodide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.000526 * +EC3.1.1.7 propionylthiocholine iodide eisenia andrei//*//* 0.183 * +EC3.1.1.7 propionylthiocholine iodide heterorhabditis bacteriophora//*//* 0.42 * +EC3.1.1.7 propionylthiocholine iodide schizaphis graminum//*//* 0.0689 * +EC3.1.1.7 propionylthiocholine arapaima gigas//*//* 1.02 * +EC3.1.1.7 propionylthiocholine bactrocera dorsalis//*//* 0.027 * +EC3.1.1.7 propionylthiocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.137 * +EC3.1.1.7 propionylthiocholine colossoma macropomum//*//* 0.63 * +EC3.1.1.7 propionylthiocholine ctenocephalides felis//*//* 0.0158 * +EC3.1.1.7 propionylthiocholine dendrobaena veneta//*//* 0.148 * +EC3.1.1.7 propionylthiocholine eledone moschata//*//* 0.11 * +EC3.1.1.7 propionylthiocholine lucilia cuprina//*//* 0.0213 * +EC3.1.1.7 propionylthiocholine nephotettix cincticeps uhler//*//* 0.0391 * +EC3.1.1.7 propionylthiocholine oreochromis niloticus//*//* 2.9 * +EC3.1.1.7 propionylthiocholine rachycentron canadum//*//* 2.24 * +EC3.1.1.7 propionylthiocholine schizaphis graminum//*//* 0.031 * +EC3.1.1.7 propionylthiocholine zea mays//eukaryotes;plants;monocots;grass family//zma 3.1 * +EC3.1.1.7 propylthiocholine rhopalosiphum padi//*//* 0.85 * +EC3.1.1.7 propylthiocholine sitobion avenae//*//* 0.93 * +EC3.1.1.7 s-butyrylthiocholine bactrocera dorsalis//*//* 0.195 * +EC3.1.1.7 s-butyrylthiocholine schizaphis graminum//*//* 0.0334 * +EC3.1.1.70 benzyl cetraxate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.0 * +EC3.1.1.71 1-hexadecyl-2-acetyl-sn-glycerol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.045 * +EC3.1.1.72 2-o-acetyl-4-nitrophenyl beta-d-xylopyranoside streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 1.0 * +EC3.1.1.72 4-nitrophenyl acetate orpinomyces sp.//*//* 0.9 * +EC3.1.1.72 4-nitrophenyl acetate termitomyces clypeatus//*//* 0.36 * +EC3.1.1.72 4-yethylumbelliferyl acetate thermoanaerobacterium sp.//*//* 0.45 * +EC3.1.1.72 4-yethylumbelliferyl acetate volvariella volvacea//*//* 0.3077 * +EC3.1.1.72 alpha-naphthyl acetate bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 1.54 * +EC3.1.1.72 alpha-naphthyl acetate fibrobacter succinogenes//prokaryotes;bacteria;fibrobacteres;fibrobacter//fsu 0.056 * +EC3.1.1.72 birchwood xylan neocallimastix patriciarum//*//* 16.72 * +EC3.1.1.72 p-nitrophenyl acetate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.00186 * +EC3.1.1.72 tetraacetyl-xylopyranoside fibrobacter succinogenes subsp. succinogenes s85//*//* 0.08 * +EC3.1.1.73 (e)-3-[5'-((e)-2-ethoxycarbonyl-vinyl)-6,2'-dihydroxy-5,3'-dimethoxy-biphenyl-3-yl]-acrylic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.0 * +EC3.1.1.73 (e)-3-[5'-((e)-2-ethoxycarbonylvinyl)-6,2'-dihydroxy-5,3'-dimethoxybiphenyl-3-yl]-acrylic acid ethyl ester aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.14 * +EC3.1.1.73 1-acetoxynaphthalene aspergillus awamori//*//* 10.0 * +EC3.1.1.73 1-naphthyl acetate aspergillus awamori//*//* 0.01 * +EC3.1.1.73 1-naphthyl acetate chaetomium thermophilum var. dissitum//*//* 0.25 * +EC3.1.1.73 2-butyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 139.8 * +EC3.1.1.73 2-butyl ferulate talaromyces stipitatus//*//* 0.05 * +EC3.1.1.73 2-butyl ferulate thermothelomyces heterothallica//*//* 0.16 * +EC3.1.1.73 4-methylumbelliferyl p-trimethylammonio cinnamate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.27 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.5 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-d-xylopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 2.26 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-d-xylopyranoside talaromyces stipitatus//*//* 0.097 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.54 * +EC3.1.1.73 4-nitrophenyl 2-o-(e)-feruloyl-alpha-l-arabinofuranoside talaromyces stipitatus//*//* 0.042 * +EC3.1.1.73 4-nitrophenyl 2-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 44.6 * +EC3.1.1.73 4-nitrophenyl 2-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.82 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.28 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside aureobasidium pullulans//*//* 0.23 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.06 * +EC3.1.1.73 4-nitrophenyl 2-o-trans-feruloyl-alpha-l-arabinofuranoside thermothelomyces heterothallica//*//* 0.62 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.51 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-d-xylopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.57 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.25 * +EC3.1.1.73 4-nitrophenyl 3-o-(e)-feruloyl-alpha-l-arabinofuranoside talaromyces stipitatus//*//* 0.053 * +EC3.1.1.73 4-nitrophenyl 3-o-acetyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.78 * +EC3.1.1.73 4-nitrophenyl 3-o-acetyl-beta-d-xylopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 6.98 * +EC3.1.1.73 4-nitrophenyl 4-o-(e)-feruloyl-alpha-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.24 * +EC3.1.1.73 4-nitrophenyl 4-o-(e)-feruloyl-alpha-d-xylopyranoside talaromyces stipitatus//*//* 0.028 * +EC3.1.1.73 4-nitrophenyl 5-o-(e)-feruloyl-alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.073 * +EC3.1.1.73 4-nitrophenyl 5-o-(e)-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.123 * +EC3.1.1.73 4-nitrophenyl 5-o-(e)-feruloyl-alpha-l-arabinofuranoside talaromyces stipitatus//*//* 0.016 * +EC3.1.1.73 4-nitrophenyl 5-o-acetyl-alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.24 * +EC3.1.1.73 4-nitrophenyl 5-o-acetyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 16.4 * +EC3.1.1.73 4-nitrophenyl 5-o-acetyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 17.0 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.23 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside aureobasidium pullulans//*//* 0.27 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.6 * +EC3.1.1.73 4-nitrophenyl 5-o-trans-feruloyl-alpha-l-arabinofuranoside thermothelomyces heterothallica//*//* 0.57 * +EC3.1.1.73 4-nitrophenyl acetate talaromyces cellulolyticus//*//* 3.7 * +EC3.1.1.73 4-nitrophenyl acetate uncultured bacterium//*//* 0.261 * +EC3.1.1.73 4-nitrophenyl butanoate chaetomium thermophilum var. dissitum//*//* 0.54 * +EC3.1.1.73 4-nitrophenyl butyrate streptomyces cinnamoneus//*//* 0.17 * +EC3.1.1.73 4-nitrophenyl butyrate uncultured bacterium//*//* 0.158 * +EC3.1.1.73 4-nitrophenyl ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.0 * +EC3.1.1.73 4-nitrophenyl ferulate talaromyces cellulolyticus//*//* 0.5 * +EC3.1.1.73 4-nitrophenyl ferulate uncultured bacterium//*//* 0.5 * +EC3.1.1.73 5-o-(trans-feruloyl)-l-arabinofuranose piromyces equi//*//* 0.075 * +EC3.1.1.73 5-o-(trans-feruloyl)-l-arabinofuranose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.84 * +EC3.1.1.73 5-o-caffeoyl quinic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC3.1.1.73 5-o-feruloyl-l-arabinofuranose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.095 * +EC3.1.1.73 5-o-p-coumaroylquinic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.163 * +EC3.1.1.73 alpha-naphthyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.5 * +EC3.1.1.73 alpha-naphthylbutyrate aspergillus awamori//*//* 0.26 * +EC3.1.1.73 alpha-naphthylcaprylate aspergillus awamori//*//* 0.079 * +EC3.1.1.73 ara-5-5-ara aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.08 * +EC3.1.1.73 ara-ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.27 * +EC3.1.1.73 beta-d-xylopyranosyl-(1->2)-5-o-trans-feruloyl-l-arabinofuranose pleurotus sapidus//*//* 0.227 * +EC3.1.1.73 beta-naphthyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.5 * +EC3.1.1.73 chlorogenic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.245 * +EC3.1.1.73 chlorogenic acid schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.114 * +EC3.1.1.73 coniferyl p-coumarate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.044 * +EC3.1.1.73 diethyl-5-5-diferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.74 * +EC3.1.1.73 ethyl ferulate actinomyces sp. oral taxon 448//*//* 1.33 * +EC3.1.1.73 ethyl ferulate anaeromyces mucronatus//*//* 0.0052 * +EC3.1.1.73 ethyl ferulate aspergillus awamori//*//* 1.38 * +EC3.1.1.73 ethyl ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.69 * +EC3.1.1.73 ethyl ferulate chaetomium thermophilum var. dissitum//*//* 0.025 * +EC3.1.1.73 ethyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 118.1 * +EC3.1.1.73 ethyl ferulate streptomyces cinnamoneus//*//* 1.96 * +EC3.1.1.73 ethyl ferulate talaromyces stipitatus//*//* 0.045 * +EC3.1.1.73 ethyl ferulate thermothelomyces heterothallica//*//* 0.51 * +EC3.1.1.73 faxx talaromyces funiculosus//*//* 0.0246 * +EC3.1.1.73 ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 14.4 * +EC3.1.1.73 ferulic acid 4-nitrophenyl ester aspergillus usamii//*//* 3.62 * +EC3.1.1.73 ferulic acid ethyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.1.1.73 ferulic acid methyl ester aspergillus terreus//*//* 0.61 * +EC3.1.1.73 ferulic acid methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC3.1.1.73 ferulic acid methyl ester pleurotus sapidus//*//* 0.427 * +EC3.1.1.73 ferulic acid methyl ester talaromyces pinophilus//*//* 0.14 * +EC3.1.1.73 iso-butyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 104.7 * +EC3.1.1.73 iso-butyl ferulate talaromyces stipitatus//*//* 0.076 * +EC3.1.1.73 iso-butyl ferulate thermothelomyces heterothallica//*//* 0.19 * +EC3.1.1.73 iso-propyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 104.8 * +EC3.1.1.73 iso-propyl ferulate talaromyces stipitatus//*//* 0.035 * +EC3.1.1.73 iso-propyl ferulate thermothelomyces heterothallica//*//* 0.1 * +EC3.1.1.73 l-arabinose thermothelomyces heterothallica//*//* 3.0 * +EC3.1.1.73 methyl 2-hydroxy cinnamate talaromyces stipitatus//*//* 0.015 * +EC3.1.1.73 methyl 3,4-dihydroxy cinnamate thermothelomyces heterothallica//*//* 0.14 * +EC3.1.1.73 methyl 3,4-dihydroxy-phenyl propionate thermothelomyces heterothallica//*//* 0.76 * +EC3.1.1.73 methyl 3,4-dimethoxy cinnamate talaromyces stipitatus//*//* 0.626 * +EC3.1.1.73 methyl 3,4-dimethoxy cinnamate thermothelomyces heterothallica//*//* 0.65 * +EC3.1.1.73 methyl 3,4-dimethoxycinnamate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.36 * +EC3.1.1.73 methyl 3,5-dimethoxy cinnamate talaromyces stipitatus//*//* 0.075 * +EC3.1.1.73 methyl 3-hydroxy cinnamate talaromyces stipitatus//*//* 0.025 * +EC3.1.1.73 methyl 3-hydroxy cinnamate thermothelomyces heterothallica//*//* 0.22 * +EC3.1.1.73 methyl 3-hydroxy-4-methoxy cinnamate talaromyces stipitatus//*//* 0.533 * +EC3.1.1.73 methyl 3-hydroxy-4-methoxy cinnamate thermothelomyces heterothallica//*//* 0.63 * +EC3.1.1.73 methyl 3-methoxy cinnamate talaromyces stipitatus//*//* 0.301 * +EC3.1.1.73 methyl 3-methoxy cinnamate thermothelomyces heterothallica//*//* 0.47 * +EC3.1.1.73 methyl 4-coumarate streptomyces cinnamoneus//*//* 3.0 * +EC3.1.1.73 methyl 4-coumarate uncultured bacterium//*//* 1.25 * +EC3.1.1.73 methyl 4-hydroxy cinnamate talaromyces stipitatus//*//* 0.01 * +EC3.1.1.73 methyl 4-hydroxy cinnamate thermothelomyces heterothallica//*//* 0.59 * +EC3.1.1.73 methyl 4-hydroxy-3,5-dimethoxy cinnamate talaromyces stipitatus//*//* 0.37 * +EC3.1.1.73 methyl 4-hydroxy-3,5-dimethoxy cinnamate thermothelomyces heterothallica//*//* 0.57 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy cinnamate talaromyces stipitatus//*//* 0.04 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy cinnamate thermothelomyces heterothallica//*//* 1.64 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy phenyl propionate talaromyces stipitatus//*//* 0.016 * +EC3.1.1.73 methyl 4-hydroxy-3-methoxy phenyl propionate thermothelomyces heterothallica//*//* 1.06 * +EC3.1.1.73 methyl 4-hydroxybenzoate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.044 * +EC3.1.1.73 methyl caffeate actinomyces sp. oral taxon 448//*//* 2.79 * +EC3.1.1.73 methyl caffeate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.387 * +EC3.1.1.73 methyl caffeate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.13 * +EC3.1.1.73 methyl caffeate aureobasidium pullulans//*//* 0.1 * +EC3.1.1.73 methyl caffeate chaetomium thermophilum var. dissitum//*//* 0.031 * +EC3.1.1.73 methyl caffeate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.26 * +EC3.1.1.73 methyl caffeate fusarium proliferatum//*//* 0.196 * +EC3.1.1.73 methyl caffeate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.02 * +EC3.1.1.73 methyl caffeate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.123 * +EC3.1.1.73 methyl caffeate streptomyces cinnamoneus//*//* 2.61 * +EC3.1.1.73 methyl caffeate talaromyces funiculosus//*//* 0.139 * +EC3.1.1.73 methyl caffeate thermothelomyces heterothallica//*//* 0.14 * +EC3.1.1.73 methyl cinnamate talaromyces stipitatus//*//* 0.118 * +EC3.1.1.73 methyl cinnamate thermothelomyces heterothallica//*//* 0.33 * +EC3.1.1.73 methyl coumarate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.2 * +EC3.1.1.73 methyl coumarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.021 * +EC3.1.1.73 methyl coumarate penicillium expansum//*//* 2.9 * +EC3.1.1.73 methyl coumarate talaromyces funiculosus//*//* 0.007 * +EC3.1.1.73 methyl ferulate anaeromyces mucronatus//*//* 0.0067 * +EC3.1.1.73 methyl ferulate aspergillus awamori//*//* 0.93 * +EC3.1.1.73 methyl ferulate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.248 * +EC3.1.1.73 methyl ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.1 * +EC3.1.1.73 methyl ferulate aspergillus usamii//*//* 4.64 * +EC3.1.1.73 methyl ferulate aureobasidium pullulans//*//* 0.05 * +EC3.1.1.73 methyl ferulate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.32 * +EC3.1.1.73 methyl ferulate clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.04 * +EC3.1.1.73 methyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.58 * +EC3.1.1.73 methyl ferulate fusarium proliferatum//*//* 0.146 * +EC3.1.1.73 methyl ferulate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.25 * +EC3.1.1.73 methyl ferulate penicillium expansum//*//* 2.6 * +EC3.1.1.73 methyl ferulate pleurotus eryngii//*//* 0.15 * +EC3.1.1.73 methyl ferulate pleurotus giganteus//*//* 0.36 * +EC3.1.1.73 methyl ferulate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.1 * +EC3.1.1.73 methyl ferulate russula virescens//*//* 0.19 * +EC3.1.1.73 methyl ferulate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.147 * +EC3.1.1.73 methyl ferulate streptomyces cinnamoneus//*//* 4.41 * +EC3.1.1.73 methyl ferulate streptomyces olivochromogenes//*//* 1.86 * +EC3.1.1.73 methyl ferulate talaromyces cellulolyticus//*//* 0.8 * +EC3.1.1.73 methyl ferulate talaromyces funiculosus//*//* 0.047 * +EC3.1.1.73 methyl ferulate talaromyces pinophilus//*//* 0.139 * +EC3.1.1.73 methyl ferulate talaromyces stipitatus//*//* 0.04 * +EC3.1.1.73 methyl ferulate thermothelomyces heterothallica//*//* 1.64 * +EC3.1.1.73 methyl ferulate uncultured bacterium//*//* 0.83 * +EC3.1.1.73 methyl p-coumarate aspergillus awamori//*//* 0.031 * +EC3.1.1.73 methyl p-coumarate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.659 * +EC3.1.1.73 methyl p-coumarate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.02 * +EC3.1.1.73 methyl p-coumarate aureobasidium pullulans//*//* 0.01 * +EC3.1.1.73 methyl p-coumarate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.16 * +EC3.1.1.73 methyl p-coumarate chaetomium thermophilum var. dissitum//*//* 0.016 * +EC3.1.1.73 methyl p-coumarate clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.86 * +EC3.1.1.73 methyl p-coumarate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.2 * +EC3.1.1.73 methyl p-coumarate fusarium proliferatum//*//* 0.263 * +EC3.1.1.73 methyl p-coumarate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.021 * +EC3.1.1.73 methyl p-coumarate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.137 * +EC3.1.1.73 methyl p-coumarate talaromyces funiculosus//*//* 0.0068 * +EC3.1.1.73 methyl p-coumarate talaromyces stipitatus//*//* 0.01 * +EC3.1.1.73 methyl p-coumarate thermothelomyces heterothallica//*//* 0.59 * +EC3.1.1.73 methyl sinapate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.15 * +EC3.1.1.73 methyl sinapate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.29 * +EC3.1.1.73 methyl sinapate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.29 * +EC3.1.1.73 methyl sinapate uncultured bacterium//*//* 0.56 * +EC3.1.1.73 methyl sinapinate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.103 * +EC3.1.1.73 methyl sinapinate aureobasidium pullulans//*//* 0.14 * +EC3.1.1.73 methyl sinapinate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.12 * +EC3.1.1.73 methyl sinapinate streptomyces cinnamoneus//*//* 0.54 * +EC3.1.1.73 methyl sinapinate talaromyces stipitatus//*//* 0.37 * +EC3.1.1.73 methyl sinapinate thermothelomyces heterothallica//*//* 0.57 * +EC3.1.1.73 methylumbelliferyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 2.5e-05 * +EC3.1.1.73 n-butyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 629.1 * +EC3.1.1.73 n-butyl ferulate talaromyces stipitatus//*//* 0.106 * +EC3.1.1.73 n-butyl ferulate thermothelomyces heterothallica//*//* 0.73 * +EC3.1.1.73 n-propyl ferulate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 100.5 * +EC3.1.1.73 n-propyl ferulate talaromyces stipitatus//*//* 0.04 * +EC3.1.1.73 n-propyl ferulate thermothelomyces heterothallica//*//* 0.51 * +EC3.1.1.73 o-5-o-(e)-feruloyl-alpha-l-arabinofuranosyl-(1-3)-o-beta-d-xylopyranosyl-(1-4)-d-xylopyranose neocallimastix sp.//*//* 0.0319 * +EC3.1.1.73 o-5-o-[(e)-feruloyl]-alpha-l-arabinofuranosyl-(1-3)-o-beta-d-xylopyranosyl-(1-4)-d-xylopyranose neocallimastix sp.//*//* 0.0096 * +EC3.1.1.73 o-[2-o-(transferuloyl)-alpha-l-arabinofuranosyl]-(1,5)-l-arabinose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.46 * +EC3.1.1.73 o-[5-o-(trans-feruloyl)-alpha-l-arabinofuranosyl]-(1,3)-o-beta-d-xylopyranosyl-(1,4)-d-xylopyranose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.56 * +EC3.1.1.73 o-[5-o-(trans-feruloyl)-alpha-l-araf]-(1,3)d-xylp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.044 * +EC3.1.1.73 o-[5-o-(trans-feruloyl)-alpha-l-araf] aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.061 * +EC3.1.1.73 o-[5-o-(transferuloyl)-alpha-l-arabinofuranosyl]-(1,3)-o-beta-d-xylopyranosyl-(1,4)-d-xylopyranose piromyces equi//*//* 0.004 * +EC3.1.1.73 o-beta-d-xylopyranosyl-(1,4)-o-[5-o-(trans-feruloyl)-alpha-l-arabinofuranosyl-(1,3)]-o-beta-d-xylopyranosyl-(1,4)-d-xylopyranose ferulate neocallimastix sp.//*//* 0.01 * +EC3.1.1.73 o-beta-d-xylopyranosyl-(1,4)-o-[5-o-(trans-feruloyl)-alpha-l-arabinofuranosyl-(1,3)]-o-beta-d-xylopyranosyl-(1,4)-d-xylopyranose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 5.0 * +EC3.1.1.73 o-beta-d-xylopyranosyl-(1,4)-o-[5-o-(trans-feruloyl)-alpha-l-arabinofuranosyl]-(1,3)-o-beta-d-xylopyranosyl-(1,4)-d-xylopyranose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.26 * +EC3.1.1.73 p-coumaric acid methyl ester aspergillus terreus//*//* 0.38 * +EC3.1.1.73 p-coumaric acid methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC3.1.1.73 p-coumaric acid methyl ester talaromyces pinophilus//*//* 0.08 * +EC3.1.1.73 p-nitrophenyl acetate butyrivibrio proteoclasticus//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bpb 2.0 * +EC3.1.1.73 p-nitrophenyl acetate pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.75 * +EC3.1.1.73 p-nitrophenyl butyrate butyrivibrio proteoclasticus//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bpb 24.0 * +EC3.1.1.73 p-nitrophenylferulate eleusine coracana//*//* 5.3e-05 * +EC3.1.1.73 sinapic acid methyl ester aspergillus terreus//*//* 0.29 * +EC3.1.1.73 xyl-ara-5-5-ara aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.07 * +EC3.1.1.73 xyl-ara-ferulate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.11 * +EC3.1.1.74 4-nitrophenyl acetate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.00496 * +EC3.1.1.74 4-nitrophenyl acetate fusarium solani//*//* 0.00067 * +EC3.1.1.74 4-nitrophenyl acetate thermobifida alba//*//* 0.213 * +EC3.1.1.74 4-nitrophenyl acetate thermobifida cellulosilytica//*//* 0.127 * +EC3.1.1.74 4-nitrophenyl acetate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.167 * +EC3.1.1.74 4-nitrophenyl butyrate alternaria brassicicola//*//* 0.00196 * +EC3.1.1.74 4-nitrophenyl butyrate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.00896 * +EC3.1.1.74 4-nitrophenyl butyrate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.00021 * +EC3.1.1.74 4-nitrophenyl butyrate fusarium solani//*//* 0.00126 * +EC3.1.1.74 4-nitrophenyl butyrate humicola insolens//*//* 0.0025 * +EC3.1.1.74 4-nitrophenyl butyrate thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.505 * +EC3.1.1.74 4-nitrophenyl hexanoate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.00029 * +EC3.1.1.74 4-nitrophenyl hexanoate fusarium solani//*//* 0.0015 * +EC3.1.1.74 4-nitrophenyl hexanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.21 * +EC3.1.1.74 4-nitrophenyl octanoate fusarium solani//*//* 0.59 * +EC3.1.1.74 4-nitrophenyl octanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.7 * +EC3.1.1.74 4-nitrophenyl valerate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 4e-05 * +EC3.1.1.74 4-nitrophenyl valerate fusarium solani//*//* 0.00148 * +EC3.1.1.74 p-nitrophenyl acetate trichoderma harzianum//*//* 0.33 * +EC3.1.1.74 p-nitrophenyl butyrate fusarium solani//*//* 0.000121 * +EC3.1.1.74 p-nitrophenyl butyrate trichoderma harzianum//*//* 0.57 * +EC3.1.1.74 p-nitrophenyl palmitate trichoderma harzianum//*//* 0.085 * +EC3.1.1.74 p-nitrophenyl valerate trichoderma harzianum//*//* 0.82 * +EC3.1.1.74 p-nitrophenylacetate ascochyta rabiei//*//* 0.9 * +EC3.1.1.74 p-nitrophenylacetate fusarium solani//*//* 3.0 * +EC3.1.1.74 p-nitrophenylbutanoate ascochyta rabiei//*//* 0.35 * +EC3.1.1.74 p-nitrophenylbutanoate fusarium solani//*//* 0.35 * +EC3.1.1.74 p-nitrophenylbutanoate monilinia fructicola//*//* 1.23 * +EC3.1.1.74 p-nitrophenylbutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC3.1.1.74 p-nitrophenyldecanoate fusarium solani//*//* 0.36 * +EC3.1.1.74 p-nitrophenyldecanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.98 * +EC3.1.1.74 p-nitrophenyldodecanoate fusarium solani//*//* 0.45 * +EC3.1.1.74 p-nitrophenyldodecanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.55 * +EC3.1.1.74 p-nitrophenylhexadecanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.54 * +EC3.1.1.74 p-nitrophenyltetradecanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.27 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]3 acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 4.1 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]3 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 9.7 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]4 acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.67 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]4 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.1 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]5 acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.56 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]5 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 1.3 * +EC3.1.1.75 [(r)-3-hydroxybutanoate]6 acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.36 * +EC3.1.1.75 cyclic [(r)-3-hydroxybutanoate]3 acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.84 * +EC3.1.1.75 cyclic [(r)-3-hydroxybutanoate]5 acidovorax sp.//prokaryotes;bacteria;betaproteobacteria;acidovorax//ajs 0.34 * +EC3.1.1.75 cyclic [(r)-3-hydroxybutanoate]5 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.6 * +EC3.1.1.75 p-nitrophenyl butyrate thermobifida sp. bcc23166//*//* 0.79 * +EC3.1.1.75 poly(3-hydroxybutyrate-co-3-hydroxyvalerate) streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.67 * +EC3.1.1.76 4-nitrophenyl octanoate streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.122 * +EC3.1.1.76 poly(3-hydroxybutyrate) pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.8 * +EC3.1.1.77 diacylphosphatidylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00036 * +EC3.1.1.77 lipopolysaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC3.1.1.77 lipopolysaccharide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC3.1.1.77 lipopolysaccharide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC3.1.1.77 long chain lipopolysaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00026 * +EC3.1.1.77 medium chain lipopolysaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC3.1.1.77 short chain lipopolysaccharide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00032 * +EC3.1.1.78 polyneuridine aldehyde rauvolfia serpentina benth. ex kurz//*//* 0.83 * +EC3.1.1.79 1,2-dioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC3.1.1.79 1-naphthyl acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.54 * +EC3.1.1.79 2-naphthyl acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 5.43 * +EC3.1.1.79 4-nitrophenyl acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.71 * +EC3.1.1.79 alpha-naphtyl acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.54 * +EC3.1.1.79 cholesteryl oleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC3.1.1.79 cholesteyl oleate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC3.1.1.79 dioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.1.1.79 p-nitrophenyl acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.71 * +EC3.1.1.79 p-nitrophenyl butyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.164 * +EC3.1.1.79 p-nitrophenyl butyrate uncultured bacterium//*//* 1.06 * +EC3.1.1.79 p-nitrophenyl hexanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.03 * +EC3.1.1.79 p-nitrophenyl oleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.268 * +EC3.1.1.79 tributanoyl glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.1.79 tributyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.1.79 triolein mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.57 * +EC3.1.1.79 trioleoylglycerol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0034 * +EC3.1.1.79 tripropionin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.1.1.79 tripropionyl glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.1.1.79 vinyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 170.0 * +EC3.1.1.79 vinyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.1.1.79 vinyl laurate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.1.1.79 vinyl propionate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 70.0 * +EC3.1.1.80 17-o-acetylajmaline rauvolfia verticillata//*//* 0.12 * +EC3.1.1.80 17-o-acetylnorajmaline rauvolfia verticillata//*//* 0.7 * +EC3.1.1.81 gamma-nonalactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.024 * +EC3.1.1.81 l-homoserine lactone brevundimonas diminuta//*//* 0.306 * +EC3.1.1.81 n-(3-oxodecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.05 * +EC3.1.1.81 n-(3-oxodecyl)-l-homoserine lactone brevundimonas diminuta//*//* 0.184 * +EC3.1.1.81 n-(3-oxododecanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.17 * +EC3.1.1.81 n-(3-oxododecyl)-l-homoserine lactone brevundimonas diminuta//*//* 0.101 * +EC3.1.1.81 n-(3-oxohexanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.6 * +EC3.1.1.81 n-(3-oxooctanoyl)-l-homoserine lactone geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 5.9 * +EC3.1.1.81 n-(3-oxooctanoyl)-l-homoserine lactone sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.16 * +EC3.1.1.81 n-(3-oxooctyl)-l-homoserine lactone brevundimonas diminuta//*//* 0.608 * +EC3.1.1.81 n-butanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.5 * +EC3.1.1.81 n-butyryl-dl-homoserine lactone brevundimonas diminuta//*//* 0.412 * +EC3.1.1.81 n-decanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.14 * +EC3.1.1.81 n-heptanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 8.84 * +EC3.1.1.81 n-heptanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.3 * +EC3.1.1.81 n-hexanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.86 * +EC3.1.1.81 n-hexanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.18 * +EC3.1.1.81 n-hexyl-l-homoserine lactone brevundimonas diminuta//*//* 0.526 * +EC3.1.1.81 n-octanoyl-dl-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 3.81 * +EC3.1.1.81 n-octanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.18 * +EC3.1.1.81 n-pentanoyl-l-homoserine lactone bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 3.0 * +EC3.1.1.81 paraoxon geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.69 * +EC3.1.1.82 bacteriopheophorbide a raphanus sativus//*//* 0.037 * +EC3.1.1.82 pheophorbide a chenopodium album//*//* 0.0125 * +EC3.1.1.82 pheophorbide a chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.283 * +EC3.1.1.82 pheophorbide a raphanus sativus//*//* 0.0141 * +EC3.1.1.82 pheophorbide b raphanus sativus//*//* 0.232 * +EC3.1.1.84 (-)-cocaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.1.1.84 4-yethylumbelliferyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.1.1.84 6-monoacetylmorphine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.1.1.84 cocaethylene rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.0016 * +EC3.1.1.84 cocaine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.1.1.84 cocaine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.00064 * +EC3.1.1.84 cocaine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.36 * +EC3.1.1.84 ethyl 2-hydroxybenzoate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 1.75 * +EC3.1.1.84 ethyl benzoate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 1.89 * +EC3.1.1.84 heroin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC3.1.1.85 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.1.1.85 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.1.1.85 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.1.1.85 4-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.1.1.85 4-nitrophenyl propionate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.1.1.88 (alphar)-fenpropathrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000106 * +EC3.1.1.88 (alphar,2r)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000585 * +EC3.1.1.88 (alphar,2s)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000585 * +EC3.1.1.88 (alphas)-fenpropathrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000106 * +EC3.1.1.88 (alphas,2r)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000585 * +EC3.1.1.88 (alphas,2s)-fenvalerate sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000585 * +EC3.1.1.88 4-nitrophenyl acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0141 * +EC3.1.1.88 4-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0316 * +EC3.1.1.88 4-nitrophenyl caproate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0576 * +EC3.1.1.88 4-nitrophenyl caprylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0332 * +EC3.1.1.88 4-nitrophenyl decanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0997 * +EC3.1.1.88 4-nitrophenyl laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC3.1.1.88 bifenthrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.00159 * +EC3.1.1.88 cis-cypermethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000108 * +EC3.1.1.88 cis-permethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 6.5e-05 * +EC3.1.1.88 cyhalothrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000348 * +EC3.1.1.88 deltamethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.000788 * +EC3.1.1.88 trans-cypermethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 0.00011 * +EC3.1.1.88 trans-permethrin sphingobium sp.//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//npp 6.2e-05 * +EC3.1.1.90 all-trans retinyl ester danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0026 * +EC3.1.1.92 4-sulfomuconolactone agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.34 * +EC3.1.1.92 4-sulfomuconolactone hydrogenophaga intermedia//*//* 1.9 * +EC3.1.1.95 aclacinomycin t streptomyces purpurascens//*//* 0.0155 * +EC3.1.1.96 d-tyrosyl-trnatyr arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0011 * +EC3.1.1.96 d-tyrosyl-trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC3.1.1.96 d-tyrosyl-trnatyr synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0008 * +EC3.1.1.B10 [5-o-((e)-p-coumaroyl)-alpha-l-arabinofuranosyl]-(1->3)-beta-d-xylopyranosyl-(1->4)-d-xylopyranose neocallimastix sp. mc-2//*//* 0.0132 * +EC3.1.11.1 p(da)4 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.11.1 pdtpdapdtpda escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.1.11.1 single-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.1.11.1 ssdna 10 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.28 * +EC3.1.11.1 ssdna 21 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.35 * +EC3.1.11.1 ssdna 28 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.26 * +EC3.1.11.1 ssdna 40 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.24 * +EC3.1.11.1 ssdna 50 mer thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.13 * +EC3.1.11.2 apurinic dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC3.1.11.2 puc18 dna, psti escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.1.11.2 urea-containing dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.5 * +EC3.1.11.3 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8e-06 * +EC3.1.11.3 dna escherichia virus lambda//*//* 1.8e-06 * +EC3.1.11.5 34-mer ssdna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 134.0 * +EC3.1.11.5 atp alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.09 * +EC3.1.11.5 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.15 * +EC3.1.11.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC3.1.11.5 datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC3.1.11.5 double-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3e-07 * +EC3.1.11.5 double-stranded dna micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1e-06 * +EC3.1.11.5 ds-dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 315.0 * +EC3.1.11.5 oligonucleotide (polydt)8 polyda saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.007 * +EC3.1.11.7 adenosine-5'-diphospho-5'-(ribonucleotide)-[dna] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.66e-05 * +EC3.1.11.7 adenosine-5'-diphospho-5'-(ribonucleotide)-[dna] saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00111 * +EC3.1.11.7 adenosine-5'-diphospho-5'-[dna] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000112 * +EC3.1.11.7 adenosine-5'-diphospho-5'-[dna] saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00247 * +EC3.1.11.7 adenosine-5'-monophosphoramidate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.837 * +EC3.1.11.7 p1,p3-bis(5'-adenosyl)triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.1.11.7 p1,p4-bis(5'-adenosyl)tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.1.11.8 gppp-bodipy homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC3.1.13.1 poly(a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00125 * +EC3.1.13.1 poly(u) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.5e-05 * +EC3.1.13.1 polyadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC3.1.13.2 dna-rna hybrid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.7e-05 * +EC3.1.13.2 poly(ra)n-poly(dt)n human immunodeficiency virus 1//*//* 0.003 * +EC3.1.13.3 (ap)2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.1.13.3 (ap)2 flammulina velutipes//*//* 0.66 * +EC3.1.13.3 (ap)2a flammulina velutipes//*//* 2.47 * +EC3.1.13.3 (ap)3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.1.13.3 (ap)3a flammulina velutipes//*//* 3.03 * +EC3.1.13.3 (ap)4 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC3.1.13.3 (ap)6 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC3.1.13.3 5'-p-nitrophenyl-tmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.54 * +EC3.1.13.3 5'-p-nitrophenyl-tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.13.3 5'-p-nitrophenyl-tmp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.28 * +EC3.1.13.3 p-nitrophenyl uridine 5'-monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC3.1.13.4 poly(a) rna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.36e-05 * +EC3.1.13.4 poly(a) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0051 * +EC3.1.15.1 adp trimeresurus stejnegeri//*//* 0.091 * +EC3.1.15.1 atp trimeresurus stejnegeri//*//* 0.36 * +EC3.1.15.1 bis(p-nitrophenyl)-phosphate bothrops alternatus//*//* 2.69 * +EC3.1.15.1 bis-p-nitrophenyl phosphate daboia siamensis//*//* 1.8 * +EC3.1.15.1 dinucleotides crotalus adamanteus//*//* 0.23 * +EC3.1.15.1 nicotinamide adenine dinucleotide trimeresurus stejnegeri//*//* 0.24 * +EC3.1.15.1 nicotinamide guanine dinucleotide trimeresurus stejnegeri//*//* 0.29 * +EC3.1.15.1 thymidine 5'-p-nitrophenyl phosphate vipera aspis//*//* 0.03 * +EC3.1.15.1 uridine oligonucleotides crotalus adamanteus//*//* 0.026 * +EC3.1.16.1 4-methylumbelliferyl thymidine 3'-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.45 * +EC3.1.16.1 5'-deoxy-5'-chlorothymidine-3'-(4-nitrophenyl)phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.1.16.1 [rp-ps]-d[t12] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.173 * +EC3.1.16.1 [s]-d[a12] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0715 * +EC3.1.16.1 [s]-d[t12] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.1.16.1 flap34endo plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.8e-06 * +EC3.1.16.1 flap34endo plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 6.6e-06 * +EC3.1.16.1 thymidine 3'-(2,4-dinitrophenyl)phosphate cavia porcellus//*//* 0.04 * +EC3.1.16.1 thymidine 3'-(2,4-dinitrophenyl)phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC3.1.16.1 thymidine 3'-(4-nitrophenyl)phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC3.1.2.1 acetoacetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC3.1.2.1 acetyl-coa mesocricetus auratus//*//* 0.051 * +EC3.1.2.1 acetyl-coa pisum sativum//*//* 0.074 * +EC3.1.2.1 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6e-05 * +EC3.1.2.1 butyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.41 * +EC3.1.2.10 formyl-coa clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.045 * +EC3.1.2.10 formylpantetheine clostridium kluyveri//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ckl 0.08 * +EC3.1.2.11 acetoacetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0052 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl (2e)-but-2-enoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl 3,3-dimethylbutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl 3-cyclopentylpropanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl 3-methylbut-2-enoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.06 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl 3-methylbutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl 3-phenoxybutanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl acetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl butyrate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl cyclopentanecarboxylate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl heptanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl hexanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl pentanoate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.05 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl pivalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC3.1.2.12 4-methyl-2-oxo-2h-chromen-7-yl propionate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.08 * +EC3.1.2.12 4-nitrophenyl acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.48 * +EC3.1.2.12 4-nitrophenyl acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC3.1.2.12 4-nitrophenyl butyrate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.11 * +EC3.1.2.12 4-nitrophenyl butyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC3.1.2.12 4-nitrophenyl caproate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.02 * +EC3.1.2.12 4-nitrophenyl propionate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.05 * +EC3.1.2.12 4-yethylumbelliferyl acetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.087 * +EC3.1.2.12 4-yethylumbelliferyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.1.2.12 alpha-naphthyl propionate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.35 * +EC3.1.2.12 naphthalen-1-yl n-butanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.44 * +EC3.1.2.12 p-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.1.2.12 s-acetylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.2.12 s-formylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.318 * +EC3.1.2.12 s-formylglutathione candida boidinii//*//* 0.21 * +EC3.1.2.12 s-formylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.2.12 s-formylglutathione kloeckera sp.//*//* 0.077 * +EC3.1.2.12 s-lactoylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.25 * +EC3.1.2.14 decanoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0031 * +EC3.1.2.14 decanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0023 * +EC3.1.2.14 dodecanoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0049 * +EC3.1.2.14 lauroyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0146 * +EC3.1.2.14 lauroyl-[acyl-carrier protein] umbellularia californica//*//* 0.0166 * +EC3.1.2.14 myristoleoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0029 * +EC3.1.2.14 myristoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.004 * +EC3.1.2.14 myristoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0028 * +EC3.1.2.14 myristoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0067 * +EC3.1.2.14 octanoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0024 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0026 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] brassica rapa subsp. campestris//*//* 3.0 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0013 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] diploknema butyracea//*//* 0.008 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00074 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 8e-05 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] mangifera indica//*//* 0.004 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00042 * +EC3.1.2.14 oleoyl-[acyl-carrier protein] spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0014 * +EC3.1.2.14 oleoyl-[acyl-carrier-protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 0.0031 * +EC3.1.2.14 oleoyl-[acyl-carrier-protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.0009 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0026 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 0.0005 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.00035 * +EC3.1.2.14 palmitoleoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00035 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0038 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 0.0015 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0041 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] diploknema butyracea//*//* 0.0036 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00028 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.00096 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00054 * +EC3.1.2.14 palmitoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0036 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] camelina sativa//eukaryotes;plants;eudicots;mustard family//csat 0.0005 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] cuphea lanceolata//*//* 0.0025 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] diploknema butyracea//*//* 0.0034 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.00034 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] macadamia tetraphylla//*//* 0.00563 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] mangifera indica//*//* 0.003 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00054 * +EC3.1.2.14 stearoyl-[acyl-carrier protein] umbellularia californica//*//* 0.01 * +EC3.1.2.14 undecanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0067 * +EC3.1.2.16 [citrate (pro-3s)-lyase](acetyl form) rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.0001 * +EC3.1.2.17 (s)-methylmalonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.1.2.17 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.0 * +EC3.1.2.17 dl-methylmalonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC3.1.2.17 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.1.2.17 propionyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.9 * +EC3.1.2.18 adp mesocricetus auratus//*//* 0.013 * +EC3.1.2.18 ca2+ mesocricetus auratus//*//* 0.3 * +EC3.1.2.19 adp mesocricetus auratus//*//* 0.013 * +EC3.1.2.19 ca2+ mesocricetus auratus//*//* 0.3 * +EC3.1.2.2 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.2 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.2 arachidonoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC3.1.2.2 arachidonoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.1.2.2 arachidonoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0067 * +EC3.1.2.2 arachidonoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0046 * +EC3.1.2.2 arachidoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC3.1.2.2 arachidoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC3.1.2.2 benzoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.272 * +EC3.1.2.2 butyryl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.013 * +EC3.1.2.2 chenodeoxycholoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0088 * +EC3.1.2.2 choloyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0146 * +EC3.1.2.2 coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.077 * +EC3.1.2.2 crotonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08735 * +EC3.1.2.2 decanoyl-coa buckleyzyma aurantiaca//*//* 0.067 * +EC3.1.2.2 decanoyl-coa euglena gracilis//*//* 0.027 * +EC3.1.2.2 decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0358 * +EC3.1.2.2 decanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0027 * +EC3.1.2.2 dodecanoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0178 * +EC3.1.2.2 dodecanoyl-coa diutina rugosa//*//* 0.325 * +EC3.1.2.2 dodecanoyl-coa euglena gracilis//*//* 0.014 * +EC3.1.2.2 dodecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.1.2.2 dodecanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0077 * +EC3.1.2.2 dodecanoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01913 * +EC3.1.2.2 dodecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC3.1.2.2 dodecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0018 * +EC3.1.2.2 eicosanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.1.2.2 eicosanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0004 * +EC3.1.2.2 fatty-acyl-coa thioester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00013 * +EC3.1.2.2 fatty-acyl-coa thioester mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.00013 * +EC3.1.2.2 fatty-acyl-coa thioester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00013 * +EC3.1.2.2 hexadecanoyl-coa buckleyzyma aurantiaca//*//* 0.023 * +EC3.1.2.2 hexadecanoyl-coa cavia porcellus//*//* 0.012 * +EC3.1.2.2 hexadecanoyl-coa cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.002 * +EC3.1.2.2 hexadecanoyl-coa euglena gracilis//*//* 0.017 * +EC3.1.2.2 hexadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.1.2.2 hexadecanoyl-coa mougeotia scalaris//*//* 0.07 * +EC3.1.2.2 hexadecanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0017 * +EC3.1.2.2 hexadecanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.005 * +EC3.1.2.2 hexadecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC3.1.2.2 hexadecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.58e-05 * +EC3.1.2.2 hexanoyl-coa euglena gracilis//*//* 0.077 * +EC3.1.2.2 hexanoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.06318 * +EC3.1.2.2 hexanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0055 * +EC3.1.2.2 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.146 * +EC3.1.2.2 lauroyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.03852 * +EC3.1.2.2 linolenoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00786 * +EC3.1.2.2 linoleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0023 * +EC3.1.2.2 linoleoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0014 * +EC3.1.2.2 myristoleoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0046 * +EC3.1.2.2 myristoyl-coa buckleyzyma aurantiaca//*//* 0.018 * +EC3.1.2.2 n-butyryl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.2 n-carbobenzoxy-l-tyrosine p-nitrophenyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.174 * +EC3.1.2.2 n-decanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.2 octadecanoyl-coa buckleyzyma aurantiaca//*//* 0.024 * +EC3.1.2.2 octadecanoyl-coa euglena gracilis//*//* 0.034 * +EC3.1.2.2 octadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.1.2.2 octadecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0004 * +EC3.1.2.2 octanoyl-coa buckleyzyma aurantiaca//*//* 0.118 * +EC3.1.2.2 octanoyl-coa euglena gracilis//*//* 0.043 * +EC3.1.2.2 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.2.2 octanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.007 * +EC3.1.2.2 oleoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0058 * +EC3.1.2.2 oleoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0026 * +EC3.1.2.2 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC3.1.2.2 oleoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.005 * +EC3.1.2.2 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC3.1.2.2 oleoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00162 * +EC3.1.2.2 p-nitrophenyl butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.87 * +EC3.1.2.2 palmitoleoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0058 * +EC3.1.2.2 palmitoleoyl-coa buckleyzyma aurantiaca//*//* 0.058 * +EC3.1.2.2 palmitoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.1.2.2 palmitoleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.1.2.2 palmitoyl-coa buckleyzyma aurantiaca//*//* 0.023 * +EC3.1.2.2 palmitoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01187 * +EC3.1.2.2 stearoyl-coa buckleyzyma aurantiaca//*//* 0.024 * +EC3.1.2.2 stearoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1028 * +EC3.1.2.2 succinyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.2 tetradecanoyl-coa buckleyzyma aurantiaca//*//* 0.018 * +EC3.1.2.2 tetradecanoyl-coa euglena gracilis//*//* 0.024 * +EC3.1.2.2 tetradecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.1.2.2 tetradecanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0025 * +EC3.1.2.2 tetradecanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0066 * +EC3.1.2.2 tetradecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0017 * +EC3.1.2.2 trihydroxycoprostanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0063 * +EC3.1.2.2 vaccenoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00084 * +EC3.1.2.20 2,3-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.161 * +EC3.1.2.20 2,3-dihydroxybenzoyl-entb escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.116 * +EC3.1.2.20 2,4-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.219 * +EC3.1.2.20 2-butenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.1.2.20 2-butenoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0682 * +EC3.1.2.20 3,4-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.212 * +EC3.1.2.20 3,4-dihydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.1.2.20 3,5-cis-dodecadienoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0108 * +EC3.1.2.20 3,5-cis-tetradecadienoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC3.1.2.20 3,5-dihydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.256 * +EC3.1.2.20 3,5-dihydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.1.2.20 3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.1.2.20 3-hydroxy-3-methylglutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3057 * +EC3.1.2.20 3-hydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.265 * +EC3.1.2.20 3-hydroxybenzoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.1.2.20 3-hydroxybutyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1628 * +EC3.1.2.20 3-hydroxyphenylacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0037 * +EC3.1.2.20 3-hydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.1.2.20 3-hydroxytetradecanoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0058 * +EC3.1.2.20 4-chlorobenzoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.1.2.20 4-hydroxybenzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.1.2.20 4-hydroxybenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC3.1.2.20 4-hydroxyphenylacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0076 * +EC3.1.2.20 4-hydroxyphenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC3.1.2.20 8-methylnonanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.019 * +EC3.1.2.20 acetoacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.037 * +EC3.1.2.20 acetoacetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.20 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.167 * +EC3.1.2.20 acetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0047 * +EC3.1.2.20 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.1.2.20 acetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0481 * +EC3.1.2.20 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0764 * +EC3.1.2.20 acetyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.20 acetyl-s-n-acetylcysteamine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 33.4 * +EC3.1.2.20 arachidonoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0004 * +EC3.1.2.20 arachidonoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.1.2.20 arachidonoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0067 * +EC3.1.2.20 arachidonoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0046 * +EC3.1.2.20 arachidoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.039 * +EC3.1.2.20 arachidoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC3.1.2.20 arachidoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC3.1.2.20 benzoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.475 * +EC3.1.2.20 beta-hydroxybutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.1.2.20 beta-methylcrotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.1.2.20 beta-methylcrotonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.009 * +EC3.1.2.20 beta-methylcrotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.2.20 butanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0352 * +EC3.1.2.20 butyryl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.013 * +EC3.1.2.20 cis-vaccenoyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00284 * +EC3.1.2.20 coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.077 * +EC3.1.2.20 crotonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0059 * +EC3.1.2.20 crotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.1.2.20 decanoyl-coa buckleyzyma aurantiaca//*//* 0.067 * +EC3.1.2.20 decanoyl-coa euglena gracilis//*//* 0.027 * +EC3.1.2.20 decanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0472 * +EC3.1.2.20 decanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0027 * +EC3.1.2.20 decanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0271 * +EC3.1.2.20 dl-3-hydroxy-3-methylglutaryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.02 * +EC3.1.2.20 dl-3-hydroxy-3-methylglutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0868 * +EC3.1.2.20 dl-3-hydroxybutyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.031 * +EC3.1.2.20 dl-3-hydroxybutyryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0479 * +EC3.1.2.20 dodecanoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.018 * +EC3.1.2.20 dodecanoyl-coa diutina rugosa//*//* 0.325 * +EC3.1.2.20 dodecanoyl-coa euglena gracilis//*//* 0.014 * +EC3.1.2.20 dodecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.1.2.20 dodecanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0077 * +EC3.1.2.20 dodecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC3.1.2.20 dodecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0018 * +EC3.1.2.20 dodecanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0104 * +EC3.1.2.20 eicosanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0004 * +EC3.1.2.20 fatty-acyl-coa thioester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00013 * +EC3.1.2.20 fatty-acyl-coa thioester mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.00013 * +EC3.1.2.20 fatty-acyl-coa thioester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00013 * +EC3.1.2.20 glutaryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0081 * +EC3.1.2.20 glutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.1.2.20 hexadecanoyl-coa buckleyzyma aurantiaca//*//* 0.023 * +EC3.1.2.20 hexadecanoyl-coa cavia porcellus//*//* 0.012 * +EC3.1.2.20 hexadecanoyl-coa cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.002 * +EC3.1.2.20 hexadecanoyl-coa euglena gracilis//*//* 0.017 * +EC3.1.2.20 hexadecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC3.1.2.20 hexadecanoyl-coa mougeotia scalaris//*//* 0.07 * +EC3.1.2.20 hexadecanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0017 * +EC3.1.2.20 hexadecanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.005 * +EC3.1.2.20 hexadecanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC3.1.2.20 hexadecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 1.58e-05 * +EC3.1.2.20 hexanoyl-coa euglena gracilis//*//* 0.077 * +EC3.1.2.20 hexanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1382 * +EC3.1.2.20 hexanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0055 * +EC3.1.2.20 isobutyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC3.1.2.20 isobutyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.013 * +EC3.1.2.20 isovaleryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.014 * +EC3.1.2.20 lauroyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00348 * +EC3.1.2.20 lauroyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC3.1.2.20 lauroyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.006 * +EC3.1.2.20 lauroyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC3.1.2.20 lauroyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0079 * +EC3.1.2.20 linolenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0154 * +EC3.1.2.20 linolenoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00786 * +EC3.1.2.20 linoleoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0042 * +EC3.1.2.20 linoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.1.2.20 linoleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0023 * +EC3.1.2.20 linoleoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0014 * +EC3.1.2.20 malonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.14 * +EC3.1.2.20 malonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.1.2.20 malonyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0232 * +EC3.1.2.20 methylmalonyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.17 * +EC3.1.2.20 methylmalonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.1.2.20 myristoleoyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00339 * +EC3.1.2.20 myristoleoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0046 * +EC3.1.2.20 myristoyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00266 * +EC3.1.2.20 myristoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0063 * +EC3.1.2.20 myristoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0025 * +EC3.1.2.20 myristoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.2.20 myristoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0073 * +EC3.1.2.20 n-acetylcysteamine acetate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 34.0 * +EC3.1.2.20 n-acetylcysteamine butyrate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 56.0 * +EC3.1.2.20 n-acetylcysteamine propionate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 52.0 * +EC3.1.2.20 n-butyryl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.068 * +EC3.1.2.20 n-butyryl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0035 * +EC3.1.2.20 n-butyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.1.2.20 n-butyryl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.20 n-butyryl-pantetheine phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.4 * +EC3.1.2.20 n-butyrylpantethiene phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.1.2.20 n-decanoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC3.1.2.20 n-decanoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0045 * +EC3.1.2.20 n-decanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC3.1.2.20 n-decanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.20 n-hexanoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0041 * +EC3.1.2.20 n-hexanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.1.2.20 n-octanoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0019 * +EC3.1.2.20 n-octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.1.2.20 n-propionyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.1.2.20 nonanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0218 * +EC3.1.2.20 octadecanoyl-coa buckleyzyma aurantiaca//*//* 0.024 * +EC3.1.2.20 octadecanoyl-coa euglena gracilis//*//* 0.034 * +EC3.1.2.20 octadecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0004 * +EC3.1.2.20 octanoyl-coa buckleyzyma aurantiaca//*//* 0.118 * +EC3.1.2.20 octanoyl-coa euglena gracilis//*//* 0.043 * +EC3.1.2.20 octanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.2.20 octanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.007 * +EC3.1.2.20 octanoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0175 * +EC3.1.2.20 oleoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0026 * +EC3.1.2.20 oleoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC3.1.2.20 oleoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.011 * +EC3.1.2.20 oleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC3.1.2.20 oleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0128 * +EC3.1.2.20 oleoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.005 * +EC3.1.2.20 oleoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC3.1.2.20 oleoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00162 * +EC3.1.2.20 oleoyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0059 * +EC3.1.2.20 palmitoleoyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.0039 * +EC3.1.2.20 palmitoleoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0058 * +EC3.1.2.20 palmitoleoyl-coa buckleyzyma aurantiaca//*//* 0.058 * +EC3.1.2.20 palmitoleoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0064 * +EC3.1.2.20 palmitoleoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.1.2.20 palmitoleoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.1.2.20 palmitoyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00385 * +EC3.1.2.20 palmitoyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00425 * +EC3.1.2.20 palmitoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.1.2.20 palmitoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.017 * +EC3.1.2.20 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.1.2.20 palmitoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0075 * +EC3.1.2.20 phenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.1.2.20 phenylacetyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0016 * +EC3.1.2.20 phenylacetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.1.2.20 phenylacetyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0498 * +EC3.1.2.20 propionyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.006 * +EC3.1.2.20 propionyl-s-n-acetylcysteamine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 32.0 * +EC3.1.2.20 salicylyl-coa escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.176 * +EC3.1.2.20 salicylyl-entb escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.272 * +EC3.1.2.20 stearoyl-coa alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.00359 * +EC3.1.2.20 stearoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0015 * +EC3.1.2.20 stearoyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.01 * +EC3.1.2.20 stearoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.1.2.20 stearoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0279 * +EC3.1.2.20 succinyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.02 * +EC3.1.2.20 succinyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.2.20 succinyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.048 * +EC3.1.2.20 tetradecanoyl-coa buckleyzyma aurantiaca//*//* 0.018 * +EC3.1.2.20 tetradecanoyl-coa euglena gracilis//*//* 0.024 * +EC3.1.2.20 tetradecanoyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0025 * +EC3.1.2.20 tetradecanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0066 * +EC3.1.2.20 tetradecanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0017 * +EC3.1.2.20 tiglyl-coa haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0021 * +EC3.1.2.20 tiglyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.1.2.20 vaccenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.1.2.20 vaccenoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00084 * +EC3.1.2.21 decanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0023 * +EC3.1.2.21 dodecanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0019 * +EC3.1.2.21 hexadecanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0036 * +EC3.1.2.21 octadecenoyl-[acyl-carrier protein] umbellularia californica//*//* 0.01 * +EC3.1.2.21 tetradecanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0064 * +EC3.1.2.21 undecanoyl-[acyl-carrier protein] umbellularia californica//*//* 0.0067 * +EC3.1.2.22 1-palmitoyl lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0273 * +EC3.1.2.22 myristoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.1.2.22 palmitoyl-beta-d-thioglucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.227 * +EC3.1.2.22 palmitoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC3.1.2.22 palmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC3.1.2.22 palmitoyl-h-ras bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.1.2.22 palmitoyl-peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00349 * +EC3.1.2.23 4-chlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.19 * +EC3.1.2.23 4-fluorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.0 * +EC3.1.2.23 4-hydroxybenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0045 * +EC3.1.2.23 4-methoxybenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 56.0 * +EC3.1.2.23 4-methylbenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 230.0 * +EC3.1.2.23 4-trifluoromethylbenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 300.0 * +EC3.1.2.23 benzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC3.1.2.25 phenylacetyl-coa penicillium chrysogenum//*//* 3.95 * +EC3.1.2.27 chenodeoxycholoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC3.1.2.27 choloyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC3.1.2.27 cholyl-coa eubacterium sp.//*//* 0.175 * +EC3.1.2.27 dtt homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.1.2.28 1,4-dihydroxy-2-naphthoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC3.1.2.28 1-hydroxy-2-naphthoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.1.2.28 3,4-dihydroxybenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0269 * +EC3.1.2.28 3,5-dihydroxybenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0265 * +EC3.1.2.28 salicylyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC3.1.2.29 acetyl-coa streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 2.1 * +EC3.1.2.29 fluoroacetyl-coa streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 0.001 * +EC3.1.2.3 glutaryl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 37.1 * +EC3.1.2.3 succinyl-coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 13.3 * +EC3.1.2.30 (s)-malyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.09 * +EC3.1.2.32 acetoacetyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.5 * +EC3.1.2.32 cysteamine s-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.8 * +EC3.1.2.32 s-(4-nitrobenzoyl)mercaptoethane pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.014 * +EC3.1.2.32 s-ethyl-acetothioacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.4 * +EC3.1.2.4 3-hydroxy-2-methylpropanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC3.1.2.4 3-hydroxypropionyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.1.2.4 cinnamoyl-coa arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0029 * +EC3.1.2.5 (s)-3-hydroxy-3-methylglutaryl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.27 * +EC3.1.2.6 lactoylglutathione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.0 * +EC3.1.2.6 mono-(lactoyl)trypanothione leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.039 * +EC3.1.2.6 mono-(lactoyl)trypanothione leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.098 * +EC3.1.2.6 s-(2-hydroxyacyl)glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.152 * +EC3.1.2.6 s-(2-hydroxyacyl)glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.152 * +EC3.1.2.6 s-(beta-ethoxy-alpha-d-hydroxybutyryl)glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.044 * +EC3.1.2.6 s-acetoacetylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.1.2.6 s-acetoacetylglutathione candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.116 * +EC3.1.2.6 s-acetoacetylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.295 * +EC3.1.2.6 s-acetoacetylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.413 * +EC3.1.2.6 s-acetoacetylglutathione zea mays//eukaryotes;plants;monocots;grass family//zma 0.054 * +EC3.1.2.6 s-acetylglutathione aloe vera//*//* 0.2 * +EC3.1.2.6 s-acetylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.83 * +EC3.1.2.6 s-acetylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.266 * +EC3.1.2.6 s-acetylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.568 * +EC3.1.2.6 s-acetylglutathione zea mays//eukaryotes;plants;monocots;grass family//zma 0.034 * +EC3.1.2.6 s-acetyltrypanothione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.144 * +EC3.1.2.6 s-bis-lactoyltrypanothione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.164 * +EC3.1.2.6 s-d-lactoylglutathione aloe vera//*//* 0.15 * +EC3.1.2.6 s-d-lactoylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.063 * +EC3.1.2.6 s-d-lactoylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.251 * +EC3.1.2.6 s-d-lactoylglutathione candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.177 * +EC3.1.2.6 s-d-lactoylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.146 * +EC3.1.2.6 s-d-lactoylglutathione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.27 * +EC3.1.2.6 s-d-lactoylglutathione oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.061 * +EC3.1.2.6 s-d-lactoylglutathione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.114 * +EC3.1.2.6 s-d-lactoylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.384 * +EC3.1.2.6 s-d-lactoylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0722 * +EC3.1.2.6 s-d-lactoylglutathione salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.241 * +EC3.1.2.6 s-d-lactoylglutathione zea mays//eukaryotes;plants;monocots;grass family//zma 0.137 * +EC3.1.2.6 s-d-lactoylgutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC3.1.2.6 s-d-lactoyltrypanothione leishmania infantum//eukaryotes;protists;euglenozoa;kinetoplasts//lif 0.092 * +EC3.1.2.6 s-d-mandeloylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.009 * +EC3.1.2.6 s-d-mandeloylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0218 * +EC3.1.2.6 s-d-mandeloylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0166 * +EC3.1.2.6 s-formylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.153 * +EC3.1.2.6 s-formylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.213 * +EC3.1.2.6 s-glyceroylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.109 * +EC3.1.2.6 s-glycolylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.1.2.6 s-glycolyltrypanothione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.265 * +EC3.1.2.6 s-hydroxyglutaryltrypanothione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.133 * +EC3.1.2.6 s-l-glyceroylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0966 * +EC3.1.2.6 s-lactoylglutathione arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.139 * +EC3.1.2.6 s-lactoylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.325 * +EC3.1.2.6 s-lactoylglutathione brassica juncea//*//* 0.12 * +EC3.1.2.6 s-lactoylglutathione cyberlindnera mrakii//*//* 0.086 * +EC3.1.2.6 s-lactoylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.172 * +EC3.1.2.6 s-lactoylglutathione oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.254 * +EC3.1.2.6 s-lactoylglutathione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.1 * +EC3.1.2.6 s-lactoylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC3.1.2.6 s-lactoylglutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0007 * +EC3.1.2.6 s-lactoylglutathionylspermidine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.195 * +EC3.1.2.6 s-lactylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.1.2.6 s-mandeloylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.1.2.6 s-mandeloylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC3.1.2.6 s-propionylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.213 * +EC3.1.2.6 s-propionylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.214 * +EC3.1.2.6 s-propionyltrypanothione trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.109 * +EC3.1.2.6 s-succinylglutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC3.1.2.6 s-succinylglutathione candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.25 * +EC3.1.2.6 s-succinylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.2.6 s-succinylglutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.1.2.6 s-succinylglutathione zea mays//eukaryotes;plants;monocots;grass family//zma 0.134 * +EC3.1.2.7 s-acetylglutathione spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.2 * +EC3.1.2.7 s-butyrylglutathione spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.015 * +EC3.1.2.7 s-propionylglutathione spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.08 * +EC3.1.2.B4 (3s)-malyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.09 * +EC3.1.2.B5 3,4-dihydroxyphenylacetyl-coa azoarcus evansii//*//* 0.051 * +EC3.1.2.B5 3,4-dihydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.1.2.B5 3,5-dihydroxyphenylacetyl-coa azoarcus evansii//*//* 0.028 * +EC3.1.2.B5 3,5-dihydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.1.2.B5 3-hydroxyphenylacetyl-coa azoarcus evansii//*//* 0.08 * +EC3.1.2.B5 3-hydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC3.1.2.B5 4-hydroxyphenylacetyl-coa azoarcus evansii//*//* 0.055 * +EC3.1.2.B5 4-hydroxyphenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC3.1.2.B5 phenylacetyl-coa azoarcus evansii//*//* 0.39 * +EC3.1.2.B5 phenylacetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0096 * +EC3.1.21.1 (pc)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.21.1 d(pa)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.1.21.1 d(papcptpapcpapgptpcptpapcpa) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC3.1.21.1 d(pgpgpcpapcptptpapc) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC3.1.21.1 d(pt)10 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC3.1.21.1 d(ptpapgpapapgpaptpcpapapa) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC3.1.21.2 21-mer c grec escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5e-05 * +EC3.1.21.2 5'-end-labeled 29 nucleotide double-stranded dna mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 6.91e-06 * +EC3.1.21.3 3'-biotinylated 51 bp dsdna micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.5e-05 * +EC3.1.21.3 5'-biotinylated 51 bp ssdna micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.1e-05 * +EC3.1.21.4 cole1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC3.1.21.4 d(g-g-t-5-bromodeoxyuridine-a-a-c-c) bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.03 * +EC3.1.21.4 d(g-g-t-5-bromodeoxyuridine-a-a-c-c) haemophilus parainfluenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hpr 0.03 * +EC3.1.21.4 d(g-g-t-t-a-a-c-c) haemophilus parainfluenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hpr 0.18 * +EC3.1.21.4 d(pt-g-a-a-t-t-c-a) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC3.1.21.4 lambda dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC3.1.21.4 pbr322 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC3.1.21.4 pjc linearized plasmid dna bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.9 * +EC3.1.21.4 pjc80 dna bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.3 * +EC3.1.21.4 sv40 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC3.1.21.7 49-mer oligonucleotide enterobacteria phage t4//*//* 0.005 * +EC3.1.21.9 5'-(da)10(dc)5(da)10-3' enterobacteria phage t4//*//* 0.0126 * +EC3.1.21.9 5'-(da)12(dc) (da)12-3' enterobacteria phage t4//*//* 0.0141 * +EC3.1.21.9 5'-(da)5(dc)15(da)5-3' enterobacteria phage t4//*//* 0.006 * +EC3.1.21.9 5'-(da)7(dc)11(da)7-3' enterobacteria phage t4//*//* 0.0051 * +EC3.1.21.9 5'-(da)7dadadcdada(da)7-3' enterobacteria phage t4//*//* 0.023 * +EC3.1.21.9 5'-(da)7dadtdcdada(da)7-3' enterobacteria phage t4//*//* 0.018 * +EC3.1.21.9 5'-(da)8dgdtdcdadg(da)8-3' enterobacteria phage t4//*//* 0.017 * +EC3.1.21.9 5'-(da)9(dc)6(da)10-3' enterobacteria phage t4//*//* 0.0058 * +EC3.1.21.9 5'-(da)9(dc)7(da)9-3' enterobacteria phage t4//*//* 0.0063 * +EC3.1.21.9 5'-(da)9dcdadadadadc(da)10-3' enterobacteria phage t4//*//* 0.0088 * +EC3.1.21.9 5'-(da)9dcdadcdadadc(da)10-3' enterobacteria phage t4//*//* 0.0054 * +EC3.1.21.9 5'-(da)9dcdcdadtdtdc(da)10-3' enterobacteria phage t4//*//* 0.0052 * +EC3.1.21.9 5'-(da)9dcdcdtdadtdc(da)10-3' enterobacteria phage t4//*//* 0.0049 * +EC3.1.21.9 5'-(da)9dcdcdtdtdadc(da)10-3' enterobacteria phage t4//*//* 0.0054 * +EC3.1.21.9 5'-(da)9dcdcdtdtdtdc(da)10-3' enterobacteria phage t4//*//* 0.0054 * +EC3.1.21.9 5'-(da)9dcdgdcdgdgdc(da)10-3' enterobacteria phage t4//*//* 0.0068 * +EC3.1.21.9 5'-(da)9dcdgdgdgdgdc(da)10-3' enterobacteria phage t4//*//* 0.0093 * +EC3.1.21.9 5'-(da)9dcdtdcdtdtdc(da)10-3' enterobacteria phage t4//*//* 0.006 * +EC3.1.21.9 5'-(da)9dcdtdtdcdtdc(da)10-3' enterobacteria phage t4//*//* 0.005 * +EC3.1.21.9 5'-(da)9dcdtdtdtdcdc(da)10-3' enterobacteria phage t4//*//* 0.0058 * +EC3.1.21.9 5'-(da)9dcdtdtdtdtdc(da)10-3' enterobacteria phage t4//*//* 0.0088 * +EC3.1.21.9 5'-(da)9dcdtdtdtdtdtdc(da)9-3' enterobacteria phage t4//*//* 0.0126 * +EC3.1.22.1 supercoiled plasmid dna bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5e-07 * +EC3.1.22.4 3'-flapped junction in dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.02e-06 * +EC3.1.22.4 3'-flapped junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.5e-06 * +EC3.1.22.4 d-loop junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2e-06 * +EC3.1.22.4 dna junction 1 substrate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 6.6e-05 * +EC3.1.22.4 intact holliday junction homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2e-07 * +EC3.1.22.4 nxo12 junction in single-stranded dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.1e-06 * +EC3.1.22.4 pxo12-3' junction in single-stranded dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.6e-06 * +EC3.1.22.4 replication fork-like junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.3e-06 * +EC3.1.22.4 splayed y junction in dna saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.04e-05 * +EC3.1.25.1 dna 14mer containing a tt-dimer enterobacteria phage t4//*//* 1.5e-05 * +EC3.1.25.1 dna 18mer containing a tt-dimer enterobacteria phage t4//*//* 9e-06 * +EC3.1.26.11 bis(p-nitrophenyl)phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.5 * +EC3.1.26.11 pre-trna(arg) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6e-05 * +EC3.1.26.11 pre-trna(val) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.3e-06 * +EC3.1.26.11 pre-trnaarg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2e-05 * +EC3.1.26.11 pre-trnaglu-ccun17 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00047 * +EC3.1.26.11 pre-trnaglu-cuan17 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00155 * +EC3.1.26.11 pre-trnaglu-uuan17 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00096 * +EC3.1.26.11 pre-trnagly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9e-05 * +EC3.1.26.11 pre-trnahis-aug drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3.94e-05 * +EC3.1.26.11 pre-trnahis-cca drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 4.01e-05 * +EC3.1.26.11 pre-trnahis drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.98e-05 * +EC3.1.26.11 pre-trnahis homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-05 * +EC3.1.26.11 pre-trnaile homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8e-05 * +EC3.1.26.11 pre-trnaleu(uur) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4e-05 * +EC3.1.26.11 pre-trnaser(ucn) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8e-06 * +EC3.1.26.11 pre-trnaser(ucn)7443c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.33e-05 * +EC3.1.26.11 pre-trnaser(ucn)7444u homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.9e-06 * +EC3.1.26.11 pre-trnaser(ucn)7445c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.97e-05 * +EC3.1.26.11 pre-trnaser(ucn)7445g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.55e-05 * +EC3.1.26.11 pre-trnaser(ucn)7510g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.08e-05 * +EC3.1.26.11 pre-trnaser(ucn)7511g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.6e-06 * +EC3.1.26.11 pre-trnaser(ucn)7512g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-06 * +EC3.1.26.11 r-atm1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00044 * +EC3.1.26.11 r-atm10 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00065 * +EC3.1.26.11 r-atm11 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00068 * +EC3.1.26.11 r-atm2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00032 * +EC3.1.26.11 r-atm3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00059 * +EC3.1.26.11 r-atm4 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00066 * +EC3.1.26.11 r-atm5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00057 * +EC3.1.26.11 r-atm7 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00058 * +EC3.1.26.11 r-atm8 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00052 * +EC3.1.26.11 r-atm9 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00063 * +EC3.1.26.11 r-atw sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00041 * +EC3.1.26.11 r-g10 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00073 * +EC3.1.26.11 r-g13 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0014 * +EC3.1.26.11 r-g15 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.001 * +EC3.1.26.11 r-g19 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC3.1.26.11 r-g3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00085 * +EC3.1.26.11 r-g8 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00078 * +EC3.1.26.11 r-l0 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00083 * +EC3.1.26.11 r-l3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00069 * +EC3.1.26.11 r-l6 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0006 * +EC3.1.26.11 r-tasd2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.1.26.11 r-tsa2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0016 * +EC3.1.26.11 r-tsd1 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0019 * +EC3.1.26.11 r-uuu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00057 * +EC3.1.26.11 trnahis48 3'+ c sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9e-05 * +EC3.1.26.11 trnahis48 3'+ cc sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9e-05 * +EC3.1.26.11 trnahis48 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 8e-05 * +EC3.1.26.11 trnahis48 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2e-05 * +EC3.1.26.11 trni-thr-caaatg-trailer bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0022 * +EC3.1.26.11 trni-thr-ccaatg-trailer bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0024 * +EC3.1.26.11 trni-thr-taaatg-trailer bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00097 * +EC3.1.26.11 trni-thr-tcaatg-trailer bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00058 * +EC3.1.26.12 5'-gagacaguauuug escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.1.26.12 5'-gggacaguauuug-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00207 * +EC3.1.26.12 5'-gggacaguauuug escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00013 * +EC3.1.26.13 poly(ra)n-poly(dt)n human immunodeficiency virus 1//*//* 0.003 * +EC3.1.26.13 rna-dna hybrid human immunodeficiency virus 1//*//* 0.000126 * +EC3.1.26.3 515 bp dsrna drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 4e-07 * +EC3.1.26.3 aa-[16s[micro-hp]rna] aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00098 * +EC3.1.26.3 poly(ic) salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.4 * +EC3.1.26.3 r1.1 rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.6e-05 * +EC3.1.26.3 rna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00026 * +EC3.1.26.4 5'-(6-carboxy-fluorescein)-cggagaugacgg-3'/5'-ccgtctctccg-3' aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.000361 * +EC3.1.26.4 d14r1d3:dna18 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8e-05 * +EC3.1.26.4 dna-(1',2'-methylene-bridged azetidine-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000122 * +EC3.1.26.4 dna-(2'-alkoxy-1',2'-methylene-bridged azetidine-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000242 * +EC3.1.26.4 dna-(aza-ena-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000532 * +EC3.1.26.4 dna-(azetidine-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000236 * +EC3.1.26.4 dna-(oxetane-t)-antisense-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.3e-05 * +EC3.1.26.4 dna-rna hybrid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.4e-05 * +EC3.1.26.4 dna-rna-dna hybrid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0078 * +EC3.1.26.4 dna/rna hybrid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.1.26.4 m13 dna/rna hybrid thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00039 * +EC3.1.26.4 m13 dna/rna thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0005 * +EC3.1.26.4 poly(radt) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0019 * +EC3.1.26.4 poly(radt) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.1.26.4 poly(radt) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC3.1.26.4 polya*dt36 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.012 * +EC3.1.26.4 rna*dna hybrid thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 9e-05 * +EC3.1.26.4 rna-dna heteroduplex homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.7e-05 * +EC3.1.26.4 rna-dna hybrid aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0011 * +EC3.1.26.4 rna-rna duplex pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0013 * +EC3.1.26.4 rna18:dna18 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000143 * +EC3.1.26.5 human pre-trnatyr bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.2e-05 * +EC3.1.26.5 human pre-trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.3e-05 * +EC3.1.26.5 pre-trna sups1 trnaser dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.00024 * +EC3.1.26.5 pre-trna-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6e-05 * +EC3.1.26.5 pre-trna spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.6e-05 * +EC3.1.26.5 pre-trnaasp aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 4e-05 * +EC3.1.26.5 pre-trnaasp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00011 * +EC3.1.26.5 pre-trnaasp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 32.0 * +EC3.1.26.5 pre-trnatyr methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 4.4e-05 * +EC3.1.26.5 pre-trnatyr prochlorothrix hollandica//*//* 0.0017 * +EC3.1.26.5 pre-trnatyr pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 9e-08 * +EC3.1.26.5 pre-trnatyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9e-06 * +EC3.1.26.5 ptrnatyr pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.00018 * +EC3.1.26.5 sups1 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000244 * +EC3.1.26.5 trna precursor methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3.45e-05 * +EC3.1.26.5 trna precursor methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 6.84e-05 * +EC3.1.26.5 trna precursor saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.5e-05 * +EC3.1.26.5 trna precursor schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 2e-05 * +EC3.1.26.5 trna sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00025 * +EC3.1.26.5 trnaphe (g+1) precursor spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.2e-05 * +EC3.1.26.5 trnatyr precursor thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.000223 * +EC3.1.26.5 trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1e-05 * +EC3.1.26.8 rna in complex with bl16 subunit bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3e-05 * +EC3.1.26.8 rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00015 * +EC3.1.26.9 poly(u) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC3.1.27.1 2',3'-5-no3-up aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.05 * +EC3.1.27.1 2',3'-camp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.23 * +EC3.1.27.1 2',3'-ccmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.4 * +EC3.1.27.1 2',3'-ccmp aspergillus phoenicis//*//* 0.16 * +EC3.1.27.1 2',3'-cgmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.5 * +EC3.1.27.1 2',3'-cp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.025 * +EC3.1.27.1 2',3'-cump aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.1 * +EC3.1.27.1 2',3'-cump aspergillus phoenicis//*//* 0.43 * +EC3.1.27.1 2',3'-mup aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.4 * +EC3.1.27.1 2',3'-up aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.03 * +EC3.1.27.1 adenosine 3'-(1-naphthyl)phosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0198 * +EC3.1.27.1 adenylyl(3'-5')uridine aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0182 * +EC3.1.27.1 apa aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.005 * +EC3.1.27.1 apa aspergillus phoenicis//*//* 0.023 * +EC3.1.27.1 apa rhizopus niveus//*//* 0.065 * +EC3.1.27.1 apc aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.025 * +EC3.1.27.1 apc rhizopus niveus//*//* 0.12 * +EC3.1.27.1 apg aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.003 * +EC3.1.27.1 apg aspergillus phoenicis//*//* 0.037 * +EC3.1.27.1 apg crassostrea gigas//eukaryotes;animals;mollusks//crg 1.14 * +EC3.1.27.1 apg rhizopus niveus//*//* 0.052 * +EC3.1.27.1 apu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.03 * +EC3.1.27.1 apu rhizopus niveus//*//* 0.072 * +EC3.1.27.1 cpa aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.02 * +EC3.1.27.1 cpa rhizopus niveus//*//* 0.13 * +EC3.1.27.1 cpc rhizopus niveus//*//* 0.047 * +EC3.1.27.1 cpg crassostrea gigas//eukaryotes;animals;mollusks//crg 2.15 * +EC3.1.27.1 cpg rhizopus niveus//*//* 0.11 * +EC3.1.27.1 cpu momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 1.38 * +EC3.1.27.1 cpu rhizopus niveus//*//* 0.076 * +EC3.1.27.1 gpa aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.02 * +EC3.1.27.1 gpa rhizopus niveus//*//* 0.069 * +EC3.1.27.1 gpc oncorhynchus keta//*//* 0.109 * +EC3.1.27.1 gpc rhizopus niveus//*//* 0.107 * +EC3.1.27.1 gpg crassostrea gigas//eukaryotes;animals;mollusks//crg 0.71 * +EC3.1.27.1 gpg rhizopus niveus//*//* 0.044 * +EC3.1.27.1 gpu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.12 * +EC3.1.27.1 gpu rhizopus niveus//*//* 0.075 * +EC3.1.27.1 ipu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.45 * +EC3.1.27.1 upa aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.05 * +EC3.1.27.1 upa rhizopus niveus//*//* 0.14 * +EC3.1.27.1 upc rhizopus niveus//*//* 0.066 * +EC3.1.27.1 upg crassostrea gigas//eukaryotes;animals;mollusks//crg 0.69 * +EC3.1.27.1 upg rhizopus niveus//*//* 0.06 * +EC3.1.27.1 upu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.22 * +EC3.1.27.1 upu rhizopus niveus//*//* 0.113 * +EC3.1.27.10 apa aspergillus giganteus//*//* 0.04 * +EC3.1.27.10 cpc aspergillus giganteus//*//* 0.422 * +EC3.1.27.10 gpa aspergillus giganteus//*//* 0.0036 * +EC3.1.27.10 srl aspergillus restrictus//*//* 0.076 * +EC3.1.27.2 30 nt rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00022 * +EC3.1.27.2 noti_34 rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.17e-05 * +EC3.1.27.2 noti_34:rpso-tt rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.82e-05 * +EC3.1.27.2 trp leader rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 9.5e-06 * +EC3.1.27.2 trp:rpso-tt rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.9e-06 * +EC3.1.27.3 5'-pgggacaguauuug-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00012 * +EC3.1.27.3 adenylyl-3',5'-cytidine aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.44 * +EC3.1.27.3 gpa aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0268 * +EC3.1.27.3 gpc aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.9445 * +EC3.1.27.3 gpc ustilago sphaerogena//*//* 0.069 * +EC3.1.27.3 gpg aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0291 * +EC3.1.27.3 gpu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0238 * +EC3.1.27.3 guanosine-2',3'-cyclic monophosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1670.0 * +EC3.1.27.3 guanylyl-3',5'-cytidine aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.135 * +EC3.1.27.3 guanylyl-3',5'-uridine aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 5500.0 * +EC3.1.27.3 poly(i) kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.151 * +EC3.1.27.3 polyinosinic acid aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.15 * +EC3.1.27.3 rna aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.321 * +EC3.1.27.4 apa ustilago sphaerogena//*//* 0.2 * +EC3.1.27.4 apap ustilago sphaerogena//*//* 0.075 * +EC3.1.27.4 apc ustilago sphaerogena//*//* 0.3 * +EC3.1.27.4 apcp ustilago sphaerogena//*//* 0.077 * +EC3.1.27.4 apgp ustilago sphaerogena//*//* 0.041 * +EC3.1.27.4 apup ustilago sphaerogena//*//* 0.062 * +EC3.1.27.4 rna ustilago sphaerogena//*//* 0.23 * +EC3.1.27.5 cyclic 2 ',3'-cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.2 * +EC3.1.27.5 cyclic 2',3'-cmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.46 * +EC3.1.27.5 cyclic 2',3'-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.27.5 cyclic 2',3'-cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.1 * +EC3.1.27.5 cyclic 2',3'-cytidine monophosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0023 * +EC3.1.27.5 cyclic 2',3'-cytidine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.1.27.5 cyclic 2',3'-ump bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.4 * +EC3.1.27.5 cyclic 2',3'-ump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.1.27.5 cytidine-2',3'-cyclic monophosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.45 * +EC3.1.27.5 cytidinyl-3',5'-adenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.1.27.5 pentacytidylic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.038 * +EC3.1.27.5 poly (c) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.1.27.5 poly(a)-poly(u) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0135 * +EC3.1.27.5 poly(a)poly(u) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.1.27.5 poly(c) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0823 * +EC3.1.27.5 trna gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0005 * +EC3.1.27.5 trna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.1.27.5 upa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.79 * +EC3.1.27.8 poly(a) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0357 * +EC3.1.3.1 2'-amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.1.3.1 2-chloro-5-(4-methoxyspiro (1,2-dioxetane-3,2'-(5'-chloro)tricyclo[3.3.1.13,7]decan)-4-yl)phenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.1.3.1 2-naphthyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.1.3.1 3'-amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.1.3.1 3-(4-methoxyspiro [1,2-dioxetane-3,2'-(5'-chloro)-tricyclo [3.3.1.13,7]-decan]-4-yl)phenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC3.1.3.1 4-nitrophenyl phosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0145 * +EC3.1.3.1 4-nitrophenyl phosphate aspergillus caespitosus//*//* 0.074 * +EC3.1.3.1 4-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.5e-07 * +EC3.1.3.1 4-nitrophenyl phosphate camelus bactrianus//*//* 0.00026 * +EC3.1.3.1 4-nitrophenyl phosphate cobetia marina//prokaryotes;bacteria;gammaproteobacteria - others;cobetia//cmai 0.045 * +EC3.1.3.1 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1e-08 * +EC3.1.3.1 4-nitrophenyl phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.5e-07 * +EC3.1.3.1 4-nitrophenyl phosphate geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.0315 * +EC3.1.3.1 4-nitrophenyl phosphate halobacterium salinarum//prokaryotes;archaea;euryarchaeota;halobacterium//hal 0.45 * +EC3.1.3.1 4-nitrophenyl phosphate helicoverpa armigera//*//* 0.238 * +EC3.1.3.1 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0156 * +EC3.1.3.1 4-nitrophenyl phosphate lepus townsendii//*//* 0.5 * +EC3.1.3.1 4-nitrophenyl phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.27 * +EC3.1.3.1 4-nitrophenyl phosphate onchocerca ochengi//*//* 0.56 * +EC3.1.3.1 4-nitrophenyl phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.8 * +EC3.1.3.1 4-nitrophenyl phosphate pandalus borealis//*//* 0.06 * +EC3.1.3.1 4-nitrophenyl phosphate parageobacillus caldoxylosilyticus//*//* 0.087 * +EC3.1.3.1 4-nitrophenyl phosphate pinctada fucata//*//* 2.86 * +EC3.1.3.1 4-nitrophenyl phosphate rhizopus microsporus//*//* 0.22 * +EC3.1.3.1 4-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC3.1.3.1 4-nitrophenyl phosphate scrobicularia plana//*//* 1.51 * +EC3.1.3.1 4-nitrophenyl phosphate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0083 * +EC3.1.3.1 4-nitrophenyl phosphate terfezia claveryi//*//* 9.0 * +EC3.1.3.1 4-nitrophenyl phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.093 * +EC3.1.3.1 4-nitrophenyl phosphate thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.039 * +EC3.1.3.1 4-nitrophenyl phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.034 * +EC3.1.3.1 4-nitrophenyl phosphate thermus yunnanensis//*//* 0.062 * +EC3.1.3.1 4-nitrophenyl phosphate ulva pertusa//*//* 0.95 * +EC3.1.3.1 4-nitrophenyl phosphate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.11 * +EC3.1.3.1 5'-amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.3.1 5'-dtmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.1.3.1 adp helicoverpa armigera//*//* 2.26 * +EC3.1.3.1 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.1.3.1 alpha-naphthyl phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.44 * +EC3.1.3.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.1.3.1 atp helicoverpa armigera//*//* 2.38 * +EC3.1.3.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7 * +EC3.1.3.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.39 * +EC3.1.3.1 beta-glycerophosphate glomus etunicatum//*//* 3.35 * +EC3.1.3.1 beta-glycerophosphate helicoverpa armigera//*//* 1.9 * +EC3.1.3.1 beta-glycerophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.3.1 beta-glycerophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.1.3.1 beta-glyceryl phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.46 * +EC3.1.3.1 diphosphate candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 2.5 * +EC3.1.3.1 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.3.1 glucose 1-phosphate glomus etunicatum//*//* 2.22 * +EC3.1.3.1 glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.1.3.1 glucose 6-phosphate glomus etunicatum//*//* 1.49 * +EC3.1.3.1 l-histidinyl phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.47 * +EC3.1.3.1 o-phosphoserine burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 1.096 * +EC3.1.3.1 o-phosphotyrosine burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.806 * +EC3.1.3.1 p-nitrophenyl phosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.11 * +EC3.1.3.1 p-nitrophenyl phosphate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.252 * +EC3.1.3.1 p-nitrophenyl phosphate bacillus sp. ok-1//*//* 0.037 * +EC3.1.3.1 p-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.62 * +EC3.1.3.1 p-nitrophenyl phosphate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.33 * +EC3.1.3.1 p-nitrophenyl phosphate candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 1.3 * +EC3.1.3.1 p-nitrophenyl phosphate cyberlindnera jadinii//*//* 2.5 * +EC3.1.3.1 p-nitrophenyl phosphate echinococcus multilocularis//*//* 0.05 * +EC3.1.3.1 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0094 * +EC3.1.3.1 p-nitrophenyl phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.114 * +EC3.1.3.1 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.3.1 p-nitrophenyl phosphate lysobacter enzymogenes//prokaryotes;bacteria;gammaproteobacteria - others;lysobacter//lez 0.034 * +EC3.1.3.1 p-nitrophenyl phosphate meriones unguiculatus//*//* 0.05 * +EC3.1.3.1 p-nitrophenyl phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.28 * +EC3.1.3.1 p-nitrophenyl phosphate paramecium tetraurelia//eukaryotes;protists;alveolates;ciliates//ptm 0.081 * +EC3.1.3.1 p-nitrophenyl phosphate penicillium chrysogenum//*//* 1.3 * +EC3.1.3.1 p-nitrophenyl phosphate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.037 * +EC3.1.3.1 p-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC3.1.3.1 p-nitrophenyl phosphate synechococcus elongatus pcc 7942//*//* 2.6 * +EC3.1.3.1 p-nitrophenyl phosphate thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.183 * +EC3.1.3.1 p-nitrophenyl phosphate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.08 * +EC3.1.3.1 paraoxon helicoverpa armigera//*//* 0.348 * +EC3.1.3.1 phenyl phosphate chlorocebus sabaeus//eukaryotes;animals;vertebrates;mammals//csab 12.3 * +EC3.1.3.1 phenyl phosphate macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 8.7 * +EC3.1.3.1 phenyl phosphate mesocricetus auratus//*//* 10.2 * +EC3.1.3.1 phenyl phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.5 * +EC3.1.3.1 phenyl phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 6.1 * +EC3.1.3.1 phenyl phosphate papio cynocephalus//*//* 16.2 * +EC3.1.3.1 phenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.67 * +EC3.1.3.1 phospho-dl-thr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.1.3.1 phospho-dl-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.3.1 phospho-l-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.1.3.1 phosphoenolpyruvate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.145 * +EC3.1.3.1 phosphoethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.1.3.1 pyridoxal 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.3.1 pyridoxal phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.3.1 trehalose 6-phosphate glomus etunicatum//*//* 1.47 * +EC3.1.3.10 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC3.1.3.10 4-nitrophenyl phosphate pholiota nameko//*//* 2.2 * +EC3.1.3.10 adenosine diphosphate pholiota nameko//*//* 13.4 * +EC3.1.3.10 adenosine triphosphate pholiota nameko//*//* 56.7 * +EC3.1.3.10 d-fructose 1-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.62 * +EC3.1.3.10 d-fructose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC3.1.3.10 d-fructose 1-phosphate pholiota nameko//*//* 12.2 * +EC3.1.3.10 d-fructose 6-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.66 * +EC3.1.3.10 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC3.1.3.10 d-fructose 6-phosphate pholiota nameko//*//* 14.3 * +EC3.1.3.10 d-galactose 1-phosphate pholiota nameko//*//* 85.4 * +EC3.1.3.10 d-glucose 1-phosphate citrobacter braakii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cbra 5.12 * +EC3.1.3.10 d-glucose 1-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.31 * +EC3.1.3.10 d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.39 * +EC3.1.3.10 d-glucose 1-phosphate pholiota nameko//*//* 4.8 * +EC3.1.3.10 d-glucose 6-phosphate citrobacter braakii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cbra 0.5 * +EC3.1.3.10 d-glucose 6-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.47 * +EC3.1.3.10 d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC3.1.3.10 d-mannose 6-phosphate citrobacter braakii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cbra 9.0 * +EC3.1.3.10 d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC3.1.3.10 d-ribose 5-phosphate pholiota nameko//*//* 7.9 * +EC3.1.3.10 glycerol 2-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 100.0 * +EC3.1.3.10 myo-inositol hexakisphosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.51 * +EC3.1.3.10 myo-inositol hexakisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.54 * +EC3.1.3.10 myo-inositol hexakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.35 * +EC3.1.3.10 p-nitrophenyl phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 13.0 * +EC3.1.3.10 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC3.1.3.10 phosphoenolpyruvate pholiota nameko//*//* 12.3 * +EC3.1.3.100 thiamine diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.036 * +EC3.1.3.100 thiamine phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.6 * +EC3.1.3.100 thiamine phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.049 * +EC3.1.3.102 fmn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0008 * +EC3.1.3.102 fmn capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.2 * +EC3.1.3.102 fmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.1.3.102 fmn rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC3.1.3.103 2-dehydro-3-deoxy-d-manno-octulosonic acid 8-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.31 * +EC3.1.3.103 3-deoxy-d-glycero-d-galacto-nononate 9-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.1 * +EC3.1.3.103 n-acetylneuraminic acid 9-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.12 * +EC3.1.3.104 5-amino-6-(5-phospho-d-ribitylamino)uracil arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.127 * +EC3.1.3.104 5-amino-6-(5-phospho-d-ribitylamino)uracil bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.054 * +EC3.1.3.104 5-amino-6-(5-phospho-d-ribitylamino)uracil bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.1 * +EC3.1.3.104 d-ribitol 1-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.03 * +EC3.1.3.104 d-ribitol 5-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.08 * +EC3.1.3.104 fmn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0142 * +EC3.1.3.104 fmn bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.135 * +EC3.1.3.12 glucose 6-phosphate phormia regina//*//* 0.25 * +EC3.1.3.12 trehalose 6-phosphate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.14 * +EC3.1.3.12 trehalose 6-phosphate brugia malayi//eukaryotes;animals;nematodes//bmy 0.36 * +EC3.1.3.12 trehalose 6-phosphate cyberlindnera jadinii//*//* 0.82 * +EC3.1.3.12 trehalose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.1.3.12 trehalose 6-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 1.5 * +EC3.1.3.12 trehalose 6-phosphate oryza sativa japonica group//*//* 0.186 * +EC3.1.3.12 trehalose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0921 * +EC3.1.3.12 trehalose 6-phosphate phormia regina//*//* 0.4 * +EC3.1.3.12 trehalose 6-phosphate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.7 * +EC3.1.3.12 trehalose 6-phosphate rubrobacter xylanophilus//prokaryotes;bacteria;actinobacteria;rubrobacter//rxy 6.1 * +EC3.1.3.12 trehalose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 2.7 * +EC3.1.3.15 amp thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.59 * +EC3.1.3.15 carbon disulfide acidianus sp.//*//* 0.13 * +EC3.1.3.15 carbon disulfide acidithiobacillus thiooxidans//*//* 0.046 * +EC3.1.3.15 carbonyl sulfide acidithiobacillus thiooxidans//*//* 0.014 * +EC3.1.3.15 d-fructose 6-phosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 2.37 * +EC3.1.3.15 l-histidinol phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC3.1.3.15 l-histidinol phosphate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.9 * +EC3.1.3.15 l-histidinol phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 4.2 * +EC3.1.3.15 l-histidinol phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC3.1.3.15 l-histidinol phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC3.1.3.15 l-histidinol phosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.03 * +EC3.1.3.15 l-histidinol phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.27 * +EC3.1.3.15 l-phosphoserine thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 1.45 * +EC3.1.3.16 4-nitrophenyl phosphate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.66 * +EC3.1.3.16 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00276 * +EC3.1.3.16 4-nitrophenyl phosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.53 * +EC3.1.3.16 80s-ribosome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0027 * +EC3.1.3.16 camp dependent protein kinase bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC3.1.3.16 dldvpipgrfdrrvs(p)vaae bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.026 * +EC3.1.3.16 dldvpipgrfdrrvsvaae hymenolepis diminuta//*//* 0.0138 * +EC3.1.3.16 dldvpipgrfdrrvsvaae hymenolepis microstoma//*//* 0.00063 * +EC3.1.3.16 dldvpipgrfdrrvy(p)vaae bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0025 * +EC3.1.3.16 drrvs(p)vaae bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.1.3.16 drvy(p)ihpfhl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0061 * +EC3.1.3.16 endpyinasl chicken anemia virus//*//* 0.0189 * +EC3.1.3.16 ettyerw(pt)titqrer sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.49 * +EC3.1.3.16 fdrrvs(p)vaae bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.213 * +EC3.1.3.16 flrt(p)scg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.1.3.16 flrts(p)cg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.71 * +EC3.1.3.16 flrtt(p)cg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.096 * +EC3.1.3.16 fluorotyrosine phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.2 * +EC3.1.3.16 fydeevdemy(p)reapidkkgnfny(p)veftr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0009 * +EC3.1.3.16 heavy meromyosin meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0059 * +EC3.1.3.16 mg2+ pisum sativum//*//* 3.8 * +EC3.1.3.16 microtubulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.1.3.16 myosin light chain meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0015 * +EC3.1.3.16 nidaira(ps)lnimsr sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.423 * +EC3.1.3.16 p-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.1 * +EC3.1.3.16 p-nitrophenyl phosphate escherichia virus lambda//*//* 10.3 * +EC3.1.3.16 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.3.16 p-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.0 * +EC3.1.3.16 p-nitrophenyl phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 200.0 * +EC3.1.3.16 phosphocasein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00015 * +EC3.1.3.16 phosphocasein triticum aestivum//*//* 0.002 * +EC3.1.3.16 phosphohistone h1 glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.004 * +EC3.1.3.16 phosphohistone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0723 * +EC3.1.3.16 phosphohistone oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.058 * +EC3.1.3.16 phosphohistone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC3.1.3.16 phosphorylase a oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.004 * +EC3.1.3.16 phosphorylated myosin light chain peptide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.1.3.16 pipgrfdrrvs(p)vaae bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.1.3.16 rat(p)va homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.152 * +EC3.1.3.16 rra(pt)va sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0536 * +EC3.1.3.16 rraptva chicken anemia virus//*//* 0.076 * +EC3.1.3.16 rraptva homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC3.1.3.16 tetrafluorotyrosine phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.7 * +EC3.1.3.16 tyrosine phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.2 * +EC3.1.3.17 histone bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.046 * +EC3.1.3.17 phosphorylase a bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0029 * +EC3.1.3.17 phosphorylase a oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.002 * +EC3.1.3.18 2-chloroethyl-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 3.3 * +EC3.1.3.18 2-hydroxyethyl-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.54 * +EC3.1.3.18 2-phosphoglycolate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.14 * +EC3.1.3.18 2-phosphoglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC3.1.3.18 2-phosphoglycolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC3.1.3.18 2-phosphoglycolate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.029 * +EC3.1.3.18 2-phosphoglycolate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.037 * +EC3.1.3.18 co2+ phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.17 * +EC3.1.3.18 diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.17 * +EC3.1.3.18 ethyl-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.15 * +EC3.1.3.18 methyl-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.21 * +EC3.1.3.18 mg2+ phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.09 * +EC3.1.3.18 mg2+ pisum sativum//*//* 0.015 * +EC3.1.3.18 p-nitrophenyl phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.17 * +EC3.1.3.18 phosphoglycolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.1.3.18 phosphoglycolate pisum sativum//*//* 0.026 * +EC3.1.3.18 phosphoglycolate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.037 * +EC3.1.3.18 phosphoglycolate zea mays//eukaryotes;plants;monocots;grass family//zma 0.57 * +EC3.1.3.19 2-phosphoglycerol vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0062 * +EC3.1.3.2 (naphthalen-1-ylmethyl)phosphonic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 5.78 * +EC3.1.3.2 1-naphthyl phosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.079 * +EC3.1.3.2 1-naphthyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.1.3.2 1-naphthyl phosphate lupinus luteus//*//* 0.17 * +EC3.1.3.2 1-naphthyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC3.1.3.2 1-naphthyl phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 3.4 * +EC3.1.3.2 1-phosphoglycerate lupinus luteus//*//* 0.84 * +EC3.1.3.2 2'-amp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 6.0 * +EC3.1.3.2 2'-amp lupinus luteus//*//* 4.08 * +EC3.1.3.2 2'-amp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 1.4 * +EC3.1.3.2 2,3-diphosphoglycerate brassica nigra//*//* 0.09 * +EC3.1.3.2 2-glycerophosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.4 * +EC3.1.3.2 2-glycerophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.1.3.2 2-glycerophosphate secale cereale//*//* 2.9 * +EC3.1.3.2 2-naphthyl phosphate musa cavendishii//*//* 1.78 * +EC3.1.3.2 2-naphthyl phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.18 * +EC3.1.3.2 2-naphthyl phosphate vigna aconitifolia//*//* 0.13 * +EC3.1.3.2 2-phosphoglycerate brassica nigra//*//* 0.37 * +EC3.1.3.2 2-phosphoglycerate lupinus luteus//*//* 0.69 * +EC3.1.3.2 3'-amp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.8 * +EC3.1.3.2 3'-amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.1.3.2 3'-amp lens culinaris//*//* 2.0 * +EC3.1.3.2 3'-amp lupinus luteus//*//* 0.76 * +EC3.1.3.2 3'-amp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.8 * +EC3.1.3.2 3'-ump lupinus luteus//*//* 0.64 * +EC3.1.3.2 3-phosphoglycerate brassica nigra//*//* 0.08 * +EC3.1.3.2 3-phosphoglycerate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 6.0 * +EC3.1.3.2 3-phosphoglycerate triticum aestivum//*//* 0.27 * +EC3.1.3.2 4-methylumbelliferyl phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.25 * +EC3.1.3.2 4-methylumbelliferyl phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.09 * +EC3.1.3.2 4-methylumbelliferyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.284 * +EC3.1.3.2 4-methylumbelliferyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.6 * +EC3.1.3.2 4-methylumbelliferyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC3.1.3.2 4-methylumbelliferyl phosphate tatlockia micdadei//prokaryotes;bacteria;gammaproteobacteria - others;tatlockia//tmc 3.8 * +EC3.1.3.2 4-nitrophenyl phosphate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.37 * +EC3.1.3.2 4-nitrophenyl phosphate allium sativum//*//* 21.27 * +EC3.1.3.2 4-nitrophenyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.703 * +EC3.1.3.2 4-nitrophenyl phosphate aspergillus caespitosus//*//* 0.029 * +EC3.1.3.2 4-nitrophenyl phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.95 * +EC3.1.3.2 4-nitrophenyl phosphate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 2.84 * +EC3.1.3.2 4-nitrophenyl phosphate cullen corylifolium//*//* 0.775 * +EC3.1.3.2 4-nitrophenyl phosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.14 * +EC3.1.3.2 4-nitrophenyl phosphate euphorbia characias//*//* 0.51 * +EC3.1.3.2 4-nitrophenyl phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 3.11 * +EC3.1.3.2 4-nitrophenyl phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.12 * +EC3.1.3.2 4-nitrophenyl phosphate hypericum perforatum//*//* 0.03 * +EC3.1.3.2 4-nitrophenyl phosphate labeo rohita//*//* 0.11 * +EC3.1.3.2 4-nitrophenyl phosphate musa cavendishii//*//* 1.81 * +EC3.1.3.2 4-nitrophenyl phosphate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.5 * +EC3.1.3.2 4-nitrophenyl phosphate pelophylax esculentus//*//* 1.39 * +EC3.1.3.2 4-nitrophenyl phosphate phoenix canariensis//*//* 0.6 * +EC3.1.3.2 4-nitrophenyl phosphate pinctada fucata//*//* 0.194 * +EC3.1.3.2 4-nitrophenyl phosphate prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 0.23 * +EC3.1.3.2 4-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.0 * +EC3.1.3.2 4-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC3.1.3.2 4-nitrophenyl phosphate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.248 * +EC3.1.3.2 4-nitrophenyl phosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.17 * +EC3.1.3.2 4-nitrophenyl phosphate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.194 * +EC3.1.3.2 4-nitrophenyl phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 3.3 * +EC3.1.3.2 4-nitrophenyl phosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.9 * +EC3.1.3.2 4-nitrophenyl phosphate triticum aestivum//*//* 0.97 * +EC3.1.3.2 4-nitrophenyl phosphate vigna aconitifolia//*//* 0.15 * +EC3.1.3.2 4-nitrophenyl phosphate vigna mungo//*//* 0.49 * +EC3.1.3.2 5'-adp vigna aconitifolia//*//* 0.11 * +EC3.1.3.2 5'-amp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.269 * +EC3.1.3.2 5'-amp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.23 * +EC3.1.3.2 5'-amp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.08 * +EC3.1.3.2 5'-amp vigna aconitifolia//*//* 0.1 * +EC3.1.3.2 5'-gmp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.283 * +EC3.1.3.2 5'-tmp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.222 * +EC3.1.3.2 5'-ump clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.221 * +EC3.1.3.2 6-phospho-d-gluconate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 4.5 * +EC3.1.3.2 6-phosphogluconate brassica nigra//*//* 0.18 * +EC3.1.3.2 [(decyloxy)(naphthalen-1-yl)methyl]phosphonic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.1 * +EC3.1.3.2 [(decyloxy)(naphthalen-1-yl)methyl]phosphonic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC3.1.3.2 [(hexyloxy)(naphthalen-1-yl)methyl]phosphonic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 4.28 * +EC3.1.3.2 [(hexyloxy)(naphthalen-1-yl)methyl]phosphonic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.65 * +EC3.1.3.2 [hydroxy(naphthalen-1-yl)methyl]phosphonic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 5.31 * +EC3.1.3.2 [naphthalen-1-yl(octyloxy)methyl]phosphonic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.41 * +EC3.1.3.2 [naphthalen-1-yl(octyloxy)methyl]phosphonic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC3.1.3.2 ac-(pt)ailer arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.49 * +EC3.1.3.2 ac-(pt)ialgk arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 16.57 * +EC3.1.3.2 ac-rk(ps)agkpkn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 13.88 * +EC3.1.3.2 adenosine 5'-phosphate tetrahymena pyriformis//*//* 0.39 * +EC3.1.3.2 adp arachis hypogaea//*//* 1.48 * +EC3.1.3.2 adp brassica nigra//*//* 0.1 * +EC3.1.3.2 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.333 * +EC3.1.3.2 adp musa cavendishii//*//* 1.66 * +EC3.1.3.2 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.87 * +EC3.1.3.2 adp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.4 * +EC3.1.3.2 alpha-casein rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.1.3.2 alpha-glycerophosphate acidithiobacillus thiooxidans//*//* 0.23 * +EC3.1.3.2 alpha-glycerophosphate berryteuthis magister//*//* 26.0 * +EC3.1.3.2 alpha-glycerophosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC3.1.3.2 alpha-glycerophosphate nototodarus sloanii//*//* 16.0 * +EC3.1.3.2 alpha-naphthyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.092 * +EC3.1.3.2 alpha-naphthyl phosphate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.06 * +EC3.1.3.2 amp brassica nigra//*//* 0.7 * +EC3.1.3.2 amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.3.2 atp arachis hypogaea//*//* 1.16 * +EC3.1.3.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC3.1.3.2 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.125 * +EC3.1.3.2 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.79 * +EC3.1.3.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.265 * +EC3.1.3.2 atp ipomoea batatas//*//* 0.089 * +EC3.1.3.2 atp musa cavendishii//*//* 1.7 * +EC3.1.3.2 atp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.4 * +EC3.1.3.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.62 * +EC3.1.3.2 atp secale cereale x triticum aestivum//*//* 0.32 * +EC3.1.3.2 atp secale cereale//*//* 0.84 * +EC3.1.3.2 atp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.5 * +EC3.1.3.2 beta-glycerophosphate berryteuthis magister//*//* 24.0 * +EC3.1.3.2 beta-glycerophosphate nototodarus sloanii//*//* 16.0 * +EC3.1.3.2 bis(p-nitrophenyl)phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.0 * +EC3.1.3.2 bis-(p-nitrophenyl)phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.4 * +EC3.1.3.2 bis-p-nitrophenyl phosphate talaromyces funiculosus//*//* 1.74 * +EC3.1.3.2 casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.64 * +EC3.1.3.2 cdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.606 * +EC3.1.3.2 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.377 * +EC3.1.3.2 ctp musa cavendishii//*//* 1.98 * +EC3.1.3.2 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.1.3.2 cu2+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.5 * +EC3.1.3.2 d-fructose 6-phosphate agaricus bisporus//eukaryotes;fungi;basidiomycetes//abp 0.0031 * +EC3.1.3.2 dade(py)lipqqg nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.02 * +EC3.1.3.2 diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.124 * +EC3.1.3.2 diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.02 * +EC3.1.3.2 diphosphate brassica nigra//*//* 0.08 * +EC3.1.3.2 diphosphate musa cavendishii//*//* 1.03 * +EC3.1.3.2 diphosphate secale cereale//*//* 1.0 * +EC3.1.3.2 diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 3.4 * +EC3.1.3.2 diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.37 * +EC3.1.3.2 dl-phosphotyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC3.1.3.2 eey(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC3.1.3.2 end(py)inasl nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.03 * +EC3.1.3.2 flavin mononucleotide labeo rohita//*//* 0.2 * +EC3.1.3.2 fmoc-aay(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC3.1.3.2 fmoc-eey(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC3.1.3.2 fmoc-ey(p)a sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.008 * +EC3.1.3.2 fmoc-kkay(p)aa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.95 * +EC3.1.3.2 fructose 1,6-diphosphate brassica nigra//*//* 0.19 * +EC3.1.3.2 fructose 1,6-diphosphate lupinus luteus//*//* 0.23 * +EC3.1.3.2 fructose 1,6-diphosphate secale cereale//*//* 0.54 * +EC3.1.3.2 fructose 6-phosphate lupinus luteus//*//* 1.1 * +EC3.1.3.2 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.348 * +EC3.1.3.2 glucose 1-phosphate lupinus luteus//*//* 24.4 * +EC3.1.3.2 glucose 6-phosphate lupinus luteus//*//* 0.9 * +EC3.1.3.2 glucose 6-phosphate tetrahymena pyriformis//*//* 1.6 * +EC3.1.3.2 glucose 6-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 1.2 * +EC3.1.3.2 glyceraldehyde 3-phosphate brassica nigra//*//* 0.21 * +EC3.1.3.2 glycerol 3-phosphate brassica nigra//*//* 0.16 * +EC3.1.3.2 glycerol 3-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 5.0 * +EC3.1.3.2 gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.1.3.2 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.1.3.2 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC3.1.3.2 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.1.3.2 gtp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.16 * +EC3.1.3.2 hirudin 53-65 c-terminal fragment pelophylax esculentus//*//* 0.00755 * +EC3.1.3.2 idp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 1.45 * +EC3.1.3.2 idp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.23 * +EC3.1.3.2 kr(pt)irr arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 12.56 * +EC3.1.3.2 l-tyrosine-o-phosphate lens culinaris//*//* 1.4 * +EC3.1.3.2 methyl-p-nitrophenyl phosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 356.0 * +EC3.1.3.2 methyl-p-nitrophenyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 110.0 * +EC3.1.3.2 methylphosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 281.0 * +EC3.1.3.2 methylphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 138.0 * +EC3.1.3.2 mg2+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.35 * +EC3.1.3.2 myo-inositol hexakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.278 * +EC3.1.3.2 na2h2p2o7 glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.085 * +EC3.1.3.2 nadph lupinus luteus//*//* 0.2 * +EC3.1.3.2 nicotinamide mononucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.7 * +EC3.1.3.2 nmn pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.29 * +EC3.1.3.2 o-carboxyphenyl phosphate lupinus luteus//*//* 0.25 * +EC3.1.3.2 o-carboxyphenyl phosphoric acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.195 * +EC3.1.3.2 o-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC3.1.3.2 o-phospho-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 47.51 * +EC3.1.3.2 o-phospho-l-serine lupinus luteus//*//* 0.87 * +EC3.1.3.2 o-phospho-l-threonine lupinus luteus//*//* 1.18 * +EC3.1.3.2 o-phospho-l-tyrosine brassica nigra//*//* 0.17 * +EC3.1.3.2 o-phospho-l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.95 * +EC3.1.3.2 o-phospho-l-tyrosine lupinus luteus//*//* 1.43 * +EC3.1.3.2 p-nitrophenyl phenylphosphonate talaromyces funiculosus//*//* 1.64 * +EC3.1.3.2 p-nitrophenyl phosphate acidithiobacillus thiooxidans//*//* 0.21 * +EC3.1.3.2 p-nitrophenyl phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.703 * +EC3.1.3.2 p-nitrophenyl phosphate arachis hypogaea//*//* 0.49 * +EC3.1.3.2 p-nitrophenyl phosphate asclepias curassavica//*//* 0.69 * +EC3.1.3.2 p-nitrophenyl phosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.22 * +EC3.1.3.2 p-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC3.1.3.2 p-nitrophenyl phosphate brassica nigra//*//* 0.29 * +EC3.1.3.2 p-nitrophenyl phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.33 * +EC3.1.3.2 p-nitrophenyl phosphate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.658 * +EC3.1.3.2 p-nitrophenyl phosphate dioscorea cayenensis-rotundata//*//* 2.85 * +EC3.1.3.2 p-nitrophenyl phosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.068 * +EC3.1.3.2 p-nitrophenyl phosphate eimeria tenella//*//* 25.0 * +EC3.1.3.2 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC3.1.3.2 p-nitrophenyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.07 * +EC3.1.3.2 p-nitrophenyl phosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.5 * +EC3.1.3.2 p-nitrophenyl phosphate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.029 * +EC3.1.3.2 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.1.3.2 p-nitrophenyl phosphate hordeum vulgare//*//* 0.12 * +EC3.1.3.2 p-nitrophenyl phosphate ipomoea batatas//*//* 0.049 * +EC3.1.3.2 p-nitrophenyl phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.53 * +EC3.1.3.2 p-nitrophenyl phosphate lens culinaris//*//* 0.7 * +EC3.1.3.2 p-nitrophenyl phosphate lupinus luteus//*//* 0.28 * +EC3.1.3.2 p-nitrophenyl phosphate mucor hiemalis//*//* 0.434 * +EC3.1.3.2 p-nitrophenyl phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.33 * +EC3.1.3.2 p-nitrophenyl phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC3.1.3.2 p-nitrophenyl phosphate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.3 * +EC3.1.3.2 p-nitrophenyl phosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.56 * +EC3.1.3.2 p-nitrophenyl phosphate pinus sylvestris//*//* 1.6 * +EC3.1.3.2 p-nitrophenyl phosphate polysphondylium pallidum//*//* 0.025 * +EC3.1.3.2 p-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC3.1.3.2 p-nitrophenyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.28 * +EC3.1.3.2 p-nitrophenyl phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.11 * +EC3.1.3.2 p-nitrophenyl phosphate secale cereale x triticum aestivum//*//* 0.35 * +EC3.1.3.2 p-nitrophenyl phosphate secale cereale//*//* 0.98 * +EC3.1.3.2 p-nitrophenyl phosphate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.3 * +EC3.1.3.2 p-nitrophenyl phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.45 * +EC3.1.3.2 p-nitrophenyl phosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.9 * +EC3.1.3.2 p-nitrophenyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.25 * +EC3.1.3.2 p-nitrophenyl phosphate talaromyces funiculosus//*//* 0.22 * +EC3.1.3.2 p-nitrophenyl phosphate tetrahymena pyriformis//*//* 0.31 * +EC3.1.3.2 p-nitrophenyl phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.4 * +EC3.1.3.2 p-nitrophenyl phosphate trichoderma harzianum//*//* 0.000165 * +EC3.1.3.2 p-nitrophenyl phosphate trypanosoma brucei brucei//*//* 0.2 * +EC3.1.3.2 p-nitrophenyl phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.2 * +EC3.1.3.2 p-nitrophenyl phosphate ustilago esculenta//*//* 0.25 * +EC3.1.3.2 p-nitrophenyl phosphate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.55 * +EC3.1.3.2 p-nitrophenyl phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.14 * +EC3.1.3.2 phenolphthalein diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.276 * +EC3.1.3.2 phenolphthalein diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC3.1.3.2 phenolphthalein monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC3.1.3.2 phenyl phosphate berryteuthis magister//*//* 2.0 * +EC3.1.3.2 phenyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.3 * +EC3.1.3.2 phenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.606 * +EC3.1.3.2 phenyl phosphate labeo rohita//*//* 0.16 * +EC3.1.3.2 phenyl phosphate lupinus luteus//*//* 0.27 * +EC3.1.3.2 phenyl phosphate musa cavendishii//*//* 2.1 * +EC3.1.3.2 phenyl phosphate nototodarus sloanii//*//* 10.0 * +EC3.1.3.2 phenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC3.1.3.2 phenyl phosphate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.59 * +EC3.1.3.2 phenyl phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.1 * +EC3.1.3.2 phenyl phosphate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.3 * +EC3.1.3.2 phenyl phosphate talaromyces funiculosus//*//* 2.27 * +EC3.1.3.2 phenylphosphate arachis hypogaea//*//* 0.38 * +EC3.1.3.2 phosphocholine francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.47 * +EC3.1.3.2 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.059 * +EC3.1.3.2 phosphoenolpyruvate brassica nigra//*//* 0.05 * +EC3.1.3.2 phosphoenolpyruvate lupinus luteus//*//* 0.86 * +EC3.1.3.2 phosphoenolpyruvate musa cavendishii//*//* 1.28 * +EC3.1.3.2 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC3.1.3.2 phosphoenolpyruvate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.22 * +EC3.1.3.2 phosphoenolpyruvic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.339 * +EC3.1.3.2 phosphoglycolate brassica nigra//*//* 0.27 * +EC3.1.3.2 phosphoryl choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6 * +EC3.1.3.2 phosphorylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.1.3.2 phosphorylcholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.2 * +EC3.1.3.2 phosphorylethanolamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.7 * +EC3.1.3.2 phosphoserine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.4 * +EC3.1.3.2 phosphotyrosine labeo rohita//*//* 0.18 * +EC3.1.3.2 phosphotyrosine musa cavendishii//*//* 1.79 * +EC3.1.3.2 phosphotyrosine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.41 * +EC3.1.3.2 phosphotyrosine pelophylax esculentus//*//* 1.38 * +EC3.1.3.2 phosphotyrosine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.1 * +EC3.1.3.2 phosvitin pelophylax esculentus//*//* 0.273 * +EC3.1.3.2 phosvitin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC3.1.3.2 phytate secale cereale//*//* 5.54 * +EC3.1.3.2 polyphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.378 * +EC3.1.3.2 pyridoxal 5'-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.24 * +EC3.1.3.2 pyridoxal 5'-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.7 * +EC3.1.3.2 ribose 5-phosphate lupinus luteus//*//* 1.31 * +EC3.1.3.2 rra(pt)va arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 11.89 * +EC3.1.3.2 rra(pt)va nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.22 * +EC3.1.3.2 sodium phytate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.278 * +EC3.1.3.2 sodium phytate mucor hiemalis//*//* 1.29 * +EC3.1.3.2 tdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.476 * +EC3.1.3.2 tetrapolyphosphate musa cavendishii//*//* 1.14 * +EC3.1.3.2 tetrapolyphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.9 * +EC3.1.3.2 thiamine diphosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.19 * +EC3.1.3.2 thiamine diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC3.1.3.2 thiamine diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0017 * +EC3.1.3.2 thiamine monophosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.15 * +EC3.1.3.2 thiamine phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0016 * +EC3.1.3.2 thymolphthalein monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.1.3.2 ttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.299 * +EC3.1.3.2 tyrosine phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.27 * +EC3.1.3.2 udp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.615 * +EC3.1.3.2 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.714 * +EC3.1.3.2 utp musa cavendishii//*//* 1.73 * +EC3.1.3.2 utp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.1.3.2 utp solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.5 * +EC3.1.3.2 zn2+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC3.1.3.20 2-phosphoglycerate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.4 * +EC3.1.3.20 2-phosphoglycerate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 10.0 * +EC3.1.3.21 4-nitrophenyl phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 19.3 * +EC3.1.3.21 d-ribulose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.3 * +EC3.1.3.21 dihydroxyacetone phosphate phycomyces blakesleeanus//*//* 0.6 * +EC3.1.3.21 dl-glycerol 3-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5 * +EC3.1.3.21 dl-glycerol 3-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 3.8 * +EC3.1.3.21 dl-glycerol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC3.1.3.21 dl-glycerol 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.89 * +EC3.1.3.21 dl-glycerol-1-phosphate dunaliella salina//*//* 2.7 * +EC3.1.3.21 dl-glycerol-3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.1 * +EC3.1.3.21 glycerol 2-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.01 * +EC3.1.3.21 glycerol 3-phosphate osmerus mordax//*//* 2.61 * +EC3.1.3.21 l-glycerol 3-phosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 2.9 * +EC3.1.3.21 l-glycerol 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.1 * +EC3.1.3.21 l-glycerol-3-phosphate dunaliella tertiolecta//*//* 0.7 * +EC3.1.3.21 l-glycerol-3-phosphate phycomyces blakesleeanus//*//* 0.6 * +EC3.1.3.22 d-mannitol 1-phosphate caloglossa continua//*//* 0.41 * +EC3.1.3.22 d-mannitol 1-phosphate ectocarpus siliculosus//*//* 0.67 * +EC3.1.3.22 mannitol 1-phosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.0 * +EC3.1.3.22 mannitol 1-phosphate eimeria tenella//*//* 0.2 * +EC3.1.3.22 mannitol 1-phosphate magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 3.0 * +EC3.1.3.23 2-deoxy-d-glucose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.6 * +EC3.1.3.23 2-deoxy-d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC3.1.3.23 4-nitrophenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 50.0 * +EC3.1.3.23 alpha-d-galactose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.1.3.23 alpha-d-gentiobiose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC3.1.3.23 alpha-d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.1.3.23 alpha-d-lactose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC3.1.3.23 alpha-d-maltose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC3.1.3.23 alpha-d-mannose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.1.3.23 alpha-d-xylose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC3.1.3.23 d-arabinose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 27.36 * +EC3.1.3.23 d-fructose 1,6-bisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 40.78 * +EC3.1.3.23 d-fructose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC3.1.3.23 d-fructose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.7 * +EC3.1.3.23 d-fructose 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 34.89 * +EC3.1.3.23 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.1.3.23 d-galactose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 40.74 * +EC3.1.3.23 d-galactose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC3.1.3.23 d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.1.3.23 d-glucose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.1 * +EC3.1.3.23 d-glucose 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 24.96 * +EC3.1.3.23 d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1 * +EC3.1.3.23 d-glucuronate 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC3.1.3.23 d-mannose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.9 * +EC3.1.3.23 d-ribose 5-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.6 * +EC3.1.3.23 d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.1.3.23 d-xylulose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 29.14 * +EC3.1.3.23 dl-glycerol 3-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.3 * +EC3.1.3.23 mannitol 1-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 50.0 * +EC3.1.3.24 sucrose 6-phosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.35 * +EC3.1.3.24 sucrose 6-phosphate methylobacillus flagellatus//prokaryotes;bacteria;betaproteobacteria;methylobacillus//mfa 0.19 * +EC3.1.3.24 sucrose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.065 * +EC3.1.3.24 sucrose 6-phosphate pisum sativum//*//* 0.25 * +EC3.1.3.24 sucrose 6-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.105 * +EC3.1.3.24 sucrose phosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.15 * +EC3.1.3.25 (-)-(1r,2r,4r,6r)-2,4,6-trihydroxycyclohexyl-1-hydroxyphosphonate cyclohexylammonium salt bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC3.1.3.25 1-l-chiro-inositol-3-phosphate lilium longiflorum//*//* 0.044 * +EC3.1.3.25 2'-amp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.58 * +EC3.1.3.25 2'-amp lilium longiflorum//*//* 1.58 * +EC3.1.3.25 2'-amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.083 * +EC3.1.3.25 2'-gmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC3.1.3.25 3'-amp lilium longiflorum//*//* 0.372 * +EC3.1.3.25 3,5-dideoxy-d-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.16 * +EC3.1.3.25 3,5-dideoxy-d-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.051 * +EC3.1.3.25 3,5-dideoxy-l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 4.9 * +EC3.1.3.25 3,5-dideoxy-l-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.3.25 3-deoxy-d-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.23 * +EC3.1.3.25 3-deoxy-d-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC3.1.3.25 3-deoxy-l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.3 * +EC3.1.3.25 3-deoxy-l-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.1.3.25 4-nitrophenyl phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.8 * +EC3.1.3.25 4-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC3.1.3.25 d-fructose 1,6-bisphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.038 * +EC3.1.3.25 d-glucitol-6-phosphate lilium longiflorum//*//* 2.0 * +EC3.1.3.25 d-inositol 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.1.3.25 d-inositol 1-phosphate lilium longiflorum//*//* 0.078 * +EC3.1.3.25 d-inositol-1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.1.3.25 d-inositol-1-phosphte thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.148 * +EC3.1.3.25 d-mannitol-6-phosphate lilium longiflorum//*//* 0.82 * +EC3.1.3.25 d-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC3.1.3.25 d-myo-inositol 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.1.3.25 d-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.068 * +EC3.1.3.25 d-myo-inositol 1-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.02 * +EC3.1.3.25 d-myo-inositol 3-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.7 * +EC3.1.3.25 d-myo-inositol 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC3.1.3.25 dl-myo-inositol 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.89 * +EC3.1.3.25 dl-myo-inositol 1-phosphate cyberlindnera jadinii//*//* 1.67 * +EC3.1.3.25 dl-myo-inositol 1-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.086 * +EC3.1.3.25 dl-myo-inositol 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.3.25 dl-myo-inositol 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.082 * +EC3.1.3.25 dl-myo-inositol 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.57 * +EC3.1.3.25 dl-myo-inositol 1-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0034 * +EC3.1.3.25 dl-myo-inositol 1-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.145 * +EC3.1.3.25 glucose-6-phosphate lilium longiflorum//*//* 1.71 * +EC3.1.3.25 glycerol 2-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.38 * +EC3.1.3.25 glycerol 2-phosphate lilium longiflorum//*//* 0.061 * +EC3.1.3.25 glycerol 2-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.1.3.25 glycerol 2-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.17 * +EC3.1.3.25 inositol 1,3-thiophosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.21 * +EC3.1.3.25 inositol 2-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.286 * +EC3.1.3.25 inositol 2-phosphate lilium longiflorum//*//* 0.733 * +EC3.1.3.25 inositol 3-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC3.1.3.25 inositol-2-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.35 * +EC3.1.3.25 l-glycerol 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.87 * +EC3.1.3.25 l-glycerol 1-phosphate lilium longiflorum//*//* 0.382 * +EC3.1.3.25 l-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.079 * +EC3.1.3.25 l-myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.67 * +EC3.1.3.25 l-myo-inositol 1-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.1.3.25 l-myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.061 * +EC3.1.3.25 l-myo-inositol 1-phosphate lilium longiflorum//*//* 0.082 * +EC3.1.3.25 l-myo-inositol 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.1.3.25 l-myo-inositol-1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.1.3.25 mg2+ mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 3.2 * +EC3.1.3.25 myo-inositol 1-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC3.1.3.25 myo-inositol 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.064 * +EC3.1.3.25 myo-inositol 1-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.091 * +EC3.1.3.25 myo-inositol 1-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 66.0 * +EC3.1.3.25 myo-inositol 1-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.177 * +EC3.1.3.25 myo-inositol 1-phosphate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.23 * +EC3.1.3.25 myo-inositol 1-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.13 * +EC3.1.3.25 propan-1-ol 2-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.0 * +EC3.1.3.25 sodium diphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.235 * +EC3.1.3.26 1-naphthyl phosphate avena sativa//*//* 0.157 * +EC3.1.3.26 1-naphthyl phosphate corylus avellana//*//* 1.6 * +EC3.1.3.26 1-naphthyl phosphate lupinus albus//*//* 0.49 * +EC3.1.3.26 2-glycerophosphate lupinus albus//*//* 0.667 * +EC3.1.3.26 2-naphthyl phosphate avena sativa//*//* 0.15 * +EC3.1.3.26 2-naphthyl phosphate lupinus albus//*//* 0.512 * +EC3.1.3.26 4-nitrophenyl phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.38 * +EC3.1.3.26 4-nitrophenyl phosphate corylus avellana//*//* 2.2 * +EC3.1.3.26 4-nitrophenyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 4.3 * +EC3.1.3.26 4-nitrophenyl phosphate lupinus albus//*//* 0.123 * +EC3.1.3.26 5'-atp corylus avellana//*//* 0.55 * +EC3.1.3.26 adp avena sativa//*//* 0.142 * +EC3.1.3.26 adp lupinus albus//*//* 0.398 * +EC3.1.3.26 amp avena sativa//*//* 0.115 * +EC3.1.3.26 amp lupinus albus//*//* 0.315 * +EC3.1.3.26 atp avena sativa//*//* 0.145 * +EC3.1.3.26 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.7 * +EC3.1.3.26 atp lupinus albus//*//* 0.412 * +EC3.1.3.26 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.227 * +EC3.1.3.26 d-fructose 1,6-diphosphate corylus avellana//*//* 1.1 * +EC3.1.3.26 d-fructose 1,6-diphosphate lupinus albus//*//* 0.229 * +EC3.1.3.26 d-fructose 6-phosphate lupinus albus//*//* 0.478 * +EC3.1.3.26 d-glucose 6-phosphate corylus avellana//*//* 2.3 * +EC3.1.3.26 d-glucose 6-phosphate lupinus albus//*//* 0.302 * +EC3.1.3.26 d-ribose 5-phosphate corylus avellana//*//* 1.2 * +EC3.1.3.26 diphosphate avena sativa//*//* 0.105 * +EC3.1.3.26 diphosphate lupinus albus//*//* 0.445 * +EC3.1.3.26 diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.181 * +EC3.1.3.26 fructose 1,6-diphosphate avena sativa//*//* 0.09 * +EC3.1.3.26 fructose 6-phosphate avena sativa//*//* 0.045 * +EC3.1.3.26 glucose 6-phosphate avena sativa//*//* 0.067 * +EC3.1.3.26 glycerol 2-phosphate avena sativa//*//* 0.075 * +EC3.1.3.26 gtp avena sativa//*//* 0.153 * +EC3.1.3.26 gtp lupinus albus//*//* 0.217 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus ficuum//*//* 0.027 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.03 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus japonicus//*//* 0.08 * +EC3.1.3.26 myo-inositol hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.033 * +EC3.1.3.26 myo-inositol hexakisphosphate avena sativa//*//* 0.03 * +EC3.1.3.26 myo-inositol hexakisphosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.05 * +EC3.1.3.26 myo-inositol hexakisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC3.1.3.26 myo-inositol hexakisphosphate blastobotrys adeninivorans//*//* 0.25 * +EC3.1.3.26 myo-inositol hexakisphosphate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.25 * +EC3.1.3.26 myo-inositol hexakisphosphate brassica rapa subsp. campestris//*//* 0.27 * +EC3.1.3.26 myo-inositol hexakisphosphate brassica sp.//*//* 0.36 * +EC3.1.3.26 myo-inositol hexakisphosphate cavia porcellus//*//* 0.26 * +EC3.1.3.26 myo-inositol hexakisphosphate citrobacter braakii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cbra 0.46 * +EC3.1.3.26 myo-inositol hexakisphosphate corylus avellana//*//* 0.16 * +EC3.1.3.26 myo-inositol hexakisphosphate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 1.5 * +EC3.1.3.26 myo-inositol hexakisphosphate cyberlindnera rhodanensis//*//* 0.25 * +EC3.1.3.26 myo-inositol hexakisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.1.3.26 myo-inositol hexakisphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.061 * +EC3.1.3.26 myo-inositol hexakisphosphate hordeum vulgare//*//* 0.334 * +EC3.1.3.26 myo-inositol hexakisphosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.11 * +EC3.1.3.26 myo-inositol hexakisphosphate lilium longiflorum//*//* 0.0072 * +EC3.1.3.26 myo-inositol hexakisphosphate lupinus albus//*//* 0.08 * +EC3.1.3.26 myo-inositol hexakisphosphate mesocricetus auratus//*//* 0.03 * +EC3.1.3.26 myo-inositol hexakisphosphate papiliotrema laurentii//*//* 0.00098 * +EC3.1.3.26 myo-inositol hexakisphosphate pectobacterium wasabiae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pws 0.17 * +EC3.1.3.26 myo-inositol hexakisphosphate peniophora lycii//*//* 0.033 * +EC3.1.3.26 myo-inositol hexakisphosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.018 * +EC3.1.3.26 myo-inositol hexakisphosphate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.016 * +EC3.1.3.26 myo-inositol hexakisphosphate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.38 * +EC3.1.3.26 myo-inositol hexakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.1.3.26 myo-inositol hexakisphosphate rhizopus microsporus var. oligosporus//*//* 0.0104 * +EC3.1.3.26 myo-inositol hexakisphosphate scheffersomyces spartinae//*//* 0.33 * +EC3.1.3.26 myo-inositol hexakisphosphate schwanniomyces capriottii//*//* 0.532 * +EC3.1.3.26 myo-inositol hexakisphosphate schwanniomyces occidentalis//*//* 0.038 * +EC3.1.3.26 myo-inositol hexakisphosphate secale cereale//*//* 0.186 * +EC3.1.3.26 myo-inositol hexakisphosphate thermothelomyces heterothallica//*//* 0.156 * +EC3.1.3.26 myo-inositol hexakisphosphate triticum aestivum//*//* 0.246 * +EC3.1.3.26 myo-inositol hexakisphosphate typha latifolia//*//* 0.017 * +EC3.1.3.26 myo-inositol hexakisphosphate vicia faba//*//* 0.017 * +EC3.1.3.26 myo-inositol hexakisphosphate vigna radiata var. radiata//*//* 0.4 * +EC3.1.3.26 myo-inositol hexakisphosphate wickerhamomyces anomalus//*//* 0.2 * +EC3.1.3.26 myo-inositol hexakisphosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.196 * +EC3.1.3.26 myo-inositol hexakisphosphate yersinia rohdei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yro 0.206 * +EC3.1.3.26 myo-inositol hexakisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.024 * +EC3.1.3.26 myo-inositol pentakisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.133 * +EC3.1.3.26 myo-inositol trikisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.25 * +EC3.1.3.26 o-phospho-l-ser avena sativa//*//* 0.093 * +EC3.1.3.26 o-phospho-l-serine lupinus albus//*//* 0.74 * +EC3.1.3.26 p-nitrophenyl phosphate avena sativa//*//* 0.132 * +EC3.1.3.26 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.78 * +EC3.1.3.26 p-nitrophenyl phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.555 * +EC3.1.3.26 phosphate corylus avellana//*//* 2.4 * +EC3.1.3.26 phytate bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.138 * +EC3.1.3.26 polyphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.3 * +EC3.1.3.26 pyridoxal phosphate avena sativa//*//* 0.045 * +EC3.1.3.26 pyridoxal phosphate lupinus albus//*//* 0.776 * +EC3.1.3.27 1,2-dioleoyl-sn-glycero-3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.1.3.27 dipalmitoyl sn-glycero 3-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.012 * +EC3.1.3.27 phosphatidylglycerophosphate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.18 * +EC3.1.3.27 phosphatidylglycerophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC3.1.3.27 phosphatidylglycerophosphate rattus sp.//*//* 0.002 * +EC3.1.3.27 phosphatidylglycerophosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC3.1.3.28 2,3-diphosphoglyceric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 27.0 * +EC3.1.3.28 adp-phosphoglyceric acid oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 20.0 * +EC3.1.3.29 6-phospho-d-gluconate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.1.3.29 d-fructose 1,6-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.2 * +EC3.1.3.29 n-acetylglucosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.1.3.29 n-acetylneuraminate 9-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.1.3.29 n-acetylneuraminate 9-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC3.1.3.3 d-phosphoserine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.2 * +EC3.1.3.3 d-phosphoserine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.3.3 d-phosphoserine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.1.3.3 dl-phosphoserine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.1.3.3 dl-phosphoserine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.11 * +EC3.1.3.3 l-3-phosphoserine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.5 * +EC3.1.3.3 l-phosphoserine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.058 * +EC3.1.3.3 l-phosphoserine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.1.3.3 l-phosphoserine hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 1.5 * +EC3.1.3.3 l-phosphoserine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC3.1.3.3 l-phosphoserine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 2.041 * +EC3.1.3.3 l-phosphoserine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.207 * +EC3.1.3.3 l-phosphoserine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.1.3.3 l-phosphothreonine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.117 * +EC3.1.3.3 l-phosphotyrosine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.047 * +EC3.1.3.3 o-phospho-l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0927 * +EC3.1.3.3 o-phospho-l-serine thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.081 * +EC3.1.3.31 2'-amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.58 * +EC3.1.3.31 2'-ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.1.3.31 3'-amp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.016 * +EC3.1.3.31 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.3.31 3'-amp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 42.0 * +EC3.1.3.31 3'-amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC3.1.3.31 3'-amp uncultured marine bacterium//*//* 0.03 * +EC3.1.3.31 3'-cmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.53 * +EC3.1.3.31 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC3.1.3.31 3'-cmp uncultured marine bacterium//*//* 0.05 * +EC3.1.3.31 3'-damp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC3.1.3.31 3'-dgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC3.1.3.31 3'-dtmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.1.3.31 3'-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.1.3.31 3'-dump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.38 * +EC3.1.3.31 3'-gmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.164 * +EC3.1.3.31 3'-gmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.1.3.31 3'-gmp uncultured marine bacterium//*//* 0.044 * +EC3.1.3.31 3'-ump elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.335 * +EC3.1.3.31 3'-ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.1.3.31 3'-ump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.1.3.31 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.09 * +EC3.1.3.31 5'-amp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.016 * +EC3.1.3.31 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC3.1.3.31 5'-amp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 13.0 * +EC3.1.3.31 5'-amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC3.1.3.31 5'-amp uncultured marine bacterium//*//* 0.05 * +EC3.1.3.31 5'-cmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.013 * +EC3.1.3.31 5'-cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC3.1.3.31 5'-cmp uncultured marine bacterium//*//* 0.067 * +EC3.1.3.31 5'-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC3.1.3.31 5'-damp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.1.3.31 5'-damp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC3.1.3.31 5'-damp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC3.1.3.31 5'-damp uncultured marine bacterium//*//* 0.079 * +EC3.1.3.31 5'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC3.1.3.31 5'-dcmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.07 * +EC3.1.3.31 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC3.1.3.31 5'-dgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.1.3.31 5'-dgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.1.3.31 5'-dgmp uncultured marine bacterium//*//* 0.059 * +EC3.1.3.31 5'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC3.1.3.31 5'-dimp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.1.3.31 5'-dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.1.3.31 5'-dtmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC3.1.3.31 5'-dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.1.3.31 5'-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.1.3.31 5'-dump oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 14.0 * +EC3.1.3.31 5'-dump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.72 * +EC3.1.3.31 5'-gmp elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.011 * +EC3.1.3.31 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC3.1.3.31 5'-gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.1.3.31 5'-gmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC3.1.3.31 5'-gmp uncultured marine bacterium//*//* 0.051 * +EC3.1.3.31 5'-imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6 * +EC3.1.3.31 5'-imp uncultured marine bacterium//*//* 0.089 * +EC3.1.3.31 5'-tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.1.3.31 5'-tmp uncultured marine bacterium//*//* 0.044 * +EC3.1.3.31 5'-ump elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.013 * +EC3.1.3.31 5'-ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC3.1.3.31 5'-ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.1.3.31 5'-ump oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 95.0 * +EC3.1.3.31 5'-ump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.05 * +EC3.1.3.31 adp helix aspersa//*//* 0.726 * +EC3.1.3.31 adp uncultured marine bacterium//*//* 0.057 * +EC3.1.3.31 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.44 * +EC3.1.3.31 atp helix aspersa//*//* 0.173 * +EC3.1.3.31 atp uncultured marine bacterium//*//* 0.053 * +EC3.1.3.31 cdp uncultured marine bacterium//*//* 0.093 * +EC3.1.3.31 ctp uncultured marine bacterium//*//* 0.058 * +EC3.1.3.31 cyclic 3',5'-dtmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC3.1.3.31 d-ribose-5-phosphate elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.534 * +EC3.1.3.31 datp uncultured marine bacterium//*//* 0.076 * +EC3.1.3.31 dctp uncultured marine bacterium//*//* 0.084 * +EC3.1.3.31 dgtp uncultured marine bacterium//*//* 0.041 * +EC3.1.3.31 gdp uncultured marine bacterium//*//* 0.035 * +EC3.1.3.31 glycerol 2-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC3.1.3.31 gtp uncultured marine bacterium//*//* 0.03 * +EC3.1.3.31 idp uncultured marine bacterium//*//* 0.052 * +EC3.1.3.31 itp uncultured marine bacterium//*//* 0.066 * +EC3.1.3.31 p-nitrophenyl phosphate elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.18 * +EC3.1.3.31 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.3.31 p-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.1.3.31 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.1.3.31 tdp uncultured marine bacterium//*//* 0.032 * +EC3.1.3.31 ttp uncultured marine bacterium//*//* 0.085 * +EC3.1.3.32 3'-phospho-5'-hydroxy-dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.79e-05 * +EC3.1.3.32 3'-phosphopolynucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.548 * +EC3.1.3.32 3'-tmp rhodothermus phage rm378//*//* 0.006 * +EC3.1.3.32 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.069 * +EC3.1.3.32 bis-p-nitrophenyl phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 6.3 * +EC3.1.3.32 camp rhodothermus phage rm378//*//* 0.7 * +EC3.1.3.32 dna with 5'-hydroxyl ends rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC3.1.3.32 p-nitrophenyl phenylphosphonate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 67.0 * +EC3.1.3.32 p-nitrophenyl phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 12.0 * +EC3.1.3.34 deoxythymidine 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC3.1.3.35 deoxy-5-methyl-cmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.0 * +EC3.1.3.35 dgmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.7 * +EC3.1.3.35 dtmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.01 * +EC3.1.3.35 dtmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 73.39 * +EC3.1.3.35 dump bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.8 * +EC3.1.3.36 1d-myo-inositol 1,4,5-trisphosphate rhodnius prolixus//*//* 0.421 * +EC3.1.3.36 inositol 1,3,4,5-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.1.3.36 inositol 1,4,5-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.123 * +EC3.1.3.36 phosphatidyl-myo-inositol 4,5-bisphosphate cavia porcellus//*//* 0.143 * +EC3.1.3.36 phosphatidyl-myo-inositol 4,5-bisphosphate crithidia fasciculata//*//* 0.24 * +EC3.1.3.36 phosphatidyl-myo-inositol 4,5-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.1.3.37 fructose 1,6-diphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.38 * +EC3.1.3.37 sedoheptulose 1,7-bisphosphate cyberlindnera jadinii//*//* 1.0 * +EC3.1.3.37 sedoheptulose 1,7-bisphosphate pisum sativum//*//* 0.013 * +EC3.1.3.37 sedoheptulose 1,7-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.24 * +EC3.1.3.37 sedoheptulose 1,7-bisphosphate triticum aestivum//*//* 0.013 * +EC3.1.3.37 sedoheptulose 1,7-diphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.05 * +EC3.1.3.37 sedoheptulose 1,7-diphosphate triticum aestivum//*//* 0.0175 * +EC3.1.3.38 3-phosphoglycerate saccharum sp.//*//* 0.28 * +EC3.1.3.38 3-phosphoglycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.9 * +EC3.1.3.4 1,2-diacyl-sn-glycerol-3-phosphate momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 0.5954 * +EC3.1.3.4 1-arachidonoyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC3.1.3.4 1-myristoyl-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.1.3.4 1-oleoyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.1.3.4 1-palmitoyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.1.3.4 1-stearoyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC3.1.3.4 1-stearyl-2-lyso-sn-glycerol 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.1.3.4 2-(4,4-difluoro-5,7-dimethyl-4-bora-3a,4a-diaza-s-indacene-3-pentanoyl)-1-hexadecanoyl-sn-glycero-3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.1.3.4 dioctanoyl phosphatidic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.3.4 phosphatidic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.67 * +EC3.1.3.4 phosphatidic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.1.3.4 phosphatidic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC3.1.3.4 phosphatidic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC3.1.3.41 4-nitrophenyl phosphate macrobrachium olfersii//*//* 1.31 * +EC3.1.3.41 k+ macrobrachium olfersii//*//* 1.33 * +EC3.1.3.41 mg2+ macrobrachium olfersii//*//* 2.09 * +EC3.1.3.41 nh4+ macrobrachium olfersii//*//* 11.4 * +EC3.1.3.43 [pyruvate dehydrogenase (lipoamide)]-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0029 * +EC3.1.3.43 [pyruvate dehydrogenase (lipoamide)]-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC3.1.3.43 [pyruvate dehydrogenase (lipoamide)]-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0076 * +EC3.1.3.43 p-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 29.3 * +EC3.1.3.43 peptide t-1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.625 * +EC3.1.3.43 peptide t-2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC3.1.3.43 peptide t-3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.106 * +EC3.1.3.43 rras(p)va bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.053 * +EC3.1.3.43 rrat(p)va bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC3.1.3.44 [acetyl-coa carboxylase]-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002 * +EC3.1.3.44 [glycogen phosphorylase a]-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC3.1.3.44 [phosphorylase a]-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0055 * +EC3.1.3.44 p-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.34 * +EC3.1.3.44 phosphohistone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.1.3.44 phosphoprotamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC3.1.3.45 2-oxo-3-deoxy-d-manno-octulosonate 8-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0001 * +EC3.1.3.45 2-oxo-3-deoxy-d-manno-octulosonate 8-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.16 * +EC3.1.3.45 3-deoxy-d-manno-octulosonate 8-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.058 * +EC3.1.3.45 kdn 9-phosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0009 * +EC3.1.3.45 kdn 9-phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.6 * +EC3.1.3.46 beta-d-fructose 2,6-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0102 * +EC3.1.3.46 d-fructose 2,6-bisphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00013 * +EC3.1.3.46 d-fructose-1,6-bisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.8e-05 * +EC3.1.3.46 fructose 2,6-bisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.021 * +EC3.1.3.46 fructose 2,6-bisphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0001 * +EC3.1.3.46 fructose 2,6-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.1.3.46 fructose 2,6-bisphosphate pelophylax esculentus//*//* 0.0004 * +EC3.1.3.46 fructose 2,6-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC3.1.3.46 fructose 2,6-bisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC3.1.3.46 fructose 2,6-bisphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0001 * +EC3.1.3.46 fructose 2,6-bisphosphate vigna radiata var. radiata//*//* 0.36 * +EC3.1.3.46 fructose 2,6-bisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.25 * +EC3.1.3.47 [hydroxymethylglutaryl-coa reductase]-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.5e-06 * +EC3.1.3.48 1-naphthyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.19 * +EC3.1.3.48 3,6-fluorescein diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.1.3.48 3-o-methylfluorescein phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.16 * +EC3.1.3.48 4,6,8-trimethyl-2-oxo-2h-chromen-7-yl dihydrogen phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.3.48 4,6,8-trimethyl-2-oxo-2h-chromen-7-yl dihydrogen phosphate yersinia sp.//*//* 0.115 * +EC3.1.3.48 4-methylumbelliferyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.953 * +EC3.1.3.48 4-nitrophenyl phosphate acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 5.0 * +EC3.1.3.48 4-nitrophenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.345 * +EC3.1.3.48 4-nitrophenyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC3.1.3.48 4-nitrophenyl phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 25.0 * +EC3.1.3.48 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.1.3.48 4-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC3.1.3.48 4-nitrophenyl phosphate shewanella sp.//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//she 0.28 * +EC3.1.3.48 4-nitrophenyl phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.2 * +EC3.1.3.48 4-nitrophenyl phosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00485 * +EC3.1.3.48 4-nitrophenyl phosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.53 * +EC3.1.3.48 4-nitrophenyl phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 12.7 * +EC3.1.3.48 4-nitrophenyl phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 3.0 * +EC3.1.3.48 4-nitrophenyl phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0008 * +EC3.1.3.48 4-nitrophenyl phosphate yersinia enterocolitica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yen 0.89 * +EC3.1.3.48 6,8-difluoro-4-methylumbelliferyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC3.1.3.48 aaaaapyrhrr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.1.3.48 acetyl-dadepy-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0228 * +EC3.1.3.48 acetyl-dadepyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.1.3.48 adedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.1.3.48 akfedtpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC3.1.3.48 arkripyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.1.3.48 avwefpypyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC3.1.3.48 awspyadpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.1.3.48 aytepytpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.1.3.48 bovine serum albumin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC3.1.3.48 carboxyamidomethylated and maleylated lysozyme synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00045 * +EC3.1.3.48 casein synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00044 * +EC3.1.3.48 cdk2-ptpy/cyca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.1.3.48 dadepylipqqg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.1.3.48 daedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.1.3.48 ddt-(3,5-difluoro)ydpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.3.48 ddtydpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.3.48 dfedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.1.3.48 difluoromethylumbelliferyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC3.1.3.48 dnl-(3,5-difluoro)ypywd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.1.3.48 dnlypywd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC3.1.3.48 drvpyihpfhl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.118 * +EC3.1.3.48 dwedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.1.3.48 eadtapyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.3.48 eifdfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.1.3.48 fdedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.1.3.48 fdidipyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.3.48 fluorescein diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.1.3.48 fydidpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.1.3.48 gesdggpymdmskd homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC3.1.3.48 gngdpympmspks homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC3.1.3.48 inositol hexakisphosphate bdellovibrio bacteriovorus//prokaryotes;bacteria;deltaproteobacteria;bdellovibrio//bba 0.574 * +EC3.1.3.48 insulin receptor phosphopeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.1.3.48 krliedne(py)targq bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.054 * +EC3.1.3.48 liednepytarqga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.1.3.48 lysozyme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC3.1.3.48 myelin basic protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC3.1.3.48 myelin basic protein synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0063 * +EC3.1.3.48 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.1.3.48 phenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.04 * +EC3.1.3.48 phosphotyrosine acinetobacter johnsonii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//ajo 30.0 * +EC3.1.3.48 phosphotyrosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC3.1.3.48 phosphotyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.1.3.48 phosphotyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.1.3.48 phosphotyrosine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.7 * +EC3.1.3.48 phosphotyrosyl bovine serum albumin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.1.3.48 platelet-derived growth factor receptor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC3.1.3.48 raytide peptide trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 2.5e-06 * +EC3.1.3.48 re-(3,5-difluoro)yefpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.3.48 reyefpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.1.3.48 rristpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.1.3.48 sasaspydwef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.1.3.48 sasaspysasa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.1.3.48 tatepqpyqpgen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC3.1.3.48 tevgkri(py)rlvgdkn sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.53 * +EC3.1.3.48 tgfltelpyvatrwy homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.1.3.48 tstepqpyqpgenl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.142 * +EC3.1.3.48 wagddpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC3.1.3.48 wdedfpyaa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.1.3.48 wdedfpydwef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.1.3.48 wdedfpyrwkf homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.1.3.48 wdedfpysasa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.1.3.48 wrkrfpydwef homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.1.3.5 1,n6-ethenoadenosine 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC3.1.3.5 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.3.5 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC3.1.3.5 3-beta-ribofuranosyladenine 5'-monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.1.3.5 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.713 * +EC3.1.3.5 4-nitrophenyl phosphate xylella fastidiosa//prokaryotes;bacteria;gammaproteobacteria - others;xylella//xfa 0.224 * +EC3.1.3.5 5'-amp arachis hypogaea//*//* 0.58 * +EC3.1.3.5 5'-amp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0153 * +EC3.1.3.5 5'-amp cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 0.12 * +EC3.1.3.5 5'-amp cavia porcellus//*//* 0.019 * +EC3.1.3.5 5'-amp columba livia//eukaryotes;animals;vertebrates;birds//clv 0.29 * +EC3.1.3.5 5'-amp crocodylus siamensis//*//* 13.6 * +EC3.1.3.5 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0129 * +EC3.1.3.5 5'-amp gadus macrocephalus//*//* 0.0067 * +EC3.1.3.5 5'-amp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 6.3 * +EC3.1.3.5 5'-amp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.06 * +EC3.1.3.5 5'-amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.1.3.5 5'-amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0119 * +EC3.1.3.5 5'-amp mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 0.001 * +EC3.1.3.5 5'-amp mycoplasma fermentans//prokaryotes;bacteria;tenericutes;mycoplasma//mfr 0.0018 * +EC3.1.3.5 5'-amp mycoplasma pulmonis//prokaryotes;bacteria;tenericutes;mycoplasma//mpu 0.00063 * +EC3.1.3.5 5'-amp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.13 * +EC3.1.3.5 5'-amp oncorhynchus masou//*//* 4.8 * +EC3.1.3.5 5'-amp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.2 * +EC3.1.3.5 5'-amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0056 * +EC3.1.3.5 5'-amp rhipicephalus microplus//*//* 0.0003 * +EC3.1.3.5 5'-amp salvator rufescens//*//* 7.1 * +EC3.1.3.5 5'-amp sebastes inermis//*//* 0.021 * +EC3.1.3.5 5'-amp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.055 * +EC3.1.3.5 5'-amp torpedo marmorata//*//* 0.038 * +EC3.1.3.5 5'-amp trichinella spiralis//eukaryotes;animals;nematodes//tsp 0.162 * +EC3.1.3.5 5'-amp tritrichomonas suis//*//* 0.49 * +EC3.1.3.5 5'-amp varanus gouldii//*//* 7.3 * +EC3.1.3.5 5'-amp zea mays//eukaryotes;plants;monocots;grass family//zma 0.0577 * +EC3.1.3.5 5'-cmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0631 * +EC3.1.3.5 5'-cmp cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 0.4 * +EC3.1.3.5 5'-cmp cavia porcellus//*//* 0.36 * +EC3.1.3.5 5'-cmp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 4.5 * +EC3.1.3.5 5'-cmp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.2 * +EC3.1.3.5 5'-cmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.1.3.5 5'-cmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC3.1.3.5 5'-cmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC3.1.3.5 5'-cmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3 * +EC3.1.3.5 5'-cmp sebastes inermis//*//* 0.207 * +EC3.1.3.5 5'-cmp zea mays//eukaryotes;plants;monocots;grass family//zma 0.3333 * +EC3.1.3.5 5'-damp cavia porcellus//*//* 0.05 * +EC3.1.3.5 5'-damp columba livia//eukaryotes;animals;vertebrates;birds//clv 2.0 * +EC3.1.3.5 5'-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC3.1.3.5 5'-damp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.1.3.5 5'-damp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.125 * +EC3.1.3.5 5'-damp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC3.1.3.5 5'-damp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.077 * +EC3.1.3.5 5'-dcmp columba livia//eukaryotes;animals;vertebrates;birds//clv 0.04 * +EC3.1.3.5 5'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC3.1.3.5 5'-dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.1.3.5 5'-dcmp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.15 * +EC3.1.3.5 5'-dcmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC3.1.3.5 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC3.1.3.5 5'-dgmp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.4 * +EC3.1.3.5 5'-dgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC3.1.3.5 5'-dgmp legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 142.0 * +EC3.1.3.5 5'-dgmp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.083 * +EC3.1.3.5 5'-dgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.1.3.5 5'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC3.1.3.5 5'-dimp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.1.3.5 5'-dimp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.1.3.5 5'-dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.1.3.5 5'-dtmp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.015 * +EC3.1.3.5 5'-dtmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC3.1.3.5 5'-dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.1.3.5 5'-dump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.1.3.5 5'-gmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0416 * +EC3.1.3.5 5'-gmp cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 0.4 * +EC3.1.3.5 5'-gmp cavia porcellus//*//* 0.059 * +EC3.1.3.5 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC3.1.3.5 5'-gmp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.14 * +EC3.1.3.5 5'-gmp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.55 * +EC3.1.3.5 5'-gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC3.1.3.5 5'-gmp legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 7.2 * +EC3.1.3.5 5'-gmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.32 * +EC3.1.3.5 5'-gmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0064 * +EC3.1.3.5 5'-gmp sebastes inermis//*//* 0.178 * +EC3.1.3.5 5'-gmp zea mays//eukaryotes;plants;monocots;grass family//zma 0.0571 * +EC3.1.3.5 5'-imp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0519 * +EC3.1.3.5 5'-imp cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 0.18 * +EC3.1.3.5 5'-imp cavia porcellus//*//* 0.1 * +EC3.1.3.5 5'-imp columba livia//eukaryotes;animals;vertebrates;birds//clv 1.67 * +EC3.1.3.5 5'-imp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC3.1.3.5 5'-imp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.11 * +EC3.1.3.5 5'-imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC3.1.3.5 5'-imp legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 18.0 * +EC3.1.3.5 5'-imp oncorhynchus masou//*//* 0.41 * +EC3.1.3.5 5'-imp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC3.1.3.5 5'-imp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC3.1.3.5 5'-imp sebastes inermis//*//* 0.061 * +EC3.1.3.5 5'-imp zea mays//eukaryotes;plants;monocots;grass family//zma 0.0816 * +EC3.1.3.5 5'-inosinic acid crocodylus siamensis//*//* 0.83 * +EC3.1.3.5 5'-inosinic acid salvator rufescens//*//* 0.41 * +EC3.1.3.5 5'-inosinic acid varanus gouldii//*//* 0.58 * +EC3.1.3.5 5'-tmp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.73 * +EC3.1.3.5 5'-tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.1.3.5 5'-tmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.02 * +EC3.1.3.5 5'-tmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC3.1.3.5 5'-ump bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0745 * +EC3.1.3.5 5'-ump cavia porcellus//*//* 0.11 * +EC3.1.3.5 5'-ump gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.5 * +EC3.1.3.5 5'-ump helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.91 * +EC3.1.3.5 5'-ump homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.3.5 5'-ump pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.39 * +EC3.1.3.5 5'-ump rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC3.1.3.5 5'-ump saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC3.1.3.5 5'-ump sebastes inermis//*//* 0.131 * +EC3.1.3.5 5'-ump zea mays//eukaryotes;plants;monocots;grass family//zma 0.2 * +EC3.1.3.5 5'-xmp cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 0.77 * +EC3.1.3.5 5'-xmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.1.3.5 5'-xmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC3.1.3.5 6-chloropurine ribonucleoside 5'-monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.1.3.5 9-beta-d-arabinosyl-2-fluoroadenine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.1.3.5 adenosine 5'-o-thiophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.1.3.5 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0547 * +EC3.1.3.5 adp rhipicephalus microplus//*//* 9e-05 * +EC3.1.3.5 amp dosidicus gigas//*//* 1.49 * +EC3.1.3.5 amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0091 * +EC3.1.3.5 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.1.3.5 amp trichomonas gallinae//*//* 0.466 * +EC3.1.3.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0209 * +EC3.1.3.5 atp rhipicephalus microplus//*//* 0.0001 * +EC3.1.3.5 bis-p-nitrophenyl phosphate rhipicephalus microplus//*//* 0.28 * +EC3.1.3.5 dcmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC3.1.3.5 dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.1.3.5 imp dosidicus gigas//*//* 6.34 * +EC3.1.3.5 inosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.1.3.5 mgamp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.135 * +EC3.1.3.5 p-nitrophenyl phenylphosphonate rhipicephalus microplus//*//* 0.87 * +EC3.1.3.5 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.09 * +EC3.1.3.5 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.1.3.5 ribavirin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC3.1.3.50 d-sorbitol-6-phosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.85 * +EC3.1.3.51 c95-dolichyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.045 * +EC3.1.3.51 dolichyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC3.1.3.51 dolichyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.005 * +EC3.1.3.51 dolichyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.3.51 dolichyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.1.3.51 dolichyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC3.1.3.53 [myosin light-chain] phosphate physarum polycephalum//*//* 0.01 * +EC3.1.3.53 heavy meromyosin meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0059 * +EC3.1.3.53 myosin light-chain phosphate mammalia//*//* 0.00103 * +EC3.1.3.53 myosin light-chain meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0015 * +EC3.1.3.53 phosphorylated myosin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00045 * +EC3.1.3.54 d-fructose 2,6-bisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.006 * +EC3.1.3.55 caldesmon meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0019 * +EC3.1.3.55 calponin meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0143 * +EC3.1.3.56 d-myo-inositol 1,3,4,5-tetrakisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC3.1.3.56 d-myo-inositol 1,3,4,5-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.1.3.56 d-myo-inositol 1,3,4,5-tetrakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC3.1.3.56 d-myo-inositol 1,3,4,5-tetrakisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.016 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.032 * +EC3.1.3.56 d-myo-inositol 1,4,5-trisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0089 * +EC3.1.3.57 inositol 1,3,4-trisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.1.3.57 inositol 1,4-bisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC3.1.3.57 inositol 1,4-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC3.1.3.58 erythrose 4-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.1526 * +EC3.1.3.58 fructose 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.2 * +EC3.1.3.59 1-alkyl-2-acetyl-sn-glycero-3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0318 * +EC3.1.3.59 1-alkyl-2-acetyl-sn-glycero-3-phosphate tetrahymena pyriformis//*//* 0.032 * +EC3.1.3.6 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.3.6 3'-amp leishmania amazonensis//*//* 0.07 * +EC3.1.3.6 3'-amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.16 * +EC3.1.3.6 3'-amp lolium multiflorum//*//* 0.12 * +EC3.1.3.6 3'-amp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0005 * +EC3.1.3.6 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC3.1.3.6 3'-cmp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.2 * +EC3.1.3.6 3'-gmp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.072 * +EC3.1.3.6 3'-imp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.28 * +EC3.1.3.6 3'-ump solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 5.0 * +EC3.1.3.6 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC3.1.3.6 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.1.3.6 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC3.1.3.6 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.49 * +EC3.1.3.6 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.1.3.60 2,3 diphosphoglycerate brassica nigra//*//* 0.5 * +EC3.1.3.60 3-phosphoglycerate brassica nigra//*//* 1.21 * +EC3.1.3.60 4-nitrophenyl phosphate allium cepa//*//* 1.6 * +EC3.1.3.60 4-nitrophenyl phosphate brassica nigra//*//* 0.57 * +EC3.1.3.60 adp allium cepa//*//* 2.69 * +EC3.1.3.60 adp brassica nigra//*//* 0.74 * +EC3.1.3.60 atp allium cepa//*//* 1.51 * +EC3.1.3.60 atp brassica nigra//*//* 0.5 * +EC3.1.3.60 d-gluconate 6-phosphate brassica nigra//*//* 0.59 * +EC3.1.3.60 d-glucose 1-phosphate brassica nigra//*//* 0.24 * +EC3.1.3.60 d-glucose 6-phosphate allium cepa//*//* 1.47 * +EC3.1.3.60 d-glucose 6-phosphate brassica nigra//*//* 2.01 * +EC3.1.3.60 phosphoenolpyruvate allium cepa//*//* 0.44 * +EC3.1.3.60 phosphoenolpyruvate brassica nigra//*//* 0.05 * +EC3.1.3.60 phosphoenolpyruvate brassica rapa subsp. campestris//*//* 0.08 * +EC3.1.3.60 phosphoenolpyruvate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.14 * +EC3.1.3.60 phytic acid allium cepa//*//* 1.36 * +EC3.1.3.60 phytic acid brassica nigra//*//* 0.82 * +EC3.1.3.62 d-myo-inositol 1,3,4,5-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.1.3.62 d-myo-inositol 1,3,4,5-tetrakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00013 * +EC3.1.3.62 d-myo-inositol 1,3,4,5-tetrakisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0004 * +EC3.1.3.62 inositol 1,3,4,5,6-pentakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4e-05 * +EC3.1.3.62 inositol hexakisphosphate hordeum vulgare//*//* 0.334 * +EC3.1.3.62 inositol hexakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3e-07 * +EC3.1.3.62 inositol hexakisphosphate triticum aestivum//*//* 0.246 * +EC3.1.3.62 myo-inositol hexakisphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.14 * +EC3.1.3.62 scyllo-inositol hexakisphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.74 * +EC3.1.3.63 2-carboxyarabinitol 1,5-bisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.2 * +EC3.1.3.63 2-carboxyarabinitol 1-phosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.033 * +EC3.1.3.63 2-carboxyarabinitol 1-phosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.43 * +EC3.1.3.64 inositol 1,3-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0008 * +EC3.1.3.66 d-myo-inositol 1,3,4-trisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.1.3.66 d-myo-inositol 1,3,4-trisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.034 * +EC3.1.3.66 d-myo-inositol 3,4-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.1.3.66 d-myo-inositol 3,4-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.039 * +EC3.1.3.67 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 25.6 * +EC3.1.3.67 inositol 1,3,4,5-tetrakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0989 * +EC3.1.3.67 phosphatidylinositol 3,4-bisphosphate ciona intestinalis//eukaryotes;animals;ascidians//cin 0.02 * +EC3.1.3.68 2-deoxy-d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.0 * +EC3.1.3.7 2'-deoxyadenosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0102 * +EC3.1.3.7 2'-deoxycytidine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.026 * +EC3.1.3.7 2'-deoxyguanosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0052 * +EC3.1.3.7 2'-deoxythymidine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.022 * +EC3.1.3.7 2'-deoxyuridine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.029 * +EC3.1.3.7 3'-phosphoadenosine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00025 * +EC3.1.3.7 5'-adp arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 41.5 * +EC3.1.3.7 5'-phosphoadenylyl-(3'->5')-adenosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0016 * +EC3.1.3.7 adenosine 2',5'-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.1.3.7 adenosine 2',5'-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.1.3.7 adenosine 3',5'-bisphosphate arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 1.03 * +EC3.1.3.7 adenosine 3',5'-bisphosphate auxenochlorella pyrenoidosa//*//* 0.24 * +EC3.1.3.7 adenosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0015 * +EC3.1.3.7 adenosine 3',5'-bisphosphate debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.01704 * +EC3.1.3.7 adenosine 3',5'-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.1.3.7 adenosine 3',5'-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.1.3.7 adenosine 3',5'-bisphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.000475 * +EC3.1.3.7 adenosine 3',5'-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0081 * +EC3.1.3.7 adenosine 3',5'-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.1.3.7 adenosine 3',5'-bisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.033 * +EC3.1.3.7 adenosine 3'-phosphate 5'-phosphosulfate arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.61 * +EC3.1.3.7 adenosine 3'-phosphate 5'-phosphosulfate auxenochlorella pyrenoidosa//*//* 0.25 * +EC3.1.3.7 adenosine 3'-phosphate 5'-phosphosulfate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.1 * +EC3.1.3.7 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.17 * +EC3.1.3.7 d-fructose 1,6-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.566 * +EC3.1.3.7 d-myo-inositol monophosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 7.11 * +EC3.1.3.7 guanosine 2',5'-bisphosphate auxenochlorella pyrenoidosa//*//* 0.2 * +EC3.1.3.7 guanosine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0173 * +EC3.1.3.7 guanosine-3',5'-bisphosphate auxenochlorella pyrenoidosa//*//* 0.25 * +EC3.1.3.7 inositol 1,3,4-trisphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC3.1.3.7 inositol 1,4-bisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC3.1.3.7 inositol 1,4-bisphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.113 * +EC3.1.3.7 inositol 1,4-bisphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.077 * +EC3.1.3.7 inositol-1,4-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.1.3.7 n6-methyl-5'-phosphoadenylyl-(3'->5')-adenosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0054 * +EC3.1.3.7 nadp+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.7 * +EC3.1.3.7 nadph escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.13 * +EC3.1.3.7 thymidine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0093 * +EC3.1.3.7 uridine 3',5'-bisphosphate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.0088 * +EC3.1.3.70 2(alpha-d-mannosyl)-3-phosphoglycerate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.134 * +EC3.1.3.71 (r)-phosphomalate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.011 * +EC3.1.3.71 (s)-phospholactate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.148 * +EC3.1.3.71 (s)-phosphomalate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.009 * +EC3.1.3.71 phosphoglycolate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.034 * +EC3.1.3.71 rac-phosphosulfolactate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.063 * +EC3.1.3.72 myo-inositol-1,2,3,4,5,6-hexakisphosphate lilium longiflorum//*//* 0.0072 * +EC3.1.3.72 na-phytate sporolactobacillus laevolacticus//*//* 0.526 * +EC3.1.3.72 p-nitrophenyl phosphate lilium longiflorum//*//* 0.372 * +EC3.1.3.73 alpha-ribazole 5'-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.07 * +EC3.1.3.73 p-nitrophenol phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.5 * +EC3.1.3.75 o-phosphoethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.1.3.75 p-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.0 * +EC3.1.3.75 phosphocholine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.44 * +EC3.1.3.75 phosphocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0114 * +EC3.1.3.75 phosphocholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC3.1.3.75 phosphoethanolamine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.16 * +EC3.1.3.76 4-nitrophenyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.1.3.77 2,3-diketo-1-phosphohexane klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.077 * +EC3.1.3.77 2-hydroxy-3-keto-1-phospho-1-hexene klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0071 * +EC3.1.3.8 1-l-myo-inositol 1,2,3,4,5-pentakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.49 * +EC3.1.3.8 1-l-myo-inositol 1,2,3,5,6-pentakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.51 * +EC3.1.3.8 1-naphthyl phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.8 * +EC3.1.3.8 1-naphthyl phosphate corylus avellana//*//* 1.6 * +EC3.1.3.8 1-naphthyl phosphate lupinus albus//*//* 0.49 * +EC3.1.3.8 1-naphthyl phosphate raoultella terrigena//*//* 250.0 * +EC3.1.3.8 2-glycerophosphate lupinus albus//*//* 0.667 * +EC3.1.3.8 2-naphthyl phosphate lupinus albus//*//* 0.512 * +EC3.1.3.8 2-naphthyl phosphate raoultella terrigena//*//* 230.0 * +EC3.1.3.8 4-nitrophenyl phosphate aspergillus ficuum//*//* 0.265 * +EC3.1.3.8 4-nitrophenyl phosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.38 * +EC3.1.3.8 4-nitrophenyl phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.93 * +EC3.1.3.8 4-nitrophenyl phosphate corylus avellana//*//* 2.2 * +EC3.1.3.8 4-nitrophenyl phosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 4.3 * +EC3.1.3.8 4-nitrophenyl phosphate lupinus albus//*//* 0.123 * +EC3.1.3.8 4-nitrophenyl phosphate penicillium parvum//*//* 10.1 * +EC3.1.3.8 4-nitrophenyl phosphate raoultella terrigena//*//* 120.0 * +EC3.1.3.8 4-nitrophenylphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.703 * +EC3.1.3.8 5'-atp corylus avellana//*//* 0.55 * +EC3.1.3.8 adp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.5 * +EC3.1.3.8 adp lupinus albus//*//* 0.398 * +EC3.1.3.8 adp raoultella terrigena//*//* 90.0 * +EC3.1.3.8 amp lupinus albus//*//* 0.315 * +EC3.1.3.8 amp raoultella terrigena//*//* 95.0 * +EC3.1.3.8 atp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.75 * +EC3.1.3.8 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.7 * +EC3.1.3.8 atp lupinus albus//*//* 0.412 * +EC3.1.3.8 atp papiliotrema laurentii//*//* 0.07 * +EC3.1.3.8 atp raoultella terrigena//*//* 55.0 * +EC3.1.3.8 calcium myo-inositol hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.45 * +EC3.1.3.8 d-fructose 1,6-bisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 2.2 * +EC3.1.3.8 d-fructose 1,6-diphosphate corylus avellana//*//* 1.1 * +EC3.1.3.8 d-fructose 1,6-diphosphate lupinus albus//*//* 0.359 * +EC3.1.3.8 d-fructose 1,6-diphosphate papiliotrema laurentii//*//* 0.14 * +EC3.1.3.8 d-fructose 1-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 1.9 * +EC3.1.3.8 d-fructose 6-phosphate lupinus albus//*//* 0.478 * +EC3.1.3.8 d-glucose 1-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.26 * +EC3.1.3.8 d-glucose 1-phosphate papiliotrema laurentii//*//* 0.28 * +EC3.1.3.8 d-glucose 6-phosphate corylus avellana//*//* 2.3 * +EC3.1.3.8 d-glucose 6-phosphate lupinus albus//*//* 0.302 * +EC3.1.3.8 d-glucose 6-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 1.3 * +EC3.1.3.8 d-glucose 6-phosphate papiliotrema laurentii//*//* 0.27 * +EC3.1.3.8 d-ribose 5-phosphate corylus avellana//*//* 1.2 * +EC3.1.3.8 d-ribose 5-phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 9.8 * +EC3.1.3.8 di-sodium phenyl phosphate dihydrate papiliotrema laurentii//*//* 0.17 * +EC3.1.3.8 diphosphate lupinus albus//*//* 0.445 * +EC3.1.3.8 dodecasodium myo-inositol hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.44 * +EC3.1.3.8 fructose 1,6-diphosphate lupinus albus//*//* 0.229 * +EC3.1.3.8 fructose 1,6-diphosphate raoultella terrigena//*//* 18.0 * +EC3.1.3.8 fructose 6-phosphate raoultella terrigena//*//* 56.0 * +EC3.1.3.8 glucose 6-phosphate raoultella terrigena//*//* 20.0 * +EC3.1.3.8 glycerol 2-phosphate raoultella terrigena//*//* 110.0 * +EC3.1.3.8 gtp lupinus albus//*//* 0.217 * +EC3.1.3.8 inositol diphosphate klebsiella sp.//*//* 2.0 * +EC3.1.3.8 inositol monophosphate klebsiella sp.//*//* 2.0 * +EC3.1.3.8 inositol pentaphosphate klebsiella sp.//*//* 2.0 * +EC3.1.3.8 inositol tetraphosphate klebsiella sp.//*//* 2.0 * +EC3.1.3.8 inositol triphosphate klebsiella sp.//*//* 2.0 * +EC3.1.3.8 myo-inositol hexakisphosphate disodium salt aspergillus japonicus//*//* 0.14 * +EC3.1.3.8 myo-inositol hexakisphosphate disodium salt aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.15 * +EC3.1.3.8 myo-inositol hexakisphosphate sodium salt aspergillus japonicus//*//* 0.08 * +EC3.1.3.8 myo-inositol hexakisphosphate sodium salt aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.16 * +EC3.1.3.8 myo-inositol hexakisphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.278 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus carbonarius//*//* 0.35 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus ficuum//*//* 0.027 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus flavipes//*//* 0.63 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.03 * +EC3.1.3.8 myo-inositol hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.034 * +EC3.1.3.8 myo-inositol hexakisphosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.05 * +EC3.1.3.8 myo-inositol hexakisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC3.1.3.8 myo-inositol hexakisphosphate blastobotrys adeninivorans//*//* 0.25 * +EC3.1.3.8 myo-inositol hexakisphosphate citrobacter braakii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cbra 0.46 * +EC3.1.3.8 myo-inositol hexakisphosphate citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.25 * +EC3.1.3.8 myo-inositol hexakisphosphate corylus avellana//*//* 0.16 * +EC3.1.3.8 myo-inositol hexakisphosphate cyberlindnera rhodanensis//*//* 0.25 * +EC3.1.3.8 myo-inositol hexakisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.074 * +EC3.1.3.8 myo-inositol hexakisphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.061 * +EC3.1.3.8 myo-inositol hexakisphosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.062 * +EC3.1.3.8 myo-inositol hexakisphosphate klebsiella sp.//*//* 2.0 * +EC3.1.3.8 myo-inositol hexakisphosphate kodamaea ohmeri//*//* 1.45 * +EC3.1.3.8 myo-inositol hexakisphosphate lupinus albus//*//* 0.08 * +EC3.1.3.8 myo-inositol hexakisphosphate macrophomina phaseolina//*//* 0.91 * +EC3.1.3.8 myo-inositol hexakisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0139 * +EC3.1.3.8 myo-inositol hexakisphosphate obesumbacterium proteus//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;obesumbacterium//opo 0.34 * +EC3.1.3.8 myo-inositol hexakisphosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.34 * +EC3.1.3.8 myo-inositol hexakisphosphate papiliotrema laurentii//*//* 0.021 * +EC3.1.3.8 myo-inositol hexakisphosphate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.252 * +EC3.1.3.8 myo-inositol hexakisphosphate pectobacterium wasabiae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pws 0.17 * +EC3.1.3.8 myo-inositol hexakisphosphate penicillium parvum//*//* 0.58 * +EC3.1.3.8 myo-inositol hexakisphosphate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.016 * +EC3.1.3.8 myo-inositol hexakisphosphate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.38 * +EC3.1.3.8 myo-inositol hexakisphosphate raoultella terrigena//*//* 0.3 * +EC3.1.3.8 myo-inositol hexakisphosphate rhizopus microsporus var. oligosporus//*//* 0.0104 * +EC3.1.3.8 myo-inositol hexakisphosphate saccharomyces sp.//*//* 2.1 * +EC3.1.3.8 myo-inositol hexakisphosphate scheffersomyces spartinae//*//* 0.33 * +EC3.1.3.8 myo-inositol hexakisphosphate schizophyllum commune//eukaryotes;fungi;basidiomycetes//scm 0.16 * +EC3.1.3.8 myo-inositol hexakisphosphate schwanniomyces capriottii//*//* 0.24 * +EC3.1.3.8 myo-inositol hexakisphosphate schwanniomyces castellii//*//* 0.04 * +EC3.1.3.8 myo-inositol hexakisphosphate schwanniomyces occidentalis//*//* 0.038 * +EC3.1.3.8 myo-inositol hexakisphosphate wickerhamomyces anomalus//*//* 0.2 * +EC3.1.3.8 myo-inositol hexakisphosphate yersinia kristensenii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ykr 0.078 * +EC3.1.3.8 myo-inositol hexakisphosphate yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.196 * +EC3.1.3.8 myo-inositol hexakisphosphate yersinia rohdei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yro 0.206 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.52 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.191 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.42 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate rhizopus microsporus var. oligosporus//*//* 0.13 * +EC3.1.3.8 myo-inositol-1,2,3,4,5,6-hexakisphosphate wickerhamomyces anomalus//*//* 0.2 * +EC3.1.3.8 na2h2pyrophosphate raoultella terrigena//*//* 78.0 * +EC3.1.3.8 nadp+ raoultella terrigena//*//* 6.0 * +EC3.1.3.8 o-phospho-l-serine lupinus albus//*//* 0.74 * +EC3.1.3.8 p-nitrophenyl phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 18.16 * +EC3.1.3.8 p-nitrophenyl phosphate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 12.4 * +EC3.1.3.8 p-nitrophenyl phosphate papiliotrema laurentii//*//* 0.52 * +EC3.1.3.8 p-nitrophenyl phosphate schwanniomyces capriottii//*//* 2.27 * +EC3.1.3.8 phosphate corylus avellana//*//* 2.4 * +EC3.1.3.8 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.801 * +EC3.1.3.8 phytate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.087 * +EC3.1.3.8 phytate bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.138 * +EC3.1.3.8 phytate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.1.3.8 phytate serratia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srs 0.14 * +EC3.1.3.8 polyphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.3 * +EC3.1.3.8 pyridoxal phosphate lupinus albus//*//* 0.776 * +EC3.1.3.80 2,3-bisphospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC3.1.3.82 d-fructose 1,6-bisphosphate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.68 * +EC3.1.3.82 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.1.3.82 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.28 * +EC3.1.3.82 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC3.1.3.82 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.58 * +EC3.1.3.82 d-glycero-beta-d-manno-heptose 1,7-bisphosphate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.0069 * +EC3.1.3.82 d-glycero-beta-d-manno-heptose 1,7-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC3.1.3.82 d-glycero-beta-d-manno-heptose 1,7-bisphosphate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.013 * +EC3.1.3.82 d-sedoheptulose 1,7-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.61 * +EC3.1.3.83 d-glycero-alpha-d-manno-heptose 1,7-bisphosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.033 * +EC3.1.3.83 d-glycero-beta-d-manno-heptose 1,7-bisphosphate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.086 * +EC3.1.3.84 adp-ribose 1''-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0028 * +EC3.1.3.84 adp-ribose 1''-phosphate sars coronavirus//*//* 0.0527 * +EC3.1.3.85 2-o-(alpha-d-glucopyranosyl)-3-phospho-d-glycerate methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 0.08 * +EC3.1.3.85 2-o-(alpha-d-glucopyranosyl)-3-phospho-d-glycerate persephonella marina//prokaryotes;bacteria;aquificae;persephonella//pmx 0.19 * +EC3.1.3.85 2-o-(alpha-d-glucopyranosyl)-3-phospho-d-glycerate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.1 * +EC3.1.3.85 2-o-(alpha-d-mannopyranosyl)-3-phospho-d-glycerate methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 0.28 * +EC3.1.3.85 2-o-(alpha-d-mannopyranosyl)-3-phospho-d-glycerate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.11 * +EC3.1.3.86 1-phosphatidyl-1d-myo-inositol 3,4,5-trisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.1.3.86 1-phosphatidyl-1d-myo-inositol 4,5-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.1.3.89 4-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.09 * +EC3.1.3.89 5'-damp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC3.1.3.89 5'-dcmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC3.1.3.89 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC3.1.3.89 5'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC3.1.3.89 5'-dtmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.1.3.89 5'-dump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.1.3.9 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.1 * +EC3.1.3.9 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.7 * +EC3.1.3.9 carbamoyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC3.1.3.9 carbamoyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC3.1.3.9 cdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC3.1.3.9 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.1.3.9 d-glucose 6-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC3.1.3.9 d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.3.9 d-glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.1.3.9 dctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC3.1.3.9 diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC3.1.3.9 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.1.3.9 glucose 6-phosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.51 * +EC3.1.3.9 glucose 6-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.93 * +EC3.1.3.9 glucose 6-phosphate limulus sp.//*//* 1.9 * +EC3.1.3.9 glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC3.1.3.9 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.6 * +EC3.1.3.9 itp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.1 * +EC3.1.3.9 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.9 * +EC3.1.3.9 phosphoramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.8 * +EC3.1.3.90 maltose 6'-phosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 4.1 * +EC3.1.3.91 n7-methyl-gmp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.013 * +EC3.1.3.91 n7-methyl-gmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0078 * +EC3.1.3.92 kanosamine 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.101 * +EC3.1.3.93 beta-l-galactose 1-phosphate actinidia deliciosa//*//* 0.01 * +EC3.1.3.93 beta-l-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.044 * +EC3.1.3.93 d-inositol 3-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.191 * +EC3.1.3.96 pseudouridine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00038 * +EC3.1.3.B8 2-o-(alpha-d-glucopyranosyl)-3-phospho-d-glycerate petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 2.6 * +EC3.1.3.B8 2-o-[2-o-(alpha-d-mannopyranosyl)-alpha-d-glucopyranosyl]-3-phospho-d-glycerate petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 0.5 * +EC3.1.3.B8 2-o-[2-o-(alpha-d-mannopyranosyl)-alpha-d-glucopyranosyl]-3-phospho-d-glycerate rhodopirellula baltica//prokaryotes;bacteria;planctomycetes;rhodopirellula//rba 0.22 * +EC3.1.3.B8 2-o-[2-o-(alpha-d-mannopyrarosyl)-alpha-d-glucopyranosyl]-3-phospho-d-glycerate rhodopirellula baltica//prokaryotes;bacteria;planctomycetes;rhodopirellula//rba 0.22 * +EC3.1.3.B8 2-o-alpha-d-mannopyranosyl-3-phosphoglycerate petrotoga mobilis//prokaryotes;bacteria;thermotogae;petrotoga//pmo 2.8 * +EC3.1.3.B9 l-galactose 1-phosphate actinidia deliciosa//*//* 0.022 * +EC3.1.3.B9 l-galactose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.107 * +EC3.1.30.1 2'-amp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 208.0 * +EC3.1.30.1 3'-amp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.04 * +EC3.1.30.1 3'-cmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 71.2 * +EC3.1.30.1 3'-damp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 92.0 * +EC3.1.30.1 3'-dcmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 470.0 * +EC3.1.30.1 3'-dgmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 223.0 * +EC3.1.30.1 3'-dtmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 608.0 * +EC3.1.30.1 3'-gmp aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 47.1 * +EC3.1.30.1 3'-ump aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 79.3 * +EC3.1.30.1 adenosine 3',5'-bisphosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 3.4 * +EC3.1.30.1 denaturated dna aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.7 * +EC3.1.30.1 denaturated dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.30.1 deoxythymidine 3',5'-bisphosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 69.9 * +EC3.1.30.1 dna aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0142 * +EC3.1.30.1 polydeoxythymidylic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.30.1 rna aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.144 * +EC3.1.30.2 [co(nh3)6]3+ serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 2898.0 * +EC3.1.30.2 dna serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.085 * +EC3.1.30.2 mg2+ serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 744.0 * +EC3.1.31.1 dna staphylococcus sp.//*//* 0.00431 * +EC3.1.4.1 2-naphthyl chloromethylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 83.0 * +EC3.1.4.1 2-naphthyl methylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 120.0 * +EC3.1.4.1 2-naphthyl phenylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 18.0 * +EC3.1.4.1 3',5'-camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.1.4.1 3'-o-acetyl-p-nitrophenylthymidine 5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.26 * +EC3.1.4.1 4-methylumbelliferyl phenylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.9 * +EC3.1.4.1 4-methylumbelliferyl thymidine 5'-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC3.1.4.1 5'-p-nitrophenyladenosine 5'-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.96 * +EC3.1.4.1 apa lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.43 * +EC3.1.4.1 apc lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 2.8 * +EC3.1.4.1 apg lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.25 * +EC3.1.4.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC3.1.4.1 bis(4-methylumbelliferyl) phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.1.4.1 bis(4-nitrophenyl)phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.5 * +EC3.1.4.1 bis(p-nitrophenyl) phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.85 * +EC3.1.4.1 bis(p-nitrophenyl) phosphate flammulina velutipes//*//* 0.25 * +EC3.1.4.1 bis-p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.74 * +EC3.1.4.1 bis-p-nitrophenyl phosphate hordeum vulgare//*//* 0.33 * +EC3.1.4.1 bis-p-nitrophenyl phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.15 * +EC3.1.4.1 cpu lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.12 * +EC3.1.4.1 diadenosine 5',5'''-p1,p3-triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.1.4.1 diadenosine 5',5'''-p1,p3-triphosphate lupinus luteus//*//* 0.0022 * +EC3.1.4.1 diadenosine 5',5'''-p1,p3-triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC3.1.4.1 diadenosine 5',5'''-p1,p4-tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.1.4.1 diadenosine 5',5'''-p1,p4-tetraphosphate lupinus luteus//*//* 0.002 * +EC3.1.4.1 diadenosine 5',5'''-p1,p4-tetraphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC3.1.4.1 diguanosine 5',5'''-p1,p4-tetraphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC3.1.4.1 diuridine tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.1.4.1 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC3.1.4.1 nad+ lupinus luteus//*//* 0.0096 * +EC3.1.4.1 p-nitrophenyl 5'-thymidine monophosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.035 * +EC3.1.4.1 p-nitrophenyl 5'-thymidine monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.106 * +EC3.1.4.1 p-nitrophenyl chloromethylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 41.0 * +EC3.1.4.1 p-nitrophenyl deoxythymidine 5'-phosphate flammulina velutipes//*//* 0.09 * +EC3.1.4.1 p-nitrophenyl ethyl phosphate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 2.3 * +EC3.1.4.1 p-nitrophenyl methylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 66.0 * +EC3.1.4.1 p-nitrophenyl phenylphosphonate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11.0 * +EC3.1.4.1 p-nitrophenyl phenylphosphonate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 3.0 * +EC3.1.4.1 p-nitrophenylphosphorylcholine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.53 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate avena sativa//*//* 0.4 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate hordeum vulgare//*//* 0.28 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 6.0 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.068 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.091 * +EC3.1.4.1 p-nitrophenylthymidine 5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.046 * +EC3.1.4.1 p-nitrophenyluridine 5'-phosphate beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.19 * +EC3.1.4.1 p-nitrophenyluridine 5'-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC3.1.4.1 thymidine 5'-monophosphate p-nitrophenylester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.097 * +EC3.1.4.1 u(pu)6 lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.22 * +EC3.1.4.12 1-alkyl-lyso-platelet activating factor rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC3.1.4.12 2-(n-hexadecanoylamino)-4-nitrophenylphosphorylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.1.4.12 2-n-hexadecanoylamino-4-nitrophenylphosphorylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.034 * +EC3.1.4.12 2-n-hexadecanoylamino-4-nitrophenylphosphorylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.1.4.12 2n-hexadecanoylamino-4-nitrophenylphosphorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC3.1.4.12 bis-p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.5 * +EC3.1.4.12 hexadecanoyl-p-nitrophenyl phosphorylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.174 * +EC3.1.4.12 p-nitrophenylphosporylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 11.6 * +EC3.1.4.12 platelet-activating factor rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0136 * +EC3.1.4.12 sphingomyelin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.038 * +EC3.1.4.12 sphingomyelin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0203 * +EC3.1.4.12 sphingomyelin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01871 * +EC3.1.4.12 sphingomyelin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00059 * +EC3.1.4.12 sphingomyelin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.1 * +EC3.1.4.12 sphingomyelin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC3.1.4.13 d-serine ethanolamine phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.2 * +EC3.1.4.13 l-serine ethanolamine phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.6 * +EC3.1.4.13 l-threonine ethanolamine phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 8.8 * +EC3.1.4.14 2',3'-camp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC3.1.4.14 acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0017 * +EC3.1.4.14 bis-4-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.4 * +EC3.1.4.16 2',3'-camp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.49 * +EC3.1.4.16 2',3'-cgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC3.1.4.16 2'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.76 * +EC3.1.4.16 3'-amp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.04 * +EC3.1.4.16 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.1.4.16 3'-amp proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.022 * +EC3.1.4.16 3'-amp proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.05 * +EC3.1.4.16 3'-amp shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.045 * +EC3.1.4.16 3'-amp vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.08 * +EC3.1.4.16 3'-cmp vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.01 * +EC3.1.4.16 3'-gmp vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.1 * +EC3.1.4.16 3'-ump escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC3.1.4.16 3'-ump proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.07 * +EC3.1.4.16 3'-ump shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.022 * +EC3.1.4.16 3'-ump vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.05 * +EC3.1.4.16 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.1.4.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.1.4.16 bis(p-nitrophenyl)phosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.2 * +EC3.1.4.16 bis(p-nitrophenyl)phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.1.4.16 bis(p-nitrophenyl)phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.022 * +EC3.1.4.16 bis(p-nitrophenyl)phosphate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.094 * +EC3.1.4.16 bis(p-nitrophenyl)phosphate shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.7 * +EC3.1.4.16 bis-p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.3 * +EC3.1.4.16 bis-p-nitrophenyl phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.9 * +EC3.1.4.16 cdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC3.1.4.16 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC3.1.4.16 cyclic 2',3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC3.1.4.16 cyclic 2',3'-amp fusarium culmorum//*//* 0.3 * +EC3.1.4.16 cyclic 2',3'-amp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.6 * +EC3.1.4.16 cyclic 2',3'-amp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0052 * +EC3.1.4.16 cyclic 2',3'-cmp fusarium culmorum//*//* 0.6 * +EC3.1.4.16 cyclic 2',3'-cmp vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.1 * +EC3.1.4.16 cyclic 2',3'-gmp fusarium culmorum//*//* 0.1 * +EC3.1.4.16 cyclic 2',3'-ump fusarium culmorum//*//* 2.0 * +EC3.1.4.16 cyclic 2',3'-ump proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.075 * +EC3.1.4.16 cyclic 2',3'-ump proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.67 * +EC3.1.4.16 cyclic 2',3'-ump shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.02 * +EC3.1.4.16 cyclic 2',3'-ump vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.36 * +EC3.1.4.16 di-p-nitrophenyl phosphate vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.2 * +EC3.1.4.16 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.4.16 nadp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.1.4.16 p-nitrophenyl phenylphosphonate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.033 * +EC3.1.4.16 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.0 * +EC3.1.4.16 p-nitrophenyl phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.7 * +EC3.1.4.16 thymidine p-nitrophenyl phosphate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.167 * +EC3.1.4.17 2',3'-camp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0038 * +EC3.1.4.17 3',5'-camp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 6.82 * +EC3.1.4.17 3',5'-camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.4e-05 * +EC3.1.4.17 3',5'-camp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0185 * +EC3.1.4.17 3',5'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.9e-05 * +EC3.1.4.17 3',5'-camp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.09 * +EC3.1.4.17 3',5'-camp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.15 * +EC3.1.4.17 3',5'-camp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0033 * +EC3.1.4.17 3',5'-camp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0773 * +EC3.1.4.17 3',5'-camp sinorhizobium fredii//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//rhi 0.0001 * +EC3.1.4.17 3',5'-camp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0316 * +EC3.1.4.17 3',5'-camp xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.03 * +EC3.1.4.17 3',5'-cgmp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 12.82 * +EC3.1.4.17 3',5'-cgmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC3.1.4.17 3',5'-cgmp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.006 * +EC3.1.4.17 3',5'-cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2e-05 * +EC3.1.4.17 3',5'-cgmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0088 * +EC3.1.4.17 3',5'-cgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC3.1.4.17 3',5'-cgmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0968 * +EC3.1.4.17 3',5'-cgmp sinorhizobium fredii//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//rhi 0.002 * +EC3.1.4.17 3',5'-cgmp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0782 * +EC3.1.4.17 3',5'-cgmp xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.005 * +EC3.1.4.17 5'-amp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0014 * +EC3.1.4.17 5'-atp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0033 * +EC3.1.4.17 adenosine 3',5'-cyclic phosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.012 * +EC3.1.4.17 camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC3.1.4.17 camp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.00075 * +EC3.1.4.17 camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.1.4.17 camp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.1.4.17 camp sinorhizobium fredii//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//rhi 0.00023 * +EC3.1.4.17 cgmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC3.1.4.17 cgmp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0002 * +EC3.1.4.17 cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.1.4.17 cgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0013 * +EC3.1.4.17 guanosine 3',5'-cyclic phosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.025 * +EC3.1.4.2 4-nitrophenyl ethylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.4 * +EC3.1.4.2 4-nitrophenyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.3 * +EC3.1.4.2 4-nitrophenyl phenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.8 * +EC3.1.4.2 4-nitrophenyl phenyl phosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 13.0 * +EC3.1.4.2 bis(4-nitrophenyl) phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.9 * +EC3.1.4.2 diethyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.5 * +EC3.1.4.2 dimethyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.06 * +EC3.1.4.2 ethyl 4-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.9 * +EC3.1.4.2 ethyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.74 * +EC3.1.4.2 glycerophosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC3.1.4.2 glycerophosphocholine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.1.4.2 glycerophosphocholine rattus sp.//*//* 0.35 * +EC3.1.4.2 glycerophosphoethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.1.4.2 glycerophosphoglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.1.4.2 glycerophosphoinositol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.1.4.2 glycerophosphorylcholine serratia plymuthica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srr 2.5 * +EC3.1.4.2 glycerophosphorylethanolamine serratia plymuthica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srr 1.2 * +EC3.1.4.2 glycerophosphoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC3.1.4.2 isobutyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.3 * +EC3.1.4.2 isopropyl 4-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 6.5 * +EC3.1.4.2 isopropyl methylphosphonate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 19.0 * +EC3.1.4.2 methyl 4-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.6 * +EC3.1.4.2 p-nitrophenylphosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC3.1.4.2 sn-glycero 3-phosphocholine doryteuthis pealeii//*//* 4.5 * +EC3.1.4.2 sn-glycero 3-phosphocholine rattus sp.//*//* 0.6 * +EC3.1.4.2 sn-glycero 3-phosphorylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.31 * +EC3.1.4.2 sn-glycero 3-phosphorylcholine rattus sp.//*//* 1.2 * +EC3.1.4.2 sn-glycero 3-phosphorylethanolamine rattus sp.//*//* 2.5 * +EC3.1.4.3 1,2-dihexanoyl-sn-glycero-3-phospho-l-serine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 4.5 * +EC3.1.4.3 1,2-dihexanoyl-sn-glycero-3-phosphocholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.4 * +EC3.1.4.3 1,2-dihexanoyl-sn-glycero-3-phosphoethanolamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.8 * +EC3.1.4.3 1,2-dipalmitoylphosphatidylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC3.1.4.3 1-arachidonoyl-lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.563 * +EC3.1.4.3 1-lauroyl-lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.296 * +EC3.1.4.3 1-linoleoyl-lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.434 * +EC3.1.4.3 1-myristoyl-lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.1.4.3 1-palmitoyl-lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.165 * +EC3.1.4.3 1-palmitoyl-lysophosphatidylcholine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.025 * +EC3.1.4.3 diheptanoylphosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.03 * +EC3.1.4.3 dihexanoylphosphatidic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 9.0 * +EC3.1.4.3 dihexanoylphosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.19 * +EC3.1.4.3 dipalmitoylphosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.6 * +EC3.1.4.3 dipalmitoylphosphatidylcholine tetrahymena pyriformis//*//* 0.166 * +EC3.1.4.3 dipalmitoylphosphatidylethanolamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 4.5 * +EC3.1.4.3 glycerophosphorylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.344 * +EC3.1.4.3 lecithin clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.016 * +EC3.1.4.3 p-nitrophenylphosphorylcholine clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 200.0 * +EC3.1.4.3 p-nitrophenylphosphorylcholine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 35.0 * +EC3.1.4.3 p-nitrophenylphosphorylcholine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 14.1 * +EC3.1.4.3 phosphatidylcholine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.38 * +EC3.1.4.3 phosphatidylcholine streptomyces hachijoensis//*//* 0.9 * +EC3.1.4.3 phosphatidylinositol 4,5-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.137 * +EC3.1.4.3 phosphatidylinositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.087 * +EC3.1.4.3 phosphatidylserine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.0 * +EC3.1.4.3 sphingomyelin clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.8 * +EC3.1.4.3 sphingomyelin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.09 * +EC3.1.4.35 2'-o-anthraniloyl cgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC3.1.4.35 2'-o-anthraniloyl-cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0247 * +EC3.1.4.35 3',5'-camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00098 * +EC3.1.4.35 3',5'-camp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0281 * +EC3.1.4.35 3',5'-camp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.717 * +EC3.1.4.35 3',5'-cgmp bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.092 * +EC3.1.4.35 3',5'-cgmp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.002 * +EC3.1.4.35 3',5'-cgmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0036 * +EC3.1.4.35 3',5'-cgmp cavia porcellus//*//* 0.00032 * +EC3.1.4.35 3',5'-cgmp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.037 * +EC3.1.4.35 3',5'-cgmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0047 * +EC3.1.4.35 3',5'-cgmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00065 * +EC3.1.4.35 3',5'-cgmp rana catesbeiana//*//* 0.13 * +EC3.1.4.35 3',5'-cgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC3.1.4.35 3',5'-cgmp strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 0.01 * +EC3.1.4.35 cgmp canis lupus familiaris//*//* 0.002 * +EC3.1.4.35 cgmp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.00022 * +EC3.1.4.35 cgmp dictyostelium//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0052 * +EC3.1.4.35 cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC3.1.4.35 cgmp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0023 * +EC3.1.4.35 cgmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.1.4.37 1,n6-etheno-2-azaadenosine-2',3'-cyclic monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC3.1.4.37 1,n6-ethenoadenosine-2',3'-cyclic monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC3.1.4.37 2',3'-camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.37 * +EC3.1.4.37 2',3'-camp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.49 * +EC3.1.4.37 2',3'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.1.4.37 2',3'-camp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.537 * +EC3.1.4.37 2',3'-camp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.64 * +EC3.1.4.37 2',3'-camp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.38 * +EC3.1.4.37 2',3'-camp triticum aestivum//*//* 13.1 * +EC3.1.4.37 2',3'-ccmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.1.4.37 2',3'-ccmp triticum aestivum//*//* 25.2 * +EC3.1.4.37 2',3'-cgmp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.57 * +EC3.1.4.37 2',3'-cgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC3.1.4.37 2',3'-cgmp triticum aestivum//*//* 9.2 * +EC3.1.4.37 2',3'-cnadp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC3.1.4.37 2',3'-cnadp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.295 * +EC3.1.4.37 2',3'-cump bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.3 * +EC3.1.4.37 2',3'-cump triticum aestivum//*//* 25.3 * +EC3.1.4.37 2',3'-cyclic amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.553 * +EC3.1.4.37 2'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.76 * +EC3.1.4.37 3'-amp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.046 * +EC3.1.4.37 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.1.4.37 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.1.4.37 bis-p-nitrophenyl phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.16 * +EC3.1.4.37 cdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC3.1.4.37 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC3.1.4.37 cyclic 2',3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.49 * +EC3.1.4.37 cyclic 2',3'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC3.1.4.37 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.1.4.37 nadp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.1.4.37 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.2 * +EC3.1.4.38 4-nitrophenyl phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.034 * +EC3.1.4.38 lysophosphatidylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC3.1.4.38 lysosphingomyelin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC3.1.4.38 p-aminophenylphosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.074 * +EC3.1.4.38 p-nitrophenylphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 66.6 * +EC3.1.4.38 p-nitrophenylphosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC3.1.4.38 p-nitrophenylphosphocholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0055 * +EC3.1.4.38 p-nitrophenylphosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.33 * +EC3.1.4.38 p-nitrophenylthymidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.1.4.38 sn-glycero-3-phosphocholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC3.1.4.38 sn-glycero-3-phosphocholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.048 * +EC3.1.4.38 sn-glycero-3-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.1.4.38 sn-glycerol-3-phosphocholine streptomyces sanglieri//*//* 1.41 * +EC3.1.4.39 1-alkyl-sn-glycero-3-phosphocholine hemiscorpius lepturus//*//* 0.097 * +EC3.1.4.39 1-alkyl-sn-glycero-3-phosphoethanolamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC3.1.4.39 1-linoleoyl-2-lyso-glycerophoshorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0083 * +EC3.1.4.39 1-o-hexadecyl-2-lyso-glycerophosphorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0267 * +EC3.1.4.39 1-palmitoyl-2-lyso-glycerophoshorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0207 * +EC3.1.4.39 1-palmitoyl-glycerophoshorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.176 * +EC3.1.4.39 1-stearoyl-2-lyso-glycerophoshorylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.101 * +EC3.1.4.39 4-nitrophenyl-tmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.1.4.39 5-[[(23r)-33-(4-[[4-(dimethylamino)phenyl]diazenyl]phenyl)-20,23-dihydroxy-20-oxido-15,33-dioxo-3,6,9,12,19,21,25-heptaoxa-16,32-diaza-20-phosphatritriacont-1-yl]carbamoyl]-2-(6-hydroxy-3-oxo-3h-xanthen-9-yl)benzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC3.1.4.39 [5-[[(23s)-33-(4-[(e)-[4-(dimethylamino)phenyl]diazenyl]phenyl)-20,23-dihydroxy-20-oxido-15,26,33-trioxo-3,6,9,12,19,21,25-heptaoxa-16,32-diaza-20-phosphatritriacont-1-yl]carbamoyl]-2-(6-hydroxy-3-oxo-3h-xanthen-9-yl)phenyl]acetic acid mammalia//*//* 0.004 * +EC3.1.4.39 coumarin-phosphate-fluorescein mammalia//*//* 0.004 * +EC3.1.4.39 fs-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.1.4.39 fs-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.1.4.39 lysophosphatidylcholine 16:0 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC3.1.4.39 lysophosphatidylcholine 18:0 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.089 * +EC3.1.4.39 lysophosphatidylcholine 18:1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.073 * +EC3.1.4.39 lysophosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.1.4.39 lysophosphatidylcholine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.094 * +EC3.1.4.39 lysophosphatidylcholine streptomyces chromofuscus//*//* 0.15 * +EC3.1.4.4 1,2-dibutyl-sn-glycero-3-phosphocholine streptomyces chromofuscus//*//* 0.16 * +EC3.1.4.4 bis(p-nitrophenyl)phosphate streptomyces chromofuscus//*//* 0.6 * +EC3.1.4.4 dibutyroylphosphatidylcholine streptomyces chromofuscus//*//* 0.2 * +EC3.1.4.4 diheptanoylphosphatidylcholine streptomyces chromofuscus//*//* 0.23 * +EC3.1.4.4 dihexanoylphosphatidylcholine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 2.64 * +EC3.1.4.4 dioleoyl-phosphatidylcholine streptomyces antibioticus//*//* 0.0015 * +EC3.1.4.4 dipalmitoylphosphatidylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC3.1.4.4 ethanol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 202.0 * +EC3.1.4.4 glycerol brassica oleracea var. capitata//*//* 388.0 * +EC3.1.4.4 lysophosphatidylcholine actinomadura sp.//*//* 1.07 * +EC3.1.4.4 lysophosphatidylcholine brassica oleracea var. capitata//*//* 1.0 * +EC3.1.4.4 lysophosphatidylcholine streptomyces chromofuscus//*//* 1.67 * +EC3.1.4.4 n-palmitoyl-phosphatidylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.1.4.4 n-palmitoyl-phosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0059 * +EC3.1.4.4 p-nitrophenylphosphorylcholine daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 9.5 * +EC3.1.4.4 phosphatidyl-p-nitrophenol streptomyces septatus//*//* 0.075 * +EC3.1.4.4 phosphatidylcholine actinomadura sp.//*//* 0.7 * +EC3.1.4.4 phosphatidylcholine arachis hypogaea//*//* 0.072 * +EC3.1.4.4 phosphatidylcholine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.51 * +EC3.1.4.4 phosphatidylcholine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 1.0 * +EC3.1.4.4 phosphatidylcholine glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.6 * +EC3.1.4.4 phosphatidylcholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.4.4 phosphatidylcholine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.29 * +EC3.1.4.4 phosphatidylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC3.1.4.4 phosphatidylcholine streptomyces antibioticus//*//* 0.0015 * +EC3.1.4.4 phosphatidylcholine streptomyces chromofuscus//*//* 1.43 * +EC3.1.4.4 phosphatidylcholine streptomyces olivochromogenes//*//* 0.6 * +EC3.1.4.4 phosphatidylcholine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.16 * +EC3.1.4.4 phosphatidylcholine streptomyces tendae//*//* 0.95 * +EC3.1.4.4 phosphatidylcholine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.1.4.4 phosphatidylcholine vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.75 * +EC3.1.4.4 phosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.91 * +EC3.1.4.4 phosphatidylethanolamine streptomyces hachijoensis//*//* 4.0 * +EC3.1.4.4 sphingomyelin streptomyces chromofuscus//*//* 0.56 * +EC3.1.4.40 cmp-n-acylneuraminate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.47 * +EC3.1.4.40 cmp-n-acylneuraminate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.00088 * +EC3.1.4.40 cmp-n-acylneuraminate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC3.1.4.41 1-o-hexadecylglycero-3-phosphocholine corynebacterium pseudotuberculosis//prokaryotes;bacteria;actinobacteria;corynebacterium//cpu 0.022 * +EC3.1.4.41 1-o-hexadecylglycero-3-phosphocholine loxosceles laeta//*//* 0.044 * +EC3.1.4.41 lysophosphatidylcholine corynebacterium pseudotuberculosis//prokaryotes;bacteria;actinobacteria;corynebacterium//cpu 8.3 * +EC3.1.4.41 sphingomyelin corynebacterium pseudotuberculosis//prokaryotes;bacteria;actinobacteria;corynebacterium//cpu 6.2 * +EC3.1.4.41 sphingomyelin loxosceles intermedia//*//* 0.064 * +EC3.1.4.41 sphingomyelin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.1.4.42 glycerol 1,2-cyclic phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.2 * +EC3.1.4.43 sn-glycero-3-phospho-1-inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.1.4.44 1-(sn-glycero-3-phospho)-1d-myo-inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.0 * +EC3.1.4.45 4-nitrophenyl alpha-n-acetyl-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.0011 * +EC3.1.4.45 dinitrophenyl alpha-n-acetyl-dglucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.74 * +EC3.1.4.45 glcnac-phosphomannose alpha-methyl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.49 * +EC3.1.4.45 glcnac-phosphomannose alpha-methyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.1.4.45 n-acetylglucosamine 1-phosphate rattus sp.//*//* 1.6 * +EC3.1.4.45 n-acetylglucosamine-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 31.0 * +EC3.1.4.45 n-acetylglucosamine-phospho-alpha-methylmannoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.76 * +EC3.1.4.45 n-acetylglucosamine-phospho-methylmannoside rattus sp.//*//* 0.19 * +EC3.1.4.45 n-acetylglucosamine-phosphomannose-uteroferrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.1.4.45 n-acetylglucosamine-udp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.78 * +EC3.1.4.45 udp-glcnac bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.734 * +EC3.1.4.45 udp-glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.94 * +EC3.1.4.45 udp-n-acetylglucosamine rattus sp.//*//* 1.3 * +EC3.1.4.46 bis(glycerophospho)glycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.1.4.46 bis(p-nitrophenyl phosphate) klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.5 * +EC3.1.4.46 bis(p-nitrophenyl) phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.12 * +EC3.1.4.46 glycerophosphocholine daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.036 * +EC3.1.4.46 glycerophosphocholine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.1.4.46 glycerophosphocholine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.1.4.46 glycerophosphoethanolamine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.1.4.46 glycerophosphoethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.1.4.46 glycerophosphoglycerol escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.62 * +EC3.1.4.46 glycerophosphoglycerol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.1.4.46 glycerophosphoinositol escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.39 * +EC3.1.4.46 glycerophosphoinositol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.39 * +EC3.1.4.46 glycerophosphoserine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC3.1.4.46 glycerophosphoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC3.1.4.46 p-nitrophenyl phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.12 * +EC3.1.4.49 mannosylphosphodolichol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00043 * +EC3.1.4.50 phosphatidylinositol-glycan-anchor of membrane form of acetylcholinesterase rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0001 * +EC3.1.4.52 cyclic di-3',5'-guanylate borreliella burgdorferi//*//* 2.9e-06 * +EC3.1.4.52 cyclic di-3',5'-guanylate caulobacter vibrioides//*//* 0.00042 * +EC3.1.4.52 cyclic di-3',5'-guanylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC3.1.4.52 cyclic di-3',5'-guanylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0032 * +EC3.1.4.52 cyclic di-3',5'-guanylate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 6e-05 * +EC3.1.4.52 cyclic-di-gmp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0032 * +EC3.1.4.53 3',5'-camp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00025 * +EC3.1.4.53 3',5'-camp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.01 * +EC3.1.4.53 3',5'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.1.4.53 3',5'-camp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.00099 * +EC3.1.4.53 3',5'-camp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0032 * +EC3.1.4.53 3',5'-camp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0033 * +EC3.1.4.53 3',5'-camp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0067 * +EC3.1.4.53 3',5'-cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0096 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5e-05 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.277 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3e-05 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0024 * +EC3.1.4.53 adenosine 3',5'-cyclic phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0073 * +EC3.1.4.53 camp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0096 * +EC3.1.4.53 camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.1.4.53 camp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.191 * +EC3.1.4.53 cgmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.1.4.53 guanosine 3',5'-cyclic phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.124 * +EC3.1.4.54 n-arachidonoyl-1,2-dioleoylphosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC3.1.4.54 n-arachidonoyl-1-oleoyl-2-lysophosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC3.1.4.54 n-arachidonoylphosphatidylethanolamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC3.1.4.54 n-oleoyl-1,2-dioleoylphosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0029 * +EC3.1.4.54 n-palmitoyl-1,2-dioleoyl-phosphatidylethanolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.1.4.54 n-palmitoyl-1,2-dioleoyl-phosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.1.4.54 n-palmitoyl-1-palmitoyl-2-linoleoylphosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0033 * +EC3.1.4.54 n-palmitoyl-1-palmitoyl-2-lysophosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC3.1.4.54 n-palmitoylphosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC3.1.4.54 n-stearoyl-1,2-dioleoylphosphatidylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0034 * +EC3.1.4.55 2',3'-camp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.1.4.55 2',3'-ccmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.1.4.55 2',3'-cgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.31 * +EC3.1.4.55 bis(p-nitrophenyl)phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.68 * +EC3.1.4.55 thymidine 5'-monophosphate p-nitrophenyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC3.1.4.B4 udp-alpha-d-glucose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.0894 * +EC3.1.5.1 dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC3.1.5.1 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.1.5.B1 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.1.5.B1 datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC3.1.5.B1 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.1.5.B1 dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC3.1.5.B1 dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.1.5.B1 dgtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC3.1.5.B1 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.1.5.B1 dttp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC3.1.6.1 2-hydroxy-4-nitrophenyl sulfate haliotis iris//*//* 0.181 * +EC3.1.6.1 2-hydroxy-5-nitrophenyl sulfate haliotis iris//*//* 0.043 * +EC3.1.6.1 2-methyl-4-nitrophenyl sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.55 * +EC3.1.6.1 4-hydroxy-2-nitrophenyl sulfate haliotis iris//*//* 0.123 * +EC3.1.6.1 4-hydroxy-3-nitrophenyl sulfate haliotis iris//*//* 0.193 * +EC3.1.6.1 4-methylumbelliferone sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.5 * +EC3.1.6.1 4-methylumbelliferyl sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0066 * +EC3.1.6.1 4-nitrocatechol sulfate citrobacter braakii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cbra 6.0 * +EC3.1.6.1 4-nitrocatechol sulfate cystoseira tamariscifolia//*//* 0.16 * +EC3.1.6.1 4-nitrocatechol sulfate eimeria tenella//*//* 2.5 * +EC3.1.6.1 4-nitrocatechol sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC3.1.6.1 4-nitrocatechol sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.1.6.1 4-nitrocatechol sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.105 * +EC3.1.6.1 4-nitrocatechol sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.1.6.1 4-nitrocatechol sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.68 * +EC3.1.6.1 4-nitrophenyl phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0291 * +EC3.1.6.1 4-nitrophenyl sulfate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.07 * +EC3.1.6.1 4-nitrophenyl sulfate cystoseira tamariscifolia//*//* 0.27 * +EC3.1.6.1 4-nitrophenyl sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.08 * +EC3.1.6.1 4-nitrophenyl sulfate helix pomatia//*//* 0.82 * +EC3.1.6.1 4-nitrophenyl sulfate hemicentrotus pulcherrimus//*//* 0.59 * +EC3.1.6.1 4-nitrophenyl sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00029 * +EC3.1.6.1 4-nitrophenyl sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 26.0 * +EC3.1.6.1 4-nitrophenyl sulfate streptomyces griseorubiginosus//*//* 0.0037 * +EC3.1.6.1 4-nitrophenyl sulfate strongylocentrotus intermedius//*//* 0.53 * +EC3.1.6.1 ascorbate 2-sulfate strongylocentrotus intermedius//*//* 0.5 * +EC3.1.6.1 ascorbic acid 2-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.5 * +EC3.1.6.1 cerebroside 3-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.13 * +EC3.1.6.1 dopamine 3-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.2 * +EC3.1.6.1 dopamine 4-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC3.1.6.1 epinephrine 3-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.1 * +EC3.1.6.1 epinephrine 4-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.9 * +EC3.1.6.1 estrone 3-sulfate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.344 * +EC3.1.6.1 n-benzyloxycarbonyl-l-phe-l-tyr-o-sulfate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.05 * +EC3.1.6.1 norepinephrine 3-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.5 * +EC3.1.6.1 norepinephrine 4-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.7 * +EC3.1.6.1 p-nitrophenyl sulfate littorina kurila//*//* 8.7 * +EC3.1.6.1 p-nitrophenyl sulfate pseudoalteromonas carrageenovora//*//* 0.67 * +EC3.1.6.1 p-nitrophenyl sulfate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.0549 * +EC3.1.6.1 phloroglucinol monosulfate cystoseira tamariscifolia//*//* 3.65 * +EC3.1.6.12 4-methylumbelliferyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.1.6.12 4-methylumbelliferyl sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.0 * +EC3.1.6.12 n-acetylgalactosamine 4-sulfate-(beta-glucuronosyl-(1-3)-n-acetylgalactosamine 4-sulfate)2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.1.6.12 n-acetylgalactosamine 4-sulfate-(beta-glucuronosyl-(1-3)-n-acetylgalactosamine 4-sulfate)3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.049 * +EC3.1.6.12 n-acetylgalactosamine 4-sulfate-(beta-glucuronosyl-(1-3)-n-acetylgalactosamine 4-sulfate)4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.064 * +EC3.1.6.12 n-acetylgalactosamine 4-sulfate-beta-glucuronosyl-(1-3)-n-acetylgalactosamine 4-sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC3.1.6.12 nitrocatechol 4-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.86 * +EC3.1.6.12 nitrocatechol sulfate felis catus//eukaryotes;animals;vertebrates;mammals//fca 1.2 * +EC3.1.6.12 nitrocatechol sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.1.6.12 p-nitrocatechol sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.1.6.12 p-nitrophenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.8 * +EC3.1.6.12 udp-n-acetylgalactosamine 4-sulfate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.43 * +EC3.1.6.12 udp-n-acetylgalactosamine 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.6.13 o-(alpha-l-idopyranosyluronic acid 2-sulfate)-(1-4)-2,5-anhydro-d-mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.1.6.13 o-(alpha-l-idopyranosyluronic acid 2-sulfate)-(1-4)-2,5-anhydro-d-mannitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0192 * +EC3.1.6.13 o-(alpha-l-idopyranosyluronic acid-2-sulfate)-(1-4)-2,5 anhydromannose-6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.327 * +EC3.1.6.13 o-(alpha-l-iduronic acid 2-sulfate)-(1-3)-2,5-anhydro-d-talitol 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.1.6.13 o-(alpha-l-iduronic acid 2-sulfate)-(1-4)-d-o-(alpha 2-sulfaminoglucosamine 6-sulfate)-(1-4)-l-o-(alpha-l-iduronic acid 2-sulfate)-d-o-2,5-anhydro-mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.1.6.13 o-(alpha-l-iduronic acid 2-sulfate)-(1-4)-d-o-(alpha 2-sulfaminoglucosamine 6-sulfate)-(1-4)-o-(beta-d-glucuronic acid or l-iduronic acid)-(1-4)-d-o-(alpha-n-acetylglucosamine)-(1-3)-d-o-gulonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.1.6.13 o-(alpha-l-iduronic acid 2-sulfate)-(1-4)-d-o-(alpha glucosamine 6-sulfate)-(1-4)-l-o-(alpha-l-iduronic acid 2-sulfate)-d-o-2,5-anhydro-mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.1.6.13 o-(alpha-l-iduronic acid 2-sulfate)-(1-4)-d-o-(alpha-n-acetylglucosamine 6-sulfate)-(1-4)-l-o-(alpha-l-iduronic acid 2-sulfate)-d-o-2,5-anhydro-mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.1.6.13 sulfoiduronyl sulfoanhydromannitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.1.6.14 4-methylumbelliferyl sulfate capra hircus//eukaryotes;animals;vertebrates;mammals//chx 5.8 * +EC3.1.6.14 glucose 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.1.6.14 n-acetyl-d-glucosamine 6-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.2 * +EC3.1.6.14 n-acetyl-d-glucosamine 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC3.1.6.14 n-acetylglucosamine 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC3.1.6.14 o-(alpha-2-sulfamino glucosamine 6-sulfate)-(1-4)-l-idose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0108 * +EC3.1.6.14 o-(alpha-glucosamine 6-sulfate)-(1-3)-l-idonic acid capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.0482 * +EC3.1.6.14 o-(alpha-glucosamine 6-sulfate)-(1-3)-l-idonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0111 * +EC3.1.6.14 o-(alpha-glucosamine 6-sulfate)-(1-4)-l-o-(alpha-iduronic acid 2-sulfate)-(1-4)-d-o-2,5-anhydro mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.1.6.14 o-(alpha-n-acetyl glucosamine 6-sulfate)-(1-3)-l-idonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC3.1.6.14 trisaccharide with a n-acetylglucosamine 6-sulfate residue homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.1.6.17 d-lactate 2-sulfate pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.0067 * +EC3.1.6.19 (3r)-pentan-3-yl sulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 40.0 * +EC3.1.6.19 (4r)-heptan-4-yl sulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 15.0 * +EC3.1.6.19 (5r)-nonan-5-yl sulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC3.1.6.2 16alpha-hydroxydehydroepiandrosterone 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.1.6.2 4-methylumbelliferylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.217 * +EC3.1.6.2 4-nitrophenyl sulfate haliotis sp.//*//* 10.2 * +EC3.1.6.2 4-nitrophenyl sulfate helix pomatia//*//* 2.03 * +EC3.1.6.2 4-nitrophenyl sulfate patella vulgata//*//* 10.0 * +EC3.1.6.2 androstenediol 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00313 * +EC3.1.6.2 cholesterol 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00526 * +EC3.1.6.2 cholesterol sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC3.1.6.2 dehydroandrosterone 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.1.6.2 dehydroepiandrosterone 3-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.113 * +EC3.1.6.2 dehydroepiandrosterone 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.1.6.2 dehydroepiandrosterone 3-sulfate macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 0.036 * +EC3.1.6.2 dehydroepiandrosterone sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.1.6.2 esterone 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.1.6.2 estrone 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC3.1.6.2 estrone sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00685 * +EC3.1.6.2 estrone sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.072 * +EC3.1.6.2 estrone sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00215 * +EC3.1.6.2 methylumbelliferyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.6.2 methylumbelliferyl sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC3.1.6.2 p-nitrophenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1600.0 * +EC3.1.6.2 p-nitrophenyl sulfate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.007 * +EC3.1.6.2 p-nitrophenyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.32 * +EC3.1.6.2 p-nitrophenyl sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC3.1.6.2 p-nitrophenylsulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.1.6.2 pregnenolone 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00073 * +EC3.1.6.3 d-glucose 3-o-sulfate littorina littorea//*//* 30.0 * +EC3.1.6.3 d-glucose 3-sulfate charonia lampas//*//* 29.4 * +EC3.1.6.3 d-glucose 6-o-sulfate littorina littorea//*//* 17.0 * +EC3.1.6.3 glucose 6-sulfate charonia lampas//*//* 25.0 * +EC3.1.6.3 glucose 6-sulfate prevotella sp.//prokaryotes;bacteria;bacteroidetes;prevotella//pro 60.0 * +EC3.1.6.3 n-acetyl-d-glucosamine 6-sulfate charonia lampas//*//* 11.8 * +EC3.1.6.4 galactosamine 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.1.6.4 galactose 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.1.6.4 galnac-4-so4-(glcua-galnac-4-so4)2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.1.6.4 galnac-4-so4-(glcua-galnac-4-so4)3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.049 * +EC3.1.6.4 galnac-4-so4-(glcua-galnac-4-so4)4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.064 * +EC3.1.6.4 galnac-4-so4-glcua-galnac-4-so4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC3.1.6.4 n-acetylgalactosamine 6-sulfate-beta(1-4)glucuronic acid-beta(1-3)-n-acetylgalactosaminitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.1.6.4 o-(beta-d-6-sulfo-2-acetamido-2-deoxygalactosyl)-(1-4)-o-beta-d-glucuronosyl-(1-3)-o-beta-d-6-sulfo-2-acetamido-2-deoxy-galactitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.1.6.4 o-(beta-d-sulfogalactosyl)-(1-4)-1,5-anhydro-d-mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.1.6.4 oligosaccharide substrate derived from chondroitin 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0125 * +EC3.1.6.4 oligosaccharide substrates derived from keratan sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.1.6.6 choline sulfate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 35.0 * +EC3.1.6.6 choline sulfate penicillium chrysogenum//*//* 8.5 * +EC3.1.6.6 choline sulfate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.4 * +EC3.1.6.6 choline sulfate pseudomonas nitroreducens//*//* 40.0 * +EC3.1.6.8 1-naphthyl sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 15.9 * +EC3.1.6.8 1-o-alkyl-2-o-acyl-3-o-(beta-d-galactopyranoside-3'-sulfate)-glycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.1.6.8 2-hydroxy-5-nitrophenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.47 * +EC3.1.6.8 2-hydroxyphenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 38.0 * +EC3.1.6.8 2-nitrophenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.5 * +EC3.1.6.8 2-nitropyridyl 3-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.4 * +EC3.1.6.8 3-nitrophenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 77.0 * +EC3.1.6.8 4-methylumbelliferone sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4.0 * +EC3.1.6.8 4-methylumbelliferyl sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.0 * +EC3.1.6.8 4-nitrocatechol sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.1.6.8 4-nitrocatechol sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.43 * +EC3.1.6.8 4-nitrophenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 53.0 * +EC3.1.6.8 5,6,7,8-tetrahydro-2-naphthyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 63.0 * +EC3.1.6.8 ascorbate 2-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 23.0 * +EC3.1.6.8 cerebroside 3-sulfate actinia equina//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate blaberus fuscus//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate helix pomatia//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.1.6.8 cerebroside 3-sulfate limaria tuberculata//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate lumbricus terrestris//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate marthasterias glacialis//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate microcosmus sulcatus//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate patella vulgata//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate pecten jacobaeus//*//* 0.6 * +EC3.1.6.8 cerebroside 3-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.105 * +EC3.1.6.8 cerebroside 3-sulfate tethya aurantium//*//* 0.6 * +EC3.1.6.8 cerebroside sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC3.1.6.8 cerebroside sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.1.6.8 cerebroside sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.06 * +EC3.1.6.8 naphthyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 53.0 * +EC3.1.6.8 nitrocatechol sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC3.1.6.8 p-nitrocatechol sulfate acipenser gueldenstaedtii//*//* 0.175 * +EC3.1.6.8 p-nitrocatechol sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC3.1.6.8 p-nitrocatechol sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.35 * +EC3.1.6.8 p-nitrophenol sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.0 * +EC3.1.6.8 phenanthryl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.5 * +EC3.1.6.8 phenyl sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 310.0 * +EC3.1.6.8 pyridyl 3-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 31.0 * +EC3.1.6.8 pyridyl 4-sulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.76 * +EC3.1.6.8 tyrosine o-sulfate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 31.8 * +EC3.1.7.1 farnesol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.1.7.1 isopentenol-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.1.7.11 geranyl diphosphate catharanthus roseus//*//* 0.0585 * +EC3.1.7.11 geranyl diphosphate cinnamomum tenuipile//*//* 0.0558 * +EC3.1.7.11 geranyl diphosphate ocimum basilicum//*//* 0.021 * +EC3.1.7.2 ppgpp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.41 * +EC3.1.7.3 d-bornyl-diphosphate salvia officinalis//*//* 0.023 * +EC3.1.7.5 geranylgeranyl diphosphate croton stellatopilosus//*//* 0.1 * +EC3.1.7.6 (2e,6e)-farnesyl diphosphate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.015 * +EC3.1.7.6 (2e,6e)-farnesyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.1.7.8 tuberculosinyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0271 * +EC3.1.8.1 2,4-dinitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.1.8.1 2,6-difluorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.8.1 2-fluoro 4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC3.1.8.1 3,5-dinitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.1.8.1 3-cyanophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.1.8.1 3-fluoro 4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.1.8.1 3-fluorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.1.8.1 3-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.1.8.1 4-chlorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.1.8.1 4-cyanophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.1.8.1 4-diethyl phosphate acetophenone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.56 * +EC3.1.8.1 4-diethyl phosphate benzaldehyde homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.1.8.1 4-diethyl phosphate methyl benzoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.1.8.1 4-nitrophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.1.8.1 chlorpyrifos escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC3.1.8.1 cmp-coumarin sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.642 * +EC3.1.8.1 coumaphos purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.071 * +EC3.1.8.1 demeton-s methyl flavobacterium sp.//*//* 8.09 * +EC3.1.8.1 demeton-s brevundimonas diminuta//*//* 4.4 * +EC3.1.8.1 demeton-s geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 6.1 * +EC3.1.8.1 demeton-s purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.236 * +EC3.1.8.1 diethyl paraoxon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.772 * +EC3.1.8.1 diethyl paraoxon oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.889 * +EC3.1.8.1 ethyl paraoxon geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.1 * +EC3.1.8.1 ethyl parathion pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 0.1 * +EC3.1.8.1 ethyl phenyl parathion pimelobacter simplex//prokaryotes;bacteria;actinobacteria;pimelobacter//psim 0.345 * +EC3.1.8.1 ethyl-paraoxon vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 0.581 * +EC3.1.8.1 malathion flavobacterium sp.//*//* 0.41 * +EC3.1.8.1 malathion purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.351 * +EC3.1.8.1 malathion sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.33 * +EC3.1.8.1 malathion sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.16 * +EC3.1.8.1 methyl paraoxon geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.27 * +EC3.1.8.1 methyl paraoxon sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.138 * +EC3.1.8.1 methyl paraoxon sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1.74 * +EC3.1.8.1 methyl paraoxon sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.14 * +EC3.1.8.1 methyl paraoxon vulcanisaeta moutnovskia//prokaryotes;archaea;crenarchaeota;vulcanisaeta//vmo 2.79 * +EC3.1.8.1 methyl parathion purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.052 * +EC3.1.8.1 methyl parathion sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 0.272 * +EC3.1.8.1 methyl parathion sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.12 * +EC3.1.8.1 methylparathion brevundimonas diminuta//*//* 0.21 * +EC3.1.8.1 o-isobutyl-s-[2-(diethylamino)ethyl]methylphosphonothioic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.1.8.1 paraoxon bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC3.1.8.1 paraoxon brevundimonas diminuta//*//* 0.016 * +EC3.1.8.1 paraoxon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.1.8.1 paraoxon mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC3.1.8.1 paraoxon oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.3 * +EC3.1.8.1 paraoxon purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.033 * +EC3.1.8.1 paraoxon rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC3.1.8.1 paraoxon sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.32 * +EC3.1.8.1 paraoxon sulfolobus islandicus//prokaryotes;archaea;crenarchaeota;sulfolobus//sis 1.1 * +EC3.1.8.1 paraoxon sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.064 * +EC3.1.8.1 parathion brevundimonas diminuta//*//* 0.06 * +EC3.1.8.1 parathion purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.058 * +EC3.1.8.1 parathion sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.434 * +EC3.1.8.1 pentafluorophenyl diethyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.1.8.1 phenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.1.8.1 phosmet purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.187 * +EC3.1.8.1 sarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.1.8.1 soman homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.1.8.1 tabun rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.1.8.2 coumaphos brevundimonas diminuta//*//* 0.39 * +EC3.1.8.2 diazinon brevundimonas diminuta//*//* 0.45 * +EC3.1.8.2 diisopropyl fluorophosphate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 2.99 * +EC3.1.8.2 diisopropyl fluorophosphate brevundimonas diminuta//*//* 0.048 * +EC3.1.8.2 diisopropyl fluorophosphate doryteuthis pealeii//*//* 4.3 * +EC3.1.8.2 diisopropyl fluorophosphate loligo vulgaris//*//* 2.72 * +EC3.1.8.2 fensulfothion brevundimonas diminuta//*//* 0.46 * +EC3.1.8.2 methyl parathion brevundimonas diminuta//*//* 0.08 * +EC3.1.8.2 o-cyclohexyl methylphosphonofluoridate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.68 * +EC3.1.8.2 o-ethyl s-(2-diisopropylamino)ethyl methylphosphonothioate brevundimonas diminuta//*//* 0.43 * +EC3.1.8.2 o-isopropylmethylphosphonofluoridate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 1.57 * +EC3.1.8.2 o-isopropylmethylphosphonofluoridate brevundimonas diminuta//*//* 0.7 * +EC3.1.8.2 o-pinacolyl methylphosphonofluoridate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 2.48 * +EC3.1.8.2 o-pinacolyl methylphosphonofluoridate brevundimonas diminuta//*//* 0.5 * +EC3.1.8.2 paraoxon alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 1.27 * +EC3.1.8.2 paraoxon brevundimonas diminuta//*//* 0.058 * +EC3.1.8.2 parathion brevundimonas diminuta//*//* 0.24 * +EC3.1.8.2 sarin alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 1.57 * +EC3.1.8.2 soman alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 2.48 * +EC3.1.8.2 soman doryteuthis pealeii//*//* 33.0 * +EC3.10.1.1 2-deoxy-2-sulfamido-d-glucose pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.0083 * +EC3.10.1.1 glucosamine 2,6-disulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.13 * +EC3.10.1.1 heparan sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.10.1.1 heparin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.10.1.1 heparin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC3.10.1.2 cyclamate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.0 * +EC3.11.1.1 phosphonoacetaldehyde bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.033 * +EC3.11.1.2 phosphonoacetate curtobacterium sp.//prokaryotes;bacteria;actinobacteria;curtobacterium//cum 0.0078 * +EC3.11.1.2 phosphonoacetate penicillium oxalicum//*//* 1.9 * +EC3.11.1.2 phosphonoacetate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.25 * +EC3.11.1.2 phosphonoacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC3.11.1.3 3-phosphonopyruvate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.72 * +EC3.11.1.3 3-phosphonopyruvate variovorax sp.//prokaryotes;bacteria;betaproteobacteria;variovorax//vaa 0.005 * +EC3.12.1.1 trithionate acidiphilium acidophilum//*//* 0.07 * +EC3.12.1.B1 tetrathionate acidianus ambivalens//*//* 0.8 * +EC3.12.1.B1 tetrathionate acidiphilium acidophilum//*//* 0.3 * +EC3.12.1.B1 tetrathionate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.05 * +EC3.13.1.1 sulfite arabidopsis sp.//*//* 0.01 * +EC3.13.1.1 sulfite arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC3.13.1.1 udp-glucose arabidopsis sp.//*//* 0.15 * +EC3.13.1.1 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.15 * +EC3.13.1.3 2'-hydroxybiphenyl-2-sulfinate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0082 * +EC3.13.1.3 2-(2'-hydroxyphenyl)benzenesulfinate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0009 * +EC3.13.1.3 2-(2-hydroxyphenyl)benzenesulfinate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.33 * +EC3.13.1.3 2-phenylbenzenesulfinate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.062 * +EC3.13.1.4 3-sulfinopropionyl-coa advenella mimigardefordensis//prokaryotes;bacteria;betaproteobacteria;advenella//amim 0.013 * +EC3.13.1.4 3-sulfinopropionyl-coa cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.078 * +EC3.13.1.4 3-sulfinopropionyl-coa paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.027 * +EC3.13.1.4 3-sulfinopropionyl-coa variovorax paradoxus//prokaryotes;bacteria;betaproteobacteria;variovorax//vap 0.052 * +EC3.2.1.1 2-chloro-4-nitrophenyl alpha-maltotrioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.2.1.1 2-chloro-4-nitrophenyl beta-d-maltoheptaoside hordeum vulgare//*//* 0.7 * +EC3.2.1.1 2-chloro-4-nitrophenyl-alpha-d-maltotrioside gracilibacillus dipsosauri//*//* 12.5 * +EC3.2.1.1 2-chloro-4-nitrophenyl-alpha-d-maltotrioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.2.1.1 4,6-ethylidene-[g7]-p-nitrophenyl-[g1]-alpha-d-maltoheptaoside bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.012 * +EC3.2.1.1 4,6-ethylidene-[g7]-p-nitrophenyl[g1]-alpha-d-maltoheptaoside hordeum vulgare//*//* 0.45 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.13 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.223 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.065 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltoheptaoside-4,6-o-ethylidene thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.26 * +EC3.2.1.1 4-nitrophenyl alpha-d-maltohexaoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 2.46 * +EC3.2.1.1 4-nitrophenyl-alpha-d-maltoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.48 * +EC3.2.1.1 alpha-cyclodextrin candida antarctica//*//* 52.0 * +EC3.2.1.1 alpha-cyclodextrin pichia burtonii//*//* 14.9 * +EC3.2.1.1 alpha-maltosyl fluoride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.2.1.1 alpha-maltotriosyl fluoride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.2.1.1 amylopectin candida antarctica//*//* 3.5 * +EC3.2.1.1 amylopectin ruminobacter amylophilus//*//* 18.2 * +EC3.2.1.1 amylose dp17 hordeum vulgare//*//* 0.57 * +EC3.2.1.1 amylose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.26 * +EC3.2.1.1 amylose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0035 * +EC3.2.1.1 amylose candida antarctica//*//* 0.77 * +EC3.2.1.1 amylose hordeum vulgare//*//* 0.00016 * +EC3.2.1.1 amylose ruminobacter amylophilus//*//* 18.2 * +EC3.2.1.1 amylose thermoactinomyces vulgaris//*//* 15.0 * +EC3.2.1.1 beta-cyclodextrin candida antarctica//*//* 13.6 * +EC3.2.1.1 beta-cyclodextrin pichia burtonii//*//* 12.3 * +EC3.2.1.1 cyclomaltohexaose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.6 * +EC3.2.1.1 dextrin ruminobacter amylophilus//*//* 16.7 * +EC3.2.1.1 gamma-cyclodextrin candida antarctica//*//* 4.4 * +EC3.2.1.1 gamma-cyclodextrin pichia burtonii//*//* 2.35 * +EC3.2.1.1 glycogen candida antarctica//*//* 36.4 * +EC3.2.1.1 glycogen heterorhabditis bacteriophora//*//* 9.6 * +EC3.2.1.1 maltodextrin hordeum vulgare//*//* 0.071 * +EC3.2.1.1 maltoheptaose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.18 * +EC3.2.1.1 maltoheptaose candida antarctica//*//* 2.7 * +EC3.2.1.1 maltoheptaose hordeum vulgare//*//* 0.21 * +EC3.2.1.1 maltoheptaose struthio camelus//*//* 0.51 * +EC3.2.1.1 maltoheptaose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 3.37 * +EC3.2.1.1 maltohexaitol mesocentrotus nudus//*//* 2.28 * +EC3.2.1.1 maltohexaose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.37 * +EC3.2.1.1 maltohexaose fusidium sp.//*//* 1.9 * +EC3.2.1.1 maltohexaose pichia burtonii//*//* 0.71 * +EC3.2.1.1 maltohexaose struthio camelus//*//* 0.43 * +EC3.2.1.1 maltooctaose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.89 * +EC3.2.1.1 maltopentaose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC3.2.1.1 maltopentaose candida antarctica//*//* 3.1 * +EC3.2.1.1 maltopentaose fusidium sp.//*//* 2.7 * +EC3.2.1.1 maltopentaose pichia burtonii//*//* 0.55 * +EC3.2.1.1 maltopentaose struthio camelus//*//* 0.95 * +EC3.2.1.1 maltopentaose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 1.69 * +EC3.2.1.1 maltose pichia burtonii//*//* 6.4 * +EC3.2.1.1 maltose struthio camelus//*//* 26.16 * +EC3.2.1.1 maltotetraose fusidium sp.//*//* 8.3 * +EC3.2.1.1 maltotetraose pichia burtonii//*//* 0.48 * +EC3.2.1.1 maltotetraose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.1 * +EC3.2.1.1 maltotetraose struthio camelus//*//* 0.65 * +EC3.2.1.1 maltotriose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.9 * +EC3.2.1.1 maltotriose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.198 * +EC3.2.1.1 maltotriose candida antarctica//*//* 6.5 * +EC3.2.1.1 maltotriose pichia burtonii//*//* 28.6 * +EC3.2.1.1 maltotriose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC3.2.1.1 maltotriose struthio camelus//*//* 3.57 * +EC3.2.1.1 maltotriose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 1.26 * +EC3.2.1.1 p-nitrophenylhexa[alpha-d-glucopyranosyl(1-4)]-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.2.1.1 pullulan pichia burtonii//*//* 4.13 * +EC3.2.1.1 pullulan thermoactinomyces vulgaris//*//* 1.4 * +EC3.2.1.1 soluble starch bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 1.92 * +EC3.2.1.1 soluble starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.9 * +EC3.2.1.1 soluble starch bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.2 * +EC3.2.1.1 soluble starch geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 3.05 * +EC3.2.1.1 soluble starch saitozyma flava//*//* 0.057 * +EC3.2.1.1 soluble starch thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.07 * +EC3.2.1.1 soluble starch vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 1.7 * +EC3.2.1.1 starch bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 167.6 * +EC3.2.1.1 starch candida antarctica//*//* 3.3 * +EC3.2.1.1 starch heterorhabditis bacteriophora//*//* 6.5 * +EC3.2.1.1 starch malus pumila//*//* 2.0 * +EC3.2.1.1 starch pichia burtonii//*//* 0.16 * +EC3.2.1.1 starch ruminobacter amylophilus//*//* 18.7 * +EC3.2.1.1 starch thermoactinomyces vulgaris//*//* 0.23 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside arthrobacter globiformis//*//* 1.76 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 1.05 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.2.1.10 4-nitrophenyl alpha-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC3.2.1.10 isomaltohexaose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 11.0 * +EC3.2.1.10 isomaltohexaose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 15.0 * +EC3.2.1.10 isomaltopentaose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 4.6 * +EC3.2.1.10 isomaltopentaose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 13.0 * +EC3.2.1.10 isomaltopentaose parageobacillus thermoglucosidans//*//* 21.0 * +EC3.2.1.10 isomaltose arthrobacter globiformis//*//* 24.1 * +EC3.2.1.10 isomaltose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 6.2 * +EC3.2.1.10 isomaltose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 3.0 * +EC3.2.1.10 isomaltose bacillus sp. f5//*//* 3.33 * +EC3.2.1.10 isomaltose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.3 * +EC3.2.1.10 isomaltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.45 * +EC3.2.1.10 isomaltose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 8.3 * +EC3.2.1.10 isomaltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.1 * +EC3.2.1.10 isomaltose parageobacillus thermoglucosidans//*//* 3.3 * +EC3.2.1.10 isomaltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.9 * +EC3.2.1.10 isomaltose suncus murinus//*//* 12.8 * +EC3.2.1.10 isomaltose zalophus californianus//*//* 2.5 * +EC3.2.1.10 isomaltotetraose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.8 * +EC3.2.1.10 isomaltotetraose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 7.4 * +EC3.2.1.10 isomaltotetraose parageobacillus thermoglucosidans//*//* 13.0 * +EC3.2.1.10 isomaltotriose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 3.0 * +EC3.2.1.10 isomaltotriose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 4.4 * +EC3.2.1.10 isomaltotriose bacillus sp. f5//*//* 1.7 * +EC3.2.1.10 isomaltotriose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 5.5 * +EC3.2.1.10 isomaltotriose parageobacillus thermoglucosidans//*//* 11.0 * +EC3.2.1.10 isomaltriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 72.0 * +EC3.2.1.10 maltopentose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.2.1.10 maltose bacillus sp. f5//*//* 13.3 * +EC3.2.1.10 maltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.13 * +EC3.2.1.10 maltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.83 * +EC3.2.1.10 maltose suncus murinus//*//* 7.0 * +EC3.2.1.10 maltose zalophus californianus//*//* 2.4 * +EC3.2.1.10 maltotetrose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.79 * +EC3.2.1.10 maltotriitol bacillus sp. f5//*//* 4.0 * +EC3.2.1.10 maltotriose bacillus sp. f5//*//* 1.9 * +EC3.2.1.10 maltotriose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.55 * +EC3.2.1.10 methyl alpha-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.0 * +EC3.2.1.10 p-nitrophenyl alpha-d-glucopyranoside bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.17 * +EC3.2.1.10 p-nitrophenyl-alpha-d-glucopyranoside bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.81 * +EC3.2.1.10 p-nitrophenyl-alpha-d-glucopyranoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.21 * +EC3.2.1.10 p-nitrophenyl-alpha-d-glucopyranoside parageobacillus thermoglucosidans//*//* 0.24 * +EC3.2.1.10 p-nitrophenyl-alpha-d-glucopyranoside thermoanaerobium sp.//*//* 0.51 * +EC3.2.1.10 palatinose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 7.1 * +EC3.2.1.10 palatinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.0 * +EC3.2.1.10 palatinose zalophus californianus//*//* 3.5 * +EC3.2.1.10 panitol bacillus sp. f5//*//* 1.0 * +EC3.2.1.10 panose bacillus sp. f5//*//* 1.0 * +EC3.2.1.10 panose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 10.4 * +EC3.2.1.10 panose parageobacillus thermoglucosidans//*//* 9.5 * +EC3.2.1.10 phenyl-alpha-d-glucopyranoside bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.2 * +EC3.2.1.10 sucrose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.2 * +EC3.2.1.10 sucrose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 116.0 * +EC3.2.1.10 sucrose suncus murinus//*//* 27.5 * +EC3.2.1.10 trehalose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 320.0 * +EC3.2.1.10 trehalose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 31.15 * +EC3.2.1.10 trehalulose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 22.9 * +EC3.2.1.100 mannobiose aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.51 * +EC3.2.1.100 mannopentaose aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.13 * +EC3.2.1.100 mannotetraose aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.24 * +EC3.2.1.101 alpha-1,6-d-mannan bacillus circulans//*//* 0.0044 * +EC3.2.1.101 alpha-1,6-d-mannobiose bacillus circulans//*//* 4.0 * +EC3.2.1.101 alpha-1,6-d-mannohexaose bacillus circulans//*//* 0.072 * +EC3.2.1.101 alpha-1,6-d-mannopentaose bacillus circulans//*//* 0.12 * +EC3.2.1.101 alpha-1,6-d-mannotetraose bacillus circulans//*//* 0.33 * +EC3.2.1.101 alpha-1,6-d-mannotriose bacillus circulans//*//* 1.0 * +EC3.2.1.102 2,4-dinitrophenyl 2-acetamido-2-deoxy-d-galactopyranosyl-(1,3)-[alpha-l-fucopyranosyl-(1,2)]-beta-d-galactopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.064 * +EC3.2.1.102 blood group a glycoconjugate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.44 * +EC3.2.1.102 blood group b glycoconjugate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.57 * +EC3.2.1.102 galalpha1-3(fucalpha1-2)galbeta1-4(fucalpha1-3)glcnacbeta1-3-hexene-1,2,5,6-tetrol streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.67 * +EC3.2.1.102 galalpha1-3(fucalpha1-2)galbeta1-4glcnacbeta1-3-hexene-1,2,5,6-tetrol streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.36 * +EC3.2.1.102 galnacalpha1-3(fucalpha1-2)galbeta1-4glc streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.13 * +EC3.2.1.102 galnacalpha1-3(fucalpha1-2)galbeta1-4glcnacbeta1-3-hexene-1,2,5,6-tetrol streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.068 * +EC3.2.1.103 keratan sulfate citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.35 * +EC3.2.1.103 lacto-n-tetraose citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.91 * +EC3.2.1.103 paragloboside citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.3 * +EC3.2.1.105 5-methylstrictosidine catharanthus roseus//*//* 0.22 * +EC3.2.1.105 6-fluorostrictosidine catharanthus roseus//*//* 0.15 * +EC3.2.1.105 6-methoxystrictosidine catharanthus roseus//*//* 0.37 * +EC3.2.1.105 6-methylstrictosidine catharanthus roseus//*//* 0.071 * +EC3.2.1.105 7-fluorostrictosidine catharanthus roseus//*//* 0.12 * +EC3.2.1.105 7-methoxystrictosidine catharanthus roseus//*//* 0.43 * +EC3.2.1.105 7-methylstrictosidine catharanthus roseus//*//* 0.092 * +EC3.2.1.105 8-methylstrictosidine catharanthus roseus//*//* 0.14 * +EC3.2.1.105 dolichantoside catharanthus roseus//*//* 1.13 * +EC3.2.1.105 dolichantoside strychnos mellodora//*//* 0.564 * +EC3.2.1.105 palicoside catharanthus roseus//*//* 7.015 * +EC3.2.1.105 palicoside strychnos mellodora//*//* 0.335 * +EC3.2.1.105 strictosidine catharanthus roseus//*//* 0.01 * +EC3.2.1.105 strictosidine rauvolfia serpentina//*//* 0.12 * +EC3.2.1.105 strictosidine strychnos mellodora//*//* 0.12 * +EC3.2.1.105 strictosidine tabernaemontana divaricata//*//* 0.25 * +EC3.2.1.106 4-methylumbelliferyl alpha-d-glucopyranoside candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.133 * +EC3.2.1.106 4-methylumbelliferyl-alpha-d-glucoside entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.036 * +EC3.2.1.106 glc3man9glcnac2-pyridylamine aspergillus brasiliensis//*//* 0.0061 * +EC3.2.1.106 glcalpha(1->2)glcalpha(1->3)glcalpha(1->3)manalpha(1->2)manalpha(1->2)manalpha(1->3)manbeta(1->4)glcnacbeta(1->4)glcnacbeta-pyridylamine aspergillus brasiliensis//*//* 0.0042 * +EC3.2.1.106 nigerose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 230.0 * +EC3.2.1.107 2-o-alpha-d-glucopyranosyl-o-beta-d-galactopyranosylhydroxylysine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.2 * +EC3.2.1.107 2-o-alpha-d-glucopyranosyl-o-beta-d-galactopyranosylhydroxylysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7 * +EC3.2.1.108 2-o-beta-d-galactopyranosyl-d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 22.2 * +EC3.2.1.108 3-o-beta-d-galactopyranosyl-d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.5 * +EC3.2.1.108 4-o-beta-d-galactopyranosyl-d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 58.8 * +EC3.2.1.108 cellobiose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.2.1.108 cellobiose platyrrhini//*//* 2.78 * +EC3.2.1.108 daidzein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.149 * +EC3.2.1.108 genistein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.085 * +EC3.2.1.108 lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.0 * +EC3.2.1.108 lactose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 8.8 * +EC3.2.1.108 lactose platyrrhini//*//* 21.8 * +EC3.2.1.108 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.9 * +EC3.2.1.108 lactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.1 * +EC3.2.1.108 phlorizin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.2.1.108 phlorizin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.002 * +EC3.2.1.108 phlorizin platyrrhini//*//* 0.4 * +EC3.2.1.108 quercetin-3-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.046 * +EC3.2.1.108 quercetin-4'-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.044 * +EC3.2.1.11 dextran t-2000 aspergillus carneus//*//* 0.0003 * +EC3.2.1.11 dextran t-2000 talaromyces luteus//*//* 0.0004 * +EC3.2.1.11 dextran t2000 paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 1.83e-07 * +EC3.2.1.11 dextran t2000 pseudothermotoga lettingae//prokaryotes;bacteria;thermotogae;pseudothermotoga//tle 0.0095 * +EC3.2.1.11 dextran chaetomium erraticum//*//* 0.043 * +EC3.2.1.11 dextran fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 0.00011 * +EC3.2.1.11 dextran lipomyces starkeyi//*//* 0.003 * +EC3.2.1.11 dextran polystichum aculeatum//*//* 0.0002 * +EC3.2.1.11 dextran purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 3.2 * +EC3.2.1.11 dextran sporothrix schenckii//*//* 0.067 * +EC3.2.1.11 dextran streptococcus sobrinus//*//* 1.1 * +EC3.2.1.11 dextran streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.05 * +EC3.2.1.11 dextran talaromyces aculeatus//*//* 0.0555 * +EC3.2.1.11 dextran talaromyces funiculosus//*//* 0.025 * +EC3.2.1.11 isomaltoheptaose aspergillus carneus//*//* 1.3 * +EC3.2.1.11 isomaltoheptaose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.000288 * +EC3.2.1.11 isomaltoheptaose talaromyces luteus//*//* 2.1 * +EC3.2.1.11 isomaltohexaose aspergillus carneus//*//* 1.9 * +EC3.2.1.11 isomaltohexaose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.000386 * +EC3.2.1.11 isomaltohexaose talaromyces luteus//*//* 2.3 * +EC3.2.1.11 isomaltopentaose aspergillus carneus//*//* 4.1 * +EC3.2.1.11 isomaltopentaose paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.0004 * +EC3.2.1.11 isomaltopentaose talaromyces luteus//*//* 2.6 * +EC3.2.1.11 isomaltotetraose aspergillus carneus//*//* 6.5 * +EC3.2.1.11 isomaltotetraose talaromyces luteus//*//* 4.0 * +EC3.2.1.11 isomaltotriose aspergillus carneus//*//* 25.0 * +EC3.2.1.11 isomaltotriose talaromyces luteus//*//* 31.0 * +EC3.2.1.111 lacto-n-fucopentaitol ii prunus dulcis//*//* 0.101 * +EC3.2.1.111 lacto-n-fucopentaitol iii prunus dulcis//*//* 0.095 * +EC3.2.1.112 p-nitrophenyl-2-deoxy-alpha-d-glucoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.0 * +EC3.2.1.113 (man)6glcnac ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.26 * +EC3.2.1.113 (man)8glcnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.2.1.113 (man)9glcnac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC3.2.1.113 2-o-alpha-d-mannopyranosyl-d-mannose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.57 * +EC3.2.1.113 4-methylumbelliferyl alpha-d-mannopyranoside sporothrix schenckii//*//* 0.04 * +EC3.2.1.113 4-methylumbelliferyl-alpha-d-mannopyranoside candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.07 * +EC3.2.1.113 glycoprotein iv from ovalbumin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.55 * +EC3.2.1.113 manalpha(1-2)manalpha(1-3)manalpha(1-6)manalpha(1-2)manalpha(1-2)manalpha(1-3)manbeta(1-4)glcnac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.2.1.113 manalpha(1-2)manalpha(1-3)manbeta(1-4)glcnac aspergillus phoenicis//*//* 1.25 * +EC3.2.1.113 mannobiose aspergillus phoenicis//*//* 0.67 * +EC3.2.1.113 methyl-mannopyranosyl-mannopyranoside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.6 * +EC3.2.1.113 p-nitrophenyl-alpha-d-mannoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.087 * +EC3.2.1.114 2,4-dinitrophenyl alpha-d-mannoside drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 5.5 * +EC3.2.1.114 2-deoxy-2-fluoro-alpha-d-mannosyl fluoride drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 25.0 * +EC3.2.1.114 3-o-alpha-d-mannopyranosyl-alpha-d-mannopyranose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.0 * +EC3.2.1.114 4-methylumbelliferyl-alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC3.2.1.114 4-nitrophenyl alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.2.1.114 4-nitrophenyl alpha-d-mannoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 30.0 * +EC3.2.1.114 5-fluoro-beta-l-gulosyl fluoride drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.2 * +EC3.2.1.114 alpha-d-man-(1,6)-d-man aspergillus phoenicis//*//* 14.0 * +EC3.2.1.114 d-manalpha(1-6)(manalpha(1-3))manalpha(1-6)(glcnacbeta(1-2)manalpha(1-3))manbeta(1-4)glcnacbeta(1-4)glcnac-asn homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.2.1.114 manalpha(1,6)(manalpha(1,3))manbeta(1,4)glcnacbeta(1,4)glcnac aspergillus phoenicis//*//* 1.25 * +EC3.2.1.115 b-1298 soluble dextran flavobacterium sp.//*//* 0.21 * +EC3.2.1.115 b-1299 soluble dextran flavobacterium sp.//*//* 0.27 * +EC3.2.1.115 b-1397 soluble dextran flavobacterium sp.//*//* 0.91 * +EC3.2.1.116 amylopectin natronococcus sp.//*//* 49.0 * +EC3.2.1.116 amylose natronococcus sp.//*//* 19.0 * +EC3.2.1.116 gamma-cyclodextrin natronococcus sp.//*//* 6.8 * +EC3.2.1.116 glycogen natronococcus sp.//*//* 42.0 * +EC3.2.1.116 starch natronococcus sp.//*//* 25.0 * +EC3.2.1.117 (r)-amygdalin prunus serotina//*//* 1.65 * +EC3.2.1.119 (r)-prunasin davallia trichomanoides//*//* 3.2 * +EC3.2.1.119 (r)-vicianin davallia trichomanoides//*//* 4.9 * +EC3.2.1.119 p-nitrophenyl-beta-d-glucopyranoside davallia trichomanoides//*//* 3.39 * +EC3.2.1.120 tamarind xyloglucan thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.0024 * +EC3.2.1.120 xylbeta(1-6)glcbeta(1-4)(xylbeta(1-6))glcbeta(1-4)(xylbeta(1-6))glcbeta(1-4)glc oerskovia sp.//*//* 0.7 * +EC3.2.1.120 xyloglucan oligosaccharide thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.966 * +EC3.2.1.121 polymannuronic acid exopolysaccharide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.096 * +EC3.2.1.122 3,4-dinitrophenyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.004 * +EC3.2.1.122 3-o-(6-o-phosphono-alpha-d-glucopyranosyl)-alpha-d-fructofuranose clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.82 * +EC3.2.1.122 3-o-(6-o-phosphono-alpha-d-glucopyranosyl)-alpha-d-fructofuranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.68 * +EC3.2.1.122 4-nitrophenyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.014 * +EC3.2.1.122 6-o-(6-o-phosphono-alpha-d-glucopyranosyl)-beta-d-fructofuranose clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 2.47 * +EC3.2.1.122 6-o-(6-o-phosphono-alpha-d-glucopyranosyl)-beta-d-fructofuranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.42 * +EC3.2.1.122 isomaltose 6'-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 4.48 * +EC3.2.1.122 leucrose 6'-phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 1.87 * +EC3.2.1.122 leucrose 6'-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 5.63 * +EC3.2.1.122 maltitol 6-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.82 * +EC3.2.1.122 maltose 6'-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.36 * +EC3.2.1.122 maltose 6'-phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 1.95 * +EC3.2.1.122 maltose 6'-phosphate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 4.1 * +EC3.2.1.122 maltose 6'-phosphate fusobacterium mortiferum//*//* 0.9 * +EC3.2.1.122 maltose 6'-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.08 * +EC3.2.1.122 maltulose 6'-phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 1.11 * +EC3.2.1.122 maltulose 6'-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.2 * +EC3.2.1.122 methyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.5 * +EC3.2.1.122 p-nitrophenyl-alpha-d-glucopyranoside 6-phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.028 * +EC3.2.1.122 p-nitrophenyl-alpha-d-glucopyranoside 6-phosphate fusobacterium mortiferum//*//* 2.0 * +EC3.2.1.122 p-nitrophenyl-alpha-d-glucopyranoside 6-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.05 * +EC3.2.1.122 phenyl 6-phospho-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.038 * +EC3.2.1.122 trehalose 6-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.16 * +EC3.2.1.122 trehalulose 6'-phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 1.92 * +EC3.2.1.122 trehalulose 6'-phosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.23 * +EC3.2.1.123 2-n-hexadecanoylamino-4-nitrophenyl-o-beta-lactoside corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 1.4 * +EC3.2.1.123 2-n-hexadecanoylamino-4-nitrophenyl-o-beta-lactoside rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.9 * +EC3.2.1.123 4-methylumbelliferyl beta-d-glucoside cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.34 * +EC3.2.1.123 4-nitrophenyl-beta-d-glucoside cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.817 * +EC3.2.1.123 c6-7-nitro-2,1,3-benzoxadiazole-glucosylceramide cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0058 * +EC3.2.1.123 d-erythro-dihydrosphingosine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.3 * +EC3.2.1.123 d-erythro-sphingosine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.04 * +EC3.2.1.123 galbeta(1-3)galnacbeta(1-4)(neuacalpha(2-3))galbeta(1-4)glcbeta(1-1)ceramide corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.15 * +EC3.2.1.123 galbeta(1-3)galnacbeta(1-4)(neuacalpha(2-3))galbeta(1-4)glcbeta(1-1)ceramide cyanea nozakii//*//* 0.35 * +EC3.2.1.123 galbeta(1-3)galnacbeta(1-4)(neuacalpha(2-8)neuacalpha(2-3))galbeta(1-4)glcbeta(1-1)ceramide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.28 * +EC3.2.1.123 galbeta(1-3)galnacbeta(1-4)galbeta(1-4)glcbeta(1-1)ceramide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.1 * +EC3.2.1.123 galbeta1-6galbeta1-6galbeta1-1'ceramide rhodococcus hoagii//*//* 0.43 * +EC3.2.1.123 galnacbeta(1-4)galbeta(1-4)glcbeta(1-1)ceramide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.047 * +EC3.2.1.123 ganglioside gb3cer rhodococcus hoagii//*//* 0.23 * +EC3.2.1.123 ganglioside gm1a rhodococcus hoagii//*//* 0.4 * +EC3.2.1.123 neuacalpha(2-3)galbeta(1-4)glcbeta(1-1)ceramide rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.044 * +EC3.2.1.123 resorufin cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0436 * +EC3.2.1.125 1,2,19,20-tetrahydroraucaffricine rauvolfia serpentina//*//* 2.0 * +EC3.2.1.125 1,2-dihydro-1-methylraucaffricine rauvolfia serpentina//*//* 1.4 * +EC3.2.1.125 1,2-dihydroraucaffricine rauvolfia serpentina//*//* 1.5 * +EC3.2.1.125 17-o-deacetyl-1,2-dihydroraucaffricine rauvolfia serpentina//*//* 1.7 * +EC3.2.1.125 raucaffricine rauvolfia serpentina//*//* 1.3 * +EC3.2.1.125 strictosidine rauvolfia serpentina//*//* 1.8 * +EC3.2.1.126 2-nitrophenyl beta-d-galactoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 3.0 * +EC3.2.1.126 4-methylumbelliferyl beta-d-glucosaminide cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.9 * +EC3.2.1.126 4-methylumbelliferyl beta-d-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.4 * +EC3.2.1.126 4-methylumbelliferyl beta-d-glucoside picea abies//*//* 1.0 * +EC3.2.1.126 4-methylumbelliferyl beta-d-glucoside pinus contorta//*//* 2.3 * +EC3.2.1.126 4-nitrophenyl beta-d-glucoside picea abies//*//* 0.7 * +EC3.2.1.126 4-nitrophenyl beta-d-glucoside pinus contorta//*//* 1.9 * +EC3.2.1.126 arbutin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.021 * +EC3.2.1.126 coniferin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.023 * +EC3.2.1.126 coniferin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 7.0 * +EC3.2.1.126 coniferin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.8 * +EC3.2.1.126 coniferin picea abies//*//* 0.38 * +EC3.2.1.126 coniferin pinus contorta//*//* 0.18 * +EC3.2.1.126 formononetin 7-beta-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.3 * +EC3.2.1.126 o-nitrophenyl beta-d-glucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.06 * +EC3.2.1.126 p-coumaryl beta-d-glucoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.2 * +EC3.2.1.126 p-nitrophenyl alpha-l-arabinofuranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.27 * +EC3.2.1.126 p-nitrophenyl beta-d-fucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.08 * +EC3.2.1.126 p-nitrophenyl beta-d-galactopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.0 * +EC3.2.1.126 p-nitrophenyl beta-d-glucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.012 * +EC3.2.1.126 p-nitrophenyl beta-d-xylopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.005 * +EC3.2.1.126 picein cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.6 * +EC3.2.1.126 picein picea abies//*//* 0.6 * +EC3.2.1.126 salicin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.045 * +EC3.2.1.126 syringin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.1 * +EC3.2.1.126 syringin cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 5.0 * +EC3.2.1.126 syringin picea abies//*//* 1.8 * +EC3.2.1.126 syringin pinus contorta//*//* 0.29 * +EC3.2.1.127 alpha-l-fucosyl asialo-agalacto-fetuin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.77e-06 * +EC3.2.1.128 glycyrrhizinic acid anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 10.98 * +EC3.2.1.129 k1 antigen escherichia virus k1e//*//* 10.6 * +EC3.2.1.129 k1 antigen phage e//*//* 7.41 * +EC3.2.1.129 oligosialic acid enterobacteria phage k1f//*//* 1.2 * +EC3.2.1.129 polysialic acid enterobacteria phage k1f//*//* 0.0066 * +EC3.2.1.129 polysialic acid escherichia virus k1e//*//* 1.0 * +EC3.2.1.129 trifluoromethylumbelliferyl sialotrioside enterobacteria phage k1f//*//* 0.68 * +EC3.2.1.130 4-methylumbelliferyl (alpha-d-glucopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.404 * +EC3.2.1.130 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.827 * +EC3.2.1.130 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.038 * +EC3.2.1.130 alpha-glucopyranosyl-(1->3)-alpha-mannopyranosyl fluoride bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.48 * +EC3.2.1.130 alpha-glucopyranosyl-(1->3)-alpha-mannopyranosyl fluoride bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.7 * +EC3.2.1.131 4-o-me-glca-alpha-(1->2)-xyl-beta(1->4)-xyl bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 19.5 * +EC3.2.1.131 4-o-methyl-beta-d-glucopyranuetaronosyl-(1->2)-b-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranose pseudothermotoga thermarum//prokaryotes;bacteria;thermotogae;pseudothermotoga//tta 3.0 * +EC3.2.1.131 aldobiouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.53 * +EC3.2.1.131 aldopentaouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.42 * +EC3.2.1.131 aldotetraouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.36 * +EC3.2.1.131 aldotetraouronic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.2 * +EC3.2.1.131 aldotriouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.28 * +EC3.2.1.131 beechwood xylan bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.4 * +EC3.2.1.131 birchwood xylan bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.3 * +EC3.2.1.131 xyl-beta-(1->4)-[4-o-me-glca-alpha-(1->2)]-xyl-beta(1->4)-xyl bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 4.5 * +EC3.2.1.132 4-methylumbelliferyl beta-chitotrioside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.21 * +EC3.2.1.132 chitohexaose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.9 * +EC3.2.1.132 chitosan bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.000327 * +EC3.2.1.132 glcn-beta-(1->4)-glcn-beta-(1->4)-glcn-beta-(1->4)-glcn-beta-(1->4)-glcn-beta-(1->4)-glcn aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.2 * +EC3.2.1.133 acarbose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.426 * +EC3.2.1.133 alpha-cyclodextrin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 0.43 * +EC3.2.1.133 beta-cyclodextrin bacillus thermoalkalophilus//*//* 0.128 * +EC3.2.1.133 beta-cyclodextrin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 1.48 * +EC3.2.1.133 beta-cyclodextrin thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.05 * +EC3.2.1.133 gamma-cyclodextrin staphylothermus marinus//prokaryotes;archaea;crenarchaeota;staphylothermus//smr 2.68 * +EC3.2.1.133 maltoheptaose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 1.5 * +EC3.2.1.133 maltoheptaose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 9.21 * +EC3.2.1.133 maltohexaose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 3.8 * +EC3.2.1.133 maltohexaose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 7.16 * +EC3.2.1.133 maltopentaose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 21.2 * +EC3.2.1.133 maltopentaose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 16.2 * +EC3.2.1.133 maltopentaose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 4.4 * +EC3.2.1.133 maltopentaose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 3.97 * +EC3.2.1.133 maltose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 63.43 * +EC3.2.1.133 maltotetraose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 18.8 * +EC3.2.1.133 maltotetraose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 18.2 * +EC3.2.1.133 maltotetraose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 1.6 * +EC3.2.1.133 maltotetraose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 3.38 * +EC3.2.1.133 maltotriose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 8.4 * +EC3.2.1.133 maltotriose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 4.25 * +EC3.2.1.133 maltotriose thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 3.6 * +EC3.2.1.133 maltotriose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 1.13 * +EC3.2.1.133 soluble starch thermoplasma volcanium//prokaryotes;archaea;euryarchaeota;thermoplasma//tvo 4.1 * +EC3.2.1.134 bis-d-fructose 2',1:2,1' dianhydride aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 241.0 * +EC3.2.1.134 inulobiose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 377.0 * +EC3.2.1.135 pullulan uncultured microorganism//*//* 1.22 * +EC3.2.1.137 d-mannan cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 2.5 * +EC3.2.1.139 (3beta)-30-hydroxy-11,30-dioxoolean-12-en-3-yl 2-o-beta-d-glucopyranuronosyl-alpha-d-glucopyranosiduronic acid bacteroides sp.//prokaryotes;bacteria;bacteroidetes;parabacteroides//pary 0.12 * +EC3.2.1.139 2-o-(4-methyl-alpha-d-glucopyranosyluronic acid)-d-xylose helix pomatia//*//* 17.6 * +EC3.2.1.139 2-o-alpha-(4-o-methyl-alpha-d-glucopyranosyluronic)-d-xylobiose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.78 * +EC3.2.1.139 2-o-alpha-d-glucopyranosyluronic acid-d-xylose helix pomatia//*//* 0.33 * +EC3.2.1.139 4-nitrophenyl 2-(4-o-methyl-alpha-d-glucopyranosyl)-beta-d-xylopyranoside aspergillus tubingensis//*//* 0.58 * +EC3.2.1.139 4-nitrophenyl 2-(4-o-methyl-alpha-d-glucopyranosyl)-beta-d-xylopyranoside aureobasidium pullulans//*//* 0.21 * +EC3.2.1.139 4-nitrophenyl 2-(4-o-methyl-alpha-d-glucopyranosyl)-beta-d-xylopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.39 * +EC3.2.1.139 4-nitrophenyl-2-o-(4-o-methyl-alpha-d-glucuronosyl)-beta-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.21 * +EC3.2.1.139 4-o-methyl-beta-d-glucopyranuetaronosyl-(1->2)-b-d-xylopyranosyl-(1->4)-beta-d-xylopyranosyl-(1->4)-beta-d-xylopyranose paenibacillus curdlanolyticus//*//* 1.67 * +EC3.2.1.139 4-o-methyl-glucuronosyl-xylobiose thermoanaerobacterium sp.//*//* 0.76 * +EC3.2.1.139 4-o-methyl-glucuronosyl-xylobiose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.95 * +EC3.2.1.139 4-o-methyl-glucuronosyl-xylotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.37 * +EC3.2.1.139 4-o-methyl-glucuronosyl-xylotriose thermoascus aurantiacus//*//* 0.145 * +EC3.2.1.139 aldobiouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.53 * +EC3.2.1.139 aldopentaouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.42 * +EC3.2.1.139 aldotetraouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.36 * +EC3.2.1.139 aldotetraouronic acid geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.2 * +EC3.2.1.139 aldotriouronic acid cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.28 * +EC3.2.1.139 glucuronosyl-xylotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.77 * +EC3.2.1.139 o-alpha-d-glucopyranosyluronic acid-alpha-d-glucopyranosiduronic acid helix pomatia//*//* 0.36 * +EC3.2.1.139 p-nitrophenyl alpha-d-glucopyranosyluronic acid helix pomatia//*//* 0.13 * +EC3.2.1.139 p-nitrophenyl alpha-d-glucuronopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.1 * +EC3.2.1.139 p-nitrophenyl-alpha-d-glucuronopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.0 * +EC3.2.1.14 3,4-dinitrophenyltetra-n-acetyl-beta-d-chitotetraoside vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.0075 * +EC3.2.1.14 4-methyl-2-oxo-2h-chromen-7-yl 2-(acetylamino)-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-2-deoxy-beta-d-glucopyranoside bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.0553 * +EC3.2.1.14 4-methylumbelliferyl beta-n,n',n''-triacetylchitotrioside ficus pumila var. awkeotsang//*//* 0.076 * +EC3.2.1.14 4-methylumbelliferyl beta-n,n',n''-triacetylchitotrioside manduca sexta//*//* 0.29 * +EC3.2.1.14 4-methylumbelliferyl beta-n,n'-diacetylchitobioside bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.009 * +EC3.2.1.14 4-methylumbelliferyl chitobioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.2.1.14 4-methylumbelliferyl chitobioside macaca fascicularis//eukaryotes;animals;vertebrates;mammals//mcf 0.007 * +EC3.2.1.14 4-methylumbelliferyl-(4-deoxy)chitobiose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n,n',n''-triacetyl-chitotriose autographa californica//*//* 0.0035 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n,n',n''-triacetyl-chitotriose litopenaeus vannamei//*//* 0.165 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n,n',n''-triacetylchitotriose clostridium paraputrificum//*//* 0.00044 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n,n',n''-triacetylchitotrioside pochonia chlamydosporia//*//* 0.00965 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n,n',n''-triacetylchitotrioside serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0068 * +EC3.2.1.14 4-methylumbelliferyl-beta-d-n-n'-n''-triacetylchitotrioside serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0042 * +EC3.2.1.14 4-methylumbelliferyl-n,n',n''-triacetylchitotriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC3.2.1.14 4-methylumbelliferyl-n,n',n''-triacetylchitotriose vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 0.00261 * +EC3.2.1.14 4-methylumbelliferyl-n,n'-diacetylchitobiose vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 0.00775 * +EC3.2.1.14 4-methylumbelliferyl-tri-n-acetylchitotriose bacillus circulans//*//* 0.0005 * +EC3.2.1.14 4-nitrophenyl 2-(acetylamino)-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-2-deoxy-beta-d-glucopyranoside trichoderma harzianum//*//* 0.9 * +EC3.2.1.14 4-nitrophenyl chitobioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.46 * +EC3.2.1.14 4-nitrophenyl n,n'-diacetyl-beta-d-chitobioside paenibacillus thermoaerophilus//*//* 1.4 * +EC3.2.1.14 4-nitrophenyl n-acetyl-beta-d-glucosamine trichoderma viride//*//* 0.54 * +EC3.2.1.14 4-nitrophenyl-chitobiose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.03 * +EC3.2.1.14 alpha-chitin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.129 * +EC3.2.1.14 chitin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 54.29 * +EC3.2.1.14 chitin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.9 * +EC3.2.1.14 chitin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 4.4 * +EC3.2.1.14 chitin stomoxys calcitrans//*//* 33.0 * +EC3.2.1.14 chitin triticum aestivum//*//* 2.0 * +EC3.2.1.14 chitohexaose tenebrio molitor//*//* 0.18 * +EC3.2.1.14 chitohexaose vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.218 * +EC3.2.1.14 chitopentaose hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.014 * +EC3.2.1.14 chitopentaose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.14 * +EC3.2.1.14 chitopentaose tenebrio molitor//*//* 0.023 * +EC3.2.1.14 chitotetraose tenebrio molitor//*//* 0.98 * +EC3.2.1.14 colloidal chitin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.23 * +EC3.2.1.14 colloidal chitin scorpaena scrofa//*//* 0.419 * +EC3.2.1.14 colloidal chitin streptomyces sp. da11//*//* 0.019 * +EC3.2.1.14 colloidal chitin trichoderma atroviride//*//* 1.9 * +EC3.2.1.14 glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnac vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.38 * +EC3.2.1.14 glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnac vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.174 * +EC3.2.1.14 glycol chitin pennahia argentata//*//* 0.521 * +EC3.2.1.14 methylumbelliferyl-beta-n',n',n'-triacetyl-chitotrioside tenebrio molitor//*//* 0.026 * +EC3.2.1.14 methylumbelliferyl-beta-n',n'-diacetyl-chitobioside tenebrio molitor//*//* 0.014 * +EC3.2.1.14 methylumbelliferyl-beta-n'-acetylglucosamine tenebrio molitor//*//* 0.05 * +EC3.2.1.14 n,n',n'',n''',n'''',n'''''-hexaacetylchitohexaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.53 * +EC3.2.1.14 p-nitrophenol-beta-d-n,n'-diacetylchitobioside thermococcus chitonophagus//prokaryotes;archaea;euryarchaeota;thermococcus//tch 0.14 * +EC3.2.1.14 p-nitrophenyl beta-d-n,n'-diacetylchitobiose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 54.7 * +EC3.2.1.14 p-nitrophenyl beta-d-n,n'-diacetylchitobiose metarhizium anisopliae//*//* 0.537 * +EC3.2.1.14 p-nitrophenyl beta-d-n,n'-diacetylchitobiose trichoderma harzianum//*//* 0.7 * +EC3.2.1.14 p-nitrophenyl-n,n'-diacetylchitobiose vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.288 * +EC3.2.1.14 powdered chitin streptomyces sp. da11//*//* 0.078 * +EC3.2.1.14 reduced chitopentaose bacillus circulans//*//* 0.081 * +EC3.2.1.14 reduced n-acetylchitopentaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.33 * +EC3.2.1.140 galbeta1-3glcnacbeta1-3galbeta1-4glc-pyridylamine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0068 * +EC3.2.1.140 p-nitrophenyl-gal-(1,3)-beta-glcnac bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.0068 * +EC3.2.1.140 p-nitrophenyl-lacto-n-bioside bifidobacterium bifidum jcm 1254//*//* 0.068 * +EC3.2.1.141 maltoheptaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.63 * +EC3.2.1.141 maltohexaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.63 * +EC3.2.1.141 maltooligosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.22 * +EC3.2.1.141 maltopentaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.86 * +EC3.2.1.141 maltopentaosyl trehalose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.2 * +EC3.2.1.141 maltopentaosyl trehalose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 4.9 * +EC3.2.1.141 maltopentaosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.89 * +EC3.2.1.141 maltopentaosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.89 * +EC3.2.1.141 maltosyl trehalose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 5.5 * +EC3.2.1.141 maltosyl trehalose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 16.7 * +EC3.2.1.141 maltosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 11.1 * +EC3.2.1.141 maltosylpentaosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.7 * +EC3.2.1.141 maltosyltetraosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.6 * +EC3.2.1.141 maltosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 22.4 * +EC3.2.1.141 maltosyltriosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.8 * +EC3.2.1.141 maltotetraose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.9 * +EC3.2.1.141 maltotetraosyl trehalose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 7.0 * +EC3.2.1.141 maltotetraosyl trehalose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 3.7 * +EC3.2.1.141 maltotetraosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.66 * +EC3.2.1.141 maltotetraosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.66 * +EC3.2.1.141 maltotriosyl trehalose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.6 * +EC3.2.1.141 maltotriosyl trehalose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.7 * +EC3.2.1.141 maltotriosyl trehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.22 * +EC3.2.1.141 maltotriosyltrehalose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.22 * +EC3.2.1.142 2-chloro-4-nitrophenyl maltotriosyl-alpha(1->6)-maltotriosyl-beta-d-glucose hordeum vulgare//*//* 0.135 * +EC3.2.1.142 4,6-o-benzylidene-2-chloro-4-nitrophenyl-beta-63-alpha-d-maltotriosyl-maltotrioside oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.192 * +EC3.2.1.142 4,6-o-benzylidene-4-methylumbelliferyl-beta-63-alpha-d-maltotriosyl-maltotrioside oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.052 * +EC3.2.1.142 6-alpha-maltosylmaltotetraose avena sativa//*//* 0.2 * +EC3.2.1.142 6-alpha-maltosylmaltotriose avena sativa//*//* 0.2 * +EC3.2.1.142 6-alpha-maltotriosylmaltotetraose avena sativa//*//* 0.2 * +EC3.2.1.142 6-alpha-maltotriosylmaltotetraose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.6 * +EC3.2.1.142 6-alpha-maltotriosylmaltotetraose sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 1.5 * +EC3.2.1.142 6-alpha-maltotriosylmaltotetraose vicia faba//*//* 0.16 * +EC3.2.1.142 6-alpha-maltotriosylmaltotriose avena sativa//*//* 0.2 * +EC3.2.1.142 amylopectin beta-limit dextrin pisum sativum//*//* 3.24 * +EC3.2.1.142 amylopectin beta-limit dextrin sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 1.5 * +EC3.2.1.142 amylopectin beta-limit dextrin vicia faba//*//* 0.6 * +EC3.2.1.142 glycogen beta-limit dextrin sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 26.0 * +EC3.2.1.142 pullulan sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.4 * +EC3.2.1.143 (adp-ribose)15 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC3.2.1.143 (adp-ribose)15 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0054 * +EC3.2.1.143 (adp-ribose)n bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00058 * +EC3.2.1.143 (adp-ribose)n cavia porcellus//*//* 0.00058 * +EC3.2.1.143 poly(adp-ribose) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0003 * +EC3.2.1.143 poly(adp-ribose) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC3.2.1.145 beta-(1-3)-d-galactobiose irpex lacteus//*//* 31.6 * +EC3.2.1.145 beta-(1-3)-d-galactotriose irpex lacteus//*//* 19.9 * +EC3.2.1.145 beta-(1-3)-d-galactotriose raphanus sativus//*//* 0.77 * +EC3.2.1.145 beta-(1-3)-galactobiose raphanus sativus//*//* 1.77 * +EC3.2.1.145 p-nitrophenyl-beta-galactoside raphanus sativus//*//* 0.3 * +EC3.2.1.146 1-o-methyl-beta-d-galactofuranoside penicillium fellutanum//*//* 2.6 * +EC3.2.1.146 4-nitrophenyl 5-deoxy-beta-d-galactofuranoside penicillium fellutanum//*//* 1.29 * +EC3.2.1.146 4-nitrophenyl beta-d-galactofuranoside penicillium fellutanum//*//* 0.31 * +EC3.2.1.146 p-nitrophenyl beta-d-galactofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.87 * +EC3.2.1.146 p-nitrophenyl beta-d-galactofuranoside penicillium fellutanum//*//* 0.31 * +EC3.2.1.146 peptidophosphogalactomannan pp2gm penicillium fellutanum//*//* 0.8 * +EC3.2.1.147 4-deoxyglucotropaeolin lepidium sativum//*//* 0.033 * +EC3.2.1.147 4-nitrophenyl beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 28.0 * +EC3.2.1.147 6-deoxyglucotropaeolin lepidium sativum//*//* 0.068 * +EC3.2.1.147 epi-progoitrin crambe hispanica subsp. abyssinica//*//* 0.24 * +EC3.2.1.147 glucotropaeolin brevicoryne brassicae//*//* 0.52 * +EC3.2.1.147 glucotropaeolin lepidium sativum//*//* 0.075 * +EC3.2.1.147 p-nitrophenyl beta-d-glucopyranoside enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.71 * +EC3.2.1.147 p-nitrophenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.5 * +EC3.2.1.147 p-nitrophenyl-beta-d-glucopyranoside raphanus sativus//*//* 14.0 * +EC3.2.1.147 p-nitrophenyl-beta-d-glucopyranoside sinapis alba//*//* 4.0 * +EC3.2.1.147 p-nitrophenyl-beta-d-glucoside aspergillus sydowii//*//* 0.1 * +EC3.2.1.147 progoitrin crambe hispanica subsp. abyssinica//*//* 0.14 * +EC3.2.1.147 sinigrin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.045 * +EC3.2.1.147 sinigrin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.3 * +EC3.2.1.147 sinigrin aspergillus sydowii//*//* 3.6 * +EC3.2.1.147 sinigrin brassica juncea//*//* 0.094 * +EC3.2.1.147 sinigrin brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.03 * +EC3.2.1.147 sinigrin brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.086 * +EC3.2.1.147 sinigrin brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.045 * +EC3.2.1.147 sinigrin brevicoryne brassicae//*//* 0.41 * +EC3.2.1.147 sinigrin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 2.24 * +EC3.2.1.147 sinigrin crambe hispanica subsp. abyssinica//*//* 0.17 * +EC3.2.1.147 sinigrin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.37 * +EC3.2.1.147 sinigrin eutrema japonicum//*//* 0.47 * +EC3.2.1.147 sinigrin lepidium sativum//*//* 0.115 * +EC3.2.1.147 sinigrin raphanus sativus//*//* 0.023 * +EC3.2.1.147 sinigrin sinapis alba//*//* 0.06 * +EC3.2.1.149 2-phenylethyl 6-o-beta-d-xylopyranosyl-beta-d-glucopyranoside camellia sinensis//*//* 2.0 * +EC3.2.1.149 2-phenylethyl beta-primeveroside camellia sinensis//*//* 2.0 * +EC3.2.1.149 2-phenylethyl beta-vicianoside camellia sinensis//*//* 2.0 * +EC3.2.1.149 2-phenylethyl-6-o-alpha-d-arabinosyl-beta-d-glucopyranoside camellia sinensis//*//* 14.9 * +EC3.2.1.149 eugenyl beta-primeveroside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 6.3 * +EC3.2.1.149 eugenyl beta-primeveroside penicillium multicolor//*//* 2.8 * +EC3.2.1.149 p-nitrophenyl 6-o-beta-d-xylopyranosyl-beta-d-glucopyranoside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.9 * +EC3.2.1.149 p-nitrophenyl beta-d-glucopyranoside penicillium multicolor//*//* 47.0 * +EC3.2.1.149 p-nitrophenyl beta-gentiobioside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 6.3 * +EC3.2.1.149 p-nitrophenyl beta-gentiobioside penicillium multicolor//*//* 21.0 * +EC3.2.1.149 p-nitrophenyl beta-primeveroside penicillium multicolor//*//* 12.0 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.67 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 7.1e-05 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate galactomyces reessii//*//* 3.98 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate geotrichum klebahnii//*//* 4.26 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate acrocylindrium sp.//*//* 8.4 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.82 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 6.4e-05 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate galactomyces reessii//*//* 2.77 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate geotrichum klebahnii//*//* 2.2 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate acrocylindrium sp.//*//* 4.8 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.89 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 5.2e-05 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate galactomyces reessii//*//* 0.71 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate geotrichum klebahnii//*//* 0.87 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.7 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 2.3e-05 * +EC3.2.1.15 alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonosyl-(1,4)-o-alpha-d-galacturonate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 1.6e-05 * +EC3.2.1.15 pectate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0196 * +EC3.2.1.15 pectate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.014 * +EC3.2.1.15 pectin aspergillus foetidus//*//* 4.52 * +EC3.2.1.15 pectin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.155 * +EC3.2.1.15 pectin kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 48.8 * +EC3.2.1.15 poly-d-galacturonic acid borassus flabellifer//*//* 0.33 * +EC3.2.1.15 polygalacturonic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.34 * +EC3.2.1.15 polygalacturonic acid galactomyces reessii//*//* 0.05 * +EC3.2.1.15 polygalacturonic acid geotrichum klebahnii//*//* 0.04 * +EC3.2.1.15 polygalacturonic acid kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.17 * +EC3.2.1.15 polygalacturonic acid sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.2 * +EC3.2.1.151 2-chloro-4-nitrophenyl glcbeta(1->4)glcbeta(1->4)glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.029 * +EC3.2.1.151 2-chloro-4-nitrophenyl glcbeta(1->4)glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.361 * +EC3.2.1.151 xxxg trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.12 * +EC3.2.1.151 xylalpha(1->6)glcbeta(1->4)[galbeta(1->2)xylalpha(1->6)]glcbeta(1->4)[galbeta(1->2)xylalpha(1->6)]glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.998 * +EC3.2.1.151 xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)xylalpha(1->6)glcbeta(1->4)glcbeta paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.134 * +EC3.2.1.151 xyloglucan aspergillus aculeatus//*//* 3.6 * +EC3.2.1.151 xyloglucan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.54 * +EC3.2.1.151 xyloglucan pisum sativum//*//* 0.64 * +EC3.2.1.151 xyloglucan tropaeolum majus//*//* 0.08 * +EC3.2.1.151 xyloglucan vigna angularis//eukaryotes;plants;eudicots;pea family//var 1.0 * +EC3.2.1.152 man-alpha-(1-6)man-beta-(1-4)glcnac-beta-(1-4)glcnac-pyridylamine lilium longiflorum//*//* 1.2 * +EC3.2.1.152 manalpha(1-6)manbeta(1-4)glcnacbeta(1-4)glcnac-pyridylaminoside brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.54 * +EC3.2.1.153 1,1,1-kestopentaose helianthus tuberosus//*//* 12.0 * +EC3.2.1.153 1,1-kestotetraose helianthus tuberosus//*//* 8.3 * +EC3.2.1.153 1,1-nystose cichorium intybus//*//* 64.0 * +EC3.2.1.153 1-kestose cichorium intybus//*//* 58.0 * +EC3.2.1.153 1-kestose triticum aestivum//*//* 7.0 * +EC3.2.1.154 6-kestose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 77.0 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.0024 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.005 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.0044 * +EC3.2.1.156 beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranosyl-(1-4)-beta-d-xylopyranose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.0185 * +EC3.2.1.156 d-xylose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 6.6 * +EC3.2.1.157 iota-carrageenan alteromonas fortis//*//* 8.5 * +EC3.2.1.159 neoagarobiose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 5.37 * +EC3.2.1.161 2-methyl-4'-nitro-isoflavone 7-o-beta-d-glucopyranoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.07 * +EC3.2.1.161 2-nitrophenyl-beta-d-glucopyranoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.7 * +EC3.2.1.161 4-methylumbelliferyl beta-d-glucoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.17 * +EC3.2.1.161 4-nitrophenyl-beta-d-fucoside dalbergia nigrescens//*//* 1.8 * +EC3.2.1.161 4-nitrophenyl-beta-d-galactopyranoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 2.0 * +EC3.2.1.161 4-nitrophenyl-beta-d-glucopyranoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 1.5 * +EC3.2.1.161 4-nitrophenyl-beta-d-glucopyranoside dalbergia nigrescens//*//* 14.7 * +EC3.2.1.161 apigenin 7-o-beta-d-glucopyranoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.05 * +EC3.2.1.161 biochanin a 7-o-[beta-d-apiofuranosyl-(1-6)-beta-d-glucopyranoside] cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.15 * +EC3.2.1.161 biochanin a 7-o-beta-d-glucopyranoside cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.02 * +EC3.2.1.161 daidzin dalbergia nigrescens//*//* 0.11 * +EC3.2.1.161 dalpaniculin-7-o-[beta-d-apiofuranosyl-(1-6)-beta-d-glucopyranoside] dalbergia nigrescens//*//* 0.7 * +EC3.2.1.161 dalpatein-7-o-[beta-d-apiofuranosyl-(1-6)-beta-d-glucopyranoside] dalbergia nigrescens//*//* 0.5 * +EC3.2.1.161 furcatin viburnum furcatum//*//* 2.2 * +EC3.2.1.161 genistin dalbergia nigrescens//*//* 0.09 * +EC3.2.1.161 p-nitrophenyl 6-o-beta-d-xylopyranosyl-beta-d-glucopyranoside viburnum furcatum//*//* 1.7 * +EC3.2.1.161 p-nitrophenyl beta-primeveroside viburnum furcatum//*//* 5.1 * +EC3.2.1.163 4-methylumbelliferyl alpha-d-mannopyranosyl-(1->6)-beta-d-mannopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.38 * +EC3.2.1.163 4-nitrophenyl alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.2.1.163 alpha-d-manp-(1-6)-d-manp aspergillus phoenicis//*//* 14.0 * +EC3.2.1.165 4-nitrophenyl beta-d-glucosaminide photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 0.69 * +EC3.2.1.165 4-nitrophenyl beta-d-glucoside photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 4.5 * +EC3.2.1.165 cellobiose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 28.6 * +EC3.2.1.165 cellotetraose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 18.8 * +EC3.2.1.165 cellotriose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 17.5 * +EC3.2.1.165 chitobiose photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 4.7 * +EC3.2.1.165 chitobiose talaromyces funiculosus//*//* 1.4 * +EC3.2.1.165 chitobiose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.37 * +EC3.2.1.165 chitohexaose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.365 * +EC3.2.1.165 chitopentaose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0778 * +EC3.2.1.165 chitotetraose talaromyces funiculosus//*//* 0.15 * +EC3.2.1.165 chitotetraose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.295 * +EC3.2.1.165 chitotriose talaromyces funiculosus//*//* 0.96 * +EC3.2.1.165 chitotriose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.27 * +EC3.2.1.165 glcn(beta1-4)glcn(beta1-4)glcn(beta1-4)glcn(beta1-4)glcn photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 1.4 * +EC3.2.1.165 glcn(beta1-4)glcn(beta1-4)glcn(beta1-4)glcn photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 1.2 * +EC3.2.1.165 glcn(beta1-4)glcn(beta1-4)glcn photobacterium profundum//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//ppr 2.5 * +EC3.2.1.166 fondaparinux homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.2.1.166 methyl 2-deoxy-6-o-sulfo-2-(sulfoamino)-alpha-d-glucopyranosyl-(1,4)-beta-d-glucopyranuronosyl-(1,4)-2-deoxy-3,6-di-o-sulfo-2-(sulfoamino)-d-glucopyranosyl-(1,4)-2-o-sulfo-alpha-l-idopyranuronosyl-(1,4)-2-deoxy-6-o-sulfo-2-(sulfoamino)-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.2.1.166 sulfated pg545 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0124 * +EC3.2.1.166 sulfated trisaccharide from pg545 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.197 * +EC3.2.1.167 4-nitrophenyl beta-d-glucuronide lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.154 * +EC3.2.1.167 5,6,7-trihydroxyflavone 7-o-beta-d-glucoronate scutellaria baicalensis//*//* 0.0098 * +EC3.2.1.167 5,6,7-trihydroxyflavone-7-beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.2.1.167 5,7-dihydroxy-6-methoxyflavone-7-o-beta-d-glucoronate scutellaria baicalensis//*//* 0.0391 * +EC3.2.1.167 5,7-dihydroxy-8-methoxyflavone-7-o-beta-d-glucoronate scutellaria baicalensis//*//* 0.0307 * +EC3.2.1.167 baicalin lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.5 * +EC3.2.1.168 hesperidin methylchalcone acremonium sp.//*//* 8.7 * +EC3.2.1.168 hesperidin acremonium sp.//*//* 1.77 * +EC3.2.1.169 3,4-dinitrophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.2.1.169 3-fluoro-4-nitrophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.2.1.169 3-nitrophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.2.1.169 4-chlorophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.2.1.169 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.0029 * +EC3.2.1.169 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.2.1.169 4-methylumbelliferyl n-difluoroacetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.2.1.169 4-methylumbelliferyl n-fluoroacetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.2.1.169 4-methylumbelliferyl n-trifluoroacetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.2.1.169 4-methylumbelliferyl-n-acetyl-beta-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.0029 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.28 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.121 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-glucosaminide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.998 * +EC3.2.1.169 4-nitrophenyl n-acetyl-beta-d-thioglucosaminide bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.4 * +EC3.2.1.169 4-nitrophenyl-beta-d-glcnac rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.2.1.169 fluorescein di(n-acetyl-beta-d-glucosaminide) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0849 * +EC3.2.1.169 n-acetyl-4-aminophenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC3.2.1.169 n-acetyl-beta-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.2.1.169 phenyl n-acetyl-beta-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC3.2.1.17 4-methylumbelliferyl-beta-d-n,n',n''-triacetylchitotrioside gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0008 * +EC3.2.1.17 p-nitrophenyl-n,n',n'',n''',n''''-pentaacetylchitopentaose liolophura japonica//*//* 8.33 * +EC3.2.1.172 2-o-(4-deoxy-beta-l-threo-hex-4-enopyranuronosyl)-alpha-l-rhamnopyranose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC3.2.1.173 alpha-d-gala-[(1->2)-alpha-l-rha-(1->4)-alpha-d-gala-]2-(1->2)-alpha-l-rha aspergillus aculeatus//*//* 0.21 * +EC3.2.1.173 alpha-d-gala-[(1->2)-alpha-l-rha-(1->4)-alpha-d-gala-]3-(1->2)-alpha-l-rha aspergillus aculeatus//*//* 0.075 * +EC3.2.1.173 alpha-d-gala-[(1->2)-alpha-l-rha-(1->4)-alpha-d-gala-]5-(1->2)-alpha-l-rha aspergillus aculeatus//*//* 0.085 * +EC3.2.1.175 beta-d-glucopyranosyl abscisate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.41 * +EC3.2.1.175 p-nitrophenyl-beta-d-glucopyranoside hordeum vulgare//*//* 1.8 * +EC3.2.1.176 2-chloro-4-nitrophenyl beta-d-cellobioside geotrichum candidum//*//* 0.84 * +EC3.2.1.176 4-methylumbelliferyl beta-d-lactoside rasamsonia emersonii//*//* 0.56 * +EC3.2.1.176 4-nitrophenyl beta-d-cellobioside geotrichum candidum//*//* 0.85 * +EC3.2.1.176 4-nitrophenyl beta-d-cellobioside thermoascus aurantiacus//*//* 0.67 * +EC3.2.1.176 4-nitrophenyl beta-d-lactoside geotrichum candidum//*//* 1.07 * +EC3.2.1.176 4-nitrophenyl beta-d-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.7 * +EC3.2.1.176 4-nitrophenyl lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.0016 * +EC3.2.1.176 cellopentaose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.4 * +EC3.2.1.177 4-nitrophenyl-alpha-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC3.2.1.177 4-nitrophenyl-alpha-d-xylopyranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.39 * +EC3.2.1.177 4-nitrophenyl-alpha-d-xyloside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.52 * +EC3.2.1.177 alpha-d-xylopyranosyl fluoride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC3.2.1.177 isoprimeverose cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 55.0 * +EC3.2.1.177 isoprimeverose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC3.2.1.177 xyl-alpha-(1->6)-glc-beta-(1->4)-glc cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.7 * +EC3.2.1.179 beta-d-4-deoxy-delta-4,5-glcap-(1->4)-beta-d-glcp-(1->4)-alpha-l-rhap-(1->3)-beta-d-glcp bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.09 * +EC3.2.1.179 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.381 * +EC3.2.1.179 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 18.6 * +EC3.2.1.18 (trifluoromethyl)umbelliferyl alpha-sialoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.06 * +EC3.2.1.18 2'-(4-methylumbelliferyl) alpha-d-n-acetylneuraminic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC3.2.1.18 2'-(4-methylumbelliferyl) alpha-d-n-acetylneuraminic acid trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.078 * +EC3.2.1.18 2'-(4-methylumbelliferyl)-alpha-d-n-acetylneuraminic acid human respirovirus 1//*//* 0.028 * +EC3.2.1.18 2'-(4-methylumbelliferyl)-alpha-d-n-acetylneuraminic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.4 * +EC3.2.1.18 2-(3-methoxyphenyl)-n-acetylneuraminic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.2.1.18 2-(3-methoxyphenyl)-n-acetylneuraminic acid unidentified influenza virus//*//* 2.0 * +EC3.2.1.18 2-(4-methylumbelliferyl)-alpha-d-n-acetylneuraminic acid influenza a virus//*//* 0.16 * +EC3.2.1.18 2-(4-methylumbelliferyl)-alpha-d-n-acetylneuraminic acid trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.15 * +EC3.2.1.18 2-(4-methylumbelliferyl)-alpha-d-n-acetylneuraminic acid unidentified influenza virus//*//* 0.0063 * +EC3.2.1.18 2-o-(3-methoxyphenyl)neuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.6 * +EC3.2.1.18 4-methylumbelliferyl alpha-d-n-acetylneuraminic acid aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 3.3 * +EC3.2.1.18 4-methylumbelliferyl alpha-d-n-acetylneuraminic acid bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.16 * +EC3.2.1.18 4-methylumbelliferyl alpha-neuac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.2.1.18 4-methylumbelliferyl alpha-sialoside corynebacterium diphtheriae//prokaryotes;bacteria;actinobacteria;corynebacterium//cdi 7.9 * +EC3.2.1.18 4-methylumbelliferyl d-n-acetylneuraminyl-alpha-(2->3)-d-galactopyranoside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 3.1 * +EC3.2.1.18 4-methylumbelliferyl-3-deoxy-d-glycero-d-galactononulosonic acid sphingobacterium multivorum//*//* 0.04 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid actinomyces viscosus//*//* 0.1 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid avian avulavirus 1//*//* 0.5 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid clostridium chauvoei//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cchv 0.09 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.08 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.059 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid murine respirovirus//*//* 0.11 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 0.25 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.07 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.0187 * +EC3.2.1.18 4-methylumbelliferyl-alpha-d-n-acetylneuraminic acid trypanosoma evansi//*//* 0.00017 * +EC3.2.1.18 4-nitrophenyl alpha-d-n-acetylneuraminic acid bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.11 * +EC3.2.1.18 4-nitrophenyl alpha-d-n-acetylneuraminic acid photobacterium damselae//prokaryotes;bacteria;gammaproteobacteria - others;photobacterium//pds 53.0 * +EC3.2.1.18 4-nitrophenyl alpha-sialoside corynebacterium diphtheriae//prokaryotes;bacteria;actinobacteria;corynebacterium//cdi 7.3 * +EC3.2.1.18 4-nitrophenyl alpha-sialoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.09 * +EC3.2.1.18 5-n-acetyl-2-o-(3-methoxyphenyl)-alpha-d-neuraminic acid unidentified influenza virus//*//* 4.1 * +EC3.2.1.18 alpha(2-3)-sialyllactose corynebacterium diphtheriae//prokaryotes;bacteria;actinobacteria;corynebacterium//cdi 5.5 * +EC3.2.1.18 alpha(2-3)-sialyllactose entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.144 * +EC3.2.1.18 alpha(2-3)-sialyllactose trypanosoma evansi//*//* 0.0049 * +EC3.2.1.18 alpha(2-3)sialyllactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.2.1.18 alpha(2-3)sialylparagloboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.2.1.18 alpha(2-6)-sialyllactose corynebacterium diphtheriae//prokaryotes;bacteria;actinobacteria;corynebacterium//cdi 7.0 * +EC3.2.1.18 alpha-(2-3)-sialyllactose influenza a virus//*//* 0.18 * +EC3.2.1.18 alpha-(2-6)-sialyllactose influenza a virus//*//* 0.52 * +EC3.2.1.18 alpha-phenyl-n-acetylneuraminoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC3.2.1.18 alpha-sialyllactose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.3 * +EC3.2.1.18 alpha-sialyllactose corynebacterium diphtheriae//prokaryotes;bacteria;actinobacteria;corynebacterium//cdi 1.2 * +EC3.2.1.18 alpha-sialyllactose erysipelothrix rhusiopathiae//prokaryotes;bacteria;firmicutes - others;erysipelothrix//erh 0.86 * +EC3.2.1.18 alpha-sialyllactose micromonospora viridifaciens//*//* 2.1 * +EC3.2.1.18 alpha-sialyllactose paenarthrobacter ureafaciens//*//* 0.6 * +EC3.2.1.18 alpha-sialyllactose paeniclostridium sordellii//prokaryotes;bacteria;firmicutes - clostridia;paeniclostridium//psor 0.5 * +EC3.2.1.18 alpha-sialyllactose vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 1.0 * +EC3.2.1.18 alpha1-acid glycoprotein streptococcus oralis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sor 0.01 * +EC3.2.1.18 bovine submaxillary mucin streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.36 * +EC3.2.1.18 colominic acid bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.29 * +EC3.2.1.18 colominic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.47 * +EC3.2.1.18 fetuin clostridium chauvoei//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cchv 0.008 * +EC3.2.1.18 fetuin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.2.1.18 fetuin mannheimia haemolytica//prokaryotes;bacteria;gammaproteobacteria - others;mannheimia//mht 0.1 * +EC3.2.1.18 fetuin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC3.2.1.18 fetuin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.2.1.18 fetuin trypanosoma evansi//*//* 0.0029 * +EC3.2.1.18 fetuin trypanosoma vivax//*//* 0.45 * +EC3.2.1.18 fetuin unidentified influenza virus//*//* 0.06 * +EC3.2.1.18 galp(beta1,2)[galp(beta1,3)]gal trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.08 * +EC3.2.1.18 galp(beta1,2)[galp(beta1,3)]galobn trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.17 * +EC3.2.1.18 galp(beta1,2)[galp(beta1,3)]galol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.25 * +EC3.2.1.18 galp(beta1,2)[galp(beta1,3)]galp(beta1,6)[galf(beta1,4)]glcnac trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.17 * +EC3.2.1.18 galp(beta1,2)[galp(beta1,3)]galp(beta1,6)[galf(beta1,4)]glcnacobn trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.1 * +EC3.2.1.18 galp(beta1,2)[galp(beta1,3)]galp(beta1,6)[galf(beta1,4)]glcnacol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.82 * +EC3.2.1.18 galp(beta1,2)galf(beta1,4)glcnac trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.27 * +EC3.2.1.18 galp(beta1,2)galf(beta1,4)glcnacobn trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.31 * +EC3.2.1.18 galp(beta1,2)galf(beta1,4)glcnacol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.09 * +EC3.2.1.18 galp(beta1,3)galp(beta1,6)[galf(beta1,4)]glcnac trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.35 * +EC3.2.1.18 galp(beta1,3)galp(beta1,6)[galf(beta1,4)]glcnacobn trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.07 * +EC3.2.1.18 galp(beta1,3)galp(beta1,6)[galf(beta1,4)]glcnacol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.18 * +EC3.2.1.18 galp(beta1,6)[galf(beta1,4)]glcnac trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.15 * +EC3.2.1.18 galp(beta1,6)[galf(beta1,4)]glcnacol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.08 * +EC3.2.1.18 galp(beta1,6)glcnac trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.17 * +EC3.2.1.18 galp(beta1,6)glcnacobn trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.05 * +EC3.2.1.18 galp(beta1,6)glcnacol trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.08 * +EC3.2.1.18 ganglioside gd1a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.2.1.18 ganglioside gd1b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.2.1.18 ganglioside gm3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.2.1.18 ganglioside gt1b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.2.1.18 gd1a bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.2.1.18 gd1a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.2.1.18 gd1a oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC3.2.1.18 gd1a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.75 * +EC3.2.1.18 gd1b bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.2.1.18 gd1b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.2.1.18 gd1b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.19 * +EC3.2.1.18 glucomacropeptide glutamicibacter nicotianae//*//* 0.083 * +EC3.2.1.18 gm1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.06 * +EC3.2.1.18 gm2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.2.1.18 gm3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.2.1.18 gm3 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.09 * +EC3.2.1.18 gq1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.2.1.18 gt1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.2.1.18 gt1b bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,3-lactose clostridium chauvoei//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cchv 2.2 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,3-lactose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.6 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,3-lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.9 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,6-galactose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.8 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,6-lactose clostridium chauvoei//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cchv 2.0 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,6-lactose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.2 * +EC3.2.1.18 n-acetylneuraminic acid-alpha-2,6-lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC3.2.1.18 n-acetylneuraminyllactose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.78 * +EC3.2.1.18 n-acetylneuraminyllactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.2.1.18 n-acetylneuraminyllactose streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.8 * +EC3.2.1.18 n-acetylneuraminyllactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.2.1.18 n-glycoloylneuraminic acid-alpha-2,3-lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.2.1.18 n[(5-acetamido-3,5-dideoxy-d-glycero-alpha-d-galacto-non-2-ulopyranosyl)onate]-3,4-dimethylpyridinium influenza a virus//*//* 0.261 * +EC3.2.1.18 n[(5-acetamido-3,5-dideoxy-d-glycero-alpha-d-galacto-non-2-ulopyranosyl)onate]-3-methylpyridinium influenza a virus//*//* 0.138 * +EC3.2.1.18 n[(5-acetamido-3,5-dideoxy-d-glycero-alpha-d-galacto-non-2-ulopyranosyl)onate]-4-methylpyridinium influenza a virus//*//* 0.45 * +EC3.2.1.18 n[(5-acetamido-3,5-dideoxy-d-glycero-alpha-d-galacto-non-2-ulopyranosyl)onate]pyridinium influenza a virus//*//* 0.021 * +EC3.2.1.18 neu5ac(2-3)-alpha-lactose trypanosoma vivax//*//* 0.17 * +EC3.2.1.18 neu5ac(alpha2,3)-lactose trypanosoma vivax//*//* 0.17 * +EC3.2.1.18 orosomucoid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.74 * +EC3.2.1.18 poly-alpha-2,8-lactose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.36 * +EC3.2.1.18 sialyl-alpha-2,3-lactose actinomyces viscosus//*//* 4.9 * +EC3.2.1.18 sialyl-alpha-2,3-lactose bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.47 * +EC3.2.1.18 sialyl-alpha-2,3-lactose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.53 * +EC3.2.1.18 sialyl-alpha-2,3-lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC3.2.1.18 sialyl-alpha-2,3-lactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC3.2.1.18 sialyl-alpha-2,3-lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.67 * +EC3.2.1.18 sialyl-alpha-2,6-lactose actinomyces viscosus//*//* 3.3 * +EC3.2.1.18 sialyl-alpha-2,6-lactose bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.49 * +EC3.2.1.18 sialyl-alpha-2,6-lactose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.7 * +EC3.2.1.18 sialyl-alpha-2,6-lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.81 * +EC3.2.1.18 sialyl-alpha-2,6-lactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.13 * +EC3.2.1.18 sialyl-alpha-2,6-lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.91 * +EC3.2.1.18 sialyllactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.68 * +EC3.2.1.18 sialyllactose corynebacterium ulcerans//prokaryotes;bacteria;actinobacteria;corynebacterium//cul 0.52 * +EC3.2.1.18 sialyllactose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC3.2.1.18 sialyllactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.92 * +EC3.2.1.18 transferrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.39 * +EC3.2.1.18 transferrin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.79 * +EC3.2.1.180 2,4,6-trichlorophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.58 * +EC3.2.1.180 2,4-dinitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.16 * +EC3.2.1.180 2,5-dinitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.59 * +EC3.2.1.180 2-(acetylamino)-2-deoxy-3-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-4-o-sulfo-d-galactopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 4.5 * +EC3.2.1.180 2-(acetylamino)-2-deoxy-3-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-6-o-sulfo-d-galactopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.7 * +EC3.2.1.180 2-(acetylamino)-2-deoxy-3-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-d-galactopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.0 * +EC3.2.1.180 2-deoxy-4-o-(4-deoxy-alpha-l-threo-hex-4-enopyranuronosyl)-2-(sulfoamino)-d-glucopyranose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.2 * +EC3.2.1.180 3-nitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.88 * +EC3.2.1.180 4-chlorophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.84 * +EC3.2.1.180 4-nitrophenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.26 * +EC3.2.1.180 4-tert-butylphenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.88 * +EC3.2.1.180 benzyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 9.0 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 1.27 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.1 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.18 * +EC3.2.1.180 beta-d-4-deoxy-delta4,5-glcap-(1->3)-beta-d-galnac6s streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.39 * +EC3.2.1.180 phenyl 4-deoxy-alpha-l-threo-hex-4-enopyranosiduronic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.2 * +EC3.2.1.181 beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranose flammulina velutipes//*//* 1.25 * +EC3.2.1.181 beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranosyl-(1->3)-beta-d-galactopyranose flammulina velutipes//*//* 0.57 * +EC3.2.1.182 2,4-dihydroxy-2h-1,4-benzoxazin-3(4h)-one beta-d-glucopyranoside triticum aestivum//*//* 1.34 * +EC3.2.1.182 2,4-dihydroxy-7-methoxy-2h-1,4-benzoxazin-3(4h)-one beta-d-glucopyranoside triticum aestivum//*//* 0.27 * +EC3.2.1.182 2-hydroxy-1,4-benzoxazin-3-one-beta-d-glucoside secale cereale//*//* 2.0 * +EC3.2.1.182 2-hydroxy-7-methoxy-3-oxo-3,4-dihydro-2h-1,4-benzoxazin-2-yl beta-d-glucopyranoside secale cereale//*//* 0.89 * +EC3.2.1.182 2-nitrophenyl beta-d-glucoside secale cereale//*//* 1.4 * +EC3.2.1.182 2-nitrophenyl-beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 1.64 * +EC3.2.1.182 4-methylumbelliferyl-beta-d-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.143 * +EC3.2.1.182 4-nitrophenyl beta-d-fucoside secale cereale//*//* 0.616 * +EC3.2.1.182 4-nitrophenyl beta-d-fucoside triticum aestivum//*//* 0.67 * +EC3.2.1.182 4-nitrophenyl beta-d-galactoside secale cereale//*//* 1.3 * +EC3.2.1.182 4-nitrophenyl beta-d-galactoside triticum aestivum//*//* 1.78 * +EC3.2.1.182 4-nitrophenyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 2.96 * +EC3.2.1.182 4-nitrophenyl beta-d-glucoside secale cereale//*//* 0.9 * +EC3.2.1.182 4-nitrophenyl beta-d-glucoside triticum aestivum//*//* 1.7 * +EC3.2.1.182 4-nitrophenyl beta-d-xyloside secale cereale//*//* 3.17 * +EC3.2.1.182 4-nitrophenyl beta-d-xyloside triticum aestivum//*//* 3.11 * +EC3.2.1.182 4-nitrophenyl-beta-d-cellobioside zea mays//eukaryotes;plants;monocots;grass family//zma 0.674 * +EC3.2.1.182 4-nitrophenyl-beta-d-fucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.648 * +EC3.2.1.182 4-nitrophenyl-beta-d-galactopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 4.32 * +EC3.2.1.182 4-nitrophenyl-beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.58 * +EC3.2.1.182 4-nitrophenyl-beta-d-mannopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.769 * +EC3.2.1.182 4-nitrophenyl-beta-d-xyloside zea mays//eukaryotes;plants;monocots;grass family//zma 0.394 * +EC3.2.1.182 7-methoxy-3-oxo-3,4-dihydro-2h-1,4 benzoxazin-2-yl beta-d-glucopyranoside triticum aestivum//*//* 2.02 * +EC3.2.1.182 diboa beta-d-glucoside secale cereale//*//* 3.3 * +EC3.2.1.182 diboa-glucoside secale cereale//*//* 0.8 * +EC3.2.1.182 diboa-glucoside triticum aestivum//*//* 1.05 * +EC3.2.1.182 diboa-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.52 * +EC3.2.1.182 dimboa beta-d-glucoside secale cereale//*//* 2.1 * +EC3.2.1.182 dimboa-glucoside secale cereale//*//* 0.617 * +EC3.2.1.182 dimboa-glucoside triticum aestivum//*//* 0.29 * +EC3.2.1.182 dimboa-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.07 * +EC3.2.1.182 esculin triticum aestivum//*//* 0.24 * +EC3.2.1.182 n-octyl-beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.251 * +EC3.2.1.183 udp-n-acetyl-alpha-d-glucosamine neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 1.49 * +EC3.2.1.183 udp-n-acetyl-alpha-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC3.2.1.184 udp-n,n'-diacetylbacillosamine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.0365 * +EC3.2.1.185 beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.85 * +EC3.2.1.185 beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranosyl-l-hydroxyproline bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.31 * +EC3.2.1.185 beta-l-arabinofuranosyl-l-hydroxyproline bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.43 * +EC3.2.1.186 4-methylumbelliferyl beta-d-glucoside solanum torvum//*//* 0.78 * +EC3.2.1.186 4-nitrophenyl beta-d-glucoside solanum torvum//*//* 1.03 * +EC3.2.1.186 protogracillin cheilocostus speciosus//*//* 0.05 * +EC3.2.1.186 torvoside a solanum torvum//*//* 0.063 * +EC3.2.1.186 torvoside h solanum torvum//*//* 0.068 * +EC3.2.1.187 4-o-(beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranosyl-(1->2)-beta-l-arabinofuranosyl)-(2s,4s)-4-hydroxyproline bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.0107 * +EC3.2.1.188 avenacoside b avena sativa//*//* 0.183 * +EC3.2.1.191 4-nitrophenyl beta-d-glucopyranoside terrabacter ginsenosidimutans//*//* 4.2 * +EC3.2.1.191 ginsenoside f2 terrabacter ginsenosidimutans//*//* 12.9 * +EC3.2.1.191 ginsenoside rb1 terrabacter ginsenosidimutans//*//* 0.14 * +EC3.2.1.191 ginsenoside rb2 terrabacter ginsenosidimutans//*//* 9.09 * +EC3.2.1.191 ginsenoside rb3 terrabacter ginsenosidimutans//*//* 8.85 * +EC3.2.1.191 ginsenoside rc terrabacter ginsenosidimutans//*//* 3.85 * +EC3.2.1.191 ginsenoside rd terrabacter ginsenosidimutans//*//* 11.4 * +EC3.2.1.191 ginsenoside rg3(s) terrabacter ginsenosidimutans//*//* 9.7 * +EC3.2.1.192 4-nitrophenyl beta-d-glucoside paecilomyces sp.//*//* 0.111 * +EC3.2.1.192 ginsenoside rb1 paecilomyces sp.//*//* 0.072 * +EC3.2.1.192 ginsenoside rd paecilomyces sp.//*//* 0.805 * +EC3.2.1.194 ginsenoside r1 aspergillus sp.//*//* 7.06 * +EC3.2.1.194 ginsenoside re aspergillus sp.//*//* 22.2 * +EC3.2.1.194 ginsenoside rf aspergillus sp.//*//* 9.43 * +EC3.2.1.194 ginsenoside rg1 aspergillus sp.//*//* 7.63 * +EC3.2.1.194 ginsenoside rg2 aspergillus sp.//*//* 5.74 * +EC3.2.1.196 beta-cyclodextrin-alpha-1,6-linked maltotetraose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.2.1.196 beta-cyclodextrin-alpha-1,6-linked maltotriose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.2.1.196 g3-beta-cyclodextrin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.51 * +EC3.2.1.196 g4-beta-cyclodextrin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.2.1.197 beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-d-mannopyranose dyadobacter fermentans//prokaryotes;bacteria;bacteroidetes;dyadobacter//dfe 0.56 * +EC3.2.1.197 beta-d-mannopyranosyl-(1->2)-beta-d-mannopyranosyl-(1->2)-d-mannopyranose dyadobacter fermentans//prokaryotes;bacteria;bacteroidetes;dyadobacter//dfe 0.95 * +EC3.2.1.197 beta-d-mannopyranosyl-(1->2)-d-mannopyranose dyadobacter fermentans//prokaryotes;bacteria;bacteroidetes;dyadobacter//dfe 15.0 * +EC3.2.1.198 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 1.83 * +EC3.2.1.198 4-methylumbelliferyl (alpha-d-mannopyranosyl)-(1->3)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.038 * +EC3.2.1.198 methyl alpha-d-mannopyranosyl-(1->3)-alpha-d-mannopyranosyl-(1,2)-alpha-d-mannopyranosyl-(1,2)-alpha-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 2.6 * +EC3.2.1.198 methyl alpha-d-mannopyranosyl-(1->3)-alpha-d-mannopyranosyl-(1,2)-alpha-d-mannopyranosyl-(1,2)-alpha-d-mannopyranoside bacteroides xylanisolvens//prokaryotes;bacteria;bacteroidetes;bacteroides//bxy 0.404 * +EC3.2.1.199 4-nitrophenyl alpha-sulfoquinovoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.2.1.2 4-nitrophenyl alpha-maltopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0827 * +EC3.2.1.2 amylodextrin vicia faba//*//* 0.13 * +EC3.2.1.2 amylose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.72 * +EC3.2.1.2 maltal ipomoea batatas//*//* 94.5 * +EC3.2.1.2 maltodextrin vicia faba//*//* 0.16 * +EC3.2.1.2 maltoheptaose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.9 * +EC3.2.1.2 maltohexaose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.89 * +EC3.2.1.2 maltopentaose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.02 * +EC3.2.1.2 maltopentaose glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.94 * +EC3.2.1.2 maltopentaose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 16.2 * +EC3.2.1.2 maltotetraose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 18.2 * +EC3.2.1.2 maltotriose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 4.25 * +EC3.2.1.2 p-nitrophenylmaltopentaoside solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.73 * +EC3.2.1.2 starch glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.77 * +EC3.2.1.2 starch hordeum vulgare//*//* 0.0033 * +EC3.2.1.20 1-o-alpha-d-glucopyranosyl-beta-d-fructofuranoside erwinia rhapontici//*//* 22.11 * +EC3.2.1.20 3-o-alpha-d-glucopyranosyl-d-fructose erwinia rhapontici//*//* 10.04 * +EC3.2.1.20 4-methylumbelliferyl alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.2.1.20 4-methylumbelliferyl-alpha-d-glucopyranoside candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.133 * +EC3.2.1.20 4-methylumbelliferyl-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC3.2.1.20 4-methylumbelliferyl-alpha-glucoside brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0086 * +EC3.2.1.20 4-methylumbelliferyl-alpha-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.47 * +EC3.2.1.20 4-methylumbelliferyl-alpha-glucoside rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.141 * +EC3.2.1.20 4-nitrophenyl 2-deoxy-alpha-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 6.54 * +EC3.2.1.20 4-nitrophenyl 3-deoxy-alpha-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 10.5 * +EC3.2.1.20 4-nitrophenyl alpha-d-galactopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.53 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside apis mellifera//eukaryotes;animals;arthropods;insects//ame 13.0 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside aplysia fasciata//*//* 0.26 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.3 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.62 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 0.37 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside caldanaerobacter subterraneus subsp. tengcongensis//*//* 1.08 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 5.0 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.27 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.87 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.18 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.23 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranoside trichoderma viride//*//* 0.4 * +EC3.2.1.20 4-nitrophenyl alpha-d-glucopyranosyl-1,4-alpha-d-glucopyranoside aplysia fasciata//*//* 2.06 * +EC3.2.1.20 4-nitrophenyl-alpha-d-glucopyranoside anopheles aquasalis//*//* 1.225 * +EC3.2.1.20 4-nitrophenyl-alpha-d-glucopyranoside apis cerana japonica//*//* 0.21 * +EC3.2.1.20 4-o-alpha-d-glucopyranosyl-d-fructose erwinia rhapontici//*//* 1.75 * +EC3.2.1.20 4-o-alpha-d-glucopyranosyl-d-glucopyranose erwinia rhapontici//*//* 8.58 * +EC3.2.1.20 4-o-alpha-d-glucopyranosyl-d-sorbitol erwinia rhapontici//*//* 7.31 * +EC3.2.1.20 5-o-alpha-d-glucopyranosyl-d-fructose erwinia rhapontici//*//* 5.31 * +EC3.2.1.20 6-o-alpha-d-glucopyranosyl-d-fructofuranoside erwinia rhapontici//*//* 2.52 * +EC3.2.1.20 amylopectin panicum miliaceum//*//* 0.0013 * +EC3.2.1.20 amylose panicum miliaceum//*//* 0.28 * +EC3.2.1.20 amylose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.72 * +EC3.2.1.20 amylose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.714 * +EC3.2.1.20 amylose zea mays//eukaryotes;plants;monocots;grass family//zma 5.2 * +EC3.2.1.20 glycogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.0 * +EC3.2.1.20 isomaltose apis mellifera//eukaryotes;animals;arthropods;insects//ame 56.0 * +EC3.2.1.20 isomaltose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.3 * +EC3.2.1.20 isomaltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 8.0 * +EC3.2.1.20 isomaltose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.4 * +EC3.2.1.20 isomaltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.455 * +EC3.2.1.20 isomaltose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 13.0 * +EC3.2.1.20 isomaltose hordeum vulgare//*//* 5.32 * +EC3.2.1.20 isomaltose mucor racemosus//*//* 9.253 * +EC3.2.1.20 isomaltose oryza sativa//eukaryotes;plants;monocots;grass family//osa 13.0 * +EC3.2.1.20 isomaltose panicum miliaceum//*//* 9.76 * +EC3.2.1.20 isomaltose parageobacillus thermoglucosidans//*//* 3.2 * +EC3.2.1.20 isomaltose purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.86 * +EC3.2.1.20 isomaltose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.2 * +EC3.2.1.20 isomaltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 28.6 * +EC3.2.1.20 isomaltose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 13.0 * +EC3.2.1.20 isomaltose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 17.3 * +EC3.2.1.20 isomaltose tetrahymena pyriformis//*//* 33.0 * +EC3.2.1.20 isomaltose thermoanaerobacter thermohydrosulfuricus//*//* 2.95 * +EC3.2.1.20 isomaltose thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 5.2 * +EC3.2.1.20 isomaltose zea mays//eukaryotes;plants;monocots;grass family//zma 14.0 * +EC3.2.1.20 isomaltotriose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.7 * +EC3.2.1.20 isomaltulose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.1 * +EC3.2.1.20 kojibiose apis cerana japonica//*//* 8.7 * +EC3.2.1.20 kojibiose apis mellifera//eukaryotes;animals;arthropods;insects//ame 25.0 * +EC3.2.1.20 kojibiose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.9 * +EC3.2.1.20 kojibiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.6 * +EC3.2.1.20 kojibiose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 8.3 * +EC3.2.1.20 kojibiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.58 * +EC3.2.1.20 kojibiose panicum miliaceum//*//* 0.34 * +EC3.2.1.20 kojibiose purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 1.44 * +EC3.2.1.20 kojibiose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 19.0 * +EC3.2.1.20 kojibiose zea mays//eukaryotes;plants;monocots;grass family//zma 0.4 * +EC3.2.1.20 l-ascorbic acid alpha-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.2 * +EC3.2.1.20 malto-oligosaccharides bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 4.3 * +EC3.2.1.20 maltodextrin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.3 * +EC3.2.1.20 maltodextrin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.8 * +EC3.2.1.20 maltoheptaose apis mellifera//eukaryotes;animals;arthropods;insects//ame 30.0 * +EC3.2.1.20 maltoheptaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 5.3 * +EC3.2.1.20 maltoheptaose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.38 * +EC3.2.1.20 maltoheptaose dysdercus peruvianus//*//* 21.0 * +EC3.2.1.20 maltoheptaose hordeum vulgare//*//* 7.89 * +EC3.2.1.20 maltoheptaose mortierella alliacea//*//* 4.9 * +EC3.2.1.20 maltoheptaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.78 * +EC3.2.1.20 maltoheptaose panicum miliaceum//*//* 0.39 * +EC3.2.1.20 maltoheptaose quesada gigas//*//* 3.27 * +EC3.2.1.20 maltoheptaose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 76.0 * +EC3.2.1.20 maltoheptaose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 5.09 * +EC3.2.1.20 maltoheptaose xanthophyllomyces dendrorhous//*//* 0.86 * +EC3.2.1.20 maltoheptaose zea mays//eukaryotes;plants;monocots;grass family//zma 3.8 * +EC3.2.1.20 maltohexaose apis mellifera//eukaryotes;animals;arthropods;insects//ame 15.0 * +EC3.2.1.20 maltohexaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.9 * +EC3.2.1.20 maltohexaose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.35 * +EC3.2.1.20 maltohexaose dysdercus peruvianus//*//* 19.0 * +EC3.2.1.20 maltohexaose hordeum vulgare//*//* 5.44 * +EC3.2.1.20 maltohexaose mortierella alliacea//*//* 2.9 * +EC3.2.1.20 maltohexaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.79 * +EC3.2.1.20 maltohexaose panicum miliaceum//*//* 0.45 * +EC3.2.1.20 maltohexaose quesada gigas//*//* 3.62 * +EC3.2.1.20 maltohexaose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 43.0 * +EC3.2.1.20 maltohexaose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.52 * +EC3.2.1.20 maltohexaose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 4.4 * +EC3.2.1.20 maltohexaose zea mays//eukaryotes;plants;monocots;grass family//zma 3.4 * +EC3.2.1.20 maltooctaose apis mellifera//eukaryotes;animals;arthropods;insects//ame 33.0 * +EC3.2.1.20 maltooctaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 11.0 * +EC3.2.1.20 maltooctaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.95 * +EC3.2.1.20 maltooctaose zea mays//eukaryotes;plants;monocots;grass family//zma 4.3 * +EC3.2.1.20 maltopentaose apis cerana japonica//*//* 5.5 * +EC3.2.1.20 maltopentaose apis mellifera//eukaryotes;animals;arthropods;insects//ame 8.0 * +EC3.2.1.20 maltopentaose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.96 * +EC3.2.1.20 maltopentaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.9 * +EC3.2.1.20 maltopentaose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.64 * +EC3.2.1.20 maltopentaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 6.72 * +EC3.2.1.20 maltopentaose dysdercus peruvianus//*//* 2.6 * +EC3.2.1.20 maltopentaose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.14 * +EC3.2.1.20 maltopentaose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.35 * +EC3.2.1.20 maltopentaose hordeum vulgare//*//* 2.92 * +EC3.2.1.20 maltopentaose mortierella alliacea//*//* 2.8 * +EC3.2.1.20 maltopentaose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.22 * +EC3.2.1.20 maltopentaose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.0 * +EC3.2.1.20 maltopentaose quesada gigas//*//* 3.99 * +EC3.2.1.20 maltopentaose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 14.0 * +EC3.2.1.20 maltopentaose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.32 * +EC3.2.1.20 maltopentaose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.33 * +EC3.2.1.20 maltopentaose zea mays//eukaryotes;plants;monocots;grass family//zma 2.4 * +EC3.2.1.20 maltose apis cerana japonica//*//* 1.5 * +EC3.2.1.20 maltose apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.85 * +EC3.2.1.20 maltose aplysia fasciata//*//* 5.7 * +EC3.2.1.20 maltose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.85 * +EC3.2.1.20 maltose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.51 * +EC3.2.1.20 maltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.75 * +EC3.2.1.20 maltose aureobasidium pullulans//*//* 1.85 * +EC3.2.1.20 maltose bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 5.55 * +EC3.2.1.20 maltose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.72 * +EC3.2.1.20 maltose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 10.8 * +EC3.2.1.20 maltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.135 * +EC3.2.1.20 maltose bacillus thuringiensis serovar kurstaki//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btt 14.0 * +EC3.2.1.20 maltose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 3.47 * +EC3.2.1.20 maltose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 6.31 * +EC3.2.1.20 maltose camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 13.3 * +EC3.2.1.20 maltose chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.55 * +EC3.2.1.20 maltose dysdercus peruvianus//*//* 26.0 * +EC3.2.1.20 maltose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.45 * +EC3.2.1.20 maltose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.6 * +EC3.2.1.20 maltose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.64 * +EC3.2.1.20 maltose geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 17.0 * +EC3.2.1.20 maltose glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.185 * +EC3.2.1.20 maltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.59 * +EC3.2.1.20 maltose hordeum vulgare//*//* 1.91 * +EC3.2.1.20 maltose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 3.0 * +EC3.2.1.20 maltose mortierella alliacea//*//* 3.5 * +EC3.2.1.20 maltose mucor javanicus//*//* 0.675 * +EC3.2.1.20 maltose mucor racemosus//*//* 0.916 * +EC3.2.1.20 maltose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.67 * +EC3.2.1.20 maltose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.272 * +EC3.2.1.20 maltose paecilomyces variotii//*//* 1.31 * +EC3.2.1.20 maltose panicum miliaceum//*//* 1.46 * +EC3.2.1.20 maltose penicillium purpurogenum//*//* 0.694 * +EC3.2.1.20 maltose pisum sativum//*//* 0.3 * +EC3.2.1.20 maltose purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.16 * +EC3.2.1.20 maltose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.2 * +EC3.2.1.20 maltose quesada gigas//*//* 5.46 * +EC3.2.1.20 maltose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.15 * +EC3.2.1.20 maltose saccharomyces carlsbergensis//*//* 16.6 * +EC3.2.1.20 maltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.3 * +EC3.2.1.20 maltose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 6.3 * +EC3.2.1.20 maltose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.8 * +EC3.2.1.20 maltose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.91 * +EC3.2.1.20 maltose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 10.9 * +EC3.2.1.20 maltose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.74 * +EC3.2.1.20 maltose tetrahymena pyriformis//*//* 2.5 * +EC3.2.1.20 maltose thermoanaerobacter thermohydrosulfuricus//*//* 1.85 * +EC3.2.1.20 maltose thermomonospora curvata//prokaryotes;bacteria;actinobacteria;thermomonospora//tcu 12.0 * +EC3.2.1.20 maltose thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 50.0 * +EC3.2.1.20 maltose trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.4 * +EC3.2.1.20 maltose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.485 * +EC3.2.1.20 maltose xanthophyllomyces dendrorhous//*//* 2.71 * +EC3.2.1.20 maltose zea mays//eukaryotes;plants;monocots;grass family//zma 1.5 * +EC3.2.1.20 maltotetraose apis cerana japonica//*//* 1.3 * +EC3.2.1.20 maltotetraose apis mellifera//eukaryotes;animals;arthropods;insects//ame 2.0 * +EC3.2.1.20 maltotetraose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.64 * +EC3.2.1.20 maltotetraose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.1 * +EC3.2.1.20 maltotetraose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 1.43 * +EC3.2.1.20 maltotetraose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 16.55 * +EC3.2.1.20 maltotetraose dysdercus peruvianus//*//* 7.6 * +EC3.2.1.20 maltotetraose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.1 * +EC3.2.1.20 maltotetraose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 9.3 * +EC3.2.1.20 maltotetraose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.2.1.20 maltotetraose hordeum vulgare//*//* 2.37 * +EC3.2.1.20 maltotetraose mortierella alliacea//*//* 2.4 * +EC3.2.1.20 maltotetraose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC3.2.1.20 maltotetraose oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.0 * +EC3.2.1.20 maltotetraose panicum miliaceum//*//* 0.86 * +EC3.2.1.20 maltotetraose quesada gigas//*//* 1.02 * +EC3.2.1.20 maltotetraose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 7.1 * +EC3.2.1.20 maltotetraose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.3 * +EC3.2.1.20 maltotetraose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.78 * +EC3.2.1.20 maltotetraose zea mays//eukaryotes;plants;monocots;grass family//zma 1.9 * +EC3.2.1.20 maltotriitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.2.1.20 maltotriose apis cerana japonica//*//* 0.4 * +EC3.2.1.20 maltotriose apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.62 * +EC3.2.1.20 maltotriose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.26 * +EC3.2.1.20 maltotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.69 * +EC3.2.1.20 maltotriose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 13.3 * +EC3.2.1.20 maltotriose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 4.58 * +EC3.2.1.20 maltotriose dysdercus peruvianus//*//* 7.8 * +EC3.2.1.20 maltotriose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.18 * +EC3.2.1.20 maltotriose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.69 * +EC3.2.1.20 maltotriose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.2.1.20 maltotriose hordeum vulgare//*//* 1.11 * +EC3.2.1.20 maltotriose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 5.2 * +EC3.2.1.20 maltotriose mortierella alliacea//*//* 2.7 * +EC3.2.1.20 maltotriose mucor racemosus//*//* 0.991 * +EC3.2.1.20 maltotriose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.3 * +EC3.2.1.20 maltotriose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.5 * +EC3.2.1.20 maltotriose panicum miliaceum//*//* 1.13 * +EC3.2.1.20 maltotriose quesada gigas//*//* 1.34 * +EC3.2.1.20 maltotriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.2 * +EC3.2.1.20 maltotriose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 6.7 * +EC3.2.1.20 maltotriose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.3 * +EC3.2.1.20 maltotriose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.11 * +EC3.2.1.20 maltotriose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.37 * +EC3.2.1.20 maltotriose thermoanaerobacter thermohydrosulfuricus//*//* 0.31 * +EC3.2.1.20 maltotriose vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.463 * +EC3.2.1.20 maltotriose xanthophyllomyces dendrorhous//*//* 0.55 * +EC3.2.1.20 maltotriose zea mays//eukaryotes;plants;monocots;grass family//zma 1.2 * +EC3.2.1.20 methyl-alpha-d-glucopyranoside parageobacillus thermoglucosidans//*//* 37.0 * +EC3.2.1.20 methyl-alpha-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.77 * +EC3.2.1.20 methyl-alpha-glucoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 50.0 * +EC3.2.1.20 nigerose apis mellifera//eukaryotes;animals;arthropods;insects//ame 44.0 * +EC3.2.1.20 nigerose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.81 * +EC3.2.1.20 nigerose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 12.0 * +EC3.2.1.20 nigerose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 10.5 * +EC3.2.1.20 nigerose equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.3 * +EC3.2.1.20 nigerose hordeum vulgare//*//* 1.29 * +EC3.2.1.20 nigerose oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.4 * +EC3.2.1.20 nigerose panicum miliaceum//*//* 1.46 * +EC3.2.1.20 nigerose purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 0.14 * +EC3.2.1.20 nigerose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.0 * +EC3.2.1.20 nigerose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 55.0 * +EC3.2.1.20 nigerose zea mays//eukaryotes;plants;monocots;grass family//zma 1.4 * +EC3.2.1.20 p-aminophenyl alpha-d-glucoside dysdercus peruvianus//*//* 3.6 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucopyranoside aspergillus niveus//*//* 0.55 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucopyranoside equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.7 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucoside apis cerana japonica//*//* 0.21 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucoside dysdercus peruvianus//*//* 1.4 * +EC3.2.1.20 p-nitrophenyl alpha-d-glucoside quesada gigas//*//* 1.58 * +EC3.2.1.20 p-nitrophenyl alpha-glucoside apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.31 * +EC3.2.1.20 p-nitrophenyl alpha-glucoside hordeum vulgare//*//* 1.04 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.446 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 1.08 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside chilo suppressalis//*//* 1.24 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.11 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.51 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside parageobacillus thermoglucosidans//*//* 0.23 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.26 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.21 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.21 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside rhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.037 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside saccharomyces carlsbergensis//*//* 0.31 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.21 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.2 * +EC3.2.1.20 p-nitrophenyl-alpha-d-glucoside thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.41 * +EC3.2.1.20 p-nitrophenyl-alpha-glucopyranoside tetrahymena pyriformis//*//* 1.1 * +EC3.2.1.20 p-nitrophenyl-beta-d-glucopyranoside lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 11.5 * +EC3.2.1.20 panose oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.2 * +EC3.2.1.20 panose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 62.0 * +EC3.2.1.20 panose sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 5.78 * +EC3.2.1.20 panose thermoanaerobacter thermohydrosulfuricus//*//* 1.72 * +EC3.2.1.20 panose zea mays//eukaryotes;plants;monocots;grass family//zma 5.0 * +EC3.2.1.20 phenyl alpha-d-glucoside apis mellifera//eukaryotes;animals;arthropods;insects//ame 2.0 * +EC3.2.1.20 phenyl alpha-d-glucoside schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 9.9 * +EC3.2.1.20 phenyl alpha-glucoside apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.6 * +EC3.2.1.20 phenyl alpha-glucoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.34 * +EC3.2.1.20 phenyl alpha-glucoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.0 * +EC3.2.1.20 phenyl alpha-glucoside panicum miliaceum//*//* 3.9 * +EC3.2.1.20 phenyl alpha-glucoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8 * +EC3.2.1.20 phenyl alpha-glucoside schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 4.9 * +EC3.2.1.20 phenyl alpha-maltoside apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.41 * +EC3.2.1.20 phenyl alpha-maltoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.87 * +EC3.2.1.20 phenyl alpha-maltoside mucor racemosus//*//* 2.823 * +EC3.2.1.20 phenyl alpha-maltoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.6 * +EC3.2.1.20 phenyl alpha-maltoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.8 * +EC3.2.1.20 phenyl alpha-maltoside schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 4.9 * +EC3.2.1.20 phenyl alpha-maltoside zea mays//eukaryotes;plants;monocots;grass family//zma 1.1 * +EC3.2.1.20 phenyl-alpha-d-glucopyranoside parageobacillus thermoglucosidans//*//* 3.0 * +EC3.2.1.20 phenyl-alpha-d-glucoside dysdercus peruvianus//*//* 0.86 * +EC3.2.1.20 resorufin alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.166 * +EC3.2.1.20 soluble starch panicum miliaceum//*//* 3640.0 * +EC3.2.1.20 soluble starch xanthophyllomyces dendrorhous//*//* 0.72 * +EC3.2.1.20 starch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.4 * +EC3.2.1.20 starch oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.7 * +EC3.2.1.20 starch oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.93 * +EC3.2.1.20 starch purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 2.8 * +EC3.2.1.20 sucrose apis cerana japonica//*//* 2.4 * +EC3.2.1.20 sucrose apis mellifera//eukaryotes;animals;arthropods;insects//ame 4.2 * +EC3.2.1.20 sucrose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.3 * +EC3.2.1.20 sucrose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.2 * +EC3.2.1.20 sucrose drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 8.9 * +EC3.2.1.20 sucrose dysdercus peruvianus//*//* 18.6 * +EC3.2.1.20 sucrose ferroplasma acidiphilum//prokaryotes;archaea;euryarchaeota;ferroplasma//fai 0.32 * +EC3.2.1.20 sucrose quesada gigas//*//* 10.8 * +EC3.2.1.20 sucrose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.6 * +EC3.2.1.20 trehalose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.89 * +EC3.2.1.20 trehalose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.2 * +EC3.2.1.20 trehalose thermus thermophilus hb27//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.9 * +EC3.2.1.20 turanose apis mellifera//eukaryotes;animals;arthropods;insects//ame 31.0 * +EC3.2.1.20 turanose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 8.7 * +EC3.2.1.20 turanose dysdercus peruvianus//*//* 25.0 * +EC3.2.1.20 turanose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.7 * +EC3.2.1.20 turanose zea mays//eukaryotes;plants;monocots;grass family//zma 0.2 * +EC3.2.1.200 glcnacbeta(1->4)glcnacbeta(1->4)glcnacbeta(1->4)glcnac pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.13 * +EC3.2.1.200 glcnacbeta(1->4)glcnacbeta(1->4)glcnacbeta(1->4)glcnacbeta(1->4)glcnac pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.3 * +EC3.2.1.200 glcnacbeta(1->4)glcnacbeta(1->4)glcnacbeta(1->4)glcnacbeta(1->4)glcnacbeta(1->4)glcnac pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.24 * +EC3.2.1.202 4-nitrophenyl beta-d-n,n'-diacetylchitobioside vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.066 * +EC3.2.1.21 (2-hydroxymethylphenyl)-beta-d-glucopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.035 * +EC3.2.1.21 2,3-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.015 * +EC3.2.1.21 2,4-dihydroxy-1,4-benzoxazin-3-one glucoside triticum aestivum//*//* 1.34 * +EC3.2.1.21 2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one-beta-d-glucoside triticum aestivum//*//* 0.27 * +EC3.2.1.21 2,4-dinitrophenyl beta-d-glucoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.26 * +EC3.2.1.21 2,4-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.008 * +EC3.2.1.21 2-hydroxy-1,4-benzoxazin-3-one-beta-d-glucoside triticum aestivum//*//* 2.0 * +EC3.2.1.21 2-hydroxy-7-methoxy-1,4-benzoxazin-3-one-beta-d-glucoside triticum aestivum//*//* 0.32 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside galleria mellonella//*//* 1.9 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside komagataella pastoris//*//* 0.22 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside physarum polycephalum//*//* 0.1 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 3.83 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside thermosphaera aggregans//prokaryotes;archaea;crenarchaeota;thermosphaera//tag 0.2 * +EC3.2.1.21 2-nitrophenyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 1.3 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside-6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 31.0 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 2.12 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside erinnyis ello//*//* 7.4 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside humicola grisea var. thermoidea//*//* 6.8 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.3 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside thermomyces dupontii//*//* 24.0 * +EC3.2.1.21 2-nitrophenyl-beta-d-galactopyranoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.05 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside aspergillus japonicus//*//* 1.17 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.4 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.29 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside erinnyis ello//*//* 0.63 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.28 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside rhynchosciara americana//*//* 0.9 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.023 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside termitomyces sp.//*//* 0.26 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside thermomyces dupontii//*//* 1.2 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucopyranoside trichoderma koningii//*//* 0.37 * +EC3.2.1.21 2-nitrophenyl-beta-d-glucoside magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 1.43 * +EC3.2.1.21 2-nitrophenyl-beta-d-xylopyranoside lenzites trabea//*//* 0.69 * +EC3.2.1.21 3,4-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.064 * +EC3.2.1.21 3,5-dinitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.054 * +EC3.2.1.21 3-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.24 * +EC3.2.1.21 3-o-[beta-d-glucopyranosyl-(1-2)-beta-d-glucopyranosyl]-20-o-[beta-d-glucopyranosyl-(1-6)-beta-d-glucopyranosyl]-20(s)-protopanaxadiol terrabacter ginsenosidimutans//*//* 0.14 * +EC3.2.1.21 4-bromophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.47 * +EC3.2.1.21 4-hydroxyphenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.1 * +EC3.2.1.21 4-methylumbeliferyl beta-d-glucoside spodoptera frugiperda//*//* 2.3 * +EC3.2.1.21 4-methylumbelliferyl beta-d-cellobioside periconia sp.//*//* 0.04 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.9 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.37 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.64 * +EC3.2.1.21 4-methylumbelliferyl beta-d-glucoside komagataella pastoris//*//* 0.096 * +EC3.2.1.21 4-methylumbelliferyl-alpha-l-arabinoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-fucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-galactopyranoside rattus sp.//*//* 0.18 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.78 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.23 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside phytophthora infestans//eukaryotes;protists;stramenopiles;oomycetes//pif 0.76 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside rattus sp.//*//* 0.26 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucopyranoside spodoptera frugiperda//*//* 2.3 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.02 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucoside triglochin maritima//*//* 0.1 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.148 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.2.1.21 4-methylumbelliferyl-beta-d-xyloside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.2.1.21 4-nitrophenyl beta-d-fucoside spodoptera frugiperda//*//* 0.67 * +EC3.2.1.21 4-nitrophenyl beta-d-galactoside spodoptera frugiperda//*//* 2.9 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 68.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.11 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.29 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus saccharolyticus//*//* 1.9 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside aspergillus terreus//*//* 2.5 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside avena sativa//*//* 2.3 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside daldinia eschscholtzii//*//* 1.5 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside fomitopsis palustris//*//* 0.117 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside fusarium solani//*//* 1.0 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside galleria mellonella//*//* 0.37 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside humicola grisea//*//* 0.316 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside humicola insolens//*//* 0.16 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside komagataella pastoris//*//* 0.12 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside metschnikowia pulcherrima//*//* 1.5 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside olea europaea//eukaryotes;plants;eudicots;olive family//oeu 2.22 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside penicillium citrinum//*//* 1.2 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside penicillium decumbens//*//* 0.006 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside penicillium occitanis//*//* 1.43 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside phoma sp.//*//* 0.3 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside physarum polycephalum//*//* 0.1 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside rhizomucor miehei//*//* 0.17 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside stachybotrys sp.//*//* 0.22 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside talaromyces funiculosus//*//* 0.057 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside thermoascus aurantiacus//*//* 0.52 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.189 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside thermomyces lanuginosus//*//* 0.5 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.17 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside tolypocladium cylindrosporum//*//* 0.85 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside trichoderma koningii//*//* 2.67 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside uncultured bacterium//*//* 0.39 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside uncultured rumen bacterium//*//* 0.164 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside weissella cibaria//prokaryotes;bacteria;firmicutes - bacilli;weissella//wcb 4.04 * +EC3.2.1.21 4-nitrophenyl beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.38 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.54 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside hanseniaspora uvarum//*//* 0.61 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside spodoptera frugiperda//*//* 0.9 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.8 * +EC3.2.1.21 4-nitrophenyl beta-d-glucoside wickerhamomyces anomalus//*//* 0.47 * +EC3.2.1.21 4-nitrophenyl beta-d-xyloside spodoptera frugiperda//*//* 1.56 * +EC3.2.1.21 4-nitrophenyl-alpha-d-glucopyranoside periconia sp.//*//* 4.73 * +EC3.2.1.21 4-nitrophenyl-alpha-d-glucoside alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 20.0 * +EC3.2.1.21 4-nitrophenyl-alpha-l-arabinofuranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.017 * +EC3.2.1.21 4-nitrophenyl-alpha-l-arabinopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.24 * +EC3.2.1.21 4-nitrophenyl-alpha-l-arabinopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 18.9 * +EC3.2.1.21 4-nitrophenyl-beta-d-cellobioside lenzites trabea//*//* 0.04 * +EC3.2.1.21 4-nitrophenyl-beta-d-cellobioside thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 4.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.08 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.44 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside humicola grisea var. thermoidea//*//* 0.05 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside lenzites trabea//*//* 3.22 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside periconia sp.//*//* 22.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.2 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 42.7 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.12 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.7 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.24 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside dalbergia cochinchinensis//*//* 0.54 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside erinnyis ello//*//* 0.33 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside manihot esculenta//*//* 0.42 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside prunus dulcis//*//* 0.93 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside rhynchosciara americana//*//* 0.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside spodoptera frugiperda//*//* 0.49 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.27 * +EC3.2.1.21 4-nitrophenyl-beta-d-fucoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.16 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 1.93 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside erinnyis ello//*//* 0.33 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside humicola grisea var. thermoidea//*//* 1.32 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.06 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside rattus sp.//*//* 2.37 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 1.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 6.7 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactopyranoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.84 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 13.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 16.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 10.8 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside manihot esculenta//*//* 0.26 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside prunus dulcis//*//* 15.7 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside rhynchosciara americana//*//* 5.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside spodoptera frugiperda//*//* 2.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-galactoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside achatina fulica//*//* 0.224 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside acremonium persicinum//*//* 0.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.012 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 1.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 1.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus japonicus//*//* 0.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.57 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.92 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus terreus//*//* 0.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside aspergillus wentii//*//* 1.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside athelia rolfsii//*//* 0.79 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside avena sativa//*//* 4.13 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 4.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 1.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.51 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside candida peltata//*//* 2.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside candida wickerhamii//*//* 0.28 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.01 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside cellulomonas flavigena//prokaryotes;bacteria;actinobacteria;cellulomonas//cfl 7.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 0.0082 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside chaetomium thermophile//*//* 0.076 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside chilo suppressalis//*//* 0.39 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 0.267 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 0.8 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside dalbergia cochinchinensis//*//* 5.37 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside daldinia eschscholtzii//*//* 1.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside erinnyis ello//*//* 0.18 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside eubacterium sp.//*//* 0.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside evernia prunastri//*//* 0.64 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside fomitopsis palustris//*//* 0.117 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.093 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside gelatoporia subvermispora//*//* 2.63 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside hanseniaspora vineae//*//* 0.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside humicola grisea var. thermoidea//*//* 0.12 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside humicola insolens//*//* 0.081 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside humicola sp.//*//* 0.41 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.27 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.22 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside lenzites trabea//*//* 0.41 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside manihot esculenta//*//* 0.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside melanocarpus sp.//*//* 3.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside millerozyma farinosa//*//* 0.44 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 6.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside paecilomyces sp. j18//*//* 0.26 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside paecilomyces sp.//*//* 0.111 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside penicillium purpurogenum//*//* 5.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside periconia sp.//*//* 0.19 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside pholiota adiposa//*//* 5.6 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside phoma sp.//*//* 0.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside plumeria obtusa//*//* 5.04 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside rattus sp.//*//* 0.049 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.003 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside rhizomucor miehei//*//* 0.58 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside rhynchosciara americana//*//* 0.53 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 2.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 2.2 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.095 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside schwanniomyces etchellsii//*//* 0.88 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside sclerocleista ornata//*//* 0.76 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside scytalidium lignicola//*//* 0.2 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside sporotrichum pulverulentum//*//* 0.002 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside stachybotrys sp.//*//* 0.27 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside talaromyces funiculosus//*//* 0.001 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside talaromyces verruculosus//*//* 0.44 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside termitomyces clypeatus//*//* 0.131 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside terrabacter ginsenosidimutans//*//* 4.2 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermoascus aurantiacus//*//* 0.52 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermomyces lanuginosus//*//* 0.075 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermophilic anaerobic bacterium//*//* 0.15 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.4 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermothelomyces heterothallica//*//* 4.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0039 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 2.8 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.21 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.05 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.27 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.09 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside wickerhamomyces anomalus//*//* 0.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.65 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.55 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucoside prunus dulcis//*//* 2.5 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucoside triglochin maritima//*//* 0.13 * +EC3.2.1.21 4-nitrophenyl-beta-d-glucoside zea mays//eukaryotes;plants;monocots;grass family//zma 0.68 * +EC3.2.1.21 4-nitrophenyl-beta-d-mannopyranoside thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 1.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-mannopyranoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.2 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.005 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.14 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside lenzites trabea//*//* 3.32 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside periconia sp.//*//* 11.57 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.64 * +EC3.2.1.21 4-nitrophenyl-beta-d-xylopyranoside thermotoga petrophila//prokaryotes;bacteria;thermotogae;thermotoga//tpt 25.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.005 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 6.93 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside cellulomonas gilvus//prokaryotes;bacteria;actinobacteria;cellulomonas//cga 6.3 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside erinnyis ello//*//* 1.0 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside humicola insolens//*//* 0.081 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside manihot esculenta//*//* 0.39 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside prunus dulcis//*//* 3.1 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC3.2.1.21 4-nitrophenyl-beta-d-xyloside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 2.8 * +EC3.2.1.21 4-nitrophenyl-beta-glucopyranoside humicola sp.//*//* 0.135 * +EC3.2.1.21 4-o-alpha-d-mannopyranosyl-d-mannopyranose thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.147 * +EC3.2.1.21 4-o-gentiobiosyl-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.5 * +EC3.2.1.21 5,11-dimethyl-6h-pyrido[4,3-b]-carbazole streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.058 * +EC3.2.1.21 6-o-methyl-n-deacetylipecoside carapichea ipecacuanha//*//* 0.39 * +EC3.2.1.21 amygdalin aspergillus japonicus//*//* 0.66 * +EC3.2.1.21 amygdalin eubacterium sp.//*//* 2.9 * +EC3.2.1.21 amygdalin paecilomyces sp. j18//*//* 1.45 * +EC3.2.1.21 amygdalin penicillium aurantiogriseum//*//* 0.43 * +EC3.2.1.21 amygdalin penicillium decumbens//*//* 0.13 * +EC3.2.1.21 amygdalin spodoptera frugiperda//*//* 0.6 * +EC3.2.1.21 apigenin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.2.1.21 apigetrin penicillium decumbens//*//* 0.4 * +EC3.2.1.21 arbutin glycine max//eukaryotes;plants;eudicots;pea family//gmx 6.1 * +EC3.2.1.21 arbutin hanseniaspora vineae//*//* 0.46 * +EC3.2.1.21 arbutin kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 5.0 * +EC3.2.1.21 arbutin penicillium decumbens//*//* 0.11 * +EC3.2.1.21 avenacoside avena sativa//*//* 0.017 * +EC3.2.1.21 benzyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.5 * +EC3.2.1.21 beta-gentiobiose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.7 * +EC3.2.1.21 carboxymethylcellulose stachybotrys sp.//*//* 6.2 * +EC3.2.1.21 cellobiose acremonium persicinum//*//* 0.91 * +EC3.2.1.21 cellobiose alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 1.0 * +EC3.2.1.21 cellobiose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 24.8 * +EC3.2.1.21 cellobiose aspergillus japonicus//*//* 0.95 * +EC3.2.1.21 cellobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.85 * +EC3.2.1.21 cellobiose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.96 * +EC3.2.1.21 cellobiose aspergillus terreus//*//* 0.78 * +EC3.2.1.21 cellobiose aspergillus wentii//*//* 8.0 * +EC3.2.1.21 cellobiose athelia rolfsii//*//* 3.07 * +EC3.2.1.21 cellobiose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 18.2 * +EC3.2.1.21 cellobiose candida peltata//*//* 66.0 * +EC3.2.1.21 cellobiose candida sake//*//* 44.6 * +EC3.2.1.21 cellobiose candida wickerhamii//*//* 67.4 * +EC3.2.1.21 cellobiose cellulomonas biazotea//*//* 0.73 * +EC3.2.1.21 cellobiose cellulomonas flavigena//prokaryotes;bacteria;actinobacteria;cellulomonas//cfl 114.0 * +EC3.2.1.21 cellobiose chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 3.13 * +EC3.2.1.21 cellobiose clostridium stercorarium//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//css 33.0 * +EC3.2.1.21 cellobiose erinnyis ello//*//* 2.0 * +EC3.2.1.21 cellobiose eubacterium sp.//*//* 0.91 * +EC3.2.1.21 cellobiose evernia prunastri//*//* 0.24 * +EC3.2.1.21 cellobiose fomitopsis palustris//*//* 4.81 * +EC3.2.1.21 cellobiose fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 1.8 * +EC3.2.1.21 cellobiose hanseniaspora vineae//*//* 8.0 * +EC3.2.1.21 cellobiose hordeum vulgare//*//* 4.5 * +EC3.2.1.21 cellobiose humicola grisea var. thermoidea//*//* 0.27 * +EC3.2.1.21 cellobiose humicola insolens//*//* 0.24 * +EC3.2.1.21 cellobiose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 64.0 * +EC3.2.1.21 cellobiose lenzites trabea//*//* 1.64 * +EC3.2.1.21 cellobiose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.91 * +EC3.2.1.21 cellobiose orpinomyces sp.//*//* 0.31 * +EC3.2.1.21 cellobiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 15.3 * +EC3.2.1.21 cellobiose paecilomyces sp. j18//*//* 0.65 * +EC3.2.1.21 cellobiose paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 13.0 * +EC3.2.1.21 cellobiose penicillium decumbens//*//* 0.4 * +EC3.2.1.21 cellobiose penicillium occitanis//*//* 0.37 * +EC3.2.1.21 cellobiose periconia sp.//*//* 0.5 * +EC3.2.1.21 cellobiose phanerochaete chrysosporium//*//* 4.06 * +EC3.2.1.21 cellobiose phoma sp.//*//* 3.2 * +EC3.2.1.21 cellobiose physarum polycephalum//*//* 5.26 * +EC3.2.1.21 cellobiose piromyces sp.//*//* 1.8 * +EC3.2.1.21 cellobiose prunus dulcis//*//* 117.0 * +EC3.2.1.21 cellobiose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 20.3 * +EC3.2.1.21 cellobiose rhizomucor miehei//*//* 1.04 * +EC3.2.1.21 cellobiose rhynchosciara americana//*//* 0.61 * +EC3.2.1.21 cellobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 83.0 * +EC3.2.1.21 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 26.0 * +EC3.2.1.21 cellobiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.92 * +EC3.2.1.21 cellobiose schwanniomyces etchellsii//*//* 24.0 * +EC3.2.1.21 cellobiose schwanniomyces vanrijiae//*//* 57.9 * +EC3.2.1.21 cellobiose sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 1.23 * +EC3.2.1.21 cellobiose scytalidium lignicola//*//* 2.85 * +EC3.2.1.21 cellobiose spodoptera frugiperda//*//* 2.7 * +EC3.2.1.21 cellobiose sporotrichum pulverulentum//*//* 3.7 * +EC3.2.1.21 cellobiose stachybotrys sp.//*//* 2.22 * +EC3.2.1.21 cellobiose stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 1.2 * +EC3.2.1.21 cellobiose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.1 * +EC3.2.1.21 cellobiose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.1 * +EC3.2.1.21 cellobiose talaromyces funiculosus//*//* 0.002 * +EC3.2.1.21 cellobiose talaromyces verruculosus//*//* 1.2 * +EC3.2.1.21 cellobiose termitomyces clypeatus//*//* 1.25 * +EC3.2.1.21 cellobiose thermofilum pendens//prokaryotes;archaea;crenarchaeota;thermofilum//tpe 0.149 * +EC3.2.1.21 cellobiose thermomyces dupontii//*//* 5.7 * +EC3.2.1.21 cellobiose thermomyces lanuginosus//*//* 0.44 * +EC3.2.1.21 cellobiose thermophilic anaerobic bacterium//*//* 0.73 * +EC3.2.1.21 cellobiose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 2.0 * +EC3.2.1.21 cellobiose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 4.0 * +EC3.2.1.21 cellobiose thielaviopsis paradoxa//*//* 0.58 * +EC3.2.1.21 cellobiose trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 2.94 * +EC3.2.1.21 cellobiose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.75 * +EC3.2.1.21 cellobiose uncultured bacterium//*//* 20.4 * +EC3.2.1.21 cellobiose wickerhamomyces anomalus//*//* 37.0 * +EC3.2.1.21 cellobiose zea mays//eukaryotes;plants;monocots;grass family//zma 4.6 * +EC3.2.1.21 cellohexaose candida peltata//*//* 18.0 * +EC3.2.1.21 cellohexaose physarum polycephalum//*//* 0.2 * +EC3.2.1.21 cellopentaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.4 * +EC3.2.1.21 cellopentaose candida peltata//*//* 21.0 * +EC3.2.1.21 cellotetraose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.3 * +EC3.2.1.21 cellotetraose candida peltata//*//* 35.0 * +EC3.2.1.21 cellotetraose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.26 * +EC3.2.1.21 cellotetraose rhizomucor miehei//*//* 0.92 * +EC3.2.1.21 cellotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.5 * +EC3.2.1.21 cellotriose candida peltata//*//* 39.0 * +EC3.2.1.21 cellotriose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.34 * +EC3.2.1.21 cellotriose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.22 * +EC3.2.1.21 cellotriose rhizomucor miehei//*//* 1.5 * +EC3.2.1.21 daidzein 7'-o-(6''-o-beta-d-malonyl-beta-d-glucoside) glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.019 * +EC3.2.1.21 daidzein 7'-o-beta-d-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.025 * +EC3.2.1.21 daidzein 7-o-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 118.0 * +EC3.2.1.21 daidzein-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.2.1.21 daidzein-7-malonyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.2.1.21 daidzein-7-o-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.091 * +EC3.2.1.21 daidzein-7-o-glucosyl-6''-o-malonate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.12 * +EC3.2.1.21 daidzin penicillium decumbens//*//* 0.65 * +EC3.2.1.21 daidzin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.5 * +EC3.2.1.21 dalcochinin-8'-o-beta-d-glucoside dalbergia cochinchinensis//*//* 1.68 * +EC3.2.1.21 dhurrin sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.05 * +EC3.2.1.21 dhurrin triglochin maritima//*//* 0.4 * +EC3.2.1.21 eriodictyol-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.2.1.21 esculin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.8 * +EC3.2.1.21 esculin eubacterium sp.//*//* 0.21 * +EC3.2.1.21 esculin glycine max//eukaryotes;plants;eudicots;pea family//gmx 8.8 * +EC3.2.1.21 esculin triticum aestivum//*//* 0.24 * +EC3.2.1.21 geniposide eubacterium sp.//*//* 0.068 * +EC3.2.1.21 genistein 7-o-(6''-o-malonyl-beta-d-glucoside) glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.025 * +EC3.2.1.21 genistein 7-o-beta-d-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.032 * +EC3.2.1.21 genistein-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.2.1.21 genistein-7-o-glucoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.33 * +EC3.2.1.21 genistein-7-o-glucosyl-6''-o-malonate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.054 * +EC3.2.1.21 gentiobiose acremonium persicinum//*//* 0.7 * +EC3.2.1.21 gentiobiose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 11.4 * +EC3.2.1.21 gentiobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.3 * +EC3.2.1.21 gentiobiose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 21.5 * +EC3.2.1.21 gentiobiose flavobacterium sp.//*//* 0.28 * +EC3.2.1.21 gentiobiose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.56 * +EC3.2.1.21 gentiobiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 14.9 * +EC3.2.1.21 gentiobiose paecilomyces sp. j18//*//* 0.77 * +EC3.2.1.21 gentiobiose penicillium decumbens//*//* 0.36 * +EC3.2.1.21 gentiobiose physarum polycephalum//*//* 0.43 * +EC3.2.1.21 gentiobiose spodoptera frugiperda//*//* 0.74 * +EC3.2.1.21 gentiobiose wickerhamomyces anomalus//*//* 100.0 * +EC3.2.1.21 gentiopentaose flavobacterium sp.//*//* 0.46 * +EC3.2.1.21 gentiotetraose flavobacterium sp.//*//* 0.42 * +EC3.2.1.21 gentiotriose flavobacterium sp.//*//* 0.3 * +EC3.2.1.21 gentobiose rhizomucor miehei//*//* 4.15 * +EC3.2.1.21 geranyl-beta-d-glucopyranoside schwanniomyces vanrijiae//*//* 1.07 * +EC3.2.1.21 ginsenoside rb1 paecilomyces sp.//*//* 0.072 * +EC3.2.1.21 ginsenoside rd paecilomyces sp.//*//* 0.805 * +EC3.2.1.21 ginsenoside rg3 fusarium proliferatum//*//* 2.37 * +EC3.2.1.21 glucovanillin vanilla planifolia//*//* 20.0 * +EC3.2.1.21 ipecoside carapichea ipecacuanha//*//* 0.1 * +EC3.2.1.21 isotrehalose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.6 * +EC3.2.1.21 lactose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 120.0 * +EC3.2.1.21 lactose erinnyis ello//*//* 17.0 * +EC3.2.1.21 lactose humicola grisea var. thermoidea//*//* 1.42 * +EC3.2.1.21 lactose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 36.0 * +EC3.2.1.21 laminaran rhizomucor miehei//*//* 2.32 * +EC3.2.1.21 laminaribiose acremonium persicinum//*//* 0.63 * +EC3.2.1.21 laminaribiose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.36 * +EC3.2.1.21 laminaribiose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 3.0 * +EC3.2.1.21 laminaribiose hordeum vulgare//*//* 3.0 * +EC3.2.1.21 laminaribiose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.83 * +EC3.2.1.21 laminaribiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.6 * +EC3.2.1.21 laminaribiose rhizomucor miehei//*//* 1.26 * +EC3.2.1.21 laminaribose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.5 * +EC3.2.1.21 laminarin alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 50.0 * +EC3.2.1.21 laminaritetraose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.19 * +EC3.2.1.21 laminaritriose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.42 * +EC3.2.1.21 laminaritriose oryza sativa//eukaryotes;plants;monocots;grass family//osa 8.7 * +EC3.2.1.21 laminaritriose rhizomucor miehei//*//* 2.29 * +EC3.2.1.21 linamarin lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 6.6 * +EC3.2.1.21 linamarin manihot esculenta//*//* 2.08 * +EC3.2.1.21 linamarin penicillium aurantiogriseum//*//* 2.32 * +EC3.2.1.21 linustatin linum usitatissimum//*//* 2.6 * +EC3.2.1.21 lotaustralin lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.69 * +EC3.2.1.21 luteolin-4'-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.2.1.21 luteolin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.2.1.21 methyl-beta-d-glucose hanseniaspora vineae//*//* 110.0 * +EC3.2.1.21 methyl-beta-d-glucoside aspergillus japonicus//*//* 166.7 * +EC3.2.1.21 methyl-beta-d-glucoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 33.0 * +EC3.2.1.21 methyl-beta-d-glucoside magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 10.0 * +EC3.2.1.21 methyl-beta-d-glucoside wickerhamomyces anomalus//*//* 44.4 * +EC3.2.1.21 n,n'-diacetyl-beta-chitobiose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 10.8 * +EC3.2.1.21 n-deacetylipecoside carapichea ipecacuanha//*//* 0.32 * +EC3.2.1.21 n-heptyl-beta-d-glucoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 5.0 * +EC3.2.1.21 naringenin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.2.1.21 naringenin penicillium decumbens//*//* 0.45 * +EC3.2.1.21 o-nitrophenyl-beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.1 * +EC3.2.1.21 o-nitrophenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.2 * +EC3.2.1.21 o-nitrophenyl-beta-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.4 * +EC3.2.1.21 octyl-beta-d-glucopyranoside spodoptera frugiperda//*//* 4.0 * +EC3.2.1.21 oleuropein prunus dulcis//*//* 0.38 * +EC3.2.1.21 p-nitro-phenyl-beta-d-glucopyranoside schwanniomyces vanrijiae//*//* 0.77 * +EC3.2.1.21 p-nitrophenyl-alpha-d-galactopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.84 * +EC3.2.1.21 p-nitrophenyl-alpha-d-mannopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 9.9 * +EC3.2.1.21 p-nitrophenyl-alpha-l-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC3.2.1.21 p-nitrophenyl-beta-d-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside spodoptera frugiperda//*//* 0.8 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.14 * +EC3.2.1.21 p-nitrophenyl-beta-d-fucopyranoside triticum aestivum//*//* 0.67 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 13.0 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.14 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside spodoptera frugiperda//*//* 2.1 * +EC3.2.1.21 p-nitrophenyl-beta-d-galactopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.3 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranose citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 0.12 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside apis mellifera//eukaryotes;animals;arthropods;insects//ame 11.3 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.9 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside aspergillus aculeatus//*//* 0.23 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside aspergillus foetidus//*//* 0.41 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside aspergillus japonicus//*//* 0.2 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.64 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside aspergillus tubingensis//*//* 0.59 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside candida sake//*//* 6.9 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside cellulomonas biazotea//*//* 0.025 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.76 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside chilo suppressalis//*//* 0.61 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside fusobacterium sp.//*//* 1.5 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.3 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.76 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside lentinula edodes//*//* 1.3 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside orpinomyces sp.//*//* 0.76 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside penicillium decumbens//*//* 0.007 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside piromyces sp.//*//* 0.6 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside schwanniomyces etchellsii//*//* 0.33 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.09 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside spodoptera frugiperda//*//* 0.47 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.1 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside thermoascus aurantiacus//*//* 1.17 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside thielaviopsis paradoxa//*//* 0.52 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside triticum aestivum//*//* 1.7 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucopyranoside vanilla planifolia//*//* 1.1 * +EC3.2.1.21 p-nitrophenyl-beta-d-glucose phanerochaete chrysosporium//*//* 0.12 * +EC3.2.1.21 p-nitrophenyl-beta-d-mannoside manihot esculenta//*//* 6.69 * +EC3.2.1.21 p-nitrophenyl-beta-d-xylopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.58 * +EC3.2.1.21 p-nitrophenyl-beta-d-xylopyranoside spodoptera frugiperda//*//* 0.52 * +EC3.2.1.21 p-nitrophenyl-beta-d-xylopyranoside triticum aestivum//*//* 3.1 * +EC3.2.1.21 p-nitrophenyl-beta-l-arabinopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 52.6 * +EC3.2.1.21 phenyl-beta-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.3 * +EC3.2.1.21 phenyl-beta-d-glucoside rhynchosciara americana//*//* 3.5 * +EC3.2.1.21 plumieride coumarate beta-d-glucoside plumeria obtusa//*//* 1.02 * +EC3.2.1.21 prunasin manihot esculenta//*//* 12.22 * +EC3.2.1.21 quercetin-3,4'-di-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.274 * +EC3.2.1.21 quercetin-4'-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.2.1.21 quercetin-7-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.2.1.21 rhodiocyanoside a lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.19 * +EC3.2.1.21 salicin alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 5.0 * +EC3.2.1.21 salicin aspergillus japonicus//*//* 2.17 * +EC3.2.1.21 salicin caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 1.88 * +EC3.2.1.21 salicin erinnyis ello//*//* 6.3 * +EC3.2.1.21 salicin eubacterium sp.//*//* 0.22 * +EC3.2.1.21 salicin evernia prunastri//*//* 1.25 * +EC3.2.1.21 salicin glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.5 * +EC3.2.1.21 salicin hanseniaspora vineae//*//* 0.5 * +EC3.2.1.21 salicin humicola insolens//*//* 0.65 * +EC3.2.1.21 salicin kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.4 * +EC3.2.1.21 salicin magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 1.0 * +EC3.2.1.21 salicin manihot esculenta//*//* 3.56 * +EC3.2.1.21 salicin orobanche minor//*//* 0.12 * +EC3.2.1.21 salicin paecilomyces sp. j18//*//* 1.39 * +EC3.2.1.21 salicin penicillium decumbens//*//* 0.46 * +EC3.2.1.21 salicin rhizomucor miehei//*//* 0.72 * +EC3.2.1.21 salicin rhynchosciara americana//*//* 0.8 * +EC3.2.1.21 salicin stachybotrys sp.//*//* 37.14 * +EC3.2.1.21 salicin thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.6 * +EC3.2.1.21 salicin wickerhamomyces anomalus//*//* 19.2 * +EC3.2.1.21 salicin zea mays//eukaryotes;plants;monocots;grass family//zma 9.3 * +EC3.2.1.21 scopolin arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.73 * +EC3.2.1.21 sophorose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.9 * +EC3.2.1.21 sophorose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 2.48 * +EC3.2.1.21 sophorose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 5.2 * +EC3.2.1.21 sophorose hordeum vulgare//*//* 6.3 * +EC3.2.1.21 sophorose magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 1.33 * +EC3.2.1.21 sophorose oryza sativa//eukaryotes;plants;monocots;grass family//osa 9.8 * +EC3.2.1.21 sophorose paecilomyces sp. j18//*//* 1.06 * +EC3.2.1.21 strictosidine carapichea ipecacuanha//*//* 0.19 * +EC3.2.1.21 taxiphyllin triglochin maritima//*//* 0.4 * +EC3.2.1.21 triglochinin triglochin maritima//*//* 0.6 * +EC3.2.1.21 tuberonic acid beta-d-glucoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.032 * +EC3.2.1.21 vincoside carapichea ipecacuanha//*//* 0.29 * +EC3.2.1.22 2,4-dinitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.037 * +EC3.2.1.22 2,5-dinitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.143 * +EC3.2.1.22 2-nitrophenyl alpha-d-galactoside aspergillus terreus//*//* 0.28 * +EC3.2.1.22 2-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.143 * +EC3.2.1.22 3,4-dimethylphenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.086 * +EC3.2.1.22 3-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.096 * +EC3.2.1.22 4-bromophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.111 * +EC3.2.1.22 4-methylumbelliferyl alpha-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.2.1.22 4-methylumbelliferyl alpha-d-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.2.1.22 4-methylumbelliferyl alpha-d-galactoside poterioochromonas malhamensis//*//* 0.45 * +EC3.2.1.22 4-methylumbelliferyl alpha-d-galactoside thermomyces lanuginosus//*//* 0.5 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.21 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactopyranoside penicillium canescens//*//* 0.48 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactopyranoside sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 2.2 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside aspergillus terreus//*//* 0.1 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.31 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside tachigali multijuga//*//* 0.45 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.08 * +EC3.2.1.22 4-nitrophenyl alpha-d-galactoside yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.51 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.27 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside aspergillus terreus//*//* 0.2 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.27 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside bispora sp.//*//* 3.1 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.32 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside flavobacterium sp.//*//* 2.47 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside gibberella sp.//*//* 1.06 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside rasamsonia emersonii//*//* 0.29 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.5 * +EC3.2.1.22 4-nitrophenyl-alpha-d-galactopyranoside saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.65 * +EC3.2.1.22 4-o-methylphenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.048 * +EC3.2.1.22 6-bromo-2-naphthyl alpha-d-galactoside vicia faba//*//* 0.62 * +EC3.2.1.22 alpha-phenylgalactoside coffea sp.//*//* 1.0 * +EC3.2.1.22 beta-naphthyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.039 * +EC3.2.1.22 digalactosyl diacylglycerol oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.0 * +EC3.2.1.22 ethyl alpha-d-galactoside prunus dulcis//*//* 6.25 * +EC3.2.1.22 ethyl alpha-d-galactoside vicia faba//*//* 8.0 * +EC3.2.1.22 galabiosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.2.1.22 galactinol vicia faba//*//* 0.13 * +EC3.2.1.22 galactomannan with galactose/mannose ratio 1:1.72 penicillium canescens//*//* 44.0 * +EC3.2.1.22 galactomannan with galactose/mannose ratio 1:2.4 penicillium canescens//*//* 34.0 * +EC3.2.1.22 globopentaose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.2.1.22 globotriose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.1 * +EC3.2.1.22 globtriglycosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.2.1.22 m-chlorophenyl alpha-d-galactoside prunus dulcis//*//* 8.33 * +EC3.2.1.22 m-chlorophenyl alpha-d-galactoside vicia faba//*//* 0.83 * +EC3.2.1.22 m-cresyl alpha-d-galactoside prunus dulcis//*//* 8.33 * +EC3.2.1.22 m-cresyl alpha-d-galactoside vicia faba//*//* 1.38 * +EC3.2.1.22 m-nitrophenyl alpha-d-galactoside cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 2.0 * +EC3.2.1.22 m-nitrophenyl alpha-d-galactoside prunus dulcis//*//* 1.57 * +EC3.2.1.22 m-nitrophenyl alpha-d-galactoside vicia faba//*//* 2.5 * +EC3.2.1.22 m-nitrophenyl-alpha-d-galactopyranoside aspergillus ficuum//*//* 0.72 * +EC3.2.1.22 m-nitrophenyl-alpha-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 1.1 * +EC3.2.1.22 melibiose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 12.0 * +EC3.2.1.22 melibiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.39 * +EC3.2.1.22 melibiose aspergillus tamarii//*//* 3.7 * +EC3.2.1.22 melibiose aspergillus terreus//*//* 1.92 * +EC3.2.1.22 melibiose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 7.9 * +EC3.2.1.22 melibiose bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 2.3 * +EC3.2.1.22 melibiose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 2.14 * +EC3.2.1.22 melibiose corynebacterium murisepticum//*//* 2.0 * +EC3.2.1.22 melibiose cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 3.0 * +EC3.2.1.22 melibiose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 2.12 * +EC3.2.1.22 melibiose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.33 * +EC3.2.1.22 melibiose flavobacterium sp.//*//* 12.58 * +EC3.2.1.22 melibiose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 12.0 * +EC3.2.1.22 melibiose gibberella sp.//*//* 1.75 * +EC3.2.1.22 melibiose glycine max//eukaryotes;plants;eudicots;pea family//gmx 5.53 * +EC3.2.1.22 melibiose micrococcus sp.//*//* 1.5 * +EC3.2.1.22 melibiose oryza sativa//eukaryotes;plants;monocots;grass family//osa 25.4 * +EC3.2.1.22 melibiose prunus dulcis//*//* 2.24 * +EC3.2.1.22 melibiose rhizopus sp.//*//* 33.0 * +EC3.2.1.22 melibiose saccharomyces carlsbergensis//*//* 6.0 * +EC3.2.1.22 melibiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.2 * +EC3.2.1.22 melibiose saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 1.4 * +EC3.2.1.22 melibiose sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 29.4 * +EC3.2.1.22 melibiose spodoptera frugiperda//*//* 1.7 * +EC3.2.1.22 melibiose tachigali multijuga//*//* 5.37 * +EC3.2.1.22 melibiose tenebrio molitor//*//* 6.3 * +EC3.2.1.22 melibiose thermomyces lanuginosus//*//* 2.4 * +EC3.2.1.22 melibiose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 15.11 * +EC3.2.1.22 melibiose trametes cinnabarina//*//* 0.8 * +EC3.2.1.22 melibiose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.3 * +EC3.2.1.22 melibiose vicia faba//*//* 0.77 * +EC3.2.1.22 melibiose yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.00135 * +EC3.2.1.22 methyl alpha-d-galactoside prunus dulcis//*//* 10.9 * +EC3.2.1.22 methyl alpha-d-galactoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 5.3 * +EC3.2.1.22 methyl alpha-d-galactoside vicia faba//*//* 7.13 * +EC3.2.1.22 n-propyl alpha-d-galactoside prunus dulcis//*//* 6.25 * +EC3.2.1.22 n-propyl alpha-d-galactoside vicia faba//*//* 5.88 * +EC3.2.1.22 o-cresyl alpha-d-galactoside prunus dulcis//*//* 4.54 * +EC3.2.1.22 o-cresyl alpha-d-galactoside vicia faba//*//* 0.78 * +EC3.2.1.22 o-nitrophenyl alpha-d-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.8 * +EC3.2.1.22 o-nitrophenyl alpha-d-galactoside aspergillus tamarii//*//* 1.3 * +EC3.2.1.22 o-nitrophenyl alpha-d-galactoside cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 1.4 * +EC3.2.1.22 o-nitrophenyl alpha-d-galactoside prunus dulcis//*//* 0.33 * +EC3.2.1.22 o-nitrophenyl alpha-d-galactoside vicia faba//*//* 0.69 * +EC3.2.1.22 o-nitrophenyl-alpha-d-galactopyranose athelia rolfsii//*//* 0.26 * +EC3.2.1.22 o-nitrophenyl-alpha-d-galactopyranoside aspergillus ficuum//*//* 0.84 * +EC3.2.1.22 o-nitrophenyl-alpha-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 2.27 * +EC3.2.1.22 o-nitrophenyl-alpha-n-acetyl-galactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.2.1.22 o-nitrophenyl-beta-d-galactopyranose bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.2 * +EC3.2.1.22 p-aminophenyl alpha-d-galactoside vicia faba//*//* 0.87 * +EC3.2.1.22 p-cresyl alpha-d-galactoside prunus dulcis//*//* 4.76 * +EC3.2.1.22 p-cresyl alpha-d-galactoside vicia faba//*//* 1.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-fucoside vicia faba//*//* 4.76 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside arachis hypogaea//*//* 0.221 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside aspergillus flavipes//*//* 1.89 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.22 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside caldanaerobius polysaccharolyticus//*//* 0.29 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside ganoderma lucidum//*//* 0.4 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.76 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside phlebia radiata//*//* 0.52 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside pleurotus floridanus//*//* 1.1 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside rhizopus sp.//*//* 2.9 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside spodoptera frugiperda//*//* 12.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.085 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside talaromyces flavus//*//* 0.54 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside tenebrio molitor//*//* 3.2 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermomyces lanuginosus//*//* 1.13 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.075 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.74 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactopyranoside thermus sp. t2//*//* 4.7 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactose lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.28 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside cocos nucifera//*//* 0.35 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.22 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 1.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.38 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.15 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside lens culinaris//*//* 0.26 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside micrococcus sp.//*//* 0.47 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside monascus pilosus//*//* 0.8 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside poterioochromonas malhamensis//*//* 0.71 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside prunus dulcis//*//* 0.53 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside saccharomyces carlsbergensis//*//* 6.0 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.22 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside stachys affinis//*//* 0.42 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.08 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside trametes cinnabarina//*//* 0.31 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.2 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside vicia faba//*//* 0.38 * +EC3.2.1.22 p-nitrophenyl alpha-d-galactoside vigna unguiculata//*//* 1.5 * +EC3.2.1.22 p-nitrophenyl beta-l-arabinoside prunus dulcis//*//* 33.3 * +EC3.2.1.22 p-nitrophenyl beta-l-arabinoside vicia faba//*//* 12.5 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranose athelia rolfsii//*//* 0.16 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranose corynebacterium murisepticum//*//* 0.17 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranoside aspergillus ficuum//*//* 1.46 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.23 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.75 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranoside saccharum officinarum//*//* 0.83 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactopyranoside trametes cinnabarina//*//* 0.32 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactoside carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 1.09 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactoside lens culinaris//*//* 0.26 * +EC3.2.1.22 p-nitrophenyl-alpha-d-galactoside saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.65 * +EC3.2.1.22 p-nitrophenyl-beta-d-galactopyranose bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.2 * +EC3.2.1.22 p-nitrophenyl-beta-l-arabinopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 37.4 * +EC3.2.1.22 phenyl alpha-d-galactoside prunus dulcis//*//* 5.0 * +EC3.2.1.22 phenyl alpha-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.176 * +EC3.2.1.22 phenyl alpha-d-galactoside vicia faba//*//* 1.11 * +EC3.2.1.22 planteose stachys affinis//*//* 6.9 * +EC3.2.1.22 raffinose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 105.0 * +EC3.2.1.22 raffinose arachis hypogaea//*//* 80.0 * +EC3.2.1.22 raffinose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 15.0 * +EC3.2.1.22 raffinose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.5 * +EC3.2.1.22 raffinose aspergillus tamarii//*//* 26.3 * +EC3.2.1.22 raffinose aspergillus terreus//*//* 0.42 * +EC3.2.1.22 raffinose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 24.1 * +EC3.2.1.22 raffinose bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 5.9 * +EC3.2.1.22 raffinose bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.66 * +EC3.2.1.22 raffinose cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 5.0 * +EC3.2.1.22 raffinose cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 36.4 * +EC3.2.1.22 raffinose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 32.8 * +EC3.2.1.22 raffinose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.65 * +EC3.2.1.22 raffinose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3.8 * +EC3.2.1.22 raffinose gibberella sp.//*//* 54.26 * +EC3.2.1.22 raffinose glycine max//eukaryotes;plants;eudicots;pea family//gmx 5.34 * +EC3.2.1.22 raffinose lens culinaris//*//* 40.0 * +EC3.2.1.22 raffinose micrococcus sp.//*//* 12.6 * +EC3.2.1.22 raffinose oryza sativa//eukaryotes;plants;monocots;grass family//osa 18.0 * +EC3.2.1.22 raffinose penicillium canescens//*//* 0.49 * +EC3.2.1.22 raffinose prunus dulcis//*//* 12.5 * +EC3.2.1.22 raffinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 54.1 * +EC3.2.1.22 raffinose saccharum officinarum//*//* 25.9 * +EC3.2.1.22 raffinose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.8 * +EC3.2.1.22 raffinose spodoptera frugiperda//*//* 4.8 * +EC3.2.1.22 raffinose stachys affinis//*//* 11.8 * +EC3.2.1.22 raffinose tachigali multijuga//*//* 39.62 * +EC3.2.1.22 raffinose tenebrio molitor//*//* 4.4 * +EC3.2.1.22 raffinose thermomyces lanuginosus//*//* 1.61 * +EC3.2.1.22 raffinose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.1 * +EC3.2.1.22 raffinose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 5.32 * +EC3.2.1.22 raffinose trametes cinnabarina//*//* 2.16 * +EC3.2.1.22 raffinose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.8 * +EC3.2.1.22 raffinose vicia faba//*//* 4.0 * +EC3.2.1.22 raffinose vigna unguiculata//*//* 1.6 * +EC3.2.1.22 stachyose aspergillus tamarii//*//* 33.3 * +EC3.2.1.22 stachyose aspergillus terreus//*//* 0.33 * +EC3.2.1.22 stachyose bacteroides ovatus//prokaryotes;bacteria;bacteroidetes;bacteroides//boa 0.3 * +EC3.2.1.22 stachyose cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 10.0 * +EC3.2.1.22 stachyose cucurbita pepo//eukaryotes;plants;eudicots;cucumber family//cpep 4.5 * +EC3.2.1.22 stachyose debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 10.8 * +EC3.2.1.22 stachyose flavobacterium sp.//*//* 14.76 * +EC3.2.1.22 stachyose gibberella sp.//*//* 8.23 * +EC3.2.1.22 stachyose oryza sativa//eukaryotes;plants;monocots;grass family//osa 7.8 * +EC3.2.1.22 stachyose penicillium canescens//*//* 0.22 * +EC3.2.1.22 stachyose saccharum officinarum//*//* 13.0 * +EC3.2.1.22 stachyose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.4 * +EC3.2.1.22 stachyose spodoptera frugiperda//*//* 7.2 * +EC3.2.1.22 stachyose tachigali multijuga//*//* 48.8 * +EC3.2.1.22 stachyose tenebrio molitor//*//* 3.8 * +EC3.2.1.22 stachyose thermomyces lanuginosus//*//* 1.17 * +EC3.2.1.22 stachyose trametes cinnabarina//*//* 1.15 * +EC3.2.1.22 stachyose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.8 * +EC3.2.1.22 stachyose vicia faba//*//* 5.26 * +EC3.2.1.22 stachyose vigna unguiculata//*//* 11.0 * +EC3.2.1.22 verbascose oryza sativa//eukaryotes;plants;monocots;grass family//osa 4.2 * +EC3.2.1.23 2,4-dinitrophenyl 2-acetamido-2-deoxy-alpha-d-galactopyranosyl-(1-3)-[alpha-l-fucopyranosyl-(1-2)]-beta-d-galactopyranoside clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.064 * +EC3.2.1.23 2,4-dinitrophenyl-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.21 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 1.21 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.805 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 1.67 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside lactobacillus plantarum wcfs1//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.9 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside pisum sativum//*//* 0.97 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 1.1 * +EC3.2.1.23 2-nitrophenyl beta-d-galactopyranoside uncultured soil bacterium//*//* 1.71 * +EC3.2.1.23 2-nitrophenyl beta-d-galactoside haloferax lucentense//*//* 0.87 * +EC3.2.1.23 2-nitrophenyl-beta-d-fucopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 7.3 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranose lactobacillus crispatus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcr 1.16 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 5.5 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside arthrobacter psychrolactophilus//*//* 2.7 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.62 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside aspergillus carbonarius//*//* 0.56 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.51 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside bispora sp.//*//* 5.22 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 1.2 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.093 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.96 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 1.5 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 0.7 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.16 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 1.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside penicillium canescens//*//* 1.0 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.2 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.65 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactoside bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 9.5 * +EC3.2.1.23 2-nitrophenyl-beta-d-galactoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 4.7 * +EC3.2.1.23 2-phenylethyl-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.2.1.23 4-methylumbelliferyl beta-d-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.59 * +EC3.2.1.23 4-methylumbelliferyl beta-d-galactoside tenebrio molitor//*//* 0.14 * +EC3.2.1.23 4-methylumbelliferyl-alpha-l-arabinoside felis catus//eukaryotes;animals;vertebrates;mammals//fca 2.16 * +EC3.2.1.23 4-methylumbelliferyl-beta-d-galactopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.363 * +EC3.2.1.23 4-methylumbelliferyl-beta-d-galactoside felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.14 * +EC3.2.1.23 4-methylumbelliferyl-beta-d-galactoside raphanus sativus//*//* 1.27 * +EC3.2.1.23 4-nitrophenyl beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.11 * +EC3.2.1.23 4-nitrophenyl beta-d-galactopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.2.1.23 4-nitrophenyl beta-d-galactopyranoside saccharopolyspora rectivirgula//*//* 0.1 * +EC3.2.1.23 4-nitrophenyl-alpha-l-arabinopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 5.2 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 4.9 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside aspergillus aculeatus//*//* 3.3 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside aspergillus carbonarius//*//* 1.16 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 0.1 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside erythrina variegata//*//* 2.6 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 7.1 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.91 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactopyranoside xanthomonas phaseoli pv. manihotis//*//* 0.05 * +EC3.2.1.23 4-nitrophenyl-beta-d-galactoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 7.1 * +EC3.2.1.23 allolactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.3 * +EC3.2.1.23 alpha-lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC3.2.1.23 asialofetuin felis catus//eukaryotes;animals;vertebrates;mammals//fca 1.5 * +EC3.2.1.23 beta(1->3)-galactotriose irpex lacteus//*//* 19.9 * +EC3.2.1.23 beta-(1->3)-galactobiose irpex lacteus//*//* 31.6 * +EC3.2.1.23 beta-1,3-galactobiose raphanus sativus//*//* 7.79 * +EC3.2.1.23 beta-1,3-galactotriose raphanus sativus//*//* 4.87 * +EC3.2.1.23 beta-d-galactosyl azide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.83 * +EC3.2.1.23 beta-lactose thermomyces lanuginosus//*//* 18.2 * +EC3.2.1.23 butyl o-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.69 * +EC3.2.1.23 ganglioside gm1 felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.17 * +EC3.2.1.23 lactose achatina achatina//*//* 30.0 * +EC3.2.1.23 lactose actinomyces viscosus//*//* 6.0 * +EC3.2.1.23 lactose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.1 * +EC3.2.1.23 lactose arthrobacter psychrolactophilus//*//* 42.0 * +EC3.2.1.23 lactose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 11.5 * +EC3.2.1.23 lactose aspergillus aculeatus//*//* 35.0 * +EC3.2.1.23 lactose aspergillus carbonarius//*//* 83.0 * +EC3.2.1.23 lactose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 85.0 * +EC3.2.1.23 lactose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 18.0 * +EC3.2.1.23 lactose bacillus circulans//*//* 41.7 * +EC3.2.1.23 lactose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 50.0 * +EC3.2.1.23 lactose bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 12.6 * +EC3.2.1.23 lactose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.18 * +EC3.2.1.23 lactose bacteroides polypragmatus//*//* 9.09 * +EC3.2.1.23 lactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 13.0 * +EC3.2.1.23 lactose bispora sp.//*//* 0.31 * +EC3.2.1.23 lactose caldariella acidophila//*//* 61.5 * +EC3.2.1.23 lactose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 30.0 * +EC3.2.1.23 lactose corynebacterium murisepticum//*//* 16.7 * +EC3.2.1.23 lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5 * +EC3.2.1.23 lactose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.11 * +EC3.2.1.23 lactose hamamotoa singularis//*//* 0.58 * +EC3.2.1.23 lactose kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 12.0 * +EC3.2.1.23 lactose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 4.0 * +EC3.2.1.23 lactose lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 4.0 * +EC3.2.1.23 lactose lactobacillus crispatus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcr 14.2 * +EC3.2.1.23 lactose lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.98 * +EC3.2.1.23 lactose lactobacillus pentosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpg 38.0 * +EC3.2.1.23 lactose lactobacillus plantarum wcfs1//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 29.0 * +EC3.2.1.23 lactose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 13.0 * +EC3.2.1.23 lactose paecilomyces variotii//*//* 64.0 * +EC3.2.1.23 lactose paenibacillus macerans//*//* 30.0 * +EC3.2.1.23 lactose papiliotrema laurentii//*//* 11.4 * +EC3.2.1.23 lactose penicillium citrinum//*//* 25.0 * +EC3.2.1.23 lactose penicillium multicolor//*//* 8.9 * +EC3.2.1.23 lactose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 50.0 * +EC3.2.1.23 lactose pisum sativum//*//* 3.03 * +EC3.2.1.23 lactose pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 2.4 * +EC3.2.1.23 lactose raphanus sativus//*//* 8.55 * +EC3.2.1.23 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 34.0 * +EC3.2.1.23 lactose rhizomucor sp.//*//* 50.0 * +EC3.2.1.23 lactose saccharomyces fragilis//*//* 21.0 * +EC3.2.1.23 lactose saccharopolyspora rectivirgula//*//* 0.7 * +EC3.2.1.23 lactose sterigmatomyces elviae//*//* 2.4 * +EC3.2.1.23 lactose streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 6.25 * +EC3.2.1.23 lactose streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 7.0 * +EC3.2.1.23 lactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 13.0 * +EC3.2.1.23 lactose tenebrio molitor//*//* 250.0 * +EC3.2.1.23 lactose thennomyces lanuginosus//*//* 18.2 * +EC3.2.1.23 lactose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 36.0 * +EC3.2.1.23 lactose thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 19.0 * +EC3.2.1.23 lactose torulopsis sphaerica//*//* 25.0 * +EC3.2.1.23 lactose trametes cinnabarina//*//* 33.0 * +EC3.2.1.23 lactose treponema phagedenis//*//* 5.4 * +EC3.2.1.23 lactose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.66 * +EC3.2.1.23 lactose uncultured soil bacterium//*//* 12.2 * +EC3.2.1.23 lactosucrose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.0 * +EC3.2.1.23 lactosyl ceramide streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 5.88 * +EC3.2.1.23 lactosyldiceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.2.1.23 lactulose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 18.2 * +EC3.2.1.23 lactulose thermomyces lanuginosus//*//* 5.0 * +EC3.2.1.23 methyl o-beta-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.9 * +EC3.2.1.23 methyl salicylate beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.2.1.23 methyl-beta-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC3.2.1.23 methyl-beta-d-galactoside thermomyces lanuginosus//*//* 6.4 * +EC3.2.1.23 monosialoganglioside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.2.1.23 myo-inositol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 345.0 * +EC3.2.1.23 nitrophenyl-beta-d-galactoside averrhoa carambola//*//* 2.0 * +EC3.2.1.23 o-nitrophenyl beta-d-fucoside felis catus//eukaryotes;animals;vertebrates;mammals//fca 56.9 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.6 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.34 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside bifidobacterium longum subsp. infantis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bln 2.6 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 1.5 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside penicillium chrysogenum//*//* 1.81 * +EC3.2.1.23 o-nitrophenyl beta-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.74 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside achatina achatina//*//* 6.7 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.17 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.72 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 4.2 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 9.5 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 9.26 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside bacteroides polypragmatus//*//* 0.43 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside corynebacterium murisepticum//*//* 4.4 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.161 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 9.8 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 2.82 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.365 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.0446 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 0.98 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.45 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside papiliotrema laurentii//*//* 18.2 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside penicillium citrinum//*//* 1.7 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside penicillium multicolor//*//* 0.6 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside petunia x hybrida//*//* 0.182 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside raphanus sativus//*//* 1.19 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside rhizomucor sp.//*//* 1.32 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside saccharomyces fragilis//*//* 1.34 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside saccharomyces lactis//*//* 0.1 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside sterigmatomyces elviae//*//* 9.5 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 2.17 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermoanaerobacter sp.//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tex 4.3 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermoanaerobacterium thermosulfurigenes//*//* 0.58 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermomyces lanuginosus//*//* 11.3 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.33 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 6.59 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 5.5 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside torulopsis sphaerica//*//* 2.09 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside torulopsis versatilis//*//* 3.45 * +EC3.2.1.23 o-nitrophenyl-beta-d-galactoside treponema phagedenis//*//* 0.36 * +EC3.2.1.23 p-nitrophenyl beta-d-fucoside tenebrio molitor//*//* 21.0 * +EC3.2.1.23 p-nitrophenyl beta-d-galactopyranoside caldariella acidophila//*//* 0.67 * +EC3.2.1.23 p-nitrophenyl beta-d-galactopyranoside marchantia polymorpha//*//* 0.625 * +EC3.2.1.23 p-nitrophenyl beta-d-galactopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.63 * +EC3.2.1.23 p-nitrophenyl beta-d-galactopyranoside prunus persica//eukaryotes;plants;eudicots;rose family//pper 5.16 * +EC3.2.1.23 p-nitrophenyl beta-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.2.1.23 p-nitrophenyl beta-d-galactopyranoside rhizomucor sp.//*//* 0.66 * +EC3.2.1.23 p-nitrophenyl-alpha-l-arabinoside thermomyces lanuginosus//*//* 75.4 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside achatina achatina//*//* 3.4 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside bacillus circulans//*//* 0.69 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 2.0 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.62 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside oreochromis niloticus//*//* 6.25 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside paenibacillus macerans//*//* 2.0 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside penicillium citrinum//*//* 1.7 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside raphanus sativus//*//* 0.46 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside saccharopolyspora rectivirgula//*//* 0.04 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 2.17 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside thermoanaerobacterium thermosulfurigenes//*//* 0.37 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside thermomyces lanuginosus//*//* 4.8 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside trametes cinnabarina//*//* 0.95 * +EC3.2.1.23 p-nitrophenyl-beta-d-galactoside treponema phagedenis//*//* 0.29 * +EC3.2.1.23 phenyl-beta-d-galactopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.6 * +EC3.2.1.23 phenyl-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.47 * +EC3.2.1.23 phenyl-beta-d-galactoside penicillium citrinum//*//* 1.7 * +EC3.2.1.23 phenyl-beta-d-galactoside streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 4.26 * +EC3.2.1.23 phenyl-beta-d-galactoside thermomyces lanuginosus//*//* 35.9 * +EC3.2.1.23 tetrahexosyldiceramide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.2.1.23 thio-(o-nitrophenyl)-beta-d-galactoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.2.1.24 2,4-dinitrophenyl alpha-d-mannoside drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 5.0 * +EC3.2.1.24 2,4-dinitrophenyl-alpha-d-mannopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 25.0 * +EC3.2.1.24 2-o-alpha-d-mannopyranosyl-d-mannopyranose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.0 * +EC3.2.1.24 2-o-alpha-d-mannopyranosyl-d-mannopyranose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.57 * +EC3.2.1.24 4-methylumbelliferyl alpha-d-mannopyranoside aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.00731 * +EC3.2.1.24 4-methylumbelliferyl alpha-d-mannopyranoside equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.95 * +EC3.2.1.24 4-methylumbelliferyl-alpha-d-mannopyranoside aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.0073 * +EC3.2.1.24 4-methylumbelliferyl-alpha-d-mannopyranoside candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.1 * +EC3.2.1.24 4-methylumbelliferyl-alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC3.2.1.24 4-methylumbelliferyl-alpha-d-mannopyranoside prunus serotina//*//* 2.2 * +EC3.2.1.24 4-methylumbelliferyl-alpha-d-mannopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC3.2.1.24 4-methylumbelliferyl-alpha-d-mannopyranoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.8 * +EC3.2.1.24 4-nitrophenyl alpha-d-mannopyranoside canavalia ensiformis//*//* 3.8 * +EC3.2.1.24 4-nitrophenyl alpha-d-mannopyranoside lablab purpureus//*//* 1.48 * +EC3.2.1.24 4-nitrophenyl alpha-d-mannoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.11 * +EC3.2.1.24 4-nitrophenyl-alpha-d-mannopyranoside aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.0826 * +EC3.2.1.24 4-nitrophenyl-alpha-d-mannopyranoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.8 * +EC3.2.1.24 4-nitrophenyl-alpha-d-mannoside capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 1.6 * +EC3.2.1.24 5-fluoro-beta-l-gulosyl fluoride drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.2 * +EC3.2.1.24 alpha-d-man-(1->2)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.85 * +EC3.2.1.24 alpha-d-man-(1->3)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.16 * +EC3.2.1.24 alpha-d-man-(1->4)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC3.2.1.24 alpha-d-man-(1->6)-d-man sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.0 * +EC3.2.1.24 man-alpha(1-3)man aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.839 * +EC3.2.1.24 man-alpha(1-6)man aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 1.455 * +EC3.2.1.24 man3glcnac2 aspergillus phoenicis//*//* 1.13 * +EC3.2.1.24 man5glcnac rattus sp.//*//* 0.065 * +EC3.2.1.24 man9glcnac gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.037 * +EC3.2.1.24 man9glcnac rattus sp.//*//* 0.11 * +EC3.2.1.24 man9glcnac saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC3.2.1.24 manalpha(1-2)man aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 1.116 * +EC3.2.1.24 manalpha(1-3)man aspergillus fischeri//eukaryotes;fungi;ascomycetes;eurotiomycetes//nfi 0.839 * +EC3.2.1.24 manalpha(1-6)[manalpha(1-3)]manalpha(1-6)[manalpha(1-)]manbeta(1-4)glcnac gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.44 * +EC3.2.1.24 mannan aspergillus phoenicis//*//* 0.45 * +EC3.2.1.24 mannobiose aspergillus phoenicis//*//* 0.67 * +EC3.2.1.24 mannotetraose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.67 * +EC3.2.1.24 methyl-4-o-alpha-d-mannopyranosyl-d-mannopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 8.2 * +EC3.2.1.24 methyl-alpha-d-mannopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.34 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 1.4 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.2 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside aspergillus sp.//*//* 0.083 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside canavalia ensiformis//*//* 2.0 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.86 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside citrullus lanatus//*//* 2.3 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 2.7 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 1.92 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside medicago sativa//*//* 2.3 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 12.6 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 1.8 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside prunus serotina//*//* 2.8 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside rattus sp.//*//* 0.072 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.048 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.91 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 4.3 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside turbo cornutus//*//* 2.3 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannopyranoside yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.27 * +EC3.2.1.24 p-nitrophenyl-alpha-d-mannoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.04 * +EC3.2.1.24 phenyl-alpha-d-mannopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.42 * +EC3.2.1.25 2,4-dinitrophenyl-beta-d-mannopyranoside bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.088 * +EC3.2.1.25 4-methylumbelliferyl beta-d-mannopyranoside capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.8 * +EC3.2.1.25 4-methylumbelliferyl beta-d-mannopyranoside cyamopsis tetragonoloba//*//* 0.5 * +EC3.2.1.25 4-methylumbelliferyl beta-d-mannopyranoside helix pomatia//*//* 0.91 * +EC3.2.1.25 4-methylumbelliferyl beta-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.2.1.25 4-nitrophenyl beta-d-galactopyranoside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 7.3 * +EC3.2.1.25 4-nitrophenyl beta-d-glucopyranoside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.5 * +EC3.2.1.25 4-nitrophenyl beta-d-mannopyranoside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.44 * +EC3.2.1.25 4-nitrophenyl-beta-d-glucopyranose hordeum vulgare//*//* 0.5 * +EC3.2.1.25 4-nitrophenyl-beta-d-mannopyranose cellvibrio mixtus//*//* 1.6 * +EC3.2.1.25 4-nitrophenyl-beta-d-mannopyranose hordeum vulgare//*//* 0.25 * +EC3.2.1.25 4-nitrophenyl-beta-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.2.1.25 asn-(glcnac)2(man) gallus gallus//eukaryotes;animals;vertebrates;birds//gga 16.9 * +EC3.2.1.25 beta-d-mannohexaitol cyamopsis tetragonoloba//*//* 2.8 * +EC3.2.1.25 beta-d-mannohexaitol helix pomatia//*//* 12.5 * +EC3.2.1.25 beta-d-mannopentaitol cyamopsis tetragonoloba//*//* 2.8 * +EC3.2.1.25 beta-d-mannopentaitol helix pomatia//*//* 12.5 * +EC3.2.1.25 beta-d-mannosyl-1,4-beta-d-glucoside cellvibrio mixtus//*//* 6.1 * +EC3.2.1.25 beta-d-mannotetraitol cyamopsis tetragonoloba//*//* 12.0 * +EC3.2.1.25 beta-d-mannotetraitol helix pomatia//*//* 12.5 * +EC3.2.1.25 beta-d-mannotriitol cyamopsis tetragonoloba//*//* 80.0 * +EC3.2.1.25 beta-d-mannotriitol helix pomatia//*//* 12.5 * +EC3.2.1.25 mannobiose cellvibrio mixtus//*//* 0.9 * +EC3.2.1.25 mannotriitol medicago sativa//*//* 1.2 * +EC3.2.1.25 mannotriose cellvibrio mixtus//*//* 0.1 * +EC3.2.1.25 naphthyl-beta-d-mannopyranoside helix pomatia//*//* 3.22 * +EC3.2.1.25 o-nitrophenyl-beta-d-mannopyranoside cyamopsis tetragonoloba//*//* 3.0 * +EC3.2.1.25 o-nitrophenyl-beta-d-mannopyranoside helix pomatia//*//* 2.33 * +EC3.2.1.25 p-nitrophenyl beta-d-mannopyranoside capra hircus//eukaryotes;animals;vertebrates;mammals//chx 9.0 * +EC3.2.1.25 p-nitrophenyl beta-d-mannopyranoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.55 * +EC3.2.1.25 p-nitrophenyl beta-d-mannopyranoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 3.1 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.3 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.3 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside cyamopsis tetragonoloba//*//* 0.5 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside helix pomatia//*//* 1.43 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannopyranoside lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 0.3 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside aplysia fasciata//*//* 2.4 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.0 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.7 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside ceratonia siliqua//*//* 0.29 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.9 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside hordeum vulgare//*//* 0.32 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside medicago sativa//*//* 0.29 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside phlebia radiata//*//* 0.29 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside polyporus sulfureus//*//* 1.6 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside thermoascus aurantiacus//*//* 1.1 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside tremella fuciformis//*//* 2.1 * +EC3.2.1.25 p-nitrophenyl-beta-d-mannoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.12 * +EC3.2.1.25 phenyl beta-d-mannoside achatina fulica//*//* 6.5 * +EC3.2.1.25 phenyl beta-d-mannoside turbo cornutus//*//* 7.1 * +EC3.2.1.26 1-kestose aureobasidium pullulans//*//* 700.0 * +EC3.2.1.26 1-kestose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 1.7 * +EC3.2.1.26 1-kestose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 49.0 * +EC3.2.1.26 1-kestose schwanniomyces occidentalis//*//* 1.3 * +EC3.2.1.26 1-kestose xanthophyllomyces dendrorhous//*//* 4.5 * +EC3.2.1.26 cellobiose aspergillus terreus//*//* 22.5 * +EC3.2.1.26 fructosylnystose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 2.2 * +EC3.2.1.26 inulin aspergillus ochraceus//*//* 2.66 * +EC3.2.1.26 inulin bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 25.9 * +EC3.2.1.26 inulin lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 15.6 * +EC3.2.1.26 inulin schwanniomyces occidentalis//*//* 12.0 * +EC3.2.1.26 inulin thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 19.0 * +EC3.2.1.26 levan lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 0.5 * +EC3.2.1.26 neokestose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 1.7 * +EC3.2.1.26 nystose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 3.9 * +EC3.2.1.26 nystose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 15.0 * +EC3.2.1.26 nystose schwanniomyces occidentalis//*//* 1.6 * +EC3.2.1.26 raffinose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 7.6 * +EC3.2.1.26 raffinose aspergillus ochraceus//*//* 4.5 * +EC3.2.1.26 raffinose avena sativa//*//* 2.9 * +EC3.2.1.26 raffinose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 4.0 * +EC3.2.1.26 raffinose cyberlindnera jadinii//*//* 150.0 * +EC3.2.1.26 raffinose daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 20.7 * +EC3.2.1.26 raffinose ipomoea batatas//*//* 32.19 * +EC3.2.1.26 raffinose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 46.1 * +EC3.2.1.26 raffinose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 392.0 * +EC3.2.1.26 raffinose lilium longiflorum//*//* 1.6 * +EC3.2.1.26 raffinose prunus persica//eukaryotes;plants;eudicots;rose family//pper 14.2 * +EC3.2.1.26 raffinose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 150.0 * +EC3.2.1.26 raffinose schwanniomyces occidentalis//*//* 1.3 * +EC3.2.1.26 raffinose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 10.6 * +EC3.2.1.26 raffinose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 15.0 * +EC3.2.1.26 raffinose trametes sanguinea//*//* 9.3 * +EC3.2.1.26 raffinose triticum aestivum//*//* 19.6 * +EC3.2.1.26 raffinose tropaeolum majus//*//* 17.0 * +EC3.2.1.26 stachyose avena sativa//*//* 14.0 * +EC3.2.1.26 stachyose trametes sanguinea//*//* 18.8 * +EC3.2.1.26 stachyose tropaeolum majus//*//* 25.0 * +EC3.2.1.26 sucrose allium cepa//*//* 5.8 * +EC3.2.1.26 sucrose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.0 * +EC3.2.1.26 sucrose arthrobacter globiformis//*//* 2.4 * +EC3.2.1.26 sucrose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 6.2 * +EC3.2.1.26 sucrose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0625 * +EC3.2.1.26 sucrose aspergillus ochraceus//*//* 3.5 * +EC3.2.1.26 sucrose aspergillus terreus//*//* 11.9 * +EC3.2.1.26 sucrose aureobasidium pullulans//*//* 230.0 * +EC3.2.1.26 sucrose aureobasidium sp.//*//* 0.65 * +EC3.2.1.26 sucrose avena sativa//*//* 2.4 * +EC3.2.1.26 sucrose bambusa oldhamii//*//* 53.68 * +EC3.2.1.26 sucrose beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.56 * +EC3.2.1.26 sucrose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 38.0 * +EC3.2.1.26 sucrose carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 4.2 * +EC3.2.1.26 sucrose cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 14.2 * +EC3.2.1.26 sucrose citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 3.3 * +EC3.2.1.26 sucrose clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.05 * +EC3.2.1.26 sucrose corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.19 * +EC3.2.1.26 sucrose corynebacterium murisepticum//*//* 57.0 * +EC3.2.1.26 sucrose cyberlindnera jadinii//*//* 1.54 * +EC3.2.1.26 sucrose daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 14.3 * +EC3.2.1.26 sucrose fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 2.1 * +EC3.2.1.26 sucrose fusarium solani//*//* 3.57 * +EC3.2.1.26 sucrose glycine max//eukaryotes;plants;eudicots;pea family//gmx 10.0 * +EC3.2.1.26 sucrose helianthus tuberosus//*//* 21.0 * +EC3.2.1.26 sucrose hordeum vulgare//*//* 1.0 * +EC3.2.1.26 sucrose ipomoea batatas//*//* 10.69 * +EC3.2.1.26 sucrose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 13.6 * +EC3.2.1.26 sucrose lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 398.0 * +EC3.2.1.26 sucrose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 6.66 * +EC3.2.1.26 sucrose lilium auratum//*//* 0.65 * +EC3.2.1.26 sucrose lilium longiflorum//*//* 1.0 * +EC3.2.1.26 sucrose nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.6 * +EC3.2.1.26 sucrose paecilomyces variotii//*//* 2.5 * +EC3.2.1.26 sucrose phyllostachys edulis//*//* 3.7 * +EC3.2.1.26 sucrose phytophthora megasperma//*//* 1.8 * +EC3.2.1.26 sucrose pisum sativum//*//* 1.8 * +EC3.2.1.26 sucrose prunus persica//eukaryotes;plants;eudicots;rose family//pper 4.2 * +EC3.2.1.26 sucrose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 90.0 * +EC3.2.1.26 sucrose pyrus pyrifolia//*//* 3.33 * +EC3.2.1.26 sucrose raphanus sativus//*//* 5.4 * +EC3.2.1.26 sucrose rhodotorula glutinis//*//* 227.0 * +EC3.2.1.26 sucrose ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 8.7 * +EC3.2.1.26 sucrose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.08 * +EC3.2.1.26 sucrose saccharum officinarum//*//* 0.32 * +EC3.2.1.26 sucrose schwanniomyces occidentalis//*//* 2.4 * +EC3.2.1.26 sucrose solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.4 * +EC3.2.1.26 sucrose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 64.0 * +EC3.2.1.26 sucrose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 14.0 * +EC3.2.1.26 sucrose trametes sanguinea//*//* 4.89 * +EC3.2.1.26 sucrose triticum aestivum//*//* 1.7 * +EC3.2.1.26 sucrose tropaeolum majus//*//* 5.3 * +EC3.2.1.26 sucrose uncultured bacterium//*//* 2.46 * +EC3.2.1.26 sucrose uromyces viciae-fabae//*//* 27.1 * +EC3.2.1.26 sucrose woodfordia fruticosa//*//* 160.0 * +EC3.2.1.26 sucrose xanthophyllomyces dendrorhous//*//* 4.0 * +EC3.2.1.26 sucrose zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 42.0 * +EC3.2.1.28 alpha,alpha-trehalose amanita muscaria//*//* 0.38 * +EC3.2.1.28 alpha,alpha-trehalose apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.66 * +EC3.2.1.28 alpha,alpha-trehalose ascaris suum//*//* 6.6 * +EC3.2.1.28 alpha,alpha-trehalose chironomus riparius//*//* 0.44 * +EC3.2.1.28 alpha,alpha-trehalose cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 3.64 * +EC3.2.1.28 alpha,alpha-trehalose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.2.1.28 alpha,alpha-trehalose humicola grisea//*//* 0.86 * +EC3.2.1.28 alpha,alpha-trehalose metarhizium anisopliae//*//* 1.11 * +EC3.2.1.28 alpha,alpha-trehalose metarhizium flavoviride//*//* 1.77 * +EC3.2.1.28 alpha,alpha-trehalose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 20.0 * +EC3.2.1.28 alpha,alpha-trehalose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 42.0 * +EC3.2.1.28 alpha,alpha-trehalose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.109 * +EC3.2.1.28 alpha,alpha-trehalose rhizopus microsporus var. rhizopodiformis//*//* 0.2 * +EC3.2.1.28 alpha,alpha-trehalose rhodnius prolixus//*//* 1.42 * +EC3.2.1.28 alpha,alpha-trehalose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.78 * +EC3.2.1.28 alpha,alpha-trehalose spodoptera frugiperda//*//* 0.3 * +EC3.2.1.28 alpha,alpha-trehalose tenebrio molitor//*//* 0.43 * +EC3.2.1.28 trehalose apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.89 * +EC3.2.1.28 trehalose blastobotrys adeninivorans//*//* 0.8 * +EC3.2.1.28 trehalose bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.22 * +EC3.2.1.28 trehalose chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.63 * +EC3.2.1.28 trehalose dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC3.2.1.28 trehalose drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.666 * +EC3.2.1.28 trehalose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC3.2.1.28 trehalose frankia sp.//prokaryotes;bacteria;actinobacteria;frankia//fra 4.2 * +EC3.2.1.28 trehalose galleria mellonella//*//* 0.13 * +EC3.2.1.28 trehalose halorhodospira halochloris//prokaryotes;bacteria;gammaproteobacteria - others;halorhodospira//hhc 0.5 * +EC3.2.1.28 trehalose humicola grisea//*//* 2.3 * +EC3.2.1.28 trehalose isoptera//*//* 0.031 * +EC3.2.1.28 trehalose lobosphaera sp.//*//* 0.6 * +EC3.2.1.28 trehalose metarhizium anisopliae//*//* 2.3 * +EC3.2.1.28 trehalose mycothermus thermophilus//*//* 2.24 * +EC3.2.1.28 trehalose neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.52 * +EC3.2.1.28 trehalose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.15 * +EC3.2.1.28 trehalose phycomyces blakesleeanus//*//* 55.0 * +EC3.2.1.28 trehalose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.4 * +EC3.2.1.28 trehalose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 0.156 * +EC3.2.1.28 trehalose rhodotorula mucilaginosa//*//* 1.8 * +EC3.2.1.28 trehalose rhynchosciara americana//*//* 0.67 * +EC3.2.1.28 trehalose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC3.2.1.28 trehalose schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.0109 * +EC3.2.1.28 trehalose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC3.2.1.28 trehalose thermomyces lanuginosus//*//* 0.4 * +EC3.2.1.28 trehalose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.1 * +EC3.2.1.3 4-methylumbelliferyl-alpha-d-glucoside marsupenaeus japonicus//*//* 0.125 * +EC3.2.1.3 4-nitrophenyl alpha-d-glucoside aspergillus awamori//*//* 3.4 * +EC3.2.1.3 alpha-d-glucopyranosyl fluoride aspergillus awamori//*//* 70.0 * +EC3.2.1.3 amylopectin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 59.0 * +EC3.2.1.3 amylopectin aspergillus phoenicis//*//* 1.65 * +EC3.2.1.3 amylopectin athelia rolfsii//*//* 0.0002 * +EC3.2.1.3 amylopectin monascus purpureus//*//* 4.2 * +EC3.2.1.3 amylopectin paecilomyces variotii//*//* 2.0 * +EC3.2.1.3 amylopectin rana japonica//*//* 0.7 * +EC3.2.1.3 amylopectin rhizopus oryzae//*//* 0.3 * +EC3.2.1.3 amylose, dp 18 athelia rolfsii//*//* 0.063 * +EC3.2.1.3 amylose aspergillus phoenicis//*//* 0.146 * +EC3.2.1.3 amylose athelia rolfsii//*//* 0.0021 * +EC3.2.1.3 amylose monascus purpureus//*//* 2.3 * +EC3.2.1.3 amylose paecilomyces variotii//*//* 0.03 * +EC3.2.1.3 amylose rana japonica//*//* 1.8 * +EC3.2.1.3 dextrin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.17 * +EC3.2.1.3 dextrin aspergillus phoenicis//*//* 0.73 * +EC3.2.1.3 glycogen aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 820.0 * +EC3.2.1.3 glycogen aspergillus phoenicis//*//* 1.25 * +EC3.2.1.3 glycogen athelia rolfsii//*//* 0.0005 * +EC3.2.1.3 glycogen monascus purpureus//*//* 6.2 * +EC3.2.1.3 glycogen paecilomyces variotii//*//* 1.7 * +EC3.2.1.3 glycogen rana japonica//*//* 1.4 * +EC3.2.1.3 glycogen rhizopus oryzae//*//* 0.8 * +EC3.2.1.3 isomaltose aspergillus awamori//*//* 23.5 * +EC3.2.1.3 isomaltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 42.0 * +EC3.2.1.3 isomaltose aspergillus phoenicis//*//* 36.4 * +EC3.2.1.3 isomaltose athelia rolfsii//*//* 20.0 * +EC3.2.1.3 isomaltose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 2.41 * +EC3.2.1.3 isomaltose paecilomyces variotii//*//* 59.0 * +EC3.2.1.3 isomaltose rana japonica//*//* 4.0 * +EC3.2.1.3 isomaltose rasamsonia emersonii//*//* 53.6 * +EC3.2.1.3 isomaltose rhizopus oryzae//*//* 40.0 * +EC3.2.1.3 isomaltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 36.47 * +EC3.2.1.3 kojibiose aspergillus awamori//*//* 150.0 * +EC3.2.1.3 maltodextrin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.74 * +EC3.2.1.3 maltoheptaose aspergillus awamori//*//* 0.083 * +EC3.2.1.3 maltoheptaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.09 * +EC3.2.1.3 maltoheptaose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.097 * +EC3.2.1.3 maltoheptaose athelia rolfsii//*//* 0.025 * +EC3.2.1.3 maltoheptaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 2.21 * +EC3.2.1.3 maltoheptaose candida antarctica//*//* 3.3 * +EC3.2.1.3 maltoheptaose caulobacter vibrioides//*//* 0.04 * +EC3.2.1.3 maltoheptaose paecilomyces variotii//*//* 0.11 * +EC3.2.1.3 maltoheptaose rasamsonia emersonii//*//* 0.61 * +EC3.2.1.3 maltoheptaose rhizopus oryzae//*//* 0.1 * +EC3.2.1.3 maltoheptaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.15 * +EC3.2.1.3 maltohexaose aspergillus awamori//*//* 0.11 * +EC3.2.1.3 maltohexaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.1 * +EC3.2.1.3 maltohexaose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.096 * +EC3.2.1.3 maltohexaose athelia rolfsii//*//* 0.045 * +EC3.2.1.3 maltohexaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 1.88 * +EC3.2.1.3 maltohexaose caulobacter vibrioides//*//* 0.05 * +EC3.2.1.3 maltohexaose paecilomyces variotii//*//* 0.12 * +EC3.2.1.3 maltohexaose rhizopus oryzae//*//* 0.11 * +EC3.2.1.3 maltohexaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.65 * +EC3.2.1.3 maltopentaose aspergillus awamori//*//* 0.1 * +EC3.2.1.3 maltopentaose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.12 * +EC3.2.1.3 maltopentaose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.116 * +EC3.2.1.3 maltopentaose athelia rolfsii//*//* 0.066 * +EC3.2.1.3 maltopentaose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 1.63 * +EC3.2.1.3 maltopentaose candida antarctica//*//* 5.1 * +EC3.2.1.3 maltopentaose caulobacter vibrioides//*//* 0.03 * +EC3.2.1.3 maltopentaose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.2.1.3 maltopentaose rhizopus oryzae//*//* 0.14 * +EC3.2.1.3 maltopentaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.33 * +EC3.2.1.3 maltose aspergillus awamori//*//* 0.72 * +EC3.2.1.3 maltose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.18 * +EC3.2.1.3 maltose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 1.015 * +EC3.2.1.3 maltose aspergillus phoenicis//*//* 3.0 * +EC3.2.1.3 maltose athelia rolfsii//*//* 0.67 * +EC3.2.1.3 maltose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 13.4 * +EC3.2.1.3 maltose candida antarctica//*//* 15.8 * +EC3.2.1.3 maltose caulobacter vibrioides//*//* 0.87 * +EC3.2.1.3 maltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.2.1.3 maltose paecilomyces variotii//*//* 1.2 * +EC3.2.1.3 maltose rana japonica//*//* 1.1 * +EC3.2.1.3 maltose rasamsonia emersonii//*//* 3.8 * +EC3.2.1.3 maltose rhizopus oryzae//*//* 1.9 * +EC3.2.1.3 maltose saccharomyces cerevisiae var. diastaticus//*//* 18.0 * +EC3.2.1.3 maltose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.54 * +EC3.2.1.3 maltose thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 5.01 * +EC3.2.1.3 maltose thermomyces lanuginosus//*//* 3.5 * +EC3.2.1.3 maltotetraose aspergillus awamori//*//* 0.18 * +EC3.2.1.3 maltotetraose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.032 * +EC3.2.1.3 maltotetraose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.224 * +EC3.2.1.3 maltotetraose athelia rolfsii//*//* 0.082 * +EC3.2.1.3 maltotetraose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 1.35 * +EC3.2.1.3 maltotetraose caulobacter vibrioides//*//* 0.14 * +EC3.2.1.3 maltotetraose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.2.1.3 maltotetraose paecilomyces variotii//*//* 0.14 * +EC3.2.1.3 maltotetraose rhizopus oryzae//*//* 0.21 * +EC3.2.1.3 maltotetraose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.12 * +EC3.2.1.3 maltotriose aspergillus awamori//*//* 0.29 * +EC3.2.1.3 maltotriose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.2 * +EC3.2.1.3 maltotriose aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.368 * +EC3.2.1.3 maltotriose aspergillus phoenicis//*//* 1.4 * +EC3.2.1.3 maltotriose athelia rolfsii//*//* 0.21 * +EC3.2.1.3 maltotriose caldanaerobacter subterraneus subsp. tengcongensis mb4//*//* 1.93 * +EC3.2.1.3 maltotriose candida antarctica//*//* 10.6 * +EC3.2.1.3 maltotriose caulobacter vibrioides//*//* 0.16 * +EC3.2.1.3 maltotriose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.2.1.3 maltotriose paecilomyces variotii//*//* 0.26 * +EC3.2.1.3 maltotriose rhizopus oryzae//*//* 0.57 * +EC3.2.1.3 maltotriose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.79 * +EC3.2.1.3 maltotriose thermomyces lanuginosus//*//* 1.1 * +EC3.2.1.3 maltotriose thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.33 * +EC3.2.1.3 nigerose aspergillus awamori//*//* 32.0 * +EC3.2.1.3 nigerose paecilomyces variotii//*//* 22.0 * +EC3.2.1.3 p-nitrophenyl alpha-d-glucoside thermomyces lanuginosus//*//* 2.75 * +EC3.2.1.3 p-nitrophenyl-alpha-d-glucoside aspergillus phoenicis//*//* 5.6 * +EC3.2.1.3 panose aspergillus awamori//*//* 17.0 * +EC3.2.1.3 panose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 13.0 * +EC3.2.1.3 panose athelia rolfsii//*//* 15.4 * +EC3.2.1.3 panose paecilomyces variotii//*//* 12.0 * +EC3.2.1.3 panose rhizopus oryzae//*//* 13.0 * +EC3.2.1.3 phenyl alpha-maltoside paecilomyces variotii//*//* 0.31 * +EC3.2.1.3 phenyl-alpha-maltoside aspergillus phoenicis//*//* 10.0 * +EC3.2.1.3 pullulan rhizopus oryzae//*//* 18.0 * +EC3.2.1.3 short-chain amylose candida antarctica//*//* 0.4 * +EC3.2.1.3 soluble starch aureobasidium pullulans//*//* 5.75 * +EC3.2.1.3 soluble starch fusarium solani//*//* 1.9 * +EC3.2.1.3 soluble starch humicola sp.//*//* 0.26 * +EC3.2.1.3 soluble starch monascus purpureus//*//* 0.2 * +EC3.2.1.3 starch, soluble paecilomyces variotii//*//* 0.0011 * +EC3.2.1.3 starch arachniotus citrinus//*//* 0.031 * +EC3.2.1.3 starch aspergillus coreanus//*//* 3.57 * +EC3.2.1.3 starch aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.017 * +EC3.2.1.3 starch athelia rolfsii//*//* 0.0002 * +EC3.2.1.3 starch camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 10.0 * +EC3.2.1.3 starch fusarium solani//*//* 1.4 * +EC3.2.1.3 starch paecilomyces variotii//*//* 3.8 * +EC3.2.1.3 starch rana japonica//*//* 1.7 * +EC3.2.1.31 1-deoxy-1-(6-thiopurinyl)-beta-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.49 * +EC3.2.1.31 1-deoxy-1-(6-thiopurinyl)-beta-d-glucopyranosiduronamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.25 * +EC3.2.1.31 4-me-beta-glca-(1-6)-beta-gal-(1-6)-beta-gal-(1-3)-gal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.4 * +EC3.2.1.31 4-me-beta-glca-(1-6)-beta-gal-(1-6)-gal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.9 * +EC3.2.1.31 4-me-beta-glca-(1-6)-gal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.6 * +EC3.2.1.31 4-methylumbelliferyl beta-d-glucuronide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.54 * +EC3.2.1.31 4-methylumbelliferyl-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC3.2.1.31 4-methylumbelliferyl-beta-d-glucuronide littorina littorea//*//* 0.041 * +EC3.2.1.31 4-nitrophenyl beta-d-glucoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0304 * +EC3.2.1.31 4-nitrophenyl beta-d-glucoside neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0383 * +EC3.2.1.31 4-nitrophenyl beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC3.2.1.31 4-nitrophenyl beta-d-glucuronide scutellaria baicalensis//*//* 167.5 * +EC3.2.1.31 4-nitrophenyl beta-d-xylopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.2.1.31 4-nitrophenyl-beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.208 * +EC3.2.1.31 4-nitrophenyl-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.2.1.31 ammonium 1-deoxy-1-(6-thiopurinyl)-beta-d-glucopyranosidurate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.132 * +EC3.2.1.31 baicalein 7-o-beta-d-glucuronide scutellaria baicalensis//*//* 0.0121 * +EC3.2.1.31 baicalin scutellaria baicalensis//*//* 0.01 * +EC3.2.1.31 beta-glca-(1-6)-beta-gal-(1-6)-gal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.53 * +EC3.2.1.31 beta-glca-(1-6)-gal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.71 * +EC3.2.1.31 carboxyumbelliferyl-beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.91 * +EC3.2.1.31 chondroitin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 6.3 * +EC3.2.1.31 daidzein 7-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.272 * +EC3.2.1.31 equol 7-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.266 * +EC3.2.1.31 estriol-3-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.2.1.31 glcabeta(1-6)gal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.422 * +EC3.2.1.31 glcabeta(1-6)gal neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.378 * +EC3.2.1.31 glycyrrhizin penicillium purpurogenum//*//* 1.72 * +EC3.2.1.31 kaempferol 3-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.2.1.31 luteolin 3'-o-beta-glucuronide scutellaria baicalensis//*//* 0.009 * +EC3.2.1.31 luteolin 7-o-diglucuronide 4'-o-glucuronide secale cereale//*//* 0.007 * +EC3.2.1.31 methylumbelliferyl-beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC3.2.1.31 oestrone-3-glucuronide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC3.2.1.31 oroxylin-7-o-beta-d-glucuronide scutellaria baicalensis//*//* 0.04 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.23 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide kobayasia nipponica//*//* 0.13 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide littorina littorea//*//* 0.13 * +EC3.2.1.31 p-nitrophenyl-beta-d-glucuronide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC3.2.1.31 phenolphthalein glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.2.1.31 phenolphthalein glucuronide littorina littorea//*//* 0.018 * +EC3.2.1.31 phenolphthalein glucuronide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC3.2.1.31 phenolphthalein-beta-d-glucuronic acid labeo rohita//*//* 2.907 * +EC3.2.1.31 quercetin 4'-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.2.1.31 quercetin 7-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.237 * +EC3.2.1.31 quercetin-3-o-beta-d-glucuronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC3.2.1.31 wogonin 7-o-beta-d-glucuronide scutellaria baicalensis//*//* 0.03 * +EC3.2.1.32 2-oxo-4-(trifluoromethyl)-2h-chromen-7-yl 3-o-(3-o-methyl-etab-d-xylopyranosyl)-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 71.0 * +EC3.2.1.32 2-oxo-4-(trifluoromethyl)-2h-chromen-7-yl 3-o-beta-d-xylopyranosyl-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 1.7 * +EC3.2.1.32 2-oxo-4-(trifluoromethyl)-2h-chromen-7-yl beta-d-xylopyranosyl-(1->3)-beta-d-xylopyranosyl-(1->3)-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.0038 * +EC3.2.1.32 xylopentaose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.75 * +EC3.2.1.32 xylotetraose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.74 * +EC3.2.1.33 6-o-alpha-d-glucosyl cyclomaltoheptaose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 16.3 * +EC3.2.1.33 6-o-alpha-maltosyl-beta-cyclodextrin sulfolobus shibatae//*//* 12.23 * +EC3.2.1.33 6-o-alpha-maltotetraosyl-beta-cyclodextrin sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.206 * +EC3.2.1.33 63-alpha-glucosyl maltotetraose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.8 * +EC3.2.1.33 63-alpha-maltotriosyl maltotetraose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.6 * +EC3.2.1.33 alpha-glucosyl fluoride oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.8 * +EC3.2.1.33 amylopectin beta-dextrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 11.0 * +EC3.2.1.33 amylopectin beta-dextrin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.3 * +EC3.2.1.33 beta-amylase limit dextrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 7.2 * +EC3.2.1.33 beta-amylase limit dextrin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.8 * +EC3.2.1.33 d-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 32.0 * +EC3.2.1.33 glycogen phosphorylase limit dextrin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.063 * +EC3.2.1.33 glycogen phosphorylase limit dextrin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC3.2.1.33 maltodecaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.64 * +EC3.2.1.33 maltododecaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.62 * +EC3.2.1.33 maltononaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.81 * +EC3.2.1.33 maltoundecaose nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.51 * +EC3.2.1.35 chondroitin sulfate a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.66 * +EC3.2.1.35 chondroitin sulfate c mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.16 * +EC3.2.1.35 chondroitin sulfate d mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.2.1.35 chondroitin sulfate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.48 * +EC3.2.1.35 chondroitin caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.12 * +EC3.2.1.35 hyaluronan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC3.2.1.35 hyaluronan palamneus gravimanus//*//* 0.048 * +EC3.2.1.35 hyaluronic acid from streptococcus pyogenes (35 kda) caenorhabditis elegans//eukaryotes;animals;nematodes//cel 49.3 * +EC3.2.1.35 hyaluronic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00091 * +EC3.2.1.37 (2-n-acetylamino)phenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 8.0 * +EC3.2.1.37 2,4-dinitrophenyl 1-thio-beta-d-xylopyranoside penicillium wortmanni//*//* 0.2 * +EC3.2.1.37 2,4-dinitrophenyl beta-d-xylopyranoside penicillium wortmanni//*//* 0.15 * +EC3.2.1.37 2,4-dinitrophenyl beta-d-xylopyranoside trichoderma koningii//*//* 0.02 * +EC3.2.1.37 2,4-dinitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.024 * +EC3.2.1.37 2,5-dinitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.95 * +EC3.2.1.37 2,5-dinitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.01 * +EC3.2.1.37 2,5-dinitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.067 * +EC3.2.1.37 2-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 0.1 * +EC3.2.1.37 2-nitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 7.1 * +EC3.2.1.37 2-nitrophenyl-beta-d-xylopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.94 * +EC3.2.1.37 2-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.15 * +EC3.2.1.37 2-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.028 * +EC3.2.1.37 3,4-dimethylphenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 2.5 * +EC3.2.1.37 3,4-dinitrophenyl beta-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.39 * +EC3.2.1.37 3,4-dinitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.8 * +EC3.2.1.37 3,4-dinitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.0099 * +EC3.2.1.37 3,4-dinitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.073 * +EC3.2.1.37 3,5-dichlorophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.035 * +EC3.2.1.37 3-clorophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.29 * +EC3.2.1.37 3-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.065 * +EC3.2.1.37 4-bromophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.34 * +EC3.2.1.37 4-chloro-2-nitrophenyl beta-d-xylopyranoside trichoderma koningii//*//* 0.02 * +EC3.2.1.37 4-chloro-2-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.02 * +EC3.2.1.37 4-cyanophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.08 * +EC3.2.1.37 4-methylumbelliferyl-alpha-l-arabinofuranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.081 * +EC3.2.1.37 4-methylumbelliferyl-beta-d-xylopyranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.366 * +EC3.2.1.37 4-methylumbelliferyl-beta-d-xylopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.87 * +EC3.2.1.37 4-nitrophenyl alpha-d-xylopyranoside penicillium purpurogenum//*//* 12.0 * +EC3.2.1.37 4-nitrophenyl alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.54 * +EC3.2.1.37 4-nitrophenyl alpha-l-arabinopyranoside penicillium purpurogenum//*//* 0.65 * +EC3.2.1.37 4-nitrophenyl beta-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.01 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.66 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside aureobasidium melanogenum//*//* 3.5 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 1.45 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside uncultured bacterium//*//* 3.43 * +EC3.2.1.37 4-nitrophenyl beta-d-xylopyranoside uncultured rumen bacterium//*//* 0.03 * +EC3.2.1.37 4-nitrophenyl beta-d-xyloside penicillium purpurogenum//*//* 12.0 * +EC3.2.1.37 4-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 0.13 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside aspergillus awamori//*//* 6.8 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.497 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside medicago sativa//*//* 0.94 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinofuranoside selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.715 * +EC3.2.1.37 4-nitrophenyl-alpha-l-arabinopyranoside medicago sativa//*//* 1.2 * +EC3.2.1.37 4-nitrophenyl-beta-d-fucopyranoside aspergillus awamori//*//* 64.0 * +EC3.2.1.37 4-nitrophenyl-beta-d-glucopyranoside aspergillus awamori//*//* 55.0 * +EC3.2.1.37 4-nitrophenyl-beta-d-glucopyranoside mycothermus thermophilus//*//* 0.5 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside aspergillus awamori//*//* 0.25 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside aspergillus japonicus//*//* 0.33 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.48 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside aspergillus versicolor//*//* 0.19 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 8.61 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 2.92 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.2 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.55 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside humicola grisea//*//* 1.37 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside humicola insolens//*//* 1.74 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.14 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside medicago sativa//*//* 0.59 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside mycothermus thermophilus//*//* 1.3 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 1.8 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside rasamsonia emersonii//*//* 0.06 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.33 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.56 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 28.0 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside thermomyces dupontii//*//* 2.37 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.042 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.8 * +EC3.2.1.37 4-nitrophenyl-beta-d-xylopyranoside zea mays//eukaryotes;plants;monocots;grass family//zma 2.5 * +EC3.2.1.37 ginsenoside ra1 bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.4 * +EC3.2.1.37 ginsenoside ra2 bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 4.76 * +EC3.2.1.37 kakkalide bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.05 * +EC3.2.1.37 m-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.15 * +EC3.2.1.37 methyl beta-d-xylopyranoside penicillium wortmanni//*//* 1.4 * +EC3.2.1.37 n-pentyl beta-d-xylopyranoside penicillium wortmanni//*//* 0.3 * +EC3.2.1.37 o-nitrophenyl beta-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.2 * +EC3.2.1.37 o-nitrophenyl beta-d-xylopyranoside thermoanaerobacter ethanolicus//*//* 0.06 * +EC3.2.1.37 o-nitrophenyl beta-d-xylopyranoside trichoderma koningii//*//* 0.03 * +EC3.2.1.37 o-nitrophenyl-beta-d-xylopyranoside geobacillus sp. r-35644//*//* 1.28 * +EC3.2.1.37 o-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.046 * +EC3.2.1.37 p-methoxyphenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.22 * +EC3.2.1.37 p-nitrophenol-g-d-xyloside fusarium proliferatum//*//* 0.85 * +EC3.2.1.37 p-nitrophenyl alpha-l-arabinofuranoside thermoanaerobacter ethanolicus//*//* 4.6 * +EC3.2.1.37 p-nitrophenyl alpha-l-arabinopyranoside penicillium wortmanni//*//* 2.4 * +EC3.2.1.37 p-nitrophenyl alpha-l-arabinopyranoside thermoanaerobacter ethanolicus//*//* 2.1 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.1 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.23 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside athelia rolfsii//*//* 0.038 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside blastobotrys adeninivorans//*//* 0.23 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 1.5 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside neocallimastix frontalis//*//* 122.0 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside penicillium wortmanni//*//* 0.12 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside saccharum officinarum//*//* 2.05 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 1.6 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside thermoanaerobacter ethanolicus//*//* 0.018 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.89 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside trichoderma koningii//*//* 0.04 * +EC3.2.1.37 p-nitrophenyl beta-d-xylopyranoside trichoderma viride//*//* 0.08 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.0 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside aureobasidium pullulans//*//* 0.43 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 3.9 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside clostridium cellulolyticum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cce 0.4 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.2 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.05 * +EC3.2.1.37 p-nitrophenyl beta-d-xyloside termitomyces clypeatus//*//* 0.4 * +EC3.2.1.37 p-nitrophenyl-alpha-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 3.0 * +EC3.2.1.37 p-nitrophenyl-alpha-l-arabinopyranoside trichoderma koningii//*//* 7.5 * +EC3.2.1.37 p-nitrophenyl-beta-d-fucoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 17.0 * +EC3.2.1.37 p-nitrophenyl-beta-d-glucopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 7.4 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside fusarium proliferatum//*//* 0.77 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside geobacillus sp. r-35644//*//* 0.5 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside phlebia radiata//*//* 1.28 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 0.036 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside thermothelomyces heterothallica//*//* 1.1 * +EC3.2.1.37 p-nitrophenyl-beta-d-xylopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.11 * +EC3.2.1.37 phenyl beta-d-xyloside malbranchea pulchella var. sulfurea//*//* 3.01 * +EC3.2.1.37 phenyl-beta-d-xylopyranoside thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 1.9 * +EC3.2.1.37 phenyl-beta-d-xylopyranoside trichoderma koningii//*//* 0.73 * +EC3.2.1.37 xyl-beta-(1->4)-xyl-beta-(1->4)-xyl-beta-(1->4)-xyl aspergillus japonicus//*//* 4.4 * +EC3.2.1.37 xyl-beta-(1->4)-xyl-beta-(1->4)-xyl aspergillus japonicus//*//* 5.7 * +EC3.2.1.37 xyl-beta-(1->4)-xyl aspergillus japonicus//*//* 4.6 * +EC3.2.1.37 xylobiose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 23.8 * +EC3.2.1.37 xylobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.67 * +EC3.2.1.37 xylobiose aureobasidium pullulans//*//* 17.5 * +EC3.2.1.37 xylobiose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 80.14 * +EC3.2.1.37 xylobiose bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 8.9 * +EC3.2.1.37 xylobiose geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 12.8 * +EC3.2.1.37 xylobiose malbranchea pulchella var. sulfurea//*//* 2.86 * +EC3.2.1.37 xylobiose penicillium wortmanni//*//* 1.0 * +EC3.2.1.37 xylobiose rasamsonia emersonii//*//* 0.19 * +EC3.2.1.37 xylobiose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.4 * +EC3.2.1.37 xylohexaose rasamsonia emersonii//*//* 0.09 * +EC3.2.1.37 xylohexaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.08 * +EC3.2.1.37 xylopentaose rasamsonia emersonii//*//* 0.13 * +EC3.2.1.37 xylopentaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.1 * +EC3.2.1.37 xylotetraose rasamsonia emersonii//*//* 0.15 * +EC3.2.1.37 xylotetraose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.16 * +EC3.2.1.37 xylotriose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 37.3 * +EC3.2.1.37 xylotriose geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 5.09 * +EC3.2.1.37 xylotriose rasamsonia emersonii//*//* 0.17 * +EC3.2.1.37 xylotriose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.2 * +EC3.2.1.38 2-nitrophenyl beta-d-galactoside haloferax lucentense//*//* 0.87 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside asclepias curassavica//*//* 6.58 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside aspergillus phoenicis//*//* 2.4 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside bifidobacterium breve clb//*//* 0.7 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.26 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside dalbergia cochinchinensis//*//* 0.54 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 8.0 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside littorina littorea//*//* 0.29 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside ovis aries aries//*//* 0.33 * +EC3.2.1.38 p-nitrophenyl-beta-d-fucoside patella vulgata//*//* 0.63 * +EC3.2.1.38 p-nitrophenyl-beta-d-galactoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC3.2.1.38 p-nitrophenyl-beta-d-galactoside littorina littorea//*//* 2.22 * +EC3.2.1.38 p-nitrophenyl-beta-d-galactoside ovis aries aries//*//* 0.25 * +EC3.2.1.38 p-nitrophenyl-beta-d-galactoside turbo cornutus//*//* 3.5 * +EC3.2.1.38 p-nitrophenyl-beta-d-glucoside bifidobacterium breve clb//*//* 1.3 * +EC3.2.1.38 p-nitrophenyl-beta-d-glucoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.2.1.38 p-nitrophenyl-beta-d-glucoside dalbergia cochinchinensis//*//* 4.7 * +EC3.2.1.38 p-nitrophenyl-beta-d-glucoside littorina littorea//*//* 0.39 * +EC3.2.1.38 p-nitrophenyl-beta-d-glucoside ovis aries aries//*//* 0.2 * +EC3.2.1.39 laminariheptaose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.066 * +EC3.2.1.39 laminariheptaose cellulosimicrobium cellulans//prokaryotes;bacteria;actinobacteria;cellulosimicrobium//cceu 0.75 * +EC3.2.1.39 laminarihexaose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.067 * +EC3.2.1.39 laminarin arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.16 * +EC3.2.1.39 laminarin cellulosimicrobium cellulans//prokaryotes;bacteria;actinobacteria;cellulosimicrobium//cceu 0.41 * +EC3.2.1.39 laminarin hordeum vulgare//*//* 0.17 * +EC3.2.1.39 laminarin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.04 * +EC3.2.1.39 laminarin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.2 * +EC3.2.1.39 laminarin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC3.2.1.39 laminarin vitis vinifera//eukaryotes;plants;eudicots;grape family//vvi 0.081 * +EC3.2.1.39 laminaripentaose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.11 * +EC3.2.1.39 laminaripentaose cellulosimicrobium cellulans//prokaryotes;bacteria;actinobacteria;cellulosimicrobium//cceu 0.32 * +EC3.2.1.39 laminaritetraose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.12 * +EC3.2.1.39 o-carboxymethyl-pachyman nicotiana glutinosa//*//* 0.13 * +EC3.2.1.4 2',4'-dinitrophenyl-beta-d-cellobiose cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 0.2038 * +EC3.2.1.4 2,4-dinitrophenyl beta-d-cellobioside thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.697 * +EC3.2.1.4 4-methylumbelliferyl cellobioside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.125 * +EC3.2.1.4 4-nitrophenyl cellobioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.15 * +EC3.2.1.4 4-nitrophenyl cellobioside pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.37 * +EC3.2.1.4 4-nitrophenyl cellopentaoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.36 * +EC3.2.1.4 4-nitrophenyl cellotetraoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.12 * +EC3.2.1.4 4-nitrophenyl cellotrioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.061 * +EC3.2.1.4 4-nitrophenyl d-cellobioside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.363 * +EC3.2.1.4 4-nitrophenyl d-cellobioside uncultured bacterium//*//* 1.4 * +EC3.2.1.4 barley beta-glucan uncultured bacterium//*//* 13.3 * +EC3.2.1.4 carboxymethyl cellulose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 3.97 * +EC3.2.1.4 carboxymethyl cellulose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.11 * +EC3.2.1.4 carboxymethyl cellulose geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 1.08 * +EC3.2.1.4 carboxymethyl cellulose phanerochaete chrysosporium//*//* 0.0037 * +EC3.2.1.4 carboxymethyl cellulose uncultured bacterium//*//* 20.8 * +EC3.2.1.4 cellohexaose irpex lacteus//*//* 0.381 * +EC3.2.1.4 cellohexaose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.72 * +EC3.2.1.4 cellohexaose trichoderma viride//*//* 0.33 * +EC3.2.1.4 cellohexaose uncultured bacterium//*//* 5.1 * +EC3.2.1.4 cellopentaose clostridium josui//*//* 6.7 * +EC3.2.1.4 cellopentaose irpex lacteus//*//* 0.561 * +EC3.2.1.4 cellopentaose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 7.24 * +EC3.2.1.4 cellopentaose trichoderma viride//*//* 0.15 * +EC3.2.1.4 cellopentaose uncultured bacterium//*//* 0.62 * +EC3.2.1.4 cellotetraose clostridium josui//*//* 15.4 * +EC3.2.1.4 cellotetraose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 8.85 * +EC3.2.1.4 cellotetraose trichoderma viride//*//* 0.04 * +EC3.2.1.4 cellotetraose uncultured bacterium//*//* 18.3 * +EC3.2.1.4 cellotriose trichoderma viride//*//* 1.63 * +EC3.2.1.4 cellotriose uncultured bacterium//*//* 151.7 * +EC3.2.1.4 filter paper trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.116 * +EC3.2.1.4 hydroxyethylcellulose uncultured bacterium//*//* 28.3 * +EC3.2.1.4 laminarin uncultured bacterium//*//* 47.3 * +EC3.2.1.4 n-[2-n-[(s-(4-deoxy-4-dimethylamino-phenylazophenylthioureido-beta-d-glucopyranosyl)-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl)-2-thioacetyl]aminoethyl]-1-naphthylamine-5-sulfonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0017 * +EC3.2.1.4 n-[2-n-[(s-(4-deoxy-4-dimethylamino-phenylazophenylthioureido-beta-d-glucopyranosyl)-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl)-2-thioacetyl]aminoethyl]-1-naphthylamine-5-sulfonate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0017 * +EC3.2.1.4 n-[2-n-[(s-(4-deoxy-4-dimethylaminophenylazophenylthioureido-beta-d-glucopyranosyl)-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl-(1->4)-beta-d-glucopyranosyl)-2-thioacetyl]aminoethyl]-1-naphthylamine-5-sulfonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.002 * +EC3.2.1.4 p-nitrophenyl cellobiose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.95 * +EC3.2.1.4 p-nitrophenyl-beta-d-cellobioside dickeya chrysanthemi//*//* 1.5 * +EC3.2.1.4 p-nitrophenyl-beta-d-cellopentaoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.24 * +EC3.2.1.4 p-nitrophenyl-beta-d-cellotetraoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.25 * +EC3.2.1.4 rice husk trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.174 * +EC3.2.1.4 soybean husk trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.027 * +EC3.2.1.4 sugarcane bagasse trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.092 * +EC3.2.1.4 wheat straw trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.211 * +EC3.2.1.4 yacon trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.092 * +EC3.2.1.4 yam trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 16.72 * +EC3.2.1.40 4-nitrophenyl alpha-l-rhamnopyranoside fusobacterium sp.//*//* 0.057 * +EC3.2.1.40 4-nitrophenyl alpha-l-rhamnopyranoside lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.51 * +EC3.2.1.40 4-nitrophenyl alpha-l-rhamnopyranoside penicillium decumbens//*//* 6.1 * +EC3.2.1.40 4-nitrophenyl-alpha-l-rhamnoside acrostalagmus luteoalbus//*//* 3.38 * +EC3.2.1.40 6-o-alpha-l-rhamnosyl-d-glucopyranose fagopyrum esculentum//*//* 2.2 * +EC3.2.1.40 hesperidin bacteroides jy-6//*//* 1.33 * +EC3.2.1.40 hesperidin lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.78 * +EC3.2.1.40 hesperidin sphingomonas paucimobilis//*//* 0.06 * +EC3.2.1.40 naringin bacteroides jy-6//*//* 0.89 * +EC3.2.1.40 naringin penicillium sp.//*//* 2.8 * +EC3.2.1.40 naringin sphingomonas paucimobilis//*//* 0.17 * +EC3.2.1.40 neohesperidin bacteroides jy-6//*//* 0.82 * +EC3.2.1.40 p-nitrophenyl alpha-l-rhamnoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.65 * +EC3.2.1.40 p-nitrophenyl alpha-l-rhamnoside turbo cornutus//*//* 2.0 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnopyranoside aspergillus aculeatus//*//* 0.3 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.9 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnopyranoside aspergillus terreus//*//* 0.17 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnopyranoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.119 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnopyranoside bacteroides jy-6//*//* 0.29 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnopyranoside sphingomonas paucimobilis//*//* 1.18 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnoside fagopyrum esculentum//*//* 0.33 * +EC3.2.1.40 p-nitrophenyl-alpha-l-rhamnoside penicillium sp.//*//* 1.52 * +EC3.2.1.40 poncirin bacteroides jy-6//*//* 0.93 * +EC3.2.1.40 proscillaridin a sphingomonas paucimobilis//*//* 0.07 * +EC3.2.1.40 quercitrin fusobacterium sp.//*//* 0.077 * +EC3.2.1.40 quercitrin sphingomonas paucimobilis//*//* 0.89 * +EC3.2.1.40 rutin bacteroides jy-6//*//* 1.44 * +EC3.2.1.40 rutin lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.06 * +EC3.2.1.40 rutin sphingomonas paucimobilis//*//* 0.13 * +EC3.2.1.40 saikosaponin c bacteroides jy-6//*//* 1.6 * +EC3.2.1.40 saikosaponin c sphingomonas paucimobilis//*//* 0.88 * +EC3.2.1.41 4-nitrophenyl alpha-d-maltotrioside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.077 * +EC3.2.1.41 4-nitrophenyl alpha-d-maltotrioside thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.037 * +EC3.2.1.41 beta-limit dextrin zea mays//eukaryotes;plants;monocots;grass family//zma 4.1 * +EC3.2.1.41 pullulan bacillus acidopullulyticus//*//* 2.5 * +EC3.2.1.41 pullulan klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.021 * +EC3.2.1.41 pullulan zea mays//eukaryotes;plants;monocots;grass family//zma 0.37 * +EC3.2.1.42 gdpglucose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.23 * +EC3.2.1.44 p-nitrophenyl alpha-l-fucoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC3.2.1.44 p-nitrophenyl alpha-l-fucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC3.2.1.45 (6-[n-(7-nitrobenz-2-oxa-1,3 diazol-4-yl)amino]hexanoyl)-beta-d-galactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00204 * +EC3.2.1.45 (6-[n-(7-nitrobenz-2-oxa-1,3 diazol-4-yl)amino]hexanoyl)-beta-d-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00464 * +EC3.2.1.45 12(n-methyl-n-(7-nitrobenz-2-oxa-1,3-diazol-4-yl))aminohexyl-2-n-sphingosyl 1-o-beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.2.1.45 2,4-dinitrophenyl beta-d-glucopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.16 * +EC3.2.1.45 4-methylumbelliferyl beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.06 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1445 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04928 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-glucopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.636 * +EC3.2.1.45 4-methylumbelliferyl-beta-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.2.1.45 4-nitrophenyl beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.331 * +EC3.2.1.45 4-nonylumbelliferyl-beta-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.026 * +EC3.2.1.45 4-nonylumbelliferyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.2.1.45 4-undecylumbelliferyl-beta-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.038 * +EC3.2.1.45 6(n-methyl-n-(7-nitrobenz-2-oxa-1,3-diazol-4-yl))aminododecanoyl-2-n-sphingosyl 1-o-beta-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.2.1.45 beta-d-glucocerebroside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.055 * +EC3.2.1.45 beta-d-glucocerebroside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.2.1.45 c18-galactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00924 * +EC3.2.1.45 c18-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01367 * +EC3.2.1.45 d-glucosyl-n-butylsphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.2.1.45 d-glucosyl-n-ethylsphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.2.1.45 d-glucosyl-n-methylsphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.2.1.45 d-glucosyl-n-octylsphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.2.1.45 d-glucosyl-n-propylsphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.2.1.45 glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.2.1.45 glucosylceramide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.223 * +EC3.2.1.45 p-nitrophenyl beta-d-glucopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.27 * +EC3.2.1.45 p-nitrophenyl-beta-glucopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.593 * +EC3.2.1.45 palmitylglucosyl ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.2.1.45 stearylglucosyl ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.2.1.46 4-methylumbelliferyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.2.1.46 4-methylumbelliferyl-beta-d-galactopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.47 * +EC3.2.1.46 6-hexadecanoylamino-4-methylbelliferyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.2.1.46 6-hexadecanoylamino-4-methylbelliferyl-beta-d-galactopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC3.2.1.46 galactocerebroside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.2.1.46 galactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.2.1.46 galactosylsphingosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.2.1.47 4-methylumbelliferyl-alpha-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.55 * +EC3.2.1.47 ceramide trihexoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.2.1.47 p-nitrophenyl-alpha-galactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.2.1.48 4-nitrophenyl alpha-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.051 * +EC3.2.1.48 4-nitrophenyl-alpha-d-glucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.2.1.48 6-bromo-2-naphthyl-alpha-d-glucoside rattus rattus//*//* 0.12 * +EC3.2.1.48 isomaltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.455 * +EC3.2.1.48 isomaltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.1 * +EC3.2.1.48 isomaltose platyrrhini//*//* 3.2 * +EC3.2.1.48 isomaltose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.0 * +EC3.2.1.48 isomaltose rattus rattus//*//* 11.5 * +EC3.2.1.48 maltopentaose platyrrhini//*//* 13.3 * +EC3.2.1.48 maltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.135 * +EC3.2.1.48 maltose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1 * +EC3.2.1.48 maltose platyrrhini//*//* 1.0 * +EC3.2.1.48 maltose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 7.1 * +EC3.2.1.48 maltose rattus rattus//*//* 7.2 * +EC3.2.1.48 maltotetraose platyrrhini//*//* 11.1 * +EC3.2.1.48 maltotriose platyrrhini//*//* 3.8 * +EC3.2.1.48 p-nitrophenyl-alpha-d-glucoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.21 * +EC3.2.1.48 p-nitrophenyl-alpha-d-glucoside rattus rattus//*//* 1.5 * +EC3.2.1.48 panose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.2 * +EC3.2.1.48 sucrose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.2 * +EC3.2.1.48 sucrose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 10.5 * +EC3.2.1.48 sucrose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.0 * +EC3.2.1.48 sucrose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.2 * +EC3.2.1.48 sucrose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.4 * +EC3.2.1.48 sucrose perna viridis//*//* 0.184 * +EC3.2.1.48 sucrose platyrrhini//*//* 20.0 * +EC3.2.1.48 sucrose rattus rattus//*//* 16.0 * +EC3.2.1.48 sucrose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.5 * +EC3.2.1.48 sucrose streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 48.0 * +EC3.2.1.48 sucrose xanthomonas axonopodis//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xax 2.4 * +EC3.2.1.48 sucrose xanthomonas campestris pv. campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.0607 * +EC3.2.1.49 2-nitrophenyl-alpha-n-acetylgalactosaminide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.56 * +EC3.2.1.49 4-methylumbelliferyl-alpha-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC3.2.1.49 forssman hapten homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.59 * +EC3.2.1.49 forssman hapten patella vulgata//*//* 0.036 * +EC3.2.1.49 galnac-alpha-1,3-galnac-beta-1,3-gal-alpha-1,4-gal-beta-1,4-glc-beta-1,1-ceramide asterina amurensis//*//* 1.04 * +EC3.2.1.49 galnac-alpha-1,3-galnac-beta-1,3-gal-alpha-1,4-gal-beta-1,4-glc-beta-1,1-ceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.79 * +EC3.2.1.49 n-acetyl-alpha-d-galactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.2.1.49 o-nitrophenyl-alpha-d-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.8 * +EC3.2.1.49 o-nitrophenyl-alpha-n-acetylgalactosaminide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.4 * +EC3.2.1.49 o-nitrophenyl-alpha-n-acetylgalactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.2.1.49 o-nitrophenyl-n-acetyl-alpha-d-galactosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.58 * +EC3.2.1.49 ovine submaxillary asialoglycoprotein katsuwonus pelamis//*//* 0.05 * +EC3.2.1.49 p-nitrophenyl n-acetyl-alpha-d-galactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.27 * +EC3.2.1.49 p-nitrophenyl-2-deoxy-alpha-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.7 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetyl-d-galactosaminide arenibacter latericius//*//* 0.38 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide acremonium sp.//*//* 1.3 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.23 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.77 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.8 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide katsuwonus pelamis//*//* 4.2 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide patella vulgata//*//* 0.6 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide ruminococcus torques//prokaryotes;bacteria;firmicutes - clostridia;blautia//rto 2.2 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide solenocera melantho//*//* 0.8 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC3.2.1.49 p-nitrophenyl-alpha-n-acetylgalactosaminide todarodes pacificus//*//* 1.55 * +EC3.2.1.49 p-nitrophenyl-n-acetyl-alpha-d-galactosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.35 * +EC3.2.1.49 phenyl-alpha-n-acetylglucosaminide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 50.0 * +EC3.2.1.49 serum vitamin d3-binding protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.27 * +EC3.2.1.49 serum vitamin d3-binding protein human immunodeficiency virus 1//*//* 4.83 * +EC3.2.1.50 2,4-dinitrophenyl-alpha-n-acetyl-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.74 * +EC3.2.1.50 4-methylumbelliferyl 2-acetamido-2-deoxy-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.07 * +EC3.2.1.50 4-nitrophenyl-alpha-n-acetyl-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.1 * +EC3.2.1.50 4-nitrophenyl-n-acetyl-alpha-d-glucosaminide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 4.3 * +EC3.2.1.50 chitobiose bitis arietans//*//* 0.00065 * +EC3.2.1.50 chitotetraose bitis arietans//*//* 0.003 * +EC3.2.1.50 chitotriose bitis arietans//*//* 0.0008 * +EC3.2.1.50 methylumbelliferyl-n-acetyl-alpha-d-glucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.2.1.50 methylumbelliferyl-n-acetylglucosamine-6-sulfate bitis arietans//*//* 0.0035 * +EC3.2.1.50 methylumbelliferyl-n-acetylglucosamine bitis arietans//*//* 0.001 * +EC3.2.1.50 n-acetyl-alpha-d-gluc-1,4-(1-methoxyphenyl)gal clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.2 * +EC3.2.1.50 o-(alpha-acetamido-2-deoxy-d-glucopyranosyl)-(1-3)-[l-6,3h]idoronic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0166 * +EC3.2.1.50 o-nitrophenyl-alpha-n-acetylglucosaminide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC3.2.1.50 o-nitrophenyl-alpha-n-acetylglucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.2.1.50 o-nitrophenyl-alpha-n-acetylglucosaminide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.2.1.50 p-nitrophenyl-1-thio-n-acetylglucosamine bitis arietans//*//* 0.00055 * +EC3.2.1.50 p-nitrophenyl-alpha-n-acetylglucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.2.1.50 p-nitrophenyl-alpha-n-acetylglucosaminide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.2.1.50 phenyl-alpha-n-acetylglucosaminide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.2.1.50 phenyl-alpha-n-acetylglucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.2.1.50 phenyl-alpha-n-acetylglucosaminide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.4 * +EC3.2.1.50 udp-n-acetylglucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.2.1.51 2'-fucosyllactitol pomacea canaliculata//*//* 1.18 * +EC3.2.1.51 2'-fucosyllactitol prunus dulcis//*//* 0.67 * +EC3.2.1.51 2'-fucosyllactose bacillus circulans//*//* 0.63 * +EC3.2.1.51 2'-fucosyllactose bacillus fulminans//*//* 2.5 * +EC3.2.1.51 2'-fucosyllactose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.79 * +EC3.2.1.51 2-deoxy-2-fluoro-alpha-l-fucosyl fluoride thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.1 * +EC3.2.1.51 2-nitrophenyl alpha-l-fucopyranoside lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.27 * +EC3.2.1.51 3'-fucosyllactose bacillus circulans//*//* 1.25 * +EC3.2.1.51 3'-fucosyllactose cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.9 * +EC3.2.1.51 4-methylumbelliferyl alpha-l-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside canis lupus lupus//*//* 0.14 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside cavia porcellus//*//* 0.12 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.031 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside drosophila ananassae//eukaryotes;animals;arthropods;insects//dan 0.125 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside mesocricetus auratus//*//* 0.07 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside penaeus monodon//*//* 0.022 * +EC3.2.1.51 4-methylumbelliferyl-alpha-l-fucopyranoside rattus sp.//*//* 0.05 * +EC3.2.1.51 4-methylumbelliferyl-beta-fucoside trypanosoma congolense//*//* 0.00325 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside chamelea gallina//*//* 0.07 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.2 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.48 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.168 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside littorina littorea//*//* 0.3 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside macaca radiata//*//* 0.22 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside octopus vulgaris//*//* 0.358 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside pomacea canaliculata//*//* 0.23 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside rattus sp.//*//* 0.19 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.028 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.02 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside unio elongatulus//*//* 0.71 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside venerupis rhomboideus//*//* 0.14 * +EC3.2.1.51 4-nitrophenyl-alpha-l-fucopyranoside venus mercenaria//*//* 0.6 * +EC3.2.1.51 alpha-l-fuc-(1-2)-beta-d-gal-(1-3)-d-galnac thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 3.0 * +EC3.2.1.51 alpha-l-fuc-(1-2)-beta-d-gal-(1-4)-beta-d-glcnac-1-me thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 7.0 * +EC3.2.1.51 alpha-l-fucosyl fluoride thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.15 * +EC3.2.1.51 beta-d-glcnac-(1-4)-(alpha-l-fuc-(1-6))-d-glcnac thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 9.0 * +EC3.2.1.51 fuc-alpha-(1-2)-gal-beta-(1-4)-glc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.56 * +EC3.2.1.51 fuc-alpha-(1-2)-gal-beta-4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.2.1.51 fuc-alpha-(1-2)-gal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.2.1.51 fuc-alpha-(1-3)-glcnac-phenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.63 * +EC3.2.1.51 fuc-alpha-(1-4)-glcnac-beta-phenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.01 * +EC3.2.1.51 fuc-alpha-(1-6)-glcnac cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.75 * +EC3.2.1.51 gastric mucin bacillus circulans//*//* 0.88 * +EC3.2.1.51 glycopeptide from desialyzed porcine submaxillary mucin bacillus fulminans//*//* 1.6 * +EC3.2.1.51 gp120 oligosaccharide cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.02 * +EC3.2.1.51 lacto-n-fucopentaitol ii prunus dulcis//*//* 0.1 * +EC3.2.1.51 lacto-n-fucopentaitol iii prunus dulcis//*//* 0.095 * +EC3.2.1.51 lacto-n-fucopentaose bacillus fulminans//*//* 2.0 * +EC3.2.1.51 methyl alpha-l-fucopyranoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 16.0 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucopyranoside pecten maximus//*//* 0.65 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucopyranoside thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.2 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.75 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.028 * +EC3.2.1.51 p-nitrophenyl alpha-l-fucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.032 * +EC3.2.1.51 p-nitrophenyl-alpha-l-fucose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.02 * +EC3.2.1.51 porcine submaxillary mucine, desialyzed bacillus fulminans//*//* 0.33 * +EC3.2.1.52 (n-acetyl-d-glucosamine)2 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.64 * +EC3.2.1.52 (n-acetyl-d-glucosamine)2 geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.1 * +EC3.2.1.52 (n-acetyl-d-glucosamine)2 marsupenaeus japonicus//*//* 0.117 * +EC3.2.1.52 (n-acetyl-d-glucosamine)2 vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 1.7 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.05 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 8.0 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 marsupenaeus japonicus//*//* 0.055 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.23 * +EC3.2.1.52 (n-acetyl-d-glucosamine)3 vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.83 * +EC3.2.1.52 (n-acetyl-d-glucosamine)4 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.03 * +EC3.2.1.52 (n-acetyl-d-glucosamine)4 marsupenaeus japonicus//*//* 0.044 * +EC3.2.1.52 (n-acetyl-d-glucosamine)4 vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.78 * +EC3.2.1.52 (n-acetyl-d-glucosamine)5 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.07 * +EC3.2.1.52 (n-acetyl-d-glucosamine)5 marsupenaeus japonicus//*//* 0.045 * +EC3.2.1.52 (n-acetyl-d-glucosamine)5 vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 3.7 * +EC3.2.1.52 (n-acetyl-d-glucosamine)6 bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.056 * +EC3.2.1.52 (n-acetyl-d-glucosamine)6 marsupenaeus japonicus//*//* 0.047 * +EC3.2.1.52 (n-acetyl-d-glucosamine)6 vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 3.5 * +EC3.2.1.52 2,4-dinitrophenyl-n-acetyl-beta-d-glucosaminide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.27 * +EC3.2.1.52 4-methylcoumar-7-yl-beta-n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.2.1.52 4-methylcoumar-7-yl-beta-n-fluoroacetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.8 * +EC3.2.1.52 4-methylumbelliferyl beta-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.9 * +EC3.2.1.52 4-methylumbelliferyl beta-d-glucosaminide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosamine aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 0.39 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosamine penicillium oxalicum//*//* 0.05 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.22 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide ostrinia furnacalis//*//* 0.107 * +EC3.2.1.52 4-methylumbelliferyl n-acetyl-beta-d-glucosaminide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1 * +EC3.2.1.52 4-methylumbelliferyl-2-acetamido-2-deoxy-beta-d-galactopyranoside cupiennius salei//*//* 1.23 * +EC3.2.1.52 4-methylumbelliferyl-2-acetamido-2-deoxy-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC3.2.1.52 4-methylumbelliferyl-2-acetamido-2-deoxy-beta-d-glucopyranoside-6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.2.1.52 4-methylumbelliferyl-2-acetamido-2-deoxy-beta-d-glucopyranoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.11 * +EC3.2.1.52 4-methylumbelliferyl-2-acetamido-2-deoxy-beta-d-glucopyranoside cupiennius salei//*//* 0.77 * +EC3.2.1.52 4-methylumbelliferyl-2-acetamido-2-deoxy-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC3.2.1.52 4-methylumbelliferyl-beta-d-glucosaminide trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.006 * +EC3.2.1.52 4-methylumbelliferyl-beta-n-acetylgalactosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.2.1.52 4-methylumbelliferyl-beta-n-acetylgalactosaminide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC3.2.1.52 4-methylumbelliferyl-beta-n-acetylglucosaminide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.2.1.52 4-methylumbelliferyl-beta-n-acetylglucosaminide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.02 * +EC3.2.1.52 4-methylumbelliferyl-n-acetyl-beta-d-glucosaminide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 27.0 * +EC3.2.1.52 4-nitrophenyl 2-(acetylamino)-2-deoxy-beta-d-galactopyranoside oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.17 * +EC3.2.1.52 4-nitrophenyl 2-acetamido-2-deoxy-beta-d-galactopyranoside penicillium oxalicum//*//* 1.04 * +EC3.2.1.52 4-nitrophenyl 2-acetamido-2-deoxy-beta-d-glucopyranoside penicillium oxalicum//*//* 0.13 * +EC3.2.1.52 4-nitrophenyl beta-d-glucopyranoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.8 * +EC3.2.1.52 4-nitrophenyl beta-n-acetyl-d-glucosaminide cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 0.0027 * +EC3.2.1.52 4-nitrophenyl beta-n-acetyl-d-glucosaminide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.15 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-galactosamine paenibacillus sp. ts12//*//* 0.127 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-galactosaminide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.38 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine aggregatibacter actinomycetemcomitans//prokaryotes;bacteria;gammaproteobacteria - others;aggregatibacter//aat 46.2 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.56 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosamine paenibacillus sp. ts12//*//* 0.117 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosaminide capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.141 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosaminide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.18 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosaminide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.5 * +EC3.2.1.52 4-nitrophenyl n-acetyl-beta-d-glucosaminide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.15 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-galactosaminide aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 11.1 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-galactosaminide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-galactosaminide ostrinia furnacalis//*//* 0.43 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-galactosaminide trichoderma harzianum//*//* 3.21 * +EC3.2.1.52 4-nitrophenyl-beta-n-acetyl-d-glucosaminide ostrinia furnacalis//*//* 0.29 * +EC3.2.1.52 4-nitrophenyl-n-acetyl-beta-d-glucosaminide aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 8.57 * +EC3.2.1.52 chitobiose ostrinia furnacalis//*//* 0.148 * +EC3.2.1.52 complex of gm2 activator protein and gm2 ganglioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.2.1.52 dansyl-asn(glcnac)2man streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.7 * +EC3.2.1.52 glcnacbeta(1-4)glcnac ostrinia furnacalis//*//* 0.3 * +EC3.2.1.52 glycopeptide monomer escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.58 * +EC3.2.1.52 n,n,n,n,n-pentaacetylchitopentaose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.35 * +EC3.2.1.52 n,n,n,n-tetraacetylchitotetraose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.38 * +EC3.2.1.52 n,n,n-triacetylchitotriose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.39 * +EC3.2.1.52 n,n-diacetylchitobiose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.31 * +EC3.2.1.52 n,n-diacetylchitobiose cupiennius salei//*//* 0.93 * +EC3.2.1.52 n,n-diacetylchitobiose phycomyces blakesleeanus//*//* 0.33 * +EC3.2.1.52 n,n-diacetylchitobiose sclerotinia fructigena//*//* 0.52 * +EC3.2.1.52 n-acetyl-beta-d-galactosamine trichinella spiralis//eukaryotes;animals;nematodes//tsp 0.215 * +EC3.2.1.52 n-acetyl-beta-d-glucosamine-6-sulfate trichinella spiralis//eukaryotes;animals;nematodes//tsp 1.732 * +EC3.2.1.52 n-acetyl-beta-d-glucosamine trichinella spiralis//eukaryotes;animals;nematodes//tsp 0.187 * +EC3.2.1.52 n-acetylglucosaminyl-beta-1,2-man streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.98 * +EC3.2.1.52 o-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-3-o-(d-carboxyethyl)-2-deoxy-d-glucose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.018 * +EC3.2.1.52 p-nitrophenyl 2-acetamido-2-deoxy-4-o-sulfo-beta-d-glucopyranoside aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 12.0 * +EC3.2.1.52 p-nitrophenyl n,n'-diacetylchitobiose salinivibrio costicola//*//* 0.03 * +EC3.2.1.52 p-nitrophenyl n-acetyl-beta-d-glucosaminide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.7 * +EC3.2.1.52 p-nitrophenyl-2-acetamido-2-deoxy-beta-d-galactopyranoside lupinus luteus//*//* 0.51 * +EC3.2.1.52 p-nitrophenyl-2-acetamido-2-deoxy-beta-d-glucopyranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC3.2.1.52 p-nitrophenyl-2-acetamido-2-deoxy-beta-d-glucopyranoside canavalia ensiformis//*//* 0.64 * +EC3.2.1.52 p-nitrophenyl-2-acetamido-2-deoxy-beta-d-glucopyranoside tritrichomonas suis//*//* 0.25 * +EC3.2.1.52 p-nitrophenyl-2-acetoamide-2-deoxyamide-2-deoxy-beta-d-n-acetylglucosamide palythoa caribaeorum//*//* 0.53 * +EC3.2.1.52 p-nitrophenyl-acetylchitobioside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.13 * +EC3.2.1.52 p-nitrophenyl-acetylchitotrioside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.17 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.86 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside bipolaris sorokiniana//eukaryotes;fungi;ascomycetes;dothideomycetes//bsc 1.24 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.31 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside canavalia ensiformis//*//* 0.31 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside cupiennius salei//*//* 1.05 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.5 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.57 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.47 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside halocynthia roretzi//*//* 0.87 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside helicella ericetorum//*//* 0.19 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside lupinus luteus//*//* 0.58 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 0.15 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside mucor fragilis//*//* 0.46 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside octopus vulgaris//*//* 0.617 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.28 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside paecilomyces persicinus//*//* 0.322 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside penicillium oxalicum//*//* 1.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside phycomyces blakesleeanus//*//* 2.3 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside pisum sativum//*//* 0.27 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.064 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside trametes cinnabarina//*//* 0.54 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside tremella fuciformis//*//* 0.19 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside trigonella foenum-graecum//*//* 0.04 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside triticum aestivum//*//* 0.27 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside tritrichomonas suis//*//* 0.2 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-galactopyranoside vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.33 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.34 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.15 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside bipolaris sorokiniana//eukaryotes;fungi;ascomycetes;dothideomycetes//bsc 0.081 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.397 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.94 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside citrullus lanatus//*//* 0.65 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside cupiennius salei//*//* 0.35 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 1.5 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.43 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.28 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.48 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside halocynthia roretzi//*//* 1.92 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside helicella ericetorum//*//* 0.43 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside hordeum vulgare//*//* 0.25 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 18.8 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside limulus polyphemus//*//* 0.31 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside lupinus luteus//*//* 0.83 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside marsupenaeus japonicus//*//* 0.137 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 0.24 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside mucor fragilis//*//* 0.28 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.4 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.18 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside paecilomyces persicinus//*//* 0.625 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside penicillium oxalicum//*//* 0.48 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside phycomyces blakesleeanus//*//* 0.3 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside pisum sativum//*//* 0.49 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside prunus serotina//*//* 0.49 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside sclerotinia fructigena//*//* 2.0 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.25 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside trametes cinnabarina//*//* 0.45 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside tremella fuciformis//*//* 0.31 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside trichoderma harzianum//*//* 0.24 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside trigonella foenum-graecum//*//* 0.04 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside triticum aestivum//*//* 0.29 * +EC3.2.1.52 p-nitrophenyl-beta-2-acetamido-2-deoxy-d-glucopyranoside vibrio furnissii//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vfu 0.09 * +EC3.2.1.52 p-nitrophenyl-beta-d-n-acetylglucosaminide rhinella arenarum//*//* 0.59 * +EC3.2.1.52 p-nitrophenyl-beta-n-acetylglucosaminopyranoside solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.1 * +EC3.2.1.52 p-nitrophenyl-n,n'-diacetylchitobiose salinivibrio costicola//*//* 0.0318 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-galactosaminide prunus serotina//*//* 0.63 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-galactosaminide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-glucosaminide capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 1.75 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-glucosaminide oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.65 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-glucosaminide stachybotrys elegans//*//* 0.0846 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-beta-d-glucosaminide trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.648 * +EC3.2.1.52 p-nitrophenyl-n-acetyl-d-glucosamine spodoptera frugiperda//*//* 0.51 * +EC3.2.1.52 p-nitrophenyl-n-acetylglucosaminide trichoderma harzianum//*//* 0.00806 * +EC3.2.1.52 p-nitrophenyl-thio-beta-n-acetyl-d-glucosaminide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.3 * +EC3.2.1.52 p-nitrophenyl-thio-beta-n-acetyl-d-glucosaminide geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.59 * +EC3.2.1.52 phenyl-n-acetyl-beta-d-galactosaminide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.0 * +EC3.2.1.52 phenyl-n-acetyl-beta-d-glucosaminide octopus vulgaris//*//* 0.527 * +EC3.2.1.52 phenyl-n-acetyl-beta-d-glucosaminide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.0 * +EC3.2.1.52 pyridylamino-glycoside a trichoderma harzianum//*//* 440.0 * +EC3.2.1.52 pyridylamino-glycoside b trichoderma harzianum//*//* 27.0 * +EC3.2.1.52 pyridylamino-glycoside c trichoderma harzianum//*//* 30.0 * +EC3.2.1.53 4-methylumbelliferyl beta-n-acetylgalactosaminide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC3.2.1.53 4-nitrophenyl beta-n-acetylgalactosaminide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.35 * +EC3.2.1.53 p-nitrophenyl beta-acetylgalactosaminide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.0 * +EC3.2.1.53 p-nitrophenyl beta-acetylgalactosaminide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.35 * +EC3.2.1.54 2-o-alpha-maltosylglucose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 21.0 * +EC3.2.1.54 4-o-alpha-d-glucosylsucrose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 17.0 * +EC3.2.1.54 alpha-cyclodextrin anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 0.28 * +EC3.2.1.54 alpha-cyclodextrin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.26 * +EC3.2.1.54 alpha-cyclodextrin bacillus circulans//*//* 3.2 * +EC3.2.1.54 alpha-cyclodextrin bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 10.0 * +EC3.2.1.54 alpha-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.23 * +EC3.2.1.54 alpha-cyclodextrin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.93 * +EC3.2.1.54 alpha-cyclodextrin flavobacterium sp. 92//*//* 4.1 * +EC3.2.1.54 alpha-cyclodextrin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.79 * +EC3.2.1.54 alpha-cyclodextrin klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 50.0 * +EC3.2.1.54 alpha-cyclodextrin laceyella sacchari//*//* 7.9 * +EC3.2.1.54 alpha-cyclodextrin lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 4.0 * +EC3.2.1.54 alpha-cyclodextrin paenibacillus macerans//*//* 2.62 * +EC3.2.1.54 alpha-cyclodextrin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 5.0 * +EC3.2.1.54 alpha-cyclodextrin thermoanaerobacter thermohydrosulfuricus//*//* 2.5 * +EC3.2.1.54 alpha-cyclodextrin unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 4.4 * +EC3.2.1.54 beta-cyclodextrin anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 0.32 * +EC3.2.1.54 beta-cyclodextrin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.63 * +EC3.2.1.54 beta-cyclodextrin bacillus circulans//*//* 1.8 * +EC3.2.1.54 beta-cyclodextrin bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 2.8 * +EC3.2.1.54 beta-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.454 * +EC3.2.1.54 beta-cyclodextrin flavobacterium sp. 92//*//* 2.9 * +EC3.2.1.54 beta-cyclodextrin flavobacterium sp.//*//* 0.244 * +EC3.2.1.54 beta-cyclodextrin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.67 * +EC3.2.1.54 beta-cyclodextrin klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 3.9 * +EC3.2.1.54 beta-cyclodextrin laceyella sacchari//*//* 12.0 * +EC3.2.1.54 beta-cyclodextrin lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 3.9 * +EC3.2.1.54 beta-cyclodextrin paenibacillus macerans//*//* 2.65 * +EC3.2.1.54 beta-cyclodextrin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 2.47 * +EC3.2.1.54 beta-cyclodextrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.0 * +EC3.2.1.54 beta-cyclodextrin thermoanaerobacter thermohydrosulfuricus//*//* 2.1 * +EC3.2.1.54 beta-cyclodextrin thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 3.6 * +EC3.2.1.54 beta-cyclodextrin unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 6.1 * +EC3.2.1.54 beta-cyclomaltodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.43 * +EC3.2.1.54 gamma-cyclodextrin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC3.2.1.54 gamma-cyclodextrin bacillus circulans//*//* 0.8 * +EC3.2.1.54 gamma-cyclodextrin bacillus clarkii//*//* 0.008 * +EC3.2.1.54 gamma-cyclodextrin bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.47 * +EC3.2.1.54 gamma-cyclodextrin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.92 * +EC3.2.1.54 gamma-cyclodextrin flavobacterium sp. 92//*//* 2.2 * +EC3.2.1.54 gamma-cyclodextrin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.5 * +EC3.2.1.54 gamma-cyclodextrin klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 1.2 * +EC3.2.1.54 gamma-cyclodextrin lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 4.2 * +EC3.2.1.54 gamma-cyclodextrin paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 2.9 * +EC3.2.1.54 gamma-cyclodextrin thermoanaerobacter thermohydrosulfuricus//*//* 1.3 * +EC3.2.1.54 isopanose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 28.0 * +EC3.2.1.54 maltoheptaose bacillus circulans//*//* 0.8 * +EC3.2.1.54 maltoheptaose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.91 * +EC3.2.1.54 maltoheptaose lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 5.8 * +EC3.2.1.54 maltoheptaose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 9.07 * +EC3.2.1.54 maltohexaose bacillus circulans//*//* 1.3 * +EC3.2.1.54 maltohexaose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 1.4 * +EC3.2.1.54 maltohexaose lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 6.1 * +EC3.2.1.54 maltooctaose bacillus clarkii//*//* 0.067 * +EC3.2.1.54 maltopentaose bacillus circulans//*//* 1.2 * +EC3.2.1.54 maltopentaose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 2.3 * +EC3.2.1.54 maltotetraose bacillus circulans//*//* 7.4 * +EC3.2.1.54 maltotetraose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 4.0 * +EC3.2.1.54 maltotetraose lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 7.5 * +EC3.2.1.54 maltotriitol bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 110.0 * +EC3.2.1.54 maltotriose bacillus circulans//*//* 12.5 * +EC3.2.1.54 maltotriose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 4.5 * +EC3.2.1.54 maltotriose lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 14.0 * +EC3.2.1.54 p-nitrophenyl-d-maltopentaoside thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 0.23 * +EC3.2.1.54 phenyl alpha-maltoside bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 5.5 * +EC3.2.1.54 pullulan bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.11 * +EC3.2.1.54 pullulan geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 8.3 * +EC3.2.1.54 pullulan thermoactinomyces vulgaris//*//* 1.4 * +EC3.2.1.54 soluble starch anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 11.0 * +EC3.2.1.54 soluble starch bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.01 * +EC3.2.1.54 soluble starch laceyella sacchari//*//* 5.0 * +EC3.2.1.54 starch thermoactinomyces vulgaris//*//* 0.23 * +EC3.2.1.55 (1-5)-l-arabinan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.0 * +EC3.2.1.55 1,5-alpha-arabinotriose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.5 * +EC3.2.1.55 1,5-alpha-l-arabinobiose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.78 * +EC3.2.1.55 1,5-alpha-l-arabinotriose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.1 * +EC3.2.1.55 2',4',6'-trichlorophenyl alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.01 * +EC3.2.1.55 2',5'-dinitrophenyl alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.35 * +EC3.2.1.55 2,5-dinitrophenyl beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 8.0 * +EC3.2.1.55 2,5-dinitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 0.28 * +EC3.2.1.55 2-nitrophenyl beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 15.3 * +EC3.2.1.55 3',4'-dinitrophenyl alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.53 * +EC3.2.1.55 3,4-dinitrophenyl beta-d-xylopyranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.4 * +EC3.2.1.55 3-nitrophenyl-alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.7 * +EC3.2.1.55 4-chloro-2-nitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 0.42 * +EC3.2.1.55 4-methylumbelliferyl-alpha-l-arabinofuranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.26 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside alicyclobacillus sp.//*//* 0.46 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.93 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.21 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 1.1 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside linum usitatissimum//*//* 20.0 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 0.31 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside penicillium purpurogenum//*//* 0.65 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside pleurotus ostreatus//*//* 0.64 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside pseudothermotoga thermarum//prokaryotes;bacteria;thermotogae;pseudothermotoga//tta 0.186 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.5 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside thermobacillus xylanilyticus//*//* 0.25 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside thermomyces dupontii//*//* 0.77 * +EC3.2.1.55 4-nitrophenyl alpha-l-arabinofuranoside uncultured rumen bacterium//*//* 2.23 * +EC3.2.1.55 4-nitrophenyl beta-d-galactofuranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 8.6 * +EC3.2.1.55 4-nitrophenyl beta-d-galactofuranoside penicillium purpurogenum//*//* 5.3 * +EC3.2.1.55 4-nitrophenyl beta-d-glucopyranoside pleurotus ostreatus//*//* 4.1 * +EC3.2.1.55 4-nitrophenyl beta-d-xylopyranoside paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 23.8 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 1.7 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.22 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.295 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside chaetomium sp.//*//* 1.43 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.28 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.65 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside penicillium chrysogenum//*//* 0.86 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside podospora anserina//eukaryotes;fungi;ascomycetes;sordariomycetes//pan 6.1 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside thermobacillus xylanilyticus//*//* 0.7 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside thermobifida fusca//prokaryotes;bacteria;actinobacteria;thermobifida//tfu 0.18 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinofuranoside ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 7.5 * +EC3.2.1.55 4-nitrophenyl-alpha-l-arabinopyranoside bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 1.01 * +EC3.2.1.55 alpha-1,3-arabinoxylobiose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.95 * +EC3.2.1.55 alpha-1,5-arabinotriose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.55 * +EC3.2.1.55 alpha-1,5-l-arabinohexaose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 2.03 * +EC3.2.1.55 alpha-1,5-l-arabinopentaose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 3.96 * +EC3.2.1.55 alpha-1,5-l-arabinotetraose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 9.26 * +EC3.2.1.55 alpha-1,5-l-arabinotriose fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 3.56 * +EC3.2.1.55 alpha-l-arabinofuranosyl 1-naphthol monilinia fructigena//*//* 0.22 * +EC3.2.1.55 alpha-l-arabinofuranosyl 3,4-dinitrophenol monilinia fructigena//*//* 0.71 * +EC3.2.1.55 alpha-l-arabinofuranosyl 3,5-dinitrophenol monilinia fructigena//*//* 0.83 * +EC3.2.1.55 alpha-l-arabinofuranosyl 4-bromoisoquinoline monilinia fructigena//*//* 4.1 * +EC3.2.1.55 alpha-l-arabinofuranosyl 4-methylumbelliferone monilinia fructigena//*//* 0.48 * +EC3.2.1.55 alpha-l-arabinofuranosyl 4-phenol monilinia fructigena//*//* 4.6 * +EC3.2.1.55 alpha-l-arabinofuranosyl 4-phenylphenol monilinia fructigena//*//* 0.09 * +EC3.2.1.55 arabinobiose cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 1.58 * +EC3.2.1.55 beet arabinan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.26 * +EC3.2.1.55 beet arabinan clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 2.0 * +EC3.2.1.55 ginsenoside rc bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.084 * +EC3.2.1.55 ginsenoside rc bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 1.73 * +EC3.2.1.55 l-arabinan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.017 * +EC3.2.1.55 l-arabinan talaromyces funiculosus//*//* 1.8 * +EC3.2.1.55 linear alpha-1,5-l-arabinan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.36 * +EC3.2.1.55 m-nitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 0.54 * +EC3.2.1.55 p-cyanophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 0.3 * +EC3.2.1.55 p-nitrophenyl alpha-l-arabinofuranoside bacillus pumilus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpu 1.05 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranose thermobacillus xylanilyticus//*//* 1.4 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside anoxybacillus kestanbolensis//*//* 0.139 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.26 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside aspergillus kawachii//*//* 1.04 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 2.7 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.48 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside aspergillus terreus//*//* 0.31 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside aureobasidium pullulans//*//* 3.7 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.42 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside bacteroides xylanolyticus//*//* 0.5 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside butyrivibrio fibrisolvens//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bfi 0.66 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.18 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 4.0 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside dichomitus squalens//eukaryotes;fungi;basidiomycetes//dsq 1.64 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.22 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.53 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside hordeum vulgare//*//* 0.5 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside monilinia fructigena//*//* 0.8 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside parageobacillus caldoxylosilyticus//*//* 0.17 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside penicillium purpurogenum//*//* 0.098 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.25 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 1.3 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.81 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.2 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.6 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside streptomyces purpurascens//*//* 0.08 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside streptomyces sp. pc22//*//* 0.23 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.6 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside thermobacillus xylanilyticus//*//* 0.7 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside thermomicrobia bacterium//*//* 0.6 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 0.31 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.9 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinofuranoside trichoderma sp.//*//* 0.15 * +EC3.2.1.55 p-nitrophenyl-alpha-l-arabinose thermobacillus xylanilyticus//*//* 0.5 * +EC3.2.1.55 phenyl alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.7 * +EC3.2.1.55 phenyl alpha-l-arabinofuranoside athelia rolfsii//*//* 2.83 * +EC3.2.1.55 phenyl alpha-l-arabinofuranoside rhodotorula flava//*//* 9.1 * +EC3.2.1.55 phenyl-alpha-l-arabinofuranoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 5.0 * +EC3.2.1.55 phenyl-alpha-l-arabinofuranoside streptomyces diastaticus//*//* 10.0 * +EC3.2.1.55 phenyl-alpha-l-arabinofuranoside trichoderma koningii//*//* 0.28 * +EC3.2.1.55 rye arabinoxylan talaromyces funiculosus//*//* 0.58 * +EC3.2.1.55 sugar beet arabinan cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.33 * +EC3.2.1.55 wheat arabinoxylan cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.27 * +EC3.2.1.55 wheat arabinoxylan ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.0055 * +EC3.2.1.55 wheat arabinoxylan talaromyces funiculosus//*//* 0.47 * +EC3.2.1.56 1,3-(4-deoxy-alpha-l-threo-4-enopyranosyluronicacid)-(2-n-acetylgalactosamine-6-o-sulfate) pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 163.0 * +EC3.2.1.57 panose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 160.0 * +EC3.2.1.58 4-nitrophenyl beta-d-glucopyranoside rhizomucor miehei//*//* 0.17 * +EC3.2.1.58 4-nitrophenyl beta-d-glucoside hordeum vulgare//*//* 1.4 * +EC3.2.1.58 4-nitrophenyl-alpha-l-arabinofuranoside cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 1.5 * +EC3.2.1.58 beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucoside trichoderma viride//*//* 2.0 * +EC3.2.1.58 beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucoside trichoderma viride//*//* 1.9 * +EC3.2.1.58 beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucoside trichoderma viride//*//* 5.0 * +EC3.2.1.58 beta-d-glucose-1,3-beta-d-glucoside trichoderma viride//*//* 16.5 * +EC3.2.1.58 beta-d-glucose-beta-d-glucose-1,3-beta-d-glucose-1,3-beta-d-glucose-beta-d-glucose-1,3-beta-d-glucoside trichoderma viride//*//* 2.1 * +EC3.2.1.58 cellobiose hordeum vulgare//*//* 0.095 * +EC3.2.1.58 cellobiose rhizomucor miehei//*//* 3.7 * +EC3.2.1.58 cellotetraose rhizomucor miehei//*//* 0.92 * +EC3.2.1.58 cellotriose rhizomucor miehei//*//* 1.5 * +EC3.2.1.58 gentiobiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.1 * +EC3.2.1.58 gentobiose rhizomucor miehei//*//* 4.15 * +EC3.2.1.58 laminaran coccidioides immitis//eukaryotes;fungi;ascomycetes;eurotiomycetes//cim 1.03 * +EC3.2.1.58 laminaran rhizomucor miehei//*//* 2.32 * +EC3.2.1.58 laminaran saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 13.0 * +EC3.2.1.58 laminaribiose hordeum vulgare//*//* 0.255 * +EC3.2.1.58 laminaribiose phanerochaete chrysosporium//*//* 1.08 * +EC3.2.1.58 laminaribiose rhizomucor miehei//*//* 1.26 * +EC3.2.1.58 laminaribiose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.8 * +EC3.2.1.58 laminarihexaose fungi imperfecti//*//* 0.83 * +EC3.2.1.58 laminarihexaose trichoderma harzianum//*//* 0.36 * +EC3.2.1.58 laminarin acremonium persicinum//*//* 0.0018 * +EC3.2.1.58 laminarin cyberlindnera jadinii//*//* 0.18 * +EC3.2.1.58 laminarin fungi imperfecti//*//* 0.066 * +EC3.2.1.58 laminarin kluyveromyces aestuarii//*//* 0.23 * +EC3.2.1.58 laminarin trichoderma harzianum//*//* 0.85 * +EC3.2.1.58 laminaripentaose abracris flavolineata//*//* 0.31 * +EC3.2.1.58 laminaripentaose euglena gracilis//*//* 0.111 * +EC3.2.1.58 laminaripentaose fungi imperfecti//*//* 2.3 * +EC3.2.1.58 laminaripentaose phanerochaete chrysosporium//*//* 0.0119 * +EC3.2.1.58 laminaripentaose trichoderma harzianum//*//* 0.28 * +EC3.2.1.58 laminaritetraose abracris flavolineata//*//* 0.44 * +EC3.2.1.58 laminaritetraose fungi imperfecti//*//* 18.6 * +EC3.2.1.58 laminaritetraose phanerochaete chrysosporium//*//* 0.205 * +EC3.2.1.58 laminaritetraose trichoderma harzianum//*//* 0.06 * +EC3.2.1.58 laminaritriose phanerochaete chrysosporium//*//* 0.223 * +EC3.2.1.58 laminaritriose rhizomucor miehei//*//* 2.29 * +EC3.2.1.58 laminaritriose trichoderma harzianum//*//* 1.49 * +EC3.2.1.58 methylumbelliferyl-beta-glucoside candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 2.0 * +EC3.2.1.58 p-nitrophenyl-beta-d-glucopyranoside coccidioides immitis//eukaryotes;fungi;ascomycetes;eurotiomycetes//cim 0.41 * +EC3.2.1.58 p-nitrophenyl-beta-d-glucopyranoside cyberlindnera jadinii//*//* 6.6 * +EC3.2.1.58 p-nitrophenyl-beta-d-glucopyranoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.07 * +EC3.2.1.58 p-nitrophenyl-beta-d-glucoside kluyveromyces aestuarii//*//* 5.0 * +EC3.2.1.58 p-nitrophenyl-beta-d-glucoside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.82 * +EC3.2.1.58 pustulan kluyveromyces aestuarii//*//* 0.37 * +EC3.2.1.58 pustulan saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 24.8 * +EC3.2.1.59 glucan streptomyces chartreusis//*//* 0.89 * +EC3.2.1.59 limit glucan pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 80.0 * +EC3.2.1.59 pseudonigeran trichoderma viride//*//* 0.46 * +EC3.2.1.6 d-glucose botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 9.09 * +EC3.2.1.6 glc-beta(1,4)-glc-beta(1,3)-glc-methylumbelliferyl ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.11 * +EC3.2.1.6 laminarihexaose laceyella putida//*//* 2.73 * +EC3.2.1.6 laminarin cyberlindnera jadinii//*//* 0.21 * +EC3.2.1.6 laminaripentaose laceyella putida//*//* 2.39 * +EC3.2.1.6 laminaritetraose laceyella putida//*//* 1.21 * +EC3.2.1.6 oxidized laminarin cyberlindnera jadinii//*//* 0.19 * +EC3.2.1.6 short-chain pachyman rhizoctonia solani//*//* 0.004 * +EC3.2.1.60 amylose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.32 * +EC3.2.1.60 oyster glycogen pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 6.7 * +EC3.2.1.60 starch pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 5.7 * +EC3.2.1.62 (6-[n-(7-nitrobenz-2-oxa-1,3 diazol-4-yl)amino]hexanoyl)-beta-d-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.64 * +EC3.2.1.62 2-nitrophenyl-beta-d-galactopyranoside rattus sp.//*//* 13.1 * +EC3.2.1.62 4-methylumbelliferyl-alpha-l-arabinoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC3.2.1.62 4-methylumbelliferyl-beta-d-galactopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 144.5 * +EC3.2.1.62 4-methylumbelliferyl-beta-d-galactoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.24 * +EC3.2.1.62 4-methylumbelliferyl-beta-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 49.28 * +EC3.2.1.62 4-methylumbelliferyl-beta-d-glucoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.53 * +EC3.2.1.62 4-methylumbelliferyl-beta-d-xyloside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC3.2.1.62 4-nitrophenyl-beta-d-fucoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.36 * +EC3.2.1.62 4-nitrophenyl-beta-d-galactopyranoside rattus sp.//*//* 22.3 * +EC3.2.1.62 4-nitrophenyl-beta-d-glucopyranoside rattus sp.//*//* 4.1 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-fructoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 67.0 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 14.0 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside macaca radiata//*//* 21.8 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 28.0 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside ovis aries aries//*//* 8.8 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside rattus sp.//*//* 14.8 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.1 * +EC3.2.1.62 4-o-beta-d-galactopyranosyl-d-glucosamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.8 * +EC3.2.1.62 4-o-beta-d-glucopyranosyl-d-glucopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.2.1.62 4-o-beta-d-glucopyranosyl-d-glucopyranoside rattus sp.//*//* 1.1 * +EC3.2.1.62 4-o-beta-d-glucopyranosyl-d-glucospyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.2.1.62 6-o-beta-d-glucopyranosyl-d-glucopyranoside mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 22.0 * +EC3.2.1.62 c18-galactosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.24 * +EC3.2.1.62 c18-glucosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.67 * +EC3.2.1.62 c6-4-nitrobenzo-2-oxa-1,3-diazole-galctosylceramide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.04 * +EC3.2.1.62 c6-7-nitro-2,1,3-benzoxadiazole-glucosylceramide cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 0.0058 * +EC3.2.1.62 d-erythro-dihydrosphingosine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.3 * +EC3.2.1.62 d-erythro-sphingosine rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.04 * +EC3.2.1.62 daidzein-7-glucopyranoside ovis aries aries//*//* 0.149 * +EC3.2.1.62 daidzein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.149 * +EC3.2.1.62 galactosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.065 * +EC3.2.1.62 galactosylceramide rattus sp.//*//* 0.51 * +EC3.2.1.62 galactosylsphingosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.24 * +EC3.2.1.62 genistein-7-glucopyranoside ovis aries aries//*//* 0.085 * +EC3.2.1.62 genistein-7-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.085 * +EC3.2.1.62 glucosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC3.2.1.62 glucosyldihydroceramide rattus sp.//*//* 0.62 * +EC3.2.1.62 glucosylsphingosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.37 * +EC3.2.1.62 lactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.9 * +EC3.2.1.62 lactose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 8.8 * +EC3.2.1.62 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC3.2.1.62 lactosylceramide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.27 * +EC3.2.1.62 n-palmitoyldihydrocerebroside rattus sp.//*//* 0.73 * +EC3.2.1.62 p-nitrophenyl-beta-cellobioside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.542 * +EC3.2.1.62 p-nitrophenyl-beta-lactoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC3.2.1.62 p-nitrophenyl-beta-maltoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.82 * +EC3.2.1.62 phloretin-beta-d-galactoside rattus sp.//*//* 0.4 * +EC3.2.1.62 phlorizin cricetinae//*//* 0.1 * +EC3.2.1.62 phlorizin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.2.1.62 phlorizin macaca radiata//*//* 0.4 * +EC3.2.1.62 phlorizin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.18 * +EC3.2.1.62 phlorizin ovis aries aries//*//* 0.002 * +EC3.2.1.62 phlorizin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.002 * +EC3.2.1.62 phlorizin rattus sp.//*//* 0.4 * +EC3.2.1.62 pyridoxine-5'-beta-d-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.2.1.62 quercetin-3-glucopyranoside ovis aries aries//*//* 0.046 * +EC3.2.1.62 quercetin-3-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.046 * +EC3.2.1.62 quercetin-4'-glucoside ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.044 * +EC3.2.1.62 quercetin-4-glucopyranoside ovis aries aries//*//* 0.044 * +EC3.2.1.63 2'-fucosyllactose bacillus fulminans//*//* 2.5 * +EC3.2.1.63 2'-fucosyllactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.53 * +EC3.2.1.63 2-fucosyllactitol prunus dulcis//*//* 0.675 * +EC3.2.1.63 2-fucosyllactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.091 * +EC3.2.1.63 alpha-fuc-(1-2)-beta-gal-(1-3)-beta-glcnac-(1-3)-beta-gal-(1-4-)-beta-glu bacillus fulminans//*//* 2.0 * +EC3.2.1.63 glycopeptide desialyzed porcine submaxillary mucin bacillus fulminans//*//* 1.6 * +EC3.2.1.63 glycoprotein bacillus fulminans//*//* 0.175 * +EC3.2.1.63 methyl 2-o-alpha-l-fucopyranosyl-beta-d-galactoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.083 * +EC3.2.1.63 porcine submaxillary mucin bacillus fulminans//*//* 0.33 * +EC3.2.1.65 inulin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.8 * +EC3.2.1.65 levan arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.5 * +EC3.2.1.65 levan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0012 * +EC3.2.1.65 levan rhodotorula sp.//*//* 0.97 * +EC3.2.1.65 sucrose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 65.0 * +EC3.2.1.65 tetraose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 10.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)2 aspergillus tubingensis//*//* 1.44 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)2 butyrivibrio fibrisolvens//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bfi 2.24 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)2 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.86 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)2 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.34 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)3 aspergillus tubingensis//*//* 0.68 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)3 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.19 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)3 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.34 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)4 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.1 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)4 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.29 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)5 aspergillus tubingensis//*//* 0.53 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)5 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.077 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)5 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.24 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)6 aspergillus tubingensis//*//* 0.44 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)6 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.057 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)6 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.11 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)7 aspergillus tubingensis//*//* 0.32 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)7 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.029 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)7 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.07 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)8 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.02 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)8 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.06 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n aspergillus tubingensis//*//* 3.2 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.43 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 6.0 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.012 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n marchantia polymorpha//*//* 0.032 * +EC3.2.1.67 (1,4-alpha-d-galacturonide)n thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.06 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]2 rhizopus oryzae//*//* 0.016 * +EC3.2.1.67 [(1->4)-alpha-d-galacturonide]3 rhizopus oryzae//*//* 0.0092 * +EC3.2.1.67 pectic acid aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.12 * +EC3.2.1.67 pectic acid daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.012 * +EC3.2.1.67 pectic acid fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.64 * +EC3.2.1.67 pectic acid geotrichum lactis//*//* 0.9 * +EC3.2.1.67 pectin geotrichum lactis//*//* 0.49 * +EC3.2.1.68 amylopectin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00012 * +EC3.2.1.68 amylose-extender amylopectin oryza sativa//eukaryotes;plants;monocots;grass family//osa 2e-05 * +EC3.2.1.68 beta-limit dextrin oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00018 * +EC3.2.1.68 oyster glycogen oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00062 * +EC3.2.1.68 phytoglycogen oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0054 * +EC3.2.1.7 (fructosylsucrose)4 penicillium purpurogenum//*//* 2.8 * +EC3.2.1.7 (fructosylsucrose)5 penicillium purpurogenum//*//* 3.8 * +EC3.2.1.7 (fructosylsucrose)6 penicillium purpurogenum//*//* 0.85 * +EC3.2.1.7 (fructosylsucrose)7 penicillium purpurogenum//*//* 0.33 * +EC3.2.1.7 (fructosylsucrose)9 penicillium purpurogenum//*//* 0.24 * +EC3.2.1.7 1-kestose penicillium purpurogenum//*//* 8.4 * +EC3.2.1.7 inulin arthrobacter sp. s37//*//* 0.33 * +EC3.2.1.7 inulin arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.7 * +EC3.2.1.7 inulin aspergillus ficuum//*//* 0.001 * +EC3.2.1.7 inulin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.18 * +EC3.2.1.7 inulin aspergillus sp.//*//* 570.0 * +EC3.2.1.7 inulin bacillus smithii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsm 4.17 * +EC3.2.1.7 inulin penicillium purpurogenum//*//* 0.21 * +EC3.2.1.7 inulin penicillium sp.//*//* 0.2 * +EC3.2.1.7 nystose penicillium purpurogenum//*//* 16.0 * +EC3.2.1.7 raffinose bacillus smithii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsm 5.75 * +EC3.2.1.7 sucrose aspergillus ficuum//*//* 0.048 * +EC3.2.1.7 sucrose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 82.0 * +EC3.2.1.7 sucrose bacillus smithii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsm 32.7 * +EC3.2.1.70 dextran lipomyces lipofer//*//* 0.012 * +EC3.2.1.70 isomaltoheptaose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 12.0 * +EC3.2.1.70 isomaltohexaose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 7.88 * +EC3.2.1.70 isomaltopentaose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 5.1 * +EC3.2.1.70 isomaltose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 9.35 * +EC3.2.1.70 isomaltotetraose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 5.58 * +EC3.2.1.70 isomaltotriose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 3.17 * +EC3.2.1.70 p-nitrophenyl alpha-d-glucoside streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.549 * +EC3.2.1.70 panose streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 1.03 * +EC3.2.1.72 p-nitrophenyl-beta-d-xylopyranoside vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.244 * +EC3.2.1.73 2,4-dinitrophenyl-beta-d-glc-(1-4)-beta-d-glc-(1-3)-beta-d-glc bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.7 * +EC3.2.1.73 3,4-dinitrophenyl-beta-d-glc-(1-4)-beta-d-glc-(1-3)-beta-d-glc bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.7 * +EC3.2.1.73 4-methylumbelliferyl 3-o-beta-cellobiosyl-beta-d-glucoside bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.37 * +EC3.2.1.73 4-methylumbelliferyl cellobiose synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.058 * +EC3.2.1.73 4-methylumbelliferyl laminaribiose synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.19 * +EC3.2.1.73 4-methylumbelliferyl-beta-d-glc-(1-4)-beta-d-glc-(1-3)-beta-d-glc bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.0 * +EC3.2.1.73 4-methylumbelliferyl-beta-d-glc-(1-4)-beta-d-glc-(1-4)-beta-d-glc-(1-3)-beta-d-glc bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.5 * +EC3.2.1.73 4-methylumbelliferyl-beta-d-glc-(1-4)-beta-d-glc-(1-4)-beta-d-glc-(1-4)-beta-d-glc-(1-3)-beta-d-glc bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.6 * +EC3.2.1.73 beta-d-glc-(1-3)-alpha-d-glc-fluoride bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.36 * +EC3.2.1.73 beta-d-glc-(1-4)-beta-d-glc-(1-3)-alpha-d-glc-fluoride bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.34 * +EC3.2.1.73 beta-d-glc-(1-4)-beta-d-glc-(1-4)-beta-d-glc-(1-3)-alpha-d-glc-fluoride bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.15 * +EC3.2.1.73 glcbeta3glcbeta-methylumbelliferone ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 5.3 * +EC3.2.1.73 laminarin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.29 * +EC3.2.1.73 lichenan bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.13 * +EC3.2.1.73 lichenan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.1 * +EC3.2.1.73 lichenan fibrobacter succinogenes//prokaryotes;bacteria;fibrobacteres;fibrobacter//fsu 1.91 * +EC3.2.1.74 4-nitrophenyl beta-d-cellobioside uncultured bacterium//*//* 1.74 * +EC3.2.1.74 4-nitrophenyl beta-d-glucopyranoside stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 2.5 * +EC3.2.1.74 4-nitrophenyl beta-d-glucopyranoside uncultured rumen bacterium//*//* 0.22 * +EC3.2.1.74 alpha-cellulose chaetomium globosum//*//* 0.65 * +EC3.2.1.74 arbutin prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 5.0 * +EC3.2.1.74 cellobiose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.461 * +EC3.2.1.74 cellobiose clostridium cellulovorans//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ccb 2.9 * +EC3.2.1.74 cellobiose fibrobacter succinogenes subsp. succinogenes s85//*//* 28.0 * +EC3.2.1.74 cellobiose hordeum vulgare//*//* 2.67 * +EC3.2.1.74 cellobiose prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 13.5 * +EC3.2.1.74 cellobiose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.2 * +EC3.2.1.74 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 12.5 * +EC3.2.1.74 cellobiose stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 86.0 * +EC3.2.1.74 cellobiose talaromyces funiculosus//*//* 10.0 * +EC3.2.1.74 cellobiose vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 6.96 * +EC3.2.1.74 cellohexaose fibrobacter succinogenes subsp. succinogenes s85//*//* 0.73 * +EC3.2.1.74 cellohexaose hordeum vulgare//*//* 0.29 * +EC3.2.1.74 cellohexaose pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.028 * +EC3.2.1.74 cellopentaose fibrobacter succinogenes subsp. succinogenes s85//*//* 0.9 * +EC3.2.1.74 cellopentaose hordeum vulgare//*//* 0.41 * +EC3.2.1.74 cellopentaose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 6.0 * +EC3.2.1.74 cellopentaose talaromyces funiculosus//*//* 0.37 * +EC3.2.1.74 cellotetraose clostridium cellulovorans//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ccb 1.1 * +EC3.2.1.74 cellotetraose fibrobacter succinogenes subsp. succinogenes s85//*//* 1.21 * +EC3.2.1.74 cellotetraose hordeum vulgare//*//* 0.89 * +EC3.2.1.74 cellotetraose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 6.7 * +EC3.2.1.74 cellotetraose talaromyces funiculosus//*//* 0.77 * +EC3.2.1.74 cellotriose clostridium cellulovorans//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ccb 1.7 * +EC3.2.1.74 cellotriose fibrobacter succinogenes subsp. succinogenes s85//*//* 1.5 * +EC3.2.1.74 cellotriose hordeum vulgare//*//* 0.97 * +EC3.2.1.74 cellotriose komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 3.7 * +EC3.2.1.74 cellotriose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 8.7 * +EC3.2.1.74 cellotriose talaromyces funiculosus//*//* 0.44 * +EC3.2.1.74 cellulose talaromyces funiculosus//*//* 127.0 * +EC3.2.1.74 gentiobiose prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 10.7 * +EC3.2.1.74 o-nitrophenyl beta-d-glucopyranoside talaromyces funiculosus//*//* 0.77 * +EC3.2.1.74 p-nitrophenyl glucoside vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.45 * +EC3.2.1.74 p-nitrophenyl-beta-d-cellobioside cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 0.7 * +EC3.2.1.74 p-nitrophenyl-beta-d-cellobioside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.7 * +EC3.2.1.74 p-nitrophenyl-beta-d-glucopyranoside candida wickerhamii//*//* 2.8 * +EC3.2.1.74 p-nitrophenyl-beta-d-glucopyranoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.0 * +EC3.2.1.74 p-nitrophenyl-beta-d-glucoside prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 0.42 * +EC3.2.1.74 p-nitrophenyl-beta-d-glucoside ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 2.2 * +EC3.2.1.75 gentiotetraose fusarium fujikuroi//*//* 0.014 * +EC3.2.1.75 lutean fusarium fujikuroi//*//* 0.00012 * +EC3.2.1.75 pustulan acremonium persicinum//*//* 0.0753 * +EC3.2.1.76 4-methylumbelliferyl-alpha-l-iduronide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.45 * +EC3.2.1.76 4-methylumbelliferyl-alpha-l-iduronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.2.1.76 4-methylumbelliferyl-alpha-l-iduronide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.07 * +EC3.2.1.76 4-nitrophenyl-alpha-l-idopyranosiduronate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.2.1.76 alpha-l-iduronisyl-(alpha-1,3)-anhydrotalitol 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.2.1.76 alpha-l-iduronisyl-(alpha-1,4)2,5-anhydro-d-mannitol 6-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.2.1.76 alpha-l-iduronisyl-(alpha-1,4)2,5-anhydro-d-mannitol 6-sulfte homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.2.1.76 alpha-l-iduronisyl-(alpha-1,4)2,5-anhydro-d-mannitol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.2.1.76 anhydromannitol iduronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.0 * +EC3.2.1.76 idoa-glcnac6s-idoa2s-anm6s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.2.1.76 idoa-glcnh6s-idoa2s-anm6s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.2.1.76 idoa-glcns6s-idoa2s-anm6s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.2.1.76 phenyl alpha-l-iduronide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.2.1.76 phenyl alpha-l-iduronide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.2.1.77 mannan arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.01 * +EC3.2.1.77 oligosaccharides from mannan arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.5 * +EC3.2.1.78 2,4-dinitrophenyl-beta-mannobioside cellvibrio japonicus//prokaryotes;bacteria;gammaproteobacteria - others;cellvibrio//cja 0.0093 * +EC3.2.1.78 low viscosity locust bean galactomannan aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 3.07 * +EC3.2.1.78 man-beta-1,4-man-beta-1,4-man-beta-1,4-man-beta-1,4-man aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.6 * +EC3.2.1.78 man-beta-1,4-man-beta-1,4-man-beta-1,4-man aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.8 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)man solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 9.0 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)man mytilus edulis//*//* 2.49 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man hordeum vulgare//*//* 5.3 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man mytilus edulis//*//* 1.61 * +EC3.2.1.78 manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)manbeta(1-4)man mytilus edulis//*//* 0.5 * +EC3.2.1.78 soluble mannan medicago sativa//*//* 1.9 * +EC3.2.1.8 2-chloro-4-nitrophenyl beta-d-xylobioside thermothelomyces heterothallica//*//* 0.5 * +EC3.2.1.8 2-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 1.8 * +EC3.2.1.8 4-methylumbelliferyl-beta-xylobiose thermothelomyces heterothallica//*//* 0.45 * +EC3.2.1.8 4-methylumbelliferyl-beta-xylotriose thermothelomyces heterothallica//*//* 0.53 * +EC3.2.1.8 4-methylumbelliferyl-xylobiose thermoascus aurantiacus//*//* 0.167 * +EC3.2.1.8 4-methylumbelliferyl-xylotriose thermoascus aurantiacus//*//* 0.067 * +EC3.2.1.8 4-nitrophenyl alpha-l-arabinofuranoside thermoascus aurantiacus//*//* 65.6 * +EC3.2.1.8 4-nitrophenyl alpha-l-arabinopyranoside thermoascus aurantiacus//*//* 59.4 * +EC3.2.1.8 4-nitrophenyl beta-d-cellobioside thermoascus aurantiacus//*//* 82.0 * +EC3.2.1.8 4-nitrophenyl beta-d-xylopyranoside thermoascus aurantiacus//*//* 297.0 * +EC3.2.1.8 4-nitrophenyl xylopyranoside rasamsonia emersonii//*//* 1.4 * +EC3.2.1.8 4-nitrophenyl-4-o-beta-d-xylopyranosyl-beta-d-xylopyranose rasamsonia emersonii//*//* 0.4 * +EC3.2.1.8 4-nitrophenyl-beta-d-xylobioside neocallimastix patriciarum//*//* 15.0 * +EC3.2.1.8 4-nitrophenyl-beta-d-xylotrioside neocallimastix patriciarum//*//* 2.1 * +EC3.2.1.8 4-o-methyl-d-glucurono-d-xylan fusarium oxysporum f. sp. vasinfectum//*//* 40.0 * +EC3.2.1.8 beta-1,4-xylan trichoderma sp.//*//* 4.47 * +EC3.2.1.8 oat spelt xylan acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.35 * +EC3.2.1.8 p-nitrophenyl-beta-d-xylobioside streptomyces olivaceoviridis//*//* 0.00789 * +EC3.2.1.8 xylohexaose penicillium griseofulvum//*//* 13.33 * +EC3.2.1.8 xylohexaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.073 * +EC3.2.1.8 xylopentaose penicillium griseofulvum//*//* 1.23 * +EC3.2.1.8 xylopentaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.136 * +EC3.2.1.8 xylotetraose penicillium griseofulvum//*//* 0.103 * +EC3.2.1.80 1-kestose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC3.2.1.80 1-kestose triticum aestivum//*//* 7.0 * +EC3.2.1.80 actilight kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 27.8 * +EC3.2.1.80 agave tequilana fructan kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 12.9 * +EC3.2.1.80 inulin alternaria alternata//eukaryotes;fungi;ascomycetes;dothideomycetes//aalt 66.0 * +EC3.2.1.80 inulin aspergillus awamori//*//* 0.05 * +EC3.2.1.80 inulin aspergillus ficuum//*//* 4.75 * +EC3.2.1.80 inulin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.25 * +EC3.2.1.80 inulin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.57 * +EC3.2.1.80 inulin kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 3.4 * +EC3.2.1.80 inulin penicillium sp.//*//* 0.0926 * +EC3.2.1.80 inulobiose aspergillus awamori//*//* 3.72 * +EC3.2.1.80 inuloheptaose aspergillus awamori//*//* 1.1 * +EC3.2.1.80 inulohexaose aspergillus awamori//*//* 1.02 * +EC3.2.1.80 inulopentaose aspergillus awamori//*//* 1.08 * +EC3.2.1.80 inulotetraose aspergillus awamori//*//* 0.94 * +EC3.2.1.80 inulotriose aspergillus awamori//*//* 1.63 * +EC3.2.1.80 levan kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 1.8 * +EC3.2.1.80 levanohexaose aspergillus awamori//*//* 1.01 * +EC3.2.1.80 levanopentaose aspergillus awamori//*//* 10.2 * +EC3.2.1.80 levanotetraose aspergillus awamori//*//* 2.74 * +EC3.2.1.80 levanotriose aspergillus awamori//*//* 0.21 * +EC3.2.1.80 raffinose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 2.7 * +EC3.2.1.80 sucrose aspergillus awamori//*//* 40.0 * +EC3.2.1.80 sucrose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 25.3 * +EC3.2.1.80 sucrose penicillium sp.//*//* 48.7 * +EC3.2.1.81 agarose agarivorans albus//*//* 0.024 * +EC3.2.1.81 agarose saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 4.2 * +EC3.2.1.81 agarose streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0182 * +EC3.2.1.81 liquid-phase agarose zobellia galactanivorans//prokaryotes;bacteria;bacteroidetes;zobellia//zga 1.0 * +EC3.2.1.81 neoagarodecaose pseudoalteromonas sp. cy24//*//* 12.81 * +EC3.2.1.81 neoagarododecaose pseudoalteromonas sp. cy24//*//* 12.39 * +EC3.2.1.81 neoagarohexaose alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 1.7 * +EC3.2.1.81 neoagarotetradecaose pseudoalteromonas sp. cy24//*//* 8.36 * +EC3.2.1.82 citric pectin trametes sanguinea//*//* 0.55 * +EC3.2.1.82 d-galacturonan dickeya chrysanthemi//*//* 0.05 * +EC3.2.1.82 hexagalacturonate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 4.1 * +EC3.2.1.82 nonagalacturonate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 1002.0 * +EC3.2.1.82 pectate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 0.08 * +EC3.2.1.82 pectin thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 0.02 * +EC3.2.1.82 pentagalacturonate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 3.1 * +EC3.2.1.82 poly(1,4-alpha-d-galactosiduronate) trametes sanguinea//*//* 0.55 * +EC3.2.1.82 tetragalacturonate thermoanaerobacterium thermosaccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//ttm 3.1 * +EC3.2.1.82 trigalacturonate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 1159.0 * +EC3.2.1.83 kappa-carrageenan bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.244 * +EC3.2.1.84 4-methylumbelliferyl alpha-d-glucopyranoside bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.013 * +EC3.2.1.84 4-methylumbelliferyl alpha-d-glucopyranoside sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.019 * +EC3.2.1.84 4-methylumbelliferyl-alpha-d-glucopyranoside sporothrix schenckii//*//* 0.0003 * +EC3.2.1.84 4-methylumbelliferyl-alpha-d-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0552 * +EC3.2.1.84 4-nitrophenyl alpha-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.2.1.84 maltose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC3.2.1.84 p-nitrophenyl alpha-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC3.2.1.84 p-nitrophenyl-2-deoxy-alpha-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC3.2.1.84 p-nitrophenyl-alpha-d-glucopyranoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.2.1.84 p-nitrophenyl-alpha-d-glucopyranoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.92 * +EC3.2.1.84 pseudonigeran amorphotheca resinae//*//* 13.0 * +EC3.2.1.84 pseudonigeran trichoderma sp.//*//* 7.1 * +EC3.2.1.85 2-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 3.8 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate klebsiella sp.//*//* 3.0 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.3 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 0.76 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.59 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.4 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate leptotrichia buccalis//prokaryotes;bacteria;fusobacteria;leptotrichia//lba 0.54 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.6 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactopyranoside 6-phosphate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.19 * +EC3.2.1.85 o-nitrophenyl-beta-d-galactoside lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.32 * +EC3.2.1.85 o-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.15 * +EC3.2.1.85 o-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.04 * +EC3.2.1.85 o-nitrophenyl-beta-d-glucopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.16 * +EC3.2.1.85 p-nitrophenyl-6-phospho-beta-d-galactopyranose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.09 * +EC3.2.1.85 p-nitrophenyl-6-phospho-beta-d-glucopyranose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.1 * +EC3.2.1.85 p-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.2 * +EC3.2.1.85 p-nitrophenyl-beta-d-galactopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.09 * +EC3.2.1.85 p-nitrophenyl-beta-d-galactopyranoside 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.3 * +EC3.2.1.85 p-nitrophenyl-beta-d-glucopyranoside 6 phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.4 * +EC3.2.1.85 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.6 * +EC3.2.1.85 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.1 * +EC3.2.1.86 2,4-dinitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0444 * +EC3.2.1.86 2,5-dinitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0166 * +EC3.2.1.86 2-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0174 * +EC3.2.1.86 2-nitrophenyl-beta-d-glucopyranoside 6-phosphate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 0.66 * +EC3.2.1.86 3,4-dinitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0314 * +EC3.2.1.86 3,5-dichlorophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0414 * +EC3.2.1.86 3-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0729 * +EC3.2.1.86 4-chloro-2-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.015 * +EC3.2.1.86 4-cyanophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0319 * +EC3.2.1.86 4-methylumbelliferyl-beta-d-glucopyranoside 6-phosphate fusobacterium mortiferum//*//* 0.0092 * +EC3.2.1.86 4-methylumbelliferyl-beta-d-glucopyransoide 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.2.1.86 4-nitrophenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.048 * +EC3.2.1.86 4-nitrophenyl-beta-d-glucopyranoside 6-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.73 * +EC3.2.1.86 4-nitrophenyl-beta-d-glucopyranoside 6-phosphate uncultured organism//*//* 4.8 * +EC3.2.1.86 4-tert-butylphenyl 6-phospho-beta-d-glucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0583 * +EC3.2.1.86 arbutin 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.2.1.86 arbutin 6-phosphate fusobacterium mortiferum//*//* 0.0977 * +EC3.2.1.86 arbutin 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 cellobiitol monophosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 cellobiose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.2.1.86 cellobiose 6-phosphate fusobacterium mortiferum//*//* 0.1823 * +EC3.2.1.86 cellobiose 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 gentiobiose 6-phosphate fusobacterium mortiferum//*//* 0.3355 * +EC3.2.1.86 gentiobiose monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.5 * +EC3.2.1.86 gentiobiose monophosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 gentiobiose phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.24 * +EC3.2.1.86 laminaribiose 6-phosphate fusobacterium mortiferum//*//* 0.0875 * +EC3.2.1.86 methyl beta-d-glucoside 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.2.1.86 methyl beta-d-glucoside monophosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 methyl beta-d-glucoside phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.27 * +EC3.2.1.86 methyl-beta-d-glucoside 6-phosphate fusobacterium mortiferum//*//* 0.1384 * +EC3.2.1.86 o-nitrophenyl beta-d-galactoside 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.2.1.86 p-nitrophenyl 6-phospho-beta-d-thioglucoside thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.206 * +EC3.2.1.86 p-nitrophenyl-beta-d-glucopyranoside 6-p escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC3.2.1.86 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.2.1.86 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate fusobacterium mortiferum//*//* 0.0291 * +EC3.2.1.86 p-nitrophenyl-beta-d-glucopyranoside 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.041 * +EC3.2.1.86 p-nitrophenyl-beta-d-glucopyranoside pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.21 * +EC3.2.1.86 p-nitrophenyl-d-beta-d-glucopyranoside 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.2.1.86 p-nitrothiophenyl beta-d-glucoside 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.2.1.86 phenyl beta-d-glucoside 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.46 * +EC3.2.1.86 phenyl beta-d-glucoside 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 salicin 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC3.2.1.86 salicin 6-phosphate fusobacterium mortiferum//*//* 0.0886 * +EC3.2.1.86 salicin 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.23 * +EC3.2.1.86 sophorose 6-phosphate fusobacterium mortiferum//*//* 0.1212 * +EC3.2.1.88 p-nitrophenyl beta-l-arabinoside cajanus indicus//*//* 0.8 * +EC3.2.1.88 p-nitrophenyl-beta-l-arabinoside cajanus indicus//*//* 0.83 * +EC3.2.1.91 2,4-dinitrophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.55 * +EC3.2.1.91 2-chloro-4-nitrophenyl beta-d-lactoside trichoderma harzianum//*//* 3.7 * +EC3.2.1.91 2-chloro-4-nitrophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.46 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-cellotrioside rasamsonia emersonii//*//* 4.5 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside acremonium thermophilum//*//* 2.1 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 2.0 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside melanocarpus albomyces//*//* 0.62 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside thermoascus aurantiacus//*//* 0.99 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-d-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.52 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-lactoside trichoderma harzianum//*//* 3.7 * +EC3.2.1.91 2-chloro-4-nitrophenyl-beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.46 * +EC3.2.1.91 2-chloronitrophenyl-beta-d-lactoside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.83 * +EC3.2.1.91 3,4-dinitrophenyl-cellobioside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 11.0 * +EC3.2.1.91 3,4-dinitrophenyl-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 380.0 * +EC3.2.1.91 4-bromophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.52 * +EC3.2.1.91 4-methylumbelliferyl beta-d-cellobioside thielavia terrestris//eukaryotes;fungi;ascomycetes;sordariomycetes//ttt 0.28 * +EC3.2.1.91 4-methylumbelliferyl beta-d-lactopyranoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.358 * +EC3.2.1.91 4-methylumbelliferyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.52 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside acremonium thermophilum//*//* 0.22 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside chaetomium thermophilum//eukaryotes;fungi;ascomycetes;sordariomycetes//cthr 0.221 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside melanocarpus albomyces//*//* 0.23 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside thermoascus aurantiacus//*//* 0.00187 * +EC3.2.1.91 4-methylumbelliferyl-beta-d-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.287 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 2.2 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside cellulomonas fimi//prokaryotes;bacteria;actinobacteria;cellulomonas//cfi 0.6 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside fomitopsis pinicola//*//* 2.1 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside penicillium purpurogenum//*//* 1.1 * +EC3.2.1.91 4-nitrophenyl beta-d-cellobioside trichoderma harzianum//*//* 3.4 * +EC3.2.1.91 4-nitrophenyl beta-d-lactoside thermothelomyces thermophila//eukaryotes;fungi;ascomycetes;sordariomycetes//mtm 3.0 * +EC3.2.1.91 4-nitrophenyl beta-lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.22 * +EC3.2.1.91 4-nitrophenyl d-cellobioside trichoderma harzianum//*//* 3.4 * +EC3.2.1.91 4-nitrophenyl lactoside trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.041 * +EC3.2.1.91 4-nitrophenyl-beta-d-cellobioside ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 0.42 * +EC3.2.1.91 4-nitrophenyl-beta-d-lactoside rasamsonia emersonii//*//* 3.7 * +EC3.2.1.91 alpha-cellobiosyl fluoride humicola insolens//*//* 0.77 * +EC3.2.1.91 alpha-cellobiosyl fluoride trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.35 * +EC3.2.1.91 avicel trichoderma viride//*//* 12.0 * +EC3.2.1.91 beta-cellobiosyl fluoride humicola insolens//*//* 0.022 * +EC3.2.1.91 beta-cellobiosyl fluoride trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.15 * +EC3.2.1.91 cellohexaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 14.0 * +EC3.2.1.91 cellopentaose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.3 * +EC3.2.1.91 cellotetraose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 2.6 * +EC3.2.1.91 cellotriose trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 17.0 * +EC3.2.1.91 p-nitrophenyl beta-d-cellobioside trametes versicolor//eukaryotes;fungi;basidiomycetes//tvs 0.58 * +EC3.2.1.91 p-nitrophenyl-beta-d-cellobioside fibrobacter succinogenes//prokaryotes;bacteria;fibrobacteres;fibrobacter//fsu 0.1 * +EC3.2.1.91 p-nitrophenyl-beta-d-cellobioside phanerochaete chrysosporium//*//* 0.384 * +EC3.2.1.91 p-nitrophenyl-beta-d-cellobioside ruminococcus flavefaciens//*//* 3.08 * +EC3.2.1.91 p-nitrophenyl-lactoside thermothelomyces heterothallica//*//* 3.0 * +EC3.2.1.92 4-methylumbelliferyl-2-acetamido-3-o-(d-1-carboxyethyl)-2-deoxy-beta-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.19 * +EC3.2.1.92 o-[2-acetamido-3-o-(d-1-carboxyethyl)-2-deoxy-beta-d-glucopyranosyl]-(1-4)-2-acetamido-2-deoxy-d-glucose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.65 * +EC3.2.1.94 dextran arthrobacter dextranolyticus//*//* 5.4 * +EC3.2.1.96 (man)5(glcnac)2-pyridylamino pisum sativum//*//* 0.4 * +EC3.2.1.96 (man)5(glcnac)2asn-acetyl streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.2 * +EC3.2.1.96 (man)6(glcnac)2-pyridylamidated gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.025 * +EC3.2.1.96 (man)6(glcnac)2-pyridylamino pisum sativum//*//* 0.25 * +EC3.2.1.96 (man)9(glcnac)2-pyridylamino pisum sativum//*//* 0.32 * +EC3.2.1.96 4-methylumbelliferyl di-n-acetyl-beta-chitobioside oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00625 * +EC3.2.1.96 4-methylumbelliferyl n,n',n''-triacetyl-beta-d-glucosaminide hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.0204 * +EC3.2.1.96 9-fluorenylmethyloxycarbonyl-labeled asparagine-linked agalactobiantennary oligosaccharide ogataea minuta//*//* 5.54 * +EC3.2.1.96 asn(glcnac)2-(man)5 streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.25 * +EC3.2.1.96 dansyl asialotransferrin glycopeptide acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.68 * +EC3.2.1.96 dansyl asialotransferrin glycopeptide mucor hiemalis//*//* 2.0 * +EC3.2.1.96 dansyl derivative of taka-amylase a glycopeptide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0868 * +EC3.2.1.96 dansyl-asn-(glcnac)2(man)5 glutamicibacter protophormiae//*//* 0.207 * +EC3.2.1.96 dansyl-asn-(glcnac)2(man)6 flavobacterium sp.//*//* 0.3 * +EC3.2.1.96 dansyl-asn-(glcnac)4(man)6 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.3 * +EC3.2.1.96 dansyl-asn-(glcnac)4(man)6 streptomyces plicatus//*//* 0.3 * +EC3.2.1.96 keratan sulfate bacillus circulans//*//* 54.0 * +EC3.2.1.96 man(glcnac)2asn-dansyl streptomyces plicatus//*//* 0.7 * +EC3.2.1.96 manalpha1->6(manalpha1->3)manalpha1->6(manalpha1->2manalpha1->3)manbeta1->4glcnacbeta1->4glcnacasn clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.05 * +EC3.2.1.96 manalpha1->6(manalpha1->3)manbeta1->4glcnacbeta1->4(fucalpha1->6)glcnac->n-acetylasn clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.032 * +EC3.2.1.96 ovalbumin flavobacterium sp.//*//* 2.56 * +EC3.2.1.97 4,6-dimethoxy-1,3,5-triazin-2-yl alpha-n-acetylgalactosaminide bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 17.1 * +EC3.2.1.97 asialo kappa-casein alcaligenes sp.//*//* 3.2 * +EC3.2.1.97 asialo-kappa-casein brevibacillus laterosporus//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//blr 0.78 * +EC3.2.1.97 asialofetuin alcaligenes sp.//*//* 3.7 * +EC3.2.1.97 asialofetuin brevibacillus laterosporus//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//blr 0.52 * +EC3.2.1.97 asialofetuin streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 1.0 * +EC3.2.1.97 asialoglycophorin alcaligenes sp.//*//* 0.32 * +EC3.2.1.97 dansyl-ser-galnac-gal alcaligenes sp.//*//* 0.17 * +EC3.2.1.97 dansyl-thr-galnac-gal alcaligenes sp.//*//* 1.43 * +EC3.2.1.97 galbeta(1,3)galnacalpha-1-p-nitrophenol bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.0218 * +EC3.2.1.97 galbeta(1-3)galnacalpha(1-)oc6h4-o-no2 streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.23 * +EC3.2.1.97 galbeta(1-3)galnacalpha(1-)oc6h4-p-no2 streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.25 * +EC3.2.1.97 galbeta(1-3)galnacalpha1-p-nitrophenol bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 0.0218 * +EC3.2.1.97 galbeta1-3galnacalpha-pnp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.0596 * +EC3.2.1.97 galbeta1-3galnacalpha1-pnp clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.051 * +EC3.2.1.97 tn antigen bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 2.2 * +EC3.2.1.98 maltohexaose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 7.68 * +EC3.2.1.98 maltononaose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.36 * +EC3.2.1.98 maltopentaose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 10.02 * +EC3.2.1.98 maltotetraose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 50.0 * +EC3.2.1.98 short-chain amylose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.46 * +EC3.2.1.99 1,5-alpha-l-arabinan aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.336 * +EC3.2.1.99 1,5-alpha-l-arabinan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.052 * +EC3.2.1.99 alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara aspergillus aculeatus//*//* 0.592 * +EC3.2.1.99 alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara-(1-5)-o-alpha-l-ara aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.388 * +EC3.2.1.99 arabinogalactan cellulomonas sp.//prokaryotes;bacteria;actinobacteria;cellulomonas//cez 0.0556 * +EC3.2.1.99 l-arabinan aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 9.3 * +EC3.2.1.99 linear 1,5-alpha-l-arabinan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.111 * +EC3.2.1.99 linear 1,5-alpha-l-arabinan paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.1177 * +EC3.2.1.B1 neoagarodecaose pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 12.8 * +EC3.2.1.B1 neoagarododecaose pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 12.4 * +EC3.2.1.B1 neoagarotetradecaose pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 8.36 * +EC3.2.1.B16 1alpha(s)-6-o-methyl-n-deacetylisoipecoside carapichea ipecacuanha//*//* 1.3 * +EC3.2.1.B16 1alpha(s)-n-deacetylisoipecoside carapichea ipecacuanha//*//* 5.8 * +EC3.2.1.B16 1beta(r)-6-o-methyl-n-deacetylipecoside carapichea ipecacuanha//*//* 0.39 * +EC3.2.1.B16 1beta(r)-n-deacetylipecoside carapichea ipecacuanha//*//* 0.32 * +EC3.2.1.B16 ipecoside carapichea ipecacuanha//*//* 0.1 * +EC3.2.1.B16 vincoside carapichea ipecacuanha//*//* 0.29 * +EC3.2.1.B28 2-nitrophenyl beta-d-galactopyranoside-6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 31.0 * +EC3.2.1.B28 2-nitrophenyl beta-d-galactopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.12 * +EC3.2.1.B28 2-nitrophenyl beta-d-galactoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.3 * +EC3.2.1.B28 2-nitrophenyl beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.22 * +EC3.2.1.B28 4-nitrophenyl beta-d-galactopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.7 * +EC3.2.1.B28 4-nitrophenyl beta-d-galactoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.3 * +EC3.2.1.B28 4-nitrophenyl beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.09 * +EC3.2.1.B28 4-nitrophenyl beta-d-glucoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.6 * +EC3.2.1.B28 4-nitrophenyl beta-d-mannopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.09 * +EC3.2.1.B28 cellobiose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.07 * +EC3.2.1.B28 daidzin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.42 * +EC3.2.1.B28 genistin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.5 * +EC3.2.1.B28 glycitin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.33 * +EC3.2.1.B28 hesperidin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.6 * +EC3.2.1.B28 isoquercitrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.17 * +EC3.2.1.B28 lactose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.04 * +EC3.2.1.B28 methyl beta-d-galactoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 861.0 * +EC3.2.1.B28 naringin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.7 * +EC3.2.1.B28 narirutin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.7 * +EC3.2.1.B28 neohesperidin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.6 * +EC3.2.1.B28 pentyl beta-d-glucopyranoside pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 46.0 * +EC3.2.1.B28 quercitrin pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.095 * +EC3.2.1.B3 beta-d-fructofuranosyl 6-o-phosphono-alpha-d-glucopyranoside klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0853 * +EC3.2.1.B3 beta-d-fructofuranosyl 6-o-phosphono-alpha-d-glucopyranoside streptococcus mutans serotype c//*//* 0.08 * +EC3.2.1.B3 sucrose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 20.3 * +EC3.2.1.B31 isoquercitrin fagopyrum tataricum//*//* 1.05 * +EC3.2.1.B31 isorhamnetin 3-o-rutinoside fagopyrum esculentum//*//* 0.375 * +EC3.2.1.B31 kaempferol 3-o-rutinoside fagopyrum esculentum//*//* 0.95 * +EC3.2.1.B31 rutin fagopyrum esculentum//*//* 0.561 * +EC3.2.1.B31 rutin fagopyrum tataricum//*//* 0.115 * +EC3.2.1.B34 2-nitrophenyl beta-d-fucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.116 * +EC3.2.1.B34 2-nitrophenyl beta-d-galactopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.5 * +EC3.2.1.B34 2-nitrophenyl beta-d-galactoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1 * +EC3.2.1.B34 2-nitrophenyl beta-d-glucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.138 * +EC3.2.1.B34 4-nitrophenyl beta-d-fucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.139 * +EC3.2.1.B34 4-nitrophenyl beta-d-galactopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.45 * +EC3.2.1.B34 4-nitrophenyl beta-d-glucopyranoside sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.318 * +EC3.2.1.B34 lactose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 196.0 * +EC3.2.1.B34 methyl beta-d-galactoside sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 192.0 * +EC3.2.1.B35 4-nitrophenyl beta-d-fucopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.94 * +EC3.2.1.B35 4-nitrophenyl beta-d-galactopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 34.6 * +EC3.2.1.B35 4-nitrophenyl beta-d-glucopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.79 * +EC3.2.1.B35 4-nitrophenyl beta-d-mannopyranoside thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.254 * +EC3.2.1.B36 6-o-maltotetraosyl-beta-cyclodextrin pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 0.3 * +EC3.2.1.B36 6-o-maltotetraosyl-beta-cyclodextrin thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 0.7 * +EC3.2.1.B36 maltopentaose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 21.2 * +EC3.2.1.B36 maltopentaose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 16.2 * +EC3.2.1.B36 maltotetraose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 18.8 * +EC3.2.1.B36 maltotetraose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 18.2 * +EC3.2.1.B36 maltotriose pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 8.4 * +EC3.2.1.B36 maltotriose thermococcus sp.//prokaryotes;archaea;euryarchaeota;thermococcus//the 4.25 * +EC3.2.1.B39 oleuropein olea europaea//eukaryotes;plants;eudicots;olive family//oeu 2.78 * +EC3.2.1.B39 oleuropein prunus dulcis//*//* 3.8 * +EC3.2.1.B39 oleuropein sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 169.0 * +EC3.2.2.1 2'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.042 * +EC3.2.2.1 2-aminopurine riboside trypanosoma brucei brucei//*//* 0.0008 * +EC3.2.2.1 2-aminopurine riboside trypanosoma vivax//*//* 0.009 * +EC3.2.2.1 3'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.6 * +EC3.2.2.1 3-deazaadenosine trypanosoma brucei brucei//*//* 0.0022 * +EC3.2.2.1 4-nitrophenyl beta-d-ribofuranoside trypanosoma brucei brucei//*//* 0.0011 * +EC3.2.2.1 5'-amp aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.9 * +EC3.2.2.1 5'-deoxyadenosine trypanosoma brucei brucei//*//* 0.24 * +EC3.2.2.1 5'-deoxyadenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 9.87 * +EC3.2.2.1 5-methyluridine crithidia fasciculata//*//* 1.3 * +EC3.2.2.1 5-methyluridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.026 * +EC3.2.2.1 7-methyl guanosine trypanosoma vivax//*//* 0.0005 * +EC3.2.2.1 adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0431 * +EC3.2.2.1 adenosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 9.0 * +EC3.2.2.1 adenosine aspergillus terricola//*//* 20.0 * +EC3.2.2.1 adenosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.093 * +EC3.2.2.1 adenosine crithidia fasciculata//*//* 0.46 * +EC3.2.2.1 adenosine ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.0118 * +EC3.2.2.1 adenosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.16 * +EC3.2.2.1 adenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.06 * +EC3.2.2.1 adenosine trypanosoma brucei brucei//*//* 0.001 * +EC3.2.2.1 adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.015 * +EC3.2.2.1 adenosine trypanosoma vivax//*//* 0.008 * +EC3.2.2.1 cytidine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 10.0 * +EC3.2.2.1 cytidine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 9.2 * +EC3.2.2.1 cytidine trypanosoma brucei brucei//*//* 0.271 * +EC3.2.2.1 cytidine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.106 * +EC3.2.2.1 cytidine trypanosoma vivax//*//* 0.925 * +EC3.2.2.1 cytosine crithidia fasciculata//*//* 4.7 * +EC3.2.2.1 ethenoadenosine trypanosoma brucei brucei//*//* 0.0036 * +EC3.2.2.1 gmp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.909 * +EC3.2.2.1 guanosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 7.5 * +EC3.2.2.1 guanosine aspergillus terricola//*//* 22.2 * +EC3.2.2.1 guanosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.164 * +EC3.2.2.1 guanosine crithidia fasciculata//*//* 0.42 * +EC3.2.2.1 guanosine ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.0563 * +EC3.2.2.1 guanosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.16 * +EC3.2.2.1 guanosine trypanosoma brucei brucei//*//* 0.0045 * +EC3.2.2.1 guanosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.046 * +EC3.2.2.1 guanosine trypanosoma vivax//*//* 0.0023 * +EC3.2.2.1 inosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0972 * +EC3.2.2.1 inosine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.6 * +EC3.2.2.1 inosine aspergillus terricola//*//* 10.0 * +EC3.2.2.1 inosine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.399 * +EC3.2.2.1 inosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.295 * +EC3.2.2.1 inosine crithidia fasciculata//*//* 0.38 * +EC3.2.2.1 inosine giardia intestinalis//*//* 0.07 * +EC3.2.2.1 inosine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.3 * +EC3.2.2.1 inosine ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.0395 * +EC3.2.2.1 inosine physcomitrella patens//eukaryotes;plants;mosses//ppp 0.078 * +EC3.2.2.1 inosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.65 * +EC3.2.2.1 inosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.34 * +EC3.2.2.1 inosine trypanosoma brucei brucei//*//* 0.0019 * +EC3.2.2.1 inosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.018 * +EC3.2.2.1 inosine trypanosoma vivax//*//* 0.0052 * +EC3.2.2.1 inosine vigna unguiculata//*//* 0.83 * +EC3.2.2.1 nad+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.0 * +EC3.2.2.1 p-nitrophenylriboside trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.562 * +EC3.2.2.1 p-nitrophenylriboside trypanosoma vivax//*//* 257.0 * +EC3.2.2.1 purine ribonucleoside trypanosoma vivax//*//* 0.004 * +EC3.2.2.1 purine riboside crithidia fasciculata//*//* 0.145 * +EC3.2.2.1 purine riboside trypanosoma brucei brucei//*//* 0.0006 * +EC3.2.2.1 purine riboside trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.019 * +EC3.2.2.1 uridine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 2.84 * +EC3.2.2.1 uridine crithidia fasciculata//*//* 1.22 * +EC3.2.2.1 uridine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.06 * +EC3.2.2.1 uridine trypanosoma brucei brucei//*//* 1.451 * +EC3.2.2.1 uridine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.102 * +EC3.2.2.1 uridine trypanosoma vivax//*//* 0.586 * +EC3.2.2.1 xanthosine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.038 * +EC3.2.2.1 xanthosine ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.0158 * +EC3.2.2.1 xanthosine physcomitrella patens//eukaryotes;plants;mosses//ppp 0.116 * +EC3.2.2.1 xanthosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.79 * +EC3.2.2.1 xanthosine trypanosoma brucei brucei//*//* 0.28 * +EC3.2.2.1 xanthosine vigna unguiculata//*//* 0.8 * +EC3.2.2.10 5'-ump streptomyces virginiae//*//* 6.95 * +EC3.2.2.10 ribosylthymine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.2 * +EC3.2.2.13 1-methyladenosine pisaster ochraceus//*//* 6.65 * +EC3.2.2.14 guanosine 3'-diphosphate 5'-triphosphate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.0087 * +EC3.2.2.14 nicotinamide mononucleotide azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 2.0 * +EC3.2.2.14 nicotinamide mononucleotide nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.22 * +EC3.2.2.15 poly(dadt) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC3.2.2.15 poly-dc bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0009 * +EC3.2.2.16 5'-deoxy-5'-methylthioadenosine acetabularia acetabulum//*//* 0.00725 * +EC3.2.2.16 5'-deoxy-5'-methylthioadenosine catharanthus roseus//*//* 0.0103 * +EC3.2.2.16 5'-deoxy-5'-methylthioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00031 * +EC3.2.2.16 5'-deoxy-5'-methylthioadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0435 * +EC3.2.2.16 5'-deoxy-5'-methylthioadenosine lupinus luteus//*//* 0.00041 * +EC3.2.2.16 5'-deoxy-5'-methylthioadenosine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.015 * +EC3.2.2.16 5'-methylthioadenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0034 * +EC3.2.2.16 5'-methylthioadenosine borreliella burgdorferi//*//* 0.0007 * +EC3.2.2.16 5'-methylthioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC3.2.2.16 5'-methylthioadenosine oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.1 * +EC3.2.2.16 5'-methylthioadenosine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.023 * +EC3.2.2.16 5'-methylthioadenosine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.003 * +EC3.2.2.16 5'-methylthioinosine lupinus luteus//*//* 0.00055 * +EC3.2.2.16 s-adenosyl-l-homocysteine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.004 * +EC3.2.2.16 s-adenosyl-l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.2.2.16 s-adenosyl-l-homocysteine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.01 * +EC3.2.2.16 s-adenosyl-l-homocysteine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.013 * +EC3.2.2.16 s-methyl-5'-thioadenosine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.0022 * +EC3.2.2.16 s-methyl-5'-thioadenosine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.019 * +EC3.2.2.16 s-methyl-5'-thioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9e-07 * +EC3.2.2.16 s-methyl-5'-thioadenosine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.039 * +EC3.2.2.16 s-methyl-5'-thioadenosine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 4e-07 * +EC3.2.2.16 s-methyl-5'-thioadenosine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0009 * +EC3.2.2.16 s-methyl-5'-thioadenosine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 3.6e-07 * +EC3.2.2.17 dna enterobacteria phage t4//*//* 5e-06 * +EC3.2.2.17 dna micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.5e-05 * +EC3.2.2.17 dna paramecium bursaria chlorella virus 1//*//* 1.4e-07 * +EC3.2.2.19 2'-phospho-adp-ribosylarginine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0472 * +EC3.2.2.19 adp-ribose-4-dimethylaminoazobenzene-4-sulfonyl arginine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.2.2.19 adp-ribosylarginine methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC3.2.2.19 adp-ribosylarginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0262 * +EC3.2.2.19 adp-ribosylarginine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.065 * +EC3.2.2.19 adp-ribosylguanidine meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.0271 * +EC3.2.2.2 adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC3.2.2.2 adenosine lupinus luteus//*//* 0.47 * +EC3.2.2.2 adenosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.06 * +EC3.2.2.2 guanosine helianthus tuberosus//*//* 0.0085 * +EC3.2.2.2 guanosine lupinus luteus//*//* 0.0027 * +EC3.2.2.2 guanosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.16 * +EC3.2.2.2 inosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.4 * +EC3.2.2.2 inosine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.65 * +EC3.2.2.2 inosine bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.399 * +EC3.2.2.2 inosine helianthus tuberosus//*//* 0.0025 * +EC3.2.2.2 inosine lupinus luteus//*//* 0.0027 * +EC3.2.2.2 inosine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.34 * +EC3.2.2.2 methyluridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.44 * +EC3.2.2.2 uridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.8 * +EC3.2.2.2 xanthosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.69 * +EC3.2.2.2 xanthosine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.2 * +EC3.2.2.20 3-methyladenine residues in alkylated dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6e-06 * +EC3.2.2.21 1,n6-ethenoadenine residues in alkylated dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4e-05 * +EC3.2.2.21 1,n6-ethenoadenine residues in alkylated dna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4e-05 * +EC3.2.2.21 3-methyladenine residues in alkylated dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.2e-06 * +EC3.2.2.21 7-methylguanine residues in alkylated dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1e-05 * +EC3.2.2.21 alkylated dna, treated with n-methyl-n'-nitro-n-nitrosoguanidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.1e-05 * +EC3.2.2.21 alkylated dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.4e-07 * +EC3.2.2.21 duplex oligonucleotide substrate containing ethenoadenine and hypoxanthine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC3.2.2.21 duplex oligonucleotide substrate containing ethenoadenine and hypoxanthine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.54e-05 * +EC3.2.2.21 hypoxanthine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3e-06 * +EC3.2.2.22 28s rrna within the native ribosome ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0026 * +EC3.2.2.22 5'-dg1dc2dg3dc4dg5a6dg7da8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.01 * +EC3.2.2.22 5'-dg1dc2dg3dc4dg5da6dg7a8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.005 * +EC3.2.2.22 5'-dg1dc2dg3dc4dg5da6g7da8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0152 * +EC3.2.2.22 5'-dg1dc2dg3dc4g5da6dg7da8dg9dc10dg11dc12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0094 * +EC3.2.2.22 5'-g1c2g3c4dg5a6dg7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.1 * +EC3.2.2.22 5'-g1c2g3c4dg5a6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0007 * +EC3.2.2.22 5'-g1c2g3c4dg5a6g7da8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0018 * +EC3.2.2.22 5'-g1c2g3c4g5a6dg7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0009 * +EC3.2.2.22 5'-g1c2g3c4g5a6g7a8g9c10g11c12-3 ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0027 * +EC3.2.2.22 5'-g1c2g3c4g5a6g7da8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0057 * +EC3.2.2.22 5'-g1c2g3c4g5a6g7ma8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0097 * +EC3.2.2.22 5'-g1c2g3c4g5a6mg7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0063 * +EC3.2.2.22 5'-g1c2g3c4g5da6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.032 * +EC3.2.2.22 5'-g1c2g3c4g5ma6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.3 * +EC3.2.2.22 5'-g1c2g3c4mg5a6g7a8g9c10g11c12-3' ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0029 * +EC3.2.2.22 a-10 rna saponaria officinalis//*//* 0.095 * +EC3.2.2.22 a-14 2-da stem-loop rna/dna hybrid ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0103 * +EC3.2.2.22 cyclic dg-(n-benzyl-aza-deoxyribosyl)-dgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.039 * +EC3.2.2.22 cyclic dgdadgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.097 * +EC3.2.2.22 cyclic gdaga ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.038 * +EC3.2.2.22 cyclic oxime gaga saponaria officinalis//*//* 0.082 * +EC3.2.2.22 cyclic phosphorothioyl dgdadgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.046 * +EC3.2.2.22 dgdadgda ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.112 * +EC3.2.2.22 dgdcdgdcdgdadgdadgdcdgdc ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0084 * +EC3.2.2.22 gdaga ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.065 * +EC3.2.2.22 linear gaga saponaria officinalis//*//* 0.266 * +EC3.2.2.22 naked 28s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0058 * +EC3.2.2.22 poly(a) saponaria officinalis//*//* 0.065 * +EC3.2.2.22 rabbit reticulocyte 80s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0001 * +EC3.2.2.22 rrna cinnamomum camphora//*//* 0.0011 * +EC3.2.2.22 rrna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00084 * +EC3.2.2.22 rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0026 * +EC3.2.2.22 rrna saponaria officinalis//*//* 5.5e-05 * +EC3.2.2.22 sarcin/ricin domains of escherichia coli 23s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00464 * +EC3.2.2.22 sarcin/ricin domains of rattus norvegicus 28s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00457 * +EC3.2.2.22 stem-loop substrate a-10 ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0022 * +EC3.2.2.22 yeast 60s rrna ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 6e-05 * +EC3.2.2.23 13mer oligonucleotide duplex containing 8-oxoguanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.81e-05 * +EC3.2.2.23 5,6-dihydrouracil-dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC3.2.2.23 dna containing 2,6-diamino-4-hydroxy-5-formamidopyrimidine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00343 * +EC3.2.2.23 dna containing 4,6-diamino-5-formamidopyrimidine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00107 * +EC3.2.2.23 dna containing 5,6-dihydrothymine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00045 * +EC3.2.2.23 dna containing 5,6-dihydrouracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00068 * +EC3.2.2.23 dna containing 5-hydroxycytosine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0047 * +EC3.2.2.23 dna containing 7-deaza-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.3e-05 * +EC3.2.2.23 dna containing 7-deaza-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000126 * +EC3.2.2.23 dna containing 7-hydro-8-oxoguanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.9e-06 * +EC3.2.2.23 dna containing 7-methyl-8-oxo-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3e-05 * +EC3.2.2.23 dna containing 7-methyl-8-oxo-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000137 * +EC3.2.2.23 dna containing 8-hydroxyguanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8e-06 * +EC3.2.2.23 dna containing 8-oxo-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2e-05 * +EC3.2.2.23 dna containing 8-oxo-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2e-05 * +EC3.2.2.23 dna containing 8-oxo-guanine residues mispaired to adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC3.2.2.23 dna containing 8-oxo-guanine residues mispaired to guanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0001 * +EC3.2.2.23 dna containing 8-oxo-guanine residues mispaired to thymine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00019 * +EC3.2.2.23 dna containing 8-oxo-guanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC3.2.2.23 dna containing 8-thio-2'-deoxyguanosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000225 * +EC3.2.2.23 dna containing 8-thio-2'-deoxyguanosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000151 * +EC3.2.2.23 dna containing ring-opened n7-methylguanine residues escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3e-05 * +EC3.2.2.23 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9e-05 * +EC3.2.2.26 6-amino-6-deoxyfutalosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00103 * +EC3.2.2.26 futalosine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.154 * +EC3.2.2.27 dsdna-uracil archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0005 * +EC3.2.2.27 ssdna-uracil archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0005 * +EC3.2.2.27 uracil-containing double-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 7e-05 * +EC3.2.2.27 uracil-containing single-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.1e-05 * +EC3.2.2.27 uracil-mismatched double-stranded dna with u-g mismatch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2e-06 * +EC3.2.2.27 uracil-mismatched double-stranded dna with u-g mismatch xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 3.5e-05 * +EC3.2.2.27 uracil-mismatched double-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0005 * +EC3.2.2.27 uracil-mismatched single-stranded dna archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0005 * +EC3.2.2.27 uracil-mismatched single-stranded dna gadus morhua//*//* 0.0005 * +EC3.2.2.27 uracil-mismatched single-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.2.2.27 uracil-mismatched single-stranded dna thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.001 * +EC3.2.2.27 uracil-mismatched single-stranded dna vaccinia virus//*//* 0.0005 * +EC3.2.2.27 uracil-mismatched single-stranded dna xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.00109 * +EC3.2.2.28 3,n4-ethenocytosine-mismatched double-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5e-06 * +EC3.2.2.28 uracil-mismatched double-stranded dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.27e-05 * +EC3.2.2.29 3,n4-ethenocytosine-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.43e-05 * +EC3.2.2.29 thymine-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28e-05 * +EC3.2.2.29 uracil-mismatched double-stranded dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2e-05 * +EC3.2.2.3 5-methyluridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.44 * +EC3.2.2.3 5-methyluridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.66 * +EC3.2.2.3 adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC3.2.2.3 inosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.4 * +EC3.2.2.3 nicotinamide riboside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC3.2.2.3 nicotinic acid riboside methyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.045 * +EC3.2.2.3 nicotinic acid riboside saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.15 * +EC3.2.2.3 uridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.8 * +EC3.2.2.3 uridine hordeum vulgare//*//* 0.1 * +EC3.2.2.3 uridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.86 * +EC3.2.2.3 uridine vigna radiata var. radiata//*//* 1.0 * +EC3.2.2.3 xanthosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.69 * +EC3.2.2.30 6-amino-6-deoxyfutalosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.001 * +EC3.2.2.4 amp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.08 * +EC3.2.2.4 amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.2.2.4 mg2+ azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.1 * +EC3.2.2.5 2-fluoro-nad+ aplysia californica//*//* 0.016 * +EC3.2.2.5 3-acetylpyridine adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC3.2.2.5 3-acetylpyridine adenine dinucleotide bungarus fasciatus//*//* 0.027 * +EC3.2.2.5 3-acetylpyridine hypoxanthine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC3.2.2.5 3-acetylpyridine bungarus fasciatus//*//* 20.0 * +EC3.2.2.5 3-aminopyridine bungarus fasciatus//*//* 3.2 * +EC3.2.2.5 3-carboxyhydrazide adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.2.2.5 3-methylpyridine bungarus fasciatus//*//* 6.5 * +EC3.2.2.5 3-pyridylacetonitrile bungarus fasciatus//*//* 6.1 * +EC3.2.2.5 3-pyridylcarbinol bungarus fasciatus//*//* 7.9 * +EC3.2.2.5 beta-nicotinamide guanine dinucleotide deinagkistrodon acutus//*//* 0.16 * +EC3.2.2.5 dnad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.2.2.5 epsilon-nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC3.2.2.5 methylnicotinate adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.2.2.5 nad+ aplysia californica//*//* 0.0046 * +EC3.2.2.5 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.5 * +EC3.2.2.5 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.016 * +EC3.2.2.5 nad+ bungarus fasciatus//*//* 0.014 * +EC3.2.2.5 nad+ deinagkistrodon acutus//*//* 0.26 * +EC3.2.2.5 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.2.2.5 nad+ microdochium nivale//*//* 0.41 * +EC3.2.2.5 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.33 * +EC3.2.2.5 nad+ neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.5 * +EC3.2.2.5 nad+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.043 * +EC3.2.2.5 nad+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.85 * +EC3.2.2.5 nad+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.2.2.5 nad+ streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.175 * +EC3.2.2.5 nad+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.065 * +EC3.2.2.5 nadp+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.2.2.5 nadp+ bungarus fasciatus//*//* 0.005 * +EC3.2.2.5 nadp+ deinagkistrodon acutus//*//* 0.13 * +EC3.2.2.5 nicotinamide ethenoadenine dinucleotide bungarus fasciatus//*//* 0.02 * +EC3.2.2.5 nicotinamide guanine dinucleotide bungarus fasciatus//*//* 0.032 * +EC3.2.2.5 nicotinamide hypoxanthine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.2.2.5 nicotinamide hypoxanthine dinucleotide bungarus fasciatus//*//* 0.005 * +EC3.2.2.5 nmn bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC3.2.2.5 pyridine bungarus fasciatus//*//* 1.4 * +EC3.2.2.5 thionad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.057 * +EC3.2.2.5 thionad+ bungarus fasciatus//*//* 0.011 * +EC3.2.2.5 thionadp+ bungarus fasciatus//*//* 0.01 * +EC3.2.2.6 3-acetylpyridine adenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.851 * +EC3.2.2.6 beta-nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.2.2.6 cyclic adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.224 * +EC3.2.2.6 epsilon-nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.2.2.6 epsilonnad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.2.2.6 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.2.2.6 nad+ pseudomonas putida kb1//*//* 0.85 * +EC3.2.2.6 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.52 * +EC3.2.2.6 nad+ streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.33 * +EC3.2.2.6 nadp+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.2.2.6 nadp+ pseudomonas putida kb1//*//* 0.66 * +EC3.2.2.6 nadp+ streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.65 * +EC3.2.2.6 nicotinamide 1,n6-ethenoadenine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.2.2.6 nicotinamide guanine dinucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.2.2.6 nicotinamide-hypoxanthine dinucleotide phosphate pseudomonas putida kb1//*//* 0.51 * +EC3.2.2.6 nicotinamide-hypoxanthine dinucleotide pseudomonas putida kb1//*//* 1.44 * +EC3.2.2.6 thio-nad+ pseudomonas putida kb1//*//* 0.25 * +EC3.2.2.7 2'-deoxyadenosine hordeum vulgare//*//* 0.12 * +EC3.2.2.7 adenosine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.002 * +EC3.2.2.7 adenosine coffea arabica//*//* 0.0063 * +EC3.2.2.7 adenosine helianthus tuberosus//*//* 0.017 * +EC3.2.2.7 adenosine hordeum vulgare//*//* 0.001 * +EC3.2.2.7 adenosine lupinus luteus//*//* 0.005 * +EC3.2.2.7 adenosine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.006 * +EC3.2.2.7 adenosine triticum aestivum//*//* 0.001 * +EC3.2.2.7 n6-(delta2-isopentenyl)-adenosine triticum aestivum//*//* 0.002 * +EC3.2.2.8 1-beta-d-ribofuranosylthymine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 7.5 * +EC3.2.2.8 5-bromouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.186 * +EC3.2.2.8 5-bromouridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.5 * +EC3.2.2.8 5-fluorouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.128 * +EC3.2.2.8 5-iodouridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.2.2.8 5-methyluridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.329 * +EC3.2.2.8 6-mercaptopurine ribonucleoside leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.33 * +EC3.2.2.8 adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.7 * +EC3.2.2.8 adenosine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.5 * +EC3.2.2.8 cytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.532 * +EC3.2.2.8 cytidine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.0 * +EC3.2.2.8 cytidine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.97 * +EC3.2.2.8 guanosine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.6 * +EC3.2.2.8 inosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.4 * +EC3.2.2.8 inosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.34 * +EC3.2.2.8 inosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.62 * +EC3.2.2.8 inosine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.2 * +EC3.2.2.8 methyluridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.44 * +EC3.2.2.8 purine ribonucleoside leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.78 * +EC3.2.2.8 uridine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.8 * +EC3.2.2.8 uridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.2.2.8 uridine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.06 * +EC3.2.2.8 uridine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.8 * +EC3.2.2.8 uridine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.31 * +EC3.2.2.8 xanthosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.69 * +EC3.2.2.8 xanthosine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 1.11 * +EC3.2.2.8 xanthosine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.5 * +EC3.2.2.9 5'-methylthioadenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0034 * +EC3.2.2.9 5'-methylthioadenosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00093 * +EC3.2.2.9 5'-methylthioadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00031 * +EC3.2.2.9 5'-methylthioadenosine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0449 * +EC3.2.2.9 5'-methylthioadenosine klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0087 * +EC3.2.2.9 5'-methylthioadenosine lupinus luteus//*//* 0.0004 * +EC3.2.2.9 5'-methylthioadenosine rattus rattus//*//* 0.3 * +EC3.2.2.9 5'-methylthioadenosine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.023 * +EC3.2.2.9 5'-methylthioadenosine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.003 * +EC3.2.2.9 6-amino-6-deoxyfutalosine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.00103 * +EC3.2.2.9 s-adenosyl-l-homocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2009 * +EC3.2.2.9 s-adenosyl-l-homocysteine borreliella burgdorferi//*//* 0.0012 * +EC3.2.2.9 s-adenosyl-l-homocysteine brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.004 * +EC3.2.2.9 s-adenosyl-l-homocysteine burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.058 * +EC3.2.2.9 s-adenosyl-l-homocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC3.2.2.9 s-adenosyl-l-homocysteine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.01 * +EC3.2.2.9 s-adenosyl-l-homocysteine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.013 * +EC3.2.2.9 s-adenosyl-l-homocysteine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.024 * +EC3.2.2.9 s-adenosylhomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0043 * +EC3.2.2.9 s-adenosylhomocysteine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.024 * +EC3.3.1.1 3-deazaadenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC3.3.1.1 3-deazaadenosine mesocricetus auratus//*//* 0.001 * +EC3.3.1.1 4',5'-dehydroadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.3.1.1 adenosine acinetobacter calcoaceticus//*//* 0.0016 * +EC3.3.1.1 adenosine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.05 * +EC3.3.1.1 adenosine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.0128 * +EC3.3.1.1 adenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC3.3.1.1 adenosine branchiostoma belcheri tsingtauense//*//* 0.0034 * +EC3.3.1.1 adenosine corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 0.01 * +EC3.3.1.1 adenosine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0014 * +EC3.3.1.1 adenosine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0004 * +EC3.3.1.1 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.3.1.1 adenosine lupinus luteus//*//* 0.0023 * +EC3.3.1.1 adenosine mesocricetus auratus//*//* 0.001 * +EC3.3.1.1 adenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0002 * +EC3.3.1.1 adenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0643 * +EC3.3.1.1 adenosine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0048 * +EC3.3.1.1 adenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00033 * +EC3.3.1.1 adenosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.049 * +EC3.3.1.1 adenosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.005 * +EC3.3.1.1 cysteine lupinus luteus//*//* 35.0 * +EC3.3.1.1 dl-homocysteine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 1.07 * +EC3.3.1.1 dl-homocysteine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 2.2 * +EC3.3.1.1 dl-homocysteine corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 0.045 * +EC3.3.1.1 dl-homocysteine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.04 * +EC3.3.1.1 dl-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.3.1.1 dl-homocysteine lupinus luteus//*//* 4.6 * +EC3.3.1.1 dl-homocysteine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0006 * +EC3.3.1.1 dl-homocysteine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.14 * +EC3.3.1.1 dl-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0216 * +EC3.3.1.1 inosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC3.3.1.1 l-homocysteine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.25 * +EC3.3.1.1 l-homocysteine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 1.2 * +EC3.3.1.1 l-homocysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.3.1.1 l-homocysteine branchiostoma belcheri tsingtauense//*//* 0.085 * +EC3.3.1.1 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.3.1.1 l-homocysteine lupinus luteus//*//* 0.13 * +EC3.3.1.1 l-homocysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.163 * +EC3.3.1.1 l-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.3.1.1 l-homocysteine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 150.0 * +EC3.3.1.1 l-homocysteine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.135 * +EC3.3.1.1 s-adenosyl-dl-homocysteine corynebacterium efficiens//prokaryotes;bacteria;actinobacteria;corynebacterium//cef 0.0014 * +EC3.3.1.1 s-adenosyl-dl-homocysteine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.012 * +EC3.3.1.1 s-adenosyl-dl-homocysteine cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.00131 * +EC3.3.1.1 s-adenosyl-dl-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.3.1.1 s-adenosyl-dl-homocysteine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0012 * +EC3.3.1.1 s-adenosyl-dl-homocysteine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.00029 * +EC3.3.1.1 s-adenosyl-dl-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0108 * +EC3.3.1.1 s-adenosyl-l-homocysteine alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.014 * +EC3.3.1.1 s-adenosyl-l-homocysteine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.041 * +EC3.3.1.1 s-adenosyl-l-homocysteine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00075 * +EC3.3.1.1 s-adenosyl-l-homocysteine branchiostoma belcheri tsingtauense//*//* 0.0161 * +EC3.3.1.1 s-adenosyl-l-homocysteine cryphonectria parasitica//*//* 0.0156 * +EC3.3.1.1 s-adenosyl-l-homocysteine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.006 * +EC3.3.1.1 s-adenosyl-l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.3.1.1 s-adenosyl-l-homocysteine lupinus luteus//*//* 0.012 * +EC3.3.1.1 s-adenosyl-l-homocysteine mesocricetus auratus//*//* 0.001 * +EC3.3.1.1 s-adenosyl-l-homocysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00075 * +EC3.3.1.1 s-adenosyl-l-homocysteine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0185 * +EC3.3.1.1 s-adenosyl-l-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC3.3.1.1 s-adenosyl-l-homocysteine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 15.0 * +EC3.3.1.1 s-adenosyl-l-homocysteine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.018 * +EC3.3.1.2 s-adenosyl-l-methionine chloride corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 1.5 * +EC3.3.1.2 s-adenosyl-l-methionine iodide corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.0 * +EC3.3.1.2 s-adenosyl-l-methionine enterobacteria phage t3//*//* 0.2 * +EC3.3.2.1 (+/-)-3-[(1-carboxyethenyl)oxy]-2-hydroxy-6-cyclohexene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC3.3.2.1 (+/-)-3-[(1-carboxylatoethenyl)oxy]-cyclohepta-1,6-diene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.3.2.1 (+/-)-3-[(carboxyethenyl)oxy]-1-cyclohexene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.086 * +EC3.3.2.1 (+/-)-cis-3-[(carboxyethenyl)oxy]-4-cyclohexene-1-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.3.2.1 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.0 * +EC3.3.2.1 isochorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC3.3.2.1 isochorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.06 * +EC3.3.2.10 (10r)-hydroxy-(11s,12s)-epoxy-(5z,8z,14z)-eicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0108 * +EC3.3.2.10 (10r)-hydroxy-(11s,12s)-epoxy-(5z,8z,14z)-eicosatrienoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0147 * +EC3.3.2.10 (11s,12s)-epoxy-5,14-cis-7,9-trans-eicosatetraenoic acid cavia porcellus//*//* 0.018 * +EC3.3.2.10 (3-phenyl-oxiranyl)-acetic acid cyano-(6-methoxy-naphthalen-2-yl)-methyl ester gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0015 * +EC3.3.2.10 (5z,11z,14z)-8,9-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC3.3.2.10 (5z,8z,11z)-14,15-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC3.3.2.10 (5z,8z,14z)-11,12-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0006 * +EC3.3.2.10 (8r)-hydroxy-(11s,12s)-epoxy-(5z,9e,14z)-eicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC3.3.2.10 (8r)-hydroxy-(11s,12s)-epoxy-(5z,9e,14z)-eicosatrienoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0046 * +EC3.3.2.10 (8z,11z,14z)-5,6-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC3.3.2.10 (r)-p-nitrostyrene oxide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.6 * +EC3.3.2.10 (r)-styrene oxide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 3.47 * +EC3.3.2.10 (r,s)-p-nitrostyrene oxide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.0 * +EC3.3.2.10 (s)-p-nitrostyrene oxide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.7 * +EC3.3.2.10 (s)-styrene oxide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 7.85 * +EC3.3.2.10 1-myristoyl-glyceral-3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.3.2.10 14,15-epoxyeicosatrienoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.3.2.10 2,2-dimethylstyrene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.229 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.007 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0043 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0069 * +EC3.3.2.10 2,3-epoxy-1,3-diphenyl-propane solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0083 * +EC3.3.2.10 3-phenyl-cyano(6-methoxy-2-naphthalenyl)methyl ester 2-oxiraneacetic acid xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.01916 * +EC3.3.2.10 4-nitrophenyl (2r,3r)-2,3-epoxy-3-(4-nitrophenyl)propyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC3.3.2.10 4-nitrophenyl (2r,3r)-2,3-epoxy-3-phenylpropyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.068 * +EC3.3.2.10 4-nitrophenyl (2s,3s)-2,3-epoxy-3-(4-nitrophenyl)propyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.008 * +EC3.3.2.10 4-nitrophenyl (2s,3s)-2,3-epoxy-3-phenylpropyl carbonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.033 * +EC3.3.2.10 7,8-styrene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.143 * +EC3.3.2.10 attophos homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC3.3.2.10 cis-1,2-dimethylstyrene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC3.3.2.10 cis-2-methylstyrene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.3.2.10 cis-9,10-epoxystearate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.026 * +EC3.3.2.10 cis-stilbene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.027 * +EC3.3.2.10 epoxy fluor 7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01508 * +EC3.3.2.10 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.3.2.10 styrene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.36 * +EC3.3.2.10 styrene oxide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.4 * +EC3.3.2.10 threo-10-hydroxy-9-phosphonooxy-octadecanoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0209 * +EC3.3.2.10 trans-1,2-dimethylstyrene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.473 * +EC3.3.2.10 trans-1,3-diphenylpropene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.3.2.10 trans-diphenyl-propene oxide strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 0.035 * +EC3.3.2.10 trans-diphenylpropene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC3.3.2.10 trans-diphenylpropene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0078 * +EC3.3.2.10 trans-diphenylpropene oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.3.2.10 trans-stilbene oxide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0052 * +EC3.3.2.10 trans-stilbene oxide brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.011 * +EC3.3.2.10 trans-stilbene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC3.3.2.10 trans-stilbene oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC3.3.2.11 5,6-epoxy-5alpha-cholestan-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00091 * +EC3.3.2.11 5,6alpha-epoxy-5alpha-cholestan-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0037 * +EC3.3.2.11 5,6beta-epoxy-5beta-cholestan-3beta-ol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0044 * +EC3.3.2.12 oxepin-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC3.3.2.13 chorismate streptomyces hygroscopicus subsp. ascomyceticus//*//* 0.15 * +EC3.3.2.2 1-(1-alkenyl)-sn-glycero-3-phosphocholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC3.3.2.2 1-(1-alkenyl)-sn-glycero-3-phosphoethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.166 * +EC3.3.2.2 choline lysoplasmalogen legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.045 * +EC3.3.2.2 ethanolamine lysoplasmalogen legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.045 * +EC3.3.2.2 lysoplasmenylcholine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC3.3.2.2 lysoplasmenylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC3.3.2.4 d,l-trans-2,3-epoxysuccinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.885 * +EC3.3.2.4 l-trans-2,3-epoxysuccinate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.15 * +EC3.3.2.6 alanine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.3.2.6 alanine-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.68 * +EC3.3.2.6 arg-ser-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.3.2.6 arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.3.2.6 l-alanine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.78 * +EC3.3.2.6 l-alanine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.8 * +EC3.3.2.6 l-alanine-4-nitroanilide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.0026 * +EC3.3.2.6 l-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.3.2.6 l-arginine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.366 * +EC3.3.2.6 l-arginine-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.301 * +EC3.3.2.6 l-isoleucine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.566 * +EC3.3.2.6 l-leucine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.745 * +EC3.3.2.6 l-methionine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.7 * +EC3.3.2.6 l-valine 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.384 * +EC3.3.2.6 leucine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.3.2.6 leucine-4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC3.3.2.6 leukotriene a4 cavia porcellus//*//* 0.017 * +EC3.3.2.6 leukotriene a4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.3.2.6 leukotriene a4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC3.3.2.6 leukotriene a4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.3.2.6 leukotriene a4 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC3.3.2.6 leukotriene a4 xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.02 * +EC3.3.2.6 lysine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.3.2.6 proline-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.3.2.9 (3-(4-(2-oxa-6-azaspiro[3.3]heptan-6-ylmethyl)phenoxy)azetidin-1-yl)(5-(4-ethoxyphenyl)-1,3,4-oxadiazol-2-yl)methanone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.542 * +EC3.3.2.9 (5z,11z,14z)-8,9-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC3.3.2.9 (5z,8z,11z)-14,15-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00025 * +EC3.3.2.9 (5z,8z,14z)-11,12-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC3.3.2.9 (8z,11z,14z)-5,6-epoxyeicosatrienoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC3.3.2.9 1,10-phenanthroline 5,6-oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.59 * +EC3.3.2.9 2-arachidonoylglycerol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.3.2.9 4-methyl-2-oxo-2h-chromen-7-yl oxiran-2-ylmethyl carbonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.3.2.9 4-methyl-2-oxo-2h-chromen-7-yl oxiran-2-ylmethyl carbonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC3.3.2.9 7-glycidoxycoumarin canis lupus familiaris//*//* 0.17 * +EC3.3.2.9 cis-stilbene oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.3.2.9 cis-stilbene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC3.3.2.9 cis-stilbene oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0024 * +EC3.3.2.9 cyano(6-methoxy-naphthalen-2-yl)methyl glycidyl carbonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.3.2.9 cyano(6-methoxy-naphthalen-2-yl)methyl glycidyl carbonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC3.3.2.9 juvenile hormone i manduca sexta//*//* 0.00061 * +EC3.3.2.9 juvenile hormone ii manduca sexta//*//* 0.00055 * +EC3.3.2.9 juvenile hormone iii heliothis virescens//*//* 0.0032 * +EC3.3.2.9 juvenile hormone iii homalodisca vitripennis//*//* 0.0138 * +EC3.3.2.9 juvenile hormone iii manduca sexta//*//* 0.00028 * +EC3.3.2.9 phenanthrene 9,10-oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0055 * +EC3.3.2.9 styrene 7,8-oxide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.98 * +EC3.3.2.9 styrene oxide cavia porcellus//*//* 0.53 * +EC3.3.2.9 styrene oxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.67 * +EC3.3.2.9 styrene oxide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.53 * +EC3.3.2.9 trans-beta-ethylstyrene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.35 * +EC3.3.2.9 trans-stilbene oxide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC3.3.2.B1 (5s,6s)-6-amino-5-[(1-carboxyethenyl)oxy]cyclohexa-1,3-diene-1-carboxylate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.068 * +EC3.3.2.B1 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.983 * +EC3.3.2.B1 isochorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.004 * +EC3.4.11.1 4-[(e)-2-[4-cyano-5-(dicyanomethylidene)-2,2-dimethyl-2,5-dihydrofuran-3-yl]ethenyl]phenyl l-leucinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00887 * +EC3.4.11.1 ala-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0529 * +EC3.4.11.1 ala-4-nitroanilide cannabis sativa//*//* 8.78 * +EC3.4.11.1 ala-4-nitroanilide morimus funereus//*//* 0.96 * +EC3.4.11.1 ala-ala-ala-ala phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.3 * +EC3.4.11.1 alaninehydrazide acinetobacter calcoaceticus//*//* 6.9 * +EC3.4.11.1 arg-4-nitroanilide schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 3.7 * +EC3.4.11.1 asp-gln salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.8 * +EC3.4.11.1 asp-his salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.6 * +EC3.4.11.1 asp-ile-gly-gly salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 3.0 * +EC3.4.11.1 asp-leu-gly salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.5 * +EC3.4.11.1 asp-leu-lys salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 6.0 * +EC3.4.11.1 asp-leu salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.4 * +EC3.4.11.1 asp-phe salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.3 * +EC3.4.11.1 asp-tyr salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.3 * +EC3.4.11.1 cys-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.42 * +EC3.4.11.1 glu-leu salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.9 * +EC3.4.11.1 gly-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.11.1 glycine-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.39 * +EC3.4.11.1 harg-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.82 * +EC3.4.11.1 l-ala-4-nitroanilide clonorchis sinensis//*//* 0.185 * +EC3.4.11.1 l-alanine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.2396 * +EC3.4.11.1 l-alanine-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.054 * +EC3.4.11.1 l-alanine-4-methylcoumaryl-7-amide haemaphysalis longicornis//*//* 1.16 * +EC3.4.11.1 l-alanyl-4-nitroanilide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.36 * +EC3.4.11.1 l-arg-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.79 * +EC3.4.11.1 l-arginine-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.0084 * +EC3.4.11.1 l-arginine-4-methylcoumaryl-7-amide haemaphysalis longicornis//*//* 0.19 * +EC3.4.11.1 l-ile-4-nitroanilide clonorchis sinensis//*//* 0.261 * +EC3.4.11.1 l-leu methyl ester vibrio proteolyticus//*//* 8.5 * +EC3.4.11.1 l-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC3.4.11.1 l-leu-2-naphthylamide vibrio proteolyticus//*//* 0.25 * +EC3.4.11.1 l-leu-4-nitroanilide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC3.4.11.1 l-leu-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC3.4.11.1 l-leu-4-nitroanilide clonorchis sinensis//*//* 0.035 * +EC3.4.11.1 l-leu-4-nitroanilide desulfurococcus kamchatkensis//*//* 1.2 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin clonorchis sinensis//*//* 0.0182 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.38 * +EC3.4.11.1 l-leu-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC3.4.11.1 l-leu-benzyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.56 * +EC3.4.11.1 l-leu-gly solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 1.8 * +EC3.4.11.1 l-leu-hydrazide acinetobacter calcoaceticus//*//* 342.0 * +EC3.4.11.1 l-leu-hydrazide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.5 * +EC3.4.11.1 l-leu-l-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.51 * +EC3.4.11.1 l-leu-l-val vibrio proteolyticus//*//* 0.51 * +EC3.4.11.1 l-leu-phenylazophenylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide babesia gibsoni//*//* 0.109 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.102 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.015 * +EC3.4.11.1 l-leucine-4-methylcoumaryl-7-amide haemaphysalis longicornis//*//* 0.19 * +EC3.4.11.1 l-leucine-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.244 * +EC3.4.11.1 l-leucine-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.4.11.1 l-leucine-p-naphthylamide solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.5 * +EC3.4.11.1 l-leucyl-4-nitroanilide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.00925 * +EC3.4.11.1 l-leucyl-7-amido-4-methylcoumarin pagrus major//*//* 0.00155 * +EC3.4.11.1 l-leucylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.2 * +EC3.4.11.1 l-lys-4-nitroanilide clonorchis sinensis//*//* 0.094 * +EC3.4.11.1 l-lysine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.3641 * +EC3.4.11.1 l-lysine-4-methylcoumaryl-7-amide haemaphysalis longicornis//*//* 0.81 * +EC3.4.11.1 l-lysyl-4-nitroanilide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.099 * +EC3.4.11.1 l-met-4-nitroanilide clonorchis sinensis//*//* 0.053 * +EC3.4.11.1 l-methionine-4-methyl-coumaryl-7-amide haemaphysalis longicornis//*//* 0.12 * +EC3.4.11.1 l-methionine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.1092 * +EC3.4.11.1 l-methionyl-4-nitroanilide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.083 * +EC3.4.11.1 l-phe-4-nitroanilide clonorchis sinensis//*//* 0.0842 * +EC3.4.11.1 l-phenylalanine-4-methyl-coumaryl-7-amide haemaphysalis longicornis//*//* 0.3 * +EC3.4.11.1 l-phenylalanine-4-methylcoumaryl-7-amide cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.245 * +EC3.4.11.1 l-phenylalanine-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.782 * +EC3.4.11.1 l-pro-4-nitroanilide clonorchis sinensis//*//* 0.216 * +EC3.4.11.1 l-proline-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.025 * +EC3.4.11.1 l-thr-4-nitroanilide clonorchis sinensis//*//* 0.198 * +EC3.4.11.1 l-tyrosine-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.055 * +EC3.4.11.1 l-val-4-nitroanilide clonorchis sinensis//*//* 0.372 * +EC3.4.11.1 l-valine-4-methylcoumaryl-7-amide eisenia fetida//*//* 0.019 * +EC3.4.11.1 leu-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.01212 * +EC3.4.11.1 leu-4-nitroanilide cannabis sativa//*//* 0.248 * +EC3.4.11.1 leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28 * +EC3.4.11.1 leu-4-nitroanilide morimus funereus//*//* 0.22 * +EC3.4.11.1 leu-4-nitroanilide schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 4.5 * +EC3.4.11.1 leu-4-nitroanilide setaria cervi//*//* 8.8 * +EC3.4.11.1 leu-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.4.11.1 leu-7-amino-4-trilfluoromethylcoumarin schistosoma mansoni//eukaryotes;animals;flatworms//smm 35.8 * +EC3.4.11.1 leu-gly-gly phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.7 * +EC3.4.11.1 leu-gly acinetobacter calcoaceticus//*//* 7.2 * +EC3.4.11.1 leu-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC3.4.11.1 leu-gly lactobacillus acidophilus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lac 7.2 * +EC3.4.11.1 leu-gly phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 1.6 * +EC3.4.11.1 leu-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC3.4.11.1 leu-gly vibrio proteolyticus//*//* 7.2 * +EC3.4.11.1 leu-leu salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 4.0 * +EC3.4.11.1 leu-p-nitroanilide gadus morhua//*//* 0.22 * +EC3.4.11.1 leu-p-nitroanilide geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.23 * +EC3.4.11.1 leu-p-nitroanilide hippoglossus hippoglossus//*//* 0.17 * +EC3.4.11.1 leu-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.06 * +EC3.4.11.1 leu-tyr salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.0 * +EC3.4.11.1 leucinamide acinetobacter calcoaceticus//*//* 17.0 * +EC3.4.11.1 leucinamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 17.0 * +EC3.4.11.1 leucinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.02 * +EC3.4.11.1 leucinamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.02 * +EC3.4.11.1 leucinamide vibrio proteolyticus//*//* 4.02 * +EC3.4.11.1 leucine-7-amido-4-methylcoumarin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.01 * +EC3.4.11.1 leucine-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC3.4.11.1 leucine-p-nitroanilide gonyaulax polyedra//*//* 0.14 * +EC3.4.11.1 lys-4-nitroanilide morimus funereus//*//* 0.59 * +EC3.4.11.1 lys-4-nitroanilide schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 3.6 * +EC3.4.11.1 met-4-nitroanilide morimus funereus//*//* 0.17 * +EC3.4.11.1 met-4-nitroanilide schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 4.4 * +EC3.4.11.1 met-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC3.4.11.1 n-(6-methoxy-2-methylpyridin-3-yl),(s)-2-amino-4-methylpentanamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.065 * +EC3.4.11.1 n-(6-methoxypyridin-3-yl)-(s)-2-amino-4-methylpentanamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.065 * +EC3.4.11.1 phe-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00792 * +EC3.4.11.1 phg-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.33 * +EC3.4.11.1 pro-4-methylcoumaryl-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.2349 * +EC3.4.11.1 pro-4-nitroanilide cannabis sativa//*//* 0.194 * +EC3.4.11.1 ser-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC3.4.11.10 arg-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 4.6 * +EC3.4.11.10 cys-gly treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.48 * +EC3.4.11.10 gly-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.4.11.10 ile-amide vibrio proteolyticus//*//* 1.0 * +EC3.4.11.10 ile-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.03 * +EC3.4.11.10 l-ala-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.0 * +EC3.4.11.10 l-ala-l-ala-l-phe-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC3.4.11.10 l-arg-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.6 * +EC3.4.11.10 l-arg-p-nitroanilide streptomyces septatus//*//* 1.0 * +EC3.4.11.10 l-cystinyl-p-nitroanilide streptomyces septatus//*//* 0.11 * +EC3.4.11.10 l-leu-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.6 * +EC3.4.11.10 l-leu-4-nitroanilide brevibacterium linens//prokaryotes;bacteria;actinobacteria;brevibacterium//bly 0.25 * +EC3.4.11.10 l-leu-4-nitroanilide geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.95 * +EC3.4.11.10 l-leu-4-nitroanilide geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 0.658 * +EC3.4.11.10 l-leu-4-nitroanilide vibrio proteolyticus//*//* 0.0106 * +EC3.4.11.10 l-leu-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.4.11.10 l-leu-gly-gly geobacillus thermoleovorans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gte 25.0 * +EC3.4.11.10 l-leu-p-nitroanilide streptomyces septatus//*//* 0.57 * +EC3.4.11.10 l-leucine 4-nitroanilide vibrio proteolyticus//*//* 0.01 * +EC3.4.11.10 l-leucine anilide vibrio proteolyticus//*//* 45.0 * +EC3.4.11.10 l-leucine ethyl ester vibrio proteolyticus//*//* 0.7 * +EC3.4.11.10 l-leucine-4-anisidide vibrio proteolyticus//*//* 32.0 * +EC3.4.11.10 l-lys-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.85 * +EC3.4.11.10 l-lys-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.4.11.10 l-met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.4.11.10 l-val-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 19.0 * +EC3.4.11.10 leu-ala vibrio proteolyticus//*//* 1.0 * +EC3.4.11.10 leu-amide vibrio proteolyticus//*//* 5.1 * +EC3.4.11.10 leu-arg vibrio proteolyticus//*//* 0.39 * +EC3.4.11.10 leu-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.1 * +EC3.4.11.10 leu-beta-naphthylamide vibrio proteolyticus//*//* 0.43 * +EC3.4.11.10 leu-ile vibrio proteolyticus//*//* 0.38 * +EC3.4.11.10 leu-leu vibrio proteolyticus//*//* 0.18 * +EC3.4.11.10 leu-met vibrio proteolyticus//*//* 0.35 * +EC3.4.11.10 leu-methyl ester vibrio proteolyticus//*//* 8.5 * +EC3.4.11.10 leu-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.05 * +EC3.4.11.10 leu-phe vibrio proteolyticus//*//* 0.86 * +EC3.4.11.10 leu-trp vibrio proteolyticus//*//* 0.96 * +EC3.4.11.10 leu-tyr vibrio proteolyticus//*//* 1.5 * +EC3.4.11.10 leu-val vibrio proteolyticus//*//* 0.64 * +EC3.4.11.10 leucine-4-nitroaniline bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.97 * +EC3.4.11.10 met-amide vibrio proteolyticus//*//* 14.6 * +EC3.4.11.10 met-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.96 * +EC3.4.11.10 met-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 1.1 * +EC3.4.11.10 norleucinamide vibrio proteolyticus//*//* 6.3 * +EC3.4.11.10 norvalinamide vibrio proteolyticus//*//* 10.8 * +EC3.4.11.10 phe-amide vibrio proteolyticus//*//* 1.8 * +EC3.4.11.10 phe-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.52 * +EC3.4.11.10 phe-methyl ester vibrio proteolyticus//*//* 3.9 * +EC3.4.11.10 phe-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 2.1 * +EC3.4.11.10 recombinant human methionine-interferon alpha-2b vibrio proteolyticus//*//* 0.02726 * +EC3.4.11.10 thionoleucine-4-anisidide vibrio proteolyticus//*//* 4.0 * +EC3.4.11.10 thionoleucine-s-anilide vibrio proteolyticus//*//* 4.0 * +EC3.4.11.10 val-amide vibrio proteolyticus//*//* 2.4 * +EC3.4.11.10 val-beta-naphthylamide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.19 * +EC3.4.11.10 val-phe aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.07 * +EC3.4.11.13 ala-gly-gly hathewaya histolytica//*//* 80.0 * +EC3.4.11.13 l-leucine 4-nitroanilide hathewaya histolytica//*//* 0.5 * +EC3.4.11.13 leu-gly-gly hathewaya histolytica//*//* 6.45 * +EC3.4.11.13 phe-gly-gly hathewaya histolytica//*//* 8.4 * +EC3.4.11.13 pro-gly-gly hathewaya histolytica//*//* 40.0 * +EC3.4.11.13 pro-gly-pro-pro hathewaya histolytica//*//* 20.0 * +EC3.4.11.13 pro-gly-pro hathewaya histolytica//*//* 20.0 * +EC3.4.11.13 val-gly-gly hathewaya histolytica//*//* 18.5 * +EC3.4.11.14 ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.123 * +EC3.4.11.14 ala-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.235 * +EC3.4.11.14 ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.11.14 arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.4.11.14 arg-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.4.11.14 glycine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.24 * +EC3.4.11.14 ile-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.11.14 l-alanine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.035 * +EC3.4.11.14 l-arginine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0013 * +EC3.4.11.14 l-leucine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0019 * +EC3.4.11.14 l-lysine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0052 * +EC3.4.11.14 l-methionine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.01 * +EC3.4.11.14 l-proline-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0066 * +EC3.4.11.14 l-tyrosine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.045 * +EC3.4.11.14 l-valine-4-methylcoumaryl-7-amide danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.0033 * +EC3.4.11.14 leu-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC3.4.11.14 leu-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC3.4.11.14 leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.11.14 lys-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.11.14 lys-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.115 * +EC3.4.11.14 lys-ala-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC3.4.11.14 lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.4.11.14 met-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.11.14 met-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.115 * +EC3.4.11.14 met-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00095 * +EC3.4.11.14 met-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.11.14 phe-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.142 * +EC3.4.11.14 phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC3.4.11.14 pro-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC3.4.11.14 pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.11.14 pro-phe-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.4.11.14 tyr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.4.11.14 val-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.4.11.14 val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.11.15 l-lysine 4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.6 * +EC3.4.11.15 l-lysyl-4-nitroanilide yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.00086 * +EC3.4.11.15 lys-gly-gly pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.8 * +EC3.4.11.16 ala-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.625 * +EC3.4.11.16 alpha-asp-phe-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.48 * +EC3.4.11.16 alpha-asp-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.11 * +EC3.4.11.16 aspartame sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.96 * +EC3.4.11.16 glu-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.568 * +EC3.4.11.16 gly-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.757 * +EC3.4.11.16 leu-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.488 * +EC3.4.11.16 pro-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.7 * +EC3.4.11.17 trp-amide cutaneotrichosporon cutaneum//*//* 5.6 * +EC3.4.11.18 l-met 4-nitroanilide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.154 * +EC3.4.11.18 l-met 4-nitroanilide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.513 * +EC3.4.11.18 l-met-gly-l-met-l-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.4.11.18 l-met-l-ala-l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC3.4.11.18 l-met-l-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.74 * +EC3.4.11.18 l-met-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.4.11.18 l-met-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.59 * +EC3.4.11.18 l-met-psi[c(o)s]gly-l-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.4.11.18 l-met-psi[c(o)s]gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.88 * +EC3.4.11.18 l-met-psi[c(o)s]gly-l-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.24 * +EC3.4.11.18 l-methionine 4-nitroanilide enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.000247 * +EC3.4.11.18 met-4-methylcoumaryl-7-amide acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.111 * +EC3.4.11.18 met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.4.11.18 met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.24 * +EC3.4.11.18 met-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.4.11.18 met-ala-his-thr-leu-pro-glu-glu-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.625 * +EC3.4.11.18 met-ala-met-lys-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.4.11.18 met-ala-ser-trp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.139 * +EC3.4.11.18 met-ala-ser geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3.0 * +EC3.4.11.18 met-ala-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.11.18 met-ala-ser mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.018 * +EC3.4.11.18 met-ala-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.67 * +EC3.4.11.18 met-gly-met-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2144 * +EC3.4.11.18 met-gly-met-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.4.11.18 met-gly-met-met mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.058 * +EC3.4.11.18 met-gly-met-met pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.1 * +EC3.4.11.18 met-gly-met-met saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.56 * +EC3.4.11.18 met-peptide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.3273 * +EC3.4.11.18 met-pro-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC3.4.11.18 met-pro-4-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.75 * +EC3.4.11.18 met-pro-his-thr-leu-pro-glu-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC3.4.11.18 met-pro-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC3.4.11.18 met-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.576 * +EC3.4.11.18 met-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.11.18 met-s-gly-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.86 * +EC3.4.11.18 met-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.85 * +EC3.4.11.18 met-thr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.11.18 met-val-his-thr-leu-pro-glu-glu-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.222 * +EC3.4.11.18 met-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.11.18 nle-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.11.19 d-2-aminobutyric acid amide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 18.3 * +EC3.4.11.19 d-ala 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.33 * +EC3.4.11.19 d-ala benzylamide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.51 * +EC3.4.11.19 d-ala-3-aminopentane amide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 2.27 * +EC3.4.11.19 d-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.46 * +EC3.4.11.19 d-ala-d-ala-d-ala ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.57 * +EC3.4.11.19 d-ala-d-ala ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 10.2 * +EC3.4.11.19 d-ala-gly-gly ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.37 * +EC3.4.11.19 d-ala-gly ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.98 * +EC3.4.11.19 d-ala-l-ala-l-ala ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.65 * +EC3.4.11.19 d-ala-l-ala ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 1.03 * +EC3.4.11.19 d-ala-n-butylamide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.73 * +EC3.4.11.19 d-ala4 ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.32 * +EC3.4.11.19 d-alanine amide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.65 * +EC3.4.11.19 d-alanine-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.51 * +EC3.4.11.19 d-serine amide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 27.0 * +EC3.4.11.19 d-threonine amide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 100.0 * +EC3.4.11.19 gly 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.25 * +EC3.4.11.19 glycine amide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 22.3 * +EC3.4.11.19 l-ala 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 6.7 * +EC3.4.11.2 3-oh-l-pro-2-nai-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.057 * +EC3.4.11.2 4-br-l-phe-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.25 * +EC3.4.11.2 4-cl-l-phe-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.149 * +EC3.4.11.2 6-obzl-l-nle-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.059 * +EC3.4.11.2 ala-2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.4.11.2 ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC3.4.11.2 ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC3.4.11.2 ala-4-nitroanilide brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.35 * +EC3.4.11.2 ala-4-nitroanilide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 1.4 * +EC3.4.11.2 ala-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.4.11.2 ala-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.86 * +EC3.4.11.2 ala-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.11.2 amino acyl-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.11.2 arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC3.4.11.2 arg-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.4.11.2 arg-4-nitroanilide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.09 * +EC3.4.11.2 asn-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.785 * +EC3.4.11.2 cys-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.11.2 dl-ala-2-naphthylamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.322 * +EC3.4.11.2 gln-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.117 * +EC3.4.11.2 glu-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.33 * +EC3.4.11.2 gly-2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.74 * +EC3.4.11.2 gly-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.4.11.2 gly-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 1.72 * +EC3.4.11.2 gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.25 * +EC3.4.11.2 gly-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.31 * +EC3.4.11.2 gly-7-amido-4-methylcoumarin trypanosoma congolense//*//* 0.0579 * +EC3.4.11.2 gly-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.74 * +EC3.4.11.2 his-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.367 * +EC3.4.11.2 ile-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.092 * +EC3.4.11.2 l-2-amino-3-(2-benzothiazolyl)butyric acid-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.161 * +EC3.4.11.2 l-2-nai-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.05 * +EC3.4.11.2 l-abu(bth)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.03 * +EC3.4.11.2 l-ala-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.197 * +EC3.4.11.2 l-ala-2-naphthylamide novosphingobium capsulatum//*//* 6.7 * +EC3.4.11.2 l-ala-4-nitroanilide bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.13 * +EC3.4.11.2 l-ala-4-nitroanilide cavia porcellus//*//* 0.6 * +EC3.4.11.2 l-ala-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.45 * +EC3.4.11.2 l-ala-4-nitroanilide mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 0.032 * +EC3.4.11.2 l-ala-4-nitroanilide novosphingobium capsulatum//*//* 14.0 * +EC3.4.11.2 l-ala-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.174 * +EC3.4.11.2 l-ala-7-amido-4-methylcoumarin mizuhopecten yessoensis//eukaryotes;animals;mollusks//myi 0.011 * +EC3.4.11.2 l-ala-7-amido-4-methylcoumarin trypanosoma congolense//*//* 0.098 * +EC3.4.11.2 l-ala-d-iso-gln-meso-dap(omeganh2)-d-ala-d-ala cavia porcellus//*//* 18.0 * +EC3.4.11.2 l-ala-l-ala-l-phe-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.445 * +EC3.4.11.2 l-allyl-gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.059 * +EC3.4.11.2 l-alpha-aminobutyryl-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.4.11.2 l-arg(no2)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.06 * +EC3.4.11.2 l-arg-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.099 * +EC3.4.11.2 l-arg-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.064 * +EC3.4.11.2 l-asp(bzl)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.117 * +EC3.4.11.2 l-cha-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.121 * +EC3.4.11.2 l-cystinyl-bis-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.8 * +EC3.4.11.2 l-gln-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.25 * +EC3.4.11.2 l-glu(bzl)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.05 * +EC3.4.11.2 l-harg-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.027 * +EC3.4.11.2 l-hcha-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.041 * +EC3.4.11.2 l-hleu-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.056 * +EC3.4.11.2 l-hphe-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.1 * +EC3.4.11.2 l-hser(bzl)-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.146 * +EC3.4.11.2 l-hser-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.079 * +EC3.4.11.2 l-htyr-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.047 * +EC3.4.11.2 l-igl-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.048 * +EC3.4.11.2 l-leu-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 9.23 * +EC3.4.11.2 l-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.11.2 l-leu-4-nitroanilide spodoptera litura//*//* 1.0 * +EC3.4.11.2 l-leu-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC3.4.11.2 l-leu-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.085 * +EC3.4.11.2 l-leu-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC3.4.11.2 l-leu-7-amido-4-methylcoumarin trypanosoma congolense//*//* 0.0329 * +EC3.4.11.2 l-lys-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.092 * +EC3.4.11.2 l-lys-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.382 * +EC3.4.11.2 l-lys-4-nitroanilide streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.07 * +EC3.4.11.2 l-lys-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.088 * +EC3.4.11.2 l-met-4-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.31 * +EC3.4.11.2 l-met-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.08 * +EC3.4.11.2 l-met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC3.4.11.2 l-met-7-amido-4-methylcoumarin trypanosoma congolense//*//* 0.086 * +EC3.4.11.2 l-neopentyl-gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.061 * +EC3.4.11.2 l-nle-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.052 * +EC3.4.11.2 l-nva-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.028 * +EC3.4.11.2 l-phe-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.25 * +EC3.4.11.2 l-propargyl-gly-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.121 * +EC3.4.11.2 l-ser-2-naphthylamide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 7.83 * +EC3.4.11.2 l-tyr-7-amido-4-carbamoylmethylcoumarin neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.046 * +EC3.4.11.2 leu-2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.4.11.2 leu-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.11.2 leu-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.4.11.2 leu-4-methylcoumarin 7-amide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.025 * +EC3.4.11.2 leu-4-nitroanilide bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.222 * +EC3.4.11.2 leu-4-nitroanilide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.17 * +EC3.4.11.2 leu-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.4.11.2 leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.647 * +EC3.4.11.2 leu-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC3.4.11.2 leu5-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC3.4.11.2 lys-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.11.2 lys-4-methylcoumarin 7-amide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.06 * +EC3.4.11.2 lys-4-nitroanilide brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 0.18 * +EC3.4.11.2 lys-4-nitroanilide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.2 * +EC3.4.11.2 met-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.11.2 met5-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC3.4.11.2 phe-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.202 * +EC3.4.11.2 phe-4-nitroanilide streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.11 * +EC3.4.11.2 phe-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.4.11.2 ser-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC3.4.11.2 thr-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.617 * +EC3.4.11.2 tyr-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.329 * +EC3.4.11.2 val-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.11.20 4-cyclohexyl-l-butyric acid-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0236 * +EC3.4.11.20 ala-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0598 * +EC3.4.11.20 arg-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.4 * +EC3.4.11.20 his-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.2 * +EC3.4.11.20 homoargininyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0277 * +EC3.4.11.20 homophenylalanyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0262 * +EC3.4.11.20 l-ala 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.304 * +EC3.4.11.20 l-arg 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.27 * +EC3.4.11.20 l-arginyl-2-naphthylamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.086 * +EC3.4.11.20 l-lys 4-nitroanilide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.248 * +EC3.4.11.20 l-methionyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0314 * +EC3.4.11.20 leu 4-methylcoumarin 7-amide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.01 * +EC3.4.11.20 leu-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.64 * +EC3.4.11.20 leu-gly-gly plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.7 * +EC3.4.11.20 leu-gly-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.015 * +EC3.4.11.20 leu-gly-nh2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.42 * +EC3.4.11.20 leu-gly-pro plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.2 * +EC3.4.11.20 leu-gly plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.95 * +EC3.4.11.20 leu-nh2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 4.9 * +EC3.4.11.20 leu-pro-leu-arg-phenh2 gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.58 * +EC3.4.11.20 lys-ala plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.43 * +EC3.4.11.20 norleucyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0165 * +EC3.4.11.20 norvalinyl-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0354 * +EC3.4.11.20 styryl-ala-7-amido-4-methylcoumarin eimeria tenella//*//* 0.0302 * +EC3.4.11.21 angiotensin i saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.064 * +EC3.4.11.21 angiotensin ii oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC3.4.11.21 asp-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.327 * +EC3.4.11.21 asp-ala-pro-naphthylamide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC3.4.11.21 asp-ala-pro-sulfamethoxazole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.11.21 asp-ala-pro-sulfamethoxazole oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC3.4.11.21 asp-xaa-xaa-xaa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.05 * +EC3.4.11.21 asp-xaa salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.94 * +EC3.4.11.21 glu 2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC3.4.11.21 glu-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.135 * +EC3.4.11.21 glu-ala-pro-naphthylamide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 8.4 * +EC3.4.11.22 ala beta-naphthylamide novosphingobium capsulatum//*//* 6.7 * +EC3.4.11.22 ala-4-nitroanilide novosphingobium capsulatum//*//* 14.0 * +EC3.4.11.22 ala-gly-gly ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.0 * +EC3.4.11.22 ala-gly-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 12.0 * +EC3.4.11.22 ala-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 40.0 * +EC3.4.11.22 ala-thr-ala methyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.7 * +EC3.4.11.22 ala-thr-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.2 * +EC3.4.11.22 ala-thr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.0 * +EC3.4.11.22 aywanatrsg-d-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.253 * +EC3.4.11.22 aywanatrsga sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC3.4.11.22 cystinyl 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0225 * +EC3.4.11.22 efapgnypad sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.325 * +EC3.4.11.22 efapgnypak sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC3.4.11.22 efapgnypal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.148 * +EC3.4.11.22 l-ala-ala-pro-leu-4-nitroanilide colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 0.043 * +EC3.4.11.22 l-ala-p-nitroanilide parietaria judaica//*//* 0.4 * +EC3.4.11.22 l-leu-4-nitroanilide grifola frondosa//*//* 0.35 * +EC3.4.11.22 l-leucin-anilide vibrio proteolyticus//*//* 45.0 * +EC3.4.11.22 l-leucine 4-nitroanilide vibrio proteolyticus//*//* 4.6 * +EC3.4.11.22 l-leucine-4-anisidide vibrio proteolyticus//*//* 32.0 * +EC3.4.11.22 l-leucine-anilide vibrio proteolyticus//*//* 61.0 * +EC3.4.11.22 l-phe-4-nitroanilide grifola frondosa//*//* 0.31 * +EC3.4.11.22 l-val-4-nitroanilide grifola frondosa//*//* 0.09 * +EC3.4.11.22 leu-gly-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.0 * +EC3.4.11.22 qlesiinfeka sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.124 * +EC3.4.11.22 qlesiinfekd sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC3.4.11.22 qlesiinfekk sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.4.11.22 qlesiinfekl-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.138 * +EC3.4.11.22 qlesiinfekl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.124 * +EC3.4.11.22 qlesiinfekr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.91 * +EC3.4.11.22 qlesiinfeky sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.111 * +EC3.4.11.22 thionoleucine-4-anisidide vibrio proteolyticus//*//* 4.0 * +EC3.4.11.22 thionoleucine-s-anilide vibrio proteolyticus//*//* 4.0 * +EC3.4.11.22 wevyekcalk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.328 * +EC3.4.11.22 wrvyekcalk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC3.4.11.23 asp-leu-gly salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.5 * +EC3.4.11.23 glu-leu salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.9 * +EC3.4.11.23 leu-leu salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 4.0 * +EC3.4.11.23 o-benzoyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.1 * +EC3.4.11.23 o-butyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 38.3 * +EC3.4.11.23 o-ethyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.7 * +EC3.4.11.23 o-isopropyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.4 * +EC3.4.11.23 o-methyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.2 * +EC3.4.11.23 o-propyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.1 * +EC3.4.11.23 o-tert-butyl-dl-serinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 43.3 * +EC3.4.11.24 4-nitrophenyl phenylphosphonate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.4 * +EC3.4.11.24 ala-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 7.8 * +EC3.4.11.24 arg-4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC3.4.11.24 bis(4-nitrophenyl) phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.8 * +EC3.4.11.24 bis(4-nitrophenyl) phosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 4.5 * +EC3.4.11.24 bis(p-nitrophenyl)phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.4 * +EC3.4.11.24 gly-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.4 * +EC3.4.11.24 l-ala-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 4.08 * +EC3.4.11.24 l-alanine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.84 * +EC3.4.11.24 l-leu-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.58 * +EC3.4.11.24 l-leucine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.55 * +EC3.4.11.24 l-val-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.53 * +EC3.4.11.24 l-valine-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.79 * +EC3.4.11.24 leu-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.00229 * +EC3.4.11.24 lys-4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC3.4.11.24 lys-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 5.0 * +EC3.4.11.24 met-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.58 * +EC3.4.11.24 val-4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.18 * +EC3.4.11.25 beta-ala-p-nitroanilide sphingosinicella microcystinivorans//*//* 4.4 * +EC3.4.11.25 beta-ala-p-nitroanilide sphingosinicella xenopeptidilytica//*//* 8.1 * +EC3.4.11.25 beta-homoala-beta-homoleu sphingosinicella microcystinivorans//*//* 41.0 * +EC3.4.11.25 beta-homoala-beta-homoleu sphingosinicella xenopeptidilytica//*//* 20.0 * +EC3.4.11.25 beta-homoala-p-nitroanilide sphingosinicella microcystinivorans//*//* 0.76 * +EC3.4.11.25 beta-homoala-p-nitroanilide sphingosinicella xenopeptidilytica//*//* 0.7 * +EC3.4.11.25 beta-homogly 4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0073 * +EC3.4.11.25 beta-homophe-p-nitroanilide sphingosinicella microcystinivorans//*//* 1.45 * +EC3.4.11.25 beta-homophe-p-nitroanilide sphingosinicella xenopeptidilytica//*//* 1.23 * +EC3.4.11.25 beta-homoval-beta-homoala-beta-homoleu sphingosinicella microcystinivorans//*//* 39.0 * +EC3.4.11.25 beta-homoval-beta-homoala-beta-homoleu sphingosinicella xenopeptidilytica//*//* 9.0 * +EC3.4.11.3 arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.529 * +EC3.4.11.3 arginine-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.11.3 cys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.331 * +EC3.4.11.3 l-ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.11.3 l-alanine-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.43 * +EC3.4.11.3 l-arg-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.11.3 l-cysteine-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0225 * +EC3.4.11.3 l-leu-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0632 * +EC3.4.11.3 l-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.11.3 l-leucine-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.4.11.3 l-leucine-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC3.4.11.3 l-lysine-p-nitroanilide streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 3.0 * +EC3.4.11.3 l-lysine-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.43 * +EC3.4.11.3 l-methionine-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.83 * +EC3.4.11.3 l-trp-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC3.4.11.3 leu-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0225 * +EC3.4.11.3 leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.488 * +EC3.4.11.3 leucyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.11.3 lysine-vasopressin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0107 * +EC3.4.11.3 oxytocin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.4.11.3 phenylalanine-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.11.3 s-benzyl-cys-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0436 * +EC3.4.11.3 s-benzyl-cysteine-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.4.11.3 s-benzyl-l-cysteine-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC3.4.11.3 s-benzyl-l-cysteine-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC3.4.11.3 vasopressin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC3.4.11.4 ala-ala-ala oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.52 * +EC3.4.11.4 ala-ala-d-ala oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.4 * +EC3.4.11.4 ala-ala-phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.098 * +EC3.4.11.4 ala-gly-gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.4 * +EC3.4.11.4 ala-phe-pro-beta-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.17 * +EC3.4.11.4 arg-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC3.4.11.4 arg-ser-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.11.4 gly-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.4.11.4 gly-ala-pro-beta-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.42 * +EC3.4.11.4 gly-ala-pro-beta-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.42 * +EC3.4.11.4 gly-gly-gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 7.5 * +EC3.4.11.4 gly-gly-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC3.4.11.4 gly-gly-phe lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 13.0 * +EC3.4.11.4 gly-gly-phe lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.91 * +EC3.4.11.4 l-ala-l-ala-l-phe-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.4.11.4 l-asp-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.401 * +EC3.4.11.4 l-leu-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.4.11.4 l-lys-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC3.4.11.4 l-met-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC3.4.11.4 leu-gly-gly lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.6 * +EC3.4.11.4 leu-gly-gly macaca fuscata//*//* 0.25 * +EC3.4.11.4 leu-gly-gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.55 * +EC3.4.11.4 leu-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC3.4.11.4 met-ala-ser bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.3 * +EC3.4.11.4 met-gly-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3 * +EC3.4.11.4 met-gly-gly lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 2.6 * +EC3.4.11.4 phe-gly-gly lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 1.1 * +EC3.4.11.4 phe-gly-gly macaca fuscata//*//* 0.33 * +EC3.4.11.4 phe-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC3.4.11.4 pro-gly-gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.3 * +EC3.4.11.5 4-acetyloxyproline-beta-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1.64 * +EC3.4.11.5 ala-p-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 24.2 * +EC3.4.11.5 ala-p-nitroanilide grifola frondosa//*//* 0.34 * +EC3.4.11.5 gly-p-nitroanilide grifola frondosa//*//* 0.22 * +EC3.4.11.5 his-p-nitroanilide grifola frondosa//*//* 0.24 * +EC3.4.11.5 hyp-2-naphthylamide prunus armeniaca//*//* 0.05 * +EC3.4.11.5 hyp-2-naphthylamide triticum aestivum//*//* 0.125 * +EC3.4.11.5 hyp-gly triticum aestivum//*//* 27.8 * +EC3.4.11.5 l-hydroxyproline-2-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 9.3 * +EC3.4.11.5 l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.095 * +EC3.4.11.5 l-pro-l-ala serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 2.07 * +EC3.4.11.5 l-proline-7-amido-4-methylcoumarin rasamsonia emersonii//*//* 0.101 * +EC3.4.11.5 leu-p-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 3.39 * +EC3.4.11.5 lys-p-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 11.5 * +EC3.4.11.5 pro-2-naphthylamide bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.152 * +EC3.4.11.5 pro-2-naphthylamide lyophyllum cinerascens//*//* 0.23 * +EC3.4.11.5 pro-2-naphthylamide prunus armeniaca//*//* 0.024 * +EC3.4.11.5 pro-2-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.51 * +EC3.4.11.5 pro-2-naphthylamide triticum aestivum//*//* 0.01 * +EC3.4.11.5 pro-4-nitroanilide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.037 * +EC3.4.11.5 pro-ala aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.31 * +EC3.4.11.5 pro-ala bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 2.69 * +EC3.4.11.5 pro-asp bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.9 * +EC3.4.11.5 pro-d-ala bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.78 * +EC3.4.11.5 pro-d-phe bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.86 * +EC3.4.11.5 pro-gly bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.15 * +EC3.4.11.5 pro-gly prunus armeniaca//*//* 0.71 * +EC3.4.11.5 pro-gly triticum aestivum//*//* 1.79 * +EC3.4.11.5 pro-leu-gly-nh2 bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 3.6 * +EC3.4.11.5 pro-leu-gly-nh2 prunus armeniaca//*//* 1.85 * +EC3.4.11.5 pro-leu bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 5.3 * +EC3.4.11.5 pro-leu prunus armeniaca//*//* 0.31 * +EC3.4.11.5 pro-lys bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.55 * +EC3.4.11.5 pro-p-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 8.29 * +EC3.4.11.5 pro-p-nitroanilide bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.32 * +EC3.4.11.5 pro-p-nitroanilide grifola frondosa//*//* 0.73 * +EC3.4.11.5 pro-p-nitroanilide penicillium camemberti//*//* 0.25 * +EC3.4.11.5 pro-p-nitroanilide streptomyces plicatus//*//* 0.04 * +EC3.4.11.5 pro-phe-gly-lys prunus armeniaca//*//* 1.79 * +EC3.4.11.5 pro-phe-nh2 prunus armeniaca//*//* 0.31 * +EC3.4.11.5 pro-phe bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.08 * +EC3.4.11.5 pro-phe prunus armeniaca//*//* 0.33 * +EC3.4.11.5 pro-trp bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.83 * +EC3.4.11.5 proline beta-naphthylamide serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.42 * +EC3.4.11.5 proline-4-nitroanilide phanerochaete chrysosporium//*//* 2.15 * +EC3.4.11.5 proline-7-amido-4-methylcoumarin debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 0.04 * +EC3.4.11.5 val-p-nitroanilide aneurinibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;aneurinibacillus//anx 8.73 * +EC3.4.11.6 arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0533 * +EC3.4.11.6 arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00318 * +EC3.4.11.6 arg-4-nitroanilide streptococcus gordonii//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sgo 0.051 * +EC3.4.11.6 arg-7-amido-4-methylcoumarin lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 0.0159 * +EC3.4.11.6 arg-alpha-atrial natriuretic factor1-20 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.014 * +EC3.4.11.6 arg-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.183 * +EC3.4.11.6 arg-leu-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.111 * +EC3.4.11.6 arg-lys-somatostatin-14 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC3.4.11.6 arg-met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.4.11.6 arg-met-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.125 * +EC3.4.11.6 arg-neurokinin a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC3.4.11.6 arginyl-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.11.6 cys-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.8 * +EC3.4.11.6 kallidin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0157 * +EC3.4.11.6 l-ala-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.0 * +EC3.4.11.6 l-ala-ala-pro-leu-4-nitroanilide colwellia psychrerythraea//prokaryotes;bacteria;gammaproteobacteria - others;colwellia//cps 0.043 * +EC3.4.11.6 l-arg-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.8e-05 * +EC3.4.11.6 l-arg-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.6 * +EC3.4.11.6 l-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.091 * +EC3.4.11.6 l-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC3.4.11.6 l-arg-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.11.6 l-arg-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.4.11.6 l-arg-beta-naphthylamide streptococcus mitis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smb 0.0026 * +EC3.4.11.6 l-leu-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.6 * +EC3.4.11.6 l-lys-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00014 * +EC3.4.11.6 l-lys-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.85 * +EC3.4.11.6 l-lys-4-nitroanilide ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.0544 * +EC3.4.11.6 l-lys-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC3.4.11.6 l-lys-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC3.4.11.6 l-lys-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC3.4.11.6 l-tyr-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000197 * +EC3.4.11.6 l-val-4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 19.0 * +EC3.4.11.6 leu-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC3.4.11.6 leu-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.5 * +EC3.4.11.6 lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.381 * +EC3.4.11.6 lys-7-amido-4-methylcoumarin lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 0.026 * +EC3.4.11.6 lysyl-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.11.6 met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0251 * +EC3.4.11.6 n-naphthalen-2-yl-l-argininamide capra aegagrus//*//* 0.1 * +EC3.4.11.7 alpha-l-asp-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.515 * +EC3.4.11.7 alpha-l-glu-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.243 * +EC3.4.11.7 alpha-l-glu-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC3.4.11.7 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC3.4.11.7 angiotensin ii mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.073 * +EC3.4.11.7 asp-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.3273 * +EC3.4.11.7 asp-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.21 * +EC3.4.11.7 asp-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.11.7 cholecystokinin-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.21 * +EC3.4.11.7 glu-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.11.7 glu-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.1351 * +EC3.4.11.7 glu-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.28 * +EC3.4.11.7 glu-beta-naphthylamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.031 * +EC3.4.11.7 glu-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.4.11.7 glu-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.091 * +EC3.4.11.7 glu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.87 * +EC3.4.11.7 kallidin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.11.7 l-glu-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.152 * +EC3.4.11.7 neurokinin b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.84 * +EC3.4.11.7 ser-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 27.3 * +EC3.4.11.9 (4-nitro)phe-pro-hn-ch2-ch2-nh-o-aminobenzoyl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.4.11.9 (4-nitro)phe-pro-pro-hn-ch2-ch2-nh-o-aminobenzoyl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.4.11.9 2-aminobenzoyl-l-lys-l-pro-l-pro-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC3.4.11.9 abz-l-lys-l-pro-l-pro-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC3.4.11.9 arg-homopro-pro-ala-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.11.9 arg-pro-pro-benzylamide cavia porcellus//*//* 0.0007 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.076 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.039 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.051 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.4.11.9 arg-pro-pro-gly-phe-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC3.4.11.9 arg-pro-pro-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC3.4.11.9 arg-pro-pro-gly-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC3.4.11.9 arg-pro-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.4.11.9 arg-pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.76 * +EC3.4.11.9 arg-pro-pro lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.4 * +EC3.4.11.9 arg-pro-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.4.11.9 arg-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.23 * +EC3.4.11.9 bradykinin caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.045 * +EC3.4.11.9 bradykinin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC3.4.11.9 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.075 * +EC3.4.11.9 bradykinin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.14 * +EC3.4.11.9 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC3.4.11.9 bradykinin streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.6396 * +EC3.4.11.9 bradykinin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.058 * +EC3.4.11.9 des-arg9-bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.11.9 fphfd plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.51 * +EC3.4.11.9 gly-pro-4-nitroanilide streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.4697 * +EC3.4.11.9 gly-pro-hyp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.32 * +EC3.4.11.9 gly-pro-hyp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.7 * +EC3.4.11.9 gly-pro-pro-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.82 * +EC3.4.11.9 k(dnp)ppgfspk(abz)nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.11.9 k(dnp)ppgk(abz)nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.11.9 k(dnp)ppk(abz)nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.11.9 l-ala-l-pro-4-nitroanilide streptomyces costaricanus//*//* 0.51 * +EC3.4.11.9 l-ala-l-pro-4-nitroanilide streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 0.51 * +EC3.4.11.9 l-ala-l-pro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.77 * +EC3.4.11.9 l-arg-l-pro-l-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.308 * +EC3.4.11.9 l-ile-l-pro-l-pro lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.5 * +EC3.4.11.9 l-leu-l-pro-l-pro lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.7 * +EC3.4.11.9 l-met-l-pro thermococcus onnurineus na1//*//* 0.96 * +EC3.4.11.9 l-val-l-pro-l-pro lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 13.6 * +EC3.4.11.9 leu-pro-pro lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.9 * +EC3.4.11.9 lys(epsilon-dinitrophenol)-pro-pro-nh-ch3-ch2-nh-2-aminobenzoyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.11.9 lys(epsilon-dinitrophenol)-pro-pro-nh-ch3-ch2-nh-2-aminobenzoyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC3.4.11.9 tyr-pro-leu-gly-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.72 * +EC3.4.11.9 tyr-pro-phe-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.33 * +EC3.4.11.9 tyr-pro-phe-pro-gly-pro-ile lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.4 * +EC3.4.11.9 tyr-pro-phe-pro-gly-pro-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.4.11.9 tyr-pro-phe-pro-gly lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.6 * +EC3.4.11.9 tyr-pro-phe-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.02 * +EC3.4.11.9 tyr-pro-phe lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.2 * +EC3.4.11.9 ypwtq plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.4 * +EC3.4.11.B3 l-alanyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.21 * +EC3.4.11.B3 l-leucyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1 * +EC3.4.11.B4 ala-ala-ala-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 10.8 * +EC3.4.11.B4 ala-ala-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.2 * +EC3.4.11.B4 ala-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 4.8 * +EC3.4.11.B4 ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 39.9 * +EC3.4.11.B5 l-leucyl 4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.8 * +EC3.4.11.B5 l-methionyl 4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.2 * +EC3.4.11.B5 n-acetyl-l-leucyl 4-nitroanilide thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 1.1 * +EC3.4.13.12 met-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.4.13.12 met-ala neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.25 * +EC3.4.13.12 met-ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC3.4.13.12 met-ile neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.42 * +EC3.4.13.12 met-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC3.4.13.12 met-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.57 * +EC3.4.13.12 met-ser neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.57 * +EC3.4.13.12 met-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC3.4.13.12 met-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC3.4.13.17 d-leu-d-leu loligo vulgaris//*//* 5.4 * +EC3.4.13.17 gly-d-ala loligo vulgaris//*//* 5.2 * +EC3.4.13.17 gly-l-ala loligo vulgaris//*//* 7.7 * +EC3.4.13.17 l-ala-d-ala loligo vulgaris//*//* 2.5 * +EC3.4.13.17 l-ala-l-ala loligo vulgaris//*//* 2.8 * +EC3.4.13.17 l-leu-l-leu loligo vulgaris//*//* 8.6 * +EC3.4.13.18 ala-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.42 * +EC3.4.13.18 ala-gly mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 3.3 * +EC3.4.13.18 ala-leu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC3.4.13.18 ala-leu platyrrhini//*//* 0.44 * +EC3.4.13.18 ala-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.4.13.18 arg-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.13.18 asp-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.05 * +EC3.4.13.18 carnosine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.0 * +EC3.4.13.18 d-leu-gly mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 21.0 * +EC3.4.13.18 gly-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 22.0 * +EC3.4.13.18 gly-asn mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 29.0 * +EC3.4.13.18 gly-ile platyrrhini//*//* 4.4 * +EC3.4.13.18 gly-l-ile platyrrhini//*//* 21.0 * +EC3.4.13.18 gly-l-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.16 * +EC3.4.13.18 gly-l-leu platyrrhini//*//* 10.6 * +EC3.4.13.18 gly-l-val platyrrhini//*//* 20.0 * +EC3.4.13.18 gly-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC3.4.13.18 gly-leu platyrrhini//*//* 2.74 * +EC3.4.13.18 gly-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.4.13.18 gly-phe platyrrhini//*//* 2.4 * +EC3.4.13.18 gly-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.4.13.18 gly-val platyrrhini//*//* 3.6 * +EC3.4.13.18 leu-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC3.4.13.18 leu-gly mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 1.25 * +EC3.4.13.18 leu-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.4.13.18 leu-leu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC3.4.13.18 leu-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.4.13.18 leu-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.13.18 lys-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.13.18 met-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.4.13.18 met-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC3.4.13.18 pro-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.13.18 pro-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC3.4.13.18 pro-leu lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 4.9 * +EC3.4.13.18 pro-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.13.18 pro-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.13.18 ser-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.238 * +EC3.4.13.19 beta-lactam mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.111 * +EC3.4.13.19 cystinyl-bis-glycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC3.4.13.19 gly-d-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.77 * +EC3.4.13.19 gly-l-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.22 * +EC3.4.13.19 gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.4.13.19 gly-l-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.03 * +EC3.4.13.19 gly-l-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.4.13.19 gly-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC3.4.13.19 glycyldehydrophenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC3.4.13.19 glycyldehydrophenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.4.13.19 l-ala-d-ala streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 4.4 * +EC3.4.13.19 l-ala-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.4.13.19 l-ala-l-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 13.8 * +EC3.4.13.19 l-ala-l-gln streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 16.0 * +EC3.4.13.19 l-ala-l-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 9.5 * +EC3.4.13.19 l-arg-d-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.14 * +EC3.4.13.19 l-arg-l-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.8 * +EC3.4.13.19 l-asn-d-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.4 * +EC3.4.13.19 l-cysteinylglycine raphanus sativus//*//* 1.51 * +EC3.4.13.19 l-cystinyl-bis-gly mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC3.4.13.19 l-cystinyl-bis-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.4.13.19 l-leu-d-ala streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.75 * +EC3.4.13.19 l-leu-d-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.55 * +EC3.4.13.19 l-leu-d-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.37 * +EC3.4.13.19 l-leu-d-ser streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.0 * +EC3.4.13.19 l-leu-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.13.19 l-leu-l-asp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.0 * +EC3.4.13.19 l-leu-l-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.13.19 l-leu-l-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.4 * +EC3.4.13.19 l-met-d-glu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.89 * +EC3.4.13.19 l-met-d-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.56 * +EC3.4.13.19 l-met-l-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 2.3 * +EC3.4.13.19 l-phe-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.4.13.19 l-trp-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.13.19 l-tyr-d-leu streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.17 * +EC3.4.13.19 l-val-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.13.19 leukotriene d4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC3.4.13.19 s-1-menaphthyl-l-cys-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0025 * +EC3.4.13.19 s-2,4-dinitrophenyl-l-cys-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.9 * +EC3.4.13.19 s-4-nitrobenzyl-l-cys-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.67 * +EC3.4.13.20 beta-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.0039 * +EC3.4.13.20 beta-ala-l-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.27 * +EC3.4.13.20 beta-homoala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.019 * +EC3.4.13.20 beta-homophe-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 1.1 * +EC3.4.13.20 carnosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC3.4.13.20 d-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.52 * +EC3.4.13.20 gly-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 3.0 * +EC3.4.13.20 homocarnosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.13.20 l-ala-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.36 * +EC3.4.13.20 l-arg-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.4 * +EC3.4.13.20 l-lys-4-nitroanilide ochrobactrum anthropi//prokaryotes;bacteria;alphaproteobacteria;ochrobactrum//oan 0.4 * +EC3.4.13.21 l-asp-4-nitroanilide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.98 * +EC3.4.13.22 (2s)-n-d-alanyl-2-(phenylthio)-glycine enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.83 * +EC3.4.13.22 co2+ enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.2 * +EC3.4.13.22 d-ala-d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.1 * +EC3.4.13.22 d-ala-d-ala enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 3.6 * +EC3.4.13.22 d-ala-d-ala enterococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ene 0.11 * +EC3.4.13.22 d-ala-d-ser enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 2.8 * +EC3.4.13.22 d-ala-d-ser enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 15.5 * +EC3.4.13.22 d-leu-4-nitroanilide enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 8.9 * +EC3.4.13.22 d-leucine-p-nitroanilide enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 8.9 * +EC3.4.13.22 d-ser-d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.7 * +EC3.4.13.4 n2-(4-aminobutyryl)-l-lysine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 9.8 * +EC3.4.13.9 ala-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.13.9 ala-pro lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.61 * +EC3.4.13.9 ala-pro pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.3 * +EC3.4.13.9 ala-pro sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.61 * +EC3.4.13.9 gly-hyp macaca radiata//*//* 6.7 * +EC3.4.13.9 gly-l-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.64 * +EC3.4.13.9 gly-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.13.9 gly-pro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.4.13.9 gly-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.88 * +EC3.4.13.9 gly-pro macaca radiata//*//* 7.1 * +EC3.4.13.9 gly-pro neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.3 * +EC3.4.13.9 gly-pro sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC3.4.13.9 his-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.39 * +EC3.4.13.9 l-leu-l-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.395 * +EC3.4.13.9 l-leu-l-pro lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 8.0 * +EC3.4.13.9 l-met-l-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.11 * +EC3.4.13.9 l-pro-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC3.4.13.9 l-pro-l-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.13.9 l-pro-l-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.13.9 l-val-l-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.243 * +EC3.4.13.9 leu-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.82 * +EC3.4.13.9 leu-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.13.9 leu-pro lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.2 * +EC3.4.13.9 leu-pro lactobacillus delbrueckii//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 2.2 * +EC3.4.13.9 leu-pro lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.82 * +EC3.4.13.9 leu-pro pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.0 * +EC3.4.13.9 leu-pro pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.92 * +EC3.4.13.9 met-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.81 * +EC3.4.13.9 met-pro neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.81 * +EC3.4.13.9 met-pro pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 2.8 * +EC3.4.13.9 met-pro pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.9 * +EC3.4.13.9 phe-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.76 * +EC3.4.13.9 phe-pro homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.13.9 phe-pro lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 25.0 * +EC3.4.13.9 phe-pro lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.76 * +EC3.4.13.9 phe-pro pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 20.0 * +EC3.4.13.9 pro-hyp macaca radiata//*//* 12.5 * +EC3.4.13.9 pro-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.38 * +EC3.4.13.9 val-pro bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC3.4.13.9 val-pro lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.41 * +EC3.4.13.9 val-pro neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.41 * +EC3.4.13.9 val-pro pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.2 * +EC3.4.14.1 alpha-asp-arg-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC3.4.14.1 asn1-angiotensin ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.44 * +EC3.4.14.1 glucagon rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC3.4.14.1 gly-arg-2-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.1 * +EC3.4.14.1 gly-arg-4-methoxy-beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.14 * +EC3.4.14.1 gly-gly-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.3 * +EC3.4.14.1 gly-leu-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.0 * +EC3.4.14.1 gly-phe-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC3.4.14.1 gly-phe-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC3.4.14.1 gly-trp-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.63 * +EC3.4.14.1 gly-tyr-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.0 * +EC3.4.14.1 glycyl-(beta-phenyl)l-lactic acid methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 19.0 * +EC3.4.14.1 his-ser-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC3.4.14.1 ile5-angiotensin ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC3.4.14.1 l-ser-l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC3.4.14.1 sarcosyl-phe-ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 61.0 * +EC3.4.14.1 val-leu-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.14.10 ala-ala-ala-4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0036 * +EC3.4.14.10 ala-ala-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.14.10 ala-ala-ala-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.008 * +EC3.4.14.10 ala-ala-phe 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.14.10 ala-ala-phe-4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.012 * +EC3.4.14.10 ala-ala-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.14.10 ala-ala-phe-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.017 * +EC3.4.14.10 ala-ala-phe-7-amido-4-methylcoumarin arabidopsis sp.//*//* 0.11 * +EC3.4.14.10 ala-ala-phe-7-amido-4-methylcoumarin drosophila sp.//*//* 0.47 * +EC3.4.14.10 ala-ala-phe-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.14.10 arg-arg-ala-(phospho)ser-val-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.14.10 arg-arg-ala-(phospho)ser-val-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC3.4.14.10 l-ala-l-ala-l-ala 4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.01 * +EC3.4.14.10 l-ala-l-ala-l-ala 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0106 * +EC3.4.14.10 l-ala-l-ala-l-ala 4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC3.4.14.10 l-ala-l-ala-l-phe 4-nitroanilide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.058 * +EC3.4.14.10 l-ala-l-ala-l-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.14.10 l-ala-l-ala-l-phe 4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.056 * +EC3.4.14.10 l-ala-l-ala-l-phe-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC3.4.14.11 ala-pro-4-nitroanilide lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 0.05 * +EC3.4.14.11 arg-pro-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.92 * +EC3.4.14.11 glu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0457 * +EC3.4.14.11 gly-ala 4-methylcoumarin 7-amide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.385 * +EC3.4.14.11 gly-l-pro 4-nitroanilide lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.11 * +EC3.4.14.11 gly-pro 4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.55 * +EC3.4.14.11 gly-pro 4-nitroanilide lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.28 * +EC3.4.14.11 gly-pro 4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.107 * +EC3.4.14.11 gly-pro-4-nitroanilide lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 0.192 * +EC3.4.14.11 gly-pro-4-nitroanilide streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 3.1 * +EC3.4.14.11 gly-pro-7-amido-4-methylcoumarin lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.2 * +EC3.4.14.11 gly-pro-7-amido-4-methylcoumarin lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 0.029 * +EC3.4.14.11 gly-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0141 * +EC3.4.14.11 l-ala-l-pro 4-nitroanilide lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 1.3 * +EC3.4.14.11 l-ala-l-pro-l-arg lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.14 * +EC3.4.14.11 l-ala-l-pro-l-ser lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.53 * +EC3.4.14.11 l-ala-l-pro-l-tyr lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.17 * +EC3.4.14.11 l-arg-l-pro 4-nitroanilide lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 1.5 * +EC3.4.14.11 l-arg-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.24 * +EC3.4.14.11 l-asp-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 1.23 * +EC3.4.14.11 l-ser-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.54 * +EC3.4.14.11 l-tyr-l-pro-l-ala lactobacillus helveticus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lhe 0.12 * +EC3.4.14.11 leu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0092 * +EC3.4.14.11 lys-ala-7-amido-4-methylcoumarin lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 0.088 * +EC3.4.14.11 lys-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.231 * +EC3.4.14.11 lys-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0146 * +EC3.4.14.11 phe-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0124 * +EC3.4.14.12 ala-ala-pro-p-nitroanilide prevotella nigrescens//*//* 0.069 * +EC3.4.14.12 ala-phe-pro-p-nitroanilide prevotella nigrescens//*//* 0.129 * +EC3.4.14.12 arg-pro-p-nitroanilide prevotella nigrescens//*//* 0.114 * +EC3.4.14.12 gly-ala-pro-2-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.17 * +EC3.4.14.12 gly-ala-pro-beta-naphthylamide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.38 * +EC3.4.14.12 gly-l-ala-gly-l-pro-beta-naphthylamide streptomyces mobaraensis//*//* 0.26 * +EC3.4.14.12 gly-l-ala-l-pro-beta-naphthylamide streptomyces mobaraensis//*//* 0.072 * +EC3.4.14.12 lys-pro-p-nitroanilide prevotella nigrescens//*//* 0.084 * +EC3.4.14.13 l-ala-gamma-d-glu-l-lys-d-ala-d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.31 * +EC3.4.14.13 l-ala-gamma-d-glu-l-lys-d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.12 * +EC3.4.14.13 l-ala-gamma-d-glu-l-lys bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.29 * +EC3.4.14.2 ala-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.22 * +EC3.4.14.2 ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.487 * +EC3.4.14.2 ala-ala-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.67 * +EC3.4.14.2 ala-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0457 * +EC3.4.14.2 ala-pro-amino-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.14.2 ala-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.14.2 arg-pro-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0086 * +EC3.4.14.2 arg-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.086 * +EC3.4.14.2 arg-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.068 * +EC3.4.14.2 arg-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.14.2 asn-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.101 * +EC3.4.14.2 asp-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.16 * +EC3.4.14.2 glu-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.311 * +EC3.4.14.2 gly-ala-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.55 * +EC3.4.14.2 gly-l-pro-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.36 * +EC3.4.14.2 gly-pro-4-methylcoumarin 7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.33 * +EC3.4.14.2 gly-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.14.2 gly-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC3.4.14.2 gly-pro-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.59 * +EC3.4.14.2 gly-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.149 * +EC3.4.14.2 gly-pro-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.09 * +EC3.4.14.2 gly-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.14.2 his-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0223 * +EC3.4.14.2 his-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC3.4.14.2 his-pro-val rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.502 * +EC3.4.14.2 lys-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.087 * +EC3.4.14.2 lys-ala-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.099 * +EC3.4.14.2 lys-ala-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.93 * +EC3.4.14.2 lys-ala-4-methylcoumarin 7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.36 * +EC3.4.14.2 lys-ala-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.215 * +EC3.4.14.2 lys-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.14.2 lys-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0457 * +EC3.4.14.2 lys-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.4.14.2 lys-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.14.2 nle-nle-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.14.2 nle-nle-rhodamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.4.14.2 nle-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.14.2 nle-pro-rhodamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.14.2 phe-pro-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.045 * +EC3.4.14.2 phe-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC3.4.14.2 pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.376 * +EC3.4.14.2 ser-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.14.2 tyr-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.14.4 ala-ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.299 * +EC3.4.14.4 arg-arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00621 * +EC3.4.14.4 arg-arg-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00651 * +EC3.4.14.4 arg-arg-2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01041 * +EC3.4.14.4 arg-arg-4-methoxy-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC3.4.14.4 arg-arg-4-methoxy-beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.039 * +EC3.4.14.4 arg-arg-4-methylcoumarin 7-amide cavia porcellus//*//* 0.055 * +EC3.4.14.4 arg-tyr-leu-pro-thr, proctolin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0045 * +EC3.4.14.4 arg-tyr-leu-pro-thr drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.004 * +EC3.4.14.4 l-ala-l-ala 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2316 * +EC3.4.14.4 l-arg-l-arg 2-naphthylamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0143 * +EC3.4.14.4 l-lys-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC3.4.14.4 leu-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.4.14.4 leu-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC3.4.14.4 met-enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC3.4.14.4 proctolin blaberus craniifer//*//* 0.0038 * +EC3.4.14.4 tyr-gly-gly-phe-met drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0419 * +EC3.4.14.4 tyr-pro-trp-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC3.4.14.5 ala-ala-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC3.4.14.5 ala-ala-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.82 * +EC3.4.14.5 ala-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.75 * +EC3.4.14.5 ala-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.14.5 ala-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00034 * +EC3.4.14.5 amyloid beta40 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0375 * +EC3.4.14.5 amyloid beta42 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.138 * +EC3.4.14.5 arg-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 9e-05 * +EC3.4.14.5 arg-pro-lys-pro-gln-gln-phe-phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.14.5 arg-pro-lys-pro-gln-gln-phe-phe-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC3.4.14.5 arg-pro-lys-pro-gln-gln-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.14.5 arg-pro-lys-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.14.5 asn-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00324 * +EC3.4.14.5 asp-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00888 * +EC3.4.14.5 bri peptide (1-23) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.14.5 gln-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00138 * +EC3.4.14.5 glu-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.714 * +EC3.4.14.5 glu-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00298 * +EC3.4.14.5 glu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.457 * +EC3.4.14.5 gly-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.385 * +EC3.4.14.5 gly-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC3.4.14.5 gly-l-pro-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC3.4.14.5 gly-l-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC3.4.14.5 gly-l-pro-4-nitroanilide streptococcus suis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssb 0.3 * +EC3.4.14.5 gly-l-pro-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC3.4.14.5 gly-l-pro-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.28 * +EC3.4.14.5 gly-l-pro-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC3.4.14.5 gly-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC3.4.14.5 gly-pro-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC3.4.14.5 gly-pro-3,5-dibromo-4-hydroxyanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.14.5 gly-pro-4-methoxy-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.14.5 gly-pro-4-methoxy-beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.5 * +EC3.4.14.5 gly-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.138 * +EC3.4.14.5 gly-pro-4-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.107 * +EC3.4.14.5 gly-pro-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.63 * +EC3.4.14.5 gly-pro-4-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.28 * +EC3.4.14.5 gly-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.38 * +EC3.4.14.5 gly-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.556 * +EC3.4.14.5 gly-pro-4-nitroanilide streptococcus mitis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smb 0.06 * +EC3.4.14.5 gly-pro-4-nitroanilide streptococcus suis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssb 0.26 * +EC3.4.14.5 gly-pro-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.33 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0707 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin cavia porcellus//*//* 0.2 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00688 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0141 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC3.4.14.5 gly-pro-7-amido-4-methylcoumarin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.57 * +EC3.4.14.5 gly-pro-glycinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.159 * +EC3.4.14.5 gly-pro-p-nitroanilide streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 3.1 * +EC3.4.14.5 gly-pro-rhodamine 110-(n-pentyl)maleimide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC3.4.14.5 hemorphin-4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.5 * +EC3.4.14.5 hemorphin-5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.4 * +EC3.4.14.5 hemorphin-7 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0387 * +EC3.4.14.5 his-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.217 * +EC3.4.14.5 his-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00103 * +EC3.4.14.5 hly-pro-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC3.4.14.5 ile-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.0007 * +EC3.4.14.5 l-ala-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.5 * +EC3.4.14.5 l-ala-l-ala-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.14.5 l-ala-l-pro-4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC3.4.14.5 l-ala-l-pro-7-amido-4-trifluoromethylcoumarin crocodylus acutus//*//* 0.0147 * +EC3.4.14.5 l-ala-l-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.4.14.5 l-ala-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.099 * +EC3.4.14.5 l-arg-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.14.5 l-asn-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.337 * +EC3.4.14.5 l-asp-l-pro-6-aminoquinolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.524 * +EC3.4.14.5 l-glu-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.244 * +EC3.4.14.5 l-leu-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.4.14.5 l-leu-l-leu-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.25 * +EC3.4.14.5 l-leu-l-leu-l-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC3.4.14.5 l-leu-l-pro-gly-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.4.14.5 l-leu-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.14.5 l-lys-l-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.14.5 l-lys-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.14.5 l-met-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.14.5 l-phe-l-pro-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC3.4.14.5 l-ser-l-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.189 * +EC3.4.14.5 l-val-l-pro-6-aminoquinolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.14.5 l-val-l-pro-doxorubicin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.14.5 l-val-l-pro-l-val-l-pro-ara-a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.14.5 leu-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00109 * +EC3.4.14.5 leu-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0092 * +EC3.4.14.5 lys-ala-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00374 * +EC3.4.14.5 lys-ala-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.231 * +EC3.4.14.5 lys-pro-4-methoxy-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.14.5 lys-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.37 * +EC3.4.14.5 lys-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.14.5 lys-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 7.1e-05 * +EC3.4.14.5 lys-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0146 * +EC3.4.14.5 lys-pro-gln-gln-phe-phe-gly-leu-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC3.4.14.5 met-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.179 * +EC3.4.14.5 met-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00217 * +EC3.4.14.5 n-(ala-pro)-n'-6-(3,4-dichloromaleimidyl)-hexanoyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00058 * +EC3.4.14.5 n-(gly-pro)-n'-(4-chlorobutanoyl)-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0038 * +EC3.4.14.5 n-(gly-pro)-n'-(4-chloromethyl)benzoyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.14.5 n-(gly-pro)-n'-(5-bromopentanoyl)-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC3.4.14.5 n-(gly-pro)-n'-(5-chloropentanoyl)-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0038 * +EC3.4.14.5 n-(gly-pro)-n'-4-(maleimidyl)butanoyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0027 * +EC3.4.14.5 n-(gly-pro)-n'-acetyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0174 * +EC3.4.14.5 n-(gly-pro)-n'-chloroacetyl-rhodamine 110 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0062 * +EC3.4.14.5 n-tosyl-gly-l-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.4.14.5 norleucine-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.14.5 norleucine-pro-rhodamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.14.5 phe-ala-pro-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.14.5 phe-pro-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.14.5 phe-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.33 * +EC3.4.14.5 phe-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00065 * +EC3.4.14.5 phe-pro-7-amido-4-methylcoumarin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0124 * +EC3.4.14.5 pro-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.0011 * +EC3.4.14.5 ser-pro-4-nitroanilide streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.217 * +EC3.4.14.5 ser-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00126 * +EC3.4.14.5 thr-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00093 * +EC3.4.14.5 tyr-pro-7-amido-4-methylcoumarin hordeum vulgare//*//* 0.00073 * +EC3.4.14.5 tyr-pro-phe-pro-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.14.5 tyr-pro-phe-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.14.5 tyr-pro-phe-val-glu-pro-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.4.14.5 tyr-pro-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.14.9 ala-ala-phe-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.233 * +EC3.4.14.9 ala-ala-phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.098 * +EC3.4.14.9 ala-ala-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.68 * +EC3.4.14.9 ala-ala-phe-p-nitroanilide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0268 * +EC3.4.14.9 ala-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0148 * +EC3.4.14.9 ala-ala-pro-p-nitroanilide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.888 * +EC3.4.14.9 ala-arg-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00402 * +EC3.4.14.9 ala-asp-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00509 * +EC3.4.14.9 ala-his-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0422 * +EC3.4.14.9 ala-nle-leu-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.14.9 ala-nle-nle-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC3.4.14.9 ala-nva-nle-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.14.9 ala-phe-pro-p-nitroanilide dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.437 * +EC3.4.14.9 ala-ser-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0483 * +EC3.4.14.9 arg-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0193 * +EC3.4.14.9 arg-pro-phe-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.4.14.9 asp-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.14.9 gly-pro-met 2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC3.4.14.9 his-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC3.4.14.9 phe-pro-ala-4-nitroanilide aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0625 * +EC3.4.14.9 ser-ala-phe-p-nitrophenylalanyl-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.108 * +EC3.4.15.4 2-aminobenzoyl-gly-ala-(4-nitro)phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.102 * +EC3.4.15.4 2-aminobenzoyl-gly-asp-(4-nitro)phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC3.4.15.4 2-aminobenzoyl-gly-lys-(4-nitro)phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.129 * +EC3.4.15.4 2-aminobenzoyl-gly-ser-(4-nitro)phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.15.4 2-aminobenzoyl-gly-thr-(4-nitro)phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.15.4 atriopeptin i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.124 * +EC3.4.15.4 atriopeptin ii bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC3.4.15.4 benzoyl-gly-gly-phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.13 * +EC3.4.15.4 benzoyl-gly-his-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.4 * +EC3.4.15.4 benzoyl-gly-his-leu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.15.4 benzoyl-gly-ser-phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.4.15.5 ala-ala-phe-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.27 * +EC3.4.15.5 ala-gly-phe-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.61 * +EC3.4.15.5 ala4 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC3.4.15.5 gly-ala-phe-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.39 * +EC3.4.15.5 gly-gly-phe-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.06 * +EC3.4.15.5 lys4 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.4.15.5 tert-butyloxycarbonyl-ala3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.71 * +EC3.4.15.6 [l-asp(4-arg)]n synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0022 * +EC3.4.16.2 ala-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.16.2 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.16.2 angiotensin ii stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.34 * +EC3.4.16.2 angiotensin iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.16.2 benzyloxycarbonyl-pro-leu stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.26 * +EC3.4.16.2 gly-pro-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.4.16.2 l-ala-l-pro 4-nitroanilide tenebrio molitor//*//* 0.157 * +EC3.4.16.2 myoglobin penicillium janthinellum//*//* 0.1 * +EC3.4.16.2 n-benzyloxycarbonyl-gly-l-pro 4-nitroanilide tenebrio molitor//*//* 0.147 * +EC3.4.16.2 n-benzyloxycarbonyl-l-ala-l-ala-l-pro 4-nitroanilide tenebrio molitor//*//* 0.34 * +EC3.4.16.2 n-benzyloxycarbonyl-l-ala-l-pro 4-nitroanilide tenebrio molitor//*//* 0.095 * +EC3.4.16.2 n-benzyloxycarbonyl-l-pro 4-nitroanilide tenebrio molitor//*//* 0.17 * +EC3.4.16.2 n-benzyloxycarbonyl-l-pro-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.4.16.2 n-benzyloxycarbonyl-pro-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.77 * +EC3.4.16.2 n-benzyloxycarbonyl-pro-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC3.4.16.2 prekallikrein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7e-06 * +EC3.4.16.4 (2r)-2-[[n-(phenylacetyl)glycyl]sulfanyl]propanoic acid streptomyces sp. r61//*//* 1.0 * +EC3.4.16.4 2-(n-glycyl-l-cysteinyl)acetyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.86 * +EC3.4.16.4 3-(n-acetyl-l-cysteinyl)propanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 1.28 * +EC3.4.16.4 3-(n-glycyl-cysteaminyl)propanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 3.0 * +EC3.4.16.4 3-(n-glycyl-l-cysteinyl)-propanoyl-d-alanyl-d-thiolactate streptomyces sp. r61//*//* 0.004 * +EC3.4.16.4 3-(n-glycyl-l-cysteinyl)butanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.48 * +EC3.4.16.4 3-(n-glycyl-l-cysteinyl)propanoyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.26 * +EC3.4.16.4 3-[[n-(phenylacetyl)-d-alanyl]oxy]benzoic acid streptomyces sp. r61//*//* 1.37 * +EC3.4.16.4 3-[[n-(phenylacetyl)glycyl]oxy]benzoic acid streptomyces sp. r61//*//* 0.76 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-hydroxyglycinate actinomadura sp.//*//* 4.3 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-hydroxyglycinate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.36 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-methoxyglycinate actinomadura sp.//*//* 0.2 * +EC3.4.16.4 3-carboxyphenyl (2r)-n-(phenylacetyl)-2-methoxyglycinate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.45 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-methoxyglycinate actinomadura sp. r39//*//* 0.2 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-methoxyglycinate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.2 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-methoxyglycinate streptomyces sp. r61//*//* 0.45 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-serinate actinomadura sp. r39//*//* 0.85 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-serinate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 1.8 * +EC3.4.16.4 3-carboxyphenyl n-(phenylacetyl)-alpha-serinate streptomyces sp. r61//*//* 0.35 * +EC3.4.16.4 acetyl-l-ala-d-glu-l-lys(ac)-d-ala-d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 7.5 * +EC3.4.16.4 acetyl-l-lys-d-ala-d-ala nonomuraea sp.//prokaryotes;bacteria;actinobacteria;nonomuraea//noa 8.0 * +EC3.4.16.4 benzoyl-d-ala-thioglycolate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.5 * +EC3.4.16.4 benzoyl-gly-thioglycolate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.0 * +EC3.4.16.4 benzoyl-gly-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.22 * +EC3.4.16.4 boc-gamma-d-glu-l-lys-(cbz)-d-ala-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.4 * +EC3.4.16.4 d-ala-d-ala nonomuraea sp.//prokaryotes;bacteria;actinobacteria;nonomuraea//noa 20.0 * +EC3.4.16.4 gly-gamma-l-glu-d-ala-d-ala streptomyces sp. r61//*//* 0.86 * +EC3.4.16.4 gly-l-alpha-amino-epsilon-pimelyl-d-ala-d-ala streptomyces sp. r61//*//* 0.0079 * +EC3.4.16.4 glycyl-l-alpha-amino-epsilon-pimelyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.0079 * +EC3.4.16.4 glycyl-s-(3-[[(1r)-2-[[(1r)-1-carboxyethyl]amino]-1-methyl-2-oxoethyl]amino]-3-oxopropyl)-l-cysteine streptomyces sp. r61//*//* 0.26 * +EC3.4.16.4 glycyl-s-(3-[[(1r)-2-[[(1r)-1-carboxyethyl]sulfanyl]-1-methyl-2-oxoethyl]amino]-3-oxopropyl)-l-cysteine streptomyces sp. r61//*//* 0.0041 * +EC3.4.16.4 hippuryl-mercaptoacetic acid streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.12 * +EC3.4.16.4 n,n'-diacetyl-l-lysyl-d-alanyl-d-alanine streptomyces sp. r61//*//* 9.8 * +EC3.4.16.4 n-(n-acetyl-1-o-methyl-beta-muramoyl)-l-alanyl-d-gamma-glutamyl-l-lysyl-d-alanyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC3.4.16.4 n-[(6s)-6-carboxy-6-(glycylamino)hexanoyl]-d-alanyl-d-alanine streptomyces sp. r61//*//* 0.0079 * +EC3.4.16.4 n-[n-acetyl-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-1-o-methyl-beta-muramoyl]-l-alanyl-d-gamma-glutamyl-l-lysyl-d-alanyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC3.4.16.4 n-acetylmuramoyl-l-alanyl-gamma-d-glutamyl-meso-2,6-diaminopimelyl-d-alanyl-d-alanine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0204 * +EC3.4.16.4 n-alpha-acetyl-l-lys-d-ala-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.4 * +EC3.4.16.4 nalpha, nepsilon-diacetyl-l-lys-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 12.0 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3.8 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.0 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.1 * +EC3.4.16.4 nalpha,nepsilon-diacetyl-l-lys-d-ala-thiolactate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 3.0 * +EC3.4.16.4 nalpha-(beta-1,4 acetylglucosaminyl-n-acetylmuramyl-l-alanyl-d-isoglutaminyl)-nepsilon-(d-isoasparaginyl)l-lys-d-ala-d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.45 * +EC3.4.16.4 nalpha-acetyl-l-lys-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 9.4 * +EC3.4.16.4 udp-n-acetylmuramyl-l-ala-d-glu-mesodiaminopimelyl-d-ala-d-ala geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.4 * +EC3.4.16.4 x-d-ala-d-ala streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 5.0 * +EC3.4.16.5 9-(r)-4'-(r)-[[[(s)-1-[(ethoxycarbonyl)ethyl]amino]phenoxyphosphinyl]methoxy]-2'-fluoro-1'-furanyladenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.363 * +EC3.4.16.5 9-[(r)-2-[[(s)-[[(s)-1-(isopropoxycarbonyl)ethyl]amino]phenoxyphosphinyl]methoxy]-propyl]adenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0082 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0024 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00059 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC3.4.16.5 9-fluorenylmethoxycarbonyl-glu-glu-glu-glu-glu-glu-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC3.4.16.5 acetyl-phe ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC3.4.16.5 acetyl-phe-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.74 * +EC3.4.16.5 acetyl-tyr-ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.4 * +EC3.4.16.5 benzoyl-ala benzyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC3.4.16.5 benzoyl-ala-ogly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 14.0 * +EC3.4.16.5 benzoyl-ala-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.3 * +EC3.4.16.5 benzoyl-gly benzyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC3.4.16.5 benzoyl-gly-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC3.4.16.5 benzoyl-gly-beta-phenyllactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.45 * +EC3.4.16.5 benzoyl-gly-oet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 21.0 * +EC3.4.16.5 benzoyl-gly-ogly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 56.0 * +EC3.4.16.5 benzoyl-gly-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 48.0 * +EC3.4.16.5 benzoyl-gly-ophe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC3.4.16.5 benzoyl-gly-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.7 * +EC3.4.16.5 benzoyl-phe-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC3.4.16.5 benzoyl-phe-ogly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.4 * +EC3.4.16.5 benzoyl-phe-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC3.4.16.5 benzoyl-tyr-p-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC3.4.16.5 benzyloxycarbonyl-ala-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.26 * +EC3.4.16.5 benzyloxycarbonyl-arg-pro citrus sp.//*//* 4.0 * +EC3.4.16.5 benzyloxycarbonyl-glu-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.053 * +EC3.4.16.5 benzyloxycarbonyl-glu-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC3.4.16.5 benzyloxycarbonyl-gly-glu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.15 * +EC3.4.16.5 benzyloxycarbonyl-gly-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.75 * +EC3.4.16.5 benzyloxycarbonyl-gly-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.83 * +EC3.4.16.5 benzyloxycarbonyl-gly-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.41 * +EC3.4.16.5 benzyloxycarbonyl-his-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC3.4.16.5 benzyloxycarbonyl-his-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.83 * +EC3.4.16.5 benzyloxycarbonyl-leu-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.068 * +EC3.4.16.5 benzyloxycarbonyl-leu-phe citrus sp.//*//* 0.5 * +EC3.4.16.5 benzyloxycarbonyl-leu-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC3.4.16.5 benzyloxycarbonyl-phe-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.56 * +EC3.4.16.5 benzyloxycarbonyl-phe-beta-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-glu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.36 * +EC3.4.16.5 benzyloxycarbonyl-phe-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-his saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.9 * +EC3.4.16.5 benzyloxycarbonyl-phe-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC3.4.16.5 benzyloxycarbonyl-phe-nh2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC3.4.16.5 benzyloxycarbonyl-phe-pro saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.67 * +EC3.4.16.5 benzyloxycarbonyl-tyr-glu monascus pilosus//*//* 1.33 * +EC3.4.16.5 benzyloxycarbonyl-tyr-glu monascus purpureus//*//* 0.86 * +EC3.4.16.5 endothelin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.022 * +EC3.4.16.5 furylacryloyl-phe ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.075 * +EC3.4.16.5 furylacryloyl-phe-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC3.4.16.5 furylacryloyl-phe-gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.4 * +EC3.4.16.5 furylacryloyl-phe-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.021 * +EC3.4.16.5 furylacryloyl-phe-ogly-oh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC3.4.16.5 furylacryloyl-phe-ome saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.39 * +EC3.4.16.5 furylacryloyl-phe-val saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.047 * +EC3.4.16.5 hippuryl-beta-phenyl lactate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.45 * +EC3.4.16.5 n-benzoyl-l-tyrosine-p-nitroanilide kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.029 * +EC3.4.16.6 benzoyl-phe-ala-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.284 * +EC3.4.16.6 dansyl-l-ala-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.16.6 dansyl-l-ala-l-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.132 * +EC3.4.16.6 dansyl-phe-ala-arg drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.208 * +EC3.4.16.6 furylacryloyl-ala-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.516 * +EC3.4.16.6 furylacryloyl-ala-lys saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.962 * +EC3.4.17.1 (s)-hippuryl-alpha-mephe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.313 * +EC3.4.17.1 (s)-hippuryl-alpha-methylphenyllactic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.344 * +EC3.4.17.1 (s)-hippuryl-ophe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.072 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.372 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-ile homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0233 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0194 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0556 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0615 * +EC3.4.17.1 3-(2-furyl)acryloyl-l-phe-l-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0573 * +EC3.4.17.1 5-dimethyl-aminonaphthalene-1-sulfonyl-ala-ala-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0135 * +EC3.4.17.1 5-dimethyl-aminonaphthalene-1-sulfonyl-ala-alal-beta-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0016 * +EC3.4.17.1 ac-phe-thiaphe mammalia//*//* 0.22 * +EC3.4.17.1 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.227 * +EC3.4.17.1 angiotensin i mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.78 * +EC3.4.17.1 benzoyl-gly-gly-l-alpha-hydroxy-beta-phenyllactate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.17.1 benzoyl-gly-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC3.4.17.1 benzoyl-gly-l-alpha-hydroxy-beta-phenyllactate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.17.1 benzoyl-gly-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.17.1 benzoyl-gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.4.17.1 benzoyl-gly-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC3.4.17.1 benzoyl-gly-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.051 * +EC3.4.17.1 benzyloxycarbonyl-ala-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC3.4.17.1 benzyloxycarbonyl-gly-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC3.4.17.1 benzyloxycarbonyl-phe-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC3.4.17.1 carbobenzoxy-gly-gly-leu struthio camelus//*//* 0.74 * +EC3.4.17.1 carbobenzoxy-gly-gly-phe struthio camelus//*//* 1.34 * +EC3.4.17.1 carbobenzoxy-gly-gly-val struthio camelus//*//* 2.11 * +EC3.4.17.1 carbobenzoxy-gly-l-leu struthio camelus//*//* 0.16 * +EC3.4.17.1 carbobenzoxy-gly-l-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 33.0 * +EC3.4.17.1 carbobenzoxy-gly-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.95 * +EC3.4.17.1 carbobenzoxy-gly-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.17.1 carbobenzoxy-gly-l-phe squalus acanthias//*//* 0.21 * +EC3.4.17.1 carbobenzoxy-gly-l-phe struthio camelus//*//* 0.71 * +EC3.4.17.1 carbobenzoxy-gly-l-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.1 * +EC3.4.17.1 carbobenzoxy-gly-l-trp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.1 * +EC3.4.17.1 carbobenzoxy-gly-l-trp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.3 * +EC3.4.17.1 cinnamoyl-l-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.4.17.1 gly-l-tyr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC3.4.17.1 hippuryl-dl-beta-phenylacetic acid squalus acanthias//*//* 0.02 * +EC3.4.17.1 hippuryl-dl-beta-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1300.0 * +EC3.4.17.1 hippuryl-dl-phenyllactate struthio camelus//*//* 0.15 * +EC3.4.17.1 hippuryl-l-arg litopenaeus setiferus//*//* 0.2 * +EC3.4.17.1 hippuryl-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.81 * +EC3.4.17.1 hippuryl-l-phe litopenaeus setiferus//*//* 0.33 * +EC3.4.17.1 hippuryl-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.4.17.1 hippuryl-l-phe struthio camelus//*//* 0.41 * +EC3.4.17.1 hippuryl-l-phenyllactate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.062 * +EC3.4.17.1 hippuryl-l-phenyllactate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC3.4.17.1 hippuryl-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC3.4.17.1 l-beta-phenyllactate-alpha-((2-naphthoyl)amino)-cinnamoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000124 * +EC3.4.17.1 l-beta-phenyllactate-alpha-(acetylamino)-cinnamoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0124 * +EC3.4.17.1 l-beta-phenyllactate-alpha-(benzoylylamino)-cinnamoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.000223 * +EC3.4.17.1 leu-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.165 * +EC3.4.17.1 met-enkephalin-l-arg-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00923 * +EC3.4.17.1 met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC3.4.17.1 n-(2-furanacryoyl)-phe-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.17.1 n-(3-[2-furyl]acryloyl)-phe-phe trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.024 * +EC3.4.17.1 n-[3-(2-furyl)acryloyl]-phe-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 340.0 * +EC3.4.17.1 n-acetyl-gly-l-phenyllactic acid squalus acanthias//*//* 0.44 * +EC3.4.17.1 n-carbobenzoxy-gly-gly-l-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.74 * +EC3.4.17.1 n-carbobenzoxy-gly-gly-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0346 * +EC3.4.17.1 n-carbobenzoxy-gly-l-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0449 * +EC3.4.17.1 n-carbobenzoxy-gly-l-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.143 * +EC3.4.17.1 n-trans-3-(-3-indoleacryloyl)-l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.17.1 neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000329 * +EC3.4.17.1 o-(trans-p-chlorocinnamoyl)-l-beta-phenyllactate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 120.0 * +EC3.4.17.1 ochratoxin a aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.5 * +EC3.4.17.10 dansyl-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.17.10 dansyl-phe-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC3.4.17.10 dansyl-phe-ala-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.034 * +EC3.4.17.10 dansyl-phe-gly-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.029 * +EC3.4.17.10 dansyl-phe-ile-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.068 * +EC3.4.17.10 dansyl-phe-leu-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC3.4.17.10 dansyl-phe-leu-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.066 * +EC3.4.17.10 dansyl-phe-leu-arg manduca sexta//*//* 0.027 * +EC3.4.17.10 dansyl-phe-leu-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0175 * +EC3.4.17.10 dansyl-phe-leu-gly-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.16 * +EC3.4.17.10 dansyl-pro-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.058 * +EC3.4.17.10 hippuryl-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.4.17.10 iodo-acetyl-tyr-ala-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.028 * +EC3.4.17.11 (2-chloroethyl)-(2-(methylsulfoyloxyethyl)amino)aminobenzyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0034 * +EC3.4.17.11 (4-[bis(2-bromoethyl)amino]-2,3,5-trifluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0011 * +EC3.4.17.11 (4-[bis(2-bromoethyl)amino]-3,5-difluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0012 * +EC3.4.17.11 (4-[bis(2-chloroethyl)amino]-2,3,5-trifluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0026 * +EC3.4.17.11 (4-[bis(2-chloroethyl)amino]-3,5-difluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0017 * +EC3.4.17.11 (4-[bis(2-iodoethyl)amino]-2,3,5-trifluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0028 * +EC3.4.17.11 (4-[bis(2-iodoethyl)amino]-3,5-difluorobenzoyl)-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0017 * +EC3.4.17.11 4-amino-n10-methylpteroylaspartate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.58 * +EC3.4.17.11 4-aminopteroylaspartate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.104 * +EC3.4.17.11 5-formyltetrahydrofolate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.12 * +EC3.4.17.11 5-formyltetrahydrofolic acid pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0181 * +EC3.4.17.11 5-methyltetrahydrofolate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.034 * +EC3.4.17.11 5-methyltetrahydrofolic acid pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0129 * +EC3.4.17.11 [4-[bis(2-chloroethyl)amino]-3,5-difluorobenzoyl]-l-glutamic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00171 * +EC3.4.17.11 [4-[bis(2-hydroxyethyl)amino]-3,5-difluorobenzoyl]-l-glutamic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.4.17.11 aminopterin pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0083 * +EC3.4.17.11 di-tert-butyl 4-[[2'-[n,n-bis(2''-chloroethyl)amino]phenyl]carbamoyloxymethyl]phenyloxycarbonyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0013 * +EC3.4.17.11 diallyl 4-[[2'-[n,n-bis(2''-chloroethyl)amino]phenyl]carbamoyloxymethyl]phenylcarbamoyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00055 * +EC3.4.17.11 diallyl 4-[n-[4'-bis(2''-chloroethyl)aminophenyl]-n-methylcarbamoyloxymethyl]phenylcarbamoyl-l-glutamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00605 * +EC3.4.17.11 folate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.004 * +EC3.4.17.11 methotrexate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.008 * +EC3.4.17.11 methotrexate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0039 * +EC3.4.17.11 pteroylglutamic acid pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.0011 * +EC3.4.17.12 ala-ser-his-leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.4.17.12 benzoyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.115 * +EC3.4.17.12 benzoyl-asn-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.343 * +EC3.4.17.12 benzoyl-gln-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.127 * +EC3.4.17.12 benzoyl-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.255 * +EC3.4.17.12 benzoyl-gly-argininic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.17.12 benzoyl-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.15 * +EC3.4.17.12 benzoyl-his-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.239 * +EC3.4.17.12 benzoyl-ile-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.205 * +EC3.4.17.12 benzoyl-leu-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.168 * +EC3.4.17.12 benzoyl-met-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.17.12 benzoyl-phe-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0584 * +EC3.4.17.12 benzoyl-ser-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.219 * +EC3.4.17.12 benzoyl-thr-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.192 * +EC3.4.17.12 benzoyl-trp-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC3.4.17.12 benzoyl-tyr-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.17.12 benzoyl-val-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.264 * +EC3.4.17.12 bradykinin(-phe-arg) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0277 * +EC3.4.17.12 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.17.12 dansyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC3.4.17.12 furylacryloyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC3.4.17.12 furylacryloyl-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.152 * +EC3.4.17.12 gly-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.181 * +EC3.4.17.12 gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.17.12 his-leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.17.12 leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.17.12 leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC3.4.17.12 leu5-arg6-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.17.12 met5-arg6-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.17.12 met5-lys6-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.375 * +EC3.4.17.12 n-(4-hydroxybenzoyl)-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.206 * +EC3.4.17.12 pro-gly-lys-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.17.12 ser-his-leu-gly-leu-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC3.4.17.13 l-ala-d-glu-(l)-meso-diaminopimelic-acid-(omeganh2) lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.25 * +EC3.4.17.13 l-ala-gamma-d-glu-meso-diaminopimelyl-d-ala novosphingobium aromaticivorans//prokaryotes;bacteria;alphaproteobacteria;novosphingobium//nar 0.17 * +EC3.4.17.13 n-acetylmuramoyl-l-ala-d-glu-l-lys-d-ala lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.8 * +EC3.4.17.13 udp-n-acetylmuramyl-ala-d-glu-dap-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.108 * +EC3.4.17.13 udp-n-acetylmuramyl-ala-d-glu-dap-d-ala proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.4 * +EC3.4.17.15 angiotensin ii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.191 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.53 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.372 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.314 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.146 * +EC3.4.17.15 benzyloxycarbonyl-gly-gly-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.4.17.15 benzyloxycarbonyl-gly-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.27 * +EC3.4.17.15 benzyloxycarbonyl-gly-trp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.261 * +EC3.4.17.15 benzyloxycarbonyl-gly-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.127 * +EC3.4.17.15 benzyloxycarbonyl-gly-tyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC3.4.17.15 benzyloxycarbonyl-gly-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.145 * +EC3.4.17.16 benzyloxycarbonyl-pro-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.1 * +EC3.4.17.16 myoglobin penicillium janthinellum//*//* 0.1 * +EC3.4.17.18 2,4-dinitrophenyl-alanyl-alanyl-arginine thermoactinomyces vulgaris//*//* 4.4 * +EC3.4.17.18 benzyloxycarbonyl-ala-ala-arg thermoactinomyces vulgaris//*//* 0.69 * +EC3.4.17.18 benzyloxycarbonyl-ala-ala-leu thermoactinomyces vulgaris//*//* 0.04 * +EC3.4.17.18 n-2,4-dinitrophenyl-ala-ala-arg thermoactinomyces vulgaris//*//* 4.4 * +EC3.4.17.18 n-benzyloxycarbonyl-ala-ala-leu thermoactinomyces vulgaris//*//* 0.046 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-arg thermoactinomyces vulgaris//*//* 0.92 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-leu thermoactinomyces vulgaris//*//* 0.026 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-lys thermoactinomyces vulgaris//*//* 0.78 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-phe thermoactinomyces vulgaris//*//* 0.013 * +EC3.4.17.18 n-carbobenzoxy-ala-ala-trp thermoactinomyces vulgaris//*//* 0.01 * +EC3.4.17.19 n-(3-[2-furyl]acryloyl)-ala-lys trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.166 * +EC3.4.17.19 n-(3-[2-furyl]acryloyl)-phe-phe trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.073 * +EC3.4.17.2 3-(2-furyl)acryloyl-l-ala-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.17.2 benzoyl-gly-arg asterias amurensis//*//* 0.71 * +EC3.4.17.2 benzoyl-gly-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.17.2 benzoyl-gly-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 24.0 * +EC3.4.17.2 benzoyl-gly-glycylphenyllactic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC3.4.17.2 benzoyl-gly-l-arg protopterus aethiopicus//*//* 0.32 * +EC3.4.17.2 biotin-(epsilon-aminocaproic acid)2-glmvggvvr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.17.2 carbobenzoxy-gly-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 80.0 * +EC3.4.17.2 furylacryloylalanylarginine struthio camelus//*//* 0.12 * +EC3.4.17.2 furylacryloylalanylarginine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC3.4.17.2 furylacryloylalanyllysine struthio camelus//*//* 0.07 * +EC3.4.17.2 hippuryl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.277 * +EC3.4.17.2 hippuryl-arg struthio camelus//*//* 0.54 * +EC3.4.17.2 hippuryl-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.39 * +EC3.4.17.2 hippuryl-l-arg anopheles stephensi//*//* 2.22 * +EC3.4.17.2 hippuryl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.17.2 hippuryl-l-arg protopterus aethiopicus//*//* 0.053 * +EC3.4.17.2 hippuryl-l-arg salaria basilisca//*//* 0.32 * +EC3.4.17.2 hippuryl-l-arg struthio camelus//*//* 0.11 * +EC3.4.17.2 hippuryl-l-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.4.17.2 hippuryl-lys struthio camelus//*//* 2.63 * +EC3.4.17.2 hippuryl-lys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.55 * +EC3.4.17.2 n-(4-methoxyphenylazoformyl)-arg helicoverpa zea//*//* 0.06 * +EC3.4.17.2 n-(4-methoxyphenylazoformyl)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.17.2 n-(phenylcarbonyl)glycyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC3.4.17.2 n-benzoylglycyl-l-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.4.17.20 anisylazoformyl-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.979 * +EC3.4.17.20 arg6-leu5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 63.0 * +EC3.4.17.20 arg6-met5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 140.0 * +EC3.4.17.20 biotinyl-(epsilon-aminocaproic acid)-(epsilon-aminocaproic acid)-gly-leu-met-val-gly-gly-val-val-arg-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.17.20 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.0 * +EC3.4.17.20 hippuryl-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.44 * +EC3.4.17.20 hippuryl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.38 * +EC3.4.17.20 hippuryl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.12 * +EC3.4.17.20 hippuryl-l-argininic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 240.0 * +EC3.4.17.20 hippuryl-l-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.45 * +EC3.4.17.20 lys6-leu5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 110.0 * +EC3.4.17.20 lys6-met5-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 220.0 * +EC3.4.17.20 n-[3-(2-furylacryloyl)]-l-ala-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 210.0 * +EC3.4.17.20 n-[3-(2-furylacryloyl)]-l-ala-l-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.71 * +EC3.4.17.20 n-benzoyl-2'-cyano-l-phe-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.17.20 n-benzoyl-gly-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.84 * +EC3.4.17.20 p-anisylazoformyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000178 * +EC3.4.17.21 n-acetyl-asp-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 130.0 * +EC3.4.17.21 n-acetyl-l-asp-l-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.4.17.21 n-acetyl-l-asp-l-glu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00014 * +EC3.4.17.22 dansyl-ala-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC3.4.17.22 dansyl-leu-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.056 * +EC3.4.17.22 dansyl-leu-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC3.4.17.22 dansyl-phe-ala-arg anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.012 * +EC3.4.17.22 dansyl-phe-ala-arg anas sp.//*//* 0.023 * +EC3.4.17.22 dansyl-phe-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.063 * +EC3.4.17.22 dansyl-phe-gly-arg anas sp.//*//* 0.047 * +EC3.4.17.22 dansyl-phe-gly-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.4.17.22 dansyl-phe-ile-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.085 * +EC3.4.17.22 dansyl-phe-leu-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.042 * +EC3.4.17.22 dansyl-phe-phe-arg anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.021 * +EC3.4.17.22 dansyl-phe-phe-arg anas sp.//*//* 0.016 * +EC3.4.17.22 dansyl-phe-phe-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.17.22 dansyl-phe-pro-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC3.4.17.22 dansyl-pro-ala-arg anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.017 * +EC3.4.17.22 dansyl-pro-ala-arg anas sp.//*//* 0.0092 * +EC3.4.17.22 dansyl-pro-ala-arg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.052 * +EC3.4.17.22 tyr-gly-gly-phe-leu-arg anas sp.//*//* 0.115 * +EC3.4.17.22 tyr-gly-gly-phe-leu-lys anas sp.//*//* 0.0305 * +EC3.4.17.23 (7-methoxycoumarin-4-yl)acetyl-apk(2,4-dinitrophenyl)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.147 * +EC3.4.17.23 angiotensin 3-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0091 * +EC3.4.17.23 angiotensin 4-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0126 * +EC3.4.17.23 angiotensin 5-8 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0245 * +EC3.4.17.23 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC3.4.17.23 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.17.3 benzoyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.17.3 benzoyl-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.17.3 benzoyl-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.17.3 benzoyl-gly-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.7 * +EC3.4.17.3 benzoyl-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.17.3 benzoyl-gly-lys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.3 * +EC3.4.17.3 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.17.3 c3a69-77 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.17.3 c5a66-74 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.219 * +EC3.4.17.3 chemerin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1228 * +EC3.4.17.3 des-arg9-bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.17.3 fibrinopeptide alphaarg96-104 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.361 * +EC3.4.17.3 fibrinopeptide betalys125-133 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0532 * +EC3.4.17.3 fibrinopeptide gammalys54-62 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.4.17.3 fibrinopeptide gammalys77-85 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.238 * +EC3.4.17.3 fibrinopeptide-alpha-arg96-104 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3614 * +EC3.4.17.3 fibrinopeptide-beta-lys125-133 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0143 * +EC3.4.17.3 fibrinopeptide-gamma-lys54-62 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.17.3 fibrinopeptide-gamma-lys77-85 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2389 * +EC3.4.17.3 furylacryloyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC3.4.17.3 furylacryloyl-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.4.17.3 furylacryloylalanyl-l-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.17.3 hippuryl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.17.3 hippuryl-l-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.93 * +EC3.4.17.3 hippuryl-l-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.2 * +EC3.4.17.3 hippuryl-l-argininic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.4.17.3 hippuryl-l-lys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 35.8 * +EC3.4.17.3 hippuryl-l-lys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.3 * +EC3.4.17.3 leu-trp-met-arg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.9 * +EC3.4.17.4 4-dimethylaminoazobenzene-4'-sulfonyl-gly-l-phe-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0211 * +EC3.4.17.6 n-benzoyl-ala soil bacterium//*//* 4.3 * +EC3.4.17.6 n-benzoyl-gly soil bacterium//*//* 6.7 * +EC3.4.17.6 n-benzoyl-l-aminobutyric acid soil bacterium//*//* 4.3 * +EC3.4.17.8 acetyl-gly-d-ala-d-ala streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 1.1 * +EC3.4.17.8 acetyl-l-ala-d-ala-d-ala streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 3.3 * +EC3.4.17.8 diacetyl-l-diaminobutyryl-d-ala-d-ala streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.6 * +EC3.4.17.8 methyl n-acetylmuramate-l-ala-gamma-d-glu-meso-diaminopimelate-d-ala-d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.1 * +EC3.4.17.8 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.33 * +EC3.4.17.8 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.7 * +EC3.4.17.8 nalpha,nepsilon-diacetyl-l-lys-d-ala-d-ala streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.33 * +EC3.4.17.8 udp-n-acetylmuramoyl-l-ala-gamma-d-glu-l-mesodiaminopimelyl-d-ala-d-ala bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.4 * +EC3.4.17.8 udp-n-acetylmuramoyl-l-ala-gamma-d-glu-l-mesodiaminopimelyl-d-ala-d-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC3.4.17.8 udp-n-acetylmuramoyl-l-ala-gamma-d-glu-l-mesodiaminopimelyl-d-ala-d-ala streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.4 * +EC3.4.17.8 udp-n-acetylmuramoyl-l-alanyl-d-gamma-glutamyl-l-lysyl-d-alanyl-d-alanine enterococcus gallinarum//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ega 18.8 * +EC3.4.17.B1 benzoyl-glycyl-arginine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.17 * +EC3.4.17.B1 benzoyl-glycyl-lysine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.23 * +EC3.4.17.B1 benzyloxycarbonyl-arg sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.061 * +EC3.4.17.B1 benzyloxycarbonyl-asp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.22 * +EC3.4.17.B1 benzyloxycarbonyl-gly-gly-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.69 * +EC3.4.17.B1 benzyloxycarbonyl-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.31 * +EC3.4.17.B1 bz-gly sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.061 * +EC3.4.17.B1 fur-gly sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.028 * +EC3.4.17.B1 l-bz-ala sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.014 * +EC3.4.17.B1 l-bz-arg sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.014 * +EC3.4.17.B1 l-bz-glu sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.019 * +EC3.4.17.B1 l-bz-his sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.005 * +EC3.4.17.B1 l-bz-leu sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.501 * +EC3.4.17.B1 l-bz-met sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.028 * +EC3.4.17.B1 l-bz-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.034 * +EC3.4.17.B1 l-fur-leu sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.103 * +EC3.4.17.B1 l-fur-phe sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.013 * +EC3.4.17.B1 n-[3-(2-furylacryloyl)]-l-ala-l-lys sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.38 * +EC3.4.17.B4 n-benzyloxycarbonyl-ala-arg thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 1.4 * +EC3.4.17.B5 n-carboxybenzoyl-ala-arg pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.9 * +EC3.4.18.1 (2,4-dinitrophenyl)-gffgw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.18.1 (2,4-dinitrophenyl)-gffrw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.4.18.1 (2,4-dinitrophenyl)-gffw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.18.1 (2,4-dinitrophenyl)-gfrfw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.4.18.1 (2,4-dinitrophenyl)-gfrw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.4.18.1 (2,4-dinitrophenyl)-grffw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.4.18.1 cbz-fr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.18.1 cbz-rr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.18.1 glucagon bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.4.18.1 ortho-aminobenzoyl-fr-(2,3-diaminopropionyl)-(2,4-dinitrophenyl)-p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC3.4.18.1 ortho-aminobenzoyl-lr-(2,3-diaminopropionyl)-(2,4-dinitrophenyl)-p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC3.4.18.1 ortho-aminobenzoyl-rr-(2,3-diaminopropionyl)-(2,4-dinitrophenyl)-p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0083 * +EC3.4.19.1 2-aminobenzoyl-ala-leu-phe-gln-gly-pro-phe(no2)-ala aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.00129 * +EC3.4.19.1 4-nitrophenyl hexanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.19.1 ac-leu-p-nitroanilide aeropyrum pernix k1//*//* 0.01038 * +EC3.4.19.1 acetyl-ala-4-nitroanilide trematomus bernacchii//*//* 0.12 * +EC3.4.19.1 acetyl-met-7-amido-4-methylcoumarin trematomus bernacchii//*//* 0.11 * +EC3.4.19.1 acetyl-phe-2-naphthylamide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.0082 * +EC3.4.19.1 ala-beta-naphthylamide streptomyces morookaense//*//* 0.39 * +EC3.4.19.1 butyryl thiocholine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.19.1 formylmethionine-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC3.4.19.1 formylmethionine-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC3.4.19.1 formylmethionine-leu-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC3.4.19.1 formylmethionine-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC3.4.19.1 formylmethionine-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC3.4.19.1 formylmethionine-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.71 * +EC3.4.19.1 formylmethionine-val rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.4.19.1 leu-beta-naphthylamide streptomyces morookaense//*//* 0.12 * +EC3.4.19.1 n-acetyl-ala p-nitroanilide pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 18.4 * +EC3.4.19.1 n-acetyl-ala p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.8 * +EC3.4.19.1 n-acetyl-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.616 * +EC3.4.19.1 n-acetyl-ala-ala-ala-ala oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.1 * +EC3.4.19.1 n-acetyl-ala-ala-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 13.0 * +EC3.4.19.1 n-acetyl-ala-ala-ala-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.4.19.1 n-acetyl-ala-ala-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.19.1 n-acetyl-ala-ala-arg-gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.7 * +EC3.4.19.1 n-acetyl-ala-ala-phe-gly oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC3.4.19.1 n-acetyl-ala-ala-pro-ala oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 3.6 * +EC3.4.19.1 n-acetyl-ala-ala pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 7.6 * +EC3.4.19.1 n-acetyl-ala-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.4.19.1 n-acetyl-ala-p-nitroanilide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.5 * +EC3.4.19.1 n-acetyl-ala-p-nitroanilide cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 4.6 * +EC3.4.19.1 n-acetyl-ala-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC3.4.19.1 n-acetyl-l-ala-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.8 * +EC3.4.19.1 n-acetyl-l-alanyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.8 * +EC3.4.19.1 n-acetyl-l-leu-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.6 * +EC3.4.19.1 n-acetyl-l-leucyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.3 * +EC3.4.19.1 n-acetyl-l-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.04 * +EC3.4.19.1 n-acetyl-l-phenylalanyl 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.0 * +EC3.4.19.1 n-acetyl-leu p-nitroanilide pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 11.0 * +EC3.4.19.1 n-acetyl-leu-p-nitroanilide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.4 * +EC3.4.19.1 n-acetyl-met-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.49 * +EC3.4.19.1 n-acetyl-met-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.4.19.1 n-acetyl-met-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.4.19.1 n-acetyl-phe-2-naphthylamide aeropyrum pernix k1//*//* 0.0082 * +EC3.4.19.1 n-acetyl-phe-2-naphthylamide aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.00566 * +EC3.4.19.1 naphthyl butyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.19.1 p-nitrophenyl caprylate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 43.3 * +EC3.4.19.1 p-nitrophenylacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC3.4.19.1 p-nitrophenylbutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.19.1 p-nitrophenylpropionate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.4.19.1 p-nitrophenylvalerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.19.1 phe-beta-naphthylamide streptomyces morookaense//*//* 0.028 * +EC3.4.19.1 pro-beta-naphthylamide streptomyces morookaense//*//* 0.013 * +EC3.4.19.1 puromycin streptomyces morookaense//*//* 1.91 * +EC3.4.19.1 tyr-beta-naphthylamide streptomyces morookaense//*//* 0.067 * +EC3.4.19.11 n-acetylglucosamine-n-acetylmuramoyl-l-ala-d-glu-[-(l)-meso-diaminopimelic acid-d-ala]nh2 lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.99 * +EC3.4.19.11 n-acetylmuramoyl-l-ala-d-glu-(l)-meso-diaminopimelic acid-(l)-d-ala lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.33 * +EC3.4.19.11 n-acetylmuramoyl-l-ala-gamma-d-glu-(l)-meso-diaminopimelic acid-(l)-d-ala lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.57 * +EC3.4.19.12 branched dimeric ubiquitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.19.12 head-to-tail dimeric ubiquitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.19.12 ubiquitin 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7e-05 * +EC3.4.19.12 ubiquitin ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0006 * +EC3.4.19.12 ubiquitin ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.19.12 ubiquitin-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.33e-05 * +EC3.4.19.12 ubiquitin-7-amino-4-methylcoumarin synthetic construct//*//* 4e-05 * +EC3.4.19.12 ubiquitin-aw synthetic construct//*//* 8e-05 * +EC3.4.19.12 ubiquitin-rhodamine110-glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-05 * +EC3.4.19.12 ubiquitin-w-g75a synthetic construct//*//* 0.0001 * +EC3.4.19.12 ubiquitin-w-g76a synthetic construct//*//* 0.0011 * +EC3.4.19.12 ubiquitin-w-h68a synthetic construct//*//* 0.0005 * +EC3.4.19.12 ubiquitin-w-i44a synthetic construct//*//* 0.00031 * +EC3.4.19.12 ubiquitin-w-k11a synthetic construct//*//* 0.0011 * +EC3.4.19.12 ubiquitin-w-k48a synthetic construct//*//* 0.0003 * +EC3.4.19.12 ubiquitin-w-k63a synthetic construct//*//* 0.0004 * +EC3.4.19.12 ubiquitin-w-k6a synthetic construct//*//* 0.0009 * +EC3.4.19.12 ubiquitin-w-l71a synthetic construct//*//* 0.008 * +EC3.4.19.12 ubiquitin-w-l73a synthetic construct//*//* 0.0058 * +EC3.4.19.12 ubiquitin-w-l8a synthetic construct//*//* 0.0282 * +EC3.4.19.12 ubiquitin-w-r42a synthetic construct//*//* 0.0001 * +EC3.4.19.12 ubiquitin-w-r72a synthetic construct//*//* 0.0006 * +EC3.4.19.12 ubiquitin-w-r74a synthetic construct//*//* 0.0002 * +EC3.4.19.12 ubiquitin-w-v70a synthetic construct//*//* 0.0006 * +EC3.4.19.12 ubiquitin-w synthetic construct//*//* 0.00013 * +EC3.4.19.12 ubiquitin-wa synthetic construct//*//* 0.00045 * +EC3.4.19.12 ubiquitinyl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5e-05 * +EC3.4.19.12 ubiquitinyl-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00016 * +EC3.4.19.12 wild-type di-ubiquitin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0033 * +EC3.4.19.13 diclofenac-s-acyl-glutathione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0457 * +EC3.4.19.13 gamma-glutamyl l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0334 * +EC3.4.19.13 glutathione sulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0346 * +EC3.4.19.13 glutathione helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.918 * +EC3.4.19.13 l-glutamic acid-(4-nitroanilide) bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.37 * +EC3.4.19.13 l-glutamic acid-(4-nitroanilide) helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0125 * +EC3.4.19.13 l-glutamine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00133 * +EC3.4.19.13 leukotriene c4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0102 * +EC3.4.19.13 oxidized glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC3.4.19.13 reduced glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC3.4.19.13 s-(4-nitro-benzyl)glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC3.4.19.13 s-methylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0182 * +EC3.4.19.14 glutathione sulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0751 * +EC3.4.19.14 leukotriene c4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0102 * +EC3.4.19.14 leukotriene c4 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0022 * +EC3.4.19.14 oxidized glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.426 * +EC3.4.19.14 reduced glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC3.4.19.14 s-(4-nitro-benzyl)glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0148 * +EC3.4.19.14 s-decyl-gsh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.4.19.14 s-methylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0182 * +EC3.4.19.2 alpha-aminosuberic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC3.4.19.2 alpha-deamino-cystathionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC3.4.19.2 beta-deamino-cystathionine-1,6-oxytocin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00625 * +EC3.4.19.2 oxytocin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC3.4.19.3 4(r)-n-(2-nitroxyethyl)-2-oxothiazolidine-4-carboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.19.3 4(r)-n-(2-nitroxyethyl)-2-oxothiazolidine-4-carboxamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.58 * +EC3.4.19.3 4(r)-n-(2-nitroxyethyl)-2-oxothiazolidine-4-carboxamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.55 * +EC3.4.19.3 gonadotropin-releasing hormone trypanosoma brucei brucei//*//* 0.079 * +EC3.4.19.3 l-2-oxoimidazolidine-4-carboxyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.4.19.3 l-2-oxoimidazolidine-4-carboxyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.37 * +EC3.4.19.3 l-2-oxoimidazolidine-4-carboxyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-aminoethylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.53 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.55 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.57 * +EC3.4.19.3 l-2-oxooxazolidine-4-carboxyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.71 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-d-2-aminopropylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.43 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-ethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.62 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-2-aminopropylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.57 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC3.4.19.3 l-2-oxothiazolidine-4-carboxyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC3.4.19.3 l-pyroglutamyl p-nitroanilide leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0335 * +EC3.4.19.3 l-pyroglutamyl-7-amido-4-methylcoumarin trypanosoma brucei brucei//*//* 0.018 * +EC3.4.19.3 l-pyroglutamyl-ala bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.25 * +EC3.4.19.3 l-pyroglutamyl-aminoethylnitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC3.4.19.3 l-pyroglutamyl-arg bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.29 * +EC3.4.19.3 l-pyroglutamyl-asp bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.29 * +EC3.4.19.3 l-pyroglutamyl-beta-naphthylamide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.21 * +EC3.4.19.3 l-pyroglutamyl-beta-naphthylamide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.21 * +EC3.4.19.3 l-pyroglutamyl-glu bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.23 * +EC3.4.19.3 l-pyroglutamyl-gly bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.2 * +EC3.4.19.3 l-pyroglutamyl-his bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.23 * +EC3.4.19.3 l-pyroglutamyl-ile bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.14 * +EC3.4.19.3 l-pyroglutamyl-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC3.4.19.3 l-pyroglutamyl-l-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.046 * +EC3.4.19.3 l-pyroglutamyl-l-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.057 * +EC3.4.19.3 l-pyroglutamyl-leu bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.14 * +EC3.4.19.3 l-pyroglutamyl-lys bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.2 * +EC3.4.19.3 l-pyroglutamyl-met bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.13 * +EC3.4.19.3 l-pyroglutamyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC3.4.19.3 l-pyroglutamyl-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.038 * +EC3.4.19.3 l-pyroglutamyl-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC3.4.19.3 l-pyroglutamyl-p-nitroanilide trypanosoma brucei brucei//*//* 0.028 * +EC3.4.19.3 l-pyroglutamyl-phe bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.1 * +EC3.4.19.3 l-pyroglutamyl-ser bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.15 * +EC3.4.19.3 l-pyroglutamyl-thr bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.24 * +EC3.4.19.3 l-pyroglutamyl-trp bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.11 * +EC3.4.19.3 l-pyroglutamyl-tyr bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.2 * +EC3.4.19.3 l-pyroglutamyl-val bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.09 * +EC3.4.19.3 luteinizing-hormone-releasing hormone bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.49 * +EC3.4.19.3 neurotensin bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 1.91 * +EC3.4.19.3 pyroglutamate-4-methylcoumarin 7-amide cavia porcellus//*//* 0.15 * +EC3.4.19.3 pyroglutamate-4-methylcoumarin 7-amide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.04 * +EC3.4.19.3 pyroglutamate-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.19.3 pyroglutamic acid-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.059 * +EC3.4.19.3 pyroglutamyl-2-naphthylamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.7 * +EC3.4.19.3 pyroglutamyl-4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01536 * +EC3.4.19.3 pyroglutamyl-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.19.3 pyroglutamyl-ala gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.89 * +EC3.4.19.3 pyroglutamyl-beta-naphthylamide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.04 * +EC3.4.19.3 pyroglutamyl-beta-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02076 * +EC3.4.19.3 pyroglutamyl-beta-naphthylamide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.21 * +EC3.4.19.3 pyroglutamyl-beta-naphthylamide streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.79 * +EC3.4.19.3 pyroglutamyl-his-pro-4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00253 * +EC3.4.19.3 pyroglutamyl-his-pro-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0449 * +EC3.4.19.3 pyroglutamyl-p-nitroanilide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.73 * +EC3.4.19.3 pyroglutamyl-p-nitroanilide streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 20.0 * +EC3.4.19.3 thyroliberin-releasing hormone bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.59 * +EC3.4.19.3 thyroliberin cavia porcellus//*//* 0.04 * +EC3.4.19.3 thyrotrophic hormone releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.19.3 thyrotrophin-releasing hormone trypanosoma brucei brucei//*//* 0.041 * +EC3.4.19.3 thyrotropin-releasing hormone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.19.3 thyrotropin-releasing hormone mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.041 * +EC3.4.19.3 thyrotropin-releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC3.4.19.5 alpha-asp-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC3.4.19.5 beta-asp-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC3.4.19.5 beta-asp-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 18.0 * +EC3.4.19.5 beta-asp-his escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC3.4.19.5 beta-asp-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC3.4.19.5 beta-asp-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.91 * +EC3.4.19.5 beta-asp-phe cavia porcellus//*//* 0.41 * +EC3.4.19.5 beta-asp-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.4.19.5 beta-aspartyl-l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.4.19.5 beta-l-aspartyl-l-leucine lupinus luteus//*//* 0.136 * +EC3.4.19.6 (3-me-his2)thyrotropin-releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC3.4.19.6 5-oxoprolyl 2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.248 * +EC3.4.19.6 pyroglutamyl-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.419 * +EC3.4.19.6 pyroglutamyl-his-pro-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00253 * +EC3.4.19.6 pyroglutamyl-his-pro-7-amido-4-methylcoumarin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0035 * +EC3.4.19.6 pyroglutamyl-his-pro-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC3.4.19.6 pyroglutamyl-his-pro-oh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.311 * +EC3.4.19.6 pyroglutamyl-phe-pro-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.055 * +EC3.4.19.6 pyroglutamyl-thienylalanyl-pro-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.034 * +EC3.4.19.6 pyroglutamyl-tyr-pro-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.015 * +EC3.4.19.6 thyroliberin cavia porcellus//*//* 0.04 * +EC3.4.19.6 thyroliberin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0325 * +EC3.4.19.6 thyroliberin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.056 * +EC3.4.19.6 thyrotropin-releasing hormone-beta-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00942 * +EC3.4.19.6 thyrotropin-releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC3.4.19.6 thyrotropin-releasing hormone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.025 * +EC3.4.19.7 acetyl-met-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.4.19.7 acetyl-met-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.4.19.7 formylnorleucine-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC3.4.19.7 n-formyl-met 2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.19.7 n-formyl-met-leu-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC3.4.19.7 n-formyl-met-leu-tyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC3.4.19.7 n-formyl-met-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.4.19.7 n-formyl-met-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.63 * +EC3.4.19.7 n-formyl-met-trp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.71 * +EC3.4.19.7 n-formyl-met-val rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.4.19.9 5-formyltetrahydrofolate triglutamate danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.057 * +EC3.4.19.9 5-l-glutamyl-4-nitroanilide geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.0076 * +EC3.4.19.9 folic acid pentaglutamate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0012 * +EC3.4.19.9 l-glutamic acid gamma-(4-nitroanilide) geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.0076 * +EC3.4.19.9 methotrexate diglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02945 * +EC3.4.19.9 n5-methyltetrahydropteroyltetraglutamate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00083 * +EC3.4.19.9 p-aminobenzoylpentaglutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0015 * +EC3.4.19.9 p-aminobenzoylpentaglutamate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.00098 * +EC3.4.19.9 pteroyldiglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.19.9 pteroylheptaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.19.9 pteroylheptaglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00021 * +EC3.4.19.9 pteroylpentaglutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00052 * +EC3.4.19.9 pteroyltetraglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC3.4.19.9 pteroyltriglutamate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0017 * +EC3.4.19.9 pteroyltriglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC3.4.19.9 pteroyltriglutamate pisum sativum//*//* 0.024 * +EC3.4.19.9 pteroyltriglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00067 * +EC3.4.19.9 pteroyltriglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0091 * +EC3.4.21.1 4-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.4.21.1 4-nitrophenyl benzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.032 * +EC3.4.21.1 acetyl-leu methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.27 * +EC3.4.21.1 acetyl-leu methyl ester camelus bactrianus//*//* 1.0 * +EC3.4.21.1 acetyl-phe ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.04 * +EC3.4.21.1 acetyl-phe ethyl ester camelus bactrianus//*//* 1.39 * +EC3.4.21.1 acetyl-trp ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC3.4.21.1 acetyl-trp ethyl ester camelus bactrianus//*//* 1.12 * +EC3.4.21.1 acetyl-tyr ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.27 * +EC3.4.21.1 acetyl-tyr ethyl ester camelus bactrianus//*//* 2.0 * +EC3.4.21.1 ala-ala-phe-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.05 * +EC3.4.21.1 benzoyl-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.44 * +EC3.4.21.1 benzoyl-d-ala-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.94 * +EC3.4.21.1 benzoyl-d-leu-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.49 * +EC3.4.21.1 benzoyl-d-phe-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.58 * +EC3.4.21.1 benzoyl-gly-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.81 * +EC3.4.21.1 benzoyl-l-ala-4-guanidinophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.88 * +EC3.4.21.1 benzoyl-tyr ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.4.21.1 benzoyl-tyr ethyl ester camelus bactrianus//*//* 0.64 * +EC3.4.21.1 n-acetyl-l-leucine methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.02 * +EC3.4.21.1 n-acetyl-l-leucine methyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 8.72 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-pal-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0891 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-cn)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0101 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-coome)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1131 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-guanidine)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1203 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-nh2)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0635 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-(p-no2)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-phe-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0191 * +EC3.4.21.1 n-acetyl-l-phe-ala-thr-tyr-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0598 * +EC3.4.21.1 n-acetyl-l-phenylalanine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.12 * +EC3.4.21.1 n-acetyl-l-phenylalanine ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 2.58 * +EC3.4.21.1 n-acetyl-l-tryptophan ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC3.4.21.1 n-acetyl-l-tryptophan ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.14 * +EC3.4.21.1 n-acetyl-l-tyrosine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.17 * +EC3.4.21.1 n-acetyl-l-tyrosine ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.57 * +EC3.4.21.1 n-alpha-benzoyl-dl-arginine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.939 * +EC3.4.21.1 n-benzoyl-l-tyr ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC3.4.21.1 n-benzoyl-l-tyr ethyl ester gadus morhua//*//* 0.1 * +EC3.4.21.1 n-benzoyl-l-tyrosine 4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.4.21.1 n-benzoyl-l-tyrosine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.4.21.1 n-benzoyl-l-tyrosine ethyl ester camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.13 * +EC3.4.21.1 n-benzoyl-l-tyrosine methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.23 * +EC3.4.21.1 n-benzoyl-l-tyrosine-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.21.1 n-benzoyl-tyr p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC3.4.21.1 n-benzoyl-tyr p-nitroanilide gadus morhua//*//* 0.08 * +EC3.4.21.1 n-benzyloxycarbonyl-l-phe-ala-thr-phe-(p-no2)-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0009 * +EC3.4.21.1 n-benzyloxycarbonyl-l-phe-ala-thr-tyr-5-amido-2-nitrobenzoic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0177 * +EC3.4.21.1 n-glutaryl-l-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC3.4.21.1 n-succinyl-ala-ala-phe-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.013 * +EC3.4.21.1 n-succinyl-ala-ala-phe-7-amido-4-methylcoumarin diatraea saccharalis//*//* 0.0013 * +EC3.4.21.1 n-succinyl-ala-ala-phe-7-amido-4-methylcoumarin periplaneta americana//*//* 0.006 * +EC3.4.21.1 n-succinyl-ala-ala-phe-7-amido-4-methylcoumarin spodoptera frugiperda//*//* 0.023 * +EC3.4.21.1 n-succinyl-ala-ala-phe-7-amido-4-methylcoumarin tenebrio molitor//*//* 0.01 * +EC3.4.21.1 n-succinyl-ala-ala-pro-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC3.4.21.1 n-succinyl-ala-ala-pro-leu-4-nitroanilide musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0346 * +EC3.4.21.1 n-succinyl-ala-ala-pro-leu-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.26 * +EC3.4.21.1 n-succinyl-ala-ala-pro-lys-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.32 * +EC3.4.21.1 n-succinyl-ala-ala-pro-met-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.4.21.1 n-succinyl-ala-ala-pro-nle-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.052 * +EC3.4.21.1 n-succinyl-ala-ala-pro-nva-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.16 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-4-nitroanilide musca domestica//eukaryotes;animals;arthropods;insects//mde 0.112 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin musca domestica//eukaryotes;animals;arthropods;insects//mde 0.012 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0074 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide diatraea saccharalis//*//* 0.5 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide periplaneta americana//*//* 1.1 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide spodoptera frugiperda//*//* 0.2 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide struthio camelus//*//* 0.02 * +EC3.4.21.1 n-succinyl-ala-ala-pro-phe-p-nitroanilide tenebrio molitor//*//* 0.3 * +EC3.4.21.1 n-succinyl-ala-phe-ala bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.4.21.1 n-succinyl-ala-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.5 * +EC3.4.21.1 n-succinyl-l-ala-ala-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.044 * +EC3.4.21.1 n-succinyl-l-ala-ala-pro-p-nitroanilide sardinops sagax//*//* 0.074 * +EC3.4.21.1 n-succinyl-l-ala-ala-pro-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.21.1 n-succinyl-l-phe-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.09 * +EC3.4.21.1 n-succinyl-l-phenylalanine-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC3.4.21.1 n-succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin musca domestica//eukaryotes;animals;arthropods;insects//mde 0.012 * +EC3.4.21.1 n-succinyl-leu-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC3.4.21.1 n-succinyl-leu-tyr-7-amido-4-methylcoumarin diatraea saccharalis//*//* 0.022 * +EC3.4.21.1 n-succinyl-leu-tyr-7-amido-4-methylcoumarin periplaneta americana//*//* 0.01 * +EC3.4.21.1 n-succinyl-leu-tyr-7-amido-4-methylcoumarin spodoptera frugiperda//*//* 0.025 * +EC3.4.21.1 n-succinyl-leu-tyr-7-amido-4-methylcoumarin tenebrio molitor//*//* 0.032 * +EC3.4.21.1 n-succinyl-phe-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC3.4.21.1 n-succinyl-phe-7-amido-4-methylcoumarin diatraea saccharalis//*//* 3.0 * +EC3.4.21.1 n-succinyl-phe-7-amido-4-methylcoumarin periplaneta americana//*//* 5.0 * +EC3.4.21.1 n-succinyl-phe-7-amido-4-methylcoumarin spodoptera frugiperda//*//* 2.4 * +EC3.4.21.1 n-succinyl-phe-7-amido-4-methylcoumarin tenebrio molitor//*//* 2.3 * +EC3.4.21.1 nalpha-benzyloxycarbonyl-l-ala p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC3.4.21.1 nalpha-benzyloxycarbonyl-l-lys p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.62 * +EC3.4.21.1 nalpha-benzyloxycarbonyl-l-tyr p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC3.4.21.1 nalpha-tosyl-l-tyr benzyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.4.21.1 p-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0297 * +EC3.4.21.1 suc-ala-ala-pro-phe-4-nitroanilide pterygoplichthys disjunctivus//*//* 0.072 * +EC3.4.21.1 succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC3.4.21.1 succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC3.4.21.1 succinyl-ala-ala-pro-phe-p-nitroanilide sardinops caeruleus//*//* 0.048 * +EC3.4.21.1 succinyl-ala-ala-pro-tyr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC3.4.21.1 succinyl-l-ala-ala-pro-l-phenylalanine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC3.4.21.1 succinyl-l-ala-l-ala-l-pro-l-leu-4-nitroanilide sepia officinalis//*//* 0.054 * +EC3.4.21.1 succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide farfantepenaeus californiensis//*//* 0.12 * +EC3.4.21.1 succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide sepia officinalis//*//* 0.022 * +EC3.4.21.1 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.21.1 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin carassius auratus//*//* 0.0005 * +EC3.4.21.10 aminobenzoyl-ser-lys-gly-arg-ser-leu-ile-gly-lys(dinitrophenyl)-asp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC3.4.21.10 nalpha-benzoyl-dl-lysine p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.65 * +EC3.4.21.10 nalpha-benzoyl-l-arginine ethyl ester hydrochloride ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.28 * +EC3.4.21.10 nalpha-benzoyl-l-arginine ethyl ester capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.44 * +EC3.4.21.10 nalpha-benzoyl-l-arginine p-nitroanilide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 1.1 * +EC3.4.21.10 nalpha-benzyol-l-arginine beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 2.7 * +EC3.4.21.10 nalpha-tosyl-l-arginine methyl ester capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.77 * +EC3.4.21.10 toluene-p-sulfonyl-l-arginine methyl ester ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.021 * +EC3.4.21.100 lys-pro-ala-asp-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.013 * +EC3.4.21.100 lys-pro-ala-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0174 * +EC3.4.21.100 lys-pro-ala-leu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0074 * +EC3.4.21.100 lys-pro-ala-lys-leu-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.06 * +EC3.4.21.100 lys-pro-ala-lys-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.095 * +EC3.4.21.100 lys-pro-arg-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0224 * +EC3.4.21.100 lys-pro-asn-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0247 * +EC3.4.21.100 lys-pro-asp-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0242 * +EC3.4.21.100 lys-pro-gln-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0162 * +EC3.4.21.100 lys-pro-glu-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00612 * +EC3.4.21.100 lys-pro-ile-ala-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0131 * +EC3.4.21.100 lys-pro-ile-arg-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.01 * +EC3.4.21.100 lys-pro-ile-asn-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0189 * +EC3.4.21.100 lys-pro-ile-asp-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0106 * +EC3.4.21.100 lys-pro-ile-gln-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0207 * +EC3.4.21.100 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-ala-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00827 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ala pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00697 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-arg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00542 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-asp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00962 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0037 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0111 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-phe pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0074 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ser pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0101 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-tyr pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00627 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-val pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00547 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-asn-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0309 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-asp-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00946 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-glu-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00901 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-ile-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0153 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-leu-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00567 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-lys-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0189 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-ser-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.014 * +EC3.4.21.100 lys-pro-ile-glu-phe-p-nitrophenylalanine-val-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.028 * +EC3.4.21.100 lys-pro-ile-his-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0229 * +EC3.4.21.100 lys-pro-ile-ile-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.017 * +EC3.4.21.100 lys-pro-ile-leu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00422 * +EC3.4.21.100 lys-pro-ile-lys-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0564 * +EC3.4.21.100 lys-pro-ile-nle-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00713 * +EC3.4.21.100 lys-pro-ile-pro-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0275 * +EC3.4.21.100 lys-pro-ile-ser-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00999 * +EC3.4.21.100 lys-pro-ile-thr-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0106 * +EC3.4.21.100 lys-pro-ile-val-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00782 * +EC3.4.21.100 lys-pro-leu-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00884 * +EC3.4.21.100 lys-pro-lys-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0275 * +EC3.4.21.100 lys-pro-ser-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00875 * +EC3.4.21.100 lys-pro-thr-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0132 * +EC3.4.21.100 lys-pro-val-glu-phe-p-nitrophenylalanine-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0115 * +EC3.4.21.100 lys-pro-val-ser-tyr-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.019 * +EC3.4.21.100 mca-lys-pro-pro-leu-glu-tyr-arg-leu-gly-lys(dnp)-gly pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.00012 * +EC3.4.21.101 lys-pro-ala-asp-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0191 * +EC3.4.21.101 lys-pro-ala-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00605 * +EC3.4.21.101 lys-pro-ala-lys-phe-(4-nitro)phe-arg-leu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0829 * +EC3.4.21.101 lys-pro-arg-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00932 * +EC3.4.21.101 lys-pro-asn-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0115 * +EC3.4.21.101 lys-pro-asp-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0139 * +EC3.4.21.101 lys-pro-gln-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.013 * +EC3.4.21.101 lys-pro-glu-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.012 * +EC3.4.21.101 lys-pro-ile-ala-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.005 * +EC3.4.21.101 lys-pro-ile-arg-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0135 * +EC3.4.21.101 lys-pro-ile-asn-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00531 * +EC3.4.21.101 lys-pro-ile-asp-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0026 * +EC3.4.21.101 lys-pro-ile-gln-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0126 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-ala-leu xanthomonas sp.//*//* 0.0174 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ala xanthomonas sp.//*//* 0.00763 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-arg xanthomonas sp.//*//* 0.0063 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-asp xanthomonas sp.//*//* 0.00995 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ile xanthomonas sp.//*//* 0.00824 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0106 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-phe xanthomonas sp.//*//* 0.00746 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-ser xanthomonas sp.//*//* 0.00982 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-tyr xanthomonas sp.//*//* 0.00944 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-arg-val xanthomonas sp.//*//* 0.00532 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-asn-leu xanthomonas sp.//*//* 0.0183 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-asp-leu xanthomonas sp.//*//* 0.0213 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-glu-leu xanthomonas sp.//*//* 0.0217 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-ile-leu xanthomonas sp.//*//* 0.00977 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-leu-leu xanthomonas sp.//*//* 0.0283 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-lys-leu xanthomonas sp.//*//* 0.0158 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-ser-leu xanthomonas sp.//*//* 0.0164 * +EC3.4.21.101 lys-pro-ile-glu-phe-p-nitrophenylalanine-val-leu xanthomonas sp.//*//* 0.0138 * +EC3.4.21.101 lys-pro-ile-his-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0101 * +EC3.4.21.101 lys-pro-ile-ile-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00716 * +EC3.4.21.101 lys-pro-ile-leu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00214 * +EC3.4.21.101 lys-pro-ile-lys-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0173 * +EC3.4.21.101 lys-pro-ile-nle-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0662 * +EC3.4.21.101 lys-pro-ile-pro-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00782 * +EC3.4.21.101 lys-pro-ile-ser-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00523 * +EC3.4.21.101 lys-pro-ile-thr-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00451 * +EC3.4.21.101 lys-pro-ile-val-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00445 * +EC3.4.21.101 lys-pro-leu-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0114 * +EC3.4.21.101 lys-pro-lys-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0183 * +EC3.4.21.101 lys-pro-phe-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0105 * +EC3.4.21.101 lys-pro-ser-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0039 * +EC3.4.21.101 lys-pro-thr-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.0071 * +EC3.4.21.101 lys-pro-tyr-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00224 * +EC3.4.21.101 lys-pro-val-glu-phe-p-nitrophenylalanine-arg-leu xanthomonas sp.//*//* 0.00995 * +EC3.4.21.102 2n-[[(1-sulfono-5-naphthyl)amino]ethyl]aminosuccinyl-ala-ala-arg-ala-ala-[nepsilon-[4-[4-(dimethylamino)phenylazo]benzoyl]lysyl]-(6-aminocaproyl)2-glu-asn-tyr-ala-leu-ala-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0044 * +EC3.4.21.102 ac-waraaaraaarbaab escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC3.4.21.102 arc repressor escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.4.21.102 c-terminal 19 amino acids of pred1 protein spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.3 * +EC3.4.21.105 bodipy fl casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00087 * +EC3.4.21.105 cypet-tata-ypet providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.0039 * +EC3.4.21.105 fl-casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC3.4.21.105 fl-casein haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0065 * +EC3.4.21.105 fl-casein providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.0018 * +EC3.4.21.105 tata escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC3.4.21.105 tata haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.119 * +EC3.4.21.105 tata providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.0076 * +EC3.4.21.106 abz-kqsrkfvpy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.114 * +EC3.4.21.106 abz-raarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.106 abz-rkrrgsrgy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.189 * +EC3.4.21.106 abz-rlarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.4.21.106 abz-rqaravggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.191 * +EC3.4.21.106 abz-rqarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.369 * +EC3.4.21.106 abz-rqaryvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.175 * +EC3.4.21.106 abz-rqlrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC3.4.21.106 abz-rqrraleky(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC3.4.21.106 abz-rqrrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.106 abz-rqyrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.109 * +EC3.4.21.106 abz-rrarvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.072 * +EC3.4.21.106 abz-skgrsligy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.373 * +EC3.4.21.106 abz-sklrvvggy(3-no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.106 l-asp-l-ala-l-ala-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.106 l-asp-l-lys-(gamma-cbo)-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.106 pro-urokinase-type plasminogen activator homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0341 * +EC3.4.21.107 csp-1 fret peptide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.47e-05 * +EC3.4.21.107 succinyl-leu-leu-val-tyr-4-methylcoumarin 7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0346 * +EC3.4.21.108 (7-methoxycoumarin-4-yl)airrvsysf-(5-amino-2-nitro)benzamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00158 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-abu-tyr-met-his-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0391 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-abu-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0227 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-abu-tyr-met-trp-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.107 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-thr-ser-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.354 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-val-abu-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0315 * +EC3.4.21.108 2-aminobenzoic acid-ile-met-val-ser-tyr-met-phe-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.177 * +EC3.4.21.108 beta-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.21.109 abz-ile-arg-ala-arg-ser-ala-ala-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 35.5 * +EC3.4.21.109 abz-ile-arg-ala-arg-ser-ala-gly-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.35 * +EC3.4.21.109 abz-ile-arg-ala-arg-ser-ala-ser-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.5 * +EC3.4.21.109 alphaebeta7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.109 butyloxycarbonyl-l-gln-l-ala-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.159 * +EC3.4.21.109 filaggrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.109 matriptase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.104 * +EC3.4.21.109 methylsulfonyl-d-cyclohexyltyrosyl-glycyl-arginine-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.4.21.109 methylsulfonyl-d-cyclohexyltyrosylglycyl-arginine-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.21.109 n-succinyl-ala-phe-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0699 * +EC3.4.21.109 n-tert-butoxycarbonyl-gamma-benzyl-glu-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00381 * +EC3.4.21.109 n-tert-butoxycarbonyl-gamma-benzyl-glu-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0475 * +EC3.4.21.109 n-tert-butoxycarbonyl-gln-ala-arg 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00489 * +EC3.4.21.109 n-tert-butoxycarbonyl-leu-gly-arg 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0136 * +EC3.4.21.109 pro-urokinase plasminogen activator homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.4.21.109 protease-activated receptor-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.142 * +EC3.4.21.109 raarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.159 * +EC3.4.21.109 rlarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC3.4.21.109 rqaravgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.21.109 rqarqvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.4.21.109 rqarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.104 * +EC3.4.21.109 rqaryvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.869 * +EC3.4.21.109 rqlrvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.124 * +EC3.4.21.109 rqrrvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.109 rqyrvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.109 rrarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.4.21.109 ryarvvgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.137 * +EC3.4.21.109 single-chain urokinase-type plasminogen activator rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00352 * +EC3.4.21.109 suc-ala-ala-pro-arg-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 240.0 * +EC3.4.21.109 suc-ala-ala-pro-lys-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 534.0 * +EC3.4.21.109 t-butyloxycarbonyl-l-gln-l-ala-l-arg-4-methyl-coumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.582 * +EC3.4.21.109 trask homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC3.4.21.110 ac-sqlranish-4-nitroanilide streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 2.0 * +EC3.4.21.110 sqlranishkdmqlgr streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.36 * +EC3.4.21.110 vvasqlranish streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.936 * +EC3.4.21.111 n-succinyl-ala-ala-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 1.1 * +EC3.4.21.111 n-succinyl-ala-ala-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.91 * +EC3.4.21.111 n-succinyl-ala-ala-pro-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.69 * +EC3.4.21.111 n-succinyl-ala-ala-val-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 1.6 * +EC3.4.21.111 n-succinyl-ala-ala-val-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.7 * +EC3.4.21.111 n-succinyl-ala-pro-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.79 * +EC3.4.21.111 n-succinyl-gly-gly-phe-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 1.6 * +EC3.4.21.111 n-succinyl-ile-val-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.064 * +EC3.4.21.111 n-succinyl-phe-ala-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.04 * +EC3.4.21.111 n-succinyl-phe-leu-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.087 * +EC3.4.21.111 n-succinyl-phe-nle-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.036 * +EC3.4.21.111 n-succinyl-phe-val-ala-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.039 * +EC3.4.21.111 n-succinyl-phe-val-leu-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.41 * +EC3.4.21.111 n-tert-butyloxycarbonyl-val-leu-gly-arg-4-nitroanilide thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 2.9 * +EC3.4.21.112 2-aminobenzoic acid-ssgsrrllseesy(no2)-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.4.21.112 2-aminobenzoyl-arg-asn-thr-pro-arg-arg-glu-arg-arg-arg-lys-lys-arg-gly-leu-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.21.112 2-aminobenzoyl-arg-his-ser-ser-arg-arg-leu-leu-arg-ala-ile-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.112 2-aminobenzoyl-arg-ser-leu-lys-tyr-ala-glu-ser-asp-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00096 * +EC3.4.21.112 2-aminobenzoyl-asp-ile-tyr-ile-ser-arg-arg-leu-leu-gly-thr-phe-thr-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC3.4.21.112 2-aminobenzoyl-ser-arg-arg-leu-leu-arg-ala-leu-glu-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.21.112 2-aminobenzoyl-val-phe-arg-ser-leu-lys-tyr-ala-glu-ser-asp-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00428 * +EC3.4.21.112 abz-diyisrrllgtfty(no2)a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.4.21.112 ac-arg-arg-leu-leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0255 * +EC3.4.21.112 ac-arg-ser-leu-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1335 * +EC3.4.21.112 ac-vfrslk-4-methyl-coumaryl-7-amide mammalia//*//* 0.1 * +EC3.4.21.114 dabsyl-lys-thr-ala-tyr-phe-gln-leu-glu-gly-arg-his-phe-glu-edans porcine reproductive and respiratory syndrome virus//*//* 2.24 * +EC3.4.21.117 abz-aikffsa-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.4.21.117 abz-alfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.4.21.117 abz-flfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.21.117 abz-gfspfrssri-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.21.117 abz-gfspfrssrigeikeett-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC3.4.21.117 abz-glfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.21.117 abz-hlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.21.117 abz-ilfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.117 abz-kafssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.4.21.117 abz-kffssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.21.117 abz-klfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.21.117 abz-klyssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.21.117 abz-kpfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.4.21.117 abz-kvfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.21.117 abz-kyfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.117 abz-llfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.4.21.117 abz-mislmkrp-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.117 abz-nlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.4.21.117 abz-qlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC3.4.21.117 abz-rlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC3.4.21.117 abz-vlfssk-q-n-[2,4-dinitrophenyl]-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.117 ac-ed(5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid)kpilfrlgk(4-(4-dimethylaminophenylazo)benzoic acid)e-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC3.4.21.117 ac-efkpilwrlgc-(6-(9-oxo-9h-acridin-10-yl)-hexanoate)e-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.21.117 acetyl-phe-val-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.21.117 l-phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0443 * +EC3.4.21.117 l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0402 * +EC3.4.21.117 mca-arg-pro-lys-pro-val-glu-nva-trp-arg-lys(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0159 * +EC3.4.21.117 methoxy-suc-arg-pro-tyr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.21.117 phe-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0402 * +EC3.4.21.117 succinyl-phe-leu-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.118 benzyloxycarbonyl-gly-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4312 * +EC3.4.21.118 benzyloxycarbonyl-l-val-l-val-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.118 d-val-leu-arg-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC3.4.21.118 l-pro-l-phe-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.118 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1533 * +EC3.4.21.118 t-butyloxycarbonyl-l-leu-l-lys-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.118 t-butyloxycarbonyl-l-phe-l-ser-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.118 t-butyloxycarbonyl-l-val-l-leu-l-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.118 t-butyloxycarbonyl-l-val-l-pro-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.118 tert-butyloxycarbonyl-gln-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1844 * +EC3.4.21.118 tert-butyloxycarbonyl-gln-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2247 * +EC3.4.21.118 tert-butyloxycarbonyl-gln-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3699 * +EC3.4.21.118 tert-butyloxycarbonyl-leu-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1165 * +EC3.4.21.118 tert-butyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1407 * +EC3.4.21.118 tert-butyloxycarbonyl-phe-ser-arg-4-methylcoumaryl-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.54 * +EC3.4.21.118 tert-butyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2983 * +EC3.4.21.118 tert-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3326 * +EC3.4.21.118 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumaryl-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.4.21.118 tert-butyloxycarbonyl-val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0238 * +EC3.4.21.118 tosyl-gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6897 * +EC3.4.21.119 abz-klksskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC3.4.21.119 abz-klrsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.21.120 nalpha-tert-butoxycarbonylphenylalanylserylarginyl-4-methylcoumarin-7-amide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.058 * +EC3.4.21.19 benzyloxycarbonyl-ala-ala-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 3.5 * +EC3.4.21.19 benzyloxycarbonyl-ala-ala-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 7.6 * +EC3.4.21.19 benzyloxycarbonyl-ala-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 4.2 * +EC3.4.21.19 benzyloxycarbonyl-ala-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 13.3 * +EC3.4.21.19 benzyloxycarbonyl-ala-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.5 * +EC3.4.21.19 benzyloxycarbonyl-ala-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.9 * +EC3.4.21.19 benzyloxycarbonyl-glu-4-nitroanilide bacillus intermedius//*//* 0.5 * +EC3.4.21.19 benzyloxycarbonyl-glu-p-nitroanilide bacillus intermedius//*//* 6.0 * +EC3.4.21.19 benzyloxycarbonyl-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 1.8 * +EC3.4.21.19 benzyloxycarbonyl-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 28.4 * +EC3.4.21.19 benzyloxycarbonyl-l-ala-l-ala-l-leu-l-glu-4-nitroanilide bacillus intermedius//*//* 0.67 * +EC3.4.21.19 benzyloxycarbonyl-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 5.5 * +EC3.4.21.19 benzyloxycarbonyl-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 16.5 * +EC3.4.21.19 benzyloxycarbonyl-leu-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.8 * +EC3.4.21.19 benzyloxycarbonyl-leu-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.5 * +EC3.4.21.19 benzyloxycarbonyl-phe-leu-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 3.9 * +EC3.4.21.19 benzyloxycarbonyl-phe-leu-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.2 * +EC3.4.21.19 l-phe-l-leu-l-glu-4-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.48 * +EC3.4.21.19 leu-leu-glu-4-methylcoumaryl-7-amide staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.3 * +EC3.4.21.19 succinyl-ala-ala-pro-glu-p-nitroanilide enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.027 * +EC3.4.21.19 succinyl-ala-ala-pro-glu-p-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.045 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-asp-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 11.6 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-asp-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 24.5 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-glu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 4.9 * +EC3.4.21.19 t-butyloxycarbonyl-ala-ala-glu-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 19.7 * +EC3.4.21.2 acetyl-l-leu methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC3.4.21.2 acetyl-l-trp ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC3.4.21.2 acetyl-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.0 * +EC3.4.21.2 benzoyl-l-leu ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 28.0 * +EC3.4.21.2 benzoyl-l-leu methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.4.21.2 benzoyl-l-met ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.0 * +EC3.4.21.2 benzoyl-l-phe ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.85 * +EC3.4.21.2 benzoyl-l-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.4.21.2 benzyloxycarbonyl-l-leu-gly-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.0 * +EC3.4.21.2 n-acetyl-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 20.0 * +EC3.4.21.2 n-succinyl-l-ala-ala-pro-leu-p-nitroanilide conogethes punctiferalis//*//* 0.000168 * +EC3.4.21.2 succinyl-ala-ala-pro-ala 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.392 * +EC3.4.21.2 succinyl-ala-ala-pro-asn 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.452 * +EC3.4.21.2 succinyl-ala-ala-pro-gln 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.738 * +EC3.4.21.2 succinyl-ala-ala-pro-ile 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0605 * +EC3.4.21.2 succinyl-ala-ala-pro-leu 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0118 * +EC3.4.21.2 succinyl-ala-ala-pro-met 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0304 * +EC3.4.21.2 succinyl-ala-ala-pro-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.21.2 succinyl-ala-ala-pro-trp 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0277 * +EC3.4.21.2 succinyl-ala-ala-pro-tyr 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0196 * +EC3.4.21.2 succinyl-ala-ala-pro-val 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1504 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-asp-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-phe-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.21.20 7-methoxycoumarin-4-yl-acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-ser-trp-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.20 acetyl-phe-val-thr-(4-guanidine-l-phenylalanyl)-amino benzoyl-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.203 * +EC3.4.21.20 methoxysuccinyl-l-alanine-l-alanine-l-proline-l-valine-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.49 * +EC3.4.21.20 n-acetyl-l-phenylalanine-p-nitrophenyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.52 * +EC3.4.21.20 n-benzoyl-l-tyrosine ethyl ester canis lupus familiaris//*//* 0.42 * +EC3.4.21.20 n-benzoyl-l-tyrosine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.21.20 n-succinyl-l-val-l-pro-l-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC3.4.21.20 n-succinyl-l-val-l-pro-l-phe-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC3.4.21.20 succinyl-ala-ala-pro-leu-p-nitroanilide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.7 * +EC3.4.21.20 succinyl-ala-ala-pro-phe-p-nitroanilde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.86 * +EC3.4.21.20 succinyl-phe-leu-phe-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.4.21.21 benzyloxycarbonyl-arg-p-nitrobenzyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC3.4.21.21 d-ile-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.21 d-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.25 * +EC3.4.21.21 factor x homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5e-05 * +EC3.4.21.21 h-d-isoleucyl-l-prolyl-arginine-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.21 methanesulfonyl-d-cyclohexylalanyl-butyl-arginine p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.4.21.21 n-methylsulfonyl-d-phe-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.21.21 s-2288 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.8 * +EC3.4.21.21 spectrozyme fviia homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.4.21.22 4-methylsulfonyl-d-leu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.22 ch3so2-d-leu-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.22 ch3so2-d-leu-gly-l-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.21.22 factor x bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8e-05 * +EC3.4.21.22 factor x homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.11e-06 * +EC3.4.21.22 l-leu-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.22 methoxycarbonyl-d-nle-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.62 * +EC3.4.21.22 methylsulfonyl-d-cyclohexylglycyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.43 * +EC3.4.21.22 methylsulfonyl-d-hexahydrotyrosyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.99 * +EC3.4.21.25 ala-ala-pro-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.585 * +EC3.4.21.25 ala-ala-pro-glu-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.355 * +EC3.4.21.25 ala-ala-pro-gly-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.485 * +EC3.4.21.25 ala-ala-pro-l-diaminopropionic acid-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.11 * +EC3.4.21.25 ala-ala-pro-leu-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.96 * +EC3.4.21.25 ala-ala-pro-lys-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.826 * +EC3.4.21.25 ala-ala-pro-phe-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.826 * +EC3.4.21.25 ala-ala-pro-val-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.595 * +EC3.4.21.25 benzoyl-tyr-ethyl ester cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 3.33 * +EC3.4.21.25 benzyloxycarbonyl-glu-tyr cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.02 * +EC3.4.21.25 glutaryl-ala-ala-pro-leu-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.25 * +EC3.4.21.25 kvekeesee glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.3 * +EC3.4.21.25 l-alanyl-4-nitroanilide ficus religiosa//*//* 0.002 * +EC3.4.21.25 l-alanyl-l-alanyl-4-nitroanilide ficus religiosa//*//* 0.004 * +EC3.4.21.25 l-gamma-glutamyl-4-nitroanilide ficus religiosa//*//* 0.273 * +EC3.4.21.25 l-leucyl-4-nitroanilide ficus religiosa//*//* 0.093 * +EC3.4.21.25 leu-leu-pro-ala-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.8 * +EC3.4.21.25 leu-leu-pro-asn-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 3.9 * +EC3.4.21.25 leu-leu-pro-gln-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 5.6 * +EC3.4.21.25 leu-leu-pro-glu-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.8 * +EC3.4.21.25 leu-leu-pro-glu-lys-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 3.0 * +EC3.4.21.25 leu-leu-pro-glu-ser-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.8 * +EC3.4.21.25 leu-leu-pro-his-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.9 * +EC3.4.21.25 leu-leu-pro-leu-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.7 * +EC3.4.21.25 leu-leu-pro-met-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 4.1 * +EC3.4.21.25 leu-leu-pro-phe-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.6 * +EC3.4.21.25 leu-leu-pro-ser-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 0.6 * +EC3.4.21.25 leu-leu-pro-thr-ala-leu cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.1 * +EC3.4.21.25 succinyl-ala-ala-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.72 * +EC3.4.21.25 succinyl-ala-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 2.91 * +EC3.4.21.25 succinyl-ala-ala-pro-phe-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.0 * +EC3.4.21.25 succinyl-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 3.57 * +EC3.4.21.25 succinyl-ala-pro-ala-p-nitroanilide cucumis melo//eukaryotes;plants;eudicots;cucumber family//cmo 1.96 * +EC3.4.21.26 2-aminobenzoyl-fpq-(n-(2,4-dinitrophenyl)ethylenediamine) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00065 * +EC3.4.21.26 2-aminobenzoyl-glu-gly-phe-ser-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.7 * +EC3.4.21.26 2-aminobenzoyl-glu-phe-ser-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.32 * +EC3.4.21.26 2-aminobenzoyl-gly-glu-ser-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.3 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-arg-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-glu-pro-phe(no2)-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.54 * +EC3.4.21.26 2-aminobenzoyl-gly-phe-gly-pro-phe-gly-phe(no2)-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00205 * +EC3.4.21.26 2-aminobenzoyl-rppgfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00074 * +EC3.4.21.26 7-succinyl-gly-pro-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.26 abz-gly-l-phe-l-arg-l-pro-l-phe(no2)-l-arg-l-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00081 * +EC3.4.21.26 ala-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 0.35 * +EC3.4.21.26 ala-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0194 * +EC3.4.21.26 ala-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0194 * +EC3.4.21.26 angiotensin i mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC3.4.21.26 angiotensin ii mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.036 * +EC3.4.21.26 arg-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0229 * +EC3.4.21.26 arg-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0229 * +EC3.4.21.26 asp-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.04 * +EC3.4.21.26 asp-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.04 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.043 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.58 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.043 * +EC3.4.21.26 benzyloxycarbonyl-ala-ala-p-nitrophenol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.16 * +EC3.4.21.26 benzyloxycarbonyl-ala-gly-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.29 * +EC3.4.21.26 benzyloxycarbonyl-ala-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 0.31 * +EC3.4.21.26 benzyloxycarbonyl-ala-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.02 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-2-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0437 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.08 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-p-nitroanilide lyophyllum cinerascens//*//* 0.01 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0437 * +EC3.4.21.26 benzyloxycarbonyl-ala-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.07 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-gly-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.14 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 1.67 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.38 * +EC3.4.21.26 benzyloxycarbonyl-d-ala-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.2 * +EC3.4.21.26 benzyloxycarbonyl-gly-gly-pro-p-nitrophenol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.133 * +EC3.4.21.26 benzyloxycarbonyl-gly-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.27 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-4-nitroanilide coprinopsis clastophylla//*//* 3.42 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-4-nitroanilide eurygaster integriceps//*//* 0.06528 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-7-amido-4-methylcoumarin coprinopsis clastophylla//*//* 1.74 * +EC3.4.21.26 benzyloxycarbonyl-gly-l-pro-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-4-methylcoumaryl-7-amide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.025 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-4-methylcoumaryl-7-amide lyophyllum cinerascens//*//* 0.02 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.39 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.08 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-beta-naphthylamide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.14 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-beta-naphthylamide lyophyllum cinerascens//*//* 0.02 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0059 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-d-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.25 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-d-leu ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.32 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.32 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.12 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-d-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 1.5 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-d-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.37 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-ala elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 1.82 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.18 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-d-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.14 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 1.4 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.13 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly-pro ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.68 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.47 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.06 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.22 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-leu ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.17 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitroanilide lyophyllum cinerascens//*//* 0.4 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.16 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitrophenol elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.125 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.07 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-p-nitrophenyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0192 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-phe elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.74 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-phe ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.16 * +EC3.4.21.26 benzyloxycarbonyl-gly-pro-sbzl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.016 * +EC3.4.21.26 benzyloxycarbonyl-pro-p-nitrophenol ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.14 * +EC3.4.21.26 calcitonin gene-related peptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0043 * +EC3.4.21.26 furylacryloyl-ala-pro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.4.21.26 gly-pro-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0207 * +EC3.4.21.26 gly-pro-p-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0207 * +EC3.4.21.26 l-ala-l-ala-l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.18 * +EC3.4.21.26 n-benzyloxycarbonyl-ala-ala-p-nitrophenyl ester elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.16 * +EC3.4.21.26 n-benzyloxycarbonyl-gly-pro-ala ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.48 * +EC3.4.21.26 n-benzyloxycarbonyl-gly-pro-leu-gly ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.06 * +EC3.4.21.26 n-benzyloxycarbonyl-gly-pro-p-nitrophenyl ester elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.125 * +EC3.4.21.26 n-carbobenzoxy-gly-pro-2-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.029 * +EC3.4.21.26 n-suc-gly-pro-leu-gly-pro-7-amido-4-methylcoumarin trypanosoma brucei brucei//*//* 0.01521 * +EC3.4.21.26 n-succinyl-gly-l-pro-l-leu-gly-l-pro-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.014 * +EC3.4.21.26 nalpha-benzyloxycarbonyl-gly-pro-leu-gly elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.54 * +EC3.4.21.26 oxytocin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.1 * +EC3.4.21.26 tasidotin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.238 * +EC3.4.21.26 vasopressin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.13 * +EC3.4.21.26 z-gly-l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.26 * +EC3.4.21.26 z-gly-pro-4-nitroanilide aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.81 * +EC3.4.21.26 z-gly-pro-4-nitroanilide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.25 * +EC3.4.21.26 z-l-ala-l-ala-l-ala-l-pro-4-nitroanilide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.37 * +EC3.4.21.27 benzyloxycarbonyl-gly-pro-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.27 factor fix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.27 factor ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00012 * +EC3.4.21.27 l-pyroglu-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.339 * +EC3.4.21.27 l-pyroglutamyl-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.4.21.27 l-pyroglutamyl-l-prolyl-l-argininyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.757 * +EC3.4.21.27 l-pyroglutamyl-l-prolyl-l-arginyl-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.21.27 pyroglu-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.4.21.27 s-2366 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.357 * +EC3.4.21.32 n-acetyl-l-ala-l-ala-l-ala-p-nitroanilide leptuca pugilator//*//* 0.044 * +EC3.4.21.32 n-benzoyl-l-arg-p-nitroanilide leptuca pugilator//*//* 0.1 * +EC3.4.21.32 n-benzoyl-l-tyr ethyl ester leptuca pugilator//*//* 1.11 * +EC3.4.21.32 n-benzoyl-l-tyr-p-nitroanilide leptuca pugilator//*//* 0.263 * +EC3.4.21.32 n-benzoyl-l-val-gly-l-arg-p-nitroanilide leptuca pugilator//*//* 0.12 * +EC3.4.21.32 nalpha-tosyl-l-arg methyl ester leptuca pugilator//*//* 0.233 * +EC3.4.21.32 succinyl-l-ala-l-ala-l-pro-l-leu-p-nitroanilide gadus morhua//*//* 0.14 * +EC3.4.21.32 succinyl-l-ala-l-ala-l-pro-l-phe-p-nitroanilide gadus morhua//*//* 0.09 * +EC3.4.21.34 2-aminobenzoic acid-gly-phe-ser-pro-phe-arg-ser-ser-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC3.4.21.34 2acoh-h-d-butyl-cha-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.4.21.34 acetyl-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.736 * +EC3.4.21.34 d-val-leu-arg-4-nitroanilide lachesis muta//*//* 3.0 * +EC3.4.21.34 factor xii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.4.21.34 h-d-pro-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.269 * +EC3.4.21.34 high-molecular-weight kininogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00075 * +EC3.4.21.34 kininogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00075 * +EC3.4.21.34 n-acetyl-phe-arg-4-nitroanilide lachesis muta//*//* 1.81 * +EC3.4.21.34 n-benzoyl-phe-val-arg-4-nitroanilide lachesis muta//*//* 1.7 * +EC3.4.21.34 nalpha-benzoyl-l-arginine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0962 * +EC3.4.21.34 nalpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0136 * +EC3.4.21.34 nalpha-toluenesulfonyl-l-arginine methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00156 * +EC3.4.21.34 nalpha-toluenesulfonyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.136 * +EC3.4.21.34 neuropeptide y3-36 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0281 * +EC3.4.21.34 o-aminobenzoyl-fsapmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.21.34 o-aminobenzoyl-fsqamkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.21.34 o-aminobenzoyl-fsqfmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.4.21.34 o-aminobenzoyl-fsqgmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.21.34 o-aminobenzoyl-fsqpakrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.21.34 o-aminobenzoyl-fsqpmarltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkratlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrlalgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltagnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltlanttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltlgattq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.34 o-aminobenzoyl-fsqpmkrltlgnttq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0117 * +EC3.4.21.34 o-aminobenzoyl-vmiaalprtmfiq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00043 * +EC3.4.21.34 o-aminobenzoyl-vvisalprtmfiq-n-(2,4-dinitrophenyl)-ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00142 * +EC3.4.21.34 plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.21.35 abz-alfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.4.21.35 abz-flfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.21.35 abz-frssr-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.21.35 abz-gfspfrslri-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00036 * +EC3.4.21.35 abz-gfspfrssri-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.21.35 abz-glfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.21.35 abz-hlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.21.35 abz-ilfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.35 abz-kafsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.4.21.35 abz-kffsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.21.35 abz-klffsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.21.35 abz-klfrsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.21.35 abz-klfsakq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.21.35 abz-klfsgkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.35 abz-klfsikq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.35 abz-klfslkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC3.4.21.35 abz-klfsnkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.21.35 abz-klfsrkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.21.35 abz-klfssdq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.21.35 abz-klfsseq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0127 * +EC3.4.21.35 abz-klfssgq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.21.35 abz-klfssiq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.4.21.35 abz-klfssk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.21.35 abz-klfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.21.35 abz-klfsslq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.21.35 abz-klfssnq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.21.35 abz-klfssqq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.4.21.35 abz-klfssrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.21.35 abz-klfsssq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC3.4.21.35 abz-klfssvq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0104 * +EC3.4.21.35 abz-klfsvkq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.35 abz-klftsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.35 abz-klfwsk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.4.21.35 abz-klyssk-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.21.35 abz-kpfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.4.21.35 abz-kvfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.21.35 abz-kyfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.35 abz-llfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.4.21.35 abz-mislmklp-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.21.35 abz-mislmkrp-q-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.21.35 abz-nlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.4.21.35 abz-qlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC3.4.21.35 abz-rlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC3.4.21.35 abz-vlfsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.35 acetyl-2-aminohexanoic acid-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.4.21.35 acetyl-ala-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.6 * +EC3.4.21.35 acetyl-ala-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.6 * +EC3.4.21.35 acetyl-ala-leu-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.222 * +EC3.4.21.35 acetyl-ala-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC3.4.21.35 acetyl-ala-phe-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC3.4.21.35 acetyl-ala-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC3.4.21.35 acetyl-ala-thr-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.571 * +EC3.4.21.35 acetyl-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.1 * +EC3.4.21.35 acetyl-arg p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC3.4.21.35 acetyl-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 14.0 * +EC3.4.21.35 acetyl-d-ala-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.5 * +EC3.4.21.35 acetyl-d-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.95 * +EC3.4.21.35 acetyl-glu-leu-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.849 * +EC3.4.21.35 acetyl-glu-lys-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.291 * +EC3.4.21.35 acetyl-glu-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.765 * +EC3.4.21.35 acetyl-glu-thr-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.929 * +EC3.4.21.35 acetyl-gly-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.77 * +EC3.4.21.35 acetyl-gly-arg-ser-val-gln sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 26.0 * +EC3.4.21.35 acetyl-ile-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.199 * +EC3.4.21.35 acetyl-leu-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0249 * +EC3.4.21.35 acetyl-met-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.182 * +EC3.4.21.35 acetyl-phe-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.35 acetyl-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0244 * +EC3.4.21.35 acetyl-phe-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.27 * +EC3.4.21.35 acetyl-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC3.4.21.35 acetyl-phe-arg-ser-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.21 * +EC3.4.21.35 acetyl-phe-arg-ser-val-gln sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC3.4.21.35 acetyl-phe-arg-ser-val-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC3.4.21.35 acetyl-pro-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.153 * +EC3.4.21.35 acetyl-pro-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.089 * +EC3.4.21.35 acetyl-pro-phe-arg-ala sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.21 * +EC3.4.21.35 acetyl-pro-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.087 * +EC3.4.21.35 acetyl-trp-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.027 * +EC3.4.21.35 acetyl-tyr-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.132 * +EC3.4.21.35 acetyl-val-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.283 * +EC3.4.21.35 ala-arg-arg-4-methylcoumarin 7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC3.4.21.35 ala-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.35 benzoyl-pro-phe-arg-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC3.4.21.35 benzyloxycarbonyl-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.243 * +EC3.4.21.35 benzyloxycarbonyl-arg-ala-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.25 * +EC3.4.21.35 benzyloxycarbonyl-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.327 * +EC3.4.21.35 benzyloxycarbonyl-pro-gly-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.209 * +EC3.4.21.35 benzyloxycarbonyl-pro-phe-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0114 * +EC3.4.21.35 citrated bovine plasma homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 61.1 * +EC3.4.21.35 citrated dog plasma homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.8 * +EC3.4.21.35 d-pro-phe-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.4.21.35 d-pro-phe-arg-4-methylcoumarin-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00018 * +EC3.4.21.35 d-pro-phe-arg-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.4.21.35 d-pro-phe-phe-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.35 d-pro-phe-phe-4-methylcoumarin-7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0027 * +EC3.4.21.35 d-pro-phe-phe-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.4.21.35 d-val-leu-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.35 d-val-leu-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0183 * +EC3.4.21.35 d-val-leu-lys-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.528 * +EC3.4.21.35 d-val-leu-lys-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.868 * +EC3.4.21.35 dl-val-leu-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.35 dl-val-leu-arg-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.83 * +EC3.4.21.35 fspfrsvq sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.064 * +EC3.4.21.35 gln-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.21.35 gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.18 * +EC3.4.21.35 human high molecular weight kininogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.6 * +EC3.4.21.35 human low molecular weight kininogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.7 * +EC3.4.21.35 leu-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC3.4.21.35 n-alpha-acetyl-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.383 * +EC3.4.21.35 n-alpha-acetyl-tyr ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC3.4.21.35 n-alpha-benzoyl-l-arg ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.104 * +EC3.4.21.35 n-alpha-benzoyl-l-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.125 * +EC3.4.21.35 n-alpha-benzoyl-l-arginine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.08 * +EC3.4.21.35 n-alpha-benzoyl-l-citrulline methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.3 * +EC3.4.21.35 n-alpha-benzoyl-l-lys methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.4.21.35 n-alpha-benzoyl-l-orn methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.44 * +EC3.4.21.35 n-alpha-toluenesulfonyl-l-arg methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.031 * +EC3.4.21.35 n-alpha-tosyl-l-arginine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC3.4.21.35 o-aminobenzoyl-aikffire-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC3.4.21.35 o-aminobenzoyl-aikffqre-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC3.4.21.35 o-aminobenzoyl-aikffsae-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.21.35 o-aminobenzoyl-aikffske-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC3.4.21.35 o-aminobenzoyl-aikffspe-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.21.35 o-aminobenzoyl-aikffsre-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00036 * +EC3.4.21.35 o-aminobenzoyl-aikffsse-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00094 * +EC3.4.21.35 o-aminobenzoyl-aikfftre-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.21.35 o-aminobenzoyl-frssr-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.21.35 o-aminobenzoyl-frssr-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0006 * +EC3.4.21.35 o-aminobenzoyl-frsvq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.4.21.35 o-aminobenzoyl-frsvq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0073 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-(aminocyclohexyl)alanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-(aminomethyl)-n-isopropylphenylalanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-(aminomethyl)phenylalanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.35 o-aminobenzoyl-gfspf-4-piperidinylalanine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00064 * +EC3.4.21.35 o-aminobenzoyl-gfspf-nim-(dimethyl)histidine-ssrpq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.35 o-aminobenzoyl-gfspfraprvq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00096 * +EC3.4.21.35 o-aminobenzoyl-gfspfraprvq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00147 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrigeikeeq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrigeikeeq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0104 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.35 o-aminobenzoyl-gfspfrssrq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00076 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0014 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvqvmkyegsq-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00041 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvqvmkyegsq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00051 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00017 * +EC3.4.21.35 o-aminobenzoyl-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00251 * +EC3.4.21.35 o-aminobenzoyl-lmkrp-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.21.35 o-aminobenzoyl-lmkrp-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0047 * +EC3.4.21.35 o-aminobenzoyl-lprtmfiq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0027 * +EC3.4.21.35 o-aminobenzoyl-lprtmq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC3.4.21.35 o-aminobenzoyl-mtemarrpq-ethylenediamine 2,4-dinitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00735 * +EC3.4.21.35 o-aminobenzoyl-mtemarrpq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC3.4.21.35 o-aminobenzoyl-mtemarrpq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00616 * +EC3.4.21.35 o-aminobenzoyl-mtsvirrpq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0024 * +EC3.4.21.35 o-aminobenzoyl-mtsvirrpq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00223 * +EC3.4.21.35 o-aminobenzoyl-phe-4-(aminomethyl)phenylalanine-ser-arg-gln-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-arg-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00033 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-arg-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-lys-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00077 * +EC3.4.21.35 o-aminobenzoyl-phe-arg-lys-gfspfrsvtvq-ethylenediamine 2,4-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00024 * +EC3.4.21.35 o-aminobenzoyl-phe-nim-(dimethyl)histidine-ser-arg-gln-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.21.35 o-aminobenzoyl-qplgmislmkrp-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.4.21.35 o-aminobenzoyl-qplgmislmkrp-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0039 * +EC3.4.21.35 o-aminobenzoyl-qplgqtslmkrp-n-(2,4-dinitrophenyl)ethylene diamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0455 * +EC3.4.21.35 o-aminobenzoyl-qplgqtslmkrp-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0003 * +EC3.4.21.35 o-aminobenzoyl-tsvirrvq-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.21.35 o-aminobenzoyl-vmiaalprtmfiq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00023 * +EC3.4.21.35 o-aminobenzoyl-vmiaalprtmq-n-(2,4-dinitrophenyl)ethylene diamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC3.4.21.35 pfrsvq sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.057 * +EC3.4.21.35 phe-arg-ser-val-gln sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.2 * +EC3.4.21.35 phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.4.21.35 pro-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.35 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.4.21.35 pro-phe-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.35 rppgfspfrsvq sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.066 * +EC3.4.21.35 succinyl-val-pro-phe-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.516 * +EC3.4.21.35 tosyl-gly-pro-arg-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.103 * +EC3.4.21.35 val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.21.35 val-pro-arg-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.21.35 z-l-phe-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.21.36 succinyl-ala-ala-ala-p-nitroanilide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.68 * +EC3.4.21.36 succinyl-ala-ala-ala-p-nitroanilide salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 1.47 * +EC3.4.21.36 succinyl-ala-ala-pro-ala-p-nitroanilide salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 0.83 * +EC3.4.21.36 succinyl-ala-ala-pro-ile-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.91 * +EC3.4.21.36 succinyl-ala-ala-pro-ile-p-nitroanilide salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 0.15 * +EC3.4.21.36 succinyl-ala-ala-pro-leu-p-nitroanilide salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 1.34 * +EC3.4.21.36 succinyl-ala-ala-pro-met-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.42 * +EC3.4.21.36 succinyl-ala-ala-pro-phe-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.21 * +EC3.4.21.36 succinyl-ala-ala-pro-val-p-nitroanilide salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 0.82 * +EC3.4.21.36 succinyl-l-ala-l-ala-l-ala-4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.09 * +EC3.4.21.36 tert-butyloxycarbonyl-ala-p-nitrophenylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.513 * +EC3.4.21.37 acetyl-ala-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.4.21.37 benzyloxycarbonyl-ala-3-hydroxy-5-phenylpyrrole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.21.37 benzyloxycarbonyl-ala-4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.21.37 heparin-antithrombin complex homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.833 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-ala-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.2 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-4-nitroanilide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 1.82 * +EC3.4.21.37 methoxysuccinyl-ala-ala-pro-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.21.37 methoxysuccinyl-ala-ile-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.37 methoxysuccinyl-ala-pro-ala-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.37 methoxysuccinyl-ala-pro-ala-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.21.37 methoxysuccinyl-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.189 * +EC3.4.21.37 methoxysuccinyl-ala-pro-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.21.37 methoxysuccinyl-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.696 * +EC3.4.21.37 methoxysuccinyl-pro-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.21.37 methoxysuccinyl-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.788 * +EC3.4.21.37 methoxysuccinyl-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.21.37 n-methoxysuccinyl-ala-ala-pro-val-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.37 n-succinyl-ala-ala-ala 4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 3.0 * +EC3.4.21.37 n-succinyl-ala-ala-ala 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.21.37 n-succinyl-ala-ala-val 4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.8 * +EC3.4.21.37 o-aminobenzoic acid-ala-pro-glu-glu-ile-met-asp-arg-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0184 * +EC3.4.21.37 o-aminobenzoic acid-val-ala-asp-cys-ala-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC3.4.21.37 succinyl-ala-ala-nh-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC3.4.21.37 tert-butyloxycarbonyl-ala-4-nitrophenyl ester equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.02 * +EC3.4.21.37 tert-butyloxycarbonyl-val-4-nitrophenyl ester equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.04 * +EC3.4.21.37 tosyl-ala-3-hydroxy-5-phenylpyrrole homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.21.37 tosyl-ala-4-nitrophenol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.21.38 benzyloxycarbonyl-ala-arg-sch2c6h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.21.38 benzyloxycarbonyl-ala-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.21.38 benzyloxycarbonyl-ala-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC3.4.21.38 benzyloxycarbonyl-ala-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.38 benzyloxycarbonyl-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.103 * +EC3.4.21.38 benzyloxycarbonyl-asn-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.21.38 benzyloxycarbonyl-asn-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC3.4.21.38 benzyloxycarbonyl-glu-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.38 benzyloxycarbonyl-gly-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.38 benzyloxycarbonyl-lys-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.4.21.38 benzyloxycarbonyl-lys-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.21.38 benzyloxycarbonyl-lys-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.4.21.38 benzyloxycarbonyl-met-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.21.38 benzyloxycarbonyl-phe-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.4.21.38 benzyloxycarbonyl-phe-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.2 * +EC3.4.21.38 benzyloxycarbonyl-pro-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.38 benzyloxycarbonyl-pro-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.7 * +EC3.4.21.38 benzyloxycarbonyl-ser-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.21.38 benzyloxycarbonyl-ser-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.96 * +EC3.4.21.38 benzyloxycarbonyl-thr-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.4.21.38 benzyloxycarbonyl-val-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.21.38 d-pro-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.4.21.38 nalpha-benzoyl-ile-glu(-or)-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.21.38 pro-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.4.21.38 tert-butyloxycarbonyl-arg-sch2c6h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.4.21.38 tert-butyloxycarbonyl-arg-sch2ch(ch3)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC3.4.21.39 ala-ala-pro-leu-4-nitroanilide cavia porcellus//*//* 1.55 * +EC3.4.21.39 ala-ala-pro-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.02 * +EC3.4.21.39 ala-ala-pro-met-4-nitroanilide cavia porcellus//*//* 0.97 * +EC3.4.21.39 ala-ala-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.39 ala-ala-pro-phe-4-nitroanilide cavia porcellus//*//* 0.53 * +EC3.4.21.39 ala-ala-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.21.39 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0223 * +EC3.4.21.39 angiotensin ii mesocricetus auratus//*//* 0.85 * +EC3.4.21.39 big endothelin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0145 * +EC3.4.21.39 big endothelin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0141 * +EC3.4.21.39 drvwiholhl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.4.21.39 drvwihpfhl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.4.21.39 drvwihpwhl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.21.39 h2n(ch2)5co-ala-ala-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC3.4.21.39 methoxysuccinyl-ala-ala-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC3.4.21.39 methoxysuccinyl-arg-pro-tyr-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.4.21.39 n-benzoyl-l-try ethyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.56 * +EC3.4.21.39 succinyl-ala-ala-pro-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.39 succinyl-ala-ala-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.21.39 succinyl-ala-ala-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.21.39 succinyl-ala-ala-pro-phe-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.663 * +EC3.4.21.39 succinyl-ala-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.4.21.39 succinyl-ala-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.84 * +EC3.4.21.39 succinyl-ala-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.062 * +EC3.4.21.39 succinyl-epsilon-(2-picolinyl)lys-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC3.4.21.39 succinyl-epsilon-(2-picolinyl)lys-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.39 succinyl-epsilon-(2-picolinyl)lys-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC3.4.21.39 succinyl-gln-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.4.21.39 succinyl-gln-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.46 * +EC3.4.21.39 succinyl-glu-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC3.4.21.39 succinyl-glu-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC3.4.21.39 succinyl-glu-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.21.39 succinyl-glu-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.9 * +EC3.4.21.39 succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.514 * +EC3.4.21.39 succinyl-l-ala-l-ala-l-pro-l-phe-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0157 * +EC3.4.21.39 succinyl-leu-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.82 * +EC3.4.21.39 succinyl-leu-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC3.4.21.39 succinyl-leu-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.39 succinyl-leu-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.21.39 succinyl-lys-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.65 * +EC3.4.21.39 succinyl-lys-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.4.21.39 succinyl-lys-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC3.4.21.39 succinyl-lys-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.4.21.39 succinyl-met-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.4.21.39 succinyl-met-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC3.4.21.39 succinyl-met-val-pro-phe-4-nitroanilide canis lupus familiaris//*//* 0.063 * +EC3.4.21.39 succinyl-met-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.4.21.39 succinyl-met-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.4.21.39 succinyl-phe-ala-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.4.21.39 succinyl-phe-epsilon-(2-picolinyl)lys-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.21.39 succinyl-phe-gln-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.21.39 succinyl-phe-gln-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.83 * +EC3.4.21.39 succinyl-phe-glu-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.39 succinyl-phe-glu-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.072 * +EC3.4.21.39 succinyl-phe-leu-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.4.21.39 succinyl-phe-leu-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC3.4.21.39 succinyl-phe-lys-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.21.39 succinyl-phe-met-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.4.21.39 succinyl-phe-met-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC3.4.21.39 succinyl-phe-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC3.4.21.39 succinyl-phe-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC3.4.21.39 succinyl-phe-pro-thr-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.21.39 succinyl-phe-ser-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.4.21.39 succinyl-phe-ser-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC3.4.21.39 succinyl-phe-thr-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.4.21.39 succinyl-phe-thr-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC3.4.21.39 succinyl-phe-val-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC3.4.21.39 succinyl-phe-val-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.21.39 succinyl-phe-val-pro-phe-4-nitroanilide canis lupus familiaris//*//* 0.069 * +EC3.4.21.39 succinyl-phe-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.21.39 succinyl-phe-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.4.21.39 succinyl-ser-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.21.39 succinyl-ser-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC3.4.21.39 succinyl-thr-pro-phe-4-nitroanilide canis lupus familiaris//*//* 0.28 * +EC3.4.21.39 succinyl-thr-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.21.39 succinyl-thr-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC3.4.21.39 succinyl-val-pro-leu-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.4.21.39 succinyl-val-pro-leu-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.4.21.39 succinyl-val-pro-met-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.39 succinyl-val-pro-met-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.53 * +EC3.4.21.39 succinyl-val-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.093 * +EC3.4.21.39 succinyl-val-pro-phe-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.4.21.39 succinyl-val-pro-pro-phe-sch2c6h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.21.39 succinyl-val-pro-pro-phe-sch2c6h5 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.4.21.39 succinyl-val-pro-trp-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.4.21.39 succinyl-val-pro-tyr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.21.39 succinyl-val-pro-tyr-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.084 * +EC3.4.21.4 2-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0018 * +EC3.4.21.4 2-aminobenzoyl-adgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0073 * +EC3.4.21.4 2-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0037 * +EC3.4.21.4 2-aminobenzoyl-afgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0029 * +EC3.4.21.4 2-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.008 * +EC3.4.21.4 2-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0038 * +EC3.4.21.4 2-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0091 * +EC3.4.21.4 2-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0018 * +EC3.4.21.4 2-aminobenzoyl-aggraagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0037 * +EC3.4.21.4 2-aminobenzoyl-aggrdagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.008 * +EC3.4.21.4 2-aminobenzoyl-aggreagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.018 * +EC3.4.21.4 2-aminobenzoyl-aggrfagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0041 * +EC3.4.21.4 2-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0035 * +EC3.4.21.4 2-aminobenzoyl-aggrhagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0098 * +EC3.4.21.4 2-aminobenzoyl-aggriagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0059 * +EC3.4.21.4 2-aminobenzoyl-aggrkagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.002 * +EC3.4.21.4 2-aminobenzoyl-aggrlagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0036 * +EC3.4.21.4 2-aminobenzoyl-aggrmagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0025 * +EC3.4.21.4 2-aminobenzoyl-aggrnagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0062 * +EC3.4.21.4 2-aminobenzoyl-aggrqagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0039 * +EC3.4.21.4 2-aminobenzoyl-aggrsagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0085 * +EC3.4.21.4 2-aminobenzoyl-aggrtagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0043 * +EC3.4.21.4 2-aminobenzoyl-aggrvagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.004 * +EC3.4.21.4 2-aminobenzoyl-aggryagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.004 * +EC3.4.21.4 2-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0005 * +EC3.4.21.4 2-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.04 * +EC3.4.21.4 2-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0018 * +EC3.4.21.4 2-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0017 * +EC3.4.21.4 2-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0024 * +EC3.4.21.4 2-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0013 * +EC3.4.21.4 2-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.011 * +EC3.4.21.4 2-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0051 * +EC3.4.21.4 2-aminobenzoyl-agtrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.01 * +EC3.4.21.4 2-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0025 * +EC3.4.21.4 2-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0018 * +EC3.4.21.4 2-aminobenzoyl-ahgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0022 * +EC3.4.21.4 2-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0017 * +EC3.4.21.4 2-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0012 * +EC3.4.21.4 2-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0025 * +EC3.4.21.4 2-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0018 * +EC3.4.21.4 2-aminobenzoyl-angrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0024 * +EC3.4.21.4 2-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0031 * +EC3.4.21.4 2-aminobenzoyl-asgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0024 * +EC3.4.21.4 2-aminobenzoyl-atgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0034 * +EC3.4.21.4 2-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0017 * +EC3.4.21.4 2-aminobenzoyl-aygrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0024 * +EC3.4.21.4 abz-erfk-eddnp colossoma macropomum//*//* 0.0069 * +EC3.4.21.4 abz-frfk-eddnp colossoma macropomum//*//* 0.0005 * +EC3.4.21.4 abz-grfk-eddnp colossoma macropomum//*//* 0.0163 * +EC3.4.21.4 abz-hrfk-eddnp colossoma macropomum//*//* 0.0068 * +EC3.4.21.4 abz-krfk-eddnp colossoma macropomum//*//* 0.0006 * +EC3.4.21.4 abz-lrfk-eddnp colossoma macropomum//*//* 0.001 * +EC3.4.21.4 abz-nrfk-eddnp colossoma macropomum//*//* 0.0074 * +EC3.4.21.4 abz-qrfk-eddnp colossoma macropomum//*//* 0.0089 * +EC3.4.21.4 abz-rdfk-eddnp colossoma macropomum//*//* 0.0081 * +EC3.4.21.4 abz-refk-eddnp colossoma macropomum//*//* 0.0129 * +EC3.4.21.4 abz-rgfk-eddnp colossoma macropomum//*//* 0.0159 * +EC3.4.21.4 abz-rhfk-eddnp colossoma macropomum//*//* 0.00185 * +EC3.4.21.4 abz-rnfk-eddnp colossoma macropomum//*//* 0.0049 * +EC3.4.21.4 abz-rpfk-eddnp colossoma macropomum//*//* 0.0031 * +EC3.4.21.4 abz-rqfk-eddnp colossoma macropomum//*//* 0.0074 * +EC3.4.21.4 abz-rrfk-eddnp colossoma macropomum//*//* 0.0017 * +EC3.4.21.4 abz-rsfk-eddnp colossoma macropomum//*//* 0.001 * +EC3.4.21.4 abz-rtfk-eddnp colossoma macropomum//*//* 0.00325 * +EC3.4.21.4 abz-rvfk-eddnp colossoma macropomum//*//* 0.0183 * +EC3.4.21.4 abz-ryfk-eddnp colossoma macropomum//*//* 0.0017 * +EC3.4.21.4 abz-vrfk-eddnp colossoma macropomum//*//* 0.0029 * +EC3.4.21.4 abz-wrfk-eddnp colossoma macropomum//*//* 0.0033 * +EC3.4.21.4 abz-yrfk-eddnp colossoma macropomum//*//* 0.0056 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-arg(no2)-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.242 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-har-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.236 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-phe(p-cn)-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.361 * +EC3.4.21.4 acetyl-ala-val-(l-alpha-aminobutyryl)-pro-phe(p-nh2)-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.384 * +EC3.4.21.4 alpha-n-p-tosyl-l-arginine methyl ester lutjanus vitta//*//* 0.328 * +EC3.4.21.4 benzoyl-arg 4-nitroanilide engraulis japonicus//*//* 0.033 * +EC3.4.21.4 benzoyl-arg ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0026 * +EC3.4.21.4 benzoyl-arg ethyl ester engraulis japonicus//*//* 0.014 * +EC3.4.21.4 benzoyl-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.43 * +EC3.4.21.4 benzoyl-arg-p-nitroanilide gadus morhua//*//* 0.034 * +EC3.4.21.4 benzoyl-dl-arg-4-nitroanilide cirrhinus mrigala//*//* 0.067 * +EC3.4.21.4 benzoyl-dl-arg-4-nitroanilide oreochromis niloticus//*//* 0.16 * +EC3.4.21.4 benzoyl-dl-arg-4-nitroanilide pterygoplichthys disjunctivus//*//* 0.13 * +EC3.4.21.4 benzoyl-dl-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07744 * +EC3.4.21.4 benzoyl-dl-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.4.21.4 benzoyl-l-arginine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC3.4.21.4 benzoyl-l-arginine-p-nitroanilide oncorhynchus keta//*//* 0.02 * +EC3.4.21.4 benzyloxycarbonyl-gln-arg-arg-7-amido-4-methylcoumarin channa argus//*//* 0.00049 * +EC3.4.21.4 benzyloxycarbonyl-glu-arg-arg-7-amido-4-methylcoumarin channa argus//*//* 0.00064 * +EC3.4.21.4 benzyloxycarbonyl-gly-pro-arg-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0141 * +EC3.4.21.4 benzyloxycarbonyl-gly-pro-arg-p-nitroanilide gadus morhua//*//* 0.017 * +EC3.4.21.4 benzyloxycarbonyl-l-glutaminyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 0.00038 * +EC3.4.21.4 benzyloxycarbonyl-l-leucyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 0.00028 * +EC3.4.21.4 benzyloxycarbonyl-l-leucyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 0.00039 * +EC3.4.21.4 benzyloxycarbonyl-l-phenylalaninyl-l-seryl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 0.0007 * +EC3.4.21.4 benzyloxycarbonyl-l-valyl-l-leucyl-l-lysine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 0.0003 * +EC3.4.21.4 benzyloxycarbonyl-l-valyl-l-prolyl-l-arginine-4-methylcoumaryl-7-amide lateolabrax japonicus//*//* 0.00058 * +EC3.4.21.4 benzyloxycarbonyl-leu-arg-arg-7-amido-4-methylcoumarin channa argus//*//* 0.00059 * +EC3.4.21.4 benzyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin channa argus//*//* 0.00092 * +EC3.4.21.4 benzyloxycarbonyl-lys benzoyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC3.4.21.4 benzyloxycarbonyl-lys methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0285 * +EC3.4.21.4 benzyloxycarbonyl-lys p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.4.21.4 benzyloxycarbonyl-lys-thiobenzyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.086 * +EC3.4.21.4 benzyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin channa argus//*//* 0.00102 * +EC3.4.21.4 benzyloxycarbonylglycyl-l-prolyl-l-arginine-4-methylcoumaryl-7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0177 * +EC3.4.21.4 benzyloxycarbonylglycyl-l-prolyl-l-arginine-4-methylcoumaryl-7-amide streptomyces omiyaensis//*//* 0.0061 * +EC3.4.21.4 bovine serum albumin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC3.4.21.4 enhanced green fluorescent protein-t1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00399 * +EC3.4.21.4 enhanced green fluorescent protein-t1nb homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00421 * +EC3.4.21.4 factor xa streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0089 * +EC3.4.21.4 fitc-casein sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00015 * +EC3.4.21.4 gergffytpkt bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1115 * +EC3.4.21.4 gergffytpktrr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0092 * +EC3.4.21.4 glu-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.485 * +EC3.4.21.4 human m-proinsulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.115 * +EC3.4.21.4 insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.4.21.4 l-phe-l-val-l-ile-n-(3-carbamoyl-4-nitrophenyl)-l-arg-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC3.4.21.4 l-phe-l-val-l-ile-n-(3-carbamoyl-4-nitrophenyl)-l-lys-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.096 * +EC3.4.21.4 l-phe-l-val-l-pro-n-(3-carbamoyl-4-nitrophenyl)-l-arg-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.044 * +EC3.4.21.4 l-phe-l-val-l-pro-n-(3-carbamoyl-4-nitrophenyl)-l-lys-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC3.4.21.4 m-diarginyl insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0085 * +EC3.4.21.4 m-insulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.4.21.4 meosuc-ala-ala-ala-arg 4-nitroanilide gadus morhua//*//* 0.027 * +EC3.4.21.4 meosuc-ala-ala-arg 4-nitroanilide gadus morhua//*//* 0.013 * +EC3.4.21.4 meosuc-ala-arg 4-nitroanilide gadus morhua//*//* 0.018 * +EC3.4.21.4 n-alpha-benzoyl-l-arg ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 32.0 * +EC3.4.21.4 n-alpha-benzoyl-l-arginine 4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.2 * +EC3.4.21.4 n-alpha-benzoyl-l-arginine ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.26 * +EC3.4.21.4 n-alpha-benzoyl-l-arginine-p-nitroanilide euphausia pacifica//*//* 0.06 * +EC3.4.21.4 n-alpha-p-tosyl-l-arginine methyl ester thunnus albacares//*//* 0.2 * +EC3.4.21.4 n-benzoyl-dl-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.158 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide boops boops//*//* 0.13 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide gadus morhua//*//* 0.05 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide lutjanus vitta//*//* 0.507 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide mustelus mustelus//*//* 0.387 * +EC3.4.21.4 n-benzoyl-dl-arginine 4-nitroanilide sepia officinalis//*//* 0.064 * +EC3.4.21.4 n-benzoyl-l-arg ethyl ester streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0077 * +EC3.4.21.4 n-benzoyl-l-arginine-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.88 * +EC3.4.21.4 n-benzyloxycarbonyl-gly-pro-arg 4-nitroanilide gadus morhua//*//* 0.007 * +EC3.4.21.4 n-carbobenzyloxy-gly-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0252 * +EC3.4.21.4 nalpha-4-tosyl-l-arginine methyl ester albatrossia pectoralis//*//* 0.15 * +EC3.4.21.4 nalpha-4-tosyl-l-arginine methyl ester mustelus mustelus//*//* 0.156 * +EC3.4.21.4 nalpha-benzoyl-dl-arg-p-nitroanilide canis lupus familiaris//*//* 0.99 * +EC3.4.21.4 nalpha-benzoyl-dl-arg-p-nitroanilide gadus morhua//*//* 0.077 * +EC3.4.21.4 nalpha-benzoyl-dl-arg-p-nitroanilide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.197 * +EC3.4.21.4 nalpha-benzoyl-dl-arginine 4-nitroanilide balistes capriscus//*//* 0.068 * +EC3.4.21.4 nalpha-benzoyl-dl-arginine-4-nitroanilide sardinella aurita//*//* 0.083 * +EC3.4.21.4 nalpha-benzoyl-l-arg-4-nitroanilide sardinops caeruleus//*//* 0.051 * +EC3.4.21.4 nalpha-benzoyl-l-arginine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0153 * +EC3.4.21.4 nalpha-benzyloxycarbonyl-lys-p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0012 * +EC3.4.21.4 nalpha-p-tosyl-l-arg methyl ester thunnus tonggol//*//* 0.25 * +EC3.4.21.4 o-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.005 * +EC3.4.21.4 o-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.045 * +EC3.4.21.4 o-aminobenzoyl-aagrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0013 * +EC3.4.21.4 o-aminobenzoyl-adgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0057 * +EC3.4.21.4 o-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.01 * +EC3.4.21.4 o-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.017 * +EC3.4.21.4 o-aminobenzoyl-aegrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0033 * +EC3.4.21.4 o-aminobenzoyl-afgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.0071 * +EC3.4.21.4 o-aminobenzoyl-afgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.002 * +EC3.4.21.4 o-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.044 * +EC3.4.21.4 o-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.027 * +EC3.4.21.4 o-aminobenzoyl-agargagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0025 * +EC3.4.21.4 o-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.019 * +EC3.4.21.4 o-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.036 * +EC3.4.21.4 o-aminobenzoyl-agdrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.016 * +EC3.4.21.4 o-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.023 * +EC3.4.21.4 o-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.022 * +EC3.4.21.4 o-aminobenzoyl-agergagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0053 * +EC3.4.21.4 o-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.019 * +EC3.4.21.4 o-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.009 * +EC3.4.21.4 o-aminobenzoyl-agfrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0031 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.0233 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.011 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.016 * +EC3.4.21.4 o-aminobenzoyl-aggkgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.01 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.015 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.006 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0074 * +EC3.4.21.4 o-aminobenzoyl-aggrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0031 * +EC3.4.21.4 o-aminobenzoyl-aggrgdgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.015 * +EC3.4.21.4 o-aminobenzoyl-aggrgegq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.013 * +EC3.4.21.4 o-aminobenzoyl-aggrgfgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.009 * +EC3.4.21.4 o-aminobenzoyl-aggrgggq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0024 * +EC3.4.21.4 o-aminobenzoyl-aggrghgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0032 * +EC3.4.21.4 o-aminobenzoyl-aggrgigq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.003 * +EC3.4.21.4 o-aminobenzoyl-aggrgkgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0009 * +EC3.4.21.4 o-aminobenzoyl-aggrglgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.002 * +EC3.4.21.4 o-aminobenzoyl-aggrgmgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0024 * +EC3.4.21.4 o-aminobenzoyl-aggrgngq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0037 * +EC3.4.21.4 o-aminobenzoyl-aggrgqgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0028 * +EC3.4.21.4 o-aminobenzoyl-aggrgsgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0029 * +EC3.4.21.4 o-aminobenzoyl-aggrgtgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.007 * +EC3.4.21.4 o-aminobenzoyl-aggrgvgq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.0027 * +EC3.4.21.4 o-aminobenzoyl-aggrgygq-(2,4-dinitrophenyl-ethylene diamine) periplaneta americana//*//* 0.006 * +EC3.4.21.4 o-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.017 * +EC3.4.21.4 o-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0083 * +EC3.4.21.4 o-aminobenzoyl-aghrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0006 * +EC3.4.21.4 o-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.015 * +EC3.4.21.4 o-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.029 * +EC3.4.21.4 o-aminobenzoyl-agirgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0031 * +EC3.4.21.4 o-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.018 * +EC3.4.21.4 o-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0053 * +EC3.4.21.4 o-aminobenzoyl-agkrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.009 * +EC3.4.21.4 o-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.012 * +EC3.4.21.4 o-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.012 * +EC3.4.21.4 o-aminobenzoyl-aglrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0013 * +EC3.4.21.4 o-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.017 * +EC3.4.21.4 o-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.015 * +EC3.4.21.4 o-aminobenzoyl-agmrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0012 * +EC3.4.21.4 o-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.024 * +EC3.4.21.4 o-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.017 * +EC3.4.21.4 o-aminobenzoyl-agnrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0004 * +EC3.4.21.4 o-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.025 * +EC3.4.21.4 o-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.015 * +EC3.4.21.4 o-aminobenzoyl-agqrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0033 * +EC3.4.21.4 o-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.023 * +EC3.4.21.4 o-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.027 * +EC3.4.21.4 o-aminobenzoyl-agsrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0011 * +EC3.4.21.4 o-aminobenzoyl-agtrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0163 * +EC3.4.21.4 o-aminobenzoyl-agtrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0017 * +EC3.4.21.4 o-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.019 * +EC3.4.21.4 o-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.018 * +EC3.4.21.4 o-aminobenzoyl-agvrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0014 * +EC3.4.21.4 o-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.013 * +EC3.4.21.4 o-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.011 * +EC3.4.21.4 o-aminobenzoyl-agyrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0023 * +EC3.4.21.4 o-aminobenzoyl-ahgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0013 * +EC3.4.21.4 o-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.0032 * +EC3.4.21.4 o-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.024 * +EC3.4.21.4 o-aminobenzoyl-aigrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0015 * +EC3.4.21.4 o-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.0079 * +EC3.4.21.4 o-aminobenzoyl-akgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.001 * +EC3.4.21.4 o-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.008 * +EC3.4.21.4 o-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.016 * +EC3.4.21.4 o-aminobenzoyl-algrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0013 * +EC3.4.21.4 o-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.016 * +EC3.4.21.4 o-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.014 * +EC3.4.21.4 o-aminobenzoyl-amgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0008 * +EC3.4.21.4 o-aminobenzoyl-angrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.0064 * +EC3.4.21.4 o-aminobenzoyl-angrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0018 * +EC3.4.21.4 o-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.01 * +EC3.4.21.4 o-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.013 * +EC3.4.21.4 o-aminobenzoyl-aqgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0016 * +EC3.4.21.4 o-aminobenzoyl-asgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.019 * +EC3.4.21.4 o-aminobenzoyl-asgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0017 * +EC3.4.21.4 o-aminobenzoyl-atgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0041 * +EC3.4.21.4 o-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) diatraea saccharalis//*//* 0.013 * +EC3.4.21.4 o-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.037 * +EC3.4.21.4 o-aminobenzoyl-avgrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0015 * +EC3.4.21.4 o-aminobenzoyl-aygrgagq-(2,4-dinitrophenyl-ethylene diamine) musca domestica//eukaryotes;animals;arthropods;insects//mde 0.015 * +EC3.4.21.4 o-aminobenzoyl-aygrgagq-(2,4-dinitrophenyl-ethylene diamine) tenebrio molitor//*//* 0.0013 * +EC3.4.21.4 p-amidinophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0387 * +EC3.4.21.4 p-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 21.0 * +EC3.4.21.4 p-tosyl-l-arg methyl ester gadus morhua//*//* 0.029 * +EC3.4.21.4 pefachrome tpa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC3.4.21.4 pefachrome bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC3.4.21.4 succinyl-ala-ala-pro-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC3.4.21.4 succinyl-ala-ala-pro-arg-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC3.4.21.4 succinyl-ala-ala-pro-leu-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC3.4.21.4 succinyl-ala-ala-pro-lys-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.4.21.4 succinyl-ala-ala-pro-lys-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.101 * +EC3.4.21.4 succinyl-ala-ala-pro-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC3.4.21.4 succinyl-ala-ala-pro-tyr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.4.21.4 tert-butoxycarbonyl-l-gln-l-ala-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00927 * +EC3.4.21.4 tert-butyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0305 * +EC3.4.21.4 tos-l-arg-ome bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC3.4.21.4 tos-l-arg-ome oncorhynchus keta//*//* 0.02 * +EC3.4.21.4 tosyl-arg methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC3.4.21.4 tosyl-arg methyl ester cambarus affinis//*//* 0.12 * +EC3.4.21.4 tosyl-gly-pro-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00017 * +EC3.4.21.4 tosyl-gly-pro-arg-4-nitroanilide salmon//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.000896 * +EC3.4.21.4 tosyl-gly-pro-arg-7-amido-4-methylcoumarin streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0023 * +EC3.4.21.4 z-gly-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0298 * +EC3.4.21.41 acetyl-gly-lys methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.0 * +EC3.4.21.41 masp-3 k448q zymogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.2e-05 * +EC3.4.21.41 zymogen c1s homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2e-05 * +EC3.4.21.42 acetyl-l-tyr ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.0 * +EC3.4.21.42 benzoyl-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.21.42 c1-inhibitor p4-p1 fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3408 * +EC3.4.21.42 c1-inhibitor p4-p4' fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0077 * +EC3.4.21.42 complement component c2 p4-p1 fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1369 * +EC3.4.21.42 complement component c2 p4-p4' fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0274 * +EC3.4.21.42 complement component c2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC3.4.21.42 complement component c4 p4-p1 fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3581 * +EC3.4.21.42 complement component c4 p4-p4' fragment homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0136 * +EC3.4.21.42 complement component c4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.5e-05 * +EC3.4.21.42 n-benzoyl-phe-val-arg p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.21.42 n-benzyloxycarbonyl-gly-arg thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC3.4.21.42 n-benzyloxycarbonyl-lys p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.21.42 n-benzyloxycarbonyl-tyr p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.21.42 t-butyloxycarbonyl-tyr p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.42 tosyl-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.43 complement component c5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1e-06 * +EC3.4.21.45 methylsulfonyl-d-phe-gly-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.128 * +EC3.4.21.45 n-alpha-tert-butyloxycarbonyl-val-pro-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.21.45 tert-butyloxycarbonyl-asp(benzyl ester)-pro-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0146 * +EC3.4.21.45 tert-butyloxycarbonyl-asp(benzyl)-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.149 * +EC3.4.21.46 benzyloxycarbonyl-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.79 * +EC3.4.21.47 complement component c3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00586 * +EC3.4.21.47 complement component c5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5e-06 * +EC3.4.21.47 t-butyloxycarbonyl-gly-l-leu-l-ala-l-arg-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.63 * +EC3.4.21.48 acetyl-tyr ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8 * +EC3.4.21.48 benzoyl-tyr ethyl ester saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC3.4.21.48 n-succinyl-l-leu-l-tyr-7-amido-4-methylcoumarin debaryomyces hansenii//eukaryotes;fungi;ascomycetes;saccharomycetes//dha 1.79 * +EC3.4.21.5 ac-gly-gly-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.181 * +EC3.4.21.5 ac-leu-gly-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.102 * +EC3.4.21.5 ac-nle-thr-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.21.5 ac-nle-thr-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.4.21.5 ac-val-thr-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.5 benzoyl-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC3.4.21.5 benzoyl-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.4.21.5 benzoyl-l-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.143 * +EC3.4.21.5 d-phe-l-pipecolyl-l-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.21.5 d-phe-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC3.4.21.5 d-phe-pro-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.21.5 d-phe-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.21.5 d-phenylalanyl-pipecolyl-l-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.4.21.5 di-l-glu-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1471 * +EC3.4.21.5 factor viii(341-376) peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.112 * +EC3.4.21.5 factor xiii v34l mutant homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.315 * +EC3.4.21.5 factor xiii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.298 * +EC3.4.21.5 fc-[rfsrpql]-peg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1e-05 * +EC3.4.21.5 fibrinogen aalpha chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00355 * +EC3.4.21.5 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00316 * +EC3.4.21.5 fibrinopeptide a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.4.21.5 glvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.327 * +EC3.4.21.5 gvvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.386 * +EC3.4.21.5 par1 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0084 * +EC3.4.21.5 platelet thrombin receptor peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0355 * +EC3.4.21.5 protein c homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00319 * +EC3.4.21.5 succinyl-aapr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC3.4.21.5 thrombin-activatable fibrinolysis inhibitor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000178 * +EC3.4.21.5 tosyl-arg methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC3.4.21.5 tosyl-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0063 * +EC3.4.21.5 tosyl-gly-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC3.4.21.5 tvelqglvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.375 * +EC3.4.21.5 tvelqgvvprgvnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.644 * +EC3.4.21.50 benzoyl-arg ethyl ester achromobacter lyticus//*//* 20.0 * +EC3.4.21.50 benzoyl-lys methyl ester achromobacter lyticus//*//* 0.091 * +EC3.4.21.50 benzoyl-lys-nh2 achromobacter lyticus//*//* 0.32 * +EC3.4.21.50 lys-p-nitroanilide achromobacter lyticus//*//* 0.08 * +EC3.4.21.50 n-acetyl-l-lysine achromobacter lyticus//*//* 1.59 * +EC3.4.21.50 n-benzoyl-l-lys p-nitroanilide achromobacter lyticus//*//* 0.07 * +EC3.4.21.50 n-benzoyl-l-orn methyl ester achromobacter lyticus//*//* 0.63 * +EC3.4.21.50 n-tert-butyloxycarbonyl-ala-ala-lys-4-methylcoumarin 7-amide achromobacter lyticus//*//* 3.09 * +EC3.4.21.50 n-tert-butyloxycarbonyl-ala-lys-4-methylcoumarin 7-amide achromobacter lyticus//*//* 3.11 * +EC3.4.21.50 n-tert-butyloxycarbonyl-lys-4-methylcoumarin 7-amide achromobacter lyticus//*//* 41.0 * +EC3.4.21.50 n-tosyl-gly-pro-lys-p-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.034 * +EC3.4.21.50 n-tosyl-l-arg methyl ester achromobacter lyticus//*//* 2.5 * +EC3.4.21.50 n-tosyl-l-lys methyl ester achromobacter lyticus//*//* 0.083 * +EC3.4.21.50 n-tosyl-l-lys methyl ester pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.053 * +EC3.4.21.50 tert-butyloxycarbonyl-ala-ala-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 0.0028 * +EC3.4.21.50 tert-butyloxycarbonyl-ala-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 0.0037 * +EC3.4.21.50 tert-butyloxycarbonyl-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 0.038 * +EC3.4.21.50 tert-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin achromobacter lyticus//*//* 0.0021 * +EC3.4.21.50 tosyl-gly-pro-lys-p-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.25 * +EC3.4.21.50 tosyl-gly-pro-lys-p-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.034 * +EC3.4.21.50 tosyl-lys methyl ester pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.053 * +EC3.4.21.50 trypsinogen achromobacter lyticus//*//* 0.0019 * +EC3.4.21.50 val-leu-lys-p-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.33 * +EC3.4.21.53 alpha-casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.026 * +EC3.4.21.53 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC3.4.21.53 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC3.4.21.53 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.046 * +EC3.4.21.53 beta-galactosidase fragment 3-93 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC3.4.21.53 beta-galactosidase-93-titini27 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC3.4.21.53 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.4.21.53 f-qlrslngewrfawfpapeav-q escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0046 * +EC3.4.21.53 glutaryl-ala-ala-phe-methoxynaphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC3.4.21.53 human alphaa-crystallin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC3.4.21.53 human alphab-crystallin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.026 * +EC3.4.21.53 human titin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC3.4.21.53 ibpa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC3.4.21.53 ibpb escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.4.21.53 qlrslngewrfawfpapeav escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC3.4.21.53 titin-i27cd escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.4.21.53 titini27-beta-galactosidase-93-titini27 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC3.4.21.53 titini27-beta-galactosidase-93 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC3.4.21.53 y(3-no2)-rgit2-aminobuytric acid-sgrq-k(anthranilamide) salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.276 * +EC3.4.21.53 y(3-no2)-rgitcsgrq-k(anthranilamide) salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.262 * +EC3.4.21.53 y(3-no2)-rgitcyssgrq-k(anthranilamide) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.54 benzoyl-arg 4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.038 * +EC3.4.21.55 h-d-hexahydrotyrosyl-ala-arg 4-nitroanilide bitis gabonica//*//* 0.88 * +EC3.4.21.55 h-d-phenylglycine-phe-arg 4-nitroanilide bitis gabonica//*//* 3.4 * +EC3.4.21.55 h-d-pro-hexahydrotyrosyl-arg 4-nitroanilide bitis gabonica//*//* 0.82 * +EC3.4.21.55 tosyl-gly-pro-arg 4-nitroanilide bitis gabonica//*//* 0.13 * +EC3.4.21.55 tosyl-gly-pro-lys 4-nitroanilide bitis gabonica//*//* 2.72 * +EC3.4.21.55 tosyl-l-arginine methyl ester bitis gabonica//*//* 0.12 * +EC3.4.21.57 azocasein spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.63 * +EC3.4.21.57 n-succinyl-ala-ala-pro-leu-p-nitroanilide bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.315 * +EC3.4.21.57 nalpha-benzoyl-ala 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.25 * +EC3.4.21.57 nalpha-benzoyl-arg 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.47 * +EC3.4.21.57 nalpha-benzoyl-gly 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.89 * +EC3.4.21.57 nalpha-benzoyl-leu 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.05 * +EC3.4.21.57 nalpha-benzoyl-lys 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.45 * +EC3.4.21.57 nalpha-benzoyl-val 4-nitroanilide spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.18 * +EC3.4.21.57 nalpha-carbobenzoxy-ala 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.12 * +EC3.4.21.57 nalpha-carbobenzoxy-arg 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.28 * +EC3.4.21.57 nalpha-carbobenzoxy-gly 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.52 * +EC3.4.21.57 nalpha-carbobenzoxy-ile 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.065 * +EC3.4.21.57 nalpha-carbobenzoxy-leu 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.018 * +EC3.4.21.57 nalpha-carbobenzoxy-lys 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.26 * +EC3.4.21.57 nalpha-carbobenzoxy-val 4-nitrophenyl ester spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.066 * +EC3.4.21.59 ac-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.21.59 ac-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.4.21.59 ac-pank-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1105 * +EC3.4.21.59 ac-prnk-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0089 * +EC3.4.21.59 ac-prnr-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0165 * +EC3.4.21.59 ac-pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC3.4.21.59 ac-prtk-aac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0147 * +EC3.4.21.59 ala-ala-pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.59 ala-pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.4.21.59 arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.59 benzyloxycarbonyl-ala-arg-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC3.4.21.59 benzyloxycarbonyl-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0231 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-arg-l-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0409 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-leu-l-lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.323 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-lys-l-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0138 * +EC3.4.21.59 benzyloxycarbonyl-l-ala-l-lys-l-lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0148 * +EC3.4.21.59 bovine prothrombin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC3.4.21.59 bz-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.59 d-ile-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.4.21.59 d-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.21.59 d-phe-pip-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.21.59 d-pro-phe-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.64 * +EC3.4.21.59 d-val-leu-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.12 * +EC3.4.21.59 glu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.03 * +EC3.4.21.59 glu-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.21.59 ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.111 * +EC3.4.21.59 meoco-nle-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.4.21.59 n-(p-tosyl)-gly-pro-arg-4-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.922 * +EC3.4.21.59 n-(p-tosyl)-gly-pro-lys-p-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.849 * +EC3.4.21.59 n-p-tosyl-gly-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC3.4.21.59 n-p-tosyl-gly-pro-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.21.59 n-p-tosyl-gly-pro-lys-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.19 * +EC3.4.21.59 pro-ile-arg-asn-lys-5-amino-2-nitrobenzoylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC3.4.21.59 t-butyloxycarbonyl-phe-ser-arg-4-methyl-coumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.043 * +EC3.4.21.59 tert-butyloxycarbonyl-gly-lys-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0046 * +EC3.4.21.59 tert-butyloxycarbonyl-phe-ser-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.029 * +EC3.4.21.59 tert-butyloxycarbonyl-val-pro-arg 4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.031 * +EC3.4.21.59 tosyl-gly-pro-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.21.59 z-d-arg-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.21.6 arg-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0517 * +EC3.4.21.6 benzoyl-ile-glu(piperidineamide)-gly-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0867 * +EC3.4.21.6 benzoyl-ile-glu-(-h/ome)-gly-arg-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.175 * +EC3.4.21.6 d-cyclohexyl-gly-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.21.6 d-hexahydrotyrosol-l-ala-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.21.6 d-phenylalanyl-l-pipecolyl-l-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.21.6 fpr-prothrombin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC3.4.21.6 fragment 1.2:prethrombin-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00058 * +EC3.4.21.6 l-arg-gly-l-arg-4-nitroanilide canis lupus familiaris//*//* 0.07 * +EC3.4.21.6 l-arg-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.6 l-arg-gly-l-arg-4-nitroanilide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.06 * +EC3.4.21.6 l-arg-gly-l-arg-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.4.21.6 meizothrombin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00065 * +EC3.4.21.6 methoxycarbonyl-d-cyclohexylglycyl-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC3.4.21.6 methoxycarbonylcyclohexyl-gly-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.072 * +EC3.4.21.6 n-alpha-benzyloxycarbonyl-d-arginyl-glycyl-l-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.4.21.6 n6-cbz-d-lys-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.21.6 nalpha-benzyloxycarbonyl-l-lys-p-nitrophenyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0377 * +EC3.4.21.6 prethrombin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0054 * +EC3.4.21.6 prethrombin-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC3.4.21.6 prothrombin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9e-05 * +EC3.4.21.6 prothrombin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0072 * +EC3.4.21.6 prots195a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.1e-05 * +EC3.4.21.6 recombinant prothrombin r155a/r284a/r271a mutant rmz-ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00036 * +EC3.4.21.6 recombinant prothrombin r155a/r284a/r320a mutant rp2-ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00039 * +EC3.4.21.6 s2222 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.133 * +EC3.4.21.6 s2765 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC3.4.21.6 tosyl-glycyl-prolyl-d-arginine-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC3.4.21.60 prethrombin-1 oxyuranus scutellatus//*//* 0.0022 * +EC3.4.21.60 prothrombin bothrops cotiara//*//* 0.0127 * +EC3.4.21.60 prothrombin oxyuranus scutellatus//*//* 0.166 * +EC3.4.21.61 ac-aykk 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC3.4.21.61 ac-nle-tyr-lys-arg 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC3.4.21.61 ac-nle-ykk 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC3.4.21.61 ac-nle-ykr 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC3.4.21.61 benzyloxycarbonyl-ala-tyr-lys-lys 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.023 * +EC3.4.21.61 d-ac-nle-tyr-lys-arg 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC3.4.21.61 t-butyloxycarbonyl-qgr 4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC3.4.21.62 acetyl-l-phe ethyl ester bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.22 * +EC3.4.21.62 acetyl-l-phe bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.85 * +EC3.4.21.62 acetyl-l-tyr ethyl ester bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.37 * +EC3.4.21.62 acetyl-l-tyr bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.0 * +EC3.4.21.62 benzoyl-arg ethyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 7.0 * +EC3.4.21.62 benzoyl-l-arg ethyl ester bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.1 * +EC3.4.21.62 benzyloxycarbonyl-gly-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 8.3 * +EC3.4.21.62 benzyloxycarbonyl-l-ala-l-ala-l-leu-4-nitroanilide bacillus intermedius//*//* 0.0054 * +EC3.4.21.62 casein bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.059 * +EC3.4.21.62 glp-ala-ala-leu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.25 * +EC3.4.21.62 glp-ala-ala-leu-p-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.13 * +EC3.4.21.62 l-ala-l-ala-l-pro-l-ala bacillus lentus//*//* 0.98 * +EC3.4.21.62 l-ala-l-ala-l-pro-l-phe bacillus lentus//*//* 1.15 * +EC3.4.21.62 l-ala-l-ala-l-val-l-ala bacillus lentus//*//* 0.039 * +EC3.4.21.62 l-phe-l-ala-l-ala-l-phe bacillus lentus//*//* 0.223 * +EC3.4.21.62 l-tyr-l-val-l-ala-l-asp bacillus lentus//*//* 0.62 * +EC3.4.21.62 meo-succinyl-ala-ala-phe 4-nitroanilide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.15 * +EC3.4.21.62 meo-succinyl-ala-ala-phe 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.15 * +EC3.4.21.62 n-acetyl-ala methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 120.0 * +EC3.4.21.62 n-acetyl-leu methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 66.0 * +EC3.4.21.62 n-acetyl-lys methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 91.0 * +EC3.4.21.62 n-acetyl-phe ethyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 17.0 * +EC3.4.21.62 n-acetyl-phe methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 60.0 * +EC3.4.21.62 n-acetyl-trp ethyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 24.0 * +EC3.4.21.62 n-acetyl-trp methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 50.0 * +EC3.4.21.62 n-acetyl-tyr ethyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 22.0 * +EC3.4.21.62 n-acetyl-tyr methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 90.0 * +EC3.4.21.62 n-methoxysuccinyl-ala-ala-pro-val-4-nitroanilide dichelobacter nodosus//prokaryotes;bacteria;gammaproteobacteria - others;dichelobacter//dno 3.13 * +EC3.4.21.62 n-succ-ala-ala-pro-phe-4-nitroanilide bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.35 * +EC3.4.21.62 n-succinyl-ala-ala-pro-phe-p-nitroanilide thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.11 * +EC3.4.21.62 n-succinyl-l-ala-l-ala-l-pro-l-phe-4-nitroanilide bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.000655 * +EC3.4.21.62 sec-phenethyl alcohol bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 130.0 * +EC3.4.21.62 suc-ala-ala-ala-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.28 * +EC3.4.21.62 suc-ala-ala-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.0 * +EC3.4.21.62 suc-ala-ala-pro-ala-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.33 * +EC3.4.21.62 suc-ala-ala-pro-leu-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.68 * +EC3.4.21.62 suc-ala-ala-pro-phe-4-nitroanilide synthetic construct//*//* 0.0027 * +EC3.4.21.62 suc-ala-ala-pro-phe-p-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.07 * +EC3.4.21.62 succinyl-aapa-p-nitroanilide bacillus lentus//*//* 2.0 * +EC3.4.21.62 succinyl-aape-p-nitroanilide bacillus lentus//*//* 4.4 * +EC3.4.21.62 succinyl-aapf-p-nitroanilide bacillus lentus//*//* 0.73 * +EC3.4.21.62 succinyl-aapr-p-nitroanilide bacillus lentus//*//* 7.2 * +EC3.4.21.62 succinyl-ala-ala-ala 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.2 * +EC3.4.21.62 succinyl-ala-ala-phe 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.71 * +EC3.4.21.62 succinyl-ala-ala-pro-phe 4-nitroanilide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.13 * +EC3.4.21.62 toluenesulfonyl-arg methyl ester bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 30.0 * +EC3.4.21.62 urea-denatured hemoglobin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.09 * +EC3.4.21.62 z-ala-ala-leu-p-nitroanilide bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.25 * +EC3.4.21.62 z-ala-ala-leu-p-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.14 * +EC3.4.21.63 acetyl-(ala)2 methyl ester aspergillus melleus//*//* 68.5 * +EC3.4.21.63 acetyl-(ala)2 methyl ester aspergillus sojae//*//* 44.5 * +EC3.4.21.63 acetyl-(ala)3 methyl ester aspergillus melleus//*//* 6.7 * +EC3.4.21.63 acetyl-(ala)3 methyl ester aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 20.8 * +EC3.4.21.63 acetyl-(ala)3 methyl ester aspergillus sojae//*//* 6.7 * +EC3.4.21.63 acetyl-(ala)4 methyl ester aspergillus melleus//*//* 4.7 * +EC3.4.21.63 acetyl-(ala)4 methyl ester aspergillus sojae//*//* 7.0 * +EC3.4.21.63 acetyl-ala methyl ester aspergillus sojae//*//* 96.8 * +EC3.4.21.63 acetyl-ala-phe methyl ester aspergillus sojae//*//* 13.5 * +EC3.4.21.63 acetyl-phe methyl ester aspergillus sojae//*//* 23.0 * +EC3.4.21.63 acetyl-tyrosine ethyl ester aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 12.8 * +EC3.4.21.63 benzoyl-arginine ethyl ester aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 7.1 * +EC3.4.21.64 acetyl-(ala)2-ala methyl ester parengyodontium album//*//* 1.0 * +EC3.4.21.64 acetyl-(ala)2-phe methyl ester parengyodontium album//*//* 0.8 * +EC3.4.21.64 acetyl-ala methyl ester parengyodontium album//*//* 45.0 * +EC3.4.21.64 acetyl-leu methyl ester parengyodontium album//*//* 30.0 * +EC3.4.21.64 acetyl-phe ethyl ester parengyodontium album//*//* 12.0 * +EC3.4.21.64 acetyl-trp ethyl ester parengyodontium album//*//* 5.6 * +EC3.4.21.64 acetyl-tyr ethyl ester parengyodontium album//*//* 8.8 * +EC3.4.21.64 acetyl-val methyl ester parengyodontium album//*//* 26.0 * +EC3.4.21.64 benzoyl-arg ethyl ester parengyodontium album//*//* 3.3 * +EC3.4.21.64 carboxybenzoyl-(ala)2-lys methyl ester parengyodontium album//*//* 0.9 * +EC3.4.21.64 carboxybenzoyl-ala-lys methyl ester parengyodontium album//*//* 3.0 * +EC3.4.21.64 carboxybenzoyl-d-ala-lys methyl ester parengyodontium album//*//* 20.0 * +EC3.4.21.64 carboxybenzoyl-gly-lys methyl ester parengyodontium album//*//* 19.0 * +EC3.4.21.64 carboxybenzoyl-leu-lys methyl ester parengyodontium album//*//* 9.0 * +EC3.4.21.64 carboxybenzoyl-lys methyl ester parengyodontium album//*//* 21.0 * +EC3.4.21.64 succinyl-aapf-4-nitroanilide parengyodontium album//*//* 0.46 * +EC3.4.21.64 succinyl-aapf-4-nitroanilide serratia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//srs 2.36 * +EC3.4.21.64 succinyl-ala-ala-ala-p-nitroanilide parengyodontium album//*//* 1.29 * +EC3.4.21.65 acetyl-ala-ala-ala methyl ester malbranchea pulchella//*//* 1.5 * +EC3.4.21.67 casein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0014 * +EC3.4.21.68 (p-f)-fpransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.68 asp-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC3.4.21.68 benzyloxycarbonyl-asp(o-tert-butyl)-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.21.68 benzyloxycarbonyl-asp-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.21.68 benzyloxycarbonyl-d-arg-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.52 * +EC3.4.21.68 benzyloxycarbonyl-d-asp(o-tert-butyl)-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.68 benzyloxycarbonyl-d-glu(o-tetr-butyl)-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.68 benzyloxycarbonyl-d-glu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC3.4.21.68 benzyloxycarbonyl-d-phe-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.68 benzyloxycarbonyl-glu-(o-tert-butyl)gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.21.68 benzyloxycarbonyl-glu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.4.21.68 benzyloxycarbonyl-val-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.36 * +EC3.4.21.68 boc-(p-f)-fpransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.68 boc-d-flransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.21.68 boc-d-flransnhc3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.21.68 boc-d-fpransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.4.21.68 boc-d-fvransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.21.68 boc-d-lgransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.68 boc-d-lpransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.21.68 boc-d-lsransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.21.68 boc-d-vgransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.21.68 boc-d-vpr-ansnhc4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.21.68 boc-d-vpransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.21.68 boc-l-vgransnhc4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.68 cyclohexylglycyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.32 * +EC3.4.21.68 d-asp(o-tert-butyl)-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.68 d-cyclohexylglycyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.53 * +EC3.4.21.68 d-flransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0074 * +EC3.4.21.68 d-fpr-ansnh-c2h4och3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00078 * +EC3.4.21.68 d-fpr-ansnh-ch2cooch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00046 * +EC3.4.21.68 d-fpr-ansnh-n-c6h13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.099 * +EC3.4.21.68 d-fpransn-(ch2)6 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00038 * +EC3.4.21.68 d-fpransn-c2h5-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC3.4.21.68 d-fpransnh-c-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00059 * +EC3.4.21.68 d-fpransnh-c2h4och3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.68 d-fpransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0057 * +EC3.4.21.68 d-fpransnh-c6h5ch2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.68 d-fpransnh-ch2cooch3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC3.4.21.68 d-fpransnh-i-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC3.4.21.68 d-fpransnh-n-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.68 d-fpransnh-n-c6h13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.095 * +EC3.4.21.68 d-fpransnh-t-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.21.68 d-fvransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.21.68 d-glu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.21.68 d-hexahydrotyrosyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.83 * +EC3.4.21.68 d-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6e-05 * +EC3.4.21.68 d-lgransnh-c6h11 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.68 d-lpransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.68 d-lsransnh-c3h7 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.21.68 d-lys-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.21.68 d-phe-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC3.4.21.68 d-vgransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.21.68 d-vpransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.68 glu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.21.68 glu-plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2e-05 * +EC3.4.21.68 l-fpransnh-c2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.68 l-vgransnh-c4h9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC3.4.21.68 lys-lys-cys-pro-gly-arg-val-val-gly-gly-cys-val-ala-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.21.68 lys-lys-ser-pro-gly-arg-val-val-gly-gly-ser-val-ala-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.21.68 lys-plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1e-05 * +EC3.4.21.68 methyloxycarbonyl-d-cyclohexylalanyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.4.21.68 methyloxycarbonyl-d-cyclohexylglycyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.4.21.68 methyloxycarbonyl-d-hexahydrotyrosyl-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.4.21.68 methyloxycarbonyl-d-leu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC3.4.21.68 methyloxycarbonyl-d-nle-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.99 * +EC3.4.21.68 methyloxycarbonyl-d-val-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.21.68 methylsulfonyl-d-phe-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.68 peptide s-2288 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7e-05 * +EC3.4.21.68 pglu-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.15 * +EC3.4.21.68 phe-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.68 plasminogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0001 * +EC3.4.21.68 plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-05 * +EC3.4.21.68 snase pfgrsa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.68 snase pfgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC3.4.21.68 snase pgpfgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC3.4.21.68 snase pgpfgrsagg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC3.4.21.68 snase pgsgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.21.68 snase phygrsgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.21.68 snase ppfgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0099 * +EC3.4.21.68 snase pqrgrsag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0089 * +EC3.4.21.68 spectrozyme tpa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.68 tert-butoxycarbonyl-gly-gly-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.4.21.69 benzyloxycarbonyl-val-gly-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.528 * +EC3.4.21.69 cleavage of arg306 in factor var506q homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000196 * +EC3.4.21.69 cleavage of arg506 in membrane-bound factor va homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2e-05 * +EC3.4.21.69 d-ile-pro-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.606 * +EC3.4.21.69 d-phe-pipecolyl-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.373 * +EC3.4.21.69 d-pro-phe-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.505 * +EC3.4.21.69 d-val-cyclohexyl-ala-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.259 * +EC3.4.21.69 d-val-leu-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.345 * +EC3.4.21.69 factor va homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.97e-05 * +EC3.4.21.69 factor viiia homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.4.21.69 nalpha-benzoyl-l-arginine 4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.43 * +EC3.4.21.69 s-2288 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC3.4.21.69 s-2366 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00091 * +EC3.4.21.69 spectrozyme pca homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.177 * +EC3.4.21.69 toluene-p-sulfonyl-gly-pro-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.762 * +EC3.4.21.69 toluene-p-sulfonyl-gly-pro-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.116 * +EC3.4.21.7 aiyrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.21.7 benzyloxycarbonyl-lys-p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0135 * +EC3.4.21.7 ciyrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.21.7 d-ile-phe-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.7 d-norleucyl-hexahydrotyrosyl-lysine-p-nitroanilide synthetic construct//*//* 0.00589 * +EC3.4.21.7 d-val-l-leu-l-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.193 * +EC3.4.21.7 d-val-leu-lys-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.21.7 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.7 givrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.21.7 giyrsr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.21.7 gpgrvv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0047 * +EC3.4.21.7 hemofiltrate cc chemokine 1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00076 * +EC3.4.21.7 kkspgrvvggsvah homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC3.4.21.7 l-ile-phe-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.4.21.7 lggsamsrmssle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.21.7 lggsganfrgkle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.21.7 lggsgavykagle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.4.21.7 lggsgigrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.85 * +EC3.4.21.7 lggsgiyrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.7 lggsgiyrsvsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.21.7 lggsgiyrvrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.21.7 lggsgpyrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.7 lggsgtqrrlrle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.4.21.7 lggsgykiggsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.21.7 lggsirykgksle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC3.4.21.7 lggssiyrsrsle homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.8 * +EC3.4.21.7 p-nitrophenyl-p'-(guanidinium)benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0052 * +EC3.4.21.7 p-nitrophenyl-p'-(methylethylsulfoniummethyl)benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.214 * +EC3.4.21.7 p-nitrophenyl-p'-(pyridiniummethyl)-benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.21 * +EC3.4.21.7 p-nitrophenyl-p'-(thiouroniummethyl)benzoate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.027 * +EC3.4.21.7 p-tosyl-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.4.21.7 spgrvv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.7 thrombin-activatable fibrinolysis inhibitor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.21.7 tosyl-arg methyl ester oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.3 * +EC3.4.21.70 acetyl-tri-l-alanine methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.4 * +EC3.4.21.70 acetyl-tri-l-alanine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.86 * +EC3.4.21.70 benzoyl-l-alanine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 24.0 * +EC3.4.21.70 benzyloxycarbonylalanine 4-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04706 * +EC3.4.21.70 succinyl-tri-l-alanine 4-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.95 * +EC3.4.21.70 tert-butyloxycarbonyl-l-alanine 4-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.166 * +EC3.4.21.71 gly-ile-asp-val-gln-ile-tyr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0083 * +EC3.4.21.71 somatostatin-14 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.089 * +EC3.4.21.71 suc-ala-ala-pro-met-p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.567 * +EC3.4.21.72 iga haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0008 * +EC3.4.21.72 iga prevotella melaninogenica//prokaryotes;bacteria;bacteroidetes;prevotella//pmz 0.0034 * +EC3.4.21.72 iga streptococcus sanguinis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssa 0.056 * +EC3.4.21.73 gsgrsa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC3.4.21.73 hygrsa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.73 l-pyroglu-gly-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.4.21.73 l-pyroglu-gly-l-arg-p-na mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.08 * +EC3.4.21.73 l-pyroglutamyl-glycyl-l-arginine 4-nitroanilide hydrochloride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.297 * +EC3.4.21.73 n-benzyloxycarbonyl-gly-gly-arg-7-amido-4-trifluoromethylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.053 * +EC3.4.21.73 pfgrsa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.21.73 plasminogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000243 * +EC3.4.21.73 pyroglu-gly-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.73 qrgrsa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.73 s2444 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC3.4.21.73 ygakay homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.21.74 benzoyl-pro-phe-arg 4-nitroanilide crotalus adamanteus//*//* 0.39 * +EC3.4.21.74 carbobenzoxyl-glu-(alpha-tert-butoxy)-gly-arg 4-nitroanilide crotalus adamanteus//*//* 0.025 * +EC3.4.21.74 d-phe-l-pipecoyl-l-arg 4-nitroanilide crotalus adamanteus//*//* 0.18 * +EC3.4.21.74 d-pro-l-phe-l-arg 4-nitroanilide crotalus adamanteus//*//* 0.06 * +EC3.4.21.74 d-val-l-leu-l-arg 4-nitroanilide crotalus adamanteus//*//* 0.14 * +EC3.4.21.74 h-d-aminobutyric acid-cyclohexylalanyl-lys 4-nitroanilide crotalus adamanteus//*//* 3.3 * +EC3.4.21.74 h-d-hexahydrotyrosyl-ala-arg 4-nitroanilide crotalus adamanteus//*//* 0.45 * +EC3.4.21.74 h-d-nle-cyclohexylalanyl-arg 4-nitroanilide crotalus adamanteus//*//* 0.27 * +EC3.4.21.74 h-d-nle-hexahydrotyrosyl-lys 4-nitroanilide crotalus adamanteus//*//* 2.7 * +EC3.4.21.74 h-d-pro-hexahydrotyrosyl-arg 4-nitroanilide crotalus adamanteus//*//* 0.058 * +EC3.4.21.74 human plasma fibrinogen daboia russellii russellii//*//* 0.0066 * +EC3.4.21.74 tosyl-gly-pro-arg 4-nitroanilide crotalus adamanteus//*//* 0.3 * +EC3.4.21.74 tosyl-gly-pro-lys 4-nitroanilide crotalus adamanteus//*//* 1.4 * +EC3.4.21.75 (2-aminobenzoyl)-lys-glu-arg-ser-lys-arg-ser-ala-leu-arg-asp-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.21.75 2-aminobenzoyl-arg-val-lys-arg-gly-leu-ala-tyr(no2)-asp-oh mammalia//*//* 0.0038 * +EC3.4.21.75 abz-girrkrsvshq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00039 * +EC3.4.21.75 abz-grrtrreaivq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC3.4.21.75 abz-hhrqrrsvsiq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.75 abz-hkrekrqakhq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00038 * +EC3.4.21.75 abz-hrrekrsvalq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.21.75 abz-hrrqkrsvalq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC3.4.21.75 abz-kirrrrdvvdq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC3.4.21.75 abz-lkrrrrdtqqq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC3.4.21.75 abz-nlrrrrdlvdq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00033 * +EC3.4.21.75 abz-rerrrkkrglfgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.4.21.75 abz-rkrsrrqvntq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.21.75 abz-rrrakrspkhq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.21.75 abz-rrrdkrsvalq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00039 * +EC3.4.21.75 abz-rrrkkrglfgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0155 * +EC3.4.21.75 abz-rrrkkrglsgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC3.4.21.75 abz-rrrkkrslfgq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.21.75 abz-skrsrrsvsvq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00041 * +EC3.4.21.75 abz-srrhkrfagvq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC3.4.21.75 abz-srrkrrdvtpq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC3.4.21.75 abz-srrkrrsastq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC3.4.21.75 abz-ssrhrraldtq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00086 * +EC3.4.21.75 abz-trrfrrsiteq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00053 * +EC3.4.21.75 ac-arg-val-arg-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0123 * +EC3.4.21.75 ac-norleucineykr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.75 acetyl-arg-glu-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.21.75 acetyl-arg-lys-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.21.75 acetyl-arg-phe-ala-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.345 * +EC3.4.21.75 acetyl-arg-pro-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.21.75 acetyl-arg-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.21.75 acetyl-lys-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC3.4.21.75 acetyl-orn-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.21.75 acetyl-rvrr-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00194 * +EC3.4.21.75 acetyl-tyr-glu-lys-glu-arg-ser-lys-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC3.4.21.75 acrarykr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.4.21.75 acrykr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.21.75 acryrfkr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.21.75 boc-rvrr-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.21.75 boc-rvrr-7-amido-4-methyl-coumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC3.4.21.75 boc-rvrr-7-amido-4-methylcoumarin trichoplusia ni//*//* 0.029 * +EC3.4.21.75 dssarirrnakg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.21.75 glu-arg-thr-lys-arg-(7-methylcoumarin-4-yl)acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC3.4.21.75 hbmp-2 precursor protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC3.4.21.75 hbmp-4 precursor protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.4.21.75 perktr-7-amido-4-methylcoumarin trichoplusia ni//*//* 0.00124 * +EC3.4.21.75 pglu-arg-thr-lys-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.21.75 pro-hadam-15 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.21.75 pro-hadam-ts 4 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC3.4.21.75 pro-hadam-ts 6 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.21.75 pro-hadamts-17 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0091 * +EC3.4.21.75 pro-hadamts-23 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC3.4.21.75 pro-htgf-best1 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.4.21.75 pro-htgf-beta2 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.4.21.75 pro-htgf-beta3 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC3.4.21.75 pro-htgf-beta4 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.21.75 pro-mt-mmp 1 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC3.4.21.75 pro-mt-mmp 11 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC3.4.21.75 pro-mt-mmp 3 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC3.4.21.75 pro-mt-mmp 4 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC3.4.21.75 pro-mt-mmp 6 protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC3.4.21.75 proaerolysin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00064 * +EC3.4.21.75 protective antigen mammalia//*//* 0.002 * +EC3.4.21.75 pseudomonas toxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0118 * +EC3.4.21.75 pyr-arg-thr-lys-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.21.75 shiga toxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.4.21.75 t-butyloxycarbonyl-arg-val-arg-arg-7-amido-4-methylcoumarin cryptosporidium parvum//eukaryotes;protists;alveolates;apicomplexans//cpv 0.01517 * +EC3.4.21.75 tert-butoxycarbonyl-arg-val-arg-arg-4-methylcoumarin 7-amide mammalia//*//* 0.0156 * +EC3.4.21.75 viral precursor protein e3e2 synthetic construct//*//* 0.000122 * +EC3.4.21.76 2-aminobenzoyl-vadcadq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5 * +EC3.4.21.76 2-aminobenzoyl-vadcaq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.3 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzamide) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0314 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-ala-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1731 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0642 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-asn-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0251 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-asp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0281 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-gln-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0174 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-glu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0253 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-gly-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1242 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-his-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0357 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-ile-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2763 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-leu-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2436 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-lys-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0729 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-phe-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.126 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-pro-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1823 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-ser-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0278 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-thr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0321 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-trp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.274 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-tyr-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9823 * +EC3.4.21.76 abz-tyr-tyr-abu-(5-amino-2-nitrobenzoyl)-val-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3124 * +EC3.4.21.76 abz-vadcadrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.21.76 abz-vadcady(no2) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC3.4.21.76 abz-vadcddrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC3.4.21.76 abz-vadcrdrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.21.76 ac-ala-ala-pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7 * +EC3.4.21.76 ac-ala-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.21.76 boc-ala-ala-pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.76 meosuc-aapv-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.21.76 meosuc-aapv-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC3.4.21.76 meosuc-aipm-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC3.4.21.76 meosuc-aipm-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC3.4.21.76 meosuc-ala-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.21.76 meosuc-lys(2-picolinoyl)-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.76 meosuc-lys(2-picolinoyl)-tyr-asp-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.21.76 meosuc-lys(2-picolinoyl)-tyr-asp-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.21.76 suc-aaa-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.61 * +EC3.4.21.76 suc-aapl-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.5 * +EC3.4.21.76 suc-aapv-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.4.21.76 suc-aapv-4-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.5 * +EC3.4.21.76 suc-ala-ala-asp-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC3.4.21.76 suc-ala-ala-glu-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.97 * +EC3.4.21.76 suc-ala-ala-pro-2-aminobutyric acid-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.21.76 suc-ala-ala-pro-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC3.4.21.76 suc-ala-ala-pro-ile-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.64 * +EC3.4.21.76 suc-ala-ala-pro-nva-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.76 suc-ala-ala-pro-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.76 suc-ala-tyr-leu-val-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.21.76 suc-leu-val-glu-ala-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.21.76 succinyl-ala-ala-norvaline-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-ala-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-ile-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-met-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-norvaline-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.21.76 tert-butyloxycarbonyl-ala-ala-val-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.21.77 4-morpholinecarbonyl-hssklq-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.58 * +EC3.4.21.77 4-morpholinecarbonyl-hssklq-amc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.4.21.77 4-morpholinecarbonyl-srksqqy-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.77 arg-pro-tyr 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.77 hssklq-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.47 * +EC3.4.21.77 lys-val-tyr 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.77 mca-qfyssnk(epsilon-dinitrophenyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC3.4.21.77 meo-suc-arg-pro-tyr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.72 * +EC3.4.21.77 n-succinyl-l-ala-l-ala-l-pro-l-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.3 * +EC3.4.21.78 benzyloxycarbonyl-arg thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.4.21.78 benzyloxycarbonyl-arg thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.315 * +EC3.4.21.78 benzyloxycarbonyl-gly-arg thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC3.4.21.78 benzyloxycarbonyl-gly-arg thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC3.4.21.78 benzyloxycarbonyl-lys thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.21.78 benzyloxycarbonyl-lys thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.13 * +EC3.4.21.78 boc-ala-ala-arg-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.887 * +EC3.4.21.78 boc-trp-arg-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.21.78 tert-butyloxycarbonyl-ala-ala-arg thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC3.4.21.78 z-arg-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.177 * +EC3.4.21.78 z-lys-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.767 * +EC3.4.21.79 2-aminobenzoyl-iepdssmek-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC3.4.21.79 2-aminobenzoyl-iepdssmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC3.4.21.79 2-aminobenzoyl-vvadssmask-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0701 * +EC3.4.21.79 2-aminobenzoyl-vvadssmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.21.79 2-aminobenzoyl-vvaessmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0643 * +EC3.4.21.79 abz-iepdssmesk-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC3.4.21.79 ac-iepd-p-nitroanilide equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.1512 * +EC3.4.21.79 ac-iepd-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.447 * +EC3.4.21.79 acetyl-iefd-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.21.79 acetyl-iepd-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.37 * +EC3.4.21.79 acetyl-ietd-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC3.4.21.79 acetyl-ietd-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.38 * +EC3.4.21.79 acetyl-ikpd-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC3.4.21.79 acetyl-lefd-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.4.21.79 acetyl-lepd-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC3.4.21.79 boc-ala-ala-asp-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.79 boc-ala-ala-asp-sbzl mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.355 * +EC3.4.21.79 iepd-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.21.79 leed-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.082 * +EC3.4.21.79 nalpha-tert-butyloxycarbonyl-ala-ala-asp thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.4.21.79 nalpha-tert-butyloxycarbonyl-ala-ala-met thiobenzyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.55 * +EC3.4.21.79 veid-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC3.4.21.80 acetyl-pro-ala-leu-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.45 * +EC3.4.21.80 acetyl-pro-ala-pro-phe-leu-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.02 * +EC3.4.21.80 acetyl-pro-ala-pro-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.54 * +EC3.4.21.80 acetyl-pro-ala-pro-phe-tyr-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.15 * +EC3.4.21.80 acetyl-pro-ala-pro-trp-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.87 * +EC3.4.21.80 acetyl-pro-ala-pro-tyr-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.4 * +EC3.4.21.80 succinyl-ala-ala-pro-phe 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.047 * +EC3.4.21.80 succinyl-ala-ala-pro-phe-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.045 * +EC3.4.21.81 acetyl-ala-ala-tyr-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.15 * +EC3.4.21.81 acetyl-pro-ala-leu-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.4 * +EC3.4.21.81 acetyl-pro-ala-pro-phe-nh2 streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 2.4 * +EC3.4.21.81 suc-aapf-p-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.062 * +EC3.4.21.81 succinyl-ala-ala-pro-phe 4--nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.101 * +EC3.4.21.81 succinyl-ala-ala-pro-phe-4-methylcoumarin 7-amide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.098 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-ala-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.9 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-gly-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.98 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-leu-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.13 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-phe-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 1.39 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-ala-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.484 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-leu-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.599 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-phe-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.407 * +EC3.4.21.82 tert-butyloxycarbonyl-ala-pro-glu 4-nitroanilide streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 3.25 * +EC3.4.21.83 2-aminobenzoyl-adgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0036 * +EC3.4.21.83 2-aminobenzoyl-aegrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.039 * +EC3.4.21.83 2-aminobenzoyl-afgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0032 * +EC3.4.21.83 2-aminobenzoyl-afgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0034 * +EC3.4.21.83 2-aminobenzoyl-agdrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.013 * +EC3.4.21.83 2-aminobenzoyl-agergagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0033 * +EC3.4.21.83 2-aminobenzoyl-agfrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0024 * +EC3.4.21.83 2-aminobenzoyl-agfrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0031 * +EC3.4.21.83 2-aminobenzoyl-aggrdagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0015 * +EC3.4.21.83 2-aminobenzoyl-aggrdagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0045 * +EC3.4.21.83 2-aminobenzoyl-aggreagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0014 * +EC3.4.21.83 2-aminobenzoyl-aggreagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0065 * +EC3.4.21.83 2-aminobenzoyl-aggrfagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0003 * +EC3.4.21.83 2-aminobenzoyl-aggrfagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0027 * +EC3.4.21.83 2-aminobenzoyl-aggrgadq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0057 * +EC3.4.21.83 2-aminobenzoyl-aggrgaeq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.021 * +EC3.4.21.83 2-aminobenzoyl-aggrgafq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0097 * +EC3.4.21.83 2-aminobenzoyl-aggrgafq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0062 * +EC3.4.21.83 2-aminobenzoyl-aggrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0011 * +EC3.4.21.83 2-aminobenzoyl-aggrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0072 * +EC3.4.21.83 2-aminobenzoyl-aggrgahq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0034 * +EC3.4.21.83 2-aminobenzoyl-aggrgahq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0037 * +EC3.4.21.83 2-aminobenzoyl-aggrgaiq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.031 * +EC3.4.21.83 2-aminobenzoyl-aggrgaiq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.011 * +EC3.4.21.83 2-aminobenzoyl-aggrgalq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.012 * +EC3.4.21.83 2-aminobenzoyl-aggrgalq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0073 * +EC3.4.21.83 2-aminobenzoyl-aggrgamq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0031 * +EC3.4.21.83 2-aminobenzoyl-aggrgamq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.003 * +EC3.4.21.83 2-aminobenzoyl-aggrganq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0059 * +EC3.4.21.83 2-aminobenzoyl-aggrganq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.018 * +EC3.4.21.83 2-aminobenzoyl-aggrgapq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0011 * +EC3.4.21.83 2-aminobenzoyl-aggrgapq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0072 * +EC3.4.21.83 2-aminobenzoyl-aggrgaqq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0088 * +EC3.4.21.83 2-aminobenzoyl-aggrgaqq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0048 * +EC3.4.21.83 2-aminobenzoyl-aggrgasq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.002 * +EC3.4.21.83 2-aminobenzoyl-aggrgasq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC3.4.21.83 2-aminobenzoyl-aggrgatq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.006 * +EC3.4.21.83 2-aminobenzoyl-aggrgavq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0091 * +EC3.4.21.83 2-aminobenzoyl-aggrgavq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.021 * +EC3.4.21.83 2-aminobenzoyl-aggrgayq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0057 * +EC3.4.21.83 2-aminobenzoyl-aggrgayq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.011 * +EC3.4.21.83 2-aminobenzoyl-aggrgdgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.008 * +EC3.4.21.83 2-aminobenzoyl-aggrgdgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC3.4.21.83 2-aminobenzoyl-aggrgegq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.01 * +EC3.4.21.83 2-aminobenzoyl-aggrgegq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.138 * +EC3.4.21.83 2-aminobenzoyl-aggrgfgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0021 * +EC3.4.21.83 2-aminobenzoyl-aggrgfgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC3.4.21.83 2-aminobenzoyl-aggrgggq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0062 * +EC3.4.21.83 2-aminobenzoyl-aggrghgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0033 * +EC3.4.21.83 2-aminobenzoyl-aggrghgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0028 * +EC3.4.21.83 2-aminobenzoyl-aggrgigq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0032 * +EC3.4.21.83 2-aminobenzoyl-aggrglgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0052 * +EC3.4.21.83 2-aminobenzoyl-aggrglgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.024 * +EC3.4.21.83 2-aminobenzoyl-aggrgmgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.003 * +EC3.4.21.83 2-aminobenzoyl-aggrgmgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.02 * +EC3.4.21.83 2-aminobenzoyl-aggrgngq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0046 * +EC3.4.21.83 2-aminobenzoyl-aggrgngq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0092 * +EC3.4.21.83 2-aminobenzoyl-aggrgpgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0012 * +EC3.4.21.83 2-aminobenzoyl-aggrgpgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0098 * +EC3.4.21.83 2-aminobenzoyl-aggrgqgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0023 * +EC3.4.21.83 2-aminobenzoyl-aggrgqgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.01 * +EC3.4.21.83 2-aminobenzoyl-aggrgsgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0032 * +EC3.4.21.83 2-aminobenzoyl-aggrgsgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0037 * +EC3.4.21.83 2-aminobenzoyl-aggrgtgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0058 * +EC3.4.21.83 2-aminobenzoyl-aggrgtgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.013 * +EC3.4.21.83 2-aminobenzoyl-aggrgvgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.02 * +EC3.4.21.83 2-aminobenzoyl-aggrgvgq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.031 * +EC3.4.21.83 2-aminobenzoyl-aggrgygq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0044 * +EC3.4.21.83 2-aminobenzoyl-aggrgygq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0039 * +EC3.4.21.83 2-aminobenzoyl-aggrhagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0005 * +EC3.4.21.83 2-aminobenzoyl-aggrhagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0017 * +EC3.4.21.83 2-aminobenzoyl-aggriagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0005 * +EC3.4.21.83 2-aminobenzoyl-aggriagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0003 * +EC3.4.21.83 2-aminobenzoyl-aggrlagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0006 * +EC3.4.21.83 2-aminobenzoyl-aggrlagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0013 * +EC3.4.21.83 2-aminobenzoyl-aggrmagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0069 * +EC3.4.21.83 2-aminobenzoyl-aggrmagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0083 * +EC3.4.21.83 2-aminobenzoyl-aggrnagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0004 * +EC3.4.21.83 2-aminobenzoyl-aggrnagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0013 * +EC3.4.21.83 2-aminobenzoyl-aggrqagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0005 * +EC3.4.21.83 2-aminobenzoyl-aggrqagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0007 * +EC3.4.21.83 2-aminobenzoyl-aggrsagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0005 * +EC3.4.21.83 2-aminobenzoyl-aggrsagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0012 * +EC3.4.21.83 2-aminobenzoyl-aggrtagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0003 * +EC3.4.21.83 2-aminobenzoyl-aggrtagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0009 * +EC3.4.21.83 2-aminobenzoyl-aggrvagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0001 * +EC3.4.21.83 2-aminobenzoyl-aggrvagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0014 * +EC3.4.21.83 2-aminobenzoyl-aggryagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0004 * +EC3.4.21.83 2-aminobenzoyl-aggryagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0006 * +EC3.4.21.83 2-aminobenzoyl-aghrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0063 * +EC3.4.21.83 2-aminobenzoyl-agirgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0012 * +EC3.4.21.83 2-aminobenzoyl-agirgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.01 * +EC3.4.21.83 2-aminobenzoyl-agkrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0048 * +EC3.4.21.83 2-aminobenzoyl-agkrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0018 * +EC3.4.21.83 2-aminobenzoyl-aglrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0019 * +EC3.4.21.83 2-aminobenzoyl-aglrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0077 * +EC3.4.21.83 2-aminobenzoyl-agmrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0025 * +EC3.4.21.83 2-aminobenzoyl-agmrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0029 * +EC3.4.21.83 2-aminobenzoyl-agnrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.004 * +EC3.4.21.83 2-aminobenzoyl-agnrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.023 * +EC3.4.21.83 2-aminobenzoyl-agprgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0082 * +EC3.4.21.83 2-aminobenzoyl-agprgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.016 * +EC3.4.21.83 2-aminobenzoyl-agqrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0014 * +EC3.4.21.83 2-aminobenzoyl-agqrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0059 * +EC3.4.21.83 2-aminobenzoyl-agsrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0006 * +EC3.4.21.83 2-aminobenzoyl-agsrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0004 * +EC3.4.21.83 2-aminobenzoyl-agtrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0019 * +EC3.4.21.83 2-aminobenzoyl-agtrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0075 * +EC3.4.21.83 2-aminobenzoyl-agvrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0014 * +EC3.4.21.83 2-aminobenzoyl-agvrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0039 * +EC3.4.21.83 2-aminobenzoyl-agyrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0077 * +EC3.4.21.83 2-aminobenzoyl-agyrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.014 * +EC3.4.21.83 2-aminobenzoyl-ahgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0032 * +EC3.4.21.83 2-aminobenzoyl-ahgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0035 * +EC3.4.21.83 2-aminobenzoyl-aigrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.002 * +EC3.4.21.83 2-aminobenzoyl-aigrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0044 * +EC3.4.21.83 2-aminobenzoyl-algrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0013 * +EC3.4.21.83 2-aminobenzoyl-algrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0026 * +EC3.4.21.83 2-aminobenzoyl-amgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0009 * +EC3.4.21.83 2-aminobenzoyl-amgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0059 * +EC3.4.21.83 2-aminobenzoyl-angrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0083 * +EC3.4.21.83 2-aminobenzoyl-apgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.001 * +EC3.4.21.83 2-aminobenzoyl-apgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0019 * +EC3.4.21.83 2-aminobenzoyl-aqgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0019 * +EC3.4.21.83 2-aminobenzoyl-aqgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0024 * +EC3.4.21.83 2-aminobenzoyl-asgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0023 * +EC3.4.21.83 2-aminobenzoyl-asgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0074 * +EC3.4.21.83 2-aminobenzoyl-atgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0018 * +EC3.4.21.83 2-aminobenzoyl-atgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0082 * +EC3.4.21.83 2-aminobenzoyl-avgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0026 * +EC3.4.21.83 2-aminobenzoyl-avgrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.013 * +EC3.4.21.83 2-aminobenzoyl-aygrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0018 * +EC3.4.21.83 2-aminobenzoyl-aygrgagq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.003 * +EC3.4.21.83 2-aminobenzoyl-thr-arg cit-phe(no2)-ser-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0298 * +EC3.4.21.83 2-aminobenzoyl-thr-arg-arg phe(no2)-ser-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0048 * +EC3.4.21.83 2-aminobenzoyl-thr-cit-arg phe(no2)-ser-leu-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC3.4.21.83 3-(2-furyl)acryloyl-tyr-lys-arg trypanosoma evansi//*//* 0.0011 * +EC3.4.21.83 acetyl-l-leu-l-leu-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.224 * +EC3.4.21.83 acetyl-l-leu-l-lys-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.0226 * +EC3.4.21.83 acetyl-tyrosine 4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.0 * +EC3.4.21.83 ala-phe-lys-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0044 * +EC3.4.21.83 arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.04 * +EC3.4.21.83 arg-arg-2-naphthylamide trypanosoma evansi//*//* 0.0024 * +EC3.4.21.83 arg-arg-arg trypanosoma evansi//*//* 0.0006 * +EC3.4.21.83 benzoyl-arg 2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC3.4.21.83 benzoyl-arg 4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.4.21.83 benzoyl-arg ethyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.48 * +EC3.4.21.83 benzoyl-arg-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.195 * +EC3.4.21.83 benzoyl-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00268 * +EC3.4.21.83 benzoyl-arg-beta-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.097 * +EC3.4.21.83 benzoyl-gly-gly-l-arg-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.00308 * +EC3.4.21.83 benzoyl-gly-l-pro-l-arg-7-amido-4-methylcoumarin leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.00776 * +EC3.4.21.83 benzoyl-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0044 * +EC3.4.21.83 benzoyl-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00334 * +EC3.4.21.83 benzoyl-l-pro-l-phe-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.084 * +EC3.4.21.83 benzoyl-lys 2-naphthylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.92 * +EC3.4.21.83 benzoyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00334 * +EC3.4.21.83 benzyloxycarbonyl-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0044 * +EC3.4.21.83 benzyloxycarbonyl-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.004 * +EC3.4.21.83 benzyloxycarbonyl-arg-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.00088 * +EC3.4.21.83 benzyloxycarbonyl-arg-thr-lys-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00063 * +EC3.4.21.83 benzyloxycarbonyl-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0034 * +EC3.4.21.83 benzyloxycarbonyl-gly-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0023 * +EC3.4.21.83 benzyloxycarbonyl-gly-gly-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0029 * +EC3.4.21.83 benzyloxycarbonyl-gly-l-arg-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0012 * +EC3.4.21.83 benzyloxycarbonyl-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00268 * +EC3.4.21.83 benzyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00117 * +EC3.4.21.83 benzyloxycarbonyl-lys-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0054 * +EC3.4.21.83 benzyloxycarbonyl-phe-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0023 * +EC3.4.21.83 benzyloxycarbonyl-val-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0026 * +EC3.4.21.83 boc-gln-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0028 * +EC3.4.21.83 boc-gly-arg-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0019 * +EC3.4.21.83 boc-gly-lys-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0019 * +EC3.4.21.83 boc-leu-arg-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0011 * +EC3.4.21.83 boc-leu-gly-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0026 * +EC3.4.21.83 boc-leu-gly-lys-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0024 * +EC3.4.21.83 boc-leu-lys-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.001 * +EC3.4.21.83 boc-leu-thr-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0022 * +EC3.4.21.83 dl-val-leu-arg-paranitroanilide xenorhabdus nematophila//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;xenorhabdus//xne 0.429 * +EC3.4.21.83 gly-arg-2-naphthylamide trypanosoma evansi//*//* 0.0048 * +EC3.4.21.83 gly-gly-lys-arg trypanosoma evansi//*//* 0.0016 * +EC3.4.21.83 n-benzoyl-arg amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC3.4.21.83 n-benzyloxycarbonyl-gly-gly-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0038 * +EC3.4.21.83 n-benzyloxycarbonyl-l-arg-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.00093 * +EC3.4.21.83 n-benzyloxycarbonyl-l-phe-l-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0031 * +EC3.4.21.83 n-benzyloxycarbonyl-lys benzyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.31 * +EC3.4.21.83 n-tosyl-gly-pro-arg-paranitroanilide xenorhabdus nematophila//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;xenorhabdus//xne 0.234 * +EC3.4.21.83 n2-benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00027 * +EC3.4.21.83 nalpha-benzoyl-dl-arginine-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.09 * +EC3.4.21.83 nalpha-benzyloxycarbonyl-l-lysine thiobenzyl ester serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.096 * +EC3.4.21.83 nalpha-benzyloxycarbonyl-l-phe-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.0513 * +EC3.4.21.83 phe-arg-2-naphthylamide trypanosoma evansi//*//* 0.0038 * +EC3.4.21.83 phe-arg-arg trypanosoma evansi//*//* 0.0027 * +EC3.4.21.83 succinyl-l-ala-l-ala-l-pro-l-lys-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 2.2 * +EC3.4.21.83 succinyl-l-alal-ala-l-pro-l-arg-4-nitroanilide serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.306 * +EC3.4.21.83 tert-butyloxycarbonyl-ala-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0017 * +EC3.4.21.83 tert-butyloxycarbonyl-ala-gly-pro-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0135 * +EC3.4.21.83 tert-butyloxycarbonyl-gly-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0013 * +EC3.4.21.83 tert-butyloxycarbonyl-gly-lys-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0019 * +EC3.4.21.83 tert-butyloxycarbonyl-leu-arg-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0008 * +EC3.4.21.83 tert-butyloxycarbonyl-leu-gly-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0013 * +EC3.4.21.83 tert-butyloxycarbonyl-leu-lys-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.001 * +EC3.4.21.83 tert-butyloxycarbonyl-val-gly-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.003 * +EC3.4.21.83 tert-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.003 * +EC3.4.21.83 tert-butyloxycarbonyl-val-pro-arg-7-amido-4-methylcoumarin trypanosoma evansi//*//* 0.0122 * +EC3.4.21.83 tos-gly-pro-arg-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0099 * +EC3.4.21.83 tos-gly-pro-lys-4-methylcoumarin 7-amide salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0081 * +EC3.4.21.83 tosyl-arg methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.4.21.83 tosyl-lys-methyl ester escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.47 * +EC3.4.21.83 val-lys-arg-arg trypanosoma evansi//*//* 0.0002 * +EC3.4.21.84 n-tert-butoxycarbonyl-val-pro-arg 4-nitroanilide tachypleus tridentatus//*//* 0.054 * +EC3.4.21.84 tert-butoxycarbonyl-ala-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.19 * +EC3.4.21.84 tert-butoxycarbonyl-asp(o-benzyl)-ala-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.039 * +EC3.4.21.84 tert-butoxycarbonyl-asp(o-benzyl)-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.026 * +EC3.4.21.84 tert-butoxycarbonyl-gln-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.066 * +EC3.4.21.84 tert-butoxycarbonyl-lys(benzyloxycarbonyl)-gly-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.045 * +EC3.4.21.84 tert-butoxycarbonyl-met-ala-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.088 * +EC3.4.21.84 tert-butoxycarbonyl-val-pro-arg 4-methylcoumarin 7-amide tachypleus tridentatus//*//* 0.114 * +EC3.4.21.89 alkaline phosphatase signal peptide fused to full-length mammalian cytochrome b5 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.4.21.89 decanoyl-lt-p-taka-a-skidd-oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.988 * +EC3.4.21.89 decanoyl-ltptakaaskidd-oh staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.029 * +EC3.4.21.89 fsasalaki escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.4.21.89 phe-ser-ala-ser-ala-leu-ala-lys-ile-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.4.21.89 phe-ser-ala-ser-ala-leu-ala-lys-ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.4.21.89 preprotein substrate pona bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.044 * +EC3.4.21.89 preprotein substrate pona escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0192 * +EC3.4.21.89 pro-ompa-nuclease a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0165 * +EC3.4.21.89 pro-ompa-nuclease escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0165 * +EC3.4.21.89 tosyl-gly-pro-lys-p-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.319 * +EC3.4.21.89 val-leu-lys-p-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.727 * +EC3.4.21.89 y-no2-fsasalakik-2-aminobenzoyl-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0006 * +EC3.4.21.89 yfsasala-4-methylcoumarin 7-amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0328 * +EC3.4.21.9 a4-mutant trypsinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.9 angiotensin ii bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.3 * +EC3.4.21.9 apfddddkivgg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.353 * +EC3.4.21.9 apfddddkivgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0647 * +EC3.4.21.9 apfddddrivgg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.147 * +EC3.4.21.9 apfdddgkivgg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC3.4.21.9 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.24 * +EC3.4.21.9 boc-glu(obzl)-ala-arg-mca oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 0.2 * +EC3.4.21.9 bovine trypsinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC3.4.21.9 formyl-ala-phe-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.192 * +EC3.4.21.9 formyl-ala-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC3.4.21.9 formyl-ala-phe-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.28 * +EC3.4.21.9 formyl-ala-phe-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC3.4.21.9 g5dkf(no2)g bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.437 * +EC3.4.21.9 gd4k 2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.4.21.9 gd4k 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.21.9 gd4kf(no2)g bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.16 * +EC3.4.21.9 gd4kf(no2)g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.4.21.9 gd4knfa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC3.4.21.9 gd4r-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00629 * +EC3.4.21.9 gddddk-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.21.9 gddddk-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0298 * +EC3.4.21.9 gly-(l-asp)4-l-lys-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.75 * +EC3.4.21.9 gly-asp-asp-asp-asp-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.12 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.141 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-2-naphthylamide oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 0.7 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.141 * +EC3.4.21.9 gly-asp-asp-asp-asp-lys-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.21.9 glycyl-tetra-l-aspartyl-l-lysine beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.21.9 human cationic trypsinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC3.4.21.9 human cationic trypsinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.4.21.9 ltaeeka bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.2 * +EC3.4.21.9 mltaeekaa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.0 * +EC3.4.21.9 n-alpha-benzyloxycarbonyl-l-lysine thiobenzyl ester hydrochloride homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 596.0 * +EC3.4.21.9 n-formyl-ala-phe-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC3.4.21.9 n-formyl-ala-phe-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC3.4.21.9 prad4kp26 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.125 * +EC3.4.21.9 pro-phe-arg-4-methylcoumaryl-7-amide oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 10.0 * +EC3.4.21.9 t-butyloxycarbonyl-e(benzyl ester)-ala-arg-7-amido-4-methylcoumarin oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 1.5 * +EC3.4.21.9 thiobenzyl benzyloxy-carbonyl-l-lysinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.4.21.9 thiobenzyl benzyloxy-carbonyl-l-lysinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.9 thiobenzyl benzyloxycarbonyl-l-lysinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.9 trypsinogen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.4.21.9 trypsinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC3.4.21.9 trypsinogen sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0045 * +EC3.4.21.9 val-(ala)2-(asp)2-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.72 * +EC3.4.21.9 val-(ala)2-asp-ala-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.77 * +EC3.4.21.9 val-(ala)3-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.51 * +EC3.4.21.9 val-(asp)2-ala-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.25 * +EC3.4.21.9 val-(asp)3-ala-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 8.31 * +EC3.4.21.9 val-(asp)3-glu-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.4.21.9 val-(asp)4-arg-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC3.4.21.9 val-(asp)4-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.77 * +EC3.4.21.9 val-ala-(asp)3-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.01 * +EC3.4.21.9 val-ala-asp-ala-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.39 * +EC3.4.21.9 val-asp-(ala)2-asp-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.24 * +EC3.4.21.9 val-asp-(ala)3-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 21.11 * +EC3.4.21.9 val-asp-ala-(asp)2-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.76 * +EC3.4.21.9 val-asp-ala-asp-ala-lys-ile-val-gly sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.57 * +EC3.4.21.9 wddkg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC3.4.21.9 wddrg bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.1 * +EC3.4.21.9 z-ala-ala-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.356 * +EC3.4.21.9 z-ala-leu-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.234 * +EC3.4.21.9 z-ala-met-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.4.21.9 z-ala-phe-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.21.9 z-ala-trp-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.4.21.9 z-ala-tyr-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.109 * +EC3.4.21.9 z-gly-pro-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.4.21.9 z-lys-sbzl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.21.9 z-pro-phe-arg-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.265 * +EC3.4.21.91 abz-kkqragvl-3-nitrotyrosine-amide dengue virus 2//*//* 0.089 * +EC3.4.21.91 abz-rrrrsag-3-nitrotyrosine-amide dengue virus 2//*//* 0.0045 * +EC3.4.21.91 abz-rrrrsagny-amide dengue virus 2//*//* 0.0045 * +EC3.4.21.91 acetyl-nle-lys-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 0.1 * +EC3.4.21.91 benzoyl-nle-lys-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 0.0016 * +EC3.4.21.91 benzoyl-nle-lys-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.0062 * +EC3.4.21.91 benzoyl-nle-lys-arg-arg-thiobenzylester dengue virus//*//* 6.0 * +EC3.4.21.91 benzoyl-nle-lys-thr-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.034 * +EC3.4.21.91 benzoyl-nle-thr-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.046 * +EC3.4.21.91 benzoyl-thr-lys-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.0066 * +EC3.4.21.91 benzoyl-thr-thr-arg-arg-7-amido-3-carbamoylmethyl-4-methylcoumarin dengue virus//*//* 0.076 * +EC3.4.21.91 benzyloxycarbonyl-gly-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 0.143 * +EC3.4.21.91 boc-gly-arg-arg-7-amido-4-methylcoumarin yellow fever virus//*//* 0.1422 * +EC3.4.21.91 butyloxycarbonyl-arg-val-arg-arg-7-amido-4-methylcoumarin west nile virus//*//* 0.03 * +EC3.4.21.91 bz-arg-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.247 * +EC3.4.21.91 bz-nle-lys-arg-arg-7-amido-4-methylcoumarin yellow fever virus//*//* 0.0146 * +EC3.4.21.91 faegrrgaaevlq yellow fever virus//*//* 0.015 * +EC3.4.21.91 gly-arg-arg-4-methylcoumarin 7-amide dengue virus 2//*//* 0.146 * +EC3.4.21.91 klaqrrvfhgvaq yellow fever virus//*//* 0.0027 * +EC3.4.21.91 l-pglu-l-arg-l-thr-l-lys-l-arg-7-amido-4-methylcoumarin west nile virus//*//* 0.071 * +EC3.4.21.91 mktgrrgsangkq yellow fever virus//*//* 0.0025 * +EC3.4.21.91 n-alpha-benzoyl-l-arginine-p-nitroanilide alkhumra hemorrhagic fever virus//*//* 0.6 * +EC3.4.21.91 n-benzoyl-3-(4-aminocyclohexyl)-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.027 * +EC3.4.21.91 n-benzoyl-3-(4-piperidinyl)-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.216 * +EC3.4.21.91 n-benzoyl-3-(trans-aminomethylcyclohexyl)-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.298 * +EC3.4.21.91 n-benzoyl-3-pyridyl-l-ala-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.043 * +EC3.4.21.91 n-benzoyl-4-(aminomethyl)-l-phe-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.026 * +EC3.4.21.91 n-benzoyl-4-(aminomethyl-n-isopropyl)-l-phe-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.354 * +EC3.4.21.91 n-benzoyl-4-(guanidino)-l-phe-l-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.49 * +EC3.4.21.91 n-benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide dengue virus//*//* 0.247 * +EC3.4.21.91 o-aminobenzoyl-agkksaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0588 * +EC3.4.21.91 o-aminobenzoyl-agkksaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0087 * +EC3.4.21.91 o-aminobenzoyl-agkrsaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.038 * +EC3.4.21.91 o-aminobenzoyl-agkrsaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0073 * +EC3.4.21.91 o-aminobenzoyl-agrksaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0213 * +EC3.4.21.91 o-aminobenzoyl-agrksaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.005 * +EC3.4.21.91 o-aminobenzoyl-agrrsaq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.02 * +EC3.4.21.91 o-aminobenzoyl-agrrsaq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.02 * +EC3.4.21.91 o-aminobenzoyl-akkksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0692 * +EC3.4.21.91 o-aminobenzoyl-akkksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0066 * +EC3.4.21.91 o-aminobenzoyl-akkrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0532 * +EC3.4.21.91 o-aminobenzoyl-akkrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0076 * +EC3.4.21.91 o-aminobenzoyl-akrksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0237 * +EC3.4.21.91 o-aminobenzoyl-akrksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0006 * +EC3.4.21.91 o-aminobenzoyl-akrrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0314 * +EC3.4.21.91 o-aminobenzoyl-akrrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.002 * +EC3.4.21.91 o-aminobenzoyl-arkksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0673 * +EC3.4.21.91 o-aminobenzoyl-arkksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.00013 * +EC3.4.21.91 o-aminobenzoyl-arkrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.058 * +EC3.4.21.91 o-aminobenzoyl-arkrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.014 * +EC3.4.21.91 o-aminobenzoyl-arrksq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0183 * +EC3.4.21.91 o-aminobenzoyl-arrksq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0015 * +EC3.4.21.91 o-aminobenzoyl-arrrsq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0256 * +EC3.4.21.91 o-aminobenzoyl-arrrsq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0096 * +EC3.4.21.91 o-aminobenzoyl-evkkqragvlwdq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0088 * +EC3.4.21.91 o-aminobenzoyl-faagrksltlnlq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0177 * +EC3.4.21.91 o-aminobenzoyl-faaqrrgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0074 * +EC3.4.21.91 o-aminobenzoyl-hrrekrsvalq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.026 * +EC3.4.21.91 o-aminobenzoyl-kkrsskq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.012 * +EC3.4.21.91 o-aminobenzoyl-krrsskq-n-(2,4-dinitrophenyl)-ethylenediamine yellow fever virus//*//* 0.0021 * +EC3.4.21.91 o-aminobenzoyl-lnrrrrtagmiiq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0039 * +EC3.4.21.91 o-aminobenzoyl-rtskkrswplneq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.03 * +EC3.4.21.91 o-aminobenzoyl-saagrrgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.004 * +EC3.4.21.91 o-aminobenzoyl-saaqrkgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0098 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgligrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0072 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrignnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0046 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrigrlq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0045 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0138 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrilrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0069 * +EC3.4.21.91 o-aminobenzoyl-saaqrrgrtgrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0165 * +EC3.4.21.91 o-aminobenzoyl-saaqrrsrigrnq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.0059 * +EC3.4.21.91 o-aminobenzoyl-ttstrrgtgnigq-n-(2,4-dinitrophenyl)-ethylenediamine dengue virus//*//* 0.027 * +EC3.4.21.91 pyroglutamic acid-arg-thr-lys-arg-7-amido-4-methylcoumarin west nile virus//*//* 0.03 * +EC3.4.21.91 rifgrrsipvneq yellow fever virus//*//* 0.02 * +EC3.4.21.91 saaqrrgrigrnq yellow fever virus//*//* 0.0088 * +EC3.4.21.91 ssrkrrshdvltq yellow fever virus//*//* 0.0022 * +EC3.4.21.91 t-butoxycarbonyl-arg-val-arg-arg-7-amido-4-methylcoumarin west nile virus//*//* 0.04 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide bussuquara virus//*//* 2.18 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 1//*//* 0.505 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 3//*//* 2.7 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide langat virus//*//* 0.324 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide st. louis encephalitis virus//*//* 0.465 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide yellow fever virus//*//* 0.415 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-arginyl-l-arginine-4-methylcoumaryl-7-amide zika virus//*//* 0.417 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide bussuquara virus//*//* 1.249 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 1//*//* 3.74 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide dengue virus 3//*//* 0.181 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide st. louis encephalitis virus//*//* 0.563 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide yellow fever virus//*//* 0.53 * +EC3.4.21.91 t-butyloxycarbonyl-glycyl-l-lysyl-l-arginine-4-methylcoumaryl-7-amide zika virus//*//* 0.65 * +EC3.4.21.91 tert-butoxycarbonyl-gly-arg-arg-4-methylcoumarin 7-amide dengue virus//*//* 0.12 * +EC3.4.21.91 vrgarrsgdvlwq yellow fever virus//*//* 0.0085 * +EC3.4.21.92 arc-ssra escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0005 * +EC3.4.21.92 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC3.4.21.92 cm-titin-ssra escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0024 * +EC3.4.21.92 insulin chain b escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.4.21.92 lambda o arc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC3.4.21.92 lambda o cm-titiin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC3.4.21.92 n-succinyl-leu-tyr 4-methylcoumarin 7-amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.4.21.92 n-succinyl-leu-tyr-7-amido-4-methylcoumarin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.4.21.92 n-succinyl-leu-tyr-7-amido-4-methylcoumarin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.58 * +EC3.4.21.92 suc-llvy-4-methylcoumarin-7-amide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.065 * +EC3.4.21.93 (2-aminobenzoyl)-lys-glu-arg-ser-lys-arg-ser-ala-leu-arg-asp-(3-nitro)tyr-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.21.93 pglu-arg-thr-lys-arg 4-methylcoumarin 1-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.21.94 ac-arg-phe-ala-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.27 * +EC3.4.21.94 ac-arg-pro-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.26 * +EC3.4.21.94 ac-lys-ser-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC3.4.21.94 ac-orn-ser-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.33 * +EC3.4.21.94 boc-gly-arg-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.51 * +EC3.4.21.94 boc-gly-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.44 * +EC3.4.21.94 boc-val-pro-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.4.21.94 cbz-arg-ser-lys-arg-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC3.4.21.94 dynorphin a 1-17 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.079 * +EC3.4.21.94 dynorphin ab 1-32 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC3.4.21.94 leumorphin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.077 * +EC3.4.21.94 pglu-arg-thr-lys-arg-methylcoumarin amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC3.4.21.97 4-(4'-dimethylaminophenazo)benzoic acid-rgvvnas-2-aminobutanoyl-rln-5-[(2'-aminoethyl)-amino]-naphthalene-1-sulfonic acid human betaherpesvirus 5//*//* 0.009 * +EC3.4.21.97 4-(4'-dimethylaminophenazo)benzoic acid-rgvvnas-2-aminobutanoyl-rln-5-[(2'-aminoethyl)-amino]-naphthalene-1-sulfonic acid human herpesvirus 6//*//* 0.033 * +EC3.4.21.97 4-(4'-dimethylaminophenazo)benzoic acid-rgvvnassrla-5-[(2'-aminoethyl)-amino]-naphthalene-1-sulfonic acid human betaherpesvirus 5//*//* 0.092 * +EC3.4.21.97 4-(4'-dimethylaminophenylazo)benzoyl-arg-gly-val-val-asn-ala-ser-ser-arg-leu-ala-(2'-aminoethyl)amino-naphthalene-1-sulfonic acid human betaherpesvirus 5//*//* 0.083 * +EC3.4.21.97 abz-gvvnassrlay(no2)g human betaherpesvirus 5//*//* 0.125 * +EC3.4.21.97 acetyl-cys-tert-butylglycine-tert-butylglycine-asn(me)2-ala-7-amido-4-methylcoumarin human betaherpesvirus 5//*//* 0.0118 * +EC3.4.21.97 gvvnascrla human betaherpesvirus 5//*//* 0.515 * +EC3.4.21.97 htylqasekfkm-nh2 human alphaherpesvirus 1//*//* 1.36 * +EC3.4.21.97 htylqasekfmw-nh2 human alphaherpesvirus 1//*//* 0.88 * +EC3.4.21.97 rgvvnassrlak human betaherpesvirus 5//*//* 0.462 * +EC3.4.21.97 succinyl-lvnas-2-aminobutyryl-ept-nh2 human betaherpesvirus 5//*//* 11.0 * +EC3.4.21.97 succinyl-lvnas-2-aminobutyryl-ept-nh2 human herpesvirus 6//*//* 16.0 * +EC3.4.21.97 succinyl-rrilnaslape-nh2 human betaherpesvirus 5//*//* 1.0 * +EC3.4.21.97 succinyl-rrilnaslape-nh2 human herpesvirus 6//*//* 2.0 * +EC3.4.21.97 succinyl-rryikaseppv-nh2 human betaherpesvirus 5//*//* 0.5 * +EC3.4.21.97 succinyl-rryikaseppv-nh2 human herpesvirus 6//*//* 0.3 * +EC3.4.21.97 succinyl-syvkasvs-nh2 human betaherpesvirus 5//*//* 9.0 * +EC3.4.21.97 succinyl-syvkasvs-nh2 human herpesvirus 6//*//* 3.0 * +EC3.4.21.97 succinyl-vvnas-2-aminobutyryl-r-nh2 human betaherpesvirus 5//*//* 4.0 * +EC3.4.21.97 succinyl-vvnas-2-aminobutyryl-r-nh2 human herpesvirus 6//*//* 10.0 * +EC3.4.21.97 succinyl-yvkasepla-nh2 human betaherpesvirus 5//*//* 1.0 * +EC3.4.21.97 succinyl-yvkasepla-nh2 human herpesvirus 6//*//* 4.0 * +EC3.4.21.97 syvkasvspe human betaherpesvirus 5//*//* 0.411 * +EC3.4.21.98 2-naph-3pya-lys-arg-p-nitroanilide west nile virus//*//* 0.0658 * +EC3.4.21.98 2-naph-cit-lys-arg-p-nitroanilide west nile virus//*//* 0.021 * +EC3.4.21.98 2-naph-cit-orn-arg-p-nitroanilide west nile virus//*//* 0.1007 * +EC3.4.21.98 2-naph-harg-lys-arg-p-nitroanilide west nile virus//*//* 0.048 * +EC3.4.21.98 2-naph-lys-aclys-arg-p-nitroanilide west nile virus//*//* 2.303 * +EC3.4.21.98 2-naph-lys-arg-arg-p-nitroanilide west nile virus//*//* 0.0434 * +EC3.4.21.98 2-naph-lys-cit-arg-p-nitroanilide west nile virus//*//* 3.423 * +EC3.4.21.98 2-naph-lys-harg-arg-p-nitroanilide west nile virus//*//* 0.0267 * +EC3.4.21.98 2-naph-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0254 * +EC3.4.21.98 2-naph-lys-orn-arg-p-nitroanilide west nile virus//*//* 0.0368 * +EC3.4.21.98 2-naph-orn-lys-arg-p-nitroanilide west nile virus//*//* 0.038 * +EC3.4.21.98 2-naph-orn-orn-arg-p-nitroanilide west nile virus//*//* 0.0229 * +EC3.4.21.98 7-methoxycoumarin-4-acetyl-demeecashlpyk-(epsilon-nhcoch3) hepatitis c virus//*//* 0.00076 * +EC3.4.21.98 7-methoxycoumarin-4-acetyl-edastpcsgsn-(4-nitro)phe hepatitis c virus//*//* 0.0436 * +EC3.4.21.98 9-fluorenylmethyloxycarbonyl-yqefdemeecashlpyieqg hepatitis c virus//*//* 0.053 * +EC3.4.21.98 ac-aib-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0797 * +EC3.4.21.98 ac-aoc-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0755 * +EC3.4.21.98 ac-asp-glu-lys(tamra)-glu-glu-abupsi[coo]-ala-ser-lys(qsy-7)-amide hepatitis c virus//*//* 0.0227 * +EC3.4.21.98 ac-cha-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0699 * +EC3.4.21.98 ac-chg-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0819 * +EC3.4.21.98 ac-deemecashlpyk-nh2 hepatitis c virus//*//* 0.063 * +EC3.4.21.98 ac-dpnrkr-4-nitroanilide west nile virus//*//* 0.74 * +EC3.4.21.98 ac-dtedvvp(nva)-o-4-phenylazophenyl ester hepatitis c virus//*//* 0.0026 * +EC3.4.21.98 ac-emeecashlp hepatitis c virus//*//* 3.1 * +EC3.4.21.98 ac-fasgkr-4-nitroanilide west nile virus//*//* 0.45 * +EC3.4.21.98 ac-kpglkr-4-nitroanilide west nile virus//*//* 0.17 * +EC3.4.21.98 ac-l-asp-l-glu-l-asp-(edans)-l-glu-l-glu-alpha-aminobutyric acid-psi[coo]-l-ala-l-ser-l-lys-(dabcyl)-nh2 hepatitis c virus//*//* 1.1 * +EC3.4.21.98 ac-leu-3pya-lys-arg-p-nitroanilide west nile virus//*//* 0.0887 * +EC3.4.21.98 ac-leu-4pya-lys-arg-p-nitroanilide west nile virus//*//* 0.2548 * +EC3.4.21.98 ac-leu-aphe-lys-arg-p-nitroanilide west nile virus//*//* 0.1413 * +EC3.4.21.98 ac-leu-cit-lys-arg-p-nitroanilide west nile virus//*//* 0.2086 * +EC3.4.21.98 ac-leu-gln-tyr-thr-lys-arg-p-nitroanilide west nile virus//*//* 0.199 * +EC3.4.21.98 ac-leu-harg-lys-arg-p-nitroanilide west nile virus//*//* 0.0625 * +EC3.4.21.98 ac-leu-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0546 * +EC3.4.21.98 ac-leu-nphe-lys-arg-p-nitroanilide west nile virus//*//* 0.2541 * +EC3.4.21.98 ac-leu-orn-lys-arg-p-nitroanilide west nile virus//*//* 0.1055 * +EC3.4.21.98 ac-lqytkr-4-nitroanilide west nile virus//*//* 0.892 * +EC3.4.21.98 ac-nle-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0807 * +EC3.4.21.98 ac-nva-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.0673 * +EC3.4.21.98 ac-tbg-lys-lys-arg-p-nitroanilide west nile virus//*//* 0.1342 * +EC3.4.21.98 ac-yqefdemeecas hepatitis c virus//*//* 0.15 * +EC3.4.21.98 ac-yqefdemeecash hepatitis c virus//*//* 0.11 * +EC3.4.21.98 ac-yqefdemeecashl hepatitis c virus//*//* 0.12 * +EC3.4.21.98 ac-yqefdemeecashlp hepatitis c virus//*//* 0.095 * +EC3.4.21.98 acetyl-demeecashlpyl-(epsilon-nhcoch3) hepatitis c virus//*//* 0.0028 * +EC3.4.21.98 anthraniloyl-ddivp-abu[c(o)-o] amy(3-no2)-tw-oh hepatitis c virus//*//* 0.0013 * +EC3.4.21.98 anthranilyl-ddivpabu[c(o)-o]amy(3-no2)tw-oh hepatitis c virus//*//* 0.0029 * +EC3.4.21.98 boc-gly-arg-arg-amc yellow fever virus//*//* 0.1422 * +EC3.4.21.98 boc-rvrr-7-amido-4-methylcoumarin west nile virus//*//* 0.041 * +EC3.4.21.98 bz-norleucine-lysine-arginine-arginine-amc yellow fever virus//*//* 0.0146 * +EC3.4.21.98 demeecashlpyk hepatitis c virus//*//* 10.0 * +EC3.4.21.98 demeecsqhlpyi hepatitis c virus//*//* 0.16 * +EC3.4.21.98 dtedvvccsmsytwtgk hepatitis c virus//*//* 0.019 * +EC3.4.21.98 eagdnivpcsmsytwtga-oh hepatitis c virus//*//* 0.0041 * +EC3.4.21.98 eagndivpcsmsytwtga-oh hepatitis c virus//*//* 0.0038 * +EC3.4.21.98 eagnnivpcsmsytwtga-oh hepatitis c virus//*//* 0.0252 * +EC3.4.21.98 edvv-4-aminobutyryl-csmsy hepatitis c virus//*//* 0.032 * +EC3.4.21.98 edvv-abu-csmsy hepatitis c virus//*//* 0.053 * +EC3.4.21.98 edvvabucsmsy-nh2 hepatitis c virus//*//* 3.8 * +EC3.4.21.98 glu-asp-val-val-4-aminobutyryl-cys-p-nitroanilide hepatitis c virus//*//* 1.01 * +EC3.4.21.98 o-aminobenzoyl (abz)-l-asp-l-asp-l-ile-l-val-l-pro-l-cys-l-ser-l-met-l-ser-l-tyr(3-no2)-l-thr-nh2 hepatitis c virus//*//* 0.051 * +EC3.4.21.98 pyr-rtkr-7-amido-4-methylcoumarin west nile virus//*//* 0.043 * +EC3.4.21.98 z-rr-7-amido-4-methylcoumarin west nile virus//*//* 0.146 * +EC3.4.21.99 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumarin 7-amide halocynthia roretzi//*//* 0.145 * +EC3.4.21.B1 d-phe-pip-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.4.21.B1 dl-pyroglutamic acid-cyclohexylglycine-arg 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.4.21.B10 benzoyl-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.B10 o-aminobenzoic acid-afrfaq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.B10 o-aminobenzoic acid-afrfsq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.21.B10 o-aminobenzoic acid-afrlaq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.21.B10 o-aminobenzoic acid-afrvgq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.21.B10 o-aminobenzoic acid-eehafrfsq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.4.21.B10 o-aminobenzoic acid-ehsafrfaq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.21.B10 o-aminobenzoic acid-klrsskq-n-[2,4-dinitrophenyl]ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC3.4.21.B10 phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.21.B10 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.23 * +EC3.4.21.B10 val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.21.B10 waafrfsqa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.4.21.B10 weafrssdq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.249 * +EC3.4.21.B10 weavrsamw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.092 * +EC3.4.21.B10 wigfrnaga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.182 * +EC3.4.21.B10 wtafrsayg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.336 * +EC3.4.21.B10 wymtrsamg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.069 * +EC3.4.21.B12 (abz)-skgr-sligk(n-[2,4-dintrophenyl]ethylenediamine)-asp-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.21.B12 vlk-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC3.4.21.B12 vpr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC3.4.21.B12 z-fvr-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0207 * +EC3.4.21.B12 z-phe-val-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0207 * +EC3.4.21.B2 acetyl-kepl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.21.B2 acetyl-kepm-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.21.B2 acetyl-kvam-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.21.B2 acetyl-kvpl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.21.B2 acetyl-kvpm-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.B2 acetyl-kyal-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.21.B2 acetyl-kypl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC3.4.21.B2 acetyl-kypm-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.21.B2 acetyl-mepl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.4.21.B2 acetyl-rypl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC3.4.21.B2 acetyl-vpl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.21.B2 n-benzyloxycarbonyl-(n-(beta-t-butylseryl))-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0366 * +EC3.4.21.B2 n-benzyloxycarbonyl-(n-(epsilon-t-butyloxycarbonyllysyl))-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0263 * +EC3.4.21.B2 n-benzyloxycarbonyl-(n-(gamma-t-butylaspartyl))-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0334 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-alanyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-alanyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.188 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-aspartyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.267 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-lysyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.793 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.4.21.B2 n-benzyloxycarbonyl-alanyl-seryl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.4.21.B2 n-benzyloxycarbonyl-aspartyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.418 * +EC3.4.21.B2 n-benzyloxycarbonyl-lysyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.361 * +EC3.4.21.B2 n-benzyloxycarbonyl-phenylalanyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.21.B2 n-benzyloxycarbonyl-prolyl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0915 * +EC3.4.21.B2 n-benzyloxycarbonyl-seryl-prolyl-methionine-thiobenzylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.92 * +EC3.4.21.B24 acetyl-arg-lys-lys-arg-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC3.4.21.B24 acetyl-arg-ser-lys-arg-4-methylcoumarin-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.6 * +EC3.4.21.B25 benzyloxycarbonyl-rekr-7-amido-4-trifluoromethylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.251 * +EC3.4.21.B25 pglu-arg-thr-lys-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC3.4.21.B26 2-aminobenzoyl-ggrrtrreai-(3-nitro)-tyr-a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0031 * +EC3.4.21.B26 2-aminobenzoyl-rntprerkkrgl-(3-nitro)-tyr-a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0021 * +EC3.4.21.B26 2-aminobenzoyl-rntprerrrkkrgl-(3-nitro)-tyr-a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0051 * +EC3.4.21.B26 2-aminobenzoyl-rntprkkrgl-(3-nitro)-tyr-a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC3.4.21.B26 2-aminobenzoyl-rntprrrkkrgl-(3-nitro)-tyr-a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0033 * +EC3.4.21.B26 2-aminobenzoyl-skkrkrrflg-(3-nitro)-tyr-a mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0031 * +EC3.4.21.B26 pglu-arg-thr-lys-arg-methyl-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.21.B27 2-aminobenzoyl-ggrrtrreai-(3-nitro)-tyr-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC3.4.21.B27 2-aminobenzoyl-rntprerkkrgl-(3-nitro)-tyr-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0021 * +EC3.4.21.B27 2-aminobenzoyl-rntprerrrkkrgl-(3-nitro)-tyr-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0051 * +EC3.4.21.B27 2-aminobenzoyl-rntprkkrgl-(3-nitro)-tyr-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0042 * +EC3.4.21.B27 2-aminobenzoyl-rntprrrkkrgl-(3-nitro)-tyr-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0033 * +EC3.4.21.B27 2-aminobenzoyl-skkrkrrflg-(3-nitro)-tyr-a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC3.4.21.B27 pertkr-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.164 * +EC3.4.21.B27 q-vegf-c rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.113 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-apgskgda-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-asgpagpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0361 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-dkgesgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-drgetgp-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0238 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-drgetgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-dsgetgp-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0396 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-dsgetgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0202 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-epgppgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0269 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpa-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0567 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpag-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpagg-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0371 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-ergetgpsg-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0513 * +EC3.4.21.B28 7-methoxycoumarin-4-acetic acid-vgpagk-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC3.4.21.B28 acetyl-d-ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.541 * +EC3.4.21.B28 acetyl-gly-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.4.21.B28 ala-pro-4-trifluoromethylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.21.B28 ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.244 * +EC3.4.21.B28 ala-ser-gly-pro-asn-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.21.B28 ala-ser-gly-pro-ser-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.4.21.B28 arg-lys(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-gly-pro-asn-gln-glu-gln-glu(5-[(2-aminoethyl)amino]-naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.4.21.B28 arg-lys-(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-d-ala-pro-asn-gln-glu-gln-glu(5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.21.B28 arg-lys-(4-(4-dimethylaminophenylazo)benzoyl)-thr-ser-d-ser-pro-asn-gln-glu-gln-glu(5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.21.B28 benzyloxycarbonyl-gly-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.21.B28 d-ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.213 * +EC3.4.21.B28 gly-pro-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.455 * +EC3.4.21.B28 gly-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.21.B28 ile-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC3.4.21.B28 l-ala-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.21.B28 lys-ala-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.189 * +EC3.4.21.B28 lys-pro-4-trifluoromethylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.21.B28 meplgrqltsgp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.4.21.B28 meplgwqltsgp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC3.4.21.B28 phe-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.245 * +EC3.4.21.B28 thr-ala-gly-pro-asn-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.21.B28 thr-ser-gly-pro-asn-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.21.B28 thr-ser-gly-pro-asn-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.21.B28 thr-ser-gly-pro-ser-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.21.B28 tic-pro-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.4.21.B28 z-gly-pro-4-methylcoumarin-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.27 * +EC3.4.21.B3 alpha-n-acetyl-leu-leu-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 10.4 * +EC3.4.21.B3 alpha-n-acetyl-leu-lys-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.2 * +EC3.4.21.B3 alpha-n-benzoyl-val-gly-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.54 * +EC3.4.21.B3 alpha-n-benzyloxycarbonyl-ala-ala-ala-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.28 * +EC3.4.21.B3 alpha-n-succinyl-ala-ala-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC3.4.21.B3 alpha-n-succinyl-ala-ala-pro-leu-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC3.4.21.B3 alpha-n-succinyl-ala-ala-pro-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.56 * +EC3.4.21.B3 alpha-n-succinyl-gly-gly-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC3.4.21.B3 alpha-n-succinyl-ser-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC3.4.21.B3 alpha-n-succinyl-ser-thr-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.39 * +EC3.4.21.B3 alpha-n-succinyl-val-pro-phe-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.2 * +EC3.4.21.B3 alpha-n-t-butoxycarbonyl-gly-phe-arg-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC3.4.21.B3 alpha-n-tosyl-gly-pro-lys-4-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.37 * +EC3.4.21.B3 angiotensinogen-(1-14) bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC3.4.21.B3 fmrf-nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.4.21.B3 leeelkpleevlnl bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC3.4.21.B3 lvtqevspkivggs bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.087 * +EC3.4.21.B39 abz-klrsskq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.21.B39 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC3.4.21.B39 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.13 * +EC3.4.21.B39 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC3.4.21.B39 boc-gln-ala-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.61 * +EC3.4.21.B39 boc-gln-arg-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.41 * +EC3.4.21.B39 boc-gln-gly-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC3.4.21.B39 boc-leu-arg-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.4.21.B39 boc-leu-gly-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.21.B39 boc-leu-lys-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.01 * +EC3.4.21.B39 boc-phe-ser-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.21.B39 boc-val-leu-lys-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.64 * +EC3.4.21.B39 boc-val-pro-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.21.B39 diglutamyl-gly-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.4.21.B39 diglutamyl-pro-phe-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.4.21.B39 h-pro-phe-ser-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.77 * +EC3.4.21.B39 l-ile-pro-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.B39 tos-gly-pro-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.69 * +EC3.4.21.B39 z-gly-gly-arg-7-amido-4-methyl-coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.4.21.B4 benzyloxycarbonyl-arg p-nitrobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.21.B4 benzyloxycarbonyl-l-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.2 * +EC3.4.21.B4 nalpha-benzyloxycarbonyl-l-arg-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.4.21.B4 nalpha-benzyloxycarbonyl-l-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.4.21.B40 o-aminobenzoyl-tsvirrvq-ethylenediamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC3.4.21.B42 gln-ala-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.21.B42 gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.18 * +EC3.4.21.B42 phe-ser-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.4.21.B42 pro-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.4.21.B42 val-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.21.B43 d-val-leu-lys-thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0294 * +EC3.4.21.B43 tert-butyloxycarbonyl-dpr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.21.B43 tert-butyloxycarbonyl-fsr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.565 * +EC3.4.21.B43 tert-butyloxycarbonyl-qar-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0686 * +EC3.4.21.B43 tert-butyloxycarbonyl-vpr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.21.B45 gslr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.431 * +EC3.4.21.B45 l-pro-phe-arg-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.75 * +EC3.4.21.B45 tosyl-gly-l-pro-l-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.675 * +EC3.4.21.B45 vgslr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.318 * +EC3.4.21.B45 wasr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.21.B45 wavr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC3.4.21.B45 wvsr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0305 * +EC3.4.21.B45 yaar-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.4.21.B45 yanr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.21.B45 yasr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.21.B45 yavr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC3.4.21.B45 yvsr-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.21.B48 ala-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0382 * +EC3.4.21.B48 arg-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.103 * +EC3.4.21.B48 leu-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0269 * +EC3.4.21.B48 lys-ala-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0517 * +EC3.4.21.B48 lys-arg-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0128 * +EC3.4.21.B48 lys-asp-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0349 * +EC3.4.21.B48 lys-leu-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0428 * +EC3.4.21.B48 lys-pro-ala-ala-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0636 * +EC3.4.21.B48 lys-pro-ala-arg-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0154 * +EC3.4.21.B48 lys-pro-ala-asp-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.133 * +EC3.4.21.B48 lys-pro-ala-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0406 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-ala bacillus novosp.//*//* 0.0567 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-arg bacillus novosp.//*//* 0.0122 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-asp bacillus novosp.//*//* 0.0674 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.056 * +EC3.4.21.B48 lys-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-ser bacillus novosp.//*//* 0.0527 * +EC3.4.21.B48 lys-pro-ala-ser-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0645 * +EC3.4.21.B48 lys-pro-arg-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.119 * +EC3.4.21.B48 lys-pro-arg-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.142 * +EC3.4.21.B48 lys-pro-asn-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0377 * +EC3.4.21.B48 lys-pro-asp-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0654 * +EC3.4.21.B48 lys-pro-asp-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0351 * +EC3.4.21.B48 lys-pro-gln-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0376 * +EC3.4.21.B48 lys-pro-glu-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0404 * +EC3.4.21.B48 lys-pro-ile-ala-phe-(4-nitro)phe-arg-leu bacillus novosp.//*//* 0.029 * +EC3.4.21.B48 lys-pro-ile-ala-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0426 * +EC3.4.21.B48 lys-pro-ile-arg-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0767 * +EC3.4.21.B48 lys-pro-ile-asn-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.073 * +EC3.4.21.B48 lys-pro-ile-asp-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0405 * +EC3.4.21.B48 lys-pro-ile-gln-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0377 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-ala-leu bacillus novosp.//*//* 0.0371 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-ala bacillus novosp.//*//* 0.0995 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-arg bacillus novosp.//*//* 0.154 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-asp bacillus novosp.//*//* 0.109 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-ile bacillus novosp.//*//* 0.0697 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0603 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-nle bacillus novosp.//*//* 0.119 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-phe bacillus novosp.//*//* 0.0634 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-ser bacillus novosp.//*//* 0.129 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-tyr bacillus novosp.//*//* 0.0248 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-arg-val bacillus novosp.//*//* 0.0589 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-asn-leu bacillus novosp.//*//* 0.43 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-asp-leu bacillus novosp.//*//* 0.225 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-glu-leu bacillus novosp.//*//* 0.0438 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-ile-leu bacillus novosp.//*//* 0.0285 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-leu-leu bacillus novosp.//*//* 0.109 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-lys-leu bacillus novosp.//*//* 0.128 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-ser-leu bacillus novosp.//*//* 0.0473 * +EC3.4.21.B48 lys-pro-ile-glu-phe-(p-nitrophenylalanine)-val-leu bacillus novosp.//*//* 0.0883 * +EC3.4.21.B48 lys-pro-ile-his-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0831 * +EC3.4.21.B48 lys-pro-ile-ile-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0128 * +EC3.4.21.B48 lys-pro-ile-leu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.041 * +EC3.4.21.B48 lys-pro-ile-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0671 * +EC3.4.21.B48 lys-pro-ile-nle-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0468 * +EC3.4.21.B48 lys-pro-ile-pro-phe-(4-nitrophenyl)-arg-leu bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 0.041 * +EC3.4.21.B48 lys-pro-ile-pro-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0409 * +EC3.4.21.B48 lys-pro-ile-ser-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0642 * +EC3.4.21.B48 lys-pro-ile-thr-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0447 * +EC3.4.21.B48 lys-pro-ile-val-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0825 * +EC3.4.21.B48 lys-pro-leu-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0575 * +EC3.4.21.B48 lys-pro-lys-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0246 * +EC3.4.21.B48 lys-pro-phe-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0389 * +EC3.4.21.B48 lys-pro-ser-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.1 * +EC3.4.21.B48 lys-pro-ser-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0577 * +EC3.4.21.B48 lys-pro-thr-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0469 * +EC3.4.21.B48 lys-pro-val-glu-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.105 * +EC3.4.21.B48 lys-ser-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.162 * +EC3.4.21.B48 oxidized insulin b-chain bacillus novosp.//*//* 0.09 * +EC3.4.21.B48 ser-pro-ala-lys-phe-(p-nitrophenylalanine)-arg-leu bacillus novosp.//*//* 0.0211 * +EC3.4.21.B5 succinyl-ala-ala-pro-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.6 * +EC3.4.21.B5 succinyl-ala-ala-pro-ile-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.4.21.B5 succinyl-ala-ala-pro-val-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.4.21.B52 benzyloxycarbonyl-leu-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.34 * +EC3.4.21.B52 benzyloxycarbonyl-tyr-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.11 * +EC3.4.21.B52 suc-ala-ala-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.16 * +EC3.4.21.B52 suc-ala-ala-pro-phe 4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.85 * +EC3.4.21.B52 suc-gly-gly-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.72 * +EC3.4.21.B52 suc-phe-4-nitroanilide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.34 * +EC3.4.21.B55 succinyl-ala-ala-pro-lys-4-nitroanilide pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.32 * +EC3.4.21.B57 n-succinyl-ala-ala-pro-phe-4-nitroanilide thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 4.0 * +EC3.4.21.B6 acetyl-kdyr-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0555 * +EC3.4.21.B6 acetyl-khyr-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.193 * +EC3.4.21.B6 acetyl-khyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0335 * +EC3.4.21.B6 acetyl-prlr-7-amido-4-carbamoylmethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0786 * +EC3.4.21.B6 d-phe-phe-arg 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 827.0 * +EC3.4.21.B6 d-pro-phe-arg 7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 108.0 * +EC3.4.21.B6 d-val-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 255.0 * +EC3.4.21.B6 z-gly-pro-arg-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 717.0 * +EC3.4.21.B7 benzoyl-l-arginine p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.9 * +EC3.4.21.B7 complement c2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC3.4.21.B7 complement component c2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC3.4.21.B7 n-carbobenzoxy-l-alanine-4-nitrophenyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1000.0 * +EC3.4.21.B7 n-carbobenzoxy-l-lysine-4-nitrophenyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 20.0 * +EC3.4.21.B7 n-carbobenzoxy-l-tyrosine-4-nitrophenyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33.0 * +EC3.4.21.B7 n-carboxybenzyloxyglycine-l-arginine thiobenzyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.4.21.B7 nalpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.4.22.1 2,4-dinitrophenyl-garfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0161 * +EC3.4.22.1 2,4-dinitrophenyl-gdrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC3.4.22.1 2,4-dinitrophenyl-gerfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.22.1 2,4-dinitrophenyl-gfafw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.22.1 2,4-dinitrophenyl-gfdfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.22.1 2,4-dinitrophenyl-gfefw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.22.1 2,4-dinitrophenyl-gfffw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.22.1 2,4-dinitrophenyl-gfgfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.4.22.1 2,4-dinitrophenyl-gfhfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.22.1 2,4-dinitrophenyl-gfkfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.22.1 2,4-dinitrophenyl-gflfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.22.1 2,4-dinitrophenyl-gfqfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.22.1 2,4-dinitrophenyl-gfraw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC3.4.22.1 2,4-dinitrophenyl-gfrdw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC3.4.22.1 2,4-dinitrophenyl-gfrew-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC3.4.22.1 2,4-dinitrophenyl-gfrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.22.1 2,4-dinitrophenyl-gfrgw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0077 * +EC3.4.22.1 2,4-dinitrophenyl-gfrhw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.22.1 2,4-dinitrophenyl-gfriw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC3.4.22.1 2,4-dinitrophenyl-gfrkw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.22.1 2,4-dinitrophenyl-gfrlw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.22.1 2,4-dinitrophenyl-gfrqw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.22.1 2,4-dinitrophenyl-gfrrw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.22.1 2,4-dinitrophenyl-gfrsw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0095 * +EC3.4.22.1 2,4-dinitrophenyl-gfrvw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwa-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwd-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0055 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwe-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0106 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwf-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwg-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0162 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwi-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwk-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0126 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwl-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwp-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0124 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwr-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0115 * +EC3.4.22.1 2,4-dinitrophenyl-gfrws-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0128 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwv-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0223 * +EC3.4.22.1 2,4-dinitrophenyl-gfrwy-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC3.4.22.1 2,4-dinitrophenyl-gfryw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.4.22.1 2,4-dinitrophenyl-gfsfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.22.1 2,4-dinitrophenyl-gfvfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.22.1 2,4-dinitrophenyl-gfyfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.22.1 2,4-dinitrophenyl-ghrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC3.4.22.1 2,4-dinitrophenyl-girfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.22.1 2,4-dinitrophenyl-gkrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0041 * +EC3.4.22.1 2,4-dinitrophenyl-glrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0106 * +EC3.4.22.1 2,4-dinitrophenyl-gprfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.22.1 2,4-dinitrophenyl-grrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0066 * +EC3.4.22.1 2,4-dinitrophenyl-gsrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.22.1 2,4-dinitrophenyl-gvrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.22.1 2,4-dinitrophenyl-gyrfw-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-iegie-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-l-arg-l-leu-l-arg-gly-l-phe-d-glu-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0028 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-l-arg-l-leu-l-arg-gly-l-phe-l-glu-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0035 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-l-leu-l-arg-gly-l-phe-d-glu-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0046 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-l-leu-l-arg-gly-l-phe-l-glu-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0037 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-legie-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0056 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-lrgie-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-r-lvgfe-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0035 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-riegie-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0037 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-riiegie-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0055 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-rlegie-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0034 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-rlvg-beta-(2-naphthyl)alanine-e-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-rlvgf-l-alpha-aminoadipic acid-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0029 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-rlvgfd-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-rlvgfe-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0022 * +EC3.4.22.1 4-(4-dimethylaminophenylazo)benzoyl-rlvgwe-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0047 * +EC3.4.22.1 abz-ff-3-dinitrophenyl-2,3-diaminopropionic acid-w-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.22.1 abz-fr-3-dinitrophenyl-2,3-diaminopropionic acid-w-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.22.1 abz-fr-epsilon-dinitrophenyl-l-lysyl-2,3-diaminopropionic acid-p-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0177 * +EC3.4.22.1 abz-fr-epsilon-dinitrophenyl-l-lysyl-2,3-diaminopropionic acid-w-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.22.1 abz-fra-epsilon-dinitrophenyl-l-lysyl-2,3-diaminopropionic acid-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0179 * +EC3.4.22.1 abz-frf-epsilon-dinitrophenyl-l-lysyl-2,3-diaminopropionic acid-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0328 * +EC3.4.22.1 abz-givrak(dnp)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC3.4.22.1 acetyl-f-r-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.247 * +EC3.4.22.1 acetyl-l-arg-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.22.1 acetyl-l-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.4.22.1 alpha-n-benzoyl-dl-arg-beta-naphthylamide capra aegagrus//*//* 1.02 * +EC3.4.22.1 arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.53 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide bubalus bubalis//*//* 0.93 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.51 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide dorytheuthis bleekeri//*//* 1.25 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.7 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.8 * +EC3.4.22.1 benzoyl-dl-arg-beta-naphthylamide tetrahymena pyriformis//*//* 1.2 * +EC3.4.22.1 benzoyl-dl-arg-p-nitroanilide bubalus bubalis//*//* 1.0 * +EC3.4.22.1 benzoyl-dl-arg-p-nitroanilide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.685 * +EC3.4.22.1 benzoyl-dl-arg-p-nitroanilide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 20.0 * +EC3.4.22.1 benzoyl-dl-arg-p-nitroanilide tetrahymena pyriformis//*//* 1.6 * +EC3.4.22.1 benzoyl-l-3-pyridyl-ala-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC3.4.22.1 benzoyl-l-4-aminocyclohexyl-ala-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.22.1 benzoyl-l-4-aminomethyl-n-isopropyl-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.22.1 benzoyl-l-4-aminomethyl-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.22.1 benzoyl-l-4-guanidine-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.22.1 benzoyl-l-4-piperidinyl-ala-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC3.4.22.1 benzoyl-l-arg-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.22.1 benzoyl-l-his-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.22.1 benzoyl-l-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.22.1 benzoyl-phe-val-arg-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0232 * +EC3.4.22.1 benzoyl-phe-val-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.07 * +EC3.4.22.1 benzoyl-pro-phe-arg-p-nitroanilide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC3.4.22.1 benzoyl-pro-phe-arg-p-nitroanilide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.43 * +EC3.4.22.1 benzyloxycarbonyl-ala-arg-arg-4-methoxy-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.22.1 benzyloxycarbonyl-ala-arg-arg-4-methoxy-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.07 * +EC3.4.22.1 benzyloxycarbonyl-ala-arg-arg-4-methoxy-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.066 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methoxy-beta-naphthylamide artemia sp.//*//* 0.02 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methoxy-beta-naphthylamide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.09 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methoxy-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide anthocidaris crassispina//*//* 0.032 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.114 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide bubalus bubalis//*//* 0.17 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.262 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.093 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide hemicentrotus pulcherrimus//*//* 0.006 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC3.4.22.1 benzyloxycarbonyl-arg-arg-4-methylcoumaryl-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.041 * +EC3.4.22.1 benzyloxycarbonyl-f-r-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.131 * +EC3.4.22.1 benzyloxycarbonyl-l-leucyl-l-arginine-4-methylcoumaryl-7-amide naegleria fowleri//*//* 0.0287 * +EC3.4.22.1 benzyloxycarbonyl-l-phenylalaninyl-l-arginine 4-methylcoumaryl-7-amide naegleria fowleri//*//* 0.0358 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide bubalus bubalis//*//* 0.09 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.058 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.129 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.021 * +EC3.4.22.1 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.204 * +EC3.4.22.1 benzyloxycarbonyl-val-lys-lys-arg-4-methoxy-beta-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.22.1 benzyloxycarbonyl-val-lys-lys-arg-4-methoxy-beta-naphthylamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0561 * +EC3.4.22.1 benzyloxycarbonyl-val-lys-lys-arg-4-methoxy-beta-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC3.4.22.1 boc-asp-pro-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.16 * +EC3.4.22.1 boc-asp-pro-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.35 * +EC3.4.22.1 boc-l-leu-l-lys-l-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.22.1 boc-val-leu-lys-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC3.4.22.1 boc-val-pro-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.53 * +EC3.4.22.1 cbz-l-arg-l-arg-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.1 d-pro-phe-arg-p-nitroanilide artemia sp.//*//* 0.13 * +EC3.4.22.1 d-val-leu-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 4.53 * +EC3.4.22.1 epsilon-aminocaproic acid-l-leu-gly-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.089 * +EC3.4.22.1 epsilon-aminocaproic acid-l-leu-l-(o-benzyl)serine-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.4.22.1 epsilon-aminocaproic acid-l-leu-l-(o-benzyl)threonine-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.4.22.1 epsilon-aminocaproic acid-l-leu-l-(o-methyl)-tyrosine-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.4.22.1 epsilon-aminocaproic acid-l-leu-l-(s-benzyl)cysteine-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.22.1 epsilon-aminocaproic acid-l-leu-l-phe-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.4.22.1 epsilon-aminocaproic acid-l-r-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.4.22.1 hemoglobin bubalus bubalis//*//* 0.00143 * +EC3.4.22.1 hemoglobin capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.00145 * +EC3.4.22.1 n,n'-diboc-dityrosine-gly-(isoniazid)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00288 * +EC3.4.22.1 n,n'-diboc-dityrosine-lys-(isoniazid)2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00201 * +EC3.4.22.1 n-benzyloxycarbonyl-arg-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.22.1 n-benzyloxycarbonyl-arg-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 1.22 * +EC3.4.22.1 n-benzyloxycarbonyl-phe-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.4.22.1 n-benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.19 * +EC3.4.22.1 n-benzyloxycarbonyl-val-ile-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.007 * +EC3.4.22.1 n-t-butyloxycarbonyl-gln-p-nitrophenyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.072 * +EC3.4.22.1 o-aminobenzoic acid-l-lys-l-leu-gly-l-phe-l-ser-l-lys-l-gln-2,4-dinitrophenyl-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.22.1 o-aminobenzoic acid-l-lys-l-leu-l-(o-benzyl)serine-l-phe-l-ser-l-lys-l-gln-2,4-dinitrophenyl-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.22.1 o-aminobenzoic acid-l-lys-l-leu-l-(o-benzyl)threonine-l-phe-l-ser-l-lys-l-gln-2,4-dinitrophenyl-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.22.1 o-aminobenzoic acid-l-lys-l-leu-l-(s-benzyl)cysteine-l-phe-l-ser-l-lys-l-gln-2,4-dinitrophenyl-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.22.1 o-aminobenzoic acid-l-lys-l-leu-l-arg-l-phe-l-ser-l-lys-l-gln-2,4-dinitrophenyl-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC3.4.22.1 o-aminobenzoic acid-l-lys-l-leu-l-phe-l-phe-l-ser-l-lys-l-gln-2,4-dinitrophenyl-ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.4.22.1 o-aminobenzoyl-l-phe-l-arg-l-lys-epsilon-n-2,4-dinitrophenylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0125 * +EC3.4.22.1 phenylacetyl-l-arg-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.4.22.1 phenylacetyl-l-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.22.1 protamine artemia sp.//*//* 0.02 * +EC3.4.22.1 tos-gly-pro-arg-4-methyl-7-amidocoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.4.22.1 tos-gly-pro-arg-4-methylcoumarin 7-amide fasciola hepatica//*//* 0.06 * +EC3.4.22.1 z-l-arg-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.082 * +EC3.4.22.1 z-l-phe-l-arg 7-amido-4-methylcoumarin larimichthys crocea//eukaryotes;animals;vertebrates;fishes//lco 0.04068 * +EC3.4.22.1 z-l-phe-l-arg-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.22.10 acetyl-ala-ile-arg-7-amino-4-methylcoumarin streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.2466 * +EC3.4.22.10 benzyloxycarbonyl-glu-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 3.88 * +EC3.4.22.10 benzyloxycarbonyl-lys-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.22 * +EC3.4.22.10 benzyloxycarbonyl-lys-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 2.28 * +EC3.4.22.10 benzyloxycarbonyl-val-arg-4-methylcoumarinyl-7-amide hydrochloride streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.193 * +EC3.4.22.10 cinnamoyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.334 * +EC3.4.22.10 n-benzoyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.422 * +EC3.4.22.10 n-benzyloxycarbonyl-ala-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.132 * +EC3.4.22.10 n-benzyloxycarbonyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.0236 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-lys-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.588 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-lys-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 5.05 * +EC3.4.22.10 nalpha-benzyloxycarbonyl-nepsilon-t-butyloxycarbonyl-lys-phe streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 2.64 * +EC3.4.22.10 p-nitrobenzyloxycarbonyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.063 * +EC3.4.22.10 t-butyloxycarbonyl-gly-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.438 * +EC3.4.22.10 tert-butyloxycarbonyl-ala-p-nitrophenyl ester streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.61 * +EC3.4.22.14 acetyl-lys methyl ester actinidia chinensis//*//* 78.0 * +EC3.4.22.14 benzoyl-arg ethyl ester actinidia chinensis//*//* 61.0 * +EC3.4.22.14 benzoyl-gly p-nitrophenyl ester actinidia chinensis//*//* 0.31 * +EC3.4.22.14 benzoyl-l-arg ethyl ester actinidia chinensis//*//* 89.0 * +EC3.4.22.14 benzoyl-lys methyl ester actinidia chinensis//*//* 21.0 * +EC3.4.22.14 benzyloxycarbonyl-gly p-nitrophenyl ester actinidia chinensis//*//* 0.12 * +EC3.4.22.14 benzyloxycarbonyl-lys p-nitrophenyl ester actinidia chinensis//*//* 0.022 * +EC3.4.22.14 butyloxycarbonyl-phe-nh-ch2cn actinidia chinensis//*//* 0.044 * +EC3.4.22.14 casein actinidia deliciosa//*//* 0.0125 * +EC3.4.22.14 n-acetyl-l-phe-gly methyl ester actinidia chinensis//*//* 0.25 * +EC3.4.22.14 n-alpha-benzyloxycarbonyl-l-lysine 4-nitrophenyl ester actinidia deliciosa//*//* 0.0582 * +EC3.4.22.14 nalpha-benzoyl-l-arg p-nitroanilide actinidia chinensis//*//* 1.8 * +EC3.4.22.14 nalpha-benzyloxycarbonyl-l-lys p-nitrophenyl ester actinidia chinensis//*//* 0.0262 * +EC3.4.22.15 2-aminobenzoyl-ala-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC3.4.22.15 2-aminobenzoyl-arg-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC3.4.22.15 2-aminobenzoyl-asn-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00071 * +EC3.4.22.15 2-aminobenzoyl-gln-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00075 * +EC3.4.22.15 2-aminobenzoyl-glu-glu-epsilon-amino-caproic acid-glu-leu-lys-leu-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0025 * +EC3.4.22.15 2-aminobenzoyl-glu-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.22.15 2-aminobenzoyl-glu-leu-lys-leu-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.22.15 2-aminobenzoyl-gly-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.22.15 2-aminobenzoyl-his-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC3.4.22.15 2-aminobenzoyl-ile-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.22.15 2-aminobenzoyl-lys-arg-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.4.22.15 2-aminobenzoyl-lys-asn-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.22.15 2-aminobenzoyl-lys-asp-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.22.15 2-aminobenzoyl-lys-gln-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC3.4.22.15 2-aminobenzoyl-lys-glu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC3.4.22.15 2-aminobenzoyl-lys-gly-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0096 * +EC3.4.22.15 2-aminobenzoyl-lys-his-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.22.15 2-aminobenzoyl-lys-ile-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-ala-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00095 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-arg-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00018 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-asn-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-gln-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-glu-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-gly-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-his-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ile-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-ala-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-arg-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-asn-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00019 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-gln-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00019 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-glu-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00072 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-gly-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00024 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-his-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00014 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-ile-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-pro-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-ser-val-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00013 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-arg-val-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-asn-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-asp-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-gln-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00056 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-glu-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0055 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-gly-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00026 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-his-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-ile-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-lys-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-met-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00047 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-pro-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-ser-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-thr-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC3.4.22.15 2-aminobenzoyl-lys-leu-val-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC3.4.22.15 2-aminobenzoyl-lys-lys-epsilon-amino-caproic acid-glu-leu-lys-leu-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.22.15 2-aminobenzoyl-lys-met-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC3.4.22.15 2-aminobenzoyl-lys-phe-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00026 * +EC3.4.22.15 2-aminobenzoyl-lys-pro-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC3.4.22.15 2-aminobenzoyl-lys-ser-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.22.15 2-aminobenzoyl-lys-thr-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC3.4.22.15 2-aminobenzoyl-lys-trp-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.22.15 2-aminobenzoyl-lys-tyr-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00042 * +EC3.4.22.15 2-aminobenzoyl-lys-val-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00059 * +EC3.4.22.15 2-aminobenzoyl-val-leu-arg-ser-ser-lys-gln-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.22.15 abz-3-biphenyl-l-ala-arg-ala-ala-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00153 * +EC3.4.22.15 abz-3-biphenyl-l-ala-arg-ala-gln-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00104 * +EC3.4.22.15 abz-3-biphenyl-l-ala-arg-ala-ser-tyr(3-no2)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC3.4.22.15 abz-pr-acetyl-k-qlatkaarksak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC3.4.22.15 abz-prkqlat-acetyl-k-aarksak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7e-05 * +EC3.4.22.15 abz-prkqlatkaar-dimethyl-k-sak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.3e-05 * +EC3.4.22.15 abz-prkqlatkaarksak-dnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.3e-05 * +EC3.4.22.15 benzoyl-phe-val-arg-4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.006 * +EC3.4.22.15 benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0176 * +EC3.4.22.15 benzyloxycarbonyl-gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.4.22.15 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.22.15 benzyloxycarbonyl-lys-arg toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.007 * +EC3.4.22.15 benzyloxycarbonyl-lys-p-nitrophenyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0022 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide cavia porcellus//*//* 0.0011 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.03416 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.006 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide oncorhynchus keta//*//* 0.00168 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0007 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.0018 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00125 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin agama stellio stellio//*//* 0.0014 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin hypophthalmichthys molitrix//*//* 0.00825 * +EC3.4.22.15 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.0157 * +EC3.4.22.15 l-phe-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00033 * +EC3.4.22.15 l-val-l-leu-l-arg-7-amido-4-methylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00695 * +EC3.4.22.15 leu-trp-met-arg-phe-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0208 * +EC3.4.22.15 leucine enkephalin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0825 * +EC3.4.22.15 methionine enkephalin-arg-phe rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1096 * +EC3.4.22.15 n-carbobenzoxy-l-phenylalanine-l-arginine 7-amido-4-methylcoumarin apostichopus japonicus//*//* 0.069 * +EC3.4.22.15 pro-phe-arg-4-methylcoumarin 7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.04371 * +EC3.4.22.15 succinyl-ala-phe-lys-4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.005 * +EC3.4.22.15 tert-butyloxycarbonyl-val-leu-lys-4-methylcoumarin 7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.1417 * +EC3.4.22.16 ala-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 210.0 * +EC3.4.22.16 alpha-n-benzoyl-dl-arg-beta-naphthylamide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.367 * +EC3.4.22.16 arg-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.169 * +EC3.4.22.16 arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC3.4.22.16 arg-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.097 * +EC3.4.22.16 arg-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 72.0 * +EC3.4.22.16 arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.22.16 arg-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.097 * +EC3.4.22.16 benzoyl-arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.637 * +EC3.4.22.16 benzoyl-arg-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.637 * +EC3.4.22.16 benzoyl-arg-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.321 * +EC3.4.22.16 benzoyl-dl-arg-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.039 * +EC3.4.22.16 benzoyl-l-arg-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.46 * +EC3.4.22.16 benzoyl-l-phe-l-val-l-arg-4-methylcoumaryl-7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.025 * +EC3.4.22.16 benzyloxycarbonyl-pro-ala-ala-ala-pro-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.5 * +EC3.4.22.16 benzyloxycarbonyl-pro-ala-ala-ala-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.4 * +EC3.4.22.16 citrulline-4-methylcoumaryl-7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC3.4.22.16 h-l-arg-nh-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.22.16 l-arg-4-methylcoumaryl-7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC3.4.22.16 l-leu-beta-naphthylamide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.203 * +EC3.4.22.16 leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.167 * +EC3.4.22.16 leu-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.22 * +EC3.4.22.16 leu-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 35.4 * +EC3.4.22.16 lys-4-methylcoumaryl-7-amide cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 184.0 * +EC3.4.22.16 met-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.128 * +EC3.4.22.16 succinyl-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.2 * +EC3.4.22.16 succinyl-ala-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.0 * +EC3.4.22.16 succinyl-ala-ala-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.4.22.16 succinyl-ala-ala-ala-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.4.22.16 succinyl-ala-ala-pro-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 27.8 * +EC3.4.22.16 succinyl-ala-pro-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC3.4.22.16 succinyl-pro-ala-ala-4-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC3.4.22.2 4(4'-dimethylaminophenylazo)benzoyl-lys-phe-gly-gly-ala-ala-(5-[(2-aminoethyl)amino]naphthalene) carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.00385 * +EC3.4.22.2 alpha-benzoyl-l-argininamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.048 * +EC3.4.22.2 benzoyl-thiocarbamic acid ethyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 16.0 * +EC3.4.22.2 benzoyl-thiocarbamic acid methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.3 * +EC3.4.22.2 benzoyl-thiocarbamic acid carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.77 * +EC3.4.22.2 benzyl-phe-val-arg-4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.221 * +EC3.4.22.2 benzyloxycarbonyl-arg-arg 4-methylcoumarin-7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 2.27 * +EC3.4.22.2 benzyloxycarbonyl-l-phe-l-arg 4-methylcoumarin-7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.42 * +EC3.4.22.2 benzyloxycarbonyl-phe-arg 4-methylcoumarin-7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.089 * +EC3.4.22.2 carboxybenzoyl-phe-arg-7-(4-methyl)coumarylamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.06 * +EC3.4.22.2 casein carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 8.2e-06 * +EC3.4.22.2 methyl red-abu-ala-pro-val-lys-lys(n5-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.119 * +EC3.4.22.2 methyl red-abu-ser-ala-pro-val-lys-ala-lys(n6-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.027 * +EC3.4.22.2 n,n-diboc-dityrosine-(isoniazid)2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.00691 * +EC3.4.22.2 n-(beta-phenylpropionyl)gly methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 6.63 * +EC3.4.22.2 n-(beta-phenylpropionyl)gly methyl thiono ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.11 * +EC3.4.22.2 n-alpha-benzyloxycarbonyl-l-lysine 4-nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.00212 * +EC3.4.22.2 n-benzoyl-gly methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 21.8 * +EC3.4.22.2 n-benzoyl-gly methyl thiono ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.301 * +EC3.4.22.2 n-benzoylglycinamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 21.0 * +EC3.4.22.2 n-benzyloxycarbonyl-gly p-nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.008 * +EC3.4.22.2 n-benzyloxycarbonyl-gly-gly carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 320.0 * +EC3.4.22.2 nalpha-benzoyl-gly methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 18.54 * +EC3.4.22.2 nalpha-benzoyl-l-arg ethyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.0519 * +EC3.4.22.2 nalpha-benzoyl-l-argininamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 32.0 * +EC3.4.22.2 nalpha-benzoyl-l-citrulline methyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 10.0 * +EC3.4.22.2 nalpha-benzyloxycarbonyl-l-histidinamide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 20.0 * +EC3.4.22.2 ubiquitin-7-amido-4-trifluoromethylcoumarin alphacoronavirus//*//* 0.73 * +EC3.4.22.25 tert-butyloxycarbonyl-ala-ala-ala 4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.08 * +EC3.4.22.25 tert-butyloxycarbonyl-ala-ala-gly 4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.16 * +EC3.4.22.25 tert-butyloxycarbonyl-ala-ala-gly 4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 5.2 * +EC3.4.22.26 d-ala-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.109 * +EC3.4.22.26 d-ile-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.22.26 glu-glu-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.306 * +EC3.4.22.26 n-p-tosyl-gly-pro-arg-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.061 * +EC3.4.22.26 n-p-tosyl-gly-pro-lys-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.153 * +EC3.4.22.27 (4-methyl-7-[[(2s)-2-(4-[(1s)-1-(4-methylcyclohexyl)-1-[(thiophen-3-ylcarbonyl)amino]ethyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1,2-dimethyl-1-[(phenylcarbonyl)amino]propyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1,2-dimethyl-1-[(thiophen-3-ylcarbonyl)amino]propyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1-cyclohexyl-1-[(phenylcarbonyl)amino]ethyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.4.22.27 (7-[[(2s)-2-(4-[(1s)-1-cyclohexyl-1-[(thiophen-3-ylcarbonyl)amino]ethyl]-1h-1,2,3-triazol-1-yl)hexanoyl]amino]-4-methyl-2-oxo-2h-chromen-3-yl)acetic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.22.27 (7-methoxycoumarin-4-yl)-acetyl-grwppmglpwek(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00556 * +EC3.4.22.27 benzoyl-phe-val-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0081 * +EC3.4.22.27 benzyloxycarbonyl-leu-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.22.27 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0147 * +EC3.4.22.27 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0182 * +EC3.4.22.27 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.019 * +EC3.4.22.27 benzyloxycarbonyl-phe-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0121 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.006 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin canis lupus familiaris//*//* 0.013 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.011 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.288 * +EC3.4.22.27 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin saimiri boliviensis//eukaryotes;animals;vertebrates;mammals//sbq 0.024 * +EC3.4.22.27 grwh-norleucine-vglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.22.27 grwhdvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00188 * +EC3.4.22.27 grwhfvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00142 * +EC3.4.22.27 grwhgvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00514 * +EC3.4.22.27 grwhivglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00048 * +EC3.4.22.27 grwhkfsvrwe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.22.27 grwhkisvrwe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.22.27 grwhklsvrwe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.22.27 grwhkvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00194 * +EC3.4.22.27 grwhpvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00324 * +EC3.4.22.27 grwht-norleucine-glrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00418 * +EC3.4.22.27 grwhtdglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01237 * +EC3.4.22.27 grwhtfglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.22.27 grwhtgglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01286 * +EC3.4.22.27 grwhtiglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00395 * +EC3.4.22.27 grwhtkglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00782 * +EC3.4.22.27 grwhtmglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00779 * +EC3.4.22.27 grwhtpglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00591 * +EC3.4.22.27 grwhttglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC3.4.22.27 grwhtv-norleucine-lrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01047 * +EC3.4.22.27 grwhtvdlrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC3.4.22.27 grwhtvflrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00258 * +EC3.4.22.27 grwhtvg-citrulline-rwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00171 * +EC3.4.22.27 grwhtvg-norleucine-rwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00073 * +EC3.4.22.27 grwhtvgfrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0048 * +EC3.4.22.27 grwhtvgirwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00198 * +EC3.4.22.27 grwhtvgkrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00525 * +EC3.4.22.27 grwhtvgldwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00314 * +EC3.4.22.27 grwhtvglfwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00527 * +EC3.4.22.27 grwhtvglhwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00312 * +EC3.4.22.27 grwhtvgliwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.22.27 grwhtvglkwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00105 * +EC3.4.22.27 grwhtvglpwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00131 * +EC3.4.22.27 grwhtvglqwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00259 * +EC3.4.22.27 grwhtvglrde-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01668 * +EC3.4.22.27 grwhtvglrfe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0082 * +EC3.4.22.27 grwhtvglrge-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01648 * +EC3.4.22.27 grwhtvglrhe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01493 * +EC3.4.22.27 grwhtvglrie-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0082 * +EC3.4.22.27 grwhtvglrke-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03787 * +EC3.4.22.27 grwhtvglrre-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01154 * +EC3.4.22.27 grwhtvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00237 * +EC3.4.22.27 grwhtvgrrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00244 * +EC3.4.22.27 grwhtvgvrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00237 * +EC3.4.22.27 grwhtvilrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00512 * +EC3.4.22.27 grwhtvklrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02747 * +EC3.4.22.27 grwhtvplrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01998 * +EC3.4.22.27 grwhtvqlrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0249 * +EC3.4.22.27 grwhtvtlrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00506 * +EC3.4.22.27 grwhvvglrwe-lys(2,4-dinitrophenyl)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00276 * +EC3.4.22.27 o-aminobenzoic acid-leu-glu-gln-(n-[2,4-dinitrophenyl]ethylenediamine) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.22.27 tert-butyloxycarbonyl-phe-leu-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0073 * +EC3.4.22.27 tert-butyloxycarbonyl-phe-phe-arg-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0375 * +EC3.4.22.28 (2-(n-methylamino)benzoyl)-iealfqgppk-(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.0431 * +EC3.4.22.28 (e)-5-chloropyridin-3-yl 3-(furan-2-yl)acrylate hepatovirus a//*//* 0.00018 * +EC3.4.22.28 2-(n-methylamino)benzoyl-deameqgvsdyik-2,4-dinitrophenyl enterovirus a71//*//* 0.0735 * +EC3.4.22.28 2-(n-methylamino)benzoyl-iaalfqgppk(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.075 * +EC3.4.22.28 2-(n-methylamino)benzoyl-ieaafqgppk(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.0667 * +EC3.4.22.28 2-(n-methylamino)benzoyl-iellfqgppk(2,4-dinitrophenyl)fr enterovirus a71//*//* 0.0482 * +EC3.4.22.28 2-(n-methylamino)benzoyl-rqavtqgfptelk-2,4-dinitrophenyl enterovirus a71//*//* 0.0924 * +EC3.4.22.28 2-(n-methylamino)benzoyl-rtatvqgpsldfk-2,4-dinitrophenyl enterovirus a71//*//* 0.0582 * +EC3.4.22.28 2-(n-methylamino)benzoyl-tsavlqsgfrk-(2,4-dinitrophenyl)-met enterovirus a71//*//* 0.075 * +EC3.4.22.28 2-aminobenzoyl-aalfqgplq-eddnp enterovirus c//*//* 0.0182 * +EC3.4.22.28 2-aminobenzoyl-eaafqgplq-eddnp enterovirus c//*//* 0.0264 * +EC3.4.22.28 2-aminobenzoyl-ealaqgplq-eddnp enterovirus c//*//* 0.0413 * +EC3.4.22.28 2-aminobenzoyl-ealfqaplq-eddnp enterovirus c//*//* 0.0393 * +EC3.4.22.28 2-aminobenzoyl-ealfqgalq-eddnp enterovirus c//*//* 0.0533 * +EC3.4.22.28 2-aminobenzoyl-ealfqgpaq-eddnp enterovirus c//*//* 0.0185 * +EC3.4.22.28 2-aminobenzoyl-ealfqgplq-eddnp enterovirus c//*//* 0.014 * +EC3.4.22.28 4-(4-dimethylaminophenylazo)benzoic acid-ktsavlqsgfrkme-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid enterovirus//*//* 0.0058 * +EC3.4.22.28 5-bromopyridin-3-yl furan-3-carboxylate hepatovirus a//*//* 0.00012 * +EC3.4.22.28 5-chloropyridin-3-yl furan-2-carboxylate hepatovirus a//*//* 0.00024 * +EC3.4.22.28 ac-defqlq-4-nitroanilide southampton virus//*//* 0.8 * +EC3.4.22.28 ac-efqlq-4-nitroanilide southampton virus//*//* 0.3 * +EC3.4.22.28 ac-fqlq-4-nitroanilide southampton virus//*//* 1.5 * +EC3.4.22.28 asp-ser-leu-glu-thr-leu-phe-gln-gly-pro-val-tyr-lys-asp-leu-glu enterovirus//*//* 1.3 * +EC3.4.22.28 dabcyl-iealfqgppkfre-edans enterovirus a71//*//* 0.0632 * +EC3.4.22.28 dabcyl-rtatvqgpsldfke-edans enterovirus a71//*//* 0.0825 * +EC3.4.22.28 n-acetyl-defqlq-4-nitroanilide norwalk virus//*//* 2.33 * +EC3.4.22.28 peptides derived from polyprotein cleavage sites enterovirus//*//* 0.25 * +EC3.4.22.28 slevlfqgpvrr human rhinovirus sp.//*//* 0.099 * +EC3.4.22.28 tenlyfqsgtrr tobacco etch virus//*//* 0.037 * +EC3.4.22.29 glu-arg-ala-ser-leu-ile-thr-thr-gly-pro-tyr-gly-his-gln-ser-gly coxsackievirus//*//* 0.25 * +EC3.4.22.29 thr-arg-pro-ile-ile-thr-thr-ala-gly-pro-ser-asp-met-tyr-val-his enterovirus c//*//* 0.54 * +EC3.4.22.29 thr-arg-pro-ile-ile-thr-thr-ala-gly-pro-ser-asp-met-tyr-val-his human rhinovirus sp.//*//* 0.52 * +EC3.4.22.29 thr-arg-pro-ile-ile-thr-thr-ala-gly-pro-ser-asp-met-val-tyr human rhinovirus sp.//*//* 0.5 * +EC3.4.22.3 benzoyl-dl-arg-p-nitroanilide ficus sp.//*//* 3.3 * +EC3.4.22.3 benzoyl-gly-p-nitrophenyl ester ficus sp.//*//* 0.0248 * +EC3.4.22.3 benzoyl-phe-val-arg-nh-7-amido-4-methylcoumarin ficus glabrata//*//* 0.0024 * +EC3.4.22.3 benzyloxycarbonyl-phe-arg-nh-(4-nitrophenyl) ficus glabrata//*//* 0.3 * +EC3.4.22.3 n-benzyloxycarbonyl-d-ala p-nitrophenyl ester ficus sp.//*//* 0.2 * +EC3.4.22.3 n-benzyloxycarbonyl-d-leu p-nitrophenyl ester ficus sp.//*//* 0.024 * +EC3.4.22.3 n-benzyloxycarbonyl-d-phe p-nitrophenyl ester ficus sp.//*//* 0.128 * +EC3.4.22.3 n-benzyloxycarbonyl-d-tyr p-nitrophenyl ester ficus sp.//*//* 0.012 * +EC3.4.22.3 nalpha-benzoyl-l-arg ethyl ester ficus sp.//*//* 21.3 * +EC3.4.22.3 nalpha-carbobenzoxy-ala p-nitrophenyl ester ficus sp.//*//* 0.0059 * +EC3.4.22.3 nalpha-carbobenzoxy-gly p-nitrophenyl ester ficus sp.//*//* 0.0125 * +EC3.4.22.3 nalpha-carbobenzoxy-glycylglycine p-nitrophenyl ester ficus sp.//*//* 0.0172 * +EC3.4.22.3 nalpha-carbobenzoxy-lys p-nitrophenyl ester ficus sp.//*//* 0.0087 * +EC3.4.22.3 nalpha-carbobenzoxy-phe p-nitrophenyl ester ficus sp.//*//* 0.0377 * +EC3.4.22.3 nalpha-carbobenzoxy-tyr p-nitrophenyl ester ficus sp.//*//* 0.0034 * +EC3.4.22.3 nalpha-carbobenzoxy-val p-nitrophenyl ester ficus sp.//*//* 0.0327 * +EC3.4.22.3 p-nitrophenyl-n-trans-acetyl-glycinate ficus sp.//*//* 0.309 * +EC3.4.22.3 p-nitrophenyl-n-trans-benzoyl-glycinate ficus sp.//*//* 0.0214 * +EC3.4.22.3 p-nitrophenyl-n-trans-benzyloxycarbonyl-glycinate ficus sp.//*//* 0.0183 * +EC3.4.22.3 p-nitrophenyl-n-trans-cinnamoyl-glycinate ficus sp.//*//* 0.0067 * +EC3.4.22.3 p-nitrophenyl-n-trans-formyl-glycinate ficus sp.//*//* 1.1 * +EC3.4.22.30 benzoyl-dl-arg 4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 16.0 * +EC3.4.22.30 benzyloxycarbonyl-lys nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.028 * +EC3.4.22.30 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.0067 * +EC3.4.22.30 n-benzyloxycarbonyl-gly 4-nitrophenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.009 * +EC3.4.22.30 succinyl-albumin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 9.6e-05 * +EC3.4.22.31 benzoyl-phe-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.0484 * +EC3.4.22.31 benzoyl-phe-val-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.0131 * +EC3.4.22.31 benzoyl-phe-val-arg 4-nitroanilide ananas comosus//*//* 1.6 * +EC3.4.22.31 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.0445 * +EC3.4.22.31 benzyloxycarbonyl-arg-arg 4-nitroanilide ananas comosus//*//* 11.0 * +EC3.4.22.31 benzyloxycarbonyl-gly-phe-citrulline 4-methylcoumarin 7-amide ananas comosus//*//* 0.0044 * +EC3.4.22.31 benzyloxycarbonyl-phe-citrulline 4-methylcoumarin 7-amide ananas comosus//*//* 0.0111 * +EC3.4.22.32 benzoyl-gly ethyl ester ananas comosus//*//* 210.0 * +EC3.4.22.32 benzoyl-l-arg amide ananas comosus//*//* 1.2 * +EC3.4.22.32 benzoyl-l-arg ethyl ester ananas comosus//*//* 57.0 * +EC3.4.22.32 benzoyl-l-arg methyl ester ananas comosus//*//* 32.0 * +EC3.4.22.32 benzoyl-phe-val-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.0097 * +EC3.4.22.32 benzyl-phe-val-arg-4-nitroanilide ananas comosus//*//* 0.249 * +EC3.4.22.32 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.0154 * +EC3.4.22.32 benzyloxycarbonyl-arg-arg-nh-4-methylcoumarin 7-amide ananas comosus//*//* 0.0074 * +EC3.4.22.32 benzyloxycarbonyl-gly-phe-citrulline 4-methylcoumarin 7-amide ananas comosus//*//* 0.0153 * +EC3.4.22.32 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide ananas comosus//*//* 0.0831 * +EC3.4.22.32 benzyloxycarbonyl-phe-arg-nh-4-methylcoumarin 7-amide ananas comosus//*//* 0.0554 * +EC3.4.22.32 benzyloxycarbonyl-phe-val-arg-nh-4-methylcoumarin 7-amide ananas comosus//*//* 0.003 * +EC3.4.22.32 bz-phe-val-arg-4-nitroanilide ananas comosus//*//* 0.03919 * +EC3.4.22.32 casein ananas comosus//*//* 0.129 * +EC3.4.22.32 l-pyroglutamyl-l-phe-l-leu 4-nitroanilide ananas comosus//*//* 0.4 * +EC3.4.22.32 n-benzyloxycarbonyl-l-phe-l-ser methyl ester ananas comosus//*//* 0.53 * +EC3.4.22.32 tosyl-l-lys ethyl ester ananas comosus//*//* 84.0 * +EC3.4.22.33 n-benzoyl-l-arg ethyl ester ananas comosus//*//* 43.0 * +EC3.4.22.33 nalpha-benzoyl-arg amide ananas comosus//*//* 2.1 * +EC3.4.22.34 acetyl-pro-thr-asn-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.122 * +EC3.4.22.34 acetyl-pro-thr-asn-4-methylcoumarin-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.286 * +EC3.4.22.34 acetyl-thr-ala-asn-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.128 * +EC3.4.22.34 acetyl-thr-ala-asn-4-methylcoumarin-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.07 * +EC3.4.22.34 benzyloxycarbonyl-ala-ala-asn-4-methylcoumarin-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.67 * +EC3.4.22.34 benzyloxycarbonyl-ala-ala-asn-4-methylcoumarin-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.22.34 benzyloxycarbonyl-ala-ala-asn-4-methylcoumarin-7-amide schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.09 * +EC3.4.22.34 benzyloxycarbonyl-ala-ala-asn-4-methylcoumarin-7-amide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC3.4.22.34 benzyloxycarbonyl-ile-ser-asn-4-methylcoumarin-7-amide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.22.34 dinitrophenyl-pro-glu-ala-asn-nh2 canavalia ensiformis//*//* 0.023 * +EC3.4.22.35 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0015 * +EC3.4.22.35 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.032 * +EC3.4.22.36 4-[[4'-(dimethylamino)phenyl]azo]-benzoic acid-yvadapv-5-[(2'-aminoethyl)-amino]naphthalenesulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.34e-05 * +EC3.4.22.36 acetyl-dqmd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.045 * +EC3.4.22.36 acetyl-levd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC3.4.22.36 acetyl-veid-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.4.22.36 acetyl-vqvd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.4.22.36 acetyl-wehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.22.36 acetyl-yevd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0073 * +EC3.4.22.36 acetyl-yevdgw-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC3.4.22.36 acetyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.22.36 acetyl-yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.15e-05 * +EC3.4.22.36 pro-interleukin-1beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4e-06 * +EC3.4.22.36 succinyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.15e-05 * +EC3.4.22.36 succinyl-yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.22.37 prothrombin porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.00026 * +EC3.4.22.37 z-phe-arg-7-amido-4-methylcoumarin porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0044 * +EC3.4.22.38 acetyl-phe-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.4.22.38 benzoyl-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.22.38 benzoyl-phe-val-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.4.22.38 benzyloxycarbonyl-arg-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.22.38 benzyloxycarbonyl-glu-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.22.38 benzyloxycarbonyl-leu-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0038 * +EC3.4.22.38 benzyloxycarbonyl-leu-leu-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.4.22.38 benzyloxycarbonyl-leu-leu-arg 4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC3.4.22.38 benzyloxycarbonyl-phe-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.4.22.38 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.4.22.38 benzyloxycarbonyl-val-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC3.4.22.38 benzyloxycarbonyl-val-val-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0185 * +EC3.4.22.38 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.22.38 carbobenzoxy-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0094 * +EC3.4.22.38 cbz-phe-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.22.38 cbz-phe-arg-4-methylcoumarin 7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.019 * +EC3.4.22.38 n-[(1s)-2,2,2-trifluoro-1-[4'-(methylsulfonyl)biphenyl-4-yl]ethyl]-l-leucyl-l-alaninamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.7e-05 * +EC3.4.22.38 n-[(1s)-2,2,2-trifluoro-1-[4'-(methylsulfonyl)biphenyl-4-yl]ethyl]-l-leucyl-l-methioninamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-06 * +EC3.4.22.38 n-[(1s)-2,2,2-trifluoro-1-[4'-(methylsulfonyl)biphenyl-4-yl]ethyl]-l-leucylglycinamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000119 * +EC3.4.22.38 pro-phe-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.4.22.38 succinyl-leu-tyr 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.22.38 tert-butyloxycarbonyl-val-leu-lys 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.22.38 tert-butyloxycarbonyl-val-pro-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.4.22.38 tosyl-gly-pro-arg 4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.22.38 z-gly-pro-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.22.38 z-leu-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.22.38 z-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.22.39 (ile-arg-gly-gly-nh)2-rhodamine unidentified adenovirus//*//* 0.00517 * +EC3.4.22.39 (leu-arg-gly-gly-nh)2-rhodamine human adenovirus//*//* 0.0034 * +EC3.4.22.39 (n-carbobenzyloxy-met-arg-gly-gly-nh)2-rhodamine unidentified adenovirus//*//* 0.00474 * +EC3.4.22.39 (n-carbobenzyloxy-nle-arg-gly-gly-nh)2-rhodamine unidentified adenovirus//*//* 0.000758 * +EC3.4.22.39 (nle-arg-gly-gly-nh)2-rhodamine unidentified adenovirus//*//* 0.0024 * +EC3.4.22.39 rhodamine 110,bis-(l-leucyl-l-arginylglycylglycine amide),tetrahydrochloride unidentified adenovirus//*//* 0.0014 * +EC3.4.22.40 ala-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 17.4 * +EC3.4.22.40 arg-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 6.1 * +EC3.4.22.40 asp-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 28.4 * +EC3.4.22.40 bleomycin a2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC3.4.22.40 bleomycin a2 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.46 * +EC3.4.22.40 bleomycin a2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.7 * +EC3.4.22.40 bleomycin b2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.056 * +EC3.4.22.40 butylamino-3-propylamino-3-propylamine bleomycin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.25 * +EC3.4.22.40 deglyco bleomycin a2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.49 * +EC3.4.22.40 gly-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.9 * +EC3.4.22.40 gly-asp lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 14.8 * +EC3.4.22.40 gly-d-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.6 * +EC3.4.22.40 gly-gly-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.66 * +EC3.4.22.40 gly-gly-arg lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.75 * +EC3.4.22.40 gly-gly-d-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.01 * +EC3.4.22.40 gly-gly-glu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.14 * +EC3.4.22.40 gly-gly-gly-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.13 * +EC3.4.22.40 gly-gly-gly-gly lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.78 * +EC3.4.22.40 gly-gly-gly lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.05 * +EC3.4.22.40 gly-gly-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.57 * +EC3.4.22.40 gly-gly-nh2 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.1 * +EC3.4.22.40 gly-gly-phe-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.2 * +EC3.4.22.40 gly-gly-phe lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.29 * +EC3.4.22.40 gly-gly-tyr lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.05 * +EC3.4.22.40 gly-gly lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 10.1 * +EC3.4.22.40 gly-leu lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.6 * +EC3.4.22.40 gly-lys lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.7 * +EC3.4.22.40 gly-nh2 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 13.5 * +EC3.4.22.40 gly-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 9.7 * +EC3.4.22.40 gly-phe lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.7 * +EC3.4.22.40 leu-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 12.5 * +EC3.4.22.40 lys-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 9.9 * +EC3.4.22.40 met-ala-ser lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.5 * +EC3.4.22.40 met-ala lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 9.5 * +EC3.4.22.40 met-paranitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 7.0 * +EC3.4.22.40 peplomycin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.7 * +EC3.4.22.40 phe-p-nitroanilide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.5 * +EC3.4.22.40 tallysomycin s10b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.45 * +EC3.4.22.40 thr-ser-lys lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.63 * +EC3.4.22.40 thr-ser lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.7 * +EC3.4.22.41 benzyloxycarbonyl-phe-arg-4-methylcoumaryl-7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.4.22.41 n-benzyloxycarbonyl-l-arg-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00287 * +EC3.4.22.41 n-benzyloxycarbonyl-l-leu-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.22.41 n-benzyloxycarbonyl-l-phe-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00044 * +EC3.4.22.41 n-benzyloxycarbonyl-l-val-l-arg-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00124 * +EC3.4.22.43 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC3.4.22.43 benzyloxycarbonyl-val-val-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.4.22.44 acetyl-arg-glu-thr-val-arg-phe-gln-ser-asp-amide tobacco vein mottling virus//*//* 0.217 * +EC3.4.22.44 acetyl-asn-asn-val-arg-phe-gln-ser-leu-amide tobacco vein mottling virus//*//* 0.216 * +EC3.4.22.44 acetyl-glu-pro-thr-val-tyr-his-gln-thr-leu-amide turnip mosaic potyvirus//*//* 0.51 * +EC3.4.22.44 pro-thr-thr-glu-leu-tyr-phe-gln-ser-gly-thr-val-asp-arg-arg tobacco etch virus//*//* 0.069 * +EC3.4.22.46 val-gln-arg-lys-leu-lys-4-methylcoumarin 7-amide foot-and-mouth disease virus//*//* 0.0227 * +EC3.4.22.47 benzyloxycarbonyl-l-lys-p-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.18 * +EC3.4.22.47 d-val-leu-lys-p-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.2 * +EC3.4.22.47 d-val-phe-lys-p-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.126 * +EC3.4.22.47 hemoglobin porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0029 * +EC3.4.22.47 n-p-tosyl-gly-pro-lys-p-nitroanilide porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.05 * +EC3.4.22.48 2-aminobenzoyl-ile-ala-ala-gly-5-amino-2-nitrobenzoylamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0076 * +EC3.4.22.48 2-aminobenzoyl-ile-ala-lys-asp-5-amino-2-nitrobenzoylamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.014 * +EC3.4.22.48 2-aminobenzoyl-phe-gly-ala-lys-5-amino-2-nitrobenzoylamide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0056 * +EC3.4.22.48 cystatin c staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.033 * +EC3.4.22.48 cystatin d staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.032 * +EC3.4.22.48 n-benzyloxycarbonyl-phe-leu-glu-nh-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.5 * +EC3.4.22.48 n-suc-gly-phe-gly-p-nitroanilide staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.3 * +EC3.4.22.49 acetyl-asp-arg-glu-ile-nle-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.293 * +EC3.4.22.50 z-arg-arg-7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.003 * +EC3.4.22.50 z-leu-arg 7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.022 * +EC3.4.22.50 z-phe-arg 7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.039 * +EC3.4.22.50 z-val-arg-7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.043 * +EC3.4.22.50 z-val-val-arg 7-amido-4-methylcoumarin autographa californica nucleopolyhedrovirus//*//* 0.058 * +EC3.4.22.51 2-aminobenzoic acid-klrfskq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.001 * +EC3.4.22.51 2-aminobenzoyl-arf-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.019 * +EC3.4.22.51 2-aminobenzoyl-fra-(2,4-dinitrophenyl)-epsilon-nh2-lysine-nh2 trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0013 * +EC3.4.22.51 2-aminobenzoyl-fra-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0035 * +EC3.4.22.51 2-aminobenzoyl-frf-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0039 * +EC3.4.22.51 2-aminobenzoyl-lgmislmkrpq-n-(2,4-dinitrophenyl)ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 6.5e-05 * +EC3.4.22.51 2-aminobenzoyl-phe-arg-(2,4-dinitrophenyl)-epsilon-nh2-lysine-pro-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0036 * +EC3.4.22.51 2-aminobenzoyl-phe-arg-(2,4-dinitrophenyl)-epsilon-nh2-lysine-trp-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0023 * +EC3.4.22.51 2-aminobenzoyl-rrf-(2,4-dinitrophenyl)-epsilon-nh2-lysine-oh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.00095 * +EC3.4.22.51 ac-phe-arg-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.001 * +EC3.4.22.51 azocasein trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.028 * +EC3.4.22.51 benzoyl-fr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0012 * +EC3.4.22.51 benzoyl-hr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.043 * +EC3.4.22.51 benzoyl-pfr-4-nitroanilide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.066 * +EC3.4.22.51 benzoyl-rr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0119 * +EC3.4.22.51 benzoyl-yr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.001 * +EC3.4.22.51 benzyloxycarbonyl-fr-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0011 * +EC3.4.22.51 benzyloxycarbonyl-phe-arg-aminomethyl coumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0008 * +EC3.4.22.51 epsilon-nh2(capryl)-l-(sbzl)c-7-amido-4-methylcoumarin trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0058 * +EC3.4.22.51 n-alpha-benzyloxy-carbonyl-l-phenylalanyl-l-alanine-(7-amido-4-methylcoumarin) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0021 * +EC3.4.22.51 n-alpha-benzyloxycarbonyl-l-arginyl-l-alanine-(7-amido-4-methylcoumarin) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0025 * +EC3.4.22.51 n-alpha-benzyloxycarbonyl-l-tyrosyl-l-alanine-(7-amido-4-methylcoumarin) trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0021 * +EC3.4.22.51 n-carbobenzoxy-arg-arg-2-(4-methoxy)-naphthylamide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.011 * +EC3.4.22.51 n-carbobenzoxy-vvr-4-nitroanilide trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.033 * +EC3.4.22.51 o-aminobenzoyl-alrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0044 * +EC3.4.22.51 o-aminobenzoyl-hlrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0021 * +EC3.4.22.51 o-aminobenzoyl-karfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.006 * +EC3.4.22.51 o-aminobenzoyl-kfrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0051 * +EC3.4.22.51 o-aminobenzoyl-klffskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0028 * +EC3.4.22.51 o-aminobenzoyl-klgfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0114 * +EC3.4.22.51 o-aminobenzoyl-klkfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0079 * +EC3.4.22.51 o-aminobenzoyl-klrfakq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.004 * +EC3.4.22.51 o-aminobenzoyl-klrffkq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0046 * +EC3.4.22.51 o-aminobenzoyl-klrfpkq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0079 * +EC3.4.22.51 o-aminobenzoyl-klrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0022 * +EC3.4.22.51 o-aminobenzoyl-klrfspq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0078 * +EC3.4.22.51 o-aminobenzoyl-klrfsrq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0046 * +EC3.4.22.51 o-aminobenzoyl-klrlskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0038 * +EC3.4.22.51 o-aminobenzoyl-klrrskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0132 * +EC3.4.22.51 o-aminobenzoyl-kprfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0117 * +EC3.4.22.51 o-aminobenzoyl-krrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0032 * +EC3.4.22.51 o-aminobenzoyl-llrfskq-n-(2,4-dinitrophenyl)-ethylenediamine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0036 * +EC3.4.22.52 2-aminobenzoyl-evygmmy(3-no2)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.4.22.52 4,4-difluoro-5,7-dimethyl-4-bora-31,4a-diaza-s-indacene-3-propioyl-labeled casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00074 * +EC3.4.22.52 casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.4.22.52 fluorescin thiocarbamoyl-labeled casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC3.4.22.52 fodrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC3.4.22.52 k-(5(6)-carboxyfluorescein)-evygmmk(4-(4-dimethylaminophenylazo)benzoyl)-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.4.22.52 n-benzyloxycarbonyl-l-leu-l-arg-4-methoxy-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.22.52 n-benzyloxycarbonyl-l-leu-l-arg-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.4.22.52 n-benzyloxycarbonyl-l-leu-l-arg-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.46 * +EC3.4.22.52 succinyl-bovine serum albumin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.22.52 succinyl-bovine-serum albumin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.0 * +EC3.4.22.52 succinyl-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC3.4.22.52 succinyl-casein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0081 * +EC3.4.22.52 succinyl-insulin b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.284 * +EC3.4.22.52 succinyl-insulin b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 283.5 * +EC3.4.22.52 succinyl-l-leu-l-leu-l-val-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.52 succinyl-l-leu-l-leu-l-val-l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.52 succinyl-l-leu-l-met-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.52 succinyl-l-leu-l-tyr-4-methoxy-2-naphthylamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.4.22.52 succinyl-l-leu-l-tyr-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.7 * +EC3.4.22.52 succinyl-protamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.22.52 succinyl-protamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 63.0 * +EC3.4.22.52 tert-butyloxycarbonyl-l-val-l-leu-l-lys-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.9 * +EC3.4.22.53 boc-val-leu-lys-methylcoumarin struthio camelus//*//* 7.5 * +EC3.4.22.53 succinyl-bovine-serum albumin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.2 * +EC3.4.22.53 succinyl-casein oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 10.0 * +EC3.4.22.53 succinyl-insulin b oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 453.7 * +EC3.4.22.53 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.459 * +EC3.4.22.53 succinyl-leu-leu-val-tyr-methylcoumarin struthio camelus//*//* 19.32 * +EC3.4.22.53 succinyl-leu-met-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.66 * +EC3.4.22.53 succinyl-leu-tyr-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.1 * +EC3.4.22.53 succinyl-leu-tyr-7-amido-4-methylcoumarin dicentrarchus labrax//*//* 0.431 * +EC3.4.22.53 succinyl-leu-tyr-methylcoumarin struthio camelus//*//* 3.18 * +EC3.4.22.53 succinyl-protamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 101.3 * +EC3.4.22.53 t-boc-leu-met-methylcoumarin struthio camelus//*//* 5.33 * +EC3.4.22.53 t-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.11 * +EC3.4.22.55 ac-vdvad-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.22.55 acetyl-vdqqd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC3.4.22.55 acetyl-vdvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.4.22.55 acetyl-vdvadgw-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.22.56 5'-tetramethylrhodamine-5(6)-carboxamide-devd-cyanine 5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC3.4.22.56 ac-devd-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0337 * +EC3.4.22.56 acetyl-devd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC3.4.22.56 acetyl-devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.22.56 acetyl-dqmd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC3.4.22.56 acetyl-l-asp-l-glu-l-val-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.22.56 acetyl-l-asp-l-glu-l-val-l-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0122 * +EC3.4.22.56 acetyl-l-asp-l-met-l-gln-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.22.56 acetyl-l-asp-l-val-l-ala-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.222 * +EC3.4.22.56 acetyl-l-leu-l-asp-l-val-l-ala-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.147 * +EC3.4.22.56 acetyl-l-val-l-asp-l-val-l-ala-l-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.164 * +EC3.4.22.56 acetyl-vdqmdgw-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.56 acetyl-vdvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC3.4.22.56 acetyl-veid-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.4.22.56 acetyl-vqvd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.22.56 acetyl-yevd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.4.22.56 acetyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 29.0 * +EC3.4.22.56 benzoyl-l-asp-l-glu-l-val-l-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.22.56 devd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0625 * +EC3.4.22.56 devd-fq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00073 * +EC3.4.22.56 devd-nucview488 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.22.56 dw3-fq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00077 * +EC3.4.22.57 acetyl-devd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.22.57 acetyl-dqmd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.4.22.57 acetyl-levd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC3.4.22.57 acetyl-levdgw-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.4.22.57 acetyl-tyr-val-ala-asp-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.681 * +EC3.4.22.57 acetyl-veid-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.205 * +EC3.4.22.57 acetyl-vqvd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.72 * +EC3.4.22.57 acetyl-wehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.4.22.57 acetyl-yevd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.4.22.57 acetyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.874 * +EC3.4.22.57 acetyl-yvad-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.22.57 succinyl-yvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.22.57 succinyl-yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.4.22.58 acetyl-wehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.22.58 succinyl-yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC3.4.22.59 (n-acetyl-veid)2-rhodamine110 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.22.59 acetyl-devd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.4.22.59 acetyl-dqmd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.22.59 acetyl-levd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.4.22.59 acetyl-vdqqd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.0 * +EC3.4.22.59 acetyl-vehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.4.22.59 acetyl-veid-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.4.22.59 acetyl-vqvd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.4.22.59 acetyl-yevd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.22.59 n-acetyl-asp-glu-val-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.126 * +EC3.4.22.59 n-acetyl-asp-glu-val-asp-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.087 * +EC3.4.22.59 n-acetyl-val-glu-his-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.246 * +EC3.4.22.59 n-acetyl-val-glu-ile-asp-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0134 * +EC3.4.22.59 n-acetyl-veid-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.093 * +EC3.4.22.6 benzoyl-arg-4-nitroanilide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 5.0 * +EC3.4.22.6 benzyloxycarbonyl-lys phenyl ester carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.0075 * +EC3.4.22.6 benzyloxycarbonyl-phe-arg-4-methylcoumarin 7-amide carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.0025 * +EC3.4.22.6 methyl red-abu-ala-pro-val-lys-lys(n5-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.0502 * +EC3.4.22.6 methyl red-abu-ser-ala-pro-val-lys-ala-lys(n6-(5-carboxyfluorescein))-nh2 carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.023 * +EC3.4.22.6 succinyl-albumin carica papaya//eukaryotes;plants;eudicots;papaya family//cpap 0.000131 * +EC3.4.22.60 ac-dvad-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2193 * +EC3.4.22.60 ac-ldvad-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3239 * +EC3.4.22.60 ac-vdvad-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3149 * +EC3.4.22.60 acetyl-devd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.22.60 acetyl-devd-7-amido-4-fluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0605 * +EC3.4.22.60 acetyl-devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.22.60 acetyl-dqmd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.22.60 acetyl-vdqqd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC3.4.22.60 acetyl-vdqvdgw-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.4.22.60 acetyl-vdvad-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.22.60 acetyl-vqvdgw-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.4.22.60 acetyl-yeid-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC3.4.22.60 acetyl-yevd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.4.22.60 acetyl-yqvd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1 * +EC3.4.22.60 n-acetyl-asp-glu-val-asp-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.111 * +EC3.4.22.60 n-acetyl-devd-7-amido-4-fluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0319 * +EC3.4.22.61 ac-ietd-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.22.61 ac-ietd-fluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0206 * +EC3.4.22.61 acetyl-devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.22.61 acetyl-ietd-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC3.4.22.62 acetyl-lehd-7-amido-4-trifluoromethyl coumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.466 * +EC3.4.22.62 acetyl-lehd-7-amido-4-trifluoromethylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.466 * +EC3.4.22.62 acetyl-vehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.408 * +EC3.4.22.62 procaspase-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.139 * +EC3.4.22.63 acetyl-vehd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC3.4.22.63 devd-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC3.4.22.63 yvad-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.22.65 (2-aminobenzoyl)-val-ala-norleu-ser-tyr(3-no2)-asp dermatophagoides pteronyssinus//*//* 0.0154 * +EC3.4.22.65 2-aminobenzoic acid-val-ala-nle-ser-(3-nitro)-tyrosinyl-aspartamide dermatophagoides pteronyssinus//*//* 0.003 * +EC3.4.22.65 casein dermatophagoides farinae//*//* 0.033 * +EC3.4.22.65 casein dermatophagoides pteronyssinus//*//* 0.017 * +EC3.4.22.69 (ala-arg-leu-gln-nh)2-rhodamine sars coronavirus//*//* 0.306 * +EC3.4.22.69 [4-(4-dimethylaminophenylazo)benzoic acid]-knstlqsglrke-[5-[2'-(aminoethyl)amino]-naphthalenesulfonic acid] sars coronavirus//*//* 0.04938 * +EC3.4.22.69 [4-(4-dimethylaminophenylazo)benzoic acid]-ktsavlqsgfrkme-5-['-(aminoethyl)amino]-naphthalenesulfonic acid sars coronavirus//*//* 0.045 * +EC3.4.22.69 abz-lqsgfrk(dnp)nh2 sars coronavirus//*//* 0.0017 * +EC3.4.22.69 abz-lyqppqtsitsavlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.0005 * +EC3.4.22.69 abz-qtsitsavlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.011 * +EC3.4.22.69 abz-savlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.0024 * +EC3.4.22.69 abz-savlqsgfrkmafpsgk(dnp)nh2 sars coronavirus//*//* 0.0013 * +EC3.4.22.69 abz-savlqsgfrkmak(dnp)nh2 sars coronavirus//*//* 0.002 * +EC3.4.22.69 abz-savlqsgk(dnp)nh2 sars coronavirus//*//* 0.0016 * +EC3.4.22.69 abz-sgadvlyqppqtsitsavlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.0011 * +EC3.4.22.69 abz-vlqsgfrk(dnp)nh2 sars coronavirus//*//* 0.0013 * +EC3.4.22.69 atvrlqagnat sars coronavirus//*//* 1.44 * +EC3.4.22.69 dabcyl-ktsavlqsgfrkme-edans-amide sars coronavirus//*//* 0.0245 * +EC3.4.22.69 dabcyl-ktsavlqsgfrkme-edans sars coronavirus//*//* 0.05642 * +EC3.4.22.69 fypklqasqaw sars coronavirus//*//* 0.549 * +EC3.4.22.69 o-aminobenzoyl-tsavlqsgfry(no2)g sars coronavirus//*//* 0.146 * +EC3.4.22.69 phtvlqavgac sars coronavirus//*//* 1.94 * +EC3.4.22.69 savlqmgfrk sars coronavirus//*//* 0.0766 * +EC3.4.22.69 ser-ala-val-leu-gln-met-gly-phe-arg-lys sars coronavirus//*//* 0.0766 * +EC3.4.22.69 sgvtfqgkfkk sars coronavirus//*//* 0.583 * +EC3.4.22.69 sitsavlq-p-nitroanilide sars coronavirus//*//* 0.18 * +EC3.4.22.69 sitsavlq-p-nitrophenyl ester sars coronavirus//*//* 0.073 * +EC3.4.22.69 sitsavlqsgfrkma sars coronavirus//*//* 0.6 * +EC3.4.22.69 swtsavlqsgfrkwa sars coronavirus//*//* 61.9 * +EC3.4.22.69 tftrlqslenv sars coronavirus//*//* 0.286 * +EC3.4.22.69 thr-ser-ala-val-leu-gln-p-nitroanilide sars coronavirus//*//* 0.2226 * +EC3.4.22.69 tsavlqsgfrk-nh2 sars coronavirus//*//* 1.15 * +EC3.4.22.7 l-pyroglutamyl-l-phenylalanyl-l-leucine-4-nitroanilide asclepias curassavica//*//* 0.73 * +EC3.4.22.7 n-alpha-benzyloxycarbonyl-l-gln-4-nitrophenyl ester asclepias curassavica//*//* 0.1634 * +EC3.4.22.7 n-carbobenzoxy-lys p-nitrophenyl ester asclepias syriaca//*//* 0.0097 * +EC3.4.22.7 nalpha-cbz-l-gln-4-nitrophenyl ester asclepias curassavica//*//* 0.163 * +EC3.4.22.8 ac-l-lys-4-nitroanilide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 25.4 * +EC3.4.22.8 alpha-benzoyl-arg ethyl ester hathewaya histolytica//*//* 0.174 * +EC3.4.22.8 benzoyl-arg ethyl ester hathewaya histolytica//*//* 0.16 * +EC3.4.22.8 benzoyl-l-arg-4-nitroanilide clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.852 * +EC3.4.22.8 maleyl-tyr-arg ethyl ester hathewaya histolytica//*//* 0.36 * +EC3.4.22.8 n-benzoyl-l-arg amide hathewaya histolytica//*//* 1.3 * +EC3.4.22.8 nalpha-benzoyl-l-arginine-4-nitroanilide hathewaya histolytica//*//* 0.34 * +EC3.4.22.8 nalpha-benzoyl-l-lys methyl ester hathewaya histolytica//*//* 3.0 * +EC3.4.22.8 nalpha-p-tosyl-l-arg amide hathewaya histolytica//*//* 0.25 * +EC3.4.22.8 p-nitrophenyl p-guanidinobenzoate hathewaya histolytica//*//* 0.26 * +EC3.4.22.8 p-toluenesulfonyl-l-arg methyl ester hathewaya histolytica//*//* 0.022 * +EC3.4.22.8 thr-ala-ala hathewaya histolytica//*//* 0.25 * +EC3.4.22.B19 ubiquitin-7-amino-4-methylcoumarin yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.003 * +EC3.4.22.B49 benzoyl-phe-val-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0093 * +EC3.4.22.B49 benzoyl-phe-val-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0093 * +EC3.4.22.B49 benzyloxycarbonyl-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0204 * +EC3.4.22.B49 benzyloxycarbonyl-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0204 * +EC3.4.22.B49 benzyloxycarbonyl-arg-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0656 * +EC3.4.22.B49 benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0656 * +EC3.4.22.B49 benzyloxycarbonyl-l-leu-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 4.35 * +EC3.4.22.B49 benzyloxycarbonyl-l-phel-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 24.18 * +EC3.4.22.B49 benzyloxycarbonyl-l-pro-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 191.2 * +EC3.4.22.B49 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0036 * +EC3.4.22.B49 benzyloxycarbonyl-phe-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0147 * +EC3.4.22.B49 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.003 * +EC3.4.22.B49 benzyloxycarbonyl-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.1819 * +EC3.4.22.B49 h-leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0054 * +EC3.4.22.B49 h-leu-val-tyr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0054 * +EC3.4.22.B49 succinyl-ala-phe-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0653 * +EC3.4.22.B49 succinyl-ala-phe-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0653 * +EC3.4.22.B49 succinyl-leu-leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0385 * +EC3.4.22.B49 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0385 * +EC3.4.22.B49 t-butyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0347 * +EC3.4.22.B49 t-butyloxycarbonyl-val-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0436 * +EC3.4.22.B49 tert-butoxycarbonyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 10.43 * +EC3.4.22.B49 tert-butyloxycarbonyl-val-leu-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0347 * +EC3.4.22.B49 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0436 * +EC3.4.22.B49 tosyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.026 * +EC3.4.22.B49 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.026 * +EC3.4.22.B49 tosyl-gly-pro-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.1069 * +EC3.4.22.B49 tosyl-gly-pro-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.1069 * +EC3.4.22.B5 2-aminobenzoyl-elrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.058 * +EC3.4.22.B5 2-aminobenzoyl-flrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.021 * +EC3.4.22.B5 2-aminobenzoyl-frak(dnp)-nh2 leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.0006 * +EC3.4.22.B5 2-aminobenzoyl-frak(dnp)-oh leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.0024 * +EC3.4.22.B5 2-aminobenzoyl-kersskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.435 * +EC3.4.22.B5 2-aminobenzoyl-kfrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.024 * +EC3.4.22.B5 2-aminobenzoyl-kgrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.041 * +EC3.4.22.B5 2-aminobenzoyl-klcsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.044 * +EC3.4.22.B5 2-aminobenzoyl-klesskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.085 * +EC3.4.22.B5 2-aminobenzoyl-klfsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.084 * +EC3.4.22.B5 2-aminobenzoyl-klhsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.018 * +EC3.4.22.B5 2-aminobenzoyl-kllsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.038 * +EC3.4.22.B5 2-aminobenzoyl-klnsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.052 * +EC3.4.22.B5 2-aminobenzoyl-klreskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.106 * +EC3.4.22.B5 2-aminobenzoyl-klrfskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.043 * +EC3.4.22.B5 2-aminobenzoyl-klrgskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.038 * +EC3.4.22.B5 2-aminobenzoyl-klrnskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.035 * +EC3.4.22.B5 2-aminobenzoyl-klrrskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.103 * +EC3.4.22.B5 2-aminobenzoyl-klrsekq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.059 * +EC3.4.22.B5 2-aminobenzoyl-klrsfkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.015 * +EC3.4.22.B5 2-aminobenzoyl-klrsgkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.052 * +EC3.4.22.B5 2-aminobenzoyl-klrslkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.078 * +EC3.4.22.B5 2-aminobenzoyl-klrspkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.029 * +EC3.4.22.B5 2-aminobenzoyl-klrsrkq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.351 * +EC3.4.22.B5 2-aminobenzoyl-klrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.029 * +EC3.4.22.B5 2-aminobenzoyl-knrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.406 * +EC3.4.22.B5 2-aminobenzoyl-krrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.124 * +EC3.4.22.B5 2-aminobenzoyl-llrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.172 * +EC3.4.22.B5 2-aminobenzoyl-nlrsskq-(n-(ethylenediamine)-2,4-dinitrophenyl amide) leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.029 * +EC3.4.22.B5 abz-arf(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 4.7 * +EC3.4.22.B5 abz-arfk-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0174 * +EC3.4.22.B5 abz-fr(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.7 * +EC3.4.22.B5 abz-fra(2,4-dinitrophenyl)-epsilon-nh2-lys-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.85 * +EC3.4.22.B5 abz-fra(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 2.2 * +EC3.4.22.B5 abz-frak-nh2 leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.001 * +EC3.4.22.B5 abz-frak-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0036 * +EC3.4.22.B5 abz-frf(2,4-dinitrophenyl)-epsilon-nh2-lys leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 3.3 * +EC3.4.22.B5 abz-frfk-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0036 * +EC3.4.22.B5 abz-frkp-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0051 * +EC3.4.22.B5 abz-frkw-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0016 * +EC3.4.22.B5 abz-rrfk-oh leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.001 * +EC3.4.22.B5 ac-phe-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.005 * +EC3.4.22.B5 benzoyl-(3-pyridylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0114 * +EC3.4.22.B5 benzoyl-(4-aminomethyl-n-isopropyl-phenylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.021 * +EC3.4.22.B5 benzoyl-(4-aminomethyl-phenylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0038 * +EC3.4.22.B5 benzoyl-(4-guanidine-phenylalanine)-r-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.035 * +EC3.4.22.B5 benzoyl-fr-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0014 * +EC3.4.22.B5 benzoyl-hr-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.051 * +EC3.4.22.B5 benzoyl-rr-4-methylcoumarin-7-amide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.012 * +EC3.4.22.B5 n-benzoyl-pro-phe-arg-p-nitroanilide leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.083 * +EC3.4.22.B5 o-aminobenzoyl-alrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00013 * +EC3.4.22.B5 o-aminobenzoyl-anhflctq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00044 * +EC3.4.22.B5 o-aminobenzoyl-hlrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00025 * +EC3.4.22.B5 o-aminobenzoyl-karfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.0007 * +EC3.4.22.B5 o-aminobenzoyl-kfrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00029 * +EC3.4.22.B5 o-aminobenzoyl-klfnpkfq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00017 * +EC3.4.22.B5 o-aminobenzoyl-klraskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00016 * +EC3.4.22.B5 o-aminobenzoyl-klrfakq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00011 * +EC3.4.22.B5 o-aminobenzoyl-klrffkq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 9e-05 * +EC3.4.22.B5 o-aminobenzoyl-klrfpkq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00016 * +EC3.4.22.B5 o-aminobenzoyl-klrfrkq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 6e-05 * +EC3.4.22.B5 o-aminobenzoyl-klrfsaq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00011 * +EC3.4.22.B5 o-aminobenzoyl-klrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 4e-05 * +EC3.4.22.B5 o-aminobenzoyl-klrfspq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.001 * +EC3.4.22.B5 o-aminobenzoyl-klrfsrq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 7e-05 * +EC3.4.22.B5 o-aminobenzoyl-klrlskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00016 * +EC3.4.22.B5 o-aminobenzoyl-klrrskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00043 * +EC3.4.22.B5 o-aminobenzoyl-kltc(sbzl)fskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.1 * +EC3.4.22.B5 o-aminobenzoyl-kltdfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.31 * +EC3.4.22.B5 o-aminobenzoyl-kltefskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.11 * +EC3.4.22.B5 o-aminobenzoyl-klthfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.03 * +EC3.4.22.B5 o-aminobenzoyl-kltkfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.043 * +EC3.4.22.B5 o-aminobenzoyl-kltrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.04 * +EC3.4.22.B5 o-aminobenzoyl-kltt(obzl)fskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.05 * +EC3.4.22.B5 o-aminobenzoyl-kprfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00113 * +EC3.4.22.B5 o-aminobenzoyl-krrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00044 * +EC3.4.22.B5 o-aminobenzoyl-llrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00012 * +EC3.4.22.B5 o-aminobenzoyl-rlrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.00019 * +EC3.4.22.B50 abz-frlkggapikgv-n-(2,4-dinitrophenyl)-ethylenediamine alphacoronavirus//*//* 0.021 * +EC3.4.22.B50 frlkggapikgv alphacoronavirus//*//* 0.185 * +EC3.4.22.B50 n-benzoyl-phe-val-arg-4-nitroanilide tabernaemontana divaricata//*//* 0.1273 * +EC3.4.22.B50 z-kkag-7-amido-4-methylcoumarin infectious bronchitis virus//*//* 3.23 * +EC3.4.22.B50 z-lrgg-7-amido-4-methylcoumarin infectious bronchitis virus//*//* 0.67 * +EC3.4.22.B6 benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.308 * +EC3.4.22.B6 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0102 * +EC3.4.22.B6 n2-benzyloxycarbonyl-arg-arg-7-amido-4-methylcoumarin trypanosoma congolense//*//* 0.1733 * +EC3.4.22.B6 nalpha-benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin trypanosoma congolense//*//* 0.1234 * +EC3.4.22.B60 benzoyl-phe-val-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0012 * +EC3.4.22.B60 benzyloxycarbonyl-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0141 * +EC3.4.22.B60 benzyloxycarbonyl-arg-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0091 * +EC3.4.22.B60 benzyloxycarbonyl-l-leu-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0014 * +EC3.4.22.B60 benzyloxycarbonyl-l-phe-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.04 * +EC3.4.22.B60 benzyloxycarbonyl-l-pro-l-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.084 * +EC3.4.22.B60 benzyloxycarbonyl-leu-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0036 * +EC3.4.22.B60 benzyloxycarbonyl-phe-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.004 * +EC3.4.22.B60 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0155 * +EC3.4.22.B60 benzyloxycarbonyl-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0752 * +EC3.4.22.B60 boc-agpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0094 * +EC3.4.22.B60 boc-vlk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0022 * +EC3.4.22.B60 boc-vpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.01139 * +EC3.4.22.B60 leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0038 * +EC3.4.22.B60 succinyl-ala-phe-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0412 * +EC3.4.22.B60 succinyl-leu-leu-val-tyr-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0232 * +EC3.4.22.B60 tert-butoxycarbonyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0337 * +EC3.4.22.B60 tert-butyloxycarbonyl-val-leu-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0073 * +EC3.4.22.B60 tert-butyloxycarbonyl-val-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0248 * +EC3.4.22.B60 tosyl-gly-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0327 * +EC3.4.22.B60 tosyl-gly-pro-arg-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0153 * +EC3.4.22.B60 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0483 * +EC3.4.22.B60 tosyl-gly-pro-lys-4-methylcoumarinyl-7-amide fasciola hepatica//*//* 0.0355 * +EC3.4.22.B60 tosyl-gpk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0129 * +EC3.4.22.B60 tosyl-gpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0139 * +EC3.4.22.B60 z-leu-arg-nhme fasciola hepatica//*//* 0.00213 * +EC3.4.22.B60 z-phe-arg-nhme fasciola hepatica//*//* 0.0078 * +EC3.4.22.B60 z-vvr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.00153 * +EC3.4.22.B61 benzyloxycarbonyl-l-phe-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.02481 * +EC3.4.22.B61 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0059 * +EC3.4.22.B61 tosyl-gly-l-pro-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.05392 * +EC3.4.22.B61 tosyl-gly-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0318 * +EC3.4.22.B61 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0195 * +EC3.4.22.B61 z-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.02481 * +EC3.4.22.B62 benzyloxycarbonyl-l-phe-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.02353 * +EC3.4.22.B62 benzyloxycarbonyl-l-val-l-leu-l-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0157 * +EC3.4.22.B62 benzyloxycarbonyl-phe-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0235 * +EC3.4.22.B62 benzyloxycarbonyl-val-leu-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0157 * +EC3.4.22.B62 boc-agpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0096 * +EC3.4.22.B62 boc-vlk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.00613 * +EC3.4.22.B62 boc-vpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0211 * +EC3.4.22.B62 tosyl-gly-l-pro-l-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0041 * +EC3.4.22.B62 tosyl-gly-pro-arg-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0041 * +EC3.4.22.B62 tosyl-gpk-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0098 * +EC3.4.22.B62 tosyl-gpr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0106 * +EC3.4.22.B62 z-leu-arg-nhme fasciola hepatica//*//* 0.048 * +EC3.4.22.B62 z-phe-arg-nhme fasciola hepatica//*//* 0.02005 * +EC3.4.22.B62 z-val-leu-lys-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0157 * +EC3.4.22.B62 z-vvr-7-amido-4-methylcoumarin fasciola hepatica//*//* 0.0117 * +EC3.4.22.B63 dabcyl-ancillary protein 1-edans streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.00358 * +EC3.4.22.B63 dabcyl-ancillary protein 2-edans streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.01639 * +EC3.4.22.B63 dabcyl-bp-1 peptide-edans streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.02156 * +EC3.4.22.B63 dabcyl-kkvtipqtggigt-edans streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.0138 * +EC3.4.22.B65 o-aminobenzoic acid-alrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC3.4.22.B65 o-aminobenzoic acid-eifvfkq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC3.4.22.B65 o-aminobenzoic acid-elrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0051 * +EC3.4.22.B65 o-aminobenzoic acid-flrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0094 * +EC3.4.22.B65 o-aminobenzoic acid-hlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0048 * +EC3.4.22.B65 o-aminobenzoic acid-ilrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0085 * +EC3.4.22.B65 o-aminobenzoic acid-karsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0184 * +EC3.4.22.B65 o-aminobenzoic acid-kfrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC3.4.22.B65 o-aminobenzoic acid-kirsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0069 * +EC3.4.22.B65 o-aminobenzoic acid-klasskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0034 * +EC3.4.22.B65 o-aminobenzoic acid-klfsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0015 * +EC3.4.22.B65 o-aminobenzoic acid-kllsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0015 * +EC3.4.22.B65 o-aminobenzoic acid-klmsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.4.22.B65 o-aminobenzoic acid-klqsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0029 * +EC3.4.22.B65 o-aminobenzoic acid-klreskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0053 * +EC3.4.22.B65 o-aminobenzoic acid-klrfskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0079 * +EC3.4.22.B65 o-aminobenzoic acid-klrgskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0058 * +EC3.4.22.B65 o-aminobenzoic acid-klrhskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0153 * +EC3.4.22.B65 o-aminobenzoic acid-klrlskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0046 * +EC3.4.22.B65 o-aminobenzoic acid-klrnskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0202 * +EC3.4.22.B65 o-aminobenzoic acid-klrqskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0084 * +EC3.4.22.B65 o-aminobenzoic acid-klrrskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0107 * +EC3.4.22.B65 o-aminobenzoic acid-klrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC3.4.22.B65 o-aminobenzoic acid-klrvskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.4.22.B65 o-aminobenzoic acid-kltsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC3.4.22.B65 o-aminobenzoic acid-klysskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0038 * +EC3.4.22.B65 o-aminobenzoic acid-kmrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0084 * +EC3.4.22.B65 o-aminobenzoic acid-knlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0048 * +EC3.4.22.B65 o-aminobenzoic acid-kqrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0201 * +EC3.4.22.B65 o-aminobenzoic acid-krrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC3.4.22.B65 o-aminobenzoic acid-ktrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0243 * +EC3.4.22.B65 o-aminobenzoic acid-kvrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0055 * +EC3.4.22.B65 o-aminobenzoic acid-kyrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00044 * +EC3.4.22.B65 o-aminobenzoic acid-llrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.018 * +EC3.4.22.B65 o-aminobenzoic acid-nlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0086 * +EC3.4.22.B65 o-aminobenzoic acid-rlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC3.4.22.B65 o-aminobenzoic acid-vlrsskq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC3.4.22.B70 (sumo-1)-rangap1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.24e-06 * +EC3.4.22.B70 (sumo-2)-rangap1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.75e-06 * +EC3.4.22.B70 sumo-1 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8e-06 * +EC3.4.22.B70 sumo-2 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.98e-06 * +EC3.4.22.B71 (sumo-1)-ran gtpase-activating protein 1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00547 * +EC3.4.22.B71 (sumo-2/3)-ran gtpase-activating protein 1 conjugate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.4.22.B71 sumo-1 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0279 * +EC3.4.22.B71 sumo-2 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.22.B71 sumo-3 precursor homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.4.22.B79 semliki forest virus p1/p2 semliki forest virus//*//* 1.2 * +EC3.4.22.B79 semliki forest virus p1/p2 venezuelan equine encephalitis virus//*//* 0.58 * +EC3.4.22.B79 semliki forest virus p3/p4 semliki forest virus//*//* 1.27 * +EC3.4.22.B79 trx34 semliki forest virus//*//* 0.25 * +EC3.4.23.1 afpleferel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.4.23.1 afpleferel sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.4.23.1 afpleffrel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.084 * +EC3.4.23.1 afpleffrel sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC3.4.23.1 afplefirel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.079 * +EC3.4.23.1 afplefirel sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.098 * +EC3.4.23.1 benzyloxycarbonyl-his-phe-phe-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.49 * +EC3.4.23.1 benzyloxycarbonyl-his-phe-phe-o-ethyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.18 * +EC3.4.23.1 benzyloxycarbonyl-his-phe-phe-o-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.37 * +EC3.4.23.1 benzyloxycarbonyl-his-trp-phe-o-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.25 * +EC3.4.23.1 benzyloxycarbonyl-his-tyr-phe-o-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.68 * +EC3.4.23.1 casein gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.76 * +EC3.4.23.1 hemoglobin albatrossia pectoralis//*//* 0.098 * +EC3.4.23.1 hemoglobin lateolabrax japonicus//*//* 0.055 * +EC3.4.23.1 hemoglobin monopterus albus//*//* 0.12 * +EC3.4.23.1 kpaeff(no2)al sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.034 * +EC3.4.23.1 kpief(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC3.4.23.1 kpikf(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.079 * +EC3.4.23.1 kpilf(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0081 * +EC3.4.23.1 kpiqf(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.046 * +EC3.4.23.1 kppef(no2)rl sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.053 * +EC3.4.23.1 l-lys-l-pro-l-ala-l-glu-l-phe-l-phe(no2)-l-ala-l-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.062 * +EC3.4.23.1 leu-ser-phe(no2)-nle-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.019 * +EC3.4.23.1 leu-ser-phe(p-no2)-nle-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.011 * +EC3.4.23.1 lsf(no2)-nle-al sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.019 * +EC3.4.23.1 lys-pro-ala-glu-phe-phe(4no2)-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.034 * +EC3.4.23.1 lys-pro-ala-glu-phe-phe(no2)-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0433 * +EC3.4.23.1 lys-pro-ala-glu-phe-phe(p-no2)-ala-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.043 * +EC3.4.23.1 mca-kkpaeffalk-dnp shewanella amazonensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//saz 0.0054 * +EC3.4.23.1 n,n-dimethylcasein ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.05 * +EC3.4.23.1 n,n-dimethylhemoglobin ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.046 * +EC3.4.23.1 pomc (165-174) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC3.4.23.1 pomc (165-174) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC3.4.23.1 pro-thr-glu-phe-(p-nitro-phe)-arg-leu-oh trematomus bernacchii//*//* 0.025 * +EC3.4.23.1 pro-thr-glu-phe-phe(4-no2)-arg-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC3.4.23.15 4-(4-dimethylaminophenylazo)benzoic acid-ihpfhlviht-5-[(e-amino-ethyl)amino]naphthalene-1-sulfonic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.4.23.15 acetyl-asp-arg-val-tyr-ile-his-pro-phe-his-leu-leu-val-tyr-ser canis lupus familiaris//*//* 0.12 * +EC3.4.23.15 angiotensinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00029 * +EC3.4.23.15 angiotensinogen mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.017 * +EC3.4.23.15 angiotensinogen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0035 * +EC3.4.23.15 arg-glu(5-[(2-aminoethyl)amino]-naphthalene-1-sulfonic acid)-ile-his-pro-phe-his-leu-val-ile-his-thr-lys(4-(4-dimethylaminophenylazo)-benzoic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0064 * +EC3.4.23.15 benzyloxycarbonyl-pro-phe-his-leu-leu-val-tyr-ser-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.4.23.15 benzyloxycarbonyl-pro-phe-his-leu-leu-val-tyr-ser-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC3.4.23.16 2-aminobenzoyl-ti-nle-phe(no2)-er human immunodeficiency virus 1//*//* 0.00069 * +EC3.4.23.16 2-aminobenzoyl-ti-nle-phe(no2)-qr-nh2 human immunodeficiency virus 1//*//* 0.0021 * +EC3.4.23.16 2-aminobenzoyl-ti-nle-phe(no2)-qr human immunodeficiency virus 1//*//* 0.00598 * +EC3.4.23.16 abz-ala-arg-val-nle-(p-nitro)phe-phe-glu-ala-nle-nh2 human immunodeficiency virus 1//*//* 0.0097 * +EC3.4.23.16 abz-arg-val-nle-(p-nitro)phe-phe-glu-ala-nle-nh2 human immunodeficiency virus 1//*//* 0.0052 * +EC3.4.23.16 abz-lys-ala-arg-val-nle-(p-nitro)phe-phe-glu-ala-nle-nh2 human immunodeficiency virus 1//*//* 0.0227 * +EC3.4.23.16 abz-thr-ile-nle-(p-nitro)phe-gln-arg-nh2 human immunodeficiency virus 1//*//* 0.0146 * +EC3.4.23.16 abz-thr-ile-nle-phe(no2)-gln-arg human immunodeficiency virus 1//*//* 0.03 * +EC3.4.23.16 ac-hgwilaehgd-nh2 human immunodeficiency virus 1//*//* 0.012 * +EC3.4.23.16 ac-rasqnypvv-nh2 human immunodeficiency virus 1//*//* 3.9 * +EC3.4.23.16 ac-rkilfldg-nh2 human immunodeficiency virus 1//*//* 2.1 * +EC3.4.23.16 ac-sqnyfldg-nh2 human immunodeficiency virus 1//*//* 0.66 * +EC3.4.23.16 ac-sqnypvv-nh2 human immunodeficiency virus 1//*//* 5.5 * +EC3.4.23.16 ac-sqsypvv-nh2 human immunodeficiency virus 1//*//* 1.5 * +EC3.4.23.16 ac-timmqr-nh2 human immunodeficiency virus 1//*//* 1.4 * +EC3.4.23.16 aetfyvdgaa human immunodeficiency virus 1//*//* 0.032 * +EC3.4.23.16 aminobenzoyl-thr-ile-nle-p-nitro-phe-gln-arg-nh2 human immunodeficiency virus 1//*//* 0.03 * +EC3.4.23.16 arg-glu(edans)-ser-gln-asn-tyr-pro-ile-val-gln-lys(dabcyl)-arg human immunodeficiency virus 1//*//* 0.025 * +EC3.4.23.16 ctlnfpisp human immunodeficiency virus 1//*//* 0.044 * +EC3.4.23.16 dtvieems human immunodeficiency virus 1//*//* 0.81 * +EC3.4.23.16 dtvleems human immunodeficiency virus 1//*//* 1.02 * +EC3.4.23.16 dtvveems human immunodeficiency virus 1//*//* 0.95 * +EC3.4.23.16 gaetfyvdgaa human immunodeficiency virus 1//*//* 0.1 * +EC3.4.23.16 his-lys-ala-arg-val-leu-(4-nitro)phe-glu-ala-nle-ser-amide human immunodeficiency virus 1//*//* 0.0098 * +EC3.4.23.16 ipfaaaqqrk human immunodeficiency virus 1//*//* 0.28 * +EC3.4.23.16 irkilfldg human immunodeficiency virus 1//*//* 0.016 * +EC3.4.23.16 karlmaealk human immunodeficiency virus 1//*//* 0.13 * +EC3.4.23.16 karv-nle-phe(no2)-ea-nle-nh2 human immunodeficiency virus 1//*//* 0.133 * +EC3.4.23.16 karv-nle-phe(no2)-ea-nle human immunodeficiency virus 1//*//* 0.06 * +EC3.4.23.16 karvlaeams human immunodeficiency virus 1//*//* 0.021 * +EC3.4.23.16 klrpgnflqsrp human immunodeficiency virus 1//*//* 6.4 * +EC3.4.23.16 lys-ala-arg-val-nle-phe(4-no2)-glu-ala-nle-gly human immunodeficiency virus 1//*//* 0.017 * +EC3.4.23.16 lys-ala-arg-val-nle-phe(4-no2)-glu-ala-nle-nh2 human immunodeficiency virus 1//*//* 0.015 * +EC3.4.23.16 parvlaeamr human immunodeficiency virus 1//*//* 0.033 * +EC3.4.23.16 parvlfeamr human immunodeficiency virus 1//*//* 0.02 * +EC3.4.23.16 parvlieamr human immunodeficiency virus 1//*//* 0.023 * +EC3.4.23.16 parvlleamr human immunodeficiency virus 1//*//* 0.034 * +EC3.4.23.16 parvlmeamr human immunodeficiency virus 1//*//* 0.032 * +EC3.4.23.16 parvlveamr human immunodeficiency virus 1//*//* 0.1 * +EC3.4.23.16 pqitlwqrp human immunodeficiency virus 1//*//* 2.2 * +EC3.4.23.16 reydqiiievs human immunodeficiency virus 1//*//* 0.152 * +EC3.4.23.16 reydqilievs human immunodeficiency virus 1//*//* 0.215 * +EC3.4.23.16 reydqilikvs human immunodeficiency virus 1//*//* 0.135 * +EC3.4.23.16 rqgtvsfnfpqitl human immunodeficiency virus 1//*//* 0.54 * +EC3.4.23.16 tatimmqrgn human immunodeficiency virus 1//*//* 0.5 * +EC3.4.23.16 vlqnypivq human immunodeficiency virus 1//*//* 0.4 * +EC3.4.23.16 vsqlypivq human immunodeficiency virus 1//*//* 0.12 * +EC3.4.23.16 vsqnypivq human immunodeficiency virus 1//*//* 1.5 * +EC3.4.23.16 vsqvypivq human immunodeficiency virus 1//*//* 0.24 * +EC3.4.23.16 vvqnypivq human immunodeficiency virus 1//*//* 0.19 * +EC3.4.23.16 yvsqnfpivqnr human immunodeficiency virus 1//*//* 0.064 * +EC3.4.23.17 beta-lipotropin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0019 * +EC3.4.23.18 benzyloxycarbonyl-ala-ala-lys-ala-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.5 * +EC3.4.23.18 benzyloxycarbonyl-ala-lys-ala-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.4 * +EC3.4.23.18 benzyloxycarbonyl-lys-ala-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 8.2 * +EC3.4.23.18 benzyloxycarbonyl-lys-leu-ala-ala aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 4.1 * +EC3.4.23.18 chymotrypsinogen aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.18 * +EC3.4.23.18 hemoglobin aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.55 * +EC3.4.23.18 trypsinogen aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.1 * +EC3.4.23.18 trypsinogen aspergillus phoenicis//*//* 0.0125 * +EC3.4.23.19 rgffhtpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.016 * +EC3.4.23.19 rgfftpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.07 * +EC3.4.23.19 rgffytpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.33 * +EC3.4.23.19 rgfmtpra aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.016 * +EC3.4.23.2 haemoglobin boreogadus saida//*//* 1.33 * +EC3.4.23.2 hemoglobin albatrossia pectoralis//*//* 152.0 * +EC3.4.23.2 kpaefarl canis lupus familiaris//*//* 0.95 * +EC3.4.23.2 kpagfarl canis lupus familiaris//*//* 4.0 * +EC3.4.23.20 ac-ala-ala-ala-lys-(4-nitro)-phe-ala-ala amide penicillium janthinellum//*//* 0.075 * +EC3.4.23.20 ac-ala-ala-ala-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 0.46 * +EC3.4.23.20 ac-ala-ala-lys-(4-nitro)phe amide penicillium janthinellum//*//* 0.25 * +EC3.4.23.20 ac-ala-ala-lys-(4-nitro)phe-ala-ala amide penicillium janthinellum//*//* 0.078 * +EC3.4.23.20 ac-ala-ala-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 0.32 * +EC3.4.23.20 ac-ala-ala-lys-(no2)phe-ala-amide penicillium janthinellum//*//* 0.35 * +EC3.4.23.20 ac-ala-ala-lys-(no2)phe-amide penicillium janthinellum//*//* 0.5 * +EC3.4.23.20 ac-ala-lys-(4-nitro)phe amide penicillium janthinellum//*//* 0.41 * +EC3.4.23.20 ac-ala-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 0.41 * +EC3.4.23.20 ac-ala-lys-(no2)phe-ala-amide penicillium janthinellum//*//* 0.5 * +EC3.4.23.20 ac-ala-lys-(no2)phe-amide penicillium janthinellum//*//* 0.4 * +EC3.4.23.20 ac-gly-lys-(4-nitro)phe-ala-ala amide penicillium janthinellum//*//* 0.07 * +EC3.4.23.20 ac-lys 4-nitrophenyl amide penicillium janthinellum//*//* 0.22 * +EC3.4.23.20 ac-lys-(4-nitro)phe amide penicillium janthinellum//*//* 0.6 * +EC3.4.23.20 ac-lys-(no2)phe-ala-ala-amide penicillium janthinellum//*//* 0.21 * +EC3.4.23.20 ac-lys-(no2)phe-ala-amide penicillium janthinellum//*//* 0.59 * +EC3.4.23.20 ac-lys-(no2)phe-amide penicillium janthinellum//*//* 0.4 * +EC3.4.23.20 ac-val-lys-(4-nitro)phe-ala amide penicillium janthinellum//*//* 0.017 * +EC3.4.23.20 leu-ser-(4-nitro)phe-nle-ala-leu methyl ester penicillium janthinellum//*//* 0.004 * +EC3.4.23.20 pro-thr-glu-phe-(4-nitro)phe-arg-leu penicillium janthinellum//*//* 0.005 * +EC3.4.23.20 trypsinogen penicillium janthinellum//*//* 0.0076 * +EC3.4.23.21 ac-ala-ala-lys-(4-nitro)phe-ala-ala rhizopus sp.//*//* 0.23 * +EC3.4.23.21 kaief p-nitrophenylalanine-rl rhizopus sp.//*//* 0.006 * +EC3.4.23.21 klief p-nitrophenylalanine-rl rhizopus sp.//*//* 0.007 * +EC3.4.23.21 kpaef p-nitrophenylalanine-rl rhizopus sp.//*//* 0.008 * +EC3.4.23.21 kpalf p-nitrophenylalanine-rl rhizopus sp.//*//* 0.004 * +EC3.4.23.21 kpdef p-nitrophenylalanine-rl rhizopus sp.//*//* 0.01 * +EC3.4.23.21 kpiaf p-nitrophenylalanine-rl rhizopus sp.//*//* 0.006 * +EC3.4.23.21 kpidf p-nitrophenylalanine-rl rhizopus sp.//*//* 0.003 * +EC3.4.23.21 kpief p-nitrophenylalanine-rl rhizopus sp.//*//* 0.002 * +EC3.4.23.21 kpilf p-nitrophenylalanine-rl rhizopus sp.//*//* 0.006 * +EC3.4.23.21 kpisf p-nitrophenylalanine-rl rhizopus sp.//*//* 0.003 * +EC3.4.23.21 kplef p-nitrophenylalanine-rl rhizopus sp.//*//* 0.004 * +EC3.4.23.21 kpref p-nitrophenylalanine-rl rhizopus sp.//*//* 0.008 * +EC3.4.23.21 kpsef p-nitrophenylalanine-rl rhizopus sp.//*//* 0.007 * +EC3.4.23.21 kpvsy(4-no2-f)rl rhizopus microsporus var. chinensis//*//* 0.0034 * +EC3.4.23.21 kpvsy(no2)frl rhizopus sp.//*//* 0.0034 * +EC3.4.23.21 ksief p-nitrophenylalanine-rl rhizopus sp.//*//* 0.009 * +EC3.4.23.22 abz-thr-ile-nle-4-nitro-phe-gln-arg-nh2 cryphonectria parasitica//*//* 0.0016 * +EC3.4.23.23 pro-thr-glu-phe-(4-nitro)phe-arg-leu rhizomucor miehei//*//* 0.06 * +EC3.4.23.24 4-(4-dimethylaminophenylazo)benzoyl-gamma-aminobutyryl-ile-his-pro-phe-his-leu-val-ile-his-thr-[5-(2-aminoethyl)-amino]naphthalene-1-sulfonic acid candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 4.3 * +EC3.4.23.24 4-(4-dimethylaminophenylazo)benzyl-glu-his-val-lys-leu-val-glu-5-(2-aminoethylamino)-1-naphthalenesulfonic acid candida parapsilosis//*//* 0.00113 * +EC3.4.23.24 ala-thr-his-gln-val-tyr-4-nitrophenylalanine-val-arg-lys-ala candida parapsilosis//*//* 0.0122 * +EC3.4.23.24 albumin candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.07 * +EC3.4.23.24 lys-pro-ala-arg-phe-nph-arg-leu candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.008 * +EC3.4.23.24 lys-pro-ala-glu-phe-4-nitrophenylalanine-ala-leu candida parapsilosis//*//* 0.0092 * +EC3.4.23.24 lys-pro-leu-glu-met-4-nitrophenylalanine-ala-leu candida parapsilosis//*//* 0.0129 * +EC3.4.23.25 (7-methoxycoumarin-4-yl)acetyl-a-p-a-k-f-f-r-l-k(2,4-dinitrophenyl)-nh2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00618 * +EC3.4.23.25 ala-leu-ser-ala-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC3.4.23.25 ala-pro-ala-lys-phe-(no2)-phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC3.4.23.25 ala-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC3.4.23.25 arg-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC3.4.23.25 asp-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.026 * +EC3.4.23.25 gly-ala-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.019 * +EC3.4.23.25 hemoglobin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC3.4.23.25 leu-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC3.4.23.25 lys-ala-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.037 * +EC3.4.23.25 lys-arg-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.094 * +EC3.4.23.25 lys-asp-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.033 * +EC3.4.23.25 lys-leu-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.031 * +EC3.4.23.25 lys-pro-ala-ala-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC3.4.23.25 lys-pro-ala-arg-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.097 * +EC3.4.23.25 lys-pro-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC3.4.23.25 lys-pro-ala-leu-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-ala -leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.042 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-ala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.095 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.126 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-asp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.024 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-arg-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-asp-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.068 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-leu-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.017 * +EC3.4.23.25 lys-pro-ala-lys-phe-4-(no2)phe-ser-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.073 * +EC3.4.23.25 lys-pro-ala-ser-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC3.4.23.25 lys-pro-arg-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.028 * +EC3.4.23.25 lys-pro-asp-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.028 * +EC3.4.23.25 lys-pro-ile-glu-phe-l-nitrophenylalanine-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC3.4.23.25 lys-pro-leu-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC3.4.23.25 lys-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.037 * +EC3.4.23.25 ser-ser-ala-asp-phe-4-(no2)phe-arg-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.015 * +EC3.4.23.25 suc-apakffrl-4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00607 * +EC3.4.23.25 suc-lfaevayd-4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0181 * +EC3.4.23.25 suc-rffhllvy-4-methylcoumarin 7-amide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0393 * +EC3.4.23.3 acetyl-ala-phe-leu-val-his-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.4.23.3 acetyl-ala-phe-leu-val-his-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC3.4.23.3 acetyl-phe-leu-val-his methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.84 * +EC3.4.23.3 acetyl-phe-leu-val-his-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.76 * +EC3.4.23.3 acetyl-phe-leu-val-his-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.84 * +EC3.4.23.3 acetyl-tyr-leu-val-his methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC3.4.23.3 acetyl-tyr-leu-val-his-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.82 * +EC3.4.23.3 acetyl-tyr-leu-val-his-oh sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.82 * +EC3.4.23.3 pro-thr-glu-phe-(no2)phe-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC3.4.23.3 pro-thr-glu-phe-(no2)phe-arg-leu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.098 * +EC3.4.23.31 benzyloxycarbonyl-ala-leu-ala-ala scytalidium lignicola//*//* 1.1 * +EC3.4.23.31 benzyloxycarbonyl-ala-lys-ala-ala-ala scytalidium lignicola//*//* 3.1 * +EC3.4.23.31 benzyloxycarbonyl-ala-phe-gly-ala scytalidium lignicola//*//* 1.5 * +EC3.4.23.31 benzyloxycarbonyl-ala-phe-leu-ala scytalidium lignicola//*//* 0.6 * +EC3.4.23.31 benzyloxycarbonyl-gly-phe-leu-ala scytalidium lignicola//*//* 1.3 * +EC3.4.23.31 benzyloxycarbonyl-lys-ala-ala-ala scytalidium lignicola//*//* 2.5 * +EC3.4.23.31 benzyloxycarbonyl-lys-leu-ala-ala scytalidium lignicola//*//* 2.1 * +EC3.4.23.31 benzyloxycarbonyl-phe-glu-ala-ala scytalidium lignicola//*//* 3.7 * +EC3.4.23.31 benzyloxycarbonyl-phe-lys-ala-ala scytalidium lignicola//*//* 0.8 * +EC3.4.23.31 benzyloxycarbonyl-phe-tyr-ala-ala scytalidium lignicola//*//* 1.6 * +EC3.4.23.31 succinyl-phe-arg-ala-phe 4-nitrophenyl ester scytalidium lignicola//*//* 0.5 * +EC3.4.23.32 2-aminobenzoyl-klapskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0022 * +EC3.4.23.32 2-aminobenzoyl-klasskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0023 * +EC3.4.23.32 2-aminobenzoyl-kldpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0039 * +EC3.4.23.32 2-aminobenzoyl-kldsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0046 * +EC3.4.23.32 2-aminobenzoyl-klespskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.004 * +EC3.4.23.32 2-aminobenzoyl-klesskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0008 * +EC3.4.23.32 2-aminobenzoyl-klfpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0002 * +EC3.4.23.32 2-aminobenzoyl-klfsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0012 * +EC3.4.23.32 2-aminobenzoyl-klgpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.002 * +EC3.4.23.32 2-aminobenzoyl-klgsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0046 * +EC3.4.23.32 2-aminobenzoyl-klhpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0001 * +EC3.4.23.32 2-aminobenzoyl-klhsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0004 * +EC3.4.23.32 2-aminobenzoyl-klkpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.00055 * +EC3.4.23.32 2-aminobenzoyl-klksskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0005 * +EC3.4.23.32 2-aminobenzoyl-kllsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0016 * +EC3.4.23.32 2-aminobenzoyl-klmsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0008 * +EC3.4.23.32 2-aminobenzoyl-klnpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.00026 * +EC3.4.23.32 2-aminobenzoyl-klnsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.003 * +EC3.4.23.32 2-aminobenzoyl-klpsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0004 * +EC3.4.23.32 2-aminobenzoyl-klqpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0009 * +EC3.4.23.32 2-aminobenzoyl-klqsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0008 * +EC3.4.23.32 2-aminobenzoyl-klrpskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0003 * +EC3.4.23.32 2-aminobenzoyl-klrsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0008 * +EC3.4.23.32 2-aminobenzoyl-klspskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0014 * +EC3.4.23.32 2-aminobenzoyl-klssskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0004 * +EC3.4.23.32 2-aminobenzoyl-klvsskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0017 * +EC3.4.23.32 2-aminobenzoyl-klypskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.00025 * +EC3.4.23.32 2-aminobenzoyl-klysskq-[n-(2,4-dinitrophenyl)-ethylenediamine] scytalidium lignicola//*//* 0.0011 * +EC3.4.23.32 d-2,3-diaminopropionic acid(n-methylanthraniloyl)-gfkffalrk(2,4-dinitrophenol) scytalidium lignicola//*//* 6.5e-05 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)-acetyl-gly-lys-pro-ile-ile-phe-phe-arg-leu-lys(2,4-dinitrophenyl)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.27 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-lys-pro-ile-ile-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0032 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-lys-pro-ile-leu-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-ser-pro-ala-phe-leu-ala-lys(dnp)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-ser-pro-ala-phe-leu-ala-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00153 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-gly-ser-ser-ala-phe-leu-ala-phe-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00243 * +EC3.4.23.34 (7-methoxycoumarin-4-yl)acetyl-l-ala-gly-l-phe-l-ser-l-leu-l-pro-l-ala-l-lys(dnp)-d-arg-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.94 * +EC3.4.23.34 [his10]-substance p cavia porcellus//*//* 0.011 * +EC3.4.23.34 [tyr8]-substance p cavia porcellus//*//* 0.0071 * +EC3.4.23.34 acetyl-substance p(2-11) cavia porcellus//*//* 0.083 * +EC3.4.23.34 acetyl-substance p(3-11) cavia porcellus//*//* 0.4 * +EC3.4.23.34 acetyl-substance p cavia porcellus//*//* 0.0093 * +EC3.4.23.34 acidic fibroblast growth factor cavia porcellus//*//* 0.143 * +EC3.4.23.34 big et-1 cavia porcellus//*//* 0.009 * +EC3.4.23.34 big et-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.23.34 big et-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.4.23.34 big et-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.23.34 eledoisin cavia porcellus//*//* 0.0059 * +EC3.4.23.34 lys-pro-ala-glu-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 0.16 * +EC3.4.23.34 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 0.07 * +EC3.4.23.34 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.4.23.34 mocac-gly-lys-pro-ile-leu-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0068 * +EC3.4.23.34 neurokinin a cavia porcellus//*//* 0.025 * +EC3.4.23.34 pro-pro-thr-ile-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 0.03 * +EC3.4.23.34 pro-pro-thr-ile-phe-(4-nitro)phe-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.4.23.34 pro-thr-glu-phe-(4-nitro)phe-arg-leu cavia porcellus//*//* 0.145 * +EC3.4.23.34 renin cavia porcellus//*//* 0.0034 * +EC3.4.23.34 substance p(1-9) cavia porcellus//*//* 0.5 * +EC3.4.23.34 substance p(2-11) cavia porcellus//*//* 0.042 * +EC3.4.23.34 substance p(3-11) cavia porcellus//*//* 0.66 * +EC3.4.23.34 substance p(4-11) cavia porcellus//*//* 0.024 * +EC3.4.23.34 substance p cavia porcellus//*//* 0.0023 * +EC3.4.23.35 alpha factor saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC3.4.23.36 prolipoprotein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.4.23.38 4-[[4'-(dimethylamino)phenyl]azo]-benzoyl-glu-arg-met-phe-leu-ser-phe-pro-(gamma-aminobutyryl)-5-[(2'-aminoethyl)-amino]naphthalenesulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.000917 * +EC3.4.23.38 leu-glu-arg-ile-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.008 * +EC3.4.23.38 leu-glu-arg-val-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.03 * +EC3.4.23.38 lys-glu-phe-asn-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.015 * +EC3.4.23.38 lys-glu-phe-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.01 * +EC3.4.23.38 lys-glu-phe-val-phe-phe(no2)-arg-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC3.4.23.38 lys-pro-ile-lys-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC3.4.23.39 4-(4-dimethylaminophenylazo)benzoyl-ch2-ch2-co-co-alermflsfp-diaminopimelate-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00105 * +EC3.4.23.39 4-(4-dimethylaminophenylazo)benzoyl-ch2-ch2-co-ermflsfp-diaminopimelate-5-[(2-aminoethyl)amino]naphthalene-1-sulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00305 * +EC3.4.23.39 4-[[4'-(dimethylamino)phenyl]azo]-benzoyl-glu-arg-met-phe-leu-ser-phe-pro-(gamma-aminobutyryl)-5-[(2'-aminoethyl)-amino]naphthalenesulfonic acid plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.000489 * +EC3.4.23.39 abz-thr-ile-nle-(4-nitro)phe-gln-arg-nh2 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.063 * +EC3.4.23.39 ala-leu-glu-arg-thr-phe-phe(no2)-ser-phe-pro-thr plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.06 * +EC3.4.23.39 edans-co-ch2-ch2-co-ala-leu-glu-arg-met-phe-leu-ser-phe-pro-dap-(dabcyl)-oh plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00017 * +EC3.4.23.39 leu-glu-arg-ile-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC3.4.23.39 leu-glu-arg-val-phe-phe(no2)-ser-phe plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.02 * +EC3.4.23.39 leu-ser-phe(no2)-nle-ala-leu-ome plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0274 * +EC3.4.23.39 lys-ala-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.058 * +EC3.4.23.39 lys-asp-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.073 * +EC3.4.23.39 lys-glu-leu-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.008 * +EC3.4.23.39 lys-glu-phe-ile-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.025 * +EC3.4.23.39 lys-glu-phe-val-phe-phe(no2)-ala-leu-lys plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.02 * +EC3.4.23.39 lys-lys-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.117 * +EC3.4.23.39 lys-phe-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.021 * +EC3.4.23.39 lys-pro-ala-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.037 * +EC3.4.23.39 lys-pro-asp-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.221 * +EC3.4.23.39 lys-pro-ile-ala-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC3.4.23.39 lys-pro-ile-asp-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.024 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-ala-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.013 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-arg plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.171 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-asp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.101 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-ile plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.013 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.023 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-ser plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.067 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-arg-val plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.017 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-glu-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.081 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-lys-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.056 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-ser-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.052 * +EC3.4.23.39 lys-pro-ile-glu-phe-phe(no2)-val-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.016 * +EC3.4.23.39 lys-pro-ile-leu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.008 * +EC3.4.23.39 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.022 * +EC3.4.23.39 lys-pro-ile-ser-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.017 * +EC3.4.23.39 lys-pro-ile-val-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC3.4.23.39 lys-pro-lys-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.25 * +EC3.4.23.39 lys-pro-phe-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.024 * +EC3.4.23.39 lys-pro-ser-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.092 * +EC3.4.23.39 lys-ser-ile-glu-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.11 * +EC3.4.23.4 abz-a-a-f-f-a-a-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC3.4.23.4 abz-a-a-f-f-a-a-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC3.4.23.4 abz-a-a-f-f-a-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0022 * +EC3.4.23.4 abz-a-a-f-f-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC3.4.23.4 abz-a-a-f-f-p-nitroanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0018 * +EC3.4.23.4 abz-a-f-f-a-a-n-(2,4-dinitrophenyl)-ethylenediamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0018 * +EC3.4.23.4 afpleferel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.3 * +EC3.4.23.4 afpleffrel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.041 * +EC3.4.23.4 afplefirel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.079 * +EC3.4.23.4 afplefkrel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC3.4.23.4 kappa-casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.066 * +EC3.4.23.4 kappa-casein bubalus bubalis//*//* 0.01223 * +EC3.4.23.4 kappa-casein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC3.4.23.4 leu-ser-phe-met-ala-ile-o-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.85 * +EC3.4.23.4 leu-ser-phe-met-ala-o-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.9 * +EC3.4.23.4 nt/nmn 142-151 callithrix jacchus//eukaryotes;animals;vertebrates;mammals//cjc 0.059 * +EC3.4.23.4 pom c165-174 callithrix jacchus//eukaryotes;animals;vertebrates;mammals//cjc 0.304 * +EC3.4.23.4 pro-his-leu-ser-phe-met-ala-ile-o-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.34 * +EC3.4.23.4 ser-phe-met-ala-ile-o-methyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.5 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of bovine kappa casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.165 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of bovine kappa casein camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.077 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of camel kappa casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.134 * +EC3.4.23.4 undecapeptide analogue to chymosin sensitive region of camel kappa casein camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.056 * +EC3.4.23.40 l-lys-l-pro-l-ala-l-glu-l-phe-l-phe(no2)-l-ala-l-leu cynara cardunculus//*//* 0.3 * +EC3.4.23.40 l-pro-l-thr-l-glu-l-phe(p-no2)-l-phe-l-arg-l-leu cynara cardunculus var. scolymus//*//* 0.07 * +EC3.4.23.40 leu-ser-phe(no2)-ahx-ala-leu-ome cynara cardunculus//*//* 0.081 * +EC3.4.23.40 lys-pro-ala-glu-phe-phe-phe(no2)-ala-leu cynara cardunculus//*//* 0.108 * +EC3.4.23.40 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu triticum aestivum//*//* 0.375 * +EC3.4.23.41 amidorphin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.044 * +EC3.4.23.41 cholecystokinin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1153 * +EC3.4.23.41 dynorphin a saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1361 * +EC3.4.23.41 dynorphin b saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.079 * +EC3.4.23.41 human adrenocorticotropic hormone 1-39 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0177 * +EC3.4.23.41 proinsulin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0185 * +EC3.4.23.42 lys-pro-ala-glu-phe-(4-nitro)phe-ala-leu sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.053 * +EC3.4.23.43 prepilin type iv pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.65 * +EC3.4.23.45 gamma-secretase cleavage site of notch homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.23.46 ((7-methoxycoumarin-4-yl)acetyl)-ser-glu-val-asn-leu-asp-ala-glu-phe-lys(2,4-dinitrophenyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC3.4.23.46 7-methoxycoumarin-4-yl-sevnldaefk-2,4-dinitrophenyl-rr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.4.23.46 arg-glu(5-[(2-aminoethyl)amino]-naphthalene-1-sulfonic acid)-glu-val-asn-leu-asp-ala-glu-phe-lys(4-(4-dimethylaminophenylazo)benzoic acid)-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0054 * +EC3.4.23.46 eeisevnldaefrg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.71 * +EC3.4.23.46 m-2420 peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00191 * +EC3.4.23.46 re(edans)evnldaefk(dabcyl)r-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC3.4.23.46 sevnldaefr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.07 * +EC3.4.23.47 ac-tyr-arg-ala-arg-val-phe nph-val-arg-ala-ala-lys human immunodeficiency virus 2//*//* 0.36 * +EC3.4.23.47 ctlnfpisp human immunodeficiency virus 2//*//* 0.06 * +EC3.4.23.47 dkelypltsl human immunodeficiency virus 2//*//* 0.42 * +EC3.4.23.47 ipfaa aqqrk human immunodeficiency virus 2//*//* 0.07 * +EC3.4.23.47 ipfaaaqqrk human immunodeficiency virus 2//*//* 0.28 * +EC3.4.23.47 irkilfldg human immunodeficiency virus 2//*//* 0.005 * +EC3.4.23.47 karlm aealk human immunodeficiency virus 2//*//* 0.08 * +EC3.4.23.47 karlmaealk human immunodeficiency virus 2//*//* 0.13 * +EC3.4.23.47 karvl-aeams human immunodeficiency virus 2//*//* 0.03 * +EC3.4.23.47 l-threonyl-l-alanyl-l-threonyl-l-isoleucyl-l-methionyl-l-methionyl-l-glutaminyl-l-arginylglycyl-l-asparagine human immunodeficiency virus 2//*//* 0.08 * +EC3.4.23.47 lys-ala-arg-ile-nle-nph-glu-ala-nle-nh2 human immunodeficiency virus 2//*//* 0.025 * +EC3.4.23.47 lys-ala-arg-val-nle-(4-nitrophenylalanine)-glu-ala-nle human immunodeficiency virus 2//*//* 0.072 * +EC3.4.23.47 lys-ala-arg-val-nle-p-nitrophenylalanine-glu-ala-nle-nh2 human immunodeficiency virus 2//*//* 0.05 * +EC3.4.23.47 mslnl pvakv human immunodeficiency virus 2//*//* 0.02 * +EC3.4.23.47 nh2-atlnfpspw-cooh human immunodeficiency virus 2//*//* 0.74 * +EC3.4.23.47 rglaapqfsl human immunodeficiency virus 2//*//* 0.07 * +EC3.4.23.47 rpqnflqsrp human immunodeficiency virus 2//*//* 0.3 * +EC3.4.23.47 vlqnypivq human immunodeficiency virus 2//*//* 0.099 * +EC3.4.23.47 vsqlypivq human immunodeficiency virus 2//*//* 0.12 * +EC3.4.23.47 vsqnypivq human immunodeficiency virus 2//*//* 0.172 * +EC3.4.23.47 vsqnyplvq human immunodeficiency virus 2//*//* 0.223 * +EC3.4.23.47 vsqvypivq human immunodeficiency virus 2//*//* 0.24 * +EC3.4.23.47 vvqnypivq human immunodeficiency virus 2//*//* 0.19 * +EC3.4.23.47 yvsqnfpivqnr human immunodeficiency virus 2//*//* 0.16 * +EC3.4.23.48 plasminogen yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.000145 * +EC3.4.23.49 2-aminobenzoyl-akka-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC3.4.23.49 2-aminobenzoyl-akra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0083 * +EC3.4.23.49 2-aminobenzoyl-arka-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0104 * +EC3.4.23.49 2-aminobenzoyl-arra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC3.4.23.49 2-aminobenzoyl-irra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0036 * +EC3.4.23.49 2-aminobenzoyl-rra-3-[(2,4-dinitrophenyl)amino]-l-alanyl-gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC3.4.23.49 elelykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC3.4.23.49 elrlykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC3.4.23.49 elrlyrnhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.4.23.49 iaa-arg-arg-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC3.4.23.49 o-aminobenzoyl-ala-arg-arg-ala-3-nitrotyrosine-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0003 * +EC3.4.23.49 plasminogen escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.8e-05 * +EC3.4.23.49 rrelrlyrrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0067 * +EC3.4.23.49 rrlelykrhhg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0065 * +EC3.4.23.49 weeggrrigrggk escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC3.4.23.49 wlaakkgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.216 * +EC3.4.23.49 wlaarrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.059 * +EC3.4.23.49 wlaarrgrg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.4.23.49 wlaasrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC3.4.23.49 wlarrrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.4.23.49 wlatrrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.4.23.49 wlrarrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC3.4.23.49 wlsarrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.057 * +EC3.4.23.49 wlserrgag escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC3.4.23.5 (7-methoxycoumarin-4-yl)acetyl-gly-lys-pro-ile-ile-phe-phe-arg-leu-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0037 * +EC3.4.23.5 (7-methoxycoumarin-4-yl)acetyl-gly-ser-pro-ala-phe-leu-ala-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC3.4.23.5 (7-methoxycoumarin-4-yl)acetyl-gly-ser-ser-ala-phe-leu-ala-phe-lys(dnp)-d-arg-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00212 * +EC3.4.23.5 2-aminobenzoyl-aakffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC3.4.23.5 2-aminobenzoyl-aekffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC3.4.23.5 2-aminobenzoyl-aiaffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC3.4.23.5 2-aminobenzoyl-aieffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.23.5 2-aminobenzoyl-aifffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC3.4.23.5 2-aminobenzoyl-aiiffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC3.4.23.5 2-aminobenzoyl-aikffarq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC3.4.23.5 2-aminobenzoyl-aikfferq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC3.4.23.5 2-aminobenzoyl-aikffirq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC3.4.23.5 2-aminobenzoyl-aikffkrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0003 * +EC3.4.23.5 2-aminobenzoyl-aikfflrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.4.23.5 2-aminobenzoyl-aikffnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9e-05 * +EC3.4.23.5 2-aminobenzoyl-aikfforq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9e-05 * +EC3.4.23.5 2-aminobenzoyl-aikffrrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00034 * +EC3.4.23.5 2-aminobenzoyl-aikffsa-(2,4-dinitrophenyl)-d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC3.4.23.5 2-aminobenzoyl-aikffsaq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00046 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnr-(2,4-dinitrophenyl)-d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnrhilrfnr-(2,4-dinitrophenyl)-d homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8e-05 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnrhilrfnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.23.5 2-aminobenzoyl-aikffsaqtnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.23.5 2-aminobenzoyl-aikffseq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00066 * +EC3.4.23.5 2-aminobenzoyl-aikffsiq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC3.4.23.5 2-aminobenzoyl-aikffskq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00055 * +EC3.4.23.5 2-aminobenzoyl-aikffslq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00011 * +EC3.4.23.5 2-aminobenzoyl-aikffsnq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.23.5 2-aminobenzoyl-aikffsoq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00066 * +EC3.4.23.5 2-aminobenzoyl-aikffspq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00057 * +EC3.4.23.5 2-aminobenzoyl-aikffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.23.5 2-aminobenzoyl-aikffssq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00021 * +EC3.4.23.5 2-aminobenzoyl-aikffstq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00043 * +EC3.4.23.5 2-aminobenzoyl-aikffsvq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.4.23.5 2-aminobenzoyl-aikfftrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00023 * +EC3.4.23.5 2-aminobenzoyl-aikffvrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC3.4.23.5 2-aminobenzoyl-aikfmsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC3.4.23.5 2-aminobenzoyl-aiklfsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00041 * +EC3.4.23.5 2-aminobenzoyl-aikllsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00028 * +EC3.4.23.5 2-aminobenzoyl-aiklmsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.23.5 2-aminobenzoyl-aikmflrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC3.4.23.5 2-aminobenzoyl-aikmfsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.23.5 2-aminobenzoyl-aikmmsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00076 * +EC3.4.23.5 2-aminobenzoyl-aikysrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9e-05 * +EC3.4.23.5 2-aminobenzoyl-ailffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00019 * +EC3.4.23.5 2-aminobenzoyl-aimffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00037 * +EC3.4.23.5 2-aminobenzoyl-ainffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00081 * +EC3.4.23.5 2-aminobenzoyl-aipffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00085 * +EC3.4.23.5 2-aminobenzoyl-aiqffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00043 * +EC3.4.23.5 2-aminobenzoyl-aisffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00032 * +EC3.4.23.5 2-aminobenzoyl-aitffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00086 * +EC3.4.23.5 2-aminobenzoyl-aivffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC3.4.23.5 2-aminobenzoyl-akkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC3.4.23.5 2-aminobenzoyl-alkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00054 * +EC3.4.23.5 2-aminobenzoyl-ankffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00076 * +EC3.4.23.5 2-aminobenzoyl-apkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00052 * +EC3.4.23.5 2-aminobenzoyl-aqkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00082 * +EC3.4.23.5 2-aminobenzoyl-askffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00096 * +EC3.4.23.5 2-aminobenzoyl-atkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.23.5 2-aminobenzoyl-avkffsrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00039 * +EC3.4.23.5 2-aminobenzoyl-kitllsalvetrivrfnrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC3.4.23.5 2-aminobenzoyl-kitllsalvetrq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00074 * +EC3.4.23.5 2-aminobenzoyl-kitllsaq-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00051 * +EC3.4.23.5 7-methoxycoumarin-4-yl-gkpilffrlk(2,4-dinitrophenyl)-d-arg todarodes pacificus//*//* 3.2 * +EC3.4.23.5 7-methoxycoumarin-4-yl-sevnldaefrk(2,4-dinitrophenyl)rr todarodes pacificus//*//* 1.7 * +EC3.4.23.5 [aminooxy-acetyl-k]llvvff[d-peg2] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0741 * +EC3.4.23.5 eeisevnldaefrg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.23.5 eeisevnldaefrg sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.62 * +EC3.4.23.5 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.23.5 glu-glu-his-phe-phe-ala-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC3.4.23.5 glu-glu-his-phe-phe-ala-leu-methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.23.5 hemoglobin lamellidens corrianus//*//* 1.5 * +EC3.4.23.5 hemoglobin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0263 * +EC3.4.23.5 hemoglobin struthio camelus//*//* 0.03154 * +EC3.4.23.5 hemoglobin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0064 * +EC3.4.23.5 llvvff homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1933 * +EC3.4.23.5 llvvypwtqrff homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.394 * +EC3.4.23.5 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.23.5 lys-pro-ile-glu-phe-(4-nitro)phe-arg-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.23.5 phe-ala-ala-(4-nitro)phe-phe-val-leu-4-hydroxymethylpyridine ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0071 * +EC3.4.23.5 phe-gly-gly-(4-nitro)phe-phe-val-leu-methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.033 * +EC3.4.23.5 pro-pro-thr-ile-phe-(4-nitro)phe-arg-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC3.4.23.5 r[k-2,4-dinitrophenyl]lrfflipk[g-7-amido-4-methylcoumarin] homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0211 * +EC3.4.23.5 sevnldaefr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.67 * +EC3.4.23.5 sevnldaefr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.45 * +EC3.4.23.50 2-aminobenzoyl-ala-thr-his-gln-val-tyr-phe(no2)-val-arg-lys-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.23.50 lys-ala-arg-val-tyr-phe(no2)-glu-ala-nle-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.23.B1 k(dabsyl)-tsllmaapq-lucifer yellow (ds1) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC3.4.23.B1 k(dabsyl)-tsvlmaapq-lucifer yellow (ds3) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.23.B10 gavslamt rous sarcoma virus//*//* 0.064 * +EC3.4.23.B10 passlamt rous sarcoma virus//*//* 2.4 * +EC3.4.23.B10 pavslamt rous sarcoma virus//*//* 0.056 * +EC3.4.23.B10 pavylamt rous sarcoma virus//*//* 24.5 * +EC3.4.23.B10 pfvslamt rous sarcoma virus//*//* 0.0054 * +EC3.4.23.B10 ppavslamtmrr rous sarcoma virus//*//* 0.0416 * +EC3.4.23.B10 prkilfldgrr rous sarcoma virus//*//* 0.098 * +EC3.4.23.B10 tscyhcgt rous sarcoma virus//*//* 427.0 * +EC3.4.23.B11 gsyvvncntkk human spumaretrovirus//*//* 0.91 * +EC3.4.23.B11 ihliaavkav human spumaretrovirus//*//* 1.0 * +EC3.4.23.B11 sravntvtos human spumaretrovirus//*//* 0.56 * +EC3.4.23.B11 sravntvtqs human spumaretrovirus//*//* 0.41 * +EC3.4.23.B11 sravytitpe human spumaretrovirus//*//* 0.15 * +EC3.4.23.B11 vptinnvhts human spumaretrovirus//*//* 0.03 * +EC3.4.23.B13 ala-thr-his-arg-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.024 * +EC3.4.23.B13 ala-thr-his-asn-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.017 * +EC3.4.23.B13 ala-thr-his-asp-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.025 * +EC3.4.23.B13 ala-thr-his-gln-ala-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.009 * +EC3.4.23.B13 ala-thr-his-gln-ile-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.042 * +EC3.4.23.B13 ala-thr-his-gln-leu-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.12 * +EC3.4.23.B13 ala-thr-his-gln-val-leu-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.052 * +EC3.4.23.B13 ala-thr-his-gln-val-phe-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.031 * +EC3.4.23.B13 ala-thr-his-gln-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.075 * +EC3.4.23.B13 ala-thr-his-glu-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.006 * +EC3.4.23.B13 ala-thr-his-tyr-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.026 * +EC3.4.23.B13 ala-thr-his-val-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.014 * +EC3.4.23.B13 ala-thr-pro-cys-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.008 * +EC3.4.23.B13 ala-thr-pro-gln-val-tyr-phe(no2)-val-arg-lys-ala avian myeloblastosis-associated virus//*//* 0.009 * +EC3.4.23.B14 kefaff(no2)alk plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.035 * +EC3.4.23.B14 kefnff(no2)alk plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.02 * +EC3.4.23.B14 kefvff(no2)alk plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.011 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0205 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium malariae//*//* 0.05 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium ovale//*//* 0.017 * +EC3.4.23.B14 kpaeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.018 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0424 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium malariae//*//* 0.063 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium ovale//*//* 0.038 * +EC3.4.23.B14 kpdeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.029 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0138 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium malariae//*//* 0.014 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium ovale//*//* 0.011 * +EC3.4.23.B14 kpfeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.009 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0092 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium malariae//*//* 0.01 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium ovale//*//* 0.012 * +EC3.4.23.B14 kpiaff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.005 * +EC3.4.23.B14 kpidff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0172 * +EC3.4.23.B14 kpidff(no2)rl plasmodium malariae//*//* 0.023 * +EC3.4.23.B14 kpidff(no2)rl plasmodium ovale//*//* 0.01 * +EC3.4.23.B14 kpidff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.011 * +EC3.4.23.B14 kpieff(no2)al plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0116 * +EC3.4.23.B14 kpieff(no2)al plasmodium malariae//*//* 0.024 * +EC3.4.23.B14 kpieff(no2)al plasmodium ovale//*//* 0.016 * +EC3.4.23.B14 kpieff(no2)al plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.028 * +EC3.4.23.B14 kpieff(no2)el plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0518 * +EC3.4.23.B14 kpieff(no2)el plasmodium malariae//*//* 0.024 * +EC3.4.23.B14 kpieff(no2)el plasmodium ovale//*//* 0.008 * +EC3.4.23.B14 kpieff(no2)el plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.039 * +EC3.4.23.B14 kpieff(no2)kl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0205 * +EC3.4.23.B14 kpieff(no2)kl plasmodium malariae//*//* 0.025 * +EC3.4.23.B14 kpieff(no2)kl plasmodium ovale//*//* 0.021 * +EC3.4.23.B14 kpieff(no2)kl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.017 * +EC3.4.23.B14 kpieff(no2)rd plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.033 * +EC3.4.23.B14 kpieff(no2)rd plasmodium malariae//*//* 0.044 * +EC3.4.23.B14 kpieff(no2)rd plasmodium ovale//*//* 0.0146 * +EC3.4.23.B14 kpieff(no2)rd plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.025 * +EC3.4.23.B14 kpieff(no2)ri plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0235 * +EC3.4.23.B14 kpieff(no2)ri plasmodium malariae//*//* 0.034 * +EC3.4.23.B14 kpieff(no2)ri plasmodium ovale//*//* 0.0165 * +EC3.4.23.B14 kpieff(no2)ri plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.017 * +EC3.4.23.B14 kpieff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0121 * +EC3.4.23.B14 kpieff(no2)rl plasmodium malariae//*//* 0.02 * +EC3.4.23.B14 kpieff(no2)rl plasmodium ovale//*//* 0.0092 * +EC3.4.23.B14 kpieff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.016 * +EC3.4.23.B14 kpieff(no2)rr plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0296 * +EC3.4.23.B14 kpieff(no2)rr plasmodium malariae//*//* 0.013 * +EC3.4.23.B14 kpieff(no2)rr plasmodium ovale//*//* 0.0037 * +EC3.4.23.B14 kpieff(no2)rr plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.004 * +EC3.4.23.B14 kpieff(no2)rs plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0227 * +EC3.4.23.B14 kpieff(no2)rs plasmodium malariae//*//* 0.043 * +EC3.4.23.B14 kpieff(no2)rs plasmodium ovale//*//* 0.0054 * +EC3.4.23.B14 kpieff(no2)rs plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.014 * +EC3.4.23.B14 kpieff(no2)rv plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0253 * +EC3.4.23.B14 kpieff(no2)rv plasmodium malariae//*//* 0.046 * +EC3.4.23.B14 kpieff(no2)rv plasmodium ovale//*//* 0.036 * +EC3.4.23.B14 kpieff(no2)rv plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.021 * +EC3.4.23.B14 kpieff(no2)sl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0274 * +EC3.4.23.B14 kpieff(no2)sl plasmodium malariae//*//* 0.017 * +EC3.4.23.B14 kpieff(no2)sl plasmodium ovale//*//* 0.039 * +EC3.4.23.B14 kpieff(no2)sl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.043 * +EC3.4.23.B14 kpieff(no2)vl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0205 * +EC3.4.23.B14 kpieff(no2)vl plasmodium malariae//*//* 0.0044 * +EC3.4.23.B14 kpieff(no2)vl plasmodium ovale//*//* 0.008 * +EC3.4.23.B14 kpieff(no2)vl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.023 * +EC3.4.23.B14 kpiefzrl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.036 * +EC3.4.23.B14 kpikff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0123 * +EC3.4.23.B14 kpikff(no2)rl plasmodium malariae//*//* 0.029 * +EC3.4.23.B14 kpikff(no2)rl plasmodium ovale//*//* 0.022 * +EC3.4.23.B14 kpikff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.013 * +EC3.4.23.B14 kpilff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0166 * +EC3.4.23.B14 kpilff(no2)rl plasmodium malariae//*//* 0.011 * +EC3.4.23.B14 kpilff(no2)rl plasmodium ovale//*//* 0.013 * +EC3.4.23.B14 kpilff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.008 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0429 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium malariae//*//* 0.031 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium ovale//*//* 0.007 * +EC3.4.23.B14 kpkeff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.024 * +EC3.4.23.B14 kpseff(no2)rl plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0399 * +EC3.4.23.B14 kpseff(no2)rl plasmodium malariae//*//* 0.041 * +EC3.4.23.B14 kpseff(no2)rl plasmodium ovale//*//* 0.012 * +EC3.4.23.B14 kpseff(no2)rl plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.022 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0096 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium malariae//*//* 0.016 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium ovale//*//* 0.011 * +EC3.4.23.B14 lys-pro-ile-nle-phe-phe(no2)-arg-leu plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.007 * +EC3.4.23.B2 ac-ala-thr-leu-asn-phe-pro-ile-ser-pro-ile-glu-nh2 simian immunodeficiency virus//*//* 4.6 * +EC3.4.23.B2 ac-arg-ala-ser-gln-asn-tyr-pro-val-val simian immunodeficiency virus//*//* 3.1 * +EC3.4.23.B2 ac-arg-lys-ile-leu-phe-leu-asp-gly-nh2 simian immunodeficiency virus//*//* 0.3 * +EC3.4.23.B2 ac-ser-gln-asn-tyr-pro-val-val-nh2 simian immunodeficiency virus//*//* 4.3 * +EC3.4.23.B24 dodecanoyl-ngevaka-4-methylcumaryl-7-amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0179 * +EC3.4.23.B3 aaqtcyncgk equine infectious anemia virus//*//* 0.35 * +EC3.4.23.B3 aklvlaqlsk equine infectious anemia virus//*//* 0.02 * +EC3.4.23.B3 apkvcfkckq equine infectious anemia virus//*//* 0.6 * +EC3.4.23.B3 gln-lys-2-aminohexanoic acid-2-aminohexanoic acid-leu-p-nitrophenylalanine-ala-lys-ala-leu equine infectious anemia virus//*//* 0.01 * +EC3.4.23.B3 kmvkcfncgk equine infectious anemia virus//*//* 0.47 * +EC3.4.23.B3 kpikcwncgk equine infectious anemia virus//*//* 0.02 * +EC3.4.23.B3 lys-ala-arg-ile-2-aminohexanoic acid-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 0.04 * +EC3.4.23.B3 lys-ala-arg-leu-2-aminohexanoic acid-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 0.01 * +EC3.4.23.B3 lys-ala-arg-val-2-aminohexanoic acid-p-nitrophenylalanine-gln-ala-2-aminohexanoic acid-nh2 equine infectious anemia virus//*//* 0.1 * +EC3.4.23.B3 lys-ala-arg-val-asn-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.007 * +EC3.4.23.B3 lys-ala-arg-val-leu-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-gly-nh2 equine infectious anemia virus//*//* 0.025 * +EC3.4.23.B3 lys-ala-arg-val-nal-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.035 * +EC3.4.23.B3 lys-ala-arg-val-phe-p-nitrophenylalanine-glu-ala-2-aminohexanoic acid-gly-nh2 equine infectious anemia virus//*//* 0.035 * +EC3.4.23.B3 lys-ala-arg-val-phe-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.075 * +EC3.4.23.B3 lys-ala-arg-val-trp-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.05 * +EC3.4.23.B3 lys-ala-arg-val-tyr-p-nitrophenylalanine-glu-ala-gly-nh2 equine infectious anemia virus//*//* 0.06 * +EC3.4.23.B3 pseeypimid equine infectious anemia virus//*//* 0.08 * +EC3.4.23.B3 qkqtfpiqqk equine infectious anemia virus//*//* 0.27 * +EC3.4.23.B3 sqnypivq equine infectious anemia virus//*//* 2.2 * +EC3.4.23.B3 vsqnypiv equine infectious anemia virus//*//* 0.04 * +EC3.4.23.B3 vsqnypivq equine infectious anemia virus//*//* 0.31 * +EC3.4.23.B4 ala-leu-thr-lys-val-gln-val-val-gln-ser-lys-gly feline immunodeficiency virus//*//* 0.0204 * +EC3.4.23.B4 arg-ala-leu-thr-lys-(4-aminobenzoic acid)-val-gln-phe-(no2)-val-gln-ser-lys-gly-arg-nh2 feline immunodeficiency virus//*//* 0.013 * +EC3.4.23.B4 ile-arg-lys-ile-leu-phe-leu-asp-gly feline immunodeficiency virus//*//* 1.4 * +EC3.4.23.B4 raltk(epsilon-abz)vqf(no2)vqskgr feline immunodeficiency virus//*//* 0.033 * +EC3.4.23.B4 rkeegppqaypiqtvngpqyr feline immunodeficiency virus//*//* 10.0 * +EC3.4.23.B5 apqvlpvmhp moloney murine leukemia virus//*//* 0.15 * +EC3.4.23.B5 delilpvkrk moloney murine leukemia virus//*//* 0.0846 * +EC3.4.23.B5 dskaflatdw moloney murine leukemia virus//*//* 0.2 * +EC3.4.23.B5 ltftfpvvfmrr moloney murine leukemia virus//*//* 0.0192 * +EC3.4.23.B5 mskllatvvs moloney murine leukemia virus//*//* 0.0299 * +EC3.4.23.B5 pkdifpvtet moloney murine leukemia virus//*//* 0.51 * +EC3.4.23.B5 plqvltlnierr moloney murine leukemia virus//*//* 0.0166 * +EC3.4.23.B5 ppailpiise moloney murine leukemia virus//*//* 0.039 * +EC3.4.23.B5 prsslypaltp moloney murine leukemia virus//*//* 0.0804 * +EC3.4.23.B5 pseeypimid moloney murine leukemia virus//*//* 0.121 * +EC3.4.23.B5 qnypiv moloney murine leukemia virus//*//* 0.315 * +EC3.4.23.B5 rsllypaltp xmrv//*//* 0.216 * +EC3.4.23.B5 sdlvllsaearr moloney murine leukemia virus//*//* 0.0435 * +EC3.4.23.B5 sqnypiv moloney murine leukemia virus//*//* 0.478 * +EC3.4.23.B5 sqnypivq moloney murine leukemia virus//*//* 1.022 * +EC3.4.23.B5 tqtslltlddq moloney murine leukemia virus//*//* 0.0445 * +EC3.4.23.B5 tsqafplrag moloney murine leukemia virus//*//* 0.098 * +EC3.4.23.B5 tstllienss moloney murine leukemia virus//*//* 0.068 * +EC3.4.23.B5 vaqnypivq moloney murine leukemia virus//*//* 0.524 * +EC3.4.23.B5 vfqnypivq moloney murine leukemia virus//*//* 0.0384 * +EC3.4.23.B5 vgfagamaear moloney murine leukemia virus//*//* 0.166 * +EC3.4.23.B5 viqnypivq moloney murine leukemia virus//*//* 0.0388 * +EC3.4.23.B5 vkqnypivq moloney murine leukemia virus//*//* 0.484 * +EC3.4.23.B5 vlqnypivq moloney murine leukemia virus//*//* 0.0057 * +EC3.4.23.B5 vmqnypivq moloney murine leukemia virus//*//* 0.0403 * +EC3.4.23.B5 vnqnypivq moloney murine leukemia virus//*//* 0.514 * +EC3.4.23.B5 vqalvltq moloney murine leukemia virus//*//* 0.0242 * +EC3.4.23.B5 vsanypivq moloney murine leukemia virus//*//* 0.327 * +EC3.4.23.B5 vsdnypivq moloney murine leukemia virus//*//* 0.334 * +EC3.4.23.B5 vsfnypivq moloney murine leukemia virus//*//* 0.0137 * +EC3.4.23.B5 vsgnypivq moloney murine leukemia virus//*//* 0.233 * +EC3.4.23.B5 vsknypivq moloney murine leukemia virus//*//* 0.978 * +EC3.4.23.B5 vslqnypivq moloney murine leukemia virus//*//* 0.0308 * +EC3.4.23.B5 vsnnypivq moloney murine leukemia virus//*//* 0.475 * +EC3.4.23.B5 vsqaypivq moloney murine leukemia virus//*//* 0.154 * +EC3.4.23.B5 vsqdypivq moloney murine leukemia virus//*//* 0.436 * +EC3.4.23.B5 vsqfypivq moloney murine leukemia virus//*//* 0.0368 * +EC3.4.23.B5 vsqgypivq moloney murine leukemia virus//*//* 0.114 * +EC3.4.23.B5 vsqiypivq moloney murine leukemia virus//*//* 0.011 * +EC3.4.23.B5 vsqlypivq moloney murine leukemia virus//*//* 0.0187 * +EC3.4.23.B5 vsqnfpivq moloney murine leukemia virus//*//* 0.242 * +EC3.4.23.B5 vsqnlpivq moloney murine leukemia virus//*//* 0.0311 * +EC3.4.23.B5 vsqnmpivq moloney murine leukemia virus//*//* 0.224 * +EC3.4.23.B5 vsqnypavq moloney murine leukemia virus//*//* 1.385 * +EC3.4.23.B5 vsqnypfvq moloney murine leukemia virus//*//* 0.067 * +EC3.4.23.B5 vsqnypiaq moloney murine leukemia virus//*//* 1.808 * +EC3.4.23.B5 vsqnypieq moloney murine leukemia virus//*//* 2.9 * +EC3.4.23.B5 vsqnypifq moloney murine leukemia virus//*//* 0.048 * +EC3.4.23.B5 vsqnypiiq moloney murine leukemia virus//*//* 0.1396 * +EC3.4.23.B5 vsqnypilq moloney murine leukemia virus//*//* 0.0905 * +EC3.4.23.B5 vsqnypiqq moloney murine leukemia virus//*//* 1.703 * +EC3.4.23.B5 vsqnypirq moloney murine leukemia virus//*//* 1.573 * +EC3.4.23.B5 vsqnypisq moloney murine leukemia virus//*//* 1.753 * +EC3.4.23.B5 vsqnypiv moloney murine leukemia virus//*//* 0.405 * +EC3.4.23.B5 vsqnypivq moloney murine leukemia virus//*//* 0.261 * +EC3.4.23.B5 vsqnyplvq moloney murine leukemia virus//*//* 0.019 * +EC3.4.23.B5 vsqnypvvq moloney murine leukemia virus//*//* 0.509 * +EC3.4.23.B5 vsqtypivq moloney murine leukemia virus//*//* 0.183 * +EC3.4.23.B5 vsqvypivq moloney murine leukemia virus//*//* 0.083 * +EC3.4.23.B5 vsvnypivq moloney murine leukemia virus//*//* 0.135 * +EC3.4.23.B5 vtqnypivq moloney murine leukemia virus//*//* 0.188 * +EC3.4.23.B5 vvqnypivq moloney murine leukemia virus//*//* 0.082 * +EC3.4.23.B6 aptvmavvnp mason-pfizer monkey virus//*//* 0.417 * +EC3.4.23.B6 athqvynphvrka mason-pfizer monkey virus//*//* 0.386 * +EC3.4.23.B6 atpqvyf(no2)vrka mason-pfizer monkey virus//*//* 0.0034 * +EC3.4.23.B6 iqvhyhrleq mason-pfizer monkey virus//*//* 0.136 * +EC3.4.23.B6 pkdifpvtet mason-pfizer monkey virus//*//* 0.517 * +EC3.4.23.B6 pkqaygavfv mason-pfizer monkey virus//*//* 0.298 * +EC3.4.23.B6 ssdiywvqpi mason-pfizer monkey virus//*//* 0.038 * +EC3.4.23.B8 (((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-f(no2)-vmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid) human t-lymphotropic virus 1//*//* 0.058 * +EC3.4.23.B8 (((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-pvmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid) human t-lymphotropic virus 1//*//* 0.06 * +EC3.4.23.B8 4-((4-dimethylaminophenylazo)benzoyl)-(gamma-aminobutyric acid)-pqvl-(4-nitro)phe-vmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid) human t-lymphotropic virus 1//*//* 0.055 * +EC3.4.23.B8 apqvlf(no2)vmhpl human t-lymphotropic virus 1//*//* 0.042 * +EC3.4.23.B8 apqvlnphvmhpl human t-lymphotropic virus 1//*//* 0.061 * +EC3.4.23.B8 apqvlpvmhp human t-lymphotropic virus 1//*//* 0.115 * +EC3.4.23.B8 apqvlpvmhphg human t-lymphotropic virus 1//*//* 0.3 * +EC3.4.23.B8 dabsyl-(gaba)-pqvlpvmh-edans human t-lymphotropic virus 1//*//* 0.01 * +EC3.4.23.B8 dpasilpvip human t-lymphotropic virus 1//*//* 0.23 * +EC3.4.23.B8 kakvlvvqpk human t-lymphotropic virus 1//*//* 0.086 * +EC3.4.23.B8 kdkvlvvqpk human t-lymphotropic virus 1//*//* 0.48 * +EC3.4.23.B8 kgkvlvvqpk human t-lymphotropic virus 1//*//* 0.069 * +EC3.4.23.B8 kgppvilpiqap human t-lymphotropic virus 1//*//* 0.03 * +EC3.4.23.B8 kskvlvvqpk human t-lymphotropic virus 1//*//* 0.23 * +EC3.4.23.B8 ktdvlvvqpk human t-lymphotropic virus 1//*//* 0.18 * +EC3.4.23.B8 ktfvlvvqpk human t-lymphotropic virus 1//*//* 0.13 * +EC3.4.23.B8 ktgvlvvqpk human t-lymphotropic virus 1//*//* 0.062 * +EC3.4.23.B8 ktkilvvqpk human t-lymphotropic virus 1//*//* 0.04 * +EC3.4.23.B8 ktkllvvqpk human t-lymphotropic virus 1//*//* 0.028 * +EC3.4.23.B8 ktkvavvqpk human t-lymphotropic virus 1//*//* 0.19 * +EC3.4.23.B8 ktkvfvvqpk human t-lymphotropic virus 1//*//* 0.049 * +EC3.4.23.B8 ktkvgvvqpk human t-lymphotropic virus 1//*//* 0.12 * +EC3.4.23.B8 ktkvlfvqpk human t-lymphotropic virus 1//*//* 0.18 * +EC3.4.23.B8 ktkvlivqpk human t-lymphotropic virus 1//*//* 0.12 * +EC3.4.23.B8 ktkvlvvqpk human t-lymphotropic virus 1//*//* 0.033 * +EC3.4.23.B8 ktkvmvvqpk human t-lymphotropic virus 1//*//* 0.15 * +EC3.4.23.B8 ktkvyvvqpk human t-lymphotropic virus 1//*//* 0.19 * +EC3.4.23.B8 ktsvlvvqpk human t-lymphotropic virus 1//*//* 0.053 * +EC3.4.23.B8 ppailpiise human t-lymphotropic virus 1//*//* 0.02 * +EC3.4.23.B8 ppvmgvldap human t-lymphotropic virus 1//*//* 0.014 * +EC3.4.23.B8 pqvlpvmhp human t-lymphotropic virus 1//*//* 0.06 * +EC3.4.23.B8 tkvlvvqpk human t-lymphotropic virus 1//*//* 0.087 * +EC3.4.23.B8 vsqiypivq human t-lymphotropic virus 1//*//* 0.26 * +EC3.4.23.B8 vsqlypivq human t-lymphotropic virus 1//*//* 0.26 * +EC3.4.23.B8 vsqvypivq human t-lymphotropic virus 1//*//* 0.42 * +EC3.4.23.B8 yveptapqvlpvmhp human t-lymphotropic virus 1//*//* 0.5 * +EC3.4.23.B9 kakvlvvqpk bovine leukemia virus//*//* 0.042 * +EC3.4.23.B9 kdkvlvvqpk bovine leukemia virus//*//* 0.048 * +EC3.4.23.B9 kgkvlvvqpk bovine leukemia virus//*//* 0.021 * +EC3.4.23.B9 kgppvilpiqap bovine leukemia virus//*//* 0.019 * +EC3.4.23.B9 klkvlvvqpk bovine leukemia virus//*//* 0.03 * +EC3.4.23.B9 kpkvlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 kskvlvvqpk bovine leukemia virus//*//* 0.022 * +EC3.4.23.B9 ktavlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktdvlvvqpk bovine leukemia virus//*//* 0.026 * +EC3.4.23.B9 ktfvlvvqpk bovine leukemia virus//*//* 0.042 * +EC3.4.23.B9 ktgvlvvqpk bovine leukemia virus//*//* 0.02 * +EC3.4.23.B9 ktkalvvqpk bovine leukemia virus//*//* 0.02 * +EC3.4.23.B9 ktkdlvvqpk bovine leukemia virus//*//* 0.043 * +EC3.4.23.B9 ktkflvvqpk bovine leukemia virus//*//* 0.02 * +EC3.4.23.B9 ktkglvvqpk bovine leukemia virus//*//* 0.2 * +EC3.4.23.B9 ktkilvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktkllvvqpk bovine leukemia virus//*//* 0.025 * +EC3.4.23.B9 ktknlvvqpk bovine leukemia virus//*//* 0.033 * +EC3.4.23.B9 ktkslvvqpk bovine leukemia virus//*//* 0.026 * +EC3.4.23.B9 ktkvavvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktkvdvvqpk bovine leukemia virus//*//* 0.032 * +EC3.4.23.B9 ktkvfvvqpk bovine leukemia virus//*//* 0.048 * +EC3.4.23.B9 ktkvgvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktkvlfvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktkvlgvqpk bovine leukemia virus//*//* 0.021 * +EC3.4.23.B9 ktkvlivqpk bovine leukemia virus//*//* 0.021 * +EC3.4.23.B9 ktkvlkvqpk bovine leukemia virus//*//* 0.13 * +EC3.4.23.B9 ktkvllvqpk bovine leukemia virus//*//* 0.021 * +EC3.4.23.B9 ktkvlpvqpk bovine leukemia virus//*//* 0.063 * +EC3.4.23.B9 ktkvlsvqpk bovine leukemia virus//*//* 0.016 * +EC3.4.23.B9 ktkvlvvqpk bovine leukemia virus//*//* 0.011 * +EC3.4.23.B9 ktkvmvvqpk bovine leukemia virus//*//* 0.02 * +EC3.4.23.B9 ktkvsvvqpk bovine leukemia virus//*//* 0.017 * +EC3.4.23.B9 ktkvyvvqpk bovine leukemia virus//*//* 0.014 * +EC3.4.23.B9 ktlvlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktsvlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 ktvvlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 kvkvlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.23.B9 kvlvvqpk bovine leukemia virus//*//* 0.015 * +EC3.4.23.B9 ppmvgvldap bovine leukemia virus//*//* 0.023 * +EC3.4.23.B9 tkvlvvqpk bovine leukemia virus//*//* 0.01 * +EC3.4.24.11 2-aminobenzoyl-arfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0687 * +EC3.4.24.11 2-aminobenzoyl-drfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0178 * +EC3.4.24.11 2-aminobenzoyl-frfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0097 * +EC3.4.24.11 2-aminobenzoyl-hrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0161 * +EC3.4.24.11 2-aminobenzoyl-irfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC3.4.24.11 2-aminobenzoyl-krfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0528 * +EC3.4.24.11 2-aminobenzoyl-lrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.24.11 2-aminobenzoyl-nrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0214 * +EC3.4.24.11 2-aminobenzoyl-rafk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0117 * +EC3.4.24.11 2-aminobenzoyl-rdfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC3.4.24.11 2-aminobenzoyl-refk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.4.24.11 2-aminobenzoyl-rgf-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.054 * +EC3.4.24.11 2-aminobenzoyl-rgfk-2,4-dinitrophenyl amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0259 * +EC3.4.24.11 2-aminobenzoyl-rgfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.4.24.11 2-aminobenzoyl-rgl-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0273 * +EC3.4.24.11 2-aminobenzoyl-rhfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0089 * +EC3.4.24.11 2-aminobenzoyl-rkfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9981 * +EC3.4.24.11 2-aminobenzoyl-rnfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.4.24.11 2-aminobenzoyl-rpfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.4.24.11 2-aminobenzoyl-rqfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0121 * +EC3.4.24.11 2-aminobenzoyl-rrfk-2,4-dinitrophenyl amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC3.4.24.11 2-aminobenzoyl-rrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0089 * +EC3.4.24.11 2-aminobenzoyl-rrl-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.24.11 2-aminobenzoyl-rsfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0084 * +EC3.4.24.11 2-aminobenzoyl-rsl-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0259 * +EC3.4.24.11 2-aminobenzoyl-rtfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0108 * +EC3.4.24.11 2-aminobenzoyl-srfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC3.4.24.11 2-aminobenzoyl-trfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0095 * +EC3.4.24.11 2-aminobenzoyl-vrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC3.4.24.11 2-aminobenzoyl-wrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC3.4.24.11 2-aminobenzoyl-yrfk-2,4-dinitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0583 * +EC3.4.24.11 adrenocorticotropic hormone lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0028 * +EC3.4.24.11 ala-leu-enkephalin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.109 * +EC3.4.24.11 alpha-endorphin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC3.4.24.11 alpha-neoendorphin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.135 * +EC3.4.24.11 amyloid beta peptide1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.104 * +EC3.4.24.11 angiotensin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.036 * +EC3.4.24.11 angiotensin i lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0004 * +EC3.4.24.11 angiotensin ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.179 * +EC3.4.24.11 angiotensin(1-9) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1114 * +EC3.4.24.11 angiotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0086 * +EC3.4.24.11 arg-vasopressin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.24.11 benzyloxycarbonyl-ala-gly-leu-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC3.4.24.11 beta-endorphin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.00654 * +EC3.4.24.11 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.24.11 bradykinin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.005 * +EC3.4.24.11 bradykinin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC3.4.24.11 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.092 * +EC3.4.24.11 bradykinin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.092 * +EC3.4.24.11 cholecystokinin-8 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.296 * +EC3.4.24.11 d-ala2-leu5-enkephalin canis lupus familiaris//*//* 0.07 * +EC3.4.24.11 d-ala2-leu5-enkephalin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.088 * +EC3.4.24.11 d-ala2-leu5-enkephalinamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.773 * +EC3.4.24.11 d-ala2-met5-enkephalinamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.432 * +EC3.4.24.11 dansyl-gly-trp-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.4.24.11 dansyl-gly-tyr-gly-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC3.4.24.11 dansyl-gly-tyr-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.041 * +EC3.4.24.11 dynorphin a-10 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.035 * +EC3.4.24.11 dynorphin a-13 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.01 * +EC3.4.24.11 dynorphin a-17 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0082 * +EC3.4.24.11 dynorphin a-6 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.025 * +EC3.4.24.11 dynorphin a-8 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.298 * +EC3.4.24.11 dynorphin a-9 lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.04 * +EC3.4.24.11 dynorphin(1-9) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.119 * +EC3.4.24.11 endothelin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC3.4.24.11 gamma-endorphin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.24.11 gastri-releasing peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.4.24.11 gastrin g-17 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC3.4.24.11 glp-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC3.4.24.11 glucagon homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.24.11 glutaryl-ala-ala-phe-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.59 * +EC3.4.24.11 glutaryl-ala-ala-phe-4-methoxy-2-naphthylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.4.24.11 glutaryl-ala-ala-phe-4-methyoxy-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.42 * +EC3.4.24.11 glutaryl-gly-gly-phe-2-naphthylamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0685 * +EC3.4.24.11 hippuryl-arg-arg-ala-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.38 * +EC3.4.24.11 hippuryl-arg-arg-leu-2-naphthylamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC3.4.24.11 his-lys-thr-asp-ser-phe-val-gly-leu-met-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.133 * +EC3.4.24.11 leu-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.074 * +EC3.4.24.11 leu-enkephalin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.2 * +EC3.4.24.11 leu-enkephalinamide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.612 * +EC3.4.24.11 leu5-enkephalin-arg6 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.111 * +EC3.4.24.11 leu5-enkephalin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.086 * +EC3.4.24.11 leu5-enkephalinamide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.68 * +EC3.4.24.11 luteinizing hormone-releasing hormone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.755 * +EC3.4.24.11 luteinizing hormone-releasing hormone sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.755 * +EC3.4.24.11 met-enkephalin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC3.4.24.11 met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.24.11 met-enkephalin lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.1 * +EC3.4.24.11 met-enkephalinamide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.41 * +EC3.4.24.11 met5-enkephalin-arg6 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.039 * +EC3.4.24.11 met5-enkephalin-arg6phe7 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC3.4.24.11 met5-enkephalin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.062 * +EC3.4.24.11 n-2-aminobenzoyl-rgv-n-(2,4-dinitrophenyl)ethylenediamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0408 * +EC3.4.24.11 n-benzyoxycarbonyl-gly-gly-leu 2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.13 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-arg-ala-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-arg-phe-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC3.4.24.11 nalpha-benzoyl-gly-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC3.4.24.11 nalpha-benzoyl-gly-gly-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.11 * +EC3.4.24.11 nalpha-benzoyl-gly-lys-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.08 * +EC3.4.24.11 nalpha-benzoyl-gly-lys-lys-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC3.4.24.11 neurokinin a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC3.4.24.11 neurokinin b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.4.24.11 neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.24.11 neurotensin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.078 * +EC3.4.24.11 nociceptin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.4.24.11 physalaemin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.106 * +EC3.4.24.11 somatostatin 14 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0074 * +EC3.4.24.11 somatostatin 28 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.4.24.11 substance p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.4.24.11 substance p lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.01 * +EC3.4.24.11 substance p rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC3.4.24.11 substance p sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0319 * +EC3.4.24.11 succinyl-ala-ala-phe-4-methylcoumarin 7-amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.043 * +EC3.4.24.11 succinyl-ala-ala-phe-4-methylcoumarin 7-amide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.073 * +EC3.4.24.11 succinyl-ala-ala-phe-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.052 * +EC3.4.24.11 succinyl-ala-ala-phe-amc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC3.4.24.11 succinyl-arg-arg-leu-2-naphthylamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.45 * +EC3.4.24.11 sulfated cholecystokinin octapeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC3.4.24.11 tyr-d-ala-gly-phe-leu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC3.4.24.11 tyr-d-ala-gly-phe-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC3.4.24.11 tyr-d-ala-gly-phe-met-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.072 * +EC3.4.24.11 tyr-d-ala-gly-phe-met-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.061 * +EC3.4.24.11 tyr-d-ala-gly-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC3.4.24.11 tyr-gly-gly-phe-met rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC3.4.24.11 unsulfated cholecystokinin octapeptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.033 * +EC3.4.24.11 vasoactive intestinal peptide lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0018 * +EC3.4.24.12 dimethylated casein strongylocentrotus purpuratus//eukaryotes;animals;echinoderms//spu 0.84 * +EC3.4.24.13 iga1 prevotella melaninogenica//prokaryotes;bacteria;bacteroidetes;prevotella//pmz 0.0034 * +EC3.4.24.14 pncollagen i gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0003 * +EC3.4.24.14 pncollagen, carboxymethylated bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0028 * +EC3.4.24.14 procollagen i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.5e-05 * +EC3.4.24.14 procollagen i gallus gallus//eukaryotes;animals;vertebrates;birds//gga 5.4e-05 * +EC3.4.24.14 procollagen ii gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.000225 * +EC3.4.24.14 propeptide of collagen alpha-1 chain bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.4.24.14 propeptide of collagen alpha-2 chain bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.4.24.15 (7-methoxycoumarin-4-yl)acetyl-glu-his-trp-ser-tyr-gly-leu-arg-pro-oh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.4.24.15 (7-methoxycoumarin-4-yl)acetyl-leu-glu-asn-lys-pro-arg-arg-pro-lys(dnp)-oh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC3.4.24.15 (o-aminobenzoyl)-afspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC3.4.24.15 (o-aminobenzoyl)-dfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC3.4.24.15 (o-aminobenzoyl)-efspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC3.4.24.15 (o-aminobenzoyl)-ffspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.4.24.15 (o-aminobenzoyl)-gaspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0042 * +EC3.4.24.15 (o-aminobenzoyl)-gdspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0166 * +EC3.4.24.15 (o-aminobenzoyl)-gespfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0225 * +EC3.4.24.15 (o-aminobenzoyl)-gfapfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00071 * +EC3.4.24.15 (o-aminobenzoyl)-gfdpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0068 * +EC3.4.24.15 (o-aminobenzoyl)-gfepfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0052 * +EC3.4.24.15 (o-aminobenzoyl)-gffpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC3.4.24.15 (o-aminobenzoyl)-gfhpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00072 * +EC3.4.24.15 (o-aminobenzoyl)-gfipfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00099 * +EC3.4.24.15 (o-aminobenzoyl)-gflpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00038 * +EC3.4.24.15 (o-aminobenzoyl)-gfnpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00027 * +EC3.4.24.15 (o-aminobenzoyl)-gfppfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC3.4.24.15 (o-aminobenzoyl)-gfqpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0149 * +EC3.4.24.15 (o-aminobenzoyl)-gfrpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.4.24.15 (o-aminobenzoyl)-gfsafrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC3.4.24.15 (o-aminobenzoyl)-gfsdfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0076 * +EC3.4.24.15 (o-aminobenzoyl)-gfsefrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC3.4.24.15 (o-aminobenzoyl)-gfsffrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00069 * +EC3.4.24.15 (o-aminobenzoyl)-gfshfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0011 * +EC3.4.24.15 (o-aminobenzoyl)-gfslfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC3.4.24.15 (o-aminobenzoyl)-gfsnfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0016 * +EC3.4.24.15 (o-aminobenzoyl)-gfsparq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC3.4.24.15 (o-aminobenzoyl)-gfspdrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC3.4.24.15 (o-aminobenzoyl)-gfsperq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfaq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfdq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0139 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfeq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.119 * +EC3.4.24.15 (o-aminobenzoyl)-gfspffq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0019 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfhq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0126 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfiq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC3.4.24.15 (o-aminobenzoyl)-gfspflq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0044 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfnq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.131 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0203 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfqq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0038 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfra-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0048 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfre-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrf-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00069 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfri-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrl-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00057 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrn-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0018 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrp-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0059 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrr-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00019 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfrs-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0043 * +EC3.4.24.15 (o-aminobenzoyl)-gfspfsq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.4.24.15 (o-aminobenzoyl)-gfsphrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.4.24.15 (o-aminobenzoyl)-gfspirq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0085 * +EC3.4.24.15 (o-aminobenzoyl)-gfsplrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC3.4.24.15 (o-aminobenzoyl)-gfspnrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC3.4.24.15 (o-aminobenzoyl)-gfspqrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0043 * +EC3.4.24.15 (o-aminobenzoyl)-gfsprrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0018 * +EC3.4.24.15 (o-aminobenzoyl)-gfspsrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0073 * +EC3.4.24.15 (o-aminobenzoyl)-gfsqfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0075 * +EC3.4.24.15 (o-aminobenzoyl)-gfsrfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC3.4.24.15 (o-aminobenzoyl)-gfssfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0037 * +EC3.4.24.15 (o-aminobenzoyl)-gfsxfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0012 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrraq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrdq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrreq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0019 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrfq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrhq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0017 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrriq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrlq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrnq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrv-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0022 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrrvq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0021 * +EC3.4.24.15 (o-aminobenzoyl)-ggflrryq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0006 * +EC3.4.24.15 (o-aminobenzoyl)-ghspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0048 * +EC3.4.24.15 (o-aminobenzoyl)-gispfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC3.4.24.15 (o-aminobenzoyl)-glspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0037 * +EC3.4.24.15 (o-aminobenzoyl)-gnspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0045 * +EC3.4.24.15 (o-aminobenzoyl)-gpspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0037 * +EC3.4.24.15 (o-aminobenzoyl)-gqspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0099 * +EC3.4.24.15 (o-aminobenzoyl)-grspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0036 * +EC3.4.24.15 (o-aminobenzoyl)-gsspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC3.4.24.15 (o-aminobenzoyl)-hfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC3.4.24.15 (o-aminobenzoyl)-ifspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00016 * +EC3.4.24.15 (o-aminobenzoyl)-lfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00082 * +EC3.4.24.15 (o-aminobenzoyl)-nfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00078 * +EC3.4.24.15 (o-aminobenzoyl)-qfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.4.24.15 (o-aminobenzoyl)-rfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.4.24.15 (o-aminobenzoyl)-sfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0014 * +EC3.4.24.15 (ortho-aminobenzoyl)-akprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0102 * +EC3.4.24.15 (ortho-aminobenzoyl)-enkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC3.4.24.15 (ortho-aminobenzoyl)-ggflprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0028 * +EC3.4.24.15 (ortho-aminobenzoyl)-kprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.114 * +EC3.4.24.15 (ortho-aminobenzoyl)-lyenkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.4.24.15 (ortho-aminobenzoyl)-naprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0071 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkarrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.064 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkparpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkprapq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkprraq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0124 * +EC3.4.24.15 (ortho-aminobenzoyl)-nkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0121 * +EC3.4.24.15 2,4-dinitrophenyl-pro-leu-gly-pro-trp-d-lys gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0137 * +EC3.4.24.15 7-methoxycoumarin-3-carboxylyl-pro-leu-gly-pro-d-(2,4-ditritrophenyl)lys gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0123 * +EC3.4.24.15 7-methoxycoumarin-3-carboxylyl-pro-leu-gly-pro-d-lys(2,4-dinitrophenyl) geobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gwc 0.0082 * +EC3.4.24.15 7-methoxycoumarin-3-carboxylyl-pro-leu-gly-pro-d-lys-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.24.15 7-methoxycoumarin-3-carboxylyl-pro-leu-gly-pro-d-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-(l-ala-l-lys(2,4-dinitrophenyl))-bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7e-05 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-[ala7, lys(dinitrophenol)9]-bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.7e-05 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-pro-leu-gly-pro-lys-dinitrophenol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00788 * +EC3.4.24.15 7-methoxycoumarin-4-acetyl-pro-leu-gly-pro-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC3.4.24.15 abz-gfsafrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0143 * +EC3.4.24.15 abz-gfsdfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.4.24.15 abz-gfsefrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.24.15 abz-gfsffrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0105 * +EC3.4.24.15 abz-gfshfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0321 * +EC3.4.24.15 abz-gfsifrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.112 * +EC3.4.24.15 abz-gfsparq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0218 * +EC3.4.24.15 abz-gfspdrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC3.4.24.15 abz-gfsperq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0192 * +EC3.4.24.15 abz-gfspfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC3.4.24.15 abz-gfsphrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0131 * +EC3.4.24.15 abz-gfspirq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.24.15 abz-gfsplrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0122 * +EC3.4.24.15 abz-gfspqrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0148 * +EC3.4.24.15 abz-gfsprrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0213 * +EC3.4.24.15 abz-gfspsrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0135 * +EC3.4.24.15 abz-gfsqfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0091 * +EC3.4.24.15 abz-gfsrfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC3.4.24.15 abz-gfssfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0127 * +EC3.4.24.15 abz-gfswfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0208 * +EC3.4.24.15 arg-pro-pro-gly-phe-ser-pro-phe-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.067 * +EC3.4.24.15 benzoyl-gly-ala-ala-gly-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.4.24.15 benzoyl-gly-ala-ala-leu-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.54 * +EC3.4.24.15 benzoyl-gly-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.058 * +EC3.4.24.15 benzoyl-gly-arg-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.37 * +EC3.4.24.15 benzoyl-gly-asp-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.72 * +EC3.4.24.15 benzoyl-gly-gly-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.36 * +EC3.4.24.15 benzoyl-gly-lys-arg-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC3.4.24.15 benzoyl-gly-phe-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC3.4.24.15 benzoyl-gly-phe-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.39 * +EC3.4.24.15 benzoyl-gly-phe-phe-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC3.4.24.15 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.4.24.15 dinitrophenyl-pro-leu-gly-pro-trp-d-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0133 * +EC3.4.24.15 dinitrophenyl-pro-leu-gly-pro-trp-d-lys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC3.4.24.15 gly-pro-leu-gly-pro-leu-gly-pro-leu-gly-pro-leu-gly-pro-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0154 * +EC3.4.24.15 gly-pro-leu-gly-pro-leu-gly-pro-leu-gly-pro-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0135 * +EC3.4.24.15 gly-pro-leu-gly-pro-leu-gly-pro-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0149 * +EC3.4.24.15 gly-pro-leu-gly-pro-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.4.24.15 gly-pro-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0732 * +EC3.4.24.15 neurotensin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.64 * +EC3.4.24.15 pglu-his-trp-ser-tyr-gly-leu-arg-pro-gly-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.095 * +EC3.4.24.15 pglu-leu-tyr-glu-asn-lys-pro-arg-arg-pro-tyr-ile-leu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC3.4.24.15 propionyl-gly-ser-pro-(farnesyl-cys)-val-leu-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 32.5 * +EC3.4.24.15 tert-butoxycarbonyl-phe-ala-ala-phe-p-aminobenzoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.4.24.15 tyr-gly-gly-phe-leu-arg-arg-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.4.24.15 tyr-gly-gly-phe-leu-arg-lys-tyr-pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC3.4.24.16 (7-methoxy-coumarin-4-yl)acetyl-rpkpve-nva-wrk(2,4-dinitrophenyl)-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 14.0 * +EC3.4.24.16 (7-methoxy-coumarin-4-yl)acetyl-rpkpya-nva-wmk(2,4-dinitrophenyl)-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC3.4.24.16 (7-methoxycoumarin-4-yl)acetyl-gly-gly-phe-ile-arg-arg-ala-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.4.24.16 (7-methoxycoumarin-4-yl)acetyl-gly-gly-phe-leu-arg-arg-ala-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0043 * +EC3.4.24.16 (o-aminobenzoyl)-afspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0014 * +EC3.4.24.16 (o-aminobenzoyl)-akprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00115 * +EC3.4.24.16 (o-aminobenzoyl)-dfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC3.4.24.16 (o-aminobenzoyl)-efspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00064 * +EC3.4.24.16 (o-aminobenzoyl)-enkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0058 * +EC3.4.24.16 (o-aminobenzoyl)-ffspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00083 * +EC3.4.24.16 (o-aminobenzoyl)-gaspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC3.4.24.16 (o-aminobenzoyl)-gdspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0684 * +EC3.4.24.16 (o-aminobenzoyl)-gespfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0318 * +EC3.4.24.16 (o-aminobenzoyl)-gfapfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00087 * +EC3.4.24.16 (o-aminobenzoyl)-gfdpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0003 * +EC3.4.24.16 (o-aminobenzoyl)-gfepfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0031 * +EC3.4.24.16 (o-aminobenzoyl)-gffpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.24.16 (o-aminobenzoyl)-gfhpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00033 * +EC3.4.24.16 (o-aminobenzoyl)-gfipfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00018 * +EC3.4.24.16 (o-aminobenzoyl)-gflpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00019 * +EC3.4.24.16 (o-aminobenzoyl)-gfnpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00045 * +EC3.4.24.16 (o-aminobenzoyl)-gfppfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0037 * +EC3.4.24.16 (o-aminobenzoyl)-gfqpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.002 * +EC3.4.24.16 (o-aminobenzoyl)-gfrpfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00039 * +EC3.4.24.16 (o-aminobenzoyl)-gfsafrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.24.16 (o-aminobenzoyl)-gfsdfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC3.4.24.16 (o-aminobenzoyl)-gfsefrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.003 * +EC3.4.24.16 (o-aminobenzoyl)-gfsffrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC3.4.24.16 (o-aminobenzoyl)-gfshfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC3.4.24.16 (o-aminobenzoyl)-gfsifrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00085 * +EC3.4.24.16 (o-aminobenzoyl)-gfslfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC3.4.24.16 (o-aminobenzoyl)-gfsnfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC3.4.24.16 (o-aminobenzoyl)-gfsparq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00012 * +EC3.4.24.16 (o-aminobenzoyl)-gfspdrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0032 * +EC3.4.24.16 (o-aminobenzoyl)-gfsperq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00022 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfaq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00095 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfdq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00023 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfeq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.24.16 (o-aminobenzoyl)-gfspffq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.002 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfhq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0024 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfiq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00042 * +EC3.4.24.16 (o-aminobenzoyl)-gfspflq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0056 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfnq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00055 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfqq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0061 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfra-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfre-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00018 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrf-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00022 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfri-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00044 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrl-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0014 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrn-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00015 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrp-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0017 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00058 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrr-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00021 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfrs-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00065 * +EC3.4.24.16 (o-aminobenzoyl)-gfspfsq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.24.16 (o-aminobenzoyl)-gfsphrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00021 * +EC3.4.24.16 (o-aminobenzoyl)-gfspirq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00091 * +EC3.4.24.16 (o-aminobenzoyl)-gfsplrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0024 * +EC3.4.24.16 (o-aminobenzoyl)-gfspnrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0002 * +EC3.4.24.16 (o-aminobenzoyl)-gfspprq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.4.24.16 (o-aminobenzoyl)-gfspqrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC3.4.24.16 (o-aminobenzoyl)-gfsprrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3e-05 * +EC3.4.24.16 (o-aminobenzoyl)-gfspsrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00078 * +EC3.4.24.16 (o-aminobenzoyl)-gfsqfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0024 * +EC3.4.24.16 (o-aminobenzoyl)-gfsrfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00058 * +EC3.4.24.16 (o-aminobenzoyl)-gfssfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0111 * +EC3.4.24.16 (o-aminobenzoyl)-gfsxfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0016 * +EC3.4.24.16 (o-aminobenzoyl)-ggflprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00047 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrraq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0005 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrdq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrreq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0019 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrfq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrhq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0017 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrriq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrlq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0007 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrnq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0015 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0023 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrv-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0022 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrrvq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0021 * +EC3.4.24.16 (o-aminobenzoyl)-ggflrryq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0006 * +EC3.4.24.16 (o-aminobenzoyl)-ghspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0025 * +EC3.4.24.16 (o-aminobenzoyl)-gispfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0047 * +EC3.4.24.16 (o-aminobenzoyl)-glspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0059 * +EC3.4.24.16 (o-aminobenzoyl)-gnspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0075 * +EC3.4.24.16 (o-aminobenzoyl)-gpspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0063 * +EC3.4.24.16 (o-aminobenzoyl)-gqspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0068 * +EC3.4.24.16 (o-aminobenzoyl)-grspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC3.4.24.16 (o-aminobenzoyl)-gsspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0058 * +EC3.4.24.16 (o-aminobenzoyl)-hfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00033 * +EC3.4.24.16 (o-aminobenzoyl)-ifspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC3.4.24.16 (o-aminobenzoyl)-kprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0033 * +EC3.4.24.16 (o-aminobenzoyl)-lfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0017 * +EC3.4.24.16 (o-aminobenzoyl)-lyenkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00044 * +EC3.4.24.16 (o-aminobenzoyl)-naprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00103 * +EC3.4.24.16 (o-aminobenzoyl)-nfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0013 * +EC3.4.24.16 (o-aminobenzoyl)-nkarrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00138 * +EC3.4.24.16 (o-aminobenzoyl)-nkparpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00056 * +EC3.4.24.16 (o-aminobenzoyl)-nkprapq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00082 * +EC3.4.24.16 (o-aminobenzoyl)-nkprraq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00025 * +EC3.4.24.16 (o-aminobenzoyl)-nkprrpq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00119 * +EC3.4.24.16 (o-aminobenzoyl)-qfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00033 * +EC3.4.24.16 (o-aminobenzoyl)-rfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00032 * +EC3.4.24.16 (o-aminobenzoyl)-sfspfrq-(n-(2,4-dinitrophenyl)ethylenediamine) sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00048 * +EC3.4.24.16 7-methoxycoumarin-3-carboxylyl-pro-leu-gly-pro-lys-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0498 * +EC3.4.24.16 dinitrophenyl-pro-leu-gly-pro-trp-d-lys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.4.24.16 neurotensin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC3.4.24.16 pglu-leu-tyr-glu-asn-lys-pro-arg-arg-pro-tyr-ile-leu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg-arg-ile-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg-arg-ile rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.041 * +EC3.4.24.16 tyr-gly-gly-phe-leu-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.085 * +EC3.4.24.17 (7-methoxycoumarin-4-yl)acetyl-arg-pro-lys-pro-tyr-ala-norvaline-trp-met-lys(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.066 * +EC3.4.24.17 (7-methoxycoumarin-4-yl)acetyl-arg-pro-lys-pro-val-glu-norvaline-trp-arg-lys(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.025 * +EC3.4.24.17 (7-methoxycoumarin-4-yl)acetyl-pro-lys-pro-gln-gln-phe-phe-gly-leu-lys-(2,4-dinitrophenyl)-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC3.4.24.17 2,4-dinitrophenyl-pro-tyr-ala-tyr-trp-met-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.4.24.17 acetyl-pro-leu-gly-[2-mercapto-4-methyl-pentanoyl]-leu-gly-oc2h5 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.395 * +EC3.4.24.17 acetyl-pro-leu-gly-thioester-leu-leu-gly-ethylester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.4.24.17 arg-pro-lys-pro-gln-gln-phe-phe-gly-leu-norleucine-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.9 * +EC3.4.24.18 2-aminobenzoyl-arg-gly-pro-phe-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC3.4.24.18 2-aminobenzoyl-arg-hyp-gly-phe-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.183 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-ala-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.38 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-glu-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.22 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-leu-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.46 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-gly-lys-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.402 * +EC3.4.24.18 2-aminobenzoyl-arg-pro-ile-phe-ser-pro-(4-nitro)phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.296 * +EC3.4.24.18 alpha-msh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.292 * +EC3.4.24.18 alpha-msh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0223 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-ala-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.331 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-arg-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.174 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-lys-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.182 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-phe-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.226 * +EC3.4.24.18 arg-pro-pro-gly-(4-nitro)phe-ser-pro-phe-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.29 * +EC3.4.24.18 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.4.24.18 bradykinin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0163 * +EC3.4.24.18 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.224 * +EC3.4.24.18 cholecystokinin 8-sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC3.4.24.18 gastri-releasing peptide-(14-27) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.116 * +EC3.4.24.18 gastrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.4.24.18 grp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.24.18 lhrh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0565 * +EC3.4.24.18 lhrh mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.156 * +EC3.4.24.18 orcokinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0732 * +EC3.4.24.18 protein grp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0296 * +EC3.4.24.18 protein pth12-34 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC3.4.24.18 protein pth12-34 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0672 * +EC3.4.24.18 secretin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0339 * +EC3.4.24.18 secretin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.111 * +EC3.4.24.18 substance p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0413 * +EC3.4.24.18 substance p mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0306 * +EC3.4.24.18 valosin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC3.4.24.19 procollagen type i gallus gallus//eukaryotes;animals;vertebrates;birds//gga 9.6e-05 * +EC3.4.24.20 2,4-dinitrophenyl-adklsw grifola frondosa//*//* 0.0116 * +EC3.4.24.20 2,4-dinitrophenyl-apklsw grifola frondosa//*//* 0.0111 * +EC3.4.24.20 2,4-dinitrophenyl-arklsw grifola frondosa//*//* 0.0152 * +EC3.4.24.20 2,4-dinitrophenyl-atkdsw grifola frondosa//*//* 0.0249 * +EC3.4.24.20 2,4-dinitrophenyl-atklstsw grifola frondosa//*//* 0.0133 * +EC3.4.24.20 2,4-dinitrophenyl-atklsw grifola frondosa//*//* 0.0121 * +EC3.4.24.20 2,4-dinitrophenyl-atkrsw grifola frondosa//*//* 0.0177 * +EC3.4.24.20 2,4-dinitrophenyl-dadklsw grifola frondosa//*//* 0.0155 * +EC3.4.24.20 2,4-dinitrophenyl-datklsw grifola frondosa//*//* 0.0088 * +EC3.4.24.20 2,4-dinitrophenyl-statklsw grifola frondosa//*//* 0.0114 * +EC3.4.24.21 2-aminobenzoyl-arg-gly-pro-phe-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.327 * +EC3.4.24.21 2-aminobenzoyl-arg-hyp-gly-phe-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.044 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-ala-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.154 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-glu-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.954 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-leu-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.867 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-gly-lys-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.281 * +EC3.4.24.21 2-aminobenzoyl-arg-pro-ile-phe-ser-pro-(4-nitro)phe-arg astacus astacus//*//* 0.029 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-ala-pro-phe-arg astacus astacus//*//* 0.306 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-arg-pro-phe-arg astacus astacus//*//* 0.209 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-lys-pro-phe-arg astacus astacus//*//* 0.116 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-phe-pro-phe-arg astacus astacus//*//* 0.194 * +EC3.4.24.21 arg-pro-pro-gly-(4-nitro)phe-ser-pro-phe-arg astacus astacus//*//* 0.085 * +EC3.4.24.21 azocasein steinernema carpocapsae//*//* 1.86 * +EC3.4.24.21 dansyl-ala-ala-arg-ala-pro-leu-val astacus astacus//*//* 0.48 * +EC3.4.24.21 dansyl-arg-ala-pro-leu astacus astacus//*//* 56.0 * +EC3.4.24.21 dansyl-gly-arg-arg-ala-pro-leu-gly astacus astacus//*//* 0.39 * +EC3.4.24.21 dansyl-gly-gly-arg-ala-pro-trp-val astacus astacus//*//* 5.0 * +EC3.4.24.21 dansyl-gly-lys-arg-ala-pro-leu-val astacus astacus//*//* 0.017 * +EC3.4.24.21 dansyl-gly-lys-arg-ala-pro-trp-val astacus astacus//*//* 0.015 * +EC3.4.24.21 dansyl-gly-lys-asn-ala-pro-leu-val astacus astacus//*//* 0.4 * +EC3.4.24.21 dansyl-gly-lys-tyr-ala-pro-trp-val astacus astacus//*//* 0.27 * +EC3.4.24.21 dansyl-gly-pro-arg-ala-pro-leu-val astacus astacus//*//* 0.53 * +EC3.4.24.21 dansyl-his-his-leu-lys-arg-ala-pro-trp-val astacus astacus//*//* 0.23 * +EC3.4.24.21 dansyl-leu-arg-arg-ala-pro-leu-gly astacus astacus//*//* 0.58 * +EC3.4.24.21 dansyl-leu-arg-arg-ala-ser-leu-gly astacus astacus//*//* 0.67 * +EC3.4.24.21 dansyl-leu-lys-arg-ala-pro-trp-val astacus astacus//*//* 0.33 * +EC3.4.24.21 dansyl-leu-lys-asn-ala-pro-leu-val astacus astacus//*//* 1.0 * +EC3.4.24.21 dansyl-leu-lys-lys-ala-pro-trp-val astacus astacus//*//* 0.29 * +EC3.4.24.21 dansyl-leu-lys-tyr-ala-pro-trp-val astacus astacus//*//* 0.28 * +EC3.4.24.21 dansyl-lys-arg-ala-pro-leu astacus astacus//*//* 2.0 * +EC3.4.24.21 dansyl-pro-lys-arg-ala-pro-trp-val astacus astacus//*//* 0.37 * +EC3.4.24.21 dansyl-val-lys-arg-ala-pro-trp-val astacus astacus//*//* 0.25 * +EC3.4.24.22 (7-methoxycoumarin-4-yl)acetyl-arg-pro-lys-pro-val-glu-norvaline-trp-arg-lys(2,4-dinitrophenyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC3.4.24.23 (7-methoxycoumarin-4-yl)-acetyl-l-pro-l-leu-gly-l-leu-[n3-(2,4-dinitrophenyl)-l-2,3-diaminopropionyl]-l-ala-l-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.24.23 (7-methoxycoumarin-4-yl)acetyl-l-pro-leu-gly-l-leu-[n3-2,4-dinitrophenyl-l-2,3-diamino-propionyl]-l-ala-l-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.4.24.23 (7-methoxycoumarin-4-yl)acetyl-lpro-l-leu-gly-l-leu-[n3-(2,4-dinitrophenyl)-l-2,3-diaminopropionyl]-l-ala-l-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0736 * +EC3.4.24.23 2,4-dinitrophenyl-arg-pro-leu-ala-leu-trp-arg-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.4.24.23 2,4-dinitrophenyl-pro-leu-gly-leu-trp-ala-d-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.4.24.23 dansyl-plalwar homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC3.4.24.23 entactin mammalia//*//* 0.00089 * +EC3.4.24.23 gly-pro-gln-ala-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.81 * +EC3.4.24.23 gly-pro-gln-gly-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC3.4.24.23 gly-pro-gln-gly-ile-ala-met-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC3.4.24.23 gly-pro-gln-gly-leu-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.3 * +EC3.4.24.23 gly-pro-met-gly-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.24.23 pb-m7vis mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC3.4.24.24 ac-pro-leu-gly-[2-mercapto-4-methylpentanoyl]-leu-gly-oet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.136 * +EC3.4.24.24 acetyl-pro-leu-gly-thioester-leu-leu-gly ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.134 * +EC3.4.24.24 alpha1(v)436-447 fthp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC3.4.24.24 dnp-pro-beta-cyclohexyl-ala-gly-cys(me)-his-ala-lys(n-me-abz)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC3.4.24.24 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.159 * +EC3.4.24.24 fthp-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0172 * +EC3.4.24.24 gly-pro-gln-gly-ile-ala-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.0 * +EC3.4.24.24 gly-pro-gln-gly-ile-ala-ser-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4 * +EC3.4.24.24 gly-pro-gln-gly-ile-phe-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.8 * +EC3.4.24.24 gly-pro-gln-gly-ile-trp-gly-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC3.4.24.24 mca-pro-leu-gly-leu-dap-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0057 * +EC3.4.24.24 moacplgla2pr(dnp)-ar-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00152 * +EC3.4.24.24 peptide a13 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.24.24 peptide a13p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.24.24 peptide a13r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC3.4.24.24 peptide a21 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.7 * +EC3.4.24.24 peptide a21a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC3.4.24.24 peptide a3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.24.24 peptide a34 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.4.24.24 peptide b37 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.24.24 peptide b49 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.5 * +EC3.4.24.24 peptide b74 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC3.4.24.24 peptide b74p homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.4.24.24 peptide b74r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.24.24 peptide c9 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.4 * +EC3.4.24.24 peptide c9r homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.4 * +EC3.4.24.24 type i collagen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0085 * +EC3.4.24.24 type i collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC3.4.24.24 vitronectin of mw 65000 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.24.24 vitronectin of mw 75000 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.24.25 benzyloxycarbonyl-gly-ala-nh2 vibrio proteolyticus//*//* 1.8 * +EC3.4.24.25 benzyloxycarbonyl-gly-ile-nh2 vibrio proteolyticus//*//* 2.1 * +EC3.4.24.25 benzyloxycarbonyl-gly-leu-nh2 vibrio proteolyticus//*//* 2.2 * +EC3.4.24.25 benzyloxycarbonyl-gly-phe-gly-nh2 vibrio proteolyticus//*//* 0.2 * +EC3.4.24.25 benzyloxycarbonyl-gly-phe-nh2 vibrio proteolyticus//*//* 0.34 * +EC3.4.24.25 benzyloxycarbonyl-gly-tyr-nh2 vibrio proteolyticus//*//* 1.2 * +EC3.4.24.25 benzyloxycarbonyl-gly-val-nh2 vibrio proteolyticus//*//* 1.9 * +EC3.4.24.25 benzyloxycarbonyl-norvaline-nh2 vibrio proteolyticus//*//* 2.6 * +EC3.4.24.25 furylacryloyl-gly-leu-nh2 vibrio proteolyticus//*//* 3.5 * +EC3.4.24.25 furylacryloyl-gly-phe-nh2 vibrio proteolyticus//*//* 0.32 * +EC3.4.24.26 2-aminobenzoyl-ala-gly-leu-ala 4-nitrobenzylamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.11 * +EC3.4.24.26 2-aminobenzoyl-ala-gly-leu-ala 4-nitrobenzylamide vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.11 * +EC3.4.24.26 3-(2-furyl)acryloyl-glycyl-l-phenylalanyl-l-phenylalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.4 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.8 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.8 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-nh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.4 * +EC3.4.24.26 benzyloxycarbonyl-gly-leu-phe pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.0 * +EC3.4.24.26 benzyloxycarbonyl-gly-phe-nh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.1 * +EC3.4.24.26 benzyloxycarbonyl-gly-tyr-nh2 pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.0 * +EC3.4.24.26 carbobenzooxydialanine-leucylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.09 * +EC3.4.24.26 carbobenzooxydialanine-phenylalanylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.12 * +EC3.4.24.26 carbobenzooxydialanine-tyrosylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.38 * +EC3.4.24.26 dabsyl-ala-ala-phe-ala-edans pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.065 * +EC3.4.24.26 dialanine-phenylalanylalaninamide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.08 * +EC3.4.24.26 furylacryloyl-ala-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.16 * +EC3.4.24.26 furylacryloyl-ala-leu-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.18 * +EC3.4.24.26 furylacryloyl-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.21 * +EC3.4.24.26 furylacryloyl-gly-leu-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.23 * +EC3.4.24.26 pentaalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.94 * +EC3.4.24.26 tetraalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.4 * +EC3.4.24.26 trialanine-phenylalanylalanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.37 * +EC3.4.24.27 (7-methoxycoumarin-4yl) acetyl-l-pro-l-leu-gly-l-leu-[n3-(2,4-dinitrophenyl)-l-2,3-diamino-propionyl]-l-ala-l-arg-nh2 bacillus thermoproteolyticus//*//* 0.002 * +EC3.4.24.27 (europium(iii) complex of a modified terpyridine)-k1k2k2gfsak2k-black hole quencher 2 bacillus thermoproteolyticus//*//* 0.00449 * +EC3.4.24.27 [3h]tyr-gly-gly-phe-leu bacillus thermoproteolyticus//*//* 0.2 * +EC3.4.24.27 benzyloxycarbonyl-(4-nitro)phe-leu-ala bacillus thermoproteolyticus//*//* 0.65 * +EC3.4.24.27 benzyloxycarbonyl-asp-phe methyl ester bacillus thermoproteolyticus//*//* 0.033 * +EC3.4.24.27 benzyloxycarbonyl-asp bacillus thermoproteolyticus//*//* 2.8 * +EC3.4.24.27 benzyloxycarbonyl-gly-phe-leu-ala bacillus thermoproteolyticus//*//* 0.98 * +EC3.4.24.27 benzyloxycarbonyl-phe-leu-ala bacillus thermoproteolyticus//*//* 0.55 * +EC3.4.24.27 dansyl-ala-ala-phe-ala bacillus thermoproteolyticus//*//* 0.2 * +EC3.4.24.27 dansyl-ala-leu-ala bacillus thermoproteolyticus//*//* 2.0 * +EC3.4.24.27 dansyl-ala-phe-ala bacillus thermoproteolyticus//*//* 0.91 * +EC3.4.24.27 dansyl-gly-gly-leu-gly bacillus thermoproteolyticus//*//* 13.0 * +EC3.4.24.27 dansyl-gly-leu-gly bacillus thermoproteolyticus//*//* 5.0 * +EC3.4.24.27 dansyl-gly-leu-phe bacillus thermoproteolyticus//*//* 0.69 * +EC3.4.24.27 dansyl-gly-phe-ala bacillus thermoproteolyticus//*//* 0.08 * +EC3.4.24.27 dansyl-gly-phe-gly bacillus thermoproteolyticus//*//* 0.77 * +EC3.4.24.27 dansyl-gly-phe-phe bacillus thermoproteolyticus//*//* 0.3 * +EC3.4.24.27 gfa bacillus thermoproteolyticus//*//* 0.3 * +EC3.4.24.27 gfl bacillus thermoproteolyticus//*//* 0.4 * +EC3.4.24.27 gfs bacillus thermoproteolyticus//*//* 1.3 * +EC3.4.24.27 gfsa bacillus thermoproteolyticus//*//* 0.7 * +EC3.4.24.27 l-phe methyl ester bacillus thermoproteolyticus//*//* 250.0 * +EC3.4.24.27 l-phenylalanine methyl ester bacillus thermoproteolyticus//*//* 8.7 * +EC3.4.24.27 leucine enkephalin bacillus thermoproteolyticus//*//* 0.2 * +EC3.4.24.27 n,n'-diboc-dityrosyl-(ile-isoniazid)2 bacillus thermoproteolyticus//*//* 0.00395 * +EC3.4.24.27 n,n'-diboc-dityrosyl-(phe-isoniazid)2 bacillus thermoproteolyticus//*//* 0.00191 * +EC3.4.24.27 n-(benzyloxycarbonyl)-l-phe bacillus thermoproteolyticus//*//* 20.0 * +EC3.4.24.27 n-carbobenzoxy-gly-l-leu-nh2 bacillus thermoproteolyticus//*//* 14.0 * +EC3.4.24.27 n-carbobenzoxy-l-asp-l-phe methyl ester bacillus thermoproteolyticus//*//* 0.52 * +EC3.4.24.27 n-carbobenzoxy-l-aspartic acid bacillus thermoproteolyticus//*//* 62.0 * +EC3.4.24.27 phe-leu-ala-nh(ch2)2nh-dansyl bacillus thermoproteolyticus//*//* 0.62 * +EC3.4.24.28 3-(2-furylacryloyl)-glycyl-l-leucine amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.3 * +EC3.4.24.28 3-(2-furylacryloyl)-l-alanyl-l-phenylalanine amide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.3 * +EC3.4.24.28 plasminogen bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.003 * +EC3.4.24.3 2-furanacryloyl-leu-gly-pro-ala vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 1.06 * +EC3.4.24.3 carbobenzoxy-gly-pro-gly-gly-pro-ala hathewaya histolytica//*//* 0.71 * +EC3.4.24.3 furylacryloyl-leu-gly-pro-ala clostridium tetani//prokaryotes;bacteria;firmicutes - clostridia;clostridium//ctc 0.97 * +EC3.4.24.3 furylacryloyl-leu-gly-pro-ala hathewaya histolytica//*//* 0.269 * +EC3.4.24.3 n-[3-(2-furyl) acryloyl]-l-leu-gly-l-pro-l-ala hathewaya histolytica//*//* 0.555 * +EC3.4.24.30 insulin b-chain enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.0725 * +EC3.4.24.30 n-3-(2-furyl)acryloylglycyl-l-leucinamide enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 5.0 * +EC3.4.24.30 substance p enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.12 * +EC3.4.24.30 substrate p enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.02 * +EC3.4.24.34 (7-methoxycoumarin-4-yl)acetyl-pro-cyclohexylalanine-gly-norvaline-his-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0279 * +EC3.4.24.34 (7-methoxycoumarin-4-yl)acetyl-pro-leu-gly-leu-diamionopropionyl-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0184 * +EC3.4.24.34 (7-methoxycoumarin-4-yl)acetyl-pro-leu-gly-leu-l-diaminopropionyl-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0194 * +EC3.4.24.34 bovine collagen i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000208 * +EC3.4.24.34 guinea pig collagen type i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.4.24.34 human collagen type i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.4.24.34 human collagen type ii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.24.34 human collagen type iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.24.35 65000 mw form of vitronectin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC3.4.24.35 n-3-(2,4-dinitrophenyl)-l-2,3-diaminopropionyl-7-methoxycoumarin-4-yl acetyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00422 * +EC3.4.24.35 sgfgsrylta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.8 * +EC3.4.24.35 sgkgprqita mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.7 * +EC3.4.24.35 sgkiprrlta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC3.4.24.35 sgkiprtata mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.7 * +EC3.4.24.35 sgkiprtlta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.4.24.35 sglkalmita mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.4 * +EC3.4.24.35 sglrpaksta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 13.5 * +EC3.4.24.35 sgplfysvta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.4.24.35 sgpravstta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.9 * +EC3.4.24.35 sgqphyltta mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC3.4.24.35 stromelysin1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3e-05 * +EC3.4.24.35 vitronectin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.24.36 casein leishmania donovani donovani//*//* 0.0037 * +EC3.4.24.36 leu-ile-ala-tyr-leu-lys-lys-ala-thr leishmania sp.//*//* 20.0 * +EC3.4.24.37 ac-ala-ala-pro-met-nhphno2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.19 * +EC3.4.24.37 ac-ala-ala-pro-phe-nhphno2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.085 * +EC3.4.24.37 acetyl-ala-ala-pro-ala 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.19 * +EC3.4.24.37 acetyl-ala-ala-pro-phe 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.085 * +EC3.4.24.37 benzoyl-pro-phe-arg 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC3.4.24.37 bz-pro-phe-arg-nhphno2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC3.4.24.37 dnp-pro-leu-gly-pro-trp-d-lys saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.029 * +EC3.4.24.37 meosuc-ala-ala-pro-met-nhphno2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC3.4.24.37 methoxysuccinyl-ala-ala-pro-met 4-nitroanilide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC3.4.24.37 pz-pro-leu-gly-pro-d-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.006 * +EC3.4.24.39 n-butoxycarbonyl-arginyl-valyl-arginyl-arginyl-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0264 * +EC3.4.24.39 n-butoxycarbonyl-leu-arg-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0638 * +EC3.4.24.39 n-butoxycarbonyl-leu-lys-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.146 * +EC3.4.24.39 pyr-arg-thr-lys-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0119 * +EC3.4.24.39 z-arg-arg-4-methylcoumarin-7-amide aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.0473 * +EC3.4.24.40 ala-ala-ala-ala-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.5 * +EC3.4.24.40 ala-ala-ala-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.2 * +EC3.4.24.40 ala-ala-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 8.7 * +EC3.4.24.40 benzyloxycarbonyl-ala-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.7 * +EC3.4.24.40 benzyloxycarbonyl-ala-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.8 * +EC3.4.24.40 benzyloxycarbonyl-ala-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.5 * +EC3.4.24.40 benzyloxycarbonyl-d-ala-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 20.0 * +EC3.4.24.40 benzyloxycarbonyl-gly-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 7.7 * +EC3.4.24.40 benzyloxycarbonyl-gly-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.4 * +EC3.4.24.40 benzyloxycarbonyl-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.9 * +EC3.4.24.40 benzyloxycarbonyl-gly-leu-gly-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.4 * +EC3.4.24.40 benzyloxycarbonyl-gly-leu-gly-gly-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.3 * +EC3.4.24.40 benzyloxycarbonyl-gly-leu-gly-gly pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.0 * +EC3.4.24.40 benzyloxycarbonyl-gly-leu-leu pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.9 * +EC3.4.24.40 benzyloxycarbonyl-gly-leu-phe pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.6 * +EC3.4.24.40 benzyloxycarbonyl-gly-pro-gly-gly-pro-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.3 * +EC3.4.24.40 benzyloxycarbonyl-l-arg-l-arg-4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0126 * +EC3.4.24.40 benzyloxycarbonyl-phe-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.4 * +EC3.4.24.40 benzyloxycarbonyl-phe-gly-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.8 * +EC3.4.24.40 benzyloxycarbonyl-phe-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.3 * +EC3.4.24.40 benzyloxycarbonyl-phe-phe-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.2 * +EC3.4.24.40 benzyloxycarbonyl-val-ala-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.5 * +EC3.4.24.40 o-aminobenzoyl-kdrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00308 * +EC3.4.24.40 o-aminobenzoyl-kfrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00096 * +EC3.4.24.40 o-aminobenzoyl-kgrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.0027 * +EC3.4.24.40 o-aminobenzoyl-khrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.0007 * +EC3.4.24.40 o-aminobenzoyl-klffskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.002 * +EC3.4.24.40 o-aminobenzoyl-klrdskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00582 * +EC3.4.24.40 o-aminobenzoyl-klrnskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00292 * +EC3.4.24.40 o-aminobenzoyl-klrsskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00137 * +EC3.4.24.40 o-aminobenzoyl-klwfskq-(n-(2,4-dinitrophenyl)-ethylenediamine)-dinitrophenyl serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00056 * +EC3.4.24.40 o-aminobenzoyl-knrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00198 * +EC3.4.24.40 o-aminobenzoyl-kqrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00115 * +EC3.4.24.40 o-aminobenzoyl-ksrfskq-(n-(2,4-dinitrophenyl)-ethylenediamine) serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 0.00157 * +EC3.4.24.40 phe-gly-leu-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 17.3 * +EC3.4.24.40 t-butyloxycarbonyl-arg-val-arg-arg-4-methylcoumaryl-7-amide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.015 * +EC3.4.24.40 t-butyloxycarbonyl-val-leu-lys-4-methylcoumaryl-7-amide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.021 * +EC3.4.24.40 t-butyloxycarbonyl-val-leu-lys-4-methylcoumaryl-7-amide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.016 * +EC3.4.24.42 acetyl-ala-ala-leu-gly-ala crotalus atrox//*//* 0.71 * +EC3.4.24.42 acetyl-glu-ala-leu-gly-ala crotalus atrox//*//* 0.76 * +EC3.4.24.42 acetyl-val-ala-ala-leu-gly-ala crotalus atrox//*//* 0.69 * +EC3.4.24.42 acetyl-val-ala-leu-gly-gly crotalus atrox//*//* 0.31 * +EC3.4.24.42 acetyl-val-ala-leu-leu-ala crotalus atrox//*//* 0.62 * +EC3.4.24.42 acetyl-val-ala-phe-gly-ala crotalus atrox//*//* 0.5 * +EC3.4.24.42 acetyl-val-gly-leu-gly-ala crotalus atrox//*//* 0.21 * +EC3.4.24.42 glu-ala-leu-tyr-leu crotalus atrox//*//* 0.14 * +EC3.4.24.42 leu-val-glu-ala-leu-tyr-leu crotalus atrox//*//* 0.032 * +EC3.4.24.42 val-glu-ala-leu-tyr-leu crotalus atrox//*//* 0.023 * +EC3.4.24.52 2-aminobenzoyl-ala-gly-leu-ala-2,4-dinitroanilinoethylamide protobothrops flavoviridis//*//* 0.12 * +EC3.4.24.52 2-aminobenzoyl-asn-ala-phe-leu-ala-2,4-dinitroanilinoethylamide protobothrops flavoviridis//*//* 0.014 * +EC3.4.24.52 2-aminobenzoyl-phe-ser-pro-met-leu-2,4-dinitroanilinoethylamide protobothrops flavoviridis//*//* 0.013 * +EC3.4.24.52 2-aminobenzoyl-ser-pro-met-leu-2,4-dinitroanilinoethylamide protobothrops flavoviridis//*//* 0.015 * +EC3.4.24.52 2-aminobenzoyl-thr-glu-lys-leu-val-2,4-dinitroanilinoethylamide protobothrops flavoviridis//*//* 0.0076 * +EC3.4.24.53 benzyloxycarbonyl-gly-pro-leu-gly-pro protobothrops flavoviridis//*//* 22.0 * +EC3.4.24.55 (7-methoxycoumarin-4-yl)acetyl-nle-ala-val-lys-tyr-leu-asn-ser-lys(2,4-dinitrophenyl)-leu-asp-d-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0077 * +EC3.4.24.55 beta-amyloid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0009 * +EC3.4.24.55 beta-endorphin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00036 * +EC3.4.24.55 calcitonin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC3.4.24.55 dynorphin a fragment 1-13 bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.12 * +EC3.4.24.55 glucagon acinetobacter calcoaceticus//*//* 0.00061 * +EC3.4.24.55 glucagon escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0127 * +EC3.4.24.55 insulin b-chain bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.05 * +EC3.4.24.55 insulin b-chain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC3.4.24.55 insulin acinetobacter calcoaceticus//*//* 0.000105 * +EC3.4.24.55 substance p escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.031 * +EC3.4.24.55 vasoactive intestinal peptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC3.4.24.56 2-aminobenzoyl-ggflrkhgq-(n-(2,4-dinitrophenyl)ethylenediamine) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0287 * +EC3.4.24.56 abz-ggflrkhgq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0315 * +EC3.4.24.56 abz-ggflrkhgq-eddnp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01587 * +EC3.4.24.56 amyloid beta-peptide 1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0028 * +EC3.4.24.56 amyloid beta-peptide 1-42 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0023 * +EC3.4.24.56 amyloid beta-protein homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00123 * +EC3.4.24.56 amyloid beta homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC3.4.24.56 amyloid beta1-40 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.4.24.56 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.063 * +EC3.4.24.56 bradykinin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.4.24.56 dabcyl-tyr-glu-val-his-his-gln-lys-leu-val-phe-phe-ala-glu-asp-val-gly-glu(edans)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC3.4.24.56 desalanine-insulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.58e-05 * +EC3.4.24.56 desdipeptide-proinsulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.000176 * +EC3.4.24.56 desnonapeptide-proinsulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.5e-05 * +EC3.4.24.56 destridecapeptide-proinsulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4e-05 * +EC3.4.24.56 insulin-like peptide 3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.5e-05 * +EC3.4.24.56 insulin canis lupus familiaris//*//* 0.00025 * +EC3.4.24.56 insulin cavia porcellus//*//* 0.00025 * +EC3.4.24.56 insulin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3e-06 * +EC3.4.24.56 insulin frog//*//* 0.00025 * +EC3.4.24.56 insulin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2e-05 * +EC3.4.24.56 insulin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00025 * +EC3.4.24.56 insulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2e-05 * +EC3.4.24.56 insulin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7e-05 * +EC3.4.24.56 kallidin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.3 * +EC3.4.24.56 monoarginine-insulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.44e-05 * +EC3.4.24.56 proinsulin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002342 * +EC3.4.24.56 somatostatin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5 * +EC3.4.24.58 factor x daboia russelii//*//* 0.00025 * +EC3.4.24.59 abz-fqtkvaak(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.24.59 abz-frsgqplqnkvqlq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000941 * +EC3.4.24.59 abz-fsskttvk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.24.59 abz-gfspfrq-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.24.59 abz-ikqssllk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC3.4.24.59 abz-mtaalktk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0042 * +EC3.4.24.59 abz-nlmkkstk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.24.59 abz-qplankvq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.4.24.59 abz-qplqakvq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.24.59 abz-qplqnkvq-ed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.4.24.59 abz-ttklkaak(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00085 * +EC3.4.24.59 abz-vaaqtktk(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.4.24.59 abz-vissrlek(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.4.24.59 abz-vrnfrsgqplqnkvqed(dnp) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0018 * +EC3.4.24.59 abz-wttggkak(dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.4.24.60 (19-28)anf peptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.091 * +EC3.4.24.60 (20-28)anf peptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.513 * +EC3.4.24.60 (21-28)anf octapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.571 * +EC3.4.24.60 (22-28)anf heptapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.208 * +EC3.4.24.60 (23-28)anf hexapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.37 * +EC3.4.24.60 (5-11)substance p heptapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.124 * +EC3.4.24.60 (5-28)anf xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.05 * +EC3.4.24.60 (arg0,leu6)-enkephalin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.011 * +EC3.4.24.60 (leu5,arg6)-enkephalin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.079 * +EC3.4.24.60 [arg0,leu5,arg6]enkephalin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.011 * +EC3.4.24.60 [arg0,leu5]enkephalin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.133 * +EC3.4.24.60 [d-arg8]-kermit xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.12 * +EC3.4.24.60 [ile26](21-28)anf octapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.143 * +EC3.4.24.60 [leu26](21-28)anf octapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.408 * +EC3.4.24.60 [leu5,arg6]enkephalin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.079 * +EC3.4.24.60 [leu5,ile6]enkephalin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.167 * +EC3.4.24.60 [trp26](21-28)anf octapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.2 * +EC3.4.24.60 [tyr26](21-28)anf octapeptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.6 * +EC3.4.24.60 angiotensin ii xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.063 * +EC3.4.24.60 anp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.4.24.60 antibacterial peptide pgla xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.028 * +EC3.4.24.60 atrial natriuretic factor xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.05 * +EC3.4.24.60 beta-(1-40)amyloid xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.125 * +EC3.4.24.60 beta-amyloid derived peptide xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.125 * +EC3.4.24.60 bradykinin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.041 * +EC3.4.24.60 dynorphin a xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.05 * +EC3.4.24.60 litorin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.024 * +EC3.4.24.60 neurokinin a xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.125 * +EC3.4.24.60 neurokinin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.42 * +EC3.4.24.60 neuromedin b xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.021 * +EC3.4.24.60 neuromedin c xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.022 * +EC3.4.24.60 pgla xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.028 * +EC3.4.24.60 somatostatin-14 xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.018 * +EC3.4.24.60 substance p xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.02 * +EC3.4.24.61 2-aminobenzoyl-gfspfrssrqed(2,4-dinitrophenyl) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0019 * +EC3.4.24.61 2-aminobenzoyl-ggalrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0074 * +EC3.4.24.61 2-aminobenzoyl-ggfarkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0061 * +EC3.4.24.61 2-aminobenzoyl-ggffrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0094 * +EC3.4.24.61 2-aminobenzoyl-ggfhrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0044 * +EC3.4.24.61 2-aminobenzoyl-ggfikkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0075 * +EC3.4.24.61 2-aminobenzoyl-ggfikrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0074 * +EC3.4.24.61 2-aminobenzoyl-ggfirkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0062 * +EC3.4.24.61 2-aminobenzoyl-ggfirrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0033 * +EC3.4.24.61 2-aminobenzoyl-ggfirrvgq-n-(2,4-dinitrophenyl)ethylenediamine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.4.24.61 2-aminobenzoyl-ggflkkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0073 * +EC3.4.24.61 2-aminobenzoyl-ggflkrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0051 * +EC3.4.24.61 2-aminobenzoyl-ggflrkagq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.4.24.61 2-aminobenzoyl-ggflrkdgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC3.4.24.61 2-aminobenzoyl-ggflrkfgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0066 * +EC3.4.24.61 2-aminobenzoyl-ggflrkhgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0048 * +EC3.4.24.61 2-aminobenzoyl-ggflrkigq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0051 * +EC3.4.24.61 2-aminobenzoyl-ggflrklgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0049 * +EC3.4.24.61 2-aminobenzoyl-ggflrkmgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0075 * +EC3.4.24.61 2-aminobenzoyl-ggflrkngq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0097 * +EC3.4.24.61 2-aminobenzoyl-ggflrksgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0101 * +EC3.4.24.61 2-aminobenzoyl-ggflrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC3.4.24.61 2-aminobenzoyl-ggflrkwgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0055 * +EC3.4.24.61 2-aminobenzoyl-ggflrrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0036 * +EC3.4.24.61 2-aminobenzoyl-ggflrrvgq-n[2,4-dinitrophenyl]-ethylenediamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00023 * +EC3.4.24.61 2-aminobenzoyl-ggfmrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0072 * +EC3.4.24.61 2-aminobenzoyl-ggfnrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC3.4.24.61 2-aminobenzoyl-ggfsrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC3.4.24.61 2-aminobenzoyl-ggfvrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0095 * +EC3.4.24.61 2-aminobenzoyl-ggfwrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.4.24.61 2-aminobenzoyl-ggfykkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC3.4.24.61 2-aminobenzoyl-ggfykrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC3.4.24.61 2-aminobenzoyl-ggfyrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0083 * +EC3.4.24.61 2-aminobenzoyl-ggfyrrvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0026 * +EC3.4.24.61 2-aminobenzoyl-gghlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0057 * +EC3.4.24.61 2-aminobenzoyl-ggilrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0064 * +EC3.4.24.61 2-aminobenzoyl-ggllrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0091 * +EC3.4.24.61 2-aminobenzoyl-ggmlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0067 * +EC3.4.24.61 2-aminobenzoyl-ggnlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC3.4.24.61 2-aminobenzoyl-ggslrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC3.4.24.61 2-aminobenzoyl-ggvlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0092 * +EC3.4.24.61 2-aminobenzoyl-ggwlrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC3.4.24.61 2-aminobenzoyl-ggylrkvgq-ethylenediamine-2,4-dinitrophenyl rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0092 * +EC3.4.24.61 2-aminobenzoyl-mislmkrppgfspfrssrinh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0041 * +EC3.4.24.61 2-aminobenzoyl-mislmkrpqed(2,4-dinitrophenyl) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0035 * +EC3.4.24.61 2-aminobenzoyl-tplvtlx1x2naiikqed(2,4-dinitrophenyl) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00054 * +EC3.4.24.61 [ala17,tyr20]-somatostatin-28-(10-20)-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.428 * +EC3.4.24.61 [arg0,ala17]-somatostatin-28-(1-19)-nh2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.227 * +EC3.4.24.61 alpha-neoendorphin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.974 * +EC3.4.24.61 anf-(1-28) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00625 * +EC3.4.24.61 betaendorphin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC3.4.24.61 bovine adrenal medulla dodecapeptide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.103 * +EC3.4.24.61 calcitonin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0017 * +EC3.4.24.61 dynorphin a-(1-10) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.127 * +EC3.4.24.61 dynorphin a-(1-13) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.4.24.61 dynorphin a-(1-9) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.162 * +EC3.4.24.61 dynorphin a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00645 * +EC3.4.24.61 dynorphin b rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.209 * +EC3.4.24.61 dynorphin b13 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC3.4.24.61 preproneurotensin-(154-170) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0173 * +EC3.4.24.61 somatostatin-14 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0005 * +EC3.4.24.61 somatostatin-28 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0055 * +EC3.4.24.62 peptide i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC3.4.24.63 (7-methoxycoumarin-4-yl)acetyl-yvadapk-(k-epsilon-dnp)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-07 * +EC3.4.24.63 abz-vkmdae-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.24.63 abz-vnldae-eddnp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC3.4.24.63 actin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00073 * +EC3.4.24.63 bradykinin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00104 * +EC3.4.24.63 cholecystokinin 8 sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.211 * +EC3.4.24.63 gastri-releasing peptide-(14-27) mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0481 * +EC3.4.24.63 gastrin 17 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00104 * +EC3.4.24.63 gastrin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0071 * +EC3.4.24.63 glucagon mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC3.4.24.63 orcokinin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC3.4.24.63 scck8nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.211 * +EC3.4.24.63 villin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00117 * +EC3.4.24.64 araaraarafaasa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0425 * +EC3.4.24.64 araaraarafasaa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0215 * +EC3.4.24.64 araaraarafatsa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0074 * +EC3.4.24.64 araaraarafsaaa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0296 * +EC3.4.24.64 araaraarafsasa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0294 * +EC3.4.24.64 araaraarafscsa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0173 * +EC3.4.24.64 araaraarafssaa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0095 * +EC3.4.24.64 araaraarafsssa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0086 * +EC3.4.24.64 araaraarafstaa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0038 * +EC3.4.24.64 araaraarafstsa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0031 * +EC3.4.24.64 araaraarafsvsa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0165 * +EC3.4.24.64 araaraaraftssa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0103 * +EC3.4.24.64 araaraaraygsta bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0098 * +EC3.4.24.64 araaraarayssta bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0108 * +EC3.4.24.64 araaraaraystta bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0079 * +EC3.4.24.64 mdh1-21 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.4e-05 * +EC3.4.24.65 feln-100 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.4.24.65 mca-pro-leu-gly-leu-dpa-ala-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.129 * +EC3.4.24.66 evqppdsplsi oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 48.0 * +EC3.4.24.67 casein paralichthys olivaceus//*//* 4.28 * +EC3.4.24.67 npqvpqypskpq oryzias latipes//eukaryotes;animals;vertebrates;fishes//ola 480.0 * +EC3.4.24.69 ac-erdqklselddradalqag-(7-methoxy-4-methylcoumaryl)lys-sq-diaminopropionic acid(2,4-dinitrophenyl)-essaaklkrkywwknlk-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.0709 * +EC3.4.24.69 ac-iignlrh(nle)ald(nle)gneidtqnrqidri(nle)ekadsnktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)l-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.00013 * +EC3.4.24.69 ac-iignlrhmaldmgneidtqnrqidrimekadsnktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)l-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.00079 * +EC3.4.24.69 ac-ksdsnktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)lgsg-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.011 * +EC3.4.24.69 ac-rgsnkpkidagnqratrxlggr-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.032 * +EC3.4.24.69 ac-snktridcanqratkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.59 * +EC3.4.24.69 ac-snktridean(pno2-phe)ra(1-pyrenylalanine)k(nle)l-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.013 * +EC3.4.24.69 ac-snktrideanqratkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.7 * +EC3.4.24.69 ac-snktrideanqrctkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.89 * +EC3.4.24.69 ac-snktridecnqratkml-nh2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.4 * +EC3.4.24.69 snap-25 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.013 * +EC3.4.24.69 snktrideaaqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.6 * +EC3.4.24.69 snktrideanbratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.83 * +EC3.4.24.69 snktrideannratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.75 * +EC3.4.24.69 snktrideanqrabkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.3 * +EC3.4.24.69 snktrideanqrataml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.0 * +EC3.4.24.69 snktrideanqratk clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.9 * +EC3.4.24.69 snktrideanqratkal clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.9 * +EC3.4.24.69 snktrideanqratkm clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.6 * +EC3.4.24.69 snktrideanqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.2 * +EC3.4.24.69 snktrideanqratkxl clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.58 * +EC3.4.24.69 snktrideanqrbtkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.8 * +EC3.4.24.69 snktridebnqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 1.1 * +EC3.4.24.69 snktridqanqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.75 * +EC3.4.24.69 snktrineanqratkml clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.82 * +EC3.4.24.69 synaptosome-associated protein snap-25 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.0079 * +EC3.4.24.69 vamp-2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.007 * +EC3.4.24.69 vamp2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.0016 * +EC3.4.24.69 vesicle-associated membrane protein-2 clostridium botulinum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cbo 0.00291 * +EC3.4.24.7 2,4-dinitrophenyl-pro-beta-cyclohexyl-ala-gly-cys(me)-his-ala-lys(n-methyl-2-aminobenzoyl)-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.4.24.7 2,4-dinitrophenyl-pro-leu-ala-leu-trp-ala-arg-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC3.4.24.7 [alpha1(ii)769-783] fluorogenic triple-helical peptide-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0612 * +EC3.4.24.7 [alpha1(ii)769-783] fluorogenic triple-helical peptide-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0208 * +EC3.4.24.7 [alpha1(ii)769-783] single-stranded peptide-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.171 * +EC3.4.24.7 acetyl-pro-leu-gly-ile-leu-gly-oc2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.24.7 acetyl-pro-leu-gly-leu-leu-gly-oc2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0012 * +EC3.4.24.7 acetyl-pro-leu-gly-sch[ch2ch(ch3)2co]-leu-leu-oc2h5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0039 * +EC3.4.24.7 alpha1(i)772-786 triple-helical peptide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC3.4.24.7 bovine type i collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0002 * +EC3.4.24.7 collagen i alpha-1 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.6e-10 * +EC3.4.24.7 collagen i alpha-2 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5e-10 * +EC3.4.24.7 fthp-3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0612 * +EC3.4.24.7 gly-pro-gln-gly-ile-ala-gly-gln-gln-arg-gly-val-val-gly-leu-hyp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC3.4.24.7 gly-pro-gln-gly-ile-ala-gly-gln-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.24.7 gplgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.24.7 gpqgiaga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6 * +EC3.4.24.7 gpqgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.3 * +EC3.4.24.7 gpqgiagt homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.4.24.7 gpqglagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.8 * +EC3.4.24.7 gprgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC3.4.24.7 gpvgiagq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.9 * +EC3.4.24.7 human type i collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC3.4.24.7 human type i collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC3.4.24.7 human type i collagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC3.4.24.7 human type ii collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC3.4.24.7 human type ii collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.4.24.7 human type iii collagen bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0024 * +EC3.4.24.7 human type iii collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.24.7 human type iii collagen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0017 * +EC3.4.24.7 type i collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC3.4.24.7 type iii collagen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.4.24.71 (7-methoxycoumarin-4-yl)acetyl-arg-pro-pro-gly-phe-ser-ala-phe-lys-2,4-dinitrophenyl-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.4.24.71 big endothelin-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.4.24.71 big endothelin-1 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0002 * +EC3.4.24.71 big endothelin-2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00046 * +EC3.4.24.71 big endothelin-3 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00014 * +EC3.4.24.71 big endothelin-3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00027 * +EC3.4.24.72 arg-pro-pro-gly-phe-ser-pro-phe-arg agkistrodon contortrix//*//* 6.54e-05 * +EC3.4.24.72 d-val-leu-lys-4-nitroanilide patiria pectinifera//*//* 1.37 * +EC3.4.24.72 his-thr-glu-ala-leu-val-thr-ser agkistrodon contortrix//*//* 7.39e-06 * +EC3.4.24.72 his-thr-glu-arg-leu-val-thr-ser agkistrodon contortrix//*//* 3.38e-06 * +EC3.4.24.72 his-thr-glu-asn-leu-val-thr-ser agkistrodon contortrix//*//* 9.37e-06 * +EC3.4.24.72 his-thr-glu-glu-leu-val-thr-ser agkistrodon contortrix//*//* 1.64e-06 * +EC3.4.24.72 his-thr-glu-his-leu-val-thr-ser agkistrodon contortrix//*//* 4.15e-06 * +EC3.4.24.72 his-thr-glu-leu-leu-val-thr-ser agkistrodon contortrix//*//* 5.28e-06 * +EC3.4.24.72 his-thr-glu-lys-leu-val-thr-ser agkistrodon contortrix//*//* 5.79e-06 * +EC3.4.24.72 his-thr-glu-lys-phe-val-thr-ser agkistrodon contortrix//*//* 2.47e-06 * +EC3.4.24.72 his-thr-glu-phe-leu-val-thr-ser agkistrodon contortrix//*//* 1.13e-06 * +EC3.4.24.72 his-thr-glu-pro-leu-val-thr-ser agkistrodon contortrix//*//* 3.91e-06 * +EC3.4.24.72 his-thr-glu-ser-leu-val-thr-ser agkistrodon contortrix//*//* 8.32e-06 * +EC3.4.24.72 leu-val-glu-ala-leu-tyr-leu-val agkistrodon contortrix//*//* 1.38e-06 * +EC3.4.24.72 low molecular weight kininogen agkistrodon contortrix//*//* 2.42e-07 * +EC3.4.24.73 abz-lvealyq-eddnp bothrops jararaca//*//* 0.0051 * +EC3.4.24.75 l-lysine(n-e-pentaglycine-n-(2-aminobenzoyl))-[n-(2,4-dinitrophenyl)ethylenediamine] staphylococcus simulans//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ssif 0.07 * +EC3.4.24.75 l-lysine(n-e-pentaglycyl-dabcyl)-edans staphylococcus simulans//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ssif 0.07 * +EC3.4.24.75 n-(2-aminobenzoyl)pentaglycine-[n-(2,4-dinitrophenyl)ethylenediamine] staphylococcus simulans//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ssif 0.2 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-ala-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-arg-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-glu-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-phe-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-asp-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-ile-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-lys-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-pro-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.77 n-[2-(n-methylamino)benzoyl]-2,3-diaminopropionic acid-gly-val-tyr-phe-ala-phe-pro-lys(2,4-dinitrophenyl)-d-arg-d-arg streptomyces septatus//*//* 0.005 * +EC3.4.24.78 n-acetyl-phe-glu-ile-ala-ser-glu-phe-gly-val-asn-leu-gly-pro-asp-ala-thr-ala-arg bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.4 * +EC3.4.24.78 n-acetyl-thr-glu-phe-ala-ser-glu-phe bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 20.0 * +EC3.4.24.78 purified small acid-soluble protein bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.014 * +EC3.4.24.78 small tetra-to heptapeptides containing a cleavage site bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 20.0 * +EC3.4.24.78 spore protein a bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.0014 * +EC3.4.24.78 spore protein b bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.008 * +EC3.4.24.79 igfbp-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00045 * +EC3.4.24.79 igfbp-5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00031 * +EC3.4.24.80 collagen i alpha-1 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3e-10 * +EC3.4.24.80 collagen i alpha-2 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.5e-10 * +EC3.4.24.80 collagen type i alpha-1 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00086 * +EC3.4.24.80 collagen type i alpha-2 chain homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC3.4.24.80 mocacplgla2pr-dinitrophenol-a-rnh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.4.24.80 type i collagen chain alpha-1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-05 * +EC3.4.24.80 type i collagen chain alpha-2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5e-05 * +EC3.4.24.81 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser(glycosyl)-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC3.4.24.81 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.24.82 [c6-(gly-pro-hyp)5-gly-thr-lys(7-amido-4-methylcoumarin)-gly-glu-leu-glu-gly-arg-gly-thr-lys(2,4-dinitrophenyl)-gly-ile-ser-(gly-pro-hyp)5-nh2]3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0471 * +EC3.4.24.82 aggrecan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0203 * +EC3.4.24.82 c6-(gly-pro-hyp-pro-hyp-gly)2-gly-pro-hyp-gly-thr-lys(mca)-gly-glu-leu-glu-gly-arg-gly-thr-lys(dnp)-gly-ile-ser-(gly-pro-hyp-pro-hyp-gly)2-gly-pro-hyp-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.279 * +EC3.4.24.82 chondroitin 4-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0282 * +EC3.4.24.82 lys(carboxyfluorescein)-asp-val-gln-glu-phe-arg-gly-val-thr-ala-val-ile-arg-lys(tetramethylrhodamine)-lys-gly-lys-nh2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC3.4.24.82 qtvtwpdmelplprnitegeargsviltvkpifevspsplk bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.48 * +EC3.4.24.83 acetyl-gybetaarrrrrrrrvlr-4-nitroanilide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.073 * +EC3.4.24.83 acg-y-betaa-r-r-r-a-r-r-r-r-v-l-r-4-nitroanilide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0018 * +EC3.4.24.83 acm-l-a-r-r-r-p-v-l-p-4-nitroanilide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.03 * +EC3.4.24.83 acr-r-r-r-v-l-r-4-methylcoumarin-7-amide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.082 * +EC3.4.24.83 acr-r-r-r-v-l-r-4-nitroanilide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0095 * +EC3.4.24.83 fluorescein-qrrkkvypypme bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0023 * +EC3.4.24.83 fluorescence resonance energy transfer peptide mapkkide bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0086 * +EC3.4.24.86 (edans)-elaqavrsssrk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0072 * +EC3.4.24.86 (edans)-eplaqavrsssk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.4.24.86 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser(4o-(beta-d-gal-(1->3)-alpha-d-galnac))-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.24.86 glu(edans)-pro-leu-ala-gln-ala-val-arg-ser-ser-ser-lys(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC3.4.24.86 nh2-laqavrsssr-oh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC3.4.24.86 s80-glycosylated (edans)-elaqavrsssrk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.4.24.86 s80-glycosylated (edans)-eplaqavrsssk-(dabcyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.24.87 frets-von willebrand factor 73 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0032 * +EC3.4.24.87 hrph-a2-b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC3.4.24.87 von willebrand factor 115 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00065 * +EC3.4.24.87 vwf115 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00154 * +EC3.4.24.89 dabcyl-lys-evnppppd-edansglu clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.077 * +EC3.4.24.B10 s-carboxymethylated transferrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0145 * +EC3.4.24.B14 3-methoxysuccinyl-gly-leu-phe-met-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.023 * +EC3.4.24.B14 succinyl-ala-ala-phe-4-methylcoumarin 7-amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.062 * +EC3.4.24.B14 succinyl-ala-ala-phe-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.027 * +EC3.4.24.B14 succinyl-ala-ala-val-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC3.4.24.B16 4-(dimethylamino)azobenzene-4'-sulfonyl-leu-gly-gly-gly-ala-5-(2-aminoethylamino)-1-naphthalenesulfonic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC3.4.24.B16 succinyl-gly-gly-leu-4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 11.2 * +EC3.4.24.B16 succinyl-gly-gly-phe-4-nitroanilide pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.46 * +EC3.4.24.B17 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC3.4.24.B17 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.104 * +EC3.4.24.B17 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.3 * +EC3.4.24.B17 protein sigma32 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.023 * +EC3.4.24.B2 n-(3-(2-furyl)acryloyl)-leu-gly-pro-ala bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.0992 * +EC3.4.24.B3 dansyl-pro-leu-ala-leu-trp-ala-arg-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.021 * +EC3.4.24.B3 dansyl-pro-leu-ala-s-[(4-methoxyphenyl)methyl]cys-trp-ala-arg-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0052 * +EC3.4.24.B3 ggaanlvrgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.705 * +EC3.4.24.B3 ggyaelrmgg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.207 * +EC3.4.24.B39 n-(4-tosyl)-gly-pro-lys-4-nitroanilide deinagkistrodon acutus//*//* 0.5382 * +EC3.4.24.B4 y(no2)ggpaglyek(abz)g mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00584 * +EC3.4.24.B6 amelogenin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0195 * +EC3.4.24.B6 mca-plgl-[3-dnp-2,3-dap]-ar-nh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0143 * +EC3.4.24.B6 mca-plgl-[3-dnp-2,3-dap]-ar-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0164 * +EC3.4.24.B6 mca-plgl-dpa-ar bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0143 * +EC3.4.24.B6 mca-plgl-dpa-ar homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0164 * +EC3.4.25.1 acetyl-epfd-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.4.25.1 acetyl-epfd-7-amido-4-carbamoylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.088 * +EC3.4.25.1 acetyl-hhsl-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.4.25.1 acetyl-norleucine-arg-norleucine-arg-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.4.25.1 acetyl-norleucine-arg-norleucine-arg-7-amido-4-carbamoylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.67 * +EC3.4.25.1 acetyl-ywtq-7-amido-4-carbamoylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.4.25.1 acetyl-ywtq-7-amido-4-carbamoylcoumarin trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.038 * +EC3.4.25.1 benzoyl-vgr-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.4.25.1 benzyloxycarbonyl-arr-7-amido-4-methylcoumarin struthio camelus//*//* 0.248 * +EC3.4.25.1 benzyloxycarbonyl-ggf-4-aminobenzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.29 * +EC3.4.25.1 benzyloxycarbonyl-ggl-7-amido-4-methylcoumarin struthio camelus//*//* 0.751 * +EC3.4.25.1 benzyloxycarbonyl-ggr-7-amido-4-methylcoumarin struthio camelus//*//* 0.798 * +EC3.4.25.1 benzyloxycarbonyl-gpafg-4-aminobenzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.38 * +EC3.4.25.1 benzyloxycarbonyl-gpalg-4-aminobenzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.4.25.1 benzyloxycarbonyl-leu-leu-leu-7-amido-4-methylcoumarin patiria pectinifera//*//* 0.048 * +EC3.4.25.1 benzyloxycarbonyl-lle-2-naphthylamide struthio camelus//*//* 0.255 * +EC3.4.25.1 benzyloxycarbonyl-lle-7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.4.25.1 benzyloxycarbonyl-rr-7-amido-4-methylcoumarin struthio camelus//*//* 0.051 * +EC3.4.25.1 beta-casein bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01054 * +EC3.4.25.1 n-succinyl-llvy 7-amido-4-methylcoumarin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC3.4.25.1 succinyl-aaf-7-amido-4-methylcoumarin struthio camelus//*//* 1.504 * +EC3.4.25.1 succinyl-leu-leu-val-tyr-7-amido-4-methylcoumarin patiria pectinifera//*//* 0.089 * +EC3.4.25.1 succinyl-llvy-7-amido-4-methylcoumarin struthio camelus//*//* 0.263 * +EC3.4.25.1 tert-butyloxycarbonyl-phe-ser-arg-7-amido-4-methylcoumarin patiria pectinifera//*//* 0.2 * +EC3.4.25.2 arc-myl-st11 plus escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.4.25.2 arc-myl-st11 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0052 * +EC3.4.25.2 arc-st11-ssra escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.4.25.2 arc1-53-st11-titin-ssra escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC3.4.25.2 insulin b-chain escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC3.4.99.B1 2-aminobenzoyl-ksktkc(farnesyl) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.99.B1 2-aminobenzoyl-ksktkc(farnesyl)lysine-epsilon-dinitrophenyl-im homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.4.99.B1 2-aminobenzoyl-ksktkc(farnesyl)vi-dinitrophenyldiaminopropionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 2-aminobenzoyl-ksktkc(farnesyl)vi-lysine-epsilon-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.99.B1 2-aminobenzoyl-ksktkc(farnesyl)vi homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 2-aminobenzoyl-ksktkc(farnesyl)vim homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 7-methoxycoumarin-4-acetyl-ksktkc(farnesyl)-dinitrophenyldiaminopropionic acid-im homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 7-methoxycoumarin-4-acetyl-ksktkc(farnesyl)-vi-dinitrophenyldiaminopropionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.4.99.B1 7-methoxycoumarin-4-acetyl-ksktkc(farnesyl)lysine-epsilon-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.4.99.B1 7-methoxycoumarin-4-acetyl-ksktkc(farnesyl)vi-lysine-epsilon-dinitrophenyl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 7-methoxycoumarin-4-acetyl-ksktkc(farnesyl)vim homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 a-factor derived synthetic farnesylated pentadecapeptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00172 * +EC3.4.99.B1 abz-l-lys-l-ser-l-lys-l-the-l-lys-s-[(2e)-4-[(3-benzoylbenzyl)oxy]-3-methylbut-2-en-1-yl]-l-cys-n6-(3,5-dinitrophenyl)-l-lysl-l-ile-l-met saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0019 * +EC3.4.99.B1 abz-l-lys-l-ser-l-lys-l-the-l-lys-s-[(2e,6e)-3,7,11-trimethyldodeca-2,6,10-trien-1-yl]-l-cys-n6-(3,5-dinitrophenyl)-l-lysl-l-ile-l-met saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0064 * +EC3.4.99.B1 k-ras(farnesyl)vim homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.4.99.B1 ki-ras homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC3.4.99.B1 ksktkc(farnesyl)vim homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.4.99.B1 kwdpa(farnesyl)cvia saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0028 * +EC3.4.99.B1 n-acetyl-s-farnesyl-l-cysteinyl-l-valyl-l-isoleucyl-l-serine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0057 * +EC3.4.99.B2 succinyl-d-asp-4-methylcoumaryl-7-amide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 1.0 * +EC3.4.99.B2 succinyl-d-asp-alpha-4-methylcoumaryl-7-amide oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC3.4.99.B2 succinyl-d-asp-p-nitroanilide paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 1.03 * +EC3.5.1.1 asn acinetobacter calcoaceticus//*//* 0.0048 * +EC3.5.1.1 asn bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 4.7 * +EC3.5.1.1 asn cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.03 * +EC3.5.1.1 asn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0115 * +EC3.5.1.1 asn gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.06 * +EC3.5.1.1 beta-asp-his arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.38 * +EC3.5.1.1 beta-l-asp-l-phe cavia porcellus//*//* 0.41 * +EC3.5.1.1 beta-l-asp-l-phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.5.1.1 d-asn pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.832 * +EC3.5.1.1 d-asn proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.43 * +EC3.5.1.1 d-asparagine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 24.1 * +EC3.5.1.1 d-glutamine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 77.6 * +EC3.5.1.1 diazo-4-oxo-l-norvaline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0095 * +EC3.5.1.1 gln acinetobacter calcoaceticus//*//* 0.0058 * +EC3.5.1.1 gln cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.04 * +EC3.5.1.1 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.26 * +EC3.5.1.1 gln pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.1 * +EC3.5.1.1 l-asn acinetobacter calcoaceticus//*//* 3.0 * +EC3.5.1.1 l-asn bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 4.0 * +EC3.5.1.1 l-asn cavia porcellus//*//* 0.032 * +EC3.5.1.1 l-asn erwinia aroidea//*//* 3.0 * +EC3.5.1.1 l-asn mucor sp.//*//* 6.7 * +EC3.5.1.1 l-asn pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.00016 * +EC3.5.1.1 l-asn pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.147 * +EC3.5.1.1 l-asn pseudomonas chlororaphis subsp. aurantiaca//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pcp 0.006 * +EC3.5.1.1 l-asn pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.145 * +EC3.5.1.1 l-asn sphagnum fallax//*//* 6.2 * +EC3.5.1.1 l-asn tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 4.1 * +EC3.5.1.1 l-asn thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.8 * +EC3.5.1.1 l-asparagine acinetobacter calcoaceticus//*//* 2.0 * +EC3.5.1.1 l-asparagine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.83 * +EC3.5.1.1 l-asparagine azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.11 * +EC3.5.1.1 l-asparagine bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.014 * +EC3.5.1.1 l-asparagine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.43 * +EC3.5.1.1 l-asparagine cavia porcellus//*//* 0.0577 * +EC3.5.1.1 l-asparagine chlamydomonas sp.//*//* 0.015 * +EC3.5.1.1 l-asparagine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.029 * +EC3.5.1.1 l-asparagine cladosporium sp.//*//* 100.0 * +EC3.5.1.1 l-asparagine dickeya chrysanthemi//*//* 0.058 * +EC3.5.1.1 l-asparagine erwinia sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;erwinia//erj 2.8 * +EC3.5.1.1 l-asparagine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0125 * +EC3.5.1.1 l-asparagine fusarium tricinctum//*//* 0.5 * +EC3.5.1.1 l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.09 * +EC3.5.1.1 l-asparagine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 7.0 * +EC3.5.1.1 l-asparagine lupinus arboreus//*//* 6.6 * +EC3.5.1.1 l-asparagine lupinus polyphyllus//*//* 12.2 * +EC3.5.1.1 l-asparagine mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.7 * +EC3.5.1.1 l-asparagine neonectria obtusispora//*//* 1.0 * +EC3.5.1.1 l-asparagine nocardiopsis alba//prokaryotes;bacteria;actinobacteria;nocardiopsis//nal 0.127 * +EC3.5.1.1 l-asparagine pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.01 * +EC3.5.1.1 l-asparagine pisum sativum//*//* 3.2 * +EC3.5.1.1 l-asparagine proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.026 * +EC3.5.1.1 l-asparagine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.147 * +EC3.5.1.1 l-asparagine pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 8.12 * +EC3.5.1.1 l-asparagine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC3.5.1.1 l-asparagine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.1 * +EC3.5.1.1 l-asparagine staphylococcus sp.//*//* 2.2 * +EC3.5.1.1 l-asparagine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.024 * +EC3.5.1.1 l-asparagine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 10.0 * +EC3.5.1.1 l-asparagine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.6 * +EC3.5.1.1 l-asparagine vigna unguiculata//*//* 1.25 * +EC3.5.1.1 l-asparagine withania somnifera//*//* 0.061 * +EC3.5.1.1 l-asparagine wolinella succinogenes//prokaryotes;bacteria;epsilonproteobacteria;wolinella//wsu 0.0478 * +EC3.5.1.1 l-asparagine yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.017 * +EC3.5.1.1 l-aspartyl-beta-hydroxamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC3.5.1.1 l-aspartyl-beta-hydroxamate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.442 * +EC3.5.1.1 l-gln dickeya chrysanthemi//*//* 6.7 * +EC3.5.1.1 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC3.5.1.1 l-gln pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 3.44 * +EC3.5.1.1 l-gln proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 5.0 * +EC3.5.1.1 l-gln pseudomonas chlororaphis subsp. aurantiaca//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pcp 0.005 * +EC3.5.1.1 l-glutamine thermococcus gammatolerans//prokaryotes;archaea;euryarchaeota;thermococcus//tga 39.5 * +EC3.5.1.1 nalpha-acetyl-asn dickeya chrysanthemi//*//* 0.8 * +EC3.5.1.1 succinamic acid dickeya chrysanthemi//*//* 18.8 * +EC3.5.1.10 10-formyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.5.1.10 formyltetrahydrofolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.049 * +EC3.5.1.101 l-proline-p-nitroanilide pseudomonas azotoformans//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pazo 0.58 * +EC3.5.1.102 2-amino-5-formylamino-6-ribosylamino-4(3h)-pyrimidinone 5'-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.0 * +EC3.5.1.103 1-(2-acetamido-2-deoxy-alpha-d-glucopyranosyl)-1d-myo-inositol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.34 * +EC3.5.1.103 n-acetyl-d-glucosamine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 34.0 * +EC3.5.1.103 n-deacetyl-n-formylmycothiol-monobromobimane conjugate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.34 * +EC3.5.1.103 phenyl-2-acetamido-2-deoxy-1-thio-alpha-d-glucopyranoside mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.695 * +EC3.5.1.104 4-nitrophenyl acetate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 16.7 * +EC3.5.1.104 4-yethylumbelliferyl acetate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.27 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.3 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.37 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.18 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac-beta-1,4-glcnac bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 12.3 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.2 * +EC3.5.1.104 glcnac-beta-1,4-glcnac-beta-1,4-glcnac streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 3.8 * +EC3.5.1.104 glcnac-beta-1,4-glcnac bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 3.9 * +EC3.5.1.104 peptidoglycan-n-acetyl-d-glucosamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.8 * +EC3.5.1.105 2-(acetylamino)-4-o-[2-(acetylamino)-2-deoxy-beta-d-glucopyranosyl]-2-deoxy-beta-d-glucopyranose thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 31.8 * +EC3.5.1.105 glcnac-beta-1,4-glcnac-beta-1,4-glcnac thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 98.0 * +EC3.5.1.107 maleamate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.128 * +EC3.5.1.108 udp-(2-acetamino)-2-deoxy-3-o-[2-(hexylamino)-1-methyl-2-oxoethyl]-d-glucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.367 * +EC3.5.1.108 udp-3-((r)-3-hydroxytetradecanoyl)-n-acetyl-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00032 * +EC3.5.1.108 udp-3-o-((r)-3-hydroxymyristoyl)-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00019 * +EC3.5.1.111 2-oxoglutaramate paenarthrobacter nicotinovorans//*//* 6.3 * +EC3.5.1.114 4-hydroxy-2-nonenal mercapturate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC3.5.1.114 acrolein mercapturate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.71 * +EC3.5.1.114 n-acetyl-1,2-dichlorovinyl-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.02 * +EC3.5.1.114 n-acetyl-l-histidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC3.5.1.114 n-acetyl-l-lysine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.5.1.114 n-acetyl-l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.6 * +EC3.5.1.114 n-acetyl-l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.5.1.114 n-acetyl-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.5.1.114 n-acetyl-s-(1,1,2,2-tetrafluoroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC3.5.1.114 n-acetyl-s-(1,2,2-trichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.5.1.114 n-acetyl-s-(1,2,3,4,4-pentachlorobutadienyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC3.5.1.114 n-acetyl-s-(1,2-dichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.56 * +EC3.5.1.114 n-acetyl-s-(2,2-dichloro-1,1-difluoroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.3 * +EC3.5.1.114 n-acetyl-s-(2,2-dichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC3.5.1.114 n-acetyl-s-(2,2-difluoro-1,1-dichloroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.5.1.114 n-acetyl-s-(2-chloro-1,1,2-trifluoroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC3.5.1.114 n-acetyl-s-(2-chlorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.45 * +EC3.5.1.114 n-acetyl-s-(2-fluorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.5.1.114 n-acetyl-s-(3-fluorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.6 * +EC3.5.1.114 n-acetyl-s-(4-bromobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.5.1.114 n-acetyl-s-(4-chlorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.5.1.114 n-acetyl-s-(4-methoxybenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.8 * +EC3.5.1.114 n-acetyl-s-benzyl-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC3.5.1.115 mycothiol bimane derivative mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.095 * +EC3.5.1.115 mycothiol disulfide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.8 * +EC3.5.1.115 mycothiol-3-(n-maleimidopropionyl)biocytin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.0 * +EC3.5.1.115 mycothiol-7-(diethylamino)-3-(4'-maleimidylphenyl)-4-methylcoumarin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.44 * +EC3.5.1.115 mycothiol-acetophenone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.69 * +EC3.5.1.115 mycothiol-cerulenin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.65 * +EC3.5.1.115 mycothiol-n-ethylmaleimide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.3 * +EC3.5.1.115 rifs13 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.19 * +EC3.5.1.115 rifs17 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.45 * +EC3.5.1.116 (s)-ureidoglycolate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0113 * +EC3.5.1.116 (s)-ureidoglycolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.04 * +EC3.5.1.116 (s)-ureidoglycolate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.188 * +EC3.5.1.116 ureidoglycolate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.085 * +EC3.5.1.116 ureidoglycolate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 2.0 * +EC3.5.1.117 n-(4-nitrophenyl)-6-aminohexanamide arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.5 * +EC3.5.1.117 n-(4-nitrophenyl)-6-aminohexanamide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC3.5.1.117 n-(6-aminohexanoyl)-6-aminohexanoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 15.0 * +EC3.5.1.117 n-(6-aminohexanoyl)-6-aminohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.6 * +EC3.5.1.12 1'-n-methoxycarbonyl-biocytin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.0 * +EC3.5.1.12 biotinyl-4-aminobenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.5.1.12 biotinyl-4-aminobenzoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC3.5.1.12 biotinyl-6-aminoquinoline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.5.1.12 biotinyl-6-aminoquinoline lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.00383 * +EC3.5.1.12 biotinyl-6-aminoquinoline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0167 * +EC3.5.1.12 biotinyl-6-aminoquinoline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC3.5.1.12 biotinyl-di-iodotyramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0259 * +EC3.5.1.12 biotinyl-monoiodotyramine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0158 * +EC3.5.1.12 dynorphin a (1-6) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.167 * +EC3.5.1.12 dynorphin a (1-7) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.132 * +EC3.5.1.12 epsilon-n-biotinyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00048 * +EC3.5.1.12 epsilon-n-biotinyl-l-lysine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.008 * +EC3.5.1.12 leu-enkephalin amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.119 * +EC3.5.1.12 lipoyl-p-aminobenzoic acid rattus rattus//*//* 0.69 * +EC3.5.1.12 lipoyllysine rattus rattus//*//* 1.3 * +EC3.5.1.12 m-(n-biotinylamino)benzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0905 * +EC3.5.1.12 met-enkephalin amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.099 * +EC3.5.1.12 met-enkephalin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.303 * +EC3.5.1.12 n-(1'-n-methoxycarbonyl-biotinyl)p-aminobenzoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.85 * +EC3.5.1.12 n-dl-desthiobiotinyl-p-aminobenzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0685 * +EC3.5.1.12 p-(n-biotinylamino)benzoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC3.5.1.12 p-(n-biotinylamino)benzoic acid lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.02 * +EC3.5.1.12 p-(n-biotinylamino)benzoic acid rattus rattus//*//* 0.015 * +EC3.5.1.12 p-(n-biotinylamino)benzoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0042 * +EC3.5.1.124 s-(1-hydroxy-2-oxopropyl)-n-acetyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.5.1.124 s-(1-hydroxy-2-oxopropyl)-n-acetyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC3.5.1.124 s-(1-hydroxy-2-oxopropyl)-n-acetyl-l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.5.1.13 2,5-dimethylfuran-3-carboxanilide lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.03 * +EC3.5.1.13 2-nitroacetanilide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.37 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza alta//*//* 0.51 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza coarctata//*//* 25.0 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza collina//*//* 0.57 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza grandiglumis//*//* 0.56 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza latifolia//*//* 0.5 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza longiglumis//*//* 0.71 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza longistaminata//*//* 0.41 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza officinalis//*//* 0.5 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza punctata//*//* 0.49 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza ridleyi//*//* 0.63 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza rufipogon//*//* 0.4 * +EC3.5.1.13 3',4'-dichloropropionanilide oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.35 * +EC3.5.1.13 3',4'-dichloropropionanilide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC3.5.1.13 3-(3,4-dichlorophenyl)-1-methoxy-1-methylurea lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.002 * +EC3.5.1.13 4-acetylaminobenzaldehyde thiosemicarbazone rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.42 * +EC3.5.1.13 4-chloroacetanilide bacterium csbl00001//*//* 0.83 * +EC3.5.1.13 4-nitroacetanilide bacterium csbl00001//*//* 0.1 * +EC3.5.1.13 4-nitroacetanilide nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 0.12 * +EC3.5.1.13 acetaminophen rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.11 * +EC3.5.1.13 acetanilide bacterium csbl00001//*//* 19.0 * +EC3.5.1.13 acetanilide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.15 * +EC3.5.1.13 hexanoamide nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 5.5 * +EC3.5.1.13 hydroxyacetanilide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0061 * +EC3.5.1.13 l-ala 4-nitroanilide lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.09 * +EC3.5.1.13 l-leu 4-nitroanilide lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.2 * +EC3.5.1.13 n-(2-nitrophenyl)-trifluoroacetamide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.81 * +EC3.5.1.13 n-(2-nitrophenyl)acetamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.5.1.13 n-(2-nitrophenyl)butanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC3.5.1.13 n-(2-nitrophenyl)heptanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.5.1.13 n-(2-nitrophenyl)hexanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC3.5.1.13 n-(2-nitrophenyl)octanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.5.1.13 n-(2-nitrophenyl)pentanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.56 * +EC3.5.1.13 n-(2-nitrophenyl)propanamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.78 * +EC3.5.1.13 n-(2-nitrophenyl)trifluoroacetamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 141.0 * +EC3.5.1.13 n-(3,4-dichlorophenyl)propanamide paracoccus sp. m1-1//*//* 0.158 * +EC3.5.1.13 n-(4-hydroxyphenyl)acetamide bacterium csbl00001//*//* 0.32 * +EC3.5.1.13 nalpha-benzoyl-dl-arg 2-naphthylamide glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0578 * +EC3.5.1.13 o-nitroacetanilide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 15.22 * +EC3.5.1.13 o-nitrotrifluoroacetanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.5.1.13 p-nitroacetanilide nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 0.07 * +EC3.5.1.13 p-nitroacetanilide pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.012 * +EC3.5.1.13 p-nitrophenylacetate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.018 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxy-2,2-dimethyl-chroman-4-ylsulfanyl)-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxy-2,2-dimethyl-chroman-4-ylsulfanyl)-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxycyclohexylsulfanyl)-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.5.1.14 2-acetylamino-3-((1s,2s)-2-hydroxycyclohexylsulfanyl)-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.3 * +EC3.5.1.14 2-acetylamino-3-((3s,4s)-2-hydroxycyclooctylsulfanyl)-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.5.1.14 2-acetylamino-3-[(s)-1-((r)-hydroxyphenyl-methyl)-2-oxo-2-phenyl-ethylsulfanyl]-propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.5.1.14 2-acetylamino-3-[(s)-1-((r)-hydroxyphenyl-methyl)-2-oxo-2-phenyl-ethylsulfanyl]-propionic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC3.5.1.14 furylacryloyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.22 * +EC3.5.1.14 n-(e)-3-methyl-2-hexenoyl-l-glutamine corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.2 * +EC3.5.1.14 n-2,2-dimethylpropionyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 168.0 * +EC3.5.1.14 n-2,2-dimethylpropionyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 585.0 * +EC3.5.1.14 n-3-methyl-3-hydroxy-hexanoyl-l-glutamine corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.74 * +EC3.5.1.14 n-acetyl-d-aspartate alcaligenes sp.//*//* 2.52 * +EC3.5.1.14 n-acetyl-dl-aspartate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 12.7 * +EC3.5.1.14 n-acetyl-glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 59.9 * +EC3.5.1.14 n-acetyl-glycine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 43.6 * +EC3.5.1.14 n-acetyl-l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.1 * +EC3.5.1.14 n-acetyl-l-alanine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 2.32 * +EC3.5.1.14 n-acetyl-l-arginine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 34.8 * +EC3.5.1.14 n-acetyl-l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 27.7 * +EC3.5.1.14 n-acetyl-l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.5.1.14 n-acetyl-l-cys sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.5.1.14 n-acetyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.5.1.14 n-acetyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.4 * +EC3.5.1.14 n-acetyl-l-cysteine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC3.5.1.14 n-acetyl-l-ethionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28 * +EC3.5.1.14 n-acetyl-l-ethionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.87 * +EC3.5.1.14 n-acetyl-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 63.0 * +EC3.5.1.14 n-acetyl-l-glutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 102.0 * +EC3.5.1.14 n-acetyl-l-glutamic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.9 * +EC3.5.1.14 n-acetyl-l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 62.3 * +EC3.5.1.14 n-acetyl-l-glutamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.0 * +EC3.5.1.14 n-acetyl-l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 22.7 * +EC3.5.1.14 n-acetyl-l-histidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC3.5.1.14 n-acetyl-l-histidine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 11.9 * +EC3.5.1.14 n-acetyl-l-isoleucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.72 * +EC3.5.1.14 n-acetyl-l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.5.1.14 n-acetyl-l-leucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.8 * +EC3.5.1.14 n-acetyl-l-met homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC3.5.1.14 n-acetyl-l-met sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC3.5.1.14 n-acetyl-l-methionine aspergillus melleus//*//* 0.964 * +EC3.5.1.14 n-acetyl-l-methionine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.013 * +EC3.5.1.14 n-acetyl-l-methionine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC3.5.1.14 n-acetyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.5.1.14 n-acetyl-l-methionine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 4.18 * +EC3.5.1.14 n-acetyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.5.1.14 n-acetyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.99 * +EC3.5.1.14 n-acetyl-l-norleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.5.1.14 n-acetyl-l-norleucine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.57 * +EC3.5.1.14 n-acetyl-l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.81 * +EC3.5.1.14 n-acetyl-l-phenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.6 * +EC3.5.1.14 n-acetyl-l-phenylalanine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 5.2 * +EC3.5.1.14 n-acetyl-l-phenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.5 * +EC3.5.1.14 n-acetyl-l-threonine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.5 * +EC3.5.1.14 n-acetyl-l-threonine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 30.9 * +EC3.5.1.14 n-acetyl-l-tryptophan mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.5.1.14 n-acetyl-l-tyrosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC3.5.1.14 n-acetyl-l-val sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.5.1.14 n-acetyl-l-valine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.4 * +EC3.5.1.14 n-acetyl-l-valine mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 2.5 * +EC3.5.1.14 n-acetyl-l-valine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.6 * +EC3.5.1.14 n-acetyl-s-(1,1,2,2-tetrafluoroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC3.5.1.14 n-acetyl-s-(1,2,2-trichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.2 * +EC3.5.1.14 n-acetyl-s-(1,2,3,4,4-pentachlorobutadienyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC3.5.1.14 n-acetyl-s-(1,2-dichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC3.5.1.14 n-acetyl-s-(2,2-dichloro-1,1-difluoroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 5.3 * +EC3.5.1.14 n-acetyl-s-(2,2-dichlorovinyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.4 * +EC3.5.1.14 n-acetyl-s-(2,2-difluoro-1,1-dichloroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.5.1.14 n-acetyl-s-(2-chloro-1,1,2-trifluoroethyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC3.5.1.14 n-acetyl-s-(2-chlorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.45 * +EC3.5.1.14 n-acetyl-s-(2-fluorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.5.1.14 n-acetyl-s-(3-fluorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.6 * +EC3.5.1.14 n-acetyl-s-(4-bromobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.5.1.14 n-acetyl-s-(4-chlorobenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.5.1.14 n-acetyl-s-(4-methoxybenzyl)-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.8 * +EC3.5.1.14 n-acetyl-s-benzyl-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.1 * +EC3.5.1.14 n-acetylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.5.1.14 n-acetylseleno-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.5.1.14 n-alpha-acetyl-l-alanine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.2 * +EC3.5.1.14 n-alpha-acetyl-l-aspartate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.0 * +EC3.5.1.14 n-alpha-acetyl-l-cysteine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 9.1 * +EC3.5.1.14 n-alpha-acetyl-l-isoleucine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.1 * +EC3.5.1.14 n-alpha-acetyl-l-leucine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.3 * +EC3.5.1.14 n-alpha-acetyl-l-lysine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 6.7 * +EC3.5.1.14 n-alpha-acetyl-l-lysine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.3 * +EC3.5.1.14 n-alpha-acetyl-l-methionine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 7.7 * +EC3.5.1.14 n-alpha-acetyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.84 * +EC3.5.1.14 n-alpha-acetyl-l-phenylalanine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.7 * +EC3.5.1.14 n-alpha-acetyl-l-proline lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.0 * +EC3.5.1.14 n-alpha-acetyl-l-serine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.2 * +EC3.5.1.14 n-alpha-acetyl-l-threonine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 4.0 * +EC3.5.1.14 n-alpha-acetyl-l-tryptophan lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.4 * +EC3.5.1.14 n-alpha-acetyl-l-tyrosine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.9 * +EC3.5.1.14 n-alpha-acetyl-l-valine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.5 * +EC3.5.1.14 n-alpha-chloroacetyl-l-phenylalanine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.4 * +EC3.5.1.14 n-benzoyl-l-glutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.71 * +EC3.5.1.14 n-benzoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.5.1.14 n-benzoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.38 * +EC3.5.1.14 n-benzoyl-l-phenylalanine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 8.5 * +EC3.5.1.14 n-benzoyl-l-valine thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 6.7 * +EC3.5.1.14 n-butanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.73 * +EC3.5.1.14 n-butanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC3.5.1.14 n-butyryl-d-aspartate alcaligenes sp.//*//* 0.033 * +EC3.5.1.14 n-cbz-gly-ala deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 4.3 * +EC3.5.1.14 n-cyclohexanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.23 * +EC3.5.1.14 n-cyclohexanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.31 * +EC3.5.1.14 n-cyclopentanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.18 * +EC3.5.1.14 n-cyclopentanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.64 * +EC3.5.1.14 n-decanoyl-l-glutamine corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.08 * +EC3.5.1.14 n-formyl-d-aspartate alcaligenes sp.//*//* 12.5 * +EC3.5.1.14 n-formyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.8 * +EC3.5.1.14 n-formyl-lmethionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 35.4 * +EC3.5.1.14 n-formylmethionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.1 * +EC3.5.1.14 n-glycyl-d-aspartate alcaligenes sp.//*//* 1.11 * +EC3.5.1.14 n-hexanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.01 * +EC3.5.1.14 n-hexanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC3.5.1.14 n-isobutanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 15.3 * +EC3.5.1.14 n-isobutanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 58.5 * +EC3.5.1.14 n-isopentanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.27 * +EC3.5.1.14 n-isopentanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.9 * +EC3.5.1.14 n-lauroyl-l-glutamine corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.06 * +EC3.5.1.14 n-pentanoyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.5.1.14 n-pentanoyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC3.5.1.14 n-propionyl-d-aspartate alcaligenes sp.//*//* 0.194 * +EC3.5.1.14 n-propionyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.5.1.14 n-propionyl-l-methionine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.55 * +EC3.5.1.14 n2-[(benzyloxy)carbonyl]-l-glutamine corynebacterium striatum//prokaryotes;bacteria;actinobacteria;corynebacterium//cstr 0.05 * +EC3.5.1.14 palmitoylaspartate mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 0.15 * +EC3.5.1.14 s-ethyl-n-acetyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4 * +EC3.5.1.14 s-methyl-n-acetyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.5.1.14 s-n-butyl-n-acetyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC3.5.1.14 s-n-propyl-n-acetyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.5.1.15 n-acetyl-l-aspartic acid gallus sp.//*//* 0.1 * +EC3.5.1.15 n-acetyl-l-aspartic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.5.1.15 n-acetylaspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.163 * +EC3.5.1.15 n-acetylaspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.69 * +EC3.5.1.15 n-acyl l-aspartic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.5.1.15 n-acyl l-aspartic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC3.5.1.15 n-acyl-l-aspartic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.85 * +EC3.5.1.15 n-acyl-l-aspartic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC3.5.1.15 n-acyl-l-aspartic acid macaca mulatta//eukaryotes;animals;vertebrates;mammals//mcc 5.1 * +EC3.5.1.16 acetylornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.56 * +EC3.5.1.16 n-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.5.1.16 n-alpha-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.5.1.16 n2-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC3.5.1.16 nalpha-acetyl-dl-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.7 * +EC3.5.1.16 nalpha-acetyl-l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.5.1.16 nalpha-acetyl-l-asparagine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.3 * +EC3.5.1.16 nalpha-acetyl-l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC3.5.1.16 nalpha-acetyl-l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.4 * +EC3.5.1.16 nalpha-acetyl-l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC3.5.1.16 nalpha-acetyl-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC3.5.1.16 nalpha-acetyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.81 * +EC3.5.1.16 nalpha-acetyl-l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.5.1.16 nalpha-acetylformyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC3.5.1.16 nalpha-chloroacetylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC3.5.1.17 n6-acetyl-l-lysine achromobacter pestifer//*//* 0.5 * +EC3.5.1.17 n6-benzoyl-l-lysine achromobacter pestifer//*//* 0.1 * +EC3.5.1.17 n6-chloroacetyl-l-lysine achromobacter pestifer//*//* 0.29 * +EC3.5.1.18 (2s,6s)-2-amino-6-[(3-carboxypropanoyl)amino]heptane-dioic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.26 * +EC3.5.1.18 n-succinyl ll-diaminopimelic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 730.0 * +EC3.5.1.18 n-succinyl-dl-2,6-diaminoheptanedioate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 3.2 * +EC3.5.1.18 n-succinyl-ll-2,6-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.5.1.18 n-succinyl-ll-2,6-diaminoheptanedioate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.3 * +EC3.5.1.18 n-succinyl-ll-2,6-diaminopimelic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.73 * +EC3.5.1.18 n-succinyl-ll-diaminopimelate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.73 * +EC3.5.1.19 5'-methylnicotinamide micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.36 * +EC3.5.1.19 5-methylnicotinamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.061 * +EC3.5.1.19 benzamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.025 * +EC3.5.1.19 nicotinamide acidilobus saccharovorans//prokaryotes;archaea;crenarchaeota;acidilobus//asc 0.18 * +EC3.5.1.19 nicotinamide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.118 * +EC3.5.1.19 nicotinamide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.65 * +EC3.5.1.19 nicotinamide borreliella burgdorferi//*//* 0.0367 * +EC3.5.1.19 nicotinamide caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.076 * +EC3.5.1.19 nicotinamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC3.5.1.19 nicotinamide flavobacterium peregrinum//*//* 0.0002 * +EC3.5.1.19 nicotinamide micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.0029 * +EC3.5.1.19 nicotinamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC3.5.1.19 nicotinamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.014 * +EC3.5.1.19 nicotinamide plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.003 * +EC3.5.1.19 nicotinamide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.005 * +EC3.5.1.19 nicotinamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 50.0 * +EC3.5.1.19 nicotinamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0096 * +EC3.5.1.19 nicotinamide streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0027 * +EC3.5.1.19 pyrazinamide acidilobus saccharovorans//prokaryotes;archaea;crenarchaeota;acidilobus//asc 0.41 * +EC3.5.1.19 pyrazinamide mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.3 * +EC3.5.1.19 pyrazinamide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.056 * +EC3.5.1.19 pyrazinamide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.157 * +EC3.5.1.2 2-oxo-glutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.195 * +EC3.5.1.2 2-oxo-succinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC3.5.1.2 5-methoxy-2,5-dioxopentanoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC3.5.1.2 d-gamma-gln-methylester pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 6.7 * +EC3.5.1.2 d-glutamine sporosarcina pasteurii//*//* 83.0 * +EC3.5.1.2 d-theanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.92 * +EC3.5.1.2 gamma-ethyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.0 * +EC3.5.1.2 gamma-glutamyl hydrazide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC3.5.1.2 gamma-glutamyl hydroxamate sporosarcina pasteurii//*//* 15.0 * +EC3.5.1.2 gamma-glutamyl methylamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.5.1.2 gamma-methyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 64.0 * +EC3.5.1.2 gamma-thioethyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC3.5.1.2 gamma-thiomethyl glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC3.5.1.2 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC3.5.1.2 gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC3.5.1.2 gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.5.1.2 glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC3.5.1.2 glutamine anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 19.5 * +EC3.5.1.2 glutamine lactobacillus rhamnosus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lrh 4.8 * +EC3.5.1.2 glutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.27 * +EC3.5.1.2 l-asn acinetobacter glutaminasificans//*//* 4.8 * +EC3.5.1.2 l-asn sporosarcina pasteurii//*//* 24.0 * +EC3.5.1.2 l-gamma-gln-l-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 200.0 * +EC3.5.1.2 l-gamma-gln-methyl ester pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.1 * +EC3.5.1.2 l-gln acinetobacter glutaminasificans//*//* 5.8 * +EC3.5.1.2 l-gln micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 4.4 * +EC3.5.1.2 l-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC3.5.1.2 l-glutamic acid sporosarcina pasteurii//*//* 500.0 * +EC3.5.1.2 l-glutamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 6.25 * +EC3.5.1.2 l-glutamine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.24 * +EC3.5.1.2 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.6 * +EC3.5.1.2 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.3 * +EC3.5.1.2 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.5.1.2 l-glutamine lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 4.5 * +EC3.5.1.2 l-glutamine micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 2.3 * +EC3.5.1.2 l-glutamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.11 * +EC3.5.1.2 l-glutamine pseudomonas chlororaphis subsp. aurantiaca//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pcp 0.0053 * +EC3.5.1.2 l-glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.1 * +EC3.5.1.2 l-glutamine sporosarcina pasteurii//*//* 9.5 * +EC3.5.1.2 l-glutamine synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 12.2 * +EC3.5.1.2 l-glutamine trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.38 * +EC3.5.1.2 l-theanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.71 * +EC3.5.1.2 succinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC3.5.1.20 citrulline euglena gracilis//*//* 4.55 * +EC3.5.1.20 citrulline tetrahymena sp.//*//* 1.06 * +EC3.5.1.21 n-acetyl-beta-alanine sus sp.//*//* 7.5 * +EC3.5.1.22 pantothenic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.2 * +EC3.5.1.24 glycochenodeoxycholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.26 * +EC3.5.1.24 glycochenodeoxycholic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 14.0 * +EC3.5.1.24 glycocholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.35 * +EC3.5.1.24 glycocholic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.6 * +EC3.5.1.24 glycocholic acid lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.5 * +EC3.5.1.24 glycodeoxycholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.2 * +EC3.5.1.24 glycodeoxycholic acid brevibacillus sp.//*//* 0.00308 * +EC3.5.1.24 glycodeoxycholic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.2 * +EC3.5.1.24 taurochenodeoxycholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.29 * +EC3.5.1.24 taurochenodeoxycholic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.0 * +EC3.5.1.24 taurocholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.45 * +EC3.5.1.24 taurocholic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 37.0 * +EC3.5.1.24 taurocholic acid lactobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//law 0.76 * +EC3.5.1.24 taurodeoxycholic acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.17 * +EC3.5.1.24 taurodeoxycholic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.5 * +EC3.5.1.25 acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC3.5.1.25 glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC3.5.1.25 n-acetyl-d-galactosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.24 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.3 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.0 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.04 * +EC3.5.1.25 n-acetyl-d-glucosamine 6-sulfate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC3.5.1.25 n-acetylglucosamine 6-phosphate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.38 * +EC3.5.1.25 n-acetylglucosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC3.5.1.25 n-acetylglucosamine 6-phosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.03 * +EC3.5.1.25 n-acetylglucosamine 6-sulfate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 5.9 * +EC3.5.1.25 n-acetylglucosamine 6-sulfate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 4.6 * +EC3.5.1.25 n-acetylglucosamine alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 98.0 * +EC3.5.1.25 n-acetylglucosamine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 73.0 * +EC3.5.1.25 n-formyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.5.1.25 n-thioacetyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC3.5.1.25 n-trifluoroacetyl-d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC3.5.1.26 1-l-beta-aspartamido-(2-acetamido)-1,2-dideoxy-beta-d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.5.1.26 1-l-beta-aspartamido-(2-acetamido)-1,2-dideoxy-beta-d-glucose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.05 * +EC3.5.1.26 1-l-beta-aspartamido-(2-acetamido)-1,2-dideoxy-beta-d-glucose rattus sp.//*//* 0.059 * +EC3.5.1.26 1-l-beta-aspartamido-(2-acetamido)-1,2-dideoxy-beta-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.5.1.26 1-l-beta-aspartamido-beta-d-galactose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.8 * +EC3.5.1.26 1-l-beta-aspartamido-beta-d-mannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 5.7 * +EC3.5.1.26 2-acetamido-1-beta-(l-aspartamido)-1,2-dideoxy-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.143 * +EC3.5.1.26 2-acetamido-1-n-(4-l-aspartyl)-2-deoxy-beta-d-glycopyranosylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.4 * +EC3.5.1.26 l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC3.5.1.26 l-asparagine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.1 * +EC3.5.1.26 n4-(beta-n-acetyl-d-glucosaminyl)-l-asparagine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC3.5.1.26 n4-(beta-n-acetyl-d-glucosaminyl)-l-asparagine spodoptera frugiperda//*//* 0.88 * +EC3.5.1.26 ovalbumin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.77 * +EC3.5.1.28 1,6-anhydro-murnac-l-ala-gamma-d-glu-m-dap-d-ala-d-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.5 * +EC3.5.1.28 1,6-anhydro-murnac-l-ala-gamma-d-glu-m-dap citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.36 * +EC3.5.1.28 4-o-beta-d-glcnac-1,6-anhydro-murnac-l-ala-gamma-d-glu-m-dap-d-ala-d-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.76 * +EC3.5.1.28 7-methoxycoumarin-4-yl-acetyl-ala-d-isogln-lys(2,4-dinitrophenyl)-d-ala-arg staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.2849 * +EC3.5.1.28 7-methoxycoumarin-4-yl-acetyl-ala-d-isoglu-lys(2,4-dinitrophenyl)-d-ala-arg staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.3601 * +EC3.5.1.28 beta-n-acetylglucosaminyl-(1-4)-n,6-o-diacetylmuramoyl-l-alanyl-d-isoglutaminyl-(l)-meso-2,6-diaminopimelic acid-(d)-amide-(l)-d-alanine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 1.8 * +EC3.5.1.28 beta-n-acetylglucosaminyl-(1-4)-n,6-o-diacetylmuramoyl-l-alanyl-d-isoglutaminyl-(l)-meso-2,6-diaminopimelic acid-(d)-amide streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 4.0 * +EC3.5.1.28 beta-n-acetylglucosaminyl-(1-4)-n-acetylmuramoyl-l-alanyl-d-isoglutaminyl-(l)-(beta-n-acetyl-glucosaminyl-(1-4)-n-acetylmuramoyl-l-alanyl-d-isoglutaminyl-(l)-meso-2,6-diaminopimelic acid-(d)-amide-(l)-d-alanine)-(d)-meso-2,6-diaminopimelic acid-(d)-amide streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 2.5 * +EC3.5.1.28 beta-n-acetylglucosaminyl-(1-4)-n-acetylmuramoyl-l-alanyl-d-isoglutaminyl-(l)-meso-2,6-diaminopimelic acid-(d)-amide-(l)-d-alanine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 2.0 * +EC3.5.1.28 beta-n-acetylglucosaminyl-(1-4)-n-acetylmuramoyl-l-alanyl-d-isoglutaminyl-(l)-meso-2,6-diaminopimelic acid-(d)-amide streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 4.0 * +EC3.5.1.28 glcnac-murnac-l-ala-d-isogin-meso-diaminopimelyl-(d)-amide-(l)-d-ala-d-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.5.1.28 glcnac-murnac-l-ala-d-isoglutaminyl-meso-diaminopimelyl-d-ala-d-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 17.0 * +EC3.5.1.28 glcnac-murnac-l-ala-d-isoglutaminyl-meso-diaminopimelyl-d-ala-d-ala mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.0 * +EC3.5.1.28 n-acetylmuramoyl-l-alanyl-d-gamma-glutaminyl-meso-diaminopimelic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.5.1.28 n-acetylmuramoyl-l-alanyl-gamma-d-glutaminyl-meso-diaminopimelic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.5.1.29 (n-acetylaminomethylene)succinic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.003 * +EC3.5.1.29 2-(acetamidomethylene)succinate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.143 * +EC3.5.1.29 alpha-(n-acetylaminomethylene)succinic acid mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.0537 * +EC3.5.1.3 2-oxoglutaramate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC3.5.1.3 2-oxoglutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.195 * +EC3.5.1.3 2-oxoglutaramate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0054 * +EC3.5.1.3 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC3.5.1.3 2-oxosuccinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC3.5.1.3 2-oxosuccinamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC3.5.1.3 ethyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 9.9 * +EC3.5.1.3 ethyl succinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.3 * +EC3.5.1.3 gamma-ethyl 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.5.1.3 gamma-methyl 2-oxoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.5.1.3 gamma-monomethyl-2-oxoglutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.012 * +EC3.5.1.3 glutaramate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.27 * +EC3.5.1.3 glutaramate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.5.1.3 hydroxylamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 50.0 * +EC3.5.1.3 hydroxylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.5.1.3 hydroxylamine thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 100.0 * +EC3.5.1.3 methanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5000.0 * +EC3.5.1.3 methyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC3.5.1.3 methyl succinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.5.1.3 methylamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 30.0 * +EC3.5.1.3 p-chlorophenyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.7 * +EC3.5.1.3 p-methoxyphenyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC3.5.1.3 p-methylphenyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.5.1.3 phenyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC3.5.1.3 propyl glutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.8 * +EC3.5.1.3 succinamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.3 * +EC3.5.1.3 succinamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC3.5.1.3 succinamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.5.1.3 succinamate thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 1.34 * +EC3.5.1.3 succinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 63.0 * +EC3.5.1.3 succinate thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 30.0 * +EC3.5.1.3 succinyl hydroxamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC3.5.1.30 5-aminopentanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC3.5.1.30 6-aminohexanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 12.0 * +EC3.5.1.30 gamma-aminobutyramide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.1 * +EC3.5.1.30 methyl-delta-aminovalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.0 * +EC3.5.1.31 n-formyl-methionine euglena gracilis//*//* 3.8 * +EC3.5.1.31 n-formyl-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC3.5.1.32 4-acetyl-n-benzoyl-l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.1 * +EC3.5.1.32 4-acetyl-n-benzoylglycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.54 * +EC3.5.1.32 4-chloro-n-benzoyl-l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.71 * +EC3.5.1.32 4-chloro-n-benzoylglycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.37 * +EC3.5.1.32 4-hydroxy-n-benzoyl-l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.95 * +EC3.5.1.32 4-nitro-n-benzoyl-l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.25 * +EC3.5.1.32 4-nitro-n-benzoylglycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC3.5.1.32 hippurate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.65 * +EC3.5.1.32 hippurate fusarium incarnatum//*//* 0.0006 * +EC3.5.1.32 hippurate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.72 * +EC3.5.1.32 n-[(4-hydroxyphenyl)carbonyl]glycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.54 * +EC3.5.1.32 n-benzoyl-l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.87 * +EC3.5.1.32 n-benzoyl-l-aminobutyric acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.87 * +EC3.5.1.33 n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 120.0 * +EC3.5.1.33 n-acetyl-d-glucosamine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 127.0 * +EC3.5.1.36 alpha-ketoglutaramate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.0 * +EC3.5.1.36 alpha-ketoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 38.0 * +EC3.5.1.36 benzyl alpha-ketoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0048 * +EC3.5.1.36 ethyl alpha-ketoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0045 * +EC3.5.1.36 methylamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 46.0 * +EC3.5.1.36 propyl alpha-ketoglutarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0026 * +EC3.5.1.38 l-asparagine achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.005 * +EC3.5.1.38 l-asparagine acinetobacter glutaminasificans//*//* 0.055 * +EC3.5.1.38 l-asparagine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0026 * +EC3.5.1.38 l-asparagine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.029 * +EC3.5.1.38 l-asparagine delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.015 * +EC3.5.1.38 l-asparagine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.004 * +EC3.5.1.38 l-asparagine rhodotorula toruloides//*//* 1.43 * +EC3.5.1.38 l-asparagine tilachlidium humicola//*//* 0.3 * +EC3.5.1.38 l-glutamine achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.002 * +EC3.5.1.38 l-glutamine acinetobacter glutaminasificans//*//* 0.041 * +EC3.5.1.38 l-glutamine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0051 * +EC3.5.1.38 l-glutamine delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.022 * +EC3.5.1.38 l-glutamine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.005 * +EC3.5.1.38 l-glutamine rhodotorula toruloides//*//* 6.45 * +EC3.5.1.38 l-glutamine tilachlidium humicola//*//* 0.6 * +EC3.5.1.38 n-acetyl-l-asparagine rhodotorula toruloides//*//* 10.0 * +EC3.5.1.38 n-carbamoyl-l-asparagine rhodotorula toruloides//*//* 8.0 * +EC3.5.1.38 n-glycyl-l-asparagine rhodotorula toruloides//*//* 2.4 * +EC3.5.1.39 n,n-dimethylcaproamide ovis aries aries//*//* 0.19 * +EC3.5.1.39 n-butylcaproamide ovis aries aries//*//* 2.2 * +EC3.5.1.39 n-ethylcaproamide ovis aries aries//*//* 0.83 * +EC3.5.1.39 n-methylcaproamide ovis aries aries//*//* 0.66 * +EC3.5.1.39 n-methylcaprylamide ovis aries aries//*//* 3.7 * +EC3.5.1.39 n-methylheptylamide ovis aries aries//*//* 1.25 * +EC3.5.1.39 n-methylvaleramide ovis aries aries//*//* 5.0 * +EC3.5.1.39 n-phenylcaproamide ovis aries aries//*//* 2.5 * +EC3.5.1.39 n-propylcaproamide ovis aries aries//*//* 1.8 * +EC3.5.1.40 acetyl agmatine fusarium anguioides//*//* 1.33 * +EC3.5.1.40 benzoyl agmatine fusarium anguioides//*//* 0.22 * +EC3.5.1.40 bleomycin b2 fusarium anguioides//*//* 0.8 * +EC3.5.1.40 propionyl agmatine fusarium anguioides//*//* 2.0 * +EC3.5.1.41 (glcnac)4 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC3.5.1.41 (n-acetyl-d-glucosamine)2 colletotrichum lindemuthianum//*//* 18.4 * +EC3.5.1.41 (n-acetyl-d-glucosamine)3 colletotrichum lindemuthianum//*//* 11.0 * +EC3.5.1.41 (n-acetyl-d-glucosamine)4 colletotrichum lindemuthianum//*//* 0.0816 * +EC3.5.1.41 (n-acetyl-d-glucosamine)5 colletotrichum lindemuthianum//*//* 0.0405 * +EC3.5.1.41 2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-bromoacetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-d-glucose colletotrichum lindemuthianum//*//* 0.102 * +EC3.5.1.41 2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-chloroacetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-d-glucose colletotrichum lindemuthianum//*//* 0.18 * +EC3.5.1.41 2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-fluoroacetamido-2-deoxy-beta-d-glucopyranosyl-(1-4)-2-acetamido-2-deoxy-d-glucose colletotrichum lindemuthianum//*//* 0.14 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.12 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 0.048 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 2.5 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 0.079 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.5 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 0.125 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.15 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 4.3 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.09 * +EC3.5.1.41 glcnac-beta-(1-4)-glcnac colletotrichum lindemuthianum//*//* 18.0 * +EC3.5.1.41 glcnacbeta(1-4)glcnac colletotrichum lindemuthianum//*//* 18.0 * +EC3.5.1.41 glcnacbeta(1-4)glcnacbeta(1-4)glcnac colletotrichum lindemuthianum//*//* 0.66 * +EC3.5.1.41 glcnacbeta(1-4)glcnacbeta(1-4)glcnacbeta(1-4)glcnac colletotrichum lindemuthianum//*//* 0.125 * +EC3.5.1.41 glcnacglcnacglcnacglcn colletotrichum lindemuthianum//*//* 0.087 * +EC3.5.1.41 glcnacglcnglcnacglcnac colletotrichum lindemuthianum//*//* 0.0814 * +EC3.5.1.41 glcnglcnacglcnacglcnac colletotrichum lindemuthianum//*//* 0.307 * +EC3.5.1.41 glycol chitin amylomyces rouxii//*//* 2.6 * +EC3.5.1.41 glycol chitin colletotrichum lindemuthianum//*//* 2.55 * +EC3.5.1.41 glycol-chitin aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 2.96 * +EC3.5.1.41 hexa-n-acetylchitohexaose mortierella sp.//*//* 1.1 * +EC3.5.1.42 beta-nicotinamide d-ribonucleoside aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.6 * +EC3.5.1.42 beta-nicotinamide d-ribonucleotide azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 1.05 * +EC3.5.1.42 beta-nicotinamide d-ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC3.5.1.42 beta-nicotinamide d-ribonucleotide propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.07 * +EC3.5.1.42 nicotinamide mononucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC3.5.1.42 nicotinamide mononucleotide shewanella oneidensis//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//son 0.006 * +EC3.5.1.43 benzyloxycarbonyl-d-gln bacillus circulans//*//* 1.57 * +EC3.5.1.43 benzyloxycarbonyl-l-gln-l-pro bacillus circulans//*//* 0.21 * +EC3.5.1.43 benzyloxycarbonyl-l-gln bacillus circulans//*//* 0.11 * +EC3.5.1.43 gly-l-gln bacillus circulans//*//* 0.33 * +EC3.5.1.43 l-gln bacillus circulans//*//* 5.0 * +EC3.5.1.43 l-pro-l-gln bacillus circulans//*//* 0.19 * +EC3.5.1.43 l-tyr-l-gln bacillus circulans//*//* 0.16 * +EC3.5.1.43 leu-gly-l-gln bacillus circulans//*//* 0.35 * +EC3.5.1.43 n-acetyl-l-gln bacillus circulans//*//* 0.1 * +EC3.5.1.43 tert-amyloxycarbonyl-l-gln-l-pro bacillus circulans//*//* 0.12 * +EC3.5.1.44 benzyloxycarbonyl-d-gln bacillus circulans//*//* 1.57 * +EC3.5.1.44 benzyloxycarbonyl-l-gln-gly methyl ester bacillus circulans//*//* 1.25 * +EC3.5.1.44 benzyloxycarbonyl-l-gln-gly bacillus circulans//*//* 0.12 * +EC3.5.1.44 benzyloxycarbonyl-l-gln-l-pro bacillus circulans//*//* 0.21 * +EC3.5.1.44 benzyloxycarbonyl-l-gln bacillus circulans//*//* 22.2 * +EC3.5.1.44 gly-l-gln bacillus circulans//*//* 18.2 * +EC3.5.1.44 l-gln-gly bacillus circulans//*//* 0.66 * +EC3.5.1.44 l-gln bacillus circulans//*//* 5.0 * +EC3.5.1.44 l-his-l-ser-l-gln-gly-l-thr-l-phe-l-thr bacillus circulans//*//* 50.0 * +EC3.5.1.44 l-ile-l-gln-l-asn-l-cysh-l-pro-l-leu-gly-n-acetate bacillus circulans//*//* 44.0 * +EC3.5.1.44 l-lys-l-gln-gly bacillus circulans//*//* 0.09 * +EC3.5.1.44 l-phe-l-gln-gly bacillus circulans//*//* 0.12 * +EC3.5.1.44 l-pro-l-gln bacillus circulans//*//* 22.2 * +EC3.5.1.44 l-ser-l-gln-gly bacillus circulans//*//* 0.12 * +EC3.5.1.44 l-tyr-l-gln bacillus circulans//*//* 10.0 * +EC3.5.1.44 n-acetyl-l-gln bacillus circulans//*//* 14.3 * +EC3.5.1.44 tert-amyloxycarbonyl-l-gln-l-leu-gly bacillus circulans//*//* 16.7 * +EC3.5.1.44 tert-amyloxycarbonyl-l-gln-l-pro bacillus circulans//*//* 0.12 * +EC3.5.1.46 n-(4-nitrophenyl)-6-aminohexanamide arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.5 * +EC3.5.1.46 n-(4-nitrophenyl)-6-aminohexanamide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC3.5.1.46 n-(6-aminohexanoyl)-6-aminohexanoate flavobacterium sp.//*//* 5.9 * +EC3.5.1.46 n-(6-aminohexanoyl)-6-aminohexanoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.6 * +EC3.5.1.46 n-6-aminohexanoate-trimer flavobacterium sp.//*//* 6.2 * +EC3.5.1.48 n1-acetylspermidine rattus sp.//*//* 0.003 * +EC3.5.1.48 n1-acetylspermine rattus sp.//*//* 0.016 * +EC3.5.1.48 n8-acetylspermidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.211 * +EC3.5.1.48 n8-acetylspermidine rattus sp.//*//* 0.004 * +EC3.5.1.49 formamide bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 108.0 * +EC3.5.1.49 formamide helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 32.0 * +EC3.5.1.49 formamide lupinus albus//*//* 56.0 * +EC3.5.1.49 formamide methylophilus methylotrophus//*//* 2.1 * +EC3.5.1.5 urea arthrobacter mobilis//*//* 3.0 * +EC3.5.1.5 urea arthrospira maxima//*//* 0.12 * +EC3.5.1.5 urea aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.33 * +EC3.5.1.5 urea aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.0 * +EC3.5.1.5 urea bacterium strain sl100//*//* 1.7 * +EC3.5.1.5 urea bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.83 * +EC3.5.1.5 urea brucella suis//prokaryotes;bacteria;alphaproteobacteria;brucella//bms 5.6 * +EC3.5.1.5 urea cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 3.0 * +EC3.5.1.5 urea canavalia ensiformis//*//* 2.7 * +EC3.5.1.5 urea coccidioides immitis//eukaryotes;fungi;ascomycetes;eurotiomycetes//cim 4.1 * +EC3.5.1.5 urea corynebacterium ammoniagenes//prokaryotes;bacteria;actinobacteria;corynebacterium//camg 18.0 * +EC3.5.1.5 urea enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 0.0195 * +EC3.5.1.5 urea glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.5 * +EC3.5.1.5 urea gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.12 * +EC3.5.1.5 urea helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.2 * +EC3.5.1.5 urea klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.3 * +EC3.5.1.5 urea lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 2.7 * +EC3.5.1.5 urea lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 2.8 * +EC3.5.1.5 urea methylophilus methylotrophus//*//* 3.8 * +EC3.5.1.5 urea momordica charantia//eukaryotes;plants;eudicots;cucumber family//mcha 34.0 * +EC3.5.1.5 urea morus alba//*//* 0.16 * +EC3.5.1.5 urea mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.3 * +EC3.5.1.5 urea nitellopsis obtusa//*//* 4.5 * +EC3.5.1.5 urea otala lactea//*//* 0.11 * +EC3.5.1.5 urea pisum sativum//*//* 500.0 * +EC3.5.1.5 urea proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 13.0 * +EC3.5.1.5 urea providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 10.5 * +EC3.5.1.5 urea providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 9.3 * +EC3.5.1.5 urea pseudarthrobacter oxydans//*//* 12.5 * +EC3.5.1.5 urea rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.28 * +EC3.5.1.5 urea schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.03 * +EC3.5.1.5 urea selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 2.2 * +EC3.5.1.5 urea sporosarcina pasteurii//*//* 17.3 * +EC3.5.1.5 urea staphylococcus leei//*//* 1.66 * +EC3.5.1.5 urea staphylococcus saprophyticus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//ssp 9.5 * +EC3.5.1.5 urea streptococcus mitior//*//* 2.0 * +EC3.5.1.5 urea ureaplasma urealyticum//prokaryotes;bacteria;tenericutes;ureaplasma//uue 2.5 * +EC3.5.1.5 urea yersinia enterocolitica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yen 1.7 * +EC3.5.1.5 urea zea mays//eukaryotes;plants;monocots;grass family//zma 0.45 * +EC3.5.1.51 2-acetamidoacetyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.077 * +EC3.5.1.51 3-acetamidopropionyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.048 * +EC3.5.1.51 4-acetamidobutyryl-pantetheine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC3.5.1.51 4-butyramidobutyryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC3.5.1.51 4-propionamidobutyryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC3.5.1.51 5-acetamidovaleryl coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.005 * +EC3.5.1.51 acetoacetyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC3.5.1.51 beta-alanyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.059 * +EC3.5.1.51 butyryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.007 * +EC3.5.1.51 dl-3-aminobutyryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.016 * +EC3.5.1.51 propionyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.005 * +EC3.5.1.51 valeryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.007 * +EC3.5.1.52 asialo fetuin glycopeptide i saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC3.5.1.52 asiolo-ovomucoid glycopeptide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.871 * +EC3.5.1.52 beta-aspartylglycosylamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.5.1.52 bromelain glycopeptide prunus amygdalus var. dulcis//*//* 4.0 * +EC3.5.1.52 bromelain undecapeptide prunus amygdalus var. dulcis//*//* 2.0 * +EC3.5.1.52 fetuin glycopeptide elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.525 * +EC3.5.1.52 fetuin glycopeptide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.114 * +EC3.5.1.52 fetuin glycopeptide prunus amygdalus var. dulcis//*//* 1.46 * +EC3.5.1.53 n-carbamoylputrescine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.135 * +EC3.5.1.53 n-carbamoylputrescine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.3 * +EC3.5.1.53 n-carbamoylputrescine selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.22 * +EC3.5.1.53 n-carbamoylputrescine zea mays//eukaryotes;plants;monocots;grass family//zma 0.09 * +EC3.5.1.54 allophanate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.55 * +EC3.5.1.55 n-lauroyl-l-aspartate brevundimonas diminuta//*//* 1.4 * +EC3.5.1.55 n-lauroyl-l-glutamate brevundimonas diminuta//*//* 0.17 * +EC3.5.1.55 n-lauroylglycine brevundimonas diminuta//*//* 2.0 * +EC3.5.1.55 n-myristoyl-l-glutamate brevundimonas diminuta//*//* 0.083 * +EC3.5.1.55 n-oleolyl-l-glutamate penicillium sp.//*//* 0.21 * +EC3.5.1.55 n-oleoyl-l-glutamate penicillium sp.//*//* 0.21 * +EC3.5.1.55 n-palmitoyl-l-glutamate brevundimonas diminuta//*//* 0.14 * +EC3.5.1.55 n-stearoyl-l-glutamate brevundimonas diminuta//*//* 0.33 * +EC3.5.1.56 n,n-dimethylformamide alcaligenes sp.//*//* 1.28 * +EC3.5.1.56 n,n-dimethylformamide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 13.8 * +EC3.5.1.57 l-tryptophanamide cutaneotrichosporon cutaneum//*//* 5.6 * +EC3.5.1.58 n-benzyl-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.35 * +EC3.5.1.58 n-benzyl-gly enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.1 * +EC3.5.1.58 n-benzyloxycarbonyl-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.8 * +EC3.5.1.58 n-benzyloxycarbonyl-gly enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.36 * +EC3.5.1.59 n-carbamoylsarcosine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.0 * +EC3.5.1.59 n-carbamoylsarcosine clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 3.0 * +EC3.5.1.59 n-carbamoylsarcosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.2 * +EC3.5.1.6 2-amino-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.07 * +EC3.5.1.6 2-methyl-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.59 * +EC3.5.1.6 2-methyl-n-carbamoyl-beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC3.5.1.6 2-methyl-n-carbamoyl-beta-alanine zea mays//eukaryotes;plants;monocots;grass family//zma 0.006 * +EC3.5.1.6 2-phenyl-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 84.37 * +EC3.5.1.6 2-ureidoethane phosphonic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 20.15 * +EC3.5.1.6 2-ureidoethanesulfonic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 10.58 * +EC3.5.1.6 3-methyl-3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.44 * +EC3.5.1.6 3-ureidopropionic acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.14 * +EC3.5.1.6 3-ureidopropionic acid caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.147 * +EC3.5.1.6 beta-ureidoisobutyric acid euglena gracilis//*//* 0.018 * +EC3.5.1.6 beta-ureidopropionic acid clostridium uracilicum//*//* 0.63 * +EC3.5.1.6 beta-ureidopropionic acid euglena gracilis//*//* 0.038 * +EC3.5.1.6 beta-ureidopropionic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.74 * +EC3.5.1.6 beta-ureidopropionic acid rattus rattus//*//* 0.5 * +EC3.5.1.6 beta-ureidopropionic acid rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 3.5 * +EC3.5.1.6 dl-beta-ureidobutyric acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.52 * +EC3.5.1.6 gamma-ureido-n-butyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.6 * +EC3.5.1.6 n-acetyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 169.2 * +EC3.5.1.6 n-acetyl-dl-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.78 * +EC3.5.1.6 n-acetyl-l-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.96 * +EC3.5.1.6 n-acetyl-l-methionine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.84 * +EC3.5.1.6 n-carbamoyl-5-aminopentanoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.69 * +EC3.5.1.6 n-carbamoyl-alpha-amino-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.07 * +EC3.5.1.6 n-carbamoyl-alpha-methyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.5 * +EC3.5.1.6 n-carbamoyl-alpha-phenyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 84.38 * +EC3.5.1.6 n-carbamoyl-beta-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.14 * +EC3.5.1.6 n-carbamoyl-beta-alanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.008 * +EC3.5.1.6 n-carbamoyl-beta-alanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC3.5.1.6 n-carbamoyl-beta-alanine clostridium uracilicum//*//* 0.634 * +EC3.5.1.6 n-carbamoyl-beta-alanine euglena gracilis//*//* 0.038 * +EC3.5.1.6 n-carbamoyl-beta-alanine lachancea kluyveri//*//* 50.0 * +EC3.5.1.6 n-carbamoyl-beta-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.56 * +EC3.5.1.6 n-carbamoyl-beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC3.5.1.6 n-carbamoyl-beta-alanine rattus rattus//*//* 0.0065 * +EC3.5.1.6 n-carbamoyl-beta-alanine zea mays//eukaryotes;plants;monocots;grass family//zma 0.011 * +EC3.5.1.6 n-carbamoyl-beta-aminoisobutyric acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.81 * +EC3.5.1.6 n-carbamoyl-beta-aminoisobutyric acid rattus rattus//*//* 1.0 * +EC3.5.1.6 n-carbamoyl-beta-homoalanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.44 * +EC3.5.1.6 n-carbamoyl-ciliatine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 20.15 * +EC3.5.1.6 n-carbamoyl-d-ornithine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 9.09 * +EC3.5.1.6 n-carbamoyl-dl-2-aminovaleric acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 42.3 * +EC3.5.1.6 n-carbamoyl-gaba agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.17 * +EC3.5.1.6 n-carbamoyl-gamma-amino-beta-hydroxybutyric acid agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.94 * +EC3.5.1.6 n-carbamoyl-glycine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.75 * +EC3.5.1.6 n-carbamoyl-homoisoserine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.55 * +EC3.5.1.6 n-carbamoyl-l-alanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.26 * +EC3.5.1.6 n-carbamoyl-l-methionine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.11 * +EC3.5.1.6 n-carbamoyl-l-ornithine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 9.47 * +EC3.5.1.6 n-carbamoyl-l-phenylalanine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.89 * +EC3.5.1.6 n-carbamoyl-l-serine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 75.1 * +EC3.5.1.6 n-carbamoyl-taurine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 10.58 * +EC3.5.1.6 n-carbamoylglycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.68 * +EC3.5.1.6 n-formyl-dl-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.71 * +EC3.5.1.6 n-formyl-l-methionine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 6.01 * +EC3.5.1.60 n-(4-methylcoumarin)palmitamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.5.1.60 n-oleoylethanolamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.5.1.60 oleamide mus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.009 * +EC3.5.1.60 palmitoylethanolamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.5.1.61 beta-[n-(3-hydroxy-4(1h)-pyridone)]-alpha-aminopropionic acid leucaena leucocephala//*//* 1.64 * +EC3.5.1.62 n-acetylputrescine micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.321 * +EC3.5.1.62 n8-acetylspermidine micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.377 * +EC3.5.1.63 4-acetamidobutyrate candida boidinii//*//* 0.29 * +EC3.5.1.65 d-theanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 9.2 * +EC3.5.1.65 l-theanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.8 * +EC3.5.1.66 2-(hydroxymethyl)-3-(acetamidomethylene)succinate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.025 * +EC3.5.1.66 3-(acetamidomethylene)succinate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.68 * +EC3.5.1.67 4-methylene-l-glutamine arachis hypogaea//*//* 3.0 * +EC3.5.1.67 l-glutamate-5-hydroxamate arachis hypogaea//*//* 20.0 * +EC3.5.1.67 l-glutamine arachis hypogaea//*//* 13.0 * +EC3.5.1.68 beta-citryl-l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC3.5.1.68 n-formyl-l-glutamate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 14.0 * +EC3.5.1.70 aculeacin a actinoplanes utahensis//*//* 1.53 * +EC3.5.1.70 penicillin dihydrof actinoplanes utahensis//*//* 5.6 * +EC3.5.1.70 penicillin f actinoplanes utahensis//*//* 15.1 * +EC3.5.1.70 penicillin g actinoplanes utahensis//*//* 155.8 * +EC3.5.1.70 penicillin k actinoplanes utahensis//*//* 1.0 * +EC3.5.1.70 penicillin v actinoplanes utahensis//*//* 15.4 * +EC3.5.1.71 n-4-hydroxybenzoylglycine hordeum vulgare//*//* 1.18 * +EC3.5.1.71 n-benzoylglycine hordeum vulgare//*//* 2.0 * +EC3.5.1.71 n-cinnamoylglycine hordeum vulgare//*//* 0.426 * +EC3.5.1.71 n-dihydroferuloylglycine hordeum vulgare//*//* 0.833 * +EC3.5.1.71 n-feruloyl-d,l-aspartic acid hordeum vulgare//*//* 0.909 * +EC3.5.1.71 n-feruloyl-l-alanine hordeum vulgare//*//* 0.217 * +EC3.5.1.71 n-feruloylglycine hordeum vulgare//*//* 0.084 * +EC3.5.1.71 n-p-coumaroylglycine hordeum vulgare//*//* 0.385 * +EC3.5.1.71 n-sinapoylglycine hordeum vulgare//*//* 0.133 * +EC3.5.1.71 n-vanilloyl-1-glycine hordeum vulgare//*//* 1.11 * +EC3.5.1.72 n-benzoyl-d-arg 4-nitroanilide bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.14 * +EC3.5.1.72 n-benzoyl-d-arg 4-nitroanilide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.029 * +EC3.5.1.73 l-carnitine amide bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 11.3 * +EC3.5.1.75 4-nitroacetanilide rhodococcus hoagii//*//* 0.15 * +EC3.5.1.75 4-nitrophenyl acetate rhodococcus hoagii//*//* 0.07 * +EC3.5.1.75 4-nitrophenylbutyrate rhodococcus hoagii//*//* 0.1 * +EC3.5.1.75 acetamide rhodococcus hoagii//*//* 49.0 * +EC3.5.1.75 acetanilide rhodococcus hoagii//*//* 0.13 * +EC3.5.1.75 benzamide rhodococcus hoagii//*//* 11.8 * +EC3.5.1.75 butyramide rhodococcus hoagii//*//* 2.5 * +EC3.5.1.75 ethyl carbamate rhodococcus hoagii//*//* 6.59 * +EC3.5.1.75 ethyl n-phenylcarbamate rhodococcus hoagii//*//* 0.07 * +EC3.5.1.75 l-alanine 4-nitroanilide rhodococcus hoagii//*//* 2.49 * +EC3.5.1.75 phenyl acetamide rhodococcus hoagii//*//* 9.4 * +EC3.5.1.75 urethane bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.17 * +EC3.5.1.75 urethane citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 1.6 * +EC3.5.1.75 urethane micrococcus sp.//*//* 0.078 * +EC3.5.1.75 urethane paenibacillus thiaminolyticus//*//* 0.88 * +EC3.5.1.75 urethane purpureocillium lilacinum//eukaryotes;fungi;ascomycetes;sordariomycetes//plj 50.0 * +EC3.5.1.75 urethane talaromyces variabilis//*//* 0.0272 * +EC3.5.1.76 (r)-n-acetyl-1-methyl-3-phenylpropylamine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.9 * +EC3.5.1.76 melatonin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.5 * +EC3.5.1.76 n-acetyl-2-phenylethylamine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.31 * +EC3.5.1.76 n-acetyl-3-phenylpropylamine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.6 * +EC3.5.1.76 n-acetylbenzylamine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 41.0 * +EC3.5.1.76 n-acetyldopamine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.0 * +EC3.5.1.76 n-acetylserotonin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.34 * +EC3.5.1.77 n-carbamoyl-d-ala blastobacter sp.//*//* 4.0 * +EC3.5.1.77 n-carbamoyl-d-ala comamonas sp.//*//* 11.6 * +EC3.5.1.77 n-carbamoyl-d-leu blastobacter sp.//*//* 0.36 * +EC3.5.1.77 n-carbamoyl-d-leu comamonas sp.//*//* 3.6 * +EC3.5.1.77 n-carbamoyl-d-norleucine blastobacter sp.//*//* 0.79 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.82 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.24 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine blastobacter sp.//*//* 1.7 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine comamonas sp.//*//* 13.1 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 3.76 * +EC3.5.1.77 n-carbamoyl-d-p-hydroxyphenylglycine ralstonia pickettii//prokaryotes;bacteria;betaproteobacteria;ralstonia//rpi 0.82 * +EC3.5.1.77 n-carbamoyl-d-phe blastobacter sp.//*//* 0.5 * +EC3.5.1.77 n-carbamoyl-d-phe comamonas sp.//*//* 19.7 * +EC3.5.1.77 n-carbamoyl-d-phenylglycine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.3 * +EC3.5.1.77 n-carbamoyl-d-phenylglycine blastobacter sp.//*//* 0.88 * +EC3.5.1.77 n-carbamoyl-d-phenylglycine comamonas sp.//*//* 26.9 * +EC3.5.1.77 n-carbamoyl-d-ser blastobacter sp.//*//* 2.4 * +EC3.5.1.77 n-carbamoyl-d-ser comamonas sp.//*//* 23.7 * +EC3.5.1.77 n-carbamoyl-d-val blastobacter sp.//*//* 0.41 * +EC3.5.1.77 n-carbamoyl-d-val comamonas sp.//*//* 1.0 * +EC3.5.1.77 n-carbamoyl-dl-met blastobacter sp.//*//* 0.71 * +EC3.5.1.77 n-carbamoyl-dl-met comamonas sp.//*//* 7.5 * +EC3.5.1.77 n-carbamoyl-dl-norleucine comamonas sp.//*//* 4.8 * +EC3.5.1.78 atp crithidia fasciculata//*//* 0.114 * +EC3.5.1.78 glutathionylspermidine crithidia fasciculata//*//* 0.5 * +EC3.5.1.78 glutathionylspermidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC3.5.1.78 reduced glutathione crithidia fasciculata//*//* 0.242 * +EC3.5.1.78 spermidine crithidia fasciculata//*//* 0.059 * +EC3.5.1.79 2-carboxybenzoylamine-d-phe-l-ala xanthobacter agilis//*//* 0.16 * +EC3.5.1.79 2-carboxybenzoylamine-d-phenylglycine-methylester xanthobacter agilis//*//* 0.56 * +EC3.5.1.79 2-carboxybenzoylamine-l-phe-l-ala xanthobacter agilis//*//* 0.23 * +EC3.5.1.79 7-phthalamido-3-chloro-4-carboxy-1-carbadethioceph-3-em xanthobacter agilis//*//* 0.9 * +EC3.5.1.8 n-formyl-l-aspartate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.25 * +EC3.5.1.81 n-acetyl-d-ala achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 41.0 * +EC3.5.1.81 n-acetyl-d-leu achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.14 * +EC3.5.1.81 n-acetyl-d-leu achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 9.8 * +EC3.5.1.81 n-acetyl-d-leu streptomyces olivaceus//*//* 2.43 * +EC3.5.1.81 n-acetyl-d-leucine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 1.93 * +EC3.5.1.81 n-acetyl-d-leucine trichoderma sp.//*//* 2.04 * +EC3.5.1.81 n-acetyl-d-met achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.48 * +EC3.5.1.81 n-acetyl-d-met achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 4.8 * +EC3.5.1.81 n-acetyl-d-met alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.22 * +EC3.5.1.81 n-acetyl-d-methionine trichoderma sp.//*//* 1.89 * +EC3.5.1.81 n-acetyl-d-phe achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.27 * +EC3.5.1.81 n-acetyl-d-phe streptomyces olivaceus//*//* 1.71 * +EC3.5.1.81 n-acetyl-d-phenylalanine microbacterium natoriense//*//* 2.5 * +EC3.5.1.81 n-acetyl-d-phenylglycine streptomyces olivaceus//*//* 1.13 * +EC3.5.1.81 n-acetyl-d-trp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 6.23 * +EC3.5.1.81 n-acetyl-d-trp streptomyces olivaceus//*//* 2.9 * +EC3.5.1.81 n-chloroacetyl-d-val achromobacter denitrificans//prokaryotes;bacteria;betaproteobacteria;achromobacter//adt 0.13 * +EC3.5.1.82 n-acetyl-d-glu pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.67 * +EC3.5.1.83 n-acetyl-d-asp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 2.52 * +EC3.5.1.83 n-butanoyl-d-asp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.033 * +EC3.5.1.83 n-formyl-d-asp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 12.5 * +EC3.5.1.83 n-glycyl-d-asp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 1.11 * +EC3.5.1.83 n-propanoyl-d-asp achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.194 * +EC3.5.1.84 biuret rhizobium leguminosarum bv. viciae//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.023 * +EC3.5.1.85 (s)-n-acetyl-1-phenylethylamine rhodococcus hoagii//*//* 0.6 * +EC3.5.1.86 (r)-(+)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0342 * +EC3.5.1.86 (r)-(-)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 15.0 * +EC3.5.1.86 (r)-2-aminophenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.005 * +EC3.5.1.86 (r)-lactamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.596 * +EC3.5.1.86 (r)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.018 * +EC3.5.1.86 (r,s)-methyl mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.17 * +EC3.5.1.86 (s)-(+)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0198 * +EC3.5.1.86 (s)-2-aminophenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.006 * +EC3.5.1.86 (s)-lactamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.43 * +EC3.5.1.86 (s)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.007 * +EC3.5.1.86 2-cyclohexylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC3.5.1.86 2-phenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0009 * +EC3.5.1.86 3-phenylpropionamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.049 * +EC3.5.1.86 acetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 490.0 * +EC3.5.1.86 butanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.8 * +EC3.5.1.86 caproamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.12 * +EC3.5.1.86 cyclohexanecarboxamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.55 * +EC3.5.1.86 hexanoamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.288 * +EC3.5.1.86 n-methyl phenylacetamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.032 * +EC3.5.1.86 pentanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.54 * +EC3.5.1.86 propanamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 45.0 * +EC3.5.1.87 n-acetyl-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 36.12 * +EC3.5.1.87 n-acetyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 12.66 * +EC3.5.1.87 n-acetyl-l-methionine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 5.5 * +EC3.5.1.87 n-acetyl-l-phenylalanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 12.9 * +EC3.5.1.87 n-acetyl-l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 116.0 * +EC3.5.1.87 n-acetyl-l-valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 13.92 * +EC3.5.1.87 n-carbamoyl-dl-2-aminohexanoic acid achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.85 * +EC3.5.1.87 n-carbamoyl-dl-methionine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 3.2 * +EC3.5.1.87 n-carbamoyl-dl-serine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 10.0 * +EC3.5.1.87 n-carbamoyl-l-alanine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 3.0 * +EC3.5.1.87 n-carbamoyl-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.19 * +EC3.5.1.87 n-carbamoyl-l-alanine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.94 * +EC3.5.1.87 n-carbamoyl-l-asparagine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 1.5 * +EC3.5.1.87 n-carbamoyl-l-cysteine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 4.91 * +EC3.5.1.87 n-carbamoyl-l-glutamic acid sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 51.23 * +EC3.5.1.87 n-carbamoyl-l-isoleucine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.31 * +EC3.5.1.87 n-carbamoyl-l-leucine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.86 * +EC3.5.1.87 n-carbamoyl-l-methionine brevibacillus reuszeri//*//* 13.5 * +EC3.5.1.87 n-carbamoyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.9 * +EC3.5.1.87 n-carbamoyl-l-methionine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.69 * +EC3.5.1.87 n-carbamoyl-l-phenylalanine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.92 * +EC3.5.1.87 n-carbamoyl-l-phenylalanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.82 * +EC3.5.1.87 n-carbamoyl-l-phenylalanine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.61 * +EC3.5.1.87 n-carbamoyl-l-tryptophan sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.65 * +EC3.5.1.87 n-carbamoyl-l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 12.99 * +EC3.5.1.87 n-carbamoyl-l-tyrosine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 4.8 * +EC3.5.1.87 n-carbamoyl-l-valine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.4 * +EC3.5.1.87 n-carbamoyl-l-valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 3.29 * +EC3.5.1.87 n-carbamoyl-l-valine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 34.47 * +EC3.5.1.87 n-carbamoylglycine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 6.6 * +EC3.5.1.87 n-formyl-dl-alanine achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 16.0 * +EC3.5.1.87 n-formyl-l-alanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.0 * +EC3.5.1.87 n-formyl-l-methionine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 9.77 * +EC3.5.1.87 n-formyl-l-methionine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 12.9 * +EC3.5.1.87 n-formyl-l-phenylalanine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 13.82 * +EC3.5.1.87 n-formyl-l-tyrosine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 23.78 * +EC3.5.1.87 n-formyl-l-valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 6.75 * +EC3.5.1.88 formyl-l-met-leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC3.5.1.88 formyl-maha homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.14 * +EC3.5.1.88 formyl-mehq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 42.9 * +EC3.5.1.88 formyl-met-ala-his-ala-ala-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.5 * +EC3.5.1.88 formyl-met-ala-his-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.5.1.88 formyl-met-ala-lys-tyr legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.34 * +EC3.5.1.88 formyl-met-ala-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC3.5.1.88 formyl-met-ala-ser haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.8 * +EC3.5.1.88 formyl-met-ala-ser helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.7 * +EC3.5.1.88 formyl-met-ala-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 11.0 * +EC3.5.1.88 formyl-met-ala-ser legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.3 * +EC3.5.1.88 formyl-met-ala-ser leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 2.4 * +EC3.5.1.88 formyl-met-ala-ser staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.6 * +EC3.5.1.88 formyl-met-ala-ser streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 4.0 * +EC3.5.1.88 formyl-met-ala legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.14 * +EC3.5.1.88 formyl-met-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.1 * +EC3.5.1.88 formyl-met-leu-p-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC3.5.1.88 formyl-met-thr-gln-ser-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.85 * +EC3.5.1.88 formyl-met-thr-met-his-thr-thr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.0 * +EC3.5.1.88 formyl-met-thr-met-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.5.1.88 formyl-mfad homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.351 * +EC3.5.1.88 formyl-mfhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.01 * +EC3.5.1.88 formyl-mghq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.14 * +EC3.5.1.88 formyl-mlhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.521 * +EC3.5.1.88 formyl-mlkl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.76 * +EC3.5.1.88 formyl-mmya homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.085 * +EC3.5.1.88 formyl-mnfa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.443 * +EC3.5.1.88 formyl-mnpl homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.44 * +EC3.5.1.88 formyl-mpql homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.09 * +EC3.5.1.88 formyl-mrhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.97 * +EC3.5.1.88 formyl-mthq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.56 * +EC3.5.1.88 formyl-mtmh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.135 * +EC3.5.1.88 formyl-mtpm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.181 * +EC3.5.1.88 formyl-mvhq homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.738 * +EC3.5.1.88 n-formyl-ala-ala-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 52.0 * +EC3.5.1.88 n-formyl-arg(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.42 * +EC3.5.1.88 n-formyl-asp(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.74 * +EC3.5.1.88 n-formyl-gly(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.9 * +EC3.5.1.88 n-formyl-l-met-l-ala-l-ser staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 2.227 * +EC3.5.1.88 n-formyl-l-met-l-leu-4-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC3.5.1.88 n-formyl-l-met-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.8 * +EC3.5.1.88 n-formyl-leu(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.79 * +EC3.5.1.88 n-formyl-met-ala-phe-tyr-beta-ala-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.95 * +EC3.5.1.88 n-formyl-met-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.25 * +EC3.5.1.88 n-formyl-met-ala-ser bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.3 * +EC3.5.1.88 n-formyl-met-ala-ser chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 5.0 * +EC3.5.1.88 n-formyl-met-ala-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC3.5.1.88 n-formyl-met-ala-ser leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 2.4 * +EC3.5.1.88 n-formyl-met-ala-ser mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.3 * +EC3.5.1.88 n-formyl-met-ala-ser solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.27 * +EC3.5.1.88 n-formyl-met-ala-ser trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 22.37 * +EC3.5.1.88 n-formyl-met-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.2 * +EC3.5.1.88 n-formyl-met-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 4.1 * +EC3.5.1.88 n-formyl-met-leu-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.0 * +EC3.5.1.88 n-formyl-met-leu-phe arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.23 * +EC3.5.1.88 n-formyl-met-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.5.1.88 n-formyl-met-ser-asn-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.0 * +EC3.5.1.88 n-formyl-met-ser-asn-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5 * +EC3.5.1.88 n-formyl-met-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.1 * +EC3.5.1.88 n-formyl-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC3.5.1.88 n-formyl-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC3.5.1.88 n-formyl-nle-ala(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC3.5.1.88 n-formyl-nle-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC3.5.1.88 n-formyl-nle-ala-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5 * +EC3.5.1.88 n-formyl-nle-arg(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC3.5.1.88 n-formyl-nle-asn(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.2 * +EC3.5.1.88 n-formyl-nle-asp(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.3 * +EC3.5.1.88 n-formyl-nle-gln(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.5.1.88 n-formyl-nle-glu(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.3 * +EC3.5.1.88 n-formyl-nle-gly(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5 * +EC3.5.1.88 n-formyl-nle-leu(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC3.5.1.88 n-formyl-nle-lys(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.62 * +EC3.5.1.88 n-formyl-nle-met(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC3.5.1.88 n-formyl-nle-nle(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.9 * +EC3.5.1.88 n-formyl-nle-phe(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC3.5.1.88 n-formyl-nle-pro(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC3.5.1.88 n-formyl-nle-ser(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.5.1.88 n-formyl-nle-thr(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC3.5.1.88 n-formyl-nle-trp(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC3.5.1.88 n-formyl-nle-tyr(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC3.5.1.88 n-formyl-nle-val(nh2) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC3.5.1.88 n-formyl-nva-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.4 * +EC3.5.1.88 n-formyl-phe-ala-ser arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 3.0 * +EC3.5.1.88 n-formyl-phe-tyr-phe-his-beta-alanine-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.49 * +EC3.5.1.88 n-formyl-ser(nh2) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.42 * +EC3.5.1.88 n-formyl-thiaphenyl-ala-leu-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.037 * +EC3.5.1.88 n-formyl-thiaphenylalanyl-peptide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC3.5.1.88 n-formylmethionyl-leu-p-nitroanilide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.5.1.89 n-acetyl-d-glucosaminylphosphatidylinositol entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.00195 * +EC3.5.1.89 n-acetyl-d-glucosaminylphosphatidylinositol trypanosoma sp.//*//* 0.00015 * +EC3.5.1.9 2-chloro-n-(1-naphthyl)acetamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC3.5.1.9 5-hydroxy-dl-kynurenine rattus sp.//*//* 0.4 * +EC3.5.1.9 n-formyl-dl-kynurenine oncorhynchus mykiss//*//* 0.45 * +EC3.5.1.9 n-formyl-l-kynurenine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.78 * +EC3.5.1.9 n-formyl-l-kynurenine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.83 * +EC3.5.1.9 n-formyl-l-kynurenine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.14 * +EC3.5.1.9 n-formyl-l-kynurenine hansenula henricii//*//* 1.9 * +EC3.5.1.9 n-formyl-l-kynurenine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.18 * +EC3.5.1.9 n-formyl-l-kynurenine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.11 * +EC3.5.1.9 n-formyl-l-kynurenine oncorhynchus mykiss//*//* 0.28 * +EC3.5.1.9 n-formyl-l-kynurenine rattus sp.//*//* 0.05 * +EC3.5.1.9 n-formyl-l-kynurenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.18 * +EC3.5.1.9 n-formyl-l-kynurenine streptomyces parvulus//prokaryotes;bacteria;actinobacteria;streptomyces//spav 0.31 * +EC3.5.1.9 n-formyl-m-aminobenzoic acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 7.7 * +EC3.5.1.9 n-formyl-o-aminoacetophenone gallus gallus//eukaryotes;animals;vertebrates;birds//gga 8.1 * +EC3.5.1.9 n-formyl-o-aminoacetophenone neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.8 * +EC3.5.1.9 n-formyl-o-aminonitrobenzene neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.5 * +EC3.5.1.9 n-formylanthranilic acid neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 3.3 * +EC3.5.1.9 n-formylanthranilic acid rattus sp.//*//* 0.21 * +EC3.5.1.9 n1,nalpha-diformyl-l-kynurenine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.39 * +EC3.5.1.91 acetate arthrobacter pascens//*//* 1210.0 * +EC3.5.1.91 benzylamine arthrobacter pascens//*//* 53.6 * +EC3.5.1.91 formate arthrobacter pascens//*//* 3010.0 * +EC3.5.1.91 n-benzylformamide arthrobacter pascens//*//* 0.075 * +EC3.5.1.91 n-butylformamide arthrobacter pascens//*//* 7.5 * +EC3.5.1.91 propionate arthrobacter pascens//*//* 3850.0 * +EC3.5.1.92 (r)-pantetheine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC3.5.1.92 pantetheine equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 5.0 * +EC3.5.1.92 pantothenate-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 28.0 * +EC3.5.1.92 s-cysteamine-3-pyruvate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 2.8e-05 * +EC3.5.1.93 (7r)-7-(4-carboxybutanamido)cephalosporanate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.043 * +EC3.5.1.93 4-(glutarylamino)benzoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.5 * +EC3.5.1.93 adipyl-7-aminocephalosporanic acid pseudomonas sp. sy-77-1//*//* 1.0 * +EC3.5.1.93 adipyl-7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.5 * +EC3.5.1.93 adipyl-7-aminodeacetoxycephalosporanic acid pseudomonas sp. sy-77-1//*//* 1.2 * +EC3.5.1.93 adipyl-7-aminodesacetoxycephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.7 * +EC3.5.1.93 cephalosporin c brevundimonas diminuta//*//* 4.8 * +EC3.5.1.93 cephalosporin c pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.5 * +EC3.5.1.93 gamma-glu-cys-gly pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.3 * +EC3.5.1.93 glutaryl deacetoxy 7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC3.5.1.93 glutaryl-3-chloro-7-aminodesacetoxycephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC3.5.1.93 glutaryl-7-amino cephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.6 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid brevibacillus laterosporus//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//blr 0.19 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid brevundimonas diminuta//*//* 2.6 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas nitroreducens//*//* 10.41 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas sp. 130//*//* 0.21 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas sp. sy-77-1//*//* 0.031 * +EC3.5.1.93 glutaryl-7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.033 * +EC3.5.1.93 glutaryl-7-aminodesacetoxycephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.3 * +EC3.5.1.93 glutaryl-alanyl-proline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.73 * +EC3.5.1.93 glutaryl-egdppdladqg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.7 * +EC3.5.1.93 glutaryl-gamma-glu-cys-gly pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.4 * +EC3.5.1.93 glutaryl-gdaadaadkg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.4 * +EC3.5.1.93 glutaryl-gdpp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.35 * +EC3.5.1.93 glutaryl-gdppdladqg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.67 * +EC3.5.1.93 glutaryl-ggggaa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.68 * +EC3.5.1.93 glutaryl-gggggk pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.43 * +EC3.5.1.93 glutaryl-glycine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.1 * +EC3.5.1.93 glutaryl-glycyl-proline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.85 * +EC3.5.1.93 glutaryl-tryptophan pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.1 * +EC3.5.1.93 glutarylaniline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 40.0 * +EC3.5.1.93 l-gamma-glutamyl p-nitroanilide pseudomonas nitroreducens//*//* 5.92 * +EC3.5.1.93 l-gamma-glutamyl-p-nitroanilide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.8 * +EC3.5.1.93 pentanoyl-7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 17.4 * +EC3.5.1.93 succinyl-7-aminocephalosporanic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.2 * +EC3.5.1.96 n-succinyl-l-glutamate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.2 * +EC3.5.1.98 ac-dqk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00244 * +EC3.5.1.98 ac-fek(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00228 * +EC3.5.1.98 ac-ggk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.5.1.98 ac-gs(po3)k(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0123 * +EC3.5.1.98 ac-gsk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00405 * +EC3.5.1.98 ac-ihk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00069 * +EC3.5.1.98 ac-ilk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0124 * +EC3.5.1.98 ac-kgk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0054 * +EC3.5.1.98 ac-ksk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.5.1.98 ac-kwk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC3.5.1.98 ac-kyk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC3.5.1.98 ac-leu-gly-lys(ac)-7-amido-4-methylcoumarin plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.03 * +EC3.5.1.98 ac-lik(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00303 * +EC3.5.1.98 ac-lyk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC3.5.1.98 ac-pfk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.5.1.98 ac-vlk(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0119 * +EC3.5.1.98 benzyloxycarbonyl-l-lys(acetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.078 * +EC3.5.1.98 benzyloxycarbonyl-l-lys(trifluoroacetyl)-7-amido-4-methylcoumarin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.5.1.98 fluor de lys hdac substrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC3.5.1.98 fluor de lys hdac8 substrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.5.1.98 fluor de lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5e-05 * +EC3.5.1.98 rhk(acetyl)k(acetyl)-fluorophore homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.5.1.99 (r)-alpha-methanandamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.0 * +EC3.5.1.99 (s)-alpha-methanandamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.94 * +EC3.5.1.99 anandamide canis lupus familiaris//*//* 0.0018 * +EC3.5.1.99 anandamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC3.5.1.99 anandamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.78 * +EC3.5.1.99 arachidonamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.34 * +EC3.5.1.99 arachidonoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC3.5.1.99 decanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.057 * +EC3.5.1.99 heptanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC3.5.1.99 lauroyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.065 * +EC3.5.1.99 myristoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.099 * +EC3.5.1.99 n-(o-hydroxyphenyl)arachidonamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.31 * +EC3.5.1.99 nonanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.074 * +EC3.5.1.99 octanoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC3.5.1.99 oleamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC3.5.1.99 oleoyl methyl amide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC3.5.1.99 oleoyl methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC3.5.1.99 oleoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC3.5.1.99 palmitoyl p-nitroanilide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.074 * +EC3.5.1.B15 pyrazinamide acidilobus saccharovorans//prokaryotes;archaea;crenarchaeota;acidilobus//asc 0.41 * +EC3.5.1.B18 4-aminobenzoylglutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.37 * +EC3.5.2.1 barbiturate mycobacterium sp.//prokaryotes;bacteria;actinobacteria;mycobacterium//msa 3.37 * +EC3.5.2.1 barbiturate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 1.0 * +EC3.5.2.10 creatinine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC3.5.2.10 creatinine paenarthrobacter ureafaciens//*//* 125.0 * +EC3.5.2.10 creatinine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 26.0 * +EC3.5.2.10 creatinine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.17 * +EC3.5.2.11 l-alpha-amino-epsilon-caprolactam papiliotrema laurentii//*//* 0.33 * +EC3.5.2.12 1,8-diazacyclotetradecane-2,9-dione flavobacterium sp.//*//* 6.0 * +EC3.5.2.12 1,8-diazacyclotetradecane-2,9-dione pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.6 * +EC3.5.2.12 6-amino-hexanoate cyclic dimer arthrobacter sp. ki72//*//* 3.51 * +EC3.5.2.13 cyclo(gly-gly) bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 11.1 * +EC3.5.2.14 2,4-thiazolidinedione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 10.0 * +EC3.5.2.14 2-imidazolidone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 40.0 * +EC3.5.2.14 2-oxazolidone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.0 * +EC3.5.2.14 2-pyrrolidone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.75 * +EC3.5.2.14 d,l-5-methylhydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC3.5.2.14 delta-valerolactam pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC3.5.2.14 dihydrothymine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC3.5.2.14 dihydrouracil pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.083 * +EC3.5.2.14 glutarimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.07 * +EC3.5.2.14 hydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.7 * +EC3.5.2.14 n-methylhydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.032 * +EC3.5.2.14 succimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.13 * +EC3.5.2.14 thymine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.0 * +EC3.5.2.14 uracil pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.6 * +EC3.5.2.15 cyanuric acid acidovorax citrulli//prokaryotes;bacteria;betaproteobacteria;acidovorax//aav 0.058 * +EC3.5.2.15 cyanuric acid moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.11 * +EC3.5.2.15 cyanuric acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.023 * +EC3.5.2.16 2,4-thiazolidinedione blastobacter sp. a17p-4//*//* 33.0 * +EC3.5.2.16 6-methyldihydrouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC3.5.2.16 beta-ureidopropionate blastobacter sp. a17p-4//*//* 9.4 * +EC3.5.2.16 dihydrothymine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.5.2.16 dihydrothymine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.35 * +EC3.5.2.16 dihydrouracil blastobacter sp. a17p-4//*//* 52.0 * +EC3.5.2.16 dihydrouracil pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 74.3 * +EC3.5.2.16 dihydrouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC3.5.2.16 glutarimide blastobacter sp. a17p-4//*//* 4.5 * +EC3.5.2.16 hydantoin blastobacter sp. a17p-4//*//* 5.7 * +EC3.5.2.16 hydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 53.5 * +EC3.5.2.16 hydantoin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 10.1 * +EC3.5.2.16 maleimide agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 180.0 * +EC3.5.2.16 maleimide blastobacter sp. a17p-4//*//* 0.34 * +EC3.5.2.16 maleimide oreochromis niloticus//*//* 200.0 * +EC3.5.2.16 maleimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 39.1 * +EC3.5.2.16 maleimide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 13.0 * +EC3.5.2.16 n-carbamoyl-beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC3.5.2.16 parabanic acid blastobacter sp. a17p-4//*//* 62.0 * +EC3.5.2.16 phthalimide agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.8 * +EC3.5.2.16 phthalimide oreochromis niloticus//*//* 1.6 * +EC3.5.2.16 phthalimide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.9 * +EC3.5.2.16 phthalimide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC3.5.2.16 rhodanine blastobacter sp. a17p-4//*//* 31.0 * +EC3.5.2.16 succinimide blastobacter sp. a17p-4//*//* 0.94 * +EC3.5.2.16 succinimide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 29.2 * +EC3.5.2.16 thiohydantoin blastobacter sp. a17p-4//*//* 23.0 * +EC3.5.2.17 5,6-diaminouracil glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.026 * +EC3.5.2.17 5-hydroxyisourate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.015 * +EC3.5.2.17 5-hydroxyisourate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.103 * +EC3.5.2.19 streptothricin-d streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 5.74 * +EC3.5.2.19 streptothricin-d streptomyces noursei//prokaryotes;bacteria;actinobacteria;streptomyces//snr 3.2 * +EC3.5.2.19 streptothricin-f streptomyces albulus//prokaryotes;bacteria;actinobacteria;streptomyces//salu 0.96 * +EC3.5.2.19 streptothricin-f streptomyces noursei//prokaryotes;bacteria;actinobacteria;streptomyces//snr 1.3 * +EC3.5.2.2 5,6-dihydrothymine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC3.5.2.2 5,6-dihydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC3.5.2.2 5,6-dihydrouracil pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 11.0 * +EC3.5.2.2 5,6-dihydrouracil pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.7 * +EC3.5.2.2 5,6-dihydrouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC3.5.2.2 5-bromo-5,6-dihydrouracil rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC3.5.2.2 5-bromodihydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.5.2.2 5-iododihydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.018 * +EC3.5.2.2 5-isopropylhydantoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 34.0 * +EC3.5.2.2 5-methylhydantoin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 62.5 * +EC3.5.2.2 allantoin bacillus circulans//*//* 5.8 * +EC3.5.2.2 beta-ureidoisobutyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.028 * +EC3.5.2.2 beta-ureidopropionate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC3.5.2.2 d,l-benzylhydantoin burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 14.98 * +EC3.5.2.2 d-5-benzylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 5.0 * +EC3.5.2.2 d-5-butylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 14.0 * +EC3.5.2.2 d-5-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 3.4 * +EC3.5.2.2 d-5-ethylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 18.0 * +EC3.5.2.2 d-5-isobutylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 10.0 * +EC3.5.2.2 d-5-isopropylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 44.0 * +EC3.5.2.2 d-5-methyl-thio-ethylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 66.0 * +EC3.5.2.2 d-5-methylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 72.0 * +EC3.5.2.2 d-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.4 * +EC3.5.2.2 d-5-propylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 26.0 * +EC3.5.2.2 dihydrothymine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.015 * +EC3.5.2.2 dihydrouracil bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.4 * +EC3.5.2.2 dihydrouracil geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 1.1 * +EC3.5.2.2 dihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 3.0 * +EC3.5.2.2 dl-5-(2-methylthioethyl)-hydantoin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 28.0 * +EC3.5.2.2 dl-5-(2-methylthioethyl)-hydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 28.0 * +EC3.5.2.2 dl-5-(2-methylthioethyl)hydantoin bacillus circulans//*//* 40.7 * +EC3.5.2.2 dl-5-(p-hydroxyphenyl)hydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 20.0 * +EC3.5.2.2 dl-5-benzylhydantoin bacillus circulans//*//* 6.8 * +EC3.5.2.2 dl-5-butylhydantoin bacillus circulans//*//* 12.8 * +EC3.5.2.2 dl-5-isobutylhydantoin bacillus circulans//*//* 4.9 * +EC3.5.2.2 dl-5-isopropylhydantoin bacillus circulans//*//* 17.2 * +EC3.5.2.2 dl-5-methyldihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 1.0 * +EC3.5.2.2 dl-5-methylhydantoin bacillus circulans//*//* 27.8 * +EC3.5.2.2 dl-5-phenylhydantoin arthrobacter crystallopoietes//prokaryotes;bacteria;actinobacteria;arthrobacter//acry 7.9 * +EC3.5.2.2 dl-5-phenylhydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 50.0 * +EC3.5.2.2 dl-5-phenyllhydantoin bacillus circulans//*//* 58.8 * +EC3.5.2.2 dl-5-propylhydantoin bacillus circulans//*//* 25.6 * +EC3.5.2.2 dl-6-isopropyldihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 81.0 * +EC3.5.2.2 dl-6-methyldihydrouracil sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 111.0 * +EC3.5.2.2 dl-hydroxyphenylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.074 * +EC3.5.2.2 dl-hydroxyphenylhydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.4 * +EC3.5.2.2 dl-p-hydroxyphenylhydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.9 * +EC3.5.2.2 dl-p-hydroxyphenylhydantoin jannaschia sp. ccs1//prokaryotes;bacteria;alphaproteobacteria;jannaschia//jan 18.0 * +EC3.5.2.2 hydantoin agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 1.28 * +EC3.5.2.2 hydantoin bacillus circulans//*//* 105.4 * +EC3.5.2.2 hydantoin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.0 * +EC3.5.2.2 hydantoin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 50.0 * +EC3.5.2.2 hydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 78.0 * +EC3.5.2.2 hydantoin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 280.0 * +EC3.5.2.2 hydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 125.0 * +EC3.5.2.2 hydrothymine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.1 * +EC3.5.2.2 hydrouracil bos taurus//eukaryotes;animals;vertebrates;mammals//bta 117.5 * +EC3.5.2.2 l-5-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.1 * +EC3.5.2.2 l-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.4 * +EC3.5.2.2 n-carbamoyl-beta-alanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.92 * +EC3.5.2.2 n-carbamoyl-beta-aminoisobutyric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.19 * +EC3.5.2.2 p-hydroxyphenylhydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 47.2 * +EC3.5.2.2 p-hydroxyphenylhydantoin geobacillus thermocatenulatus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtm 30.7 * +EC3.5.2.2 phenylhydantoin arthrobacter crystallopoietes//prokaryotes;bacteria;actinobacteria;arthrobacter//acry 8.0 * +EC3.5.2.2 phenylhydantoin geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 32.1 * +EC3.5.2.20 isatin mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.011 * +EC3.5.2.3 (s)-dihydroorotate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.04 * +EC3.5.2.3 (s)-dihydroorotate mesocricetus auratus//*//* 0.02 * +EC3.5.2.3 carbamoyl aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC3.5.2.3 dihydro-dl-orotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.076 * +EC3.5.2.3 dihydroorotate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 3.03 * +EC3.5.2.3 dihydroorotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC3.5.2.3 l-carbamoyl-l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC3.5.2.3 l-carbamoyl-l-aspartate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.285 * +EC3.5.2.3 l-carbamoylaspartate crithidia fasciculata//*//* 0.846 * +EC3.5.2.3 l-carbamoylaspartate faecalicatena orotica//*//* 0.015 * +EC3.5.2.3 l-carbamoylaspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.04 * +EC3.5.2.3 l-carbamoylaspartate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.846 * +EC3.5.2.3 l-carbamoylaspartate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.2 * +EC3.5.2.3 l-carbamoylaspartate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC3.5.2.3 l-dihydroorotate cricetinae//*//* 0.004 * +EC3.5.2.3 l-dihydroorotate crithidia fasciculata//*//* 0.026 * +EC3.5.2.3 l-dihydroorotate faecalicatena orotica//*//* 0.028 * +EC3.5.2.3 l-dihydroorotate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC3.5.2.3 l-dihydroorotate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.008 * +EC3.5.2.3 l-dihydroorotate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.012 * +EC3.5.2.3 l-dihydroorotate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.081 * +EC3.5.2.3 l-dihydroorotate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC3.5.2.3 n-carbamoyl-dl-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.07 * +EC3.5.2.3 thiodihydroorotate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC3.5.2.5 (s)-allantoin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5 * +EC3.5.2.5 (s)-allantoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.26 * +EC3.5.2.5 allantoic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.4 * +EC3.5.2.5 allantoin cajanus cajan//eukaryotes;plants;eudicots;pea family//ccaj 13.3 * +EC3.5.2.5 allantoin glycine max//eukaryotes;plants;eudicots;pea family//gmx 10.0 * +EC3.5.2.5 allantoin lathyrus sativus//*//* 2.56 * +EC3.5.2.5 allantoin phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.059 * +EC3.5.2.5 allantoin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 5.0 * +EC3.5.2.5 allantoin ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 13.8 * +EC3.5.2.5 allantoin vigna radiata//eukaryotes;plants;eudicots;pea family//vra 6.6 * +EC3.5.2.5 allantoin vigna unguiculata subsp. cylindrica//*//* 1.43 * +EC3.5.2.6 (2s,5r,6r)-6-[[(2r)-2-carboxy-2-thiophen-3-ylacetyl]amino]-3,3-dimethyl-7-oxo-4-thia-1-azabicyclo[3.2.0]heptane-2-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0023 * +EC3.5.2.6 (2s,5r,6r)-6-[[(2r)-2-carboxy-2-thiophen-3-ylacetyl]amino]-3,3-dimethyl-7-oxo-4-thia-1-azabicyclo[3.2.0]heptane-2-carboxylic acid klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.027 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-(formylamino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.315 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-(formylamino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.323 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-(hydroxyamino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.45 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[[(2e)-2-(2-amino-1,3-thiazol-4-yl)-2-(methoxyimino)acetyl]amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.031 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[formyl(hydroxy)amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.24 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[hydroxy(phenylacetyl)amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.005 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-[hydroxy(phenylacetyl)amino]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-7-amino-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.29 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-8-oxo-7-[(thiophen-2-ylacetyl)amino]-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0154 * +EC3.5.2.6 (6r,7r)-3-[(acetyloxy)methyl]-8-oxo-7-[(thiophen-2-ylacetyl)amino]-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC3.5.2.6 (6r,7s)-3-[(3-carboxy-4-nitro-phenyl)sulfanylmethyl]-8-oxo-7-[(2-thiophen-2-ylacetyl)amino]-5-thia-1-azabicyclo-[4.2.0]-oct-2-ene-2-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0024 * +EC3.5.2.6 (6r,7z)-3-[(acetyloxy)methyl]-7-(hydroxyimino)-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.366 * +EC3.5.2.6 (6r,7z)-7-(hydroxyimino)-3-methyl-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate 5,5-dioxide enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0045 * +EC3.5.2.6 3-([3-[benzyl(methyl)amino]-3-oxopropanoyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.7 * +EC3.5.2.6 3-([3-dibenzylamino-3-oxopropanoyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.032 * +EC3.5.2.6 3-([[(2r)-3-(benzylamino)-2-methyl-3-oxopropanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.06 * +EC3.5.2.6 3-([[(2s)-3-(benzylamino)-2-methyl-3-oxopropanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.8 * +EC3.5.2.6 3-([[2-benzyl-3-oxo-3-(benzylamino)propanoyl]oxy]methyl)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0026 * +EC3.5.2.6 3-([n-(phenylacetyl)glycyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.13 * +EC3.5.2.6 3-([n-[(2z)-2-(2-amino-1,3-thiazol-4-yl)-2-(methoxyimino)acetyl]glycyl]oxy)benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.13 * +EC3.5.2.6 3-[2-(2-aminothiazol-4-yl)2-(z)-methoxyiminoacetylglycyl]oxybenzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.046 * +EC3.5.2.6 3-[[(2s)-2-hydroxy-3-phenylpropanoyl]oxy]benzoic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.172 * +EC3.5.2.6 3-nitrophenyl (2s)-2-hydroxy-3-phenylpropanoate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.32 * +EC3.5.2.6 6-aminopenicillanic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.5 * +EC3.5.2.6 6-aminopenicillanic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.0166 * +EC3.5.2.6 6-aminopenicillanic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.5.2.6 6-beta-iodopenicillanate elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.043 * +EC3.5.2.6 7-(thienyl-2-acetamido)-3-[2-(4-,n,n-dimethylaminophenylazo)pyridinium-methyl]-3-cephem-4-carboxylic acid bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.14 * +EC3.5.2.6 7-(thienyl-2-acetamido)-3-[2-(4-n,n-dimethylaminophenylazo)pyridinium-methyl]-3-cephem-4-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.075 * +EC3.5.2.6 7-aminocephalosporanic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.29 * +EC3.5.2.6 amoxicillin acinetobacter bereziniae//*//* 0.405 * +EC3.5.2.6 amoxicillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.022 * +EC3.5.2.6 amoxicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.09 * +EC3.5.2.6 amoxicillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.01 * +EC3.5.2.6 amoxicillin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.022 * +EC3.5.2.6 amoxicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.03 * +EC3.5.2.6 amoxicillin pseudomonas luteola//*//* 0.02 * +EC3.5.2.6 amoxicillin shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 2.6 * +EC3.5.2.6 amoxicillin shewanella livingstonensis//*//* 0.19 * +EC3.5.2.6 amoxicillin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 1.0 * +EC3.5.2.6 amoxycillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.5.2.6 amoxycillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.035 * +EC3.5.2.6 ampicillin achromobacter sp. sallbros1//*//* 0.027 * +EC3.5.2.6 ampicillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.024 * +EC3.5.2.6 ampicillin acinetobacter baylyi//*//* 0.00895 * +EC3.5.2.6 ampicillin acinetobacter bereziniae//*//* 0.127 * +EC3.5.2.6 ampicillin acinetobacter pittii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acc 0.053 * +EC3.5.2.6 ampicillin acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.064 * +EC3.5.2.6 ampicillin aeromonas enteropelogenes//*//* 0.00072 * +EC3.5.2.6 ampicillin aeromonas sobria//*//* 0.065 * +EC3.5.2.6 ampicillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.5 * +EC3.5.2.6 ampicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.21 * +EC3.5.2.6 ampicillin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.114 * +EC3.5.2.6 ampicillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.25 * +EC3.5.2.6 ampicillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 0.043 * +EC3.5.2.6 ampicillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.1 * +EC3.5.2.6 ampicillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0719 * +EC3.5.2.6 ampicillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.15 * +EC3.5.2.6 ampicillin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.978 * +EC3.5.2.6 ampicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.004 * +EC3.5.2.6 ampicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00016 * +EC3.5.2.6 ampicillin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.076 * +EC3.5.2.6 ampicillin haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.06 * +EC3.5.2.6 ampicillin janthinobacterium lividum//*//* 1.3 * +EC3.5.2.6 ampicillin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.005 * +EC3.5.2.6 ampicillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.001 * +EC3.5.2.6 ampicillin kluyvera ascorbata//*//* 0.015 * +EC3.5.2.6 ampicillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.002 * +EC3.5.2.6 ampicillin morganella morganii subsp. morganii//*//* 6e-05 * +EC3.5.2.6 ampicillin morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.09 * +EC3.5.2.6 ampicillin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.008 * +EC3.5.2.6 ampicillin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.6 * +EC3.5.2.6 ampicillin plasmid pbg66//*//* 0.038 * +EC3.5.2.6 ampicillin plasmid pgem-t-easy//*//* 0.035 * +EC3.5.2.6 ampicillin plasmid rgn238//*//* 0.064 * +EC3.5.2.6 ampicillin proteus penneri//*//* 0.079 * +EC3.5.2.6 ampicillin providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.009 * +EC3.5.2.6 ampicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.015 * +EC3.5.2.6 ampicillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0051 * +EC3.5.2.6 ampicillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.023 * +EC3.5.2.6 ampicillin psychrobacter immobilis//*//* 0.006 * +EC3.5.2.6 ampicillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.176 * +EC3.5.2.6 ampicillin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1e-05 * +EC3.5.2.6 ampicillin shewanella algae//*//* 0.5 * +EC3.5.2.6 ampicillin shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.0195 * +EC3.5.2.6 ampicillin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.122 * +EC3.5.2.6 ampicillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.055 * +EC3.5.2.6 ampicillin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.9 * +EC3.5.2.6 ampicillin streptomyces cacaoi//*//* 0.043 * +EC3.5.2.6 ampicillin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.23 * +EC3.5.2.6 ampicillin synthetic construct//*//* 0.134 * +EC3.5.2.6 azlocillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.066 * +EC3.5.2.6 azlocillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.06 * +EC3.5.2.6 aztreonam burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 2.5 * +EC3.5.2.6 aztreonam enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.125 * +EC3.5.2.6 aztreonam escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4e-06 * +EC3.5.2.6 aztreonam klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.051 * +EC3.5.2.6 aztreonam klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.005 * +EC3.5.2.6 aztreonam kluyvera ascorbata//*//* 0.39 * +EC3.5.2.6 aztreonam providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.055 * +EC3.5.2.6 aztreonam pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC3.5.2.6 aztreonam pseudomonas luteola//*//* 0.04 * +EC3.5.2.6 aztreonam serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.041 * +EC3.5.2.6 aztreonam shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 6.0 * +EC3.5.2.6 benzyl [[(2r)-2-hydroxy-3-phenylpropanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.34 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxy-2-phenylacetyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.46 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxy-3-phenylpropanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.071 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxy-4-phenylbutanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.02 * +EC3.5.2.6 benzyl [[(2s)-2-hydroxypropanoyl]oxy]carbamate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.52 * +EC3.5.2.6 benzylcephalosporin c bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.05 * +EC3.5.2.6 benzylpenicillin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.01 * +EC3.5.2.6 benzylpenicillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.71 * +EC3.5.2.6 benzylpenicillin aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.87 * +EC3.5.2.6 benzylpenicillin aeromonas sobria//*//* 0.16 * +EC3.5.2.6 benzylpenicillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.06 * +EC3.5.2.6 benzylpenicillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.012 * +EC3.5.2.6 benzylpenicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.009 * +EC3.5.2.6 benzylpenicillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 0.019 * +EC3.5.2.6 benzylpenicillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.025 * +EC3.5.2.6 benzylpenicillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.013 * +EC3.5.2.6 benzylpenicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0005 * +EC3.5.2.6 benzylpenicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC3.5.2.6 benzylpenicillin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 10.0 * +EC3.5.2.6 benzylpenicillin haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.04 * +EC3.5.2.6 benzylpenicillin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0006 * +EC3.5.2.6 benzylpenicillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.06 * +EC3.5.2.6 benzylpenicillin kluyvera ascorbata//*//* 0.016 * +EC3.5.2.6 benzylpenicillin laribacter hongkongensis//prokaryotes;bacteria;betaproteobacteria;laribacter//lhk 0.356 * +EC3.5.2.6 benzylpenicillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.0029 * +EC3.5.2.6 benzylpenicillin morganella morganii subsp. morganii//*//* 0.00025 * +EC3.5.2.6 benzylpenicillin morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.026 * +EC3.5.2.6 benzylpenicillin plasmid pgem-t-easy//*//* 0.02 * +EC3.5.2.6 benzylpenicillin plasmid pqe32chl17//*//* 0.062 * +EC3.5.2.6 benzylpenicillin proteus penneri//*//* 0.017 * +EC3.5.2.6 benzylpenicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.001 * +EC3.5.2.6 benzylpenicillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0023 * +EC3.5.2.6 benzylpenicillin psychrobacter immobilis//*//* 0.0017 * +EC3.5.2.6 benzylpenicillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.023 * +EC3.5.2.6 benzylpenicillin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0017 * +EC3.5.2.6 benzylpenicillin shewanella algae//*//* 0.025 * +EC3.5.2.6 benzylpenicillin shewanella livingstonensis//*//* 0.26 * +EC3.5.2.6 benzylpenicillin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.74 * +EC3.5.2.6 benzylpenicillin streptomyces cacaoi//*//* 0.063 * +EC3.5.2.6 benzylpenicillin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.07 * +EC3.5.2.6 benzylpenicillin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.065 * +EC3.5.2.6 benzylpenicllin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.01 * +EC3.5.2.6 biapenem aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.166 * +EC3.5.2.6 biapenem aeromonas sobria//*//* 0.16 * +EC3.5.2.6 biapenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.066 * +EC3.5.2.6 biapenem stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.032 * +EC3.5.2.6 carbencillin haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.26 * +EC3.5.2.6 carbenicillin aeromonas sobria//*//* 0.028 * +EC3.5.2.6 carbenicillin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.135 * +EC3.5.2.6 carbenicillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.13 * +EC3.5.2.6 carbenicillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 0.017 * +EC3.5.2.6 carbenicillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.32 * +EC3.5.2.6 carbenicillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.017 * +EC3.5.2.6 carbenicillin kluyvera ascorbata//*//* 0.017 * +EC3.5.2.6 carbenicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.002 * +EC3.5.2.6 carbenicillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0037 * +EC3.5.2.6 carbenicillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.175 * +EC3.5.2.6 carbenicillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.04 * +EC3.5.2.6 carbenicillin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 1.0 * +EC3.5.2.6 carbenicillin streptomyces cacaoi//*//* 0.065 * +EC3.5.2.6 carbenicillin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.26 * +EC3.5.2.6 cefaclor escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC3.5.2.6 cefaclor moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.034 * +EC3.5.2.6 cefaclor stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.013 * +EC3.5.2.6 cefadroxil stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.25 * +EC3.5.2.6 cefaloridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.096 * +EC3.5.2.6 cefaloridine shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 0.8 * +EC3.5.2.6 cefaloridine shewanella livingstonensis//*//* 0.27 * +EC3.5.2.6 cefalothin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC3.5.2.6 cefalothin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.06 * +EC3.5.2.6 cefalothin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.008 * +EC3.5.2.6 cefalothin shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 0.08 * +EC3.5.2.6 cefalothin shewanella livingstonensis//*//* 0.012 * +EC3.5.2.6 cefalotin acinetobacter baylyi//*//* 0.00613 * +EC3.5.2.6 cefalotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.433 * +EC3.5.2.6 cefalotin yersinia enterocolitica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yen 0.01415 * +EC3.5.2.6 cefamandole morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.033 * +EC3.5.2.6 cefamandole mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.184 * +EC3.5.2.6 cefamandole serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.2 * +EC3.5.2.6 cefamandole staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0032 * +EC3.5.2.6 cefazolin aeromonas enteropelogenes//*//* 0.08 * +EC3.5.2.6 cefazolin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.025 * +EC3.5.2.6 cefazolin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.254 * +EC3.5.2.6 cefazolin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.5 * +EC3.5.2.6 cefazolin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.054 * +EC3.5.2.6 cefazolin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.068 * +EC3.5.2.6 cefazolin morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.028 * +EC3.5.2.6 cefazolin plasmid pqe32chl17//*//* 0.13 * +EC3.5.2.6 cefazolin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.667 * +EC3.5.2.6 cefazolin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.15 * +EC3.5.2.6 cefazolin psychrobacter immobilis//*//* 0.1 * +EC3.5.2.6 cefazolin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.54 * +EC3.5.2.6 cefazolin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.018 * +EC3.5.2.6 cefcapene escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC3.5.2.6 cefdinir escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0008 * +EC3.5.2.6 cefepime aeromonas enteropelogenes//*//* 0.36 * +EC3.5.2.6 cefepime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 1.0 * +EC3.5.2.6 cefepime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 1.0 * +EC3.5.2.6 cefepime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.076 * +EC3.5.2.6 cefepime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.049 * +EC3.5.2.6 cefepime klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.016 * +EC3.5.2.6 cefepime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.026 * +EC3.5.2.6 cefepime kluyvera ascorbata//*//* 1.0 * +EC3.5.2.6 cefepime morganella morganii subsp. morganii//*//* 0.095 * +EC3.5.2.6 cefepime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0008 * +EC3.5.2.6 cefepime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.026 * +EC3.5.2.6 cefepime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.202 * +EC3.5.2.6 cefepime shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.505 * +EC3.5.2.6 cefepime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.13 * +EC3.5.2.6 cefepime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 1.0 * +EC3.5.2.6 cefmetazole stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.004 * +EC3.5.2.6 cefoperazone haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.14 * +EC3.5.2.6 cefoperazone kluyvera ascorbata//*//* 0.0012 * +EC3.5.2.6 cefoperazone morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.167 * +EC3.5.2.6 cefoperazone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.023 * +EC3.5.2.6 cefoperazone serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.01 * +EC3.5.2.6 cefotaxime aeromonas enteropelogenes//*//* 9e-07 * +EC3.5.2.6 cefotaxime aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.1 * +EC3.5.2.6 cefotaxime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.79 * +EC3.5.2.6 cefotaxime bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.009 * +EC3.5.2.6 cefotaxime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.15 * +EC3.5.2.6 cefotaxime chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.049 * +EC3.5.2.6 cefotaxime citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.013 * +EC3.5.2.6 cefotaxime elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.18 * +EC3.5.2.6 cefotaxime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0081 * +EC3.5.2.6 cefotaxime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5e-05 * +EC3.5.2.6 cefotaxime janthinobacterium lividum//*//* 0.04 * +EC3.5.2.6 cefotaxime klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.043 * +EC3.5.2.6 cefotaxime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.021 * +EC3.5.2.6 cefotaxime kluyvera ascorbata//*//* 0.043 * +EC3.5.2.6 cefotaxime morganella morganii subsp. morganii//*//* 2e-05 * +EC3.5.2.6 cefotaxime pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.16 * +EC3.5.2.6 cefotaxime plasmid pbc//*//* 0.207 * +EC3.5.2.6 cefotaxime plasmid pqe32chl17//*//* 0.84 * +EC3.5.2.6 cefotaxime proteus penneri//*//* 0.328 * +EC3.5.2.6 cefotaxime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.003 * +EC3.5.2.6 cefotaxime pseudomonas luteola//*//* 0.086 * +EC3.5.2.6 cefotaxime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.01 * +EC3.5.2.6 cefotaxime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.08 * +EC3.5.2.6 cefotaxime shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.103 * +EC3.5.2.6 cefotaxime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.16 * +EC3.5.2.6 cefotaxime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.001 * +EC3.5.2.6 cefotetan enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.08 * +EC3.5.2.6 cefotiam morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.019 * +EC3.5.2.6 cefotiam pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.015 * +EC3.5.2.6 cefotiam serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.055 * +EC3.5.2.6 cefoxitin achromobacter sp. sallbros1//*//* 0.069 * +EC3.5.2.6 cefoxitin acinetobacter pittii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acc 0.001 * +EC3.5.2.6 cefoxitin aeromonas enteropelogenes//*//* 2.5e-05 * +EC3.5.2.6 cefoxitin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 1e-05 * +EC3.5.2.6 cefoxitin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.054 * +EC3.5.2.6 cefoxitin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.081 * +EC3.5.2.6 cefoxitin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.024 * +EC3.5.2.6 cefoxitin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.093 * +EC3.5.2.6 cefoxitin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1e-06 * +EC3.5.2.6 cefoxitin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.046 * +EC3.5.2.6 cefoxitin kluyvera ascorbata//*//* 0.01 * +EC3.5.2.6 cefoxitin morganella morganii subsp. morganii//*//* 1.8e-05 * +EC3.5.2.6 cefoxitin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.127 * +EC3.5.2.6 cefoxitin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 1.57 * +EC3.5.2.6 cefoxitin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0074 * +EC3.5.2.6 cefoxitin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.023 * +EC3.5.2.6 cefoxitin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.077 * +EC3.5.2.6 cefoxitin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0011 * +EC3.5.2.6 cefoxitin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.001 * +EC3.5.2.6 cefpirome aeromonas enteropelogenes//*//* 0.085 * +EC3.5.2.6 cefpirome bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.136 * +EC3.5.2.6 cefpirome escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC3.5.2.6 cefpirome pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.183 * +EC3.5.2.6 cefpirome serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.44 * +EC3.5.2.6 cefpirome shewanella algae//*//* 0.67 * +EC3.5.2.6 cefpirome yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 1.0 * +EC3.5.2.6 cefprozil stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.1 * +EC3.5.2.6 cefsulodin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.03 * +EC3.5.2.6 cefsulodine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.15 * +EC3.5.2.6 ceftaxidime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.394 * +EC3.5.2.6 ceftazidime achromobacter sp. sallbros1//*//* 0.031 * +EC3.5.2.6 ceftazidime aeromonas enteropelogenes//*//* 0.00012 * +EC3.5.2.6 ceftazidime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 1.0 * +EC3.5.2.6 ceftazidime bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.34 * +EC3.5.2.6 ceftazidime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 3.0 * +EC3.5.2.6 ceftazidime citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.008 * +EC3.5.2.6 ceftazidime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.09 * +EC3.5.2.6 ceftazidime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0057 * +EC3.5.2.6 ceftazidime janthinobacterium lividum//*//* 0.14 * +EC3.5.2.6 ceftazidime klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.019 * +EC3.5.2.6 ceftazidime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.058 * +EC3.5.2.6 ceftazidime kluyvera ascorbata//*//* 1.0 * +EC3.5.2.6 ceftazidime morganella morganii subsp. morganii//*//* 0.0009 * +EC3.5.2.6 ceftazidime mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.28 * +EC3.5.2.6 ceftazidime pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.561 * +EC3.5.2.6 ceftazidime providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.059 * +EC3.5.2.6 ceftazidime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0013 * +EC3.5.2.6 ceftazidime pseudomonas luteola//*//* 0.035 * +EC3.5.2.6 ceftazidime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.015 * +EC3.5.2.6 ceftazidime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.052 * +EC3.5.2.6 ceftazidime shewanella algae//*//* 4.7 * +EC3.5.2.6 ceftazidime shewanella livingstonensis//*//* 0.009 * +EC3.5.2.6 ceftazidime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.5 * +EC3.5.2.6 ceftizoxime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.008 * +EC3.5.2.6 ceftriaxone aeromonas enteropelogenes//*//* 0.006 * +EC3.5.2.6 ceftriaxone bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.95 * +EC3.5.2.6 ceftriaxone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.52 * +EC3.5.2.6 ceftriaxone pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.13 * +EC3.5.2.6 ceftriaxone pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.03 * +EC3.5.2.6 ceftriazone serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.028 * +EC3.5.2.6 cefttriaxone proteus penneri//*//* 0.114 * +EC3.5.2.6 cefuroxime achromobacter sp. sallbros1//*//* 0.009 * +EC3.5.2.6 cefuroxime acinetobacter pittii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acc 0.052 * +EC3.5.2.6 cefuroxime aeromonas enteropelogenes//*//* 1.1e-06 * +EC3.5.2.6 cefuroxime bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.105 * +EC3.5.2.6 cefuroxime bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.085 * +EC3.5.2.6 cefuroxime burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.08 * +EC3.5.2.6 cefuroxime enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0056 * +EC3.5.2.6 cefuroxime escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2e-06 * +EC3.5.2.6 cefuroxime janthinobacterium lividum//*//* 0.05 * +EC3.5.2.6 cefuroxime klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.023 * +EC3.5.2.6 cefuroxime kluyvera ascorbata//*//* 0.019 * +EC3.5.2.6 cefuroxime moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.056 * +EC3.5.2.6 cefuroxime mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 5.1 * +EC3.5.2.6 cefuroxime pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.11 * +EC3.5.2.6 cefuroxime proteus penneri//*//* 0.343 * +EC3.5.2.6 cefuroxime pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.001 * +EC3.5.2.6 cefuroxime pseudomonas luteola//*//* 0.024 * +EC3.5.2.6 cefuroxime pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.007 * +EC3.5.2.6 cefuroxime serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.02 * +EC3.5.2.6 cefuroxime shewanella livingstonensis//*//* 0.004 * +EC3.5.2.6 cefuroxime staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.378 * +EC3.5.2.6 cefuroxime stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.13 * +EC3.5.2.6 cefuroxime yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.001 * +EC3.5.2.6 centa fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.023 * +EC3.5.2.6 centa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.195 * +EC3.5.2.6 cephalexin aeromonas enteropelogenes//*//* 0.017 * +EC3.5.2.6 cephalexin bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.168 * +EC3.5.2.6 cephalexin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.01 * +EC3.5.2.6 cephalexin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0085 * +EC3.5.2.6 cephalexin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC3.5.2.6 cephalexin morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.0017 * +EC3.5.2.6 cephalexin plasmid pbg66//*//* 1.162 * +EC3.5.2.6 cephalexin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.042 * +EC3.5.2.6 cephalexin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.05 * +EC3.5.2.6 cephalexin psychrobacter immobilis//*//* 0.008 * +EC3.5.2.6 cephalexin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.03 * +EC3.5.2.6 cephalexin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 4.53 * +EC3.5.2.6 cephalexin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.12 * +EC3.5.2.6 cephaloglycin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 3.84 * +EC3.5.2.6 cephaloglycin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.86 * +EC3.5.2.6 cephaloridin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.43 * +EC3.5.2.6 cephaloridine acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.077 * +EC3.5.2.6 cephaloridine acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.08 * +EC3.5.2.6 cephaloridine aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 6.0 * +EC3.5.2.6 cephaloridine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 9.5 * +EC3.5.2.6 cephaloridine bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.045 * +EC3.5.2.6 cephaloridine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.108 * +EC3.5.2.6 cephaloridine bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.003 * +EC3.5.2.6 cephaloridine burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0979 * +EC3.5.2.6 cephaloridine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.0044 * +EC3.5.2.6 cephaloridine elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.029 * +EC3.5.2.6 cephaloridine enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.258 * +EC3.5.2.6 cephaloridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.093 * +EC3.5.2.6 cephaloridine haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 1.4 * +EC3.5.2.6 cephaloridine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.173 * +EC3.5.2.6 cephaloridine klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.506 * +EC3.5.2.6 cephaloridine laribacter hongkongensis//prokaryotes;bacteria;betaproteobacteria;laribacter//lhk 0.088 * +EC3.5.2.6 cephaloridine moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.0017 * +EC3.5.2.6 cephaloridine morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.084 * +EC3.5.2.6 cephaloridine plasmid pgem-t-easy//*//* 0.4 * +EC3.5.2.6 cephaloridine plasmid rgn238//*//* 0.08 * +EC3.5.2.6 cephaloridine proteus penneri//*//* 0.368 * +EC3.5.2.6 cephaloridine providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.028 * +EC3.5.2.6 cephaloridine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.13 * +EC3.5.2.6 cephaloridine serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.175 * +EC3.5.2.6 cephaloridine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.008 * +EC3.5.2.6 cephaloridine shewanella algae//*//* 0.75 * +EC3.5.2.6 cephaloridine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0079 * +EC3.5.2.6 cephaloridine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.17 * +EC3.5.2.6 cephaloridine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.95 * +EC3.5.2.6 cephalosporin c bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.22 * +EC3.5.2.6 cephalosporin c bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.05 * +EC3.5.2.6 cephalosporin c escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.95 * +EC3.5.2.6 cephalosporin c moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.003 * +EC3.5.2.6 cephalosporin c mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.114 * +EC3.5.2.6 cephalosporin c stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.18 * +EC3.5.2.6 cephalosporin c streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 3.33 * +EC3.5.2.6 cephalosporin c streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 1.05 * +EC3.5.2.6 cephalothin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.015 * +EC3.5.2.6 cephalothin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.19 * +EC3.5.2.6 cephalothin acinetobacter bereziniae//*//* 0.165 * +EC3.5.2.6 cephalothin acinetobacter pittii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acc 0.1 * +EC3.5.2.6 cephalothin aeromonas enteropelogenes//*//* 0.045 * +EC3.5.2.6 cephalothin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.015 * +EC3.5.2.6 cephalothin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.3 * +EC3.5.2.6 cephalothin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.1 * +EC3.5.2.6 cephalothin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.163 * +EC3.5.2.6 cephalothin citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.009 * +EC3.5.2.6 cephalothin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.0154 * +EC3.5.2.6 cephalothin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC3.5.2.6 cephalothin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.047 * +EC3.5.2.6 cephalothin haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.45 * +EC3.5.2.6 cephalothin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.009 * +EC3.5.2.6 cephalothin kluyvera ascorbata//*//* 0.049 * +EC3.5.2.6 cephalothin laribacter hongkongensis//prokaryotes;bacteria;betaproteobacteria;laribacter//lhk 0.056 * +EC3.5.2.6 cephalothin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.0009 * +EC3.5.2.6 cephalothin morganella morganii subsp. morganii//*//* 0.046 * +EC3.5.2.6 cephalothin morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 0.0059 * +EC3.5.2.6 cephalothin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.117 * +EC3.5.2.6 cephalothin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.2 * +EC3.5.2.6 cephalothin plasmid pbc//*//* 0.014 * +EC3.5.2.6 cephalothin plasmid pbg66//*//* 0.182 * +EC3.5.2.6 cephalothin plasmid pgem-t-easy//*//* 0.007 * +EC3.5.2.6 cephalothin plasmid pqe32chl17//*//* 0.18 * +EC3.5.2.6 cephalothin proteus penneri//*//* 0.071 * +EC3.5.2.6 cephalothin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0045 * +EC3.5.2.6 cephalothin pseudomonas luteola//*//* 0.021 * +EC3.5.2.6 cephalothin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.016 * +EC3.5.2.6 cephalothin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.129 * +EC3.5.2.6 cephalothin shewanella algae//*//* 0.07 * +EC3.5.2.6 cephalothin shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.0379 * +EC3.5.2.6 cephalothin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0047 * +EC3.5.2.6 cephalothin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0089 * +EC3.5.2.6 cephalothin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 1.33 * +EC3.5.2.6 cephalothin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.12 * +EC3.5.2.6 cephalothin synthetic construct//*//* 0.029 * +EC3.5.2.6 cephalothin yersinia ruckeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yru 0.05 * +EC3.5.2.6 cephalotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.044 * +EC3.5.2.6 cephalotin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.01 * +EC3.5.2.6 cephalotin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.152 * +EC3.5.2.6 cephalotin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0001 * +EC3.5.2.6 cephapirin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0052 * +EC3.5.2.6 cephradine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.015 * +EC3.5.2.6 cephradine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.26 * +EC3.5.2.6 clavulanic acid stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.022 * +EC3.5.2.6 cloaxacillin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.155 * +EC3.5.2.6 cloaxacillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.05 * +EC3.5.2.6 cloaxacillin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.25 * +EC3.5.2.6 cloaxacillin streptomyces cacaoi//*//* 0.087 * +EC3.5.2.6 cloaxacillin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.42 * +EC3.5.2.6 cloxacillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.129 * +EC3.5.2.6 cloxacillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.27 * +EC3.5.2.6 cloxacillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0287 * +EC3.5.2.6 cloxacillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 5e-07 * +EC3.5.2.6 cloxacillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.0014 * +EC3.5.2.6 cloxacillin plasmid pgem-t-easy//*//* 0.11 * +EC3.5.2.6 cloxacillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.86 * +EC3.5.2.6 cloxacillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.00016 * +EC3.5.2.6 cloxacillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.043 * +EC3.5.2.6 cloxacillin shewanella algae//*//* 0.19 * +EC3.5.2.6 doripenem escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC3.5.2.6 ertapenem achromobacter sp. sallbros1//*//* 0.031 * +EC3.5.2.6 ertapenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.1 * +EC3.5.2.6 ertapenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0008 * +EC3.5.2.6 ertapenem pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.6 * +EC3.5.2.6 faropenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.013 * +EC3.5.2.6 faropenem pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.12 * +EC3.5.2.6 imipenem achromobacter sp. sallbros1//*//* 0.2 * +EC3.5.2.6 imipenem achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 2.0 * +EC3.5.2.6 imipenem acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.011 * +EC3.5.2.6 imipenem acinetobacter bereziniae//*//* 0.03 * +EC3.5.2.6 imipenem aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.063 * +EC3.5.2.6 imipenem aeromonas sobria//*//* 0.18 * +EC3.5.2.6 imipenem aeromonas veronii bv. sobria//*//* 0.104 * +EC3.5.2.6 imipenem bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.035 * +EC3.5.2.6 imipenem bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.2 * +EC3.5.2.6 imipenem burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.06 * +EC3.5.2.6 imipenem chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.3 * +EC3.5.2.6 imipenem citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.268 * +EC3.5.2.6 imipenem elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.37 * +EC3.5.2.6 imipenem enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.012 * +EC3.5.2.6 imipenem escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5e-05 * +EC3.5.2.6 imipenem janthinobacterium lividum//*//* 0.08 * +EC3.5.2.6 imipenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0042 * +EC3.5.2.6 imipenem kluyvera ascorbata//*//* 0.0034 * +EC3.5.2.6 imipenem morganella morganii subsp. morganii//*//* 0.001 * +EC3.5.2.6 imipenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0094 * +EC3.5.2.6 imipenem plasmid pbc//*//* 0.019 * +EC3.5.2.6 imipenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.003 * +EC3.5.2.6 imipenem pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0125 * +EC3.5.2.6 imipenem serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.0792 * +EC3.5.2.6 imipenem serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.045 * +EC3.5.2.6 imipenem shewanella algae//*//* 0.02 * +EC3.5.2.6 imipenem shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 1.8 * +EC3.5.2.6 imipenem shewanella livingstonensis//*//* 2.5 * +EC3.5.2.6 imipenem stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.057 * +EC3.5.2.6 loracarbef moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.038 * +EC3.5.2.6 mecillinam moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.04 * +EC3.5.2.6 meropenem achromobacter sp. sallbros1//*//* 0.075 * +EC3.5.2.6 meropenem acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 4.5 * +EC3.5.2.6 meropenem acinetobacter bereziniae//*//* 3e-05 * +EC3.5.2.6 meropenem aeromonas sobria//*//* 0.33 * +EC3.5.2.6 meropenem burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 2.5 * +EC3.5.2.6 meropenem chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.28 * +EC3.5.2.6 meropenem citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.012 * +EC3.5.2.6 meropenem enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.004 * +EC3.5.2.6 meropenem escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00011 * +EC3.5.2.6 meropenem janthinobacterium lividum//*//* 0.04 * +EC3.5.2.6 meropenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.011 * +EC3.5.2.6 meropenem mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0034 * +EC3.5.2.6 meropenem pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.99 * +EC3.5.2.6 meropenem pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00084 * +EC3.5.2.6 meropenem pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0072 * +EC3.5.2.6 meropenem serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.026 * +EC3.5.2.6 meropenem shewanella algae//*//* 0.5 * +EC3.5.2.6 meropenem shewanella livingstonensis//*//* 0.043 * +EC3.5.2.6 meropenem stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.015 * +EC3.5.2.6 methicillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.5 * +EC3.5.2.6 methicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.00023 * +EC3.5.2.6 methicillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 1.7 * +EC3.5.2.6 methicillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.026 * +EC3.5.2.6 methicillin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.77 * +EC3.5.2.6 methicillin streptomyces cacaoi//*//* 0.131 * +EC3.5.2.6 methicillin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.29 * +EC3.5.2.6 mezlocillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.015 * +EC3.5.2.6 moxalactam citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.071 * +EC3.5.2.6 moxalactam enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.3 * +EC3.5.2.6 moxalactam pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.075 * +EC3.5.2.6 moxalactam serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.091 * +EC3.5.2.6 moxalactam shewanella frigidimarina//prokaryotes;bacteria;gammaproteobacteria - others;shewanella//sfr 2.4 * +EC3.5.2.6 moxalactam stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.005 * +EC3.5.2.6 nitrocefin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.13 * +EC3.5.2.6 nitrocefin acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.009 * +EC3.5.2.6 nitrocefin aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 1.3 * +EC3.5.2.6 nitrocefin aeromonas sobria//*//* 0.016 * +EC3.5.2.6 nitrocefin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.055 * +EC3.5.2.6 nitrocefin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.041 * +EC3.5.2.6 nitrocefin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.007 * +EC3.5.2.6 nitrocefin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.179 * +EC3.5.2.6 nitrocefin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.008 * +EC3.5.2.6 nitrocefin elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.066 * +EC3.5.2.6 nitrocefin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.023 * +EC3.5.2.6 nitrocefin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0076 * +EC3.5.2.6 nitrocefin haemophilus ducreyi//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hdu 0.05 * +EC3.5.2.6 nitrocefin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.02 * +EC3.5.2.6 nitrocefin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.005 * +EC3.5.2.6 nitrocefin kluyvera ascorbata//*//* 0.047 * +EC3.5.2.6 nitrocefin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.0069 * +EC3.5.2.6 nitrocefin morganella morganii subsp. morganii//*//* 0.025 * +EC3.5.2.6 nitrocefin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.057 * +EC3.5.2.6 nitrocefin plasmid pbc//*//* 0.006 * +EC3.5.2.6 nitrocefin plasmid pgem-t-easy//*//* 0.025 * +EC3.5.2.6 nitrocefin plasmid rgn238//*//* 0.009 * +EC3.5.2.6 nitrocefin providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.02 * +EC3.5.2.6 nitrocefin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0082 * +EC3.5.2.6 nitrocefin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.116 * +EC3.5.2.6 nitrocefin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.015 * +EC3.5.2.6 nitrocefin psychrobacter immobilis//*//* 0.051 * +EC3.5.2.6 nitrocefin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.106 * +EC3.5.2.6 nitrocefin serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.02 * +EC3.5.2.6 nitrocefin shigella sonnei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//ssn 0.0148 * +EC3.5.2.6 nitrocefin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0059 * +EC3.5.2.6 nitrocefin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.0023 * +EC3.5.2.6 nitrocefin synthetic construct//*//* 0.021 * +EC3.5.2.6 oxacillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.531 * +EC3.5.2.6 oxacillin acinetobacter bereziniae//*//* 1.85 * +EC3.5.2.6 oxacillin acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.031 * +EC3.5.2.6 oxacillin bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.24 * +EC3.5.2.6 oxacillin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.19 * +EC3.5.2.6 oxacillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 0.115 * +EC3.5.2.6 oxacillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0407 * +EC3.5.2.6 oxacillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6e-07 * +EC3.5.2.6 oxacillin fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.036 * +EC3.5.2.6 oxacillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.095 * +EC3.5.2.6 oxacillin morganella morganii subsp. morganii//*//* 3e-06 * +EC3.5.2.6 oxacillin plasmid rgn238//*//* 0.031 * +EC3.5.2.6 oxacillin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.000118 * +EC3.5.2.6 oxacillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.042 * +EC3.5.2.6 oxacillin shewanella algae//*//* 0.39 * +EC3.5.2.6 oxacillin streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 0.33 * +EC3.5.2.6 oxacillin streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.54 * +EC3.5.2.6 panipenem klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.014 * +EC3.5.2.6 penicillin g aeromonas enteropelogenes//*//* 0.002 * +EC3.5.2.6 penicillin g bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.776 * +EC3.5.2.6 penicillin g bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.048 * +EC3.5.2.6 penicillin g bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.041 * +EC3.5.2.6 penicillin g bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.097 * +EC3.5.2.6 penicillin g burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0295 * +EC3.5.2.6 penicillin g citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.34 * +EC3.5.2.6 penicillin g elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.032 * +EC3.5.2.6 penicillin g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC3.5.2.6 penicillin g klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.005 * +EC3.5.2.6 penicillin g mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.019 * +EC3.5.2.6 penicillin g pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.2 * +EC3.5.2.6 penicillin g plasmid pbg66//*//* 0.028 * +EC3.5.2.6 penicillin g providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 0.009 * +EC3.5.2.6 penicillin g pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.057 * +EC3.5.2.6 penicillin g pseudomonas luteola//*//* 0.008 * +EC3.5.2.6 penicillin g staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0386 * +EC3.5.2.6 penicillin g stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.038 * +EC3.5.2.6 penicillin v mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.069 * +EC3.5.2.6 penicillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.113 * +EC3.5.2.6 penicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.046 * +EC3.5.2.6 phenoxymethylpenicillin bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.1 * +EC3.5.2.6 phenoxymethylpenicillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.003 * +EC3.5.2.6 piperacillin achromobacter sp. sallbros1//*//* 0.072 * +EC3.5.2.6 piperacillin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.001 * +EC3.5.2.6 piperacillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 4.0 * +EC3.5.2.6 piperacillin acinetobacter bereziniae//*//* 0.029 * +EC3.5.2.6 piperacillin aeromonas enteropelogenes//*//* 0.0002 * +EC3.5.2.6 piperacillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.021 * +EC3.5.2.6 piperacillin bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.13 * +EC3.5.2.6 piperacillin brachyspira pilosicoli//prokaryotes;bacteria;spirochaetes;brachyspira//bpo 0.033 * +EC3.5.2.6 piperacillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.01 * +EC3.5.2.6 piperacillin burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.0213 * +EC3.5.2.6 piperacillin chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 0.375 * +EC3.5.2.6 piperacillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.753 * +EC3.5.2.6 piperacillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.5.2.6 piperacillin janthinobacterium lividum//*//* 0.5 * +EC3.5.2.6 piperacillin klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0014 * +EC3.5.2.6 piperacillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.003 * +EC3.5.2.6 piperacillin kluyvera ascorbata//*//* 0.011 * +EC3.5.2.6 piperacillin moraxella catarrhalis//prokaryotes;bacteria;gammaproteobacteria - others;moraxella//mct 0.0058 * +EC3.5.2.6 piperacillin morganella morganii subsp. morganii//*//* 0.00017 * +EC3.5.2.6 piperacillin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.059 * +EC3.5.2.6 piperacillin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.34 * +EC3.5.2.6 piperacillin plasmid pbc//*//* 0.015 * +EC3.5.2.6 piperacillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.015 * +EC3.5.2.6 piperacillin pseudomonas luteola//*//* 0.007 * +EC3.5.2.6 piperacillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.013 * +EC3.5.2.6 piperacillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.023 * +EC3.5.2.6 piperacillin shewanella algae//*//* 0.11 * +EC3.5.2.6 piperacillin shewanella livingstonensis//*//* 0.17 * +EC3.5.2.6 piperacillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.2 * +EC3.5.2.6 piperacillin synthetic construct//*//* 0.077 * +EC3.5.2.6 sulbactam chryseobacterium indologenes//prokaryotes;bacteria;bacteroidetes;chryseobacterium//cio 1.3 * +EC3.5.2.6 sulbactam escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00047 * +EC3.5.2.6 tazobactam pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.8 * +EC3.5.2.6 temocillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.045 * +EC3.5.2.6 ticarcillin achromobacter xylosoxidans//prokaryotes;bacteria;betaproteobacteria;achromobacter//axy 0.04 * +EC3.5.2.6 ticarcillin acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 2.8 * +EC3.5.2.6 ticarcillin acinetobacter bereziniae//*//* 0.343 * +EC3.5.2.6 ticarcillin bacillus clausii//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bcl 0.006 * +EC3.5.2.6 ticarcillin burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.06 * +EC3.5.2.6 ticarcillin enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.152 * +EC3.5.2.6 ticarcillin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.665 * +EC3.5.2.6 ticarcillin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.006 * +EC3.5.2.6 ticarcillin pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.64 * +EC3.5.2.6 ticarcillin pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.008 * +EC3.5.2.6 ticarcillin pseudomonas luteola//*//* 0.014 * +EC3.5.2.6 ticarcillin pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.47 * +EC3.5.2.6 ticarcillin serratia fonticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//sfw 0.031 * +EC3.5.2.6 ticarcillin shewanella algae//*//* 0.02 * +EC3.5.2.6 ticarcillin shewanella livingstonensis//*//* 0.115 * +EC3.5.2.6 ticarcillin stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.49 * +EC3.5.2.7 4(5)-imidazolone-5(4)-propionic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.2 * +EC3.5.2.7 4(5)-imidazolone-5(4)-propionic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.54 * +EC3.5.2.7 4(5)-imidazolone-5(4)-propionic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC3.5.2.9 5-oxo-l-proline pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.008 * +EC3.5.2.9 5-oxo-l-proline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC3.5.2.9 5-oxo-l-proline sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0511 * +EC3.5.2.9 5-oxo-l-proline triticum aestivum//*//* 0.014 * +EC3.5.2.9 5-oxoproline alcaligenes sp.//*//* 0.07 * +EC3.5.2.9 5-oxoproline pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.14 * +EC3.5.2.9 5-oxoproline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0316 * +EC3.5.2.9 atp paecilomyces variotii//*//* 0.091 * +EC3.5.2.9 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC3.5.2.9 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.5.2.9 atp triticum aestivum//*//* 0.17 * +EC3.5.2.9 itp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC3.5.2.9 l-2-oxothiazolidine-4-carboxylate paecilomyces variotii//*//* 0.17 * +EC3.5.2.9 l-2-oxothiazolidine-4-carboxylic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.002 * +EC3.5.2.9 l-2-oxothiazolidine-4-carboxylic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.5.2.9 mgatp2- pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.15 * +EC3.5.2.9 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC3.5.2.9 mgatp2- triticum aestivum//*//* 4.2 * +EC3.5.2.9 mnatp2- triticum aestivum//*//* 0.5 * +EC3.5.2.9 utp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.5.2.B2 (1s,4r)-2-azabicyclo[2.2.1]hept-5-en-3-one delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.378 * +EC3.5.2.B2 1,3-benzoxazol-2(3h)-one fusarium pseudograminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fpu 0.19 * +EC3.5.3.1 1-nitro-3-guanidinobenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC3.5.3.1 4-guanidino-2-nitrophenylacetic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.5.3.1 4-guanidino-3-nitrobenzoic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.007 * +EC3.5.3.1 l-arg bacillus brevis nagano//*//* 12.8 * +EC3.5.3.1 l-arg bacillus brevis tt02-8//*//* 0.69 * +EC3.5.3.1 l-arg bacillus caldovelox//*//* 3.4 * +EC3.5.3.1 l-arg bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.5 * +EC3.5.3.1 l-arg clarias batrachus//*//* 15.4 * +EC3.5.3.1 l-arg glycine hispida//*//* 50.0 * +EC3.5.3.1 l-arg glycine max//eukaryotes;plants;eudicots;pea family//gmx 83.0 * +EC3.5.3.1 l-arg helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 22.0 * +EC3.5.3.1 l-arg mus booduga//*//* 8.3 * +EC3.5.3.1 l-arg phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 45.0 * +EC3.5.3.1 l-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.05 * +EC3.5.3.1 l-arg rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 16.0 * +EC3.5.3.1 l-arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.7 * +EC3.5.3.1 l-arginine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.6 * +EC3.5.3.1 l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC3.5.3.1 l-arginine eidolon helvum//*//* 17.0 * +EC3.5.3.1 l-arginine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 6.2 * +EC3.5.3.1 l-arginine heteropneustes fossilis//*//* 5.25 * +EC3.5.3.1 l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC3.5.3.1 l-arginine leishmania amazonensis//*//* 21.5 * +EC3.5.3.1 l-arginine penicillium chrysogenum//*//* 4.8 * +EC3.5.3.1 l-arginine plasmodium falciparum 3d7//eukaryotes;protists;alveolates;apicomplexans//pfa 13.0 * +EC3.5.3.1 l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.5.3.1 l-arginine schistosoma mansoni//eukaryotes;animals;flatworms//smm 17.0 * +EC3.5.3.1 l-arginine vigna catjang//*//* 42.0 * +EC3.5.3.1 l-canavanine bacillus brevis tt02-8//*//* 22.2 * +EC3.5.3.1 l-phenylalanine penicillium chrysogenum//*//* 22.1 * +EC3.5.3.1 l-thioarginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC3.5.3.1 s-(4-aminobutyl)isothiourea rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.5.3.1 thioguanidino-valeric acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC3.5.3.11 agmatine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.5.3.11 agmatine evernia prunastri//*//* 6.4 * +EC3.5.3.11 agmatine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC3.5.3.11 agmatine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 2.4 * +EC3.5.3.11 agmatine pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.53 * +EC3.5.3.11 agmatine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.3 * +EC3.5.3.12 agmatine arachis hypogaea//*//* 0.76 * +EC3.5.3.12 agmatine cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.016 * +EC3.5.3.12 agmatine evernia prunastri//*//* 0.8 * +EC3.5.3.12 agmatine glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.5 * +EC3.5.3.12 agmatine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.033 * +EC3.5.3.12 agmatine listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.65 * +EC3.5.3.12 agmatine oryza sativa//eukaryotes;plants;monocots;grass family//osa 15.0 * +EC3.5.3.12 agmatine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.6 * +EC3.5.3.12 agmatine selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 6.67 * +EC3.5.3.12 agmatine zea mays//eukaryotes;plants;monocots;grass family//zma 0.012 * +EC3.5.3.13 formiminoglutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC3.5.3.13 n-formimino-l-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0012 * +EC3.5.3.14 n-amidino-l-aspartate pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 2.4 * +EC3.5.3.14 n-amidino-l-aspartate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0094 * +EC3.5.3.15 2-acetyl-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.5.3.15 3-acetyl-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC3.5.3.15 [histone h4]-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.5.3.15 ac-ala-gly-arg-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.5.3.15 ac-ser-ala-arg-gly-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC3.5.3.15 ac-ser-gly-ala-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-ala-arg-his-arg-lys-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.44 * +EC3.5.3.15 ac-ser-gly-arg-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.5.3.15 ac-ser-gly-arg-gly-acetyl-lys-gly-gly-acetyl-lys-gly-leu-gly-acetyl-lys-gly-gly-ala-acetyl-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.5.3.15 ac-ser-gly-arg-gly-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-ala-arg-his-arg-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-ala-arg-his-arg-lys-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.43 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-ala-his-arg-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-arg-his-ala-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-arg-his-arg-lys-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.21 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-arg-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys-lys-his-lys-ala-val homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala-lys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly-gly-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.5.3.15 ac-ser-gly-arg-gly-lys-gly-gly-lys-gly-leu-gly-lys-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC3.5.3.15 acetyl-l-arg methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.19 * +EC3.5.3.15 acetyl-l-arg methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.96 * +EC3.5.3.15 acetyl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC3.5.3.15 acetyl-l-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 11.3 * +EC3.5.3.15 benzoyl-arg ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC3.5.3.15 benzoyl-arg ethyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC3.5.3.15 benzoyl-arg-ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.5.3.15 benzoyl-arg-methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC3.5.3.15 benzoyl-arg-nh2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.5.3.15 benzoyl-gly-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.028 * +EC3.5.3.15 benzoyl-l-arg ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.5.3.15 benzoyl-l-arg ethyl ester porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.874 * +EC3.5.3.15 benzoyl-l-arg methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.54 * +EC3.5.3.15 benzoyl-l-arg-nh2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.37 * +EC3.5.3.15 benzoyl-l-arg-nh2 porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.152 * +EC3.5.3.15 benzoyl-l-arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.38 * +EC3.5.3.15 benzoyl-l-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.28 * +EC3.5.3.15 benzoyl-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.0029 * +EC3.5.3.15 benzoyl-l-arginine amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.5.3.15 benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.36 * +EC3.5.3.15 benzoyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.66 * +EC3.5.3.15 benzoyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.5.3.15 benzoylarginine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 11.2 * +EC3.5.3.15 bradykinin porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.047 * +EC3.5.3.15 fibrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.5.3.15 filaggrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.5.3.15 histone h4-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.5.3.15 kdrnw homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.325 * +EC3.5.3.15 l-arg methyl ester mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 26.45 * +EC3.5.3.15 l-arg mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 33.4 * +EC3.5.3.15 l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.141 * +EC3.5.3.15 ldrge homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.45 * +EC3.5.3.15 mwrhv homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.5.3.15 n-alpha-benzoyl-l-arginine amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.5.3.15 n-alpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.5.3.15 n-alpha-benzoyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC3.5.3.15 nalpha-benzoyl l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC3.5.3.15 nalpha-benzoyl-l-arginine amide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.5.3.15 nalpha-benzoyl-l-arginine ethyl ester bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.35 * +EC3.5.3.15 nalpha-benzoyl-l-arginine ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.5.3.15 nalpha-benzoyl-l-arginine methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.5.3.15 nalpha-benzoyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.41 * +EC3.5.3.15 tkqtarkstggk homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.372 * +EC3.5.3.15 tosyl-arg-ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.63 * +EC3.5.3.15 tstggrqgshh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.575 * +EC3.5.3.15 wsryh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.5.3.15 wtrge homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.345 * +EC3.5.3.15 ywrdh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.187 * +EC3.5.3.17 3-guanidinopropionate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 12.8 * +EC3.5.3.17 4-guanidinobutyrate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 37.3 * +EC3.5.3.18 dimethyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC3.5.3.18 dimethyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC3.5.3.18 dimethyl-l-arginine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.18 * +EC3.5.3.18 dimethyl-l-arginine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.18 * +EC3.5.3.18 dimethyl-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC3.5.3.18 n,n-dimethyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.133 * +EC3.5.3.18 n5-(methoxycarbamimidoyl)-l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC3.5.3.18 n5-(methylcarbamimidoyl)-l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.106 * +EC3.5.3.18 n5-[2,5-dihydro-1h-pyrrol-1-yl(imino)methyl]-l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.161 * +EC3.5.3.18 ng,ng-dimethyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.31 * +EC3.5.3.18 ng,ng-dimethyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.687 * +EC3.5.3.18 ng,ng-dimethyl-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.039 * +EC3.5.3.18 ng,ng-dimethyl-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC3.5.3.18 ng,ng-dimethyl-l-homoarginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 33.0 * +EC3.5.3.18 ng-amino-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.11 * +EC3.5.3.18 ng-hydroxy-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.3 * +EC3.5.3.18 ng-methyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.536 * +EC3.5.3.18 ng-methyl-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.044 * +EC3.5.3.18 ng-monomethyl-l-arginine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.6 * +EC3.5.3.18 ng-monomethyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.51 * +EC3.5.3.18 ng-monomethyl-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.36 * +EC3.5.3.18 nomega,nomega-dimethyl-l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.11 * +EC3.5.3.18 s-methyl-l-thiocitrulline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.5.3.18 s-methyl-l-thiocitrulline pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.026 * +EC3.5.3.2 guanidinoacetate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 16.0 * +EC3.5.3.2 guanidinoacetate flavobacterium sp.//*//* 15.0 * +EC3.5.3.2 guanidinoacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 9.1 * +EC3.5.3.20 1,3-diguanidinopropane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.91 * +EC3.5.3.20 1,4-diguanidinobutane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.65 * +EC3.5.3.20 1,5-diguanidinopentane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.5 * +EC3.5.3.20 1,6-diguanidinohexane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.33 * +EC3.5.3.20 1,7-diguanidinoheptane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.24 * +EC3.5.3.20 1,8-diguanidinooctane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.23 * +EC3.5.3.20 1-amino-5-guanidinopentane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.5 * +EC3.5.3.20 1-amino-6-guanidinohexane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC3.5.3.20 1-amino-7-guanidinoheptane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC3.5.3.20 agmatine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.0 * +EC3.5.3.22 (3r)-hydroxy-n-acetyl-l-arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 12.0 * +EC3.5.3.22 n-acetyl-l-arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 30.0 * +EC3.5.3.23 n2-succinyl-l-arginine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.5 * +EC3.5.3.24 agmatine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.486 * +EC3.5.3.24 n1-aminopropylagmatine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.00642 * +EC3.5.3.26 (s)-2-ureidoglycine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.77 * +EC3.5.3.3 creatine acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 20.0 * +EC3.5.3.3 creatine actinobacillus sp.//*//* 0.5 * +EC3.5.3.3 creatine alcaligenes sp.//*//* 17.2 * +EC3.5.3.3 creatine glutamicibacter nicotianae//*//* 46.0 * +EC3.5.3.3 creatine paracoccus sp. wb1//*//* 0.034 * +EC3.5.3.3 creatine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.33 * +EC3.5.3.4 (-)-ureidoglycolate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.7 * +EC3.5.3.4 allantoate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 2.0 * +EC3.5.3.4 allantoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 250.0 * +EC3.5.3.4 allantoate streptomyces viridiviolaceus//*//* 10.0 * +EC3.5.3.4 allantoate xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 4.5 * +EC3.5.3.6 agmatine-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 31.0 * +EC3.5.3.6 benzoyl-l-arginine ethyl ester porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 18.0 * +EC3.5.3.6 bradykinin antagonist-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.033 * +EC3.5.3.6 bradykinin-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.021 * +EC3.5.3.6 d-arg mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 10.0 * +EC3.5.3.6 d-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1.9 * +EC3.5.3.6 guanidine mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 11.0 * +EC3.5.3.6 homoarginine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 4.7 * +EC3.5.3.6 l-alpha-amino-beta-guanidinopropionic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.38 * +EC3.5.3.6 l-alpha-amino-gamma-guanidinobutyric acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.03 * +EC3.5.3.6 l-arg bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.06 * +EC3.5.3.6 l-arg burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 0.09 * +EC3.5.3.6 l-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC3.5.3.6 l-arg giardia intestinalis//*//* 0.3 * +EC3.5.3.6 l-arg lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 0.83 * +EC3.5.3.6 l-arg mycoplasma arginini//prokaryotes;bacteria;tenericutes;mycoplasma//marg 0.2 * +EC3.5.3.6 l-arg mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 0.004 * +EC3.5.3.6 l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1.2 * +EC3.5.3.6 l-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.14 * +EC3.5.3.6 l-arg pseudomonas plecoglossicida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppj 2.88 * +EC3.5.3.6 l-arg pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC3.5.3.6 l-arg trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.03 * +EC3.5.3.6 l-arginine ethyl ester giardia intestinalis//*//* 2.1 * +EC3.5.3.6 l-arginine hydroxamate porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 6.9 * +EC3.5.3.6 l-arginine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.09 * +EC3.5.3.6 l-arginine burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 0.09 * +EC3.5.3.6 l-arginine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC3.5.3.6 l-arginine giardia intestinalis//*//* 0.16 * +EC3.5.3.6 l-arginine lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 8.67 * +EC3.5.3.6 l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.14 * +EC3.5.3.6 l-arginine pseudomonas plecoglossicida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppj 0.7 * +EC3.5.3.6 l-arginine streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 1.33 * +EC3.5.3.6 l-argininic acid mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 16.0 * +EC3.5.3.6 l-canavanine-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 6.0 * +EC3.5.3.6 l-canavanine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 2.3 * +EC3.5.3.6 l-canavanine burkholderia mallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bma 1.2 * +EC3.5.3.6 l-canavanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC3.5.3.6 l-canavanine giardia intestinalis//*//* 1.9 * +EC3.5.3.6 l-canavanine mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 0.044 * +EC3.5.3.6 l-canavanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.7 * +EC3.5.3.6 l-homoarginine mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 4.7 * +EC3.5.3.6 l-nitroarginine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.38 * +EC3.5.3.6 l-pro-l-arg-l-phe porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.07 * +EC3.5.3.6 l-pro-l-phe-l-arg porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.089 * +EC3.5.3.6 n-alpha-benzoyl-l-arginine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.01 * +EC3.5.3.6 nalpha-methyl-l-arg mycoplasma arthritidis//prokaryotes;bacteria;tenericutes;mycoplasma//mat 1.2 * +EC3.5.3.6 nomega-amino-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 50.0 * +EC3.5.3.6 nomega-amino-l-arginine giardia intestinalis//*//* 0.002 * +EC3.5.3.6 nomega-amino-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 50.0 * +EC3.5.3.6 nomega-hydroxy-l-arginine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 1.5 * +EC3.5.3.6 nomega-methyl-arg pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 21.0 * +EC3.5.3.6 nomega-methyl-l-arginine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 21.0 * +EC3.5.3.7 4-guanidinobutyrate brevibacterium helvolum//*//* 2.9 * +EC3.5.3.7 4-guanidinobutyrate gallus sp.//*//* 30.0 * +EC3.5.3.7 4-guanidinobutyrate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 10.7 * +EC3.5.3.7 4-guanidinobutyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 32.0 * +EC3.5.3.7 4-guanidinobutyrate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 33.0 * +EC3.5.3.7 4-guanidinobutyric acid tinca tinca//*//* 45.0 * +EC3.5.3.7 4-guanidopropionic acid tinca tinca//*//* 450.0 * +EC3.5.3.7 5-guanidinovalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 206.0 * +EC3.5.3.7 6-guanidinocaproate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 163.0 * +EC3.5.3.7 l-arginine brevibacterium helvolum//*//* 71.0 * +EC3.5.3.7 l-arginine tinca tinca//*//* 100.0 * +EC3.5.3.7 l-canvanine tinca tinca//*//* 1670.0 * +EC3.5.3.8 n-formimidoyl-l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 39.0 * +EC3.5.3.8 n-formimidoyl-l-glutamate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 14.0 * +EC3.5.3.8 n-formimidoyl-l-glutamate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 40.0 * +EC3.5.3.9 allantoate bacillus fastidiosus//*//* 9.0 * +EC3.5.3.9 allantoate glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.0 * +EC3.5.3.9 allantoate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.076 * +EC3.5.4.1 2-thiocytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.5.4.1 3-oxauracil escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC3.5.4.1 5-azacytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.5.4.1 5-bromocytosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.117 * +EC3.5.4.1 5-fluorocytosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 6.5 * +EC3.5.4.1 5-fluorocytosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.87 * +EC3.5.4.1 5-fluorocytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC3.5.4.1 5-fluorocytosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC3.5.4.1 5-methylcytosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 36.0 * +EC3.5.4.1 5-methylcytosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 2.32 * +EC3.5.4.1 5-methylcytosine pseudomonas chlororaphis subsp. aureofaciens//*//* 0.57 * +EC3.5.4.1 5-methylcytosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.5 * +EC3.5.4.1 6-azacytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.02 * +EC3.5.4.1 creatinine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC3.5.4.1 cytosine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.0 * +EC3.5.4.1 cytosine chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 0.38 * +EC3.5.4.1 cytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC3.5.4.1 cytosine pseudomonas chlororaphis subsp. aureofaciens//*//* 4.5 * +EC3.5.4.1 cytosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC3.5.4.1 cytosine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.74 * +EC3.5.4.1 cytosine serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 3.4 * +EC3.5.4.1 isocytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.46 * +EC3.5.4.10 5'-phosphoribosyl-5-formamido-4-imidazole carboxamide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.28 * +EC3.5.4.10 5-formamido-1-(5-phosphoribosyl)imidazole-4-carboxamide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.5.4.10 5-formamido-1-(5-phosphoribosyl)imidazole-4-carboxamide methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.082 * +EC3.5.4.11 2-amino-4-hydroxypteridine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.5.4.11 2-amino-4-oxo-3,4-dihydropteridine-6-carboxylic acid bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.3 * +EC3.5.4.11 2-amino-4-oxo-3,4-dihydropteridine-6-carboxylic acid unidentified prokaryotic organism//*//* 0.14 * +EC3.5.4.11 2-aminopteridine-4,7(1h,8h)-dione unidentified prokaryotic organism//*//* 0.008 * +EC3.5.4.12 5-methyl-dcmp enterobacteria phage t2//*//* 0.1 * +EC3.5.4.12 cmp enterobacteria phage t2//*//* 0.5 * +EC3.5.4.12 dcmp-hg-s-ch2-ch2-oh equus asinus//eukaryotes;animals;vertebrates;mammals//eai 0.26 * +EC3.5.4.12 dcmp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.14 * +EC3.5.4.12 dcmp cricetinae//*//* 0.32 * +EC3.5.4.12 dcmp enterobacteria phage t2//*//* 0.05 * +EC3.5.4.12 dcmp equus asinus//eukaryotes;animals;vertebrates;mammals//eai 0.024 * +EC3.5.4.12 dcmp herpes simplex virus//*//* 0.32 * +EC3.5.4.12 dcmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.022 * +EC3.5.4.12 dcmp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.046 * +EC3.5.4.12 dcmp paramecium bursaria chlorella virus 1//*//* 0.76 * +EC3.5.4.12 dcmp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC3.5.4.12 dctp paramecium bursaria chlorella virus 1//*//* 0.64 * +EC3.5.4.12 deoxycytidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.347 * +EC3.5.4.13 dcmp paramecium bursaria chlorella virus 1//*//* 0.76 * +EC3.5.4.13 dctp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC3.5.4.13 dctp paramecium bursaria chlorella virus 1//*//* 0.64 * +EC3.5.4.15 2'-deoxyguanosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5761 * +EC3.5.4.15 8-azaguanosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.122 * +EC3.5.4.15 deoxyguanosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.062 * +EC3.5.4.15 guanosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.264 * +EC3.5.4.15 guanosine camellia sinensis//*//* 0.0098 * +EC3.5.4.15 guanosine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.036 * +EC3.5.4.16 gtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.004 * +EC3.5.4.16 gtp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 980.0 * +EC3.5.4.16 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC3.5.4.16 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0173 * +EC3.5.4.16 gtp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0126 * +EC3.5.4.16 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0179 * +EC3.5.4.16 gtp streptomyces tubercidicus//*//* 0.08 * +EC3.5.4.17 2',3'-camp meretrix lusoria//*//* 0.13 * +EC3.5.4.17 2',3'-camp todarodes pacificus//*//* 0.11 * +EC3.5.4.17 2',3'-cyclic amp turbo cornutus//*//* 0.065 * +EC3.5.4.17 2'-deoxyadenosine todarodes pacificus//*//* 0.27 * +EC3.5.4.17 2'-deoxyadenosine turbo cornutus//*//* 0.071 * +EC3.5.4.17 3'-amp meretrix lusoria//*//* 0.11 * +EC3.5.4.17 3'-amp todarodes pacificus//*//* 0.34 * +EC3.5.4.17 3'-amp turbo cornutus//*//* 0.085 * +EC3.5.4.17 3'-deoxyadenosine turbo cornutus//*//* 0.067 * +EC3.5.4.17 5'-amp porphyra crispata//*//* 0.047 * +EC3.5.4.17 5'-deoxyadenosine turbo cornutus//*//* 0.65 * +EC3.5.4.17 adenosine 3'-phenylphosphonate meretrix lusoria//*//* 0.12 * +EC3.5.4.17 adenosine 3'-phenylphosphonate todarodes pacificus//*//* 0.14 * +EC3.5.4.17 adenosine 3'-phenylphosphonate turbo cornutus//*//* 0.067 * +EC3.5.4.17 adenosine meretrix lusoria//*//* 0.094 * +EC3.5.4.17 adenosine porphyra crispata//*//* 0.56 * +EC3.5.4.17 adenosine todarodes pacificus//*//* 0.31 * +EC3.5.4.17 adenosine turbo cornutus//*//* 0.075 * +EC3.5.4.17 adp porphyra crispata//*//* 0.047 * +EC3.5.4.17 atp porphyra crispata//*//* 0.066 * +EC3.5.4.17 nad+ porphyra crispata//*//* 0.072 * +EC3.5.4.18 6-chloropurine riboside microsporum audouinii//*//* 1.1 * +EC3.5.4.18 adenosine desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.69 * +EC3.5.4.18 adenosine microsporum audouinii//*//* 0.5 * +EC3.5.4.18 adp desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.3 * +EC3.5.4.18 amp desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.25 * +EC3.5.4.18 amp microsporum audouinii//*//* 0.05 * +EC3.5.4.18 atp aspergillus glaucus//*//* 0.02 * +EC3.5.4.18 atp aspergillus reptans//*//* 0.02 * +EC3.5.4.18 atp desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 0.29 * +EC3.5.4.18 atp microsporum audouinii//*//* 0.03 * +EC3.5.4.18 nad+ desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 59.0 * +EC3.5.4.19 1-(5-phospho-beta-d-ribosyl)-amp methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 4.0 * +EC3.5.4.19 1-(5-phosphoribosyl)-amp methanococcus vannielii//prokaryotes;archaea;euryarchaeota;methanococcus//mvn 0.009 * +EC3.5.4.2 2,6-diaminopurine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.07 * +EC3.5.4.2 2,6-diaminopurine blastobotrys adeninivorans//*//* 0.47 * +EC3.5.4.2 2,6-diaminopurine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.29 * +EC3.5.4.2 2,6-diaminopurine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.14 * +EC3.5.4.2 2,6-diaminopurine pseudomonas synxantha//*//* 1.1 * +EC3.5.4.2 2-amino-6-chloropurine pseudomonas synxantha//*//* 1.0 * +EC3.5.4.2 2-hydroxy-6-aminopurine pseudomonas synxantha//*//* 1.5 * +EC3.5.4.2 6-bromopurine pseudomonas synxantha//*//* 0.5 * +EC3.5.4.2 6-chloropurine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.056 * +EC3.5.4.2 6-chloropurine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.026 * +EC3.5.4.2 6-chloropurine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.26 * +EC3.5.4.2 6-chloropurine pseudomonas synxantha//*//* 1.0 * +EC3.5.4.2 6-methoxypurine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.13 * +EC3.5.4.2 6-methoxypurine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.14 * +EC3.5.4.2 6-methoxypurine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.16 * +EC3.5.4.2 6-methoxypurine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.27 * +EC3.5.4.2 adenine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.2 * +EC3.5.4.2 adenine aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.29 * +EC3.5.4.2 adenine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.05 * +EC3.5.4.2 adenine blastobotrys adeninivorans//*//* 0.66 * +EC3.5.4.2 adenine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.17 * +EC3.5.4.2 adenine crithidia fasciculata//*//* 0.8 * +EC3.5.4.2 adenine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC3.5.4.2 adenine leishmania braziliensis//eukaryotes;protists;euglenozoa;kinetoplasts//lbz 0.7 * +EC3.5.4.2 adenine leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0154 * +EC3.5.4.2 adenine leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.7 * +EC3.5.4.2 adenine leishmania tarentolae//*//* 1.1 * +EC3.5.4.2 adenine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.2 * +EC3.5.4.2 adenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.025 * +EC3.5.4.2 adenine pseudomonas synxantha//*//* 0.3 * +EC3.5.4.2 adenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.055 * +EC3.5.4.2 adenine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.032 * +EC3.5.4.2 n-6-methyladenine alteromonas macleodii//prokaryotes;bacteria;gammaproteobacteria - others;alteromonas//amac 0.09 * +EC3.5.4.2 n-6-methyladenine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.088 * +EC3.5.4.21 5-fluorocytosine flavobacterium filamentosum//*//* 0.42 * +EC3.5.4.21 creatinine clostridium paraputrificum//*//* 18.0 * +EC3.5.4.21 creatinine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.27 * +EC3.5.4.21 creatinine cryptococcus gattii vgiii//*//* 14.3 * +EC3.5.4.21 creatinine cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 14.3 * +EC3.5.4.21 creatinine flavobacterium filamentosum//*//* 5.0 * +EC3.5.4.21 creatinine uncultured bacterium//*//* 0.15 * +EC3.5.4.21 cytosine flavobacterium filamentosum//*//* 0.62 * +EC3.5.4.22 1-pyrroline-4-hydroxy-2-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.693 * +EC3.5.4.23 blasticidin s aspergillus terreus//*//* 0.021 * +EC3.5.4.23 pyrimidinoblasticidin s aspergillus terreus//*//* 0.053 * +EC3.5.4.24 sepiapterin bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.59 * +EC3.5.4.25 2-amino-5-formylamino-6-ribosylamino-4(3h)-pyrimidinone 5'-triphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.031 * +EC3.5.4.25 8-oxo-dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC3.5.4.25 8-oxo-gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC3.5.4.25 gtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.01 * +EC3.5.4.25 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.5.4.25 gtp meyerozyma guilliermondii//eukaryotes;fungi;ascomycetes;saccharomycetes//pgu 0.22 * +EC3.5.4.25 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1267 * +EC3.5.4.25 gtp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.008 * +EC3.5.4.27 5,10-methenyl-5,6,7,8-tetrahydromethanopterin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.055 * +EC3.5.4.27 5,10-methenyl-5,6,7,8-tetrahydromethanopterin uncultured archaeon//*//* 0.06 * +EC3.5.4.27 formyl-tetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.04 * +EC3.5.4.27 formyl-tetrahydromethanopterin methanothermus fervidus//prokaryotes;archaea;euryarchaeota;methanothermus//mfv 0.22 * +EC3.5.4.27 formyl-tetrahydromethanopterin methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.03 * +EC3.5.4.27 n5,n10-methenyl-5,6,7,8-tetrahydromethanopterin archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.22 * +EC3.5.4.27 n5,n10-methenyl-5,6,7,8-tetrahydromethanopterin methanopyrus kandleri//prokaryotes;archaea;euryarchaeota;methanopyrus//mka 0.04 * +EC3.5.4.27 n5,n10-methenyl-5,6,7,8-tetrahydromethanopterin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.57 * +EC3.5.4.27 n5,n10-methenyl-5,6,7,8-tetrahydromethanopterin methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.03 * +EC3.5.4.28 s-adenosyl-l-homocysteine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.1 * +EC3.5.4.28 s-adenosyl-l-homocysteine streptomyces flocculus//*//* 2.5 * +EC3.5.4.29 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.054 * +EC3.5.4.3 6-thioguanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC3.5.4.3 7,8-dihydropterin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 1.621 * +EC3.5.4.3 8-azaguanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC3.5.4.3 8-azaguanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.23 * +EC3.5.4.3 8-azaguanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0083 * +EC3.5.4.3 8-azaguanine sus sp.//*//* 0.33 * +EC3.5.4.3 guanine blastobotrys adeninivorans//*//* 0.056 * +EC3.5.4.3 guanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0042 * +EC3.5.4.3 guanine camellia sinensis//*//* 0.0417 * +EC3.5.4.3 guanine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0757 * +EC3.5.4.3 guanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC3.5.4.3 guanine klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0089 * +EC3.5.4.3 guanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC3.5.4.3 guanine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00296 * +EC3.5.4.3 guanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0053 * +EC3.5.4.3 guanine sus sp.//*//* 0.011 * +EC3.5.4.30 dctp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 17.6 * +EC3.5.4.31 adenosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.046 * +EC3.5.4.31 adenosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.25 * +EC3.5.4.31 s-methyl-5'-thioadenosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.11 * +EC3.5.4.31 s-methyl-5'-thioadenosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0015 * +EC3.5.4.31 s-methyl-5'-thioadenosine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.044 * +EC3.5.4.32 guanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.6 * +EC3.5.4.32 guanine unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 1.0 * +EC3.5.4.32 isocytosine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.8 * +EC3.5.4.32 isocytosine unidentified//prokaryotes;bacteria;gammaproteobacteria - others;unclassified gammaproteobacteria//enm 1.6 * +EC3.5.4.33 adenine34 in trnaser(aga) saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3e-06 * +EC3.5.4.33 adenine34 in trnaval trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.00075 * +EC3.5.4.34 adenine37 in trnaala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6e-06 * +EC3.5.4.36 cytosine6666 in apolipoprotein b mrna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.7e-08 * +EC3.5.4.39 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.096 * +EC3.5.4.4 2',3'-isopropylidene adenosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.29 * +EC3.5.4.4 2'-deoxyadenosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.4 * +EC3.5.4.4 2'-deoxyadenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC3.5.4.4 2'-deoxyadenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.5.4.4 2'-deoxyadenosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.333 * +EC3.5.4.4 2'-deoxyadenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC3.5.4.4 2'-deoxyadenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.016 * +EC3.5.4.4 2'-deoxyadenosine nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.2 * +EC3.5.4.4 2'-deoxyadenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.057 * +EC3.5.4.4 2'-deoxyadenosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 0.034 * +EC3.5.4.4 2'-deoxyadenosine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.56 * +EC3.5.4.4 2'-deoxyadenosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.22 * +EC3.5.4.4 5'-methylthioadenosine plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.0044 * +EC3.5.4.4 5'-methylthioadenosine plasmodium cynomolgi//eukaryotes;protists;alveolates;apicomplexans//pcy 0.0087 * +EC3.5.4.4 5'-methylthioadenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.115 * +EC3.5.4.4 5'-methylthioadenosine plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.022 * +EC3.5.4.4 5'-methylthioadenosine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.0095 * +EC3.5.4.4 6-chloropurine riboside argopecten irradians concentricus//*//* 0.31 * +EC3.5.4.4 6-chloropurinriboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.277 * +EC3.5.4.4 6-methoxypurinriboside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.081 * +EC3.5.4.4 adenine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.032 * +EC3.5.4.4 adenosine-3'-monophosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 2.0 * +EC3.5.4.4 adenosine argopecten irradians concentricus//*//* 0.026 * +EC3.5.4.4 adenosine aspergillus terricola//*//* 6.6 * +EC3.5.4.4 adenosine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.05 * +EC3.5.4.4 adenosine biomphalaria glabrata//*//* 0.734 * +EC3.5.4.4 adenosine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC3.5.4.4 adenosine camelus dromedarius//eukaryotes;animals;vertebrates;mammals//cdk 0.0147 * +EC3.5.4.4 adenosine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.19 * +EC3.5.4.4 adenosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.075 * +EC3.5.4.4 adenosine fasciola gigantica//*//* 1.0 * +EC3.5.4.4 adenosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 2.3e-05 * +EC3.5.4.4 adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.6e-05 * +EC3.5.4.4 adenosine hyalomma dromedarii//*//* 0.5 * +EC3.5.4.4 adenosine kitasatospora aureofaciens//prokaryotes;bacteria;actinobacteria;kitasatospora//kau 0.715 * +EC3.5.4.4 adenosine klebsiella sp.//*//* 0.037 * +EC3.5.4.4 adenosine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.023 * +EC3.5.4.4 adenosine nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.22 * +EC3.5.4.4 adenosine plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.057 * +EC3.5.4.4 adenosine plasmodium cynomolgi//eukaryotes;protists;alveolates;apicomplexans//pcy 0.087 * +EC3.5.4.4 adenosine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.051 * +EC3.5.4.4 adenosine plasmodium gallinaceum//*//* 0.032 * +EC3.5.4.4 adenosine plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.12 * +EC3.5.4.4 adenosine plasmodium vivax//eukaryotes;protists;alveolates;apicomplexans//pvx 0.06 * +EC3.5.4.4 adenosine plasmodium yoelii//eukaryotes;protists;alveolates;apicomplexans//pyo 0.041 * +EC3.5.4.4 adenosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC3.5.4.4 adenosine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.029 * +EC3.5.4.4 adenosine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.67 * +EC3.5.4.4 adenosine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC3.5.4.4 adenosine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 1.13 * +EC3.5.4.4 amp streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.17 * +EC3.5.4.4 camp streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.5 * +EC3.5.4.40 1-(6-amino-9h-purin-9-yl)-1-deoxy-n-ethyl-beta-d-ribofuranuronamide acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.061 * +EC3.5.4.40 2'-deoxyadenosine deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.037 * +EC3.5.4.40 5'-deoxyadenosine nitratiruptor sp. sb155-2//prokaryotes;bacteria;epsilonproteobacteria;nitratiruptor//nis 0.042 * +EC3.5.4.40 5'-methylthioadenosine nitratiruptor sp. sb155-2//prokaryotes;bacteria;epsilonproteobacteria;nitratiruptor//nis 0.1 * +EC3.5.4.40 5'-methylthioadenosine streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.094 * +EC3.5.4.40 6-amino-6-deoxyfutalosine acidothermus cellulolyticus//prokaryotes;bacteria;actinobacteria;acidothermus//ace 0.006 * +EC3.5.4.40 6-amino-6-deoxyfutalosine deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.0018 * +EC3.5.4.40 6-amino-6-deoxyfutalosine nitratiruptor sp. sb155-2//prokaryotes;bacteria;epsilonproteobacteria;nitratiruptor//nis 0.0009 * +EC3.5.4.40 6-amino-6-deoxyfutalosine streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.0048 * +EC3.5.4.41 5'-deoxyadenosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.014 * +EC3.5.4.42 ammelide pseudomonas sp. adp//*//* 3.1 * +EC3.5.4.42 ammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.32 * +EC3.5.4.42 n-cyclopropylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.58 * +EC3.5.4.42 n-dimethylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.155 * +EC3.5.4.42 n-ethylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.308 * +EC3.5.4.42 n-hydroxyethylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.86 * +EC3.5.4.42 n-isopropylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.406 * +EC3.5.4.42 n-methylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.817 * +EC3.5.4.42 n-tert-butylammelide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.299 * +EC3.5.4.46 3',5'-cyclic amp leptospira interrogans serogroup icterohaemorrhagiae serovar copenhageni//*//* 0.17 * +EC3.5.4.5 1-(2'-deoxy-2'-fluoro-beta-d-arabinofuranosyl)-5-iodocytosine canis lupus familiaris//*//* 3.9 * +EC3.5.4.5 1-(2'-deoxy-2'-fluoro-beta-d-arabinofuranosyl)-5-iodocytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC3.5.4.5 1-(2'-deoxy-2'-fluoro-beta-d-arabinofuranosyl)cytosine canis lupus familiaris//*//* 0.66 * +EC3.5.4.5 1-(2'-deoxy-2'-fluoro-beta-d-arabinofuranosyl)cytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.5.4.5 1-beta-d-arabinofuranosylcytosine canis lupus familiaris//*//* 0.51 * +EC3.5.4.5 1-beta-d-arabinofuranosylcytosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.5.4.5 2',2'-difluorodeoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC3.5.4.5 2',2'-difluorodeoxyuridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0726 * +EC3.5.4.5 2'-deoxycytidine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0913 * +EC3.5.4.5 2'-deoxycytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.058 * +EC3.5.4.5 2'-deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC3.5.4.5 2'-deoxycytidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.059 * +EC3.5.4.5 2'-fluoro-2'-deoxy-5-iodocytosine arabinoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC3.5.4.5 2-deoxycytidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.091 * +EC3.5.4.5 5'-fluoro-5'-deoxycytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.087 * +EC3.5.4.5 5,6-dihydrocytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.5.4.5 5-aza-2'-deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0477 * +EC3.5.4.5 5-azacytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.27 * +EC3.5.4.5 5-azacytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.058 * +EC3.5.4.5 5-methyl-dcmp nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.13 * +EC3.5.4.5 5-methylcytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.95 * +EC3.5.4.5 5-methyldeoxycytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC3.5.4.5 6-azacytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.5.4.5 cmp nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.14 * +EC3.5.4.5 cytidine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.25 * +EC3.5.4.5 cytidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.216 * +EC3.5.4.5 cytidine crithidia fasciculata//*//* 2.8 * +EC3.5.4.5 cytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0167 * +EC3.5.4.5 cytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC3.5.4.5 cytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.063 * +EC3.5.4.5 cytidine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.004 * +EC3.5.4.5 cytidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC3.5.4.5 cytidine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.8 * +EC3.5.4.5 cytosine arabinoside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC3.5.4.5 cytosine arabinoside homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC3.5.4.5 cytosine beta-d-arabinofuranoside brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 1.475 * +EC3.5.4.5 cytosine deoxyriboside escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.089 * +EC3.5.4.5 cytosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.089 * +EC3.5.4.5 dcmp nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.055 * +EC3.5.4.5 deoxycytidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.236 * +EC3.5.4.5 deoxycytidine crithidia fasciculata//*//* 0.09 * +EC3.5.4.5 deoxycytidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC3.5.4.5 deoxycytidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0463 * +EC3.5.4.5 deoxycytidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.079 * +EC3.5.4.5 deoxycytidine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.8 * +EC3.5.4.6 amp catharanthus roseus//*//* 0.6 * +EC3.5.4.6 amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC3.5.4.6 amp oncorhynchus mykiss//*//* 1.6 * +EC3.5.4.6 amp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC3.5.4.6 amp pisum sativum//*//* 13.0 * +EC3.5.4.6 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.71 * +EC3.5.4.6 amp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.0 * +EC3.5.4.7 6-chloropurine riboside aspergillus ochraceus//*//* 0.48 * +EC3.5.4.7 adenosine 5'-diphosphate aspergillus melleus//*//* 0.066 * +EC3.5.4.7 adenosine 5'-monophosphate aspergillus melleus//*//* 0.072 * +EC3.5.4.7 adenosine 5'-triphosphate aspergillus ochraceus//*//* 0.032 * +EC3.5.4.7 adenosine diphosphate aspergillus melleus//*//* 0.066 * +EC3.5.4.7 adenosine diphosphate aspergillus ochraceus//*//* 0.04 * +EC3.5.4.7 adenosine aspergillus melleus//*//* 0.125 * +EC3.5.4.7 adenosine aspergillus ochraceus//*//* 0.13 * +EC3.5.4.8 4-aminoimidazole clostridium cylindrosporum//*//* 1.8 * +EC3.5.4.9 (6r,s)-methenyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0164 * +EC3.5.4.9 (6r,s)-methenyltetrahydrofolate photobacterium phosphoreum//*//* 0.031 * +EC3.5.4.9 10-formyltetrahydrofolate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.07 * +EC3.5.4.9 10-formyltetrahydrofolate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC3.5.4.9 10-formyltetrahydrofolate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.47 * +EC3.5.4.9 10-formyltetrahydrofolate photobacterium phosphoreum//*//* 0.056 * +EC3.5.4.9 10-formyltetrahydrofolate pisum sativum//*//* 0.2 * +EC3.5.4.9 10-formyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC3.5.4.9 10-formyltetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.07 * +EC3.5.4.9 5,10-methenyltetrahydrofolate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.09 * +EC3.5.4.9 5,10-methenyltetrahydrofolate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.25 * +EC3.5.4.9 5,10-methenyltetrahydrofolate clostridium formicaceticum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cfm 0.19 * +EC3.5.4.9 5,10-methenyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.34 * +EC3.5.4.9 5,10-methenyltetrahydrofolate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.08 * +EC3.5.4.9 5,10-methenyltetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.04 * +EC3.5.4.9 5,10-methenyltetrahydrofolate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.25 * +EC3.5.4.9 5,10-methenyltetrahydrofolate pisum sativum//*//* 0.04 * +EC3.5.4.9 5,10-methenyltetrahydrofolate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.026 * +EC3.5.4.9 5,10-methenyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC3.5.4.9 5,10-methenyltetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.074 * +EC3.5.4.B9 cytosine in single-stranded viral dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02042 * +EC3.5.5.1 (methylthio)acetonitrile arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.88 * +EC3.5.5.1 2-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 0.3 * +EC3.5.5.1 2-cyanopyridine rhodococcus rhodochrous//*//* 1.53 * +EC3.5.5.1 3-aminobenzonitrile rhodococcus rhodochrous//*//* 1.863 * +EC3.5.5.1 3-aminobenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 3.5 * +EC3.5.5.1 3-anilinoproprionitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.57e-07 * +EC3.5.5.1 3-chlorobenzonitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 0.086 * +EC3.5.5.1 3-chlorobenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 1.5 * +EC3.5.5.1 3-cyanobenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.6 * +EC3.5.5.1 3-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 2.7 * +EC3.5.5.1 3-cyanopyridine brassica rapa subsp. pekinensis//*//* 2.6 * +EC3.5.5.1 3-cyanopyridine fusarium proliferatum//*//* 12.11 * +EC3.5.5.1 3-cyanopyridine fusarium solani//*//* 3.2 * +EC3.5.5.1 3-cyanopyridine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 27.9 * +EC3.5.5.1 3-methoxybenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.7 * +EC3.5.5.1 3-methylbenzonitrile rhodococcus rhodochrous//*//* 1.851 * +EC3.5.5.1 3-methylbenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.4 * +EC3.5.5.1 3-nitrobenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 4.8 * +EC3.5.5.1 3-phenylpropionitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.23 * +EC3.5.5.1 4-aminobenzonitrile rhodococcus rhodochrous//*//* 1.699 * +EC3.5.5.1 4-aminobenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 8.0 * +EC3.5.5.1 4-chlorobenzonitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 1.3 * +EC3.5.5.1 4-chlorobutyronitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 41.0 * +EC3.5.5.1 4-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 22.5 * +EC3.5.5.1 4-cyanopyridine fusarium solani//*//* 1.4 * +EC3.5.5.1 4-methylbenzonitrile rhodococcus rhodochrous//*//* 2.426 * +EC3.5.5.1 4-nitrobenzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 2.0 * +EC3.5.5.1 4-phenylbutyronitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.34 * +EC3.5.5.1 acetonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.26 * +EC3.5.5.1 acrylonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.88 * +EC3.5.5.1 adiponitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.28 * +EC3.5.5.1 allyl cyanide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC3.5.5.1 allyl cyanide brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 2.49 * +EC3.5.5.1 benzamide rhodococcus rhodochrous//*//* 2.94 * +EC3.5.5.1 benzonitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 0.92 * +EC3.5.5.1 benzonitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.5 * +EC3.5.5.1 benzonitrile fusarium solani//*//* 0.39 * +EC3.5.5.1 benzonitrile nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 4.0 * +EC3.5.5.1 benzonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 12.27 * +EC3.5.5.1 benzonitrile rhodococcus rhodochrous//*//* 1.068 * +EC3.5.5.1 benzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 3.8 * +EC3.5.5.1 benzonitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5e-06 * +EC3.5.5.1 crotononitrile aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 124.0 * +EC3.5.5.1 heptanenitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.35 * +EC3.5.5.1 iminodiacetonitrile paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 43.17 * +EC3.5.5.1 indole-3-acetonitrile arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.75 * +EC3.5.5.1 indole-3-acetonitrile brassica rapa subsp. pekinensis//*//* 0.52 * +EC3.5.5.1 indole-3-acetonitrile brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 2.12 * +EC3.5.5.1 indole-3-acetonitrile hordeum vulgare//*//* 0.054 * +EC3.5.5.1 indole-3-acetonitrile zea mays//eukaryotes;plants;monocots;grass family//zma 0.9 * +EC3.5.5.1 m-tolunitrile rhodococcus rhodochrous//*//* 1.851 * +EC3.5.5.1 malononitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.95e-08 * +EC3.5.5.1 mandelonitrile alcaligenes sp.//*//* 21.8 * +EC3.5.5.1 n-butyronitrile fusarium solani//*//* 4.2 * +EC3.5.5.1 phenylacetonitrile arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.14 * +EC3.5.5.1 phenylbutyronitrile arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.07 * +EC3.5.5.1 phenylglycinenitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.4e-08 * +EC3.5.5.1 phenylpropionitrile arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.22 * +EC3.5.5.1 phenylpropionitrile brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.043 * +EC3.5.5.1 potassium cyanide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.75 * +EC3.5.5.1 trichloroacetonitrile sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5e-10 * +EC3.5.5.2 n-ethyl-3-cyano-4-methoxy-2-pyridone pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC3.5.5.2 ricinine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.019 * +EC3.5.5.4 3-cyano-l-alanine brassica rapa//eukaryotes;plants;eudicots;mustard family//brp 0.69 * +EC3.5.5.4 3-cyano-l-alanine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 1.18 * +EC3.5.5.4 3-cyano-l-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 83.0 * +EC3.5.5.4 3-cyano-l-alanine sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.86 * +EC3.5.5.4 3-cyano-l-alanine zea mays//eukaryotes;plants;monocots;grass family//zma 1.8 * +EC3.5.5.5 2-chlorobenzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.015 * +EC3.5.5.5 2-chloromandelonitrile luminiphilus syltensis//*//* 0.38 * +EC3.5.5.5 2-thiopheneacetonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.091 * +EC3.5.5.5 3-chlorobenzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.065 * +EC3.5.5.5 3-indoleacetonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.009 * +EC3.5.5.5 3-thiopheneacetonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.016 * +EC3.5.5.5 3-tolylacetonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.023 * +EC3.5.5.5 4-aminobenzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.022 * +EC3.5.5.5 4-chlorobenzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.333 * +EC3.5.5.5 4-fluorobenzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.13 * +EC3.5.5.5 4-nitrobenzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.105 * +EC3.5.5.5 4-tolylacetonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.123 * +EC3.5.5.5 acrylonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.66 * +EC3.5.5.5 benzylcyanide alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.01 * +EC3.5.5.5 indole 3-acetonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 5.31 * +EC3.5.5.5 mandelonitrile alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 4.74 * +EC3.5.5.5 mandelonitrile alcaligenes sp.//*//* 13.0 * +EC3.5.5.5 mandelonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 13.4 * +EC3.5.5.5 phenyl acetonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.61 * +EC3.5.5.5 phenylacetonitrile bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 4.36 * +EC3.5.5.5 phenylacetonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.065 * +EC3.5.5.5 rac 2-(methoxy)-mandelonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.087 * +EC3.5.5.6 3,5-dibromo-4-hydroxybenzonitrile klebsiella pneumoniae subsp. ozaenae//*//* 0.31 * +EC3.5.5.6 3,5-dichloro-4-hydroxybenzonitrile klebsiella pneumoniae subsp. ozaenae//*//* 0.83 * +EC3.5.5.6 3,5-diiodo-4-hydroxybenzonitrile klebsiella pneumoniae subsp. ozaenae//*//* 0.55 * +EC3.5.5.6 5-bromo-4-hydroxybenzonitrile klebsiella pneumoniae subsp. ozaenae//*//* 0.91 * +EC3.5.5.7 2-butenenitrile synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 7.95 * +EC3.5.5.7 2-cyanopyridine rhodococcus rhodochrous//*//* 1.53 * +EC3.5.5.7 2-cyanopyridine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.47 * +EC3.5.5.7 3-cyanopyridine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 73.1 * +EC3.5.5.7 3-cyanopyridine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 3.2 * +EC3.5.5.7 acetonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 11.26 * +EC3.5.5.7 acrylonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 23.3 * +EC3.5.5.7 acrylonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.88 * +EC3.5.5.7 acrylonitrile rhodococcus rhodochrous//*//* 1.14 * +EC3.5.5.7 adiponitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.28 * +EC3.5.5.7 adiponitrile rhodococcus rhodochrous//*//* 0.93 * +EC3.5.5.7 benzonitrile fusarium proliferatum//*//* 1.55 * +EC3.5.5.7 benzonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 23.8 * +EC3.5.5.7 benzonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 12.27 * +EC3.5.5.7 benzonitrile rhodococcus rhodochrous//*//* 1.07 * +EC3.5.5.7 benzonitrile synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.21 * +EC3.5.5.7 crotonitrile rhodococcus rhodochrous//*//* 18.9 * +EC3.5.5.7 fumaronitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.0 * +EC3.5.5.7 fumaronitrile pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 9.48 * +EC3.5.5.7 fumaronitrile synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 9.01 * +EC3.5.5.7 glutaronitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 24.0 * +EC3.5.5.7 glutaronitrile rhodococcus rhodochrous//*//* 1.24 * +EC3.5.5.7 glutaronitrile uncultured bacterium//*//* 47.0 * +EC3.5.5.7 m-tolunitrile rhodococcus rhodochrous//*//* 1.85 * +EC3.5.5.7 malononitrile pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 3.47 * +EC3.5.5.7 potassium cyanide pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.75 * +EC3.5.5.7 propionitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 43.9 * +EC3.5.5.7 sebaconitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 25.3 * +EC3.5.5.7 succinonitrile pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 17.9 * +EC3.5.5.8 methacrylonitrile thiobacillus thioparus//*//* 11.0 * +EC3.5.5.8 thiocyanate thiobacillus thioparus//*//* 11.0 * +EC3.5.99.11 2-amino-5-chloromuconate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0088 * +EC3.5.99.11 2-aminomuconate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0039 * +EC3.5.99.11 2-aminomuconate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.067 * +EC3.5.99.2 4-amino-5-aminomethyl-2-methylpyrimidine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.058 * +EC3.5.99.2 thiamine aneurinibacillus aneurinilyticus//*//* 0.003 * +EC3.5.99.2 thiamine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.256 * +EC3.5.99.5 2-aminomuconate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.067 * +EC3.5.99.6 alpha-d-glucosamine 6-phosphate giardia intestinalis//*//* 1.21 * +EC3.5.99.6 d-fructose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.9 * +EC3.5.99.6 d-fructose 6-phosphate drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 6.0 * +EC3.5.99.6 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC3.5.99.6 d-fructose 6-phosphate giardia intestinalis//*//* 1.71 * +EC3.5.99.6 d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.5 * +EC3.5.99.6 d-fructose 6-phosphate musca domestica//eukaryotes;animals;arthropods;insects//mde 4.8 * +EC3.5.99.6 d-fructose 6-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 5.5 * +EC3.5.99.6 d-fructose 6-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.1 * +EC3.5.99.6 d-glucosamine 6-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.13 * +EC3.5.99.6 d-glucosamine 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.65 * +EC3.5.99.6 d-glucosamine 6-phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.1 * +EC3.5.99.6 d-glucosamine 6-phosphate canis lupus familiaris//*//* 0.25 * +EC3.5.99.6 d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC3.5.99.6 d-glucosamine 6-phosphate giardia intestinalis//*//* 0.38 * +EC3.5.99.6 d-glucosamine 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC3.5.99.6 d-glucosamine 6-phosphate musca domestica//eukaryotes;animals;arthropods;insects//mde 17.0 * +EC3.5.99.6 d-glucosamine 6-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC3.5.99.6 d-glucosamine 6-phosphate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 12.5 * +EC3.5.99.6 d-glucosamine 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.66 * +EC3.5.99.6 d-glucosamine 6-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.339 * +EC3.5.99.6 fructose 6-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.7 * +EC3.5.99.6 glucosamine 6-phosphate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 5.0 * +EC3.5.99.6 nh3 giardia intestinalis//*//* 2.0 * +EC3.5.99.6 nh3 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 17.0 * +EC3.5.99.6 nh4+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.7 * +EC3.5.99.6 nh4+ drosophila virilis//eukaryotes;animals;arthropods;insects//dvi 7.4 * +EC3.5.99.6 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 31.4 * +EC3.5.99.6 nh4+ giardia intestinalis//*//* 19.0 * +EC3.5.99.6 nh4+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 16.0 * +EC3.5.99.6 nh4+ musca domestica//eukaryotes;animals;arthropods;insects//mde 4.2 * +EC3.5.99.6 nh4+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 43.0 * +EC3.5.99.7 1-amino-2-vinylcyclopropane-1-carboxylic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.4 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate cyberlindnera saturnus//*//* 2.6 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate enterobacter cancerogenus//*//* 12.5 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.08 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate methylobacterium nodulans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mno 0.8 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate methylobacterium radiotolerans//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mrd 1.8 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate penicillium citrinum//*//* 4.8 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.4 * +EC3.5.99.7 1-aminocyclopropane-1-carboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.5 * +EC3.5.99.7 2-vinyl-1-aminocyclopropane-1-carboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.0 * +EC3.5.99.7 beta,beta-difluoro-d-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC3.5.99.7 beta-chloro-d-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.4 * +EC3.5.99.7 d-cystine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.25 * +EC3.5.99.7 d-vinylglycine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 97.0 * +EC3.5.99.7 dl-coronamic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 36.2 * +EC3.5.99.7 o-acetyl-d-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 56.0 * +EC3.6.1.1 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.43 * +EC3.6.1.1 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.13 * +EC3.6.1.1 atp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.189 * +EC3.6.1.1 ca-diphosphate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.19 * +EC3.6.1.1 cdp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.12 * +EC3.6.1.1 co-diphosphate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.29 * +EC3.6.1.1 ctp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.61 * +EC3.6.1.1 diphosphate anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.003 * +EC3.6.1.1 diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0388 * +EC3.6.1.1 diphosphate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.55 * +EC3.6.1.1 diphosphate avena sativa//*//* 0.015 * +EC3.6.1.1 diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.06 * +EC3.6.1.1 diphosphate blastochloris viridis//prokaryotes;bacteria;alphaproteobacteria;blastochloris//bvr 0.0274 * +EC3.6.1.1 diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.6.1.1 diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.01 * +EC3.6.1.1 diphosphate cricetinae//*//* 0.06 * +EC3.6.1.1 diphosphate desulfovibrio desulfuricans//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//dds 1.2 * +EC3.6.1.1 diphosphate dunaliella salina//*//* 0.047 * +EC3.6.1.1 diphosphate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.25 * +EC3.6.1.1 diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1e-05 * +EC3.6.1.1 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.6.1.1 diphosphate hypophthalmichthys nobilis//*//* 1.98 * +EC3.6.1.1 diphosphate leishmania amazonensis//*//* 0.092 * +EC3.6.1.1 diphosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.039 * +EC3.6.1.1 diphosphate methanosaeta thermophila//prokaryotes;archaea;euryarchaeota;methanosaeta//mtp 0.27 * +EC3.6.1.1 diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.16 * +EC3.6.1.1 diphosphate mus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.1 * +EC3.6.1.1 diphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.005 * +EC3.6.1.1 diphosphate pseudanabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.0029 * +EC3.6.1.1 diphosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.173 * +EC3.6.1.1 diphosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0143 * +EC3.6.1.1 diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC3.6.1.1 diphosphate saccharum officinarum//*//* 0.057 * +EC3.6.1.1 diphosphate sesamum indicum//eukaryotes;plants;eudicots;sesame family//sind 0.768 * +EC3.6.1.1 diphosphate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.035 * +EC3.6.1.1 diphosphate streptococcus gordonii//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sgo 0.062 * +EC3.6.1.1 diphosphate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0054 * +EC3.6.1.1 diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC3.6.1.1 diphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0028 * +EC3.6.1.1 diphosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.0188 * +EC3.6.1.1 diphosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.007 * +EC3.6.1.1 diphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.019 * +EC3.6.1.1 diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.008 * +EC3.6.1.1 diphosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.0026 * +EC3.6.1.1 diphosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.154 * +EC3.6.1.1 gdp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.56 * +EC3.6.1.1 gtp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.63 * +EC3.6.1.1 guanosine 5'-tetraphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.1554 * +EC3.6.1.1 idp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.47 * +EC3.6.1.1 imidodiphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.6.1.1 imidodiphosphoric acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.012 * +EC3.6.1.1 itp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 5.01 * +EC3.6.1.1 k+ avena sativa//*//* 4.0 * +EC3.6.1.1 mg-diphosphate beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.002 * +EC3.6.1.1 mg-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00045 * +EC3.6.1.1 mg-diphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.09 * +EC3.6.1.1 mg-diphosphate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.23 * +EC3.6.1.1 mg-diphosphate streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 0.016 * +EC3.6.1.1 mg-diphosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.002 * +EC3.6.1.1 mg2+ beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.02 * +EC3.6.1.1 mg2+ cricetinae//*//* 2.27 * +EC3.6.1.1 mg2+ dunaliella salina//*//* 1.65 * +EC3.6.1.1 mg2+ methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 4.9 * +EC3.6.1.1 mg2+ vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.02 * +EC3.6.1.1 mn-diphosphate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.37 * +EC3.6.1.1 polyphosphate 75 trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0174 * +EC3.6.1.1 polyphosphate-n28 leishmania amazonensis//*//* 0.123 * +EC3.6.1.1 polyphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.014 * +EC3.6.1.1 triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.91 * +EC3.6.1.1 triphosphate leishmania amazonensis//*//* 1.153 * +EC3.6.1.1 triphosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.37 * +EC3.6.1.1 triphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0167 * +EC3.6.1.1 tripolyphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.373 * +EC3.6.1.1 udp-glucose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 6.09 * +EC3.6.1.1 udp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 3.32 * +EC3.6.1.1 utp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 11.8 * +EC3.6.1.10 polyp750 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.000185 * +EC3.6.1.11 (phosphate)13-18 chlorobaculum tepidum//*//* 0.264 * +EC3.6.1.11 (phosphate)15 rhipicephalus microplus//*//* 0.0011 * +EC3.6.1.11 (phosphate)25 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC3.6.1.11 (phosphate)3 chlorobaculum tepidum//*//* 0.0977 * +EC3.6.1.11 (phosphate)3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.6.1.11 (phosphate)3 rhipicephalus microplus//*//* 0.0002 * +EC3.6.1.11 (phosphate)4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC3.6.1.11 (phosphate)45 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.6.1.11 (phosphate)65 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.6.1.11 (phosphate)65 rhipicephalus microplus//*//* 0.0009 * +EC3.6.1.11 (polyphosphate)130 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0173 * +EC3.6.1.11 (polyphosphate)14 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0059 * +EC3.6.1.11 (polyphosphate)60 mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0121 * +EC3.6.1.11 (polyphosphate)n leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 26.8 * +EC3.6.1.11 (polyphosphate)n saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0035 * +EC3.6.1.11 3'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.6.1.11 3'-cmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC3.6.1.11 5'-amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC3.6.1.11 5'-dgmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.6.1.11 5'-gmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC3.6.1.11 adenosine 5'-tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC3.6.1.11 adenosine 5'-tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC3.6.1.11 adenosine-5'-tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC3.6.1.11 guanosine 5'-tetraphosphate chlorobaculum tepidum//*//* 0.242 * +EC3.6.1.11 guanosine 5'-tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC3.6.1.11 guanosine 5'-tetraphosphate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 54.5 * +EC3.6.1.11 guanosine 5'-tetraphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.012 * +EC3.6.1.11 guanosine-5'-tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC3.6.1.11 p-nitrophenyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.49 * +EC3.6.1.11 pentasodium triphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0272 * +EC3.6.1.11 polyp10 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0039 * +EC3.6.1.11 polyp10 tethya aurantium//*//* 0.0092 * +EC3.6.1.11 polyp100 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.4e-05 * +EC3.6.1.11 polyp15 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.011 * +EC3.6.1.11 polyp208 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0012 * +EC3.6.1.11 polyp25 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00016 * +EC3.6.1.11 polyp250 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4e-06 * +EC3.6.1.11 polyp33-36 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0013 * +EC3.6.1.11 polyp50 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6e-05 * +EC3.6.1.11 polyp500 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5e-05 * +EC3.6.1.11 polyp9-10 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.033 * +EC3.6.1.11 polyphosphate 15 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 75.0 * +EC3.6.1.11 polyphosphate 208 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.5 * +EC3.6.1.11 polyphosphate 3 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1100.0 * +EC3.6.1.11 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC3.6.1.11 polyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0035 * +EC3.6.1.11 sodium phosphate glass type 15 rhipicephalus microplus//*//* 0.0022 * +EC3.6.1.11 tetraphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.11 * +EC3.6.1.11 triphosphate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.04 * +EC3.6.1.11 triphosphate rhipicephalus microplus//*//* 0.0002 * +EC3.6.1.11 triphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.058 * +EC3.6.1.11 tripolyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC3.6.1.12 2-chloro-datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.107 * +EC3.6.1.12 2-hydroxy-datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.169 * +EC3.6.1.12 5-bromo-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0365 * +EC3.6.1.12 5-bromo-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0217 * +EC3.6.1.12 5-chloro-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC3.6.1.12 5-fluoro-dutp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.034 * +EC3.6.1.12 5-formyl-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0092 * +EC3.6.1.12 5-hydroxy-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.164 * +EC3.6.1.12 5-hydroxymethyl-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0629 * +EC3.6.1.12 5-iodo-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0168 * +EC3.6.1.12 5-iodo-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0039 * +EC3.6.1.12 5-methyl-dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0333 * +EC3.6.1.12 5-methyl-dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0485 * +EC3.6.1.12 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.529 * +EC3.6.1.12 datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0793 * +EC3.6.1.12 datp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.118 * +EC3.6.1.12 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0476 * +EC3.6.1.12 dctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0441 * +EC3.6.1.12 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC3.6.1.12 dttp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.407 * +EC3.6.1.12 dutp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC3.6.1.12 dutp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.484 * +EC3.6.1.13 2''-o-acetyl-adp-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.045 * +EC3.6.1.13 2',3'-camp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.76 * +EC3.6.1.13 2',3'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.6.1.13 8-oxo-dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC3.6.1.13 adp-d-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0223 * +EC3.6.1.13 adp-d-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.048 * +EC3.6.1.13 adp-glucose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.16 * +EC3.6.1.13 adp-mannose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC3.6.1.13 adp-mannose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.154 * +EC3.6.1.13 adp-ribose arabidopsis sp.//*//* 0.0258 * +EC3.6.1.13 adp-ribose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0169 * +EC3.6.1.13 adp-ribose autographa californica multiple nucleopolyhedrovirus//*//* 0.204 * +EC3.6.1.13 adp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.053 * +EC3.6.1.13 adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0019 * +EC3.6.1.13 adp-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.038 * +EC3.6.1.13 adp-ribose synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.065 * +EC3.6.1.13 adp-ribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.25 * +EC3.6.1.13 adp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.65 * +EC3.6.1.13 adpribose 2'-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.46 * +EC3.6.1.13 adpribose artemia sp.//*//* 0.0068 * +EC3.6.1.13 adpribose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.114 * +EC3.6.1.13 adpribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC3.6.1.13 adpribose haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.063 * +EC3.6.1.13 adpribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.6.1.13 adpribose methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.34 * +EC3.6.1.13 adpribose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.038 * +EC3.6.1.13 adpribose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0005 * +EC3.6.1.13 adpribose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC3.6.1.13 adpribose synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.094 * +EC3.6.1.13 adpribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.11 * +EC3.6.1.13 cadp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.19 * +EC3.6.1.13 cadp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.78 * +EC3.6.1.13 cdp-choline danio rerio//eukaryotes;animals;vertebrates;fishes//dre 12.0 * +EC3.6.1.13 cdp-choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.6.1.13 cdp-ethanolamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 3.9 * +EC3.6.1.13 cdp-glycerol danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.0 * +EC3.6.1.13 cdp-ribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.36 * +EC3.6.1.13 fad thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.3 * +EC3.6.1.13 gdp-ribose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.1 * +EC3.6.1.14 adenosine 5'-tetraphosphate lupinus luteus//*//* 0.003 * +EC3.6.1.14 adenosine 5'-tetraphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0027 * +EC3.6.1.14 adenosine 5'-tetraphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC3.6.1.14 inosine tetraphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0034 * +EC3.6.1.15 2',3'-didehydro-thymidine triphosphate hepatitis c virus//*//* 0.8 * +EC3.6.1.15 3'-azido-2',3'-dideoxythymidine triphosphate hepatitis c virus//*//* 2.3 * +EC3.6.1.15 adp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.217 * +EC3.6.1.15 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.26 * +EC3.6.1.15 atp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.317 * +EC3.6.1.15 atp enterovirus c//*//* 0.7 * +EC3.6.1.15 atp hepatitis c virus//*//* 0.45 * +EC3.6.1.15 atp mammalian orthoreovirus//*//* 2.5 * +EC3.6.1.15 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC3.6.1.15 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.8e-05 * +EC3.6.1.15 atp west nile virus//*//* 0.0095 * +EC3.6.1.15 cdp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC3.6.1.15 cdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.082 * +EC3.6.1.15 ctp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC3.6.1.15 ctp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.034 * +EC3.6.1.15 ctp mammalian orthoreovirus//*//* 3.8 * +EC3.6.1.15 ctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.239 * +EC3.6.1.15 dadp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.145 * +EC3.6.1.15 datp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.062 * +EC3.6.1.15 datp hepatitis c virus//*//* 6.9 * +EC3.6.1.15 datp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.147 * +EC3.6.1.15 dcdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.092 * +EC3.6.1.15 dctp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.023 * +EC3.6.1.15 dctp hepatitis c virus//*//* 4.0 * +EC3.6.1.15 dctp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.179 * +EC3.6.1.15 ddctp hepatitis c virus//*//* 3.8 * +EC3.6.1.15 ddttp hepatitis c virus//*//* 0.9 * +EC3.6.1.15 dgdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.051 * +EC3.6.1.15 dgtp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.083 * +EC3.6.1.15 dgtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.144 * +EC3.6.1.15 ditp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.088 * +EC3.6.1.15 dna duplex west nile virus//*//* 4.7e-09 * +EC3.6.1.15 dttp hepatitis c virus//*//* 2.4 * +EC3.6.1.15 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.6.1.15 dttp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.147 * +EC3.6.1.15 gdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.092 * +EC3.6.1.15 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.041 * +EC3.6.1.15 gtp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.394 * +EC3.6.1.15 gtp mammalian orthoreovirus//*//* 3.7 * +EC3.6.1.15 gtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.132 * +EC3.6.1.15 idp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.046 * +EC3.6.1.15 itp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC3.6.1.15 itp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.147 * +EC3.6.1.15 l-datp hepatitis c virus//*//* 0.8 * +EC3.6.1.15 l-dctp hepatitis c virus//*//* 9.9 * +EC3.6.1.15 l-dttp hepatitis c virus//*//* 28.0 * +EC3.6.1.15 mgatp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0185 * +EC3.6.1.15 rna mammalian orthoreovirus//*//* 0.00032 * +EC3.6.1.15 tdp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.105 * +EC3.6.1.15 ttp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.138 * +EC3.6.1.15 udp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.137 * +EC3.6.1.15 utp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.086 * +EC3.6.1.15 utp deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.124 * +EC3.6.1.15 utp mammalian orthoreovirus//*//* 9.4 * +EC3.6.1.15 utp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.297 * +EC3.6.1.16 cdpglcerol bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.6 * +EC3.6.1.17 2-oxo-datp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.3846 * +EC3.6.1.17 5',5''-diadenosine tetraphosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0006 * +EC3.6.1.17 5',5'-diadenosine hexaphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.015 * +EC3.6.1.17 5',5'-diadenosine tetraphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.009 * +EC3.6.1.17 8-oxo-dgtp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0986 * +EC3.6.1.17 ap4a caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.007 * +EC3.6.1.17 ap4a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC3.6.1.17 ap4a lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 2.5 * +EC3.6.1.17 ap5a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.098 * +EC3.6.1.17 ap6a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.6.1.17 datp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.1143 * +EC3.6.1.17 dgtp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.182 * +EC3.6.1.17 diadenosine 5',5''''-p1,p4-tetraphosphate caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.007 * +EC3.6.1.17 diadenosine 5',5''-p1,p4-tetraphosphate chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 0.005 * +EC3.6.1.17 diadenosine 5',5'-p1,p4-tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC3.6.1.17 diadenosine 5',5'-p1,p4-tetraphosphate lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 0.0025 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl) tetraphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.054 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl) tetraphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0007 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl) tetraphosphate photinus pyralis//*//* 0.0019 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl) tetraphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.6.1.17 p1,p4-bis(5'-adenosyl)tetraphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.14 * +EC3.6.1.17 p1,p4-bis(5'-guanosyl) tetraphosphate artemia salina//*//* 0.002 * +EC3.6.1.17 p1,p4-bis(5'-guanosyl) tetraphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.6.1.17 p1,p4-bis(5'-uridyl) tetraphosphate artemia salina//*//* 0.011 * +EC3.6.1.17 p1,p4-bis(5'-uridyl) tetraphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC3.6.1.17 p1,p4-bis(5'-xanthosyl) tetraphosphate artemia salina//*//* 0.018 * +EC3.6.1.17 p1,p4-bis(5'-xanthosyl) tetraphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC3.6.1.17 p1,p5-bis(5'-adenosyl) pentaphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.183 * +EC3.6.1.17 p1,p5-bis(5'-adenosyl)pentaphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.19 * +EC3.6.1.17 p1,p6-bis(5'-adenosyl) hexaphosphate aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.089 * +EC3.6.1.18 fad oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.04 * +EC3.6.1.18 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC3.6.1.18 fad spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.04 * +EC3.6.1.18 fad vigna radiata var. radiata//*//* 0.04 * +EC3.6.1.18 nad+ vigna radiata var. radiata//*//* 0.58 * +EC3.6.1.18 nadh vigna radiata var. radiata//*//* 0.1 * +EC3.6.1.21 adp-glc bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.29 * +EC3.6.1.21 adp-glc oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC3.6.1.21 adp-glc rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.29 * +EC3.6.1.21 adp-glc salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.9 * +EC3.6.1.21 adp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.167 * +EC3.6.1.21 adp-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.183 * +EC3.6.1.21 adp-rib bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC3.6.1.21 adp-rib oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.3 * +EC3.6.1.21 adp-rib rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.3 * +EC3.6.1.21 adp-ribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.125 * +EC3.6.1.21 gdp-glc salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 40.0 * +EC3.6.1.21 gdp-man salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 40.0 * +EC3.6.1.22 adp-ribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC3.6.1.22 adp-ribose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.3 * +EC3.6.1.22 appa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC3.6.1.22 dnad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC3.6.1.22 dnadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC3.6.1.22 nad+ caenorhabditis elegans//eukaryotes;animals;nematodes//cel 6.6 * +EC3.6.1.22 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0053 * +EC3.6.1.22 nad+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01 * +EC3.6.1.22 nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC3.6.1.22 nadh caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.4 * +EC3.6.1.22 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC3.6.1.22 nadh saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC3.6.1.22 nadp+ proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.025 * +EC3.6.1.22 nmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0111 * +EC3.6.1.23 2'-deoxy-5-fluoro-utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC3.6.1.23 2'-deoxy-5-fluoro-utp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00173 * +EC3.6.1.23 beta-l-2'-dutp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.523 * +EC3.6.1.23 beta-l-2'-dutp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.438 * +EC3.6.1.23 datp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.13 * +EC3.6.1.23 dctp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 2.3 * +EC3.6.1.23 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.687 * +EC3.6.1.23 dctp human alphaherpesvirus 1//*//* 1.0 * +EC3.6.1.23 dctp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.465 * +EC3.6.1.23 dgtp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.96 * +EC3.6.1.23 ditp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0447 * +EC3.6.1.23 dttp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.64 * +EC3.6.1.23 dttp equine infectious anemia virus//*//* 0.26 * +EC3.6.1.23 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.761 * +EC3.6.1.23 dttp human alphaherpesvirus 1//*//* 0.4 * +EC3.6.1.23 dttp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.29 * +EC3.6.1.23 dudp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC3.6.1.23 dudp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0627 * +EC3.6.1.23 dudp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0062 * +EC3.6.1.23 dutp acholeplasma laidlawii//prokaryotes;bacteria;tenericutes;acholeplasma//acl 0.0045 * +EC3.6.1.23 dutp allium cepa//*//* 0.006 * +EC3.6.1.23 dutp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.002 * +EC3.6.1.23 dutp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0004 * +EC3.6.1.23 dutp equine infectious anemia virus//*//* 0.00096 * +EC3.6.1.23 dutp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00018 * +EC3.6.1.23 dutp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC3.6.1.23 dutp human alphaherpesvirus 1//*//* 0.0003 * +EC3.6.1.23 dutp human alphaherpesvirus 2//*//* 0.0036 * +EC3.6.1.23 dutp human gammaherpesvirus 4//*//* 0.00071 * +EC3.6.1.23 dutp leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0021 * +EC3.6.1.23 dutp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0009 * +EC3.6.1.23 dutp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0016 * +EC3.6.1.23 dutp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC3.6.1.23 dutp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0132 * +EC3.6.1.23 dutp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.0005 * +EC3.6.1.23 dutp vaccinia virus//*//* 0.00094 * +EC3.6.1.23 dutpalphas human alphaherpesvirus 1//*//* 0.0002 * +EC3.6.1.23 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.54 * +EC3.6.1.23 utp human alphaherpesvirus 1//*//* 1.0 * +EC3.6.1.23 utp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.571 * +EC3.6.1.24 adenosine 5'-p-nitrophenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC3.6.1.24 cytidine 5'-p-nitrophenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC3.6.1.24 guanosine 5'-p-nitrophenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.6.1.24 thymidine 5'-p-nitrophenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 770.0 * +EC3.6.1.24 uridine 5'-p-nitrophenylphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.65 * +EC3.6.1.25 atp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.8 * +EC3.6.1.25 tripolyphosphate nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.021 * +EC3.6.1.25 tripolyphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC3.6.1.26 cdp-1-stearoyl-2-oleoylglycerol cavia porcellus//*//* 0.04 * +EC3.6.1.26 cdp-1-stearoyl-2-stearoylglycerol cavia porcellus//*//* 0.047 * +EC3.6.1.26 cdpdipalmitoylglycerol cavia porcellus//*//* 0.063 * +EC3.6.1.26 cdpdistearoylglycerol cavia porcellus//*//* 0.14 * +EC3.6.1.27 farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0108 * +EC3.6.1.27 undecaprenyl diphosphate micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.4 * +EC3.6.1.28 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7 * +EC3.6.1.28 itp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1043 * +EC3.6.1.28 mg2+-thiamine triphosphate complex rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.6 * +EC3.6.1.28 thiamin triphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0211 * +EC3.6.1.28 thiamin triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.126 * +EC3.6.1.28 thiamine triphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.039 * +EC3.6.1.28 thiamine triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC3.6.1.28 thiamine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.056 * +EC3.6.1.28 thiamine triphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.008 * +EC3.6.1.28 thiamine triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC3.6.1.28 thiamine triphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0495 * +EC3.6.1.29 5'-o-[amino(hydroxy)phosphoryl]adenosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC3.6.1.29 5'-o-[amino(hydroxy)phosphoryl]adenosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.6.1.29 5'-o-[amino(hydroxy)phosphoryl]adenosine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.015 * +EC3.6.1.29 adenosine 5'-phosphoramidate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.6.1.29 adenosine-5'-phospho-n-methylimidazolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0053 * +EC3.6.1.29 adenosine-5'-phosphoimidazolide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.6.1.29 ap4a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC3.6.1.29 ap5a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC3.6.1.29 apcf2ppa lupinus luteus//*//* 0.212 * +EC3.6.1.29 apch2ppa lupinus luteus//*//* 0.117 * +EC3.6.1.29 apchfppa lupinus luteus//*//* 0.09 * +EC3.6.1.29 p1,p3-bis(5'-adenosyl)triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC3.6.1.29 p1-5'-o-adenosine-p3-5'-o-adenosine triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.6.1.29 p1-p3-bis(5'-adenosyl) triphosphate artemia sp.//*//* 0.015 * +EC3.6.1.29 p1-p3-bis(5'-adenosyl) triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC3.6.1.29 p1-p3-bis(5'-adenosyl) triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.6.1.29 p1-p3-bis(5'-adenosyl) triphosphate lupinus luteus//*//* 0.001 * +EC3.6.1.29 p1-p3-bis(5'-adenosyl) triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC3.6.1.29 p1-p3-bis(5'-adenosyl) triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0054 * +EC3.6.1.29 p1-p3-bis(5'-guanosyl) triphosphate artemia sp.//*//* 0.01 * +EC3.6.1.29 p1-p3-bis(5'-guanosyl) triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.002 * +EC3.6.1.29 p1-p3-bis(5'-uracyl) triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.6.1.3 atp acidianus ambivalens//*//* 2.5 * +EC3.6.1.3 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.4 * +EC3.6.1.3 atp bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.98 * +EC3.6.1.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.88 * +EC3.6.1.3 atp natronococcus occultus//prokaryotes;archaea;euryarchaeota;natronococcus//nou 0.5 * +EC3.6.1.3 atp reovirus sp.//*//* 0.001 * +EC3.6.1.3 atp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.6 * +EC3.6.1.3 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.6 * +EC3.6.1.3 atp west nile virus//*//* 0.0095 * +EC3.6.1.3 datp reovirus sp.//*//* 0.0066 * +EC3.6.1.3 dctp reovirus sp.//*//* 0.071 * +EC3.6.1.3 dna duplex west nile virus//*//* 4.7e-09 * +EC3.6.1.3 gtp reovirus sp.//*//* 0.002 * +EC3.6.1.31 n-1-(5'-phosphoribosyl)-atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.022 * +EC3.6.1.39 dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.091 * +EC3.6.1.39 dttp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.4 * +EC3.6.1.39 dttp enterobacteria phage t7//*//* 2.6 * +EC3.6.1.39 dttp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.038 * +EC3.6.1.39 dttp/dctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.125 * +EC3.6.1.39 dutp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.011 * +EC3.6.1.40 guanosine 5'-triphosphate,3'-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.6.1.40 guanosine 5'-triphosphate,3'-monophosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC3.6.1.40 polyphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5e-07 * +EC3.6.1.41 p1,p4-bis(5'-adenosyl) tetraphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC3.6.1.41 p1,p4-bis(5'-adenosyl) tetraphosphate physarum polycephalum//*//* 0.037 * +EC3.6.1.41 p1,p4-bis(5'-adenosyl) tetraphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.005 * +EC3.6.1.41 p1,p4-bis(5'-adenosyl) tetraphosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.037 * +EC3.6.1.41 p1,p4-bis(5'-adenosyl)tetraphosphate physarum polycephalum//*//* 0.0026 * +EC3.6.1.41 p1,p4-bis(adenosyl)tetraphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.14 * +EC3.6.1.41 p1,p5-bis(adenosyl)pentaphosphate myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.19 * +EC3.6.1.41 p1,p6-bis(5'-adenosyl)hexaphosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.014 * +EC3.6.1.42 gdp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC3.6.1.43 dolichyl diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC3.6.1.43 dolichyl diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.6.1.43 dolichyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC3.6.1.43 dolichyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.048 * +EC3.6.1.45 adp-d-ribose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.3 * +EC3.6.1.45 amp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC3.6.1.45 cdp-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC3.6.1.45 gdp-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC3.6.1.45 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC3.6.1.45 mgutp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC3.6.1.45 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0053 * +EC3.6.1.45 nadh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC3.6.1.45 nmn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0111 * +EC3.6.1.45 udp-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC3.6.1.45 udp-d-glucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.1 * +EC3.6.1.45 udp-glucose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.0894 * +EC3.6.1.45 udp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0104 * +EC3.6.1.45 udp-glucose yersinia intermedia//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yin 0.0096 * +EC3.6.1.5 1,n6-etheno-adp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.073 * +EC3.6.1.5 1,n6-etheno-atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.024 * +EC3.6.1.5 2'(3')-o-(2,4,6-trinitrophenyl)adenosine 5'-diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.009 * +EC3.6.1.5 2'(3')-o-(2,4,6-trinitrophenyl)adenosine 5'-triphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.008 * +EC3.6.1.5 3'(2')-o-(methylanthranoyl)adenosine 5'-diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.014 * +EC3.6.1.5 3'(2')-o-(methylanthranoyl)adenosine 5'-triphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.012 * +EC3.6.1.5 8-oxo-dgtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.43 * +EC3.6.1.5 adp aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.0125 * +EC3.6.1.5 adp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.029 * +EC3.6.1.5 adp cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.5 * +EC3.6.1.5 adp ctenocephalides felis//*//* 0.066 * +EC3.6.1.5 adp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.72 * +EC3.6.1.5 adp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.309 * +EC3.6.1.5 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.107 * +EC3.6.1.5 adp lupinus luteus//*//* 0.02 * +EC3.6.1.5 adp mimosa pudica//*//* 0.041 * +EC3.6.1.5 adp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.019 * +EC3.6.1.5 adp ornithodoros savignyi//*//* 1.04 * +EC3.6.1.5 adp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC3.6.1.5 adp rhodnius prolixus//*//* 0.291 * +EC3.6.1.5 adp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.07 * +EC3.6.1.5 adp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0056 * +EC3.6.1.5 adp trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.05 * +EC3.6.1.5 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.117 * +EC3.6.1.5 atp aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.015 * +EC3.6.1.5 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.023 * +EC3.6.1.5 atp candida parapsilosis//*//* 0.6 * +EC3.6.1.5 atp cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.2 * +EC3.6.1.5 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.13 * +EC3.6.1.5 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.424 * +EC3.6.1.5 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0776 * +EC3.6.1.5 atp lupinus luteus//*//* 0.02 * +EC3.6.1.5 atp mimosa pudica//*//* 0.169 * +EC3.6.1.5 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.011 * +EC3.6.1.5 atp ornithodoros savignyi//*//* 0.76 * +EC3.6.1.5 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.6.1.5 atp rhodnius prolixus//*//* 0.229 * +EC3.6.1.5 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0031 * +EC3.6.1.5 atp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 3.4 * +EC3.6.1.5 atp trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.049 * +EC3.6.1.5 atp trypanosoma brucei brucei//*//* 0.61 * +EC3.6.1.5 cdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.777 * +EC3.6.1.5 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.148 * +EC3.6.1.5 datp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.89 * +EC3.6.1.5 datp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.018 * +EC3.6.1.5 dctp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.029 * +EC3.6.1.5 dgtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.16 * +EC3.6.1.5 dgtp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.028 * +EC3.6.1.5 dttp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.027 * +EC3.6.1.5 gdp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0597 * +EC3.6.1.5 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.357 * +EC3.6.1.5 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.164 * +EC3.6.1.5 idp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.166 * +EC3.6.1.5 idp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.622 * +EC3.6.1.5 itp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.259 * +EC3.6.1.5 thio-datp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.021 * +EC3.6.1.5 udp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0744 * +EC3.6.1.5 udp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.027 * +EC3.6.1.5 udp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.555 * +EC3.6.1.5 utp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC3.6.1.5 utp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.207 * +EC3.6.1.52 5-phospho-d-ribosyl 1-diphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.13 * +EC3.6.1.52 adenosine tetraphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.004 * +EC3.6.1.52 bisdiphosphoinositol tetrakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.4e-05 * +EC3.6.1.52 diadenosine 5',5'''-p1,p6-hexaphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.018 * +EC3.6.1.52 diphosphoinositol pentakisphosphate african swine fever virus//*//* 0.0012 * +EC3.6.1.52 diphosphoinositol pentakisphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7e-05 * +EC3.6.1.52 diphosphoinositol pentakisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2e-06 * +EC3.6.1.52 diphosphoinositol pentakisphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.2e-06 * +EC3.6.1.52 diphosphoinositol pentakisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00034 * +EC3.6.1.52 guanosine tetraphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.011 * +EC3.6.1.53 2',3'-camp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.76 * +EC3.6.1.53 2',3'-camp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC3.6.1.53 adp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.053 * +EC3.6.1.53 adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC3.6.1.53 adp-ribose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC3.6.1.53 adp danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.65 * +EC3.6.1.53 cdp-choline danio rerio//eukaryotes;animals;vertebrates;fishes//dre 12.0 * +EC3.6.1.53 cdp-choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC3.6.1.53 cdp-ethanolamine danio rerio//eukaryotes;animals;vertebrates;fishes//dre 3.9 * +EC3.6.1.53 cdp-glycerol danio rerio//eukaryotes;animals;vertebrates;fishes//dre 2.0 * +EC3.6.1.53 cyclic adp-ribose danio rerio//eukaryotes;animals;vertebrates;fishes//dre 0.19 * +EC3.6.1.53 cyclic adp-ribose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.78 * +EC3.6.1.53 cyclic adp-ribose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC3.6.1.54 udp-2,3-diacylglucosamine caulobacter vibrioides//*//* 0.105 * +EC3.6.1.54 udp-2,3-diacylglucosamine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0079 * +EC3.6.1.54 udp-n2,o3-bis((3r)-3-hydroxymyristoyl)-alpha-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0617 * +EC3.6.1.55 8-oxo-dgdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.8e-05 * +EC3.6.1.55 8-oxo-dgtp ciona intestinalis//eukaryotes;animals;ascidians//cin 0.0169 * +EC3.6.1.55 8-oxo-dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.1e-05 * +EC3.6.1.55 8-oxo-gdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.5e-05 * +EC3.6.1.55 8-oxo-gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0117 * +EC3.6.1.55 8-oxo-gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00026 * +EC3.6.1.55 dgdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC3.6.1.55 dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC3.6.1.55 gdp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC3.6.1.55 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC3.6.1.56 2-hydroxy-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.6.1.56 2-hydroxy-datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0043 * +EC3.6.1.56 8-oxo-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.051 * +EC3.6.1.56 8-oxo-datp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0139 * +EC3.6.1.56 8-oxo-dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0151 * +EC3.6.1.56 8-oxo-dgtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.032 * +EC3.6.1.56 8-oxo-gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.044 * +EC3.6.1.56 8-oxo-gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.055 * +EC3.6.1.56 dgtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.258 * +EC3.6.1.56 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.79 * +EC3.6.1.57 udp-2,4-diacetamido-2,4,6-trideoxy-beta-l-altropyranose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.174 * +EC3.6.1.58 2-hydroxy-dadp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0088 * +EC3.6.1.58 5-formyl-dudp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC3.6.1.58 8-oxo-dadp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0029 * +EC3.6.1.58 8-oxo-dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0021 * +EC3.6.1.58 8-oxo-gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0049 * +EC3.6.1.58 dadp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0126 * +EC3.6.1.58 dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0076 * +EC3.6.1.58 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC3.6.1.59 7-methylguanosine 5'-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00026 * +EC3.6.1.59 m7g5'ppp5'g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00014 * +EC3.6.1.6 adp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.309 * +EC3.6.1.6 adp toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 1.17 * +EC3.6.1.6 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.424 * +EC3.6.1.6 gdp acer pseudoplatanus//*//* 0.45 * +EC3.6.1.6 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC3.6.1.6 idp acer pseudoplatanus//*//* 0.65 * +EC3.6.1.6 idp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.48 * +EC3.6.1.6 thiamine diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.66 * +EC3.6.1.6 udp acer pseudoplatanus//*//* 0.53 * +EC3.6.1.6 udp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.18 * +EC3.6.1.6 udp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.216 * +EC3.6.1.60 p1,p5-bis(5'-adenosyl)pentaphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0077 * +EC3.6.1.60 p1,p6-bis(5'-adenosyl)hexaphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0059 * +EC3.6.1.61 p1,p4-bis(5'-adenosyl)tetraphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC3.6.1.61 p1,p5-bis(5'-adenosyl)pentaphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC3.6.1.61 p1,p6-bis(5'-adenosyl)hexaphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0014 * +EC3.6.1.62 m7g5'ppp5'-mrna vaccinia virus//*//* 0.0034 * +EC3.6.1.64 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.285 * +EC3.6.1.64 dgdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.32 * +EC3.6.1.64 didp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.088 * +EC3.6.1.64 ditp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.1 * +EC3.6.1.64 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.33 * +EC3.6.1.64 idp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.062 * +EC3.6.1.64 itp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0082 * +EC3.6.1.64 xdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.6.1.65 2-hydroxy-datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC3.6.1.65 5-hydroxy-ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0557 * +EC3.6.1.65 5-methyl-dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.028 * +EC3.6.1.65 8-hydroxy-dgtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC3.6.1.65 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.428 * +EC3.6.1.65 dctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.767 * +EC3.6.1.66 ditp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.25 * +EC3.6.1.66 itp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.15 * +EC3.6.1.66 xtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.1 * +EC3.6.1.67 7,8-dihydroneopterin 3'-triphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0021 * +EC3.6.1.67 7,8-dihydroneopterin 3'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC3.6.1.67 7,8-dihydroneopterin 3'-triphosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0021 * +EC3.6.1.67 datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.79 * +EC3.6.1.68 farnesyl diphosphate rosa hybrid cultivar//*//* 0.00048 * +EC3.6.1.68 geranyl diphosphate rosa hybrid cultivar//*//* 0.00014 * +EC3.6.1.7 1,3-diphosphoglycerate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.6 * +EC3.6.1.7 1,3-diphosphoglycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.6.1.7 acetyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.23 * +EC3.6.1.7 acetyl phosphate cavia porcellus//*//* 1.08 * +EC3.6.1.7 acetyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.9 * +EC3.6.1.7 acetyl phosphate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 8.53 * +EC3.6.1.7 benzoyl phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.6.1.7 benzoyl phosphate cavia porcellus//*//* 0.57 * +EC3.6.1.7 benzoyl phosphate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.14 * +EC3.6.1.7 benzoyl phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.17 * +EC3.6.1.7 benzoyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.6.1.7 benzoyl phosphate meleagris gallopavo//eukaryotes;animals;vertebrates;birds//mgp 0.18 * +EC3.6.1.7 benzoyl phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.7 * +EC3.6.1.7 benzoyl phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.12 * +EC3.6.1.7 benzoyl phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC3.6.1.7 benzoyl phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.36 * +EC3.6.1.7 benzoyl phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.16 * +EC3.6.1.7 benzoylphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.8 * +EC3.6.1.7 ca2+-atpase phosphoenzyme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-06 * +EC3.6.1.7 carbamoyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.2 * +EC3.6.1.7 na+/k+-atpase phosphoenzyme bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.9e-05 * +EC3.6.1.7 na+/k+-atpase phosphoenzyme homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000147 * +EC3.6.1.8 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.076 * +EC3.6.1.8 atp physarum polycephalum//*//* 2.0 * +EC3.6.1.8 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00032 * +EC3.6.1.8 atp schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.0173 * +EC3.6.1.8 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.83 * +EC3.6.1.8 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0022 * +EC3.6.1.9 1,4-dihydronicotinamide adenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.011 * +EC3.6.1.9 2',3'-camp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.3 * +EC3.6.1.9 3'-5'-apc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.48 * +EC3.6.1.9 3'-phosphoadenosine 5'-phosphosulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC3.6.1.9 3-acetylpyridine adenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.006 * +EC3.6.1.9 3-aminopyridine 1,n6-ethenoadenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.632 * +EC3.6.1.9 3-aminopyridine adenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC3.6.1.9 3-aminopyridine adenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.056 * +EC3.6.1.9 4-nitrophenyl-5'-tmp opuntia ficus-indica//*//* 0.027 * +EC3.6.1.9 4-nitrophenyl-5'-tmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0618 * +EC3.6.1.9 5',5'-diadenosine diphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.05 * +EC3.6.1.9 5',5'-diadenosine tetraphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.2 * +EC3.6.1.9 5',5'-diadenosine triphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.05 * +EC3.6.1.9 5'-adenylylimidodiphosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC3.6.1.9 7-methyl 5'-guanosine 2'-o-methylguanosine triphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.1 * +EC3.6.1.9 adenosine 5'-phosphosulfate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.5 * +EC3.6.1.9 adenosine diphosphoribose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC3.6.1.9 adp-glucose hordeum vulgare//*//* 0.8 * +EC3.6.1.9 adp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.7 * +EC3.6.1.9 adp-ribose hordeum vulgare//*//* 0.5 * +EC3.6.1.9 adp-ribose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.4 * +EC3.6.1.9 adp-ribose rattus sp.//*//* 18.9 * +EC3.6.1.9 adp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.18 * +EC3.6.1.9 adp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.3 * +EC3.6.1.9 amppcp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC3.6.1.9 ap3a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0051 * +EC3.6.1.9 ap3a rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0495 * +EC3.6.1.9 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.055 * +EC3.6.1.9 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.05 * +EC3.6.1.9 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0062 * +EC3.6.1.9 atp oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.1 * +EC3.6.1.9 atp rattus sp.//*//* 0.017 * +EC3.6.1.9 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.5 * +EC3.6.1.9 bis(4-nitrophenyl) phosphate bothrops jararaca//*//* 21.88 * +EC3.6.1.9 bis(4-nitrophenyl)phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.1 * +EC3.6.1.9 bis(p-nitrophenylphosphate) solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.3 * +EC3.6.1.9 bis-p-nitrophenyl phosphate hordeum vulgare//*//* 1.2 * +EC3.6.1.9 cdp-choline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC3.6.1.9 cdp-glucose hordeum vulgare//*//* 1.4 * +EC3.6.1.9 cdp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.9 * +EC3.6.1.9 cdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.9 * +EC3.6.1.9 coenzyme a haemophilus parasuis//*//* 0.351 * +EC3.6.1.9 datp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.5 * +EC3.6.1.9 diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.5 * +EC3.6.1.9 dttp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC3.6.1.9 fad bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC3.6.1.9 fad haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.02 * +EC3.6.1.9 fad haemophilus parasuis//*//* 0.015 * +EC3.6.1.9 fad ovis aries aries//*//* 0.133 * +EC3.6.1.9 fad rattus sp.//*//* 1.23 * +EC3.6.1.9 fad vigna radiata var. radiata//*//* 0.2 * +EC3.6.1.9 formycin 5'-triphosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC3.6.1.9 gdp-mannose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.8 * +EC3.6.1.9 gdp-mannose rattus sp.//*//* 0.04 * +EC3.6.1.9 gdp-mannose saccharomyces sp.//*//* 1.0 * +EC3.6.1.9 gdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.9 * +EC3.6.1.9 idp oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.2 * +EC3.6.1.9 nad+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC3.6.1.9 nad+ haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.005 * +EC3.6.1.9 nad+ haemophilus parasuis//*//* 0.004 * +EC3.6.1.9 nad+ lens culinaris//*//* 0.049 * +EC3.6.1.9 nad+ opuntia ficus-indica//*//* 3.2 * +EC3.6.1.9 nad+ rattus sp.//*//* 28.0 * +EC3.6.1.9 nad+ saccharomyces sp.//*//* 0.17 * +EC3.6.1.9 nad+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.05 * +EC3.6.1.9 nad+ vigna radiata var. radiata//*//* 0.3 * +EC3.6.1.9 nadh brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.07 * +EC3.6.1.9 nadh columba livia//eukaryotes;animals;vertebrates;birds//clv 10.0 * +EC3.6.1.9 nadh homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.6.1.9 nadh lens culinaris//*//* 0.042 * +EC3.6.1.9 nadh opuntia ficus-indica//*//* 4.4 * +EC3.6.1.9 nadh rattus sp.//*//* 4.6 * +EC3.6.1.9 nadp+ haemophilus parasuis//*//* 0.005 * +EC3.6.1.9 nadp+ lens culinaris//*//* 0.043 * +EC3.6.1.9 nadp+ opuntia ficus-indica//*//* 0.38 * +EC3.6.1.9 nadph lens culinaris//*//* 0.047 * +EC3.6.1.9 nadph opuntia ficus-indica//*//* 0.65 * +EC3.6.1.9 nicotinamide 1,n6-ethenoadenine dinucleotide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC3.6.1.9 nicotinamide 1,n6-ethenoadenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.026 * +EC3.6.1.9 nicotinamide 1,n6-ethenoadenine dinucleotide haemophilus parasuis//*//* 0.144 * +EC3.6.1.9 nicotinamide guanine dinucleotide haemophilus parasuis//*//* 0.001 * +EC3.6.1.9 nicotinamide hypoxanthine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.015 * +EC3.6.1.9 nicotinic acid adenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.008 * +EC3.6.1.9 p-nitrophenyl 5'-thymidine monophosphate bothrops jararaca//*//* 0.85 * +EC3.6.1.9 p-nitrophenyl 5'-thymidine monophosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC3.6.1.9 p-nitrophenyl 5'-thymidine monophosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.106 * +EC3.6.1.9 p-nitrophenyl 5'-tmp rattus sp.//*//* 0.21 * +EC3.6.1.9 p-nitrophenyl deoxytmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 21.0 * +EC3.6.1.9 p-nitrophenylphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.2 * +EC3.6.1.9 pyridine adenine dinucleotide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.003 * +EC3.6.1.9 tdp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.8 * +EC3.6.1.9 tdp oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.1 * +EC3.6.1.9 thymidine 3'-alpha-naphthylphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.9 * +EC3.6.1.9 thymidine 3'-diphospho 3'-thymidine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.7 * +EC3.6.1.9 thymidine 3'-monophosphate p-nitrophenyl ester solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.3 * +EC3.6.1.9 thymidine 5'-alpha-naphthylphosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.5 * +EC3.6.1.9 thymidine 5'-diphospho 5'-thymidine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 1.3 * +EC3.6.1.9 thymidine 5'-monophosphate p-nitrophenyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC3.6.1.9 thymidine 5'-monophosphate p-nitrophenyl ester lens culinaris//*//* 0.066 * +EC3.6.1.9 thymidine 5'-monophosphate p-nitrophenyl ester rattus sp.//*//* 15.0 * +EC3.6.1.9 thymidine 5'-monophosphate p-nitrophenyl ester saccharomyces sp.//*//* 5.6 * +EC3.6.1.9 thymidine 5'-monophosphate p-nitrophenyl ester solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.8 * +EC3.6.1.9 udp-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.62 * +EC3.6.1.9 udp-glucose hordeum vulgare//*//* 1.9 * +EC3.6.1.9 udp-glucose oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.5 * +EC3.6.1.9 udp-glucose rattus sp.//*//* 14.9 * +EC3.6.1.9 udp-glucose saccharomyces sp.//*//* 3.3 * +EC3.6.1.9 udp-n-acetyl-alpha-d-galactosamine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC3.6.1.9 udp-n-acetyl-alpha-d-glucosamine dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.8 * +EC3.6.1.9 udp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.45 * +EC3.6.1.9 udp oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.5 * +EC3.6.1.9 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.6.1.9 utp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.11 * +EC3.6.1.9 utp rattus sp.//*//* 30.0 * +EC3.6.1.B11 p1,p5-bis(5'-adenosyl)pentaphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.022 * +EC3.6.1.B11 p1,p6-bis(5'-adenosyl)hexaphosphate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.00284 * +EC3.6.1.B13 p1,p6-bis(5'-adenosyl)hexaphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.61 * +EC3.6.1.B16 guanosine 3',5'-bis(diphosphate) arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.135 * +EC3.6.1.B16 p1,p4-bis(5'-adenosyl) tetraphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0218 * +EC3.6.1.B16 p1,p5-di(adenosine-5')pentaphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0096 * +EC3.6.2.1 adenosine 5'-phosphosulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.04 * +EC3.6.2.1 adenosine 5'-phosphosulfate comamonas terrigena//*//* 9.0 * +EC3.6.2.1 adenosine 5'-phosphosulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.6.2.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.6.2.1 bis(4-nitrophenyl)phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.4 * +EC3.6.2.1 phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.6.2.2 3'-phosphoadenylylsulfate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC3.6.2.2 3'-phosphoadenylylsulfate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.045 * +EC3.6.3.1 acetyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.03 * +EC3.6.3.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.038 * +EC3.6.3.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.878 * +EC3.6.3.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.211 * +EC3.6.3.1 p-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.17 * +EC3.6.3.10 atp cavia porcellus//*//* 0.0245 * +EC3.6.3.10 k+ mesocricetus auratus//*//* 0.34 * +EC3.6.3.10 k+ necturus maculosus//*//* 0.3 * +EC3.6.3.11 atp aplysia californica//*//* 1.6 * +EC3.6.3.11 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC3.6.3.11 cl- aplysia californica//*//* 9.6 * +EC3.6.3.11 cl- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.4 * +EC3.6.3.12 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.013 * +EC3.6.3.12 k+ alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.002 * +EC3.6.3.12 k+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC3.6.3.12 k+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.025 * +EC3.6.3.12 mgatp2- alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.08 * +EC3.6.3.12 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC3.6.3.14 adp bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.013 * +EC3.6.3.14 adp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.57 * +EC3.6.3.14 atp acetabularia acetabulum//*//* 0.2 * +EC3.6.3.14 atp acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 1.8 * +EC3.6.3.14 atp bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.9 * +EC3.6.3.14 atp bacillus sp. ps3//*//* 0.00104 * +EC3.6.3.14 atp bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.48 * +EC3.6.3.14 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.315 * +EC3.6.3.14 atp clostridium paradoxum//*//* 0.5 * +EC3.6.3.14 atp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.5 * +EC3.6.3.14 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC3.6.3.14 atp euglena gracilis//*//* 0.097 * +EC3.6.3.14 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.0 * +EC3.6.3.14 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC3.6.3.14 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.11 * +EC3.6.3.14 mgatp2- phycomyces blakesleeanus//*//* 0.15 * +EC3.6.3.14 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.78 * +EC3.6.3.14 phosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.55 * +EC3.6.3.15 atp acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.4 * +EC3.6.3.15 atp clostridium paradoxum//*//* 0.5 * +EC3.6.3.15 atp dunaliella maritima//*//* 11.7 * +EC3.6.3.15 atp enterococcus hirae//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ehr 0.5 * +EC3.6.3.15 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.63 * +EC3.6.3.15 li+/in enterococcus hirae//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ehr 0.06 * +EC3.6.3.15 na+/in enterococcus hirae//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ehr 0.002 * +EC3.6.3.15 na+/out acetobacterium woodii//prokaryotes;bacteria;firmicutes - clostridia;acetobacterium//awo 0.4 * +EC3.6.3.16 arsenite escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC3.6.3.16 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.021 * +EC3.6.3.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC3.6.3.16 sb3+ caenorhabditis elegans//eukaryotes;animals;nematodes//cel 4e-05 * +EC3.6.3.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.65 * +EC3.6.3.19 atp alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.33 * +EC3.6.3.19 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.143 * +EC3.6.3.19 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC3.6.3.19 atp thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.162 * +EC3.6.3.19 maltose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.00091 * +EC3.6.3.19 maltose bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0005 * +EC3.6.3.2 atp mytilus galloprovincialis//*//* 1.5 * +EC3.6.3.2 co2+ bacillus firmus//*//* 0.08 * +EC3.6.3.2 co2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC3.6.3.2 co2+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.02 * +EC3.6.3.2 mg2+ bacillus firmus//*//* 0.05 * +EC3.6.3.2 mg2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC3.6.3.2 mg2+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.006 * +EC3.6.3.2 ni2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC3.6.3.2 ni2+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.002 * +EC3.6.3.21 alpha-aminoadipic acid penicillium chrysogenum//*//* 0.23 * +EC3.6.3.21 alpha-aminoisobutyric acid rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.000807 * +EC3.6.3.21 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC3.6.3.21 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 8.0 * +EC3.6.3.21 l-alanine rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.000509 * +EC3.6.3.21 l-glutamate rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.0002 * +EC3.6.3.21 l-glutamine/out arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.041 * +EC3.6.3.21 l-histidine rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.0002 * +EC3.6.3.21 l-leucine rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.000515 * +EC3.6.3.22 alpha-aminoadipic acid penicillium chrysogenum//*//* 0.8 * +EC3.6.3.23 atp mycoplasma hominis//prokaryotes;bacteria;tenericutes;mycoplasma//mho 0.18 * +EC3.6.3.24 ni2+ thermoanaerobacter kivui//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tki 0.0023 * +EC3.6.3.25 atp alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 1.4 * +EC3.6.3.26 nitrate synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.001 * +EC3.6.3.26 nitrate/out medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.16 * +EC3.6.3.26 nitrate/out oryza sativa//eukaryotes;plants;monocots;grass family//osa 3.1 * +EC3.6.3.26 nitrite synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.001 * +EC3.6.3.27 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0239 * +EC3.6.3.27 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0715 * +EC3.6.3.27 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.654 * +EC3.6.3.27 ctp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.13 * +EC3.6.3.27 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.211 * +EC3.6.3.27 phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.077 * +EC3.6.3.27 phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.3 * +EC3.6.3.27 phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC3.6.3.27 phosphate serendipita indica//*//* 0.025 * +EC3.6.3.27 phosphate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.0002 * +EC3.6.3.27 phosphate/out arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0031 * +EC3.6.3.27 phosphate/out chrysanthemum x morifolium//*//* 0.0352 * +EC3.6.3.27 phosphate/out hordeum vulgare//*//* 0.0019 * +EC3.6.3.27 phosphate/out medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 0.192 * +EC3.6.3.27 phosphate/out oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.023 * +EC3.6.3.27 phosphate/out solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.023 * +EC3.6.3.27 phosphate/out solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.13 * +EC3.6.3.29 molybdate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2e-05 * +EC3.6.3.29 moo42- bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 5e-05 * +EC3.6.3.29 moo42- clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.048 * +EC3.6.3.29 moo42- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.5e-05 * +EC3.6.3.3 cd2+/out oncorhynchus mykiss//*//* 0.00086 * +EC3.6.3.30 fe3+ haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0009 * +EC3.6.3.31 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC3.6.3.31 putrescine/out escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC3.6.3.31 spermidine/out escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC3.6.3.32 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.25 * +EC3.6.3.32 atp lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.0 * +EC3.6.3.32 betaine aphanothece halophytica//*//* 0.00832 * +EC3.6.3.32 betaine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0017 * +EC3.6.3.32 glycine betaine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0024 * +EC3.6.3.32 glycine betaine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0025 * +EC3.6.3.32 glycine betaine listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.0012 * +EC3.6.3.32 glycine betaine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.0037 * +EC3.6.3.33 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.053 * +EC3.6.3.35 mn2+ streptococcus gordonii//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sgo 0.1 * +EC3.6.3.35 mn2+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.0 * +EC3.6.3.39 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.117 * +EC3.6.3.39 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.495 * +EC3.6.3.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0036 * +EC3.6.3.43 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC3.6.3.43 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.6.3.43 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.6 * +EC3.6.3.43 rrynastel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000574 * +EC3.6.3.43 rryqkstel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000161 * +EC3.6.3.44 17beta-glucuronosyl [6,7-3h]oestradiol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC3.6.3.44 2,4-dinitrophenyl s-glutathione/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0057 * +EC3.6.3.44 2,5-dimethoxy-4-iodoamphetamine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.6.3.44 3,4-methylenedioxy-alpha-ethylphenethylamine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.6.3.44 3,6-bis(dimethylamino)-9-phenyl-selenoxanthylium bromide mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.074 * +EC3.6.3.44 8-azido-atp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.11 * +EC3.6.3.44 [1,2,6,7-3h(n)]dehydroepiandrosterone-3-sulfate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0346 * +EC3.6.3.44 aflatoxin b1-epoxide-gsh conjugate/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000189 * +EC3.6.3.44 atp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.48 * +EC3.6.3.44 atp helicoverpa armigera//*//* 0.5 * +EC3.6.3.44 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0009 * +EC3.6.3.44 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC3.6.3.44 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.14 * +EC3.6.3.44 atp poeciliopsis lucida//*//* 0.4 * +EC3.6.3.44 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0019 * +EC3.6.3.44 beta-estradiol 17-beta-d-glucuronide drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.344 * +EC3.6.3.44 calcein/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0031 * +EC3.6.3.44 colchicine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC3.6.3.44 cyclic guanosine monophosphate/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.63 * +EC3.6.3.44 cyclo(d-trp-d-asp-l-pro-d-val-l-leu)/in rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC3.6.3.44 cyclosporine a/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.6.3.44 daunorubicin/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC3.6.3.44 daunorubicin/in mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0063 * +EC3.6.3.44 dexamethasone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.394 * +EC3.6.3.44 digoxin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.076 * +EC3.6.3.44 digoxin/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.101 * +EC3.6.3.44 doxorubicin/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00085 * +EC3.6.3.44 doxorubicin/in streptomyces peucetius//*//* 0.00039 * +EC3.6.3.44 e217betag homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC3.6.3.44 epsilon-atp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 1.3 * +EC3.6.3.44 estradiol 17-beta-d-glucuronide/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0256 * +EC3.6.3.44 ethidium bromide/in streptomyces peucetius//*//* 0.021 * +EC3.6.3.44 etoposide/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0057 * +EC3.6.3.44 etoposide/in mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0044 * +EC3.6.3.44 glaucine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0071 * +EC3.6.3.44 glycocholate/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.248 * +EC3.6.3.44 gssg/in rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.111 * +EC3.6.3.44 hoechst 33342/in streptomyces peucetius//*//* 0.00078 * +EC3.6.3.44 leukotriene c4 drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.231 * +EC3.6.3.44 leukotriene c4/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.6e-05 * +EC3.6.3.44 leukotriene c4/in mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.5e-05 * +EC3.6.3.44 leukotriene c4/in rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00025 * +EC3.6.3.44 methotrexate/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC3.6.3.44 n-(1-phenylcyclohexyl)-3-ethoxypropanamine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC3.6.3.44 n-(2'-deoxy-beta-d-ribofuranosyl)-5-cyclohexyl-1h-indole/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC3.6.3.44 n-ethylmaleimide s-glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.3 * +EC3.6.3.44 n-isopropyl-1,2-diphenylethylamine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0046 * +EC3.6.3.44 n-methyl-n-(9-phenyl-2,3,6,7-tetrahydro-1h,5h,12h-pyrido[3,2,1-ij]thiochromeno[2,3-f]quinolin-12-ylidene)methanaminium hexafluorophosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.078 * +EC3.6.3.44 nicardipine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC3.6.3.44 nicardipine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000383 * +EC3.6.3.44 paclitaxel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.6.3.44 paclitaxel/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000665 * +EC3.6.3.44 progesterone/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00377 * +EC3.6.3.44 quinidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00788 * +EC3.6.3.44 rhodamine 123 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.01 * +EC3.6.3.44 rhodamine 123/in cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0135 * +EC3.6.3.44 rhodamine 123/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0118 * +EC3.6.3.44 rhodamine b homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC3.6.3.44 rhodamine b/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0109 * +EC3.6.3.44 sertraline/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC3.6.3.44 tetramethylrhodamine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0003 * +EC3.6.3.44 valinomycin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.6.3.44 verapamil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC3.6.3.44 verapamil/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000614 * +EC3.6.3.44 vinblastine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC3.6.3.44 vinblastine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC3.6.3.44 vincristine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC3.6.3.44 vincristine/in homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0055 * +EC3.6.3.44 vincristine/in mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0042 * +EC3.6.3.46 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC3.6.3.46 bilirubin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.68e-05 * +EC3.6.3.46 estradiol-beta-17-glucuronide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.394 * +EC3.6.3.46 glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 15.0 * +EC3.6.3.46 leukotriene c4 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.000758 * +EC3.6.3.49 adp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.28 * +EC3.6.3.49 adp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.45 * +EC3.6.3.49 amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC3.6.3.49 amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.6.3.49 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00331 * +EC3.6.3.49 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.03 * +EC3.6.3.49 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.15 * +EC3.6.3.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0026 * +EC3.6.3.5 cd(thiolate)2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.115 * +EC3.6.3.5 cd2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0031 * +EC3.6.3.5 co2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC3.6.3.5 cu2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0034 * +EC3.6.3.5 ni2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC3.6.3.5 pb(thiolate)2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.118 * +EC3.6.3.5 pb2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC3.6.3.5 zn(thiolate)2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.109 * +EC3.6.3.5 zn2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0051 * +EC3.6.3.5 zn2+ homarus americanus//*//* 0.0148 * +EC3.6.3.5 zn2+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.024 * +EC3.6.3.50 atp pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.114 * +EC3.6.3.50 atp xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.0891 * +EC3.6.3.50 mgatp aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.22 * +EC3.6.3.53 ag+ oncorhynchus mykiss//*//* 0.0626 * +EC3.6.3.54 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.25 * +EC3.6.3.54 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC3.6.3.54 cu+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC3.6.3.54 cu+[side 1] thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.0031 * +EC3.6.3.6 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.0 * +EC3.6.3.6 atp avena sativa//*//* 0.3 * +EC3.6.3.6 atp coffea arabica//*//* 1.24 * +EC3.6.3.6 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.8 * +EC3.6.3.6 atp pneumocystis carinii//*//* 0.434 * +EC3.6.3.6 atp populus euphratica//*//* 0.65 * +EC3.6.3.6 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.161 * +EC3.6.3.6 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.0 * +EC3.6.3.6 mgatp2- beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 1.5 * +EC3.6.3.6 mgatp2- schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.6 * +EC3.6.3.6 vanadate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.064 * +EC3.6.3.7 atp aphanothece halophytica//*//* 1.2 * +EC3.6.3.7 atp enterococcus hirae//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ehr 0.029 * +EC3.6.3.7 k+ ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.0005 * +EC3.6.3.7 li+/in enterococcus hirae//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ehr 0.06 * +EC3.6.3.7 na+ aphanothece halophytica//*//* 25.0 * +EC3.6.3.7 na+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.0 * +EC3.6.3.7 na+ ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 0.0005 * +EC3.6.3.7 na+/in aphanothece halophytica//*//* 2.0 * +EC3.6.3.7 na+/in enterococcus hirae//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ehr 0.02 * +EC3.6.3.8 atp canis lupus familiaris//*//* 0.03 * +EC3.6.3.8 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.1e-05 * +EC3.6.3.8 atp paramecium tetraurelia//eukaryotes;protists;alveolates;ciliates//ptm 0.075 * +EC3.6.3.8 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC3.6.3.8 atp sepioteuthis sepioidea//*//* 0.021 * +EC3.6.3.8 atp uncultured bacterium//*//* 0.1 * +EC3.6.3.8 ca2+ canis lupus familiaris//*//* 0.0003 * +EC3.6.3.8 ca2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3e-05 * +EC3.6.3.8 ca2+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0003 * +EC3.6.3.8 ca2+ sepioteuthis sepioidea//*//* 0.0002 * +EC3.6.3.8 ca2+/cis rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00071 * +EC3.6.3.8 sr2+ oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.035 * +EC3.6.3.8 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.7e-05 * +EC3.6.3.9 atp clibanarius vittatus//*//* 1.5 * +EC3.6.3.9 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC3.6.3.9 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.00151 * +EC3.6.3.9 atp xiphopenaeus kroyeri//*//* 0.03 * +EC3.6.3.9 k+ callinectes danae//*//* 1.65 * +EC3.6.3.9 k+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.7 * +EC3.6.3.9 k+/out electrophorus electricus//*//* 0.46 * +EC3.6.3.9 na+ callinectes danae//*//* 3.47 * +EC3.6.3.9 na+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.1 * +EC3.6.3.9 na+/in callinectes sapidus//*//* 8.6 * +EC3.6.3.9 na+/in electrophorus electricus//*//* 7.47 * +EC3.6.3.9 na+/in rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC3.6.3.B1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC3.6.4.1 actin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00028 * +EC3.6.4.1 actin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.7e-07 * +EC3.6.4.1 atp acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.428 * +EC3.6.4.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0001 * +EC3.6.4.1 atp dictyostelium sp.//*//* 0.02 * +EC3.6.4.1 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0014 * +EC3.6.4.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC3.6.4.1 atp mammalia//*//* 0.008 * +EC3.6.4.1 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0009 * +EC3.6.4.1 ctp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.11 * +EC3.6.4.1 gtp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.5 * +EC3.6.4.1 itp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC3.6.4.1 ttp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC3.6.4.1 utp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.2 * +EC3.6.4.10 adp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.31 * +EC3.6.4.10 atp agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.062 * +EC3.6.4.10 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0005 * +EC3.6.4.10 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9e-05 * +EC3.6.4.10 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC3.6.4.10 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0004 * +EC3.6.4.10 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.62 * +EC3.6.4.10 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.008 * +EC3.6.4.10 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.51 * +EC3.6.4.10 atp synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.43 * +EC3.6.4.13 atp hepatitis c virus//*//* 0.0001 * +EC3.6.4.13 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0157 * +EC3.6.4.13 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.34 * +EC3.6.4.13 atp west nile virus//*//* 0.0095 * +EC3.6.4.13 gtp west nile virus//*//* 0.35 * +EC3.6.4.13 rna bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.000156 * +EC3.6.4.2 atp anthocidaris crassispina//*//* 12.0 * +EC3.6.4.2 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.033 * +EC3.6.4.2 atp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.0321 * +EC3.6.4.2 atp hemicentrotus pulcherrimus//*//* 12.0 * +EC3.6.4.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC3.6.4.2 atp lytechinus pictus//*//* 0.02 * +EC3.6.4.2 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 200.0 * +EC3.6.4.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0262 * +EC3.6.4.2 atp tetrahymena pyriformis//*//* 0.01 * +EC3.6.4.2 atp tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 1.7 * +EC3.6.4.2 atp tripneustes gratilla//*//* 0.001 * +EC3.6.4.2 microtubule saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00059 * +EC3.6.4.3 atp caenorhabditis elegans//eukaryotes;animals;nematodes//cel 1.53 * +EC3.6.4.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC3.6.4.3 gst-spg-4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC3.6.4.4 alexa fluor 647 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.032 * +EC3.6.4.4 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.12 * +EC3.6.4.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00101 * +EC3.6.4.4 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00634 * +EC3.6.4.4 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.004 * +EC3.6.4.4 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.09 * +EC3.6.4.4 methylanthraniloyl-atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC3.6.4.5 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00022 * +EC3.6.4.5 atp eremothecium gossypii//*//* 0.0016 * +EC3.6.4.5 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC3.6.4.5 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.059 * +EC3.6.4.6 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.62 * +EC3.6.4.8 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC3.6.4.8 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.477 * +EC3.6.4.8 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC3.6.4.8 ctp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.307 * +EC3.6.4.9 atp aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 10.04 * +EC3.6.4.9 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.115 * +EC3.6.4.9 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC3.6.4.9 atp pisum sativum//*//* 0.1 * +EC3.6.4.9 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.74 * +EC3.6.4.B7 atp pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 49.0 * +EC3.6.4.B8 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.025 * +EC3.6.5.1 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0036 * +EC3.6.5.1 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC3.6.5.1 gtp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0008 * +EC3.6.5.3 atp saccharomyces carlsbergensis//*//* 0.12 * +EC3.6.5.3 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.2 * +EC3.6.5.3 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0008 * +EC3.6.5.3 gtp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0009 * +EC3.6.5.4 gtp acidianus ambivalens//*//* 0.0137 * +EC3.6.5.4 gtp canis lupus familiaris//*//* 0.003 * +EC3.6.5.4 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC3.6.5.4 gtp mycoplasma mycoides//prokaryotes;bacteria;tenericutes;mycoplasma//mmy 0.003 * +EC3.6.5.4 gtp streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.00081 * +EC3.6.5.5 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.6.5.5 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC3.6.5.5 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0034 * +EC3.6.5.5 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0253 * +EC3.6.5.5 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC3.6.5.6 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.008 * +EC3.6.5.6 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC3.6.5.6 gtp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.042 * +EC3.7.1.1 (2r,3s)-2,3-dimethylmalate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.14 * +EC3.7.1.1 (2r,3s)-2-ethyl-3-methylmalate dianthus caryophyllus//*//* 0.53 * +EC3.7.1.1 mn2+ aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.004 * +EC3.7.1.1 oxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.17 * +EC3.7.1.1 oxaloacetate botrytis cinerea//eukaryotes;fungi;ascomycetes;leotiomycetes//bfu 0.062 * +EC3.7.1.1 oxaloacetate cryphonectria parasitica//*//* 0.134 * +EC3.7.1.1 oxaloacetate dianthus caryophyllus//*//* 0.13 * +EC3.7.1.1 oxaloacetate streptomyces cattleya//prokaryotes;bacteria;actinobacteria;streptomyces//sct 1.0 * +EC3.7.1.10 cyclohexane-1,3-dione clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.044 * +EC3.7.1.10 cyclohexane-1,3-dione pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.07 * +EC3.7.1.11 cyclohexane-1,2-dione azoarcus sp.//prokaryotes;bacteria;betaproteobacteria;azoarcus//azo 0.0133 * +EC3.7.1.13 2-hydroxy-6-oxo-6-(2'-aminophenyl)hexa-2,4-dienoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0046 * +EC3.7.1.13 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate janthinobacterium sp. j3//*//* 0.00273 * +EC3.7.1.13 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate pseudomonas resinovorans//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pre 0.00251 * +EC3.7.1.14 (2e,4z)-2-hydroxy-6-oxonona-2,4-dienedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0068 * +EC3.7.1.14 2-hydroxy-6-keto-6-phenylhexa-2,4-dienoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0238 * +EC3.7.1.17 2-hydroxy-6-oxo-6-phenyl-2,4-hexadienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.019 * +EC3.7.1.17 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.008 * +EC3.7.1.17 4,5-9,10-diseco-3-hydroxy-5,9,17-tri-oxoandrosta-1(10),2-diene-4-oic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.017 * +EC3.7.1.17 8-(2-chlorophenyl)-2-hydroxy-5-methyl-6-oxoocta-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.31 * +EC3.7.1.18 6-oxocamphor rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.04 * +EC3.7.1.19 2,6-dihydroxypseudooxynicotine paenarthrobacter nicotinovorans//*//* 0.006 * +EC3.7.1.2 3,5-hexanedioate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.27 * +EC3.7.1.2 3-phenylpropionopyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC3.7.1.2 4-fumarylacetoacetate rhodotorula diobovata//*//* 0.0014 * +EC3.7.1.2 5-phenyl-3,5-pentanedioate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.89 * +EC3.7.1.2 6,6-dimethyl-3,5-heptanedioate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC3.7.1.2 acetopyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.47 * +EC3.7.1.2 benzoylpyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC3.7.1.2 butyropyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.31 * +EC3.7.1.2 fumarylacetoacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.021 * +EC3.7.1.2 pivalopyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.64 * +EC3.7.1.2 propionopyruvate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.47 * +EC3.7.1.2 triacetic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.38 * +EC3.7.1.21 6-oxocyclohex-1-ene-1-carbonyl-coa geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.07 * +EC3.7.1.21 6-oxocyclohex-1-ene-1-carbonyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.115 * +EC3.7.1.23 3-maleylpyruvate pseudomonas alcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//palc 0.014 * +EC3.7.1.3 3-bromo-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.0 * +EC3.7.1.3 3-hydroxy-dl-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0283 * +EC3.7.1.3 3-hydroxy-l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC3.7.1.3 3-hydroxy-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.2 * +EC3.7.1.3 3-hydroxy-l-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC3.7.1.3 3-hydroxykynurenine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.0039 * +EC3.7.1.3 3-hydroxykynurenine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.003 * +EC3.7.1.3 3-hydroxykynurenine penicillium roqueforti//*//* 0.0046 * +EC3.7.1.3 3-hydroxykynurenine rhizopus stolonifer//*//* 0.0067 * +EC3.7.1.3 4-fluoro-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.067 * +EC3.7.1.3 5-bromo-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.011 * +EC3.7.1.3 5-fluoro-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.048 * +EC3.7.1.3 beta-benzoyl-l-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.008 * +EC3.7.1.3 beta-benzoyl-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.16 * +EC3.7.1.3 gamma-(o-aminophenyl)-l-homoserine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.067 * +EC3.7.1.3 kynurenine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.08 * +EC3.7.1.3 kynurenine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.006 * +EC3.7.1.3 kynurenine penicillium roqueforti//*//* 0.01 * +EC3.7.1.3 kynurenine rhizopus stolonifer//*//* 0.025 * +EC3.7.1.3 l-3-hydroxykynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.077 * +EC3.7.1.3 l-3-hydroxykynurenine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.035 * +EC3.7.1.3 l-3-hydroxykynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.05 * +EC3.7.1.3 l-3-hydroxykynurenine pseudomonas marginalis//*//* 0.2 * +EC3.7.1.3 l-3-hydroxykynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC3.7.1.3 l-3-hydroxykynurenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.54 * +EC3.7.1.3 l-3-hydroxykynurenine suncus murinus//*//* 0.018 * +EC3.7.1.3 l-3-hydroxykynurenine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC3.7.1.3 l-3-hydroxykynurenine xanthomonas arboricola pv. pruni//*//* 0.22 * +EC3.7.1.3 l-alanine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 11.0 * +EC3.7.1.3 l-kynurenine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.495 * +EC3.7.1.3 l-kynurenine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.018 * +EC3.7.1.3 l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.025 * +EC3.7.1.3 l-kynurenine pseudomonas marginalis//*//* 0.035 * +EC3.7.1.3 l-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC3.7.1.3 l-kynurenine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0067 * +EC3.7.1.3 l-kynurenine suncus murinus//*//* 0.25 * +EC3.7.1.3 l-kynurenine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC3.7.1.3 l-kynurenine xanthomonas arboricola pv. pruni//*//* 0.018 * +EC3.7.1.3 l-ornithine neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 40.0 * +EC3.7.1.3 n'-formyl-l-kynurenine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.2 * +EC3.7.1.3 n'-formyl-l-kynurenine pseudomonas marginalis//*//* 2.2 * +EC3.7.1.3 pyridoxal 5'-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0018 * +EC3.7.1.4 3'-methylphloracetophenone aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.15 * +EC3.7.1.4 cellobiose platyrrhini//*//* 2.78 * +EC3.7.1.4 lactose platyrrhini//*//* 21.8 * +EC3.7.1.4 lactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 16.0 * +EC3.7.1.4 phloretin aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.3 * +EC3.7.1.4 phloretin pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.038 * +EC3.7.1.4 phlorizin platyrrhini//*//* 0.4 * +EC3.7.1.4 pyridoxine-5'-beta-d-glucoside rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC3.7.1.5 2,4-dioxoheptanoate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.007 * +EC3.7.1.5 2,4-dioxohexanoate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.007 * +EC3.7.1.5 2,4-dioxovalerate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.011 * +EC3.7.1.5 3-formylpyruvate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.002 * +EC3.7.1.6 acetylpyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC3.7.1.7 bicyclo[2.2.2]octane-2,6-dione nostoc sp. pcc 7120//prokaryotes;bacteria;cyanobacteria;nostoc//ana 4.4e-06 * +EC3.7.1.7 oxidized polyvinyl alcohol sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.2 * +EC3.7.1.7 p-nitrophenyl acetate sphingomonas sp.//prokaryotes;bacteria;alphaproteobacteria;sphingomonas//sphm 0.3 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-(4-chlorophenyl)-6-oxohexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00013 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-(4-chlorophenyl)-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.00065 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00019 * +EC3.7.1.8 (2e,4e)-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.00047 * +EC3.7.1.8 (2e,4e)-6-(2-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00033 * +EC3.7.1.8 (2e,4e)-6-(2-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.0129 * +EC3.7.1.8 (2e,4e)-6-(3,4-dichlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.00075 * +EC3.7.1.8 (2e,4e)-6-(3,5-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.00104 * +EC3.7.1.8 (2e,4e)-6-(3-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00046 * +EC3.7.1.8 (2e,4e)-6-(3-chlorophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.00043 * +EC3.7.1.8 (2e,4z)-2,4-dihydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00095 * +EC3.7.1.8 (2e,4z)-2,4-dihydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.0044 * +EC3.7.1.8 (2e,4z)-4-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.0036 * +EC3.7.1.8 (2e,4z)-4-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.004 * +EC3.7.1.8 (2e,4z)-5-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.0049 * +EC3.7.1.8 (2e,4z)-5-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.018 * +EC3.7.1.8 (2z,4e)-3-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.00054 * +EC3.7.1.8 (2z,4e)-3-chloro-2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid rhodococcus globerulus//*//* 0.0069 * +EC3.7.1.8 2,6-dioxo-6-phenylhexa-3-enoate dyella ginsengisoli//*//* 0.00075 * +EC3.7.1.8 2-hydroxy-6-oxo-6-(2-aminophenyl)hexa-2,4-dienoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0046 * +EC3.7.1.8 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.00071 * +EC3.7.1.8 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.008 * +EC3.7.1.8 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.0003 * +EC3.7.1.8 8-(2-chlorophenyl)-2-hydroxy-5-methyl-6-oxoocta-2,4-dienoic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.31 * +EC3.7.1.8 ethyl-2-acetoxy-6-keto-6-phenylhexa-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.002 * +EC3.7.1.8 meta-ring fission intermediate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC3.7.1.8 meta-ring fission intermediate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.002 * +EC3.7.1.9 1h-3-hydroxy-4-oxoquinaldine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.027 * +EC3.7.1.9 2-hydroxy-5-methylmuconic semialdehyde flavobacterium sp.//*//* 0.0074 * +EC3.7.1.9 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.00074 * +EC3.7.1.9 2-hydroxy-6-oxo-7-methylocta-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0073 * +EC3.7.1.9 2-hydroxy-6-oxo-7-methylocta-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.022 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0012 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate flavobacterium sp.//*//* 0.0048 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0089 * +EC3.7.1.9 2-hydroxy-6-oxohepta-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.017 * +EC3.7.1.9 2-hydroxy-6-oxoocta-2,4-dienoate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0095 * +EC3.7.1.9 2-hydroxy-6-oxoocta-2,4-dienoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.015 * +EC3.7.1.9 2-hydroxymuconic semialdehyde cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.36 * +EC3.7.1.9 2-hydroxymuconic semialdehyde flavobacterium sp.//*//* 0.0057 * +EC3.7.1.9 3-methylcatechol ring-fission product pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0136 * +EC3.7.1.9 catechol ring-fission product pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.085 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 3-allylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 3-ethylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.015 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 3-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.036 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 3-propylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.005 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 4-chlorocatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.122 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 4-ethylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.022 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 4-methylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.01 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon 4-propylcatechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.023 * +EC3.7.1.9 meta-cleavage product resulting from the action of catechol 2,3-oxygenase upon catechol pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC3.8.1.10 d-2-chloropropionate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.2 * +EC3.8.1.10 dl-2-chloropropionate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.2 * +EC3.8.1.10 l-2-chloropropionate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.9 * +EC3.8.1.10 monochloroacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.8 * +EC3.8.1.2 (s)-2-chloropropionic acid sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.2 * +EC3.8.1.2 2-monochloropropionic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.5 * +EC3.8.1.2 dichloroacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.3 * +EC3.8.1.2 l-2-bromobutanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.7 * +EC3.8.1.2 l-2-bromohexanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.41 * +EC3.8.1.2 l-2-bromopropionate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 2.1 * +EC3.8.1.2 l-2-chloropropionate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 19.5 * +EC3.8.1.2 l-2-chloropropionate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.8 * +EC3.8.1.2 l-2-chloropropionate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.37 * +EC3.8.1.2 l-2-chloropropionate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 1.7 * +EC3.8.1.2 monobromoacetate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.13 * +EC3.8.1.2 monobromoacetic acid pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.15 * +EC3.8.1.2 monochloroacetate azotobacter sp.//*//* 0.1 * +EC3.8.1.2 monochloroacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC3.8.1.2 monochloroacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC3.8.1.3 chloroacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.0 * +EC3.8.1.3 fluoroacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.8 * +EC3.8.1.3 monochloroacetate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 0.33 * +EC3.8.1.3 monochloroacetate azotobacter sp.//*//* 0.18 * +EC3.8.1.3 monofluoroacetate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC3.8.1.3 monofluoroacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC3.8.1.3 monoiodoacetate moraxella sp.//*//* 1.1 * +EC3.8.1.3 monoiodoacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC3.8.1.5 1,2,3-tribromopropane rhodococcus rhodochrous//*//* 0.3 * +EC3.8.1.5 1,2,3-trichloropropane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.28 * +EC3.8.1.5 1,2,3-trichloropropane rhodococcus rhodochrous//*//* 2.2 * +EC3.8.1.5 1,2,3-trichloropropane sphingobium japonicum//prokaryotes;bacteria;alphaproteobacteria;sphingobium//sjp 0.073 * +EC3.8.1.5 1,2-dibromoethane plesiocystis pacifica//*//* 1.57 * +EC3.8.1.5 1,2-dibromoethane rhodococcus rhodochrous//*//* 4.0 * +EC3.8.1.5 1,2-dibromoethane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.01 * +EC3.8.1.5 1,2-dibromopropane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 1.8 * +EC3.8.1.5 1,2-dibromopropane plesiocystis pacifica//*//* 1.96 * +EC3.8.1.5 1,2-dibromopropane rhodococcus rhodochrous//*//* 1.0 * +EC3.8.1.5 1,2-dibromopropane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.29 * +EC3.8.1.5 1,2-dichloroethane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.001 * +EC3.8.1.5 1,2-dichloropropane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 12.88 * +EC3.8.1.5 1,3-dibromopropane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.15 * +EC3.8.1.5 1,3-dibromopropane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.22 * +EC3.8.1.5 1,3-dibromopropane mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 4.52 * +EC3.8.1.5 1,3-dibromopropane psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 5.77 * +EC3.8.1.5 1,3-dibromopropane rhodococcus rhodochrous//*//* 0.005 * +EC3.8.1.5 1,3-dibromopropane sphingomonas paucimobilis//*//* 0.04 * +EC3.8.1.5 1,3-dibromopropane uncultured marine bacterium//*//* 0.24 * +EC3.8.1.5 1,3-dichloropropane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.0 * +EC3.8.1.5 1,3-dichloropropane rhodococcus rhodochrous//*//* 0.63 * +EC3.8.1.5 1,3-diiodopropane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.2 * +EC3.8.1.5 1,5-dichloropentane sphingomonas paucimobilis//*//* 0.019 * +EC3.8.1.5 1-bromo-2-methylpropane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.15 * +EC3.8.1.5 1-bromo-2-methylpropane sphingomonas paucimobilis//*//* 0.05 * +EC3.8.1.5 1-bromobutane plesiocystis pacifica//*//* 24.0 * +EC3.8.1.5 1-bromobutane psychrobacter cryohalolentis//prokaryotes;bacteria;gammaproteobacteria - others;psychrobacter//pcr 3.83 * +EC3.8.1.5 1-bromobutane sphingomonas paucimobilis//*//* 0.043 * +EC3.8.1.5 1-bromobutane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.06 * +EC3.8.1.5 1-bromoheptane plesiocystis pacifica//*//* 0.75 * +EC3.8.1.5 1-bromohexane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.14 * +EC3.8.1.5 1-bromohexane plesiocystis pacifica//*//* 1.7 * +EC3.8.1.5 1-bromohexane sphingomonas paucimobilis//*//* 0.01 * +EC3.8.1.5 1-bromohexane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.3 * +EC3.8.1.5 1-bromopentane plesiocystis pacifica//*//* 2.51 * +EC3.8.1.5 1-bromopropane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.02 * +EC3.8.1.5 1-bromopropane plesiocystis pacifica//*//* 45.2 * +EC3.8.1.5 1-bromopropane rhodococcus rhodochrous//*//* 0.6 * +EC3.8.1.5 1-chlorobutane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.06 * +EC3.8.1.5 1-chlorobutane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 4.0 * +EC3.8.1.5 1-chlorobutane corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.18 * +EC3.8.1.5 1-chlorobutane mycobacterium bovis//prokaryotes;bacteria;actinobacteria;mycobacterium//mbo 0.16 * +EC3.8.1.5 1-chlorobutane rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.011 * +EC3.8.1.5 1-chlorobutane sphingomonas paucimobilis//*//* 1.18 * +EC3.8.1.5 1-chlorobutane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.07 * +EC3.8.1.5 1-chloroheptane sphingomonas paucimobilis//*//* 0.015 * +EC3.8.1.5 1-chlorohexane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.07 * +EC3.8.1.5 1-chlorohexane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.04 * +EC3.8.1.5 1-chlorohexane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.05 * +EC3.8.1.5 1-chlorohexane sphingomonas paucimobilis//*//* 0.005 * +EC3.8.1.5 1-chlorohexane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 1.41 * +EC3.8.1.5 1-chlorooctane sphingomonas paucimobilis//*//* 0.021 * +EC3.8.1.5 1-chloropentane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.05 * +EC3.8.1.5 1-chloropropane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.2 * +EC3.8.1.5 1-chloropropane rhodococcus rhodochrous//*//* 1.0 * +EC3.8.1.5 1-iodoethane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.2 * +EC3.8.1.5 1-iodohexane agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.63 * +EC3.8.1.5 1-iodohexane sphingomonas paucimobilis//*//* 0.01 * +EC3.8.1.5 1-iodopropane arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.08 * +EC3.8.1.5 2-bromoacetamide xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 19.95 * +EC3.8.1.5 2-bromoacetonitrile xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.5 * +EC3.8.1.5 2-bromoethanol rhodococcus rhodochrous//*//* 11.0 * +EC3.8.1.5 2-bromoethanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 11.0 * +EC3.8.1.5 2-chloroacetamide xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 100.0 * +EC3.8.1.5 2-chloroacetonitrile xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 6.31 * +EC3.8.1.5 2-chloroethanol xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 398.0 * +EC3.8.1.5 3-bromo-1-propanol rhodococcus rhodochrous//*//* 3.3 * +EC3.8.1.5 3-chloro-2-(chloromethyl)-1-propene sphingomonas paucimobilis//*//* 0.079 * +EC3.8.1.5 3-chloro-2-methylpropene bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.47 * +EC3.8.1.5 bromocyclohexane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.11 * +EC3.8.1.5 bromocyclohexane sphingomonas paucimobilis//*//* 0.021 * +EC3.8.1.5 chlorocyclohexane bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.04 * +EC3.8.1.5 dibromomethane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.4 * +EC3.8.1.5 dichloromethane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 100.0 * +EC3.8.1.5 epibromohydrine xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 2.19 * +EC3.8.1.5 epichlorohydrin xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 47.9 * +EC3.8.1.6 4-bromobenzoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.056 * +EC3.8.1.6 4-chlorobenzoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.12 * +EC3.8.1.6 4-iodobenzoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.086 * +EC3.8.1.7 2,4,5,6-tetrachloroisophthalonitrile pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.112 * +EC3.8.1.7 2,4-dichlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0104 * +EC3.8.1.7 3,4-dichlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.042 * +EC3.8.1.7 4-bromobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.036 * +EC3.8.1.7 4-bromobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0042 * +EC3.8.1.7 4-bromophenacyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.024 * +EC3.8.1.7 4-chloro-2-nitrobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.03 * +EC3.8.1.7 4-chloro-3-methylbenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.075 * +EC3.8.1.7 4-chloro-3-nitrobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0055 * +EC3.8.1.7 4-chlorobenzoyl-3'-dephospho-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC3.8.1.7 4-chlorobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.009 * +EC3.8.1.7 4-chlorobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0024 * +EC3.8.1.7 4-chlorobenzoyl-dithio-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.033 * +EC3.8.1.7 4-chlorobenzoyl-epsilon-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.31 * +EC3.8.1.7 4-chlorobenzoyl-pantetheine phosphate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.44 * +EC3.8.1.7 4-chlorobenzoyl-pantetheine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.07 * +EC3.8.1.7 4-fluorobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.04 * +EC3.8.1.7 4-iodobenzoyl-coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.014 * +EC3.8.1.7 4-iodobenzoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0065 * +EC3.8.1.8 2,4-diisopropylamino-6-hydroxy-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.029 * +EC3.8.1.8 2-(n-ethylamino)-4-hydroxy-6-(n-isopropylamino)-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC3.8.1.8 2-chloro-4-(n-ethylamino)-6-hydroxy-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.23 * +EC3.8.1.8 2-chloro-4-hydroxy-6-(n-isopropylamino)-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.12 * +EC3.8.1.8 6-hydroxy-4-(n-isopropylamino)-2-(n-methylamino)-1,3,5-triazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.04 * +EC3.8.1.8 ametryn paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 3.9 * +EC3.8.1.8 atrazine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.0238 * +EC3.8.1.8 atrazine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.049 * +EC3.8.1.8 atrazine paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 19.0 * +EC3.8.1.8 atrazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.149 * +EC3.8.1.8 atrazine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.153 * +EC3.8.1.8 hydroxyatrazine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC3.8.1.9 d-2-chloropropionate agrobacterium sp.//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//agr 1.9 * +EC3.8.1.9 dl-2-bromopropionate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.99 * +EC3.8.1.9 monochloroacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 27.5 * +EC3.9.1.1 phosphoramidate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC3.9.1.1 uridine-5'-phosphoro-benzylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC3.9.1.1 uridine-5'-phosphoro-beta-phenyl-isopropylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC3.9.1.1 uridine-5'-phosphoro-cyclohexylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.85 * +EC3.9.1.1 uridine-5'-phosphoro-dimethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.28 * +EC3.9.1.1 uridine-5'-phosphoro-isopropylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.75 * +EC3.9.1.1 uridine-5'-phosphoro-n-butylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.1 * +EC3.9.1.1 uridine-5'-phosphoro-p-aniline oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.8 * +EC3.9.1.1 uridine-5'-phosphoro-p-anisidine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.0 * +EC3.9.1.1 uridine-5'-phosphoro-trifluoroethylamine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.09 * +EC3.9.1.2 (n-omega-phospho arg)n rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.87 * +EC3.9.1.2 (nomega-phospho-arg-gly-glu)6 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.42 * +EC3.9.1.2 (nomega-phospho-arg-gly-phe)6 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.74 * +EC3.9.1.2 4-nitrophenyl phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 100.0 * +EC3.9.1.2 [culpeine]-nomega-phospho-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.87 * +EC3.9.1.2 [histone v]-nomega-phospho-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.51 * +EC3.9.1.2 [histone viii]-nomega-phospho-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.35 * +EC3.9.1.2 [salmine]-nomega-phospho-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.79 * +EC3.9.1.2 phospho-l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.34 * +EC4.1.1.1 2-keto-4-methylhexanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 40.0 * +EC4.1.1.1 2-ketobutanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 4.7 * +EC4.1.1.1 2-ketobutyrate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 2.86 * +EC4.1.1.1 2-ketobutyric acid populus deltoides//*//* 2.2 * +EC4.1.1.1 2-ketohexanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 12.7 * +EC4.1.1.1 2-ketopentanoic acid zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 7.6 * +EC4.1.1.1 2-ketovalerate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 12.9 * +EC4.1.1.1 2-oxoisocaproate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.42 * +EC4.1.1.1 2-oxoisopentanoate bacillus caldolyticus//*//* 1.27 * +EC4.1.1.1 2-oxoisovalerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 7.73 * +EC4.1.1.1 2-oxoisovalerate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.9 * +EC4.1.1.1 2-oxomethylvalerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 12.9 * +EC4.1.1.1 pyruvate acetobacter pasteurianus//prokaryotes;bacteria;alphaproteobacteria;acetobacter//apt 2.8 * +EC4.1.1.1 pyruvate bacillus caldolyticus//*//* 0.117 * +EC4.1.1.1 pyruvate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.8 * +EC4.1.1.1 pyruvate candida glabrata//eukaryotes;fungi;ascomycetes;saccharomycetes//cgr 0.8 * +EC4.1.1.1 pyruvate clostridium ventriculi//*//* 2.8 * +EC4.1.1.1 pyruvate gluconacetobacter diazotrophicus//prokaryotes;bacteria;alphaproteobacteria;gluconacetobacter//gdi 0.06 * +EC4.1.1.1 pyruvate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.74 * +EC4.1.1.1 pyruvate hanseniaspora uvarum//*//* 0.75 * +EC4.1.1.1 pyruvate ipomoea batatas//*//* 0.55 * +EC4.1.1.1 pyruvate kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.24 * +EC4.1.1.1 pyruvate populus deltoides//*//* 0.042 * +EC4.1.1.1 pyruvate pseudothermotoga hypogea//prokaryotes;bacteria;thermotogae;pseudothermotoga//phy 1.4 * +EC4.1.1.1 pyruvate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.1 * +EC4.1.1.1 pyruvate rhizopus oryzae//*//* 3.9 * +EC4.1.1.1 pyruvate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 12.2 * +EC4.1.1.1 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC4.1.1.1 pyruvate thermococcus guaymasensis//prokaryotes;archaea;euryarchaeota;thermococcus//tgy 0.25 * +EC4.1.1.1 pyruvate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.92 * +EC4.1.1.1 pyruvate triticum aestivum//*//* 3.0 * +EC4.1.1.1 pyruvate tritrichomonas suis//*//* 0.62 * +EC4.1.1.1 pyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.5 * +EC4.1.1.1 pyruvate zygosaccharomyces bisporus//*//* 1.73 * +EC4.1.1.1 pyruvate zymobacter palmae//*//* 2.5 * +EC4.1.1.1 pyruvate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.3 * +EC4.1.1.100 prephenate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.07 * +EC4.1.1.100 prephenate planktothrix agardhii//*//* 0.17 * +EC4.1.1.101 (s)-malate lactobacillus murinus//*//* 0.023 * +EC4.1.1.101 (s)-malate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 12.5 * +EC4.1.1.101 d-malate lactobacillus collinoides//*//* 8.3 * +EC4.1.1.101 dl-malate lactobacillus collinoides//*//* 8.0 * +EC4.1.1.101 l-malate lactobacillus collinoides//*//* 3.7 * +EC4.1.1.101 l-malate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 9.5 * +EC4.1.1.101 l-malate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 10.9 * +EC4.1.1.101 l-malate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 2.8 * +EC4.1.1.102 4-coumarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.79 * +EC4.1.1.102 ferulate enterobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ent 2.36 * +EC4.1.1.102 ferulate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.92 * +EC4.1.1.103 1,3-dihydroxybenzene agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 25.9 * +EC4.1.1.103 2,3-dihydroxybenzoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.12 * +EC4.1.1.103 2,6-dihydroxybenzoate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.08 * +EC4.1.1.11 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.151 * +EC4.1.1.11 l-aspartate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 2.04 * +EC4.1.1.11 l-aspartate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.8 * +EC4.1.1.12 aminomalonate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 3.0 * +EC4.1.1.12 beta-chloro-l-ala alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.063 * +EC4.1.1.12 erythro-beta-hydroxyaspartate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.024 * +EC4.1.1.12 l-asp achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.08 * +EC4.1.1.12 l-asp alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.68 * +EC4.1.1.12 l-asp alcaligenes sp.//*//* 150.0 * +EC4.1.1.12 l-asp cunninghamella elegans//*//* 25.0 * +EC4.1.1.12 l-asp penicillium citrinum//*//* 27.0 * +EC4.1.1.12 l-asp pseudomonas dacunhae//*//* 1.0 * +EC4.1.1.12 l-asp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 100.0 * +EC4.1.1.12 l-asp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.095 * +EC4.1.1.12 l-aspartate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.8 * +EC4.1.1.12 l-aspartate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.22 * +EC4.1.1.12 l-cysteinesulfinate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 4.8 * +EC4.1.1.12 threo-beta-hydroxyaspartate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.089 * +EC4.1.1.15 cysteine sulfinic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.2 * +EC4.1.1.15 l-alpha-methylglutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.04 * +EC4.1.1.15 l-cysteic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.4 * +EC4.1.1.15 l-glu aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 13.0 * +EC4.1.1.15 l-glu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC4.1.1.15 l-glu clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.6 * +EC4.1.1.15 l-glu cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 8.3 * +EC4.1.1.15 l-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC4.1.1.15 l-glu felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.6 * +EC4.1.1.15 l-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.28 * +EC4.1.1.15 l-glu hordeum vulgare//*//* 22.0 * +EC4.1.1.15 l-glu lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 9.3 * +EC4.1.1.15 l-glu monascus purpureus//*//* 1.15 * +EC4.1.1.15 l-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.7 * +EC4.1.1.15 l-glu neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.2 * +EC4.1.1.15 l-glu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.59 * +EC4.1.1.15 l-glu solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 5.6 * +EC4.1.1.15 l-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.174 * +EC4.1.1.15 l-glu vigna unguiculata//*//* 3.2 * +EC4.1.1.15 l-glutamate anopheles gambiae//eukaryotes;animals;arthropods;insects//aga 2.2 * +EC4.1.1.15 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.32 * +EC4.1.1.15 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.67 * +EC4.1.1.15 l-glutamate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.0 * +EC4.1.1.15 l-glutamate lactobacillus paracasei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lca 5.0 * +EC4.1.1.15 l-glutamate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0274 * +EC4.1.1.15 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC4.1.1.15 l-glutamate streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 2.3 * +EC4.1.1.17 alpha-methylornithine lactobacillus sp. 30a//*//* 0.092 * +EC4.1.1.17 arg trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.1 * +EC4.1.1.17 l-2,4-diaminobutanoate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.0 * +EC4.1.1.17 l-2,4-diaminobutanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.9 * +EC4.1.1.17 l-2,4-diaminobutanoate lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 1.0 * +EC4.1.1.17 l-2,4-diaminobutanoate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 4.9 * +EC4.1.1.17 l-lys tetrahymena pyriformis//*//* 0.5 * +EC4.1.1.17 l-lysine lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 7.2 * +EC4.1.1.17 l-lysine lactobacillus saerimneri 30a//*//* 10.3 * +EC4.1.1.17 l-lysine nicotiana glutinosa//*//* 1.59 * +EC4.1.1.17 l-lysine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 5.0 * +EC4.1.1.17 l-orn caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.0027 * +EC4.1.1.17 l-orn corchorus olitorius//*//* 0.1 * +EC4.1.1.17 l-orn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6 * +EC4.1.1.17 l-orn hordeum vulgare//*//* 0.36 * +EC4.1.1.17 l-orn lactobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//law 1.7 * +EC4.1.1.17 l-orn mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.07 * +EC4.1.1.17 l-orn neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.35 * +EC4.1.1.17 l-orn panagrellus redivivus//*//* 0.044 * +EC4.1.1.17 l-orn pelophylax nigromaculatus//*//* 0.44 * +EC4.1.1.17 l-orn physarum polycephalum//*//* 0.6 * +EC4.1.1.17 l-orn plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.052 * +EC4.1.1.17 l-orn rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC4.1.1.17 l-orn tetrahymena pyriformis//*//* 0.0047 * +EC4.1.1.17 l-orn tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.11 * +EC4.1.1.17 l-orn trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.109 * +EC4.1.1.17 l-orn trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.28 * +EC4.1.1.17 l-ornithine anastrepha fraterculus//*//* 207.0 * +EC4.1.1.17 l-ornithine erythroxylum coca//*//* 0.395 * +EC4.1.1.17 l-ornithine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC4.1.1.17 l-ornithine lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 1.0 * +EC4.1.1.17 l-ornithine lactobacillus gasseri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lga 7.2 * +EC4.1.1.17 l-ornithine lactobacillus saerimneri 30a//*//* 1.6 * +EC4.1.1.17 l-ornithine nicotiana glutinosa//*//* 0.56 * +EC4.1.1.17 l-ornithine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.7 * +EC4.1.1.17 l-ornithine phytomonas sp.//*//* 0.4 * +EC4.1.1.17 l-ornithine pseudomonas savastanoi pv. phaseolicola//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 0.19 * +EC4.1.1.17 l-ornithine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC4.1.1.17 l-ornithine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.122 * +EC4.1.1.17 l-ornithine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.5 * +EC4.1.1.17 l-ornithine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.37 * +EC4.1.1.17 lys trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.091 * +EC4.1.1.18 delta-hydroxylysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.0 * +EC4.1.1.18 l-2,4-diaminobutanoate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.3 * +EC4.1.1.18 l-lys bacterium cadaveris//*//* 0.37 * +EC4.1.1.18 l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC4.1.1.18 l-lys glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.17 * +EC4.1.1.18 l-lys hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 1.7 * +EC4.1.1.18 l-lys heimia salicifolia//*//* 1.25 * +EC4.1.1.18 l-lys lupinus polyphyllus//*//* 0.76 * +EC4.1.1.18 l-lys selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.63 * +EC4.1.1.18 l-lys vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 3.2 * +EC4.1.1.18 l-lysine burkholderia sp.//prokaryotes;bacteria;betaproteobacteria;burkholderia//bug 0.84 * +EC4.1.1.18 l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC4.1.1.18 l-lysine lactobacillus saerimneri 30a//*//* 12.7 * +EC4.1.1.18 l-lysine streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.058 * +EC4.1.1.18 l-orn selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.96 * +EC4.1.1.18 s-aminoethyl-l-cys bacterium cadaveris//*//* 4.5 * +EC4.1.1.18 s-aminoethyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC4.1.1.19 l-arg avena sativa//*//* 0.028 * +EC4.1.1.19 l-arg brassica rapa subsp. campestris//*//* 0.00031 * +EC4.1.1.19 l-arg chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 5.0 * +EC4.1.1.19 l-arg dianthus caryophyllus//*//* 0.077 * +EC4.1.1.19 l-arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.65 * +EC4.1.1.19 l-arg glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0461 * +EC4.1.1.19 l-arg lathyrus sativus//*//* 1.73 * +EC4.1.1.19 l-arg methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 4.7 * +EC4.1.1.19 l-arg mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.043 * +EC4.1.1.19 l-arg oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.28 * +EC4.1.1.19 l-arg paramecium bursaria chlorella virus-1//*//* 0.45 * +EC4.1.1.19 l-arg persea americana//*//* 1.85 * +EC4.1.1.19 l-arg pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.23 * +EC4.1.1.19 l-arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC4.1.1.19 l-arg trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5.0 * +EC4.1.1.19 l-arg yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.2 * +EC4.1.1.19 l-arginine avena sativa//*//* 0.11 * +EC4.1.1.19 l-arginine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.63 * +EC4.1.1.19 l-arginine chlamydia pneumoniae//prokaryotes;bacteria;chlamydiae;chlamydia//cpn 5.0 * +EC4.1.1.19 l-arginine chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.59 * +EC4.1.1.19 l-arginine clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.73 * +EC4.1.1.19 l-arginine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC4.1.1.19 l-arginine gramella forsetii//prokaryotes;bacteria;bacteroidetes;gramella//gfo 2.2 * +EC4.1.1.19 l-arginine selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 5.6 * +EC4.1.1.19 l-arginine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.2 * +EC4.1.1.19 l-canavanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC4.1.1.19 l-canavanine yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.233 * +EC4.1.1.19 l-lysine selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 50.0 * +EC4.1.1.19 l-n5-(iminoethyl)-ornithine yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 9.53 * +EC4.1.1.19 l-ornithine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 7.5 * +EC4.1.1.19 l-ornithine paramecium bursaria chlorella virus-1//*//* 46.0 * +EC4.1.1.19 ngamma-methyl-l-arginine yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.163 * +EC4.1.1.2 oxalate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.4 * +EC4.1.1.2 oxalate cavia porcellus//*//* 0.006 * +EC4.1.1.2 oxalate flammulina velutipes//*//* 4.5 * +EC4.1.1.20 d,d-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC4.1.1.20 dl-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.43 * +EC4.1.1.20 meso-2,6-diamininoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC4.1.1.20 meso-2,6-diamininoheptanedioate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 1.7 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.0 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.39 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate landoltia punctata//*//* 0.1 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.4 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate vicia faba//*//* 0.3 * +EC4.1.1.20 meso-2,6-diaminoheptanedioate zea mays//eukaryotes;plants;monocots;grass family//zma 0.166 * +EC4.1.1.21 1-(5-phosphoribosyl)-5-aminoimidazole gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.076 * +EC4.1.1.21 4-carboxy-5-aminoimidazole ribonucleotide treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.0038 * +EC4.1.1.21 5-aminoimidazole ribonucleotide treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.06 * +EC4.1.1.21 co2 treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 13.0 * +EC4.1.1.22 alpha-methyl-dl-his morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 5.8 * +EC4.1.1.22 l-his clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.3 * +EC4.1.1.22 l-his homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.27 * +EC4.1.1.22 l-his klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 2.2 * +EC4.1.1.22 l-his lactobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//law 0.7 * +EC4.1.1.22 l-his morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 1.1 * +EC4.1.1.22 l-his mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.26 * +EC4.1.1.22 l-his oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.33 * +EC4.1.1.22 l-his oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC4.1.1.22 l-his raoultella planticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;raoultella//rpln 2.4 * +EC4.1.1.22 l-his rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.078 * +EC4.1.1.22 l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC4.1.1.22 l-histidine lactobacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//law 0.3 * +EC4.1.1.22 l-histidine staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 1.1 * +EC4.1.1.22 l-histidine tetragenococcus muriaticus//*//* 0.74 * +EC4.1.1.23 2'-deoxyorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0054 * +EC4.1.1.23 4-thioorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC4.1.1.23 5-azaorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC4.1.1.23 5-fluoroorotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0008 * +EC4.1.1.23 orotidine 5'-monophosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0016 * +EC4.1.1.23 orotidine 5'-phosphate crithidia luciliae//*//* 0.0016 * +EC4.1.1.23 orotidine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC4.1.1.23 orotidine 5'-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000295 * +EC4.1.1.23 orotidine 5'-phosphate methanobacterium thermoautotrophicus//*//* 0.0016 * +EC4.1.1.23 orotidine 5'-phosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0018 * +EC4.1.1.23 orotidine 5'-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00026 * +EC4.1.1.23 orotidine 5'-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00035 * +EC4.1.1.23 orotidine 5'-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00991 * +EC4.1.1.23 orotidine 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0007 * +EC4.1.1.25 l-3,4-dihydroxyphenylalanine thalictrum rugosum//*//* 0.24 * +EC4.1.1.25 l-dopa eschscholzia californica//*//* 1.1 * +EC4.1.1.25 l-dopa locusta migratoria//*//* 0.117 * +EC4.1.1.25 l-dopa papaver somniferum//*//* 1.0 * +EC4.1.1.25 l-dopa rhodiola sachalinensis//*//* 0.0017 * +EC4.1.1.25 l-dopa thalictrum rugosum//*//* 0.25 * +EC4.1.1.25 l-phenylalanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 5.1 * +EC4.1.1.25 l-phenylalanine rhodiola sachalinensis//*//* 0.0117 * +EC4.1.1.25 l-tyr enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.355 * +EC4.1.1.25 l-tyr eschscholzia californica//*//* 0.25 * +EC4.1.1.25 l-tyr thalictrum rugosum//*//* 0.27 * +EC4.1.1.25 l-tyrosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.745 * +EC4.1.1.25 l-tyrosine eschscholzia californica//*//* 1.0 * +EC4.1.1.25 l-tyrosine lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.58 * +EC4.1.1.25 l-tyrosine locusta migratoria//*//* 0.007 * +EC4.1.1.25 l-tyrosine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.6 * +EC4.1.1.25 l-tyrosine papaver somniferum//*//* 1.0 * +EC4.1.1.25 l-tyrosine rhodiola sachalinensis//*//* 0.0009 * +EC4.1.1.25 l-tyrosine thalictrum rugosum//*//* 0.27 * +EC4.1.1.28 2-fluoro-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.95 * +EC4.1.1.28 3,4-dihydroxyphenylalanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0952 * +EC4.1.1.28 3,4-dihydroxyphenylalanine calliphora vicina//*//* 0.28 * +EC4.1.1.28 3,4-dihydroxyphenylalanine cavia porcellus//*//* 0.4 * +EC4.1.1.28 3,4-dihydroxyphenylalanine ceratitis capitata//*//* 0.039 * +EC4.1.1.28 3,4-dihydroxyphenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.074 * +EC4.1.1.28 3,4-dihydroxyphenylalanine locusta migratoria//*//* 0.052 * +EC4.1.1.28 3,4-dihydroxyphenylalanine micrococcus percitreus//*//* 2.3 * +EC4.1.1.28 3,4-dihydroxyphenylalanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.3 * +EC4.1.1.28 3,4-dihydroxyphenylalanine papaver somniferum//*//* 1.0 * +EC4.1.1.28 3,4-dihydroxyphenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC4.1.1.28 3,4-dihydroxyphenylalanine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.18 * +EC4.1.1.28 5-fluoro-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.35 * +EC4.1.1.28 5-hydroxy-l-tryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.49 * +EC4.1.1.28 5-hydroxy-l-tryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.049 * +EC4.1.1.28 5-hydroxytryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.066 * +EC4.1.1.28 5-hydroxytryptophan cavia porcellus//*//* 0.02 * +EC4.1.1.28 5-hydroxytryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC4.1.1.28 5-hydroxytryptophan locusta migratoria//*//* 0.23 * +EC4.1.1.28 5-hydroxytryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC4.1.1.28 6-fluoro-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.7 * +EC4.1.1.28 dopamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0505 * +EC4.1.1.28 his cavia porcellus//*//* 22.0 * +EC4.1.1.28 l-3,4-dihydroxyphenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC4.1.1.28 l-5-hydroxytryptophan homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.047 * +EC4.1.1.28 l-5-hydroxytryptophan sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.038 * +EC4.1.1.28 l-dopa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC4.1.1.28 l-dopa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.034 * +EC4.1.1.28 l-dopa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.092 * +EC4.1.1.28 l-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.035 * +EC4.1.1.28 l-m-tyr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.52 * +EC4.1.1.28 l-o-tyr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC4.1.1.28 l-phe micrococcus percitreus//*//* 0.98 * +EC4.1.1.28 l-phenylalanine bacillus atrophaeus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bae 0.872 * +EC4.1.1.28 l-phenylalanine penicillium raistrickii//*//* 0.099 * +EC4.1.1.28 l-phenylalanyl-7-amido-4-methylcoumarin dirofilaria immitis//*//* 0.0321 * +EC4.1.1.28 l-trp micrococcus percitreus//*//* 2.4 * +EC4.1.1.28 l-tryptophan bacillus atrophaeus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bae 0.35 * +EC4.1.1.28 l-tryptophan catharanthus roseus//*//* 0.1 * +EC4.1.1.28 l-tryptophan penicillium raistrickii//*//* 0.049 * +EC4.1.1.28 l-tryptophanyl-7-amido-4-methylcoumarin dirofilaria immitis//*//* 0.0291 * +EC4.1.1.28 l-tyr drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3.3 * +EC4.1.1.28 l-tyr micrococcus percitreus//*//* 1.1 * +EC4.1.1.28 l-tyr papaver somniferum//*//* 1.0 * +EC4.1.1.28 l-tyrosine locusta migratoria//*//* 0.084 * +EC4.1.1.28 l-tyrosine penicillium raistrickii//*//* 1.064 * +EC4.1.1.28 l-tyrosine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.92 * +EC4.1.1.28 phe cavia porcellus//*//* 20.0 * +EC4.1.1.28 trp cavia porcellus//*//* 3.0 * +EC4.1.1.28 tyr-7-amido-4-methylcoumarin dirofilaria immitis//*//* 0.0351 * +EC4.1.1.28 tyr cavia porcellus//*//* 13.0 * +EC4.1.1.29 asp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.0 * +EC4.1.1.29 cysteic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.66 * +EC4.1.1.29 cysteine sulfinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.037 * +EC4.1.1.29 cysteine sulfinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.94 * +EC4.1.1.29 cysteine sulfinic acids bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.18 * +EC4.1.1.29 cysteine sulfinic acids rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC4.1.1.29 cysteine sulfonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.536 * +EC4.1.1.29 glu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC4.1.1.29 l-cysteic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC4.1.1.29 l-cysteic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC4.1.1.29 l-cysteine sulfinate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 1.16 * +EC4.1.1.29 l-cysteine sulfinic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC4.1.1.3 3-methyloxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.63 * +EC4.1.1.3 co2 veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 1.0 * +EC4.1.1.3 oxaloacetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.22 * +EC4.1.1.3 oxaloacetate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.39 * +EC4.1.1.3 oxaloacetate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.62 * +EC4.1.1.3 oxaloacetate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.15 * +EC4.1.1.3 oxaloacetate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.52 * +EC4.1.1.3 oxaloacetate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 2.2 * +EC4.1.1.3 oxaloacetate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 2.1 * +EC4.1.1.3 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.15 * +EC4.1.1.3 oxaloacetate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.7 * +EC4.1.1.3 oxaloacetate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 4.3 * +EC4.1.1.3 oxaloacetate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.06 * +EC4.1.1.3 oxaloacetate zea mays//eukaryotes;plants;monocots;grass family//zma 0.03 * +EC4.1.1.3 pyruvate veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 3.3 * +EC4.1.1.31 co2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC4.1.1.31 hco3- acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 3.0 * +EC4.1.1.31 hco3- amaranthus viridis//*//* 0.17 * +EC4.1.1.31 hco3- brassica rapa subsp. campestris//*//* 0.104 * +EC4.1.1.31 hco3- cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 7.6 * +EC4.1.1.31 hco3- coccochloris peniocystis//*//* 0.8 * +EC4.1.1.31 hco3- coleataenia prionitis//*//* 0.3 * +EC4.1.1.31 hco3- cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.23 * +EC4.1.1.31 hco3- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.1.31 hco3- lupinus luteus//*//* 0.25 * +EC4.1.1.31 hco3- methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 1.0 * +EC4.1.1.31 hco3- molinema dessetae//*//* 1.6 * +EC4.1.1.31 hco3- panicum milioides//*//* 0.4 * +EC4.1.1.31 hco3- phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.169 * +EC4.1.1.31 hco3- plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 2.0 * +EC4.1.1.31 hco3- rhodopseudomonas sp.//*//* 1.7 * +EC4.1.1.31 hco3- starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.11 * +EC4.1.1.31 hco3- steinchisma laxum//*//* 0.4 * +EC4.1.1.31 hco3- thiobacillus thioparus//*//* 0.89 * +EC4.1.1.31 hco3- zea mays subsp. mays//*//* 0.04216 * +EC4.1.1.31 hco3- zea mays//eukaryotes;plants;monocots;grass family//zma 1.28 * +EC4.1.1.31 phosphenolpyruvate bienertia sinuspersici//*//* 0.06 * +EC4.1.1.31 phosphenolpyruvate haloxylon persicum//*//* 0.12 * +EC4.1.1.31 phosphenolpyruvate suaeda aralocaspica//*//* 0.1 * +EC4.1.1.31 phosphenolpyruvate suaeda eltonica//*//* 0.09 * +EC4.1.1.31 phosphenolpyruvate suaeda linifolia//*//* 0.05 * +EC4.1.1.31 phosphenolpyruvate xylosalsola richteri//*//* 0.21 * +EC4.1.1.31 phosphoenolpyruvate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.49 * +EC4.1.1.31 phosphoenolpyruvate amaranthus hypochondriacus//*//* 0.14 * +EC4.1.1.31 phosphoenolpyruvate amaranthus viridis//*//* 0.29 * +EC4.1.1.31 phosphoenolpyruvate annona cherimola//*//* 0.068 * +EC4.1.1.31 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.054 * +EC4.1.1.31 phosphoenolpyruvate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.08 * +EC4.1.1.31 phosphoenolpyruvate brassica rapa subsp. campestris//*//* 0.125 * +EC4.1.1.31 phosphoenolpyruvate bryophyllum fedtschenkoi//*//* 0.3 * +EC4.1.1.31 phosphoenolpyruvate cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.74 * +EC4.1.1.31 phosphoenolpyruvate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 0.06 * +EC4.1.1.31 phosphoenolpyruvate coccochloris peniocystis//*//* 0.6 * +EC4.1.1.31 phosphoenolpyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.62 * +EC4.1.1.31 phosphoenolpyruvate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.069 * +EC4.1.1.31 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC4.1.1.31 phosphoenolpyruvate fagus sylvatica//*//* 0.25 * +EC4.1.1.31 phosphoenolpyruvate hydrilla verticillata//*//* 0.79 * +EC4.1.1.31 phosphoenolpyruvate lupinus luteus//*//* 0.09 * +EC4.1.1.31 phosphoenolpyruvate malus sp.//*//* 0.09 * +EC4.1.1.31 phosphoenolpyruvate medicago sativa//*//* 0.21 * +EC4.1.1.31 phosphoenolpyruvate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.46 * +EC4.1.1.31 phosphoenolpyruvate methanothermus sociabilis//*//* 1.3 * +EC4.1.1.31 phosphoenolpyruvate molinema dessetae//*//* 2.38 * +EC4.1.1.31 phosphoenolpyruvate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.04 * +EC4.1.1.31 phosphoenolpyruvate phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.79 * +EC4.1.1.31 phosphoenolpyruvate plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 2.6 * +EC4.1.1.31 phosphoenolpyruvate rhodopseudomonas sp.//*//* 0.23 * +EC4.1.1.31 phosphoenolpyruvate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.06 * +EC4.1.1.31 phosphoenolpyruvate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.065 * +EC4.1.1.31 phosphoenolpyruvate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.1 * +EC4.1.1.31 phosphoenolpyruvate starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.64 * +EC4.1.1.31 phosphoenolpyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.09 * +EC4.1.1.31 phosphoenolpyruvate thiobacillus thioparus//*//* 0.44 * +EC4.1.1.31 phosphoenolpyruvate umbilicus rupestris//*//* 0.2 * +EC4.1.1.31 phosphoenolpyruvate vicia faba//*//* 0.06 * +EC4.1.1.31 phosphoenolpyruvate zea mays subsp. mays//*//* 0.038 * +EC4.1.1.31 phosphoenolpyruvate zea mays//eukaryotes;plants;monocots;grass family//zma 0.047 * +EC4.1.1.32 (z)-3-fluorophosphoenolpyruvate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC4.1.1.32 2'-deoxyguanosine 5'-diphosphate ascaris suum//*//* 0.053 * +EC4.1.1.32 2'-deoxyguanosine 5'-triphosphate ascaris suum//*//* 1.05 * +EC4.1.1.32 adp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.23 * +EC4.1.1.32 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.465 * +EC4.1.1.32 co2 mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 8.3 * +EC4.1.1.32 co2 raillietina echinobothrida//*//* 4.76 * +EC4.1.1.32 co2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.194 * +EC4.1.1.32 gdp ascaris suum//*//* 0.022 * +EC4.1.1.32 gdp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.05 * +EC4.1.1.32 gdp euglena gracilis//*//* 0.056 * +EC4.1.1.32 gdp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.003 * +EC4.1.1.32 gdp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC4.1.1.32 gdp modiolus demissus//*//* 0.024 * +EC4.1.1.32 gdp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.066 * +EC4.1.1.32 gdp raillietina echinobothrida//*//* 0.02516 * +EC4.1.1.32 gdp rana catesbeiana//*//* 0.8 * +EC4.1.1.32 gdp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0075 * +EC4.1.1.32 gdp squalus acanthias//*//* 0.031 * +EC4.1.1.32 gdp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0185 * +EC4.1.1.32 gtp ascaris suum//*//* 0.052 * +EC4.1.1.32 gtp euglena gracilis//*//* 0.065 * +EC4.1.1.32 gtp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0074 * +EC4.1.1.32 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC4.1.1.32 gtp modiolus demissus//*//* 0.055 * +EC4.1.1.32 gtp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.013 * +EC4.1.1.32 gtp rana catesbeiana//*//* 0.067 * +EC4.1.1.32 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0211 * +EC4.1.1.32 gtp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.036 * +EC4.1.1.32 hco3- ascaris suum//*//* 6.7 * +EC4.1.1.32 hco3- corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 12.0 * +EC4.1.1.32 hco3- euglena gracilis//*//* 0.066 * +EC4.1.1.32 hco3- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0133 * +EC4.1.1.32 hco3- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 20.7 * +EC4.1.1.32 hco3- modiolus demissus//*//* 13.0 * +EC4.1.1.32 hco3- perumytilus purpuratus//*//* 2.4 * +EC4.1.1.32 hco3- rana catesbeiana//*//* 8.0 * +EC4.1.1.32 hco3- squalus acanthias//*//* 15.7 * +EC4.1.1.32 idp ascaris suum//*//* 0.182 * +EC4.1.1.32 idp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.4 * +EC4.1.1.32 idp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.013 * +EC4.1.1.32 idp modiolus demissus//*//* 0.046 * +EC4.1.1.32 idp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.29 * +EC4.1.1.32 idp perumytilus purpuratus//*//* 0.045 * +EC4.1.1.32 idp raillietina echinobothrida//*//* 0.1273 * +EC4.1.1.32 idp rana catesbeiana//*//* 0.8 * +EC4.1.1.32 idp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0715 * +EC4.1.1.32 idp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0712 * +EC4.1.1.32 itp ascaris suum//*//* 0.1 * +EC4.1.1.32 itp corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.5 * +EC4.1.1.32 itp euglena gracilis//*//* 0.05 * +EC4.1.1.32 itp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.13 * +EC4.1.1.32 itp rana catesbeiana//*//* 0.2 * +EC4.1.1.32 itp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.279 * +EC4.1.1.32 itp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0715 * +EC4.1.1.32 khco3 euglena gracilis//*//* 4.5 * +EC4.1.1.32 mngdp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.042 * +EC4.1.1.32 mnidp- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.197 * +EC4.1.1.32 mnitp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 40.0 * +EC4.1.1.32 oxaloacetate anaerobiospirillum succiniciproducens//*//* 0.42 * +EC4.1.1.32 oxaloacetate ascaris suum//*//* 0.12 * +EC4.1.1.32 oxaloacetate euglena gracilis//*//* 0.014 * +EC4.1.1.32 oxaloacetate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.011 * +EC4.1.1.32 oxaloacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC4.1.1.32 oxaloacetate modiolus demissus//*//* 0.024 * +EC4.1.1.32 oxaloacetate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0067 * +EC4.1.1.32 oxaloacetate rana catesbeiana//*//* 0.004 * +EC4.1.1.32 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC4.1.1.32 oxaloacetate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.018 * +EC4.1.1.32 phosphoenolpyruvate ascaris suum//*//* 0.12 * +EC4.1.1.32 phosphoenolpyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.41 * +EC4.1.1.32 phosphoenolpyruvate euglena gracilis//*//* 0.13 * +EC4.1.1.32 phosphoenolpyruvate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0185 * +EC4.1.1.32 phosphoenolpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.217 * +EC4.1.1.32 phosphoenolpyruvate modiolus demissus//*//* 0.396 * +EC4.1.1.32 phosphoenolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.1 * +EC4.1.1.32 phosphoenolpyruvate perumytilus purpuratus//*//* 0.55 * +EC4.1.1.32 phosphoenolpyruvate raillietina echinobothrida//*//* 0.02412 * +EC4.1.1.32 phosphoenolpyruvate rana catesbeiana//*//* 0.8 * +EC4.1.1.32 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC4.1.1.32 phosphoenolpyruvate squalus acanthias//*//* 0.91 * +EC4.1.1.32 phosphoenolpyruvate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.131 * +EC4.1.1.33 (3r)-3-cyclopropyl-3-hydroxy-5-[[hydroxy(phosphonooxy)phosphoryl]oxy]pentanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.001 * +EC4.1.1.33 (3r)-3-ethyl-3-hydroxy-5-[[hydroxy(phosphonooxy)phosphoryl]oxy]pentanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0015 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)-4-methylpentanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.016 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)-5-methylhexanoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.029 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)hex-4-ynoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0063 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)hex-5-enoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0028 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)pent-4-enoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0017 * +EC4.1.1.33 (3r)-3-hydroxy-3-(2-[[hydroxy(phosphonooxy)phosphoryl]oxy]ethyl)pent-4-ynoic acid streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0029 * +EC4.1.1.33 (r,s)-5-diphosphomevalonate staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.0091 * +EC4.1.1.33 5-diphosphomevalonate cymbopogon citratus//*//* 0.01 * +EC4.1.1.33 5-diphosphomevalonate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0141 * +EC4.1.1.33 5-diphosphomevalonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0289 * +EC4.1.1.33 5-diphosphomevalonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.1.1.33 5-diphosphomevalonate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.123 * +EC4.1.1.33 5-diphosphomevalonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 12.5 * +EC4.1.1.33 atp cymbopogon citratus//*//* 1.66 * +EC4.1.1.33 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.504 * +EC4.1.1.33 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.69 * +EC4.1.1.33 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00053 * +EC4.1.1.33 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.061 * +EC4.1.1.33 atp staphylococcus epidermidis//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sep 0.027 * +EC4.1.1.33 cdatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.048 * +EC4.1.1.33 ctp cymbopogon citratus//*//* 0.47 * +EC4.1.1.33 diphosphomevalonate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0012 * +EC4.1.1.33 gtp cymbopogon citratus//*//* 0.3 * +EC4.1.1.33 mevalonate diphosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC4.1.1.33 mgatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.202 * +EC4.1.1.33 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.061 * +EC4.1.1.33 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.45 * +EC4.1.1.33 mnatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.029 * +EC4.1.1.33 znatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.888 * +EC4.1.1.35 udp-d-glucuronate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.19 * +EC4.1.1.35 udp-d-glucuronate hordeum vulgare//*//* 0.12 * +EC4.1.1.35 udp-d-glucuronate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0086 * +EC4.1.1.35 udp-glucuronic acid nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.767 * +EC4.1.1.35 udpglucuronate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.24 * +EC4.1.1.35 udpglucuronate helianthus tuberosus//*//* 0.6 * +EC4.1.1.35 udpglucuronate lemna minor//*//* 0.0083 * +EC4.1.1.35 udpglucuronate papiliotrema laurentii//*//* 1.1 * +EC4.1.1.35 udpglucuronate triticum aestivum//*//* 0.18 * +EC4.1.1.36 (r)-4'-phospho-n-pantothenoylcysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.118 * +EC4.1.1.36 4-phosphopantothenoyl-l-cys equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 1.43 * +EC4.1.1.36 4-phosphopantothenoyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC4.1.1.36 phosphopantothenoyl-l-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.133 * +EC4.1.1.37 5-cooh-porphyrin i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC4.1.1.37 5-cooh-porphyrinogen i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-05 * +EC4.1.1.37 5-cooh-porphyrinogen i rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00133 * +EC4.1.1.37 5-cooh-porphyrinogen iii bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00043 * +EC4.1.1.37 5-cooh-porphyrinogen iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC4.1.1.37 6-cooh-porphyrinogen i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00042 * +EC4.1.1.37 6-cooh-porphyrinogen i rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0003 * +EC4.1.1.37 6-cooh-porphyrinogen iii bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00064 * +EC4.1.1.37 7-cooh, porphyrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00231 * +EC4.1.1.37 7-cooh-porphyrinogen i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00044 * +EC4.1.1.37 7-cooh-porphyrinogen i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00085 * +EC4.1.1.37 7-cooh-porphyrinogen i saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7e-06 * +EC4.1.1.37 7-cooh-porphyrinogen iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC4.1.1.37 7-cooh-porphyrinogen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0013 * +EC4.1.1.37 7-cooh-porphyrinogen homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000231 * +EC4.1.1.37 8-carboxylporphyrinogen neohelice granulata//*//* 0.0105 * +EC4.1.1.37 8-carboxylporphyrinogen rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC4.1.1.37 8-cooh-porphyrinogen i bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00079 * +EC4.1.1.37 8-cooh-porphyrinogen iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00025 * +EC4.1.1.37 uroporphyrinogen i euglena gracilis//*//* 8e-05 * +EC4.1.1.37 uroporphyrinogen i homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC4.1.1.37 uroporphyrinogen i rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00318 * +EC4.1.1.37 uroporphyrinogen i rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0018 * +EC4.1.1.37 uroporphyrinogen i saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1e-05 * +EC4.1.1.37 uroporphyrinogen iii euglena gracilis//*//* 5e-05 * +EC4.1.1.37 uroporphyrinogen iii homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00035 * +EC4.1.1.37 uroporphyrinogen iii parachlorella kessleri//*//* 0.0032 * +EC4.1.1.37 uroporphyrinogen iii rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00182 * +EC4.1.1.37 uroporphyrinogen iii rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.006 * +EC4.1.1.37 uroporphyrinogen iii saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6e-06 * +EC4.1.1.37 uroporphyrinogen gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.003 * +EC4.1.1.38 adp selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.46 * +EC4.1.1.38 co2 gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 1.2 * +EC4.1.1.38 phosphoenolpyruvate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 5.0 * +EC4.1.1.38 phosphoenolpyruvate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.55 * +EC4.1.1.38 phosphoenolpyruvate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.036 * +EC4.1.1.39 co2 abelmoschus esculentus//*//* 0.0135 * +EC4.1.1.39 co2 acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.028 * +EC4.1.1.39 co2 acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.037 * +EC4.1.1.39 co2 allochromatium vinosum//prokaryotes;bacteria;gammaproteobacteria - others;allochromatium//alv 0.037 * +EC4.1.1.39 co2 amaranthus hybridus//*//* 0.016 * +EC4.1.1.39 co2 anabaena variabilis//*//* 0.021 * +EC4.1.1.39 co2 aphanothece halophytica//*//* 21.3 * +EC4.1.1.39 co2 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.051 * +EC4.1.1.39 co2 bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.254 * +EC4.1.1.39 co2 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.029 * +EC4.1.1.39 co2 citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 0.021 * +EC4.1.1.39 co2 coffea arabica//*//* 0.00534 * +EC4.1.1.39 co2 cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.066 * +EC4.1.1.39 co2 cylindrotheca fusiformis//*//* 0.036 * +EC4.1.1.39 co2 cylindrotheca sp.//*//* 0.031 * +EC4.1.1.39 co2 cynodon dactylon//*//* 0.0021 * +EC4.1.1.39 co2 galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.0033 * +EC4.1.1.39 co2 glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0172 * +EC4.1.1.39 co2 griffithsia monilis//*//* 0.0093 * +EC4.1.1.39 co2 hibiscus cannabinus//*//* 0.0078 * +EC4.1.1.39 co2 hydrogenophaga pseudoflava//*//* 0.016 * +EC4.1.1.39 co2 mallomonas papillosa//*//* 0.0182 * +EC4.1.1.39 co2 methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 0.13 * +EC4.1.1.39 co2 nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0095 * +EC4.1.1.39 co2 olisthodiscus luteus//*//* 0.023 * +EC4.1.1.39 co2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.008 * +EC4.1.1.39 co2 paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.06 * +EC4.1.1.39 co2 paspalum dilatatum//*//* 0.0109 * +EC4.1.1.39 co2 phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.0279 * +EC4.1.1.39 co2 porphyridium purpureum//*//* 0.022 * +EC4.1.1.39 co2 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.067 * +EC4.1.1.39 co2 sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.03 * +EC4.1.1.39 co2 spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.01 * +EC4.1.1.39 co2 sulfobacillus thermosulfidooxidans//*//* 0.046 * +EC4.1.1.39 co2 symphytum sp.//*//* 0.13 * +EC4.1.1.39 co2 synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.167 * +EC4.1.1.39 co2 synechococcus//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.186 * +EC4.1.1.39 co2 synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.162 * +EC4.1.1.39 co2 synura petersenii//*//* 0.0284 * +EC4.1.1.39 co2 synura uvella//*//* 0.0418 * +EC4.1.1.39 co2 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.052 * +EC4.1.1.39 co2 thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.0543 * +EC4.1.1.39 co2 thiomicrospira thyasirae//*//* 0.126 * +EC4.1.1.39 co2 triticum aestivum//*//* 0.0097 * +EC4.1.1.39 co2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.0162 * +EC4.1.1.39 co2 zoysia japonica//*//* 0.00185 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.08 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0037 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate aphanothece halophytica//*//* 24.9 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.02 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.048 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 0.34 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.59 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate cylindrotheca fusiformis//*//* 0.0078 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate cylindrotheca sp.//*//* 0.0087 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.092 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.25 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate griffithsia monilis//*//* 0.044 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 0.1462 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.1 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate hydrogenophaga pseudoflava//*//* 0.0001 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate medicago sativa//*//* 0.115 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 0.00013 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.009 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.3 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate olisthodiscus luteus//*//* 0.023 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.029 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.21 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.056 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate porphyridium purpureum//*//* 0.0037 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.0039 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0015 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate sulfobacillus thermosulfidooxidans//*//* 0.072 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate symphytum sp.//*//* 0.03 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.019 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate synechococcus//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.027 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.14 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.014 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.0204 * +EC4.1.1.39 d-ribulose 1,5-bisphosphate thiomicrospira thyasirae//*//* 0.024 * +EC4.1.1.39 d-ribulose-1,5-bisphosphate coffea arabica//*//* 0.00909 * +EC4.1.1.39 d-ribulose-1,5-bisphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0188 * +EC4.1.1.39 d-ribulose-1,5-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.105 * +EC4.1.1.39 hco3- helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 18.0 * +EC4.1.1.39 hco3- rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 60.0 * +EC4.1.1.39 nahco3 nitrosomonas sp.//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//nit 0.415 * +EC4.1.1.39 o2 anabaena variabilis//*//* 1.08 * +EC4.1.1.39 o2 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.005 * +EC4.1.1.39 o2 chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.527 * +EC4.1.1.39 o2 cylindrotheca fusiformis//*//* 0.568 * +EC4.1.1.39 o2 cylindrotheca sp.//*//* 1.292 * +EC4.1.1.39 o2 cynodon dactylon//*//* 0.402 * +EC4.1.1.39 o2 galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.374 * +EC4.1.1.39 o2 griffithsia monilis//*//* 0.89 * +EC4.1.1.39 o2 methanococcoides burtonii//prokaryotes;archaea;euryarchaeota;methanococcoides//mbu 2.5 * +EC4.1.1.39 o2 nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.112 * +EC4.1.1.39 o2 olisthodiscus luteus//*//* 0.692 * +EC4.1.1.39 o2 oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.37 * +EC4.1.1.39 o2 paspalum dilatatum//*//* 0.341 * +EC4.1.1.39 o2 phaeodactylum tricornutum//eukaryotes;protists;stramenopiles;diatoms//pti 0.467 * +EC4.1.1.39 o2 porphyridium purpureum//*//* 1.574 * +EC4.1.1.39 o2 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.17 * +EC4.1.1.39 o2 synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.529 * +EC4.1.1.39 o2 synechococcus//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.85 * +EC4.1.1.39 o2 thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.9 * +EC4.1.1.39 o2 thiomicrospira thyasirae//*//* 0.9 * +EC4.1.1.39 o2 triticum aestivum//*//* 0.244 * +EC4.1.1.39 o2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.183 * +EC4.1.1.39 o2 zoysia japonica//*//* 0.403 * +EC4.1.1.39 rubp nitrosomonas sp.//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//nit 0.112 * +EC4.1.1.4 3-oxo-3-phenylpropionic acid clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 10.0 * +EC4.1.1.4 acetoacetate chromobacterium violaceum//prokaryotes;bacteria;betaproteobacteria;chromobacterium//cvi 5.7 * +EC4.1.1.4 acetoacetate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 4.1 * +EC4.1.1.4 acetoacetate paenibacillus polymyxa//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//ppy 0.94 * +EC4.1.1.41 (s)-methylmalonyl-coa propionigenium modestum//*//* 0.012 * +EC4.1.1.41 (s)-methylmalonyl-coa veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.002 * +EC4.1.1.41 malonyl-coa veillonella parvula//prokaryotes;bacteria;firmicutes - others;veillonella//vpr 0.035 * +EC4.1.1.42 dl-carnitine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC4.1.1.43 2-ketohexanoic acid azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 5.51 * +EC4.1.1.43 2-oxo-4-phenylbutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC4.1.1.43 2-oxobutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 7.6 * +EC4.1.1.43 2-oxohexanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.69 * +EC4.1.1.43 2-oxopentanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC4.1.1.43 3-methyl-2-oxobutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.5 * +EC4.1.1.43 3-methyl-2-oxopentanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.1 * +EC4.1.1.43 4-hydroxyphenylpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC4.1.1.43 4-methyl-2-oxopentanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.9 * +EC4.1.1.43 4-methylthio-2-oxobutanoic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.64 * +EC4.1.1.43 4-phenyl-2-oxobutanoic acid azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 1.91 * +EC4.1.1.43 5-phenyl-2-oxopentanoic acid azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.3 * +EC4.1.1.43 indole-3-pyruvate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.13 * +EC4.1.1.43 indole-3-pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC4.1.1.43 phenylpyruvate acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.0051 * +EC4.1.1.43 phenylpyruvate azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 1.08 * +EC4.1.1.43 phenylpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.062 * +EC4.1.1.43 pyruvic acid saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9.7 * +EC4.1.1.44 4-carboxymuconolactone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.82 * +EC4.1.1.45 2-amino-3-(3-oxoprop-1-en-1-yl)but-2-enedioate felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.001 * +EC4.1.1.45 2-amino-3-(3-oxoprop-1-en-1-yl)but-2-enedioate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0096 * +EC4.1.1.45 2-amino-3-(3-oxoprop-1-en-1-yl)but-2-enedioate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0161 * +EC4.1.1.45 2-amino-3-(3-oxoprop-2-enyl)-but-2-enedioate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0065 * +EC4.1.1.45 2-amino-3-(3-oxoprop-2-enyl)-but-2-enedioate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0096 * +EC4.1.1.45 2-amino-3-carboxymuconate-6-semialdehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC4.1.1.45 alpha-amino-beta-carboxymuconate-epsilon-semialdehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0049 * +EC4.1.1.46 2,3-dihydroxybenzoate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.3 * +EC4.1.1.46 2,3-dihydroxybenzoate aspergillus oryzae//eukaryotes;fungi;ascomycetes;eurotiomycetes//aor 0.42 * +EC4.1.1.46 2,3-dihydroxybenzoate cutaneotrichosporon cutaneum//*//* 0.037 * +EC4.1.1.47 glyoxylate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC4.1.1.47 glyoxylate gloeomonas sp.//*//* 0.2 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.055 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0113 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose 5-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4.4e-05 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.7e-05 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate mycobacterium tuberculosis h37ra//prokaryotes;bacteria;actinobacteria;mycobacterium//mra 1.13 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.13 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 4e-05 * +EC4.1.1.48 1-(2-carboxyphenylamino)-1-deoxy-d-ribulose-5-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 6e-06 * +EC4.1.1.49 (z)-3-fluorophosphoenolpyruvate anaerobiospirillum succiniciproducens//*//* 0.0059 * +EC4.1.1.49 (z)-3-fluorophosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0085 * +EC4.1.1.49 adp anaerobiospirillum succiniciproducens//*//* 0.077 * +EC4.1.1.49 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC4.1.1.49 adp megathyrsus maximus//*//* 17.0 * +EC4.1.1.49 adp ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.81 * +EC4.1.1.49 adp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC4.1.1.49 adp selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.46 * +EC4.1.1.49 adp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.04 * +EC4.1.1.49 adp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.04 * +EC4.1.1.49 atp anaerobiospirillum succiniciproducens//*//* 2.3 * +EC4.1.1.49 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC4.1.1.49 atp megathyrsus maximus//*//* 0.0011 * +EC4.1.1.49 atp ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 1.83 * +EC4.1.1.49 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03 * +EC4.1.1.49 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.08 * +EC4.1.1.49 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0103 * +EC4.1.1.49 co2 anaerobiospirillum succiniciproducens//*//* 1.9 * +EC4.1.1.49 co2 megathyrsus maximus//*//* 0.02 * +EC4.1.1.49 co2 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.36 * +EC4.1.1.49 hco3- anaerobiospirillum succiniciproducens//*//* 0.033 * +EC4.1.1.49 hco3- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC4.1.1.49 hco3- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC4.1.1.49 hco3- salinivibrio costicola//*//* 17.0 * +EC4.1.1.49 hco3- trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 26.0 * +EC4.1.1.49 hco3- trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 3.7 * +EC4.1.1.49 mgadp- trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.039 * +EC4.1.1.49 mn2+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC4.1.1.49 mnadp- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.034 * +EC4.1.1.49 mnadp- trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.017 * +EC4.1.1.49 mnatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.016 * +EC4.1.1.49 mnatp2- trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.019 * +EC4.1.1.49 nahco3 anaerobiospirillum succiniciproducens//*//* 2.77 * +EC4.1.1.49 oxalacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.066 * +EC4.1.1.49 oxaloacetate anaerobiospirillum succiniciproducens//*//* 0.079 * +EC4.1.1.49 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.67 * +EC4.1.1.49 oxaloacetate megathyrsus maximus//*//* 0.085 * +EC4.1.1.49 oxaloacetate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 1.81 * +EC4.1.1.49 oxaloacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.014 * +EC4.1.1.49 oxaloacetate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.03 * +EC4.1.1.49 oxaloacetate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.037 * +EC4.1.1.49 oxaloacetate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.027 * +EC4.1.1.49 phosphoenolpyruvate alternanthera ficoidea//*//* 0.15 * +EC4.1.1.49 phosphoenolpyruvate alternanthera ficoides//*//* 0.11 * +EC4.1.1.49 phosphoenolpyruvate alternanthera pungens//*//* 0.28 * +EC4.1.1.49 phosphoenolpyruvate alternanthera sessilis//*//* 0.05 * +EC4.1.1.49 phosphoenolpyruvate anaerobiospirillum succiniciproducens//*//* 0.083 * +EC4.1.1.49 phosphoenolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC4.1.1.49 phosphoenolpyruvate megathyrsus maximus//*//* 1.38 * +EC4.1.1.49 phosphoenolpyruvate ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.52 * +EC4.1.1.49 phosphoenolpyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.135 * +EC4.1.1.49 phosphoenolpyruvate selenomonas ruminantium//prokaryotes;bacteria;firmicutes - others;selenomonas//sri 0.55 * +EC4.1.1.49 phosphoenolpyruvate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.04 * +EC4.1.1.49 phosphoenolpyruvate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.49 * +EC4.1.1.49 phosphoenolpyruvate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.035 * +EC4.1.1.5 (2r,3r)-[(2r)-3-hydroxy-2-(hydroxy-kappao)-2-methylbutanoic acid-kappao]zinc(2+) brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.55 * +EC4.1.1.5 (2r,3s)-[(2r)-3-hydroxy-2-(hydroxy-kappao)-2-methylbutanoic acid-kappao]zinc(2+) brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.78 * +EC4.1.1.5 (2s,3r)-[(2s)-3-hydroxy-2-(hydroxy-kappao)-2-methylbutanoic acid-kappao]zinc(2+) brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.56 * +EC4.1.1.5 (2s,3s)-[(2r)-3-hydroxy-2-(hydroxy-kappao)-2-methylbutanoic acid-kappao]zinc(2+) brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.49 * +EC4.1.1.5 (s)-2-hydroxy-2-methyl-3-oxobutanoate leuconostoc lactis//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//llf 1.3 * +EC4.1.1.5 2-hydroxy-2-ethyl-3-oxobutanoate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 10.0 * +EC4.1.1.5 2-hydroxy-2-methyl-3-oxobutanoate brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.06 * +EC4.1.1.5 2-hydroxy-2-methyl-3-oxobutanoate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.4 * +EC4.1.1.5 2-hydroxy-2-methyl-3-oxobutanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 4.8 * +EC4.1.1.5 2-hydroxy-2-methyl-3-oxobutanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 10.0 * +EC4.1.1.50 lysine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.518 * +EC4.1.1.50 s-adenosyl-l-methionine acanthamoeba castellanii//eukaryotes;protists;amoebozoa;acanthamoeba//acan 0.03 * +EC4.1.1.50 s-adenosyl-l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.023 * +EC4.1.1.50 s-adenosyl-l-methionine brassica rapa subsp. pekinensis//*//* 0.038 * +EC4.1.1.50 s-adenosyl-l-methionine caenorhabditis elegans//eukaryotes;animals;nematodes//cel 0.115 * +EC4.1.1.50 s-adenosyl-l-methionine crithidia fasciculata//*//* 0.2 * +EC4.1.1.50 s-adenosyl-l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.1.50 s-adenosyl-l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.146 * +EC4.1.1.50 s-adenosyl-l-methionine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.095 * +EC4.1.1.50 s-adenosyl-l-methionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC4.1.1.50 s-adenosyl-l-methionine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.043 * +EC4.1.1.50 s-adenosyl-l-methionine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC4.1.1.50 s-adenosyl-l-methionine streptomyces griseochromogenes//prokaryotes;bacteria;actinobacteria;streptomyces//sgs 0.00193 * +EC4.1.1.50 s-adenosyl-l-methionine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.08 * +EC4.1.1.50 s-adenosyl-l-methionine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.03 * +EC4.1.1.50 s-adenosyl-l-methionine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.05 * +EC4.1.1.50 s-adenosyl-l-methionine zea mays//eukaryotes;plants;monocots;grass family//zma 0.005 * +EC4.1.1.50 s-adenosylmethionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC4.1.1.50 s-adenosylmethionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.09 * +EC4.1.1.50 s-adenosylmethionine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.96 * +EC4.1.1.51 3-hydroxy-2-methylpyridine-4,5-dicarboxylate mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 0.366 * +EC4.1.1.51 3-hydroxy-2-methylpyridine-4,5-dicarboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.036 * +EC4.1.1.52 3-bromoorsellinic acid penicillium griseofulvum//*//* 0.15 * +EC4.1.1.52 6-ethylsalicylic acid penicillium griseofulvum//*//* 0.01 * +EC4.1.1.52 6-methylsalicylic acid penicillium griseofulvum//*//* 0.007 * +EC4.1.1.52 homoorsellinic acid penicillium griseofulvum//*//* 0.04 * +EC4.1.1.52 orsellinic acid penicillium griseofulvum//*//* 0.1 * +EC4.1.1.53 3,4-dihydroxyphenylalanine cavia aperea//*//* 0.04 * +EC4.1.1.53 5-hydroxytryptamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.066 * +EC4.1.1.53 5-hydroxytryptophan cavia aperea//*//* 0.002 * +EC4.1.1.53 histidine cavia aperea//*//* 2.2 * +EC4.1.1.53 l-dihydroxyphenylalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC4.1.1.53 p-tyrosine cavia aperea//*//* 1.3 * +EC4.1.1.53 phenylalanine cavia aperea//*//* 2.0 * +EC4.1.1.53 tryptophan cavia aperea//*//* 0.3 * +EC4.1.1.55 4,5-dihydroxyphthalate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0105 * +EC4.1.1.55 4,5-dihydroxyphthalate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0104 * +EC4.1.1.55 4-hydroxyphthalate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 1.25 * +EC4.1.1.57 l-ile dryopteris filix-mas//*//* 153.0 * +EC4.1.1.57 l-leu dryopteris filix-mas//*//* 124.0 * +EC4.1.1.57 l-met dryopteris filix-mas//*//* 48.0 * +EC4.1.1.57 l-met streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0121 * +EC4.1.1.57 l-norleucine dryopteris filix-mas//*//* 155.0 * +EC4.1.1.57 l-norleucine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 16.0 * +EC4.1.1.57 l-norvaline dryopteris filix-mas//*//* 147.0 * +EC4.1.1.57 l-val dryopteris filix-mas//*//* 1100.0 * +EC4.1.1.57 s-ethyl-l-cys dryopteris filix-mas//*//* 1000.0 * +EC4.1.1.57 s-ethyl-l-cys streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 44.0 * +EC4.1.1.58 2,4-dihydroxy-6-methylbenzoate clonostachys rosea//*//* 0.26 * +EC4.1.1.58 2,4-dihydroxy-6-methylbenzoate umbilicaria pustulata//*//* 0.211 * +EC4.1.1.59 3,4,5-trihydroxybenzoate citrobacter sp.//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cif 3.3 * +EC4.1.1.59 3,4,5-trihydroxybenzoate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.96 * +EC4.1.1.6 cis-aconitate aspergillus terreus//*//* 2.45 * +EC4.1.1.61 3,4-dihydroxybenzoate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 6.8 * +EC4.1.1.61 3,4-dihydroxybenzoate sedimentibacter hydroxybenzoicus//*//* 1.2 * +EC4.1.1.61 4-hydroxybenzoate chlamydia pneumoniae//prokaryotes;bacteria;chlamydiae;chlamydia//cpn 0.21 * +EC4.1.1.61 4-hydroxybenzoate desulfovibrio sp.//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//def 0.004 * +EC4.1.1.61 4-hydroxybenzoate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.596 * +EC4.1.1.61 4-hydroxybenzoate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 4.0 * +EC4.1.1.61 4-hydroxybenzoate methanospirillum hungatei//prokaryotes;archaea;euryarchaeota;methanospirillum//mhu 0.004 * +EC4.1.1.61 4-hydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.67 * +EC4.1.1.61 4-hydroxybenzoate sedimentibacter hydroxybenzoicus//*//* 0.4 * +EC4.1.1.61 4-hydroxybenzoate uncultured bacterium//*//* 5.4 * +EC4.1.1.61 co2 pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.0 * +EC4.1.1.61 phenol desulfovibrio sp.//prokaryotes;bacteria;deltaproteobacteria;desulfovibrio//def 0.125 * +EC4.1.1.61 phenol enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 14.8 * +EC4.1.1.61 phenol methanospirillum hungatei//prokaryotes;archaea;euryarchaeota;methanospirillum//mhu 0.125 * +EC4.1.1.61 phenylphosphate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.2 * +EC4.1.1.63 3,4-dihydroxybenzoate sedimentibacter hydroxybenzoicus//*//* 0.59 * +EC4.1.1.64 2-aminoisobutanoate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.12 * +EC4.1.1.64 2-aminoisobutyrate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 2.2 * +EC4.1.1.64 l-ala pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 33.0 * +EC4.1.1.64 pyruvate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.098 * +EC4.1.1.64 pyruvate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC4.1.1.65 phosphatidyl-l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC4.1.1.65 phosphatidyl-l-serine toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.067 * +EC4.1.1.65 phosphatidylserine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.4 * +EC4.1.1.65 phosphatidylserine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.5 * +EC4.1.1.65 phosphatidylserine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC4.1.1.65 phosphatidylserine tetrahymena pyriformis//*//* 0.4 * +EC4.1.1.68 5-oxopent-3-ene-1,2,5-tricarboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.032 * +EC4.1.1.7 (p-methoxybenzoyl)formate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.056 * +EC4.1.1.7 (p-methylbenzoyl)formate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.19 * +EC4.1.1.7 2-ketobutanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.5 * +EC4.1.1.7 2-ketohexanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.1 * +EC4.1.1.7 2-ketopentanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.0 * +EC4.1.1.7 2-oxo-4-methylpentanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 9.6 * +EC4.1.1.7 2-oxohexanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.1 * +EC4.1.1.7 2-oxopentanoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.0 * +EC4.1.1.7 [m-(fluoromethyl)benzoyl]formate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.023 * +EC4.1.1.7 [p-(chloromethyl)benzoyl]formate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.021 * +EC4.1.1.7 [p-(fluoromethyl)benzoyl]formate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.19 * +EC4.1.1.7 acetaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 310.0 * +EC4.1.1.7 benzaldehyde pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 77.0 * +EC4.1.1.7 benzoylformate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.059 * +EC4.1.1.7 benzoylformate pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.69 * +EC4.1.1.7 benzylformate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC4.1.1.7 methyl benzoylphosphonate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.76 * +EC4.1.1.7 p-nitro-benzoylformate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.15 * +EC4.1.1.7 phenylglyoxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.27 * +EC4.1.1.70 glutaconyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 6.0 * +EC4.1.1.70 glutaryl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.0 * +EC4.1.1.71 2-oxoglutarate euglena gracilis//*//* 0.33 * +EC4.1.1.71 2-oxoglutarate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.48 * +EC4.1.1.71 2-oxoglutarate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 1.0 * +EC4.1.1.72 (indol-3-yl)pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.09 * +EC4.1.1.72 2-oxo-3-methylpentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 20.25 * +EC4.1.1.72 2-oxo-3-phenylpropanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.127 * +EC4.1.1.72 2-oxobutanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.58 * +EC4.1.1.72 2-oxobutyrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 138.3 * +EC4.1.1.72 2-oxohexanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.83 * +EC4.1.1.72 2-oxohexanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.6 * +EC4.1.1.72 2-oxoisocaproate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.57 * +EC4.1.1.72 2-oxoisohexanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC4.1.1.72 2-oxoisovalerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 300.0 * +EC4.1.1.72 2-oxoisovalerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.9 * +EC4.1.1.72 2-oxoisovalerate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 8.31 * +EC4.1.1.72 2-oxomethylvalerate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 3.49 * +EC4.1.1.72 2-oxopentanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.44 * +EC4.1.1.72 2-oxopentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.21 * +EC4.1.1.72 2-oxopentanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.3 * +EC4.1.1.72 2-oxopropanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 29.77 * +EC4.1.1.72 3-(4-hydroxyphenyl)-2-oxopropanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.63 * +EC4.1.1.72 3-methyl-2-oxobutanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.02 * +EC4.1.1.72 3-methyl-2-oxopentanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.87 * +EC4.1.1.72 4-(methylsulfanyl)-2-oxobutanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.3 * +EC4.1.1.72 4-methyl-2-oxopentanoic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.264 * +EC4.1.1.72 4-methylthio-2-oxobutanoate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.43 * +EC4.1.1.72 benzoylformate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 26.11 * +EC4.1.1.72 indole-3-pyruvate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.234 * +EC4.1.1.72 l-3-methyl-2-oxopentanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.001 * +EC4.1.1.72 oxo(phenyl)acetic acid lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 7.5 * +EC4.1.1.72 phenylpyruvate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.2 * +EC4.1.1.72 phenylpyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.17 * +EC4.1.1.72 pyruvate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 33.0 * +EC4.1.1.72 pyruvate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.4 * +EC4.1.1.72 thiamine diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00063 * +EC4.1.1.73 l-tartrate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.0 * +EC4.1.1.73 nad+ pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC4.1.1.74 3-(indol-3-yl)pyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.015 * +EC4.1.1.74 3-(indol-3-yl)pyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.025 * +EC4.1.1.74 4-bromo-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.019 * +EC4.1.1.74 4-chloro-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.048 * +EC4.1.1.74 4-ethyl-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.111 * +EC4.1.1.74 4-fluoro-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.62 * +EC4.1.1.74 4-hydroxyphenylpyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 5.86 * +EC4.1.1.74 4-methoxy-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.05 * +EC4.1.1.74 4-methyl-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.127 * +EC4.1.1.74 4-nitro-benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.005 * +EC4.1.1.74 benzaldehyde sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.395 * +EC4.1.1.74 benzoylformate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 7.3 * +EC4.1.1.74 benzoylformic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.65 * +EC4.1.1.74 glyceraldehyde sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.042 * +EC4.1.1.74 indole-3-acetaldehyde sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.009 * +EC4.1.1.74 indole-3-pyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 0.02 * +EC4.1.1.74 indole-3-pyruvate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.788 * +EC4.1.1.74 phenylacetaldehyde sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 0.105 * +EC4.1.1.74 phenylpyruvate sulfolobus sp.//prokaryotes;archaea;crenarchaeota;sulfolobus//sula 1.66 * +EC4.1.1.74 pyruvate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 3.38 * +EC4.1.1.74 pyruvate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 43.3 * +EC4.1.1.74 pyruvic acid enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.5 * +EC4.1.1.76 (1e)-but-1-en-1-yl(methyl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 14.4 * +EC4.1.1.76 1-naphthylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 6.09 * +EC4.1.1.76 2-hydroxy-2-phenylmalonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 30.2 * +EC4.1.1.76 2-methyl-2-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 26.9 * +EC4.1.1.76 2-methyl-2-phenylmalonate chelativorans sp. bnc1//prokaryotes;bacteria;alphaproteobacteria;chelativorans//mes 22.2 * +EC4.1.1.76 2-naphthylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 19.4 * +EC4.1.1.76 2-phenyl-2-methylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 9.9 * +EC4.1.1.76 2-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 5.1 * +EC4.1.1.76 2-thienylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 87.4 * +EC4.1.1.76 2-vinyl-2-methylmalonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 7.8 * +EC4.1.1.76 alpha-methyl-alpha(2-thienyl)malonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 12.5 * +EC4.1.1.76 alpha-methyl-alpha-(alpha-thienyl)malonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 12.5 * +EC4.1.1.76 alpha-methyl-alpha-(beta-naphthyl)malonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.43 * +EC4.1.1.76 alpha-methyl-alpha-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 25.5 * +EC4.1.1.76 alpha-phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 13.3 * +EC4.1.1.76 hydroxy(2-methylprop-1-en-1-yl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 7.3 * +EC4.1.1.76 hydroxy[(1e)-prop-1-en-1-yl]propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 9.1 * +EC4.1.1.76 m-chlorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 9.84 * +EC4.1.1.76 m-fluorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 35.7 * +EC4.1.1.76 methyl(2-methylprop-1-en-1-yl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 3.5 * +EC4.1.1.76 methyl(2-naphthyl)malonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 0.43 * +EC4.1.1.76 methyl(2-thienyl)malonic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 12.5 * +EC4.1.1.76 methyl(phenyl)propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 26.9 * +EC4.1.1.76 methyl[(1e)-prop-1-en-1-yl]propanedioic acid bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 12.8 * +EC4.1.1.76 o-chlorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 12.6 * +EC4.1.1.76 o-fluorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 27.5 * +EC4.1.1.76 p-chlorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 8.32 * +EC4.1.1.76 p-fluorophenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 13.5 * +EC4.1.1.76 p-methoxyphenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 9.36 * +EC4.1.1.76 p-methylphenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 8.89 * +EC4.1.1.76 phenylmalonate alkaliphilus metalliredigens qymf//*//* 123.0 * +EC4.1.1.76 phenylmalonate bordetella bronchiseptica//prokaryotes;bacteria;betaproteobacteria;bordetella//bbr 10.0 * +EC4.1.1.76 phenylmalonate chelativorans sp. bnc1//prokaryotes;bacteria;alphaproteobacteria;chelativorans//mes 9.6 * +EC4.1.1.76 phenylmalonate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 41.7 * +EC4.1.1.77 2-oxo-3-hexenedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 68.0 * +EC4.1.1.77 4-oxalocrotonate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0066 * +EC4.1.1.78 acetylene dicarboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.07 * +EC4.1.1.79 sulfopyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.64 * +EC4.1.1.8 oxalyl-coa cupriavidus oxalaticus//*//* 1.0 * +EC4.1.1.8 oxalyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0048 * +EC4.1.1.8 oxalyl-coa oxalobacter formigenes//prokaryotes;bacteria;betaproteobacteria;oxalobacter//ofo 0.023 * +EC4.1.1.80 4-hydroxyphenylpyruvate berberis stolonifera//*//* 0.67 * +EC4.1.1.82 3-phosphonopyruvate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.0032 * +EC4.1.1.82 3-phosphonopyruvate streptomyces viridochromogenes//*//* 0.0032 * +EC4.1.1.82 ca2+ bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.078 * +EC4.1.1.82 mg2+ bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.082 * +EC4.1.1.82 mn2+ bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.013 * +EC4.1.1.82 thiamine diphosphate bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.013 * +EC4.1.1.83 (3,4-dihydroxyphenyl)acetate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.5 * +EC4.1.1.83 (4-hydroxyphenyl)acetate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.649 * +EC4.1.1.83 (4-hydroxyphenyl)acetate clostridium scatologenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//csq 0.358 * +EC4.1.1.83 3,4-dihydroxyphenylacetate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.41 * +EC4.1.1.83 3,4-dihydroxyphenylacetate clostridium scatologenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//csq 0.388 * +EC4.1.1.84 d-dopachrome homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC4.1.1.84 d-dopachrome rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC4.1.1.86 dl-2,4-diaminobutanoate vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.3 * +EC4.1.1.86 l-2,4-diaminobutanoate acinetobacter calcoaceticus//*//* 0.91 * +EC4.1.1.86 l-2,4-diaminobutanoate anabaena variabilis//*//* 0.54 * +EC4.1.1.86 l-2,4-diaminobutanoate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.32 * +EC4.1.1.86 l-2,4-diaminobutanoate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.32 * +EC4.1.1.86 l-2,4-diaminobutanoate vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.081 * +EC4.1.1.86 l-2,4-diaminobutyrate vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 0.17 * +EC4.1.1.86 l-lysine anabaena variabilis//*//* 0.3 * +EC4.1.1.86 l-ornithine vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 11.1 * +EC4.1.1.86 mg2+ klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.3 * +EC4.1.1.86 mg2+ serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 1.2 * +EC4.1.1.86 pyridoxal 5'-phosphate vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.0056 * +EC4.1.1.87 malonyl-coa acinetobacter calcoaceticus//*//* 1.2 * +EC4.1.1.88 malonate acinetobacter calcoaceticus//*//* 0.11 * +EC4.1.1.9 malonyl-coa aix sponsa//*//* 0.033 * +EC4.1.1.9 malonyl-coa anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.05 * +EC4.1.1.9 malonyl-coa anser domesticus//*//* 0.1 * +EC4.1.1.9 malonyl-coa anser sp.//*//* 0.1 * +EC4.1.1.9 malonyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.065 * +EC4.1.1.9 malonyl-coa branta leucopsis//*//* 0.1 * +EC4.1.1.9 malonyl-coa cairina moschata//*//* 0.032 * +EC4.1.1.9 malonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0087 * +EC4.1.1.9 malonyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2 * +EC4.1.1.9 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.042 * +EC4.1.1.9 malonyl-coa rhizobium leguminosarum//prokaryotes;bacteria;alphaproteobacteria;rhizobium//rle 0.47 * +EC4.1.1.9 malonyl-coa saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.143 * +EC4.1.1.9 n-hydroxy-l-ornithine saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.025 * +EC4.1.1.90 28-residue peptides based on residues -18 to +10 of human proprothrombin conus textile//*//* 0.0017 * +EC4.1.1.90 co2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC4.1.1.90 conotoxin epsilon-txix conus textile//*//* 0.565 * +EC4.1.1.90 fleel bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC4.1.1.90 fleel conus textile//*//* 0.42 * +EC4.1.1.90 fleel homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.54 * +EC4.1.1.90 precursor analog containing 12 of the propeptide region conus textile//*//* 0.075 * +EC4.1.1.90 precursor analog containing 29 amino acids of the propeptide region conus textile//*//* 0.074 * +EC4.1.1.90 profactor ix conus textile//*//* 0.006 * +EC4.1.1.90 tvfldhenankilnrpkrantbleevrk bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0068 * +EC4.1.1.90 vitamin k1 conus textile//*//* 0.052 * +EC4.1.1.90 vitamin kh2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.004 * +EC4.1.1.90 yvfldhqdadanlilnrpkr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0023 * +EC4.1.1.91 phenol trichosporon moniliiforme//*//* 123.0 * +EC4.1.1.91 salicylate trichosporon moniliiforme//*//* 1.08 * +EC4.1.1.92 indole-3-carboxylate glutamicibacter nicotianae//*//* 0.631 * +EC4.1.1.92 indole glutamicibacter nicotianae//*//* 0.719 * +EC4.1.1.93 hco3- bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 560.0 * +EC4.1.1.93 pyrrole bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 61.0 * +EC4.1.1.96 carboxynorspermidine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 2.1 * +EC4.1.1.96 carboxynorspermidine vibrio alginolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vag 0.175 * +EC4.1.1.96 carboxynorspermidine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.27 * +EC4.1.1.96 carboxyspermidine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 4.1 * +EC4.1.1.96 carboxyspermidine vibrio vulnificus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vvu 0.1 * +EC4.1.1.99 atp haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.289 * +EC4.1.1.99 mevalonate 5-phosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.075 * +EC4.1.1.B12 l-lysine echinosophora koreensis//*//* 3.85 * +EC4.1.1.B12 l-lysine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 2.37 * +EC4.1.1.B12 l-lysine sophora flavescens//*//* 2.1 * +EC4.1.1.B12 l-ornithine echinosophora koreensis//*//* 1.32 * +EC4.1.1.B12 l-ornithine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 1.05 * +EC4.1.1.B12 l-ornithine sophora flavescens//*//* 1.53 * +EC4.1.1.B4 udp-n-acetylglucosaminuronic acid bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.067 * +EC4.1.2.10 (r)-4-hydroxymandelonitrile arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.4 * +EC4.1.2.10 (r)-mandelonitrile eriobotrya japonica//*//* 0.161 * +EC4.1.2.10 (r)-mandelonitrile granulicella tundricola//prokaryotes;bacteria;acidobacteria;granulicella//acm 10.3 * +EC4.1.2.10 (r)-mandelonitrile prunus pseudoarmeniaca//*//* 1.03 * +EC4.1.2.10 (r)-mandelonitrile prunus turcomanica//*//* 0.38 * +EC4.1.2.10 2-naphthaldehyde eriobotrya japonica//*//* 1.1 * +EC4.1.2.10 4-hydroxybenzaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.0 * +EC4.1.2.10 benzaldehyde arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 6.0 * +EC4.1.2.10 benzaldehyde eriobotrya japonica//*//* 11.5 * +EC4.1.2.10 benzaldehyde phlebodium aureum//*//* 0.83 * +EC4.1.2.10 benzaldehyde prunus mume//eukaryotes;plants;eudicots;rose family//pmum 5.3 * +EC4.1.2.10 benzaldehyde prunus turcomanica//*//* 1.0 * +EC4.1.2.10 isobutyraldehyde eriobotrya japonica//*//* 41.8 * +EC4.1.2.10 p-anisaldehyde eriobotrya japonica//*//* 3.5 * +EC4.1.2.10 piperonal eriobotrya japonica//*//* 2.6 * +EC4.1.2.10 pivaldehyde eriobotrya japonica//*//* 39.3 * +EC4.1.2.10 propionaldehyde eriobotrya japonica//*//* 99.9 * +EC4.1.2.11 (r,s)-mandelonitrile ximenia americana//*//* 0.28 * +EC4.1.2.11 (s)-4-hydroxymandelonitrile manihot esculenta//*//* 4.1 * +EC4.1.2.11 4-hydroxybenzaldehyde manihot esculenta//*//* 5.9 * +EC4.1.2.11 4-hydroxymandelonitrile sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.55 * +EC4.1.2.11 cyanide manihot esculenta//*//* 179.0 * +EC4.1.2.11 d,l-hydroxymandelonitrile sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.7 * +EC4.1.2.11 d,l-isovanillin cyanohydrin sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 1.2 * +EC4.1.2.11 d,l-mandelonitrile sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.79 * +EC4.1.2.11 d,l-vanillin cyanohydrin sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.73 * +EC4.1.2.13 d-fructose 1,6-bisphosphate anoxybacillus gonensis//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//agn 0.576 * +EC4.1.2.13 d-fructose 1,6-bisphosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 4.2 * +EC4.1.2.13 d-fructose 1,6-bisphosphate ascaris suum//*//* 0.001 * +EC4.1.2.13 d-fructose 1,6-bisphosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.45 * +EC4.1.2.13 d-fructose 1,6-bisphosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 0.16 * +EC4.1.2.13 d-fructose 1,6-bisphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0081 * +EC4.1.2.13 d-fructose 1,6-bisphosphate callospermophilus lateralis//*//* 0.0009 * +EC4.1.2.13 d-fructose 1,6-bisphosphate cenarchaeum symbiosum//prokaryotes;archaea;thaumarchaeota;cenarchaeum//csy 0.1 * +EC4.1.2.13 d-fructose 1,6-bisphosphate ceratitis capitata//*//* 0.0043 * +EC4.1.2.13 d-fructose 1,6-bisphosphate chara foetida//*//* 0.00065 * +EC4.1.2.13 d-fructose 1,6-bisphosphate cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.1 * +EC4.1.2.13 d-fructose 1,6-bisphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.006 * +EC4.1.2.13 d-fructose 1,6-bisphosphate edwardsiella ictaluri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;edwardsiella//eic 0.15 * +EC4.1.2.13 d-fructose 1,6-bisphosphate epiblema scudderiana//*//* 0.00113 * +EC4.1.2.13 d-fructose 1,6-bisphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC4.1.2.13 d-fructose 1,6-bisphosphate euglena gracilis//*//* 0.012 * +EC4.1.2.13 d-fructose 1,6-bisphosphate galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.0056 * +EC4.1.2.13 d-fructose 1,6-bisphosphate giardia intestinalis//*//* 0.0017 * +EC4.1.2.13 d-fructose 1,6-bisphosphate haloarcula vallismortis//*//* 0.38 * +EC4.1.2.13 d-fructose 1,6-bisphosphate haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 2.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.24 * +EC4.1.2.13 d-fructose 1,6-bisphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 20.0 * +EC4.1.2.13 d-fructose 1,6-bisphosphate helix pomatia//*//* 0.0003 * +EC4.1.2.13 d-fructose 1,6-bisphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC4.1.2.13 d-fructose 1,6-bisphosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.049 * +EC4.1.2.13 d-fructose 1,6-bisphosphate lethenteron camtschaticum//*//* 0.0048 * +EC4.1.2.13 d-fructose 1,6-bisphosphate magnaporthe grisea//*//* 0.051 * +EC4.1.2.13 d-fructose 1,6-bisphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.0052 * +EC4.1.2.13 d-fructose 1,6-bisphosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.002 * +EC4.1.2.13 d-fructose 1,6-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.02 * +EC4.1.2.13 d-fructose 1,6-bisphosphate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.05 * +EC4.1.2.13 d-fructose 1,6-bisphosphate nocardia asteroides//*//* 1.8 * +EC4.1.2.13 d-fructose 1,6-bisphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.00084 * +EC4.1.2.13 d-fructose 1,6-bisphosphate pagrus major//*//* 0.025 * +EC4.1.2.13 d-fructose 1,6-bisphosphate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.000547 * +EC4.1.2.13 d-fructose 1,6-bisphosphate pisum sativum//*//* 0.0016 * +EC4.1.2.13 d-fructose 1,6-bisphosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.035 * +EC4.1.2.13 d-fructose 1,6-bisphosphate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC4.1.2.13 d-fructose 1,6-bisphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0089 * +EC4.1.2.13 d-fructose 1,6-bisphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00016 * +EC4.1.2.13 d-fructose 1,6-bisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.055 * +EC4.1.2.13 d-fructose 1,6-bisphosphate scomber japonicus//*//* 0.074 * +EC4.1.2.13 d-fructose 1,6-bisphosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.0023 * +EC4.1.2.13 d-fructose 1,6-bisphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0401 * +EC4.1.2.13 d-fructose 1,6-bisphosphate staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 0.0146 * +EC4.1.2.13 d-fructose 1,6-bisphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.15 * +EC4.1.2.13 d-fructose 1,6-bisphosphate synechococcus elongatus pcc 7942//*//* 0.16 * +EC4.1.2.13 d-fructose 1,6-bisphosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.009 * +EC4.1.2.13 d-fructose 1,6-bisphosphate thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 0.305 * +EC4.1.2.13 d-fructose 1,6-bisphosphate trachemys scripta elegans//*//* 0.00018 * +EC4.1.2.13 d-fructose 1,6-bisphosphate triticum aestivum//*//* 0.0011 * +EC4.1.2.13 d-fructose 1,6-bisphosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0092 * +EC4.1.2.13 d-fructose 1,6-bisphosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0167 * +EC4.1.2.13 d-fructose 1,6-bisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.002 * +EC4.1.2.13 d-fructose 1-phosphate haloarcula vallismortis//*//* 28.0 * +EC4.1.2.13 d-fructose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC4.1.2.13 d-fructose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.723 * +EC4.1.2.13 d-fructose-1,6-bisphosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.45 * +EC4.1.2.13 d-fructose-1,6-bisphosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.05 * +EC4.1.2.13 d-fructose-1,6-bisphosphate magnaporthe grisea//*//* 0.051 * +EC4.1.2.13 d-fructose-1,6-bisphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.43 * +EC4.1.2.13 d-fructose-1,6-bisphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.01503 * +EC4.1.2.13 d-fructose-1,6-bisphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.055 * +EC4.1.2.13 d-fructose-1,6-bisphosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.035 * +EC4.1.2.13 d-fructose-1,6-bisphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.45 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 0.25 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 1.17 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.052 * +EC4.1.2.13 d-glyceraldehyde 3-phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.19 * +EC4.1.2.13 d-xylulose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC4.1.2.13 dihydroxyacetone phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.095 * +EC4.1.2.13 fructose 1,6-bisphosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.009 * +EC4.1.2.13 fructose 1,6-bisphosphate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.0036 * +EC4.1.2.13 fructose 1-phosphate ascaris suum//*//* 2.0 * +EC4.1.2.13 fructose 1-phosphate ceratitis capitata//*//* 1.5 * +EC4.1.2.13 fructose 1-phosphate helix pomatia//*//* 1.0 * +EC4.1.2.13 fructose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC4.1.2.13 fructose 1-phosphate lethenteron camtschaticum//*//* 9.3 * +EC4.1.2.13 fructose 1-phosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 10.0 * +EC4.1.2.13 fructose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC4.1.2.13 fructose 1-phosphate pisum sativum//*//* 0.007 * +EC4.1.2.13 fructose 1-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 4.48 * +EC4.1.2.13 fructose 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC4.1.2.13 fructose 1-phosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 2.9 * +EC4.1.2.13 fructose 1-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.7 * +EC4.1.2.13 fructose 1-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 3.8 * +EC4.1.2.13 fructose 1-phosphate staphylococcus carnosus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sca 18.8 * +EC4.1.2.13 fructose 1-phosphate thermoproteus tenax//prokaryotes;archaea;crenarchaeota;thermoproteus//ttn 0.71 * +EC4.1.2.13 fructose 1-phosphate triticum aestivum//*//* 0.0103 * +EC4.1.2.13 fructose 1-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.9 * +EC4.1.2.13 fructose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 1.4 * +EC4.1.2.13 glyceraldehyde 3-phosphate ceratitis capitata//*//* 0.057 * +EC4.1.2.13 glyceraldehyde 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.3 * +EC4.1.2.13 glycerone phosphate bacillus methanolicus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmet 1.0 * +EC4.1.2.13 glycerone phosphate ceratitis capitata//*//* 0.065 * +EC4.1.2.13 glycerone phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC4.1.2.13 glycerone phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.171 * +EC4.1.2.13 glycerone phosphate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.19 * +EC4.1.2.13 sedoheptulose 1,7-bisphosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.19 * +EC4.1.2.13 sedoheptulose 1,7-diphosphate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.006 * +EC4.1.2.13 sedoheptulose 1,7-diphosphate synechococcus elongatus pcc 7942//*//* 10.0 * +EC4.1.2.13 sedoheptulose 7-phosphate triticum aestivum//*//* 0.0195 * +EC4.1.2.13 sedoheptulose 7-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.0167 * +EC4.1.2.14 (4s)-2-oxo-4-hydroxy-4-(2'-pyridyl)butanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.0 * +EC4.1.2.14 2-dehydro-3-deoxy-6-phospho-d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.2.14 2-dehydro-3-deoxy-d-gluconate 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC4.1.2.14 2-dehydro-3-deoxy-d-gluconate 6-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.2 * +EC4.1.2.14 2-dehydro-3-deoxy-d-gluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC4.1.2.14 2-dehydro-4-hydroxy-4-(2'-pyridyl)butyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.0 * +EC4.1.2.14 2-dehydro-4-hydroxyoctonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 150.0 * +EC4.1.2.14 2-keto-3-deoxy-6-phosphogluconate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.1 * +EC4.1.2.14 4-hydroxy-2-oxooctonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 146.0 * +EC4.1.2.14 6-phospho-2-dehydro-3-deoxy-d-gluconate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.038 * +EC4.1.2.14 6-phospho-2-dehydro-3-deoxy-d-gluconate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 10.5 * +EC4.1.2.14 6-phospho-2-dehydro-3-deoxy-d-gluconate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.11 * +EC4.1.2.14 6-phospho-2-dehydro-3-deoxy-d-gluconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.073 * +EC4.1.2.14 6-phospho-2-dehydro-3-deoxy-d-gluconate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.053 * +EC4.1.2.14 d-2-dehydro-deoxygluconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC4.1.2.17 d-glyceraldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.743 * +EC4.1.2.17 dihydroxyacetone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 54.7 * +EC4.1.2.17 dihydroxyacetone phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.091 * +EC4.1.2.17 dl-glyceraldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.743 * +EC4.1.2.17 glycerone phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.01 * +EC4.1.2.17 l-fuculose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC4.1.2.17 l-glyceraldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.743 * +EC4.1.2.18 2-keto-3-deoxy-d-fuconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.9 * +EC4.1.2.18 2-keto-3-deoxy-d-xylonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.97 * +EC4.1.2.18 2-keto-3-deoxy-l-arabonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.8 * +EC4.1.2.19 d-sorbose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC4.1.2.19 dihydroxyacetone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC4.1.2.19 dihydroxyacetone escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1125.0 * +EC4.1.2.19 glycerone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.1.2.19 l-lactaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.2.19 l-rhamnulose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.1.2.19 l-xylulose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.1.2.20 2-dehydro-3-deoxy-6-phospho-d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 8.0 * +EC4.1.2.20 2-dehydro-3-deoxy-d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.3 * +EC4.1.2.20 2-dehydro-3-deoxy-l-rhamnonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.078 * +EC4.1.2.20 2-keto-3-deoxy-l-lyxonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC4.1.2.20 2-keto-3-deoxy-l-mannonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC4.1.2.20 4-hydroxy-2-ketoheptane-1,7-dioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.2.20 4-hydroxy-2-ketohexanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC4.1.2.20 4-hydroxy-2-ketopentanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.2.20 5-dehydro-4-deoxy-d-glucarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.5e-05 * +EC4.1.2.21 2-dehydro-3-deoxy-d-galactonate 6-phosphate pelomonas saccharophila//*//* 0.05 * +EC4.1.2.21 d-erythrose 4-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.57 * +EC4.1.2.22 d-fructose 6-phosphate bifidobacterium animalis subsp. lactis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bla 10.0 * +EC4.1.2.22 d-fructose 6-phosphate bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 9.7 * +EC4.1.2.22 d-fructose 6-phosphate lactobacillus paraplantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpx 5.08 * +EC4.1.2.22 d-xylulose 5-phosphate bifidobacterium animalis subsp. lactis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bla 45.0 * +EC4.1.2.22 fructose 6-phosphate bifidobacterium dentium//prokaryotes;bacteria;actinobacteria;bifidobacterium//bde 39.0 * +EC4.1.2.22 fructose 6-phosphate bifidobacterium pseudolongum subsp. globosum//*//* 1.4 * +EC4.1.2.22 fructose 6-phosphate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 2.5 * +EC4.1.2.22 phosphate bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 1.2 * +EC4.1.2.22 phosphate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 0.87 * +EC4.1.2.23 3-deoxy-d-manno-octulosonate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 6.0 * +EC4.1.2.23 3-deoxy-d-manno-octulosonate microbacterium barkeri//*//* 1.2 * +EC4.1.2.23 l-arabinose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 199.0 * +EC4.1.2.23 n-acetyl-d-mannosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 181.0 * +EC4.1.2.24 n,n-dimethyl-p-toluidine n-oxide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 15.0 * +EC4.1.2.24 n,n-dimethylaniline n-oxide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 33.0 * +EC4.1.2.24 n,n-dimethylnaphthylamine n-oxide sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.0 * +EC4.1.2.25 2-amino-4-hydroxy-6-(d-erythro-1,2,3-trihydroxypropyl)-7,8-dihydropteridine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC4.1.2.25 2-amino-4-hydroxy-6-(d-erythro-1,2,3-trihydroxypropyl)-7,8-dihydropteridine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.021 * +EC4.1.2.25 2-amino-4-hydroxy-6-(d-erythro-1,2,3-trihydroxypropyl)-7,8-dihydropteridine pneumocystis carinii//*//* 0.0023 * +EC4.1.2.25 7,8-dihydro-l-monapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.0 * +EC4.1.2.25 7,8-dihydro-l-monapterin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0055 * +EC4.1.2.25 7,8-dihydromonapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC4.1.2.25 7,8-dihydromonapterin haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.016 * +EC4.1.2.25 7,8-dihydromonapterin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00017 * +EC4.1.2.25 7,8-dihydroneopterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0074 * +EC4.1.2.25 7,8-dihydroneopterin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.00016 * +EC4.1.2.25 7,8-dihydroneopterin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0046 * +EC4.1.2.25 glycoaldehyde staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 10.0 * +EC4.1.2.26 l-allo-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 22.0 * +EC4.1.2.26 l-erythro-3-phenylserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.6 * +EC4.1.2.26 l-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 29.0 * +EC4.1.2.26 l-threo-3-phenylserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.3 * +EC4.1.2.26 l-threo-phenylserine caulobacter vibrioides//*//* 0.035 * +EC4.1.2.27 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene-labeled sphinganine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.035 * +EC4.1.2.27 c17-sphinganine-1-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.006 * +EC4.1.2.27 d(+)-erythro-dihydrosphingosine-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC4.1.2.27 deoxysphinganine 1-phosphonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC4.1.2.27 dihydrosphingosine 1-phosphonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0201 * +EC4.1.2.27 sphinganine 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC4.1.2.27 sphinganine 1-phosphate tetrahymena pyriformis//*//* 0.11 * +EC4.1.2.27 sphinganine-phosphate tetrahymena pyriformis//*//* 0.11 * +EC4.1.2.27 sphingosine 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0146 * +EC4.1.2.27 sphingosine 1-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0057 * +EC4.1.2.28 3-deoxy-d-pentonate acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.97 * +EC4.1.2.29 6-phospho-5-dehydro-2-deoxy-d-gluconate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.037 * +EC4.1.2.32 benzyldimethylamine n-oxide aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 140.0 * +EC4.1.2.32 trimethylamine n-oxide aminobacter aminovorans//prokaryotes;bacteria;alphaproteobacteria;aminobacter//aak 2.0 * +EC4.1.2.32 trimethylamine n-oxide bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.85 * +EC4.1.2.32 trimethylamine n-oxide dosidicus gigas//*//* 26.2 * +EC4.1.2.32 trimethylamine n-oxide urophycis chuss//*//* 2.7 * +EC4.1.2.33 (24rs,28rs)-fucosterol epoxide manduca sexta//*//* 0.0007 * +EC4.1.2.34 (e)-2'-carboxybenzylidenepyruvate nocardioides sp.//prokaryotes;bacteria;actinobacteria;nocardioides//nca 0.05 * +EC4.1.2.34 2'-carboxybenzalpyruvate uncultured bacterium//*//* 0.047 * +EC4.1.2.38 (r)-3,3',5,5'-tetramethoxy-benzoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.975 * +EC4.1.2.38 (r)-3,3'-dimethoxybenzoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.06 * +EC4.1.2.38 2-hydroxypropiophenone pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.3 * +EC4.1.2.38 3,5-dimethoxy-benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.005 * +EC4.1.2.38 3-methoxybenzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.1 * +EC4.1.2.38 acetaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 6.0 * +EC4.1.2.38 anisoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0325 * +EC4.1.2.38 benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.2 * +EC4.1.2.38 benzoin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.009 * +EC4.1.2.38 propanal pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 415.0 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate aciduliprofundum boonei//prokaryotes;archaea;euryarchaeota;aciduliprofundum//abi 0.1 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.057 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.44 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.64 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate hyperthermus butylicus//prokaryotes;archaea;crenarchaeota;hyperthermus//hbu 0.15 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate paenibacillus sp.//prokaryotes;bacteria;firmicutes - bacilli;paenibacillus//pjd 145.0 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.066 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.17 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 4.84 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.1 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.81 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.02 * +EC4.1.2.4 2-deoxy-d-ribose 5-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.056 * +EC4.1.2.4 2-deoxy-d-ribose-5-phosphate yersinia sp. ea015//*//* 9.1 * +EC4.1.2.4 2-deoxy-d-ribose rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 418.0 * +EC4.1.2.4 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC4.1.2.4 acetaldehyde lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.1 * +EC4.1.2.4 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.267 * +EC4.1.2.4 acetaldehyde salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.5 * +EC4.1.2.4 chloroacetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 54.6 * +EC4.1.2.4 d-2-deoxyribose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 57.0 * +EC4.1.2.4 d-glyceraldehyde 3-phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.71 * +EC4.1.2.4 d-glyceraldehyde 3-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC4.1.2.4 d-glyceraldehyde 3-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.6 * +EC4.1.2.40 d-fructose 1,6-diphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.5 * +EC4.1.2.40 d-fructose 1,6-diphosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.498 * +EC4.1.2.40 d-tagatose 1,6-diphosphate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.4 * +EC4.1.2.40 d-tagatose 1,6-diphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.5 * +EC4.1.2.40 d-tagatose 1,6-diphosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.199 * +EC4.1.2.40 fructose 1,6-diphosphate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.25 * +EC4.1.2.40 tagatose 1,6-diphosphate lactococcus lactis subsp. cremoris//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//llc 0.1 * +EC4.1.2.42 d-allo-threonine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.3 * +EC4.1.2.42 d-allo-threonine xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 0.99 * +EC4.1.2.42 d-threonine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.81 * +EC4.1.2.42 d-threonine xanthomonas oryzae//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xoo 0.94 * +EC4.1.2.42 dl-erythro-beta-(3,4-methylenedioxyphenylserine) arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.0 * +EC4.1.2.42 dl-erythro-phenylserine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.9 * +EC4.1.2.42 dl-threo-beta-(3,4-dihydroxyphenylserine) arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.2 * +EC4.1.2.42 dl-threo-beta-(3,4-methylenedioxyphenylserine) arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.8 * +EC4.1.2.42 dl-threo-phenylserine arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 5.4 * +EC4.1.2.43 d-arabino-hex-3-ulose 6-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.075 * +EC4.1.2.43 d-ribulose 5-phosphate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.0045 * +EC4.1.2.43 d-ribulose 5-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.083 * +EC4.1.2.43 d-ribulose 5-phosphate methylomonas aminofaciens//*//* 0.059 * +EC4.1.2.43 d-ribulose 5-phosphate methylomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;methylomonas//mdh 1.6 * +EC4.1.2.43 d-ribulose 5-phosphate methylophilus methylotrophus//*//* 0.136 * +EC4.1.2.43 d-ribulose 5-phosphate mycobacterium gastri//*//* 1.49 * +EC4.1.2.43 d-ribulose 5-phosphate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.11 * +EC4.1.2.43 formaldehyde bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.00147 * +EC4.1.2.43 formaldehyde methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.49 * +EC4.1.2.43 formaldehyde methylomonas aminofaciens//*//* 0.29 * +EC4.1.2.43 formaldehyde methylomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;methylomonas//mdh 1.1 * +EC4.1.2.43 formaldehyde methylophilus methylotrophus//*//* 0.53 * +EC4.1.2.43 formaldehyde mycobacterium gastri//*//* 1.4 * +EC4.1.2.43 formaldehyde pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.14 * +EC4.1.2.43 glycolaldehyde mycobacterium gastri//*//* 4.3 * +EC4.1.2.43 methylglyoxal mycobacterium gastri//*//* 5.7 * +EC4.1.2.44 2,3-dihydro-2,3-dihydroxybenzoyl-coa azoarcus evansii//*//* 0.017 * +EC4.1.2.45 (3e)-4-(2,4-dihydroxyphenyl)-2-oxobut-3-enoate sphingobium xenophagum//*//* 0.015 * +EC4.1.2.45 (3e)-4-(2,6-dihydroxyphenyl)-2-oxobut-3-enoate sphingobium xenophagum//*//* 0.006 * +EC4.1.2.45 (3e)-4-(2-hydroxyphenyl)-2-oxobut-3-enoate sphingobium xenophagum//*//* 0.017 * +EC4.1.2.45 (3e)-4-(2-hydroxyphenyl)-2-oxobut-3-enoate sphingomonas paucimobilis//*//* 0.003 * +EC4.1.2.45 benzaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 8.98 * +EC4.1.2.45 benzylidenepyruvate sphingobium xenophagum//*//* 0.4 * +EC4.1.2.45 salicylaldehyde pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.58 * +EC4.1.2.46 (2r)-2-hydroxy-2-methylbutanenitrile linum usitatissimum//*//* 1.25 * +EC4.1.2.46 2-hydroxy-2-methylpropanenitrile linum usitatissimum//*//* 2.5 * +EC4.1.2.47 (s)-2-nitro-1-phenylethanol hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 2.6 * +EC4.1.2.47 (s)-mandelonitrile hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 1.2 * +EC4.1.2.47 (s)-mandelonitrile manihot esculenta//*//* 1.4 * +EC4.1.2.47 2,4-dimethylbenzaldehyde baliospermum montanum//*//* 5.2 * +EC4.1.2.47 2-hydroxy-2-methylpropanenitrile manihot esculenta//*//* 67.0 * +EC4.1.2.47 2-methyl-2-hydroxybutyronitrile hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.8 * +EC4.1.2.47 2-methylbenzaldehyde baliospermum montanum//*//* 21.7 * +EC4.1.2.47 3,3-dimethyl-2-butanone manihot esculenta//*//* 161.5 * +EC4.1.2.47 3-methoxybenzaldehyde baliospermum montanum//*//* 9.8 * +EC4.1.2.47 3-methylbenzaldehyde baliospermum montanum//*//* 14.4 * +EC4.1.2.47 acetone cyanohydrin hevea brasiliensis//eukaryotes;plants;eudicots;spurge family//hbr 0.7 * +EC4.1.2.47 acetone cyanohydrin manihot esculenta//*//* 4.0 * +EC4.1.2.47 acetyltrimethylsilane manihot esculenta//*//* 61.5 * +EC4.1.2.47 benzaldehyde baliospermum montanum//*//* 5.5 * +EC4.1.2.47 benzaldehyde manihot esculenta//*//* 2.0 * +EC4.1.2.47 cn- manihot esculenta//*//* 0.93 * +EC4.1.2.47 cyanide manihot esculenta//*//* 179.0 * +EC4.1.2.47 mandelonitrile manihot esculenta//*//* 1.4 * +EC4.1.2.47 piperonal baliospermum montanum//*//* 15.7 * +EC4.1.2.48 dl-erythro-phenylserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC4.1.2.48 dl-threo-(3-methylsulfonylphenyl)serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.6 * +EC4.1.2.48 dl-threo-(3-nitrophenyl)serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 21.5 * +EC4.1.2.48 dl-threo-phenylserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC4.1.2.48 l-4-hydroxythreonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC4.1.2.48 l-allo-threonine caulobacter vibrioides//*//* 0.69 * +EC4.1.2.48 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.052 * +EC4.1.2.48 l-allo-threonine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.6 * +EC4.1.2.48 l-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 10.0 * +EC4.1.2.48 l-erythro-phenylserine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 10.2 * +EC4.1.2.48 l-threo-beta-3,4-dihydroxyphenylserine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.3 * +EC4.1.2.48 l-threo-beta-3,4-methylenedioxyphenylserine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.4 * +EC4.1.2.48 l-threo-phenylserine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 7.3 * +EC4.1.2.48 l-threonine caulobacter vibrioides//*//* 13.6 * +EC4.1.2.48 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.85 * +EC4.1.2.48 l-threonine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.7 * +EC4.1.2.48 l-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 55.0 * +EC4.1.2.49 dl-beta-hydroxynorvaline aeromonas jandaei//*//* 27.8 * +EC4.1.2.49 dl-threo-3,4-dihydroxyphenylserine aeromonas jandaei//*//* 6.77 * +EC4.1.2.49 dl-threo-beta-phenylserine aeromonas jandaei//*//* 19.6 * +EC4.1.2.49 l-allo-threonine aeromonas jandaei//*//* 0.37 * +EC4.1.2.5 l-allo-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC4.1.2.5 l-allo-threonine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.6 * +EC4.1.2.5 l-threonine clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.42 * +EC4.1.2.5 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC4.1.2.5 l-threonine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 14.7 * +EC4.1.2.51 2-dehydro-3-deoxy-d-gluconate 6-phosphate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 8.0 * +EC4.1.2.51 2-dehydro-3-deoxy-d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 0.3 * +EC4.1.2.51 d-glyceraldehyde picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 4.6 * +EC4.1.2.51 pyruvate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 2.7 * +EC4.1.2.52 (s)-4-hydroxy-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC4.1.2.52 2-oxo-3-methyl-4-hydroxypentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC4.1.2.52 3-deoxy-d-manno-oct-2-ulosonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.22 * +EC4.1.2.52 4-hydroxy-2-oxoheptane-1,7-dioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC4.1.2.52 4-hydroxy-2-oxohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC4.1.2.52 4-hydroxy-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC4.1.2.52 4-hydroxy-2-oxopentanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.38 * +EC4.1.2.52 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 50.1 * +EC4.1.2.52 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.4 * +EC4.1.2.52 dl-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 88.6 * +EC4.1.2.52 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.3 * +EC4.1.2.52 isobutyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 73.8 * +EC4.1.2.52 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.9 * +EC4.1.2.52 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6 * +EC4.1.2.52 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1 * +EC4.1.2.53 2-dehydro-3-deoxy-l-lyxonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC4.1.2.53 2-dehydro-3-deoxy-l-mannonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC4.1.2.53 2-dehydro-3-deoxy-l-rhamnonate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.915 * +EC4.1.2.53 2-dehydro-3-deoxy-l-rhamnonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.078 * +EC4.1.2.53 2-dehydro-3-deoxy-l-rhamnonate scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 1.37 * +EC4.1.2.53 4-hydroxy-2-oxoheptane-1,7-dioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.2.53 4-hydroxy-2-oxohexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC4.1.2.53 4-hydroxy-2-oxopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.1.2.54 2-dehydro-3-deoxy-l-galactonate trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 3.5 * +EC4.1.2.54 l-glyceraldehyde trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 1.2 * +EC4.1.2.54 pyruvate trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 0.5 * +EC4.1.2.55 2-dehydro-3-deoxy-d-galactonate 6-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.17 * +EC4.1.2.55 2-dehydro-3-deoxy-d-galactonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 9.9 * +EC4.1.2.55 2-dehydro-3-deoxy-d-gluconate 6-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1 * +EC4.1.2.55 2-dehydro-3-deoxy-d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 25.7 * +EC4.1.2.55 2-dehydro-3-deoxy-d-xylonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 33.3 * +EC4.1.2.55 2-dehydro-3-deoxy-l-arabinonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 17.6 * +EC4.1.2.55 d-glyceraldehyde acetonide sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.5 * +EC4.1.2.55 d-glyceraldehyde sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.1 * +EC4.1.2.55 d-glyceraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 3.9 * +EC4.1.2.55 d-glyceraldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 3.9 * +EC4.1.2.55 l-glyceraldehyde sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 7.1 * +EC4.1.2.55 pyruvate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.8 * +EC4.1.2.55 pyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.1 * +EC4.1.2.55 pyruvate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.7 * +EC4.1.2.56 glycerone phosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.14 * +EC4.1.2.56 l-aspartate 4-semialdehyde streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.0056 * +EC4.1.2.8 (1s,2r)-1-c-(indol-3-yl)glycerol 3-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.096 * +EC4.1.2.8 (1s,2r)-1-c-(indol-3-yl)glycerol 3-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.458 * +EC4.1.2.8 indole-3-glycerol phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.1 * +EC4.1.2.9 d-fructofuranose 6-phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.032 * +EC4.1.2.9 d-fructose 6-phosphate bifidobacterium animalis subsp. lactis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bla 10.0 * +EC4.1.2.9 d-fructose 6-phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.0004 * +EC4.1.2.9 d-xylulose 5-phosphate bifidobacterium animalis subsp. lactis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bla 45.0 * +EC4.1.2.9 d-xylulose 5-phosphate candida famata//*//* 2.4 * +EC4.1.2.9 d-xylulose 5-phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 3.6 * +EC4.1.2.9 d-xylulose 5-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 4.7 * +EC4.1.2.9 d-xylulose 5-phosphate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 1.6 * +EC4.1.2.9 d-xylulose 5-phosphate rhodotorula graminis//*//* 1.25 * +EC4.1.2.9 d-xylulose 5-phosphate starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 4.27 * +EC4.1.2.9 fructose 6-phosphate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 29.0 * +EC4.1.2.9 fructose 6-phosphate oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 22.0 * +EC4.1.2.9 phosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.9 * +EC4.1.3.1 (2r)-2-ethyl malate dianthus caryophyllus//*//* 1.1 * +EC4.1.3.1 (2r)-2-methyl malate dianthus caryophyllus//*//* 0.29 * +EC4.1.3.1 (2r)-ethyl-(3s)-methyl malate dianthus caryophyllus//*//* 0.45 * +EC4.1.3.1 (2r)-isobutyl-(3s)-methyl malate dianthus caryophyllus//*//* 8.0 * +EC4.1.3.1 (2r)-propyl-(3s)-methyl malate dianthus caryophyllus//*//* 0.098 * +EC4.1.3.1 (2r,3r:2s,3s)-2-methyl-isocitrate dianthus caryophyllus//*//* 0.104 * +EC4.1.3.1 (2r,3s)-2,3-dimethyl malate dianthus caryophyllus//*//* 0.026 * +EC4.1.3.1 (2r,3s)-isocitrate dianthus caryophyllus//*//* 0.042 * +EC4.1.3.1 (2r,3s:2s,3r)-2-methyl-isocitrate dianthus caryophyllus//*//* 0.069 * +EC4.1.3.1 (2r,3s:2s,3r)-2-methyl-isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.718 * +EC4.1.3.1 acetyl-coa euglena gracilis//*//* 0.025 * +EC4.1.3.1 d-isocitrate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 1.16 * +EC4.1.3.1 dl-isocitrate candida brassicae//*//* 0.62 * +EC4.1.3.1 dl-isocitrate candida tropicalis//eukaryotes;fungi;ascomycetes;saccharomycetes//ctp 1.2 * +EC4.1.3.1 dl-isocitrate colwellia maris//*//* 0.51 * +EC4.1.3.1 dl-isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC4.1.3.1 dl-isocitrate fomitopsis palustris//*//* 1.6 * +EC4.1.3.1 dl-isocitrate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.093 * +EC4.1.3.1 dl-isocitrate rhodopseudomonas sp.//*//* 0.136 * +EC4.1.3.1 dl-isocitrate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.6 * +EC4.1.3.1 ds-isocitrate citrullus lanatus subsp. vulgaris//*//* 0.25 * +EC4.1.3.1 ds-isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC4.1.3.1 ds-isocitrate pinus pinea//*//* 0.033 * +EC4.1.3.1 ds-isocitrate turbatrix aceti//*//* 0.066 * +EC4.1.3.1 glyoxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC4.1.3.1 glyoxylate euglena gracilis//*//* 0.04 * +EC4.1.3.1 glyoxylate lupinus sp.//*//* 0.05 * +EC4.1.3.1 glyoxylate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.014 * +EC4.1.3.1 glyoxylate pinus pinea//*//* 0.088 * +EC4.1.3.1 isocitrate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.51 * +EC4.1.3.1 isocitrate citrullus lanatus subsp. vulgaris//*//* 0.25 * +EC4.1.3.1 isocitrate colwellia maris//*//* 0.33 * +EC4.1.3.1 isocitrate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.039 * +EC4.1.3.1 isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC4.1.3.1 isocitrate euglena gracilis//*//* 6.7 * +EC4.1.3.1 isocitrate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.016 * +EC4.1.3.1 isocitrate helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.032 * +EC4.1.3.1 isocitrate linum usitatissimum//*//* 0.29 * +EC4.1.3.1 isocitrate lupinus sp.//*//* 0.035 * +EC4.1.3.1 isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.159 * +EC4.1.3.1 isocitrate papilio machaon//eukaryotes;animals;arthropods;insects//pmac 1.4 * +EC4.1.3.1 isocitrate pinus densiflora//*//* 0.66 * +EC4.1.3.1 isocitrate pinus pinea//*//* 0.039 * +EC4.1.3.1 isocitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC4.1.3.1 isocitrate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.0157 * +EC4.1.3.1 isocitrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.72 * +EC4.1.3.1 isocitrate zea mays//eukaryotes;plants;monocots;grass family//zma 0.056 * +EC4.1.3.1 mg2+ fomitopsis palustris//*//* 0.092 * +EC4.1.3.1 oxalacetate dianthus caryophyllus//*//* 0.13 * +EC4.1.3.1 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC4.1.3.1 succinate lupinus sp.//*//* 0.2 * +EC4.1.3.1 succinate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.044 * +EC4.1.3.1 succinate pinus pinea//*//* 0.053 * +EC4.1.3.1 succinate vogesella indigofera//*//* 1.1 * +EC4.1.3.1 threo d-(s)-isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.145 * +EC4.1.3.1 threo-ds-isocitrate acinetobacter calcoaceticus//*//* 0.04 * +EC4.1.3.1 threo-ds-isocitrate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.05 * +EC4.1.3.1 threo-ds-isocitrate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.02 * +EC4.1.3.1 threo-ds-isocitrate cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.1 * +EC4.1.3.1 threo-ds-isocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC4.1.3.1 threo-ds-isocitrate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.021 * +EC4.1.3.1 threo-ds-isocitrate hyphomicrobium methylovorum//*//* 0.051 * +EC4.1.3.1 threo-ds-isocitrate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.05 * +EC4.1.3.1 threo-ds-isocitrate paecilomyces variotii//*//* 0.018 * +EC4.1.3.1 threo-ds-isocitrate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.3 * +EC4.1.3.14 erythro-3-hydroxy-l-asp paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 2.8 * +EC4.1.3.16 (d)-4-hydroxy-alpha-ketoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC4.1.3.16 (d)-4-hydroxy-alpha-ketoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC4.1.3.16 (l)-4-hydroxy-alpha-ketoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 71.0 * +EC4.1.3.16 (l)-4-hydroxy-alpha-ketoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC4.1.3.16 2-keto-4-hydroxybutyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.1 * +EC4.1.3.16 3-(4-hydroxyphenyl)pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.7 * +EC4.1.3.16 3-(4-imidazole)pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7.4 * +EC4.1.3.16 4-hydroxy-2-oxoglutarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC4.1.3.16 4-hydroxy-alpha-ketoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.1 * +EC4.1.3.16 4-hydroxy-alpha-ketoglutarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.33 * +EC4.1.3.16 acetaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC4.1.3.16 d-4-hydroxy-2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.031 * +EC4.1.3.16 glyoxylate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.43 * +EC4.1.3.16 l-4-hydroxy-2-oxoglutarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.024 * +EC4.1.3.16 oxaloacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 30.0 * +EC4.1.3.16 pyruvaldehyde rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.1 * +EC4.1.3.16 pyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC4.1.3.16 pyruvic acid ethyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.8 * +EC4.1.3.16 pyruvic acid methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.2 * +EC4.1.3.17 2-hydroxy-4-oxopentanedioic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.071 * +EC4.1.3.17 4-carboxy-4-hydroxy-2-oxoadipate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.29 * +EC4.1.3.17 4-hydroxy-2-oxopentanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.8 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate arachis hypogaea//*//* 0.086 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.022 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1265 * +EC4.1.3.17 4-hydroxy-4-methyl-2-oxoglutarate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.1507 * +EC4.1.3.17 d-4-carboxy-4-hydroxy-2-oxoadipate pseudomonas straminea//*//* 0.097 * +EC4.1.3.17 dl-4-carboxy-4-hydroxy-2-oxoadipate pseudomonas straminea//*//* 0.044 * +EC4.1.3.17 dl-4-hydroxy-2-oxoglutarate pseudomonas straminea//*//* 0.24 * +EC4.1.3.17 dl-4-hydroxy-4-methyl-2-oxoglutarate pseudomonas straminea//*//* 1.25 * +EC4.1.3.17 l-4-carboxy-4-hydroxy-2-oxoadipate pseudomonas straminea//*//* 0.0065 * +EC4.1.3.17 oxaloacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.036 * +EC4.1.3.17 oxaloacetate pseudomonas straminea//*//* 0.5 * +EC4.1.3.2 acetyl-coa sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.0056 * +EC4.1.3.2 glyoxylate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.044 * +EC4.1.3.22 (+)-citramalate clostridium tetanomorphum//*//* 0.6 * +EC4.1.3.24 (3s)-3-carboxy-3-hydroxypropanoyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.005 * +EC4.1.3.24 (3s)-3-carboxy-3-hydroxypropanoyl-coa methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.066 * +EC4.1.3.24 (3s)-3-carboxy-3-hydroxypropanoyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC4.1.3.24 (3s)-3-carboxy-3-hydroxypropanoyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.08 * +EC4.1.3.24 (3s)-malyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.02 * +EC4.1.3.24 acetyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.36 * +EC4.1.3.24 acetyl-coa methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.015 * +EC4.1.3.24 acetyl-coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.035 * +EC4.1.3.24 acetyl-coa rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.14 * +EC4.1.3.24 acetyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.1 * +EC4.1.3.24 beta-methylmalyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.089 * +EC4.1.3.24 beta-methylmalyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.01 * +EC4.1.3.24 erythro-beta-methylmalyl-coa rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.021 * +EC4.1.3.24 glyoxylate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 2.0 * +EC4.1.3.24 glyoxylate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 1.7 * +EC4.1.3.24 glyoxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.8 * +EC4.1.3.24 glyoxylate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.2 * +EC4.1.3.24 glyoxylate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 3.1 * +EC4.1.3.24 malyl-coa rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.015 * +EC4.1.3.24 propionyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 1.2 * +EC4.1.3.24 propionyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.2 * +EC4.1.3.27 chorismate ailanthus altissima//*//* 0.073 * +EC4.1.3.27 chorismate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0123 * +EC4.1.3.27 chorismate bacillus caldotenax//*//* 0.038 * +EC4.1.3.27 chorismate catharanthus roseus//*//* 0.067 * +EC4.1.3.27 chorismate claviceps sp.//*//* 0.009 * +EC4.1.3.27 chorismate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.005 * +EC4.1.3.27 chorismate daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.026 * +EC4.1.3.27 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC4.1.3.27 chorismate hansenula henricii//*//* 0.023 * +EC4.1.3.27 chorismate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00571 * +EC4.1.3.27 chorismate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.007 * +EC4.1.3.27 chorismate ruta graveolens//*//* 0.22 * +EC4.1.3.27 chorismate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0039 * +EC4.1.3.27 chorismate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.0031 * +EC4.1.3.27 chorismate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.003 * +EC4.1.3.27 chorismate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0034 * +EC4.1.3.27 gln ailanthus altissima//*//* 0.05 * +EC4.1.3.27 gln catharanthus roseus//*//* 0.37 * +EC4.1.3.27 gln claviceps sp.//*//* 4.0 * +EC4.1.3.27 gln cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.56 * +EC4.1.3.27 gln hansenula henricii//*//* 0.094 * +EC4.1.3.27 gln pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.6 * +EC4.1.3.27 gln ruta graveolens//*//* 0.18 * +EC4.1.3.27 gln serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.33 * +EC4.1.3.27 glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC4.1.3.27 l-gln archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 6.2 * +EC4.1.3.27 l-gln daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.249 * +EC4.1.3.27 l-gln sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0193 * +EC4.1.3.27 l-glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.5 * +EC4.1.3.27 l-glutamine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.088 * +EC4.1.3.27 nh4+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5.7 * +EC4.1.3.27 nh4+ bacillus caldotenax//*//* 46.0 * +EC4.1.3.27 nh4+ claviceps sp.//*//* 8.0 * +EC4.1.3.27 nh4+ hansenula henricii//*//* 1.2 * +EC4.1.3.27 nh4+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 26.0 * +EC4.1.3.27 nh4+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 24.0 * +EC4.1.3.27 nh4+ serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 5.9 * +EC4.1.3.27 nh4+ sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0093 * +EC4.1.3.3 (2r,3r,4r)-6-[(aminooxy)carbonyl]-3,4,6-trihydroxy-n-propyltetrahydro-2h-pyran-2-carboxamide haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 11.0 * +EC4.1.3.3 (2s,4s,5r,6r)-5-(acetylamino)-6-[(dipropylamino)carbonyl]-2,4-dihydroxytetrahydro-pyran-2-carboxylic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.6 * +EC4.1.3.3 (5r,6r)-7-(dipropylamino)-4,5,6-trihydroxy-2,7-dioxoheptanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC4.1.3.3 d-3-deoxy-manno-2-octulosonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.8 * +EC4.1.3.3 l-3-deoxy-manno-2-octulosonic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.5 * +EC4.1.3.3 n-acetyl-4-o-acetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 12.5 * +EC4.1.3.3 n-acetyl-7-o-acetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 4.5 * +EC4.1.3.3 n-acetyl-8-o-acetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 2.0 * +EC4.1.3.3 n-acetyl-d-mannosamine escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 180.0 * +EC4.1.3.3 n-acetyl-d-mannosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.7 * +EC4.1.3.3 n-acetyl-d-mannosamine lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 160.0 * +EC4.1.3.3 n-acetyl-d-mannosamine pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 220.0 * +EC4.1.3.3 n-acetyl-d-neuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC4.1.3.3 n-acetyl-l-neuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.4 * +EC4.1.3.3 n-acetyl-neuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.8 * +EC4.1.3.3 n-acetylneuraminate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC4.1.3.3 n-acetylneuraminate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC4.1.3.3 n-acetylneuraminate haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 2.2 * +EC4.1.3.3 n-acetylneuraminate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 4.9 * +EC4.1.3.3 n-acetylneuraminic acid bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.4 * +EC4.1.3.3 n-acetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.75 * +EC4.1.3.3 n-acetylneuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC4.1.3.3 n-acetylneuraminic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC4.1.3.3 n-acetylneuraminic acid lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.8 * +EC4.1.3.3 n-acetylneuraminic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC4.1.3.3 n-formylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.75 * +EC4.1.3.3 n-glycolylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 2.2 * +EC4.1.3.3 n-glycolylneuraminic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC4.1.3.3 n-monochloracetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 2.7 * +EC4.1.3.3 n-monofluoracetylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 10.0 * +EC4.1.3.3 n-succinylneuraminic acid clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 1.93 * +EC4.1.3.3 pyruvate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 22.0 * +EC4.1.3.3 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.3 * +EC4.1.3.3 pyruvate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 9.0 * +EC4.1.3.3 pyruvate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 2.0 * +EC4.1.3.3 sialic acid haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 4.4 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 19.0 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.024 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 19.0 * +EC4.1.3.30 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.77 * +EC4.1.3.30 methylisocitrate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0181 * +EC4.1.3.32 (2r)-ethyl-(3s)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.17 * +EC4.1.3.32 (2r)-ethylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 12.0 * +EC4.1.3.32 (2r)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.2 * +EC4.1.3.32 (2r)-propyl-(3s)-methylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.7 * +EC4.1.3.32 (2r,3s)-2-methylisocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 12.0 * +EC4.1.3.32 (2r,3s)-dimethylmalate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.22 * +EC4.1.3.32 (2r,3s)-methylisocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 12.0 * +EC4.1.3.32 (2s,3r)-2-methylisocitrate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 12.0 * +EC4.1.3.32 2,3-dimethylmalate eubacterium barkeri//*//* 0.66 * +EC4.1.3.32 oxaloacetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.22 * +EC4.1.3.34 acetyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.345 * +EC4.1.3.34 acetyl-coa hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.05 * +EC4.1.3.34 citryl-coa hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.082 * +EC4.1.3.34 oxaloacetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0367 * +EC4.1.3.34 oxaloacetate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.13 * +EC4.1.3.36 2-(3-carboxypropyl)-benzoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.106 * +EC4.1.3.36 2-succinylbenzoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0224 * +EC4.1.3.36 o-succinylbenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0028 * +EC4.1.3.36 o-succinylbenzoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0259 * +EC4.1.3.39 (4s)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.089 * +EC4.1.3.39 (r,s)-glyceraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 88.6 * +EC4.1.3.39 (s)-4-hydroxy-2-oxohexanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0048 * +EC4.1.3.39 (s)-4-hydroxy-2-oxopentanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0044 * +EC4.1.3.39 (s)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.089 * +EC4.1.3.39 acetaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.9 * +EC4.1.3.39 acetaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 64.28 * +EC4.1.3.39 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 64.2 * +EC4.1.3.39 butyraldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.4 * +EC4.1.3.39 glycolaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.3 * +EC4.1.3.39 glycolaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 124.6 * +EC4.1.3.39 glycolaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 124.6 * +EC4.1.3.39 propionaldehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 32.9 * +EC4.1.3.39 propionaldehyde paraburkholderia xenovorans lb400//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 135.9 * +EC4.1.3.39 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 135.9 * +EC4.1.3.39 pyruvate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 13.0 * +EC4.1.3.39 succinic semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 73.8 * +EC4.1.3.4 (s)-3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC4.1.3.4 3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.026 * +EC4.1.3.4 hydroxymethylglutaryl-coa anas sp.//*//* 0.008 * +EC4.1.3.4 hydroxymethylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC4.1.3.4 hydroxymethylglutaryl-coa pseudomonas mevalonii//*//* 0.02 * +EC4.1.3.4 hydroxymethylglutaryl-coa raphanus sativus//*//* 0.04 * +EC4.1.3.40 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0097 * +EC4.1.3.41 d-erythro-3-hydroxyaspartate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.4 * +EC4.1.3.42 (4r)-4-hydroxy-2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC4.1.3.42 (4s)-4-hydroxy-2-oxoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC4.1.3.42 (d)-4-hydroxy-alpha-ketoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC4.1.3.42 (l)-4-hydroxy-alpha-ketoglutarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3 * +EC4.1.3.42 4-hydroxy-alpha-ketoglutarate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.039 * +EC4.1.3.42 glyoxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 14.3 * +EC4.1.3.42 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 45.0 * +EC4.1.3.43 (4r)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.012 * +EC4.1.3.43 (4s)-4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.013 * +EC4.1.3.43 4-hydroxy-2-oxoheptanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.35 * +EC4.1.3.43 4-hydroxy-2-oxohexanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.117 * +EC4.1.3.43 4-hydroxy-2-oxohexanoate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.037 * +EC4.1.3.43 4-hydroxy-2-oxopentanoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.089 * +EC4.1.3.43 4-hydroxy-2-oxopentanoate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.041 * +EC4.1.3.43 acetaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 64.2 * +EC4.1.3.43 butyraldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 49.2 * +EC4.1.3.43 glycolaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 124.6 * +EC4.1.3.43 oxaloacetate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.21 * +EC4.1.3.43 pentaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 24.8 * +EC4.1.3.43 propionaldehyde paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 16.8 * +EC4.1.3.43 pyruvate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 11.0 * +EC4.1.3.45 chorismate streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.53 * +EC4.1.3.45 chorismate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0261 * +EC4.1.3.46 (3r)-citramalyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.07 * +EC4.1.3.6 citrate clostridium sphenoides//*//* 0.12 * +EC4.1.3.6 citrate clostridium sporosphaeroides//*//* 0.24 * +EC4.1.3.6 citrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC4.1.3.6 citrate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.21 * +EC4.1.3.6 citrate rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.17 * +EC4.1.3.B3 4-carboxy-4-hydroxy-2-oxoadipate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC4.1.99.1 5-hydroxy-l-trp providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 2.7 * +EC4.1.99.1 5-methyl-l-trp providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 1.8 * +EC4.1.99.1 alpha,beta-diaminopropionic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC4.1.99.1 beta-(benzimidazol-1-yl)-l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.315 * +EC4.1.99.1 beta-chloroalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC4.1.99.1 cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC4.1.99.1 cysteine sulfinic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 110.0 * +EC4.1.99.1 indole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.019 * +EC4.1.99.1 indole providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 4.0 * +EC4.1.99.1 l-cys providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 1.0 * +EC4.1.99.1 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 160.0 * +EC4.1.99.1 l-trp aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.22 * +EC4.1.99.1 l-trp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1732 * +EC4.1.99.1 l-trp paenibacillus alvei//*//* 0.27 * +EC4.1.99.1 l-trp providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 0.00181 * +EC4.1.99.1 l-trp symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 1.47 * +EC4.1.99.1 l-tryptophan escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC4.1.99.1 l-tryptophan prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 0.23 * +EC4.1.99.1 nh4cl escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 345.0 * +EC4.1.99.1 o-benzylserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC4.1.99.1 o-methylserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC4.1.99.1 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC4.1.99.1 pyruvate providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 10.0 * +EC4.1.99.1 s-(o-nitrophenyl)-l-cysteine proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.18 * +EC4.1.99.1 s-benzylcysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC4.1.99.1 s-ethyl-l-cysteine prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 3.3 * +EC4.1.99.1 s-ethylcysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC4.1.99.1 s-methyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC4.1.99.1 s-methyl-l-cys paenibacillus alvei//*//* 1.52 * +EC4.1.99.1 s-methyl-l-cys providencia rettgeri//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//prg 3.1 * +EC4.1.99.1 s-methyl-l-cysteine prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 0.87 * +EC4.1.99.1 s-methyl-l-cysteine proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 16.0 * +EC4.1.99.1 s-methylcysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC4.1.99.1 s-o-nitrophenyl-l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC4.1.99.12 d-ribulose 5-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.116 * +EC4.1.99.12 d-ribulose 5-phosphate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.181 * +EC4.1.99.14 5-(alpha-thyminyl)-5,6-dihydrothymidine geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.0009 * +EC4.1.99.16 (2e,6e)-farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 7.5e-05 * +EC4.1.99.2 1-amino-2-(4-hydroxyphenyl)-ethyl phosphinic acid citrobacter intermedius//*//* 1.08 * +EC4.1.99.2 2-bromo-l-tyr citrobacter intermedius//*//* 3.5 * +EC4.1.99.2 2-chloro-l-tyr citrobacter intermedius//*//* 0.7 * +EC4.1.99.2 2-fluoro-l-tyr citrobacter intermedius//*//* 0.35 * +EC4.1.99.2 2-methoxy-l-tyr citrobacter intermedius//*//* 1.6 * +EC4.1.99.2 2-methyl-l-tyr citrobacter intermedius//*//* 3.7 * +EC4.1.99.2 3,4-dihydroxyphenyl-l-alanine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.2 * +EC4.1.99.2 3,4-dihydroxyphenyl-l-alanine symbiobacterium sp.//*//* 9.9 * +EC4.1.99.2 3-bromo-l-tyr citrobacter intermedius//*//* 1.4 * +EC4.1.99.2 3-chloro-l-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 2.0 * +EC4.1.99.2 3-chloro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC4.1.99.2 3-chloro-l-ala symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 10.2 * +EC4.1.99.2 3-chloro-l-tyr citrobacter intermedius//*//* 3.0 * +EC4.1.99.2 3-fluoro-l-tyr citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.1 * +EC4.1.99.2 3-fluoro-l-tyr citrobacter intermedius//*//* 0.4 * +EC4.1.99.2 3-methyl-l-tyr citrobacter intermedius//*//* 4.1 * +EC4.1.99.2 ala citrobacter intermedius//*//* 6.1 * +EC4.1.99.2 beta-chloro-l-alanine symbiobacterium sp.//*//* 12.0 * +EC4.1.99.2 catechol pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 40.0 * +EC4.1.99.2 d-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 32.0 * +EC4.1.99.2 l-ala citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 11.0 * +EC4.1.99.2 l-m-tyr citrobacter intermedius//*//* 0.94 * +EC4.1.99.2 l-met citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.0915 * +EC4.1.99.2 l-phe citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.196 * +EC4.1.99.2 l-phe citrobacter intermedius//*//* 2.0 * +EC4.1.99.2 l-ser citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 18.0 * +EC4.1.99.2 l-ser pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 28.6 * +EC4.1.99.2 l-tyr aeromonas phenologenes//*//* 0.23 * +EC4.1.99.2 l-tyr citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.2 * +EC4.1.99.2 l-tyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.1.99.2 l-tyr symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 0.054 * +EC4.1.99.2 l-tyrosine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.24 * +EC4.1.99.2 l-tyrosine symbiobacterium sp.//*//* 0.19 * +EC4.1.99.2 nh3 pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 250.0 * +EC4.1.99.2 p-l-tyr citrobacter intermedius//*//* 0.21 * +EC4.1.99.2 phe citrobacter intermedius//*//* 4.15 * +EC4.1.99.2 phenol citrobacter intermedius//*//* 4.4 * +EC4.1.99.2 pyruvate citrobacter intermedius//*//* 5.1 * +EC4.1.99.2 pyruvate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 110.0 * +EC4.1.99.2 s-(o-nitrophenyl)-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.1 * +EC4.1.99.2 s-(o-nitrophenyl)-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.27 * +EC4.1.99.2 s-(o-nitrophenyl)-l-cysteine symbiobacterium sp.//*//* 0.36 * +EC4.1.99.2 s-benzyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.2 * +EC4.1.99.2 s-ethyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.6 * +EC4.1.99.2 s-methyl-l-cys citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.4 * +EC4.1.99.2 s-methyl-l-cys pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 4.17 * +EC4.1.99.2 s-methyl-l-cys symbiobacterium thermophilum//prokaryotes;bacteria;firmicutes - clostridia;symbiobacterium//sth 1.67 * +EC4.1.99.2 s-methyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.2 * +EC4.1.99.2 s-methyl-l-cysteine symbiobacterium sp.//*//* 5.5 * +EC4.1.99.2 ser citrobacter intermedius//*//* 34.0 * +EC4.1.99.2 tyr citrobacter intermedius//*//* 0.24 * +EC4.1.99.20 2-amino-4,5-dihydroxy-6-oxo-7-(phosphonooxy)heptanoate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.012 * +EC4.1.99.22 (8s)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6e-05 * +EC4.1.99.22 (8s)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00079 * +EC4.1.99.22 gtp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0031 * +EC4.1.99.22 s-adenosyl-l-methionine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0051 * +EC4.1.99.3 cis-syn cyclobutadipyrimidine dimer dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0001 * +EC4.1.99.5 octadecanal botryococcus braunii//*//* 0.065 * +EC4.1.99.5 octadecanal pisum sativum//*//* 0.035 * +EC4.1.99.5 octadecanal podiceps nigricollis//*//* 0.18 * +EC4.2.1.1 4-nitrophenyl acetate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 9.09 * +EC4.2.1.1 4-nitrophenyl acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002409 * +EC4.2.1.1 4-nitrophenyl acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.92 * +EC4.2.1.1 4-nitrophenyl acetate oncorhynchus mykiss//*//* 5.1 * +EC4.2.1.1 4-nitrophenyl acetate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.01787 * +EC4.2.1.1 4-nitrophenyl phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.935 * +EC4.2.1.1 co2 acipenser gueldenstaedtii//*//* 10.9 * +EC4.2.1.1 co2 anguilla anguilla//*//* 21.72 * +EC4.2.1.1 co2 astrosclera willeyana//*//* 4.0 * +EC4.2.1.1 co2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 9.0 * +EC4.2.1.1 co2 candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 8.2 * +EC4.2.1.1 co2 cavia porcellus//*//* 10.0 * +EC4.2.1.1 co2 chionodraco hamatus//*//* 10.41 * +EC4.2.1.1 co2 clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 3.1 * +EC4.2.1.1 co2 cryptococcus neoformans//eukaryotes;fungi;basidiomycetes//cne 9.0 * +EC4.2.1.1 co2 cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 7.9 * +EC4.2.1.1 co2 halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 3.2 * +EC4.2.1.1 co2 helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 17.0 * +EC4.2.1.1 co2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC4.2.1.1 co2 leishmania chagasi//*//* 0.0158 * +EC4.2.1.1 co2 macropus eugenii desmarest//*//* 2.67 * +EC4.2.1.1 co2 malassezia globosa//eukaryotes;fungi;basidiomycetes//mgl 8.1 * +EC4.2.1.1 co2 methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.8 * +EC4.2.1.1 co2 methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 2.7 * +EC4.2.1.1 co2 micropterus salmoides//*//* 16.0 * +EC4.2.1.1 co2 mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 14.2 * +EC4.2.1.1 co2 neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 20.0 * +EC4.2.1.1 co2 oncorhynchus mykiss//*//* 8.72 * +EC4.2.1.1 co2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.6 * +EC4.2.1.1 co2 petroselinum crispum//*//* 8.0 * +EC4.2.1.1 co2 populus tremula//*//* 3.0 * +EC4.2.1.1 co2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC4.2.1.1 co2 rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 80.0 * +EC4.2.1.1 co2 sander vitreus//*//* 18.8 * +EC4.2.1.1 co2 solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 9.4 * +EC4.2.1.1 co2 sulfurihydrogenibium yellowstonense//*//* 26.0 * +EC4.2.1.1 co2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 83.0 * +EC4.2.1.1 co2 tectona grandis//*//* 15.2 * +EC4.2.1.1 co2 thalassiosira weissflogii//*//* 0.087 * +EC4.2.1.1 co2 trematomus bernacchii//*//* 11.04 * +EC4.2.1.1 co2 trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 8.1 * +EC4.2.1.1 co2 vibrio cholerae//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vch 11.7 * +EC4.2.1.1 cos bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.86 * +EC4.2.1.1 h2co3 dunaliella salina//*//* 28.7 * +EC4.2.1.1 h2co3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 19.7 * +EC4.2.1.1 hco3- halothiobacillus neapolitanus//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//hna 9.3 * +EC4.2.1.1 hco3- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 26.0 * +EC4.2.1.1 hco3- pisum sativum//*//* 30.0 * +EC4.2.1.1 histamine candida glabrata//eukaryotes;fungi;ascomycetes;saccharomycetes//cgr 7.9 * +EC4.2.1.1 p-nitrophenyl acetate elephas trogontherii//*//* 3.86 * +EC4.2.1.10 (2r)-2-(4-methoxybenzyl)-3-dehydroquinic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0146 * +EC4.2.1.10 3-dehydroquinate amycolatopsis methanolica//prokaryotes;bacteria;actinobacteria;amycolatopsis//amq 0.121 * +EC4.2.1.10 3-dehydroquinate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.15 * +EC4.2.1.10 3-dehydroquinate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.036 * +EC4.2.1.10 3-dehydroquinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC4.2.1.10 3-dehydroquinate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.04 * +EC4.2.1.10 3-dehydroquinate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.075 * +EC4.2.1.10 3-dehydroquinate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.015 * +EC4.2.1.10 3-dehydroquinate pisum sativum//*//* 0.037 * +EC4.2.1.10 3-dehydroquinate salmonella enterica subsp. enterica serovar typhi//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.018 * +EC4.2.1.10 3-dehydroquinate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.021 * +EC4.2.1.10 3-dehydroquinate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0769 * +EC4.2.1.10 dehydroquinate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.15 * +EC4.2.1.10 dehydroquinate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.064 * +EC4.2.1.10 dehydroquinate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.018 * +EC4.2.1.10 dehydroquinate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.65 * +EC4.2.1.100 6-hydroxycyclohex-1-enecarbonyl-coa geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.05 * +EC4.2.1.100 cyclohexa-1,5-diene-1-carbonyl-coa geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.085 * +EC4.2.1.100 cyclohexa-1,5-diene-1-carbonyl-coa syntrophus aciditrophicus//prokaryotes;bacteria;deltaproteobacteria;syntrophus//sat 0.03 * +EC4.2.1.100 cyclohexa-1,5-diene-1-carbonyl-coa thauera aromatica//*//* 60.0 * +EC4.2.1.101 4-coumaroyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 5.2 * +EC4.2.1.101 caffeoyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 1.6 * +EC4.2.1.101 feruloyl-coa pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0118 * +EC4.2.1.103 cyclohexyl isocyanide arthrobacter pascens//*//* 0.95 * +EC4.2.1.103 cyclohexyl isocyanide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.2 * +EC4.2.1.104 cyanate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC4.2.1.104 cyanate sordaria macrospora//eukaryotes;fungi;ascomycetes;sordariomycetes//smp 0.58 * +EC4.2.1.104 cyanate thiohalophilus thiocyanatoxydans//*//* 0.048 * +EC4.2.1.104 kcno pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 2.4 * +EC4.2.1.105 2,5,7,4'-tetrahydroxyisoflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.17 * +EC4.2.1.105 2,5,7,4'-tetrahydroxyisoflavanone glycyrrhiza echinata//*//* 0.304 * +EC4.2.1.105 2,7,4'-trihydroxyisoflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.114 * +EC4.2.1.105 2,7,4'-trihydroxyisoflavanone glycyrrhiza echinata//*//* 0.21 * +EC4.2.1.105 2,7,4'-trihydroxyisoflavanone pueraria montana var. lobata//*//* 7.0 * +EC4.2.1.105 2,7-dihydroxy-4'-methoxyisoflavanone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.029 * +EC4.2.1.105 2,7-dihydroxy-4'-methoxyisoflavanone glycyrrhiza echinata//*//* 0.058 * +EC4.2.1.106 7alpha,12alpha-dihydroxy-3-oxochol-4-enoate eubacterium sp.//*//* 0.16 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oate clostridium hiranonis//*//* 25.0 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oate clostridium hylemonae//*//* 21.0 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oate clostridium scindens//*//* 9.9 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oyl-coa clostridium hiranonis//*//* 208.0 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oyl-coa clostridium hylemonae//*//* 11.4 * +EC4.2.1.106 7alpha-hydroxy-3-oxochol-4-en-24-oyl-coa clostridium scindens//*//* 1.2 * +EC4.2.1.108 4-n-acetyl-l-2,4-diaminobutanoate halomonas elongata//prokaryotes;bacteria;gammaproteobacteria - others;halomonas//hel 8.4 * +EC4.2.1.109 s-methyl-5-thio-d-ribulose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0089 * +EC4.2.1.11 2-phospho-d-glycerate aphidius ervi//*//* 0.086 * +EC4.2.1.11 2-phospho-d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.082 * +EC4.2.1.11 2-phospho-d-glycerate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.0 * +EC4.2.1.11 2-phospho-d-glycerate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.38 * +EC4.2.1.11 2-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.199 * +EC4.2.1.11 2-phospho-d-glycerate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.425 * +EC4.2.1.11 2-phospho-d-glycerate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.08 * +EC4.2.1.11 2-phospho-d-glycerate leuconostoc mesenteroides//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lme 2.61 * +EC4.2.1.11 2-phospho-d-glycerate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.4 * +EC4.2.1.11 2-phospho-d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.03205 * +EC4.2.1.11 2-phospho-d-glycerate streptococcus suis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssb 2.47 * +EC4.2.1.11 2-phospho-d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.06 * +EC4.2.1.11 2-phospho-d-glycerate theileria annulata//eukaryotes;protists;alveolates;apicomplexans//tan 0.106 * +EC4.2.1.11 2-phospho-d-glycerate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.054 * +EC4.2.1.11 2-phospho-d-glycerate vibrio parahaemolyticus//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vpa 1.9 * +EC4.2.1.11 2-phosphoglycerate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.71 * +EC4.2.1.11 2-phosphoglycerate cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.069 * +EC4.2.1.11 2-phosphoglycerate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.029 * +EC4.2.1.11 2-phosphoglycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC4.2.1.11 2-phosphoglycerate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.078 * +EC4.2.1.11 2-phosphoglycerate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.061 * +EC4.2.1.11 2-phosphoglycerate pagrus major//*//* 0.05 * +EC4.2.1.11 2-phosphoglycerate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.036 * +EC4.2.1.11 2-phosphoglycerate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.025 * +EC4.2.1.11 2-phosphoglycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.031 * +EC4.2.1.11 2-phosphoglycerate scomber japonicus//*//* 0.038 * +EC4.2.1.11 2-phosphoglycerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.045 * +EC4.2.1.11 2-phosphoglycerate streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 0.44 * +EC4.2.1.11 2-phosphoglycerate streptococcus ratti//*//* 4.35 * +EC4.2.1.11 2-phosphoglycerate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC4.2.1.11 2-phosphoglycerate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.07 * +EC4.2.1.11 2-phosphoglyceric acid bacteroides fragilis//prokaryotes;bacteria;bacteroidetes;bacteroides//bfr 0.21 * +EC4.2.1.11 3-phospho-d-glycerate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.39 * +EC4.2.1.11 phosphoenolpyruvate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.18 * +EC4.2.1.11 phosphoenolpyruvate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.95 * +EC4.2.1.11 phosphoenolpyruvate cyprinus carpio//eukaryotes;animals;vertebrates;fishes//ccar 0.2 * +EC4.2.1.11 phosphoenolpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.58 * +EC4.2.1.11 phosphoenolpyruvate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.657 * +EC4.2.1.11 phosphoenolpyruvate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.21 * +EC4.2.1.11 phosphoenolpyruvate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.25 * +EC4.2.1.11 phosphoenolpyruvate pagrus major//*//* 0.2 * +EC4.2.1.11 phosphoenolpyruvate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.07 * +EC4.2.1.11 phosphoenolpyruvate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC4.2.1.11 phosphoenolpyruvate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 2.6 * +EC4.2.1.11 phosphoenolpyruvate scomber japonicus//*//* 0.11 * +EC4.2.1.11 phosphoenolpyruvate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.392 * +EC4.2.1.11 phosphoenolpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC4.2.1.11 phosphoenolpyruvate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.244 * +EC4.2.1.110 1,5-anhydro-d-fructose phanerochaete chrysosporium//*//* 5.4 * +EC4.2.1.110 glucosone phanerochaete chrysosporium//*//* 4.9 * +EC4.2.1.112 acetylene pelobacter acetylenicus//prokaryotes;bacteria;deltaproteobacteria;pelobacter//pace 0.014 * +EC4.2.1.113 (1r,6r)-2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate amycolatopsis sp.//prokaryotes;bacteria;actinobacteria;amycolatopsis//amyc 0.48 * +EC4.2.1.114 (1e)-hex-1-ene-1,2,6-tricarboxylic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.036 * +EC4.2.1.114 (1e)-pent-1-ene-1,2,5-tricarboxylic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.03 * +EC4.2.1.114 but-1-ene-1,2,4-tricarboxylic acid methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.022 * +EC4.2.1.115 udp-n-acetylglucosamine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.159 * +EC4.2.1.116 (s)-3-hydroxybutyryl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.075 * +EC4.2.1.116 3-hydroxypropionyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.06 * +EC4.2.1.118 (-)-3-dehydroshikimate bacillus thuringiensis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//btk 0.125 * +EC4.2.1.118 3-dehydroshikimate gluconobacter oxydans//prokaryotes;bacteria;alphaproteobacteria;gluconobacter//gox 0.5 * +EC4.2.1.118 3-dehydroshikimate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00059 * +EC4.2.1.119 (2e)-2-decenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC4.2.1.119 (2e)-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.6 * +EC4.2.1.119 (2e)-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.7 * +EC4.2.1.119 (2e)-oct-2-enoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.042 * +EC4.2.1.119 2-trans-butenoyl-coa cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.11 * +EC4.2.1.119 2-trans-decenoyl-coa cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.0095 * +EC4.2.1.119 crotonyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.024 * +EC4.2.1.119 crotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC4.2.1.119 crotonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.0 * +EC4.2.1.119 dec-2-enoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC4.2.1.119 decenoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.042 * +EC4.2.1.119 dodec-2-enoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.043 * +EC4.2.1.119 dodec-2-enoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC4.2.1.119 hex-2-enoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.034 * +EC4.2.1.119 hex-2-enoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC4.2.1.119 hexenoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.04 * +EC4.2.1.119 oct-2-enoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.05 * +EC4.2.1.119 oct-2-enoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC4.2.1.119 pent-2-enoyl-coa aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.036 * +EC4.2.1.119 tetradec-2-enoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.005 * +EC4.2.1.12 6-phosphogluconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.6 * +EC4.2.1.12 6-phosphogluconate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 0.04 * +EC4.2.1.120 4-hydroxybutanoyl-coa clostridium aminobutyricum//*//* 0.05 * +EC4.2.1.120 4-hydroxybutanoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.15 * +EC4.2.1.121 (9s,10e,12z)-9-hydroperoxy-10,12-octadecadienoate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.067 * +EC4.2.1.121 (9s,10e,12z)-9-hydroperoxy-10,12-octadecadienoate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0174 * +EC4.2.1.121 (9s,10e,12z,15z)-9-hydroperoxy-10,12,15-octadecatrienoate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.048 * +EC4.2.1.121 (9s,10e,12z,15z)-9-hydroperoxy-10,12,15-octadecatrienoate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.0261 * +EC4.2.1.122 indole thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00077 * +EC4.2.1.122 l-serine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 50.2 * +EC4.2.1.123 squalene tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.018 * +EC4.2.1.126 n-acetylmuramate 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC4.2.1.127 linalool castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.75 * +EC4.2.1.129 squalene alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.003 * +EC4.2.1.129 squalene tetrahymena thermophila//eukaryotes;protists;alveolates;ciliates//tet 0.018 * +EC4.2.1.130 2-oxopropanal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 156.9 * +EC4.2.1.130 methylglyoxal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.43 * +EC4.2.1.130 phenylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.0 * +EC4.2.1.131 1-hydroxyneurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.0368 * +EC4.2.1.131 lycopene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0221 * +EC4.2.1.131 lycopene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.024 * +EC4.2.1.131 lycopene thiocapsa roseopersicina//*//* 0.0095 * +EC4.2.1.131 neurosporene rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.0245 * +EC4.2.1.131 neurosporene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.0385 * +EC4.2.1.131 spheroidene rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.0078 * +EC4.2.1.134 3-hydroxypalmitoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0068 * +EC4.2.1.135 udp-n-acetyl-alpha-d-glucosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 7.0 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00069 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.00089 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00115 * +EC4.2.1.136 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide zea mays//eukaryotes;plants;monocots;grass family//zma 0.00086 * +EC4.2.1.139 7,2-dihydroxy-4-methoxyisoflavanol medicago sativa//*//* 0.05 * +EC4.2.1.140 d-galactonate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 2.0 * +EC4.2.1.140 d-galactonate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.81 * +EC4.2.1.140 d-gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 2.5 * +EC4.2.1.140 d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.57 * +EC4.2.1.142 5'-oxoaverantin aspergillus parasiticus//*//* 0.02 * +EC4.2.1.143 versiconal hemiacetal aspergillus parasiticus//*//* 0.0024 * +EC4.2.1.143 versiconal aspergillus parasiticus//*//* 0.0031 * +EC4.2.1.144 5-amino-5-deoxy-3-dehydroshikimate amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.164 * +EC4.2.1.146 l-galactonate trichoderma reesei//eukaryotes;fungi;ascomycetes;sordariomycetes//tre 5.0 * +EC4.2.1.147 5,6,7,8-tetrahydromethanopterin methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 1.0 * +EC4.2.1.147 formaldehyde methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.2 * +EC4.2.1.149 (e)-4-(trimethylammonio)but-2-enoyl-coa proteus sp.//*//* 0.043 * +EC4.2.1.149 crotonobetainyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC4.2.1.149 crotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.038 * +EC4.2.1.149 crotonyl-coa proteus sp.//*//* 0.52 * +EC4.2.1.150 crotonyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.03 * +EC4.2.1.150 crotonyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.07 * +EC4.2.1.150 hexenoyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.13 * +EC4.2.1.151 chorismate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.162 * +EC4.2.1.154 tetracenomycin f2 streptomyces glaucescens//prokaryotes;bacteria;actinobacteria;streptomyces//sgu 0.121 * +EC4.2.1.156 l-talarate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.23 * +EC4.2.1.157 (r)-2-hydroxy-4-methylpentanoyl-coa clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.05 * +EC4.2.1.158 galactarate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 0.62 * +EC4.2.1.159 dtdp-4-dehydro-6-deoxy-alpha-d-glucopyranose amycolatopsis orientalis//prokaryotes;bacteria;actinobacteria;amycolatopsis//aoi 0.056 * +EC4.2.1.164 dtdp-4-dehydro-2,6-dideoxy-alpha-d-glucose saccharopolyspora spinosa//*//* 0.049 * +EC4.2.1.167 (e)-glutaconyl-coa clostridium symbiosum//*//* 0.25 * +EC4.2.1.167 (r)-2-hydroxyadipyl-coa clostridium symbiosum//*//* 0.1 * +EC4.2.1.167 (r)-2-hydroxyglutaryl-coa clostridium symbiosum//*//* 0.052 * +EC4.2.1.167 butynedioyl-coa clostridium symbiosum//*//* 2.1 * +EC4.2.1.167 muconyl-coa clostridium symbiosum//*//* 0.57 * +EC4.2.1.167 oxalocrotonyl-coa clostridium symbiosum//*//* 1.1 * +EC4.2.1.17 (s)-3-hydroxybutyryl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.06 * +EC4.2.1.17 (z)-2-butenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC4.2.1.17 2-decenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC4.2.1.17 crotonoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.07 * +EC4.2.1.17 crotonyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC4.2.1.17 crotonyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.03 * +EC4.2.1.17 crotonyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC4.2.1.17 crotonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC4.2.1.17 crotonyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC4.2.1.17 dec-2-enoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.029 * +EC4.2.1.17 dodec-2-enoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC4.2.1.17 hex-2-enoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.029 * +EC4.2.1.17 hexadec-2-enoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.03 * +EC4.2.1.17 hexenoyl-coa clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.13 * +EC4.2.1.17 oct-2-enoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.029 * +EC4.2.1.17 trans-2-decenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0039 * +EC4.2.1.17 trans-2-hexadecanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC4.2.1.17 trans-2-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC4.2.1.171 cis-3-hydroxy-l-proline labrenzia aggregata//prokaryotes;bacteria;alphaproteobacteria;labrenzia//lagg 8.1 * +EC4.2.1.18 (e)-3-methylglutaconyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0083 * +EC4.2.1.18 (e)-glutaconyl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.04 * +EC4.2.1.18 (e)-glutaconyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC4.2.1.18 (r,s)-3-hydroxy-3-methylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.25 * +EC4.2.1.18 (s)-3-hydroxy-3-methylglutaryl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.03 * +EC4.2.1.18 (s)-3-hydroxyglutaryl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.05 * +EC4.2.1.18 (s)-3-hydroxymethylglutaryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0069 * +EC4.2.1.18 3-hydroxybutyryl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 55.2 * +EC4.2.1.18 3-methylcrotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.347 * +EC4.2.1.18 3-methylglutaconyl-coa acinetobacter sp.//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//aci 0.01 * +EC4.2.1.18 crotonyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.1 * +EC4.2.1.18 trans-3-methylglutaconyl-coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0291 * +EC4.2.1.19 d-erythro-1-(imidazol-4-yl)glycerol 3-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.049 * +EC4.2.1.19 d-erythro-1-(imidazol-4-yl)glycerol 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.122 * +EC4.2.1.19 d-erythro-1-(imidazol-4-yl)glycerol 3-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.24 * +EC4.2.1.19 d-erythro-1-(imidazol-4-yl)glycerol 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC4.2.1.19 d-erythro-1-(imidazol-4-yl)glycerol 3-phosphate triticum aestivum//*//* 0.083 * +EC4.2.1.2 (s)-malate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 1.4 * +EC4.2.1.2 (s)-malate pelotomaculum thermopropionicum//prokaryotes;bacteria;firmicutes - clostridia;pelotomaculum//pth 0.59 * +EC4.2.1.2 (s)-malate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.3 * +EC4.2.1.2 acetylene dicarboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC4.2.1.2 acetylene dicarboxylate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.145 * +EC4.2.1.2 bromofumarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC4.2.1.2 chlorofumarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC4.2.1.2 d-tartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.7 * +EC4.2.1.2 fluorofumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC4.2.1.2 fluorofumarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.027 * +EC4.2.1.2 fumarate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 0.25 * +EC4.2.1.2 fumarate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 8.8 * +EC4.2.1.2 fumarate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.38 * +EC4.2.1.2 fumarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC4.2.1.2 fumarate euglena gracilis//*//* 0.031 * +EC4.2.1.2 fumarate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.3 * +EC4.2.1.2 fumarate pelotomaculum thermopropionicum//prokaryotes;bacteria;firmicutes - clostridia;pelotomaculum//pth 0.43 * +EC4.2.1.2 fumarate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC4.2.1.2 fumarate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.125 * +EC4.2.1.2 fumarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.005 * +EC4.2.1.2 iodofumarate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.12 * +EC4.2.1.2 l-malate bacteria//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;unclassified enterobacteria//ebf 2.38 * +EC4.2.1.2 l-malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.049 * +EC4.2.1.2 l-malate streptomyces lividans//prokaryotes;bacteria;actinobacteria;streptomyces//slv 6.7 * +EC4.2.1.2 l-malate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.025 * +EC4.2.1.2 l-tartrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC4.2.1.2 l-threo-chloromalate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.02 * +EC4.2.1.2 l-threo-hydroxyaspartate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 7.5 * +EC4.2.1.2 malate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.45 * +EC4.2.1.2 malate ascaris suum//*//* 1.43 * +EC4.2.1.2 malate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 32.0 * +EC4.2.1.2 malate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.63 * +EC4.2.1.2 malate euglena gracilis//*//* 1.4 * +EC4.2.1.2 malate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC4.2.1.2 malate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.3 * +EC4.2.1.2 malate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.12 * +EC4.2.1.2 mesaconate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.51 * +EC4.2.1.2 s-malate leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.2 * +EC4.2.1.2 s-malate zea mays//eukaryotes;plants;monocots;grass family//zma 0.005 * +EC4.2.1.20 1-(indol-3-yl)glycerol 3-phosphate pisum sativum//*//* 0.013 * +EC4.2.1.20 1-(indol-3-yl)glycerol 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.032 * +EC4.2.1.20 1-(indol-3-yl)glycerol 3-phosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.01 * +EC4.2.1.20 d-glyceraldehyde 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC4.2.1.20 indole mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.288 * +EC4.2.1.20 indole pisum sativum//*//* 0.05 * +EC4.2.1.20 indole saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.011 * +EC4.2.1.20 indole salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.018 * +EC4.2.1.20 indole thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0076 * +EC4.2.1.20 l-ser pisum sativum//*//* 5.7 * +EC4.2.1.20 l-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.3 * +EC4.2.1.20 l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.6 * +EC4.2.1.20 l-serine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.178 * +EC4.2.1.20 l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.14 * +EC4.2.1.20 l-serine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0076 * +EC4.2.1.20 serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.02 * +EC4.2.1.22 2-mercaptoethanol haemonchus contortus//*//* 5.58 * +EC4.2.1.22 2-mercaptoethanol panagrellus redivivus//*//* 1.72 * +EC4.2.1.22 2-mercaptoethanol rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 24.0 * +EC4.2.1.22 cysteamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.6 * +EC4.2.1.22 dl-homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 68.0 * +EC4.2.1.22 homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC4.2.1.22 homocysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC4.2.1.22 homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC4.2.1.22 l-cys haemonchus contortus//*//* 0.21 * +EC4.2.1.22 l-cys panagrellus redivivus//*//* 0.13 * +EC4.2.1.22 l-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 36.0 * +EC4.2.1.22 l-cystathionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC4.2.1.22 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.0 * +EC4.2.1.22 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.0 * +EC4.2.1.22 l-homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.21 * +EC4.2.1.22 l-ser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC4.2.1.22 l-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.6 * +EC4.2.1.22 l-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.19 * +EC4.2.1.22 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.78 * +EC4.2.1.22 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.7 * +EC4.2.1.24 5-aminolevulinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC4.2.1.24 5-aminolevulinate coturnix japonica//eukaryotes;animals;vertebrates;birds//cjo 0.061 * +EC4.2.1.24 5-aminolevulinate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.108 * +EC4.2.1.24 5-aminolevulinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC4.2.1.24 5-aminolevulinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.158 * +EC4.2.1.24 5-aminolevulinate ictalurus punctatus//eukaryotes;animals;vertebrates;fishes//ipu 0.043 * +EC4.2.1.24 5-aminolevulinate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.294 * +EC4.2.1.24 5-aminolevulinate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.077 * +EC4.2.1.24 5-aminolevulinate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.1 * +EC4.2.1.24 5-aminolevulinate pisum sativum//*//* 0.8 * +EC4.2.1.24 5-aminolevulinate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.208 * +EC4.2.1.24 5-aminolevulinate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.33 * +EC4.2.1.24 5-aminolevulinate rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.7 * +EC4.2.1.24 5-aminolevulinate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.8 * +EC4.2.1.24 5-aminolevulinate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.359 * +EC4.2.1.24 5-aminolevulinate tetradesmus obliquus//*//* 0.26 * +EC4.2.1.24 5-aminolevulinate zea mays//eukaryotes;plants;monocots;grass family//zma 0.347 * +EC4.2.1.24 5-aminolevulinic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC4.2.1.24 5-aminolevulinic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00032 * +EC4.2.1.24 5-aminolevulinic acid rattus sp.//*//* 0.65 * +EC4.2.1.24 5-aminolevulinic acid toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.15 * +EC4.2.1.27 propynoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 40.08 * +EC4.2.1.28 (r)-propane-1,2-diol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.47 * +EC4.2.1.28 (s)-propane-1,2-diol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.11 * +EC4.2.1.28 1,2-butanediol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 2.5 * +EC4.2.1.28 1,2-ethanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.56 * +EC4.2.1.28 1,2-ethanediol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 5.3 * +EC4.2.1.28 1,2-ethanediol lactobacillus collinoides//*//* 5.5 * +EC4.2.1.28 1,2-ethanediol terrisporobacter glycolicus//*//* 3.0 * +EC4.2.1.28 1,2-propanediol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.04 * +EC4.2.1.28 1,2-propanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.04 * +EC4.2.1.28 1,2-propanediol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.6 * +EC4.2.1.28 1,2-propanediol lactobacillus collinoides//*//* 1.6 * +EC4.2.1.28 2,3-butanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.64 * +EC4.2.1.28 adenosylcobinamide 3-benzimidazolylpropyl phosphate klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.00082 * +EC4.2.1.28 adenosylcobinamide 3-imidazolylpropyl phosphate klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.00099 * +EC4.2.1.28 adenosylcobinamide 3-pyridylpropyl phosphate klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.00029 * +EC4.2.1.28 cobalamin klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.9 * +EC4.2.1.28 cobeta-adenosyl-coalpha-benzimidazolylcobamide klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.00096 * +EC4.2.1.28 cobeta-adenosyl-coalpha-imidazolylcobamide klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.00104 * +EC4.2.1.28 coenzyme b12 klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.0008 * +EC4.2.1.28 coenzyme b12 lactobacillus collinoides//*//* 0.008 * +EC4.2.1.28 ethane-1,2-diol lactobacillus diolivorans//*//* 10.5 * +EC4.2.1.28 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.73 * +EC4.2.1.28 glycerol lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 4.0 * +EC4.2.1.28 glycerol lactobacillus collinoides//*//* 8.3 * +EC4.2.1.28 propane-1,2-diol klebsiella oxytoca//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kok 0.22 * +EC4.2.1.28 propane-1,2-diol lactobacillus diolivorans//*//* 1.3 * +EC4.2.1.28 r-1,2-propanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.6 * +EC4.2.1.28 rs-1,2-propanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.3 * +EC4.2.1.28 s-1,2-propanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.186 * +EC4.2.1.3 (2r,3s)-2-methylisocitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC4.2.1.3 cis-aconitate acer pseudoplatanus//*//* 0.03 * +EC4.2.1.3 cis-aconitate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0048 * +EC4.2.1.3 cis-aconitate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.0185 * +EC4.2.1.3 cis-aconitate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC4.2.1.3 cis-aconitate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.009 * +EC4.2.1.3 cis-aconitate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0035 * +EC4.2.1.3 cis-aconitate saccharomycopsis lipolytica//*//* 0.018 * +EC4.2.1.3 cis-aconitate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.2 * +EC4.2.1.3 cis-aconitate sinapis alba//*//* 0.1 * +EC4.2.1.3 cis-aconitate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.108 * +EC4.2.1.3 citrate acer pseudoplatanus//*//* 0.12 * +EC4.2.1.3 citrate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.4 * +EC4.2.1.3 citrate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.7 * +EC4.2.1.3 citrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC4.2.1.3 citrate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.48 * +EC4.2.1.3 citrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.16 * +EC4.2.1.3 citrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.9 * +EC4.2.1.3 citrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC4.2.1.3 citrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 5.3 * +EC4.2.1.3 citrate sinapis alba//*//* 4.0 * +EC4.2.1.3 citrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 2.9 * +EC4.2.1.3 isocitrate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.7 * +EC4.2.1.3 isocitrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.012 * +EC4.2.1.3 isocitrate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.552 * +EC4.2.1.3 isocitrate glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.58 * +EC4.2.1.3 isocitrate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.56 * +EC4.2.1.3 isocitrate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.32 * +EC4.2.1.3 isocitrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC4.2.1.3 isocitrate saccharomycopsis lipolytica//*//* 0.045 * +EC4.2.1.3 isocitrate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.9 * +EC4.2.1.3 isocitrate sinapis alba//*//* 0.15 * +EC4.2.1.3 isocitrate sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.37 * +EC4.2.1.3 methyl-cis-aconitate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0089 * +EC4.2.1.3 methyl-cis-aconitate saccharomycopsis lipolytica//*//* 0.158 * +EC4.2.1.3 methylisocitrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.032 * +EC4.2.1.3 methylisocitrate saccharomycopsis lipolytica//*//* 0.268 * +EC4.2.1.30 1,2-ethanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.07 * +EC4.2.1.30 1,2-propanediol citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.25 * +EC4.2.1.30 1,2-propanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2e-05 * +EC4.2.1.30 1,2-propanediol lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 7.0 * +EC4.2.1.30 adenosylcobalamin klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 20.0 * +EC4.2.1.30 ethanediol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.08 * +EC4.2.1.30 glycerol citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.59 * +EC4.2.1.30 glycerol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.48 * +EC4.2.1.30 glycerol lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 3.3 * +EC4.2.1.30 pentane-1,2-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.24 * +EC4.2.1.30 propane-1,2-diol citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.25 * +EC4.2.1.30 propane-1,2-diol klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.36 * +EC4.2.1.31 2-bromomaleate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.27 * +EC4.2.1.31 2-chloromaleate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 2.74 * +EC4.2.1.31 citraconate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 4.55 * +EC4.2.1.31 citraconate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.2 * +EC4.2.1.31 maleate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.85 * +EC4.2.1.31 maleate pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.35 * +EC4.2.1.32 (r,r)-tartrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.76 * +EC4.2.1.32 (r,r)-tartrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.8 * +EC4.2.1.33 alpha-hydroxy-beta-carboxyisocaproate candida maltosa//*//* 4.57 * +EC4.2.1.33 alpha-hydroxy-beta-carboxyisocaproate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.078 * +EC4.2.1.33 beta-carboxy-beta-hydroxyisocaproate candida maltosa//*//* 0.75 * +EC4.2.1.33 beta-carboxy-beta-hydroxyisocaproate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.95 * +EC4.2.1.33 citraconate candida maltosa//*//* 1.79 * +EC4.2.1.33 citraconate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC4.2.1.33 dimethylcitraconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.18 * +EC4.2.1.33 dimethylcitraconate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0216 * +EC4.2.1.34 (+)-citramalate clostridium tetanomorphum//*//* 2.0 * +EC4.2.1.34 fumarate aerobic bacterium//*//* 0.11 * +EC4.2.1.34 fumarate clostridium tetanomorphum//*//* 0.95 * +EC4.2.1.34 l-citramalate clostridium tetanomorphum//*//* 2.4 * +EC4.2.1.34 l-malate clostridium tetanomorphum//*//* 6.7 * +EC4.2.1.34 mesaconate aerobic bacterium//*//* 0.07 * +EC4.2.1.34 mesaconate clostridium tetanomorphum//*//* 0.59 * +EC4.2.1.34 s-citramalate aerobic bacterium//*//* 0.45 * +EC4.2.1.34 s-malate aerobic bacterium//*//* 0.56 * +EC4.2.1.35 2-methylmaleate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC4.2.1.36 (r)-homocitrate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 1.5 * +EC4.2.1.36 (z)-but-1-ene-1,2,4-tricarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.022 * +EC4.2.1.36 (z)-hex-1-ene-1,2,6-tricarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.036 * +EC4.2.1.36 (z)-pent-1-ene-1,2,5-tricarboxylate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.03 * +EC4.2.1.36 2-hydroxy-3-carboxyadipate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 1.1 * +EC4.2.1.39 d-galactonate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 2.0 * +EC4.2.1.39 d-gluconate alcaligenes sp.//*//* 20.8 * +EC4.2.1.39 d-gluconate clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 5.5 * +EC4.2.1.39 d-gluconate penicillium citrinum//*//* 12.5 * +EC4.2.1.39 d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.45 * +EC4.2.1.39 d-gluconate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 5.4 * +EC4.2.1.39 gluconate picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 2.5 * +EC4.2.1.40 d-glucarate acinetobacter baylyi//*//* 0.101 * +EC4.2.1.40 d-glucarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC4.2.1.40 d-glucarate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.067 * +EC4.2.1.40 d-glucarate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.42 * +EC4.2.1.40 l-idarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC4.2.1.41 5-dehydro-4-deoxy-d-glucarate acinetobacter baylyi//*//* 0.203 * +EC4.2.1.42 galactarate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC4.2.1.42 galactarate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 0.62 * +EC4.2.1.42 galactarate salmonella enterica subsp. enterica serovar typhimurium str. lt2//*//* 0.33 * +EC4.2.1.42 galactarate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.33 * +EC4.2.1.42 meso-galactarate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.08 * +EC4.2.1.43 2-dehydro-3-deoxy-l-arabinonate pelomonas saccharophila//*//* 0.07 * +EC4.2.1.44 2-keto-myo-inositol klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.15 * +EC4.2.1.45 cdp-d-glucose salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.4 * +EC4.2.1.45 cdp-d-glucose yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 0.0003 * +EC4.2.1.46 dtdp-3-azido-3-deoxyglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC4.2.1.46 dtdp-3-deoxyglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.2.1.46 dtdp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC4.2.1.46 dtdpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC4.2.1.46 dtdpglucose saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.034 * +EC4.2.1.46 dtdpglucose salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0072 * +EC4.2.1.46 dtdpglucose streptomyces peucetius//*//* 0.035 * +EC4.2.1.46 dtdpglucose streptomyces rimosus//*//* 0.093 * +EC4.2.1.46 dtdpglucose streptomyces sp. c5//*//* 0.031 * +EC4.2.1.46 dudpglucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC4.2.1.46 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.2.1.46 nad+ saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.019 * +EC4.2.1.46 nad+ streptomyces peucetius//*//* 0.02 * +EC4.2.1.46 nad+ streptomyces sp. c5//*//* 0.019 * +EC4.2.1.46 udp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC4.2.1.47 gdp-alpha-d-mannose burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 1.024 * +EC4.2.1.47 gdp-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC4.2.1.47 gdp-mannose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC4.2.1.47 gdp-mannose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01402 * +EC4.2.1.47 gdpmannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.222 * +EC4.2.1.47 gdpmannose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC4.2.1.47 gdpmannose phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.028 * +EC4.2.1.47 gdpmannose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0038 * +EC4.2.1.48 5-oxo-d-proline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 90.0 * +EC4.2.1.48 cis-d-3-fluoro-2-pyrrolidone-5-carboxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 200.0 * +EC4.2.1.48 d-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 150.0 * +EC4.2.1.48 trans-d-3-fluoro-2-pyrrolidone-5-carboxylate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1500.0 * +EC4.2.1.49 2-fluorourocanate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.001 * +EC4.2.1.49 urocanate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.077 * +EC4.2.1.49 urocanate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.005 * +EC4.2.1.49 urocanate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.248 * +EC4.2.1.49 urocanate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0354 * +EC4.2.1.50 o-acetyl-l-serine citrullus lanatus subsp. vulgaris//*//* 2.5 * +EC4.2.1.50 pyrazole citrullus lanatus subsp. vulgaris//*//* 74.0 * +EC4.2.1.51 arogenate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.12 * +EC4.2.1.51 phenylpyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.3 * +EC4.2.1.51 phenylpyruvate oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.29 * +EC4.2.1.51 prephenate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.3 * +EC4.2.1.51 prephenate candida maltosa//*//* 0.33 * +EC4.2.1.51 prephenate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.07 * +EC4.2.1.51 prephenate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.67 * +EC4.2.1.51 prephenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.47 * +EC4.2.1.51 prephenate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.022 * +EC4.2.1.51 prephenate methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 1.2 * +EC4.2.1.51 prephenate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.5 * +EC4.2.1.51 prephenate oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.29 * +EC4.2.1.51 prephenate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.17 * +EC4.2.1.51 prephenate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC4.2.1.51 prephenate sphingomonas paucimobilis//*//* 0.01 * +EC4.2.1.53 alpha-linolenic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.059 * +EC4.2.1.53 gamma-linolenate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 0.77 * +EC4.2.1.53 gamma-linolenic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 1.12 * +EC4.2.1.53 linoleate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 0.58 * +EC4.2.1.53 linoleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.058 * +EC4.2.1.53 myristoleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.3 * +EC4.2.1.53 oleate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 0.54 * +EC4.2.1.53 oleate stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.46 * +EC4.2.1.53 oleic acid elizabethkingia meningoseptica//prokaryotes;bacteria;bacteroidetes;elizabethkingia//emg 0.078 * +EC4.2.1.53 oleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.34 * +EC4.2.1.53 palmitoleate lysinibacillus fusiformis//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lfu 0.76 * +EC4.2.1.53 palmitoleic acid macrococcus caseolyticus//prokaryotes;bacteria;firmicutes - bacilli;macrococcus//mcl 0.57 * +EC4.2.1.55 crotonyl-[acyl-carrier protein] rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.08 * +EC4.2.1.55 crotonyl-coa rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.00926 * +EC4.2.1.55 crotonylpantetheine rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.118 * +EC4.2.1.55 trans-2-hexenoyl-coa rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.0263 * +EC4.2.1.56 (s)-citramalyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.14 * +EC4.2.1.56 (s)-citramalyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.49 * +EC4.2.1.56 itaconyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.034 * +EC4.2.1.56 itaconyl-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.12 * +EC4.2.1.56 mesaconyl-c4-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.31 * +EC4.2.1.56 mesaconyl-c4-coa yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.51 * +EC4.2.1.6 d-fuconate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.3 * +EC4.2.1.6 d-galactonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 8.9 * +EC4.2.1.6 d-galactonate aspergillus terreus//*//* 8.33 * +EC4.2.1.6 d-galactonate klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.9 * +EC4.2.1.6 d-galactonate mycobacterium butyricum//*//* 1.0 * +EC4.2.1.6 d-galactonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.14 * +EC4.2.1.62 5alpha-ergosta-7,22-diene-3beta,5alpha-diol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC4.2.1.65 beta-cyano-l-alanine lupinus angustifolius//eukaryotes;plants;eudicots;pea family//lang 2.0 * +EC4.2.1.65 beta-cyano-l-alanine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 83.0 * +EC4.2.1.66 2-cyanopyridine aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 3.7 * +EC4.2.1.66 cn- fusarium lateritium//*//* 43.0 * +EC4.2.1.66 cn- stemphylium loti//*//* 15.0 * +EC4.2.1.66 cyanide aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 109.0 * +EC4.2.1.66 fumaronitrile aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 14.7 * +EC4.2.1.67 d-fuconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.0 * +EC4.2.1.67 l-arabonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.3 * +EC4.2.1.68 d-arabinonate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.1 * +EC4.2.1.68 l-arabonate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.3 * +EC4.2.1.68 l-fuconate aureobasidium pullulans//*//* 0.6 * +EC4.2.1.68 l-fuconate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.0 * +EC4.2.1.68 l-fuconate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.33 * +EC4.2.1.68 l-galactonate aureobasidium pullulans//*//* 3.3 * +EC4.2.1.68 l-galactonate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 6.2 * +EC4.2.1.69 cyanamide myrothecium verrucaria//*//* 0.0037 * +EC4.2.1.7 d-altronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC4.2.1.70 pseudouridine 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.06 * +EC4.2.1.70 ribose 5-phosphate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.84 * +EC4.2.1.70 ribose 5-phosphate tetrahymena pyriformis//*//* 0.024 * +EC4.2.1.70 trnaile saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00074 * +EC4.2.1.70 trnaval saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00042 * +EC4.2.1.70 uracil agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.67 * +EC4.2.1.70 uracil tetrahymena pyriformis//*//* 0.071 * +EC4.2.1.74 trans-2-decenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.024 * +EC4.2.1.74 trans-2-dodecenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.024 * +EC4.2.1.74 trans-2-hexenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.045 * +EC4.2.1.74 trans-2-octenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.024 * +EC4.2.1.74 trans-2-tetradecenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.024 * +EC4.2.1.75 hydroxymethylbilane bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00033 * +EC4.2.1.75 hydroxymethylbilane escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC4.2.1.75 hydroxymethylbilane euglena gracilis//*//* 0.012 * +EC4.2.1.75 hydroxymethylbilane homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00015 * +EC4.2.1.77 trans-l-3-hydroxyproline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.67 * +EC4.2.1.78 (3,4-dihydroxyphenyl)acetaldehyde thalictrum flavum//*//* 335.0 * +EC4.2.1.78 3,4-dihydroxyphenylacetaldehyde eschscholtzia tenuifolia//*//* 0.7 * +EC4.2.1.78 4-(2-aminoethyl)benzene-1,2-diol eschscholtzia tenuifolia//*//* 1.5 * +EC4.2.1.78 4-hydroxyphenylacetaldehyde eschscholtzia tenuifolia//*//* 0.9 * +EC4.2.1.78 4-hydroxyphenylacetaldehyde eschscholzia californica//*//* 0.66 * +EC4.2.1.78 4-hydroxyphenylacetaldehyde papaver somniferum//*//* 1.0 * +EC4.2.1.78 4-hydroxyphenylacetaldehyde thalictrum flavum ssp. glaucum//*//* 0.335 * +EC4.2.1.78 4-hydroxyphenylacetaldehyde thalictrum flavum//*//* 0.288 * +EC4.2.1.79 (2s,3s)-methylcitrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC4.2.1.79 2-hydroxybutane-1,2,3-tricarboxylate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.19 * +EC4.2.1.8 d-mannonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.79 * +EC4.2.1.8 d-mannonate streptococcus suis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssb 3.0 * +EC4.2.1.80 2-hydroxyhexa-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.0408 * +EC4.2.1.80 2-hydroxypent-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.0317 * +EC4.2.1.80 2-hydroxypentadienoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC4.2.1.80 4-hydroxy-2-oxopentanoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.03 * +EC4.2.1.80 5-chloro-2-hydroxypent-2,4-dienoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.0459 * +EC4.2.1.81 (s,s)-tartrate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.086 * +EC4.2.1.81 (s,s)-tartrate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.18 * +EC4.2.1.81 (s,s)-tartrate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.18 * +EC4.2.1.82 d-gluconate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.4 * +EC4.2.1.82 d-gluconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.77 * +EC4.2.1.82 d-xylonate haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.55 * +EC4.2.1.82 d-xylonate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.98 * +EC4.2.1.83 (e)-3-carboxy-5-oxo-2-hexenedioic acid pseudomonas straminea//*//* 0.0064 * +EC4.2.1.83 (e)-3-carboxy-5-oxo-2-hexenedioic acid sphingomonas paucimobilis//*//* 0.138 * +EC4.2.1.83 2-hydroxy-4-oxobutane-1,2,4-tricarboxylate pseudomonas straminea//*//* 0.014 * +EC4.2.1.83 4-oxalomesaconate pseudomonas straminea//*//* 0.0107 * +EC4.2.1.84 2-cyanopyrazine rhodococcus rhodochrous//*//* 0.71 * +EC4.2.1.84 2-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 5.3 * +EC4.2.1.84 2-cyanopyridine rhodococcus rhodochrous//*//* 0.56 * +EC4.2.1.84 2-nitro-5-thiocyanato-benzoic acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.6 * +EC4.2.1.84 3-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 10.2 * +EC4.2.1.84 3-cyanopyridine rhodococcus rhodochrous//*//* 0.3 * +EC4.2.1.84 4-cyanopyridine aeribacillus pallidus//prokaryotes;bacteria;firmicutes - bacilli;aeribacillus//apak 8.7 * +EC4.2.1.84 4-cyanopyridine rhodococcus rhodochrous//*//* 0.28 * +EC4.2.1.84 4-hydroxyphenylacetonitrile sinapis alba//*//* 45.0 * +EC4.2.1.84 4-hydroxyphenylacetonitrile sinapis arvensis//*//* 45.0 * +EC4.2.1.84 acetonitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 5.78 * +EC4.2.1.84 acetonitrile brevibacterium sp.//*//* 25.0 * +EC4.2.1.84 acetonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 5.4 * +EC4.2.1.84 acrylonitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.88 * +EC4.2.1.84 acrylonitrile brevibacterium sp.//*//* 16.7 * +EC4.2.1.84 acrylonitrile corynebacterium pseudodiphtheriticum//*//* 0.21 * +EC4.2.1.84 acrylonitrile mesorhizobium sp.//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//meso 0.53 * +EC4.2.1.84 acrylonitrile nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 86.0 * +EC4.2.1.84 acrylonitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 34.6 * +EC4.2.1.84 acrylonitrile rhodococcus rhodochrous//*//* 1.89 * +EC4.2.1.84 acrylonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 6.4 * +EC4.2.1.84 adiponitrile brevibacterium sp.//*//* 30.0 * +EC4.2.1.84 benzonitrile rhodococcus rhodochrous//*//* 0.05 * +EC4.2.1.84 benzonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.8 * +EC4.2.1.84 butyronitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 1.9 * +EC4.2.1.84 chloroacetonitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 10.9 * +EC4.2.1.84 chloroacetonitrile brevibacterium sp.//*//* 30.3 * +EC4.2.1.84 chloroacetonitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 22.2 * +EC4.2.1.84 chloroacetonitrile rhodococcus rhodochrous//*//* 6.25 * +EC4.2.1.84 crotononitrile rhodococcus rhodochrous//*//* 4.55 * +EC4.2.1.84 cyanopyrazine rhodococcus rhodochrous//*//* 10.0 * +EC4.2.1.84 cyanovaleramide brevibacterium sp.//*//* 156.0 * +EC4.2.1.84 cyanovaleric acid brevibacterium sp.//*//* 28.0 * +EC4.2.1.84 cyanovaleric acid comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 2.5 * +EC4.2.1.84 indole-3-acetonitrile agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.0079 * +EC4.2.1.84 isobutyronitrile rhodococcus rhodochrous//*//* 1.51 * +EC4.2.1.84 isobutyronitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 10.0 * +EC4.2.1.84 methacrylonitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 8.77 * +EC4.2.1.84 methacrylonitrile brevibacterium sp.//*//* 9.5 * +EC4.2.1.84 methacrylonitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 3.8 * +EC4.2.1.84 methacrylonitrile pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.0 * +EC4.2.1.84 methacrylonitrile rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.75 * +EC4.2.1.84 methacrylonitrile rhodococcus rhodochrous//*//* 0.44 * +EC4.2.1.84 methacrylonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.68 * +EC4.2.1.84 n-butyronitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 10.8 * +EC4.2.1.84 n-butyronitrile brevibacterium sp.//*//* 8.3 * +EC4.2.1.84 n-butyronitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 1.03 * +EC4.2.1.84 n-butyronitrile rhodococcus rhodochrous//*//* 0.65 * +EC4.2.1.84 n-valeronitrile brevibacterium sp.//*//* 3.6 * +EC4.2.1.84 n-valeronitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 2.33 * +EC4.2.1.84 phenylacetonitrile agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.001 * +EC4.2.1.84 pivalonitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 57.0 * +EC4.2.1.84 propionitrile arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.9 * +EC4.2.1.84 propionitrile brevibacterium sp.//*//* 8.0 * +EC4.2.1.84 propionitrile microbacterium imperiale//*//* 21.6 * +EC4.2.1.84 propionitrile pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 29.4 * +EC4.2.1.84 propionitrile rhodococcus rhodochrous//*//* 1.89 * +EC4.2.1.84 propionitrile rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.38 * +EC4.2.1.84 succinonitrile brevibacterium sp.//*//* 25.0 * +EC4.2.1.84 trans-4-cyanocyclohexane-1-carboxylic acid corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.06 * +EC4.2.1.85 dimethylmaleate eubacterium barkeri//*//* 3.1 * +EC4.2.1.9 2,3-dihydroxy-3-methylbutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.97 * +EC4.2.1.9 2,3-dihydroxy-3-methylbutanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.1 * +EC4.2.1.9 2,3-dihydroxy-3-methylpentanoate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.16 * +EC4.2.1.9 2,3-dihydroxy-3-methylpentanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 6.3 * +EC4.2.1.9 2,3-dihydroxybutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.55 * +EC4.2.1.9 2,3-dihydroxyisovalerate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC4.2.1.9 2,3-dihydroxyisovalerate methanococcus aeolicus//prokaryotes;archaea;euryarchaeota;methanococcus//mae 2.8 * +EC4.2.1.9 2,3-dihydroxyisovalerate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.85 * +EC4.2.1.9 2,3-dihydroxyisovalerate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.5 * +EC4.2.1.9 2,3-dihydroxyisovalerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.54 * +EC4.2.1.9 2r,3r-2,3-dihydroxy-3-methylpentanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.33 * +EC4.2.1.9 2r,3s-2,3-dihydroxy-3-methylpentanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.71 * +EC4.2.1.9 3-cyclopropyl-2,3-dihydroxybutanoate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.78 * +EC4.2.1.9 d-erythronate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.75 * +EC4.2.1.9 d-gluconate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.42 * +EC4.2.1.9 dl-2,3-dihydroxyisovalerate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.7 * +EC4.2.1.9 l-threonate aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 10.1 * +EC4.2.1.9 l-threonate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.65 * +EC4.2.1.90 l-lyxonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC4.2.1.90 l-lyxonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.6 * +EC4.2.1.90 l-mannonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC4.2.1.90 l-mannonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.06 * +EC4.2.1.90 l-rhamnonate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 2.99 * +EC4.2.1.90 l-rhamnonate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.115 * +EC4.2.1.90 l-rhamnonate escherichia coli k-12//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC4.2.1.90 l-rhamnonate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.25 * +EC4.2.1.90 l-rhamnonate scheffersomyces stipitis//eukaryotes;fungi;ascomycetes;saccharomycetes//pic 1.37 * +EC4.2.1.91 arogenate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.12 * +EC4.2.1.91 l-arogenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.43 * +EC4.2.1.91 l-arogenate brevundimonas diminuta//*//* 0.63 * +EC4.2.1.91 l-arogenate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.09 * +EC4.2.1.91 l-arogenate petunia x hybrida//*//* 0.0488 * +EC4.2.1.91 l-arogenate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.19 * +EC4.2.1.91 l-arogenate sorghum bicolor//eukaryotes;plants;monocots;grass family//sbi 0.1 * +EC4.2.1.91 prephenate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.68 * +EC4.2.1.91 prephenate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.17 * +EC4.2.1.91 prephenate petunia x hybrida//*//* 0.4658 * +EC4.2.1.91 prephenate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.4 * +EC4.2.1.92 (13s)-hydroperoxy-(9z,11z,15z)-octadecatrienoic acid physcomitrella patens//eukaryotes;plants;mosses//ppp 0.0593 * +EC4.2.1.92 (13s)-hydroperoxyoctadecadienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0123 * +EC4.2.1.92 (13s)-hydroperoxyoctadecatrienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0125 * +EC4.2.1.92 (9s)-hydroperoxyoctadecadienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0069 * +EC4.2.1.92 (9s)-hydroperoxyoctadecatrienoic acid oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0086 * +EC4.2.1.92 linoleate hydroperoxide solanum melongena//*//* 0.024 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00069 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.00089 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00115 * +EC4.2.1.93 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide zea mays//eukaryotes;plants;monocots;grass family//zma 0.00086 * +EC4.2.1.94 2,3-dihydro-2,5-dihydroxy-4h-benzopyran-4-one magnaporthe grisea//*//* 15.0 * +EC4.2.1.94 scytalone magnaporthe grisea//*//* 33.0 * +EC4.2.1.94 scytalone magnaporthe oryzae//eukaryotes;fungi;ascomycetes;sordariomycetes//mgr 0.022 * +EC4.2.1.94 scytalone phaeococcomyces sp.//*//* 2.0 * +EC4.2.1.94 vermelone magnaporthe grisea//*//* 31.0 * +EC4.2.1.95 kievitone fusarium phaseoli//*//* 0.0175 * +EC4.2.1.96 (6r)-6-(l-erythro-1,2-dihydroxypropyl)-5,6,7,8-tetrahydro-4a-hydroxypterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC4.2.1.96 4a(r)-hydroxy-6(s)-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC4.2.1.96 4a(r)-hydroxy-6(s)-propyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC4.2.1.96 4a(s)-hydroxy-6(r)-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC4.2.1.96 4a-hydroxy-6(s)-methyltetrahydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.003 * +EC4.2.1.96 4a-hydroxy-6(s)-methyltetrahydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0025 * +EC4.2.1.96 4a-hydroxy-6(s)-propyltetrahydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC4.2.1.96 4a-hydroxytetrahydrobiopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0052 * +EC4.2.1.96 6(s)-methyl-7,8-dihydropterin-4a-carbinolamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC4.2.1.97 phaseollidin fusarium solani//*//* 0.007 * +EC4.2.1.98 16alpha-hydroxypregnenolone eubacterium sp.//*//* 0.25 * +EC4.2.1.98 16alpha-hydroxyprogesterone eubacterium sp.//*//* 0.52 * +EC4.2.1.99 (2s,3r)-3-hydroxybutane-1,2,3-tricarboxylate yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.018 * +EC4.2.1.B22 galactarate oceanobacillus iheyensis//prokaryotes;bacteria;firmicutes - bacilli;oceanobacillus//oih 0.62 * +EC4.2.1.B26 (e)-glutaconyl-coa clostridium symbiosum//*//* 0.25 * +EC4.2.1.B26 (e)-oxalocrotonyl-coa clostridium symbiosum//*//* 1.1 * +EC4.2.1.B26 (e,e)-muconyl-coa clostridium symbiosum//*//* 0.57 * +EC4.2.1.B26 (r)-2-hydroxyadipyl-coa clostridium symbiosum//*//* 0.1 * +EC4.2.1.B26 (r)-2-hydroxyglutaryl-coa clostridium symbiosum//*//* 0.052 * +EC4.2.1.B26 (r)-2-hydroxyglutaryl-n-acetylcysteamine clostridium symbiosum//*//* 0.115 * +EC4.2.1.B26 butynedioyl-coa clostridium symbiosum//*//* 2.1 * +EC4.2.1.B26 s-(r)-2-hydroxyglutarylpantetheine clostridium symbiosum//*//* 0.09 * +EC4.2.1.B27 4-nitrobenzaldehyde sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.62 * +EC4.2.1.B8 (9z,11e,13s)-13-hydroperoxy-9,11-octadecadienoic acid ranunculus acris//*//* 0.0976 * +EC4.2.1.B8 (9z,11e,13s,15z)-13-hydroperoxy-9,11,15-octadecatrienate ranunculus acris//*//* 0.0431 * +EC4.2.1.B9 (9s,10e,12z)-9-hydroperoxy-10,12-octadecadienoate allium sativum//*//* 0.03 * +EC4.2.1.B9 (9s,10e,12z,15z)-9-hydroperoxy-10,12,15-octadecatrienoate allium sativum//*//* 0.02 * +EC4.2.1.B9 13-hydroperoxy-octadecatrienoate allium sativum//*//* 0.01 * +EC4.2.2.1 hyaluronan streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.09 * +EC4.2.2.1 hyaluronate streptococcus sp.//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sig 0.38 * +EC4.2.2.1 hyaluronic acid streptococcus equi subsp. equi 4047//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//seu 0.71 * +EC4.2.2.10 pectin curvularia inaequalis//*//* 0.35 * +EC4.2.2.11 acetylated alginate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0026 * +EC4.2.2.11 acetylated poly-(beta-(1->4)-d-mannuronan) pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.005 * +EC4.2.2.11 alginate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.011 * +EC4.2.2.11 poly-(beta-(1->4)-d-mannuronan) pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.013 * +EC4.2.2.11 saturated deca((1-4)-alpha-l-guluronan) corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.077 * +EC4.2.2.11 saturated hepta((1-4)-alpha-l-guluronan) alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.192 * +EC4.2.2.11 saturated hepta((1-4)-alpha-l-guluronan) corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.099 * +EC4.2.2.11 saturated hexa((1-4)-alpha-l-guluronan) alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.226 * +EC4.2.2.11 saturated hexa((1-4)-alpha-l-guluronan) corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.11 * +EC4.2.2.11 saturated penta((1-4)-alpha-l-guluronan) alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.232 * +EC4.2.2.11 saturated penta((1-4)-alpha-l-guluronan) corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.3 * +EC4.2.2.11 saturated tetra((1-4)-alpha-l-guluronan) alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 4.25 * +EC4.2.2.11 sodium alginate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 0.0216 * +EC4.2.2.13 2,4,6-trichlorophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 0.77 * +EC4.2.2.13 2,4-dinitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 3.8 * +EC4.2.2.13 2,5-dinitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 9.9 * +EC4.2.2.13 2-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 11.0 * +EC4.2.2.13 3,4-dinitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 0.59 * +EC4.2.2.13 3,5-dichlorophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 3.1 * +EC4.2.2.13 3-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 2.2 * +EC4.2.2.13 4-chloro-2-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 2.7 * +EC4.2.2.13 4-chlorophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 2.1 * +EC4.2.2.13 4-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 2.1 * +EC4.2.2.13 5-fluoro-alpha-d-glucopyranosyl fluoride gracilariopsis sp.//*//* 10.7 * +EC4.2.2.13 alpha-d-glucopyranosyl fluoride gracilariopsis sp.//*//* 27.9 * +EC4.2.2.13 amylopectin gracilaria chorda//*//* 0.03 * +EC4.2.2.13 glycogen gracilaria chorda//*//* 0.03 * +EC4.2.2.13 maltoheptaose gracilaria chorda//*//* 0.1 * +EC4.2.2.13 maltohexaose gracilaria chorda//*//* 0.1 * +EC4.2.2.13 maltopentaose gracilaria chorda//*//* 0.1 * +EC4.2.2.13 maltose gracilaria chorda//*//* 2.3 * +EC4.2.2.13 maltotetraose gracilaria chorda//*//* 0.1 * +EC4.2.2.13 maltotriose gracilaria chorda//*//* 0.4 * +EC4.2.2.13 p-nitrophenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 2.0 * +EC4.2.2.13 phenyl alpha-d-glucopyranoside gracilariopsis sp.//*//* 4.4 * +EC4.2.2.15 4-methylumbelliferyl-alpha-n-acetylneuraminic acid macrobdella decora//*//* 0.68 * +EC4.2.2.17 inulin paenarthrobacter ureafaciens//*//* 4.0 * +EC4.2.2.18 inulin arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.8 * +EC4.2.2.18 inulin bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.4 * +EC4.2.2.18 inulin leifsonia sp. t88-4//*//* 1.0 * +EC4.2.2.18 inulin paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.52 * +EC4.2.2.18 inulin paenarthrobacter ureafaciens//*//* 5.0 * +EC4.2.2.19 dermatan sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.0163 * +EC4.2.2.2 galacturonan dickeya chrysanthemi//*//* 0.05 * +EC4.2.2.2 hexagalacturonic acid streptomyces nitrosporeus//*//* 0.38 * +EC4.2.2.2 pentagalacturonic acid streptomyces nitrosporeus//*//* 0.23 * +EC4.2.2.2 polygalacturonate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.11 * +EC4.2.2.2 polygalacturonic acid penicillium occitanis//*//* 0.0136 * +EC4.2.2.2 tetragalacturonate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.19 * +EC4.2.2.2 tetragalacturonic acid streptomyces nitrosporeus//*//* 0.19 * +EC4.2.2.2 trigalacturonate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.2 * +EC4.2.2.2 trigalacturonic acid streptomyces nitrosporeus//*//* 1.5 * +EC4.2.2.20 chondroitin 4-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.033 * +EC4.2.2.20 chondroitin 6-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.055 * +EC4.2.2.20 chondroitin-6-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.066 * +EC4.2.2.20 dermatan sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.094 * +EC4.2.2.21 chondroitin 4-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.0015 * +EC4.2.2.21 chondroitin 6-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.0012 * +EC4.2.2.21 chondroitin sulfate a bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.067 * +EC4.2.2.21 chondroitin sulfate c bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.033 * +EC4.2.2.21 chondroitin-6-sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.08 * +EC4.2.2.21 dermatan sulfate bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.061 * +EC4.2.2.21 dermatan sulfate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.0025 * +EC4.2.2.22 polygalacturonic acid thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.06 * +EC4.2.2.3 alginate azotobacter vinelandii phage//*//* 0.94 * +EC4.2.2.3 alginate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.46 * +EC4.2.2.3 alginate littorina sp.//*//* 0.19 * +EC4.2.2.3 alginate pseudoalteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 2.36 * +EC4.2.2.3 alginate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 1.09 * +EC4.2.2.3 hepta-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.031 * +EC4.2.2.3 hepta-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.192 * +EC4.2.2.3 hexa-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.035 * +EC4.2.2.3 hexa-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.226 * +EC4.2.2.3 nona-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.025 * +EC4.2.2.3 nona-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.172 * +EC4.2.2.3 octa-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.028 * +EC4.2.2.3 octa-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.186 * +EC4.2.2.3 penta-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.039 * +EC4.2.2.3 penta-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 0.232 * +EC4.2.2.3 sodium alginate saccharophagus degradans//prokaryotes;bacteria;gammaproteobacteria - others;saccharophagus//sde 0.0216 * +EC4.2.2.3 tetra-alpha1,4-l-guluronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 3.86 * +EC4.2.2.3 tetra-beta1,4-d-mannuronate alteromonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//psm 4.25 * +EC4.2.2.5 4-o-(2',4'-dinitrophenyl)-beta-d-glucopyranosiruronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 6.9 * +EC4.2.2.5 benzyl 4-deoxy-4-fluoro-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 28.0 * +EC4.2.2.5 benzyl 4-o-(2',4'-dinitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 7.0 * +EC4.2.2.5 benzyl 4-o-(2'-nitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 16.9 * +EC4.2.2.5 benzyl 4-o-(3',4'-dinitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 9.0 * +EC4.2.2.5 benzyl 4-o-(4'-chloro-2'-nitrophenyl)-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 12.2 * +EC4.2.2.5 chondroitin 4-sulfate paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.376 * +EC4.2.2.5 chondroitin 4-sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.00544 * +EC4.2.2.5 chondroitin 6-sulfate paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.215 * +EC4.2.2.5 chondroitin 6-sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.00528 * +EC4.2.2.5 chondroitin sulfate a bacteroides stercoris//*//* 0.38 * +EC4.2.2.5 chondroitin sulfate c bacteroides stercoris//*//* 0.155 * +EC4.2.2.5 chondroitin sulfate c paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.0104 * +EC4.2.2.5 chondroitin sulfate c pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.008 * +EC4.2.2.5 chondroitin paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.239 * +EC4.2.2.5 chondroitin pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.0322 * +EC4.2.2.5 hyaluronan methyl ester paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.00119 * +EC4.2.2.5 hyaluronan paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.1755 * +EC4.2.2.5 hyaluronate paenarthrobacter aurescens//prokaryotes;bacteria;actinobacteria;paenarthrobacter//aau 0.239 * +EC4.2.2.5 hyaluronate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.217 * +EC4.2.2.5 hyaluronic acid bacteroides stercoris//*//* 0.259 * +EC4.2.2.5 hyaluronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.00286 * +EC4.2.2.5 phenyl 4-deoxy-4-fluoro-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 114.0 * +EC4.2.2.5 phenyl 4-methylumbelliferyl-beta-d-glucopyranosiduronic acid pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.9 * +EC4.2.2.6 digalacturonic acid dickeya chrysanthemi//*//* 0.15 * +EC4.2.2.6 digalacturonic acid erwinia aroidea//*//* 5.3 * +EC4.2.2.6 trigalacturonic acid dickeya chrysanthemi//*//* 0.12 * +EC4.2.2.6 unsaturated digalacturonic acid erwinia aroidea//*//* 1.6 * +EC4.2.2.7 heparan sulfate bacillus circulans//*//* 0.0036 * +EC4.2.2.7 heparan sulfate bacteroides stercoris//*//* 0.015 * +EC4.2.2.7 heparin, 20-mer bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0046 * +EC4.2.2.7 heparin, 6-mer bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0541 * +EC4.2.2.7 heparin, 8-mer bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0182 * +EC4.2.2.7 heparin aspergillus flavus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afv 0.022 * +EC4.2.2.7 heparin bacillus circulans//*//* 0.0042 * +EC4.2.2.7 heparin bacteroides stercoris//*//* 0.013 * +EC4.2.2.7 heparin bacteroides thetaiotaomicron//prokaryotes;bacteria;bacteroidetes;bacteroides//bth 0.0023 * +EC4.2.2.7 heparin pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.00795 * +EC4.2.2.7 more pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.018 * +EC4.2.2.7 n-acetyl-de-o-sulfated heparin sphingobacterium sp.//prokaryotes;bacteria;bacteroidetes;sphingobacterium//shg 0.042 * +EC4.2.2.8 heparan sulfate pedobacter heparinus//prokaryotes;bacteria;bacteroidetes;pedobacter//phe 0.143 * +EC4.2.2.9 oligogalacturonate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0032 * +EC4.2.2.9 polygalacturonate i pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0013 * +EC4.2.2.9 polygalacturonate ii pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0016 * +EC4.2.2.9 trigalacturonate pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.0054 * +EC4.2.3.1 o-phospho-l-homoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC4.2.3.1 o-phospho-l-homoserine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC4.2.3.1 o-phosphohomoserine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.03 * +EC4.2.3.1 o-phosphohomoserine beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 1.3 * +EC4.2.3.1 o-phosphohomoserine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC4.2.3.1 o-phosphohomoserine pisum sativum//*//* 1.3 * +EC4.2.3.1 o-phosphohomoserine raphanus sativus//*//* 1.3 * +EC4.2.3.1 o-phospohomoserine lemna paucicostata//*//* 0.002 * +EC4.2.3.10 2,3-cyclopropylgeranyl diphosphate foeniculum vulgare//*//* 0.02 * +EC4.2.3.10 6,7-dihydrogeranyl diphosphate foeniculum vulgare//*//* 0.025 * +EC4.2.3.10 geranyl diphosphate foeniculum vulgare//*//* 0.006 * +EC4.2.3.101 (2e,6e)-farnesyl diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0011 * +EC4.2.3.101 geranyl diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0009 * +EC4.2.3.104 (2e,6e)-farnesyl diphosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.0289 * +EC4.2.3.106 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0026 * +EC4.2.3.106 geranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0067 * +EC4.2.3.107 (3r)-linalyl diphosphate pinus contorta//*//* 0.0017 * +EC4.2.3.107 (3s)-linalyl diphosphate pinus contorta//*//* 0.0015 * +EC4.2.3.107 geranyl diphosphate picea sitchensis//*//* 0.00688 * +EC4.2.3.107 geranyl diphosphate pinus contorta//*//* 0.0037 * +EC4.2.3.108 (3r)-linalyl diphosphate salvia officinalis//*//* 0.002 * +EC4.2.3.108 (3s)-linalyl diphosphate salvia officinalis//*//* 0.0042 * +EC4.2.3.108 geranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0002 * +EC4.2.3.108 geranyl diphosphate lavandula x intermedia//*//* 0.0057 * +EC4.2.3.108 geranyl diphosphate salvia fruticosa//*//* 0.0654 * +EC4.2.3.108 geranyl diphosphate salvia officinalis//*//* 0.0011 * +EC4.2.3.108 geranyl diphosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.00017 * +EC4.2.3.108 neryl diphosphate salvia officinalis//*//* 0.0045 * +EC4.2.3.109 geranyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0002 * +EC4.2.3.109 geranyl diphosphate conocephalum conicum//*//* 0.004 * +EC4.2.3.109 geranyl diphosphate picea sitchensis//*//* 0.0357 * +EC4.2.3.11 (3r)-linalyl diphosphate origanum majorana//*//* 0.0027 * +EC4.2.3.11 (3s)-linalyl diphosphate origanum majorana//*//* 0.001 * +EC4.2.3.11 6,7-dihydrogeranyl diphosphate origanum majorana//*//* 0.0045 * +EC4.2.3.11 geranyl diphosphate origanum majorana//*//* 0.0019 * +EC4.2.3.11 neryl diphosphate origanum majorana//*//* 0.0105 * +EC4.2.3.110 geranyl diphosphate salvia officinalis//*//* 0.0074 * +EC4.2.3.113 (3r)-linalyl diphosphate salvia officinalis//*//* 0.0035 * +EC4.2.3.113 (3s)-linalyl diphosphate salvia officinalis//*//* 0.0035 * +EC4.2.3.113 geranyl diphosphate lavandula angustifolia//*//* 0.0474 * +EC4.2.3.113 geranyl diphosphate picea sitchensis//*//* 0.0158 * +EC4.2.3.113 geranyl diphosphate salvia officinalis//*//* 0.0021 * +EC4.2.3.113 neryl diphosphate salvia officinalis//*//* 0.0021 * +EC4.2.3.114 geranyl diphosphate citrus limon//*//* 0.0027 * +EC4.2.3.114 geranyl diphosphate origanum vulgare//*//* 0.00871 * +EC4.2.3.114 geranyl diphosphate salvia officinalis//*//* 0.0074 * +EC4.2.3.114 geranyl diphosphate thymus vulgaris//*//* 0.0026 * +EC4.2.3.114 neryl diphosphate thymus vulgaris//*//* 0.009 * +EC4.2.3.118 (e)-2-methylgeranyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.026 * +EC4.2.3.118 geranyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0028 * +EC4.2.3.119 (3r)-linalyl diphosphate salvia officinalis//*//* 0.0035 * +EC4.2.3.119 (3s)-linalyl diphosphate salvia officinalis//*//* 0.0035 * +EC4.2.3.119 (rs)-alpha-terpinyl diphosphate salvia officinalis//*//* 0.009 * +EC4.2.3.119 geranyl diphosphate abies grandis//*//* 0.006 * +EC4.2.3.119 geranyl diphosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.793 * +EC4.2.3.119 geranyl diphosphate pinus taeda//*//* 0.0014 * +EC4.2.3.119 geranyl diphosphate salvia officinalis//*//* 0.0016 * +EC4.2.3.119 neryl diphosphate salvia officinalis//*//* 0.0021 * +EC4.2.3.12 6-(l-erythro-1,2-dihydroxypropyl 3-monophosphate)-7,8-dihydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC4.2.3.12 6-(l-erythro-1,2-dihydroxypropyl 3-triphosphate)-7,8-dihydropterin drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.1 * +EC4.2.3.12 6-(l-erythro-1,2-dihydroxypropyl 3-triphosphate)-7,8-dihydropterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0081 * +EC4.2.3.12 6-(l-erythro-1,2-dihydroxypropyl 3-triphosphate)-7,8-dihydropterin rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC4.2.3.12 6-(l-erythro-1,2-dihydroxypropyl 3-triphosphate)-7,8-dihydropterin salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 0.0022 * +EC4.2.3.12 7,8-dihydroneopterin triphosphate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0128 * +EC4.2.3.12 7,8-dihydroneopterin triphosphate drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.1 * +EC4.2.3.12 7,8-dihydroneopterin triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC4.2.3.12 7,8-dihydroneopterin triphosphate mortierella alpina//*//* 0.164 * +EC4.2.3.12 7,8-dihydroneopterin triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC4.2.3.12 7,8-dihydroneopterin triphosphate salmo salar//eukaryotes;animals;vertebrates;fishes//sasa 0.0022 * +EC4.2.3.12 sepiapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.92 * +EC4.2.3.120 (3r)-linalyl diphosphate pinus contorta//*//* 0.0032 * +EC4.2.3.120 (3r)-linalyl diphosphate salvia officinalis//*//* 0.0036 * +EC4.2.3.120 (3s)-linalyl diphosphate pinus contorta//*//* 0.001 * +EC4.2.3.120 (3s)-linalyl diphosphate salvia officinalis//*//* 0.0036 * +EC4.2.3.120 geranyl diphosphate abies grandis//*//* 0.006 * +EC4.2.3.120 geranyl diphosphate citrus limon//*//* 0.0031 * +EC4.2.3.120 geranyl diphosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.793 * +EC4.2.3.120 geranyl diphosphate pinus contorta//*//* 0.0025 * +EC4.2.3.120 geranyl diphosphate salvia officinalis//*//* 0.003 * +EC4.2.3.120 neryl diphosphate salvia officinalis//*//* 0.0023 * +EC4.2.3.121 (3r)-linalyl diphosphate salvia officinalis//*//* 0.004 * +EC4.2.3.121 (3s)-linalyl diphosphate salvia officinalis//*//* 0.0049 * +EC4.2.3.121 (rs)-alpha-terpinyl diphosphate salvia officinalis//*//* 0.0025 * +EC4.2.3.121 geranyl diphosphate lavandula angustifolia//*//* 0.0474 * +EC4.2.3.121 geranyl diphosphate pinus taeda//*//* 0.047 * +EC4.2.3.121 geranyl diphosphate salvia officinalis//*//* 0.001 * +EC4.2.3.121 neryl diphosphate salvia officinalis//*//* 0.006 * +EC4.2.3.122 (rs)-alpha-terpinyl diphosphate salvia officinalis//*//* 0.009 * +EC4.2.3.122 geranyl diphosphate salvia officinalis//*//* 0.0016 * +EC4.2.3.124 d-glucose 6-phosphate bacillus circulans//*//* 0.017 * +EC4.2.3.124 d-glucose 6-phosphate streptoalloteichus hindustanus//*//* 0.69 * +EC4.2.3.13 (2e,6e)-farnesyl diphosphate phyla dulcis//*//* 0.0048 * +EC4.2.3.13 (2e,6z)-farnesyl diphosphate gossypium arboreum//*//* 0.0032 * +EC4.2.3.13 2-trans,6-trans-farnesyl diphosphate gossypium arboreum//*//* 0.0017 * +EC4.2.3.13 2-trans,6-trans-farnesyl diphosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.0106 * +EC4.2.3.132 (+)-copalyl diphosphate abies grandis//*//* 0.00035 * +EC4.2.3.133 (2e,6e)-farnesyl diphosphate phyla dulcis//*//* 0.0048 * +EC4.2.3.134 (5r)-5-phosphohydroxy-l-lysine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0169 * +EC4.2.3.134 (5r)-5-phosphohydroxy-l-lysine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0036 * +EC4.2.3.135 (2e,6e)-farnesyl diphosphate stereum hirsutum//eukaryotes;fungi;basidiomycetes//shs 0.00152 * +EC4.2.3.135 (2e,6e)farnesyl diphosphate armillaria gallica//*//* 0.00053 * +EC4.2.3.138 (2e,6e)-farnesyl diphosphate phyla dulcis//*//* 0.0048 * +EC4.2.3.139 (2e,6e)-farnesyl diphosphate valeriana officinalis//*//* 0.001 * +EC4.2.3.142 (2z,6z)-farnesyl diphosphate solanum habrochaites//*//* 0.007 * +EC4.2.3.143 (2e,6e)-farnesyl diphosphate thapsia garganica//*//* 0.0026 * +EC4.2.3.144 geranylgeranyl diphosphate nicotiana attenuata//*//* 0.0315 * +EC4.2.3.144 geranylgeranyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0187 * +EC4.2.3.148 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0937 * +EC4.2.3.149 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0421 * +EC4.2.3.150 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0421 * +EC4.2.3.151 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0421 * +EC4.2.3.153 d-glyceraldehyde methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.035 * +EC4.2.3.154 d-sedoheptulose 7-phosphate anabaena variabilis//*//* 0.0216 * +EC4.2.3.154 d-sedoheptulose 7-phosphate nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0651 * +EC4.2.3.155 d-sedoheptulose 7-phosphate actinosynnema mirum//prokaryotes;bacteria;actinobacteria;actinosynnema//ami 0.0599 * +EC4.2.3.155 d-sedoheptulose 7-phosphate stigmatella aurantiaca//prokaryotes;bacteria;deltaproteobacteria;stigmatella//sur 0.0386 * +EC4.2.3.16 (3r)-linalyl diphosphate mentha sp.//*//* 0.0019 * +EC4.2.3.16 (3s)-linalyl diphosphate mentha sp.//*//* 0.0023 * +EC4.2.3.16 geranyl diphosphate cannabis sativa//*//* 0.0068 * +EC4.2.3.16 geranyl diphosphate mentha sp.//*//* 0.0018 * +EC4.2.3.16 geranyl diphosphate ricciocarpos natans//*//* 0.00125 * +EC4.2.3.16 neryl diphosphate mentha sp.//*//* 0.001 * +EC4.2.3.17 geranylgeranyl diphosphate taxus brevifolia//*//* 0.003 * +EC4.2.3.17 geranylgeranyl diphosphate taxus canadensis//*//* 0.0026 * +EC4.2.3.17 mg2+ taxus canadensis//*//* 0.025 * +EC4.2.3.18 copalyl diphosphate abies grandis//*//* 0.00035 * +EC4.2.3.19 copalyl diphosphate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.0004 * +EC4.2.3.19 copalyl diphosphate fusarium verticillioides//eukaryotes;fungi;ascomycetes;sordariomycetes//fvr 0.001 * +EC4.2.3.19 copalyl diphosphate marah macrocarpa//*//* 0.0006 * +EC4.2.3.2 ethanolamine phosphate achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.28 * +EC4.2.3.2 ethanolamine phosphate flavobacterium rhenanum//*//* 0.32 * +EC4.2.3.2 ethanolamine phosphate microbacterium arborescens//*//* 0.45 * +EC4.2.3.2 ethanolamine phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.63 * +EC4.2.3.2 ethanolamine phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.61 * +EC4.2.3.20 geranyl diphosphate citrus limon//*//* 0.0007 * +EC4.2.3.20 geranyl diphosphate lavandula angustifolia//*//* 0.0474 * +EC4.2.3.21 trans,trans-farnesyl diphosphate hyoscyamus muticus//*//* 0.002 * +EC4.2.3.22 (2e,6e)-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 6.2e-05 * +EC4.2.3.22 farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 7.5e-05 * +EC4.2.3.24 farnesyl diphosphate artemisia annua//*//* 0.0006 * +EC4.2.3.24 geranyl diphosphate artemisia annua//*//* 0.0169 * +EC4.2.3.25 geranyl diphosphate actinidia arguta//*//* 0.0021 * +EC4.2.3.25 geranyl diphosphate actinidia polygama//*//* 0.0026 * +EC4.2.3.25 geranyl diphosphate cereus peruvianus//*//* 0.018 * +EC4.2.3.25 geranyl diphosphate clarkia breweri//*//* 0.0009 * +EC4.2.3.25 mg2+ actinidia arguta//*//* 0.346 * +EC4.2.3.25 mg2+ actinidia polygama//*//* 0.891 * +EC4.2.3.25 mg2+ cereus peruvianus//*//* 0.06 * +EC4.2.3.25 mg2+ clarkia breweri//*//* 0.33 * +EC4.2.3.25 mn2+ actinidia arguta//*//* 0.0282 * +EC4.2.3.25 mn2+ actinidia polygama//*//* 0.0266 * +EC4.2.3.25 mn2+ cereus peruvianus//*//* 0.0056 * +EC4.2.3.25 mn2+ clarkia breweri//*//* 0.045 * +EC4.2.3.26 geranyl diphosphate artemisia annua//*//* 0.064 * +EC4.2.3.26 geranyl diphosphate mentha aquatica var. citrata//*//* 0.025 * +EC4.2.3.27 dimethylallyl diphosphate populus tremula x populus alba//*//* 2.45 * +EC4.2.3.27 dimethylallyl diphosphate populus tremula x populus tremuloides//*//* 0.0038 * +EC4.2.3.27 dimethylallyl diphosphate populus tremuloides//*//* 8.0 * +EC4.2.3.27 dimethylallyl diphosphate populus trichocarpa//eukaryotes;plants;eudicots;willow family//pop 0.32 * +EC4.2.3.27 dimethylallyl diphosphate salix discolor//*//* 8.0 * +EC4.2.3.29 ent-copalyl diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0006 * +EC4.2.3.3 dihydroxyacetone phosphate capra hircus//eukaryotes;animals;vertebrates;mammals//chx 0.76 * +EC4.2.3.3 dihydroxyacetone phosphate clostridium acetobutylicum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cac 0.53 * +EC4.2.3.3 dihydroxyacetone phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC4.2.3.3 dihydroxyacetone phosphate pelomonas saccharophila//*//* 0.09 * +EC4.2.3.3 dihydroxyacetone phosphate proteus vulgaris//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pvl 0.19 * +EC4.2.3.3 dihydroxyacetone phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.0 * +EC4.2.3.3 dihydroxyacetone phosphate thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 0.5 * +EC4.2.3.3 glycerone phosphate thermus sp. gh5//*//* 0.56 * +EC4.2.3.31 ent-copalyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00026 * +EC4.2.3.36 terpentedienyl diphosphate kitasatospora griseola//*//* 0.0076 * +EC4.2.3.37 (2e,6e)-farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.000125 * +EC4.2.3.37 (2e,6e)-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.000147 * +EC4.2.3.38 (2e,6e)-farnesyl diphosphate abies grandis//*//* 0.0495 * +EC4.2.3.4 (3r)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate actinidia chinensis//*//* 0.0087 * +EC4.2.3.4 (3r)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC4.2.3.4 (3r)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.002 * +EC4.2.3.4 (3s)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate actinidia chinensis//*//* 0.064 * +EC4.2.3.4 (3s)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC4.2.3.4 (3s)-3-fluoro-3-deoxy-d-arabino-heptulosonate 7-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.029 * +EC4.2.3.4 3-deoxy-d-arabino-hept-2-ulosonate 7-phosphate actinidia chinensis//*//* 0.0032 * +EC4.2.3.4 3-deoxy-d-arabino-hept-2-ulosonate 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00055 * +EC4.2.3.4 3-deoxy-d-arabino-hept-2-ulosonate 7-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0037 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonate 7-phosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.021 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonate phosphate aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0022 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonic acid 7-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.033 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonic acid 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.033 * +EC4.2.3.4 3-deoxy-d-arabino-heptulosonic acid 7-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0014 * +EC4.2.3.4 nad+ aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.0019 * +EC4.2.3.4 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.055 * +EC4.2.3.41 farnesyl diphosphate pseudopterogorgia elisabethae//*//* 0.0035 * +EC4.2.3.41 geranyl diphosphate pseudopterogorgia elisabethae//*//* 0.0285 * +EC4.2.3.41 geranylgeranyl diphosphate pseudopterogorgia elisabethae//*//* 0.0023 * +EC4.2.3.46 (2e,6e)-farnesyl diphosphate actinidia deliciosa//*//* 0.0095 * +EC4.2.3.46 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0026 * +EC4.2.3.46 (2e,6e)-farnesyl diphosphate malus domestica//eukaryotes;plants;eudicots;rose family//mdm 0.003 * +EC4.2.3.46 geranyl diphosphate actinidia deliciosa//*//* 0.0028 * +EC4.2.3.47 (2e,6e)-farnesyl diphosphate artemisia annua//*//* 0.0021 * +EC4.2.3.47 (2e,6e)-farnesyl diphosphate mentha x piperita//*//* 0.018 * +EC4.2.3.47 (2e,6e)-farnesyl diphosphate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.0168 * +EC4.2.3.47 (2z,6e)-2-fluorofarnesyl diphosphate mentha x piperita//*//* 0.016 * +EC4.2.3.47 (3rs)-trans-nerolidyl diphosphate mentha x piperita//*//* 0.025 * +EC4.2.3.48 (2e,6e)-farnesyl diphosphate actinidia chinensis//*//* 0.0008 * +EC4.2.3.48 (2e,6e)-farnesyl diphosphate fragaria x ananassa//*//* 0.0081 * +EC4.2.3.48 (2e,6e)-farnesyl diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0038 * +EC4.2.3.48 geranyl diphosphate actinidia chinensis//*//* 0.0019 * +EC4.2.3.49 (2e,6e)-farnesyl diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.001 * +EC4.2.3.5 5-enolpyruvylshikimate 3-phosphate capnoides sempervirens//*//* 0.047 * +EC4.2.3.5 5-enolpyruvylshikimate 3-phosphate euglena gracilis//*//* 0.027 * +EC4.2.3.5 5-enolpyruvylshikimate 3-phosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0027 * +EC4.2.3.5 5-enolpyruvylshikimate 3-phosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.011 * +EC4.2.3.5 5-enolpyruvylshikimate 3-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0127 * +EC4.2.3.5 nadph neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.043 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate capnoides sempervirens//*//* 0.053 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate euglena gracilis//*//* 0.027 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0027 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0097 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.011 * +EC4.2.3.5 o5-(1-carboxyvinyl)-3-phosphoshikimate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0127 * +EC4.2.3.51 neryl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0091 * +EC4.2.3.52 geranyl diphosphate lavandula angustifolia//*//* 0.00655 * +EC4.2.3.52 geranyl diphosphate pinus contorta//*//* 0.0078 * +EC4.2.3.55 (2e,6e)-farnesyl diphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.0021 * +EC4.2.3.57 (2e,6e)-farnesyl diphosphate gossypium hirsutum//eukaryotes;plants;eudicots;mallow family//ghi 0.0289 * +EC4.2.3.6 (3r)-nerolidyl diphosphate fusarium sporotrichioides//*//* 8.9e-05 * +EC4.2.3.6 (e,e)-farnesyl diphosphate fusarium sporotrichioides//*//* 9e-05 * +EC4.2.3.6 (z,e)-farnesyl diphosphate fusarium sporotrichioides//*//* 3.6e-05 * +EC4.2.3.6 farnesyl diphosphate fusarium sporotrichioides//*//* 6.5e-05 * +EC4.2.3.61 (2e,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0016 * +EC4.2.3.61 (2e,6z)-6-fluorofarnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0197 * +EC4.2.3.64 (2e,6e)-farnesyl diphosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.000254 * +EC4.2.3.66 (2e,6e)-farnesyl diphosphate × citrofortunella mitis//*//* 0.045 * +EC4.2.3.67 (2e,6e)-farnesyl diphosphate mentha x piperita//*//* 0.0019 * +EC4.2.3.69 (2e,6e)-farnesyl diphosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0012 * +EC4.2.3.7 (e,e)-farnesyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.00077 * +EC4.2.3.7 farnesyl diphosphate streptomyces exfoliatus//*//* 0.0003 * +EC4.2.3.70 (2e,6e)-farnesyl diphosphate pogostemon cablin//*//* 0.00445 * +EC4.2.3.72 (2e,6e)-farnesyl diphosphate solidago canadensis//*//* 0.0055 * +EC4.2.3.73 (2e,6e)-farnesyl diphosphate callitropsis nootkatensis//*//* 0.00104 * +EC4.2.3.75 (2e,6e)-farnesyl diphosphate coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.011 * +EC4.2.3.75 (2e,6e)-farnesyl diphosphate solidago canadensis//*//* 0.0029 * +EC4.2.3.77 (2e,6e)-farnesyl diphosphate actinidia deliciosa//*//* 0.0025 * +EC4.2.3.77 (2e,6e)-farnesyl diphosphate solidago canadensis//*//* 0.003 * +EC4.2.3.8 geranylgeranyl diphosphate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.00176 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate lavandula angustifolia//*//* 0.0047 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate santalum album//*//* 0.0014 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate santalum austrocaledonicum//*//* 0.0014 * +EC4.2.3.81 (2e,6e)-farnesyl diphosphate santalum spicatum//*//* 0.0014 * +EC4.2.3.82 (2e,6e)-farnesyl diphosphate santalum album//*//* 0.0014 * +EC4.2.3.82 (2e,6e)-farnesyl diphosphate santalum austrocaledonicum//*//* 0.0014 * +EC4.2.3.82 (2e,6e)-farnesyl diphosphate santalum spicatum//*//* 0.0014 * +EC4.2.3.83 (2e,6e)-farnesyl diphosphate santalum album//*//* 0.0014 * +EC4.2.3.83 (2e,6e)-farnesyl diphosphate santalum austrocaledonicum//*//* 0.0014 * +EC4.2.3.83 (2e,6e)-farnesyl diphosphate santalum spicatum//*//* 0.0014 * +EC4.2.3.87 (2e,6e)-farnesyl diphosphate pogostemon cablin//*//* 0.00445 * +EC4.2.3.89 (2e,6e)-farnesyl diphosphate streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 9.56e-05 * +EC4.2.3.9 (2e,6e)-farnesyl diphosphate penicillium roqueforti//*//* 0.00053 * +EC4.2.3.9 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0143 * +EC4.2.3.9 farnesyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0023 * +EC4.2.3.9 farnesyl diphosphate penicillium roqueforti//*//* 0.0008 * +EC4.2.3.9 trans,trans-farnesyl diphosphate aspergillus terreus//*//* 1.35e-05 * +EC4.2.3.9 trans,trans-farnesyl diphosphate penicillium roqueforti//*//* 0.00055 * +EC4.2.3.90 (2e,6e)-farnesyl diphosphate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.0034 * +EC4.2.3.90 (e,e)-farnesyl diphosphate nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.0025 * +EC4.2.3.91 (2e,6e)-farnesyl diphosphate coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.011 * +EC4.2.3.93 (2e,6e)-farnesyl diphosphate aquilaria crassna//*//* 0.00271 * +EC4.2.3.95 (2e,6e)-farnesyl diphosphate coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.0076 * +EC4.2.3.96 (2e,6e)-farnesyl diphosphate streptomyces avermitilis//prokaryotes;bacteria;actinobacteria;streptomyces//sma 0.00106 * +EC4.2.3.97 (2e,6e)-farnesyl diphosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.0014 * +EC4.2.3.98 (2e,6e)-farnesyl diphosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.0027 * +EC4.2.3.99 syn-copalyl diphosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.005 * +EC4.2.3.B17 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01403 * +EC4.2.3.B18 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01403 * +EC4.2.3.B19 (2z,6e)-farnesyl diphosphate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.01403 * +EC4.2.99.18 (da)230*(dt,du)230 daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.004 * +EC4.2.99.18 12-mer oligodeoxyribonucleotide containing a natural ap site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.3e-05 * +EC4.2.99.18 12-mer oligodeoxyribonucleotide containing a tetrahydrofuran analogue at the natural ap site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.8e-05 * +EC4.2.99.18 18-mer containing p33-labeled tetrahydrofuran cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 4.8e-05 * +EC4.2.99.18 2-deoxyribonolactone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 9.8e-05 * +EC4.2.99.18 26-bp-oligonucleotide toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 2.62e-05 * +EC4.2.99.18 34fdna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001792 * +EC4.2.99.18 34frna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001561 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydrouracil opposite a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.1e-06 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydrouracil opposite g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.6e-06 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydroxy-5,6-dihydrothymine opposite a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.7e-06 * +EC4.2.99.18 35 base pair oligonucleotide containing 5,6-dihydroxy-5,6-dihydrothymine opposite g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.9e-06 * +EC4.2.99.18 37mer with ap/a saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1e-05 * +EC4.2.99.18 37mer with ap/c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 3.7e-05 * +EC4.2.99.18 37mer with ap/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.4e-06 * +EC4.2.99.18 37mer with ap/t saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.7e-06 * +EC4.2.99.18 37mer with dihydrouridine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00016 * +EC4.2.99.18 43-mer oligonucleotide containing apurinic/apyrimidinic sites homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-06 * +EC4.2.99.18 43-mer oligonucleotide containing the ap-site analog thf at nt 31 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.68e-05 * +EC4.2.99.18 5'-ctctcccttc-5,6-dihydrouracil-ctcctttcctct-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.5e-06 * +EC4.2.99.18 5'-ctctcccttc-8-oxo-7,8-dihydroguanine-ctcctttcctct-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00058 * +EC4.2.99.18 5'-cy3-caaggtagtruatccttg-1-black hole quencher1-3' rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.42e-05 * +EC4.2.99.18 5'-gacaagcgcag-(5r,6s)-2'-deoxy-5,6-dihydroxyuridine-cagccgaacac-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3e-06 * +EC4.2.99.18 5'-gacaagcgcag-(5s,6r)-2'-deoxy-5,6-dihydroxyuridine-cagccgaacac-3' escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.3e-06 * +EC4.2.99.18 5'-tcgaggatcctgagctcgagtcgacgxtcgcgaattctgcggatccaagc-3' homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00082 * +EC4.2.99.18 5'-tcgaggatcctgagctcgagtcgacgxtcgcgaattctgcggatccaagc-3' mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00091 * +EC4.2.99.18 5,6-dihydrothymidine/a escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.8e-05 * +EC4.2.99.18 5,6-dihydrothymidine/a saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3e-05 * +EC4.2.99.18 5-hydroxy-2'-deoxyuridine/g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000316 * +EC4.2.99.18 5-hydroxy-2'-deoxyuridine/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.6e-05 * +EC4.2.99.18 alkylated-depurinated dna daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 3e-05 * +EC4.2.99.18 ap-dna-dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.38e-05 * +EC4.2.99.18 ap-dna-rna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.7e-06 * +EC4.2.99.18 ap-dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.8e-05 * +EC4.2.99.18 apruinic/apyrimidinic site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.13e-05 * +EC4.2.99.18 apurinic site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.5e-05 * +EC4.2.99.18 apurinic site mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.7e-06 * +EC4.2.99.18 apurinic sites of dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.2e-07 * +EC4.2.99.18 apurinic sites of dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC4.2.99.18 apurinic/apyrimidinic sites escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.3e-08 * +EC4.2.99.18 caaxaccttcatcctttcc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0061 * +EC4.2.99.18 caxaaccttcatcctttcc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC4.2.99.18 ctagtcaxcactgtctgtggatac homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC4.2.99.18 cxaaaccttcatcctttcc homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0091 * +EC4.2.99.18 cytosine-labeled dna micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 0.00028 * +EC4.2.99.18 dihydrouridine/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.000103 * +EC4.2.99.18 dna containing 5-oh-c/a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7e-08 * +EC4.2.99.18 dna containing 5-oh-c/g homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-08 * +EC4.2.99.18 dna containing an abasic site homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 100.0 * +EC4.2.99.18 dna containing dihydrouracil homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.9e-05 * +EC4.2.99.18 dna containing o-benzylhydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.67e-06 * +EC4.2.99.18 dna containing o-methylhydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.84e-06 * +EC4.2.99.18 dna containing thymine glycol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2e-07 * +EC4.2.99.18 dna containing urea escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.6e-07 * +EC4.2.99.18 dna with 2,6-diamino-4-hydroxy-5-n-methylformamidopyrimidine/c escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00025 * +EC4.2.99.18 dna with 2,6-diamino-4-hydroxy-5-n-methylformamidopyrimidine/c saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5e-05 * +EC4.2.99.18 dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001689 * +EC4.2.99.18 dna leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.001365 * +EC4.2.99.18 double-stranded dna with abasic sites homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4e-05 * +EC4.2.99.18 duplex oligonucleotide containing a 5,6-dihydro-2'-deoxyuridine*g pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.4e-06 * +EC4.2.99.18 duplex oligonucleotide containing a alpha-2'-deoxyadenosine*t pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.2e-06 * +EC4.2.99.18 duplex oligonucleotide containing a tetrahydrofuran*g pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.7e-06 * +EC4.2.99.18 gtacgtaxccacagacagtgatga homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0163 * +EC4.2.99.18 oligomer with g/u pair homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC4.2.99.18 red substrate 2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.065 * +EC4.2.99.18 single-stranded dna with abasic sites homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000428 * +EC4.2.99.18 tetrahydrofuranyl/g escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3e-06 * +EC4.2.99.18 tetrahydrofuranyl/g saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 9e-07 * +EC4.2.99.18 thf-containing oligonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000154 * +EC4.2.99.18 thf-containing oligonucleotide leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.0002 * +EC4.2.99.18 thymidine-labeled dna micrococcus luteus//prokaryotes;bacteria;actinobacteria;micrococcus//mlu 1.5e-05 * +EC4.2.99.20 (1r,2s,5s,6s)-2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC4.2.99.20 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0083 * +EC4.2.99.20 5-enolpyruvoyl-6-hydroxy-2-succinyl-cyclohex-3-ene-1-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0083 * +EC4.2.99.21 isochorismate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0021 * +EC4.2.99.21 isochorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.00079 * +EC4.2.99.21 isochorismate yersinia enterocolitica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yen 0.00058 * +EC4.2.99.22 6-tuliposide a tulipa gesneriana//*//* 12.0 * +EC4.2.99.22 6-tuliposide b tulipa gesneriana//*//* 71.0 * +EC4.2.99.23 6-tuliposide a tulipa gesneriana//*//* 1.3 * +EC4.2.99.23 6-tuliposide b tulipa gesneriana//*//* 7.4 * +EC4.2.99.B1 25-mer-deoxyoligonucleotide 3'-labeled uracil-containing dna duplex mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00021 * +EC4.2.99.B1 28-mer deoxyoligonucleotide with a 5' uracil residue crithidia fasciculata//*//* 0.00045 * +EC4.2.99.B1 35-bp-deoxyoligonucleotide duplex containing a uracil residue at position 15 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.009 * +EC4.2.99.B1 dna with a 5'-incised apurinic/apyrimidinic site at position 21 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC4.2.99.B1 mimic of a preincised dna duplex with a 5'drp at the site of the nick human alphaherpesvirus 1//*//* 0.0018 * +EC4.2.99.B1 preincised apurinic/apyrimidinic dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC4.3.1.1 aspartate hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 0.58 * +EC4.3.1.1 fumarate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 213.0 * +EC4.3.1.1 fumarate cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 0.797 * +EC4.3.1.1 fumarate hafnia alvei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;hafnia//hav 0.2 * +EC4.3.1.1 hydrazine bacillus sp. ym55-1//*//* 1.54 * +EC4.3.1.1 hydroxylamine bacillus sp. ym55-1//*//* 2.78 * +EC4.3.1.1 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC4.3.1.1 l-aspartate bacillus sp. ym55-1//*//* 15.0 * +EC4.3.1.1 l-aspartate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 15.0 * +EC4.3.1.1 l-aspartate bacterium cadaveris//*//* 1.5 * +EC4.3.1.1 l-aspartate cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 1.09 * +EC4.3.1.1 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC4.3.1.1 l-aspartate lactobacillus murinus//*//* 37.0 * +EC4.3.1.1 l-aspartate propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 9.1 * +EC4.3.1.1 l-aspartate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 2.3 * +EC4.3.1.1 l-aspartate yersinia pseudotuberculosis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//yps 2.1 * +EC4.3.1.1 l-aspartic acid alpha-amide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1450.0 * +EC4.3.1.1 l-aspartic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC4.3.1.1 nh3 bacillus sp. ym55-1//*//* 1.61 * +EC4.3.1.1 nh3 cytophaga sp.//prokaryotes;bacteria;bacteroidetes;capnocytophaga//col 25.2 * +EC4.3.1.1 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 20.0 * +EC4.3.1.10 3-chloro-l-alanine methyl ester sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 50.0 * +EC4.3.1.10 d-cystathionine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.2 * +EC4.3.1.10 d-cystine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.17 * +EC4.3.1.10 d-serine o-sulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.14 * +EC4.3.1.10 d-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.3 * +EC4.3.1.10 l-cystathionine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 8.5 * +EC4.3.1.10 l-cystine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC4.3.1.10 l-serine o-sulfate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.4 * +EC4.3.1.10 l-serine o-sulfate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.3 * +EC4.3.1.10 l-serine o-sulfate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 26.0 * +EC4.3.1.10 o-acetyl-l-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.0 * +EC4.3.1.10 o-benzyl-dl-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.0 * +EC4.3.1.10 o-benzyl-l-serine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.3 * +EC4.3.1.10 s-benzyl-l-cysteine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC4.3.1.10 s-ethyl-l-cysteine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 38.0 * +EC4.3.1.10 s-methyl-l-cysteine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 17.8 * +EC4.3.1.12 l-ornithine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.25 * +EC4.3.1.12 l-ornithine clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 5.5 * +EC4.3.1.12 l-ornithine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 2.0 * +EC4.3.1.12 nad+ clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.0061 * +EC4.3.1.12 nadp+ clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 3.3 * +EC4.3.1.13 o-carbamoyl-l-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC4.3.1.14 3-aminobutanoyl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.03 * +EC4.3.1.14 crotonyl-coa anaerobic bacteria//*//* 55.0 * +EC4.3.1.14 crotonyl-coa clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.045 * +EC4.3.1.14 nh4cl clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.07 * +EC4.3.1.15 2,3-diaminopropionate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.74 * +EC4.3.1.15 2-[5-amino-2-(4-fluoro-phenyl)-6-oxo-6h-pyrimidin-1-yl]-n-(1-benzyl-2-oxo-2-thiazol-2-yl-ethyl)-acetamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.685 * +EC4.3.1.15 d-2,3-diaminopropanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC4.3.1.15 d-2,3-diaminopropanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.27 * +EC4.3.1.15 d-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.43 * +EC4.3.1.15 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.72 * +EC4.3.1.15 d-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.285 * +EC4.3.1.15 dl-2,3-diaminopropanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC4.3.1.15 dl-2,3-diaminopropanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.279 * +EC4.3.1.15 l-2,3-diaminopropanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC4.3.1.15 l-2,3-diaminopropanoate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.12 * +EC4.3.1.15 l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 6.7 * +EC4.3.1.15 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.3 * +EC4.3.1.15 l-serine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 7.33 * +EC4.3.1.16 l-threo-3-hydroxyaspartate pseudomonas sp. t62//*//* 0.54 * +EC4.3.1.16 l-threo-3-hydroxyaspartate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.74 * +EC4.3.1.17 d-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC4.3.1.17 d-threonine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 55.0 * +EC4.3.1.17 l-ser anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 5.0 * +EC4.3.1.17 l-ser arthrobacter globiformis//*//* 7.0 * +EC4.3.1.17 l-ser clostridium acidi-urici//*//* 7.8 * +EC4.3.1.17 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 420.0 * +EC4.3.1.17 l-ser lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 65.0 * +EC4.3.1.17 l-ser lactobacillus murinus//*//* 8.33 * +EC4.3.1.17 l-ser legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 2.0 * +EC4.3.1.17 l-ser peptoniphilus asaccharolyticus//*//* 0.8 * +EC4.3.1.17 l-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 70.0 * +EC4.3.1.17 l-serine o-sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC4.3.1.17 l-serine aspergillus terreus//*//* 0.27 * +EC4.3.1.17 l-serine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.6 * +EC4.3.1.17 l-serine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 14.6 * +EC4.3.1.17 l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 13.5 * +EC4.3.1.17 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.67 * +EC4.3.1.17 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 50.0 * +EC4.3.1.17 l-serine legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 4.3 * +EC4.3.1.17 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.8 * +EC4.3.1.17 l-serine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.00258 * +EC4.3.1.17 l-serine paracoccus seriniphilus//*//* 5.1 * +EC4.3.1.17 l-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 45.0 * +EC4.3.1.17 l-thr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 130.0 * +EC4.3.1.17 l-threonine aspergillus terreus//*//* 0.5 * +EC4.3.1.17 l-threonine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 7.3 * +EC4.3.1.17 l-threonine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 57.0 * +EC4.3.1.17 l-threonine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 57.0 * +EC4.3.1.17 serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 30.7 * +EC4.3.1.17 threonine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.1 * +EC4.3.1.18 beta-chloro-d-alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.88 * +EC4.3.1.18 beta-cl-d-alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.45 * +EC4.3.1.18 d-allo-thr salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.63 * +EC4.3.1.18 d-allo-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.033 * +EC4.3.1.18 d-allothreonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC4.3.1.18 d-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.086 * +EC4.3.1.18 d-ser klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 2.8 * +EC4.3.1.18 d-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.42 * +EC4.3.1.18 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC4.3.1.18 d-serine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.131 * +EC4.3.1.18 d-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.19 * +EC4.3.1.18 d-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.083 * +EC4.3.1.18 d-thr klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.6 * +EC4.3.1.18 d-thr salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.45 * +EC4.3.1.18 d-threonine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.312 * +EC4.3.1.18 d-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.039 * +EC4.3.1.18 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC4.3.1.18 l-ser klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 20.0 * +EC4.3.1.18 l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 10.2 * +EC4.3.1.18 l-serine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 12.3 * +EC4.3.1.19 l-ser anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 380.0 * +EC4.3.1.19 l-ser chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 10.0 * +EC4.3.1.19 l-ser entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 13.5 * +EC4.3.1.19 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC4.3.1.19 l-ser morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 7.1 * +EC4.3.1.19 l-ser pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 40.0 * +EC4.3.1.19 l-ser rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 61.0 * +EC4.3.1.19 l-ser salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 90.0 * +EC4.3.1.19 l-ser solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.25 * +EC4.3.1.19 l-serine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 3.0 * +EC4.3.1.19 l-thr acidiphilium acidophilum//*//* 0.25 * +EC4.3.1.19 l-thr anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 7.7 * +EC4.3.1.19 l-thr candida maltosa//*//* 2.5 * +EC4.3.1.19 l-thr capra hircus//eukaryotes;animals;vertebrates;mammals//chx 16.0 * +EC4.3.1.19 l-thr chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 1.3 * +EC4.3.1.19 l-thr entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 7.3 * +EC4.3.1.19 l-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC4.3.1.19 l-thr euglena gracilis//*//* 13.0 * +EC4.3.1.19 l-thr geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5.7 * +EC4.3.1.19 l-thr morganella morganii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;morganella//mmk 1.5 * +EC4.3.1.19 l-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.5 * +EC4.3.1.19 l-thr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 99.5 * +EC4.3.1.19 l-thr salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3.0 * +EC4.3.1.19 l-thr solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.25 * +EC4.3.1.19 l-thr thermus sp.//prokaryotes;bacteria;deinococcus-thermus;thermus//thc 14.0 * +EC4.3.1.19 l-threonine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 16.0 * +EC4.3.1.19 l-threonine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 2.3 * +EC4.3.1.2 (2r,3s)-3-chloroaspartic acid citrobacter amalonaticus//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cama 7.9 * +EC4.3.1.2 (2s,3r)-3-methylaspartate clostridium tetanomorphum//*//* 5.2 * +EC4.3.1.2 (2s,3s)-3-ethylaspartic acid carboxydothermus hydrogenoformans//prokaryotes;bacteria;firmicutes - clostridia;carboxydothermus//chy 4.6 * +EC4.3.1.2 (2s,3s)-3-methylaspartate citrobacter amalonaticus//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cama 0.76 * +EC4.3.1.2 (2s,3s)-methylaspartate fusobacterium varium//prokaryotes;bacteria;fusobacteria;fusobacterium//fva 0.51 * +EC4.3.1.2 (s)-aspartate fusobacterium varium//prokaryotes;bacteria;fusobacteria;fusobacterium//fva 1.5 * +EC4.3.1.2 mesaconate clostridium tetanomorphum//*//* 0.7 * +EC4.3.1.2 mesaconic acid citrobacter amalonaticus//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cama 0.13 * +EC4.3.1.2 mesaconic acid clostridium tetanomorphum//*//* 0.7 * +EC4.3.1.20 erythro-l-beta-hydroxyaspartate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.43 * +EC4.3.1.22 3,4-dihydroxy-l-phenylalanine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.21 * +EC4.3.1.23 l-phenylalanine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.28 * +EC4.3.1.23 l-phenylalanine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 2.7 * +EC4.3.1.23 l-tyrosine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.016 * +EC4.3.1.23 l-tyrosine rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.1 * +EC4.3.1.24 (2e)-3-(3-fluorophenyl)prop-2-enoic acid anabaena variabilis//*//* 0.07 * +EC4.3.1.24 (2e)-3-(3-hydroxyphenyl)prop-2-enoic acid anabaena variabilis//*//* 3.3 * +EC4.3.1.24 (2e)-3-(4-fluorophenyl)prop-2-enoic acid anabaena variabilis//*//* 0.12 * +EC4.3.1.24 (2e)-3-(4-nitrophenyl)prop-2-enoic acid anabaena variabilis//*//* 0.66 * +EC4.3.1.24 (2e)-3-(pyridin-3-yl)prop-2-enoic acid anabaena variabilis//*//* 0.39 * +EC4.3.1.24 (2e)-3-(pyridin-4-yl)prop-2-enoic acid anabaena variabilis//*//* 0.38 * +EC4.3.1.24 (2e)-3-[4-(trifluoromethyl)phenyl]prop-2-enoic acid anabaena variabilis//*//* 1.51 * +EC4.3.1.24 (2e)-3-phenylprop-2-enoic acid anabaena variabilis//*//* 0.03 * +EC4.3.1.24 (2e)-4-fluoro-cinnamic acid petroselinum crispum//*//* 0.3 * +EC4.3.1.24 (2e)-4-formyl-cinnamic acid petroselinum crispum//*//* 0.4 * +EC4.3.1.24 (2e)-4-hydroxycinnamate petroselinum crispum//*//* 12.6 * +EC4.3.1.24 (2e)-4-methyl-cinnamic acid petroselinum crispum//*//* 0.5 * +EC4.3.1.24 (2e)-4-nitro-cinnamic acid petroselinum crispum//*//* 2.8 * +EC4.3.1.24 (2s)-2-amino-3-(3-fluorophenyl)propanoic acid anabaena variabilis//*//* 0.75 * +EC4.3.1.24 (2s)-2-amino-3-(3-hydroxyphenyl)propanoic acid anabaena variabilis//*//* 1.11 * +EC4.3.1.24 (2s)-2-amino-3-(4-fluorophenyl)propanoic acid anabaena variabilis//*//* 0.56 * +EC4.3.1.24 (2s)-2-amino-3-(4-nitrophenyl)propanoic acid anabaena variabilis//*//* 0.23 * +EC4.3.1.24 (2s)-2-amino-3-(pyridin-3-yl)propanoic acid anabaena variabilis//*//* 3.39 * +EC4.3.1.24 (2s)-2-amino-3-(pyridin-4-yl)propanoic acid anabaena variabilis//*//* 0.48 * +EC4.3.1.24 (2s)-2-amino-3-[4-(trifluoromethyl)phenyl]propanoic acid anabaena variabilis//*//* 1.05 * +EC4.3.1.24 (2s)-2-amino-3-phenylpropanoic acid anabaena variabilis//*//* 0.29 * +EC4.3.1.24 2,3,4,5,6-pentafluoro-l-phenylalanine petroselinum crispum//*//* 0.076 * +EC4.3.1.24 2,6-difluoro-l-phenylalanine petroselinum crispum//*//* 0.085 * +EC4.3.1.24 2-amino-3-(1-benzofuran-2-yl)propanoic acid petroselinum crispum//*//* 0.048 * +EC4.3.1.24 2-amino-3-(1-benzothien-2-yl)propanoic acid petroselinum crispum//*//* 0.116 * +EC4.3.1.24 2-amino-3-(2-furyl)propanoic acid petroselinum crispum//*//* 0.076 * +EC4.3.1.24 2-amino-3-(2-thienyl)propanoic acid petroselinum crispum//*//* 0.134 * +EC4.3.1.24 2-amino-3-(3-thienyl)propanoic acid petroselinum crispum//*//* 0.018 * +EC4.3.1.24 2-chloro-l-phenylalanine petroselinum crispum//*//* 0.05 * +EC4.3.1.24 2-fluoro-l-phenylalanine petroselinum crispum//*//* 0.065 * +EC4.3.1.24 3,5-difluoro-l-phenylalanine petroselinum crispum//*//* 0.159 * +EC4.3.1.24 3-chloro-l-phenylalanine petroselinum crispum//*//* 0.094 * +EC4.3.1.24 3-fluoro-l-phenylalanine petroselinum crispum//*//* 0.079 * +EC4.3.1.24 4-chloro-l-phenylalanine petroselinum crispum//*//* 0.045 * +EC4.3.1.24 4-fluoro-l-phenylalanine petroselinum crispum//*//* 0.01 * +EC4.3.1.24 4-nitro-l-phenylalanine petroselinum crispum//*//* 2.0 * +EC4.3.1.24 4-trifluoromethyl-l-phenylalanine petroselinum crispum//*//* 3.1 * +EC4.3.1.24 l-phe alternaria sp.//*//* 0.5 * +EC4.3.1.24 l-phe arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.56 * +EC4.3.1.24 l-phe bambusa oldhamii//*//* 0.23 * +EC4.3.1.24 l-phe brassica juncea//*//* 0.13 * +EC4.3.1.24 l-phe brassica rapa subsp. campestris//*//* 0.21 * +EC4.3.1.24 l-phe cistanche deserticola//*//* 0.101 * +EC4.3.1.24 l-phe cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.043 * +EC4.3.1.24 l-phe glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0065 * +EC4.3.1.24 l-phe helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.27 * +EC4.3.1.24 l-phe hordeum vulgare//*//* 1.7 * +EC4.3.1.24 l-phe ipomoea batatas//*//* 0.011 * +EC4.3.1.24 l-phe jatropha curcas//eukaryotes;plants;eudicots;spurge family//jcu 0.125 * +EC4.3.1.24 l-phe medicago sativa//*//* 0.04 * +EC4.3.1.24 l-phe nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.011 * +EC4.3.1.24 l-phe oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.5 * +EC4.3.1.24 l-phe petroselinum crispum//*//* 0.015 * +EC4.3.1.24 l-phe pinus banksiana//*//* 0.09 * +EC4.3.1.24 l-phe pinus taeda//*//* 0.027 * +EC4.3.1.24 l-phe pisum sativum//*//* 0.052 * +EC4.3.1.24 l-phe rhizoctonia solani//*//* 0.18 * +EC4.3.1.24 l-phe rhodotorula glutinis//*//* 2.1 * +EC4.3.1.24 l-phe rhodotorula texensis//*//* 15.0 * +EC4.3.1.24 l-phe sinapis alba//*//* 0.15 * +EC4.3.1.24 l-phe solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.121 * +EC4.3.1.24 l-phe solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.038 * +EC4.3.1.24 l-phe sporidiobolus pararoseus//*//* 0.314 * +EC4.3.1.24 l-phe sporobolomyces roseus//*//* 0.4 * +EC4.3.1.24 l-phe streptomyces maritimus//*//* 0.023 * +EC4.3.1.24 l-phe streptomyces verticillatus//*//* 0.16 * +EC4.3.1.24 l-phe triticum aestivum//*//* 0.044 * +EC4.3.1.24 l-phe ustilago hordei//*//* 0.45 * +EC4.3.1.24 l-phe ustilago maydis//eukaryotes;fungi;basidiomycetes//uma 1.05 * +EC4.3.1.24 l-phe zea mays//eukaryotes;plants;monocots;grass family//zma 0.029 * +EC4.3.1.24 l-phenylalanine anabaena variabilis//*//* 0.06 * +EC4.3.1.24 l-phenylalanine annona cherimola//*//* 0.028 * +EC4.3.1.24 l-phenylalanine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0428 * +EC4.3.1.24 l-phenylalanine buckleyzyma aurantiaca//*//* 1.33 * +EC4.3.1.24 l-phenylalanine cutaneotrichosporon cutaneum//*//* 4.2 * +EC4.3.1.24 l-phenylalanine ephedra sinica//*//* 0.112 * +EC4.3.1.24 l-phenylalanine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.0364 * +EC4.3.1.24 l-phenylalanine nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 0.045 * +EC4.3.1.24 l-phenylalanine olea europaea//eukaryotes;plants;eudicots;olive family//oeu 0.06 * +EC4.3.1.24 l-phenylalanine petroselinum crispum//*//* 0.032 * +EC4.3.1.24 l-phenylalanine rhodotorula glutinis//*//* 0.25 * +EC4.3.1.24 l-tyr bambusa oldhamii//*//* 0.097 * +EC4.3.1.24 l-tyr jatropha curcas//eukaryotes;plants;eudicots;spurge family//jcu 1.31 * +EC4.3.1.24 l-tyr petroselinum crispum//*//* 2.3 * +EC4.3.1.24 l-tyrosine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.049 * +EC4.3.1.24 l-tyrosine cutaneotrichosporon cutaneum//*//* 0.9 * +EC4.3.1.24 l-tyrosine petroselinum crispum//*//* 0.4 * +EC4.3.1.24 n-methyl-l-phenylalanine petroselinum crispum//*//* 6.6 * +EC4.3.1.24 nh3 petroselinum crispum//*//* 2.6 * +EC4.3.1.25 l-phe bambusa oldhamii//*//* 2.07 * +EC4.3.1.25 l-phe helianthus annuus//eukaryotes;plants;eudicots;daisy family//han 0.27 * +EC4.3.1.25 l-phe rhodotorula glutinis//*//* 0.25 * +EC4.3.1.25 l-phe rhodotorula toruloides//*//* 0.29 * +EC4.3.1.25 l-phe sporidiobolus pararoseus//*//* 0.3 * +EC4.3.1.25 l-phenylalanine cutaneotrichosporon cutaneum//*//* 2.33 * +EC4.3.1.25 l-phenylalanine phanerochaete chrysosporium//*//* 0.161 * +EC4.3.1.25 l-phenylalanine rhodotorula glutinis//*//* 0.126 * +EC4.3.1.25 l-tyr bambusa oldhamii//*//* 0.097 * +EC4.3.1.25 l-tyr rhodotorula glutinis//*//* 0.15 * +EC4.3.1.25 l-tyr rhodotorula toruloides//*//* 0.18 * +EC4.3.1.25 l-tyr sporidiobolus pararoseus//*//* 0.085 * +EC4.3.1.25 l-tyrosine cutaneotrichosporon cutaneum//*//* 0.432 * +EC4.3.1.25 l-tyrosine phanerochaete chrysosporium//*//* 0.044 * +EC4.3.1.25 l-tyrosine rhodotorula glutinis//*//* 0.0677 * +EC4.3.1.25 nh3 rhodotorula glutinis//*//* 3170.0 * +EC4.3.1.25 phe leptosphaeria maculans//*//* 0.159 * +EC4.3.1.25 trans-cinnamate rhodotorula glutinis//*//* 4.2 * +EC4.3.1.27 d-serine delftia sp. ht23//*//* 0.15 * +EC4.3.1.27 d-threo-3-hydroxyaspartate delftia sp. ht23//*//* 0.42 * +EC4.3.1.27 l-erythro-3-hydroxyaspartate delftia sp. ht23//*//* 0.16 * +EC4.3.1.27 l-serine delftia sp. ht23//*//* 38.7 * +EC4.3.1.27 l-threo-3-hydroxyaspartate delftia sp. ht23//*//* 6.16 * +EC4.3.1.28 l-lysine streptomyces hygroscopicus//prokaryotes;bacteria;actinobacteria;streptomyces//shy 0.046 * +EC4.3.1.28 l-lysine streptomyces pristinaespiralis//prokaryotes;bacteria;actinobacteria;streptomyces//spri 1.39 * +EC4.3.1.3 2-fluorohistidine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 20.0 * +EC4.3.1.3 4-fluoro-dl-histidine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.25 * +EC4.3.1.3 4-fluorourocanate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.0 * +EC4.3.1.3 dl-histidine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.7 * +EC4.3.1.3 l-histidine achromobacter liquidum//*//* 3.6 * +EC4.3.1.3 l-histidine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 6.7 * +EC4.3.1.3 l-histidine cavia porcellus//*//* 0.36 * +EC4.3.1.3 l-histidine oncorhynchus mykiss//*//* 0.2 * +EC4.3.1.3 l-histidine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 20.0 * +EC4.3.1.3 l-histidine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.6 * +EC4.3.1.3 l-histidine pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.8 * +EC4.3.1.3 l-histidine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.45 * +EC4.3.1.3 l-histidine streptomyces griseus//prokaryotes;bacteria;actinobacteria;streptomyces//sgr 0.6 * +EC4.3.1.3 nh3 klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 8500.0 * +EC4.3.1.3 urocanate klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 100.0 * +EC4.3.1.3 urocanate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.0 * +EC4.3.1.30 dtdp-4-amino-4,6-dideoxy-alpha-d-glucopyranose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.05 * +EC4.3.1.30 s-adenosyl-l-methionine streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.027 * +EC4.3.1.30 tdp-d-quinovose streptomyces venezuelae//prokaryotes;bacteria;actinobacteria;streptomyces//sve 0.2 * +EC4.3.1.31 l-tryptophan rubrivivax benzoatilyticus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rbn 4e-05 * +EC4.3.1.4 (-)-formiminotetrahydrofolate clostridium cylindrosporum//*//* 0.031 * +EC4.3.1.4 (-)-formiminotetrahydropteroyl-l-aspartate clostridium cylindrosporum//*//* 0.04 * +EC4.3.1.4 (-)-formiminotetrahydropteroyltri-l-glutamate clostridium cylindrosporum//*//* 0.029 * +EC4.3.1.4 (6s)-5-formimino-5,6,7,8-tetrahydropteroylglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.149 * +EC4.3.1.4 (6s)-5-formimino-5,6,7,8-tetrahydropteroylheptaglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0021 * +EC4.3.1.4 (6s)-5-formimino-5,6,7,8-tetrahydropteroylhexaglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0012 * +EC4.3.1.4 (6s)-5-formimino-5,6,7,8-tetrahydropteroylpentaglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.002 * +EC4.3.1.4 (6s)-5-formimino-5,6,7,8-tetrahydropteroyltetraglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0029 * +EC4.3.1.4 (6s)-5-formimino-5,6,7,8-tetrahydropteroyltriglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.021 * +EC4.3.1.4 (6s)-5-formiminotetrahydropteroylglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.079 * +EC4.3.1.4 (6s)-5-formiminotetrahydropteroylpentaglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.017 * +EC4.3.1.4 5-formiminotetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.026 * +EC4.3.1.6 acryloyl-coa anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 0.023 * +EC4.3.1.6 beta-alanyl-coa anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 0.21 * +EC4.3.1.6 nh3 anaerotignum propionicum//prokaryotes;bacteria;firmicutes - clostridia;anaerotignum//cpro 70.0 * +EC4.3.1.7 (r)-2-aminopropanol salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.009 * +EC4.3.1.7 (s)-2-aminopropanol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.17 * +EC4.3.1.7 (s)-2-aminopropanol salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0008 * +EC4.3.1.7 adenosylcobalamin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.5e-05 * +EC4.3.1.7 ethanolamine clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 0.022 * +EC4.3.1.7 ethanolamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0033 * +EC4.3.1.7 ethanolamine klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.2 * +EC4.3.1.7 ethanolamine leifsonia aquatica//*//* 1.0 * +EC4.3.1.7 ethanolamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0019 * +EC4.3.1.9 d-glucosaminic acid pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0113 * +EC4.3.1.9 d-glucosaminic acid soil bacterium//*//* 8.8 * +EC4.3.1.9 nadph pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0113 * +EC4.3.1.9 pyridoxal 5'-phosphate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0113 * +EC4.3.1.9 thioredoxin pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.0044 * +EC4.3.1.B2 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC4.3.1.B2 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.7 * +EC4.3.1.B2 n1-[(5'-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamido-1-beta-d-ribofuranosyl 5'-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.021 * +EC4.3.1.B2 n1-[(5'-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamido-1-beta-d-ribofuranosyl 5'-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC4.3.1.B2 n1-[(5'-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamido-1-beta-d-ribofuranosyl 5'-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.002 * +EC4.3.1.B2 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC4.3.1.B2 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 266.0 * +EC4.3.2.1 (nomega-l-arginino)succinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.6 * +EC4.3.2.1 arg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC4.3.2.1 arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC4.3.2.1 argininosuccinate anas platyrhynchos//eukaryotes;animals;vertebrates;birds//apla 0.007 * +EC4.3.2.1 argininosuccinate anser sp.//*//* 0.029 * +EC4.3.2.1 argininosuccinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC4.3.2.1 argininosuccinate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.26 * +EC4.3.2.1 argininosuccinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC4.3.2.1 difluorofumarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.046 * +EC4.3.2.1 disodium argininosuccinate anas sp.//*//* 0.045 * +EC4.3.2.1 fumarate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 4.5 * +EC4.3.2.1 fumarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.067 * +EC4.3.2.1 fumarate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.3 * +EC4.3.2.1 monofluorofumarate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC4.3.2.1 n,n'-bis(tert-butoxycarbonyl)-5-[(3-aminopropyl)amino]pentan-1-ol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC4.3.2.2 2',3'-dideoxyadenylosuccinate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0437 * +EC4.3.2.2 2'-deoxy-succino-amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0008 * +EC4.3.2.2 2'-deoxy-succino-amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC4.3.2.2 4-(n-succino)-5-aminoimidazole-4-carboxamide ribonucleotide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC4.3.2.2 5-aminoimidazole-4-(n-succinylcarboxamide) ribonucleotide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0029 * +EC4.3.2.2 5-aminoimidazole-4-(n-succinylcarboxamide) ribonucleotide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC4.3.2.2 8-aza-succino-amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0095 * +EC4.3.2.2 adenylosuccinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00177 * +EC4.3.2.2 adenylosuccinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00146 * +EC4.3.2.2 adenylsuccinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC4.3.2.2 amp artemia sp.//*//* 0.036 * +EC4.3.2.2 amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.004 * +EC4.3.2.2 amp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.034 * +EC4.3.2.2 amp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.048 * +EC4.3.2.2 arabinosyl-succino-amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0027 * +EC4.3.2.2 arabinosyl-succino-amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0056 * +EC4.3.2.2 fumarate artemia sp.//*//* 0.035 * +EC4.3.2.2 fumarate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.76 * +EC4.3.2.2 fumarate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.52 * +EC4.3.2.2 mercaptopurinosuccinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.3.2.2 n6-(1,2-dicarboxyethyl)amp artemia sp.//*//* 0.0012 * +EC4.3.2.2 n6-(1,2-dicarboxyethyl)amp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00254 * +EC4.3.2.2 n6-(1,2-dicarboxyethyl)amp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.0033 * +EC4.3.2.2 n6-(1,2-dicarboxyethyl)amp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0047 * +EC4.3.2.2 n6-(1,2-dicarboxyethyl)amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0015 * +EC4.3.2.2 n6-(1,2-dicarboxyethyl)amp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC4.3.2.2 succino-4-aminopyrazolo[3,4-d]pyrimidine ribose 5'-phosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.011 * +EC4.3.2.2 succinyladenosine monophosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0091 * +EC4.3.2.2 succinyladenosine monophosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0437 * +EC4.3.2.2 succinyladenosine monophosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.2042 * +EC4.3.2.2 succinyladenosine monophosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.032 * +EC4.3.2.3 (-)-ureidoglycolate cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 0.006 * +EC4.3.2.3 (s)-ureidoglycolate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.5 * +EC4.3.2.3 1-naphtylacetyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.03 * +EC4.3.2.3 3-phenylpropionyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.04 * +EC4.3.2.3 4'-nitrophenylacetyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.09 * +EC4.3.2.3 4-methoxyphenylacetyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.028 * +EC4.3.2.3 benzoyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.09 * +EC4.3.2.3 cinnamoyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.025 * +EC4.3.2.3 phenylacetyl-alpha-hydroxyglycine burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 0.024 * +EC4.3.2.3 ureidoglycolate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.9 * +EC4.3.2.3 ureidoglycolate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 3.9 * +EC4.3.2.3 ureidoglycolate platyrrhini//*//* 4.5 * +EC4.3.2.3 ureidoglycolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.65 * +EC4.3.2.3 ureidoglycolate sardinops melanostictus//*//* 0.33 * +EC4.3.2.4 2,6-diamino-4-oxo-5-formamidopyrimidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7e-06 * +EC4.3.2.4 4,6-diamino-5-formamidopyrimidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5e-06 * +EC4.3.2.5 (r)-2-phenylbutyl-alpha-hydroxy-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.3 * +EC4.3.2.5 (r)-o-acetyl-mandelyl-alpha-hydroxyglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.6 * +EC4.3.2.5 (s)-2-phenylbutyl-alpha-hydroxy-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.33 * +EC4.3.2.5 (s)-o-acetyl-mandelyl-alpha-hydroxyglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.56 * +EC4.3.2.5 acetyl-d-phe-alpha-hydroxyglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC4.3.2.5 acetyl-l-phe-alpha-hydroxyglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.23 * +EC4.3.2.5 alpha-n-acetyl-tyr-val-alpha-hydroxyglycine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.045 * +EC4.3.2.5 alpha-n-acetyl-tyr-val-alpha-hydroxyglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC4.3.2.5 dansyl-tyr-val-alpha-hydroxyglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.035 * +EC4.3.2.5 dansyl-tyr-val-gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0023 * +EC4.3.2.5 n-2,4,6-trinitrophenyl-d-tyr-l-val-(s)-alpha-hydroxy-gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0215 * +EC4.3.2.5 n-benzoyl-alpha-hydroxy-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.46 * +EC4.3.2.5 nalpha-acetyl-tyr-val-alpha-hydroxyglycine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.038 * +EC4.3.2.5 nalpha-acetyl-tyr-val-alpha-hydroxyglycine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0102 * +EC4.3.2.5 trinitrophenyl-d-tyr-l-val-alpha-hydroxy-gly bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.027 * +EC4.3.2.5 trinitrophenyl-d-tyr-l-val-alpha-hydroxy-gly xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.014 * +EC4.3.3.1 4-nitrophenyl-3-ketovalidamine stenotrophomonas maltophilia//prokaryotes;bacteria;gammaproteobacteria - others;stenotrophomonas//sml 0.14 * +EC4.3.3.1 n-4-nitrophenyl-3-ketovalidamine flavobacterium saccharophilum//*//* 0.24 * +EC4.3.3.1 n-4-nitrophenyl-3-ketovalienamine flavobacterium saccharophilum//*//* 2.5 * +EC4.3.3.1 p-nitrophenyl-alpha-d-3-ketoglucoside flavobacterium saccharophilum//*//* 0.5 * +EC4.3.3.2 2-(4-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.042 * +EC4.3.3.2 2-(4-methyl-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC4.3.3.2 2-(5-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0071 * +EC4.3.3.2 2-(6-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0089 * +EC4.3.3.2 2-(7-fluoro-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC4.3.3.2 2-(7-methyl-1h-indol-3-yl)ethanamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.198 * +EC4.3.3.2 2-benzofuran-3-yl-ethylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0077 * +EC4.3.3.2 3'-o-methylsecologanin catharanthus roseus//*//* 8.0 * +EC4.3.3.2 3-(2-aminoethyl)-1h-indol-5-ol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC4.3.3.2 5-fluoro-tryptamine rauvolfia serpentina//*//* 0.259 * +EC4.3.3.2 5-hydroxy-tryptamine rauvolfia serpentina//*//* 2.255 * +EC4.3.3.2 6-fluoro-tryptamine rauvolfia serpentina//*//* 0.136 * +EC4.3.3.2 6-methoxy-tryptamine rauvolfia serpentina//*//* 0.962 * +EC4.3.3.2 6-methyl-tryptamine rauvolfia serpentina//*//* 0.393 * +EC4.3.3.2 dihydrosecologanin catharanthus roseus//*//* 3.5 * +EC4.3.3.2 secologanin catharanthus roseus//*//* 0.46 * +EC4.3.3.2 secologanin ophiorrhiza pumila//*//* 0.9 * +EC4.3.3.2 secologanin rauvolfia serpentina//*//* 0.039 * +EC4.3.3.2 secologanin rauvolfia vomitoria//*//* 2.6 * +EC4.3.3.2 serotonin rauvolfia serpentina//*//* 1.036 * +EC4.3.3.2 tryptamine catharanthus roseus//*//* 0.0014 * +EC4.3.3.2 tryptamine cinchona robusta//*//* 0.002 * +EC4.3.3.2 tryptamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0074 * +EC4.3.3.2 tryptamine ophiorrhiza pumila//*//* 0.5 * +EC4.3.3.2 tryptamine rauvolfia serpentina//*//* 0.0054 * +EC4.3.3.2 tryptamine rauvolfia vomitoria//*//* 5.8 * +EC4.3.3.4 dopamine alangium lamarckii//*//* 0.7 * +EC4.3.3.4 secologanin alangium lamarckii//*//* 0.9 * +EC4.3.3.6 d-glyceraldehyde 3-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.077 * +EC4.3.3.6 d-ribose 5-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.032 * +EC4.3.3.6 glyceraldehyde 3-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.155 * +EC4.3.3.6 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.99 * +EC4.3.3.7 (r,s)-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.21 * +EC4.3.3.7 (s)-aspartate 4-semialdehyde caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.38 * +EC4.3.3.7 (s)-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC4.3.3.7 (s)-aspartate 4-semialdehyde staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.22 * +EC4.3.3.7 (s)-aspartate-4-semialdehyde agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.16 * +EC4.3.3.7 dl-aspartate-4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.55 * +EC4.3.3.7 l-aspartate 4-semialdehyde bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.18 * +EC4.3.3.7 l-aspartate 4-semialdehyde corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.63 * +EC4.3.3.7 l-aspartate 4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC4.3.3.7 l-aspartate 4-semialdehyde neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.052 * +EC4.3.3.7 l-aspartate-4-semialdehyde bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 0.765 * +EC4.3.3.7 l-aspartate-4-semialdehyde bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.46 * +EC4.3.3.7 l-aspartate-4-semialdehyde bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.13 * +EC4.3.3.7 l-aspartate-4-semialdehyde escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC4.3.3.7 l-aspartate-4-semialdehyde pisum sativum//*//* 0.4 * +EC4.3.3.7 l-aspartate-4-semialdehyde spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.0 * +EC4.3.3.7 l-aspartate-4-semialdehyde triticum aestivum//*//* 0.8 * +EC4.3.3.7 l-aspartate-4-semialdehyde zea mays//eukaryotes;plants;monocots;grass family//zma 0.6 * +EC4.3.3.7 pyruvate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.31 * +EC4.3.3.7 pyruvate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.43 * +EC4.3.3.7 pyruvate bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 2.5 * +EC4.3.3.7 pyruvate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.5 * +EC4.3.3.7 pyruvate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.07 * +EC4.3.3.7 pyruvate caldanaerobacter subterraneus subsp. tengcongensis//*//* 0.85 * +EC4.3.3.7 pyruvate campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 2.83 * +EC4.3.3.7 pyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 0.32 * +EC4.3.3.7 pyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC4.3.3.7 pyruvate neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.5 * +EC4.3.3.7 pyruvate pisum sativum//*//* 1.7 * +EC4.3.3.7 pyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.11 * +EC4.3.3.7 pyruvate triticum aestivum//*//* 11.7 * +EC4.4.1.1 (dl)-homocysteine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 1.153 * +EC4.4.1.1 3-chloro-dl-alanine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 28.41 * +EC4.4.1.1 beta-chloro-l-ala streptomyces phaeochromogenes//*//* 2.39 * +EC4.4.1.1 beta-chloro-l-alanine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 1.21 * +EC4.4.1.1 cys treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 3.4 * +EC4.4.1.1 cystathionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC4.4.1.1 d-alanine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 10.0 * +EC4.4.1.1 dl-cystathionine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 3.27 * +EC4.4.1.1 dl-lanthionine streptomyces phaeochromogenes//*//* 0.209 * +EC4.4.1.1 dl-vinylglycine streptomyces phaeochromogenes//*//* 5.18 * +EC4.4.1.1 l-alanine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 10.0 * +EC4.4.1.1 l-cys oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.029 * +EC4.4.1.1 l-cystathionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC4.4.1.1 l-cystathionine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.81 * +EC4.4.1.1 l-cystathionine oenococcus oeni//prokaryotes;bacteria;firmicutes - bacilli;oenococcus//ooe 0.232 * +EC4.4.1.1 l-cystathionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.45 * +EC4.4.1.1 l-cystathionine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 11.1 * +EC4.4.1.1 l-cystathionine streptococcus gordonii//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sgo 8.7 * +EC4.4.1.1 l-cystathionine streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 11.8 * +EC4.4.1.1 l-cystathionine streptococcus oralis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sor 11.2 * +EC4.4.1.1 l-cystathionine streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 25.5 * +EC4.4.1.1 l-cystathionine streptococcus sobrinus//*//* 10.6 * +EC4.4.1.1 l-cystathionine streptomyces phaeochromogenes//*//* 0.204 * +EC4.4.1.1 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC4.4.1.1 l-cysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.46 * +EC4.4.1.1 l-cysteine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 0.62 * +EC4.4.1.1 l-cysteine streptococcus gordonii//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sgo 0.68 * +EC4.4.1.1 l-cysteine streptococcus mutans//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//smu 2.46 * +EC4.4.1.1 l-cysteine streptococcus oralis//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sor 1.08 * +EC4.4.1.1 l-cysteine streptococcus salivarius//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//ssr 1.16 * +EC4.4.1.1 l-cysteine streptococcus sobrinus//*//* 0.75 * +EC4.4.1.1 l-cystine neurospora sp.//*//* 0.032 * +EC4.4.1.1 l-cystine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 1.29 * +EC4.4.1.1 l-cystine streptomyces phaeochromogenes//*//* 0.909 * +EC4.4.1.1 l-homocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.4 * +EC4.4.1.1 l-homoserine streptomyces phaeochromogenes//*//* 12.5 * +EC4.4.1.1 lanthionine neurospora sp.//*//* 0.39 * +EC4.4.1.1 meso-cystine neurospora sp.//*//* 0.12 * +EC4.4.1.1 s-(2-aminoethyl)-l-cysteine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 2.75 * +EC4.4.1.1 s-methyl-l-cysteine streptococcus anginosus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sang 13.13 * +EC4.4.1.10 2-mercaptoethanol gallus gallus//eukaryotes;animals;vertebrates;birds//gga 7.7 * +EC4.4.1.10 l-cys gallus gallus//eukaryotes;animals;vertebrates;birds//gga 8.3 * +EC4.4.1.11 1-amino-3-(methylthio)propylphosphinic acid citrobacter intermedius//*//* 1.25 * +EC4.4.1.11 2-amino-3-(n,n-dimethylamino)propionic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.2 * +EC4.4.1.11 dl-2-amino-3(n-hydroxyethyl)propionic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 12.3 * +EC4.4.1.11 dl-amino-3-(n-methylamino)propionic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.3 * +EC4.4.1.11 dl-homocysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.97 * +EC4.4.1.11 dl-homocysteine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 1.47 * +EC4.4.1.11 dl-homocysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.8 * +EC4.4.1.11 dl-homocysteine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.5 * +EC4.4.1.11 dl-homoserine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 56.5 * +EC4.4.1.11 l-1-amino-3-methylthiopropylphosphinic acid citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 1.2 * +EC4.4.1.11 l-cystathionine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.27 * +EC4.4.1.11 l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.16 * +EC4.4.1.11 l-cysteine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.64 * +EC4.4.1.11 l-cysteine fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.32 * +EC4.4.1.11 l-cysteine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.46 * +EC4.4.1.11 l-cysteine porphyromonas gingivalis//prokaryotes;bacteria;bacteroidetes;porphyromonas//pgi 0.63 * +EC4.4.1.11 l-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.53 * +EC4.4.1.11 l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.18 * +EC4.4.1.11 l-cysteine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 3.6 * +EC4.4.1.11 l-ethionine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.56 * +EC4.4.1.11 l-ethionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.2 * +EC4.4.1.11 l-ethionine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.5 * +EC4.4.1.11 l-gly(vinyl) citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.7 * +EC4.4.1.11 l-homocysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 6.43 * +EC4.4.1.11 l-homoserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 30.0 * +EC4.4.1.11 l-methionine sulfone citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 4.0 * +EC4.4.1.11 l-methionine sulfone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 8.22 * +EC4.4.1.11 l-methionine sulfoxide citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.2 * +EC4.4.1.11 l-methionine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 10.6 * +EC4.4.1.11 l-methionine aspergillus sp.//*//* 0.0013 * +EC4.4.1.11 l-methionine brevibacterium linens//prokaryotes;bacteria;actinobacteria;brevibacterium//bly 6.12 * +EC4.4.1.11 l-methionine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.7 * +EC4.4.1.11 l-methionine citrobacter intermedius//*//* 1.13 * +EC4.4.1.11 l-methionine cladosporium cladosporioides//*//* 11.6 * +EC4.4.1.11 l-methionine clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 90.0 * +EC4.4.1.11 l-methionine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.61 * +EC4.4.1.11 l-methionine lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.87 * +EC4.4.1.11 l-methionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.9 * +EC4.4.1.11 l-methionine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.55 * +EC4.4.1.11 l-methionine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 4.3 * +EC4.4.1.11 l-selenodjenkolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.3 * +EC4.4.1.11 l-vinylglycine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 6.7 * +EC4.4.1.11 l-vinylglycine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.22 * +EC4.4.1.11 o-acetyl-dl-homoserine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 5.82 * +EC4.4.1.11 o-acetyl-l-homoserine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.22 * +EC4.4.1.11 o-acetyl-l-serine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 6.28 * +EC4.4.1.11 o-methyl-l-serine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.8 * +EC4.4.1.11 s-benzyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.18 * +EC4.4.1.11 s-ethyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.17 * +EC4.4.1.11 s-ethyl-l-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.48 * +EC4.4.1.11 s-ethyl-l-homocysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.5 * +EC4.4.1.11 s-methyl-l-cysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.61 * +EC4.4.1.11 s-methyl-l-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.4 * +EC4.4.1.11 s-methylcysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.77 * +EC4.4.1.11 se-methyl-l-selenocysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.13 * +EC4.4.1.11 trifluoromethionine entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.1 * +EC4.4.1.13 2,4-dinitrophenyl-l-cysteine cavia porcellus//*//* 0.5 * +EC4.4.1.13 2,4-dinitrophenyl-l-cysteine mesocricetus auratus//*//* 0.5 * +EC4.4.1.13 2,4-dinitrophenyl-l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.5 * +EC4.4.1.13 2,4-dinitrophenyl-l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.5 * +EC4.4.1.13 2,4-dinitrophenyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC4.4.1.13 3-hydroxy-kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC4.4.1.13 beta-chloro-l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC4.4.1.13 beta-chloroalanine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.6 * +EC4.4.1.13 kynurenine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC4.4.1.13 s-(1,1,2,2-tetrafluoroethyl)-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 8.4 * +EC4.4.1.13 s-(1,2-dichlorovinyl)-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.36 * +EC4.4.1.13 s-(2-benzothiazolyl)-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC4.4.1.13 s-(2-benzothiazolyl)-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC4.4.1.13 s-(2-chloro-1,1,2-trifluoroethyl)-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.02 * +EC4.4.1.13 s-(p-bromophenyl)-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.7 * +EC4.4.1.13 s-1,2-dichlorovinyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC4.4.1.13 s-2,4-dinitrophenyl-l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC4.4.1.15 3-chloro-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC4.4.1.15 d-allocystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC4.4.1.15 d-cysteine chlorella fusca//*//* 0.16 * +EC4.4.1.15 d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC4.4.1.15 d-cysteine solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.21 * +EC4.4.1.15 d-cysteine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.14 * +EC4.4.1.15 d-cysteine synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.05 * +EC4.4.1.15 d-cystine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC4.4.1.15 dl-lanthionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC4.4.1.15 dl-selenocystine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC4.4.1.15 s-benzyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC4.4.1.15 s-carboxymethyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.83 * +EC4.4.1.15 s-ethyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC4.4.1.15 s-methyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC4.4.1.15 s-n-butyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC4.4.1.15 s-n-propyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC4.4.1.15 s-phenyl-d-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC4.4.1.16 beta-chloro-l-alanine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 3.1 * +EC4.4.1.16 l-cysteine sulfinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 30.0 * +EC4.4.1.16 l-cysteine sulfinate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 8.6 * +EC4.4.1.16 l-selenocysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC4.4.1.16 l-selenocysteine citrobacter freundii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;citrobacter//cfd 0.95 * +EC4.4.1.16 l-selenocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.6 * +EC4.4.1.16 l-selenocysteine haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.97 * +EC4.4.1.16 l-selenocysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC4.4.1.16 l-selenocysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.9 * +EC4.4.1.16 l-selenocysteine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.5 * +EC4.4.1.19 phosphoenolpyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 9.8 * +EC4.4.1.2 homocysteine trichomonas vaginalis//eukaryotes;protists;parabasalids;trichomonads//tva 0.549 * +EC4.4.1.2 l-cysteine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 4.9 * +EC4.4.1.2 l-homocysteine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 2.46 * +EC4.4.1.2 l-methionine aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 4.1 * +EC4.4.1.20 14,15-leukotriene a4 methyl ester cavia porcellus//*//* 0.07 * +EC4.4.1.20 14,15-leukotriene a4 cavia porcellus//*//* 0.13 * +EC4.4.1.20 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0004 * +EC4.4.1.20 glutathione mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.36 * +EC4.4.1.20 leukotriene a4 free acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0188 * +EC4.4.1.20 leukotriene a4 methyl ester cavia porcellus//*//* 0.02 * +EC4.4.1.20 leukotriene a4 methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00344 * +EC4.4.1.20 leukotriene a4 methyl ester rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0198 * +EC4.4.1.20 leukotriene a4 cavia porcellus//*//* 0.036 * +EC4.4.1.20 leukotriene a4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0056 * +EC4.4.1.20 leukotriene a4 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC4.4.1.20 leukotriene methyl ester cavia porcellus//*//* 0.015 * +EC4.4.1.20 leukotriene methyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC4.4.1.21 (2r)-2-amino-4-[[(2s,4s)-2,4,5-trihydroxy-3-oxopentyl]sulfanyl]butanoic acid bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0036 * +EC4.4.1.21 (2r)-2-amino-4-[[(2s,4s)-2,4,5-trihydroxy-3-oxopentyl]sulfanyl]butanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC4.4.1.21 (2r)-2-amino-4-[[(2s,4s)-2,4,5-trihydroxy-3-oxopentyl]sulfanyl]butanoic acid vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.027 * +EC4.4.1.21 s-ribosylhomocysteine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0014 * +EC4.4.1.21 s-ribosylhomocysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC4.4.1.21 s-ribosylhomocysteine vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.037 * +EC4.4.1.23 com xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.034 * +EC4.4.1.23 epoxypropane xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.0018 * +EC4.4.1.25 l-cysteate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 11.7 * +EC4.4.1.28 beta-chloro-l-alanine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.36 * +EC4.4.1.28 l-cysteine methyl ester treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 62.0 * +EC4.4.1.28 l-cysteine brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.1 * +EC4.4.1.28 l-cysteine fusobacterium nucleatum//prokaryotes;bacteria;fusobacteria;fusobacterium//fnu 0.155 * +EC4.4.1.28 l-cysteine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.78 * +EC4.4.1.28 l-cysteine prevotella intermedia//prokaryotes;bacteria;bacteroidetes;prevotella//pit 0.7 * +EC4.4.1.28 l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.4 * +EC4.4.1.28 s-ethyl-l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 0.28 * +EC4.4.1.28 s-methyl-l-cysteine treponema denticola//prokaryotes;bacteria;spirochaetes;treponema//tde 1.26 * +EC4.4.1.29 (2r,3e)-phycocyanobilin anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.00114 * +EC4.4.1.29 apo-[allophycocyanin alpha-subunit] anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 9.5e-06 * +EC4.4.1.29 apo-[allophycocyanin beta-subunit] anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 3.8e-05 * +EC4.4.1.3 beta-dimethylsulfoniopropanoate roseovarius nubinhibens//*//* 14.0 * +EC4.4.1.3 dimethylsulfoniopropionate alcaligenes sp.//*//* 1.4 * +EC4.4.1.3 dimethylsulfoniopropionate fusarium lateritium//*//* 1.2 * +EC4.4.1.3 dimethylsulfoniopropionate oceanimonas doudoroffii//*//* 0.02 * +EC4.4.1.3 dimethylsulfoniopropionate ulva curvata//*//* 0.52 * +EC4.4.1.31 (2r,3e)-phycocyanobilin mastigocladus laminosus//*//* 0.012 * +EC4.4.1.31 apo-[phycoerythrocyanin alpha-subunit] mastigocladus laminosus//*//* 0.0024 * +EC4.4.1.31 phycocyanobilin mastigocladus laminosus//*//* 0.01 * +EC4.4.1.32 (2r,3e)-phycocyanobilin synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 2.4e-05 * +EC4.4.1.32 apo-[c-phycocyanin alpha-subunit] synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.0108 * +EC4.4.1.34 (3r)-3,4-epoxy-3-methylbut-1-ene rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.3 * +EC4.4.1.34 cis-1,2-dichloroepoxyethane rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.1 * +EC4.4.1.35 l-cystine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.32 * +EC4.4.1.35 l-cystine brassica oleracea var. italica//*//* 0.0812 * +EC4.4.1.4 (+)-alliin ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 5.7 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium hymenorrhizum//*//* 1.48 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium jesdianum//*//* 1.79 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium obliquum//*//* 0.77 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium sativum//*//* 1.25 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium saxatile//*//* 0.47 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium sphaerocephalon//*//* 1.59 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium stipitatum//*//* 0.68 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium subhirsutum//*//* 0.85 * +EC4.4.1.4 (+)-s-(2-propenyl)-l-cysteine sulfoxide allium victorialis//*//* 0.42 * +EC4.4.1.4 (+/-)-alliin allium sativum//*//* 1.493 * +EC4.4.1.4 (+/-)-alliin ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 2.3 * +EC4.4.1.4 (-)-alliin ensifer adhaerens//prokaryotes;bacteria;alphaproteobacteria;ensifer//ead 1.0 * +EC4.4.1.4 (2r)-2-amino-3-(1-phenylethylsulfinyl)propanoic acid petiveria alliacea//*//* 28.6 * +EC4.4.1.4 (2r)-2-amino-3-(2-methylbenzylsulfinyl)propanoic acid petiveria alliacea//*//* 9.29 * +EC4.4.1.4 (2r)-2-amino-3-(4-chlorobenzylsulfinyl)propanoic acid petiveria alliacea//*//* 2.11 * +EC4.4.1.4 (2r)-2-amino-3-(4-methylbenzylsulfinyl)propanoic acid petiveria alliacea//*//* 0.72 * +EC4.4.1.4 (2r)-2-amino-3-(ethylsulfinyl)propanoic acid petiveria alliacea//*//* 0.33 * +EC4.4.1.4 (2r)-2-amino-3-(phenethylsulfinyl)propanoic acid petiveria alliacea//*//* 0.23 * +EC4.4.1.4 (2r)-2-amino-3-(phenylsulfinyl)propanoic acid petiveria alliacea//*//* 1.96 * +EC4.4.1.4 2-hydroxyethiin petiveria alliacea//*//* 0.5 * +EC4.4.1.4 4-mercaptopyridine allium sativum//*//* 1.32 * +EC4.4.1.4 alliin allium sativum//*//* 2.9 * +EC4.4.1.4 alliin petiveria alliacea//*//* 4.22 * +EC4.4.1.4 cystine allium cepa//*//* 2.2 * +EC4.4.1.4 desglutamyl-lentinic acid lentinula edodes//*//* 0.06 * +EC4.4.1.4 l-(+)-alliin allium altyncolicum//*//* 1.44 * +EC4.4.1.4 l-(+)-alliin allium cepa * allium altyncolicum//*//* 3.08 * +EC4.4.1.4 l-(+)-alliin allium cepa * allium chevsuricum//*//* 2.33 * +EC4.4.1.4 l-(+)-alliin allium cepa * allium globosum//*//* 1.04 * +EC4.4.1.4 l-(+)-alliin allium cepa * allium oliquum//*//* 1.92 * +EC4.4.1.4 l-(+)-alliin allium cepa * allium saxatile//*//* 0.88 * +EC4.4.1.4 l-(+)-alliin allium cepa * allium senescens//*//* 1.44 * +EC4.4.1.4 l-(+)-alliin allium sativum//*//* 1.6 * +EC4.4.1.4 l-(-)-alliin allium sativum//*//* 2.8 * +EC4.4.1.4 l-cystine allium sativum//*//* 1.94 * +EC4.4.1.4 methiin petiveria alliacea//*//* 13.9 * +EC4.4.1.4 petiveriin petiveria alliacea//*//* 0.39 * +EC4.4.1.4 propiin petiveria alliacea//*//* 0.25 * +EC4.4.1.4 s-(2-chloro-4-nitrophenyl)-l-cys allium cepa//*//* 0.4 * +EC4.4.1.4 s-(2-chloro-6-nitrophenyl)-l-cys allium cepa//*//* 0.4 * +EC4.4.1.4 s-allyl-l-cys sulfoxide allium ampeloprasum//*//* 10.0 * +EC4.4.1.4 s-allyl-l-cys sulfoxide allium cepa//*//* 10.0 * +EC4.4.1.4 s-allyl-l-cys sulfoxide allium sativum//*//* 1.1 * +EC4.4.1.4 s-allyl-l-cys sulfoxide penicillium corymbiferum//*//* 5.8 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide allium ampeloprasum//*//* 13.0 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide allium cepa//*//* 16.0 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide allium fistulosum//*//* 5.8 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide allium sativum//*//* 4.9 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide allium tuberosum//*//* 2.7 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide lentinula edodes//*//* 2.5 * +EC4.4.1.4 s-ethyl-l-cys sulfoxide tulbaghia violacea//*//* 4.2 * +EC4.4.1.4 s-methyl-l-cys sulfoxide allium ampeloprasum//*//* 55.0 * +EC4.4.1.4 s-methyl-l-cys sulfoxide allium cepa//*//* 47.0 * +EC4.4.1.4 s-phenyl-l-cys sulfoxide allium cepa//*//* 7.6 * +EC4.4.1.4 s-propenyl-l-cys sulfoxide allium cepa//*//* 2.6 * +EC4.4.1.4 s-propyl-l-cys sulfoxide allium cepa//*//* 0.6 * +EC4.4.1.4 s-propyl-l-cys sulfoxide allium sativum//*//* 1.1 * +EC4.4.1.5 (r)-s-lactoylglutathione brassica sp.//*//* 0.12 * +EC4.4.1.5 (r)-s-lactoylglutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC4.4.1.5 (r)-s-lactoylglutathione neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.028 * +EC4.4.1.5 (r)-s-lactoylglutathione oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.061 * +EC4.4.1.5 (r)-s-lactoylglutathione plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.028 * +EC4.4.1.5 (r)-s-lactoylglutathione pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.016 * +EC4.4.1.5 (r)-s-lactoylglutathione yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.029 * +EC4.4.1.5 2,4-dimethylphenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC4.4.1.5 4,5-dioxovalerate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.87 * +EC4.4.1.5 4,5-dioxovalerate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC4.4.1.5 alpha-deuteriophenylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC4.4.1.5 gamma-glutamylcysteine-methylglyoxal hemithioacetal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.2 * +EC4.4.1.5 gamma-glutamylcysteine-phenylglyoxal hemithioacetal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.24 * +EC4.4.1.5 glutathione ethyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.042 * +EC4.4.1.5 glutathione ethyl ester leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.7 * +EC4.4.1.5 glutathione isopropyl ester homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.053 * +EC4.4.1.5 glutathione isopropyl ester leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.3 * +EC4.4.1.5 glutathione-glyoxal hemithioacetal plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.58 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.29 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0089 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal oryza sativa japonica group//*//* 7.6 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.077 * +EC4.4.1.5 glutathione-methylglyoxal hemithioacetal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.41 * +EC4.4.1.5 glutathione-methylglyoxal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.025 * +EC4.4.1.5 glutathione-phenylglyoxal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.049 * +EC4.4.1.5 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.049 * +EC4.4.1.5 glutathione leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 1.9 * +EC4.4.1.5 glutathione saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.35 * +EC4.4.1.5 glutathione schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.8 * +EC4.4.1.5 glutathione trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.8 * +EC4.4.1.5 glutathionylspermidine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.008 * +EC4.4.1.5 homoglutathione-methylglyoxal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.066 * +EC4.4.1.5 homoglutathione-phenylglyoxal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.027 * +EC4.4.1.5 kethoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC4.4.1.5 m-methoxyphenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC4.4.1.5 methylglyoxal aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 1.25 * +EC4.4.1.5 methylglyoxal chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.44 * +EC4.4.1.5 methylglyoxal cyberlindnera mrakii//*//* 0.91 * +EC4.4.1.5 methylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC4.4.1.5 methylglyoxal neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.028 * +EC4.4.1.5 methylglyoxal onchocerca volvulus//*//* 0.34 * +EC4.4.1.5 methylglyoxal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.078 * +EC4.4.1.5 methylglyoxal pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.016 * +EC4.4.1.5 methylglyoxal pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.5 * +EC4.4.1.5 methylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.09 * +EC4.4.1.5 methylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.32 * +EC4.4.1.5 methylglyoxal schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.6 * +EC4.4.1.5 methylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.21 * +EC4.4.1.5 methylglyoxal yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.029 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal aloe vera//*//* 1.4 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0272 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.46 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.192 * +EC4.4.1.5 methylglyoxal/glutathione hemithioacetal mytilus galloprovincialis//*//* 0.8 * +EC4.4.1.5 more aloe vera//*//* 1.4 * +EC4.4.1.5 more saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.03 * +EC4.4.1.5 n-[3-[(4-aminobutyl)amino]propyl]-l-gamma-glutamyl-l-cysteinylglycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.148 * +EC4.4.1.5 n-[3-[(4-aminobutyl)amino]propyl]-l-gamma-glutamyl-l-cysteinylglycine leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.064 * +EC4.4.1.5 p-bromophenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.4.1.5 p-chlorophenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.4.1.5 p-hydroxyphenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC4.4.1.5 p-methoxyphenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC4.4.1.5 p-methylphenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.4.1.5 p-phenylphenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.4.1.5 perdeuteriomethylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.19 * +EC4.4.1.5 phenylglyoxal homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC4.4.1.5 phenylglyoxal onchocerca volvulus//*//* 0.31 * +EC4.4.1.5 phenylglyoxal ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.113 * +EC4.4.1.5 phenylglyoxal rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.04 * +EC4.4.1.5 phenylglyoxal saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC4.4.1.5 phenylglyoxal schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.24 * +EC4.4.1.5 phenylglyoxal sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC4.4.1.5 s-d-lactoyltrypanothione leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.032 * +EC4.4.1.5 s-mandoyltrypanothione leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.051 * +EC4.4.1.5 trypanothione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC4.4.1.5 trypanothione leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.071 * +EC4.4.1.5 trypanothione trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.109 * +EC4.4.1.6 l-cysteine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.8 * +EC4.4.1.6 l-djenkolate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.6 * +EC4.4.1.6 l-djenkolate vachellia farnesiana//*//* 0.3 * +EC4.4.1.6 l-selenodjenkolate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.0 * +EC4.4.1.6 o-methyl-dl-serine vachellia farnesiana//*//* 6.5 * +EC4.4.1.6 pyridoxal phosphate pseudomonas cruciviae//*//* 0.008 * +EC4.4.1.6 s-benzyl-l-cysteine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.73 * +EC4.4.1.6 s-methyl-l-cysteine sulfoxide pseudomonas cruciviae//*//* 2.3 * +EC4.4.1.6 s-methyl-l-cysteine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.1 * +EC4.4.1.6 s-methyl-l-cysteine pseudomonas cruciviae//*//* 2.3 * +EC4.4.1.6 s-methyl-l-cysteine vachellia farnesiana//*//* 5.3 * +EC4.4.1.6 se-methyl-l-selenocysteine bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.6 * +EC4.4.1.8 cystathionine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.62 * +EC4.4.1.8 cystathionine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 4.2 * +EC4.4.1.8 cystathionine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.38 * +EC4.4.1.8 cystine synechocystis sp. pcc 6714//prokaryotes;bacteria;cyanobacteria;synechocystis//syj 1.0 * +EC4.4.1.8 d-cys bordetella avium//prokaryotes;bacteria;betaproteobacteria;bordetella//bav 5.3 * +EC4.4.1.8 dl-homocysteine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.0 * +EC4.4.1.8 l-cystathionine bordetella avium//prokaryotes;bacteria;betaproteobacteria;bordetella//bav 0.07 * +EC4.4.1.8 l-cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC4.4.1.8 l-cystathionine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.33 * +EC4.4.1.8 l-cystathionine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.096 * +EC4.4.1.8 l-cystathionine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.22 * +EC4.4.1.8 l-cystathionine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.13 * +EC4.4.1.8 l-cysteine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.3 * +EC4.4.1.8 l-cysteine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.29 * +EC4.4.1.8 l-cystine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 2.32 * +EC4.4.1.8 l-cystine brassica oleracea//eukaryotes;plants;eudicots;mustard family//boe 0.0812 * +EC4.4.1.8 l-cystine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC4.4.1.8 l-cystine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.8 * +EC4.4.1.8 l-cystine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 5.4 * +EC4.4.1.8 l-djenkolate bordetella avium//prokaryotes;bacteria;betaproteobacteria;bordetella//bav 0.033 * +EC4.4.1.8 l-djenkolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC4.4.1.8 l-djenkolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.178 * +EC4.4.1.8 l-djenkolate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.2 * +EC4.4.1.8 l-homolanthionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.5 * +EC4.4.1.8 l-meso-lanthionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.83 * +EC4.4.1.8 l-methionine lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 32.8 * +EC4.4.1.8 l-selenocystathionine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.35 * +EC4.4.1.8 lanthionine bordetella avium//prokaryotes;bacteria;betaproteobacteria;bordetella//bav 0.104 * +EC4.4.1.8 s-(2-aminoethyl)-l-cys bordetella avium//prokaryotes;bacteria;betaproteobacteria;bordetella//bav 0.47 * +EC4.4.1.8 s-methyl-l-cys bordetella avium//prokaryotes;bacteria;betaproteobacteria;bordetella//bav 0.67 * +EC4.4.1.9 2-mercaptoethanol lupinus sp.//*//* 0.66 * +EC4.4.1.9 chloroalanine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.54 * +EC4.4.1.9 chloroanaline spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.6 * +EC4.4.1.9 cn- solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.13 * +EC4.4.1.9 cyanide lathyrus latifolius//*//* 0.51 * +EC4.4.1.9 cyanide lupinus sp.//*//* 5.5 * +EC4.4.1.9 cyanide vicia sativa subsp. nigra//*//* 0.5 * +EC4.4.1.9 cyanide zea mays//eukaryotes;plants;monocots;grass family//zma 0.57 * +EC4.4.1.9 cysteine lupinus sp.//*//* 0.87 * +EC4.4.1.9 hcn oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.27 * +EC4.4.1.9 kcn arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.02 * +EC4.4.1.9 kcn lupinus sp.//*//* 0.18 * +EC4.4.1.9 kcn spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.1 * +EC4.4.1.9 l-cysteine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.14 * +EC4.4.1.9 l-cysteine lathyrus latifolius//*//* 1.6 * +EC4.4.1.9 l-cysteine lupinus sp.//*//* 2.5 * +EC4.4.1.9 l-cysteine oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.84 * +EC4.4.1.9 l-cysteine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 2.76 * +EC4.4.1.9 l-cysteine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.4 * +EC4.4.1.9 l-cysteine vicia sativa subsp. nigra//*//* 3.6 * +EC4.4.1.9 l-cysteine zea mays//eukaryotes;plants;monocots;grass family//zma 2.6 * +EC4.4.1.9 l-cysteine zonocerus variegatus//*//* 0.39 * +EC4.4.1.9 na2s arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.04 * +EC4.4.1.9 na2s solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.75 * +EC4.4.1.9 na2s spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.57 * +EC4.4.1.9 nacn spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.73 * +EC4.4.1.9 nacn zonocerus variegatus//*//* 6.25 * +EC4.4.1.9 o-acetyl-l-serine arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 8.03 * +EC4.4.1.9 o-acetyl-l-serine solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.134 * +EC4.4.1.9 o-acetyl-l-serine spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 9.73 * +EC4.4.1.9 sulfide solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 9.51 * +EC4.5.1.1 1,1,1-trichloro-2,2-bis(4-chlorophenyl)ethane pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.037 * +EC4.5.1.1 1-chloro-2,4-dinitrobenzene anopheles dirus//*//* 0.21 * +EC4.5.1.2 3-chloro-d-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.061 * +EC4.5.1.2 d-cysteine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.18 * +EC4.5.1.2 h2s pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 46.0 * +EC4.5.1.2 nahs pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 45.0 * +EC4.5.1.3 bromoethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.33 * +EC4.5.1.3 ch2brcl hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.015 * +EC4.5.1.3 ch2brcl methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.00162 * +EC4.5.1.3 ch2clf methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.053 * +EC4.5.1.3 ch2cli methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.002 * +EC4.5.1.3 chloroethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.33 * +EC4.5.1.3 dibromomethane hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.013 * +EC4.5.1.3 dibromomethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.0005 * +EC4.5.1.3 dichloromethane bacillus circulans//*//* 0.47 * +EC4.5.1.3 dichloromethane hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.011 * +EC4.5.1.3 dichloromethane methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.009 * +EC4.5.1.3 dichloromethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.031 * +EC4.5.1.3 diiodomethane hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.003 * +EC4.5.1.3 diiodomethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.0017 * +EC4.5.1.3 iodoethane methylophilus sp.//prokaryotes;bacteria;betaproteobacteria;methylophilus//meu 0.039 * +EC4.5.1.5 3-chloro-l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC4.5.1.5 thioglycolate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.4 * +EC4.6.1.1 adenylimidodiphosphate glutamicibacter nicotianae//*//* 0.33 * +EC4.6.1.1 atp alternaria solani//*//* 2.5 * +EC4.6.1.1 atp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.14 * +EC4.6.1.1 atp bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.045 * +EC4.6.1.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC4.6.1.1 atp cavia porcellus//*//* 0.08 * +EC4.6.1.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.45 * +EC4.6.1.1 atp euglena gracilis//*//* 0.0005 * +EC4.6.1.1 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.039 * +EC4.6.1.1 atp glutamicibacter nicotianae//*//* 0.4 * +EC4.6.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC4.6.1.1 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC4.6.1.1 atp mytilus galloprovincialis//*//* 0.82 * +EC4.6.1.1 atp nocardia erythropolis//*//* 0.2 * +EC4.6.1.1 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.013 * +EC4.6.1.1 atp phycomyces blakesleeanus//*//* 0.5 * +EC4.6.1.1 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0667 * +EC4.6.1.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.001 * +EC4.6.1.1 atp ruditapes philippinarum//*//* 0.77 * +EC4.6.1.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.6 * +EC4.6.1.1 atp spodoptera frugiperda//*//* 0.55 * +EC4.6.1.1 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.11 * +EC4.6.1.1 atp synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0022 * +EC4.6.1.1 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0022 * +EC4.6.1.1 atp yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 0.02 * +EC4.6.1.1 camp glutamicibacter nicotianae//*//* 14.0 * +EC4.6.1.1 datp glutamicibacter nicotianae//*//* 0.44 * +EC4.6.1.1 deoxycamp glutamicibacter nicotianae//*//* 13.0 * +EC4.6.1.1 diphosphate glutamicibacter nicotianae//*//* 1.9 * +EC4.6.1.1 gtp yersinia pestis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;yersinia//ype 1.38 * +EC4.6.1.1 mgatp2- bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.13 * +EC4.6.1.1 mgatp2- neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 2.2 * +EC4.6.1.1 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.009 * +EC4.6.1.1 mnatp2- bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.086 * +EC4.6.1.1 mnatp2- paramecium tetraurelia//eukaryotes;protists;alveolates;ciliates//ptm 0.067 * +EC4.6.1.12 2-phospho-4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.483 * +EC4.6.1.12 2-phospho-4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC4.6.1.12 2-phospho-4-(cytidine 5'-diphospho)-2-c-methyl-d-erythritol mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.0 * +EC4.6.1.12 4-diphosphocytidyl-2c-methyl-d-erythritol plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.252 * +EC4.6.1.13 methyl-fluorescein myo-inositol phosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.14 * +EC4.6.1.13 methyl-fluorescein myo-inositol phosphate listeria monocytogenes//prokaryotes;bacteria;firmicutes - bacilli;listeria//lmo 0.061 * +EC4.6.1.13 phosphatidylinositol bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.4 * +EC4.6.1.14 acetylcholinesterase trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0008 * +EC4.6.1.14 myristate-labeled variant-surface-glycoprotein trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0003 * +EC4.6.1.14 phosphatidylinositol trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.037 * +EC4.6.1.14 variant-surface-glycoprotein trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.0004 * +EC4.6.1.15 fad rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.006 * +EC4.6.1.16 more archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00025 * +EC4.6.1.17 (8s)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00021 * +EC4.6.1.2 2'-o-(n-methylanthraniloyl) guanosine 5'-triphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0357 * +EC4.6.1.2 gtp arbacia punctulata//*//* 0.16 * +EC4.6.1.2 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC4.6.1.2 gtp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.25 * +EC4.6.1.2 gtp dictyostelium sp.//*//* 0.41 * +EC4.6.1.2 gtp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.66 * +EC4.6.1.2 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC4.6.1.2 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC4.6.1.2 gtp ipomoea nil//eukaryotes;plants;eudicots;morning-glory family//ini 0.5 * +EC4.6.1.2 gtp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.386 * +EC4.6.1.2 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.63 * +EC4.6.1.2 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC4.6.1.2 guanyl-(beta,gamma-methylene)-diphosphonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.37 * +EC4.6.1.2 guanyl-imidodiphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC4.6.1.2 mggtp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.07 * +EC4.6.1.2 mggtp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC4.6.1.2 mggtp2- mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC4.6.1.2 mggtp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.085 * +EC4.6.1.2 mggtp2- tetrahymena pyriformis//*//* 0.14 * +EC4.6.1.2 mn2+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC4.6.1.2 mngtp2- ambystoma tigrinum//*//* 0.25 * +EC4.6.1.2 mngtp2- arbacia punctulata//*//* 0.17 * +EC4.6.1.2 mngtp2- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC4.6.1.2 mngtp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC4.6.1.2 mngtp2- tetrahymena pyriformis//*//* 0.03 * +EC4.6.1.6 ctp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.0125 * +EC4.6.1.6 ctp bordetella pertussis//prokaryotes;bacteria;betaproteobacteria;bordetella//bpe 0.0686 * +EC4.6.1.6 ctp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.16 * +EC4.6.1.6 ctp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0156 * +EC4.99.1.1 2,4-bisacetal deuteroporphyrin rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.056 * +EC4.99.1.1 2,4-diacetyldeuteroporphyrin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.479 * +EC4.99.1.1 2,4-disulfonic deuteroporphyrin rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.052 * +EC4.99.1.1 co2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0052 * +EC4.99.1.1 co2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.086 * +EC4.99.1.1 co2+ rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00613 * +EC4.99.1.1 cu2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.063 * +EC4.99.1.1 deuteroporphyrin ix cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.0144 * +EC4.99.1.1 deuteroporphyrin ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0026 * +EC4.99.1.1 deuteroporphyrin rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.0213 * +EC4.99.1.1 fe2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0094 * +EC4.99.1.1 fe2+ bdellovibrio bacteriovorus//prokaryotes;bacteria;deltaproteobacteria;bdellovibrio//bba 0.028 * +EC4.99.1.1 fe2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00351 * +EC4.99.1.1 fe2+ caulobacter vibrioides//*//* 0.011 * +EC4.99.1.1 fe2+ cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.0047 * +EC4.99.1.1 fe2+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.033 * +EC4.99.1.1 fe2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0067 * +EC4.99.1.1 fe2+ lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 0.006 * +EC4.99.1.1 fe2+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0019 * +EC4.99.1.1 fe2+ myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0065 * +EC4.99.1.1 fe2+ novispirillum itersonii//*//* 0.0095 * +EC4.99.1.1 fe2+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.02 * +EC4.99.1.1 fe2+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00226 * +EC4.99.1.1 fe2+ spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.006 * +EC4.99.1.1 fe2+ xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.166 * +EC4.99.1.1 hematoporphyrin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.055 * +EC4.99.1.1 hemin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0057 * +EC4.99.1.1 mesoporphyrin ix bdellovibrio bacteriovorus//prokaryotes;bacteria;deltaproteobacteria;bdellovibrio//bba 0.008 * +EC4.99.1.1 mesoporphyrin ix caulobacter vibrioides//*//* 0.0087 * +EC4.99.1.1 mesoporphyrin ix homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0094 * +EC4.99.1.1 mesoporphyrin ix myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.0096 * +EC4.99.1.1 mesoporphyrin ix pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0089 * +EC4.99.1.1 mesoporphyrin ix rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0267 * +EC4.99.1.1 mesoporphyrin ix sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0066 * +EC4.99.1.1 mesoporphyrin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0125 * +EC4.99.1.1 mesoporphyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0085 * +EC4.99.1.1 mesoporphyrin lactuca sativa//eukaryotes;plants;eudicots;daisy family//lsv 0.1 * +EC4.99.1.1 mesoporphyrin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.004 * +EC4.99.1.1 myoglobin saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC4.99.1.1 ni2+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02206 * +EC4.99.1.1 porphyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0121 * +EC4.99.1.1 protoporphyrin ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00083 * +EC4.99.1.1 protoporphyrin ix mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.001 * +EC4.99.1.1 protoporphyrin ix mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.72 * +EC4.99.1.1 protoporphyrin ix rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00026 * +EC4.99.1.1 protoporphyrin ix synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.00022 * +EC4.99.1.1 protoporphyrin bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.008 * +EC4.99.1.1 protoporphyrin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0127 * +EC4.99.1.1 protoporphyrin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0059 * +EC4.99.1.1 protoporphyrin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00819 * +EC4.99.1.1 protoporphyrin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0153 * +EC4.99.1.1 protoporphyrin novispirillum itersonii//*//* 0.05 * +EC4.99.1.1 protoporphyrin spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.002 * +EC4.99.1.1 protoporphyrin xenopus laevis//eukaryotes;animals;vertebrates;amphibians//xla 0.0111 * +EC4.99.1.1 zn2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.013 * +EC4.99.1.1 zn2+ bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00317 * +EC4.99.1.1 zn2+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC4.99.1.1 zn2+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC4.99.1.1 zn2+ sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC4.99.1.1 zn2+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.000488 * +EC4.99.1.2 cis-2-butenylmercuric chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC4.99.1.2 crotonylmercuric bromide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC4.99.1.2 methoxy-ethylmercury chloride sporosarcina pasteurii//*//* 0.02 * +EC4.99.1.2 methyl mercuric chloride sporosarcina pasteurii//*//* 0.024 * +EC4.99.1.2 methylmercuric chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC4.99.1.2 n-butylmercuric chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC4.99.1.2 p-chloromercuribenzoic acid pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.053 * +EC4.99.1.2 p-hydroxymercuribenzoate serratia marcescens//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//smaf 0.11 * +EC4.99.1.2 phenylmercuric acetate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC4.99.1.2 phenylmercuric acetate sporosarcina pasteurii//*//* 0.0095 * +EC4.99.1.2 sec-butylmercuric bromide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC4.99.1.2 tert-butylmercuric chloride escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC4.99.1.2 tetravinyltin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC4.99.1.2 thiomersol sporosarcina pasteurii//*//* 0.0153 * +EC4.99.1.2 triethylvinyltin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC4.99.1.2 vinylmercuric bromide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC4.99.1.3 sirohydrochlorin methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.00062 * +EC4.99.1.5 (e)-pyridine-3-aldoxime rhodococcus globerulus//*//* 20.0 * +EC4.99.1.5 (e/z)-2-phenylpropionaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 4.07 * +EC4.99.1.5 (e/z)-2-phenylpropionaldoxime rhodococcus globerulus//*//* 11.9 * +EC4.99.1.5 (e/z)-4-phenybutyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.882 * +EC4.99.1.5 (e/z)-acetaldoxime pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 11.0 * +EC4.99.1.5 (e/z)-cyclohexanecarboxaldehyde oxime rhodococcus globerulus//*//* 1.13 * +EC4.99.1.5 (e/z)-cyclohexanecarboxaldehydeoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 5.96 * +EC4.99.1.5 (e/z)-indoleacetaldoxime rhodococcus globerulus//*//* 3.91 * +EC4.99.1.5 (e/z)-isobutyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.538 * +EC4.99.1.5 (e/z)-isobutyraldoxime rhodococcus globerulus//*//* 5.54 * +EC4.99.1.5 (e/z)-isocapronaldoxime rhodococcus globerulus//*//* 6.76 * +EC4.99.1.5 (e/z)-isovaleraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.33 * +EC4.99.1.5 (e/z)-isovaleraldoxime rhodococcus globerulus//*//* 3.97 * +EC4.99.1.5 (e/z)-mandelaldoxime rhodococcus globerulus//*//* 3.23 * +EC4.99.1.5 (e/z)-n-butyraldoxime pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 0.25 * +EC4.99.1.5 (e/z)-n-butyraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 2.16 * +EC4.99.1.5 (e/z)-n-butyraldoxime rhodococcus globerulus//*//* 1.73 * +EC4.99.1.5 (e/z)-n-capronaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.12 * +EC4.99.1.5 (e/z)-n-capronaldoxime rhodococcus globerulus//*//* 2.94 * +EC4.99.1.5 (e/z)-n-valeraldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.78 * +EC4.99.1.5 (e/z)-n-valeraldoxime rhodococcus globerulus//*//* 1.13 * +EC4.99.1.5 (e/z)-propionaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.778 * +EC4.99.1.5 (e/z)-propionaldoxime rhodococcus globerulus//*//* 5.13 * +EC4.99.1.5 (e/z)-pyridine-2-aldoxime pseudomonas chlororaphis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pch 3.4 * +EC4.99.1.5 (z)-3-phenylpropionaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.975 * +EC4.99.1.5 (z)-3-phenylpropionaldoxime rhodococcus globerulus//*//* 2.31 * +EC4.99.1.5 (z)-phenylacetaldoxime pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.991 * +EC4.99.1.5 (z)-phenylacetaldoxime rhodococcus globerulus//*//* 1.4 * +EC4.99.1.6 (e,z)-indolyl-3-acetaldoxime sclerotinia sclerotiorum//eukaryotes;fungi;ascomycetes;leotiomycetes//ssl 0.29 * +EC4.99.1.6 3-indoleacetaldoxime fusarium fujikuroi//*//* 0.17 * +EC4.99.1.7 (e/z)-2-phenylpropionaldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 3.71 * +EC4.99.1.7 (e/z)-4-phenylbutyraldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 5.24 * +EC4.99.1.7 (e/z)-indoleacetaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.4 * +EC4.99.1.7 (e/z)-indoleacetaldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 1.46 * +EC4.99.1.7 (e/z)-isocapronaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.98 * +EC4.99.1.7 (e/z)-isovaleraldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.58 * +EC4.99.1.7 (e/z)-isovaleraldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 2.66 * +EC4.99.1.7 (e/z)-mandelaldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 1.7 * +EC4.99.1.7 (e/z)-n-butyraldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 11.1 * +EC4.99.1.7 (e/z)-n-butyraldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 2.87 * +EC4.99.1.7 (e/z)-n-capronaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 6.12 * +EC4.99.1.7 (e/z)-n-capronaldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 0.802 * +EC4.99.1.7 (e/z)-n-valeraldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 2.42 * +EC4.99.1.7 (e/z)-n-valeraldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 10.1 * +EC4.99.1.7 (e/z)-propionaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 4.32 * +EC4.99.1.7 (z)-3-phenylpropionaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.36 * +EC4.99.1.7 (z)-3-phenylpropionaldoxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 2.76 * +EC4.99.1.7 (z)-naphthoacetaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.846 * +EC4.99.1.7 (z)-p-chlorophenylacetaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 1.24 * +EC4.99.1.7 (z)-p-methoxyphenylacetaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 3.08 * +EC4.99.1.7 (z)-phenylacetaldehyde oxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.03 * +EC4.99.1.7 (z)-phenylacetaldehyde oxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 3.52 * +EC4.99.1.7 (z)-phenylacetaldoxime bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.7 * +EC4.99.1.7 4-phenylbutanal oxime fusarium graminearum//eukaryotes;fungi;ascomycetes;sordariomycetes//fgr 1.79 * +EC4.99.1.9 coproporphyrin iii bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0018 * +EC4.99.1.9 coproporphyrin iii mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0105 * +EC4.99.1.9 cu2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.17 * +EC4.99.1.9 protoporphyrin ix bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.008 * +EC4.99.1.9 zn2+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.017 * +EC5.1.1.1 ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 8.5 * +EC5.1.1.1 d-ala acidiphilium organovorum//*//* 3.8 * +EC5.1.1.1 d-ala aquifex pyrophilus//*//* 1.8 * +EC5.1.1.1 d-ala bacillus psychrosaccharolyticus//*//* 12.2 * +EC5.1.1.1 d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.2 * +EC5.1.1.1 d-ala mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.4 * +EC5.1.1.1 d-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.1 * +EC5.1.1.1 d-ala penaeus monodon//*//* 24.0 * +EC5.1.1.1 d-ala procambarus clarkii//*//* 73.5 * +EC5.1.1.1 d-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.1 * +EC5.1.1.1 d-ala pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 12.8 * +EC5.1.1.1 d-ala salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.5 * +EC5.1.1.1 d-ala schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 2.4 * +EC5.1.1.1 d-ala shigella dysenteriae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sdy 10.0 * +EC5.1.1.1 d-ala tolypocladium inflatum//*//* 2.0 * +EC5.1.1.1 d-alanine bacillus pseudofirmus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpf 14.91 * +EC5.1.1.1 d-alanine cellana grata//*//* 20.4 * +EC5.1.1.1 d-alanine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 5.24 * +EC5.1.1.1 d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC5.1.1.1 d-alanine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 6.2 * +EC5.1.1.1 d-alanine medicago sativa//*//* 12.0 * +EC5.1.1.1 d-alanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.2 * +EC5.1.1.1 d-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 4.7 * +EC5.1.1.1 d-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.3 * +EC5.1.1.1 d-alanine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 6.1 * +EC5.1.1.1 d-alanine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 2.1 * +EC5.1.1.1 d-alanine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.4 * +EC5.1.1.1 d-alanine thalassiosira sp.//*//* 16.5 * +EC5.1.1.1 d-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 10.0 * +EC5.1.1.1 l-ala acidiphilium organovorum//*//* 7.9 * +EC5.1.1.1 l-ala bacillus psychrosaccharolyticus//*//* 17.9 * +EC5.1.1.1 l-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 7.8 * +EC5.1.1.1 l-ala geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.7 * +EC5.1.1.1 l-ala mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.5 * +EC5.1.1.1 l-ala mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.2 * +EC5.1.1.1 l-ala penaeus monodon//*//* 50.0 * +EC5.1.1.1 l-ala procambarus clarkii//*//* 171.0 * +EC5.1.1.1 l-ala pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.1 * +EC5.1.1.1 l-ala pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 18.9 * +EC5.1.1.1 l-ala salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.7 * +EC5.1.1.1 l-ala schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 5.0 * +EC5.1.1.1 l-ala shigella dysenteriae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;shigella//sdy 20.0 * +EC5.1.1.1 l-alanine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 2.8 * +EC5.1.1.1 l-alanine bacillus pseudofirmus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bpf 41.79 * +EC5.1.1.1 l-alanine cellana grata//*//* 43.0 * +EC5.1.1.1 l-alanine corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 5.01 * +EC5.1.1.1 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC5.1.1.1 l-alanine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 100.0 * +EC5.1.1.1 l-alanine medicago sativa//*//* 29.6 * +EC5.1.1.1 l-alanine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 4.1 * +EC5.1.1.1 l-alanine pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 8.1 * +EC5.1.1.1 l-alanine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.4 * +EC5.1.1.1 l-alanine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 9.3 * +EC5.1.1.1 l-alanine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.4 * +EC5.1.1.1 l-alanine thalassiosira sp.//*//* 29.4 * +EC5.1.1.1 l-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 27.0 * +EC5.1.1.10 d-ala pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.4 * +EC5.1.1.10 d-asn pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.0 * +EC5.1.1.10 d-aspartate aplysia californica//*//* 94.0 * +EC5.1.1.10 d-gln pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.8 * +EC5.1.1.10 d-lys aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.83 * +EC5.1.1.10 d-lys pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.42 * +EC5.1.1.10 d-met aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 1.6 * +EC5.1.1.10 d-met pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC5.1.1.10 d-methionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.8 * +EC5.1.1.10 d-phe pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 25.7 * +EC5.1.1.10 d-ser aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 1.0 * +EC5.1.1.10 d-ser pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 18.0 * +EC5.1.1.10 d-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 14.5 * +EC5.1.1.10 d-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 9.8 * +EC5.1.1.10 l-2-aminobutyrate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 36.0 * +EC5.1.1.10 l-ala pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 7.0 * +EC5.1.1.10 l-asn pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 30.0 * +EC5.1.1.10 l-aspartate aplysia californica//*//* 8.0 * +EC5.1.1.10 l-ethionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 35.0 * +EC5.1.1.10 l-leu pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 33.0 * +EC5.1.1.10 l-lys aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 1.05 * +EC5.1.1.10 l-lys pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.55 * +EC5.1.1.10 l-met aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 1.2 * +EC5.1.1.10 l-met pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 2.0 * +EC5.1.1.10 l-methionine pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 4.1 * +EC5.1.1.10 l-orn aeromonas caviae//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//acav 0.9 * +EC5.1.1.10 l-serine aplysia californica//*//* 15.0 * +EC5.1.1.10 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.8 * +EC5.1.1.10 l-thr pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 31.0 * +EC5.1.1.10 n-acetyl-d-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 17.0 * +EC5.1.1.10 n-acetyl-d-asparagine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 18.0 * +EC5.1.1.10 n-acetyl-d-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 7.0 * +EC5.1.1.10 n-acetyl-d-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-acetyl-d-tryptophan geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-acetyl-l-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 41.0 * +EC5.1.1.10 n-acetyl-l-asparagine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 27.0 * +EC5.1.1.10 n-acetyl-l-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 8.0 * +EC5.1.1.10 n-acetyl-l-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 43.0 * +EC5.1.1.10 n-acetyl-l-tryptophan geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-carbamoyl-d-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.0 * +EC5.1.1.10 n-carbamoyl-l-methionine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 5.0 * +EC5.1.1.10 n-succinyl-d-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.13 * +EC5.1.1.10 n-succinyl-d-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.04 * +EC5.1.1.10 n-succinyl-l-ala geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.6 * +EC5.1.1.10 n-succinyl-l-alanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.12 * +EC5.1.1.10 n-succinyl-l-his geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 3.8 * +EC5.1.1.10 n-succinyl-l-ile geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 3.7 * +EC5.1.1.10 n-succinyl-l-leu geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 1.3 * +EC5.1.1.10 n-succinyl-l-met geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 3.6 * +EC5.1.1.10 n-succinyl-l-phe geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.8 * +EC5.1.1.10 n-succinyl-l-phenylalanine geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 0.13 * +EC5.1.1.10 n-succinyl-l-ser geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 3.0 * +EC5.1.1.10 n-succinyl-l-trp geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 7.1 * +EC5.1.1.10 n-succinyl-l-tyr geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.6 * +EC5.1.1.10 n-succinyl-l-val geobacillus kaustophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gka 2.5 * +EC5.1.1.11 atp brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.15 * +EC5.1.1.11 d-phe brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.13 * +EC5.1.1.11 l-phe brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 0.0062 * +EC5.1.1.11 l-tyr brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 2.1 * +EC5.1.1.11 p-fluoro-dl-phe brevibacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;brevibacillus//bbe 1.4 * +EC5.1.1.12 l-ornithine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.52 * +EC5.1.1.13 d-asp bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.94 * +EC5.1.1.13 d-asp streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 8.7 * +EC5.1.1.13 d-aspartate scapharca broughtonii//*//* 17.2 * +EC5.1.1.13 l-asp bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 13.4 * +EC5.1.1.13 l-asp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 25.0 * +EC5.1.1.13 l-asp streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 35.0 * +EC5.1.1.13 l-aspartate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.7 * +EC5.1.1.13 l-aspartate scapharca broughtonii//*//* 14.5 * +EC5.1.1.14 isonocardicin a nocardia uniformis//*//* 0.07 * +EC5.1.1.14 nocardicin a nocardia uniformis//*//* 0.036 * +EC5.1.1.15 d-ala achromobacter obae//*//* 3.4 * +EC5.1.1.15 d-alpha-amino-epsilon-caprolactam achromobacter obae//*//* 3.5 * +EC5.1.1.15 l-2-aminobutyric acid amide achromobacter obae//*//* 1.1 * +EC5.1.1.15 l-ala achromobacter obae//*//* 2.5 * +EC5.1.1.15 l-alpha-amino-beta-thio-epsilon-caprolactam achromobacter obae//*//* 1.5 * +EC5.1.1.15 l-alpha-amino-delta-valerolactam achromobacter obae//*//* 2.9 * +EC5.1.1.15 l-alpha-amino-epsilon-caprolactam achromobacter obae//*//* 6.0 * +EC5.1.1.17 isopenicillin n actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.3 * +EC5.1.1.17 isopenicillin n amycolatopsis lactamdurans//*//* 0.27 * +EC5.1.1.17 isopenicillin n streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.3 * +EC5.1.1.17 penicillin n actinomyces sp.//prokaryotes;bacteria;actinobacteria;actinomyces//acq 0.78 * +EC5.1.1.17 penicillin n streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.78 * +EC5.1.1.17 pyridoxal 5'-phosphate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.0024 * +EC5.1.1.18 d-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 10.8 * +EC5.1.1.18 d-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 3.2 * +EC5.1.1.18 d-serine oryza sativa//eukaryotes;plants;monocots;grass family//osa 2.0 * +EC5.1.1.18 d-serine pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 95.4 * +EC5.1.1.18 d-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.0 * +EC5.1.1.18 l-alanine streptomyces garyphalus//*//* 111.0 * +EC5.1.1.18 l-serine o-sulfate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.49 * +EC5.1.1.18 l-serine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC5.1.1.18 l-serine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.8 * +EC5.1.1.18 l-serine oryza sativa//eukaryotes;plants;monocots;grass family//osa 10.0 * +EC5.1.1.18 l-serine pyrobaculum islandicum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pis 185.0 * +EC5.1.1.18 l-serine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC5.1.1.18 l-serine schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 19.0 * +EC5.1.1.18 l-serine streptomyces garyphalus//*//* 35.0 * +EC5.1.1.19 o-ureido-d-serine streptomyces lavendulae subsp. lavendulae//*//* 17.0 * +EC5.1.1.19 o-ureido-l-serine streptomyces lavendulae subsp. lavendulae//*//* 110.0 * +EC5.1.1.20 l-ala-d-asp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.028 * +EC5.1.1.20 l-ala-d-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC5.1.1.20 l-ala-d-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.8 * +EC5.1.1.20 l-ala-d-glu bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.32 * +EC5.1.1.20 l-ala-d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC5.1.1.20 l-ala-d-met bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.51 * +EC5.1.1.20 l-ala-d-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.69 * +EC5.1.1.21 d-allo-isoleucine lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 13.2 * +EC5.1.1.21 l-isoleucine lactobacillus buchneri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbh 5.0 * +EC5.1.1.22 l-proline betaine pelagibaca bermudensis//*//* 8.0 * +EC5.1.1.22 trans-4-hydroxy-l-proline betaine pelagibaca bermudensis//*//* 42.0 * +EC5.1.1.3 d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.2 * +EC5.1.1.3 d-glu lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 5.94 * +EC5.1.1.3 d-glu lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.33 * +EC5.1.1.3 d-glu lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 3.6 * +EC5.1.1.3 d-glu pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 14.0 * +EC5.1.1.3 d-glutamate aquifex pyrophilus//*//* 0.21 * +EC5.1.1.3 d-glutamate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.2 * +EC5.1.1.3 d-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.25 * +EC5.1.1.3 d-glutamate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.25 * +EC5.1.1.3 d-glutamate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.24 * +EC5.1.1.3 d-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.1 * +EC5.1.1.3 d-glutamate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.063 * +EC5.1.1.3 d-glutamate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.26 * +EC5.1.1.3 d-glutamate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 1.64 * +EC5.1.1.3 d-glutamate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.014 * +EC5.1.1.3 d-glutamate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 126.0 * +EC5.1.1.3 d-homocysteinesulfinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 10.0 * +EC5.1.1.3 l-glu lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 6.39 * +EC5.1.1.3 l-glu lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.24 * +EC5.1.1.3 l-glu pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 10.0 * +EC5.1.1.3 l-glutamate aquifex pyrophilus//*//* 3.3 * +EC5.1.1.3 l-glutamate bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 3.7 * +EC5.1.1.3 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 14.0 * +EC5.1.1.3 l-glutamate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.2 * +EC5.1.1.3 l-glutamate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 1.1 * +EC5.1.1.3 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC5.1.1.3 l-glutamate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.74 * +EC5.1.1.3 l-glutamate lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 0.33 * +EC5.1.1.3 l-glutamate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.84 * +EC5.1.1.3 l-glutamate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 4.6 * +EC5.1.1.3 l-glutamate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 3.74 * +EC5.1.1.3 l-homocysteinesulfinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 200.0 * +EC5.1.1.4 d-pro acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 3.8 * +EC5.1.1.4 d-proline clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.612 * +EC5.1.1.4 d-proline ferroplasma acidarmanus//prokaryotes;archaea;euryarchaeota;ferroplasma//fac 1.17 * +EC5.1.1.4 d-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.092 * +EC5.1.1.4 d-proline trypanosoma vivax//*//* 106.0 * +EC5.1.1.4 l-pro acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 2.3 * +EC5.1.1.4 l-proline acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 5.7 * +EC5.1.1.4 l-proline clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 8.53 * +EC5.1.1.4 l-proline ferroplasma acidarmanus//prokaryotes;archaea;euryarchaeota;ferroplasma//fac 31.6 * +EC5.1.1.4 l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.21 * +EC5.1.1.4 l-proline trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 29.0 * +EC5.1.1.4 l-proline trypanosoma vivax//*//* 145.0 * +EC5.1.1.5 d-lysine uncultured bacterium//*//* 23.48 * +EC5.1.1.5 l-lysine uncultured bacterium//*//* 16.21 * +EC5.1.1.7 ll-diaminoheptanedioate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 6.7 * +EC5.1.1.7 ll-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC5.1.1.7 meso-diaminoheptanedioate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 100.0 * +EC5.1.1.7 meso-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC5.1.1.7 meso-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.166 * +EC5.1.1.8 2-2h-4-allohydroxy-d-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 24.0 * +EC5.1.1.8 2-2h-4-hydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 11.0 * +EC5.1.1.8 3-allohydroxy-d-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 19.0 * +EC5.1.1.8 3-allohydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 29.0 * +EC5.1.1.8 3-hydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 37.0 * +EC5.1.1.8 4-allohydroxy-d-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 49.0 * +EC5.1.1.8 4-allohydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 32.0 * +EC5.1.1.8 4-hydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 13.0 * +EC5.1.1.8 allohydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 53.0 * +EC5.1.1.8 cis-4-hydroxy-d-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 6.65 * +EC5.1.1.8 hydroxy-l-pro pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 22.0 * +EC5.1.1.8 trans-3-hydroxy-l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 0.502 * +EC5.1.1.8 trans-4-hydroxy-d-proline pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0016 * +EC5.1.1.8 trans-4-hydroxy-l-pro brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 9.8 * +EC5.1.1.8 trans-4-hydroxy-l-pro brucella melitensis//prokaryotes;bacteria;alphaproteobacteria;brucella//bme 9.0 * +EC5.1.1.8 trans-4-hydroxy-l-pro brucella suis//prokaryotes;bacteria;alphaproteobacteria;brucella//bms 7.6 * +EC5.1.1.8 trans-4-hydroxy-l-pro burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 14.4 * +EC5.1.1.8 trans-4-hydroxy-l-pro pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 14.4 * +EC5.1.1.8 trans-4-hydroxy-l-proline ferroplasma acidarmanus//prokaryotes;archaea;euryarchaeota;ferroplasma//fac 6.12 * +EC5.1.1.8 trans-4-hydroxy-l-proline pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0024 * +EC5.1.1.8 trans-4-hydroxy-l-proline thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 6.08 * +EC5.1.1.9 d-alanine pseudomonas taetrolens//*//* 15.0 * +EC5.1.1.9 d-arg pseudomonas graveolens//*//* 1.0 * +EC5.1.1.9 d-arginine pseudomonas taetrolens//*//* 1.2 * +EC5.1.1.9 d-lysine pseudomonas taetrolens//*//* 2.4 * +EC5.1.1.9 d-ornithine pseudomonas taetrolens//*//* 3.6 * +EC5.1.1.9 l-alanine pseudomonas taetrolens//*//* 15.7 * +EC5.1.1.9 l-arginine pseudomonas taetrolens//*//* 1.2 * +EC5.1.1.9 l-lysine pseudomonas taetrolens//*//* 2.4 * +EC5.1.1.9 l-ornithine pseudomonas taetrolens//*//* 3.7 * +EC5.1.1.9 pyridoxal 5'-phosphate pseudomonas graveolens//*//* 0.0004 * +EC5.1.2.1 d-lactate lactobacillus curvatus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcv 50.0 * +EC5.1.2.1 d-lactate lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 17.0 * +EC5.1.2.1 l-lactate lactobacillus curvatus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcv 70.0 * +EC5.1.2.1 l-lactate lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 80.0 * +EC5.1.2.2 (2r)-2-naphthylglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC5.1.2.2 (r)-2-hydroxy-3-butenoic acid pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 3.5 * +EC5.1.2.2 (r)-2-naphthylglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.46 * +EC5.1.2.2 (r)-2-naphtylglyconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.2 * +EC5.1.2.2 (r)-3-chloromandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.89 * +EC5.1.2.2 (r)-mandelamide pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.13 * +EC5.1.2.2 (r)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.34 * +EC5.1.2.2 (s)-2-naphthylglycolate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.41 * +EC5.1.2.2 (s)-2-naphtylglyconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC5.1.2.2 (s)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.35 * +EC5.1.2.2 4-bromo-d-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.256 * +EC5.1.2.2 4-hydroxy-d-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.29 * +EC5.1.2.2 4-methoxy-d-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.33 * +EC5.1.2.2 d(-)-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.1 * +EC5.1.2.2 d-mandelate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.093 * +EC5.1.2.2 mg2+ pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.34 * +EC5.1.2.7 d-fructuronate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.68 * +EC5.1.3.1 d-ribulose 5-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.19 * +EC5.1.3.1 d-ribulose 5-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.5 * +EC5.1.3.1 d-ribulose 5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.22 * +EC5.1.3.1 d-ribulose 5-phosphate streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.2 * +EC5.1.3.1 d-ribulose-5-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.9 * +EC5.1.3.1 d-ribulose-5-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.4 * +EC5.1.3.10 cdp-3,6-dideoxy-d-glucose salmonella enterica subsp. enterica serovar enteritidis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//set 0.085 * +EC5.1.3.10 cdp-3,6-dideoxy-d-mannose salmonella enterica subsp. enterica serovar enteritidis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//set 0.052 * +EC5.1.3.11 cellobiose eubacterium cellulosolvens//*//* 11.3 * +EC5.1.3.11 cellobiose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 27.2 * +EC5.1.3.11 cellobiose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 13.8 * +EC5.1.3.11 d-glucose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 70.9 * +EC5.1.3.11 d-mannose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 51.8 * +EC5.1.3.11 lactose eubacterium cellulosolvens//*//* 72.0 * +EC5.1.3.11 lactose rhodothermus marinus//prokaryotes;bacteria;bacteroidetes;rhodothermus//rmr 28.8 * +EC5.1.3.11 lactose ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 33.0 * +EC5.1.3.13 dtdp-4-dehydro-6-deoxy-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC5.1.3.13 dtdp-6-deoxy-d-xylo-4-hexulose salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.35 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 2.2 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.1 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.36 * +EC5.1.3.14 udp-n-acetyl-d-glucosamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.011 * +EC5.1.3.14 udp-n-acetylglucosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.63 * +EC5.1.3.14 udp-n-acetylmannosamine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.22 * +EC5.1.3.14 udp-n-acetylmannosamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC5.1.3.15 alpha-d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.144 * +EC5.1.3.15 beta-d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0555 * +EC5.1.3.16 udpgalactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC5.1.3.16 udpglucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC5.1.3.17 heparan sulfate-derived polysaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC5.1.3.17 heparin-derived polysaccharide bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.17 * +EC5.1.3.17 uronic acid residues bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.063 * +EC5.1.3.18 gdp-d-mannose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0045 * +EC5.1.3.18 gdp-d-mannose auxenochlorella pyrenoidosa//*//* 0.096 * +EC5.1.3.18 gdp-d-mannose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00712 * +EC5.1.3.18 gdp-l-galactose auxenochlorella pyrenoidosa//*//* 0.097 * +EC5.1.3.19 glucuronosyl residues in chondroitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.12 * +EC5.1.3.19 glucuronosyl residues homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.067 * +EC5.1.3.2 d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.4 * +EC5.1.3.2 d-tagatose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC5.1.3.2 udp-alpha-d-galactose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.23 * +EC5.1.3.2 udp-alpha-d-glucose aspergillus nidulans//eukaryotes;fungi;ascomycetes;eurotiomycetes//ani 0.1 * +EC5.1.3.2 udp-alpha-d-glucose pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 2.24 * +EC5.1.3.2 udp-d-galactose pisum sativum//*//* 0.29 * +EC5.1.3.2 udp-d-glucose pisum sativum//*//* 0.31 * +EC5.1.3.2 udp-d-xylose pisum sativum//*//* 0.15 * +EC5.1.3.2 udp-gal escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.295 * +EC5.1.3.2 udp-gal hordeum vulgare//*//* 0.04 * +EC5.1.3.2 udp-galactose aeromonas hydrophila//prokaryotes;bacteria;gammaproteobacteria - others;aeromonas//aha 0.5 * +EC5.1.3.2 udp-galactose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.1 * +EC5.1.3.2 udp-galactose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.784 * +EC5.1.3.2 udp-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC5.1.3.2 udp-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC5.1.3.2 udp-galactose hordeum vulgare//*//* 0.04 * +EC5.1.3.2 udp-galactose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.11 * +EC5.1.3.2 udp-galactose pisum sativum//*//* 0.29 * +EC5.1.3.2 udp-galactose pyrobaculum calidifontis//prokaryotes;archaea;crenarchaeota;pyrobaculum//pcl 3.9 * +EC5.1.3.2 udp-galactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.089 * +EC5.1.3.2 udp-galnac campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 1.07 * +EC5.1.3.2 udp-galnac escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.373 * +EC5.1.3.2 udp-galnac hordeum vulgare//*//* 0.16 * +EC5.1.3.2 udp-glc escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC5.1.3.2 udp-glc hordeum vulgare//*//* 0.055 * +EC5.1.3.2 udp-glcnac campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 1.087 * +EC5.1.3.2 udp-glcnac escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.323 * +EC5.1.3.2 udp-glcnac hordeum vulgare//*//* 0.2 * +EC5.1.3.2 udp-glucose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.09 * +EC5.1.3.2 udp-glucose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.78 * +EC5.1.3.2 udp-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC5.1.3.2 udp-glucose hordeum vulgare//*//* 0.055 * +EC5.1.3.2 udp-glucose pisum sativum//*//* 0.31 * +EC5.1.3.2 udp-l-arabinose pisum sativum//*//* 0.16 * +EC5.1.3.2 udp-n-acetyl-alpha-d-glucosamine marinithermus hydrothermalis//prokaryotes;bacteria;deinococcus-thermus;marinithermus//mhd 0.362 * +EC5.1.3.2 udp-xylose pisum sativum//*//* 0.15 * +EC5.1.3.2 udpgalactose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.53 * +EC5.1.3.2 udpgalactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0083 * +EC5.1.3.2 udpgalactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.14 * +EC5.1.3.2 udpgalactose galdieria sulphuraria//eukaryotes;plants;red algae//gsl 0.064 * +EC5.1.3.2 udpgalactose kluyveromyces marxianus//eukaryotes;fungi;ascomycetes;saccharomycetes//kmx 0.1 * +EC5.1.3.2 udpgalactose poterioochromonas malhamensis//*//* 0.26 * +EC5.1.3.2 udpgalactose saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC5.1.3.2 udpgalactose saccharomyces fragilis//*//* 0.12 * +EC5.1.3.2 udpgalactose torulopsis candida//*//* 1.2 * +EC5.1.3.2 udpgalactose vicia faba//*//* 0.12 * +EC5.1.3.2 udpglucose bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 1.4 * +EC5.1.3.2 udpglucose vicia faba//*//* 0.25 * +EC5.1.3.20 adp-d-glycero-d-manno-heptose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC5.1.3.21 beta-maltose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 2.2 * +EC5.1.3.25 dtdp-6-deoxy-beta-l-talose burkholderia thailandensis//prokaryotes;bacteria;betaproteobacteria;burkholderia//bte 0.0247 * +EC5.1.3.3 alpha-d-fucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC5.1.3.3 alpha-d-fucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC5.1.3.3 alpha-d-galactose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 37.0 * +EC5.1.3.3 alpha-d-galactose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC5.1.3.3 alpha-d-glucose aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 50.0 * +EC5.1.3.3 alpha-d-glucose batrachoididae gen. sp.//*//* 12.0 * +EC5.1.3.3 alpha-d-glucose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC5.1.3.3 alpha-d-glucose canis lupus familiaris//*//* 19.0 * +EC5.1.3.3 alpha-d-glucose catfish//*//* 12.0 * +EC5.1.3.3 alpha-d-glucose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 12.0 * +EC5.1.3.3 alpha-d-glucose homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.0 * +EC5.1.3.3 alpha-d-glucose meriones unguiculatus//*//* 19.0 * +EC5.1.3.3 alpha-d-glucose mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 19.0 * +EC5.1.3.3 alpha-d-glucose oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 12.0 * +EC5.1.3.3 alpha-d-glucose ovis aries//eukaryotes;animals;vertebrates;mammals//oas 19.0 * +EC5.1.3.3 alpha-d-glucose perca flavescens//*//* 12.0 * +EC5.1.3.3 alpha-d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC5.1.3.3 alpha-d-glucose rhizopus stolonifer//*//* 180.0 * +EC5.1.3.3 alpha-d-glucose sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 19.0 * +EC5.1.3.3 alpha-d-xylose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.2 * +EC5.1.3.3 alpha-d-xylose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 8.0 * +EC5.1.3.3 alpha-l-arabinose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.3 * +EC5.1.3.3 beta-d-arabinose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 18.0 * +EC5.1.3.3 d-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.0 * +EC5.1.3.3 d-fucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 13.0 * +EC5.1.3.3 d-galactose bos taurus//eukaryotes;animals;vertebrates;mammals//bta 6.5 * +EC5.1.3.3 d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.5 * +EC5.1.3.3 d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC5.1.3.3 d-glucose rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC5.1.3.3 d-xylose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 23.0 * +EC5.1.3.3 lactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 475.0 * +EC5.1.3.30 d-fructose clostridium bolteae//*//* 59.8 * +EC5.1.3.30 d-fructose clostridium cellulolyticum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cce 53.5 * +EC5.1.3.30 d-fructose clostridium scindens//*//* 40.1 * +EC5.1.3.30 d-fructose clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 279.0 * +EC5.1.3.30 d-fructose desmospora sp. 8437//*//* 549.0 * +EC5.1.3.30 d-fructose ruminococcus sp.//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//rum 216.0 * +EC5.1.3.30 d-psicose clostridium bolteae//*//* 27.4 * +EC5.1.3.30 d-psicose clostridium cellulolyticum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cce 17.4 * +EC5.1.3.30 d-psicose clostridium scindens//*//* 2.0 * +EC5.1.3.30 d-psicose clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 227.6 * +EC5.1.3.30 d-psicose desmospora sp. 8437//*//* 81.3 * +EC5.1.3.30 d-psicose ruminococcus sp.//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//rum 48.0 * +EC5.1.3.31 d-psicose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 58.0 * +EC5.1.3.31 d-tagatose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 140.0 * +EC5.1.3.31 d-tagatose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 55.0 * +EC5.1.3.31 l-ribulose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 291.0 * +EC5.1.3.31 l-xylulose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 230.0 * +EC5.1.3.37 [alginate]-beta-d-mannuronate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.018 * +EC5.1.3.37 [mannuronan]-beta-d-mannuronate azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.62 * +EC5.1.3.4 l-ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.047 * +EC5.1.3.4 l-ribulose 5-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.1 * +EC5.1.3.5 udp-alpha-d-xylopyranose hordeum vulgare//*//* 1.8 * +EC5.1.3.5 udp-alpha-d-xylopyranose sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.31 * +EC5.1.3.5 udp-beta-l-arabinopyranose hordeum vulgare//*//* 1.4 * +EC5.1.3.5 udp-d-xylopyranose sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.31 * +EC5.1.3.5 udp-d-xylose arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.32 * +EC5.1.3.5 udp-d-xylose helianthus tuberosus//*//* 0.16 * +EC5.1.3.5 udp-d-xylose pisum sativum//*//* 0.015 * +EC5.1.3.5 udp-d-xylose triticum aestivum//*//* 1.5 * +EC5.1.3.5 udp-l-arabinose pisum sativum//*//* 0.016 * +EC5.1.3.5 udp-l-arabinose triticum aestivum//*//* 0.5 * +EC5.1.3.6 udp-d-glucuronate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.72 * +EC5.1.3.6 udp-d-glucuronate streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.24 * +EC5.1.3.6 udp-glucuronate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.19 * +EC5.1.3.6 udpglucuronate dolichospermum flos-aquae//*//* 0.037 * +EC5.1.3.7 udp-d-galactose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.784 * +EC5.1.3.7 udp-d-galactose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.16 * +EC5.1.3.7 udp-d-glucose campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 0.78 * +EC5.1.3.7 udp-d-glucose pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.153 * +EC5.1.3.7 udp-galnac giardia intestinalis//*//* 0.85 * +EC5.1.3.7 udp-glcnac giardia intestinalis//*//* 1.22 * +EC5.1.3.7 udp-n-acetyl-alpha-d-glucosamine marinithermus hydrothermalis//prokaryotes;bacteria;deinococcus-thermus;marinithermus//mhd 0.519 * +EC5.1.3.7 udp-n-acetyl-d-galactosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 1.07 * +EC5.1.3.7 udp-n-acetyl-d-galactosamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.131 * +EC5.1.3.7 udp-n-acetyl-d-glucosamine campylobacter jejuni//prokaryotes;bacteria;epsilonproteobacteria;campylobacter//cje 1.087 * +EC5.1.3.7 udp-n-acetyl-d-glucosamine pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.137 * +EC5.1.3.7 udp-n-acetylgalactosamine giardia intestinalis//*//* 0.0114 * +EC5.1.3.7 udp-n-acetylglucosamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 4.4 * +EC5.1.3.7 udp-n-acetylglucosamine giardia intestinalis//*//* 0.0011 * +EC5.1.3.7 udp-n-acetylglucosamine physarum polycephalum//*//* 2.7 * +EC5.1.3.8 n-acetyl-d-glucosamine anabaena sp. ch1//*//* 5.2 * +EC5.1.3.8 n-acetyl-d-glucosamine anabaena variabilis//*//* 2.0 * +EC5.1.3.8 n-acetyl-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 21.3 * +EC5.1.3.8 n-acetyl-d-glucosamine nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 16.6 * +EC5.1.3.8 n-acetyl-d-glucosamine nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 24.6 * +EC5.1.3.8 n-acetyl-d-glucosamine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 6.94 * +EC5.1.3.8 n-acetyl-d-mannosamine anabaena sp. ch1//*//* 9.2 * +EC5.1.3.8 n-acetyl-d-mannosamine anabaena variabilis//*//* 16.7 * +EC5.1.3.8 n-acetyl-d-mannosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 12.8 * +EC5.1.3.8 n-acetyl-d-mannosamine nostoc punctiforme//prokaryotes;bacteria;cyanobacteria;nostoc//npu 16.6 * +EC5.1.3.8 n-acetyl-d-mannosamine nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 19.7 * +EC5.1.3.8 n-acetyl-d-mannosamine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 4.76 * +EC5.1.3.8 n-acetylglucosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 3.4 * +EC5.1.3.8 n-acetylmannosamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.7 * +EC5.1.3.9 n-acetylglucosamine 6-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 1.6 * +EC5.1.3.9 n-acetylmannosamine 6-phosphate enterobacter cloacae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//enc 2.4 * +EC5.1.3.B1 alpha-d-fucose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 25.0 * +EC5.1.3.B1 alpha-d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC5.1.3.B1 alpha-d-galactose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 20.0 * +EC5.1.3.B1 alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 29.0 * +EC5.1.3.B1 alpha-d-glucose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 34.0 * +EC5.1.3.B1 alpha-d-quinovose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 37.0 * +EC5.1.3.B1 alpha-d-xylose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 21.0 * +EC5.1.3.B1 alpha-l-arabinose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 32.0 * +EC5.1.3.B12 d-fructose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 2.0 * +EC5.1.3.B12 d-psicose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.0 * +EC5.1.3.B12 d-tagatose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 91.0 * +EC5.1.99.1 (2s)-ethylmalonyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.04 * +EC5.1.99.1 (s)-methylmalonyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.08 * +EC5.1.99.1 dl-methylmalonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC5.1.99.1 methylmalonyl-coa pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.079 * +EC5.1.99.2 16alpha-hydroxyestrone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.9 * +EC5.1.99.3 (r)-allantoin klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.4 * +EC5.1.99.3 (s)-allantoin klebsiella pneumoniae subsp. pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.3 * +EC5.1.99.4 (2s)-2-methyldecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.277 * +EC5.1.99.4 (r)-pristanoyl-coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.041 * +EC5.1.99.4 (s)-2-methyldecanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.614 * +EC5.1.99.4 (s)-ketoprofenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC5.1.99.4 (s)-naproxenoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.068 * +EC5.1.99.4 pristanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.172 * +EC5.1.99.4 pristanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.076 * +EC5.1.99.4 trihydroxycoprostanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0316 * +EC5.1.99.4 trihydroxycoprostanoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC5.1.99.5 d-5-(2-methylthioethyl)hydantoin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 29.8 * +EC5.1.99.5 d-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.47 * +EC5.1.99.5 d-benzylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.71 * +EC5.1.99.5 d-benzylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 13.89 * +EC5.1.99.5 d-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.26 * +EC5.1.99.5 d-isobutylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.58 * +EC5.1.99.5 d-isobutylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 3.76 * +EC5.1.99.5 l-5-(2-methylthioethyl)hydantoin pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 79.7 * +EC5.1.99.5 l-5-methylthioethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.41 * +EC5.1.99.5 l-benzylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 5.56 * +EC5.1.99.5 l-benzylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 8.3 * +EC5.1.99.5 l-ethylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 4.45 * +EC5.1.99.5 l-ethylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 17.32 * +EC5.1.99.5 l-isobutylhydantoin agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.23 * +EC5.1.99.5 l-isobutylhydantoin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 6.41 * +EC5.1.99.6 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.00115 * +EC5.1.99.6 (6s)-6beta-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0006 * +EC5.1.99.6 (r)-nadh-hydrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0016 * +EC5.1.99.6 (r)-nadph-hydrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.00033 * +EC5.1.99.8 7,8-dihydromonapterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC5.1.99.8 7,8-dihydroneopterin triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC5.1.99.8 7,8-dihydroneopterin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.149 * +EC5.2.1.1 maleate alcaligenes faecalis//prokaryotes;bacteria;betaproteobacteria;alcaligenes//afa 0.04 * +EC5.2.1.1 maleate nocardia farcinica//prokaryotes;bacteria;actinobacteria;nocardia//nfa 0.0046 * +EC5.2.1.1 maleate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.3 * +EC5.2.1.2 (+/-)-2-bromo-3-(4-nitrophenyl)propionic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC5.2.1.2 4-maleylacetoacetate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.5 * +EC5.2.1.2 4-maleylacetoacetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.368 * +EC5.2.1.2 6-oxo-2(e),4(z)-heptanedienoic acid vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 1.9 * +EC5.2.1.2 6-oxo-2(z),4(e)-heptanedienoic acid vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 3.2 * +EC5.2.1.2 cis-beta-acetylacrylate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 3.0 * +EC5.2.1.2 gsh vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.14 * +EC5.2.1.2 maleylacetone vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 0.8 * +EC5.2.1.2 trans-beta-acetylacrylate vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 2.9 * +EC5.2.1.4 3-maleylpyruvate corynebacterium glutamicum//prokaryotes;bacteria;actinobacteria;corynebacterium//cgl 148.4 * +EC5.2.1.4 maleylpyruvate ralstonia sp.//*//* 0.566 * +EC5.2.1.5 6-cis,9-cis,12-cis,15-cis-octadecatetraenoic acid clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.0034 * +EC5.2.1.5 6-cis,9-cis,12-cis-octadecatrienoic acid clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.0258 * +EC5.2.1.5 9-cis,12-cis,15-cis-octadecatrienoic acid clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.0077 * +EC5.2.1.5 9-cis,12-cis-linoleic acid clostridium sporogenes//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cld 0.0119 * +EC5.2.1.5 9-cis,12-cis-linoleic acid lactobacillus delbrueckii subsp. bulgaricus//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//ldb 0.0619 * +EC5.2.1.5 9-cis,12-cis-octadecadienoate butyrivibrio fibrisolvens//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bfi 0.012 * +EC5.2.1.5 cis-9,-cis-12,cis-15-octadecatrienoic acid butyrivibrio fibrisolvens//prokaryotes;bacteria;firmicutes - clostridia;butyrivibrio//bfi 0.023 * +EC5.2.1.8 ala-gly-psi[cs-n]-pro-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.53 * +EC5.2.1.8 n-succinyl-ala-glu-(trans)-pro-phe-4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.31 * +EC5.2.1.8 rnase t1 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00045 * +EC5.2.1.8 rnase t1 mycoplasma genitalium//prokaryotes;bacteria;tenericutes;mycoplasma//mge 0.00065 * +EC5.2.1.8 succinyl-ala-ala-pro-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.247 * +EC5.2.1.8 succinyl-ala-ala-pro-phe 4-nitroanilide legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.451 * +EC5.2.1.8 succinyl-ala-glu-pro-phe-7-amido-4-methylcoumarin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC5.2.1.8 succinyl-ala-lys-pro-phe 4-nitroanilide homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.585 * +EC5.2.1.8 succinyl-ala-lys-pro-phe 4-nitroanilide legionella pneumophila//prokaryotes;bacteria;gammaproteobacteria - others;legionella//lpn 0.788 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 3.04 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.42 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.03 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.29 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate giardia intestinalis//*//* 0.53 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 3.46 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.328 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.31 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate moritella marina//*//* 1.9 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.084 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.42 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate pisum sativum//*//* 0.44 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.35 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate pteris vittata//*//* 0.3 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.68 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate rhipicephalus microplus//*//* 0.47 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.1 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate secale cereale//*//* 0.6 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate solanum chacoense//*//* 0.22 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.245 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate tenebrio molitor//*//* 0.84 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate thermococcus onnurineus//prokaryotes;archaea;euryarchaeota;thermococcus//ton 0.21 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate trypanosoma brucei brucei//*//* 0.25 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.25 * +EC5.3.1.1 d-glyceraldehyde 3-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.31 * +EC5.3.1.1 dihydroxyacetone 3-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3 * +EC5.3.1.1 dihydroxyacetone phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.59 * +EC5.3.1.1 dihydroxyacetone phosphate giardia intestinalis//*//* 1.1 * +EC5.3.1.1 dihydroxyacetone phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0025 * +EC5.3.1.1 dihydroxyacetone phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.1 * +EC5.3.1.1 dihydroxyacetone phosphate trypanosoma brucei brucei//*//* 0.7 * +EC5.3.1.1 dihydroxyacetone phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.9 * +EC5.3.1.1 glycerone phosphate equus caballus//eukaryotes;animals;vertebrates;mammals//ecb 0.59 * +EC5.3.1.1 glycerone phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC5.3.1.1 glycerone phosphate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 1.1 * +EC5.3.1.1 glycerone phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.75 * +EC5.3.1.1 glycerone phosphate pisum sativum//*//* 0.88 * +EC5.3.1.1 glycerone phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.23 * +EC5.3.1.1 glycerone phosphate secale cereale//*//* 1.5 * +EC5.3.1.1 glycerone phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.812 * +EC5.3.1.1 glycerone phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 1.0 * +EC5.3.1.12 d-galacturonate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.05 * +EC5.3.1.12 d-galacturonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.8 * +EC5.3.1.12 d-glucuronate bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 0.05 * +EC5.3.1.12 d-glucuronate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC5.3.1.12 d-tagaturonate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.75 * +EC5.3.1.13 d-arabinose 5-phosphate acidipropionibacterium acidipropionici//prokaryotes;bacteria;actinobacteria;acidipropionibacterium//pbo 1.98 * +EC5.3.1.13 d-arabinose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC5.3.1.13 d-arabinose 5-phosphate francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.38 * +EC5.3.1.13 d-ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC5.3.1.13 ribulose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC5.3.1.14 d-allose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 14.3 * +EC5.3.1.14 d-allose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 61.5 * +EC5.3.1.14 d-allose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 7.11 * +EC5.3.1.14 d-allose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 2.7 * +EC5.3.1.14 d-allose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 121.0 * +EC5.3.1.14 d-altrose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 71.0 * +EC5.3.1.14 d-arabinose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 127.0 * +EC5.3.1.14 d-glucose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 564.0 * +EC5.3.1.14 d-ribose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 3.0 * +EC5.3.1.14 d-ribose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 54.5 * +EC5.3.1.14 d-ribose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 6.18 * +EC5.3.1.14 d-ribose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 38.0 * +EC5.3.1.14 d-ribose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 3.53 * +EC5.3.1.14 d-xylose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 250.0 * +EC5.3.1.14 l-fructose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 73.2 * +EC5.3.1.14 l-fructose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 123.0 * +EC5.3.1.14 l-lyxose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 771.0 * +EC5.3.1.14 l-lyxose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 3.65 * +EC5.3.1.14 l-lyxose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 33.4 * +EC5.3.1.14 l-lyxose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 23.5 * +EC5.3.1.14 l-lyxose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 61.0 * +EC5.3.1.14 l-lyxose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 45.2 * +EC5.3.1.14 l-lyxose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 69.0 * +EC5.3.1.14 l-mannose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 119.0 * +EC5.3.1.14 l-mannose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 3.64 * +EC5.3.1.14 l-mannose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 36.8 * +EC5.3.1.14 l-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC5.3.1.14 l-mannose lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 5.0 * +EC5.3.1.14 l-mannose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 2.0 * +EC5.3.1.14 l-mannose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 54.0 * +EC5.3.1.14 l-mannose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 58.9 * +EC5.3.1.14 l-mannose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 76.0 * +EC5.3.1.14 l-rhamnose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 528.0 * +EC5.3.1.14 l-rhamnose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 1.03 * +EC5.3.1.14 l-rhamnose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 24.6 * +EC5.3.1.14 l-rhamnose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC5.3.1.14 l-rhamnose lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.7 * +EC5.3.1.14 l-rhamnose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 5.0 * +EC5.3.1.14 l-rhamnose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 55.0 * +EC5.3.1.14 l-rhamnose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 0.92 * +EC5.3.1.14 l-rhamnose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 3.53 * +EC5.3.1.14 l-rhamnose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 37.0 * +EC5.3.1.14 l-rhamnulose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.7 * +EC5.3.1.14 l-rhamnulose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 11.0 * +EC5.3.1.14 l-talose mesorhizobium loti//prokaryotes;bacteria;alphaproteobacteria;mesorhizobium//mln 5.25 * +EC5.3.1.14 l-xylose pseudomonas stutzeri//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psa 202.0 * +EC5.3.1.14 l-xylulose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 63.0 * +EC5.3.1.14 l-xylulose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 111.0 * +EC5.3.1.15 d-fructose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 54.0 * +EC5.3.1.15 d-fructose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 19.4 * +EC5.3.1.15 d-lyxose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 30.4 * +EC5.3.1.15 d-lyxose cohnella laeviribosi//*//* 22.4 * +EC5.3.1.15 d-lyxose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 39.0 * +EC5.3.1.15 d-lyxose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 3.6 * +EC5.3.1.15 d-lyxose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 47.0 * +EC5.3.1.15 d-lyxose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 13.3 * +EC5.3.1.15 d-mannose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 26.0 * +EC5.3.1.15 d-mannose cohnella laeviribosi//*//* 34.0 * +EC5.3.1.15 d-mannose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 1.0 * +EC5.3.1.15 d-mannose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 22.0 * +EC5.3.1.15 d-mannose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 32.2 * +EC5.3.1.15 d-xylulose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 5.0 * +EC5.3.1.15 d-xylulose providencia stuartii//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;providencia//psi 38.0 * +EC5.3.1.15 d-xylulose serratia proteamaculans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;serratia//spe 3.83 * +EC5.3.1.15 l-ribose cohnella laeviribosi//*//* 121.7 * +EC5.3.1.15 l-ribulose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 65.0 * +EC5.3.1.15 mannose klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 10.0 * +EC5.3.1.16 n'-[(5'-phosphoribosyl)formimino]-5-aminoimidazole-4-carboxamide ribonucleotide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC5.3.1.16 n'-[(5'-phosphoribosyl)formimino]-5-aminoimidazole-4-carboxamide ribonucleotide thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.6 * +EC5.3.1.20 d-ribose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 4.0 * +EC5.3.1.20 l-lyxose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 5.3 * +EC5.3.1.21 11-deoxycorticosterone mesocricetus auratus//*//* 0.0038 * +EC5.3.1.22 hydroxypyruvate bacillus fastidiosus//*//* 10.0 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0047 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate hansenula henricii//*//* 1.3 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.004 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.004 * +EC5.3.1.24 n-(5-phospho-beta-d-ribosyl)anthranilate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00028 * +EC5.3.1.25 d-arabinose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 170.0 * +EC5.3.1.25 d-arabinose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 140.0 * +EC5.3.1.25 l-fucose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 141.0 * +EC5.3.1.25 l-fucose dictyoglomus turgidum//prokaryotes;bacteria;dictyoglomi;dictyoglomus//dtu 72.0 * +EC5.3.1.25 l-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.0 * +EC5.3.1.25 l-fucose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 51.0 * +EC5.3.1.26 d-allose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 58.0 * +EC5.3.1.26 d-altrose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 143.0 * +EC5.3.1.26 d-galactose-6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 9.6 * +EC5.3.1.26 d-tagatose 6-phosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 1.9 * +EC5.3.1.27 d-arabino-3-hexulose 6-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.1 * +EC5.3.1.27 d-arabino-hex-3-ulose 6-phosphate uncultured bacterium//*//* 0.029 * +EC5.3.1.27 d-fructose 6-phosphate methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 1.1 * +EC5.3.1.27 d-fructose 6-phosphate uncultured bacterium//*//* 0.67 * +EC5.3.1.28 d-sedoheptulose 7-phosphate burkholderia pseudomallei//prokaryotes;bacteria;betaproteobacteria;burkholderia//bps 0.4 * +EC5.3.1.28 d-sedoheptulose 7-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC5.3.1.29 alpha-d-ribose 1,5-bisphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.6 * +EC5.3.1.3 d-altrose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 61.0 * +EC5.3.1.3 d-arabinose caldicellulosiruptor saccharolyticus//prokaryotes;bacteria;firmicutes - clostridia;caldicellulosiruptor//csc 152.0 * +EC5.3.1.3 d-arabinose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 170.0 * +EC5.3.1.3 d-arabinose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 140.0 * +EC5.3.1.3 l-fucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 42.0 * +EC5.3.1.3 l-fucose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 51.0 * +EC5.3.1.4 d-fucose thermoanaerobacter mathranii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tmt 145.0 * +EC5.3.1.4 d-galactose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 129.0 * +EC5.3.1.4 d-galactose anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 25.19 * +EC5.3.1.4 d-galactose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 119.0 * +EC5.3.1.4 d-galactose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 167.0 * +EC5.3.1.4 d-galactose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 590.0 * +EC5.3.1.4 d-galactose enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 3.0 * +EC5.3.1.4 d-galactose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 256.0 * +EC5.3.1.4 d-galactose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 57.0 * +EC5.3.1.4 d-galactose geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 144.0 * +EC5.3.1.4 d-galactose lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 60.2 * +EC5.3.1.4 d-galactose lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 119.0 * +EC5.3.1.4 d-galactose lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 59.0 * +EC5.3.1.4 d-galactose parageobacillus thermoglucosidans//*//* 175.0 * +EC5.3.1.4 d-galactose pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 66.0 * +EC5.3.1.4 d-galactose thermoanaerobacter mathranii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tmt 120.0 * +EC5.3.1.4 d-galactose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 122.0 * +EC5.3.1.4 d-galactose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 60.0 * +EC5.3.1.4 d-galactose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 250.0 * +EC5.3.1.4 d-tagatose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.0 * +EC5.3.1.4 l-arabinose alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 46.2 * +EC5.3.1.4 l-arabinose anoxybacillus flavithermus//prokaryotes;bacteria;firmicutes - bacilli;anoxybacillus//afl 78.5 * +EC5.3.1.4 l-arabinose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 106.0 * +EC5.3.1.4 l-arabinose bacillus halodurans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bha 36.0 * +EC5.3.1.4 l-arabinose bacillus licheniformis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bli 352.0 * +EC5.3.1.4 l-arabinose bifidobacterium longum//prokaryotes;bacteria;actinobacteria;bifidobacterium//blo 120.0 * +EC5.3.1.4 l-arabinose enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 42.0 * +EC5.3.1.4 l-arabinose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 60.0 * +EC5.3.1.4 l-arabinose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 18.6 * +EC5.3.1.4 l-arabinose geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 142.0 * +EC5.3.1.4 l-arabinose lactobacillus fermentum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lfe 29.9 * +EC5.3.1.4 l-arabinose lactobacillus gayonii//*//* 55.0 * +EC5.3.1.4 l-arabinose lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 28.0 * +EC5.3.1.4 l-arabinose lactobacillus sakei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lsa 31.6 * +EC5.3.1.4 l-arabinose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 27.0 * +EC5.3.1.4 l-arabinose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 40.0 * +EC5.3.1.4 l-arabinose thermoanaerobacter mathranii//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacter//tmt 80.0 * +EC5.3.1.4 l-arabinose thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 5.2 * +EC5.3.1.4 l-arabinose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 116.0 * +EC5.3.1.4 l-ribulose lactobacillus gayonii//*//* 5.0 * +EC5.3.1.4 l-ribulose lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 18.0 * +EC5.3.1.40 d-tagatose 6-phosphate agrobacterium fabrum//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atu 0.98 * +EC5.3.1.5 d-arabinose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 151.0 * +EC5.3.1.5 d-fructose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 110.0 * +EC5.3.1.5 d-fructose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 200.0 * +EC5.3.1.5 d-fructose streptomyces olivochromogenes//*//* 200.0 * +EC5.3.1.5 d-fructose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 55.0 * +EC5.3.1.5 d-glucose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 290.0 * +EC5.3.1.5 d-glucose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 86.0 * +EC5.3.1.5 d-glucose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 90.0 * +EC5.3.1.5 d-glucose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 29.0 * +EC5.3.1.5 d-glucose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 298.0 * +EC5.3.1.5 d-glucose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 920.0 * +EC5.3.1.5 d-glucose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 1099.0 * +EC5.3.1.5 d-glucose opuntia ficus-indica//*//* 259.6 * +EC5.3.1.5 d-glucose opuntia vulgaris//*//* 259.6 * +EC5.3.1.5 d-glucose streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 86.0 * +EC5.3.1.5 d-glucose streptomyces corchorusii//*//* 83.0 * +EC5.3.1.5 d-glucose streptomyces flavogriseus//*//* 0.249 * +EC5.3.1.5 d-glucose streptomyces olivochromogenes//*//* 250.0 * +EC5.3.1.5 d-glucose streptomyces rubiginosus//*//* 160.0 * +EC5.3.1.5 d-glucose streptomyces sp. 1//*//* 259.0 * +EC5.3.1.5 d-glucose streptomyces sp. 32//*//* 288.0 * +EC5.3.1.5 d-glucose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 400.0 * +EC5.3.1.5 d-glucose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 120.0 * +EC5.3.1.5 d-glucose thermoanaerobacterium sp.//*//* 130.0 * +EC5.3.1.5 d-glucose thermoanaerobacterium thermosulfurigenes//*//* 142.0 * +EC5.3.1.5 d-glucose thermotoga neapolitana//prokaryotes;bacteria;thermotogae;thermotoga//tna 65.2 * +EC5.3.1.5 d-glucose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 146.8 * +EC5.3.1.5 d-glucose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 187.0 * +EC5.3.1.5 d-glyceraldehyde streptomyces rubiginosus//*//* 3.0 * +EC5.3.1.5 d-mannose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1005.0 * +EC5.3.1.5 d-ribose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 190.0 * +EC5.3.1.5 d-ribose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 77.0 * +EC5.3.1.5 d-ribose lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 670.0 * +EC5.3.1.5 d-ribose streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 350.0 * +EC5.3.1.5 d-ribose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 145.0 * +EC5.3.1.5 d-xylose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 4.8 * +EC5.3.1.5 d-xylose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 3.3 * +EC5.3.1.5 d-xylose bacillus coagulans//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bck 1.1 * +EC5.3.1.5 d-xylose bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.076 * +EC5.3.1.5 d-xylose bacteroides stercoris//*//* 54.03 * +EC5.3.1.5 d-xylose bifidobacterium adolescentis//prokaryotes;bacteria;actinobacteria;bifidobacterium//bad 4.0 * +EC5.3.1.5 d-xylose lachnoclostridium phytofermentans//prokaryotes;bacteria;firmicutes - clostridia;lachnoclostridium//cpy 61.9 * +EC5.3.1.5 d-xylose lactobacillus reuteri//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lre 177.4 * +EC5.3.1.5 d-xylose lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 5.3 * +EC5.3.1.5 d-xylose lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 2.25 * +EC5.3.1.5 d-xylose opuntia ficus-indica//*//* 46.4 * +EC5.3.1.5 d-xylose opuntia vulgaris//*//* 46.4 * +EC5.3.1.5 d-xylose piromyces sp.//*//* 86.97 * +EC5.3.1.5 d-xylose streptomyces flavogriseus//*//* 0.078 * +EC5.3.1.5 d-xylose streptomyces olivochromogenes//*//* 33.0 * +EC5.3.1.5 d-xylose streptomyces rubiginosus//*//* 3.0 * +EC5.3.1.5 d-xylose streptomyces sp. 1//*//* 33.0 * +EC5.3.1.5 d-xylose streptomyces sp. 32//*//* 45.0 * +EC5.3.1.5 d-xylose streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 7.0 * +EC5.3.1.5 d-xylose streptomyces violaceoruber//prokaryotes;bacteria;actinobacteria;streptomyces//svu 2.9 * +EC5.3.1.5 d-xylose thermoanaerobacter ethanolicus//*//* 11.0 * +EC5.3.1.5 d-xylose thermoanaerobacterium saccharolyticum//prokaryotes;bacteria;firmicutes - clostridia;thermoanaerobacterium//tsh 16.0 * +EC5.3.1.5 d-xylose thermoanaerobacterium sp.//*//* 19.0 * +EC5.3.1.5 d-xylose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 15.0 * +EC5.3.1.5 d-xylose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.44 * +EC5.3.1.5 d-xylose vibrio sp.//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vej 7.93 * +EC5.3.1.5 d-xylulose geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 100.0 * +EC5.3.1.5 d-xylulose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 8.0 * +EC5.3.1.5 glucose streptomyces viridobrunneus//*//* 178.0 * +EC5.3.1.5 l-arabinose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 1500.0 * +EC5.3.1.5 l-arabinose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 280.0 * +EC5.3.1.5 l-arabinose streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 153.0 * +EC5.3.1.5 l-arabinose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1450.0 * +EC5.3.1.5 l-rhamnose streptomyces albus//prokaryotes;bacteria;actinobacteria;streptomyces//salb 312.0 * +EC5.3.1.5 l-ribose actinoplanes missouriensis//prokaryotes;bacteria;actinobacteria;actinoplanes//ams 1312.0 * +EC5.3.1.5 xylose streptomyces viridobrunneus//*//* 69.0 * +EC5.3.1.5 xylulose streptomyces olivochromogenes//*//* 18.0 * +EC5.3.1.6 d-allose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 460.0 * +EC5.3.1.6 d-allose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 106.0 * +EC5.3.1.6 d-psicose pseudothermotoga lettingae//prokaryotes;bacteria;thermotogae;pseudothermotoga//tle 64.0 * +EC5.3.1.6 d-psicose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 53.0 * +EC5.3.1.6 d-ribose 5-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 2.0 * +EC5.3.1.6 d-ribose 5-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.0 * +EC5.3.1.6 d-ribose 5-phosphate clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 30.0 * +EC5.3.1.6 d-ribose 5-phosphate cyberlindnera jadinii//*//* 0.108 * +EC5.3.1.6 d-ribose 5-phosphate echinococcus granulosus//*//* 2.7 * +EC5.3.1.6 d-ribose 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.83 * +EC5.3.1.6 d-ribose 5-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC5.3.1.6 d-ribose 5-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 1.8 * +EC5.3.1.6 d-ribose 5-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.0 * +EC5.3.1.6 d-ribose 5-phosphate pediococcus pentosaceus//prokaryotes;bacteria;firmicutes - bacilli;pediococcus//ppe 2.8 * +EC5.3.1.6 d-ribose 5-phosphate pisum sativum//*//* 0.88 * +EC5.3.1.6 d-ribose 5-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.17 * +EC5.3.1.6 d-ribose 5-phosphate rhodospirillum rubrum//prokaryotes;bacteria;alphaproteobacteria;rhodospirillum//rru 0.43 * +EC5.3.1.6 d-ribose 5-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 17.0 * +EC5.3.1.6 d-ribose 5-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.74 * +EC5.3.1.6 d-ribose 5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 3.3 * +EC5.3.1.6 d-ribose 5-phosphate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.0 * +EC5.3.1.6 d-ribose 5-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.63 * +EC5.3.1.6 d-ribose-5-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.63 * +EC5.3.1.6 d-ribose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 270.0 * +EC5.3.1.6 d-ribose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 44.0 * +EC5.3.1.6 d-ribulose 5-diphosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 1.4 * +EC5.3.1.6 d-ribulose 5-phosphate pisum sativum//*//* 0.66 * +EC5.3.1.6 d-ribulose 5-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 15.0 * +EC5.3.1.6 d-ribulose 5-phosphate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 5.0 * +EC5.3.1.6 d-ribulose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 34.0 * +EC5.3.1.6 d-talose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 232.0 * +EC5.3.1.6 l-allose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 98.0 * +EC5.3.1.6 l-ribose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 173.0 * +EC5.3.1.6 l-ribulose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 319.0 * +EC5.3.1.6 l-tagatose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 125.0 * +EC5.3.1.6 l-talose clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 5.0 * +EC5.3.1.6 l-talose ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 37.0 * +EC5.3.1.7 d-fructose lechevalieria aerocolonigenes//*//* 2.1 * +EC5.3.1.7 d-lyxose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 300.0 * +EC5.3.1.7 d-mannose agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 20.0 * +EC5.3.1.7 d-mannose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 80.0 * +EC5.3.1.7 d-mannose lechevalieria aerocolonigenes//*//* 1.4 * +EC5.3.1.7 d-mannose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 7.0 * +EC5.3.1.7 d-mannose pseudomonas savastanoi pv. phaseolicola//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//psp 20.0 * +EC5.3.1.8 beta-d-mannose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC5.3.1.8 beta-d-mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00043 * +EC5.3.1.8 beta-d-mannose 6-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0986 * +EC5.3.1.8 d-fructose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.21 * +EC5.3.1.8 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.15 * +EC5.3.1.8 d-fructose 6-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.06 * +EC5.3.1.8 d-fructose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.2 * +EC5.3.1.8 d-fructose 6-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.22 * +EC5.3.1.8 d-glucose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 3.5 * +EC5.3.1.8 d-glucose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.72 * +EC5.3.1.8 d-mannose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.1 * +EC5.3.1.8 d-mannose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0413 * +EC5.3.1.8 d-mannose 6-phosphate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 12.4 * +EC5.3.1.8 d-mannose 6-phosphate burkholderia cepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bct 9.0 * +EC5.3.1.8 d-mannose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.354 * +EC5.3.1.8 d-mannose 6-phosphate geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 149.0 * +EC5.3.1.8 d-mannose 6-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.18 * +EC5.3.1.8 d-mannose 6-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.06 * +EC5.3.1.8 d-mannose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.121 * +EC5.3.1.8 d-mannose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.25 * +EC5.3.1.8 d-mannose 6-phosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.21 * +EC5.3.1.8 l-ribulose thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 136.0 * +EC5.3.1.8 mannose 6-phosphate amorphophallus konjac//*//* 0.73 * +EC5.3.1.8 mannose 6-phosphate candida albicans//eukaryotes;fungi;ascomycetes;saccharomycetes//cal 0.2 * +EC5.3.1.8 mannose 6-phosphate cassia coluteoides//*//* 1.6 * +EC5.3.1.8 mannose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.25 * +EC5.3.1.8 mannose 6-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 3.03 * +EC5.3.1.8 mannose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.65 * +EC5.3.1.8 mannose 6-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.17 * +EC5.3.1.8 mannose 6-phosphate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.0 * +EC5.3.1.9 d-fructose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.21 * +EC5.3.1.9 d-fructose 6-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.25 * +EC5.3.1.9 d-fructose 6-phosphate carassius auratus//*//* 0.36 * +EC5.3.1.9 d-fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.147 * +EC5.3.1.9 d-fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 169.0 * +EC5.3.1.9 d-fructose 6-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.04 * +EC5.3.1.9 d-fructose 6-phosphate methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.7 * +EC5.3.1.9 d-fructose 6-phosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.27 * +EC5.3.1.9 d-fructose 6-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.06 * +EC5.3.1.9 d-fructose 6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.5 * +EC5.3.1.9 d-fructose 6-phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 3.0 * +EC5.3.1.9 d-fructose 6-phosphate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.8 * +EC5.3.1.9 d-fructose 6-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.2 * +EC5.3.1.9 d-fructose 6-phosphate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 1.7 * +EC5.3.1.9 d-fructose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.2 * +EC5.3.1.9 d-glucose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 3.5 * +EC5.3.1.9 d-glucose 6-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.6 * +EC5.3.1.9 d-glucose 6-phosphate cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.11 * +EC5.3.1.9 d-glucose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.28 * +EC5.3.1.9 d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 221.0 * +EC5.3.1.9 d-glucose 6-phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.0 * +EC5.3.1.9 d-glucose 6-phosphate methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 1.0 * +EC5.3.1.9 d-glucose 6-phosphate pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 1.9 * +EC5.3.1.9 d-glucose 6-phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 1.99 * +EC5.3.1.9 d-glucose 6-phosphate ruminiclostridium thermocellum//prokaryotes;bacteria;firmicutes - clostridia;ruminiclostridium//cth 1.02 * +EC5.3.1.9 d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.084 * +EC5.3.1.9 d-glucose 6-phosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.0 * +EC5.3.1.9 d-glucose 6-phosphate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.4 * +EC5.3.1.9 d-glucose 6-phosphate thermococcus litoralis//prokaryotes;archaea;euryarchaeota;thermococcus//tlt 11.7 * +EC5.3.1.9 d-glucose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.72 * +EC5.3.1.9 d-mannose 6-phosphate aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 1.1 * +EC5.3.1.9 d-mannose 6-phosphate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 0.25 * +EC5.3.1.9 fructose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC5.3.1.9 fructose 6-phosphate cassia coluteoides//*//* 0.14 * +EC5.3.1.9 fructose 6-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.1 * +EC5.3.1.9 fructose 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC5.3.1.9 fructose 6-phosphate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.048 * +EC5.3.1.9 fructose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0186 * +EC5.3.1.9 fructose 6-phosphate leishmania mexicana mexicana//*//* 0.1425 * +EC5.3.1.9 fructose 6-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.116 * +EC5.3.1.9 fructose 6-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC5.3.1.9 fructose 6-phosphate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.228 * +EC5.3.1.9 fructose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC5.3.1.9 fructose 6-phosphate schistosoma mansoni//eukaryotes;animals;flatworms//smm 0.1 * +EC5.3.1.9 fructose 6-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.3 * +EC5.3.1.9 fructose 6-phosphate triticum aestivum//*//* 0.12 * +EC5.3.1.9 fructose 6-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.122 * +EC5.3.1.9 glucose 6-phosphate apis mellifera//eukaryotes;animals;arthropods;insects//ame 2.0 * +EC5.3.1.9 glucose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.12 * +EC5.3.1.9 glucose 6-phosphate cassia coluteoides//*//* 0.83 * +EC5.3.1.9 glucose 6-phosphate dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 2.0 * +EC5.3.1.9 glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.445 * +EC5.3.1.9 glucose 6-phosphate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.36 * +EC5.3.1.9 glucose 6-phosphate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.25 * +EC5.3.1.9 glucose 6-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.03 * +EC5.3.1.9 glucose 6-phosphate pisum sativum//*//* 0.27 * +EC5.3.1.9 glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC5.3.1.9 glucose 6-phosphate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.58 * +EC5.3.1.9 glucose 6-phosphate triticum aestivum//*//* 0.44 * +EC5.3.1.9 l-talose pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 133.0 * +EC5.3.1.B3 d-fructose cellulomonas parahominis//*//* 51.0 * +EC5.3.1.B3 d-lyxose cellulomonas parahominis//*//* 37.1 * +EC5.3.1.B3 d-mannose cellulomonas parahominis//*//* 51.1 * +EC5.3.1.B3 d-tagatose cellulomonas parahominis//*//* 39.2 * +EC5.3.1.B3 d-talose cellulomonas parahominis//*//* 37.6 * +EC5.3.1.B3 d-xylulose cellulomonas parahominis//*//* 32.8 * +EC5.3.1.B3 l-allose cellulomonas parahominis//*//* 40.3 * +EC5.3.1.B3 l-gulose cellulomonas parahominis//*//* 40.1 * +EC5.3.1.B3 l-psicose cellulomonas parahominis//*//* 54.8 * +EC5.3.1.B3 l-ribose cellulomonas parahominis//*//* 30.4 * +EC5.3.1.B3 l-ribulose cellulomonas parahominis//*//* 15.4 * +EC5.3.1.B3 l-sorbose cellulomonas parahominis//*//* 40.0 * +EC5.3.2.1 (4-hydroxyphenyl)enolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.79 * +EC5.3.2.1 (4-hydroxyphenyl)pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.4 * +EC5.3.2.1 (4-hydroxyphenyl)pyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.072 * +EC5.3.2.1 cis-3-chloroacrylate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.152 * +EC5.3.2.1 enol-(p-hydroxyphenyl)pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.17 * +EC5.3.2.1 enol-phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.02 * +EC5.3.2.1 enol-phenylpyruvate pseudomonas pavonaceae//*//* 0.061 * +EC5.3.2.1 keto-(p-hydroxyphenyl)pyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 2.77 * +EC5.3.2.1 keto-phenylpyruvate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.9 * +EC5.3.2.1 phenylenolpyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.11 * +EC5.3.2.1 phenylpyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.0 * +EC5.3.2.1 phenylpyruvate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.1 * +EC5.3.2.1 trans-3-chloroacrylate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 96.0 * +EC5.3.2.2 enol-oxaloacetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.045 * +EC5.3.2.2 keto-oxaloacetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.068 * +EC5.3.2.4 dtdp-4-dehydro-6-deoxy-alpha-d-glucopyranose streptomyces fradiae//*//* 0.027 * +EC5.3.2.5 5-(methylthio)-2,3-dioxopentyl 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.012 * +EC5.3.2.6 (2e)-2-hydroxy-3-phenylprop-2-enoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.334 * +EC5.3.2.6 (2z,4e)-2-hydroxyhexa-2,4-dienedioate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC5.3.2.6 (2z,4e)-2-hydroxyhexa-2,4-dienedioate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.11 * +EC5.3.2.6 2-hydroxy-2,4-hexadienedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.18 * +EC5.3.2.6 2-hydroxy-2,4-pentadienoate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.09 * +EC5.3.2.6 2-hydroxy-2,4-pentadienoate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.19 * +EC5.3.2.6 2-hydroxymuconate methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 0.06 * +EC5.3.2.6 2-hydroxymuconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.145 * +EC5.3.2.6 2-oxo-3-hexenedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.189 * +EC5.3.2.6 2-oxo-4(e)-hexenedioate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.09 * +EC5.3.2.6 5-(methyl)-2-hydroxymuconate methylibium petroleiphilum//prokaryotes;bacteria;betaproteobacteria;methylibium//mpt 0.105 * +EC5.3.2.6 phenylenolpyruvate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.09 * +EC5.3.2.6 phenylenolpyruvate helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.23 * +EC5.3.3.1 17beta-hydroxy-5(10)-estren-3-one comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.0223 * +EC5.3.3.1 5(10)-estrene-3,17-dione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.11 * +EC5.3.3.1 5,10-seco-19-norpregn-5-yne-3,10,20-trione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.048 * +EC5.3.3.1 5,10-secoestr-5-yne-3,10,20,trione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.413 * +EC5.3.3.1 5-androstene-3,17-dione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.036 * +EC5.3.3.1 5-androstene-3,17-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0001 * +EC5.3.3.1 5-androstene-3,17-dione nocardia erythropolis//*//* 0.548 * +EC5.3.3.1 5-androstene-3,17-dione pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.0499 * +EC5.3.3.1 5-androstene-3,17-dione pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.024 * +EC5.3.3.1 5-cholesten-3-one nocardia erythropolis//*//* 0.007 * +EC5.3.3.1 5-pregnene-3,20-dione comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.011 * +EC5.3.3.1 5-pregnene-3,20-dione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0093 * +EC5.3.3.1 5-pregnene-3,20-dione nocardia erythropolis//*//* 0.0125 * +EC5.3.3.1 dehydroepiandrosterone homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0279 * +EC5.3.3.1 delta5-pregnen-3,20-dione bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC5.3.3.10 5-carboxymethyl-2-hydroxymuconate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC5.3.3.10 5-carboxymethyl-2-hydroxymuconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.28 * +EC5.3.3.11 isopiperitenone mentha x piperita//*//* 0.27 * +EC5.3.3.12 dopachrome mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.1 * +EC5.3.3.12 dopachrome sepia officinalis//*//* 1.0 * +EC5.3.3.13 (4z,7z,10z,13z,16z,19z)-docosahexenoate ptilota filicina//*//* 0.0019 * +EC5.3.3.13 (5z,8z,11z)-eicosatrienoate ptilota filicina//*//* 0.0528 * +EC5.3.3.13 (5z,8z,11z,14z)-eicosatetraenoate ptilota filicina//*//* 0.0255 * +EC5.3.3.13 (5z,8z,11z,14z)-eicosatetraenoyl-n-ethanolamide ptilota filicina//*//* 0.0152 * +EC5.3.3.13 (5z,8z,11z,14z,17z)-eicosapentaenoate ptilota filicina//*//* 0.0096 * +EC5.3.3.13 (6z,9z,12z)-octadecatrienoate ptilota filicina//*//* 0.15 * +EC5.3.3.13 (7z,10z,13z,16z)-docosatetraenoate ptilota filicina//*//* 0.017 * +EC5.3.3.13 linoleic acid cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 0.00482 * +EC5.3.3.14 cis-beta,gamma-decenoyl-n-acetylcysteamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC5.3.3.19 3-[(4s)-4-hydroxycyclohexa-1,5-dien-1-yl]-2-oxopropanoate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.423 * +EC5.3.3.2 dimethylallyl diphosphate cinchona robusta//*//* 0.017 * +EC5.3.3.2 isopentenyl diphosphate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.2768 * +EC5.3.3.2 isopentenyl diphosphate bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.02 * +EC5.3.3.2 isopentenyl diphosphate capsicum annuum//eukaryotes;plants;eudicots;nightshade family//cann 0.006 * +EC5.3.3.2 isopentenyl diphosphate choristoneura fumiferana//*//* 0.0033 * +EC5.3.3.2 isopentenyl diphosphate cinchona robusta//*//* 0.001 * +EC5.3.3.2 isopentenyl diphosphate claviceps sp.//*//* 0.0054 * +EC5.3.3.2 isopentenyl diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0035 * +EC5.3.3.2 isopentenyl diphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0013 * +EC5.3.3.2 isopentenyl diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0228 * +EC5.3.3.2 isopentenyl diphosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 15.3 * +EC5.3.3.2 isopentenyl diphosphate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.064 * +EC5.3.3.2 isopentenyl diphosphate narcissus pseudonarcissus//*//* 0.0076 * +EC5.3.3.2 isopentenyl diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC5.3.3.2 isopentenyl diphosphate solanum lycopersicum//eukaryotes;plants;eudicots;nightshade family//sly 0.0057 * +EC5.3.3.2 isopentenyl diphosphate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0048 * +EC5.3.3.2 isopentenyl diphosphate sulfolobus shibatae//*//* 0.00739 * +EC5.3.3.2 isopentenyl diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0027 * +EC5.3.3.2 isopentenyl diphosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.046 * +EC5.3.3.2 isopentenyl diphosphate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0056 * +EC5.3.3.2 nadh sulfolobus shibatae//*//* 0.0874 * +EC5.3.3.3 vinylacetyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC5.3.3.4 (4r,5r)-5-chloro-3-methylmuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.66 * +EC5.3.3.4 (4r,5r/4s,5s)-(+/-)-5-chloro-3-methylmuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.66 * +EC5.3.3.4 (4r,5s)-(+)-5-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 5.2 * +EC5.3.3.4 (4r,5s)-5-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 10.3 * +EC5.3.3.4 (4s)-(+)-muconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 6.0 * +EC5.3.3.4 (4s)-2-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 3.6 * +EC5.3.3.4 (4s)-muconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 6.0 * +EC5.3.3.4 muconolactone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.08 * +EC5.3.3.4 muconolactone rhodococcus sp.//prokaryotes;bacteria;actinobacteria;rhodococcus//rhb 0.64 * +EC5.3.3.5 4alpha-methyl-ergosta-8,24-dien-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.522 * +EC5.3.3.5 cholesta-8,24-dien-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.512 * +EC5.3.3.5 stigmasta-8-en-3beta-ol zea mays//eukaryotes;plants;monocots;grass family//zma 0.116 * +EC5.3.3.5 zymosterol homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.05 * +EC5.3.3.6 dimethylmaleate eubacterium barkeri//*//* 4.0 * +EC5.3.3.6 itaconate eubacterium barkeri//*//* 60.0 * +EC5.3.3.6 methylitaconate eubacterium barkeri//*//* 6.2 * +EC5.3.3.7 cis-aconitate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.18 * +EC5.3.3.7 trans-aconitate zea mays//eukaryotes;plants;monocots;grass family//zma 3.3 * +EC5.3.3.8 2-trans,5-cis-octadienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0044 * +EC5.3.3.8 2-trans,5-cis-tetradecadienoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0096 * +EC5.3.3.8 3-cis-dodecenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.032 * +EC5.3.3.8 3-cis-hexenoyl-coa cucumis sativus//eukaryotes;plants;eudicots;cucumber family//csv 0.17 * +EC5.3.3.8 3-cis-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.031 * +EC5.3.3.8 3-cis-hexenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC5.3.3.8 3-cis-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.032 * +EC5.3.3.8 3-cis-tetradecenoyl-coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.006 * +EC5.3.3.8 3-cis-tetradecenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.021 * +EC5.3.3.8 3-decynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.24 * +EC5.3.3.8 3-dodecynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.28 * +EC5.3.3.8 3-hexenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.04 * +EC5.3.3.8 3-hexynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 2.1 * +EC5.3.3.8 3-octynoyl-n-acetylcysteamine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.68 * +EC5.3.3.8 3-trans-dodecenoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.021 * +EC5.3.3.8 3-trans-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC5.3.3.8 3-trans-hexenoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.09 * +EC5.3.3.8 3-trans-octenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.028 * +EC5.3.3.8 3-trans-tetradecenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.029 * +EC5.3.3.8 trans-3-hexenoyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.048 * +EC5.3.3.9 prostaglandin a1 felis catus//eukaryotes;animals;vertebrates;mammals//fca 0.025 * +EC5.3.3.9 prostaglandin a1 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.04 * +EC5.3.3.B2 linoleic acid cutibacterium acnes//prokaryotes;bacteria;actinobacteria;cutibacterium//pav 1.4 * +EC5.3.4.1 2-mercaptoethanol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.8 * +EC5.3.4.1 2-mercaptoethanol saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC5.3.4.1 cys bos taurus//eukaryotes;animals;vertebrates;mammals//bta 3.0 * +EC5.3.4.1 cys saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC5.3.4.1 denatured-reduced lysozyme entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0253 * +EC5.3.4.1 dithiothreitol bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.003 * +EC5.3.4.1 gsh bos taurus//eukaryotes;animals;vertebrates;mammals//bta 5.0 * +EC5.3.4.1 gsh rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 17.0 * +EC5.3.4.1 insulin-(ss) rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC5.3.4.1 insulin entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 2.026 * +EC5.3.4.1 ribonuclease bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0011 * +EC5.3.4.1 ribonuclease humicola insolens//*//* 0.0033 * +EC5.3.4.1 ribonuclease saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.002 * +EC5.3.4.1 ribonuclease triticum aestivum//*//* 0.002 * +EC5.3.4.1 rnase a homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.007 * +EC5.3.4.1 rnase homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.028 * +EC5.3.4.1 scrambled reoxidized lysozyme entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.0116 * +EC5.3.99.2 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC5.3.99.2 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0023 * +EC5.3.99.2 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC5.3.99.2 1-chloro-2,4-dinitrobenzene homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC5.3.99.2 1-chloro-2,4-dinitrobenzene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.0 * +EC5.3.99.2 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC5.3.99.2 glutathione rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC5.3.99.2 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC5.3.99.2 prostaglandin h2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC5.3.99.3 (5z,13e)-(15s)-9a,11a-epidioxy-15-hydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC5.3.99.3 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0024 * +EC5.3.99.3 glutathione homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC5.3.99.3 prostaglandin g1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC5.3.99.3 prostaglandin g2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC5.3.99.3 prostaglandin h1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC5.3.99.3 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.16 * +EC5.3.99.3 prostaglandin h2 ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.04 * +EC5.3.99.3 prostaglandin h2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0149 * +EC5.3.99.4 15-hydroperoxyeicosatetraenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC5.3.99.4 prostaglandin h1 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0094 * +EC5.3.99.4 prostaglandin h2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0073 * +EC5.3.99.4 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0133 * +EC5.3.99.5 (5z,13e)-(15s)-9alpha,11alpha-epidioxy-15-hydroxyprosta-5,13-dienoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC5.3.99.5 15-hydroperoxyeicosatetraenoic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.071 * +EC5.3.99.5 15-hydroxy-9alpha,11alpha-peroxiprosta-5,13-dienoic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.012 * +EC5.3.99.5 prostaglandin g2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.023 * +EC5.3.99.5 prostaglandin h1 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC5.3.99.5 prostaglandin h2 bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC5.3.99.5 prostaglandin h2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC5.3.99.7 styrene oxide corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.077 * +EC5.4.2.1 3-phospho-d-glycerate dirofilaria immitis//*//* 0.58 * +EC5.4.2.1 3-phospho-d-glycerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.03 * +EC5.4.2.1 3-phospho-d-glycerate wolbachia endosymbiont of dirofilaria immitis//*//* 0.55 * +EC5.4.2.10 d-glucosamine 1,6-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC5.4.2.10 d-glucosamine 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC5.4.2.10 d-glucosamine 6-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC5.4.2.10 d-glucose 1,6-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC5.4.2.10 d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC5.4.2.11 2-phosphoglycerate hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 0.69 * +EC5.4.2.11 2-phosphoglycerate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.37 * +EC5.4.2.11 2-phosphoglycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.041 * +EC5.4.2.11 3-phospho-d-glycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC5.4.2.11 3-phospho-d-glycerate lactococcus lactis subsp. lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 1.03 * +EC5.4.2.11 3-phospho-d-glycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.22 * +EC5.4.2.11 3-phosphoglycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC5.4.2.11 3-phosphoglycerate hyphomicrobium sp.//prokaryotes;bacteria;alphaproteobacteria;hyphomicrobium//hmc 6.0 * +EC5.4.2.11 3-phosphoglycerate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 3.4 * +EC5.4.2.11 3-phosphoglycerate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.56 * +EC5.4.2.11 3-phosphoglycerate schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.58 * +EC5.4.2.11 3-phosphoglycerate streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 1.3 * +EC5.4.2.11 3-phosphoglycerate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.1 * +EC5.4.2.12 2-[5-amino-2-(4-fluoro-phenyl)-6-oxo-6h-pyrimidin-1-yl]-n-(1-benzyl-2-oxo-2-thiazol-2-yl-ethyl)-acetamide geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 4.4 * +EC5.4.2.12 2-phospho-d-glycerate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.2 * +EC5.4.2.12 2-phospho-d-glycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.066 * +EC5.4.2.12 2-phospho-d-glycerate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.11 * +EC5.4.2.12 2-phospho-d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.11 * +EC5.4.2.12 2-phospho-d-glycerate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 1.1 * +EC5.4.2.12 2-phospho-d-glycerate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.16 * +EC5.4.2.12 2-phosphoglycerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.47 * +EC5.4.2.12 2-phosphoglycerate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.06 * +EC5.4.2.12 2-phosphoglycerate zea mays//eukaryotes;plants;monocots;grass family//zma 0.369 * +EC5.4.2.12 3-phospho-d-glycerate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.3 * +EC5.4.2.12 3-phospho-d-glycerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3.6 * +EC5.4.2.12 3-phospho-d-glycerate clostridium perfringens//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpe 4.2 * +EC5.4.2.12 3-phospho-d-glycerate entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 0.5 * +EC5.4.2.12 3-phospho-d-glycerate leishmania mexicana//eukaryotes;protists;euglenozoa;kinetoplasts//lmi 0.27 * +EC5.4.2.12 3-phospho-d-glycerate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.49 * +EC5.4.2.12 3-phospho-d-glycerate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.04 * +EC5.4.2.12 3-phospho-d-glycerate thermoplasma acidophilum//prokaryotes;archaea;euryarchaeota;thermoplasma//tac 3.3 * +EC5.4.2.12 3-phospho-d-glycerate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.15 * +EC5.4.2.12 3-phospho-d-glycerate wolbachia endosymbiont of dirofilaria immitis//*//* 0.55 * +EC5.4.2.12 3-phosphoglycerate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.1 * +EC5.4.2.12 3-phosphoglycerate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.33 * +EC5.4.2.12 3-phosphoglycerate ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.33 * +EC5.4.2.12 3-phosphoglycerate zea mays//eukaryotes;plants;monocots;grass family//zma 0.324 * +EC5.4.2.12 3-phosphoglycerate zymomonas mobilis//prokaryotes;bacteria;alphaproteobacteria;zymomonas//zmo 1.1 * +EC5.4.2.2 2-deoxyribose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.5 * +EC5.4.2.2 alpha-d-glucose 1-phosphate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.1 * +EC5.4.2.2 alpha-d-glucose 1-phosphate giardia intestinalis//*//* 0.003 * +EC5.4.2.2 alpha-d-glucose 1-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0168 * +EC5.4.2.2 alpha-d-glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.012 * +EC5.4.2.2 alpha-d-glucose 1-phosphate sphingobium chungbukense//*//* 0.2228 * +EC5.4.2.2 alpha-d-glucose 1-phosphate toxoplasma gondii//eukaryotes;protists;alveolates;apicomplexans//tgo 0.19 * +EC5.4.2.2 alpha-d-mannose 1-phosphate sphingobium chungbukense//*//* 0.4392 * +EC5.4.2.2 d-glucose 1,6-bisphosphate pisum sativum//*//* 0.033 * +EC5.4.2.2 d-glucose 1,6-bisphosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.016 * +EC5.4.2.2 d-glucose 1,6-diphosphate fusarium oxysporum//eukaryotes;fungi;ascomycetes;sordariomycetes//fox 0.00103 * +EC5.4.2.2 d-glucose 1-phosphate pisum sativum//*//* 0.018 * +EC5.4.2.2 d-glucose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC5.4.2.2 d-glucose 6-phosphate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 13.0 * +EC5.4.2.2 d-glucose-1-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0952 * +EC5.4.2.2 d-glucose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.0 * +EC5.4.2.2 d-mannose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC5.4.2.2 d-mannose-1-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0915 * +EC5.4.2.2 d-mannose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.2 * +EC5.4.2.2 glucose 1-phosphate cassia corymbosa//*//* 0.065 * +EC5.4.2.2 glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC5.4.2.2 glucose 1-phosphate komagataeibacter xylinus//prokaryotes;bacteria;alphaproteobacteria;komagataeibacter//gxl 2.6 * +EC5.4.2.2 glucose 1-phosphate pisum sativum//*//* 0.36 * +EC5.4.2.2 glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.022 * +EC5.4.2.2 glucose 1-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.023 * +EC5.4.2.2 glucose 1-phosphate solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.06 * +EC5.4.2.2 mannose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.017 * +EC5.4.2.3 d-glucose-1-phosphate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.54 * +EC5.4.2.3 glucose 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.39 * +EC5.4.2.3 n-acetyl-alpha-d-glucosamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC5.4.2.3 n-acetyl-d-glucosamine 6-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.014 * +EC5.4.2.3 n-acetylglucosamine 1-phosphate giardia intestinalis//*//* 0.7 * +EC5.4.2.3 n-acetylglucosamine 1-phosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0237 * +EC5.4.2.3 n-acetylglucosamine 6-phosphate blastocladiella emersonii//*//* 3.6 * +EC5.4.2.3 n-acetylglucosamine-1-phosphate aedes aegypti//eukaryotes;animals;arthropods;insects//aag 0.046 * +EC5.4.2.4 1,3-diphosphoglycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC5.4.2.4 2,3-diphosphoglycerate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0024 * +EC5.4.2.4 2,3-diphosphoglycerate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0094 * +EC5.4.2.5 alpha-d-glucose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC5.4.2.5 alpha-d-glucose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.5 * +EC5.4.2.6 alpha-d-glucose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.021 * +EC5.4.2.6 beta-d-glucose 1-phosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.004 * +EC5.4.2.6 beta-d-glucose 1-phosphate lactobacillus delbrueckii subsp. lactis//*//* 0.23 * +EC5.4.2.6 beta-d-glucose 1-phosphate lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.0045 * +EC5.4.2.6 beta-d-glucose 1-phosphate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 2.08 * +EC5.4.2.6 glucose 1-phosphate lactobacillus brevis//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lbr 0.012 * +EC5.4.2.7 2-deoxy-d-ribose 1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.5 * +EC5.4.2.7 d-ribose 5-phosphate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.263 * +EC5.4.2.7 deoxyribose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC5.4.2.7 deoxyribose 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.083 * +EC5.4.2.7 ribose 1-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.043 * +EC5.4.2.7 ribose 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.13 * +EC5.4.2.8 2-deoxyribose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.5 * +EC5.4.2.8 alpha-d-glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0272 * +EC5.4.2.8 alpha-d-glucose 1-phosphate sphingobium chungbukense//*//* 0.4516 * +EC5.4.2.8 alpha-d-mannose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.2 * +EC5.4.2.8 alpha-d-mannose 1-phosphate giardia intestinalis//*//* 0.0056 * +EC5.4.2.8 alpha-d-mannose 1-phosphate sphingobium chungbukense//*//* 0.1569 * +EC5.4.2.8 alpha-d-mannose 1-phosphate triticum aestivum//*//* 0.4 * +EC5.4.2.8 alpha-d-mannose 1-phosphate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.327 * +EC5.4.2.8 d-glucose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0654 * +EC5.4.2.8 d-glucose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0075 * +EC5.4.2.8 d-glucose-1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0135 * +EC5.4.2.8 d-glucose-1-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0952 * +EC5.4.2.8 d-glucose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.0 * +EC5.4.2.8 d-mannose 1-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0297 * +EC5.4.2.8 d-mannose 1-phosphate cassia corymbosa//*//* 0.15 * +EC5.4.2.8 d-mannose 1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.018 * +EC5.4.2.8 d-mannose 1-phosphate zea mays//eukaryotes;plants;monocots;grass family//zma 1.37 * +EC5.4.2.8 d-mannose 6-phosphate cassia corymbosa//*//* 0.3 * +EC5.4.2.8 d-mannose-1-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC5.4.2.8 d-mannose-1-phosphate pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0915 * +EC5.4.2.8 d-mannose-1-phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 3.2 * +EC5.4.2.8 glucose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.022 * +EC5.4.2.8 glucose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.012 * +EC5.4.2.8 mannose 1-phosphate amorphophallus konjac//*//* 0.2 * +EC5.4.2.8 mannose 1-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.016 * +EC5.4.2.8 mannose 1-phosphate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.06 * +EC5.4.2.8 mannose 1-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.003 * +EC5.4.2.8 mannose 6-phosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.074 * +EC5.4.2.9 3-phosphonopyruvate mytilus edulis//*//* 0.0016 * +EC5.4.2.9 phosphoenolpyruvate tetrahymena pyriformis//*//* 0.77 * +EC5.4.2.9 phosphonopyruvate burkholderia gladioli//prokaryotes;bacteria;betaproteobacteria;burkholderia//bgd 0.019 * +EC5.4.2.9 phosphonopyruvate mytilus edulis//*//* 0.0016 * +EC5.4.2.9 phosphonopyruvate tetrahymena pyriformis//*//* 0.002 * +EC5.4.2.9 phosphonopyruvate trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.008 * +EC5.4.3.10 3'-methyl-alpha-phenylalanine taxus canadensis//*//* 0.397 * +EC5.4.3.10 4'-methyl-alpha-phenylalanine taxus canadensis//*//* 0.091 * +EC5.4.3.10 l-phenylalanine taxus canadensis//*//* 0.057 * +EC5.4.3.10 styryl-alpha-alanine taxus canadensis//*//* 0.25 * +EC5.4.3.11 d-beta-phenylalanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.027 * +EC5.4.3.11 d-beta-phenylalanine streptomyces maritimus//*//* 0.04 * +EC5.4.3.11 l-phenylalanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.032 * +EC5.4.3.11 l-phenylalanine streptomyces maritimus//*//* 0.022 * +EC5.4.3.2 l-lys clostridium sp.//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cls 6.6 * +EC5.4.3.2 l-lysine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 8.0 * +EC5.4.3.3 (3r)-3,6-diaminohexanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 20.0 * +EC5.4.3.3 (3s)-3,6-diaminohexanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 8.7 * +EC5.4.3.3 3,6-diaminohexanoate acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.3 * +EC5.4.3.3 d-lysine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.02 * +EC5.4.3.5 d-orn acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.44 * +EC5.4.3.5 d-ornithine acetoanaerobium sticklandii//prokaryotes;bacteria;firmicutes - clostridia;acetoanaerobium//cst 0.045 * +EC5.4.3.6 l-3,4-dihydroxyphenylalanine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 1.54 * +EC5.4.3.6 l-3-chlorotyrosine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 6.1 * +EC5.4.3.6 l-tyrosine chondromyces crocatus//prokaryotes;bacteria;deltaproteobacteria;chondromyces//ccro 0.377 * +EC5.4.3.6 l-tyrosine cupriavidus crocatus//*//* 0.377 * +EC5.4.3.6 l-tyrosine streptomyces globisporus//prokaryotes;bacteria;actinobacteria;streptomyces//sgb 0.0023 * +EC5.4.3.8 (s)-4-amino-5-oxopentanoate hordeum vulgare//*//* 0.025 * +EC5.4.3.8 (s)-4-amino-5-oxopentanoate sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.38 * +EC5.4.3.8 (s)-4-amino-5-oxopentanoate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.046 * +EC5.4.3.8 4,5-diaminovalerate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 0.001 * +EC5.4.3.8 4,5-dioxovalerate synechococcus sp.//prokaryotes;bacteria;cyanobacteria;synechococcus//syw 1.4 * +EC5.4.4.1 (hydroxylamino)benzene pseudomonas pseudoalcaligenes//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppse 0.15 * +EC5.4.4.2 chorismate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0415 * +EC5.4.4.2 chorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.007 * +EC5.4.4.2 chorismate flavobacterium sp.//*//* 0.27 * +EC5.4.4.2 chorismate galium mollugo//*//* 0.807 * +EC5.4.4.2 chorismate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.0009 * +EC5.4.4.2 isochorismate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC5.4.4.2 isochorismate flavobacterium sp.//*//* 0.076 * +EC5.4.4.2 isochorismate galium mollugo//*//* 0.675 * +EC5.4.4.3 3-hydroxyaminophenol cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.1 * +EC5.4.4.4 geraniol castellaniella defragrans//prokaryotes;bacteria;betaproteobacteria;castellaniella//cdn 0.5 * +EC5.4.99.1 3-methylaspartate clostridium cochlearium//*//* 0.14 * +EC5.4.99.1 3-methylaspartate clostridium tetanomorphum//*//* 0.5 * +EC5.4.99.1 l-2-hydroxyglutarate clostridium cochlearium//*//* 1.2 * +EC5.4.99.1 l-glu clostridium cochlearium//*//* 0.58 * +EC5.4.99.1 l-glu clostridium tetanomorphum//*//* 1.2 * +EC5.4.99.1 l-glutamate clostridium cochlearium//*//* 0.58 * +EC5.4.99.1 l-threo-3-methylaspartate clostridium cochlearium//*//* 0.14 * +EC5.4.99.1 l-threo-3-methylaspartate streptomyces ansochromogenes//*//* 5.2 * +EC5.4.99.11 d-glucose pseudomonas mesoacidophila//*//* 240.0 * +EC5.4.99.11 isomaltulose pseudomonas mesoacidophila//*//* 30.0 * +EC5.4.99.11 sucrose erwinia rhapontici//*//* 222.0 * +EC5.4.99.11 sucrose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 42.7 * +EC5.4.99.11 sucrose klebsiella sp.//*//* 54.3 * +EC5.4.99.11 sucrose pantoea dispersa//*//* 39.9 * +EC5.4.99.11 sucrose protaminobacter rubrum//*//* 32.0 * +EC5.4.99.11 sucrose pseudomonas mesoacidophila//*//* 0.0192 * +EC5.4.99.11 sucrose raoultella planticola//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;raoultella//rpln 76.0 * +EC5.4.99.11 trehalulose pseudomonas mesoacidophila//*//* 30.0 * +EC5.4.99.12 escherichia coli trnaphe uridine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.6e-05 * +EC5.4.99.12 trna uridine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.6e-05 * +EC5.4.99.12 trnahis guanidine36 uridine38 cytidine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.3e-06 * +EC5.4.99.12 trnahis uridine38 cytidine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8.04e-05 * +EC5.4.99.12 trnahis uridine38 uridine39 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.56e-05 * +EC5.4.99.12 trnaval2a cytidine36 uridine38 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000669 * +EC5.4.99.13 2-methylpropanoyl-coa streptomyces cinnamonensis//*//* 0.054 * +EC5.4.99.13 butanoyl-coa streptomyces cinnamonensis//*//* 0.057 * +EC5.4.99.14 (4s)-4-methylmuconolactone pseudomonas reinekei//*//* 0.052 * +EC5.4.99.14 1-methyl-3,7-dioxo-2,6-dioxabicyclo[3.3.0]octane cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.028 * +EC5.4.99.14 1-methyl-bislactone rhodococcus rhodochrous//*//* 0.17 * +EC5.4.99.14 4-carboxymethyl-4-methylbut-2-en-1,4-olide cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.176 * +EC5.4.99.14 4-carboxymethyl-4-methylbut-2-en-1,4-olide rhodococcus rhodochrous//*//* 0.23 * +EC5.4.99.15 maltoheptaose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.9 * +EC5.4.99.15 maltoheptaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 1.2 * +EC5.4.99.15 maltohexaose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 1.4 * +EC5.4.99.15 maltohexaose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.4 * +EC5.4.99.15 maltohexaose sulfolobus shibatae//*//* 2.0 * +EC5.4.99.15 maltohexaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 2.7 * +EC5.4.99.15 maltopentaose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 8.7 * +EC5.4.99.15 maltopentaose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 7.1 * +EC5.4.99.15 maltopentaose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 5.0 * +EC5.4.99.15 maltotetraose arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 22.9 * +EC5.4.99.15 maltotetraose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 41.5 * +EC5.4.99.15 maltotetraose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 13.2 * +EC5.4.99.15 maltotriose sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 228.0 * +EC5.4.99.15 short chain amylose sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.6 * +EC5.4.99.16 alpha,alpha-trehalose enterobacter hormaechei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ehm 75.0 * +EC5.4.99.16 alpha,alpha-trehalose meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 98.9 * +EC5.4.99.16 alpha,alpha-trehalose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.087 * +EC5.4.99.16 maltose deinococcus geothermalis//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dge 254.0 * +EC5.4.99.16 maltose enterobacter hormaechei//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;enterobacter//ehm 25.0 * +EC5.4.99.16 maltose meiothermus ruber//prokaryotes;bacteria;deinococcus-thermus;meiothermus//mrb 126.2 * +EC5.4.99.16 maltose mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.008 * +EC5.4.99.16 maltose picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 42.4 * +EC5.4.99.16 maltose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 1.1 * +EC5.4.99.16 maltose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 34.5 * +EC5.4.99.16 sucrose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 96.5 * +EC5.4.99.16 trehalose picrophilus torridus//prokaryotes;archaea;euryarchaeota;picrophilus//pto 210.3 * +EC5.4.99.16 trehalose pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 26.0 * +EC5.4.99.16 trehalose thermus aquaticus//prokaryotes;bacteria;deinococcus-thermus;thermus//taq 158.0 * +EC5.4.99.17 (3s)-2,3-oxidosqualene alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.0015 * +EC5.4.99.17 squalene alicyclobacillus acidocaldarius//prokaryotes;bacteria;firmicutes - bacilli;alicyclobacillus//aac 0.003 * +EC5.4.99.18 5-amino-1-(5-phospho-d-ribosyl)imidazole-4-carboxylate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0226 * +EC5.4.99.2 (r)-2-methyl-3-oxopropanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.5 * +EC5.4.99.2 (r)-2-methyl-3-oxopropanoyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.24 * +EC5.4.99.2 (r)-2-methyl-3-oxopropanoyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.085 * +EC5.4.99.2 (r)-2-methyl-3-oxopropanoyl-coa saccharopolyspora erythraea//prokaryotes;bacteria;actinobacteria;saccharopolyspora//sen 0.31 * +EC5.4.99.2 (r)-2-methylmalonyl-coa euglena gracilis//*//* 0.0279 * +EC5.4.99.2 (r)-2-methylmalonyl-coa methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.086 * +EC5.4.99.2 (r)-2-methylmalonyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.124 * +EC5.4.99.2 (r,s)-methylmalonyl-coa sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.11 * +EC5.4.99.2 (r/s)-2-methyl-3-oxopropanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.06 * +EC5.4.99.2 4-carboxy-2-oxobutanoyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.132 * +EC5.4.99.2 adenosylcobalamin propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.00024 * +EC5.4.99.2 adenosylcobalamin sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.00064 * +EC5.4.99.2 methylmalonyl-carba(dethia)-coenzyme a mammalia//*//* 0.136 * +EC5.4.99.2 methylmalonyl-carba(dethia)-coenzyme a propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.136 * +EC5.4.99.2 methylmalonyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.133 * +EC5.4.99.2 succinyl-coa euglena gracilis//*//* 0.3474 * +EC5.4.99.2 succinyl-coa mammalia//*//* 0.025 * +EC5.4.99.2 succinyl-coa ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.062 * +EC5.4.99.2 succinyl-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.025 * +EC5.4.99.2 succinyl-dicarba(dethia)-coa propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 2.2 * +EC5.4.99.25 trna uridine55 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000146 * +EC5.4.99.25 trna uridine55 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.00087 * +EC5.4.99.27 trna uridine13 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00038 * +EC5.4.99.28 trna uridine32 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.000108 * +EC5.4.99.3 2-acetolactate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.4 * +EC5.4.99.30 beta-l-arabinofuranose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0531 * +EC5.4.99.30 beta-l-arabinopyranose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.055 * +EC5.4.99.30 udp-beta-l-arabinofuranose chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.152 * +EC5.4.99.30 udp-beta-l-arabinofuranose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0228 * +EC5.4.99.30 udp-beta-l-arabinopyranose chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.148 * +EC5.4.99.30 udp-beta-l-arabinopyranose oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0454 * +EC5.4.99.39 (3s)-2,2-dimethyl-3-[(3e,7e,11e,15e)-3,7,12,16,20-pentamethylhenicosa-3,7,11,15,19-pentaen-1-yl]oxirane pisum sativum//*//* 0.125 * +EC5.4.99.39 (s)-2,3-oxidosqualene euphorbia tirucalli//*//* 0.0338 * +EC5.4.99.4 (r)-3-[methyl-h3]methylitaconate eubacterium barkeri//*//* 0.38 * +EC5.4.99.4 (r)-3-methylitaconate eubacterium barkeri//*//* 0.4 * +EC5.4.99.4 2-methylene[4-h2]glutarate eubacterium barkeri//*//* 2.3 * +EC5.4.99.4 2-methyleneglutarate eubacterium barkeri//*//* 3.1 * +EC5.4.99.59 dtdp-alpha-d-fucopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.43 * +EC5.4.99.61 hydrogenobyrinate pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00091 * +EC5.4.99.61 precorrin-8x pseudomonas denitrificans (nomen rejiciendum)//*//* 0.91 * +EC5.4.99.63 (2r)-ethylmalonyl-coa rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.06 * +EC5.4.99.64 (r)-3-hydroxybutanoyl-coa aquincola tertiaricarbonis//*//* 1.66 * +EC5.4.99.64 (r)-3-hydroxybutanoyl-coa kyrpidia tusciae dsm 2912//*//* 0.087 * +EC5.4.99.64 (s)-3-hydroxybutanoyl-coa aquincola tertiaricarbonis//*//* 0.128 * +EC5.4.99.64 (s)-3-hydroxybutanoyl-coa kyrpidia tusciae dsm 2912//*//* 0.313 * +EC5.4.99.64 2,2-dimethylpropanoyl-coa aquincola tertiaricarbonis//*//* 0.374 * +EC5.4.99.64 2-hydroxy-2-methylpropanoyl-coa aquincola tertiaricarbonis//*//* 0.104 * +EC5.4.99.64 2-hydroxyisobutanoyl-coa kyrpidia tusciae dsm 2912//*//* 0.09 * +EC5.4.99.64 butanoyl-coa aquincola tertiaricarbonis//*//* 3.34 * +EC5.4.99.64 isobutanoyl-coa aquincola tertiaricarbonis//*//* 0.55 * +EC5.4.99.64 isovaleryl-coa aquincola tertiaricarbonis//*//* 0.288 * +EC5.4.99.7 (3s)-2,3-epoxy-2,3-dihydrosqualene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.075 * +EC5.4.99.7 (3s)-2,3-oxidosqualene bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.011 * +EC5.4.99.7 (3s)-squalene epoxide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.055 * +EC5.4.99.7 2,3-epoxysqualene rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC5.4.99.7 2,3-epoxysqualene saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC5.4.99.7 2,3-epoxysqualene sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.025 * +EC5.4.99.7 3-[(3e,7e,15e)-16-ethyl-3,7,12,20-tetramethylhenicosa-3,7,11,15,19-pentaen-1-yl]-2,2-dimethyloxirane sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.231 * +EC5.4.99.8 (s)-2,3-epoxysqualene isodon japonicus//*//* 0.05 * +EC5.4.99.8 (s)-2,3-epoxysqualene ochromonas malhamensis//*//* 0.1 * +EC5.4.99.8 (s)-2,3-epoxysqualene pisum sativum//*//* 0.025 * +EC5.4.99.8 (s)-2,3-epoxysqualene zea mays//eukaryotes;plants;monocots;grass family//zma 0.125 * +EC5.4.99.9 udp-(6-deoxy-6-fluoro)-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 24.0 * +EC5.4.99.9 udp-(6-deoxy-6-fluoro)-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 24.0 * +EC5.4.99.9 udp-2-amino-2-deoxy-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 1.14 * +EC5.4.99.9 udp-2-deoxy-2-fluoro-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC5.4.99.9 udp-2-deoxy-2-fluoro-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.203 * +EC5.4.99.9 udp-2-fluoro-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.065 * +EC5.4.99.9 udp-3-deoxy-3-fluoro-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.861 * +EC5.4.99.9 udp-3-deoxy-3-fluoro-d-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.861 * +EC5.4.99.9 udp-3-deoxy-3-fluoro-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.28 * +EC5.4.99.9 udp-6-deoxy-6-fluoro-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.2 * +EC5.4.99.9 udp-6-deoxy-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 3.15 * +EC5.4.99.9 udp-alpha-d-galactopyranose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.0425 * +EC5.4.99.9 udp-alpha-d-galactopyranose trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.14 * +EC5.4.99.9 udp-d-galactofuranose aspergillus fumigatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//afm 0.11 * +EC5.4.99.9 udp-d-galactofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC5.4.99.9 udp-d-galactofuranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.016 * +EC5.4.99.9 udp-d-galactofuranose leishmania major//eukaryotes;protists;euglenozoa;kinetoplasts//lma 0.087 * +EC5.4.99.9 udp-d-galactopyranose klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.043 * +EC5.4.99.9 udp-galactofuranose mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.02 * +EC5.4.99.9 udp-galactopyranose deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.055 * +EC5.4.99.9 udp-galactopyranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.022 * +EC5.4.99.9 udp-l-arabinofuranose escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC5.4.99.B22 trnaile uridine27 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00074 * +EC5.4.99.B22 trnaval uridine27 saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00042 * +EC5.4.99.B22 yeast pre-trnaile uridine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2e-05 * +EC5.4.99.B4 50s ribosomal subunit escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00098 * +EC5.5.1.1 2,4-dichloro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.026 * +EC5.5.1.1 2-chloro-cis,cis-muconate acinetobacter calcoaceticus//*//* 0.29 * +EC5.5.1.1 2-chloro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.059 * +EC5.5.1.1 2-chloro-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.415 * +EC5.5.1.1 2-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0559 * +EC5.5.1.1 2-methyl-cis,cis-muconate acinetobacter calcoaceticus//*//* 0.49 * +EC5.5.1.1 2-methyl-cis,cis-muconate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.029 * +EC5.5.1.1 2-methyl-cis,cis-muconate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.18 * +EC5.5.1.1 2-methyl-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC5.5.1.1 2-methyl-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0306 * +EC5.5.1.1 2-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0667 * +EC5.5.1.1 2-methylmuconate pseudomonas reinekei//*//* 0.04 * +EC5.5.1.1 3-chloro-cis,cis-muconate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.046 * +EC5.5.1.1 3-chloro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.32 * +EC5.5.1.1 3-chloro-cis,cis-muconate pseudomonas reinekei//*//* 0.41 * +EC5.5.1.1 3-chloro-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.099 * +EC5.5.1.1 3-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 1.24 * +EC5.5.1.1 3-chloromuconate pseudomonas reinekei//*//* 0.105 * +EC5.5.1.1 3-ethyl-cis,cis-muconate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.67 * +EC5.5.1.1 3-fluoro-cis,cis-muconate acinetobacter calcoaceticus//*//* 0.1 * +EC5.5.1.1 3-fluoro-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.097 * +EC5.5.1.1 3-methyl-cis,cis-muconate acinetobacter calcoaceticus//*//* 0.099 * +EC5.5.1.1 3-methyl-cis,cis-muconate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.075 * +EC5.5.1.1 3-methyl-cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.006 * +EC5.5.1.1 3-methyl-cis,cis-muconate pseudomonas reinekei//*//* 0.026 * +EC5.5.1.1 3-methyl-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.011 * +EC5.5.1.1 3-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0487 * +EC5.5.1.1 3-methylmuconate pseudomonas reinekei//*//* 0.0106 * +EC5.5.1.1 cis,cis-muconate acinetobacter calcoaceticus//*//* 0.13 * +EC5.5.1.1 cis,cis-muconate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.15 * +EC5.5.1.1 cis,cis-muconate cutaneotrichosporon cutaneum//*//* 0.025 * +EC5.5.1.1 cis,cis-muconate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.057 * +EC5.5.1.1 cis,cis-muconate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.04 * +EC5.5.1.1 cis,cis-muconate pseudomonas reinekei//*//* 1.73 * +EC5.5.1.1 cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.031 * +EC5.5.1.1 cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.0813 * +EC5.5.1.1 cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0071 * +EC5.5.1.1 cis,cis-muconate rhodococcus rhodochrous//*//* 0.16 * +EC5.5.1.1 muconolactone pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.424 * +EC5.5.1.10 alpha-pinene nocardia sp.//prokaryotes;bacteria;actinobacteria;pseudonocardia//psea 0.009 * +EC5.5.1.11 2,4-dichloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.02 * +EC5.5.1.11 2-chloro-4-methyl-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.06 * +EC5.5.1.11 2-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.502 * +EC5.5.1.11 2-methyl-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.128 * +EC5.5.1.11 3-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.304 * +EC5.5.1.11 3-methyl-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.158 * +EC5.5.1.11 cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 4.2 * +EC5.5.1.12 geranylgeranyl diphosphate abies grandis//*//* 0.0004 * +EC5.5.1.13 copalyl diphosphate phaeosphaeria sp.//*//* 0.00023 * +EC5.5.1.13 geranylgeranyl diphosphate cucurbita maxima//eukaryotes;plants;eudicots;cucumber family//cmax 0.0169 * +EC5.5.1.13 geranylgeranyl diphosphate phaeosphaeria sp.//*//* 0.00873 * +EC5.5.1.13 geranylgeranyl diphosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0137 * +EC5.5.1.15 geranylgeranyl diphosphate kitasatospora griseola//*//* 0.0642 * +EC5.5.1.16 (e,e,e)-geranylgeranyl diphosphate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0016 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.15 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.052 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 0.16 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate hydrogenophaga intermedia//*//* 0.15 * +EC5.5.1.2 2-carboxy-2,5-dihydro-5-oxofuran-2-acetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.075 * +EC5.5.1.2 3-sulfomuconate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 11.3 * +EC5.5.1.2 3-sulfomuconate hydrogenophaga intermedia//*//* 7.1 * +EC5.5.1.22 (+)-(3s)-linalyl diphosphate tanacetum vulgare//*//* 0.007 * +EC5.5.1.22 geranyl diphosphate tanacetum vulgare//*//* 0.0023 * +EC5.5.1.22 neryl diphosphate tanacetum vulgare//*//* 0.0037 * +EC5.5.1.23 methyl aklanonate streptomyces peucetius//*//* 0.0521 * +EC5.5.1.4 2-deoxy-d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.15 * +EC5.5.1.4 d-glucose 6-phosphate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.67 * +EC5.5.1.4 d-glucose 6-phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.12 * +EC5.5.1.4 d-glucose 6-phosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.24 * +EC5.5.1.4 d-glucose 6-phosphate cicer arietinum//eukaryotes;plants;eudicots;pea family//cam 2.63 * +EC5.5.1.4 d-glucose 6-phosphate gleichenia glauca//*//* 0.922 * +EC5.5.1.4 d-glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC5.5.1.4 d-glucose 6-phosphate oryza coarctata//*//* 1.8 * +EC5.5.1.4 d-glucose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.97 * +EC5.5.1.4 d-glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.26 * +EC5.5.1.4 d-glucose 6-phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.18 * +EC5.5.1.4 d-glucose 6-phosphate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.19 * +EC5.5.1.4 d-glucose 6-phosphate taxus baccata//*//* 1.05 * +EC5.5.1.4 d-glucose 6-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 0.26 * +EC5.5.1.4 glucose 6-phosphate arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 2.17 * +EC5.5.1.4 glucose 6-phosphate cyberlindnera jadinii//*//* 0.06 * +EC5.5.1.4 glucose 6-phosphate euglena gracilis//*//* 1.95 * +EC5.5.1.4 glucose 6-phosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.57 * +EC5.5.1.4 glucose 6-phosphate lemna gibba//*//* 0.035 * +EC5.5.1.4 glucose 6-phosphate oryza sativa//eukaryotes;plants;monocots;grass family//osa 1.97 * +EC5.5.1.4 glucose 6-phosphate pinus ponderosa//*//* 0.33 * +EC5.5.1.4 glucose 6-phosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC5.5.1.4 glucose 6-phosphate streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.52 * +EC5.5.1.4 glucose 6-phosphate vigna radiata//eukaryotes;plants;eudicots;pea family//vra 2.85 * +EC5.5.1.4 nad+ archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0051 * +EC5.5.1.4 nad+ arthrospira platensis//prokaryotes;bacteria;cyanobacteria;arthrospira//arp 0.11 * +EC5.5.1.4 nad+ euglena gracilis//*//* 0.12 * +EC5.5.1.4 nad+ gleichenia glauca//*//* 0.9 * +EC5.5.1.4 nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.008 * +EC5.5.1.4 nad+ oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.08 * +EC5.5.1.4 nad+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 1.95 * +EC5.5.1.5 3-carboxy-cis,cis-muconate aspergillus niger//eukaryotes;fungi;ascomycetes;eurotiomycetes//ang 0.057 * +EC5.5.1.5 3-carboxy-cis,cis-muconate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0207 * +EC5.5.1.6 2',4',6'-trihydroxychalcone cephalocereus senilis//*//* 0.0072 * +EC5.5.1.6 2',4'-dihydrochalcone medicago sativa//*//* 0.0227 * +EC5.5.1.6 2',4'-dihydroxy-4-methoxychalcone phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.008 * +EC5.5.1.6 2',4'-dihydroxy-4-methylchalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.021 * +EC5.5.1.6 2',4'-dihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.042 * +EC5.5.1.6 2'-hydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01 * +EC5.5.1.6 4,2',4',6'-tetrahydrochalcone medicago sativa//*//* 0.112 * +EC5.5.1.6 4,2',4',6'-tetrahydroxychalcone cephalocereus senilis//*//* 0.0119 * +EC5.5.1.6 4,2',4',6'-tetrahydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.002 * +EC5.5.1.6 4,2',4',6'-tetrahydroxychalcone phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0133 * +EC5.5.1.6 4,2',4'-trihydrochalcone medicago sativa//*//* 0.0084 * +EC5.5.1.6 4,2',4'-trihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01 * +EC5.5.1.6 4,2',4'-trihydroxychalcone phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.0089 * +EC5.5.1.6 4,2',5'-trihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.015 * +EC5.5.1.6 4,2'-dihydrochalcone medicago sativa//*//* 0.0425 * +EC5.5.1.6 4,2'-dihydroxychalcone glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.013 * +EC5.5.1.6 liquiritigenin cephalocereus senilis//*//* 0.004 * +EC5.5.1.6 liquiritigenin citrus sinensis//eukaryotes;plants;eudicots;rue family//cit 0.004 * +EC5.5.1.6 liquiritigenin glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.004 * +EC5.5.1.7 (+)-2-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.274 * +EC5.5.1.7 (+)-5-chloromuconolactone cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.805 * +EC5.5.1.7 2,4-dichloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0182 * +EC5.5.1.7 2,4-dichloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.119 * +EC5.5.1.7 2-chloro-cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0781 * +EC5.5.1.7 2-chloro-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0601 * +EC5.5.1.7 2-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.312 * +EC5.5.1.7 2-chloro-cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0559 * +EC5.5.1.7 2-methyl-cis,cis-muconate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.065 * +EC5.5.1.7 2-methyl-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0309 * +EC5.5.1.7 2-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.047 * +EC5.5.1.7 3-chloro-cis,cis-muconate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.05 * +EC5.5.1.7 3-chloro-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1286 * +EC5.5.1.7 3-chloro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.173 * +EC5.5.1.7 3-chloro-cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 1.24 * +EC5.5.1.7 3-fluoro-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.052 * +EC5.5.1.7 3-methyl-cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0134 * +EC5.5.1.7 3-methyl-cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 0.066 * +EC5.5.1.7 3-methyl-cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0487 * +EC5.5.1.7 cis,cis-muconate cupriavidus necator//prokaryotes;bacteria;betaproteobacteria;cupriavidus//cnc 0.0928 * +EC5.5.1.7 cis,cis-muconate delftia acidovorans//prokaryotes;bacteria;betaproteobacteria;delftia//dac 0.083 * +EC5.5.1.7 cis,cis-muconate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.0928 * +EC5.5.1.7 cis,cis-muconate rhodococcus erythropolis//prokaryotes;bacteria;actinobacteria;rhodococcus//rer 6.997 * +EC5.5.1.7 cis,cis-muconate rhodococcus opacus//prokaryotes;bacteria;actinobacteria;rhodococcus//rop 0.0813 * +EC5.5.1.8 (+)-(3s)-linalyl diphosphate salvia officinalis//*//* 0.0032 * +EC5.5.1.8 (+)-(3s)-linalyl diphosphate tanacetum vulgare//*//* 0.007 * +EC5.5.1.8 (-)-(3r)-linalyl diphosphate salvia officinalis//*//* 0.0007 * +EC5.5.1.8 geranyl diphosphate salvia officinalis//*//* 0.0011 * +EC5.5.1.8 geranyl diphosphate tanacetum vulgare//*//* 0.0023 * +EC5.5.1.8 neryl diphosphate salvia officinalis//*//* 0.0121 * +EC5.5.1.8 neryl diphosphate tanacetum vulgare//*//* 0.0037 * +EC5.5.1.9 cycloeucalenol arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.167 * +EC5.5.1.9 cycloeucalenol zea mays//eukaryotes;plants;monocots;grass family//zma 0.1 * +EC5.5.1.B6 nogalonic acid methyl ester streptomyces galilaeus//*//* 0.002 * +EC5.99.1.2 negatively supercoiled plasmid pxxz06 dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.52e-06 * +EC5.99.1.3 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC5.99.1.3 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.28 * +EC5.99.1.3 atp sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.0771 * +EC5.99.1.3 datp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.5 * +EC5.99.1.3 datp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.63 * +EC5.99.1.3 dna homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.39 * +EC5.99.1.4 (e)-2'-hydroxybenzylidenepyruvate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.138 * +EC5.99.1.4 2-hydroxy-2h-chromene-2-carboxylate brevundimonas vesicularis//prokaryotes;bacteria;alphaproteobacteria;brevundimonas//bvc 0.27 * +EC5.99.1.4 2-hydroxy-2h-chromene-2-carboxylate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.053 * +EC5.99.1.4 2-hydroxychromene-2-carboxylate comamonas testosteroni//prokaryotes;bacteria;betaproteobacteria;comamonas//ctt 0.23 * +EC5.99.1.4 2-hydroxychromene-2-carboxylate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.084 * +EC6.1.1.1 3-chloro-l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.04 * +EC6.1.1.1 3-fluoro-d,l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.625 * +EC6.1.1.1 a22g mutated trnatyr transcript homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.6 * +EC6.1.1.1 atp acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.07 * +EC6.1.1.1 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 7.0 * +EC6.1.1.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC6.1.1.1 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 2.1 * +EC6.1.1.1 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.049 * +EC6.1.1.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.217 * +EC6.1.1.1 atp triticum aestivum//*//* 0.04 * +EC6.1.1.1 d-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.46 * +EC6.1.1.1 g15a mutated trnatyr transcript homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.8 * +EC6.1.1.1 k+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 32.0 * +EC6.1.1.1 l-3,4-dihydroxyphenylalanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.84 * +EC6.1.1.1 l-beta-(5-hydroxy-2-pyridyl)-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.018 * +EC6.1.1.1 l-tyrosine acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.021 * +EC6.1.1.1 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0033 * +EC6.1.1.1 l-tyrosine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0049 * +EC6.1.1.1 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.034 * +EC6.1.1.1 l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.012 * +EC6.1.1.1 native yeast trnatyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.002 * +EC6.1.1.1 trnatyr(g34c) methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.039 * +EC6.1.1.1 trnatyr(wild-type) methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.00035 * +EC6.1.1.1 trnatyr acidithiobacillus ferrooxidans//prokaryotes;bacteria;other proteobacteria;acidithiobacillus//afe 0.0025 * +EC6.1.1.1 trnatyr aeropyrum pernix//prokaryotes;archaea;crenarchaeota;aeropyrum//ape 0.00022 * +EC6.1.1.1 trnatyr drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.0003 * +EC6.1.1.1 trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2e-05 * +EC6.1.1.1 trnatyr glycine max//eukaryotes;plants;eudicots;pea family//gmx 2.2e-05 * +EC6.1.1.1 trnatyr homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00052 * +EC6.1.1.1 trnatyr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00014 * +EC6.1.1.1 trnatyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00035 * +EC6.1.1.1 trnytyr triticum aestivum//*//* 0.0015 * +EC6.1.1.1 tyrosine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.002 * +EC6.1.1.1 tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC6.1.1.1 tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC6.1.1.1 tyrosine triticum aestivum//*//* 0.0033 * +EC6.1.1.1 tyrosyl-trnatyr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0002 * +EC6.1.1.1 u54c mutated trnatyr transcript homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC6.1.1.10 (s)-2-aminohex-5-enoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.68 * +EC6.1.1.10 (s)-2-aminohex-5-ynoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.42 * +EC6.1.1.10 atp clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.375 * +EC6.1.1.10 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.41 * +EC6.1.1.10 atp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 1.2 * +EC6.1.1.10 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.085 * +EC6.1.1.10 atp lupinus sp.//*//* 0.09 * +EC6.1.1.10 atp paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.87 * +EC6.1.1.10 atp streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.514 * +EC6.1.1.10 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.18 * +EC6.1.1.10 atp triticum aestivum//*//* 0.3 * +EC6.1.1.10 atp vigna radiata var. radiata//*//* 1.3 * +EC6.1.1.10 coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.2 * +EC6.1.1.10 l-homocysteine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.8 * +EC6.1.1.10 l-met mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.133 * +EC6.1.1.10 l-met paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.26 * +EC6.1.1.10 l-met thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.027 * +EC6.1.1.10 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0243 * +EC6.1.1.10 l-methionine haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.25 * +EC6.1.1.10 l-methionine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC6.1.1.10 l-methionine streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.053 * +EC6.1.1.10 l-norleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.12 * +EC6.1.1.10 l-trans-alpha-crotylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.56 * +EC6.1.1.10 met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC6.1.1.10 met lupinus sp.//*//* 0.015 * +EC6.1.1.10 met saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.005 * +EC6.1.1.10 met triticum aestivum//*//* 0.018 * +EC6.1.1.10 met vigna radiata var. radiata//*//* 0.032 * +EC6.1.1.10 norleucine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.383 * +EC6.1.1.10 selenomethionine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.31 * +EC6.1.1.10 selenomethionine vigna radiata var. radiata//*//* 0.038 * +EC6.1.1.10 trna fraction from saccharomyces cerevisiae oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.0007 * +EC6.1.1.10 trnamet clostridioides difficile//prokaryotes;bacteria;firmicutes - clostridia;clostridioides//cdf 0.00055 * +EC6.1.1.10 trnamet escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0009 * +EC6.1.1.10 trnamet homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0022 * +EC6.1.1.10 trnamet lupinus sp.//*//* 0.00025 * +EC6.1.1.10 trnamet mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0032 * +EC6.1.1.10 trnamet oryza sativa//eukaryotes;plants;monocots;grass family//osa 0.00066 * +EC6.1.1.10 trnamet saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC6.1.1.10 trnamet staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.001 * +EC6.1.1.10 trnamet thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0014 * +EC6.1.1.11 2-bromoadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC6.1.1.11 2-chloroadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.05 * +EC6.1.1.11 3'-nh2-atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC6.1.1.11 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.11 * +EC6.1.1.11 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.49 * +EC6.1.1.11 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.8e-05 * +EC6.1.1.11 atp lupinus luteus//*//* 0.04 * +EC6.1.1.11 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0013 * +EC6.1.1.11 chloroplastic trnaser from maize zea mays//eukaryotes;plants;monocots;grass family//zma 0.00067 * +EC6.1.1.11 d-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.1.1.11 d-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC6.1.1.11 datp lupinus luteus//*//* 0.065 * +EC6.1.1.11 dl-serine hydroxamate zea mays//eukaryotes;plants;monocots;grass family//zma 2.35 * +EC6.1.1.11 formycin 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.0 * +EC6.1.1.11 l-cysteine zea mays//eukaryotes;plants;monocots;grass family//zma 29.0 * +EC6.1.1.11 l-ser bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.03 * +EC6.1.1.11 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.1.1.11 l-ser methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0061 * +EC6.1.1.11 l-ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.047 * +EC6.1.1.11 l-ser zea mays//eukaryotes;plants;monocots;grass family//zma 0.149 * +EC6.1.1.11 l-serine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.000104 * +EC6.1.1.11 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.018 * +EC6.1.1.11 l-serine streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.26 * +EC6.1.1.11 l-serine zea mays//eukaryotes;plants;monocots;grass family//zma 0.04 * +EC6.1.1.11 l-threonine zea mays//eukaryotes;plants;monocots;grass family//zma 2.0 * +EC6.1.1.11 mitochondrial trnaser from maize zea mays//eukaryotes;plants;monocots;grass family//zma 0.00025 * +EC6.1.1.11 mitochondrial trnaser from yeast subtype 2 zea mays//eukaryotes;plants;monocots;grass family//zma 0.0004 * +EC6.1.1.11 ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00034 * +EC6.1.1.11 ser lupinus luteus//*//* 0.012 * +EC6.1.1.11 ser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0625 * +EC6.1.1.11 trnasec mutant without anticodon arm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC6.1.1.11 trnasec homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC6.1.1.11 trnaser from escherichia coli zea mays//eukaryotes;plants;monocots;grass family//zma 0.0005 * +EC6.1.1.11 trnaser mutant without anticodon arm homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0011 * +EC6.1.1.11 trnaser(cga) methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0029 * +EC6.1.1.11 trnaser(gcu) methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0013 * +EC6.1.1.11 trnaser(gga) methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0026 * +EC6.1.1.11 trnaser-c-c-2'da saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC6.1.1.11 trnaser-c-c-a saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0009 * +EC6.1.1.11 trnaser-c-c-f saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.001 * +EC6.1.1.11 trnaser-cmca bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00125 * +EC6.1.1.11 trnaser-i-g-a bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00084 * +EC6.1.1.11 trnaser bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.00025 * +EC6.1.1.11 trnaser bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC6.1.1.11 trnaser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00056 * +EC6.1.1.11 trnaser homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00054 * +EC6.1.1.11 trnaser lupinus luteus//*//* 0.0005 * +EC6.1.1.11 trnaser methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.0026 * +EC6.1.1.11 trnaser saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5e-05 * +EC6.1.1.11 trnaser streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.0086 * +EC6.1.1.11 trnaser zea mays//eukaryotes;plants;monocots;grass family//zma 0.00058 * +EC6.1.1.11 trnasergcu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.37 * +EC6.1.1.11 trnaseruga bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.22 * +EC6.1.1.12 2-aminomalonic acid vigna radiata var. radiata//*//* 8.0 * +EC6.1.1.12 asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC6.1.1.12 asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC6.1.1.12 asp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC6.1.1.12 asp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.067 * +EC6.1.1.12 asp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.003 * +EC6.1.1.12 asp vigna radiata var. radiata//*//* 4.6 * +EC6.1.1.12 aspartic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.03 * +EC6.1.1.12 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC6.1.1.12 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.515 * +EC6.1.1.12 atp lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.9 * +EC6.1.1.12 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.14 * +EC6.1.1.12 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.023 * +EC6.1.1.12 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.26 * +EC6.1.1.12 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.033 * +EC6.1.1.12 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.32 * +EC6.1.1.12 l-aspartate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.037 * +EC6.1.1.12 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC6.1.1.12 l-aspartate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC6.1.1.12 l-aspartate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.21 * +EC6.1.1.12 l-aspartate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.1 * +EC6.1.1.12 l-aspartic acid thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.005 * +EC6.1.1.12 threo-3-hydroxyaspartic acid vigna radiata var. radiata//*//* 24.0 * +EC6.1.1.12 trnaasn thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6.3e-05 * +EC6.1.1.12 trnaasp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0004 * +EC6.1.1.12 trnaasp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3e-05 * +EC6.1.1.12 trnaasp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.8e-05 * +EC6.1.1.12 trnaasp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0006 * +EC6.1.1.12 trnaasp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00027 * +EC6.1.1.12 trnaasp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 6.1e-05 * +EC6.1.1.12 trnaasp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0014 * +EC6.1.1.12 trnaasp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3e-05 * +EC6.1.1.12 trnaaspa73 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC6.1.1.13 atp bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.01 * +EC6.1.1.13 atp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.3 * +EC6.1.1.13 atp lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.5 * +EC6.1.1.13 d-2-amino-n-butyric acid lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.85 * +EC6.1.1.13 d-ala bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 1.1 * +EC6.1.1.13 d-ala lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.018 * +EC6.1.1.13 d-ala lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 40.0 * +EC6.1.1.13 diphosphate lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 0.13 * +EC6.1.1.13 l-ala bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 14.4 * +EC6.1.1.14 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.013 * +EC6.1.1.14 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC6.1.1.14 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.021 * +EC6.1.1.14 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.19 * +EC6.1.1.14 gly bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.00035 * +EC6.1.1.14 gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.1.1.14 gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.25 * +EC6.1.1.14 gly staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.67 * +EC6.1.1.14 glycine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC6.1.1.14 trna1gly bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0026 * +EC6.1.1.14 trnagly bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.001 * +EC6.1.1.14 trnagly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0002 * +EC6.1.1.14 trnagly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.8e-05 * +EC6.1.1.14 trnagly staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.001 * +EC6.1.1.14 trnagly thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.00023 * +EC6.1.1.15 3,4-dehydro-dl-proline beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.5 * +EC6.1.1.15 3,4-dehydro-dl-proline delonix regia//*//* 0.78 * +EC6.1.1.15 3,4-dehydro-dl-proline hemerocallis fulva//*//* 0.74 * +EC6.1.1.15 3,4-dehydro-dl-proline parkinsonia aculeata//*//* 2.2 * +EC6.1.1.15 3,4-dehydro-dl-proline phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.28 * +EC6.1.1.15 3,4-dehydro-dl-proline ranunculus bulbosus//*//* 0.364 * +EC6.1.1.15 3-thiaproline convallaria majalis//*//* 1.4 * +EC6.1.1.15 3-thiaproline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC6.1.1.15 4-selenaproline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 55.0 * +EC6.1.1.15 4-selenaproline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 6.25 * +EC6.1.1.15 4-thiaproline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 66.0 * +EC6.1.1.15 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC6.1.1.15 cis(exo)-3,4-methano-l-proline convallaria majalis//*//* 2.0 * +EC6.1.1.15 cis(exo)-3,4-methano-l-proline delonix regia//*//* 4.6 * +EC6.1.1.15 cis(exo)-3,4-methano-l-proline parkinsonia aculeata//*//* 7.1 * +EC6.1.1.15 gamma-thiaproline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.5 * +EC6.1.1.15 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 140.0 * +EC6.1.1.15 l-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 79.0 * +EC6.1.1.15 l-azetidine-2-carboxylic acid hemerocallis fulva//*//* 5.3 * +EC6.1.1.15 l-azetidine-2-carboxylic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 1.43 * +EC6.1.1.15 l-azetidine-2-carboxylic acid ranunculus bulbosus//*//* 2.0 * +EC6.1.1.15 l-cysteine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.09 * +EC6.1.1.15 l-cysteine methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.0745 * +EC6.1.1.15 l-cysteine methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.05 * +EC6.1.1.15 l-pro beta vulgaris//eukaryotes;plants;eudicots;amaranth family//bvg 0.45 * +EC6.1.1.15 l-pro convallaria majalis//*//* 0.45 * +EC6.1.1.15 l-pro delonix regia//*//* 0.182 * +EC6.1.1.15 l-pro hemerocallis fulva//*//* 0.625 * +EC6.1.1.15 l-pro parkinsonia aculeata//*//* 0.43 * +EC6.1.1.15 l-pro phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.137 * +EC6.1.1.15 l-pro ranunculus bulbosus//*//* 0.29 * +EC6.1.1.15 l-proline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.18 * +EC6.1.1.15 l-proline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.18 * +EC6.1.1.15 l-proline methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.012 * +EC6.1.1.15 l-proline methanococcus maripaludis//prokaryotes;archaea;euryarchaeota;methanococcus//mmp 0.0046 * +EC6.1.1.15 l-proline methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.061 * +EC6.1.1.15 l-thiazolidine-4-carboxylic acid delonix regia//*//* 20.0 * +EC6.1.1.15 n-methyl-l-alanine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 68.0 * +EC6.1.1.15 n-methylglycine delonix regia//*//* 300.0 * +EC6.1.1.15 n-methylglycine hemerocallis fulva//*//* 100.0 * +EC6.1.1.15 n-methylglycine parkinsonia aculeata//*//* 45.0 * +EC6.1.1.15 n-methylglycine phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 67.0 * +EC6.1.1.15 n-methylglycine ranunculus bulbosus//*//* 140.0 * +EC6.1.1.15 pro escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC6.1.1.15 pro rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC6.1.1.15 thiazolidine-4-carboxylic acid phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 20.0 * +EC6.1.1.15 trnapro methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 3e-05 * +EC6.1.1.15 trnapro methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0014 * +EC6.1.1.16 2-aminobutyric acid astragalus bisulcatus//*//* 10.0 * +EC6.1.1.16 2-aminobutyric acid astragalus crotalariae//*//* 10.0 * +EC6.1.1.16 2-aminobutyric acid astragalus lentiginosus//*//* 10.0 * +EC6.1.1.16 2-aminobutyric acid astragalus racemosus//*//* 10.0 * +EC6.1.1.16 2-aminobutyric acid paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 10.0 * +EC6.1.1.16 2-aminobutyric acid vigna radiata var. radiata//*//* 10.0 * +EC6.1.1.16 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC6.1.1.16 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.057 * +EC6.1.1.16 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC6.1.1.16 atp paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.33 * +EC6.1.1.16 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.8 * +EC6.1.1.16 atp vigna radiata var. radiata//*//* 1.15 * +EC6.1.1.16 cys astragalus bisulcatus//*//* 0.17 * +EC6.1.1.16 cys astragalus crotalariae//*//* 0.045 * +EC6.1.1.16 cys astragalus lentiginosus//*//* 0.06 * +EC6.1.1.16 cys astragalus racemosus//*//* 0.06 * +EC6.1.1.16 cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC6.1.1.16 cys vigna radiata var. radiata//*//* 0.062 * +EC6.1.1.16 diphosphate paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.3 * +EC6.1.1.16 diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.16 * +EC6.1.1.16 l-cys paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.0125 * +EC6.1.1.16 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC6.1.1.16 l-cysteine oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.011 * +EC6.1.1.16 l-selenocysteine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.00159 * +EC6.1.1.16 selenocysteine astragalus crotalariae//*//* 0.063 * +EC6.1.1.16 selenocysteine astragalus lentiginosus//*//* 0.05 * +EC6.1.1.16 selenocysteine astragalus racemosus//*//* 0.05 * +EC6.1.1.16 selenocysteine vigna radiata var. radiata//*//* 0.05 * +EC6.1.1.16 trna1cys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.08 * +EC6.1.1.16 trna1cysa33u methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.09 * +EC6.1.1.16 trna2cys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.16 * +EC6.1.1.16 trna3cys methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.14 * +EC6.1.1.16 trna3cysc20u/u21c/a44u/c46a/a47g methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.11 * +EC6.1.1.16 trna3cysc20u/u21c/a44u/c46a/a47g/g57a methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.09 * +EC6.1.1.16 trna3cysg57a methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.12 * +EC6.1.1.16 trna3cysu33a methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.13 * +EC6.1.1.16 trnacys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00064 * +EC6.1.1.16 trnacys oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.08 * +EC6.1.1.17 atp chlamydomonas reinhardtii//eukaryotes;plants;green algae//cre 0.1 * +EC6.1.1.17 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.1.1.17 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.08 * +EC6.1.1.17 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00235 * +EC6.1.1.17 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.023 * +EC6.1.1.17 glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC6.1.1.17 glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC6.1.1.17 glu tetradesmus obliquus//*//* 0.0023 * +EC6.1.1.17 glu triticum aestivum//*//* 0.01 * +EC6.1.1.17 l-glu thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.07 * +EC6.1.1.17 l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC6.1.1.17 l-glutamate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.001401 * +EC6.1.1.17 trna1glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00042 * +EC6.1.1.17 trna2glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00046 * +EC6.1.1.17 trna3glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00024 * +EC6.1.1.17 trnaasp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00015 * +EC6.1.1.17 trnagln(cug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00133 * +EC6.1.1.17 trnagln(uug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00539 * +EC6.1.1.17 trnagln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC6.1.1.17 trnagln plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 7.67e-05 * +EC6.1.1.17 trnaglu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8e-05 * +EC6.1.1.17 trnaglu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00027 * +EC6.1.1.17 trnaglu methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00361 * +EC6.1.1.17 trnaglu mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.7 * +EC6.1.1.17 trnaglu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 3.2e-06 * +EC6.1.1.17 trnaglu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00045 * +EC6.1.1.17 trnaglu thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0006 * +EC6.1.1.17 trnaglu triticum aestivum//*//* 0.0002 * +EC6.1.1.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC6.1.1.18 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.038 * +EC6.1.1.18 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC6.1.1.18 gln saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.028 * +EC6.1.1.18 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.114 * +EC6.1.1.18 trnagln in unfractionated trna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0001 * +EC6.1.1.18 trnagln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9e-05 * +EC6.1.1.18 trnagln saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0017 * +EC6.1.1.19 2'-deoxyadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC6.1.1.19 2-chloroadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC6.1.1.19 3'-deoxyadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC6.1.1.19 3'-methoxyadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.1.1.19 8-azaadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.0 * +EC6.1.1.19 arg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC6.1.1.19 arg geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.001 * +EC6.1.1.19 arg mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0006 * +EC6.1.1.19 arg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0033 * +EC6.1.1.19 arg saccharomyces carlsbergensis//*//* 0.0015 * +EC6.1.1.19 arg saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.011 * +EC6.1.1.19 atp cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.19 * +EC6.1.1.19 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.9 * +EC6.1.1.19 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.54 * +EC6.1.1.19 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.91 * +EC6.1.1.19 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC6.1.1.19 atp saccharomyces carlsbergensis//*//* 0.3 * +EC6.1.1.19 diphosphate saccharomyces carlsbergensis//*//* 0.05 * +EC6.1.1.19 l-arginine canavalia ensiformis//*//* 0.0078 * +EC6.1.1.19 l-arginine cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0007 * +EC6.1.1.19 l-arginine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC6.1.1.19 l-arginine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.001 * +EC6.1.1.19 l-arginine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0022 * +EC6.1.1.19 l-arginine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0035 * +EC6.1.1.19 l-canavanine canavalia ensiformis//*//* 1.32 * +EC6.1.1.19 l-canavanine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0453 * +EC6.1.1.19 trnaarg(acg) canavalia ensiformis//*//* 0.0014 * +EC6.1.1.19 trnaarg(acg) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00029 * +EC6.1.1.19 trnaarg(acg) glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.0017 * +EC6.1.1.19 trnaarg cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.0032 * +EC6.1.1.19 trnaarg cricetulus sp.//*//* 0.00032 * +EC6.1.1.19 trnaarg escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.001 * +EC6.1.1.19 trnaarg geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 5e-05 * +EC6.1.1.19 trnaarg homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5e-05 * +EC6.1.1.19 trnaarg mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.0001 * +EC6.1.1.19 trnaarg pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.0026 * +EC6.1.1.19 trnaarg rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC6.1.1.19 trnaarg saccharomyces carlsbergensis//*//* 0.0025 * +EC6.1.1.19 trnaarg thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0098 * +EC6.1.1.19 trnaargiii saccharomyces carlsbergensis//*//* 0.00028 * +EC6.1.1.19 trnarg geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.00018 * +EC6.1.1.19 tubercidin 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.1.1.19 tubercidin 5'-triphosphate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.4 * +EC6.1.1.19 tubercidin 5'-triphosphate saccharomyces carlsbergensis//*//* 0.2 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73, wild-type) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 6e-05 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73c) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5e-05 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73g) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 6e-05 * +EC6.1.1.2 archeoglobus fulgidus trnatrp(a73u) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 5e-05 * +EC6.1.1.2 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.065 * +EC6.1.1.2 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.15 * +EC6.1.1.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.1.1.2 atp lupinus luteus//*//* 0.03 * +EC6.1.1.2 bacillus subtilis trnatrp(a73, wild-type) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 9e-05 * +EC6.1.1.2 bacillus subtilis trnatrp(a73c) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00012 * +EC6.1.1.2 bacillus subtilis trnatrp(a73g) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0001 * +EC6.1.1.2 bacillus subtilis trnatrp(a73u) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00012 * +EC6.1.1.2 bovine trnatrp(g73, wild-type) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00018 * +EC6.1.1.2 bovine trnatrp(g73a) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00021 * +EC6.1.1.2 bovine trnatrp(g73c) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00022 * +EC6.1.1.2 bovine trnatrp(g73u) archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00017 * +EC6.1.1.2 l-tryptophan bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00073 * +EC6.1.1.2 l-tryptophan geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.000943 * +EC6.1.1.2 p1,p3-bis(5'-adenosyl)triphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.0 * +EC6.1.1.2 p1,p3-bis(5'-adenosyl)triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.1.1.2 trnaarg aeropyrum pernix k1//*//* 0.0021 * +EC6.1.1.2 trnatrp aeropyrum pernix k1//*//* 0.0012 * +EC6.1.1.2 trnatrp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00018 * +EC6.1.1.2 trnatrp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00012 * +EC6.1.1.2 trnatrp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0013 * +EC6.1.1.2 trnatrp lupinus luteus//*//* 0.0002 * +EC6.1.1.2 trp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0046 * +EC6.1.1.2 trp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.00045 * +EC6.1.1.2 trp lupinus luteus//*//* 0.005 * +EC6.1.1.20 (s-pa)trnaphe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00016 * +EC6.1.1.20 (s-pg)trnaphe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC6.1.1.20 2'-deoxyadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.125 * +EC6.1.1.20 2'-deoxyadenosine 5'-triphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.19 * +EC6.1.1.20 2'-deoxyadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.085 * +EC6.1.1.20 2-chloroadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC6.1.1.20 2-chloroadenosine 5'-triphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.096 * +EC6.1.1.20 2-chloroadenosine 5'-triphosphate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.05 * +EC6.1.1.20 2-chloroadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC6.1.1.20 2-deoxyadenosine 5'-triphosphate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 1.54 * +EC6.1.1.20 3'-deoxadenosine 5'-triphosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.3 * +EC6.1.1.20 3'-deoxyadenosine 5'-triphosphate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.82 * +EC6.1.1.20 3'-deoxyadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC6.1.1.20 3,4-dihydroxy-l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.6 * +EC6.1.1.20 3,4-dihydroxy-l-phenylalanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.38 * +EC6.1.1.20 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.009 * +EC6.1.1.20 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.065 * +EC6.1.1.20 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.03 * +EC6.1.1.20 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC6.1.1.20 atp methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.06 * +EC6.1.1.20 atp phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.08 * +EC6.1.1.20 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.008 * +EC6.1.1.20 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.147 * +EC6.1.1.20 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.13 * +EC6.1.1.20 benzofuranylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 923.0 * +EC6.1.1.20 dl-m-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC6.1.1.20 l-phe enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.05 * +EC6.1.1.20 l-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0103 * +EC6.1.1.20 l-phe haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.05 * +EC6.1.1.20 l-phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0042 * +EC6.1.1.20 l-phe staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.05 * +EC6.1.1.20 l-phe streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.05 * +EC6.1.1.20 l-phe thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0018 * +EC6.1.1.20 l-phenylalanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC6.1.1.20 l-phenylalanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0015 * +EC6.1.1.20 l-phenylalanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.003 * +EC6.1.1.20 l-phenylalanine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0012 * +EC6.1.1.20 l-phenylalanine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.00048 * +EC6.1.1.20 l-phenylalanine thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0017 * +EC6.1.1.20 l-tyr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.86 * +EC6.1.1.20 l-tyrosine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.2 * +EC6.1.1.20 l-tyrosine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.9 * +EC6.1.1.20 l-tyrosine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.637 * +EC6.1.1.20 n6-methyladenosine 5'-triphosphate methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.81 * +EC6.1.1.20 phe bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.028 * +EC6.1.1.20 phe gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.012 * +EC6.1.1.20 phe glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.00045 * +EC6.1.1.20 phe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.083 * +EC6.1.1.20 phe phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.007 * +EC6.1.1.20 phe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0094 * +EC6.1.1.20 trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC6.1.1.20 trnaphe gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00042 * +EC6.1.1.20 trnaphe homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 6.6e-05 * +EC6.1.1.20 trnaphe saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00012 * +EC6.1.1.21 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.56 * +EC6.1.1.21 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.59 * +EC6.1.1.21 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.14 * +EC6.1.1.21 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.14 * +EC6.1.1.21 his escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.008 * +EC6.1.1.21 his neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.0058 * +EC6.1.1.21 his oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.08 * +EC6.1.1.21 his saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0009 * +EC6.1.1.21 his salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.025 * +EC6.1.1.21 l-his oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC6.1.1.21 l-histidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.1.1.21 l-histidine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.009 * +EC6.1.1.21 rna microhelix escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0038 * +EC6.1.1.21 rna microhelix saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.124 * +EC6.1.1.21 synthetic trnahis a-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00096 * +EC6.1.1.21 synthetic trnahis g-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC6.1.1.21 trnahis caulobacter vibrioides//*//* 0.00325 * +EC6.1.1.21 trnahis escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00034 * +EC6.1.1.21 trnahis neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.00012 * +EC6.1.1.21 trnahis oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 6e-06 * +EC6.1.1.21 trnahis saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00014 * +EC6.1.1.21 trnahis salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.00011 * +EC6.1.1.21 trnahiscua escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0055 * +EC6.1.1.21 trnahisii oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4e-06 * +EC6.1.1.21 u73trnahisgug escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00031 * +EC6.1.1.21 wild-type full length trnahis g-1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00034 * +EC6.1.1.22 3-cyanoalanine vigna radiata var. radiata//*//* 5.8 * +EC6.1.1.22 asn cricetulus griseus//eukaryotes;animals;vertebrates;mammals//cge 0.03 * +EC6.1.1.22 asn escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC6.1.1.22 asn vigna radiata var. radiata//*//* 0.12 * +EC6.1.1.22 aspartate-3-hydroxamate vigna radiata var. radiata//*//* 0.78 * +EC6.1.1.22 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.076 * +EC6.1.1.22 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.74 * +EC6.1.1.22 isoasparagine vigna radiata var. radiata//*//* 0.26 * +EC6.1.1.22 l-asparagine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.04 * +EC6.1.1.22 trnaasn plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.002 * +EC6.1.1.23 aspartate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.005 * +EC6.1.1.23 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.033 * +EC6.1.1.23 trnaasn deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.002 * +EC6.1.1.23 trnaasn thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 6e-05 * +EC6.1.1.23 trnaasp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3e-05 * +EC6.1.1.24 trnagln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00045 * +EC6.1.1.24 trnagln thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.0037 * +EC6.1.1.24 trnaglu bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.00083 * +EC6.1.1.24 trnaglu thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.00079 * +EC6.1.1.26 2-amino-6-((r)-tetrahydrofuran-2-carboxamido)hexanoic acid methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.39 * +EC6.1.1.26 2-amino-6-(cyclopentanecarboxamido)hexanoic acid methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 5.6 * +EC6.1.1.26 l-pyrrolysine desulfitobacterium hafniense//prokaryotes;bacteria;firmicutes - clostridia;desulfitobacterium//dsy 0.044 * +EC6.1.1.26 l-pyrrolysine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.044 * +EC6.1.1.26 more desulfitobacterium hafniense//prokaryotes;bacteria;firmicutes - clostridia;desulfitobacterium//dsy 0.0053 * +EC6.1.1.26 more methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.00015 * +EC6.1.1.26 more methanosarcina thermophila//prokaryotes;archaea;euryarchaeota;methanosarcina//mthe 0.00016 * +EC6.1.1.26 nepsilon-cyclopentyloxycarbonyl-l-lysine methanosarcina barkeri//prokaryotes;archaea;euryarchaeota;methanosarcina//mba 0.55 * +EC6.1.1.26 trnapyl desulfitobacterium hafniense//prokaryotes;bacteria;firmicutes - clostridia;desulfitobacterium//dsy 0.0029 * +EC6.1.1.27 m1g37-trnacys methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.00097 * +EC6.1.1.27 o-phospho-l-serine methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 0.04 * +EC6.1.1.27 o-phospho-l-threonine methanosarcina mazei//prokaryotes;archaea;euryarchaeota;methanosarcina//mma 8.4 * +EC6.1.1.27 trnacys archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.0269 * +EC6.1.1.27 trnacys methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0011 * +EC6.1.1.3 2-chloroadenosine 5'-triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.4 * +EC6.1.1.3 2-chloroadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.4 * +EC6.1.1.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.267 * +EC6.1.1.3 formycin 5'-triphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.5 * +EC6.1.1.3 formycin 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC6.1.1.3 hydroxynorvaline escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.95 * +EC6.1.1.3 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 81.5 * +EC6.1.1.3 l-serine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 120.0 * +EC6.1.1.3 l-threonine archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.09 * +EC6.1.1.3 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC6.1.1.3 l-threonine methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.1 * +EC6.1.1.3 l-threonine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC6.1.1.3 l-threonine sulfolobus solfataricus//prokaryotes;archaea;crenarchaeota;sulfolobus//sso 0.1 * +EC6.1.1.3 threonine saccharomyces carlsbergensis//*//* 0.00189 * +EC6.1.1.3 trna1thr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00029 * +EC6.1.1.3 trnathr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3e-05 * +EC6.1.1.3 trnathr rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC6.1.1.3 trnathr saccharomyces carlsbergensis//*//* 0.0023 * +EC6.1.1.3 trnathr saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00029 * +EC6.1.1.3 trnathr thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 3.7e-05 * +EC6.1.1.4 3'-datp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.045 * +EC6.1.1.4 8-azaadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC6.1.1.4 8-bromoadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.1.1.4 8-bromoadenosine 5'-triphosphate neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 1.0 * +EC6.1.1.4 8-methylaminoadenosine 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC6.1.1.4 adenosine 5'-o-(3-thiotriphosphate) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.055 * +EC6.1.1.4 atp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.11 * +EC6.1.1.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC6.1.1.4 atp euglena gracilis//*//* 0.13 * +EC6.1.1.4 atp giardia intestinalis//*//* 0.688 * +EC6.1.1.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.725 * +EC6.1.1.4 atp phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.18 * +EC6.1.1.4 atp pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.578 * +EC6.1.1.4 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.11 * +EC6.1.1.4 ile-trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC6.1.1.4 l-isoleucine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.698 * +EC6.1.1.4 l-isoleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC6.1.1.4 l-isoleucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.04 * +EC6.1.1.4 l-isoleucine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.713 * +EC6.1.1.4 l-isoleucyl-trnaleu giardia intestinalis//*//* 0.0092 * +EC6.1.1.4 l-leu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC6.1.1.4 l-leu euglena gracilis//*//* 0.008 * +EC6.1.1.4 l-leu phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.014 * +EC6.1.1.4 l-leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC6.1.1.4 l-leucine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0011 * +EC6.1.1.4 l-leucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC6.1.1.4 l-leucine giardia intestinalis//*//* 0.0061 * +EC6.1.1.4 l-leucine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0058 * +EC6.1.1.4 l-leucine natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.00843 * +EC6.1.1.4 l-leucine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0041 * +EC6.1.1.4 l-leucyl-pyrococcus horikoshii trnaleu(gag) natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.01251 * +EC6.1.1.4 l-methionine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.983 * +EC6.1.1.4 l-methionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.5 * +EC6.1.1.4 l-norvaline aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.096 * +EC6.1.1.4 leu euglena gracilis//*//* 0.01 * +EC6.1.1.4 leu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.01 * +EC6.1.1.4 natrialba magadii trnaleu(caa) natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.01101 * +EC6.1.1.4 natrialba magadii trnaleu(gag) natrialba magadii//prokaryotes;archaea;euryarchaeota;natrialba//nmg 0.00335 * +EC6.1.1.4 norvaline saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.167 * +EC6.1.1.4 trnaleu from aquifex aeolicus aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0003 * +EC6.1.1.4 trnaleu from escherichia coli aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00076 * +EC6.1.1.4 trnaleu(gag) aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.00045 * +EC6.1.1.4 trnaleu(gag) mycoplasma mobile//prokaryotes;bacteria;tenericutes;mycoplasma//mmo 0.0075 * +EC6.1.1.4 trnaleu(uaa) escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC6.1.1.4 trnaleu(uag) mycoplasma mobile//prokaryotes;bacteria;tenericutes;mycoplasma//mmo 0.0076 * +EC6.1.1.4 trnaleu(uur) homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0179 * +EC6.1.1.4 trnaleu aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0002 * +EC6.1.1.4 trnaleu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0007 * +EC6.1.1.4 trnaleu euglena gracilis//*//* 0.0013 * +EC6.1.1.4 trnaleu giardia intestinalis//*//* 0.0061 * +EC6.1.1.4 trnaleu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC6.1.1.4 trnaleu phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.00085 * +EC6.1.1.4 trnaleu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.00167 * +EC6.1.1.4 trnaleu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0001 * +EC6.1.1.4 trnaleua35g aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.0012 * +EC6.1.1.4 trnaleua73 haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.00052 * +EC6.1.1.4 trnaleua73g aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.011 * +EC6.1.1.4 trnaleuu73 haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.0047 * +EC6.1.1.4 trnaser mutant haloferax volcanii//prokaryotes;archaea;euryarchaeota;haloferax//hvo 0.0014 * +EC6.1.1.4 tubercidin 5'-triphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC6.1.1.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00028 * +EC6.1.1.5 atp pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.01 * +EC6.1.1.5 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.24 * +EC6.1.1.5 ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0036 * +EC6.1.1.5 l-isoleucine staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.005 * +EC6.1.1.5 l-isoleucine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 4e-08 * +EC6.1.1.5 trnaile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC6.1.1.5 trnaile staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0001 * +EC6.1.1.5 trnaile thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0001 * +EC6.1.1.6 2-chloroadenosine 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC6.1.1.6 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC6.1.1.6 atp borreliella burgdorferi//*//* 1.3 * +EC6.1.1.6 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.012 * +EC6.1.1.6 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.023 * +EC6.1.1.6 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00015 * +EC6.1.1.6 formycin 5'-triphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.2 * +EC6.1.1.6 l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC6.1.1.6 l-lys geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.0164 * +EC6.1.1.6 l-lys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.005 * +EC6.1.1.6 l-lysine bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.16 * +EC6.1.1.6 l-lysine borreliella burgdorferi//*//* 0.23 * +EC6.1.1.6 l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0026 * +EC6.1.1.6 l-lysine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.016 * +EC6.1.1.6 l-lysine methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0066 * +EC6.1.1.6 lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC6.1.1.6 lys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0024 * +EC6.1.1.6 trnalys from rat liver rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00057 * +EC6.1.1.6 trnalys borreliella burgdorferi//*//* 0.002 * +EC6.1.1.6 trnalys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC6.1.1.6 trnalys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC6.1.1.6 trnalys methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00074 * +EC6.1.1.6 trnalys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 7e-06 * +EC6.1.1.6 trnalyscuu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0027 * +EC6.1.1.6 trnalyscuu borreliella burgdorferi//*//* 0.00056 * +EC6.1.1.6 trnalyscuu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.4 * +EC6.1.1.6 trnalysguu borreliella burgdorferi//*//* 0.00033 * +EC6.1.1.6 trnalysguu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 1.5 * +EC6.1.1.6 trnalysugu borreliella burgdorferi//*//* 0.0018 * +EC6.1.1.6 trnalysuuc borreliella burgdorferi//*//* 0.0028 * +EC6.1.1.6 trnalysuuu borreliella burgdorferi//*//* 0.0004 * +EC6.1.1.6 trnalysuuu pyrococcus horikoshii//prokaryotes;archaea;euryarchaeota;pyrococcus//pho 0.87 * +EC6.1.1.6 trnalysuuumodified borreliella burgdorferi//*//* 0.0015 * +EC6.1.1.6 trnatyrcua escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00145 * +EC6.1.1.7 alanine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.34 * +EC6.1.1.7 alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.34 * +EC6.1.1.7 alanine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC6.1.1.7 atp bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.3 * +EC6.1.1.7 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.083 * +EC6.1.1.7 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.067 * +EC6.1.1.7 glycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 26.0 * +EC6.1.1.7 l-alanine bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.8 * +EC6.1.1.7 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC6.1.1.7 l-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 31.0 * +EC6.1.1.7 lipid ii l-ala streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0331 * +EC6.1.1.7 lipid ii l-ser streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.125 * +EC6.1.1.7 liver trna bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.00063 * +EC6.1.1.7 trnaala bombyx mori//eukaryotes;animals;arthropods;insects//bmor 0.0014 * +EC6.1.1.7 trnaala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0024 * +EC6.1.1.7 trnaala saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.000104 * +EC6.1.1.7 trnaphe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0021 * +EC6.1.1.9 atp anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.2005 * +EC6.1.1.9 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.4 * +EC6.1.1.9 atp euglena gracilis//*//* 0.07 * +EC6.1.1.9 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.102 * +EC6.1.1.9 atp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.1 * +EC6.1.1.9 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.029 * +EC6.1.1.9 atp tetrahymena pyriformis//*//* 2.5 * +EC6.1.1.9 dl-2-amino-3-chlorobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.33 * +EC6.1.1.9 dl-2-aminobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.7 * +EC6.1.1.9 dl-allo-2-amino-3-chlorobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.1.1.9 dl-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 12.0 * +EC6.1.1.9 l-isoleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.9 * +EC6.1.1.9 l-threonine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC6.1.1.9 l-valine anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.1926 * +EC6.1.1.9 l-valine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0043 * +EC6.1.1.9 l-valine euglena gracilis//*//* 0.015 * +EC6.1.1.9 l-valyl-trnaval saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0002 * +EC6.1.1.9 trnaval(gac) anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.00061 * +EC6.1.1.9 trnaval(uac) anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.00208 * +EC6.1.1.9 trnaval(uac-2) anabaena sp.//prokaryotes;bacteria;cyanobacteria;pseudanabaena//pseu 0.00108 * +EC6.1.1.9 trnaval escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 8e-05 * +EC6.1.1.9 trnaval euglena gracilis//*//* 5e-05 * +EC6.1.1.9 trnaval rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0009 * +EC6.1.1.9 trnaval saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.00019 * +EC6.1.1.9 trnaval thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.0015 * +EC6.1.1.9 valine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.1.1.9 valine geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.023 * +EC6.1.1.9 valine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.001 * +EC6.1.1.9 valine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0082 * +EC6.1.1.9 valine tetrahymena pyriformis//*//* 0.001 * +EC6.1.1.B3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC6.1.1.B3 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC6.1.1.B3 trnaasp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00015 * +EC6.1.2.1 d-2-hydroxybutanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3.0 * +EC6.1.2.1 d-2-hydroxybutanoate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 0.6 * +EC6.1.2.1 d-2-hydroxyvalerate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 8.3 * +EC6.1.2.1 d-2-hydroxyvalerate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 3.2 * +EC6.1.2.1 d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.2 * +EC6.1.2.1 d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 38.0 * +EC6.1.2.1 d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 69.0 * +EC6.1.2.1 d-lactate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 11.4 * +EC6.1.2.1 d-lactate enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 7.1 * +EC6.1.2.1 d-lactate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.88 * +EC6.2.1.1 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.25 * +EC6.2.1.1 acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.7 * +EC6.2.1.1 acetate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.14 * +EC6.2.1.1 acetate bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.146 * +EC6.2.1.1 acetate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.073 * +EC6.2.1.1 acetate methanosaeta concilii//prokaryotes;archaea;euryarchaeota;methanosaeta//mcj 0.86 * +EC6.2.1.1 acetate methanosaeta thermophila//prokaryotes;archaea;euryarchaeota;methanosaeta//mtp 0.4 * +EC6.2.1.1 acetate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.04 * +EC6.2.1.1 acetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 2.61 * +EC6.2.1.1 acetate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 5.7 * +EC6.2.1.1 acetate penicillium chrysogenum//*//* 6.8 * +EC6.2.1.1 acetate pisum sativum//*//* 0.16 * +EC6.2.1.1 acetate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.625 * +EC6.2.1.1 acetate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.37 * +EC6.2.1.1 acetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.208 * +EC6.2.1.1 acetate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 41.0 * +EC6.2.1.1 acetyl-coa aedes togoi//*//* 0.066 * +EC6.2.1.1 acetyl-coa pisum sativum//*//* 0.026 * +EC6.2.1.1 acetyl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0037 * +EC6.2.1.1 acetyl-coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.8 * +EC6.2.1.1 acrylate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 5.26 * +EC6.2.1.1 acrylate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 17.0 * +EC6.2.1.1 adp bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.4 * +EC6.2.1.1 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.093 * +EC6.2.1.1 atp acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.36 * +EC6.2.1.1 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 2.9 * +EC6.2.1.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC6.2.1.1 atp bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.275 * +EC6.2.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.245 * +EC6.2.1.1 atp methanosaeta thermophila//prokaryotes;archaea;euryarchaeota;methanosaeta//mtp 0.02 * +EC6.2.1.1 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 3.3 * +EC6.2.1.1 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 1.9 * +EC6.2.1.1 atp penicillium chrysogenum//*//* 17.0 * +EC6.2.1.1 atp pisum sativum//*//* 0.52 * +EC6.2.1.1 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.221 * +EC6.2.1.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.16 * +EC6.2.1.1 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.0771 * +EC6.2.1.1 butyrate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 133.0 * +EC6.2.1.1 butyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 6.8 * +EC6.2.1.1 coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.104 * +EC6.2.1.1 coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.3 * +EC6.2.1.1 coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.21 * +EC6.2.1.1 coa bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.202 * +EC6.2.1.1 coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC6.2.1.1 coa methanosaeta concilii//prokaryotes;archaea;euryarchaeota;methanosaeta//mcj 0.048 * +EC6.2.1.1 coa methanosaeta thermophila//prokaryotes;archaea;euryarchaeota;methanosaeta//mtp 0.0145 * +EC6.2.1.1 coa methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.05 * +EC6.2.1.1 coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.12 * +EC6.2.1.1 coa penicillium chrysogenum//*//* 0.18 * +EC6.2.1.1 coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0139 * +EC6.2.1.1 coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.035 * +EC6.2.1.1 coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.05 * +EC6.2.1.1 datp bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 2.3 * +EC6.2.1.1 fluoroacetate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 31.2 * +EC6.2.1.1 mgatp2- methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 3.3 * +EC6.2.1.1 phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.23 * +EC6.2.1.1 propanoate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 9.0 * +EC6.2.1.1 propanoate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 10.5 * +EC6.2.1.1 propanoate rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 3.1 * +EC6.2.1.1 propanoate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 8.3 * +EC6.2.1.1 propionate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 3.9 * +EC6.2.1.1 propionate methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 36.5 * +EC6.2.1.1 tripolyphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 4.7 * +EC6.2.1.10 butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC6.2.1.10 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC6.2.1.10 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.3 * +EC6.2.1.10 octanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC6.2.1.10 oleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.1 * +EC6.2.1.10 palmitate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 3.3 * +EC6.2.1.11 (+)-biotin mycoplana sp.//*//* 0.32 * +EC6.2.1.11 (+/-)-dethiobiotin mycoplana sp.//*//* 0.3 * +EC6.2.1.11 5-(2-thienyl)-n-valerate mycoplana sp.//*//* 1.3 * +EC6.2.1.11 atp mycoplana sp.//*//* 2.8 * +EC6.2.1.11 coa mycoplana sp.//*//* 0.15 * +EC6.2.1.11 dl-actithiazic acid mycoplana sp.//*//* 0.43 * +EC6.2.1.13 acetate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.9 * +EC6.2.1.13 acetate haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 1.1 * +EC6.2.1.13 acetate halococcus saccharolyticus//*//* 5.3 * +EC6.2.1.13 acetate phycomyces blakesleeanus//*//* 0.6 * +EC6.2.1.13 acetate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.5 * +EC6.2.1.13 acetyl-coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.023 * +EC6.2.1.13 acetyl-coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.037 * +EC6.2.1.13 acetyl-coa giardia intestinalis//*//* 0.06 * +EC6.2.1.13 acetyl-coa haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.45 * +EC6.2.1.13 acetyl-coa pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.12 * +EC6.2.1.13 acetyl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0039 * +EC6.2.1.13 adp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.015 * +EC6.2.1.13 adp chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.091 * +EC6.2.1.13 adp giardia intestinalis//*//* 0.2 * +EC6.2.1.13 adp haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.046 * +EC6.2.1.13 adp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.05 * +EC6.2.1.13 atp chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.57 * +EC6.2.1.13 atp haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.3 * +EC6.2.1.13 atp halococcus saccharolyticus//*//* 1.0 * +EC6.2.1.13 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.07 * +EC6.2.1.13 coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.024 * +EC6.2.1.13 coa giardia intestinalis//*//* 0.02 * +EC6.2.1.13 coa haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 0.08 * +EC6.2.1.13 coa halococcus saccharolyticus//*//* 0.41 * +EC6.2.1.13 coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.0139 * +EC6.2.1.13 dadp giardia intestinalis//*//* 1.09 * +EC6.2.1.13 gdp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.132 * +EC6.2.1.13 gtp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.43 * +EC6.2.1.13 isobutyrate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.457 * +EC6.2.1.13 isobutyryl-coa pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.04 * +EC6.2.1.13 isobutyryl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.012 * +EC6.2.1.13 phenylacetyl-coa pyrobaculum aerophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//pai 0.11 * +EC6.2.1.13 phenylacetyl-coa pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.004 * +EC6.2.1.13 phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.3 * +EC6.2.1.13 phosphate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 1.0 * +EC6.2.1.13 phosphate giardia intestinalis//*//* 1.35 * +EC6.2.1.13 phosphate haloarcula marismortui//prokaryotes;archaea;euryarchaeota;haloarcula//hma 2.0 * +EC6.2.1.13 phosphate pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.1 * +EC6.2.1.13 propionate phycomyces blakesleeanus//*//* 5.2 * +EC6.2.1.14 atp bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 1.5 * +EC6.2.1.14 atp pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.72 * +EC6.2.1.14 coa bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.55 * +EC6.2.1.14 coa lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.033 * +EC6.2.1.14 coa pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.18 * +EC6.2.1.14 heptanedioate bacillus megaterium//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bmq 0.27 * +EC6.2.1.14 heptanedioate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.145 * +EC6.2.1.14 heptanedioate pseudomonas mendocina//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pmy 0.49 * +EC6.2.1.14 mgatp2- lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.17 * +EC6.2.1.15 5,8,11-eicosatrienoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.041 * +EC6.2.1.15 arachidonate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC6.2.1.15 arachidonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.015 * +EC6.2.1.15 arachidonate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.06 * +EC6.2.1.15 arachidonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0058 * +EC6.2.1.15 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC6.2.1.15 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.029 * +EC6.2.1.15 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.8 * +EC6.2.1.15 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.154 * +EC6.2.1.15 coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.13 * +EC6.2.1.15 coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.005 * +EC6.2.1.15 coa oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.15 * +EC6.2.1.15 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC6.2.1.16 acetoacetate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.008 * +EC6.2.1.16 acetoacetate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.3 * +EC6.2.1.16 acetoacetate zoogloea ramigera//*//* 0.076 * +EC6.2.1.16 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC6.2.1.16 atp zoogloea ramigera//*//* 0.033 * +EC6.2.1.16 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC6.2.1.16 coa zoogloea ramigera//*//* 0.091 * +EC6.2.1.16 l(+)-3-hydroxybutyrate zoogloea ramigera//*//* 1.4 * +EC6.2.1.16 l-(+)-3-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.075 * +EC6.2.1.16 l-3-hydroxybutyrate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 20.0 * +EC6.2.1.17 3-hydroxypropanoate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.18 * +EC6.2.1.17 3-hydroxypropanoate sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.19 * +EC6.2.1.17 3-hydroxypropionate chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.015 * +EC6.2.1.17 acetate cavia porcellus//*//* 11.0 * +EC6.2.1.17 acetate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 1.9 * +EC6.2.1.17 acetate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 1.7 * +EC6.2.1.17 acrylate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 1.42 * +EC6.2.1.17 acrylate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 1.0 * +EC6.2.1.17 acrylate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.279 * +EC6.2.1.17 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.1 * +EC6.2.1.17 atp chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.05 * +EC6.2.1.17 atp metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.045 * +EC6.2.1.17 atp ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 0.65 * +EC6.2.1.17 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.057 * +EC6.2.1.17 atp sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.11 * +EC6.2.1.17 butyrate cavia porcellus//*//* 5.4 * +EC6.2.1.17 butyrate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 13.0 * +EC6.2.1.17 butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.6 * +EC6.2.1.17 butyrate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 5.6 * +EC6.2.1.17 coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.63 * +EC6.2.1.17 coa chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.01 * +EC6.2.1.17 coa ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 0.69 * +EC6.2.1.17 coa salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.215 * +EC6.2.1.17 diphosphate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.254 * +EC6.2.1.17 nadph chloroflexus aurantiacus//prokaryotes;bacteria;chloroflexi;chloroflexus//cau 0.01 * +EC6.2.1.17 propanoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3 * +EC6.2.1.17 propanoate cavia porcellus//*//* 0.43 * +EC6.2.1.17 propanoate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.12 * +EC6.2.1.17 propanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC6.2.1.17 propionate ralstonia solanacearum//prokaryotes;bacteria;betaproteobacteria;ralstonia//rso 0.26 * +EC6.2.1.17 propionate salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.02 * +EC6.2.1.17 propionyl-amp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.023 * +EC6.2.1.2 2-methylbutyrate methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 8.92 * +EC6.2.1.2 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.2 * +EC6.2.1.2 atp methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 4.21 * +EC6.2.1.2 atp mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.036 * +EC6.2.1.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.08 * +EC6.2.1.2 benzoate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.007 * +EC6.2.1.2 butyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.5 * +EC6.2.1.2 butyrate paecilomyces variotii//*//* 0.14 * +EC6.2.1.2 butyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.2 * +EC6.2.1.2 butyrate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.731 * +EC6.2.1.2 coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.06 * +EC6.2.1.2 coa methanosarcina acetivorans//prokaryotes;archaea;euryarchaeota;methanosarcina//mac 4.09 * +EC6.2.1.2 coa mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.045 * +EC6.2.1.2 coa paecilomyces variotii//*//* 0.13 * +EC6.2.1.2 coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.075 * +EC6.2.1.2 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC6.2.1.2 decanoate mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 1.775 * +EC6.2.1.2 dodecanoate mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.02 * +EC6.2.1.2 isobutyrate paecilomyces variotii//*//* 1.6 * +EC6.2.1.2 isopentanoate paecilomyces variotii//*//* 0.47 * +EC6.2.1.2 l-(+)-3-hydroxybutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 4.0 * +EC6.2.1.2 mgatp2- pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.97 * +EC6.2.1.2 octanoate mycobacterium avium//prokaryotes;bacteria;actinobacteria;mycobacterium//mpa 0.285 * +EC6.2.1.2 octanoate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.108 * +EC6.2.1.2 pentanoate paecilomyces variotii//*//* 0.38 * +EC6.2.1.2 propionate paecilomyces variotii//*//* 3.3 * +EC6.2.1.20 acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC6.2.1.20 acyl-carrier protein vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 7.9 * +EC6.2.1.20 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.3 * +EC6.2.1.20 atp rhodotorula glutinis//*//* 2.5 * +EC6.2.1.20 decanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.2.1.20 e. coli acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0035 * +EC6.2.1.20 lauric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC6.2.1.20 linoleic acid rhodotorula glutinis//*//* 0.023 * +EC6.2.1.20 myristic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.015 * +EC6.2.1.20 octanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.166 * +EC6.2.1.20 oleic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.2.1.20 oleic acid rhodotorula glutinis//*//* 0.025 * +EC6.2.1.20 oleic acid synechococcus elongatus//prokaryotes;bacteria;cyanobacteria;synechococcus//syc 0.01 * +EC6.2.1.20 palmitic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0053 * +EC6.2.1.20 palmitic acid rhodotorula glutinis//*//* 0.043 * +EC6.2.1.20 palmitoleic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC6.2.1.20 palmitoleic acid vibrio harveyi//prokaryotes;bacteria;gammaproteobacteria - others;vibrio//vhr 0.02 * +EC6.2.1.20 saturated fatty acids escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC6.2.1.20 spinach acyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC6.2.1.20 stearic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC6.2.1.20 stearic acid rhodotorula glutinis//*//* 0.03 * +EC6.2.1.20 unsaturated fatty acids escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.2.1.22 acetate clostridium sphenoides//*//* 66.0 * +EC6.2.1.22 acetate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.66 * +EC6.2.1.22 acetate rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 5.0 * +EC6.2.1.22 acetyl adenylate klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.013 * +EC6.2.1.22 atp clostridium sphenoides//*//* 0.4 * +EC6.2.1.22 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.0008 * +EC6.2.1.22 atp rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 0.14 * +EC6.2.1.22 citrate lyase clostridium sphenoides//*//* 0.00386 * +EC6.2.1.22 citrate lyase rubrivivax gelatinosus//prokaryotes;bacteria;betaproteobacteria;rubrivivax//rge 3.7e-05 * +EC6.2.1.23 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.55 * +EC6.2.1.23 dodecanedioic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC6.2.1.24 phytanic acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0286 * +EC6.2.1.25 2-aminobenzoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.25 * +EC6.2.1.25 2-aminobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.25 * +EC6.2.1.25 2-aminobenzoate thauera aromatica//*//* 0.15 * +EC6.2.1.25 2-fluorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.04 * +EC6.2.1.25 atp anaerobic bacterium//*//* 0.56 * +EC6.2.1.25 atp clarkia breweri//*//* 0.095 * +EC6.2.1.25 atp magnetospirillum sp.//prokaryotes;bacteria;alphaproteobacteria;magnetospirillum//magx 0.265 * +EC6.2.1.25 atp paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.27 * +EC6.2.1.25 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.125 * +EC6.2.1.25 atp rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.002 * +EC6.2.1.25 atp thauera aromatica//*//* 0.44 * +EC6.2.1.25 benzoate anaerobic bacterium//*//* 0.03 * +EC6.2.1.25 benzoate clarkia breweri//*//* 0.045 * +EC6.2.1.25 benzoate geobacter metallireducens//prokaryotes;bacteria;deltaproteobacteria;geobacter//gme 0.03 * +EC6.2.1.25 benzoate magnetospirillum sp.//prokaryotes;bacteria;alphaproteobacteria;magnetospirillum//magx 0.03 * +EC6.2.1.25 benzoate paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.12 * +EC6.2.1.25 benzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.009 * +EC6.2.1.25 benzoate rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.0006 * +EC6.2.1.25 benzoate thauera aromatica//*//* 0.016 * +EC6.2.1.25 coa clarkia breweri//*//* 0.13 * +EC6.2.1.25 coa magnetospirillum sp.//prokaryotes;bacteria;alphaproteobacteria;magnetospirillum//magx 0.092 * +EC6.2.1.25 coa paraburkholderia xenovorans//prokaryotes;bacteria;betaproteobacteria;paraburkholderia//bxe 0.18 * +EC6.2.1.25 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.089 * +EC6.2.1.25 coash anaerobic bacterium//*//* 0.06 * +EC6.2.1.25 coash pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC6.2.1.25 coash rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.1 * +EC6.2.1.25 coash thauera aromatica//*//* 0.18 * +EC6.2.1.25 reduced coa rhodopseudomonas palustris//prokaryotes;bacteria;alphaproteobacteria;rhodopseudomonas//rpa 0.09 * +EC6.2.1.26 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0735 * +EC6.2.1.26 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC6.2.1.26 coa mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.0165 * +EC6.2.1.26 o-succinylbenzoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.016 * +EC6.2.1.26 o-succinylbenzoate mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.1481 * +EC6.2.1.27 4-hydroxybenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.037 * +EC6.2.1.27 4-hydroxybenzoate thauera aromatica//*//* 0.065 * +EC6.2.1.27 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.077 * +EC6.2.1.27 coenzyme a pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.125 * +EC6.2.1.3 (11z)-eicosenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.167 * +EC6.2.1.3 (15z)-tetracosenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.253 * +EC6.2.1.3 (4z,7z,10z,13z,16z,19z)-docosahexaenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.222 * +EC6.2.1.3 (5z,8z,11z,14z)-eicosatetraenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.017 * +EC6.2.1.3 (6z)-octadecenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.048 * +EC6.2.1.3 (6z,12z, 15z)-octadecatrienoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.02 * +EC6.2.1.3 (6z,9z,12z)-octadecatrienoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.009 * +EC6.2.1.3 (9e)-octadecenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.109 * +EC6.2.1.3 (9z)-hexadecenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.009 * +EC6.2.1.3 (9z)-octadecenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.024 * +EC6.2.1.3 (9z)-tetradecenoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.009 * +EC6.2.1.3 (9z,12z)-octadecadienoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.021 * +EC6.2.1.3 16-hydroxypalmitic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0314 * +EC6.2.1.3 18:3(n-3) fatty acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0375 * +EC6.2.1.3 20:3(n-6) fatty acid rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC6.2.1.3 4'-phosphopantetheine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC6.2.1.3 4'-phosphopantetheine yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 3.3 * +EC6.2.1.3 arachidonate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0337 * +EC6.2.1.3 arachidonate plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.059 * +EC6.2.1.3 arachidonate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0065 * +EC6.2.1.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.025 * +EC6.2.1.3 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.4 * +EC6.2.1.3 atp plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.73 * +EC6.2.1.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.034 * +EC6.2.1.3 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0516 * +EC6.2.1.3 atp yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.5 * +EC6.2.1.3 caproate geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.0064 * +EC6.2.1.3 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.034 * +EC6.2.1.3 coa mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.047 * +EC6.2.1.3 coa plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.048 * +EC6.2.1.3 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00053 * +EC6.2.1.3 coa saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0183 * +EC6.2.1.3 coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.042 * +EC6.2.1.3 coenzyme a pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 1.93 * +EC6.2.1.3 datp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 12.5 * +EC6.2.1.3 decanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.004 * +EC6.2.1.3 dephospho-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.23 * +EC6.2.1.3 dephospho-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.11 * +EC6.2.1.3 dodecanoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.1 * +EC6.2.1.3 eicosapentaenoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0155 * +EC6.2.1.3 heptadecanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0102 * +EC6.2.1.3 heptanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.026 * +EC6.2.1.3 hexadecanoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.014 * +EC6.2.1.3 hexanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0112 * +EC6.2.1.3 laurate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00051 * +EC6.2.1.3 lauric acid drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00168 * +EC6.2.1.3 lauric acid luciola cruciata//*//* 0.0163 * +EC6.2.1.3 lauric acid photinus pyralis//*//* 0.00741 * +EC6.2.1.3 linoleate plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.041 * +EC6.2.1.3 linoleate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.041 * +EC6.2.1.3 linoleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00222 * +EC6.2.1.3 linoleic acid drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.00188 * +EC6.2.1.3 linolenate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00164 * +EC6.2.1.3 myristate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0002 * +EC6.2.1.3 n-tetracosanoic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0048 * +EC6.2.1.3 octadecanoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.072 * +EC6.2.1.3 octadecanoate caulobacter vibrioides//*//* 0.061 * +EC6.2.1.3 octanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00072 * +EC6.2.1.3 oleate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0085 * +EC6.2.1.3 oleate plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.03 * +EC6.2.1.3 oleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00139 * +EC6.2.1.3 oleate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.0711 * +EC6.2.1.3 oleic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.101 * +EC6.2.1.3 palmitate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.0814 * +EC6.2.1.3 palmitate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00021 * +EC6.2.1.3 palmitate geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.032 * +EC6.2.1.3 palmitate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.013 * +EC6.2.1.3 palmitate plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.011 * +EC6.2.1.3 palmitate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00278 * +EC6.2.1.3 palmitoleate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0015 * +EC6.2.1.3 palmitoleate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.00204 * +EC6.2.1.3 pantetheine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC6.2.1.3 pantetheine yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 2.5 * +EC6.2.1.3 pentadecanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0022 * +EC6.2.1.3 stearate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00017 * +EC6.2.1.3 stearate plasmodium knowlesi//eukaryotes;protists;alveolates;apicomplexans//pkn 0.028 * +EC6.2.1.3 stearate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC6.2.1.3 tetradecanoate brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.01 * +EC6.2.1.3 tridecanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0034 * +EC6.2.1.3 undecanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC6.2.1.30 3-chlorophenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.23 * +EC6.2.1.30 3-hydroxyphenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.17 * +EC6.2.1.30 4-hydroxyphenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.54 * +EC6.2.1.30 atp azoarcus evansii//*//* 0.06 * +EC6.2.1.30 atp pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 9.7 * +EC6.2.1.30 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.29 * +EC6.2.1.30 coa azoarcus evansii//*//* 0.045 * +EC6.2.1.30 coa pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 1.0 * +EC6.2.1.30 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.15 * +EC6.2.1.30 phenylacetate azoarcus evansii//*//* 0.014 * +EC6.2.1.30 phenylacetate burkholderia cenocepacia//prokaryotes;bacteria;betaproteobacteria;burkholderia//bcn 0.062 * +EC6.2.1.30 phenylacetate penicillium chrysogenum//*//* 0.0029 * +EC6.2.1.30 phenylacetate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 16.5 * +EC6.2.1.30 phenylacetate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.06 * +EC6.2.1.31 2-furoate pseudomonas putida//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppu 0.75 * +EC6.2.1.32 2-aminobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.013 * +EC6.2.1.32 2-fluorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.05 * +EC6.2.1.32 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.04 * +EC6.2.1.32 benzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.035 * +EC6.2.1.32 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.02 * +EC6.2.1.33 4-chlorobenzoate alcaligenes sp. al3007//*//* 0.0009 * +EC6.2.1.33 4-chlorobenzoate arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.0035 * +EC6.2.1.33 4-chlorobenzoate pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.009 * +EC6.2.1.33 atp alcaligenes sp. al3007//*//* 0.124 * +EC6.2.1.33 atp arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.0238 * +EC6.2.1.33 atp pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.308 * +EC6.2.1.33 coa alcaligenes sp. al3007//*//* 0.31 * +EC6.2.1.33 coa arthrobacter sp.//prokaryotes;bacteria;actinobacteria;arthrobacter//art 0.03 * +EC6.2.1.33 coa pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.08 * +EC6.2.1.33 mgatp2- pseudomonas sp.//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//ppuu 0.1 * +EC6.2.1.36 3-hydroxypropionate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.18 * +EC6.2.1.36 acrylate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 1.42 * +EC6.2.1.36 atp metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.045 * +EC6.2.1.36 propionate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.12 * +EC6.2.1.37 3-hydroxybenzoate centaurium erythraea//*//* 0.0147 * +EC6.2.1.37 3-hydroxybenzoate thauera aromatica//*//* 0.06 * +EC6.2.1.37 atp centaurium erythraea//*//* 0.229 * +EC6.2.1.37 coa centaurium erythraea//*//* 0.0085 * +EC6.2.1.4 coa pigeon//*//* 0.036 * +EC6.2.1.4 coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.004 * +EC6.2.1.4 gdp pigeon//*//* 0.007 * +EC6.2.1.4 gtp pigeon//*//* 0.036 * +EC6.2.1.4 gtp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.009 * +EC6.2.1.4 phosphate pigeon//*//* 2.26 * +EC6.2.1.4 succinate pigeon//*//* 0.49 * +EC6.2.1.4 succinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.39 * +EC6.2.1.4 succinyl-coa pigeon//*//* 0.086 * +EC6.2.1.40 4-hydroxybutanoate metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 1.54 * +EC6.2.1.40 4-hydroxybutanoate pyrobaculum neutrophilum//prokaryotes;archaea;crenarchaeota;pyrobaculum//tne 0.7 * +EC6.2.1.41 3-[(3as,4s,7as)-7a-methyl-1,5-dioxo-octahydro-1h-inden-4-yl]propanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0098 * +EC6.2.1.41 3aalpha-h-4a(3'-propanoate)-5alpha-hydroxy-7alphabeta-methylhexahydro-1-indanone mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 3.0 * +EC6.2.1.41 coa mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.11 * +EC6.2.1.43 2,7-dihydroxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.0031 * +EC6.2.1.43 2,7-dihydroxy-5-methylnaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.0031 * +EC6.2.1.43 2-hydroxy-1-naphthoate streptomyces carzinostaticus//*//* 0.0034 * +EC6.2.1.43 2-hydroxy-5,7-dimethoxy-1-naphthoate streptomyces carzinostaticus//*//* 0.0011 * +EC6.2.1.43 2-hydroxy-5,7-dimethoxynaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.0011 * +EC6.2.1.43 2-hydroxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.00025 * +EC6.2.1.43 2-hydroxy-5-methylnaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.00025 * +EC6.2.1.43 2-hydroxy-7-methoxy-1-naphthoate streptomyces carzinostaticus//*//* 0.0023 * +EC6.2.1.43 2-hydroxy-7-methoxy-5-methyl-1-naphthoate streptomyces carzinostaticus//*//* 0.00059 * +EC6.2.1.43 2-hydroxy-7-methoxynaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.0023 * +EC6.2.1.43 2-hydroxynaphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.0034 * +EC6.2.1.43 naphthalene-1-carboxylic acid streptomyces carzinostaticus//*//* 0.018 * +EC6.2.1.43 naphthoate streptomyces carzinostaticus//*//* 0.018 * +EC6.2.1.44 3-(methylthio)propanoate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 0.04 * +EC6.2.1.44 3-(methylthio)propanoate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.07 * +EC6.2.1.44 acrylate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 0.44 * +EC6.2.1.44 acrylate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.9 * +EC6.2.1.44 butyrate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 0.01 * +EC6.2.1.44 butyrate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.02 * +EC6.2.1.44 propionate candidatus pelagibacter ubique//prokaryotes;bacteria;alphaproteobacteria;pelagibacter//pub 0.04 * +EC6.2.1.44 propionate ruegeria pomeroyi//prokaryotes;bacteria;alphaproteobacteria;ruegeria//sil 0.04 * +EC6.2.1.45 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0045 * +EC6.2.1.45 oregon green-labeled ubiquitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC6.2.1.45 ubiquitin carrier protein e2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.000111 * +EC6.2.1.45 ubiquitin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00017 * +EC6.2.1.46 l-allo-isoleucine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.04 * +EC6.2.1.46 l-isoleucine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 0.5 * +EC6.2.1.46 l-leucine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 1.5 * +EC6.2.1.46 l-valine pseudomonas syringae//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pst 1.2 * +EC6.2.1.5 acetate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 70.0 * +EC6.2.1.5 acetyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.0223 * +EC6.2.1.5 adp calliphoridae//*//* 0.12 * +EC6.2.1.5 adp columba livia//eukaryotes;animals;vertebrates;birds//clv 0.25 * +EC6.2.1.5 adp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0077 * +EC6.2.1.5 atp calliphoridae//*//* 0.29 * +EC6.2.1.5 atp columba livia//eukaryotes;animals;vertebrates;birds//clv 0.055 * +EC6.2.1.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0145 * +EC6.2.1.5 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.08 * +EC6.2.1.5 atp nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.4 * +EC6.2.1.5 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.017 * +EC6.2.1.5 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.5 * +EC6.2.1.5 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.005 * +EC6.2.1.5 coa columba livia//eukaryotes;animals;vertebrates;birds//clv 0.032 * +EC6.2.1.5 coa escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.0 * +EC6.2.1.5 coa nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 0.1 * +EC6.2.1.5 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.056 * +EC6.2.1.5 coa spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.1 * +EC6.2.1.5 coa thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.06 * +EC6.2.1.5 coenzyme a calliphoridae//*//* 0.01 * +EC6.2.1.5 phosphate columba livia//eukaryotes;animals;vertebrates;birds//clv 0.72 * +EC6.2.1.5 phosphate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.4 * +EC6.2.1.5 succinate acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.9 * +EC6.2.1.5 succinate columba livia//eukaryotes;animals;vertebrates;birds//clv 5.1 * +EC6.2.1.5 succinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC6.2.1.5 succinate glycine max//eukaryotes;plants;eudicots;pea family//gmx 5.0 * +EC6.2.1.5 succinate nitrosomonas europaea//prokaryotes;bacteria;betaproteobacteria;nitrosomonas//neu 5.0 * +EC6.2.1.5 succinate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.5 * +EC6.2.1.5 succinate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.8 * +EC6.2.1.5 succinyl-coa acetobacter aceti//prokaryotes;bacteria;alphaproteobacteria;acetobacter//aace 0.0221 * +EC6.2.1.5 succinyl-coa calliphoridae//*//* 0.024 * +EC6.2.1.5 succinyl-coa columba livia//eukaryotes;animals;vertebrates;birds//clv 0.041 * +EC6.2.1.7 atp cavia porcellus//*//* 0.65 * +EC6.2.1.7 atp eubacterium sp.//*//* 0.2 * +EC6.2.1.7 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.548 * +EC6.2.1.7 chenodeoxycholate ophiodon elongatus//*//* 0.08 * +EC6.2.1.7 chenodeoxycholate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.018 * +EC6.2.1.7 cholate cavia porcellus//*//* 0.006 * +EC6.2.1.7 cholate eubacterium sp.//*//* 0.022 * +EC6.2.1.7 cholate ophiodon elongatus//*//* 0.05 * +EC6.2.1.7 cholate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.01 * +EC6.2.1.7 coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC6.2.1.7 deoxycholate ophiodon elongatus//*//* 0.053 * +EC6.2.1.7 lithocholate ophiodon elongatus//*//* 0.04 * +EC6.2.1.8 atp pisum sativum//*//* 4.0 * +EC6.2.1.8 coa pisum sativum//*//* 0.1 * +EC6.2.1.8 oxalate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.149 * +EC6.2.1.8 oxalate pisum sativum//*//* 2.0 * +EC6.2.1.8 oxalate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.02 * +EC6.2.1.B1 atp galium mollugo//*//* 0.0881 * +EC6.2.1.B1 coa galium mollugo//*//* 0.0599 * +EC6.2.1.B1 o-succinylbenzoate galium mollugo//*//* 0.1158 * +EC6.2.1.B10 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.03 * +EC6.2.1.B10 coa thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0625 * +EC6.2.1.B11 acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.34 * +EC6.2.1.B11 acetyl-coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.01 * +EC6.2.1.B11 acetyl-coa methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.037 * +EC6.2.1.B11 adp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.007 * +EC6.2.1.B11 adp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.015 * +EC6.2.1.B11 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.03 * +EC6.2.1.B11 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0556 * +EC6.2.1.B11 coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.025 * +EC6.2.1.B11 coa thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0056 * +EC6.2.1.B11 indole-3-acetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 1.24 * +EC6.2.1.B11 phenylacetate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC6.2.1.B11 phenylacetyl-coa archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.017 * +EC6.2.1.B11 phosphate archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.11 * +EC6.2.1.B11 phosphate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.47 * +EC6.2.1.B3 12-oxo-phytodienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.024 * +EC6.2.1.B3 3-oxo-2-(2'-[z]-pentenyl)cyclopentane-1-hexanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.094 * +EC6.2.1.B3 3-oxo-2-(2'-[z]-pentenyl)cyclopentane-1-octanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.019 * +EC6.2.1.B3 dinor-12-oxo-phytodienoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.076 * +EC6.2.1.B3 tetradecanoic acid arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.036 * +EC6.2.1.B4 [acyl-carrier protein blr6284] bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.0039 * +EC6.2.1.B4 [acyl-carrier protein bsr0959] bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 0.0019 * +EC6.2.1.B5 [acyl-carrier protein atu2571] agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.0047 * +EC6.3.1.1 asp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.91 * +EC6.3.1.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC6.3.1.1 atp lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 2.0 * +EC6.3.1.1 l-asp lactobacillus plantarum//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lpl 4.2 * +EC6.3.1.1 l-asp streptococcus equinus//*//* 26.0 * +EC6.3.1.1 nh4+ streptococcus equinus//*//* 4.0 * +EC6.3.1.12 atp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.6 * +EC6.3.1.12 d-aspartate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 2.0 * +EC6.3.1.13 1d-myo-inositol 2-amino-2-deoxy-alpha-d-glucopyranoside mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.072 * +EC6.3.1.13 l-cysteine mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.04 * +EC6.3.1.15 3-amino-4,7-dihydroxy-8-methylcoumarin streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.131 * +EC6.3.1.15 3-dimethylallyl-4-hydroxybenzoate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.0064 * +EC6.3.1.15 4-hydroxy-3-methylbenzoate streptomyces niveus//prokaryotes;bacteria;actinobacteria;streptomyces//snw 0.36 * +EC6.3.1.17 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0096 * +EC6.3.1.17 beta-citryl-l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0035 * +EC6.3.1.17 citrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.24 * +EC6.3.1.17 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.73 * +EC6.3.1.17 n-acetyl-aspartylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0076 * +EC6.3.1.19 [prokaryotic ubiquitin-like protein]-l-glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0014 * +EC6.3.1.19 [protein panb]-l-lysine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0142 * +EC6.3.1.19 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0087 * +EC6.3.1.2 3-aminopentanedioate methanohalophilus portucalensis//*//* 175.0 * +EC6.3.1.2 adp clarias batrachus//*//* 0.833 * +EC6.3.1.2 adp clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 3.8 * +EC6.3.1.2 adp corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 0.0035 * +EC6.3.1.2 adp lupinus luteus//*//* 5.97e-05 * +EC6.3.1.2 adp methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.15 * +EC6.3.1.2 adp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.002 * +EC6.3.1.2 adp rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.01 * +EC6.3.1.2 adp ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 0.09 * +EC6.3.1.2 adp sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.15 * +EC6.3.1.2 atp anabaena variabilis//*//* 0.1 * +EC6.3.1.2 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.3 * +EC6.3.1.2 atp azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.2 * +EC6.3.1.2 atp bacillus caldolyticus//*//* 0.53 * +EC6.3.1.2 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.4 * +EC6.3.1.2 atp bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 1.7 * +EC6.3.1.2 atp bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 2.3 * +EC6.3.1.2 atp bifidobacterium pseudolongum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bpsp 1.5 * +EC6.3.1.2 atp bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 14.3 * +EC6.3.1.2 atp camellia sinensis//*//* 6.0 * +EC6.3.1.2 atp canis lupus familiaris//*//* 1.3 * +EC6.3.1.2 atp chlorella sorokiniana//*//* 0.3 * +EC6.3.1.2 atp clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 0.34 * +EC6.3.1.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.3.1.2 atp haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 0.3 * +EC6.3.1.2 atp lupinus luteus//*//* 0.22 * +EC6.3.1.2 atp medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 2.9 * +EC6.3.1.2 atp methanohalophilus portucalensis//*//* 6.0 * +EC6.3.1.2 atp methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.6 * +EC6.3.1.2 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.5 * +EC6.3.1.2 atp nicotiana plumbaginifolia//*//* 0.79 * +EC6.3.1.2 atp oryza sativa japonica group//*//* 0.45 * +EC6.3.1.2 atp ovis aries//eukaryotes;animals;vertebrates;mammals//oas 2.3 * +EC6.3.1.2 atp paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.17 * +EC6.3.1.2 atp phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.3 * +EC6.3.1.2 atp prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 0.06 * +EC6.3.1.2 atp pseudomonas taetrolens//*//* 1.3 * +EC6.3.1.2 atp pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 28.0 * +EC6.3.1.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.5 * +EC6.3.1.2 atp ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.5 * +EC6.3.1.2 atp skeletonema costatum//*//* 0.5 * +EC6.3.1.2 atp sphagnum fallax//*//* 3.0 * +EC6.3.1.2 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 1.8 * +EC6.3.1.2 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.43 * +EC6.3.1.2 atp trichormus azollae//*//* 0.21 * +EC6.3.1.2 atp tuber borchii//*//* 0.17 * +EC6.3.1.2 ethylamine pseudomonas taetrolens//*//* 500.0 * +EC6.3.1.2 gln clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 14.7 * +EC6.3.1.2 gln corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 15.2 * +EC6.3.1.2 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.9 * +EC6.3.1.2 gln lupinus luteus//*//* 48.6 * +EC6.3.1.2 gln nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 11.6 * +EC6.3.1.2 gln spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 37.6 * +EC6.3.1.2 glu anabaena variabilis//*//* 1.2 * +EC6.3.1.2 glu bacillus caldolyticus//*//* 3.0 * +EC6.3.1.2 glu lupinus luteus//*//* 8.58 * +EC6.3.1.2 glu methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 2.25 * +EC6.3.1.2 glu mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC6.3.1.2 glu nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 6.3 * +EC6.3.1.2 glu nocardia asteroides//*//* 7.7 * +EC6.3.1.2 glu paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 1.0 * +EC6.3.1.2 glu pisum sativum//*//* 3.0 * +EC6.3.1.2 glu sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 13.3 * +EC6.3.1.2 glu skeletonema costatum//*//* 5.7 * +EC6.3.1.2 glu spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 6.7 * +EC6.3.1.2 glu synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.9 * +EC6.3.1.2 glutamate anabaena variabilis//*//* 1.4 * +EC6.3.1.2 glutamate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 21.6 * +EC6.3.1.2 glutamate nicotiana plumbaginifolia//*//* 5.71 * +EC6.3.1.2 hydroxylamine bacillus caldolyticus//*//* 0.35 * +EC6.3.1.2 hydroxylamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.83 * +EC6.3.1.2 hydroxylamine bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 3.3 * +EC6.3.1.2 hydroxylamine clarias batrachus//*//* 62.5 * +EC6.3.1.2 hydroxylamine clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 4.1 * +EC6.3.1.2 hydroxylamine corynebacterium callunae//prokaryotes;bacteria;actinobacteria;corynebacterium//ccn 1.46 * +EC6.3.1.2 hydroxylamine haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 10.5 * +EC6.3.1.2 hydroxylamine lupinus luteus//*//* 3.37 * +EC6.3.1.2 hydroxylamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 8.3 * +EC6.3.1.2 hydroxylamine nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 2.6 * +EC6.3.1.2 hydroxylamine paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 2.4 * +EC6.3.1.2 hydroxylamine prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 1.04 * +EC6.3.1.2 hydroxylamine rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 6.0 * +EC6.3.1.2 hydroxylamine ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 4.7 * +EC6.3.1.2 hydroxylamine sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 5.3 * +EC6.3.1.2 l-gln bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 11.1 * +EC6.3.1.2 l-gln clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 22.2 * +EC6.3.1.2 l-gln haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 25.0 * +EC6.3.1.2 l-gln mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 60.0 * +EC6.3.1.2 l-gln rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 12.0 * +EC6.3.1.2 l-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.67 * +EC6.3.1.2 l-glu azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.0025 * +EC6.3.1.2 l-glu bacillus caldolyticus//*//* 17.0 * +EC6.3.1.2 l-glu bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 1.1 * +EC6.3.1.2 l-glu bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 1.3 * +EC6.3.1.2 l-glu bifidobacterium pseudolongum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bpsp 2.1 * +EC6.3.1.2 l-glu clarias batrachus//*//* 50.0 * +EC6.3.1.2 l-glu clostridium pasteurianum//prokaryotes;bacteria;firmicutes - clostridia;clostridium//cpas 3.4 * +EC6.3.1.2 l-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.3 * +EC6.3.1.2 l-glu haloferax mediterranei//prokaryotes;archaea;euryarchaeota;haloferax//hme 4.9 * +EC6.3.1.2 l-glu medicago truncatula//eukaryotes;plants;eudicots;pea family//mtr 1.8 * +EC6.3.1.2 l-glu oryza sativa japonica group//*//* 2.1 * +EC6.3.1.2 l-glu paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 2.1 * +EC6.3.1.2 l-glutamate arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.6 * +EC6.3.1.2 l-glutamate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 27.0 * +EC6.3.1.2 l-glutamate camellia sinensis//*//* 9.0 * +EC6.3.1.2 l-glutamate canis lupus familiaris//*//* 1.1 * +EC6.3.1.2 l-glutamate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 58.0 * +EC6.3.1.2 l-glutamate methanohalophilus portucalensis//*//* 104.0 * +EC6.3.1.2 l-glutamate oryza sativa japonica group//*//* 1.9 * +EC6.3.1.2 l-glutamate phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 7.0 * +EC6.3.1.2 l-glutamate prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 1.7 * +EC6.3.1.2 l-glutamate pyrococcus sp.//prokaryotes;archaea;euryarchaeota;pyrococcus//pyn 23.5 * +EC6.3.1.2 l-glutamate sphagnum fallax//*//* 22.0 * +EC6.3.1.2 l-glutamate trichormus azollae//*//* 1.5 * +EC6.3.1.2 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 13.0 * +EC6.3.1.2 l-glutamine prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 0.62 * +EC6.3.1.2 l-glutamine ruminococcus albus//prokaryotes;bacteria;firmicutes - clostridia;ruminococcus//ral 6.8 * +EC6.3.1.2 l-glutamine sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 1.3 * +EC6.3.1.2 methylamine pseudomonas taetrolens//*//* 20.0 * +EC6.3.1.2 mn2+ sulfolobus acidocaldarius//prokaryotes;archaea;crenarchaeota;sulfolobus//sai 0.24 * +EC6.3.1.2 nh3 bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.18 * +EC6.3.1.2 nh3 prevotella ruminicola//prokaryotes;bacteria;bacteroidetes;prevotella//pru 0.43 * +EC6.3.1.2 nh4+ anabaena variabilis//*//* 0.004 * +EC6.3.1.2 nh4+ arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.01 * +EC6.3.1.2 nh4+ azospirillum brasilense//prokaryotes;bacteria;alphaproteobacteria;azospirillum//abs 0.042 * +EC6.3.1.2 nh4+ bacillus caldolyticus//*//* 0.2 * +EC6.3.1.2 nh4+ bifidobacterium bifidum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbi 0.56 * +EC6.3.1.2 nh4+ bifidobacterium breve//prokaryotes;bacteria;actinobacteria;bifidobacterium//bbv 0.59 * +EC6.3.1.2 nh4+ bifidobacterium pseudolongum//prokaryotes;bacteria;actinobacteria;bifidobacterium//bpsp 0.69 * +EC6.3.1.2 nh4+ camellia sinensis//*//* 5.2 * +EC6.3.1.2 nh4+ chlorella sorokiniana//*//* 0.02 * +EC6.3.1.2 nh4+ lupinus luteus//*//* 0.0125 * +EC6.3.1.2 nh4+ methylococcus capsulatus//prokaryotes;bacteria;gammaproteobacteria - others;methylococcus//mca 0.72 * +EC6.3.1.2 nh4+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 10.8 * +EC6.3.1.2 nh4+ nicotiana plumbaginifolia//*//* 0.028 * +EC6.3.1.2 nh4+ nitrobacter winogradskyi//prokaryotes;bacteria;alphaproteobacteria;nitrobacter//nwi 0.2 * +EC6.3.1.2 nh4+ nocardia asteroides//*//* 0.2 * +EC6.3.1.2 nh4+ oryza sativa japonica group//*//* 0.027 * +EC6.3.1.2 nh4+ ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.18 * +EC6.3.1.2 nh4+ paracoccus denitrificans//prokaryotes;bacteria;alphaproteobacteria;paracoccus//pde 0.03 * +EC6.3.1.2 nh4+ phaseolus vulgaris//eukaryotes;plants;eudicots;pea family//pvu 0.025 * +EC6.3.1.2 nh4+ pisum sativum//*//* 0.04 * +EC6.3.1.2 nh4+ pseudomonas taetrolens//*//* 0.56 * +EC6.3.1.2 nh4+ sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 33.0 * +EC6.3.1.2 nh4+ skeletonema costatum//*//* 0.7 * +EC6.3.1.2 nh4+ sphagnum fallax//*//* 0.4 * +EC6.3.1.2 nh4+ synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.19 * +EC6.3.1.2 nh4+ trichormus azollae//*//* 0.05 * +EC6.3.1.2 nh4+ tuber borchii//*//* 0.75 * +EC6.3.1.2 nh4cl bradyrhizobium japonicum//prokaryotes;bacteria;alphaproteobacteria;bradyrhizobium//bju 2.8 * +EC6.3.1.20 6-thio-octanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.6 * +EC6.3.1.20 apoh-protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC6.3.1.20 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0019 * +EC6.3.1.20 dl-lipoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0016 * +EC6.3.1.20 lpla acceptor peptide 1 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.3.1.20 lpla acceptor peptide 2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 13.32 * +EC6.3.1.20 octanoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2143 * +EC6.3.1.20 r-lipoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0045 * +EC6.3.1.20 selenolipoic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC6.3.1.4 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 10.0 * +EC6.3.1.4 l-asp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 26.0 * +EC6.3.1.4 nh4+ solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 40.0 * +EC6.3.1.5 atp bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.289 * +EC6.3.1.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.3.1.5 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.2 * +EC6.3.1.5 deamido-nad+ bacillus anthracis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//ban 0.152 * +EC6.3.1.5 deamido-nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC6.3.1.5 deamido-nad+ francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 5.82 * +EC6.3.1.5 deamido-nad+ methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.13 * +EC6.3.1.5 deamido-nad+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.03 * +EC6.3.1.5 deamido-nmn francisella tularensis//prokaryotes;bacteria;gammaproteobacteria - others;francisella//ftu 0.2 * +EC6.3.1.5 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 5.0 * +EC6.3.1.5 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC6.3.1.5 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC6.3.1.5 nh3 geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.91 * +EC6.3.1.6 atp camellia sinensis//*//* 0.67 * +EC6.3.1.6 ethylamine camellia sinensis//*//* 0.31 * +EC6.3.1.6 l-glu camellia sinensis//*//* 4.6 * +EC6.3.1.7 4-methylene-l-glutamate arachis hypogaea//*//* 2.7 * +EC6.3.1.7 nh4+ arachis hypogaea//*//* 3.7 * +EC6.3.1.8 atp crithidia fasciculata//*//* 0.215 * +EC6.3.1.8 gamma-glu-l-cys(s-butyl)-gly crithidia fasciculata//*//* 14.0 * +EC6.3.1.8 gamma-glu-l-cys(s-ethyl)-gly crithidia fasciculata//*//* 0.18 * +EC6.3.1.8 gamma-glu-l-cys(s-propyl)-gly crithidia fasciculata//*//* 0.53 * +EC6.3.1.8 gamma-l-glu-l-ala-gly crithidia fasciculata//*//* 4.0 * +EC6.3.1.8 gamma-l-glu-l-cys(s-methyl)-gly crithidia fasciculata//*//* 0.13 * +EC6.3.1.8 gamma-l-glu-l-cys-gly crithidia fasciculata//*//* 0.91 * +EC6.3.1.8 gamma-l-glu-l-ile-gly crithidia fasciculata//*//* 0.4 * +EC6.3.1.8 gamma-l-glu-l-val-gly crithidia fasciculata//*//* 0.67 * +EC6.3.1.8 glutathione crithidia fasciculata//*//* 0.242 * +EC6.3.1.8 glutathione escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.218 * +EC6.3.1.8 glutathionylspermidine crithidia fasciculata//*//* 0.5 * +EC6.3.1.8 mgadp2- crithidia fasciculata//*//* 0.114 * +EC6.3.1.8 spermidine crithidia fasciculata//*//* 0.059 * +EC6.3.1.9 atp trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.053 * +EC6.3.1.9 gamma-l-glu-l-cys-gly crithidia fasciculata//*//* 0.914 * +EC6.3.1.9 gsh trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.19 * +EC6.3.1.9 mgatp2- crithidia fasciculata//*//* 0.4 * +EC6.3.1.9 n1-(gamma-l-glutamyl-l-cysteinyl-glycyl)-spermidine trypanosoma cruzi//eukaryotes;protists;euglenozoa;kinetoplasts//tcr 0.066 * +EC6.3.1.9 n1-glutathionylspermidine crithidia fasciculata//*//* 0.02 * +EC6.3.1.9 n8-glutathionylspermidine crithidia fasciculata//*//* 0.007 * +EC6.3.1.9 spermidine crithidia fasciculata//*//* 1.07 * +EC6.3.2.1 (r)-pantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.45 * +EC6.3.2.1 (r)-pantoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.41 * +EC6.3.2.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.091 * +EC6.3.2.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.6 * +EC6.3.2.1 beta-alanine brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 0.04 * +EC6.3.2.1 beta-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.056 * +EC6.3.2.1 beta-alanine lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.44 * +EC6.3.2.1 beta-alanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.27 * +EC6.3.2.1 d-pantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.063 * +EC6.3.2.1 d-pantoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.13 * +EC6.3.2.1 pantoate brucella abortus//prokaryotes;bacteria;alphaproteobacteria;brucella//bmf 50.0 * +EC6.3.2.1 pantoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.063 * +EC6.3.2.1 pantoate lotus japonicus//eukaryotes;plants;eudicots;pea family//lja 0.044 * +EC6.3.2.11 4-aminobutanoate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.35 * +EC6.3.2.11 4-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.84 * +EC6.3.2.11 4-aminobutanoate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 6.44 * +EC6.3.2.11 4-aminobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 11.1 * +EC6.3.2.11 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.19 * +EC6.3.2.11 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.42 * +EC6.3.2.11 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.57 * +EC6.3.2.11 beta-ala homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC6.3.2.11 beta-ala rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.01 * +EC6.3.2.11 beta-alanine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.033 * +EC6.3.2.11 beta-alanine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.09 * +EC6.3.2.11 beta-alanine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.46 * +EC6.3.2.11 l-his mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0166 * +EC6.3.2.11 l-histidine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC6.3.2.11 l-histidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.37 * +EC6.3.2.11 l-histidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC6.3.2.11 l-lysine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.42 * +EC6.3.2.11 l-lysine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.67 * +EC6.3.2.11 l-lysine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.59 * +EC6.3.2.11 l-ornithine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.62 * +EC6.3.2.11 l-ornithine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 7.66 * +EC6.3.2.11 l-ornithine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.52 * +EC6.3.2.11 n-pi-methylhistidine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.39 * +EC6.3.2.11 n-pi-methylhistidine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 24.7 * +EC6.3.2.11 n-pi-methylhistidine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 4.51 * +EC6.3.2.12 7,8-dihydropteroate corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.0012 * +EC6.3.2.12 7,8-dihydropteroate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0006 * +EC6.3.2.12 7,8-dihydropteroate neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.035 * +EC6.3.2.12 7,8-dihydropteroate pisum sativum//*//* 0.001 * +EC6.3.2.12 7,8-dihydropteroate serratia indica//*//* 0.00025 * +EC6.3.2.12 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0069 * +EC6.3.2.12 atp pisum sativum//*//* 0.1 * +EC6.3.2.12 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0228 * +EC6.3.2.12 atp serratia indica//*//* 0.22 * +EC6.3.2.12 dihydropteroate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00088 * +EC6.3.2.12 glu corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 3.5 * +EC6.3.2.12 glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC6.3.2.12 glu pisum sativum//*//* 1.5 * +EC6.3.2.12 glutamate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00597 * +EC6.3.2.12 l-glu corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 1.38 * +EC6.3.2.12 l-glu neisseria gonorrhoeae//prokaryotes;bacteria;betaproteobacteria;neisseria//ngo 0.65 * +EC6.3.2.12 l-glu plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.006 * +EC6.3.2.12 l-glu serratia indica//*//* 0.25 * +EC6.3.2.12 mgatp2- corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.0029 * +EC6.3.2.12 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0081 * +EC6.3.2.13 atp bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.34 * +EC6.3.2.13 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.62 * +EC6.3.2.13 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.012 * +EC6.3.2.13 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.225 * +EC6.3.2.13 atp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 3.6 * +EC6.3.2.13 d-allo-cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 10.0 * +EC6.3.2.13 d-lysine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 1.7 * +EC6.3.2.13 dihydrouridine-5'-diphosphate-murnac-l-ala-d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.097 * +EC6.3.2.13 l-allo-cystathionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC6.3.2.13 l-lysine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 2.8 * +EC6.3.2.13 l-ornithine thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 27.0 * +EC6.3.2.13 meso-2,6-diaminoheptanedioate bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.13 * +EC6.3.2.13 meso-2,6-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC6.3.2.13 meso-2,6-diaminoheptanedioate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.078 * +EC6.3.2.13 meso-diaminopimelic acid mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.069 * +EC6.3.2.13 meso-diaminopimelic acid pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.14 * +EC6.3.2.13 meso-diaminopimelic acid thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 4.8 * +EC6.3.2.13 meso-lanthionine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.5 * +EC6.3.2.13 udp-murnac-l-ala-d-glu mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.024 * +EC6.3.2.13 udp-n-acetylmuramoyl-l-ala-d-glu mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.04 * +EC6.3.2.13 udp-n-acetylmuramoyl-l-alanyl-d-glutamate pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.03 * +EC6.3.2.13 udp-n-acetylmuramoyl-l-alanyl-d-glutamate thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.45 * +EC6.3.2.13 udp-n-murnac-l-ala-d-glu bacillus cereus//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bce 0.32 * +EC6.3.2.13 udp-n-murnac-l-ala-d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.035 * +EC6.3.2.14 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 260.0 * +EC6.3.2.16 atp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.3 * +EC6.3.2.16 d-2-amino-n-butanoate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.85 * +EC6.3.2.16 d-ala lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.018 * +EC6.3.2.17 (6r)-10-formyl-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.002 * +EC6.3.2.17 (6r)-5,10-dideaza-5,6,7,8-tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00193 * +EC6.3.2.17 (6r)-5,10-dideaza-5,6,7,8-tetrahydropteroyl-l-glutamate-gamma-l-glutamate-gamma-l-glutamate-gamma-l-glutamate-gamma-l-glutamate-gamma-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0145 * +EC6.3.2.17 (6r)-5,10-dideaza-5,6,7,8-tetrahydropteroyl-l-glutamate-gamma-l-glutamate-gamma-l-glutamate-gamma-l-glutamate-gamma-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00105 * +EC6.3.2.17 (6r)-5,10-dideaza-5,6,7,8-tetrahydropteroyl-l-glutamate-gamma-l-glutamate-gamma-l-glutamate-gamma-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC6.3.2.17 (6r)-5,10-dideaza-5,6,7,8-tetrahydropteroyl-l-glutamate-gamma-l-glutamate-gamma-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00096 * +EC6.3.2.17 (6r)-5,10-dideaza-5,6,7,8-tetrahydropteroyl-l-glutamate-gamma-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00087 * +EC6.3.2.17 (6rs)-5,6,7,8-tetrahydrofolic acid lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 1.0 * +EC6.3.2.17 (6s)-5,10-dideaza-5,6,7,8-tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00106 * +EC6.3.2.17 (6s)-5,10-dideaza-5,6,7,8-tetrahydropteroyl-l-glutamate-gamma-l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00116 * +EC6.3.2.17 (6s)-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0014 * +EC6.3.2.17 (6s)-5-formyl-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.075 * +EC6.3.2.17 (6s)-5-methylene-5,6,7,8-tetrahydropteroylglutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.054 * +EC6.3.2.17 10-formyl-5,6,7,8-tetrahydropteroyl-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.014 * +EC6.3.2.17 10-formyl-5,6,7,8-tetrahydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0037 * +EC6.3.2.17 10-formyl-5,6,7,8-tetrahydropteroyl-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0039 * +EC6.3.2.17 10-formyl-5,6,7,8-tetrahydropteroyl-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0022 * +EC6.3.2.17 3,3-difluoroglutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.41 * +EC6.3.2.17 3,3-difluoromethotrexate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0054 * +EC6.3.2.17 3,3-difluoromethotrexate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0031 * +EC6.3.2.17 5,10-dideazatetrahydrofolic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0012 * +EC6.3.2.17 5,10-methylene-5,6,7,8-tetrahydrofolic acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.05 * +EC6.3.2.17 5,10-methylene-5,6,7,8-tetrahydrofolic acid lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.03 * +EC6.3.2.17 5,10-methylene-5,6,7,8-tetrahydropteroyl-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0048 * +EC6.3.2.17 5,10-methylene-5,6,7,8-tetrahydropteroyl-glu neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.027 * +EC6.3.2.17 5,10-methylene-5,6,7,8-tetrahydropteroyl-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.057 * +EC6.3.2.17 5,10-methylene-5,6,7,8-tetrahydropteroyl-glu2 lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0023 * +EC6.3.2.17 5,6,7,8-tetrahydrofolate-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00123 * +EC6.3.2.17 5,6,7,8-tetrahydrofolic acid lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0315 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-(4-aminobutanoyl)-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.074 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-beta-ala-glu corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.16 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.009 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.0021 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu datura inoxia//*//* 6.8 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.007 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu pisum sativum//*//* 0.0035 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.006 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0033 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0034 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0014 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0011 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0016 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu4 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.002 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0027 * +EC6.3.2.17 5,6,7,8-tetrahydropteroyl-glu5 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0027 * +EC6.3.2.17 5-formyl-5,6,7,8-tetrahydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.105 * +EC6.3.2.17 5-formyl-5,6,7,8-tetrahydropteroyl-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0081 * +EC6.3.2.17 5-formyl-5,6,7,8-tetrahydropteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC6.3.2.17 5-methyl-h4-homofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.444 * +EC6.3.2.17 7,8-dihydropteroate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0063 * +EC6.3.2.17 7,8-dihydropteroate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0063 * +EC6.3.2.17 7,8-dihydropteroyl-(4-aminobutanoyl)-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC6.3.2.17 7,8-dihydropteroyl-(4-aminobutanoyl)-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.012 * +EC6.3.2.17 7,8-dihydropteroyl-(5-aminopentanoyl)-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.022 * +EC6.3.2.17 7,8-dihydropteroyl-beta-ala-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.076 * +EC6.3.2.17 7,8-dihydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00081 * +EC6.3.2.17 7,8-dihydropteroyl-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0086 * +EC6.3.2.17 7,8-dihydropteroyl-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.005 * +EC6.3.2.17 7,8-dihydropteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.048 * +EC6.3.2.17 7,8-dihydropteroyl-glu2 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0026 * +EC6.3.2.17 aminopterin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.025 * +EC6.3.2.17 aminopterin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC6.3.2.17 aminopterin mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0154 * +EC6.3.2.17 aminopterin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.017 * +EC6.3.2.17 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.01 * +EC6.3.2.17 atp corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.015 * +EC6.3.2.17 atp datura inoxia//*//* 35.7 * +EC6.3.2.17 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.054 * +EC6.3.2.17 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.046 * +EC6.3.2.17 atp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 3.0 * +EC6.3.2.17 atp neurospora crassa//eukaryotes;fungi;ascomycetes;sordariomycetes//ncr 0.286 * +EC6.3.2.17 atp pisum sativum//*//* 2.3 * +EC6.3.2.17 atp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.01 * +EC6.3.2.17 datp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.05 * +EC6.3.2.17 dihydroaminopterin sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0073 * +EC6.3.2.17 glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.333 * +EC6.3.2.17 glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.702 * +EC6.3.2.17 glu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.74 * +EC6.3.2.17 glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.332 * +EC6.3.2.17 itp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.136 * +EC6.3.2.17 l-glu bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.82 * +EC6.3.2.17 l-glu datura inoxia//*//* 150.0 * +EC6.3.2.17 l-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.292 * +EC6.3.2.17 l-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC6.3.2.17 l-glu lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.292 * +EC6.3.2.17 l-glu pisum sativum//*//* 0.61 * +EC6.3.2.17 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.24 * +EC6.3.2.17 l-glutamate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.47 * +EC6.3.2.17 methotrexate-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC6.3.2.17 methotrexate-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC6.3.2.17 methotrexate-glu3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC6.3.2.17 methotrexate-glu4 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.011 * +EC6.3.2.17 methotrexate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.09 * +EC6.3.2.17 methotrexate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.019 * +EC6.3.2.17 methotrexate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.054 * +EC6.3.2.17 mgatp2- corynebacterium sp.//prokaryotes;bacteria;actinobacteria;corynebacterium//coa 0.018 * +EC6.3.2.17 mgatp2- lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 5.6 * +EC6.3.2.17 n-(p(((2-amino-4-hydroxy-6-pteridinyl)methyl)-amino)benzoyl)glutamic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.126 * +EC6.3.2.17 n-(p(((2-amino-4-hydroxy-6-pteridinyl)methyl)-amino)benzoyl)glutamic acid mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC6.3.2.17 n-(p(((2-amino-4-hydroxy-6-pteridinyl)methyl)-amino)benzoyl)glutamic acid sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.14 * +EC6.3.2.17 pteroyl-(4-aminobutanoyl)-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.81 * +EC6.3.2.17 pteroyl-(5-aminopentanoyl)-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.09 * +EC6.3.2.17 pteroyl-beta-ala-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.69 * +EC6.3.2.17 pteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.059 * +EC6.3.2.17 pteroyl-glu mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.137 * +EC6.3.2.17 pteroyl-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.115 * +EC6.3.2.17 pteroyl-glu2 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC6.3.2.17 pteroyl-glu3 sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.119 * +EC6.3.2.17 pteroyl-glu5 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.064 * +EC6.3.2.17 pteroylglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.962 * +EC6.3.2.17 pteroylmonoglutamate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.093 * +EC6.3.2.17 pteroylmonoglutamyl-glu sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.062 * +EC6.3.2.17 tetrahydrofolate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.00096 * +EC6.3.2.17 utp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.19 * +EC6.3.2.18 histamine aplysia californica//*//* 0.653 * +EC6.3.2.18 l-glutamate aplysia californica//*//* 10.6 * +EC6.3.2.2 (r)-beta-amino-iso-butyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.3 * +EC6.3.2.2 (s)-beta-amino-iso-butyrate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 13.3 * +EC6.3.2.2 2-aminobutanoate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 6.36 * +EC6.3.2.2 2-aminobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.9 * +EC6.3.2.2 4-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.3 * +EC6.3.2.2 4-aminobutyrate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 150.0 * +EC6.3.2.2 atp agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.59 * +EC6.3.2.2 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 42.0 * +EC6.3.2.2 atp ascaris suum//*//* 1.41 * +EC6.3.2.2 atp brassica juncea//*//* 1.3 * +EC6.3.2.2 atp candida boidinii//*//* 0.2 * +EC6.3.2.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00014 * +EC6.3.2.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.4 * +EC6.3.2.2 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.87 * +EC6.3.2.2 atp nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.23 * +EC6.3.2.2 atp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.25 * +EC6.3.2.2 atp plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.92 * +EC6.3.2.2 atp proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.16 * +EC6.3.2.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC6.3.2.2 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.08 * +EC6.3.2.2 atp streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 0.075 * +EC6.3.2.2 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.145 * +EC6.3.2.2 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.07 * +EC6.3.2.2 atp xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 3.1 * +EC6.3.2.2 cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.3 * +EC6.3.2.2 gamma-l-glu-l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.86 * +EC6.3.2.2 glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.75 * +EC6.3.2.2 l-2-aminobutanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC6.3.2.2 l-2-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.14 * +EC6.3.2.2 l-2-aminobutanoate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 10.4 * +EC6.3.2.2 l-2-aminobutanoate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.0 * +EC6.3.2.2 l-2-aminobutanoate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC6.3.2.2 l-2-aminobutanoate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 10.0 * +EC6.3.2.2 l-2-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.4 * +EC6.3.2.2 l-2-aminobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.8 * +EC6.3.2.2 l-2-aminobutyric acid trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 5.4 * +EC6.3.2.2 l-alpha-aminobutyrate ascaris suum//*//* 0.31 * +EC6.3.2.2 l-alpha-aminobutyrate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC6.3.2.2 l-alpha-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.3 * +EC6.3.2.2 l-alpha-aminobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC6.3.2.2 l-alpha-aminobutyrate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 6.0 * +EC6.3.2.2 l-aminobutanoate ascaris suum//*//* 0.31 * +EC6.3.2.2 l-cys arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 46.9 * +EC6.3.2.2 l-cys ascaris suum//*//* 0.41 * +EC6.3.2.2 l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC6.3.2.2 l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.07 * +EC6.3.2.2 l-cys nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.19 * +EC6.3.2.2 l-cys pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.22 * +EC6.3.2.2 l-cys plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.53 * +EC6.3.2.2 l-cys proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.15 * +EC6.3.2.2 l-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC6.3.2.2 l-cys saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC6.3.2.2 l-cys trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.69 * +EC6.3.2.2 l-cysteine agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 0.14 * +EC6.3.2.2 l-cysteine ascaris suum//*//* 0.41 * +EC6.3.2.2 l-cysteine brassica juncea//*//* 0.12 * +EC6.3.2.2 l-cysteine candida boidinii//*//* 0.4 * +EC6.3.2.2 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC6.3.2.2 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC6.3.2.2 l-cysteine mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.22 * +EC6.3.2.2 l-cysteine nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.19 * +EC6.3.2.2 l-cysteine nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.14 * +EC6.3.2.2 l-cysteine pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.22 * +EC6.3.2.2 l-cysteine proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 0.15 * +EC6.3.2.2 l-cysteine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.2 * +EC6.3.2.2 l-cysteine streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.156 * +EC6.3.2.2 l-cysteine streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 0.399 * +EC6.3.2.2 l-cysteine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.059 * +EC6.3.2.2 l-cysteine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.69 * +EC6.3.2.2 l-cysteine xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 0.07 * +EC6.3.2.2 l-glu arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 9.1 * +EC6.3.2.2 l-glu ascaris suum//*//* 0.94 * +EC6.3.2.2 l-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC6.3.2.2 l-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC6.3.2.2 l-glu pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 5.3 * +EC6.3.2.2 l-glu plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.75 * +EC6.3.2.2 l-glu proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.2 * +EC6.3.2.2 l-glu rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.2 * +EC6.3.2.2 l-glu saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.21 * +EC6.3.2.2 l-glu trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.24 * +EC6.3.2.2 l-glutamate agrobacterium tumefaciens//prokaryotes;bacteria;alphaproteobacteria;agrobacterium//atf 1.9 * +EC6.3.2.2 l-glutamate ascaris suum//*//* 0.94 * +EC6.3.2.2 l-glutamate brassica juncea//*//* 8.5 * +EC6.3.2.2 l-glutamate candida boidinii//*//* 1.4 * +EC6.3.2.2 l-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0039 * +EC6.3.2.2 l-glutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.8 * +EC6.3.2.2 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.48 * +EC6.3.2.2 l-glutamate nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 10.4 * +EC6.3.2.2 l-glutamate nostoc sp.//prokaryotes;bacteria;firmicutes - bacilli;leuconostoc//lec 0.82 * +EC6.3.2.2 l-glutamate onchocerca volvulus//*//* 1.2 * +EC6.3.2.2 l-glutamate pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 5.3 * +EC6.3.2.2 l-glutamate proteus mirabilis//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;proteus//pmr 1.6 * +EC6.3.2.2 l-glutamate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.4 * +EC6.3.2.2 l-glutamate streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 22.0 * +EC6.3.2.2 l-glutamate streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 33.0 * +EC6.3.2.2 l-glutamate synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.953 * +EC6.3.2.2 l-glutamate trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.24 * +EC6.3.2.2 l-glutamate xanthomonas campestris//prokaryotes;bacteria;gammaproteobacteria - others;xanthomonas//xcc 2.3 * +EC6.3.2.2 mgatp2- trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.071 * +EC6.3.2.2 mnatp2- trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.022 * +EC6.3.2.23 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.023 * +EC6.3.2.23 atp vigna radiata var. radiata//*//* 0.45 * +EC6.3.2.23 beta-alanine glycine max//eukaryotes;plants;eudicots;pea family//gmx 3.39 * +EC6.3.2.23 beta-alanine phaseolus coccineus//*//* 1.34 * +EC6.3.2.23 beta-alanine pisum sativum//*//* 1.9 * +EC6.3.2.23 beta-alanine vigna radiata var. radiata//*//* 0.33 * +EC6.3.2.23 gamma-aminobutyrate vigna radiata var. radiata//*//* 8.3 * +EC6.3.2.23 gamma-glutamylcysteine phaseolus coccineus//*//* 0.073 * +EC6.3.2.23 gamma-glutamylcysteine vigna radiata var. radiata//*//* 0.75 * +EC6.3.2.23 gamma-l-glutamyl-l-cysteine glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.044 * +EC6.3.2.23 glycine phaseolus coccineus//*//* 98.0 * +EC6.3.2.23 glycine pisum sativum//*//* 104.0 * +EC6.3.2.23 glycine vigna radiata var. radiata//*//* 7.5 * +EC6.3.2.24 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.18 * +EC6.3.2.24 l-arginine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.926 * +EC6.3.2.24 l-tyrosine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0256 * +EC6.3.2.24 mgcl2 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.442 * +EC6.3.2.25 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.014 * +EC6.3.2.25 l-dopa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.186 * +EC6.3.2.25 l-hydroxyphenylalanine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.16 * +EC6.3.2.25 l-phe bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.9 * +EC6.3.2.25 l-phe sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.432 * +EC6.3.2.25 l-tyr bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.017 * +EC6.3.2.25 l-tyr sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0254 * +EC6.3.2.25 l-tyrosine sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.0068 * +EC6.3.2.25 tubulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC6.3.2.25 tyramine bos taurus//eukaryotes;animals;vertebrates;mammals//bta 8.0 * +EC6.3.2.25 untyrosinated tubulin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.0019 * +EC6.3.2.26 (r)-4-phosphopantoate thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 1.16 * +EC6.3.2.26 atp thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 2.44 * +EC6.3.2.26 beta-alanine thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.34 * +EC6.3.2.26 l-aminoadipate acremonium chrysogenum//*//* 0.17 * +EC6.3.2.26 l-aminoadipate penicillium chrysogenum//*//* 0.045 * +EC6.3.2.26 l-aminoadipate streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.63 * +EC6.3.2.26 l-cysteine acremonium chrysogenum//*//* 0.026 * +EC6.3.2.26 l-cysteine penicillium chrysogenum//*//* 0.08 * +EC6.3.2.26 l-cysteine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.12 * +EC6.3.2.26 l-valine acremonium chrysogenum//*//* 0.34 * +EC6.3.2.26 l-valine penicillium chrysogenum//*//* 0.08 * +EC6.3.2.26 l-valine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.3 * +EC6.3.2.29 atp acinetobacter calcoaceticus//*//* 0.038 * +EC6.3.2.29 atp geminocystis herdmanii pcc 6308//*//* 0.2 * +EC6.3.2.29 l-arginine acinetobacter calcoaceticus//*//* 0.047 * +EC6.3.2.29 l-arginine geminocystis herdmanii pcc 6308//*//* 0.049 * +EC6.3.2.29 l-arginine trichormus variabilis atcc 29413//*//* 0.015 * +EC6.3.2.3 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.057 * +EC6.3.2.3 atp candida boidinii//*//* 0.48 * +EC6.3.2.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC6.3.2.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.012 * +EC6.3.2.3 atp pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.42 * +EC6.3.2.3 atp pisum sativum//*//* 0.25 * +EC6.3.2.3 atp plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.33 * +EC6.3.2.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.033 * +EC6.3.2.3 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.083 * +EC6.3.2.3 atp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.45 * +EC6.3.2.3 atp setaria cervi//*//* 0.95 * +EC6.3.2.3 atp spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.17 * +EC6.3.2.3 atp streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 0.42 * +EC6.3.2.3 atp streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 0.083 * +EC6.3.2.3 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.136 * +EC6.3.2.3 beta-ala glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.32 * +EC6.3.2.3 beta-ala pisum sativum//*//* 14.0 * +EC6.3.2.3 beta-ala triticum aestivum//*//* 170.0 * +EC6.3.2.3 beta-ala zea mays//eukaryotes;plants;monocots;grass family//zma 0.592 * +EC6.3.2.3 gamma-(alpha-aminomethyl)glu-2-aminobutyrate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 80.0 * +EC6.3.2.3 gamma-glu-2-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.5 * +EC6.3.2.3 gamma-glu-2-aminobutyrate pisum sativum//*//* 0.22 * +EC6.3.2.3 gamma-glu-2-aminobutyrate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.5 * +EC6.3.2.3 gamma-glu-cys candida boidinii//*//* 0.3 * +EC6.3.2.3 gamma-glu-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.63 * +EC6.3.2.3 gamma-glu-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC6.3.2.3 gamma-glu-cys pisum sativum//*//* 0.35 * +EC6.3.2.3 gamma-glu-cys schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.27 * +EC6.3.2.3 gamma-glu-l-2-aminobutyrate spinacia oleracea//eukaryotes;plants;eudicots;amaranth family//soe 0.091 * +EC6.3.2.3 gamma-glu-l-cys arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.039 * +EC6.3.2.3 gamma-glu-l-cys glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.06 * +EC6.3.2.3 gamma-glu-l-cys pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 5.9 * +EC6.3.2.3 gamma-glu-l-cys streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 5.9 * +EC6.3.2.3 gamma-glu-l-cys triticum aestivum//*//* 0.1 * +EC6.3.2.3 gamma-glu-l-cys zea mays//eukaryotes;plants;monocots;grass family//zma 0.03 * +EC6.3.2.3 gamma-glu-s-methylcysteine pisum sativum//*//* 0.28 * +EC6.3.2.3 gamma-glutamyl-alpha-aminobutyrate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.063 * +EC6.3.2.3 gamma-l-glu-aminobutanoate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.26 * +EC6.3.2.3 gamma-l-glu-l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.66 * +EC6.3.2.3 gamma-l-glu-l-cys plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 8.3 * +EC6.3.2.3 gamma-l-glu-l-cys streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 5.9 * +EC6.3.2.3 gamma-l-glutamyl-l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.1 * +EC6.3.2.3 gamma-l-glutamyl-l-cysteine streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 0.762 * +EC6.3.2.3 gamma-l-glutamyl-l-cysteine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.099 * +EC6.3.2.3 gly arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 1.51 * +EC6.3.2.3 gly candida boidinii//*//* 0.8 * +EC6.3.2.3 gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC6.3.2.3 gly homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.36 * +EC6.3.2.3 gly pasteurella multocida//prokaryotes;bacteria;gammaproteobacteria - others;pasteurella//pmu 0.09 * +EC6.3.2.3 gly pisum sativum//*//* 0.19 * +EC6.3.2.3 gly plasmodium berghei//eukaryotes;protists;alveolates;apicomplexans//pbe 0.43 * +EC6.3.2.3 gly rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.76 * +EC6.3.2.3 gly saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.8 * +EC6.3.2.3 gly schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.67 * +EC6.3.2.3 gly setaria cervi//*//* 0.41 * +EC6.3.2.3 gly streptococcus agalactiae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//sag 6.3 * +EC6.3.2.3 gly zea mays//eukaryotes;plants;monocots;grass family//zma 0.18 * +EC6.3.2.3 glycine glycine max//eukaryotes;plants;eudicots;pea family//gmx 19.0 * +EC6.3.2.3 glycine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.452 * +EC6.3.2.3 glycine streptococcus thermophilus//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//stc 4.33 * +EC6.3.2.3 glycine synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.407 * +EC6.3.2.3 glycine triticum aestivum//*//* 0.07 * +EC6.3.2.3 n-acetyl-l-2-aminobutyrate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 60.0 * +EC6.3.2.3 n-acetyl-l-cys rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 25.0 * +EC6.3.2.30 atp acinetobacter calcoaceticus//*//* 0.21 * +EC6.3.2.30 atp synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.2 * +EC6.3.2.30 l-aspartic acid acinetobacter calcoaceticus//*//* 0.24 * +EC6.3.2.30 l-aspartic acid synechocystis sp. pcc 6803//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.45 * +EC6.3.2.31 coenzyme gamma-f420-0 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.001 * +EC6.3.2.32 coenzyme gamma-f420-2 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0012 * +EC6.3.2.34 coenzyme gamma-f420-1 methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.00021 * +EC6.3.2.35 atp enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 1.9 * +EC6.3.2.35 d-asparagine enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 7.2 * +EC6.3.2.35 d-serine enterococcus casseliflavus//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//ecas 1.8 * +EC6.3.2.4 2-aminopentanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 33.0 * +EC6.3.2.4 2-hydroxybutanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 3.0 * +EC6.3.2.4 2-hydroxypentanoate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 8.3 * +EC6.3.2.4 atp chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 0.017 * +EC6.3.2.4 atp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 69.0 * +EC6.3.2.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.049 * +EC6.3.2.4 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00087 * +EC6.3.2.4 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.06 * +EC6.3.2.4 atp streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.12 * +EC6.3.2.4 d-ala enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 1.2 * +EC6.3.2.4 d-ala enterococcus faecium//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efc 3.4 * +EC6.3.2.4 d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0012 * +EC6.3.2.4 d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.003 * +EC6.3.2.4 d-alanine helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 1.49 * +EC6.3.2.4 d-lactate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 11.4 * +EC6.3.2.4 d-met escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 9.0 * +EC6.3.2.4 d-norleucine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.0 * +EC6.3.2.4 d-phe escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 6.0 * +EC6.3.2.4 d-serine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 56.0 * +EC6.3.2.41 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0096 * +EC6.3.2.41 citrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.87 * +EC6.3.2.41 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.73 * +EC6.3.2.41 n-acetyl-l-aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.48 * +EC6.3.2.43 [lysw]-c-terminal-l-glutamate54 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.078 * +EC6.3.2.43 atp thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.6 * +EC6.3.2.43 l-2-aminoadipate thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.1 * +EC6.3.2.45 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC6.3.2.45 l-ala-d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 19.0 * +EC6.3.2.45 l-ala-gamma-d-glu-l-lys-d-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.9 * +EC6.3.2.45 l-ala-gamma-d-glu-l-lys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.1 * +EC6.3.2.45 l-alanyl-gamma-d-glutamyl-meso-2,6-diaminoheptanedioate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.3.2.45 l-alanyl-gamma-d-glutamyl-meso-2,6-diaminoheptanedioyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.3.2.45 l-alanyl-gamma-d-glutamyl-meso-2,6-diaminoheptanedioyl-d-alanyl-d-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.051 * +EC6.3.2.45 udp-n-alpha-d-acetylmuramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC6.3.2.46 fumarate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.55 * +EC6.3.2.46 succinate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 20.0 * +EC6.3.2.47 3-((((2r,3r)-3-carboxyoxiran-2-yl)carbonyl)amino)-l-alanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.053 * +EC6.3.2.47 3-[[(2e)-4-amino-4-oxobut-2-enoyl]amino]-l-alanine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.072 * +EC6.3.2.47 l-isoleucine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.83 * +EC6.3.2.47 l-leucine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 7.82 * +EC6.3.2.47 l-valine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.26 * +EC6.3.2.49 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.42 * +EC6.3.2.49 l-alanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.0 * +EC6.3.2.49 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.07 * +EC6.3.2.49 l-phenylalanine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 18.0 * +EC6.3.2.5 (r)-4'-phosphopantothenate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.017 * +EC6.3.2.5 (r)-4'-phosphopantothenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC6.3.2.5 (r)-4'-phosphopantothenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC6.3.2.5 (r)-4'-phosphopantothenoyl-l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC6.3.2.5 4'-phosphopantothenate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC6.3.2.5 4'-phosphopantothenate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.071 * +EC6.3.2.5 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.269 * +EC6.3.2.5 ctp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.156 * +EC6.3.2.5 ctp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.29 * +EC6.3.2.5 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.265 * +EC6.3.2.5 cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC6.3.2.5 l-cys enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.086 * +EC6.3.2.5 l-cys homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC6.3.2.5 l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.24 * +EC6.3.2.5 n-[(r)-4'-phosphopantothenoyl]-l-cysteine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.78 * +EC6.3.2.51 (r)-4'-phosphopantothenate enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.017 * +EC6.3.2.51 (r)-4'-phosphopantothenate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.013 * +EC6.3.2.51 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.269 * +EC6.3.2.51 ctp enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.156 * +EC6.3.2.51 ctp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.265 * +EC6.3.2.51 l-cysteine enterococcus faecalis//prokaryotes;bacteria;firmicutes - bacilli;enterococcus//efa 0.086 * +EC6.3.2.51 l-cysteine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.014 * +EC6.3.2.6 1-(5'-phosphoribosyl)-5-amino-4-carboxyimidazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.3 * +EC6.3.2.6 asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.036 * +EC6.3.2.6 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.04 * +EC6.3.2.7 atp lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.52 * +EC6.3.2.7 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.53 * +EC6.3.2.7 atp streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.125 * +EC6.3.2.7 l-lys staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.55 * +EC6.3.2.7 l-lys streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0205 * +EC6.3.2.7 lys lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.37 * +EC6.3.2.7 udp-n-acetylmuramoyl-l-ala-d-glu lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.53 * +EC6.3.2.7 udp-n-acetylmuramoyl-l-ala-d-glu staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.087 * +EC6.3.2.7 udp-n-acetylmuramoyl-l-ala-d-glu streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.122 * +EC6.3.2.8 2-amino-n-butyric acid escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.3 * +EC6.3.2.8 2-amino-n-hydroxymethyl propionamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 16.0 * +EC6.3.2.8 2-aminopropionamide escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 7.9 * +EC6.3.2.8 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0638 * +EC6.3.2.8 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.0 * +EC6.3.2.8 benzyl l-alaninate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.36 * +EC6.3.2.8 beta-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.046 * +EC6.3.2.8 beta-anomer udp-n-acetylmuramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC6.3.2.8 beta-chloro-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.173 * +EC6.3.2.8 beta-cyano-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.19 * +EC6.3.2.8 dihydro-udp-n-acetylmuramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.3.2.8 dl-propargylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.1 * +EC6.3.2.8 ethyl l-alaninate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.59 * +EC6.3.2.8 gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5 * +EC6.3.2.8 gly staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 29.0 * +EC6.3.2.8 glycine chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 1.17 * +EC6.3.2.8 glycine mycobacterium leprae//prokaryotes;bacteria;actinobacteria;mycobacterium//mle 0.0258 * +EC6.3.2.8 glycine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.038 * +EC6.3.2.8 l-ala bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.18 * +EC6.3.2.8 l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC6.3.2.8 l-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.15 * +EC6.3.2.8 l-alanine chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 0.124 * +EC6.3.2.8 l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0229 * +EC6.3.2.8 l-alanine mycobacterium leprae//prokaryotes;bacteria;actinobacteria;mycobacterium//mle 0.01 * +EC6.3.2.8 l-alanine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.014 * +EC6.3.2.8 l-cys escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.8 * +EC6.3.2.8 l-ile escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 40.0 * +EC6.3.2.8 l-ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.2 * +EC6.3.2.8 l-serine chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 0.242 * +EC6.3.2.8 l-thr escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 25.0 * +EC6.3.2.8 l-val escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 70.0 * +EC6.3.2.8 l-vinylglycine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.44 * +EC6.3.2.8 methyl l-alaninate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.5 * +EC6.3.2.8 n-(2-aminopropionyl)piperidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 62.0 * +EC6.3.2.8 n-acetylmuramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.22 * +EC6.3.2.8 ser escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.85 * +EC6.3.2.8 udp-n-acetylglucosyl-enolpyruvate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.43 * +EC6.3.2.8 udp-n-acetylmuramate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC6.3.2.8 udp-n-acetylmuramate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.051 * +EC6.3.2.9 1-phospho-n-acetylmuramoyl-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.3.2.9 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.095 * +EC6.3.2.9 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 5.4 * +EC6.3.2.9 d-glu escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.055 * +EC6.3.2.9 d-glu staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.13 * +EC6.3.2.9 d-glutamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.067 * +EC6.3.2.9 dihydrouridine 5'-diphosphate-n-acetylmuramoyl-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC6.3.2.9 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.138 * +EC6.3.2.9 udp-n-acetylmuramate-l-alanine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0073 * +EC6.3.2.9 udp-n-acetylmuramoyl-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.16 * +EC6.3.2.9 udp-n-acetylmuramoyl-l-ala escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0055 * +EC6.3.2.9 udp-n-acetylmuramoyl-l-ala staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.041 * +EC6.3.2.B11 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0096 * +EC6.3.2.B11 citrate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.24 * +EC6.3.2.B11 l-glutamate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.73 * +EC6.3.2.B15 (2e)-4-[[(2s)-2-amino-2-carboxyethyl]amino]-4-oxobut-2-enoate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.072 * +EC6.3.2.B15 l-isoleucine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.83 * +EC6.3.2.B15 l-leucine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 7.82 * +EC6.3.2.B15 l-valine pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.26 * +EC6.3.2.B15 nbeta-(r,r)-trans-epoxysuccinamoyl-(2s)-2,3-diaminopropionate pantoea agglomerans//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pantoea//pagc 0.053 * +EC6.3.3.1 2-(formamido)-n1-(5-phosphoribosyl)acetamidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC6.3.3.1 2-(formamido)-n1-(5-phosphoribosyl)acetamidine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.009 * +EC6.3.3.1 2-(formamido)-n1-(5-phosphoribosyl)acetamidine salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.049 * +EC6.3.3.1 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.073 * +EC6.3.3.1 atp salmonella enterica//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//sty 0.126 * +EC6.3.3.1 atpgammas escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.172 * +EC6.3.3.1 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.065 * +EC6.3.3.1 mgatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.078 * +EC6.3.3.2 (6r,s)-5-formyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.004 * +EC6.3.3.2 (6r,s)-5-formyltetrahydropteroyl-glu homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0044 * +EC6.3.3.2 (6s)-5-formyltetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC6.3.3.2 (6s)-5-formyltetrahydropteroyl pentaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0008 * +EC6.3.3.2 (6s)-5-formyltetrahydropteroyl-pentaglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0006 * +EC6.3.3.2 5-formyl-tetrahydropteroyl-pentaglutamate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0002 * +EC6.3.3.2 5-formyltetrahydrofolate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0006 * +EC6.3.3.2 5-formyltetrahydrofolate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.01 * +EC6.3.3.2 5-formyltetrahydrofolate mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.0025 * +EC6.3.3.2 5-formyltetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0005 * +EC6.3.3.2 5-formyltetrahydrofolate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.14 * +EC6.3.3.2 5-formyltetrahydrofolate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0051 * +EC6.3.3.2 araatp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0056 * +EC6.3.3.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.02 * +EC6.3.3.2 atp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.00096 * +EC6.3.3.2 atp mycoplasma pneumoniae//prokaryotes;bacteria;tenericutes;mycoplasma//mpn 0.076 * +EC6.3.3.2 atp ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.45 * +EC6.3.3.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.05 * +EC6.3.3.2 atpgammas lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.00021 * +EC6.3.3.2 ctp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0016 * +EC6.3.3.2 datp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0013 * +EC6.3.3.2 dttp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0066 * +EC6.3.3.2 gtp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.021 * +EC6.3.3.2 itp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.024 * +EC6.3.3.2 mgatp2- lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.001 * +EC6.3.3.2 mgatp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0003 * +EC6.3.3.2 mgctp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.4 * +EC6.3.3.2 mgutp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.5 * +EC6.3.3.2 utp lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.0064 * +EC6.3.3.3 7,8-diaminononanoate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0013 * +EC6.3.3.3 7,8-diaminononanoate lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.045 * +EC6.3.3.3 7,8-diaminononanoate mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.002 * +EC6.3.3.3 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC6.3.3.3 atp lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 0.42 * +EC6.3.3.3 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.029 * +EC6.3.3.3 hco3- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3.4 * +EC6.3.3.3 hco3- lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 10.0 * +EC6.3.3.3 mg2+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.6 * +EC6.3.3.3 mgcl2 lysinibacillus sphaericus//prokaryotes;bacteria;firmicutes - bacilli;lysinibacillus//lsp 40.0 * +EC6.3.3.4 (2'r)-methyl-l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.04 * +EC6.3.3.4 (2's)-ethyl-l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.06 * +EC6.3.3.4 (2's)-methyl-l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.06 * +EC6.3.3.4 atp streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.153 * +EC6.3.3.4 l-n2-(2-carboxyethyl)arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.037 * +EC6.3.3.4 n2-(carboxyethyl)-l-arginine streptomyces clavuligerus//prokaryotes;bacteria;actinobacteria;streptomyces//sclf 0.22 * +EC6.3.3.5 atp streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 0.023 * +EC6.3.3.5 d-homocysteine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 19.0 * +EC6.3.3.5 o-ureido-d-serine streptomyces lavendulae//prokaryotes;bacteria;actinobacteria;streptomyces//slx 10.0 * +EC6.3.3.6 (2r,5r)-5-carboxymethylproline pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 4.6 * +EC6.3.3.6 (2s,5r)-5-carboxymethylproline pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 7.0 * +EC6.3.3.6 (2s,5s)-5-carboxymethylproline pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.23 * +EC6.3.3.6 atp pectobacterium carotovorum//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;pectobacterium//pct 0.11 * +EC6.3.4.10 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC6.3.4.10 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.000385 * +EC6.3.4.10 biotin bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.3e-05 * +EC6.3.4.10 biotin gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0033 * +EC6.3.4.10 biotin oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 4.7e-06 * +EC6.3.4.10 biotinyl-amp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0056 * +EC6.3.4.10 p67 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 4.1 * +EC6.3.4.13 (+/-)-carbocyclic glycinamide ribonucleotide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.04588 * +EC6.3.4.13 5'-phosphoribosylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.07 * +EC6.3.4.13 5'-phosphoribosylglycinamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.00247 * +EC6.3.4.13 atp aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 1.01 * +EC6.3.4.13 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.056 * +EC6.3.4.13 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.167 * +EC6.3.4.13 beta-ala gallus gallus//eukaryotes;animals;vertebrates;birds//gga 3.695 * +EC6.3.4.13 gly escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.27 * +EC6.3.4.13 gly gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.042 * +EC6.3.4.13 gly klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.19 * +EC6.3.4.13 gly salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.062 * +EC6.3.4.13 glycine aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 0.59 * +EC6.3.4.13 mgadp- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.0064 * +EC6.3.4.13 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.17 * +EC6.3.4.13 phosphate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.54 * +EC6.3.4.13 sarcosine gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.2 * +EC6.3.4.14 adp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.08 * +EC6.3.4.14 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.081 * +EC6.3.4.14 biotin-carboxyl-carrier protein escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.16 * +EC6.3.4.14 biotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 35.1 * +EC6.3.4.14 carbamoyl phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 4.8 * +EC6.3.4.14 coatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0076 * +EC6.3.4.14 d-(+)-biotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 170.0 * +EC6.3.4.14 hco3- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.37 * +EC6.3.4.14 mgadp- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0398 * +EC6.3.4.14 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0546 * +EC6.3.4.14 mnadp- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00126 * +EC6.3.4.14 mnatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0025 * +EC6.3.4.15 [escherichia coli apo-biotin-carboxyl-carrier-protein mutant m136s]-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC6.3.4.15 [escherichia coli apo-biotin-carboxyl-carrier-protein]-l-lysine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.011 * +EC6.3.4.15 [sulfolobus tokodaii apo-biotin-carboxyl-carrier-protein mutant s136m]-lysine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.03 * +EC6.3.4.15 [sulfolobus tokodaii apo-biotin-carboxyl-carrier-protein]-lysine sulfolobus tokodaii//prokaryotes;archaea;crenarchaeota;sulfolobus//sto 0.00044 * +EC6.3.4.15 apo-[acetyl-coa:carbon-dioxide ligase (adp-forming)] mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0052 * +EC6.3.4.15 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.25 * +EC6.3.4.15 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0211 * +EC6.3.4.15 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.18 * +EC6.3.4.15 biotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0003 * +EC6.3.4.15 biotin homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC6.3.4.15 biotin staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00101 * +EC6.3.4.15 d-biotin mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.000424 * +EC6.3.4.15 mgatp2- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.2 * +EC6.3.4.15 yeast acceptor peptide saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.13 * +EC6.3.4.16 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.26 * +EC6.3.4.16 atp methanobrevibacter smithii//prokaryotes;archaea;euryarchaeota;methanobrevibacter//msi 0.6 * +EC6.3.4.16 co2 pyrococcus abyssi//prokaryotes;archaea;euryarchaeota;pyrococcus//pab 2.3 * +EC6.3.4.16 coatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.2 * +EC6.3.4.16 coatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.2 * +EC6.3.4.16 hco3- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.44 * +EC6.3.4.16 hco3- methanobrevibacter smithii//prokaryotes;archaea;euryarchaeota;methanobrevibacter//msi 1.0 * +EC6.3.4.16 hco3- phycomyces blakesleeanus//*//* 10.5 * +EC6.3.4.16 hco3- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 5.0 * +EC6.3.4.16 mgatp2- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.1 * +EC6.3.4.16 mgatp2- phycomyces blakesleeanus//*//* 0.93 * +EC6.3.4.16 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.054 * +EC6.3.4.16 mnatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC6.3.4.16 n-acetylglutamate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC6.3.4.16 nh3 rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.038 * +EC6.3.4.16 nh4+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.35 * +EC6.3.4.16 nh4+ methanobrevibacter smithii//prokaryotes;archaea;euryarchaeota;methanobrevibacter//msi 15.6 * +EC6.3.4.16 nh4+ phycomyces blakesleeanus//*//* 6.34 * +EC6.3.4.16 nh4+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.0 * +EC6.3.4.17 dihydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.097 * +EC6.3.4.17 dihydrofolate lactobacillus casei//prokaryotes;bacteria;firmicutes - bacilli;lactobacillus//lcb 0.911 * +EC6.3.4.18 5-amino-1(5-phospho-d-ribosyl)imidazole escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.066 * +EC6.3.4.18 5-amino-1-(5-phospho-d-ribosyl)imidazole aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 0.025 * +EC6.3.4.18 5-amino-1-(5-phospho-d-ribosyl)imidazole staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0139 * +EC6.3.4.18 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.048 * +EC6.3.4.18 atp staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.0432 * +EC6.3.4.18 hco3- aspergillus clavatus//eukaryotes;fungi;ascomycetes;eurotiomycetes//act 3.9 * +EC6.3.4.18 hco3- staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 18.8 * +EC6.3.4.2 atp chlamydia trachomatis//prokaryotes;bacteria;chlamydiae;chlamydia//ctr 0.097 * +EC6.3.4.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.054 * +EC6.3.4.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.002 * +EC6.3.4.2 atp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.07 * +EC6.3.4.2 gln-nh2 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 39.4 * +EC6.3.4.2 gln-oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.165 * +EC6.3.4.2 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.354 * +EC6.3.4.2 gln lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 0.259 * +EC6.3.4.2 glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.206 * +EC6.3.4.2 glutamine rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.1 * +EC6.3.4.2 gtp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC6.3.4.2 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.07 * +EC6.3.4.2 gtp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.07 * +EC6.3.4.2 l-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.027 * +EC6.3.4.2 l-glutamine trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.26 * +EC6.3.4.2 nh2oh escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 82.8 * +EC6.3.4.2 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.15 * +EC6.3.4.2 nh4+ lactococcus lactis//prokaryotes;bacteria;firmicutes - bacilli;lactococcus//lla 54.0 * +EC6.3.4.2 utp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.07 * +EC6.3.4.2 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.027 * +EC6.3.4.2 utp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.19 * +EC6.3.4.2 utp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.04 * +EC6.3.4.2 utp trypanosoma brucei//eukaryotes;protists;euglenozoa;kinetoplasts//tbr 0.16 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.06 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.05 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.00022 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.013 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.024 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.022 * +EC6.3.4.21 5-phospho-alpha-d-ribose 1-diphosphate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.013 * +EC6.3.4.21 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.35 * +EC6.3.4.21 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.4 * +EC6.3.4.21 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.07 * +EC6.3.4.21 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.33 * +EC6.3.4.21 gtp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.34 * +EC6.3.4.21 itp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 1.16 * +EC6.3.4.21 mg-5-phospho-alpha-d-ribose 1-diphosphate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.02 * +EC6.3.4.21 nicotinate bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.0008 * +EC6.3.4.21 nicotinate bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.001 * +EC6.3.4.21 nicotinate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.002 * +EC6.3.4.21 nicotinate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0005 * +EC6.3.4.21 nicotinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.22 * +EC6.3.4.21 nicotinate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.023 * +EC6.3.4.21 nicotinate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0015 * +EC6.3.4.21 nicotinate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.22 * +EC6.3.4.21 nicotinic acid homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0127 * +EC6.3.4.22 [trnaile2]-cytidine34 archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00029 * +EC6.3.4.22 agmatine archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.00087 * +EC6.3.4.22 atp archaeoglobus fulgidus//prokaryotes;archaea;euryarchaeota;archaeoglobus//afu 0.006 * +EC6.3.4.24 atp methanocaldococcus fervens//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mfe 1.5 * +EC6.3.4.24 l-glutamate methanocaldococcus fervens//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mfe 2.3 * +EC6.3.4.3 adp clostridium cylindrosporum//*//* 0.032 * +EC6.3.4.3 atp clostridium cylindrosporum//*//* 0.22 * +EC6.3.4.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0302 * +EC6.3.4.3 atp methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.021 * +EC6.3.4.3 atp moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.087 * +EC6.3.4.3 atp pisum sativum//*//* 0.012 * +EC6.3.4.3 carbamoyl phosphate clostridium cylindrosporum//*//* 11.9 * +EC6.3.4.3 formate clostridium cylindrosporum//*//* 6.7 * +EC6.3.4.3 formate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0367 * +EC6.3.4.3 formate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 22.0 * +EC6.3.4.3 formate moorella thermoacetica//prokaryotes;bacteria;firmicutes - clostridia;moorella//mta 0.46 * +EC6.3.4.3 formate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.166 * +EC6.3.4.3 formate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 5.4 * +EC6.3.4.3 formate pisum sativum//*//* 0.035 * +EC6.3.4.3 formate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 38.0 * +EC6.3.4.3 formate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 16.0 * +EC6.3.4.3 mgatp2- clostridium cylindrosporum//*//* 0.12 * +EC6.3.4.3 mgatp2- oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.067 * +EC6.3.4.3 mgatp2- ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.086 * +EC6.3.4.3 mgatp2- pisum sativum//*//* 0.14 * +EC6.3.4.3 mgatp2- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.12 * +EC6.3.4.3 mgatp2- sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.056 * +EC6.3.4.3 n10-formyltetrahydrofolate clostridium cylindrosporum//*//* 10.0 * +EC6.3.4.3 phosphate clostridium cylindrosporum//*//* 5.0 * +EC6.3.4.3 tetrahydrofolate clostridium cylindrosporum//*//* 0.032 * +EC6.3.4.3 tetrahydrofolate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.364 * +EC6.3.4.3 tetrahydrofolate methylobacterium extorquens//prokaryotes;bacteria;alphaproteobacteria;methylobacterium//mex 0.8 * +EC6.3.4.3 tetrahydrofolate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.015 * +EC6.3.4.3 tetrahydrofolate ovis aries//eukaryotes;animals;vertebrates;mammals//oas 0.46 * +EC6.3.4.3 tetrahydrofolate pisum sativum//*//* 0.04 * +EC6.3.4.3 tetrahydrofolate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 2.3 * +EC6.3.4.3 tetrahydrofolate sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC6.3.4.3 tetrahydropteroyl-glu2 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0055 * +EC6.3.4.3 tetrahydropteroyl-glu2 pisum sativum//*//* 0.029 * +EC6.3.4.3 tetrahydropteroyl-glu3 clostridium cylindrosporum//*//* 0.025 * +EC6.3.4.3 tetrahydropteroyl-glu3 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0003 * +EC6.3.4.3 tetrahydropteroyl-glu3 pisum sativum//*//* 0.016 * +EC6.3.4.3 tetrahydropteroyl-glu4 oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0001 * +EC6.3.4.3 tetrahydropteroyl-glu5 pisum sativum//*//* 0.003 * +EC6.3.4.4 2'-dimp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.041 * +EC6.3.4.4 2'-dimp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.48 * +EC6.3.4.4 2'-dimp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.058 * +EC6.3.4.4 8-azaimp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.05 * +EC6.3.4.4 allopurinol ribonucleotide leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.34 * +EC6.3.4.4 arabinosylimp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.26 * +EC6.3.4.4 arabinosylimp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.26 * +EC6.3.4.4 asp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.5 * +EC6.3.4.4 asp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.68 * +EC6.3.4.4 asp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.03 * +EC6.3.4.4 asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.3.4.4 asp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.03 * +EC6.3.4.4 asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.95 * +EC6.3.4.4 asp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.43 * +EC6.3.4.4 asp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.29 * +EC6.3.4.4 asp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.25 * +EC6.3.4.4 asp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 1.5 * +EC6.3.4.4 asp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.23 * +EC6.3.4.4 asp triticum aestivum//*//* 0.43 * +EC6.3.4.4 asp zea mays//eukaryotes;plants;monocots;grass family//zma 0.335 * +EC6.3.4.4 aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.23 * +EC6.3.4.4 aspartate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.4 * +EC6.3.4.4 beta-d-arabinosylimp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.85 * +EC6.3.4.4 gtp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.015 * +EC6.3.4.4 gtp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.023 * +EC6.3.4.4 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC6.3.4.4 gtp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.012 * +EC6.3.4.4 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.031 * +EC6.3.4.4 gtp leishmania donovani//eukaryotes;protists;euglenozoa;kinetoplasts//ldo 0.012 * +EC6.3.4.4 gtp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0426 * +EC6.3.4.4 gtp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.009 * +EC6.3.4.4 gtp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.01 * +EC6.3.4.4 gtp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0048 * +EC6.3.4.4 gtp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.004 * +EC6.3.4.4 gtp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.06 * +EC6.3.4.4 gtp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.02 * +EC6.3.4.4 gtp sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.011 * +EC6.3.4.4 gtp triticum aestivum//*//* 0.09 * +EC6.3.4.4 gtp zea mays//eukaryotes;plants;monocots;grass family//zma 0.016 * +EC6.3.4.4 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 230.0 * +EC6.3.4.4 imp azotobacter vinelandii//prokaryotes;bacteria;gammaproteobacteria - others;azotobacter//avn 0.013 * +EC6.3.4.4 imp dictyostelium discoideum//eukaryotes;protists;amoebozoa;dictyostelium//ddi 0.036 * +EC6.3.4.4 imp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC6.3.4.4 imp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.171 * +EC6.3.4.4 imp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.037 * +EC6.3.4.4 imp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.0755 * +EC6.3.4.4 imp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.009 * +EC6.3.4.4 imp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.107 * +EC6.3.4.4 imp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0167 * +EC6.3.4.4 imp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC6.3.4.4 imp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.3 * +EC6.3.4.4 imp schizosaccharomyces pombe//eukaryotes;fungi;ascomycetes;schizosaccharomycetes//spo 0.037 * +EC6.3.4.4 imp zea mays//eukaryotes;plants;monocots;grass family//zma 0.021 * +EC6.3.4.4 itp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 17.3 * +EC6.3.4.4 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.013 * +EC6.3.4.4 l-asp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.004 * +EC6.3.4.4 l-asp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.31 * +EC6.3.4.4 l-asp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.98 * +EC6.3.4.4 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.01 * +EC6.3.4.4 l-aspartate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 1.079 * +EC6.3.4.4 l-aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.14 * +EC6.3.4.4 l-aspartate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 1.8 * +EC6.3.4.4 l-aspartate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.0 * +EC6.3.4.4 utp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.06 * +EC6.3.4.4 xtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.388 * +EC6.3.4.5 amp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.022 * +EC6.3.4.5 argininosuccinate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC6.3.4.5 asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.017 * +EC6.3.4.5 aspartate mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.12 * +EC6.3.4.5 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.041 * +EC6.3.4.5 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.15 * +EC6.3.4.5 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC6.3.4.5 citrulline bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.02 * +EC6.3.4.5 citrulline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.024 * +EC6.3.4.5 citrulline mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.18 * +EC6.3.4.5 citrulline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.02 * +EC6.3.4.5 diphosphate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.016 * +EC6.3.4.5 diphosphate rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC6.3.4.5 l-asp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.035 * +EC6.3.4.5 l-asp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.029 * +EC6.3.4.5 l-asp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.025 * +EC6.3.4.5 l-citrulline homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.03 * +EC6.3.4.5 l-citrulline rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.026 * +EC6.3.4.5 threo-beta-hydroxy-l-asp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4.5 * +EC6.3.4.5 threo-beta-methyl-l-asp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.88 * +EC6.3.4.6 acetamide oleomonas sagaranensis//*//* 126.0 * +EC6.3.4.6 atp cyberlindnera jadinii//*//* 0.25 * +EC6.3.4.6 formamide oleomonas sagaranensis//*//* 56.5 * +EC6.3.4.6 hco3- cyberlindnera jadinii//*//* 0.5 * +EC6.3.4.6 hco3- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.03 * +EC6.3.4.6 urea cyberlindnera jadinii//*//* 0.1 * +EC6.3.4.6 urea kluyveromyces lactis//eukaryotes;fungi;ascomycetes;saccharomycetes//kla 0.32 * +EC6.3.4.6 urea oleomonas sagaranensis//*//* 7.17 * +EC6.3.4.6 urea saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.1 * +EC6.3.4.7 5-o-phosphono-d-ribofuranose gallus gallus//eukaryotes;animals;vertebrates;birds//gga 1.8 * +EC6.3.4.7 nh4+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 6.3 * +EC6.3.4.8 5-phosphoribosyl diphosphate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.0034 * +EC6.3.4.8 atp oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.218 * +EC6.3.4.8 imidazoleacetate oryctolagus cuniculus//eukaryotes;animals;vertebrates;mammals//ocu 0.372 * +EC6.3.4.9 (+)-biotin propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.00042 * +EC6.3.4.9 1.3s subunit of apotranscarboxylase propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.0009 * +EC6.3.4.9 atp propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.038 * +EC6.3.4.9 biotin propionibacterium freudenreichii subsp. shermanii//prokaryotes;bacteria;actinobacteria;propionibacterium//pfr 0.002 * +EC6.3.5.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.015 * +EC6.3.5.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.1 * +EC6.3.5.1 atp nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.18 * +EC6.3.5.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.17 * +EC6.3.5.1 atp thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.095 * +EC6.3.5.1 deamido-nad+ acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.017 * +EC6.3.5.1 deamido-nad+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.04 * +EC6.3.5.1 deamido-nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.13 * +EC6.3.5.1 deamido-nad+ nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 0.083 * +EC6.3.5.1 deamido-nad+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.19 * +EC6.3.5.1 deamido-nad+ thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.021 * +EC6.3.5.1 deamido-nmn acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 4.3 * +EC6.3.5.1 gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 2.17 * +EC6.3.5.1 gln nicotiana tabacum//eukaryotes;plants;eudicots;nightshade family//nta 2.0 * +EC6.3.5.1 gln saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.0 * +EC6.3.5.1 l-gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.001 * +EC6.3.5.1 l-gln mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.3 * +EC6.3.5.1 l-gln thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.42 * +EC6.3.5.1 l-glutamine homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.44 * +EC6.3.5.1 l-glutamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.5 * +EC6.3.5.1 l-glutamine saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 5.3 * +EC6.3.5.1 nh3 homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 13.1 * +EC6.3.5.1 nh3 thermotoga maritima//prokaryotes;bacteria;thermotogae;thermotoga//tma 0.33 * +EC6.3.5.1 nh4+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 64.2 * +EC6.3.5.1 nh4+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 2.7 * +EC6.3.5.1 nh4+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 6.4 * +EC6.3.5.10 adenosylcobyrinic acid a,c-diamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00104 * +EC6.3.5.10 adenosylcobyrinic acid diamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0027 * +EC6.3.5.10 adenosylcobyrinic acid pentaamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00125 * +EC6.3.5.10 adenosylcobyrinic acid pentaamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0007 * +EC6.3.5.10 adenosylcobyrinic acid tetraamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00121 * +EC6.3.5.10 adenosylcobyrinic acid tetraamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0008 * +EC6.3.5.10 adenosylcobyrinic acid triamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00122 * +EC6.3.5.10 adenosylcobyrinic acid triamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.001 * +EC6.3.5.10 ammonia pseudomonas denitrificans (nomen rejiciendum)//*//* 20.4 * +EC6.3.5.10 atp pseudomonas denitrificans (nomen rejiciendum)//*//* 0.011 * +EC6.3.5.10 l-glutamine pseudomonas denitrificans (nomen rejiciendum)//*//* 0.033 * +EC6.3.5.11 (aq)2cobyrinate pseudomonas denitrificans (nomen rejiciendum)//*//* 0.25 * +EC6.3.5.11 (cn,aq)cobyrinate c-monoamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.071 * +EC6.3.5.11 (cn,aq)cobyrinate pseudomonas denitrificans (nomen rejiciendum)//*//* 0.16 * +EC6.3.5.11 ammonia pseudomonas denitrificans (nomen rejiciendum)//*//* 12.0 * +EC6.3.5.11 ammonia salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 26.2 * +EC6.3.5.11 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0027 * +EC6.3.5.11 cobyrinate salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.00074 * +EC6.3.5.11 hydrogenobyrinate c-monoamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00021 * +EC6.3.5.11 hydrogenobyrinate pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00041 * +EC6.3.5.11 l-glutamine pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0203 * +EC6.3.5.11 l-glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.053 * +EC6.3.5.2 (nh4)2so4 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 5.4 * +EC6.3.5.2 1-ribosyl-4,6-dihydroxypyrazolo[3,4-d]-pyrimidine 5-phosphate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.0 * +EC6.3.5.2 2-dxmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.125 * +EC6.3.5.2 6-thioxmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.42 * +EC6.3.5.2 8-azaxmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.35 * +EC6.3.5.2 8-azaxmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.05 * +EC6.3.5.2 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.104 * +EC6.3.5.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.131 * +EC6.3.5.2 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.28 * +EC6.3.5.2 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.027 * +EC6.3.5.2 atp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.26 * +EC6.3.5.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.12 * +EC6.3.5.2 gln homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.405 * +EC6.3.5.2 gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.68 * +EC6.3.5.2 gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.21 * +EC6.3.5.2 gmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0112 * +EC6.3.5.2 l-gln plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.472 * +EC6.3.5.2 l-glutamine mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 1.24 * +EC6.3.5.2 l-glutamine plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.472 * +EC6.3.5.2 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.11 * +EC6.3.5.2 nh3 escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.09 * +EC6.3.5.2 nh3 plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.132 * +EC6.3.5.2 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.3.5.2 nh4+ homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 5.1 * +EC6.3.5.2 nh4+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 36.0 * +EC6.3.5.2 xmp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.029 * +EC6.3.5.2 xmp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0356 * +EC6.3.5.2 xmp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0036 * +EC6.3.5.2 xmp plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 0.0168 * +EC6.3.5.2 xmp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0044 * +EC6.3.5.3 (-)carbocyclic-5'-phosphoribosylformylglycinamidine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.0468 * +EC6.3.5.3 5'-phosphoribosylformylglycinamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.1 * +EC6.3.5.3 5'-phosphoribosylformylglycinamide rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.06 * +EC6.3.5.3 alpha,beta-5'-phosphoribosylformylglycinamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.18 * +EC6.3.5.3 atp bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.181 * +EC6.3.5.3 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.5 * +EC6.3.5.3 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.5 * +EC6.3.5.3 beta-5'-phosphoribosylformylglycinamide gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.23 * +EC6.3.5.3 formylglycinamide ribonucleotide bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.507 * +EC6.3.5.3 gln gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.2 * +EC6.3.5.3 gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.11 * +EC6.3.5.3 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.03 * +EC6.3.5.3 l-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.03 * +EC6.3.5.3 l-glutamine bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 1.3 * +EC6.3.5.3 mgatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.4 * +EC6.3.5.3 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.0 * +EC6.3.5.3 nh4+ gallus gallus//eukaryotes;animals;vertebrates;birds//gga 80.0 * +EC6.3.5.3 nh4+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 7.5 * +EC6.3.5.4 asp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.6 * +EC6.3.5.4 asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.53 * +EC6.3.5.4 asp glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.24 * +EC6.3.5.4 asp lupinus luteus//*//* 1.3 * +EC6.3.5.4 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.7 * +EC6.3.5.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.3.5.4 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.106 * +EC6.3.5.4 atp klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.24 * +EC6.3.5.4 atp lupinus albus//*//* 0.15 * +EC6.3.5.4 atp lupinus luteus//*//* 0.14 * +EC6.3.5.4 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.2 * +EC6.3.5.4 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.14 * +EC6.3.5.4 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC6.3.5.4 gln bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.4 * +EC6.3.5.4 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.66 * +EC6.3.5.4 gln glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.16 * +EC6.3.5.4 gln klebsiella aerogenes//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//eae 0.55 * +EC6.3.5.4 gln lupinus luteus//*//* 0.16 * +EC6.3.5.4 gln medicago sativa//*//* 0.16 * +EC6.3.5.4 gln saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.57 * +EC6.3.5.4 hydroxylamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 11.5 * +EC6.3.5.4 l-asp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.58 * +EC6.3.5.4 l-asp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.85 * +EC6.3.5.4 l-asp lupinus albus//*//* 0.8 * +EC6.3.5.4 l-asp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.9 * +EC6.3.5.4 l-asp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.31 * +EC6.3.5.4 l-asp streptomyces sp.//prokaryotes;bacteria;actinobacteria;streptomyces//ssx 0.9 * +EC6.3.5.4 l-asp zea mays//eukaryotes;plants;monocots;grass family//zma 0.91 * +EC6.3.5.4 l-aspartate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.68 * +EC6.3.5.4 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.69 * +EC6.3.5.4 l-gln glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.254 * +EC6.3.5.4 l-gln lupinus albus//*//* 0.04 * +EC6.3.5.4 l-gln mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 1.0 * +EC6.3.5.4 l-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.1 * +EC6.3.5.4 l-gln zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC6.3.5.4 l-glutamic acid gamma-monohydroxamate escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.26 * +EC6.3.5.4 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.69 * +EC6.3.5.4 mgatp2- glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.076 * +EC6.3.5.4 nh3 zea mays//eukaryotes;plants;monocots;grass family//zma 0.75 * +EC6.3.5.4 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 15.7 * +EC6.3.5.4 nh4+ lupinus albus//*//* 2.1 * +EC6.3.5.4 nh4+ medicago sativa//*//* 2.7 * +EC6.3.5.4 nh4+ mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 9.0 * +EC6.3.5.4 nh4+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 10.0 * +EC6.3.5.4 nh4+ saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 20.0 * +EC6.3.5.5 ammonia clarias batrachus//*//* 2.2 * +EC6.3.5.5 ammonia escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 111.0 * +EC6.3.5.5 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.005 * +EC6.3.5.5 atp mammalia//*//* 1.66 * +EC6.3.5.5 gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.12 * +EC6.3.5.5 gln pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.15 * +EC6.3.5.5 hco3- crithidia fasciculata//*//* 1.2 * +EC6.3.5.5 hco3- drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 3.0 * +EC6.3.5.5 hco3- escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 1.33 * +EC6.3.5.5 hco3- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.0 * +EC6.3.5.5 l-gln crithidia fasciculata//*//* 0.1 * +EC6.3.5.5 l-gln escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.11 * +EC6.3.5.5 l-gln geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.18 * +EC6.3.5.5 l-gln rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0119 * +EC6.3.5.5 l-glutamine bacillus amyloliquefaciens//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bao 0.23 * +EC6.3.5.5 l-glutamine clarias batrachus//*//* 0.46 * +EC6.3.5.5 l-glutamine drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.057 * +EC6.3.5.5 l-glutamine escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.13 * +EC6.3.5.5 l-glutamine mammalia//*//* 0.114 * +EC6.3.5.5 mgatp2- crithidia fasciculata//*//* 1.7 * +EC6.3.5.5 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.7 * +EC6.3.5.5 nh4+ crithidia fasciculata//*//* 26.0 * +EC6.3.5.5 nh4+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 93.0 * +EC6.3.5.5 nh4+ geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 9.8 * +EC6.3.5.5 nh4+ pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 17.0 * +EC6.3.5.5 nh4+ rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 15.0 * +EC6.3.5.6 asn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0224 * +EC6.3.5.6 asp-trnaasn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00095 * +EC6.3.5.6 asp-trnagln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00118 * +EC6.3.5.6 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.2068 * +EC6.3.5.6 gln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0207 * +EC6.3.5.7 asn bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.1 * +EC6.3.5.7 asn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0224 * +EC6.3.5.7 asp-trnaasn helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00095 * +EC6.3.5.7 asp-trnagln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00118 * +EC6.3.5.7 atp helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.2068 * +EC6.3.5.7 atp streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.117 * +EC6.3.5.7 gln bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 0.01 * +EC6.3.5.7 gln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.0207 * +EC6.3.5.7 gln streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0159 * +EC6.3.5.7 glu-trnagln helicobacter pylori//prokaryotes;bacteria;epsilonproteobacteria;helicobacter//hpy 0.00042 * +EC6.3.5.7 glu-trnagln methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0017 * +EC6.3.5.7 l-glutamyl-trnaglu streptococcus pyogenes//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spy 0.0002 * +EC6.3.5.7 trnagln1(uug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00539 * +EC6.3.5.7 trnagln2(cug) methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00133 * +EC6.3.5.7 trnaglu methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.00361 * +EC6.3.5.9 (aq)2cobyrinic acid pseudomonas denitrificans (nomen rejiciendum)//*//* 0.25 * +EC6.3.5.9 (cn,aq)cobyrinic acid c-monoamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.071 * +EC6.3.5.9 (cn,aq)cobyrinic acid pseudomonas denitrificans (nomen rejiciendum)//*//* 0.16 * +EC6.3.5.9 adenosyl-cobyrinic acid a,c-diamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00104 * +EC6.3.5.9 adenosyl-cobyrinic acid pentaamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00125 * +EC6.3.5.9 adenosyl-cobyrinic acid tetraamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00121 * +EC6.3.5.9 adenosyl-cobyrinic acid triamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00122 * +EC6.3.5.9 ammonia pseudomonas denitrificans (nomen rejiciendum)//*//* 0.012 * +EC6.3.5.9 atp pseudomonas denitrificans (nomen rejiciendum)//*//* 0.011 * +EC6.3.5.9 atp salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.0027 * +EC6.3.5.9 cobyrinic acid c-monoamide salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.00041 * +EC6.3.5.9 cobyrinic acid salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.00074 * +EC6.3.5.9 glutamine pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0203 * +EC6.3.5.9 glutamine salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 0.053 * +EC6.3.5.9 hydrogenobyrinic acid c-monoamide pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00021 * +EC6.3.5.9 hydrogenobyrinic acid pseudomonas denitrificans (nomen rejiciendum)//*//* 0.00041 * +EC6.3.5.9 l-glutamine pseudomonas denitrificans (nomen rejiciendum)//*//* 0.033 * +EC6.3.5.9 nh4+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 26.2 * +EC6.4.1.1 adp rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.0028 * +EC6.4.1.1 atp emiliania huxleyi//eukaryotes;protists;haptophyta//ehx 0.048 * +EC6.4.1.1 atp geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.38 * +EC6.4.1.1 atp geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.46 * +EC6.4.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.22 * +EC6.4.1.1 atp methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.374 * +EC6.4.1.1 atp mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.2 * +EC6.4.1.1 atp phycomyces blakesleeanus//*//* 0.24 * +EC6.4.1.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.24 * +EC6.4.1.1 atp rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.009 * +EC6.4.1.1 atp saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.056 * +EC6.4.1.1 atp sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.66 * +EC6.4.1.1 atp starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.04 * +EC6.4.1.1 biotin geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 3.3 * +EC6.4.1.1 carbamoyl phosphate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 11.3 * +EC6.4.1.1 hco3- apis mellifera//eukaryotes;animals;arthropods;insects//ame 3.3 * +EC6.4.1.1 hco3- arthrobacter globiformis//*//* 0.33 * +EC6.4.1.1 hco3- bacillus sp.//prokaryotes;bacteria;gammaproteobacteria - others;halothiobacillus//haz 16.0 * +EC6.4.1.1 hco3- emiliania huxleyi//eukaryotes;protists;haptophyta//ehx 0.47 * +EC6.4.1.1 hco3- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.33 * +EC6.4.1.1 hco3- geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.33 * +EC6.4.1.1 hco3- geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 29.9 * +EC6.4.1.1 hco3- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.2 * +EC6.4.1.1 hco3- leptosphaeria michotii//*//* 0.66 * +EC6.4.1.1 hco3- methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.22 * +EC6.4.1.1 hco3- mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 3.0 * +EC6.4.1.1 hco3- pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 3.1 * +EC6.4.1.1 hco3- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.7 * +EC6.4.1.1 hco3- rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 10.8 * +EC6.4.1.1 hco3- saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 1.36 * +EC6.4.1.1 hco3- schistocerca gregaria//*//* 16.1 * +EC6.4.1.1 hco3- sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 5.6 * +EC6.4.1.1 hco3- starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.27 * +EC6.4.1.1 hco3- tenebrio molitor//*//* 0.27 * +EC6.4.1.1 mgatp2- arthrobacter globiformis//*//* 0.08 * +EC6.4.1.1 mgatp2- gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.027 * +EC6.4.1.1 mgatp2- geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.6 * +EC6.4.1.1 mgatp2- pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.08 * +EC6.4.1.1 mgatp2- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.19 * +EC6.4.1.1 mgatp2- schistocerca gregaria//*//* 0.14 * +EC6.4.1.1 oxamate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 4.1 * +EC6.4.1.1 pyruvate apis mellifera//eukaryotes;animals;arthropods;insects//ame 0.26 * +EC6.4.1.1 pyruvate arthrobacter globiformis//*//* 1.86 * +EC6.4.1.1 pyruvate emiliania huxleyi//eukaryotes;protists;haptophyta//ehx 0.88 * +EC6.4.1.1 pyruvate gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.25 * +EC6.4.1.1 pyruvate geobacillus stearothermophilus//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gse 0.128 * +EC6.4.1.1 pyruvate geobacillus thermodenitrificans//prokaryotes;bacteria;firmicutes - bacilli;geobacillus//gtn 0.039 * +EC6.4.1.1 pyruvate homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC6.4.1.1 pyruvate leptosphaeria michotii//*//* 0.2 * +EC6.4.1.1 pyruvate methanocaldococcus jannaschii//prokaryotes;archaea;euryarchaeota;methanocaldococcus//mja 0.53 * +EC6.4.1.1 pyruvate mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.3 * +EC6.4.1.1 pyruvate phycomyces blakesleeanus//*//* 0.05 * +EC6.4.1.1 pyruvate pseudomonas fluorescens//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pfo 0.21 * +EC6.4.1.1 pyruvate rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.15 * +EC6.4.1.1 pyruvate saccharomyces cerevisiae//eukaryotes;fungi;ascomycetes;saccharomycetes//sce 0.495 * +EC6.4.1.1 pyruvate schistocerca gregaria//*//* 0.25 * +EC6.4.1.1 pyruvate sinorhizobium meliloti//prokaryotes;bacteria;alphaproteobacteria;sinorhizobium//sme 0.26 * +EC6.4.1.1 pyruvate staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.58 * +EC6.4.1.1 pyruvate starkeya novella//prokaryotes;bacteria;alphaproteobacteria;starkeya//sno 0.25 * +EC6.4.1.2 acetodethio-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 1.25 * +EC6.4.1.2 acetyl-coa acidianus brierleyi//*//* 0.17 * +EC6.4.1.2 acetyl-coa acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.0088 * +EC6.4.1.2 acetyl-coa alopecurus myosuroides//*//* 0.01 * +EC6.4.1.2 acetyl-coa anser anser//*//* 0.142 * +EC6.4.1.2 acetyl-coa brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.074 * +EC6.4.1.2 acetyl-coa cyclotella cryptica//*//* 0.233 * +EC6.4.1.2 acetyl-coa festuca rubra//*//* 0.11 * +EC6.4.1.2 acetyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.17 * +EC6.4.1.2 acetyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0002 * +EC6.4.1.2 acetyl-coa klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.0487 * +EC6.4.1.2 acetyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.06 * +EC6.4.1.2 acetyl-coa petroselinum crispum//*//* 0.15 * +EC6.4.1.2 acetyl-coa pisum sativum//*//* 0.021 * +EC6.4.1.2 acetyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.0215 * +EC6.4.1.2 acetyl-coa rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.392 * +EC6.4.1.2 acetyl-coa ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.05 * +EC6.4.1.2 acetyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.1 * +EC6.4.1.2 acetyl-coa yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.26 * +EC6.4.1.2 acetyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.05 * +EC6.4.1.2 atp acinetobacter baumannii//prokaryotes;bacteria;gammaproteobacteria - others;acinetobacter//acb 0.1037 * +EC6.4.1.2 atp alopecurus myosuroides//*//* 0.08 * +EC6.4.1.2 atp anser anser//*//* 0.1 * +EC6.4.1.2 atp brassica napus//eukaryotes;plants;eudicots;mustard family//bna 0.038 * +EC6.4.1.2 atp festuca rubra//*//* 0.12 * +EC6.4.1.2 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.14 * +EC6.4.1.2 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.052 * +EC6.4.1.2 atp klebsiella pneumoniae//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;klebsiella//kpn 0.083 * +EC6.4.1.2 atp metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.04 * +EC6.4.1.2 atp pisum sativum//*//* 0.038 * +EC6.4.1.2 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.015 * +EC6.4.1.2 atp rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.105 * +EC6.4.1.2 atp ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 0.1 * +EC6.4.1.2 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.04 * +EC6.4.1.2 biotin escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.4.1.2 butyryl-coa anser anser//*//* 0.143 * +EC6.4.1.2 butyryl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.099 * +EC6.4.1.2 hco3- alopecurus myosuroides//*//* 1.25 * +EC6.4.1.2 hco3- brassica napus//eukaryotes;plants;eudicots;mustard family//bna 3.0 * +EC6.4.1.2 hco3- cyclotella cryptica//*//* 0.75 * +EC6.4.1.2 hco3- euglena gracilis//*//* 4.7 * +EC6.4.1.2 hco3- festuca rubra//*//* 1.15 * +EC6.4.1.2 hco3- glycine max//eukaryotes;plants;eudicots;pea family//gmx 1.13 * +EC6.4.1.2 hco3- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC6.4.1.2 hco3- metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.3 * +EC6.4.1.2 hco3- petroselinum crispum//*//* 1.0 * +EC6.4.1.2 hco3- pisum sativum//*//* 2.8 * +EC6.4.1.2 hco3- rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 2.25 * +EC6.4.1.2 hco3- rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.645 * +EC6.4.1.2 hco3- ricinus communis//eukaryotes;plants;eudicots;spurge family//rcu 3.0 * +EC6.4.1.2 hco3- yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 3.7 * +EC6.4.1.2 hco3- zea mays//eukaryotes;plants;monocots;grass family//zma 0.39 * +EC6.4.1.2 malonyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.016 * +EC6.4.1.2 mg2+ rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.83 * +EC6.4.1.2 mgatp2- cyclotella cryptica//*//* 0.065 * +EC6.4.1.2 mgatp2- petroselinum crispum//*//* 0.07 * +EC6.4.1.2 mgatp2- pisum sativum//*//* 0.16 * +EC6.4.1.2 mgatp2- yarrowia lipolytica//eukaryotes;fungi;ascomycetes;saccharomycetes//yli 0.07 * +EC6.4.1.2 propionyl-coa rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.045 * +EC6.4.1.2 propionyl-coa rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.144 * +EC6.4.1.2 propionyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.092 * +EC6.4.1.3 acetyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 4.6 * +EC6.4.1.3 acetyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.06 * +EC6.4.1.3 acetyl-coa mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.31 * +EC6.4.1.3 acetyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.05 * +EC6.4.1.3 acetyl-coa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.25 * +EC6.4.1.3 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.08 * +EC6.4.1.3 atp metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.04 * +EC6.4.1.3 atp myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.036 * +EC6.4.1.3 butanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 1.2 * +EC6.4.1.3 butanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 1.5 * +EC6.4.1.3 butyryl-coa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.22 * +EC6.4.1.3 butyryl-coa rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.144 * +EC6.4.1.3 butyryl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.104 * +EC6.4.1.3 hco3- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 7.0 * +EC6.4.1.3 hco3- homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.0 * +EC6.4.1.3 hco3- metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.3 * +EC6.4.1.3 hco3- myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.13 * +EC6.4.1.3 propanoyl-coa acidianus brierleyi//*//* 0.1 * +EC6.4.1.3 propanoyl-coa amycolatopsis mediterranei//prokaryotes;bacteria;actinobacteria;amycolatopsis//amd 0.32 * +EC6.4.1.3 propanoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 2.6 * +EC6.4.1.3 propanoyl-coa homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.29 * +EC6.4.1.3 propanoyl-coa metallosphaera sedula//prokaryotes;archaea;crenarchaeota;metallosphaera//mse 0.07 * +EC6.4.1.3 propanoyl-coa mycobacterium phlei//prokaryotes;bacteria;actinobacteria;mycobacterium//mphl 0.1 * +EC6.4.1.3 propanoyl-coa mycobacterium smegmatis//prokaryotes;bacteria;actinobacteria;mycobacterium//msm 0.035 * +EC6.4.1.3 propanoyl-coa rhizobium etli//prokaryotes;bacteria;alphaproteobacteria;rhizobium//ret 0.064 * +EC6.4.1.3 propanoyl-coa sus scrofa//eukaryotes;animals;vertebrates;mammals//ssc 0.2 * +EC6.4.1.3 propionyl-coa leptospira interrogans//prokaryotes;bacteria;spirochaetes;leptospira//lil 0.1 * +EC6.4.1.3 propionyl-coa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 0.032 * +EC6.4.1.3 propionyl-coa streptomyces coelicolor//prokaryotes;bacteria;actinobacteria;streptomyces//sco 0.076 * +EC6.4.1.3 succinyl-coa myxococcus xanthus//prokaryotes;bacteria;deltaproteobacteria;myxococcus//mxa 1.01 * +EC6.4.1.4 (2z)-3-ethylcrotonoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.022 * +EC6.4.1.4 (e)-crotonoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.225 * +EC6.4.1.4 (e)-crotonoyl-coa pseudomonas citronellolis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pcq 0.138 * +EC6.4.1.4 3-methylcrotonoyl-coa achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.012 * +EC6.4.1.4 3-methylcrotonoyl-coa bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.075 * +EC6.4.1.4 3-methylcrotonoyl-coa daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.01 * +EC6.4.1.4 3-methylcrotonoyl-coa glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.01 * +EC6.4.1.4 3-methylcrotonoyl-coa hordeum vulgare//*//* 0.01 * +EC6.4.1.4 3-methylcrotonoyl-coa pisum sativum//*//* 0.01 * +EC6.4.1.4 3-methylcrotonoyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.168 * +EC6.4.1.4 3-methylcrotonoyl-coa pseudomonas citronellolis//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pcq 0.043 * +EC6.4.1.4 3-methylcrotonoyl-coa solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.01 * +EC6.4.1.4 3-methylcrotonoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.01 * +EC6.4.1.4 atp achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 0.083 * +EC6.4.1.4 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.082 * +EC6.4.1.4 atp daucus carota//eukaryotes;plants;eudicots;parsley family//dcr 0.02 * +EC6.4.1.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.081 * +EC6.4.1.4 atp glycine max//eukaryotes;plants;eudicots;pea family//gmx 0.02 * +EC6.4.1.4 atp hordeum vulgare//*//* 0.02 * +EC6.4.1.4 atp pisum sativum//*//* 0.02 * +EC6.4.1.4 atp solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.02 * +EC6.4.1.4 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.02 * +EC6.4.1.4 bicarbonate hordeum vulgare//*//* 2.8 * +EC6.4.1.4 crotonoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.11 * +EC6.4.1.4 hco3- achromobacter sp.//prokaryotes;bacteria;betaproteobacteria;achromobacter//achr 2.17 * +EC6.4.1.4 hco3- bos taurus//eukaryotes;animals;vertebrates;mammals//bta 1.8 * +EC6.4.1.4 hco3- pisum sativum//*//* 0.9 * +EC6.4.1.4 hco3- solanum tuberosum//eukaryotes;plants;eudicots;nightshade family//sot 0.34 * +EC6.4.1.4 hco3- zea mays//eukaryotes;plants;monocots;grass family//zma 0.8 * +EC6.4.1.5 3-methylcrotonyl-coa pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.014 * +EC6.4.1.5 atp pseudomonas aeruginosa//prokaryotes;bacteria;gammaproteobacteria - others;pseudomonas//pae 0.01 * +EC6.4.1.5 atp zea mays//eukaryotes;plants;monocots;grass family//zma 0.008 * +EC6.4.1.5 geranoyl-coa zea mays//eukaryotes;plants;monocots;grass family//zma 0.064 * +EC6.4.1.5 hco3- zea mays//eukaryotes;plants;monocots;grass family//zma 0.58 * +EC6.4.1.6 acetone rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.03 * +EC6.4.1.6 acetone xanthobacter autotrophicus py2//*//* 0.0078 * +EC6.4.1.6 acetone xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.0078 * +EC6.4.1.6 atp xanthobacter autotrophicus py2//*//* 0.122 * +EC6.4.1.6 atp xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 0.122 * +EC6.4.1.6 co2 xanthobacter autotrophicus py2//*//* 4.17 * +EC6.4.1.6 co2 xanthobacter autotrophicus//prokaryotes;bacteria;alphaproteobacteria;xanthobacter//xau 4.2e-06 * +EC6.4.1.7 2-oxoglutarate hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 1.03 * +EC6.4.1.7 atp hydrogenobacter thermophilus//prokaryotes;bacteria;aquificae;hydrogenobacter//hth 0.788 * +EC6.4.1.8 acetophenone aromatoleum aromaticum//prokaryotes;bacteria;betaproteobacteria;aromatoleum//eba 0.033 * +EC6.4.1.8 atp aromatoleum aromaticum//prokaryotes;bacteria;betaproteobacteria;aromatoleum//eba 0.5 * +EC6.4.1.8 hco3- aromatoleum aromaticum//prokaryotes;bacteria;betaproteobacteria;aromatoleum//eba 0.54 * +EC6.5.1.1 (deoxyribonucleotide)20 neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 2.9e-05 * +EC6.5.1.1 (dt)20 coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 9e-05 * +EC6.5.1.1 (single-stranded dna splinted by rna)m chlorella virus//*//* 1e-06 * +EC6.5.1.1 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.003 * +EC6.5.1.1 atp bos taurus//eukaryotes;animals;vertebrates;mammals//bta 0.002 * +EC6.5.1.1 atp coprinopsis cinerea//eukaryotes;fungi;basidiomycetes//cci 0.0015 * +EC6.5.1.1 atp crithidia fasciculata//*//* 0.00034 * +EC6.5.1.1 atp drosophila melanogaster//eukaryotes;animals;arthropods;insects//dme 0.001 * +EC6.5.1.1 atp entamoeba histolytica//eukaryotes;protists;amoebozoa;entamoeba//ehi 6.4e-05 * +EC6.5.1.1 atp enterobacteria phage t3//*//* 0.0144 * +EC6.5.1.1 atp enterobacteria phage t4//*//* 0.0006 * +EC6.5.1.1 atp enterobacteria phage t7//*//* 0.0003 * +EC6.5.1.1 atp gallus gallus//eukaryotes;animals;vertebrates;birds//gga 0.07 * +EC6.5.1.1 atp haemophilus influenzae//prokaryotes;bacteria;gammaproteobacteria - others;haemophilus//hin 0.0002 * +EC6.5.1.1 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 3.4e-06 * +EC6.5.1.1 atp mammalia//*//* 0.0002 * +EC6.5.1.1 atp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0011 * +EC6.5.1.1 atp mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.003 * +EC6.5.1.1 atp mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.34 * +EC6.5.1.1 atp neisseria meningitidis//prokaryotes;bacteria;betaproteobacteria;neisseria//nma 0.0004 * +EC6.5.1.1 atp paramecium bursaria chlorella virus//*//* 0.1 * +EC6.5.1.1 atp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.001 * +EC6.5.1.1 atp rattus norvegicus//eukaryotes;animals;vertebrates;mammals//rno 0.012 * +EC6.5.1.1 clodronate enterobacteria phage t4//*//* 0.08 * +EC6.5.1.1 datp enterobacteria phage t7//*//* 0.004 * +EC6.5.1.1 datp hemicentrotus pulcherrimus//*//* 0.004 * +EC6.5.1.1 datp methanothermobacter thermautotrophicus//prokaryotes;archaea;euryarchaeota;methanothermobacter//mth 0.0016 * +EC6.5.1.1 dimethylallyl diphosphate enterobacteria phage t4//*//* 4.0 * +EC6.5.1.1 dna bos taurus//eukaryotes;animals;vertebrates;mammals//bta 4e-05 * +EC6.5.1.1 dna enterobacteria phage t4//*//* 1.5e-06 * +EC6.5.1.1 dna mus musculus//eukaryotes;animals;vertebrates;mammals//mmu 0.0002 * +EC6.5.1.1 etidronate enterobacteria phage t4//*//* 0.73 * +EC6.5.1.1 farnesyl diphosphate enterobacteria phage t4//*//* 0.05 * +EC6.5.1.1 farnesyl triphosphate enterobacteria phage t4//*//* 0.15 * +EC6.5.1.1 geranyl diphosphate enterobacteria phage t4//*//* 0.21 * +EC6.5.1.1 geranyl triphosphate enterobacteria phage t4//*//* 0.31 * +EC6.5.1.1 gtp pyrococcus furiosus//prokaryotes;archaea;euryarchaeota;pyrococcus//pfu 0.4 * +EC6.5.1.1 isopentenyl diphosphate enterobacteria phage t4//*//* 2.3 * +EC6.5.1.1 isopentenyl triphosphate enterobacteria phage t4//*//* 0.63 * +EC6.5.1.1 methylenebisphosphonate enterobacteria phage t4//*//* 0.024 * +EC6.5.1.1 nicked dna substrate plasmodium falciparum//eukaryotes;protists;alveolates;apicomplexans//pfa 2.6e-06 * +EC6.5.1.1 nicked dna thermococcus kodakarensis//prokaryotes;archaea;euryarchaeota;thermococcus//tko 0.0014 * +EC6.5.1.1 tripolyphosphate enterobacteria phage t4//*//* 1.3 * +EC6.5.1.2 (dt)10 thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 0.14 * +EC6.5.1.2 5'-phosphate terminus of deoxyribonucleotides bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 2.5e-05 * +EC6.5.1.2 5'-phosphate terminus of deoxyribonucleotides escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 2.5e-05 * +EC6.5.1.2 5'-phosphate terminus of deoxyribonucleotides salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 2.5e-05 * +EC6.5.1.2 5'-phosphate terminus of deoxyribonucleotides thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.5e-05 * +EC6.5.1.2 5'-phosphoryl termini of poly(da-dt) thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 2.5e-05 * +EC6.5.1.2 acridinium-ester labelled dna staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 2.5e-06 * +EC6.5.1.2 deoxyribonucleotide wolbachia endosymbiont of brugia malayi//*//* 0.000193 * +EC6.5.1.2 dna melanoplus sanguinipes//*//* 0.000136 * +EC6.5.1.2 nad+ amsacta moorei entomopoxvirus//*//* 0.009 * +EC6.5.1.2 nad+ bacillus subtilis//prokaryotes;bacteria;firmicutes - bacilli;bacillus//bsu 3e-05 * +EC6.5.1.2 nad+ escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 3e-05 * +EC6.5.1.2 nad+ melanoplus sanguinipes//*//* 0.0058 * +EC6.5.1.2 nad+ mycobacterium tuberculosis//prokaryotes;bacteria;actinobacteria;mycobacterium//mtu 0.0013 * +EC6.5.1.2 nad+ salmonella enterica subsp. enterica serovar typhimurium//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;salmonella//stm 3e-05 * +EC6.5.1.2 nad+ staphylococcus aureus//prokaryotes;bacteria;firmicutes - bacilli;staphylococcus//sau 0.00275 * +EC6.5.1.2 nad+ streptococcus pneumoniae//prokaryotes;bacteria;firmicutes - bacilli;streptococcus//spn 0.0021 * +EC6.5.1.2 nad+ thermus thermophilus//prokaryotes;bacteria;deinococcus-thermus;thermus//tth 1.85e-05 * +EC6.5.1.2 nad+ wolbachia endosymbiont of brugia malayi//*//* 0.0048 * +EC6.5.1.2 nicked dna aquifex aeolicus//prokaryotes;bacteria;aquificae;aquifex//aae 8e-05 * +EC6.5.1.2 nicked dna deinococcus radiodurans//prokaryotes;bacteria;deinococcus-thermus;deinococcus//dra 0.105 * +EC6.5.1.2 nicked dna escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.00018 * +EC6.5.1.2 nicked dna pseudoalteromonas haloplanktis//prokaryotes;bacteria;gammaproteobacteria - others;pseudoalteromonas//pha 0.00017 * +EC6.5.1.2 nicked dna thermus scotoductus//prokaryotes;bacteria;deinococcus-thermus;thermus//tsc 0.00024 * +EC6.5.1.3 (2e,6e)-farnesyl diphosphate enterobacteria phage t4//*//* 0.24 * +EC6.5.1.3 (2e,6e)-farnesyl triphosphate enterobacteria phage t4//*//* 0.07 * +EC6.5.1.3 (ribonucleotide)n+m synthetic construct//*//* 0.009 * +EC6.5.1.3 5'-adenylated cytidine 5',3'-bisphosphate enterobacteria phage t4//*//* 0.4 * +EC6.5.1.3 5'-phosphate termini of rna triticum aestivum//*//* 1e-05 * +EC6.5.1.3 atp enterobacteria phage t4//*//* 0.0002 * +EC6.5.1.3 atp phage ts2126//*//* 0.007 * +EC6.5.1.3 atp triticum aestivum//*//* 0.0002 * +EC6.5.1.3 clodronate enterobacteria phage t4//*//* 0.54 * +EC6.5.1.3 diguanosine tetraphosphate enterobacteria phage t4//*//* 4.0 * +EC6.5.1.3 dimethylallyl diphosphate enterobacteria phage t4//*//* 0.86 * +EC6.5.1.3 etidronate enterobacteria phage t4//*//* 4.3 * +EC6.5.1.3 geranyl diphosphate enterobacteria phage t4//*//* 0.29 * +EC6.5.1.3 geranyl triphosphate enterobacteria phage t4//*//* 0.23 * +EC6.5.1.3 isopentenyl diphosphate enterobacteria phage t4//*//* 4.9 * +EC6.5.1.3 isopentenyl triphosphate enterobacteria phage t4//*//* 3.6 * +EC6.5.1.3 methylenebisphosphonate enterobacteria phage t4//*//* 0.26 * +EC6.5.1.4 atp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.02 * +EC6.5.1.4 atp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.0017 * +EC6.5.1.4 atpgammas homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.006 * +EC6.5.1.4 gtp escherichia coli//prokaryotes;bacteria;gammaproteobacteria - enterobacteria;escherichia//eco 0.1 * +EC6.5.1.4 gtp homo sapiens//eukaryotes;animals;vertebrates;mammals//hsa 0.2 * +EC6.5.1.6 atp thermococcus fumicolans//*//* 1.16 * +EC6.5.1.6 nad+ thermococcus fumicolans//*//* 0.69 * +EC6.6.1.1 atp arabidopsis thaliana//eukaryotes;plants;eudicots;mustard family//ath 0.46 * +EC6.6.1.1 atp hordeum vulgare//*//* 0.026 * +EC6.6.1.1 atp rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.091 * +EC6.6.1.1 atp synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.45 * +EC6.6.1.1 atp thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 0.8 * +EC6.6.1.1 deuteroporphyrin ix synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0032 * +EC6.6.1.1 deuteroporphyrin synechocystis sp.//prokaryotes;bacteria;cyanobacteria;synechocystis//syn 0.0057 * +EC6.6.1.1 mg2+ rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 1.3 * +EC6.6.1.1 mg2+ thermosynechococcus elongatus//prokaryotes;bacteria;cyanobacteria;thermosynechococcus//tel 2.3 * +EC6.6.1.1 protoporphyrin ix chlorobaculum tepidum//*//* 0.0006 * +EC6.6.1.1 protoporphyrin ix rhodobacter capsulatus//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rcp 0.00089 * +EC6.6.1.1 protoporphyrin ix rhodobacter sphaeroides//prokaryotes;bacteria;alphaproteobacteria;rhodobacter//rsp 0.00089 * +EC6.6.1.2 atp pseudomonas denitrificans (nomen rejiciendum)//*//* 0.22 * +EC6.6.1.2 co2+ pseudomonas denitrificans (nomen rejiciendum)//*//* 0.0042 * +EC6.6.1.2 hydrogenobyrinic acid a,c-diamide pseudomonas denitrificans (nomen rejiciendum)//*//* 8.5e-05 * diff --git a/code/quantitative_index/qindex.py b/code/quantitative_index/qindex.py new file mode 100644 index 0000000..9f8cd73 --- /dev/null +++ b/code/quantitative_index/qindex.py @@ -0,0 +1,65 @@ +import numpy as np +from rdkit import DataStructs + +metrics = { + 'asymmetric': DataStructs.AsymmetricSimilarity, + 'braunblanquet': DataStructs.BulkBraunBlanquetSimilarity, + 'cosine': DataStructs.BulkCosineSimilarity, + 'dice': DataStructs.BulkDiceSimilarity, + 'kulczynski': DataStructs.BulkKulczynskiSimilarity, + 'mcconnaughey': DataStructs.BulkMcConnaugheySimilarity, + 'rogotgoldberg': DataStructs.BulkRogotGoldbergSimilarity, + 'russel': DataStructs.BulkRusselSimilarity, + 'sokal': DataStructs.BulkSokalSimilarity, + 'tanimoto': DataStructs.BulkTanimotoSimilarity +} + +def mean_dist_set(fps): + """ + Returns an overall set dissimilarity for a list of fingerprints from RDKit, as defined in + "Nath A, Atkins WM. A quantitative index of substrate promiscuity. Biochemistry. 2008." + The fingerprints have to be the same length. + """ + + # convert to numpy array and add vectors + s = np.array(list(fps[0])) + for i in range(1,len(fps)): + s = s + np.array(list(fps[i])) + + l = (s == len(fps)).sum() # bits common to all fps + k = np.count_nonzero(s) - l # on bits for at least one but not all fps + + return k/(k+l) + +def mean_dist(fps,metric): + """ + Returns the mean distances between molecules represented by a list of + fingerprints from RDKit, with a specified metric. + """ + score = metrics[metric] # similarity score + + n = len(fps) + md = [] + + for fp in fps: + s = sum(score(fp,fps,returnDistance=1))-1 + md.append(s/(n-1)) + + return md + +def qindex(fps,e,metric): + """ + Returns a quantitative index of substrate promiscuity (J) as defined in + "Nath A, Atkins WM. A quantitative index of substrate promiscuity. Biochemistry. 2008." + for a list of fingerprints from RDKit, with corresponding values for e = kcat/KM. + Metric specifies the chosen similarity score. + """ + N = len(fps) + + md = np.array(mean_dist(fps,metric)) # mean distances + nmd = md/mean_dist_set(fps) # normalized mean distances + e = np.array(e) # kcat/KM + p = e/sum(e) + A = -N/(sum(nmd)*np.log(N)) + + return A * sum(nmd * p * np.log(p)) From a711a44f0260f74c3685a46ce791221b063ff958 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?David=20H=C3=B6gberg?= Date: Wed, 17 Apr 2019 13:07:11 +0200 Subject: [PATCH 3/4] delete checkpoints --- .../EC-data-checkpoint.ipynb | 1315 ------ .../.ipynb_checkpoints/Test-checkpoint.ipynb | 6 - .../activities-checkpoint.ipynb | 499 --- .../package_usage-checkpoint.ipynb | 3761 ----------------- 4 files changed, 5581 deletions(-) delete mode 100644 code/cheminfo/.ipynb_checkpoints/EC-data-checkpoint.ipynb delete mode 100644 code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb delete mode 100644 code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb delete mode 100644 code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb diff --git a/code/cheminfo/.ipynb_checkpoints/EC-data-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/EC-data-checkpoint.ipynb deleted file mode 100644 index 8d5aaf4..0000000 --- a/code/cheminfo/.ipynb_checkpoints/EC-data-checkpoint.ipynb +++ /dev/null @@ -1,1315 +0,0 @@ -{ - "cells": [ - { - "cell_type": "code", - "execution_count": 1, - "metadata": {}, - "outputs": [], - "source": [ - "import pandas as pd, re, json\n", - "\n", - "# read data\n", - "df_KM = pd.read_csv(\"data/min_KM.txt\", sep='\\t', names=[\"EC\",\"substrate\",\"organism\",\"KM\",\"star\"])\n", - "df_kcat = pd.read_csv(\"data/max_KCAT.txt\", sep='\\t', names=[\"EC\",\"substrate\",\"organism\",\"kcat\",\"star\"])" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [], - "source": [ - "# delete star column\n", - "del df_KM['star']\n", - "del df_kcat['star']" - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": {}, - "outputs": [], - "source": [ - "# remove 'EC'\n", - "trim = lambda x: x.split('EC')[1]\n", - "df_KM['EC'] = df_KM['EC'].apply(trim)\n", - "df_kcat['EC'] = df_kcat['EC'].apply(trim)" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": {}, - "outputs": [], - "source": [ - "# filter organism\n", - "trim = lambda x: x.split('//')[0]\n", - "df_KM['organism'] = df_KM['organism'].apply(trim)\n", - "df_kcat['organism'] = df_kcat['organism'].apply(trim)" - ] - }, - { - "cell_type": "code", - "execution_count": 5, - "metadata": {}, - "outputs": [], - "source": [ - "# Remove D-, L-, DL- and similar from the beginning of substrates\n", - "def remove_dl(substrate):\n", - " regex = '^d-|^l-|^dl-|^\\(r\\)-|^\\(s\\)-|^\\(\\+\\)-|^\\(\\-\\)-'\n", - " return re.sub(regex, '', substrate)\n", - "\n", - "# remove dl-info\n", - "df_KM['substrate'] = df_KM['substrate'].apply(remove_dl)\n", - "df_kcat['substrate'] = df_kcat['substrate'].apply(remove_dl)" - ] - }, - { - "cell_type": "code", - "execution_count": 7, - "metadata": {}, - "outputs": [], - "source": [ - "# sort by ascending KM and save only minimum value (?)\n", - "df_KM = df_KM.sort_values(by=['EC','substrate','organism','KM'])\n", - "keep_min = ~df_KM[['EC','substrate','organism']].duplicated() # False for duplicates with higher KM\n", - "df_KM = df_KM[keep_min].reset_index(drop=True)" - ] - }, - { - "cell_type": "code", - "execution_count": 8, - "metadata": {}, - "outputs": [], - "source": [ - "# sort by descending kcat and save only maximum value (?)\n", - "df_kcat = df_kcat.sort_values(by=['EC','substrate','organism','kcat'], ascending=[1, 1, 1, 0])\n", - "keep_max = ~df_kcat[['EC','substrate','organism']].duplicated() # False for duplicates with lower kcat\n", - "df_kcat = df_kcat[keep_max].reset_index(drop=True)" - ] - }, - { - "cell_type": "code", - "execution_count": 10, - "metadata": {}, - "outputs": [], - "source": [ - "# merge dataframes\n", - "df = pd.merge(df_kcat, df_KM, how='outer')" - ] - }, - { - "cell_type": "code", - "execution_count": 11, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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ECsubstrateorganismkcatKMe
01.1.1.1(+)-1-indanolthermus thermophilus61.4004.20014.619048
11.1.1.1(+)-alpha-tetraolthermus thermophilus57.0004.20013.571429
21.1.1.1(-)-1-phenylethanolthermus thermophilus1.10018.1000.060773
31.1.1.1(2e)-but-2-en-1-olyokenella sp.101.0009.10011.098901
41.1.1.1(2e)-but-2-enalyokenella sp.405.0003.300122.727273
51.1.1.11-butanolaeropyrum pernix0.4100.5960.687919
61.1.1.11-butanolmesocricetus auratus7.500NaNNaN
71.1.1.11-butanolrattus norvegicus48.8000.170287.058824
81.1.1.11-butanolsulfolobus solfataricus3.1000.08038.750000
91.1.1.11-heptanolsulfolobus solfataricus1.6000.03842.105263
101.1.1.11-hexanolaeropyrum pernix0.3700.1472.517007
111.1.1.11-hexanolmesocricetus auratus3.030NaNNaN
121.1.1.11-hexanolsulfolobus solfataricus2.0000.03557.142857
131.1.1.11-indanolsulfolobus acidocaldarius13.7002.4005.708333
141.1.1.11-indanolthermus thermophilus61.4004.20014.619048
151.1.1.11-indanonethermus thermophilus8.30027.6000.300725
161.1.1.11-octanolgeobacillus thermodenitrificans260.7003.88067.190722
171.1.1.11-octanolhomo sapiens2.8300.3907.256410
181.1.1.11-octanolrattus norvegicus60.8000.0252432.000000
191.1.1.11-pentanolaeropyrum pernix0.4500.3961.136364
201.1.1.11-pentanolhomo sapiens0.18327.0000.006778
211.1.1.11-pentanolrattus norvegicus48.8000.080610.000000
221.1.1.11-pentanolsulfolobus solfataricus2.5000.02792.592593
231.1.1.11-phenyl-1,2-propandionethermus thermophilus17.1005.9002.898305
241.1.1.11-phenyl-1,2-propanedionesulfolobus acidocaldarius5.3005.0001.060000
251.1.1.11-phenyl-1,2-propanedionethermus thermophilus17.1005.9002.898305
261.1.1.11-phenylethanolthermococcus kodakarensis35.700244.0000.146311
271.1.1.11-phenylethanolthermus thermophilus1.10018.1000.060773
281.1.1.11-propanolaeropyrum pernix0.2601.0300.252427
291.1.1.11-propanolsulfolobus solfataricus2.6000.24010.833333
\n", - "
" - ], - "text/plain": [ - " EC substrate organism \\\n", - "0 1.1.1.1 (+)-1-indanol thermus thermophilus \n", - "1 1.1.1.1 (+)-alpha-tetraol thermus thermophilus \n", - "2 1.1.1.1 (-)-1-phenylethanol thermus thermophilus \n", - "3 1.1.1.1 (2e)-but-2-en-1-ol yokenella sp. \n", - "4 1.1.1.1 (2e)-but-2-enal yokenella sp. \n", - "5 1.1.1.1 1-butanol aeropyrum pernix \n", - "6 1.1.1.1 1-butanol mesocricetus auratus \n", - "7 1.1.1.1 1-butanol rattus norvegicus \n", - "8 1.1.1.1 1-butanol sulfolobus solfataricus \n", - "9 1.1.1.1 1-heptanol sulfolobus solfataricus \n", - "10 1.1.1.1 1-hexanol aeropyrum pernix \n", - "11 1.1.1.1 1-hexanol mesocricetus auratus \n", - "12 1.1.1.1 1-hexanol sulfolobus solfataricus \n", - "13 1.1.1.1 1-indanol sulfolobus acidocaldarius \n", - "14 1.1.1.1 1-indanol thermus thermophilus \n", - "15 1.1.1.1 1-indanone thermus thermophilus \n", - "16 1.1.1.1 1-octanol geobacillus thermodenitrificans \n", - "17 1.1.1.1 1-octanol homo sapiens \n", - "18 1.1.1.1 1-octanol rattus norvegicus \n", - "19 1.1.1.1 1-pentanol aeropyrum pernix \n", - "20 1.1.1.1 1-pentanol homo sapiens \n", - "21 1.1.1.1 1-pentanol rattus norvegicus \n", - "22 1.1.1.1 1-pentanol sulfolobus solfataricus \n", - "23 1.1.1.1 1-phenyl-1,2-propandione thermus thermophilus \n", - "24 1.1.1.1 1-phenyl-1,2-propanedione sulfolobus acidocaldarius \n", - "25 1.1.1.1 1-phenyl-1,2-propanedione thermus thermophilus \n", - "26 1.1.1.1 1-phenylethanol thermococcus kodakarensis \n", - "27 1.1.1.1 1-phenylethanol thermus thermophilus \n", - "28 1.1.1.1 1-propanol aeropyrum pernix \n", - "29 1.1.1.1 1-propanol sulfolobus solfataricus \n", - "\n", - " kcat KM e \n", - "0 61.400 4.200 14.619048 \n", - "1 57.000 4.200 13.571429 \n", - "2 1.100 18.100 0.060773 \n", - "3 101.000 9.100 11.098901 \n", - "4 405.000 3.300 122.727273 \n", - "5 0.410 0.596 0.687919 \n", - "6 7.500 NaN NaN \n", - "7 48.800 0.170 287.058824 \n", - "8 3.100 0.080 38.750000 \n", - "9 1.600 0.038 42.105263 \n", - "10 0.370 0.147 2.517007 \n", - "11 3.030 NaN NaN \n", - "12 2.000 0.035 57.142857 \n", - "13 13.700 2.400 5.708333 \n", - "14 61.400 4.200 14.619048 \n", - "15 8.300 27.600 0.300725 \n", - "16 260.700 3.880 67.190722 \n", - "17 2.830 0.390 7.256410 \n", - "18 60.800 0.025 2432.000000 \n", - "19 0.450 0.396 1.136364 \n", - "20 0.183 27.000 0.006778 \n", - "21 48.800 0.080 610.000000 \n", - "22 2.500 0.027 92.592593 \n", - "23 17.100 5.900 2.898305 \n", - "24 5.300 5.000 1.060000 \n", - "25 17.100 5.900 2.898305 \n", - "26 35.700 244.000 0.146311 \n", - "27 1.100 18.100 0.060773 \n", - "28 0.260 1.030 0.252427 \n", - "29 2.600 0.240 10.833333 " - ] - }, - "execution_count": 11, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "df['e'] = df['kcat']/df['KM']\n", - "df.head(20)" - ] - }, - { - "cell_type": "code", - "execution_count": 12, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "46898\n", - "71516\n" - ] - }, - { - "data": { - "text/html": [ - "
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indexNaN
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\n", - "
" - ], - "text/plain": [ - " index NaN\n", - "0 EC 0\n", - "1 substrate 0\n", - "2 organism 0\n", - "3 kcat 41625\n", - "4 KM 5273\n", - "5 e 46898" - ] - }, - "execution_count": 12, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "print(len(df))\n", - "\n", - "# NaN-values for each coumn\n", - "df.isnull().sum().reset_index(name='NaN')" - ] - }, - { - "cell_type": "code", - "execution_count": 15, - "metadata": {}, - "outputs": [], - "source": [ - "with open(\"data/substrates_filtered.json\",'r') as f:\n", - " data = json.loads(f.read())\n", - "\n", - "EC_KM = df_KM.EC.unique()\n", - "EC_Kcat = df_kcat.EC.unique()\n", - "EC = df.EC.unique()\n" - ] - }, - { - "cell_type": "code", - "execution_count": 24, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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ECsubstrateorganismkcatKMe
120932.7.1.2atphomo sapiens68.42.300000e-072.973913e+08
120942.7.1.2atpleishmania major317.03.500000e-019.057143e+02
120952.7.1.2atptrypanosoma cruzi1492.03.600000e-014.144444e+03
120962.7.1.2beta-d-glucosehomo sapiens166.0NaNNaN
120972.7.1.2glucoseescherichia coli k-12410.0NaNNaN
120982.7.1.2glucosehomo sapiens67.61.500000e-014.506667e+02
120992.7.1.2glucoseleishmania major317.0NaNNaN
121002.7.1.2glucosethermotoga maritima92.6NaNNaN
121012.7.1.2glucosetrypanosoma cruzi1492.01.000000e+001.492000e+03
520682.7.1.22-deoxy-d-glucosehomo sapiensNaN1.900000e+00NaN
520692.7.1.22-deoxyglucosehomo sapiensNaN1.800000e+01NaN
520702.7.1.26-n-(carboxyethyl)atpgeobacillus stearothermophilusNaN6.700000e-01NaN
520712.7.1.26-n-(carboxyethyl)atpzymomonas mobilisNaN5.000000e-01NaN
520722.7.1.26-n-(carboxymethyl)atpgeobacillus stearothermophilusNaN6.500000e-01NaN
520732.7.1.26-n-(carboxymethyl)atpzymomonas mobilisNaN5.500000e-01NaN
520742.7.1.26-n-(succinyl)atpgeobacillus stearothermophilusNaN1.000000e+00NaN
520752.7.1.26-n-(succinyl)atpzymomonas mobilisNaN3.800000e-01NaN
520762.7.1.26-n-[n-(6-aminohexhyl)carbamoyl]atpgeobacillus stearothermophilusNaN5.000000e-01NaN
520772.7.1.26-n-[n-(6-aminohexhyl)carbamoyl]atpzymomonas mobilisNaN1.250000e+00NaN
520782.7.1.2alpha-d-glucosegeobacillus stearothermophilusNaN1.500000e-01NaN
520792.7.1.2atpaeropyrum pernixNaN5.000000e-01NaN
520802.7.1.2atpdictyostelium discoideumNaN1.100000e+00NaN
520812.7.1.2atpescherichia coliNaN5.000000e-01NaN
520822.7.1.2atpgeobacillus stearothermophilusNaN1.300000e-01NaN
520832.7.1.2atplysinibacillus sphaericus c3-41NaN5.200000e-01NaN
520842.7.1.2atpparacoccus versutusNaN7.800000e-01NaN
520852.7.1.2atpsaccharomyces cerevisiaeNaN5.000000e-02NaN
520862.7.1.2atpstreptococcus mutansNaN2.100000e-01NaN
520872.7.1.2atpyarrowia lipolyticaNaN2.100000e-01NaN
520882.7.1.2atpzymomonas mobilisNaN4.000000e-01NaN
520892.7.1.2ctpzymomonas mobilisNaN5.600000e-01NaN
520902.7.1.2fructosehomo sapiensNaN4.700000e+00NaN
520912.7.1.2glucoseaeropyrum pernixNaN5.400000e-02NaN
520922.7.1.2glucoseaspergillus nigerNaN6.300000e-02NaN
520932.7.1.2glucosebotrytis cinereaNaN4.800000e-02NaN
520942.7.1.2glucosecaldanaerobacter subterraneus subsp. tengconge...NaN2.400000e+00NaN
520952.7.1.2glucosedictyostelium discoideumNaN1.200000e-01NaN
520962.7.1.2glucoseescherichia coliNaN1.500000e-01NaN
520972.7.1.2glucoselysinibacillus sphaericus c3-41NaN3.100000e-01NaN
520982.7.1.2glucoseparacoccus versutusNaN8.600000e-01NaN
520992.7.1.2glucoserattus norvegicusNaN7.400000e+00NaN
521002.7.1.2glucosesaccharomyces cerevisiaeNaN2.800000e-02NaN
521012.7.1.2glucosestreptococcus mutansNaN6.100000e-01NaN
521022.7.1.2glucoseurocitellus undulatusNaN2.000000e+00NaN
521032.7.1.2glucosezymomonas mobilisNaN9.500000e-02NaN
521042.7.1.2gtpzymomonas mobilisNaN2.500000e-01NaN
521052.7.1.2itpzymomonas mobilisNaN3.600000e-01NaN
521062.7.1.2mannosehomo sapiensNaN8.000000e-02NaN
521072.7.1.2mgatp2-zymomonas mobilisNaN1.900000e-01NaN
521082.7.1.2utpzymomonas mobilisNaN6.300000e-01NaN
\n", - "
" - ], - "text/plain": [ - " EC substrate \\\n", - "12093 2.7.1.2 atp \n", - "12094 2.7.1.2 atp \n", - "12095 2.7.1.2 atp \n", - "12096 2.7.1.2 beta-d-glucose \n", - "12097 2.7.1.2 glucose \n", - "12098 2.7.1.2 glucose \n", - "12099 2.7.1.2 glucose \n", - "12100 2.7.1.2 glucose \n", - "12101 2.7.1.2 glucose \n", - "52068 2.7.1.2 2-deoxy-d-glucose \n", - "52069 2.7.1.2 2-deoxyglucose \n", - "52070 2.7.1.2 6-n-(carboxyethyl)atp \n", - "52071 2.7.1.2 6-n-(carboxyethyl)atp \n", - "52072 2.7.1.2 6-n-(carboxymethyl)atp \n", - "52073 2.7.1.2 6-n-(carboxymethyl)atp \n", - "52074 2.7.1.2 6-n-(succinyl)atp \n", - "52075 2.7.1.2 6-n-(succinyl)atp \n", - "52076 2.7.1.2 6-n-[n-(6-aminohexhyl)carbamoyl]atp \n", - "52077 2.7.1.2 6-n-[n-(6-aminohexhyl)carbamoyl]atp \n", - "52078 2.7.1.2 alpha-d-glucose \n", - "52079 2.7.1.2 atp \n", - "52080 2.7.1.2 atp \n", - "52081 2.7.1.2 atp \n", - "52082 2.7.1.2 atp \n", - "52083 2.7.1.2 atp \n", - "52084 2.7.1.2 atp \n", - "52085 2.7.1.2 atp \n", - "52086 2.7.1.2 atp \n", - "52087 2.7.1.2 atp \n", - "52088 2.7.1.2 atp \n", - "52089 2.7.1.2 ctp \n", - "52090 2.7.1.2 fructose \n", - "52091 2.7.1.2 glucose \n", - "52092 2.7.1.2 glucose \n", - "52093 2.7.1.2 glucose \n", - "52094 2.7.1.2 glucose \n", - "52095 2.7.1.2 glucose \n", - "52096 2.7.1.2 glucose \n", - "52097 2.7.1.2 glucose \n", - "52098 2.7.1.2 glucose \n", - "52099 2.7.1.2 glucose \n", - "52100 2.7.1.2 glucose \n", - "52101 2.7.1.2 glucose \n", - "52102 2.7.1.2 glucose \n", - "52103 2.7.1.2 glucose \n", - "52104 2.7.1.2 gtp \n", - "52105 2.7.1.2 itp \n", - "52106 2.7.1.2 mannose \n", - "52107 2.7.1.2 mgatp2- \n", - "52108 2.7.1.2 utp \n", - "\n", - " organism kcat \\\n", - "12093 homo sapiens 68.4 \n", - "12094 leishmania major 317.0 \n", - "12095 trypanosoma cruzi 1492.0 \n", - "12096 homo sapiens 166.0 \n", - "12097 escherichia coli k-12 410.0 \n", - "12098 homo sapiens 67.6 \n", - "12099 leishmania major 317.0 \n", - "12100 thermotoga maritima 92.6 \n", - "12101 trypanosoma cruzi 1492.0 \n", - "52068 homo sapiens NaN \n", - "52069 homo sapiens NaN \n", - "52070 geobacillus stearothermophilus NaN \n", - "52071 zymomonas mobilis NaN \n", - "52072 geobacillus stearothermophilus NaN \n", - "52073 zymomonas mobilis NaN \n", - "52074 geobacillus stearothermophilus NaN \n", - "52075 zymomonas mobilis NaN \n", - "52076 geobacillus stearothermophilus NaN \n", - "52077 zymomonas mobilis NaN \n", - "52078 geobacillus stearothermophilus NaN \n", - "52079 aeropyrum pernix NaN \n", - "52080 dictyostelium discoideum NaN \n", - "52081 escherichia coli NaN \n", - "52082 geobacillus stearothermophilus NaN \n", - "52083 lysinibacillus sphaericus c3-41 NaN \n", - "52084 paracoccus versutus NaN \n", - "52085 saccharomyces cerevisiae NaN \n", - "52086 streptococcus mutans NaN \n", - "52087 yarrowia lipolytica NaN \n", - "52088 zymomonas mobilis NaN \n", - "52089 zymomonas mobilis NaN \n", - "52090 homo sapiens NaN \n", - "52091 aeropyrum pernix NaN \n", - "52092 aspergillus niger NaN \n", - "52093 botrytis cinerea NaN \n", - "52094 caldanaerobacter subterraneus subsp. tengconge... NaN \n", - "52095 dictyostelium discoideum NaN \n", - "52096 escherichia coli NaN \n", - "52097 lysinibacillus sphaericus c3-41 NaN \n", - "52098 paracoccus versutus NaN \n", - "52099 rattus norvegicus NaN \n", - "52100 saccharomyces cerevisiae NaN \n", - "52101 streptococcus mutans NaN \n", - "52102 urocitellus undulatus NaN \n", - "52103 zymomonas mobilis NaN \n", - "52104 zymomonas mobilis NaN \n", - "52105 zymomonas mobilis NaN \n", - "52106 homo sapiens NaN \n", - "52107 zymomonas mobilis NaN \n", - "52108 zymomonas mobilis NaN \n", - "\n", - " KM e \n", - "12093 2.300000e-07 2.973913e+08 \n", - "12094 3.500000e-01 9.057143e+02 \n", - "12095 3.600000e-01 4.144444e+03 \n", - "12096 NaN NaN \n", - "12097 NaN NaN \n", - "12098 1.500000e-01 4.506667e+02 \n", - "12099 NaN NaN \n", - "12100 NaN NaN \n", - "12101 1.000000e+00 1.492000e+03 \n", - "52068 1.900000e+00 NaN \n", - "52069 1.800000e+01 NaN \n", - "52070 6.700000e-01 NaN \n", - "52071 5.000000e-01 NaN \n", - "52072 6.500000e-01 NaN \n", - "52073 5.500000e-01 NaN \n", - "52074 1.000000e+00 NaN \n", - "52075 3.800000e-01 NaN \n", - "52076 5.000000e-01 NaN \n", - "52077 1.250000e+00 NaN \n", - "52078 1.500000e-01 NaN \n", - "52079 5.000000e-01 NaN \n", - "52080 1.100000e+00 NaN \n", - "52081 5.000000e-01 NaN \n", - "52082 1.300000e-01 NaN \n", - "52083 5.200000e-01 NaN \n", - "52084 7.800000e-01 NaN \n", - "52085 5.000000e-02 NaN \n", - "52086 2.100000e-01 NaN \n", - "52087 2.100000e-01 NaN \n", - "52088 4.000000e-01 NaN \n", - "52089 5.600000e-01 NaN \n", - "52090 4.700000e+00 NaN \n", - "52091 5.400000e-02 NaN \n", - "52092 6.300000e-02 NaN \n", - "52093 4.800000e-02 NaN \n", - "52094 2.400000e+00 NaN \n", - "52095 1.200000e-01 NaN \n", - "52096 1.500000e-01 NaN \n", - "52097 3.100000e-01 NaN \n", - "52098 8.600000e-01 NaN \n", - "52099 7.400000e+00 NaN \n", - "52100 2.800000e-02 NaN \n", - "52101 6.100000e-01 NaN \n", - "52102 2.000000e+00 NaN \n", - "52103 9.500000e-02 NaN \n", - "52104 2.500000e-01 NaN \n", - "52105 3.600000e-01 NaN \n", - "52106 8.000000e-02 NaN \n", - "52107 1.900000e-01 NaN \n", - "52108 6.300000e-01 NaN " - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\n", - "\n", - "['6-n-(carboxyethyl)atp', '6-n-(carboxymethyl)atp', '6-n-(succinyl)atp', '6-n-[n-(6-aminohexhyl)carbamoyl]atp', 'adp', 'atp', 'ctp', 'd-glucose', 'gtp', 'itp', 'utp', \"adenosine 5'-triphosphate-polyamidoamine dendrimer\"]\n" - ] - } - ], - "source": [ - "import random\n", - "ec = random.choice(EC)\n", - "display(df[df['EC'] == ec])\n", - "\n", - "print('\\n')\n", - "substrates = [x.lower() for x in data[ec]['first_substrate']]\n", - "print(substrates)" - ] - }, - { - "cell_type": "code", - "execution_count": 60, - "metadata": {}, - "outputs": [], - "source": [ - "\n", - "counter_KM = 0 \n", - "for ec in EC_KM:\n", - " try:\n", - " natural = [x.lower() for x in data[ec]['first_substrate']]\n", - " df_tmp = df_KM[df_KM['EC'] == ec]\n", - " indexNames = df_tmp[~df_tmp['substrate'].isin(natural)].index\n", - " df_KM.drop(indexNames, inplace=True)\n", - " except:\n", - " counter_KM += 1\n", - "\n", - "counter_Kcat = 0\n", - "for ec in EC_Kcat:\n", - " try: \n", - " natural = [x.lower() for x in data[ec]['first_substrate']]\n", - " df_tmp = df_Kcat[df_Kcat['EC'] == ec]\n", - " indexNames = df_tmp[~df_tmp['substrate'].isin(natural)].index\n", - " df_Kcat.drop(indexNames, inplace=True)\n", - " except:\n", - " counter_Kcat += 1" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.7.2" - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} diff --git a/code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb deleted file mode 100644 index 2fd6442..0000000 --- a/code/cheminfo/.ipynb_checkpoints/Test-checkpoint.ipynb +++ /dev/null @@ -1,6 +0,0 @@ -{ - "cells": [], - "metadata": {}, - "nbformat": 4, - "nbformat_minor": 2 -} diff --git a/code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb deleted file mode 100644 index dc7160c..0000000 --- a/code/cheminfo/.ipynb_checkpoints/activities-checkpoint.ipynb +++ /dev/null @@ -1,499 +0,0 @@ -{ - "cells": [ - { - "cell_type": "code", - "execution_count": 1, - "metadata": {}, - "outputs": [], - "source": [ - "import pandas as pd, re, json\n", - "\n", - "# read data\n", - "df_KM = pd.read_csv(\"data/min_KM.txt\", sep='\\t', names=[\"EC\",\"substrate\",\"organism\",\"KM\",\"star\"])\n", - "df_kcat = pd.read_csv(\"data/max_KCAT.txt\", sep='\\t', names=[\"EC\",\"substrate\",\"organism\",\"kcat\",\"star\"])" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [], - "source": [ - "# delete star column\n", - "del df_KM['star']\n", - "del df_kcat['star']" - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": {}, - "outputs": [], - "source": [ - "# remove 'EC'\n", - "trim = lambda x: x.split('EC')[1]\n", - "df_KM['EC'] = df_KM['EC'].apply(trim)\n", - "df_kcat['EC'] = df_kcat['EC'].apply(trim)" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": {}, - "outputs": [], - "source": [ - "# filter organism\n", - "trim = lambda x: x.split('//')[0]\n", - "df_KM['organism'] = df_KM['organism'].apply(trim)\n", - "df_kcat['organism'] = df_kcat['organism'].apply(trim)" - ] - }, - { - "cell_type": "code", - "execution_count": 5, - "metadata": {}, - "outputs": [], - "source": [ - "# Remove D-, L-, DL- and similar from the beginning of substrates\n", - "def remove_dl(substrate):\n", - " regex = '^d-|^l-|^dl-|^\\(r\\)-|^\\(s\\)-|^\\(\\+\\)-|^\\(\\-\\)-'\n", - " return re.sub(regex, '', substrate)\n", - "\n", - "# remove dl-info\n", - "df_KM['substrate'] = df_KM['substrate'].apply(remove_dl)\n", - "df_kcat['substrate'] = df_kcat['substrate'].apply(remove_dl)" - ] - }, - { - "cell_type": "code", - "execution_count": 6, - "metadata": {}, - "outputs": [], - "source": [ - "# sort by ascending KM and save only minimum value (?)\n", - "df_KM = df_KM.sort_values(by=['EC','substrate','organism','KM'])\n", - "keep_min = ~df_KM[['EC','substrate','organism']].duplicated() # False for duplicates with higher KM\n", - "df_KM = df_KM[keep_min].reset_index(drop=True)" - ] - }, - { - "cell_type": "code", - "execution_count": 7, - "metadata": {}, - "outputs": [], - "source": [ - "# sort by descending kcat and save only maximum value (?)\n", - "df_kcat = df_kcat.sort_values(by=['EC','substrate','organism','kcat'], ascending=[1, 1, 1, 0])\n", - "keep_max = ~df_kcat[['EC','substrate','organism']].duplicated() # False for duplicates with lower kcat\n", - "df_kcat = df_kcat[keep_max].reset_index(drop=True)" - ] - }, - { - "cell_type": "code", - "execution_count": 8, - "metadata": {}, - "outputs": [], - "source": [ - "# merge dataframes\n", - "df = pd.merge(df_kcat, df_KM, how='outer')" - ] - }, - { - "cell_type": "code", - "execution_count": 9, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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ECsubstrateorganismkcatKMe
01.1.1.1(+)-1-indanolthermus thermophilus61.404.20014.619048
11.1.1.1(+)-alpha-tetraolthermus thermophilus57.004.20013.571429
21.1.1.1(-)-1-phenylethanolthermus thermophilus1.1018.1000.060773
31.1.1.1(2e)-but-2-en-1-olyokenella sp.101.009.10011.098901
41.1.1.1(2e)-but-2-enalyokenella sp.405.003.300122.727273
51.1.1.11-butanolaeropyrum pernix0.410.5960.687919
61.1.1.11-butanolmesocricetus auratus7.50NaNNaN
71.1.1.11-butanolrattus norvegicus48.800.170287.058824
81.1.1.11-butanolsulfolobus solfataricus3.100.08038.750000
91.1.1.11-heptanolsulfolobus solfataricus1.600.03842.105263
101.1.1.11-hexanolaeropyrum pernix0.370.1472.517007
111.1.1.11-hexanolmesocricetus auratus3.03NaNNaN
121.1.1.11-hexanolsulfolobus solfataricus2.000.03557.142857
131.1.1.11-indanolsulfolobus acidocaldarius13.702.4005.708333
141.1.1.11-indanolthermus thermophilus61.404.20014.619048
151.1.1.11-indanonethermus thermophilus8.3027.6000.300725
161.1.1.11-octanolgeobacillus thermodenitrificans260.703.88067.190722
171.1.1.11-octanolhomo sapiens2.830.3907.256410
181.1.1.11-octanolrattus norvegicus60.800.0252432.000000
191.1.1.11-pentanolaeropyrum pernix0.450.3961.136364
\n", - "
" - ], - "text/plain": [ - " EC substrate organism kcat \\\n", - "0 1.1.1.1 (+)-1-indanol thermus thermophilus 61.40 \n", - "1 1.1.1.1 (+)-alpha-tetraol thermus thermophilus 57.00 \n", - "2 1.1.1.1 (-)-1-phenylethanol thermus thermophilus 1.10 \n", - "3 1.1.1.1 (2e)-but-2-en-1-ol yokenella sp. 101.00 \n", - "4 1.1.1.1 (2e)-but-2-enal yokenella sp. 405.00 \n", - "5 1.1.1.1 1-butanol aeropyrum pernix 0.41 \n", - "6 1.1.1.1 1-butanol mesocricetus auratus 7.50 \n", - "7 1.1.1.1 1-butanol rattus norvegicus 48.80 \n", - "8 1.1.1.1 1-butanol sulfolobus solfataricus 3.10 \n", - "9 1.1.1.1 1-heptanol sulfolobus solfataricus 1.60 \n", - "10 1.1.1.1 1-hexanol aeropyrum pernix 0.37 \n", - "11 1.1.1.1 1-hexanol mesocricetus auratus 3.03 \n", - "12 1.1.1.1 1-hexanol sulfolobus solfataricus 2.00 \n", - "13 1.1.1.1 1-indanol sulfolobus acidocaldarius 13.70 \n", - "14 1.1.1.1 1-indanol thermus thermophilus 61.40 \n", - "15 1.1.1.1 1-indanone thermus thermophilus 8.30 \n", - "16 1.1.1.1 1-octanol geobacillus thermodenitrificans 260.70 \n", - "17 1.1.1.1 1-octanol homo sapiens 2.83 \n", - "18 1.1.1.1 1-octanol rattus norvegicus 60.80 \n", - "19 1.1.1.1 1-pentanol aeropyrum pernix 0.45 \n", - "\n", - " KM e \n", - "0 4.200 14.619048 \n", - "1 4.200 13.571429 \n", - "2 18.100 0.060773 \n", - "3 9.100 11.098901 \n", - "4 3.300 122.727273 \n", - "5 0.596 0.687919 \n", - "6 NaN NaN \n", - "7 0.170 287.058824 \n", - "8 0.080 38.750000 \n", - "9 0.038 42.105263 \n", - "10 0.147 2.517007 \n", - "11 NaN NaN \n", - "12 0.035 57.142857 \n", - "13 2.400 5.708333 \n", - "14 4.200 14.619048 \n", - "15 27.600 0.300725 \n", - "16 3.880 67.190722 \n", - "17 0.390 7.256410 \n", - "18 0.025 2432.000000 \n", - "19 0.396 1.136364 " - ] - }, - "execution_count": 9, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "df['e'] = df['kcat']/df['KM']\n", - "df.head(20)" - ] - }, - { - "cell_type": "code", - "execution_count": 10, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "71516\n" - ] - }, - { - "data": { - "text/html": [ - "
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indexNaN
0EC0
1substrate0
2organism0
3kcat41625
4KM5273
5e46898
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" - ], - "text/plain": [ - " index NaN\n", - "0 EC 0\n", - "1 substrate 0\n", - "2 organism 0\n", - "3 kcat 41625\n", - "4 KM 5273\n", - "5 e 46898" - ] - }, - "execution_count": 10, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "print(len(df))\n", - "\n", - "# NaN-values for each coumn\n", - "df.isnull().sum().reset_index(name='NaN')" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.7.2" - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} diff --git a/code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb deleted file mode 100644 index d4678a1..0000000 --- a/code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb +++ /dev/null @@ -1,3761 +0,0 @@ -{ - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Usage of the \"brenda\" module for obtaining molecules from the BRENDA database" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "First create a molecule object that holds all the data. Here we use only molecules that are listed in the **\"Natural substrates\"** table of BRENDA" - ] - }, - { - "cell_type": "code", - "execution_count": 1, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "brenda.BrendaNaturalMols" - ] - }, - "execution_count": 1, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "import brenda\n", - "\n", - "# other valid values for typeof are 'product', 'substrates', 'products'\n", - "mol_obj = brenda.BrendaNaturalMols(typeof='substrate') \n", - "\n", - "type(mol_obj)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "You can equally well use molecules form the **\"Substrates\"** tabel in BRENDA" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "brenda.BrendaMols" - ] - }, - "execution_count": 2, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "mol_obj = brenda.BrendaMols(typeof='substrate') \n", - "\n", - "type(mol_obj)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of all unique molecules from all EC numbers" - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['(((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-f(no2)-vmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid)',\n", - " '(((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-pvmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid)',\n", - " '((1s,3s)-3-(7-amino-2h-2,3,5,6-tetraazabenzo[cd]azulen-2-yl)cyclobutyl)methyl tetrahydrogen triphosphate',\n", - " '((7-methoxycoumarin-4-yl)acetyl)-ser-glu-val-asn-leu-asp-ala-glu-phe-lys(2,4-dinitrophenyl)',\n", - " '((7-methoxycoumarin-4-yl)acetyl)-ser-glu-val-asn-leu-asp-ala-glu-phe-lys(2,4-dinitrophenyl)-arg-arg-nh2',\n", - " '((7-methoxycoumarin-4-yl)acetyl-pro-leu-gly-leu-n-3-(2,4-dinitro-phenyl)-l-2,3-diaminopropionyl-ala-arg-nh2)',\n", - " '(([(1e)-phenylmethylidene]amino)oxy)acetic acid',\n", - " \"((e,e)-4,4'-dihydroxy-5,5'-dimethoxy-3,3'-bicinnamic acid l-arg-p-o-yl ester)\",\n", - " '((gp-4-hydroxy-l-proline)5gpk(7-methoxycoumarin-4-yl)acetyl)gpqglrgqk(2,4-dinitrophenyl)gvr((gp-4-hydroxy-l-proline)5-nh2)3',\n", - " '(+-)-11-hydroxy-delta9-tetrahydrocannabinol']" - ] - }, - "execution_count": 3, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "molecules = mol_obj.names()\n", - "\n", - "molecules[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of all EC numbers in the dataset" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['1.1.1.1',\n", - " '1.1.1.10',\n", - " '1.1.1.100',\n", - " '1.1.1.101',\n", - " '1.1.1.102',\n", - " '1.1.1.103',\n", - " '1.1.1.104',\n", - " '1.1.1.105',\n", - " '1.1.1.106',\n", - " '1.1.1.107']" - ] - }, - "execution_count": 4, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "ec_nums = mol_obj.ec()\n", - "\n", - "ec_nums[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a dictionary with EC number keys holding lists of molecule names" - ] - }, - { - "cell_type": "code", - "execution_count": 5, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "['1.1.1.1', '1.1.1.10', '1.1.1.100', '1.1.1.101', '1.1.1.102', '1.1.1.103', '1.1.1.104', '1.1.1.105', '1.1.1.106', '1.1.1.107']\n", - "\n", - "\n", - "['1,5-anhydro-d-fructose', '1,5-anhydro-d-glucitol', '1,5-anhydro-s-sorbitol', '1,6-anhydro-d-glucose', '1-beta-aurothioglucose', \"2,2'-azinobis(3-ethylbenzthiazolinesulfonic acid)\", '2,6-dichloroindophenol', '2,6-dimethyl-1,4-benzoquinone', '2-chloro-1,4-benzoquinone', '2-deoxy-2-fluoro-d-glucose', '2-deoxy-d-galactose', '2-deoxy-d-glucose', '2-keto-d-glucose', '2-methoxy-1,4-benzoquinone', '3-deoxy-3-fluoro-beta-d-glucose', '3-deoxy-d-glucose', '3-o-methyl-d-glucose', '5-thioglucose', '6-deoxy-d-glucose', 'allose', 'alpha-d-glucose', 'alpha-d-melibiose', 'arabinose', 'beta-d-galactose', 'cellobiose', 'ferricenium hexafluorophosphate', 'fructose', 'fucono-1,5-lactone', 'fucose', 'galactose', 'gentibiose', 'glucono-1,5-lactone', 'gluconolactone', 'glucose', 'idose', 'lactose', 'maltoheptaose', 'maltopentaose', 'maltose', 'maltotriose', 'mannoheptose', 'mannose', 'melibiose', 'methyl alpha-d-glucoside', 'methyl beta-d-glucoside', 'methyl-beta-d-glucoside', 'ribose', 'sorbose', 'sorbose d-allose', 'sucrose', 'tetrafluoro-1,4-benzoquinone', 'trehalose', 'wheat flour', 'xylose']\n" - ] - } - ], - "source": [ - "mol_data = mol_obj.data_dict()\n", - "\n", - "print(list(mol_data.keys())[:10])\n", - "\n", - "print('\\n')\n", - "\n", - "print(mol_data['1.1.3.10'])\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a data frame holding the EC number and substrate name data" - ] - }, - { - "cell_type": "code", - "execution_count": 6, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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ec_numbermolecule
01.1.1.1(1s,3s)-3-methylcyclohexanol
11.1.1.1(2e)-2-methylpent-2-enal
21.1.1.1(2e)-3,7-dimethylocta-2,6-dienal
31.1.1.1(2e)-but-2-en-1-ol
41.1.1.1(2e)-but-2-enal
\n", - "
" - ], - "text/plain": [ - " ec_number molecule\n", - "0 1.1.1.1 (1s,3s)-3-methylcyclohexanol\n", - "1 1.1.1.1 (2e)-2-methylpent-2-enal\n", - "2 1.1.1.1 (2e)-3,7-dimethylocta-2,6-dienal\n", - "3 1.1.1.1 (2e)-but-2-en-1-ol\n", - "4 1.1.1.1 (2e)-but-2-enal" - ] - }, - "execution_count": 6, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "mol_data = mol_obj.data_frame()\n", - "\n", - "mol_data.head()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Usage of the \"cheminfo\" module for working with the molecules" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "First create a molecule object that holds all the data. Conversion from names to SMILES occurs automatically on creation of the object.\n", - "\n", - "The cheminfo module is dependent on the following cheminformatics packages:\n", - "\n", - "cirpy\n", - "\n", - "pubchempy\n", - "\n", - "rdkit" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "### First let's look at name to SMILE conversion" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "The SMILES are fetched from saved data where possible, otherwise tries to get them from a server. The retest_none variable can be used to force the script to try to get SMILES for the molecule names that did not work in previous runs." - ] - }, - { - "cell_type": "code", - "execution_count": 7, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "cheminfo.NameToSmile" - ] - }, - "execution_count": 7, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "import cheminfo\n", - "\n", - "mols = ['(S)-Lactate', 'Glycolate', 'Tryptophane', 'ATP', 'ADP', 'AMP']\n", - "\n", - "chem_obj = cheminfo.NameToSmile(names=mols, retest_none=False)\n", - "\n", - "type(chem_obj)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of molecule names" - ] - }, - { - "cell_type": "code", - "execution_count": 8, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp']" - ] - }, - "execution_count": 8, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "molecules = chem_obj.names()\n", - "\n", - "molecules[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of all the smiles" - ] - }, - { - "cell_type": "code", - "execution_count": 9, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['CC(C(=O)O)O',\n", - " 'C(C(=O)O)O',\n", - " 'C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N',\n", - " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)OP(=O)(O)O)O)O',\n", - " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)O)O)O',\n", - " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)O)O)O']" - ] - }, - "execution_count": 9, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "smiles = chem_obj.smiles()\n", - "\n", - "smiles[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a dictionary of all data with metabolite names as keys and smiles as values" - ] - }, - { - "cell_type": "code", - "execution_count": 10, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp']\n", - "\n", - "\n", - "CC(C(=O)O)O\n" - ] - } - ], - "source": [ - "smile_data = chem_obj.data_dict()\n", - "\n", - "print(list(smile_data.keys())[:10])\n", - "\n", - "print('\\n')\n", - "\n", - "print(smile_data['lactate'])" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a data frame with the molecule names and smiles data" - ] - }, - { - "cell_type": "code", - "execution_count": 11, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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moleculesmile
0lactateCC(C(=O)O)O
1glycolateC(C(=O)O)O
2tryptophaneC1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N
3atpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...
4adpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...
\n", - "
" - ], - "text/plain": [ - " molecule smile\n", - "0 lactate CC(C(=O)O)O\n", - "1 glycolate C(C(=O)O)O\n", - "2 tryptophane C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N\n", - "3 atp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...\n", - "4 adp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(..." - ] - }, - "execution_count": 11, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "smile_data = chem_obj.data_frame()\n", - "\n", - "smile_data.head()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "**Note**\n", - "\n", - "Each of the four methods names(), smiles(), data_dict(), and data_frame() take the optional argument \"exclude_none\". By default this is set to False and all molecule names for which no SMILE could be obtained are excluded. If set to True, these will be included in the output." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "### Now let's look at getting interesting data out of the SMILES" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "First create a data object using molecule names and smiles as input." - ] - }, - { - "cell_type": "code", - "execution_count": 12, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "cheminfo.SmileToData" - ] - }, - "execution_count": 12, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj = cheminfo.SmileToData(names=chem_obj.names(),\n", - " smiles=chem_obj.smiles(), \n", - " descriptor='morgan3', \n", - " metric='tanimoto')\n", - "\n", - "type(data_obj)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Several different alortithms for calculating descriptors are available. A list of the available ones can easily be obtained." - ] - }, - { - "cell_type": "code", - "execution_count": 13, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['maccs', 'morgan3', 'morgan5', 'rdkit']" - ] - }, - "execution_count": 13, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.valid_descriptors()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Additionally several different metrics for comparing the molecules are available. A list of the available ones can easily be obtained." - ] - }, - { - "cell_type": "code", - "execution_count": 14, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['asymmetric',\n", - " 'braunblanquet',\n", - " 'cosine',\n", - " 'dice',\n", - " 'kulczynski',\n", - " 'mcconnaughey',\n", - " 'rogotgoldberg',\n", - " 'russel',\n", - " 'sokal',\n", - " 'tanimoto']" - ] - }, - "execution_count": 14, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.valid_metrics()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "#### Obtaining basic properties for the molecules" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of the molecule names " - ] - }, - { - "cell_type": "code", - "execution_count": 15, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp']" - ] - }, - "execution_count": 15, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "names = data_obj.names()\n", - "\n", - "names[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of the molecule smiles" - ] - }, - { - "cell_type": "code", - "execution_count": 16, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['CC(C(=O)O)O',\n", - " 'C(C(=O)O)O',\n", - " 'C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N',\n", - " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)OP(=O)(O)O)O)O',\n", - " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)O)O)O',\n", - " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)O)O)O']" - ] - }, - "execution_count": 16, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "smiles = data_obj.smiles()\n", - "\n", - "smiles[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of the molecule objects obtained from the smiles" - ] - }, - { - "cell_type": "code", - "execution_count": 17, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "[, , , , , ]\n" - ] - }, - { - "data": { - "text/plain": [ - "" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "text/plain": [ - "" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "text/plain": [ - "" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "text/plain": [ - "" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "text/plain": [ - "" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "text/plain": [ - "" - ] - }, - "metadata": {}, - "output_type": "display_data" - } - ], - "source": [ - "mols = data_obj.molecules()\n", - "\n", - "print(mols[:10])\n", - "\n", - "for m in mols[:10]:\n", - " display(m)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of fingerprint objects for each of the molecules" - ] - }, - { - "cell_type": "code", - "execution_count": 18, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 18, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "fingerp = data_obj.fingerprints()\n", - "\n", - "fingerp[0]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "It is also possible to get the fingerprints as bitstrings" - ] - }, - { - "cell_type": "code", - "execution_count": 19, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "'01000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000001000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000010000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'" - ] - }, - "execution_count": 19, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "fingerp = data_obj.fingerprints_str()\n", - "\n", - "fingerp[0]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Or as a bit list if one prefers..." - ] - }, - { - "cell_type": "code", - "execution_count": 20, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "[0,\n", - " 1,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - 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" 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " 0,\n", - " ...]" - ] - }, - "execution_count": 20, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "fingerp = data_obj.fingerprints_list()\n", - "\n", - "fingerp[0]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a list of molecule properties for the molecules, in this case molecular weight." - ] - }, - { - "cell_type": "code", - "execution_count": 21, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "[90.031694052,\n", - " 76.016043988,\n", - " 204.089877624,\n", - " 506.9957454619997,\n", - " 427.0294149399998,\n", - " 347.06308441799985]" - ] - }, - "execution_count": 21, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "props = data_obj.property(property_type='molwt')\n", - "\n", - "props[:10]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "You can easiliy obtain a list of which properties that are available" - ] - }, - { - "cell_type": "code", - "execution_count": 22, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['molwt',\n", - " 'num_alirings',\n", - " 'num_arorings',\n", - " 'num_hbond_acceptors',\n", - " 'num_hbond_donors',\n", - " 'num_hetatom',\n", - " 'num_nhoh',\n", - " 'num_no',\n", - " 'num_rotbond',\n", - " 'tpsa']" - ] - }, - "execution_count": 22, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.valid_properties()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "These are a bit cryptic, so one can also get the explanation." - ] - }, - { - "cell_type": "code", - "execution_count": 23, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['\"molwt\": molecular weight',\n", - " '\"num_alirings\": number of aliphatic rings',\n", - " '\"num_arorings\": number of aromatic rings',\n", - " '\"num_hbond_acceptors\": number of hydrogen bond acceptors',\n", - " '\"num_hbond_donors\": number of hydrogen bond donors',\n", - " '\"num_hetatom\": number of hetero atoms',\n", - " '\"num_nhoh\": number of NH and OH groups',\n", - " '\"num_no\": number of N and O atoms',\n", - " '\"num_rotbond\": number of rotatable bonds',\n", - " '\"tpsa\": polar surface area']" - ] - }, - "execution_count": 23, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.explain_properties()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a dictionary containing a selection of chemical properties for each molecule" - ] - }, - { - "cell_type": "code", - "execution_count": 24, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "dict_keys(['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp'])\n" - ] - }, - { - "data": { - "text/plain": [ - "{'smile': 'CC(C(=O)O)O',\n", - " 'molwt': 90.031694052,\n", - " 'num_alirings': 0,\n", - " 'num_arorings': 0,\n", - " 'num_hbond_acceptors': 2,\n", - " 'num_hbond_donors': 2,\n", - " 'num_hetatom': 3,\n", - " 'num_nhoh': 2,\n", - " 'num_no': 3,\n", - " 'num_rotbond': 1,\n", - " 'tpsa': 57.53}" - ] - }, - "execution_count": 24, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "prop_dict = data_obj.data_dict()\n", - "\n", - "print(prop_dict.keys())\n", - "\n", - "prop_dict['lactate']" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a data frame containing a selection of chemical properties for each molecule" - ] - }, - { - "cell_type": "code", - "execution_count": 25, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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moleculesmilemolwtnum_aliringsnum_aroringsnum_hbond_acceptorsnum_hbond_donorsnum_hetatomnum_nhohnum_nonum_rotbondtpsa
0lactateCC(C(=O)O)O90.0316940022323157.53
1glycolateC(C(=O)O)O76.0160440022323157.53
2tryptophaneC1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N204.0898780223444379.11
3atpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...506.99574512147218188279.13
4adpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...427.02941512126177156232.60
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" - ], - "text/plain": [ - " molecule smile molwt \\\n", - "0 lactate CC(C(=O)O)O 90.031694 \n", - "1 glycolate C(C(=O)O)O 76.016044 \n", - "2 tryptophane C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N 204.089878 \n", - "3 atp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(... 506.995745 \n", - "4 adp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(... 427.029415 \n", - "\n", - " num_alirings num_arorings num_hbond_acceptors num_hbond_donors \\\n", - "0 0 0 2 2 \n", - "1 0 0 2 2 \n", - "2 0 2 2 3 \n", - "3 1 2 14 7 \n", - "4 1 2 12 6 \n", - "\n", - " num_hetatom num_nhoh num_no num_rotbond tpsa \n", - "0 3 2 3 1 57.53 \n", - "1 3 2 3 1 57.53 \n", - "2 4 4 4 3 79.11 \n", - "3 21 8 18 8 279.13 \n", - "4 17 7 15 6 232.60 " - ] - }, - "execution_count": 25, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "prop_data = data_obj.data_frame()\n", - "\n", - "prop_data.head()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a matrix of all pairwise similarities between molecules" - ] - }, - { - "cell_type": "code", - "execution_count": 26, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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lactateglycolatetryptophaneatpadpamp
lactate1.0000000.2500000.1250000.0375000.0389610.042857
glycolate0.2500001.0000000.1063830.0384620.0400000.044118
tryptophane0.1250000.1063831.0000000.0747660.0769230.082474
atp0.0375000.0384620.0747661.0000000.9054050.786667
adp0.0389610.0400000.0769230.9054051.0000000.819444
amp0.0428570.0441180.0824740.7866670.8194441.000000
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" - ], - "text/plain": [ - " lactate glycolate tryptophane atp adp amp\n", - "lactate 1.000000 0.250000 0.125000 0.037500 0.038961 0.042857\n", - "glycolate 0.250000 1.000000 0.106383 0.038462 0.040000 0.044118\n", - "tryptophane 0.125000 0.106383 1.000000 0.074766 0.076923 0.082474\n", - "atp 0.037500 0.038462 0.074766 1.000000 0.905405 0.786667\n", - "adp 0.038961 0.040000 0.076923 0.905405 1.000000 0.819444\n", - "amp 0.042857 0.044118 0.082474 0.786667 0.819444 1.000000" - ] - }, - "execution_count": 26, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.similarity()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a matrix of all pairwise distances between molecules" - ] - }, - { - "cell_type": "code", - "execution_count": 27, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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lactateglycolatetryptophaneatpadpamp
lactate0.0000000.7500000.8750000.9625000.9610390.957143
glycolate0.7500000.0000000.8936170.9615380.9600000.955882
tryptophane0.8750000.8936170.0000000.9252340.9230770.917526
atp0.9625000.9615380.9252340.0000000.0945950.213333
adp0.9610390.9600000.9230770.0945950.0000000.180556
amp0.9571430.9558820.9175260.2133330.1805560.000000
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" - ], - "text/plain": [ - " lactate glycolate tryptophane atp adp amp\n", - "lactate 0.000000 0.750000 0.875000 0.962500 0.961039 0.957143\n", - "glycolate 0.750000 0.000000 0.893617 0.961538 0.960000 0.955882\n", - "tryptophane 0.875000 0.893617 0.000000 0.925234 0.923077 0.917526\n", - "atp 0.962500 0.961538 0.925234 0.000000 0.094595 0.213333\n", - "adp 0.961039 0.960000 0.923077 0.094595 0.000000 0.180556\n", - "amp 0.957143 0.955882 0.917526 0.213333 0.180556 0.000000" - ] - }, - "execution_count": 27, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.distance()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get similarity statistics (minimum similarity, maximum similarity, etc.) for each molecule in the whole set. The diagonal (self-similarity) is ignored in these calculations. Molecules with a low max and a low sum might be considered outliers." - ] - }, - { - "cell_type": "code", - "execution_count": 28, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
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minmaxsummedianmeanstdev
lactate0.0375000.2500000.4943180.0428570.0988640.092217
glycolate0.0384620.2500000.4789620.0441180.0957920.090777
tryptophane0.0747660.1250000.4655470.0824740.0931090.021822
atp0.0375000.9054051.8428000.0747660.3685600.438149
adp0.0389610.9054051.8807340.0769230.3761470.445211
amp0.0428570.8194441.7755600.0824740.3551120.409389
\n", - "
" - ], - "text/plain": [ - " min max sum median mean stdev\n", - "lactate 0.037500 0.250000 0.494318 0.042857 0.098864 0.092217\n", - "glycolate 0.038462 0.250000 0.478962 0.044118 0.095792 0.090777\n", - "tryptophane 0.074766 0.125000 0.465547 0.082474 0.093109 0.021822\n", - "atp 0.037500 0.905405 1.842800 0.074766 0.368560 0.438149\n", - "adp 0.038961 0.905405 1.880734 0.076923 0.376147 0.445211\n", - "amp 0.042857 0.819444 1.775560 0.082474 0.355112 0.409389" - ] - }, - "execution_count": 28, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "sim_data = data_obj.molecule_similarity_stats()\n", - "\n", - "sim_data\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get similarity statistics for the entire set of molecules." - ] - }, - { - "cell_type": "code", - "execution_count": 29, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "{'min': 0.0375,\n", - " 'max': 0.9054054054054054,\n", - " 'sum': 3.468960521445852,\n", - " 'median': 0.07692307692307693,\n", - " 'mean': 0.2312640347630568,\n", - " 'stdev': 0.3190818179151157}" - ] - }, - "execution_count": 29, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "sim_data = data_obj.global_similarity_stats()\n", - "\n", - "sim_data" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Get a subset of diverse molecules, chosen from the total set of molecules. It is possible to specify already selected molecules in the \"firstpicks\" argument." - ] - }, - { - "cell_type": "code", - "execution_count": 30, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['glycolate', 'atp', 'tryptophane']" - ] - }, - "execution_count": 30, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.diversity_pick(n=3, firstpicks=['glycolate'])" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Draw all molecules. These are aligned based on their maximum common substrucuture, which, in the case shown here, is not highlighted." - ] - }, - { - "cell_type": "code", - "execution_count": 31, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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\n", - "text/plain": [ - "" - ] - }, - "execution_count": 31, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.draw_structures()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Optionally one can also highlight the maximum common substrucuture setting the \"highlight_substructure\" to True" - ] - }, - { - "cell_type": "code", - "execution_count": 32, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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\n", - "text/plain": [ - "" - ] - }, - "execution_count": 32, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.draw_structures(highlight_substructure=True)" - ] - }, - { - "cell_type": "code", - "execution_count": 33, - "metadata": { - "scrolled": false - }, - "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "/home/martin/anaconda3/envs/py37/lib/python3.7/site-packages/matplotlib/pyplot.py:514: RuntimeWarning: More than 20 figures have been opened. Figures created through the pyplot interface (`matplotlib.pyplot.figure`) are retained until explicitly closed and may consume too much memory. (To control this warning, see the rcParam `figure.max_open_warning`).\n", - " max_open_warning, RuntimeWarning)\n" - ] - }, - { - "data": { - "image/png": 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\n", - "text/plain": [ - "" - ] - }, - "execution_count": 33, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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nUYIFJZQIuVwu5mfnWXK5WHYt41pysbi4iKHrJCYlkZiUSFJyIklJSdg9w0peAhrouiEfNWSWxV9YVlZWaG1q5fatO8xMz5CUmMiBgw00HDpAijNl7XWiGF4JRbSSYkTx+YY6h+Dz2Gpv63Glhp/RACZsgr2uF+W/TzTlGAK2eeLf2OgYgwMPGRwcYmhoiNmZ2XXPCYXFasHpdJKXn0t5RTnl5eXEx8f7tm+lNlToxQLr2/tWZEXaeUSeLVHZTUkx91mfTQklKZc/v8yVK1+Rn5/Hm996g6TkpJBDPV5B8R47WFCWXEsMDz5i8OEggwODjI+OmyXzQ3w8wXM24uLjycnNobA4n4KiAjIzM1EUxdcQvA1V9RMS/yxLOGExDIOB3gHu3mmkt6cXRVGoqKygqLiI7OwscnJyAgIGhBcH37l7rvHKygqLi4ssLCywuLDE0tISqysrLK8ss7K6yqqnh6UqKqrFgsViCpZqsWC323E6k0l2OnEmJ5OcnLxuuCeaXle0Pa5osisiK8JesdO3CNmJopbmfoElGTRdY2hwiKb7TbQ0t7CysgKAI9FBfkE++QX5pKenewpa2rDFxRFns6GqKnNzc8zNzTE7M8vs7Bwz09M8HHiIy+XCYrFQWFRIaWkJ5RXlZGVl+c4hmlILm23rIis7iojKun12YcjHv+fw9ddXufTZJQ407Oell19EUZWwQz3eLIq/oKysrtDa3Erzg1bGRkbRdR3VYiE7N5uCwnxS0lOw2+M9JfPjibfHoygKS4tLzM/NszC/wML8IjMzsww9HGJ22uyhJDgSKCgsoLSilIrKciwWC6qqBgiL999ohAVgdmaOe3caaW1tZ2F+3twPhdS0VLJzsnE6k1FUFZvFiqKuZW1cLhdLi6aILC4u+n5WV1YDPwe/r6FqsRAfF4fVZjNXUWkamqahaTqa5l7XA1MtFlKcTgoK8yksKqKwqICUlBRfnRiIvPQ6OICF3kdkRYgNHscqR//nblQzanJqkuamZpruNTE9PY3VaqWqppLSslLyC/JJ8utYbOZ+P7quMzQ4RHdXLz3dPUxOTABQVlbG8ZPHKCouClsbarttXdr5jvHsiMpeDPlsJCl37tzh/fc+oLaultffeBUUAiQl1FCPV1KWl5d5cP8Bd281sjC/QEZWBkWlReQX5JGVk4XFqvqdV2AQCIeqqCzMLzA4MMjw4DCDA0MsLS7hSHSwv6Geuv11JCYmBmRZgoVloyEhMOVkYWGB0ZFRxkYnGB0ZYWx0jIWFRfO9aoHnabVZffckSkhIMH8cDhITHTgcDhITE0lITCAhwU6cLQ5bnM03Hybc5+hyLbMwN2/2umbnmJ2dY2pyksGHQ7hcLgCSkpMpKiqkpraa8opyrBar7/nRBrFI6eG9kJVnLIAJUbKbnTRzv/DDPZEkZX5unk8++ZTWllYUoKiokNr6OqprqrDabKFfdxuTaefm5mhuauHu7UYWFxbIzc3l2ImjVNdU+9r7Vtv6TrRzEZWQPBuisperfMLNS2lqauL3b71DaVkJ3/7Ot9ZlUkJNmNV1naWlRe7ebuTe3Xu4llzkFeZz6OhBCoryMfA8P0hMNlr5E27Fj4LCQO8AzfebeTgw6OnVVLH/YD3Z2dnrhCXcHJZQk27Dvbb3+bqu+66VzROgNrodwLrHN5He9p6TYRhMjE8wPDjMw4eDDPQNsLS0RLLTyeHDBznQcIAER8K6lUwSxIQnhd3opPkfdyuS4tbc3L59hy8//wK3283xE8fYf3C/b8Vj8OtFWsIcLf7tQtd0mptauH3jNlNTU6SmpnLxxYtUVVUC0s5jjKdfVB7nKh/vH96uri5+9Ytfk1eQx/e+/x0sVktISQnOovT19vPxB5+wsLBAaVkJh44eJCs3a21fP0EJFyACzl/XN5yH4W1IM1MzNDU209neiebWqKyu5MSZ46Smpq4bEgoeDjIfV4LSoeulxX9bNL2k0LeE31rQCj4v77npuk53ZzeNd+4x0D+A1Wqjdl8tR48eJjsnO6SwSBATYpm9GPL23x5JUnRDZ2RklA/ee5/h4UcUFxfx0jdeJDUtNWwsDX4P4dq8//ltVLfIP9vb1dnFV19eZWJ8nEOHD3H+4jni48x5dIqq7qqsSBuPiqdbVHZyAtlWh3wG+gf42T/+jLT0NH7wh98nLj4u5MRZTXf7JMXtXuWrL77izu1G0tPTuPDyBTKy0sMKSnBgMEIEkVAEFHcL0egURWVleZUHdx/woPEBhgEHDu7nyInDJNgTfMISbv6K/2ts1DgjsdGyyGjeazDBK3JCnd/kxCT37t6jtbmNlZUV9jcc4Ny559dV4w0VyDYKYv7nsBuy8gwFMSECezXkE42kuDU3lz//ghvXb2CPj+fCC+epqatBUZTQWeltVN6G6Nq4t53oms5XX3zFrZu3SUtL441vvk5+fr75vCg7JdLGdw0RFdi9IZ+5uTn+6i//mrj4OP7oR3+EI8HuWQkUOpvi1jQWFxd49633GBwc4sDB/Rw/fRyLVQ2QFH9B8ZcT3/Jlv3NfXllG13Ti4uNCLkH2/90nFUGNT1FUlhaWuHXtNh1tHdjtdk6eOUFdfZ05oXYTwuIl0t2Kg6+5P8GBKdRnvNFku3WBIsQ5+g9frayscuPade7cvIvVZuXkqZMcO34Uq9VqvtcNAtl2ZEV6XMJ22GlR2aqkLK8s8/bv3qajo5MDB/Zz7sJZ4u3xIY8RTfXtaN/b+hpI4YtYAjzsH+SD9z5kcXGRl156gYZDDbvexv2fF+73aN/fU8rTKyqPI5sSsGpH1/nlL35FX28vP/rxPyMzIz2ipOiGwdjoKG//9h0W5ue58PIFKqrKfcf1ikzw63kFZWJikr6uPqanZ1haWGRpYYnFxSXcq+ZKGavNSpIziaTkJJwpySQ7k8kvyiMpOSlkI1QVJaSwTI1PcfXLqwwPPSIzK5MzZ09TVFwUdv6K+VjoYZ9Q9xvyv7YBj0WovhtNoI1mgupGRe5mpme4fOkLerp6SElJ4eyFs9TW1gSsGgiUtY0D2W6mh5+RICaE4XGtcvTfzzAMllxL/OaXv6F/YIAXX7zIoSOHfLHQe4zgFY+Bx46uAnc4Nlt1e3lpmXd//x79ff0cPnKYF166iEW1hJWVxzkE9Iy08adTVPaiZkC4bIp3+62bt/nwgw954aWLHPZrmOEkZXhomN/84rdYrBZeffMbZOVk+WRE07R1WRRD15mdnaero4vujh6mJqZQFIXk5CTiE+KxO+zYHebKGFU1V/fMzc6xMLfA/OwCmqYBkJOXTVlVKWUVpWbWJeiPqldYAhuhQm9nHzev3mR+bp7S8lJOPneSjIz0sEuaIcy4sf8EtyiyIwHj1us+JwNN0wKCRzjW3SAxxLmGE5aH/Q/5/NJlJsYmqNtXxyuvfQObzebree2ErEh6WNguOyEqWxny8ZeUufk5fvnzXzE6Osprr79C3b66kJISvOLR/zWCK3CHO2/v45HaSrC0hBIW71y1K59f4fatOzsqKzudVXlG2vfTJyo7fWfQrWRTxsbG+Ju/+hsKiwr53j/5HngmkXlFxa25AyRlfGycX//811hsVr713TdJTEqMKClDA0Pcvn6XR8OPMAyDrOxMSiqLKSkvJs4eH3Iymj+GYTA3O8/Dnof0dPYxOz2LxWKhqKSQyroKCosKIgqLN7uiazrN95q5e6sRt1tjf0M9x04e88lROGHZyufjf30nJ6YYHxtnemraVxtmccEsBOddauwNHqrFgkVVSXAkkJaRRnp6OukZaWRmZZLsTPYNXXmfE3y+oYRFVcxAdvvmbb7+8ipZ2Vn8wXe/TUpKyrZlRQKZsBM8rnIM3v0Mw2B2Zpaf/ePPmJ6Z5lvf/iblFeUBcdD7nEgVuCO9jrnNwL3qxq25iY+P97W1kPfu2kRnxFu88srnV7h18zZHjx3hwgsXfLISrn37ni+dkZ3k6RKVxyUp3n913RSLv/ub/8rM7Aw//pd/TGKiI2w2RdM1pqem+dXPfoWm63z7+98k2ZkcVlIWFxa4/vUt2lvacSQ6qKqtoLiimMTkRN85Badeg9+HF28jMQyD6ckZejv76O/qZ9m1Ql5hLkdOHiYzKyNATkJlVxTFTJXevnGHtqY2rFYrFdUV1NXXkZuXs3a/nyAJiOZz8UrJ6Mgo46PjjI6MMjE+gXvVjYGBoqgkOOw4Es3aKo5EB/YEM1hpmmZeZ828zosLi0xNTDE7O4dhGCgo2OLiKCkrprq2ioKiAmxWc1n0Rqua/IWlr7eP99/5AFVRefPbb1JaWrJrsiKBTIiWvc6mBEvK1OQU//CTn7Kyssx3vv8dCgryw0qK/1CPd0FB8PFXVld42D9Ib3cvkxOT5i1CXC5crmV0T3bYnmAnPSPd7JBkpJOZmUFWThZWq6c+SoRMb6jilV5Z+eLSF9y5dZcTJ49z9vzZDWVFOiM7ztMjKptdW7+TY7P+jfSLy1/y5Rdf8u3vfovKyoqIQz7LKyv89O9+ysLCAt/+/rdIz0wPyLZ456Tohs7D/odc+ugyriUXtQ01NBzZj2oJfQPD4NSp//tb3xDWGqehG3S0dtF8p5nVFTfV+yo5cvIIcXG2sMLiyzooKpMTUzTfa6K7owe3201Kago1dTVU11WTkuJcd739ez0ul4vZmVmmp2YYGx1jbGSM0ZExVldWMDCwxcWRmZlBelY6mVmZZGSlkZqW6knThr6ZWShWV1aZnppmenKGkUcj9Hb1sbKyTHx8PGUVZZRXllFYXIjNags578Y/qPkv5X7nrXeYnprhxW+8yKFDB32yYl5jNWIwizTxbid6Xc9AIBOC2C1RiWbIZ3l5mb/5q79hcWmJf/LDH5CVlRl2uCeUpHiPvbyyTH/fAB1tHfR197G6uorVZiMrOxO73Y4t3kZ8vFl9W1VVZqZmmJycZHJiilVP6f2EhATqD9Sz/2A9iUlmh24zmVOvrFz65HPu3b3H+YvnOXnyhHkcvxjoPW6oISDJqmybp0NU9kpSzP2MsI10YWGBP//TP6e0vJRv/sE3PRNd14uKdynyZx9f4t7de7z5ndcpKCowlybr7gBJ0XSN+3cfcOOrmyQ5k3j+xTOkpaf6MjKBY8LrV/6Euzahy0GbDXR5eZnmu610NHfiSHRw6uwJikoKI8oKrPVENLebnq5e2lo6GBl6BIDNZvNVm7Xb7dgT7GhujdnZWeZm51h2LfvOR1FVMrIyyMrOJCsni+ycLJypZgntUFKylaqV3nPWNI3BgWF6OnsY6B1gdXUVpzOZ46ePU1VThUVdfyuBUMKyurLKB+98QG9PH8+fe57TZ06FlZVogplkVYStstVhn82u9Ak35PPeu+9xr/E+P/ijH1BUWOC3X+gOm3ebV1I0XeNB4wO+vnKVleUV7Al2SstLKasoI7cgB6vVGrGdG4bBwvwC46PjtLW009/Tj8Vioaq2ioOHD5KZlQEQsk3D+qypV1beffs9uju7+cN/+ocUFRZG3RExX0va9zZ48kVlJyQl1OPRLsfzb6SfffIZ165d58f/+o/JSI+8yqe7q4ff/fotGg4d4PS5U37DQW503UDT3Wi6xheffklbcztFZUWcvnAKi2V9RVtfbyREViXU+/P/4gc2zkBhmRyf4vrlG8xOz1F3oIajp45g9Uwa9ZcV7zH9syvmMRVmZ2bp7e5ncWHRc0dnT8p2cQnVouJMcZLsTMaZ4iQxORFnipO09FQsFovfZxC68m7IMesovw+h6sZomsbD/iHu3rjLxPgkmVkZnDhznJLSkgBhCScrhm7wyYef0Nrcxgsvv8jRo4fDDgNFM54dbTCTQCb48zizKR0dnfzy57/k+MljnDt/dm17FFW4DUNnfHycTz/6jEfDIxQWF3DwcAP5hfm+P1WhOidr5+l37y917W/b9OQ0D+41097Sjq7plJaXcuHF8wEZlmhkZWV5hb//25+goPDH//Kf40hwbNi21x7felZF2vcTLiq7LSn+r7FRI52bm+Mv/uwvqKqp5rU3Xw2ZTXFrZrZkacnFT/72J1isFr73R9/FarX6hny881I03c21K9e5f+cB+w/X03DsALquhcjOaAGCsrK8zOzMLPOe1T2zM3NomoYG5P8UAAAgAElEQVQz1Ulqegop6Sk4EhM8jTOwrkpg+tNsqLpmcO/WA9qbOsjIyuDcS8+TkuKMOrviO766vvBb+GsenZiEKmy32YxKqNoxCgo9nb3cvHab+dl58gtyOfn8KfLyclEV1bxhY7ihIAPeeetdert7ee3N16mvrwuQleA0caSel/S6hK2wFVHZTjbFu8/8/Dx/9Zd/jcPh4Ed//E+xqGpISfE+z19SVldXuHn9Freu38IWZ+PMuTNUVlf4bjzqn30xz2vj+5kFxx/Xkovm+y3cvdWIw+HgG6+9TE5ezroOCLCuXXtlZWR4hJ/9w8/Zv7+e1954zdx3gyEgyapsmydTVLZyr4ftSIq5X+SU53vvvs+9xnv8y3/7L0hNSYmYTfngvY9obW7hu3/4HTKyMkIO+dy93cj1Kzeoqa/h6JnDYBi4dS2kpLhX3fR29tF6v4252TnMUzXPN8FhR7VYWJhfwPA07rj4OFLSnJRUFlNcXoxqMRvk+h7FWkMd7Bvi+hc3AIXT509SVlEa1URbL9E0NP9rGklO/Ie3DMNgfm6e2dk55mZmmZ2eA89EW0U1A4DVaiEhIYGM7AycKeZKn+A7Iwdkkzzvw9AN2ls6abzZiMvl4tipYxw9fmRddsWiWgOCmubWeOs3bzM8OMwffO87VFSUrZOV4DSxZFWEnWKj+Lgb2RRd1/ntr39LZ2cX/+zHPyIzM2PDIR+vpIw+GuHD9z9iYmKSqppKzpw7g90eH5CxDq7IHepcgwldiVZhfHScj977lKWFJc6cO83+hnosFkvIbKn53EBZuXL5K25ev8l3v/9dKisrdj1jGu6xdfs8ve37yROVvZIU/9faqJE+evSIv/3rv+PIsSNceOF8xGxKX98Av/n5bzh8/BAnzhz3ZVD8sykdbR189uElikuLeP6l53zH8J+TYhg6q5qb7rYemu42szC/QHpmGvkl+TiSEkhMcuBIdvhmvK+srDA7PcfM1AxzU3OMj0wyNzNHYnIitQ3VlFaVYlEDJSNYVhbnF/nqs6tMjk1Ru7+G42eOYvFUZ/XuB+HKykduRKHmmYSSk6WlJd+dnsdGxpmbmcPtXvUcA1SL6pnLoof8rthsVtKzMsjITCcrJ5PC4gLfTRDDiZd71c3Xl6/R1d5NcUkhL732Eo4ER0RZWV1e5de//A3Tk9P84Ic/oKAgP6SsbCagSTATNmIvh338O2r3793n92+/w/mL5zl+8ljY+XnBkvJw4CFv//b3xMXZOPfCOUrKin37Bcxh0Y0AaQn3PvwJbg/+Wd6VlRUuffQ5A70DVNdWc/HlC9hstohDu15R0TWdf/iv/8iyy8W/+Nc/DhgC2upcFWnbEXmyRGU3JQWiu+lWqGzKL3/xKwYGBvjX/+5fYY83b2YVnP0w/9X46d//DNfSEn/4z/+JeQfloGzKwvw8v/jJr0hNS+HFN15AsShomjn51py/YjbehYUlrl2+ztDAEOlZadQcrCE7L3Ptj/SGvQ6FkcFR2u53MD0+TU5BNkdOHyIxOSkguxIsK4ZhcO/GfdoedFBQnM/zL5whweEImZUw/zu6rEq4YR1N1xl5NMpg/yCDA0NMjI5jGAZWm5XM3ExzjktKEskpySQmO3AkOnzXwDAM80c3sy6T41NMjE0yNT7F1OQ0hm4Qb4+nsqaCyrpKUlKS18mE970oKHS2dnP18lVS0lJ47VuvkpaaFlFWXEsufv4PvwAUfrzBmHak8WzJqgjRspvDPpFKMvz5n/0FiUkOfvijH6J4t4VZ5eMVlempaX72k59hT7Dzze++iSPRsU5SNnvj1WCC448S0M7gzs1Gbl29RXlVOd947WWsVmtUsjL6aJSf/v0/cu78WU6dPiXz0HaXsKJi+Y//8T9GemLEjbvB45AUWDMy73aDwEmrIyMjfPrxp5w6dZKy8jJfcTfDt7eB5pGW/r4Bbl2/xcnnT5Kdm7XWcDE8/61x5fOvmBgb58XXXyAuIQ5D19GMtdnwhqEzNjrBR29/wtzMLA3H93Po9EGSkh0Yhue18AYVA93w/B70P0VRSHImUlxRSHyCnb7OPrrbeklw2ElJTwH8vh2K+X8KZmPKL8rDnmCno6WTno4eMjLT12q5YPj2xTBAwfeaa1fEc12MtWySeQ008/rpOtPTszTda+bKpSs0NTYzOjyCI9FOWXUZB483cOT0YUoqi8ktzCE1PQVHkgOr1bJ2DYy110SBOHscKekp5BXmUlZdSt2BGrJyMlhectHV3k3bg3bGRsc9txpI9DtX80ugqAqZWRnk5ufQ2tROR2sHeQW5JDgS/IKIWZ8FxXz/NpuN/IJ87t66y9zsHFXVld5LiaIovh/Dc528v+P5fAzwbQ9VyCq4qJX3c43ERtuFJ5sNOpjmPkH9zODfvVHP8A2xGoGP45/dMGhpbuFe4z1efuVl0jPSwVhr8eEkZWVlhbd+8xaLi0t863tvmvWjQkiKNzYY/nHC+5iumzEm0k9Q/FH83oeCQn5hHvF2O/fv3EfTdLPYpX8b8/zr7ZB4f5KTkxkaHKKnu5dDR8xyBKHatf/vQNh/I/2395pv1Hb948RTxn8KtyGmRGUnJQVCNNQwkhJuyMcrFgAfffAR8/NzvP6t132Tx7z7+oZpzCbLx+9/jFvTuPjyBbMBGeYfa1NCdB4NDfP1l9fYf7ie4opiz+RZ3e9YGnOz83z67iUsVgvnXn2OnMJc8ImONxBoHkHSA9qspuuAgmF43pvnO52a4aSwNJ+p8Wm6Wrqx2iykZ3uW8Hkvhp+sAGRkZ1BQnM/DviFa77eCAVm5WQFPMLxP85yAYeiggO4RLv+T03VzknFbawdXv7jGzau3GBkaITUjlYYj+zlx7gRV+yrJys0kITHBdz0Ch8UMT+ZpbUKy99bywT+KquBIdlBcXkRpVQlWq4WhgWE6WrsYHnxEVm4WcfE28DZ+M+qSnOKkpLSIro5uWh60kJOXg9Pp9Fvq6LkAnl5ZcnIyKAp3bt3xFaFS/C6sghIY3DAiBjb8Alao4PUMBzOBjUUlZCfNLx76x0Lvsfy2BsRAMOPlO79/l/j4OC6+dNHXUVt7nkcTDLPT5B3yufTJJXq6enn59RfJzcsNKynec/Lv0HgFJfPdT6n+X/+Eiv/jzyj+y5+S8flVtDgb81VlnogbGH+8bc7A8OuiK+TkZbO4uETzvWZy83JJSU0JaJOKstb58HsaDkcC9+7eIyMjnezs7JBSEtyut9oJCffYVvZ5AoltUfGm7zf9vAiSstG8lPW9CAjXkxgdHeXjjz7hxMnjlFWU+XoS5nMDG+jQ4DBfX7nKidPHyMnPAfBlP7wTYz9850NUVeXcS+cwFLNxaZ7MiKZruFwuPnvvc1aWVzj/ylkSU5I8jdpfUsxGbsqIHphH8Qsy3syHYZhfblucjaKyQuZm5+lq6QYMMnIyUZTwspKQmEBFdRkLC0u0PWhj7NEYufk52OJsvtfxCovvxzACfl9dddPT3cutq7f56ourDPQ+JC7ORm1DDafOnaS6voqUdCeKii9T4hU4zdM703TNJy2aZxjN8G1f/wNr4mQYBharhez8bKr2VZGU7KC3o4/2lg7i7XGkZ6b53ou5qscg3mGnoqqCvu4+2prbKCgpINGR6AtIvrSu59/8gnz6evtpbW6lfn+9r9S3ZFWEnWajeLk+exL8WGD5+rVHvHv6xUJdp7enl2vXrnPu/DlycnMCYuD65cjms5vuN3Pt6+scPXGE+oZ90UuKR1B0w6D8//wzKv/kvzB4cB83v/ca7ccPkrzsourPf4Jlbp6JM0fXxR//bGawrBQW5dPT1UdHWyfVtVW+GAb+8c+Mfd6hnbS0NNpbOxgdGaXhYEPAzpvpfOxUJyTafZ5AYldUtppFCdUQw20LN3kW1g/5hMqmfPzhx8zMTPPGt9/A6ikV79+U15YOG3z2yecsLi7w4isvmhVldW8aU8MwoPlBM20t7Tx/8TQp6Sl4h0IMQDc0VldX+fKTr5gcn+K5F0+RmplibtPXyuz7Xt8INTnOP31r+BqQb6jGM6aaV5TD0qKLrpZu3CurZOdnR5QVi9VCUWkhic4kOlo6abvfxujwKK7lZeLi44i3xwfIkubWmJiY4NHQCE2NTXx56Qrd7T2srrqprCnn2JmjNBzdT2ZOFlabBd3Q1oZyvNkTbwZF11h2uRgbGaO/5yEdLV003W2hs7mTzpYuutp66Gnrobu9l0cPH7G4sIiiQHxCfODwnDe7o0BqRirFFcVMjk3S9qCdqfEpsvOzibPZfFdLRcEaZ6W0rIT21i662jspqSjBHm9fC1CYw2TmvwpFRYU03mlkbHyC2roazxCR95JuLqviH4y2EtCe0mD2zBNNzIxWVII7bKGGvg3D4IP3PmB11c2rb7yKoioBwz7+nTVv92R4eIT33n6XvMJ8Lrx0zifhfoNFZgIEY52kzM7Mcu3KDZb+66948edv89ujB/izukruLy7R5HLxmTOJ+Dgbx9/9jO6sdPTqchR1rT1FkhVVtZCbn0Pz/WbGxyaprK5YN9zj3yYBX8y8f+8+xSVFpKSsz8Ts5PCPiMp6rHt5FsHs9FDPRnNSgl9zo5tuAYyPj9Pa2sbxk8dISEgIOcvdy+TkFN2d3Rw/dQyLzeIXBLwTRjXu3mokOzeLwtIifOlNzznouk57UzuPBh9x9MwRsvOyfJN1g9+nb1w3xDYvqqL6tiuKZ7hKV0HVUVWVw6cPYrVa6WjuwpHkoGZ/ddhrax5DobyqlKzsTDpbOhl++IgbX97ghnKT1PRU8ovycS25mByfZHZ61netbXE2ikuLKK8qJTM305xR7zdU4/1c/Ava6brOwtw8na3dPOwbZG5mHjzBMCExgeTUZKxWC7rmmZujm9umJqZ42DcImMuzs3IzyS3Ioai8EJvNhq4YqIqOYajEJ8Rx9pXn6G7p5t7NJn7/y3d54bULZkVLixW3bjYQR5KDV958ifd+9wEf/P5DvvfD72Kz2tYCkK6DqqKik5qWypmzZ7j82WU6OzqpqalZdx11XQd1beKcYeiez8fM0ui67qmSaT4uCNslmgmp4ZiYmKC3t4+z58+iWtSAYouh5qZous5H73+EPcHOy6+9iKqqAasejaD45S8p7S0dfP3FNQB+dK+FJUcCo//NP+OFzDQcjgRUi8rww0dcy8nk/O0H5P71z/i/5+Y5fuYoFdXmrUxUb1vSdTPcBbWhzKwMTj13kq8uf01XRxfVtdXomO9J9ft/f/bV1/HVF19xr/E+xcXFAduCh1m95yDsHI9NVGJdUrzDUVe/uorFonLk2NGw1VC9Da69tR2A2vqagG3m8QweDY2wMLfAkROHUBQFTdd856Ib5qz6tgcd5OTnUFpVHHAuwUM+G83o93/MKyzrZEVROXC8noW5RZrvtlJUXozDYUcFdB1PezX/AHt/VxWV5JQkjpw+gqooLMwtMtg/SH/PAC2NzdgddjKyMiguKyI1LYVkZzLJKUlYrBbfew0uXucvKJqmMTI0QkdLJ0P9wxgY5ORlU1CaT2pGCs60ZOLtcQHXNZjFhSUmRyeZGJlg7NEEg31DtDS2sv9oPYWlBVgsFp+wWFQrFfsqyMzN4qtPvubDtz/mG998mcysdLBY0Q0VNDepGak8f/EMn7x/ids373D85DFUQ0VHRzXM66NaLOiGTsOhA9xvvM/Vr69RWVWJBfOSe6/mTgW1jZ7rFR5B8CdSTRIIjCW6blbXBqirqw3YJ/geY14e9j9kamKKF165iD3BHnKYyj+eAZ7SAFdpb+kgtyCXs+dOUvKf/4Hx549Tdrg+4LnJKclU11cx98V1ar+6RUqigy8/uYKiqpRWlACskxUww5kOoKvUHajlfuMD7t29T2V1pe+mqt737O144GlfNpuN0rJS+nv7TDHxex/h2mBwRyPa9iiis57HIiqxJinhzm96apqmpmaOHDtCYqIjbM0A81gGba3t5BXkkpSc5Bmy0ANep7ujyzeE4i9G3u19nX0sLS5x5Mwh33n6UrFB2ZtQj4W6DqpHTvxlxX9/VVHZf2wfn739OU23mzj63BFA31BWDENHRyUx2UF1fRXV9VVomuar5up/Pt7Jr/7nHCwobreb7rZu2ps7mZ2eIy7eRuW+CspqSrA77AGS5tYCh8GCiU+wkVeSQ15JDqAwOTJF0+0Wrn1+g86WLg4c209mdgaG6s1oqCSnJnHxjfN8+vtLfPreZ7z2nVdITk4CwKpaQXNTVFZEWWUpd67fobS8hJzsHE92yHO9DPM6WVQrR48f4eMPPqGnp5fKiorQ37EQWZVg/B+XACZEw3ayJ6Ho7ekhIyOdlNSUDY+tGwaNd+5hT4inoqo84Jz8syn+zEzP8On7nzE+NsGBI/s5eKyBuIlJLCuruHKywnTCDJbzsrGurPLymcN8eK2RLz7+ElVRKC43Mx6+thVCVqyqhX0H9nHty2uMj42TnZNtdjqC2pfZsTOfWFBUQGtLKxMTE2RmZobM1oRqo95MqbB19jzqbaUc/nYkJbggWChJCTXkYxgGV69eQ1EUjh0/GvEcDUNndHSMqYkpqmqqQsqDW3PT3dlDYUkhFk9xNv8CZ5qm0dbUjjPNSU5BTlgBCU6Zere73W7cq27PcY11zw0IFEHBIjkliYraMno7+5gcm4r4XkPev8Pz462psjahdW2ynXcCrFtzr5OU0eFRPnrrE259fQer1crR5w/zyvdeou5wDfEJcZ7nabg1zXNvJPPH7flZda+u+/Fu0w2N1Gwnz71ykgMn6pmfnefSu5e59vl1FuYW0HTNN7wWZ4/j+ZfPsLq6yqfvfobLtYzhqX/jPdfTZ09itVn5/OPPfe/FPzvkff/VtdUkJSVx/eoNX1p77TMIPxEyXC9VEGBrnbzt4Ha76e/rp6S0JOw+/hnf+bl5erp6qNtfZw4TGca6c/aPQ1NTU7z1i7eZnZ3j4qvnOXi8wVwp6YlPhkJAjAns9Jj/2mw2zr96nrSMVC5//AWD/YMBMSj0ORtU1VZisVp40Ni0/txCXOfi4iIA+vv6w16HrbAVsdzr78HjZk9FZafu2ePdFirDEGkJcjSS4h3yGRocovFuIwcPN5CUnBSxAiNAR1sHigpllaXrj60bDD0cxrXkoqyqNOR7ezQ4wvTkDNX1VfjPv9/omrmWlum438lnb13m4199RsudNlaWVyM+JxS1B2uw2+3c+fouuhb6NUNdt2D8g4lhBI5B+2eYdMNgYWGRq5eu8ek7l1hZXuHkhROcffUMBaV5oBghBcUrIMuuZZaXVnAtuVheXmZlZYWVlZW1Jcua5vvRDR0dnYLyPM6/+TyV9eUM9Q/z6TufMzE2gWHoPllxpjk588IpZmZm+fzDyyyvrPg+e0M3ZebUuZOMjoxz99Zdz/vxl0fzfVutVg4fO8xAfz9DQ8MRr33IHuMOBaJnLaAJ0ROq2KVvm+c7OfhwkFW3m9KyUl8b8BIqy/vgnvlHf9/+unXHDM6muN0an394GYA3vvs6RaVFvm2rqU60OBv24dGQxzEMnYSRcbT4OJaTk4iLs/HCaxdwpjq59MFlRoZGfO9DN4yAjoIXuz2eiuoKOto6WFpaCnENAq9LSmoKyU4nfWFEJfC50u52kj0b+tmtGwtC6CGcUFkU/31DZSy8z3G73bz33vskJSXx3NnnAiQlFJqu09bSTmFRIQ6HY90fZYDujm5scTYKCvJCvqf25g7i7fEUlxfhLyqR6LjfSWdTN5qmkZWXSZw9jp7WPga6Bjl69hAZOekB+0caNrDF2Th48gDXLt2kq62bmvq1ibXm9Vkrne8/1hrteHewpPR193P9i5tompuaA9VU7a8wV0kZ6+fimCLhZn5mgeH+RwwPPGJmctbzCoHXyhZvI6cgi/yyPNIy09AVHdUwK0ZqaCgWheqGSvKKc7lx6RaX3/+SMy+dJicvG7fnrWTlZXLsuSNcv3yTa19e5/mLZ1AMHd1QUQydkvJiSsqLuXntFlU1VaSlpflSvrqu++aqHDi4nxtXb3Dt6nXyv/ttLH79Al9Pc5PDP6Gu77M+HLSbMvYszfEJ1ZZ7enqxWCwUFa9JRLhYqOs6TfebKC4twpniDJsV9uK9e/nFV86Tkrq2v6HrYLUw3VBL+q0HWJZcaAn2gPOzLLlIv3WfqQM1GJ4CkPH2eF58/SIf//5TPn3vEq9991XS09NCvk8zolmoP7CP9uZ22ls6OHikYV1tVLMmlLfarOJZAdiOpmlY1cD2vJmVODJRfnPsyZXaS0kJN9Tjv28kSdF1nQ/e/4Cx0TFefvUl4mxr6+y9x/DPphiGzsOBQeZm56ipqw5I7ftnax4NPyKvIA+rzRpyqGlqfJrcwlzfpNNoGB+ZJN4ez+mXT1BSVcTB0wc4cfEoq8urzE7NRX0cL/nFeTjTnIwOja291wif3cbj1brv81jLrhh0tHby1WdXcaYm88I3L1B3uCZAUvyzKEtLi3Q0d3Ll/atc+v0XtDa2oyhQUV9K9aEKKhsqqGwop+JAORX7y0jLSmWwd5irH93gi3ev0NnUxcLCgmf4RsfQDdy6m8QUB8+9cpo4exxff3aN2ZnZtWXRmpviiiL2Haqlq62bwYfDAVkVA4NTz5/A0A3u3mr0ZeH85+QAWK1W6hv20dPVzdLSUsheXejrJsM/4fB+n/x/nqbXizXGx8bIyMggLi5uw32npqZZmF+gsroy4PFQ33e35qa1uY3S8mKKSovWhkX9hk97f/gt4mbnKP3736yL82U/+R1xs/P0/PCbfnHdwJ5g54XXL2AYBs2NzRHPV9cNMrMzSUlNYWhwKOy5+j+Wn5/PyvIKs7Oz6/YTdo9dz6hspmHvxoTZ4P1CSYJ/wbk7d+5w/94DTj13irKyUt++oZYje2m630RcvI3SitL1r6MbrK6sMjczFzAsFPg+DJZdLuwJ9sAaLxv8QUtOSWJuao7f/PXvufNlI7lFOeQW57C6vEpJdZFvcmu0KIpCUnIiC7PzYXvqvtVDnqxKxM8sKIsC0N7cwa2vbpOdn8WJC8exeGrN+EuK979Hh8e4c6WRpSUXyalJVDWUk12YRUKifV2xKH/cqxWMPhxjuG+E9sZOOu53s+9oNcWVReiKimqoYAGb3crRs4f46qPrXP3sOudefR673Q6queS4rqGW/q4Bbl65Se73s1FUFd1QUXWdhMQEyqrKaG1u5fjpYyQlJpnXzJN98vbEKqsquXX9Nl2d3TQ0HAh/rUJc71CrBLaSQXnSV//EmhwEn89eXdvHcR1mZ2dxpqREte/k+AQAGRlrmdxw81NGhkdZdi0HxEz/fQBGzp2g9wdvUP1ffkbC6DjDLzwHQO5nX1H8u4/p+f5rjJ49DgQu8XckOiitKKGvq5/TZ095/sqphIqEhqGTlpHG5MRkwOtbQrVFi4ozxWlel5lZ0jMyfPs/61nN3WZXReVJk5SBgQE++ehTyspLee75M57qiOvTnP5/WJeWXHR1dFG3rxabzRaw2sfL5MQkuq6Tnpm+Nk/G74/4yvIKuq5jT4gPew1CkZySRFdLD823W/nhf/d9MOD+jWb6OgZovtWK1WalqKKA0poSSquLKa8pJT07nUgZSkeSg9GhUbwVVLdKKElpa2rn9td3yC3M4fj5Y6iqElJS3O5Vmu+20t3cS6LTwcnnjpGSnoxbM5dzuzUN/+zYuu+ZCtnFWeSW5uCad9He2MWDGy3MTM1Rd7gamy0ONDAUA4fTwaHTB7h5+Q63rtzh1IUTKIpqCoeicvjkQb785GvamjvY37APXTFFRDF09h/cR2dbF033mjl+8pi57NnQUfyGf7JzsnE6k2lrbWP/gfqA4R/fdYpi+OdZJNYEJRze83ySZTAUuq4zNzdPQWHBhvsahs74+CSKopCanup5LDhurv3e39OPxWKhoDg/4nGb/sd/w9T+Kkp++R5HP/zfAZitKObu//zf8/C1CxBGEopKC+ls7eTR8CMKiszz91/94y8iaelp9Hf343a7fXdYNzwdjoDzN3SSPCsBZ2ZmfY9FkhRpzzvDronKbklKJEEx99/cUI+3Mc3OzfG737xFsjOJ17/5+jpJCTXkA9De1oHb7aamvnrd63j3mRgbB/CVaQ9m2bUMgD3BHvC4+QUPfW0URWWwd5immy187998m7OvnkE3dJxpyVTuK+O5V08x2DNMX3s/vW193PmykanxaZJTkiitLqGsppTy2lIqastIcib7jpuY7EDTNFaX3VgSImdjQvb4102280jKg3ZuX71DXlEuJ84fQ1FVz92iAyfczk7PcvvKXaYnZiiqLKD6YCWqRVm3JNn7WUTKOuk6xDni2H96Hz1NvfS3P2R+ZoHDzx0gweEwr6OhkJmfQe2halrvttNyr439h/eZxd5UyC3KJTsviwe3H1BZU0FCwtodUtMz0yksKqDpXhOHjh40r4Xifd8qFk9lzJq6Gm7duM383DxOpzNsTZVIPCsB70mRk1A8rkzLbrG6uopracm8j1UUTExM4ExxmoUVI7RLwzDo6+knrzDPs2+oybxrjw29ep6Hr5zd8PX920hWXiaqRWXo4bBPVIL39c49Scsw55hNT02TlZ0V8TWSk5NAgTkZ+tlTdkVUdkJSdjuLYu5nPmd5ZZm3fvM7XK4l/un3/wh7fHxYSQk8R4Omew/IzMwgKzvLV1A6WFgmxs25JA5HQshpsq4lFwDx9nhPFce156uqCjqeewGBqiqgq7Q3dfLzP/8VdUdqKCorMCdzoTA/M09yajKJSYlUH6iktmFtUuzM5Bx97f30tPXS/qCDD3/9Ca5FFzkF2VTUllNRV05KWgqaprEwt2DeMThCsI02ELc+aOPutUYKSgo4ee4YumKs+4x03aC3o48HN5uxWFQOnz1IVn5GgMSsr10TfoKzuYPmu217xYEyElMSabvVwdcf3uDouXkHuyAAACAASURBVIOkpKeCBligrLaEuel5Whtbyc3PJis32zwEBg3H9vPx25/RfK+FI8cPmRN0dQVd0ak/uI8P3/mIzrYu6uprzXLbftkRFJV9+/dx49pNWppbOHnqZNjTjTaFHLzfk556fpLlJBL+72u70rKda7TVFShzs+Y8t2hFZWpikvSM0J0xfybHJ5mfnafhyP4tnVc0xMfFk52bzdDAMJxev91f+r3nPDk+uaGoWCwWkpOTfRkVYW94vCX0tygpO5VF0Q2d8fFx3vrt24yNjfHmN18nKzsrpKT4H8v7B3Kg/yEjI6M8f/6M714XAfLkSXVOTU6TlpHmuydE8PtzuzVAQbV4Z5erELSPoqieomI6w/3D/Ol/+gte/IOLJKcm0X6/k4c9QyzOLwJQUV8e8IdL8WUA0kjPTOPo84d8K1QePRylt62P7rZevvjgCv3dAxiGwZ2vG6lrqKVqXyXV9VUUFOWZN+vaoBJqMAtzCzRev0d+cT4nzx0zs6lG4LUEGB8Z5/61B6TnptNwoh5LvCVg9U9woTjz+euv5XrWitVlF2aS5Ezk/tfN3Lh0h+dePWXKmK5iWAzqj9cxMTrBg9stXHgtE91QUHSdtMw0Ckvyab3fyoHD9b65Koqhk1+UR2pqKq0trdTV+1Xu9Bv+SUtPI78gn9bWtoiiEnAtg8rpb5dYm6fytMpJOHZSWvaKxUUznjg82cdIKIrK7OwcRSVFG+47OmJO1s8rDD/so+o6tokpXGlO8BSRXNfWNY34yRlWM9LAYlkXm7Jys7h/+wGapqFaw19zZ4oTBYXZ2bUFCJHiXGJiIgsLC+Z5PsEdhCeJHReVaANQtJKyW1kUTde433ifjz/6GFtcHN/7/ncoKSsJKymBZexNKbl65SqJiYnUhakZ4GVhfoHs/Oxwl4KUNM8EralZMnPMCVqqZ9hHXyv8DMD02DR/8h/+Pw6dOsB3fvwtll3LDA88Yrj/EenZ6aRnpVJYZqY6/Rubt0Gp6lqP32KxUlRaSEl5MRdeP4/b7eb9X37IwuwCaRlpdLV284u//hUjQ6MkJidSWVtBdX2VKS/7KknPDFz+HPz+dcOgt6sfwzA4ePxA4PJjv9n9mqbTdKuFeEc8h880oFpVNM8qHe+kWX9JWV11M9TziGXXMrquo7k1X42GpJRE8styUVTzRmKePJQvu+JwJnDw+f3c/OQOLbfbOPxcgzmvxFCwWq2UVpXQdq+D2elZUtJSzfL4hk5pZQkP+4YYHhyhpKzY9z4VRaGotIjm+y0sr6yQYLf7JuPphoFFMb87xSVFXL96g8WlRRwJDrBsf5Lsk8jjFhT/mPC4rvdm57Q8rmvmLeAY7gawwaiqSqhbWqxtV9A1czUcRF4sED85zcU3/hUf//4vWc4KHWfiJ2f4xjf/bdh9DMNAtajrrnPw5+4tLhft52EYRtT7PgvDtXvBjorK45aUaLMoLpeLD97/kNaWVoqLi3j9jddwJDkCjhtOUrx0d/UwNDjEuRfOYvGs4/fu538ehmGwuLiIw5EQ9no4Eh3Ex8cxPTEdcrt3+GduboH/69//vxSVF/LH/8OPUBQFe4KdsupSSqqKQz/XX1b8JEVR1HUNtqu5m9XlVb7xBy+TnZeFqpr7zM/M0dHcRUdLFx3NHbz/6w+Ym50nOzeLqvpKqvdVU11fSXl1GfH2tQnBuq7T3d5NZk4mjqSEgOvrfz0f9g4yPTHN/lP1WG1W3Lrb83wjQGwMQ2d6YobmG20szi+Zw2CKYt71WVUAhUd9o4wMjFF1qIzk1GRU1Rw2MwOGmV1xJCdQVF1AX8sA03UzpGWkoeoquqJTUF5A+/0Outt6OXSywZdVyc7PxmqzMtA7QHFJYcDwT15BLvfv3ufR0CPKykt93x//1T8FhQUYxnWGBoeprKzwfUdU1HXZjqd1Pspu/sHdyvDGRs/ZbZGJ9SyLqnrrJkUnKlarFc3t3nC/uHhzqfPK8gpEN6pknk+orEoEVldWibPZNpwH5vacszWK0hCKom56NaWwfXZMVJ4USRkaHOLtt8ySzc+ffY6Tp054bmm+/iaF/r1+/+EGTdO4euUqzpRkavaFv+OwbugsLS6iazqORIfvMX8URUVRdNKz0hkfnTAbY4gJtCvLK/w//8ufYnfY+W///b8hzjNhzRtEwgVVb7Dx38dfUsxbnKusuJZpf9BBQUl+gKQAOFOdHHvuKMeeO+p5vsKjwRHamzpob+7gq8++5u///B/QNI3i8iKq6syMS1JKMvMz8xw4uj/k5wKwsuKm5U4byWnJFJTm+YQkeF6Kpmn0tvbT29pPXLyNhuf2kZLpDMqAGYwPTtL9oJc7nz+gqLqAkppC872o+LIriq5TWFnAYNcw7Y1dnLh4xJdVibfbyCnIob+rn/ojdShx5rJGi9VCfmEuAz0DuJ8/7hv+sQA5eTlYVAsPBwYoKS0OmKfiJTc/F9Vi7lNZuf7eP9HgLzBP0jyV3RCUrc672M5r7Ob13dWidZv8A+/F+8dY96y22wir1epbmQeEFYR4f1HZgOBjbOa9rK6sYosLrIMV6jP0nrM30xMO3z3MdB2LJTbb2tPKjojKdhvZViRlozL45j5rgqJpGle+vMLVr6+RlJTIH/7RD8jLz/NJSrDw+JfH95+0qes67a1tZkG4117CYlmfTfEvFb244BnnTQyfUVEVldyCHO5cu8viwiJ2hx3PqlVAZ1Uz+LP/7T8zOz3Hf/iT/wl7gnksFVAtkYN28FyVYEEx91FoutWCoRs0HDvgkxRvJVrF7zle8gpzKSjK5+Kr5wFzQnJvZx9tDzroaOngtz99m8G+Iaw2K013W6isK6eitoyy2jJS0p2+4/S09rC0uMTJU8fCFuRdmFug6XorMxOzZBVmUtlQimpVAyTFPE+FrMIMUrOcdN/vo691gImhCWqOVJGS8f+z997hcWTnme+vqhOAzmg00Mg5kWDOeRhnOFEaSZa9j/f6eve5u1f2rnS9trUr2yvJlleyZHvtu7Jle73eq11LlmWFyYE5DIeZIAASRM4AiZxTo7ur7h/V1V3dXQ2AHHI0kvXxAdHoOlV16pw657zn/VL0nrIsYTIbKazMp+NOF6NDY3h93girkl+Wy2D/EPd7H1BUVhQBS3lFefR1DzAyOEJO2JNAkiWMJiPeLC8Dffdj6q21UzGZTGRlZdLfN5C0r9TrrSaeyqPIh22n8jgX3w8DmDxKHT6q4PBxiMmoLPKhVQMVg67nkzYlhyiIWCyKd+PSkj5QWalNI3OYJmKsdi5TJRAIYDZbInOZoPPuC4KIHK6fmoNN7/7acRMKhRDFKKPys/wOfFTkQzWm1RvoqwUpH4RF6e7p4eyps4wMD7O2Zi0HDu0nJSUlqZpHPS/GaDP8/fz8HFcuXSXD66G0oiSpykeVuQhQsS7roZKdl83ta/X0tvdStaEKRJAkEGSZ//X/fofOlm6++N++gNPtjNYxfK4hnM04XvRtVLSsimLc29XSTU9HL1Xrq3C6nQkgRT1nuQFpMVsory6jvLoMSXqayfEpXvvHN3B7XCzML9B2r533Tr7P5PgUrnQnxZVFFJbnMzI4SnFVEZ6s9JgJUQV6i/OL3Dh9G5Cp3FpOZl44yJKU/L0xmg1UbCnBm+ehs6Gbuot32fTUOhxuuxI6W1Am1LzSHPraB+i8143XF7X2z/Apqqqu1h6KNEH6fHlKtuS+7v4IUNH2X/3NehYXF7FarRE7Fa3k5edRe6NWmUAtK8fM+WnNuvq4AMrjBidPgiH5KNi8PClRGRU9oCIKAqG46cxoNBJYCiQ4A8SzIGaLGUEQ8C8sIYhKAMXItkxU4p3oOQPA8nYt6lgRBRFBFPEvLiUwKjHlw2xzIBCIPK8uSIn77ueqnw9fPjBQ+aAqH60k8+xZDqQsB1AmJyc5e+Ycba1t2O02Xvz4C5SVl6FNmqeW1QIU9T5aFkWWJUZHRnnr9XeYnZ3lxadfiByLtUmJzVEzOzOLjExaWmyMlHhxpTvJK8zlTu1dnB4XWbmK8e2P/vdrXDl3jS/++RfIzFa+i4B7bZMKIiODo1w9f51nf+FpDFrEL8YOenVAB5eC1F6pp7+7n+y8bGo2rY3uPuKATbKJQ/vc6oSknCNjNptYt6WGvOJcpZ2kEMNDI7Tf66C9qYO7N+/R1drD+6eucvqVcxSU5VFQnk9eWQ7evHAchJ5BgsEg249uxmK1ROxV4ttcT9J9bqxOK7dO3Wb0/jgOt6IQV41cBYOAryCL/vaBcO4OY/j5BDJzvAx03UeSQkiCgAEwmYy4M1yMjU0owaMECUM43mWG14Msy0yMTyheEmF8oTWozczKJCSFGB0dJSc3MbbDR1l9s1p53OzqkzxvNec8TH/8tIMWIW7Do6qrZ2dno2VEEVFSnjUekDidToaGlCSC8eBEUWkDhLDarNjsNnq6eqmsSVSda5mPeKCuzj2KGlRIKKe2+5J/ifGRMarXVWvKKExxvH3e5MSUEqjOnRiBN36uC4VCzM3OYbNZ48olqqiWk59FG7QnKR8Ko7Iau5Rki82jgJSQFOLWzVtcPH8RWZbZs3c3m7duigQXWknNo95XG6+jvbWD0yfPYDIZeemTL5KVnRVzXrzKR5W5uTkEQSB1GWNaQRAxiLD70E5OvX6Gq+eucuj5g1y9cJ3XvvsGX/jGb1NcXhS9FyqIiF5jZmqGP/nCn5NbmINBMCSAE4gdzGPD41y7eJPF+UU2bFtP9foqDFq2JQ6gPOzAsjmUCI4z05pJThDwZHpI97rZvHcj46PjnHn9PAXleUxPzNDd0sP7J64y+D+GMBgM5BT7sKSasTqsLMwtYk6LzTei7cuY7yNeFWBJNWNPtzM+OE5Rdb7SZpEJWcTutiGFJGYmpjF5PQiygChL2J12AoEg83MLOBx2pa8FEYfLwWD/UOReKmCxO+3IyExPTSeN5KkmSBsfHyc7OxtJfLwL2k8S6HzYAOXDUgU9KgsTMZb+CC9IipeOpLjBx7G9oiBiNptJs6YxOTkV+U63PUSQQhKZvkzaWttZXFzEYjEriUDlWDZGYTEMlFWWUnezntmZWazWtJjrJd4jsX6xbHEcmBFF+nr6CUkSRaWFSdU+qowNj2EwGknXhP5X1N+JbObU5BSyLOPWSXb4UTSI/lmRDwRUnlQQotWoe/RAiiRLTE9N8/bbb9PT3UtxcRFHnj6M3W6PYVFWUvOox5REejLXLl/jxrVbZPq8PP3cMaw267IgRWsEOjczR5o1LZwXJ3EygChzYzKZ2H9sLydfO8V3/up7XDjxHp/70q+zdtMapXy0hcL/K98sLvj509/5bzjdTn799/7viK5VuUesMW0wEKTlXhtN9S2kWVM58vxBPJmeBBZFD6Asp4aQwh4u6kRjNBpJtaYyqwEq8RJYCiCKInnFubi3u9h5ZBtBKcjiwiK97X30tPZy+70GBjoHqXvvDqm2VHJKfGQXZ5FdnEVWUSapNsuy76EsS7gynfQ29eNfWCLVGstsOdMVlmVqfJp0ryfyvd2lfD85NolDE7nX7rDRNd+Nf9FPmjXazja7DUEQIpO6em+t54/D5UAQBMbHJqLtJksYwqqoh/X8eRRg8iTsVD6sYGQfNTuVRwnO99MmLpeL6ampFY1YRUEky5cFwMjQCHkFaogE/TmjorqSupv1dLZ2sX7Luoj6R72HELdR0s496nwZP7epIssyrY1tOJ0OMjIzktZZZVZGRkbxZKRH1DnLjbuJCWXsut0rB7b7uTw+eWSg8kFUPsvZpTwsSNGyKPca73H65GlCoRBHjx2hZv1aZGJ33st580SvqXy3uLjI6XfP0NnZRdWaSvYd3BvZhWhtUvRAiiqzs7O6rsmCKEby/agiCiI2uw1fbjZ//1ffY9fBHezYvz2ysKjFxUh5WAos8Rd/8C38i37+4zd+kxSNe3DM4JWgs7WbpvpmFhcWKSguYNveLVgs5mUBSrLJQCvKZCxEmZ7wf3aHnbnp2RhPJlW3LQoigSXFLVBrryEKIpYUM8XVRUqunkU/peuKcXrs9Hfep7/9PgPt97lxshb/whJOrwOnx0F6tovDv7Q/sZ0FEXeWi96mfiaGJ0kt9sUct6RaMKeYmRqPjTRpdymM0PTktKK+CX/vcIYBzOQUadYo/Ws0GrHZbExPJo9YaTQacTqdjI+Px3z/sCniP6g8TuPcRz53laBjteWWs134ILJsgMNVgpafZpWQ0+XiwcD9lQsCmZmZCAIMDw1HgApEwytANMK2w2nHl+OjvbmddZoItclsRGLbMLmaRRBFBvsHGR0eZc+BXRhExV4lXu2j2qfIsszI0AiV1RWRMnqinjs5MYkgCKRneFZlz6JX39Wc83OJlSeblPARQYrecUkHaKggZW5+jnffOUFrSyu5uTkcO34Ut9u9aoCiVfGAkoK8o72DK5euMTM9w96n9rCmphpBEBIAilLvRJCilpudncPjcS9rSAtR/XBvZy/f/Oq3OPz8IdIznLx38hKbd23G4bJrFhcxAtL+7k//F31dA3zlL7+IUyfLaSgk0d/VT1NDM3PTc2RkZbDv8B68voykKh49cLIcdarqrFWKVo2i63A66OvuU8qIogK0IkyBRDAQQhAETGajMhmJkhLSHoUinpmYRUDA7rLhcNup2FRG+cYS5dklmdHBce53PqD+YiPNN9o48i8O6C74dqcVS6qZ8aEJcuKAiiAIONMdTI3FAgyTyUSaNZXpyZmY7+2ucHC+yWlycmMjazpcDqamppEkSddFGcDtSY/J1Kon2l14fITalZiW1e7gPwhYedIAZaUyHwSUPGywtfh7JWv7hwUtPy2Lk8vlpKWpWWm3FbB0SmoKTpeTkZFR3ejaoKqVJZBEKqoruHjmIiODI2RmZyJKUvh9FxGInXdWAgWR4HSyTEPtXWw2K2WVZSs+39TENMFAgKzsLN3jomaOBJicmCQ1NZXU1OSq/J/L45dHAiqPy6p/JePZ1YCUwaFBXvnRK8zMzLBv/162bNsM4QVTL2ibel09gOJf8tN8r5m6W/VMTU7hSnfxwsvPk5WdiYxMSArF1ksDUPTq61/0Mzs1Q0lp0bLtoC7wo8NjfPn/+UN2HtjBr/+nf0tTQzP36po48cpJ7A4bOYU55Bbk4Mn0YDQY+c5f/wM336/lK3/5pYjXyuLCImMj44wPjzM+OsHY8DihYBC3x8WWY3vJLchVFlHNBKBnwwLxRm3JJ2jVwC78TQSseDLTaW/uYPj+sBKZVwRZFpHkEKIoYjAoSfkCi4FI5mhREJHCk1x8xEjVIE/ZoEl4st24fS4KqvP5q9/6n4wOjOHNi1K9QgR8CVjtafjn/boLTZo9jYmRxGB7VnsaC3MLsd+FAwPOzc6F+zlqtGy32+jt6Y9tH42LsoiI2+Wkv1dJU/CT9ud5FLDyJEHKcsdXAicPW6/VlNdrG209VgItKwGWjypY0TIYnowMJElifHw81oYjvNmI9/zxZfvo7uoJ276EwXaSxKrFpUVcu3SNuhv1HH3hSPi6QgSsqKKdh+JZaO1xURBpbmxh+MEwO/ftwGg0JGVT1M/3+wfC9Y4CFdU+Ra9/R0dGddpBX+LP/7kNy6PLk8uevAo2JfL9I4KUpqYm3nrjLSwWM5/+xV/Al+OLOV+PRdFT8SwsLFBf18CdursszM+TkZnBkeNHKCwpCNuWJGdQktUVoL+nH0mWyc7PTvr86qQwNz3Lf/7slykuL+azX/g1DKKBNRuqKSorpK+rn/6eAdoa22m500pKagodLZ1cOX+NFz/9HG2N7bQ3trO46GduRslBIQgCbo+L0soSCorz8foyIjrYZOod1a1PWze9z9G+0kxGotatUGnn0vISGuuaaKxrikkhoKp/fLlZCAIM9g/jSHcoxndhSkUURDxZit54ZGBUiYMSb5gXvpfdbSO3LJvW2k4y8zNjFhP12RZmF3F5o4yToGkDKSTpuhsqUShj+8xgMGA0GggEwtFzNWohS0oKiwuLkfdTT5wuJ4FAgPm5+Zis1Xptuhr5oAveasHKRw2grF71vHJU1WTUvF5MkGR101vUVgIsT4JdWQ1jFe/ds5z4spQF/MH9B5EFWqu2VtlTNdNHaXkZzfdaeDDwgJy87Mh1tOof5VcIi8XC5u2buPLeVdqbOyivLgvPIdH+EIhtG+38FD9XjY2McevKLfIKcqmuqVyWBVals6Mbd7qb9PT0mE2bnoRCIYaGhti0eVNsnR6z2nY178M/N9Dz0EBlNRPEw6p8omWSg5ToeQoTcvHiRa5cvkpOTjYvvvQCabY0XVWPnppHC1DqbtfTcLsB/6Kf/MJ8Nm45RFZOVoyaJ96bJxlA0X4OBgLcrWskJTVlWYMuUJiXL//mH5JmTeM/ffW3MZpMEcNUm81GZU0FlTUVLPmX6O8d4Oxb57l89irPffI4BSUFkeuk2ayUV5eRkenBneHGbFa8ZPRci5OxJ/HBlLRlEyV2sEjhPxV2RcJoMlFeXcbta3XMTs9ic9gibIkgiFhSLGRkZTA0METF+rJwPQREWSQkS5gtJjy+dEYGxiheWxTWK2tYFc27WLGljDuX7rH3pZ0Jk40ckllc8JMaDuMf/zyhYAiDTvhsQRR0QYcaLyLy3LKEKEukpKQgSxJ+vz9plEunSwFL45MTCUBltaDhcal/VnPfJ+nN8zgBymoASfJ66J8b/54sF/JerW8ywPLTyK6Igognw4PJbGZwcJC169auaFRbWFSA0Wiks6OL3PxcXfUPKKpdSZKpqqmit7uXy+evIIoCpZWlYbASrUN828TfX0BkaWmJ905fIiU1hf2H9yJqNmXJ2BT/gp/BgQds3r55xXYQBJGJ8VFCwRBZWcnztqnlfy6PV34i2ZNXMp5V/o4DK2GbjMXFRV5/7XU6OjpZv76GQ0cOhZPd6at69NQ88wvz1NUqAGXJv0RhSSFbtm/B401XzkFGCqt5krEnenWEKDXZcOsOoyNjHHz6qRhWRiuCKBJcCvBHv/snTE9O8yf/4+ukpaVGVCfq/dQXPyUlhfnped7+0bv82n/8txx76UjCNeMHiZ7XzkrgRBQEQqEQY6PjjAyOYDAacbgcOJwOrLa0qComZtFQbSokTayFECXlxdTfaKC7vZeazWvCdhbK9ksWRbLzfTTcuMvC7AIpVktk0pbCO7X8sjxGLtYx1DtMTrFPhSkRsEIYFFVtKePc999jYnASt88V87zzMwuK+seRqssSJQuJLQiCLtVsMpsi+UG0khKOlbMwHxv0TRtLRbUjmpqcQs6TEpITakUFJB9G4LfHHcL9UVmU5dzNE6+RHJw8qh2LdrwkeulpPE+SgJZkgOUnwa48jGjty2IYSVHEl+3jwf3BFUEKgNlsprC4gM72TvYe2BOj/lFZlcizigImo4mjzx7l3TdOcOnsZUSDgWJNkEWlbokxWSDKtggIXL1wndmZOY6/9DQpqSkx5ZJJd2cPsixTUlac0BZRYBO9xsjwCIIgkJXti7/UPzuG48OWhwIqjzqZrUblo4ouEAiDlNnZWb73D//I+Pg4R44eZuOmDWHWIwpSktmiyLLEUmCJ+toGbt24xZJ/iaLSIrZs30x6Rroue7Ia5gRi9aaSLDMyNEp97R1KK0vIL85Lfp4s882vf4vWe238+f/3J7jdrohRaqS8hrXoaO3kK5//Gr/4r36B4x9/Jml7Q3JvnWTgRJYkhh4MMTw4wuCDIUYGRwgFdSJSGkQcTjtZ2Vls2bU5ytpookuCwq6IsoTVZiUnP5ue9h5qNlXHgBBJkMnJz+bOjUaGBoYpqizEKBoJEkSUFTDizVbYoZ7mPrILsxQQpANW3F4X2UVZtNZ2sOu5rTHPtji3iICA1aF46cQbEUuhEAajMWb3pW3DeJBgNMUyKqqo8SDm5+ZA4+qsFYdTMcadmlRsYiKTNuKKFPKHHQL/UeVhWZTVghM9YLKi7coqAEusa6vOhkJdbJMAFz0D3Z9WwKIn2T4ft27eIhQKhZN/Li+lZaV0tHUyNDhEli+RfVBtzdQ2MpqMHHvuCO++cYKLp99DEAUqwgHVtMyKVrQsVHtLB90d3WzduYWs7MyIXYp6XrynjypdHV04nA4yMzOj5ZYZXyPDwxgMhoia6KPURz/r8tgZlUex2NdNCKjDpPzj977P9NQUn/zUyxQUFiQFKfG2KJIUoquzi/fOX2JqcorCkkK27dyK2+NGkiVCcdl64+sS/1zxwESVqclpmu40097STkqqhW27ty7bNn//N9/lwqn3+NO//TpZatTZmB1dFLQMDgzypc/9AQefOcC/+NefTrqoJTNC02USgiH6+vvo7e6nv7uPJX8gbNvipmptJb5sX9iQGKYnp5iZnmVyYpLpyWnamtoZvD/E/sN78WZ5FWASB1YwGCEUpKyylIunL9HXPUBhSX7EA0gMB0pzpTvp7xygqLwwMsnIgtKuBtFA+foSrp+9RUttO1Vby8N68TiwAlRtK6fpeit7nt+uPGf4wNToDKJBJM2WFmuPE26HYCCUkDlVzcyst2k3mUwEA4mMihrJc25uXlEZ6XSR0WjEarMxOamfKVuVldQByyUoXM35T0KeBEBZLTh5FG8iUdN+yUTUseeIBy7xgAWi795ygOWnxTsoJzeH69euMzw8EgEeUQN6CcVMnIidSklpCaJBpKOtUxeoxIsoiJgtFp5+4RjvvHaCi6few759o+a4fkC6xQXF0L3uRh15VWWs27R2RQcAFbQElgIM9N9n3YaaVduYDA+P4M30JgUzq+2rn0elfXh5rEBlJduU5VQ+uqyFFAUrr736OmNjY3zikx9fFUhRWZTx8XEuXXif7q4eXG4nz770LLkFOcsClHhwkgyY+Jf8jA6PMTI4wtCDIR4MDCIKAsXlxazduAaj2Zh0Enzzh2/x/W//gK/+xVcorSxNuA9EHTI8rAAAIABJREFUX/zJiSl+77NfZs36av7d5z8TEx4f9F2H9YCJKAj4F/309A7Q293PQN8AoUAIs8VMYXEhhcUFZOdlk5KSmnAth90R0yYPBh5w4fRF3vrxO2zesYmajcokYYg8R3iiFkQKivPxeD3UX28gO8+H0WQk4gEkyFRvrOLK2Wt0t/VQUlWMLCiuykqSQJGMLA/l60ppu9PBkn+Jmp3ViIZYsAJQva2Kcz+4xNTYDG6vU4l7MDrFcN8oOcU+jAZDoku2LDMzMUN+aX7CbjGwFNTNFWIwGHQzylrDcVVmpqOuzvFB3yRZwuNJZ3RkLOF8VbSL2GoCv30U5IOClJUASkL5RwQrqy2vB2K0fQLJAQsksl96gOWj4B2kxoVK+F6jbsnOVoxiBx8Mrgp4pKSmUFCQT0d7B7v37dJV/yh/gyhGGWyz2cwzLx7jrVfe4fK5K3wcCEn6bdt0t5muc1c4DFTVVFF2eE+CXQrEJmLVSk9XL1IoRGnF6jKZy7LMyPAIlZWxIf9XAjmRjdEHBDfx8tPCrj4uWTVQedw6bN17aBkVDUg5eeIkXZ1dHDt+lMKiwlWBlGAwwLUr17l98zYGg4Gde3awZn21sshoVDyxxrZSAjhRJ6GQFGJmepbR4VFGh0YZGhxmYmwiUk+X20nNprVUrq1YNlw+wKWzl/nLb/w1X/jqf2TD1vWR7/UAx8LCIl/8jd/H7XHzha9+HqMpunCuFFtATTo4NTlNf+8Afd39jAyNIEsyqWmpVFSWU1hSSE5eToJHEJBAlQKIGJAkmdy8XF7+xZe5fOEyt67eZqB3gL2H9mJ32GLYFUkUMWJk1/4dvP3KuzTcuMvWPZuUY4KIUYTcwlyy83201LeRU+DDnKpkPJVEKaICKl1bTEtdG3evNhFYCrJ+z1ol/gpRUOTN9pCZ76XlVjvbjmyi6143DzoHSbWmUFxdoFHpRNmUmclZQiEZt9cVOaa2QWBpCWtcTg9Q1F96qh+T2YQlxcLMTPJovADeTC+3a+vC+YXidtpJJqD4eCrw0WFVHidIWQ6gxF9LF6w8hnlKz6ZMz04i3usnGcOyUsThx8WuPCxQW604XU5S01IZHBxkA+tXZatSXllO97unGR4aJjPLu2xZURRAUkayxWLhmReOcfvVtwF45XuvYiwpIMvnJSs7C4Mocv3yTcbHJqjKUKLDbty6niVLNLyBKkLcXBZRAQkiXe1d2Ow2srN9MWqfePsU9djszAz+RT+ZmaszpP1p2Fz8NMljY1QeB5sSL7Isc/PGTepu17N95zbWratZFUiZm5vlnTfeZWDgPpXVFWzftY2UtJQIi7ISQFGvMzQ4zND9IYaHhhkdGmVx0Q8oO2pvVgZrN1TjzcogIzMDiyYirJ4Bpip36+7xtd/5Op/5zX/D/iN7dcuoL3swEOS/fP5r+BeX+Pq3vkpKSnIjMXVylGWZ6akZhodGGH4wzPCDYaanlKBlHq+HjZs3UFBcgDfLGxOUTAtKVhpkBoPSZ2lpKRx+5iD5hXm8f+Eyr/3T6xx77iiZ2VFVkAI4lKR91euqaKy/R0FpPpm+jIgKyCCKbNq5gVOvnqH+6h22PbU1+owGlCBwopE0WxrjQxMszCxw+a1rlG8sxeV1kpJmjuxs1myr5O7lexGr/vyyHIrXFGJSbWk0bIooCpFAb57M9AQWKuAPYPbE5hdSr5FsQbTZbcyGXcRViY+lkpnpRQopyQmzsrLAIEaOPW5XxycJVp4ki/IwAEXf1u3RvICEMBjUSjxw0S7UesyXHmD5oGBFLaO9Z/z3T0IUexIJn8/Hg/sPVgVSAEpKixENIu2t7UmBSrytCihzT5o1jX0H98JXv0nlmgra5+e5W3ePO7cbAbDarBw8doAKhw2+8VeRa2mvq/dZlSX/En29/axdv2b1ap+hEQAyfYmB4f45MRs/KfnQvX6SW/AnsiltrW2cPXOO8spy9u7bsyqQMvjgAW+/8Q4LC4scPnaQssqyCBCJZ1Ei34fvt7QUYKB/gN6ufvp6+lhcWARZxul2kp2fTUamh4zMDFzpzoSXM9ng1Q6U7vZuvvQbv88nf/llXvz0C8uWlWWZ//qVP6e7o5tv/q8/x+FwaMpFQcnszByTE1NMjE8wNjLG8IMRpd4oXkJZ2Zms21hDQXEhNrtNlzERVhjYeqI+rSBA5ZoKsrKzePeNE5x99xwvfup5xV1cBFG1FRJh07YN9Hb1UXv5NsdeOqK0YVgFZLXb2LBjPTcv1dLZ3EXZmlIIq+ZUe5UNu2p46+9PUFpTwsiDUVpvtyMjk5qWgsvrxO11kZKWwmDPMGu2Bdh6cJMSf4VYgKJ93snRaax2a8RTQHtsyR8gJSUloU0U10p9YG6zWyOJGHVZDknCm6lM3CMjClBJxoao9Y33/knOuugvdk8CrHwQkPIoAEVPJayUTwQkH2jhlnWAQHxfJ2lK7dfxDEs8u/KoqiBtuQ9TfNk+uruvEQgEdF35IVzvsJ1KaloahUUFdLR1sHvfbl31z3KslZqvbOPWDVR50wkEAowMjjA7O0dxWREmkwlheDRpffXYFFV6unsJBYOUlpWs+vlHhocRBEGxUfk5W/Khy7JA5ckGeUpkU7TnjIyM8Pprr5Ply+TZ548rrqJJDOtUkNLS1MyZk2dJSUvlY596EU+Gh6AUXBagyLLMg/tD3LvTRH9PP8FgEJPJSG5BLnmFufhyszBZEnfVapRaSM5AiOFYLADDgyP87me/xJ6Du/mVz/yyTtlYsPC33/w7rly4xn/79p+R5cskGAwxNTHJ+OgE42FQMjE+SXApatTpcDrIL8wjKzsLX44Pl9uly5okAya6TI2OakItGwGXKKqvp58/yqv/9Dpn3jnH8Y89rdiiqIwIYDKb2bFvG2feOkdj3T3Wb12nTFhhFVBReRHD90dobWjHneHCk+lRwEr4GpnZmeQW59Db2seBF/cwOz3P6OAY40PjjD0Y50HPkBIS3+PAnGKJqHO0zxYTTwGBidFJMnO8MfYpoigQDIYIhUK6fS+KSpC4mHaRFVdkm83G/b4HilrHaIx8r7ooAzjdTgwGA8NDQ1CzNuY6apygSH6nFUBG/O78SYOVJ6XmWcntPxk4WY06CJKznHrq1oS2igMvWtChBRd64FK5XtS9XA+wPKxn0E9CfNnZYZZ5iJy8nITjekHkKior6OroZvDBYEzkVz1R46qo14o5JoiYTCZy8hPvqx5f6bP27872TtJsVnw5iW7GyWR4eAS3Oxqb6ufy4cpjYVRWAiUP40KoeOlIvPPWOxhNJj7+iY9jDNPmydyQJUmioa6BC2cvkp3r4+izR7BYLMuCFCkUorenn4ZbDQwNDpOSYqGkopjcwpyIi5tad62Brf4DJi4C2h3V3PQsv/fZL1NSUcLnfuffReJz6OWxEAWRH//DK/z4H17l81/+TfrDdZycUNKLCwgYTUY8Xg8VVRWke9y40924PW4scXpaPXVO0kGtjfi4DB0aA1y0TSKIpHs8HHr6ICffPMXpt89y7LkjiEYxBqzkF+ZTXlVKU0MLHq+HnAIfRoORYCiIyWBk0+5NTI5PcfNCLTsObcPlccWAlQ271nHnaiOHPrYfu9OK1Z5GflkukiQxMzmLyWRACko032pl//O7dZ9fFBXwNjk6TcAfwOvzJLRHMKDYoJjMiUPEbDHjX/SjZuwWJSESD8WV7iIQCDA5MYUnIx2ERINaURTJzvHR2dnNgYMhDBANlpdkcUoAJElsVeDJgJWVNx6PxqKsFqAkAydRI3iZ2ekZxsbGmBifYNHvx7/kJxgIEAgECQQCiKJASkoKqamppKSkkJKagtVqJcObgTUt1hZJWqaZRDVmkPaZNP2ntrOWNVlOHfSonkGrlcfBwHjCUWmnpqYSgIqeVw5AQVE+AEODw8sCldVEyl2Nh9ZqRBRERoZGyc3LeSg16/TUdCRY48/lw5cnovpJ9jItZ5uiPed2bR0DA/c5/twz4QBoy6t87tTf4fyZCxSWFHD0uKJSSAZSgqEg7S0dNNy+w8TYBDa7jW27t1BSWRyxGo8HJ6uKxkssHa9+8vsDfOk/fAWrNY0vfO3zCIZlQIAg8s4r7/KtP/0bnnnhKL3dfaSkWMjIzKCguABPRjoZ3gwcTgeCJhfFatU5esAkfrCuODEK0b4yGAzIsoxI1GajqKSIg8ee4uzJ85x59xyHjx9ENMSClR17tzM5McW1i9c5/PwhHC5bBKykWMzsf2Yv59++yPVzt9h5eBsOtyMCVjbt3cDb/3CC6fFZnB4HoiAhyQKSIOL2KAzKup1rufDa+8xNz2NzJqq7VPXPYO8QBoMBX35WQhtJ4SQmaoRZbd9a7VYCgQD+hcWYDMqyLJEdTlTY39ePJxyfRxTEGDsVJKhaU83pE6cZ6B+goKAgoZklSQIxduGDxN35Q+fqecjd+moWhvgyD8ui6AGP5QCKJEssLi7S2d5JX28vo6NjjI6O4g/bkAHIKBmpTSYTRpMJs8mEJEksLCwSCCwlPIPL5VLc8bMyyfJlkZObg9kU3T1LcUAEooBF0Kjj9NQZ8YDlcduufBiSmpqKgJJR/mHOsVgsTE4s74r/MKJnH6Q9BolqH60ElgLMzc7iTnfHGM6vJAsLCzGGtB+FPvnn5PnzxG1UHpZNmZ6a5uL5CxQWFbKmZg3xgSziQUpnRxfnz1ygoLiAY88eRRCEBJASkoJIssTUxCTnT73HyPAITpeD3U/tpKAkP4Y90drIaOu/mjDb8YFaQ8EQ3/jdP2ZmaoY//ts/wqyjRlBl6MFwxGV5574dbNq+iYq1FRQWFWAwGPQHYRKVjh5roseYJBvoK0ms2kdDZYefv7K6klAoxPnTF7lw+j0OHjugXDsMVswWC08d28+bP36HS6fe58iLhzBbTOE6GrFa09j/9B4uvHuJa+dusuvIdmwOG0hBcvJ9ZBdkcedqI/uf3xPx+REN0XcptzgHt9dF081WdhzZGjNZqSBFCkkM9g2RlZepqKji2i8YVDI7x8dXAcUNWZZhbnY+AlTUBcXhtGO1WxnoH2DDpvUx52nVPxVV5bx3/j1qb92OASrLGdUuF6l2tayK9ri2TZIdW0keF0hZjkVRj83MzNDW1kZrcyt9vX1IkqSkYchQ2EWPx4Mnw0O6Jx2LxYzBYNBtx6XAEgF/gIWFBWZn5xgeGmZoaIiBgQGam5oBxfuksqqStTVryMnNieRz0mNa4hkWFbDEg0y9/vtpASspKSkIgsD8fGySzuWMawVBwOV2LgtU9LypJE0b6KnV9Z0JVtc+U1NTALjcUbWwnsdPvCwsLETs2H4uH758YKCy2klttWzK6VOnCYaCHHn6MISp9fjw+Op1hgaHePfNd8nwejj6zOFIfh49JqW9uZ0rF68iA3sP7aawpIBQhDaOAhRZTpxYl9fLa8CARhcSCsn81Tf+O23NHfzJ334Nu9MW87zawTA6PMo/ffsHvP3quzz9wlF+/fO/ht0RZQLiQcpKACUenGgn68ikKcmMj40zOjLG2OgYo8OjTE5OEgopajE53GehUAiPx0NxaRHFJcVRbyHN9SRZSoiRsKZmDYFAgPcvXOHSucvsO6SE05YFBVpY7TYOPX2Ad187xZVz19h3bA9G0UAQxbjW7rCz79huLrxziSunrrFh1zolsaEUZOPuDdRfucNTL+xT2lOti/qQBli3cw13r91j17FtMc+tyvjQBAF/kNyibN2dlRqVVzUcVBgRpYyaM2h2dlYJdqdJTCgjk5OXTV9Xf4ydivqGyLIC7UwmEzXr1nK7to7JqUlcTpdifJxkkUqqznkEFVDCNR6BTn9Ue5TlVD16AEWWZbq6urh29Tp9Pb3IsozT5WTz1k2Ulpfhy/YB+mohGZmQTrwbURSxpFqwpFpwpbvIK8iNtOHC/AJDg0O0Nrdyr/EeDfUNuFwuqteuoWbdGpxOZ5TdimvaBJVQ/HEh1jBa+U7f0PZx2a08rEoumYiiqCTdXFxYubBG3Olu+vr6Vy74IcnUhApUkqtx4sdNIBAgGAiSmrp82IlHkWSG9KtmPP+ZsCo/kVw/eiJJEq0trbS2trHvwD7cbneCAZyWTZmdmeWNV97EYjFz/MVnMBhVO5ZYkLLgX+DK+Su0tXTg9XnZe2g3KWkWQhoQo80DJMlyzOBe1UAWYz+IgsD3/sf3uXT2Mn/0139Ihi+alDB+Nzw3M8er33+DU2+d4djzR/itL/4GooZBiTcChViAshq1jqp6GB4coa+nj/7efkZGlARbgiBgMBrIyPBQUFiA0WTEIBoUY9PwdQYfDFJ7o5ab125htVkpLi2irLxMSTqmeXwJKaIOQoINmzbgX/Rz81ot6Rnp1GxYgySKiJKEUTTi9WWy68AOLp29TMONu2zauQFRkCMRbZ0uJweO7+XKuetcP3+LkqoiqjZUsmXvJt79/ilmp+ewu2xKYDhZigRUMwgiG3bV8N5bV1icXSTNnhZpL7U9HvQOYrKY8GbrJ4wMBoPIsoxBYxALyjtis6uB3Wai9giShCQo5bJzc2hramd4eITsbJ8C4jTqH/W9WrdpPbdu1lJf18C+/XuV/EiqiiGsTtPuztX7L5f/Rw+sxL8fH1QeZvFbDYuSDKC0trZy9fJVBh8MYrVZ2bFrB6XlpWR4M1DBiSSHYq6xmvppJWLwGjaOtqRYKCgqoKCogAOHD9De1kFzYzOXL73PtStXWbtuLbt278ThcIQjs+oDlnh1ULztSjJD29XYrcDq+vNx2KZor5GSYmEhjlFRN5LJxOV20dTYnNRbKJkxtBz3W698/Gd9IC/HMKqTkwpQcTgdGhVemA0Pp+eIb3NV3aUFKh8FlkuVfw5g5YmG0E8eHyWR7pVlmYsXLuLJ8LBl2+ZwPJNENkWWJUKSxOkTZ1haWuJjn3qRNGtanEpI+T03N8eJN04yOjLG+q3rWLuhOmxjEWvvEg9QtMBF77kS3RfVA8qvE6+e4ZXvvs4X/+vvUFCSHzlfJHbikSWJ65du8PaP3mHd5hr+w+99Tpf9iAcpMYahSdgTRX0RpL+nn86OLnq6elhc8CMIAr7sLDZs2oA300tmlhe326U5X/+FX5hfoLurm872TlqbWrlb30jNhrXs2b8Ho9EYs3nUsivbdm5jfGyCG5dvYnfYKSzOV3L5hGOslFWVMT42wb36JqwOKxVryhSKRANWDj1/gIbrd2lv7mByfIrNezaSkZ1Bw9W77Du+OxLFVisF5QXYnTYab7aw/dCWmDZdXPAzPDCqsClJkgIK4fj3Wu8eZXIyYDQZMVtMjI+MRwCKKITjpMgSvlwfCNDe0k5WVmZ0sQIkWZkMJcBut1FaXsrtW7fZvHkTdntsNuVkHkAruSs/CfVBskXvcbIokiwRCASor6un9lYtE+MTOJwOjhw7TNXaaoxGY3isxoKT+MUt/v4Jz6JtLznKuIiCEGFZBUHEYDRQvaaK6jVVzMzMUnvjFncbGrnbcJc1NWvZvmMbHk+6LmBZjl35oHYr2mdWr5fsWLwkm5OTJYXVisFgIKiT/2u566aEF/eF+QVFffsQ565UH70y8UAwXhYWFjAajUmzm+uJGtxRTw28WlmO+Xwc8rMOVj5URkVv4lDBwv2B+4yOjvHM8aeVXXkSNgUU97Ke7h72HtitJBTUghRJASELCwu89co7zEzPcPCZA2Tn+RKATygUjFHvKKqOIFMT0wzdH2JkcJQl/xIGkxGz2YQp/JOSlkJBST4p4SBvEUZBgmsXb/B3f/ZtfuP3P8uajdXhOpHwEkmyhH/Bz//8i2/jcDn4/T/5oqJTF2PVEPEJteJZlHiAIiAwOjJKc2MLbS1t+BeXsFjMFJUUU1JWTEFhAak6MUPU6yUTq9XK2pq1VK+tJhAIcO3ydWpv3mKgb4Cjx4/hzczAoJmAtcbFh48d4vUfv8H5kxc4/tLTZPq8BAliBIISbN21hZnpGeqvNZCWlkJeUV4MWDGbzGzatYH0TDe33r/N5ZNXWbu5mrr3GzjwbDhoXthGRQUsRoOR9btquHO1kZ2Ht8U8S3NtC8gyJdVFiXY64XZ2eZwgwNjwKNl5WRHPHUmWMYgi+SX5dLf2sG3PIqlpaQoACYMWqzWNkrISGu80smHzehwOR3RXrbwMippQENmzbzff6fgu589d4LkXno1lVQTNYicmepQ8ClhZqZ/j5WEWveVASvzuV49F6ezs5PTJ00yMT5Cdk82zLxyntLwszNJpU15ICeBEO7fobTTiJRTnXi4IUcWtKIoghyLARRBErLY0Dhw6wKatm7l96zaNDY003rlLRWUF+5/ah8vlQpQUd+cYEKHDrkSO6fSjWv/VgBVtez6K6AfK079WKBRiYmKSkmVij6j9qrUhHB4axmQ2YbVbl1ehS/qu6up1l32OJMxKPBMpoUTZDQQCzM7MRhKEriR2h7KBmJ6eSbiuUvfk4QQeNfP5R4mx+SjIBwIqD2ufsty5dXX1mExGKqsrI8f12JRFv58L5y6S7klnzfo1mrJRlU8wFOTMiXNMT01x5LnDeLO9EVAih49rWZSlpSW627oZGhhmeGgE/6LiFWBzWEmzprLk9zM7PUMwECKwFECSJBpr71FWXUp5TTlmswlREGipb+abf/AtfuXf/zI7DkQXRxWsIIZpRpSMvV/5/Nfw+5f49c9/JsHQVjX61AMt6nFRjBpdLvmXaG5sobWplbHRcQxGAyWlxVSvrSa/MB+TMdZgVL1G5PNq0bgEFrOF/U/to7C4gJPvnOKH//hDduzeweatm5Q6RooqA9hisfDsi8d55Qevcvrtszz/iWexOaxIYvQFPHBkPyffPMWV89fZc0gkO9+nNFgYrCBCYWkBdoeNK+eugyzTcqeN6YlZnOmO6IIV3t6Kksim3Rv4yy/9d/wLS6SmKeBsqH+Ywb5hqjZVRLIp67W1yWzC5XYyOhTNyaPaqciyRHl1Ge1NHbQ2tbNhy/oI26KyKpu3b6arvYu6W/VKunsNq6JCW0mWcLqcbN2+letXr7N+wzoKCwuj95NjDWtXmrwex248/ngyeRSQkoxFmZ2Z5cyZszQ3NeN2ufjEL7xMfmFB5BrJAIo28Wh8nZKpCOIl8vwaEBcKSRHgEg9abHYrBw7uZ9uOrdTX1lN/u4Guri4OHznM2po1MUa3EWC5SlXQSmAFPlho9tUwF8lkfHycUCiE17t8OPx4GQmH0FfjYKksoV6fPAzgStjIxo2NGPWaRv2TEc5qPjoyumqgYjKZsFrTmJ6ajgkrsWz9HoI1eVyg5GeZVXliSQkfZlD4/X6a7zVRvbYao8moG5xJvfat67eYmZ7hY598MTL441U+196/zv2+++w8sCMBpGjRfkgK0d89QN21OmZn50izpeHLy8Lry8CTmU6qNTXh/qIgMjUxTXNDC031zXQ0d1K2ppSU1BT++Hf+jOd+8RmOfexwZBcMoo6Hhsyf/+E36e7o4dDxpygozl+2feLzVCjfKZNfcClI/e0G6msbWFpaIsuXxcGjBymvKCMtnHNI34159WxKbMHox8LCQv7lr/wyp0+d4eqlK/R193LsuWOkpqYmgBWr1cpzLz3LK//0KiffOMVzLz+LJdUciV5rNps5fPwQp986w/tnr7L3yG58uZkQzgkUbkrSvekceu4Aty7f5tr5m/zgb3/M8U8dI6c4ahQryRKSKFG6ppg0ayr3bjWzZd9GAksBGm824Uy3U1xZmFSnjagACk+Wh572XoLBEGaTdsdkwOGy48vJpKWxlZoNa8BoRJKVpIySLGF32iirLKPxTiPrN63D5XIlZVW27thC070mTp08w6/86r/EZDTFGNauVgWk1P/J7saXAyjK9VYPUoKhIPV19Vw4d4FgMMjuPbvYun0LYphBUc9bDqAsd59gMMiSfwm/f4klvx8EAas1jdS0VMXLQxQJydrAjUJ00YjcT4wBLSISIVkiJTWFXXt3UbNhHSfePsE7b71DZ0cnR58+orz/GmYMYlVBK4EViBrZxo/TR1UbLDcfL2djotZ5ZFgJIe/N9K76nQkGg4yOjrFh83rd4+pcrFdPXfOAuHctGVhJxqoApGd4EASBkeHRZdmheHG6XExMTqy6/OOQRwEwP6tg5UM3ptXb9TTdayIQDLJu/bqEslqaeHJyitqbt6msqsCX64vsyCBKHTY1NnOvoYnqdVWUV5URCgUTriXJMpMTk9ReqWNwYBCHy87eY3vw+jwxem893bcE2F02tu3fwtT4FC0Nbdy6VMvFd99n7ZY1fOpXX47snFUWJWwaqf7Bt//yf3P90k1+7bf+LQN99/FkRg061cU2JoJqgnpCJBQKca+hidobtSwu+ikpK2H7zm1k+bIii9ZyACV+AKx28hPj/kizpvHcC8/SWFzI+TMXePUHr/LSJz9GWloiWHG73TzzwtO88eM3Of32GZ558RgGkyHitpyamsqRZw9x8s3TvH/mCvuO7iEzOyMSY0UEJEEm1ZrK7sM7uXe7mc6WLuquNtDZ3EXVpkoyfOnR5zPA+l011F9pYOuBTbQ2tOP3L7HlwKYY25RIf8W1S3qmm46mTsZHx8nIysAoKn2qACeJsuoyLp25TF9PP4XFBUiCpMSKMQBSkA1b19PW3EbtjdvsP7RPeQ4piFE0Roz3kIIYDEYOHDrAG6+8wc0bt9ixc3uCCkgFK3q2DqsN1/4w/ayVpHYNj2A0q6p6pqameO2118NxZPI5dPRQxGU0dqzGApRYw3flcyAYYGR4lMH7Dxjov8/w4Ajz8/Mx9dbGYxFEEas1jTRrGg6Hg9z8HPIK83GG01TIohohNQpcVKZFUtWtcghZkLDa0nj5Ux/n9q3bXLl0lYH+AZ557hmKi4sSbFe0/bhaI9v4vtS272r7Uq//llP7xPcbwPDQMAaDgfR0ZXwlsyHUysjwiMLCZGaEQUmUTYlhvFY3dC8JAAAgAElEQVTIvZYISFR1ITFlhPg2RbUBUgaTKEoYjCJOt1NJzirL0fAKEBmTqg2ZOmWLKMa39wfu67SZ/EiM52o99B4VrKjyswJanjhQiXdL1jt+u7YOr9dLdk42csSaPzGL6vWrNwDYvntbzLXVF3x8dIzLF66Qk+tj885NUZWQ6uYsSUhSiOa7LdRda8BoFNmwfR1FlUUIgr7uW6mLVuccFYfbzprNVfzo26+R4fOQV5TD6PAY3ix9TxJJknj9B2/yxvff5Gvf+kPGRsaxO2xRm5FlXioxAlxERkdGeffNk8xOz1JQmM+uvbsUgCKKSUGKHkBJtFFZWZeqKi9k7QAyQM26GtwuN6/8+FVe++GrfPwXPq7kyYmcpwxSX7aPw88c5uRbJ7lw5j0OP3MQrduyJTWFo88d5sQbp3jv1PscevYA7gzF2FeSwCgqdi2iCPuf2cvlM1dZu6WarpZurp29QWF5AWu3ViEjIwqK+udv/vB/Mj48QW97H/mleYr9Cfp0sTJBiSBKpHtdyLJMX1c/nsx0JFlxyw6GghgNRnx5maRZU2movUNOfna4LYyIkoAkgs1upWJNOc2NzVSvqyIrMysSjFALVgRZorikiOLSYq68f4WS0hK83oykYCU+dPtqvEi0z5is/5OVS3gHVmBR1LZVf8fbo3R2dfLGa28SWFri+LNPU7WmCplY8BFv6xDPnkxOTdHa1EJvdx8jwyMEwpGE7U47vtwsrLY0zGYzZosZk8mMyawEfJufm2dudo652Tnm5+a5f/8+ba1tgGK/kJOXQ25eLvmFeaSlKt5isiiHDaYVpkVlWbReIpu2biK/IJ8Tb5/kh9//Idt3bmf/gX2KK78Ou6I1so0HK2rfLBd6X6+P1P5cic1OBjCXKzs4OIg73R2TakKvrLbPBvoGAMjM0s84rNoUahlxpU5SxIYoJOl7FUmyFEljEgi7oEcy3seo3eIcGGSJ9Ix07vc/IBgMKuEDWBkMOF1OWppaCAQCmEwmXTuy1TCeH7b8rDAshi9/+ctJD8qynPwgRECF/t/q5CVr/lI+RcAAMlNT05w/d55tO7aRk5sdQepypISiolla8nP6xBkqqsqpqK6IIPSQHIoMkPcvXGZmZpanXzyG0WREkkIRN+SQFEKWJe7UNlJ/o4GcfB97ju4mI1txddQOMrWOcvifYqALsowSEj38b3HRz5/97l9gSTXz21/7DQZ67jM1PkVBaQGCAOqrqappLp2+zF9/42/5wh99nk3bN9J8pwVLagpllaUYwmWS/RhERfs9OTHJqz94DZPByHMvHmfH7h04HEqkWjVgkZrfRxCEyL3VvwUheh8x7h6isHwd1Gifyg5CcwylXewOO7l5eTTUNdDT1UN5ZTlGoxHtEBUFEafLiclsprG+EYPBiC8nS7l2+D0xmIzkF+XS1d5Nb3c/ReWFGAyGaIOidES618XZN85TXFHInqd3EQyE6G7tQZJkvNkZyMike92ce/0COUUKkJiemMFXkIXJbIq8YfHPJoevbzQZWJxbpKu1B5vThjMce0GASFumpqXS2tjG4qKf3IIcBFFEBkSU63gzvbS1dNDV3kVJRQlmkzm23YgCxJzcHJrvNdPS3EJFVQVmsznStkTuKUR2cep4U/pDhsizRI2rVbsA/XDh8jI/iaJlREBZ5NS/tCBC1owfLUgJSSGuXr7K22+9g8Nu55Of/gQFhQUxIEWSlLEqyaHIPKCClMXFRZqamrl0/hKXzl9ioG+AlLRUCooLqNm4ll37drBhywaKSgrx5frIzM4kPcONK92Jw2nH6XKQkekhO89HYUkBZZWlrFlfTXFZMXaHXcmq291He2s7d+vvMjMzg81hVbKWa5pECs8RyMq8oHaR1WZlbc0aFhcWuX3rNqOjYxSXFmMwiJF+jLxrRPsy5vtIPyX2pdqOyUO/J+87bR/GnxHff9rfsiwzMT7B2TPnWLe+RukvKTp/a+dpWVa/kfH7l3jnzXfxZmZQs7Emcm918xgPUtSrSLLCjkz39lPxo7c5v2szw/MLdLV30XS3hZbGFpaWlnA47cw9GKbqR29T9+whzF5P5OkT21qV8DwnGmi514LDYY/EhVL7UPkgxMxZCCBLMvca75HlyyQjIyNmXgR0/9b7re2/+H6M7f+Vv1+tLD8HfKTk95Md+IkAFe3r3XSvifa2dg4efoq0tDRl8IdLSGEQIiPT0dZO870W9hzYgzUcF0Od0GQZxkZHufLeNdauryanMCc86YU01wlxv3+QG+/fJL8kj237t2AwGsIDJs7OJQ6caEELCMgyBIMh/uarf8fE2CS//Uefw+awYRANdLf14MlMx+6wRV9cARpu3uWP//Of8ZnP/xsOHNsPCDTfacFmt1JcVpQAEiKxTCKqIIFgIMibr7yFLMOnfumTZGZlaZiSOLflJABFC07i7wkKq6MHUpDlxLKaiVSdHJxOB5lZmdTV1jPQ1095ZbnizRT7opCZ5WVifJLGhntk5/qw2W1EkAqKK2BGpofWxjamJqYoLClQDgigrg6CIDI0MERnSze7Dm3Hm5OBf8FPZ0sXBoOIJzMdQRQYGhhhsHeIoy8fpK+zn+GBEXKKshXwQxxYITrBgUBmbgajQ2N0t/bgy8uKZllG6Ven24ksSbTcbcWSmoLHmx5tb5S8QNk5Wdy708zQg0HKKssi7a4+jlrWYrGQl5/HnboGurt6qF5ThcloUp5XBSvEgpWHWeAedbKKByiwelWPeu/5hXneeO0NamtvU1VVwUsvv0iazZoAUuJZFEkKMTMzzcVzFzlz8iwdrR0gCKzbWMO+w3tZv7mG3PxcnG6nsjmRQ6guzLIsKRsZWUr6IyOTkpqCNyuDkvJi1m2qIb8wn2AwRFtzO3fq7vLg/gOMZhN2hz3S/qrEL26iwUBxSTEWi4W62jp6unsoKS3BbDatGqxE+zPal/Hg81H7MVkfRuZrzW+1/JX3r3D//n2ef+F5xehfZajjwjxo++7K+1fp7enlmeePYbVZI/WObv4kzf3kaH9IEjPTM7xz6hL/19VaFl0O7t8fZGRoJOyVGaKjpYOmu80MT8/wq+/d4Mi//kVSbWmacbw8WHG5HfR299PX28+addUxbHOyTZrT6aChroFgMERlVaXu5i1xM5cIVGI/J/Zjsn79oGAl0v4fbcDy+IFKvE4yUUeZCFTikTPA1ctX8fv97D+wT71pzI5Mfbnff+8ygcASu/fvUu4nqceVuCqXL15hZmaGfYf3KsHf4tiUubl5Lpy4SGpaKjsPbld2vjogRZJkQlIUmKj30O5WJFniO9/8Hm2NHfzmH30Ol8eJADjSHfR19jM5NklheSFhjEJPey//5be+zid/5eO89IsvRF7ku7fvkZ6RTkFRfswgEUVDwkARRZEzJ84yPDjMCy89hzdMp0bBhxjDoiQDKDGDUQeU6A3W+MGoBS1qHdTII4Ig4HK78Hg83K6tY1BdnMVYsCIgkFeQR3dHN+0tHZRWlmEyGcPXV66TZk3FZDbSfLcV0SCS6ctAAYrRicdoNvLq37/BsZcPYzKZ8OZkMDc9T2dzNympFlweF6IocPIHZzj26SOke910t/QwNT5DdqEvOvnHgRW1r0VBJCvXS1/nAAPdAxSU5IVT0MsRsOL1eZkcn6T9XjsZWV4cDlv4eiLIMla7DYfDxt36e8zPz1NYXKBpNxX0COFduY0sXxZ1t+oYHByisqoCQ/h9iDAoD7EbTwZYlpu0VGCi/sSO83gWJTomYn5rQMrwyDDf/4fv8+DBIAcPHmDvgb0ag1k5KUgJBgPU1dbz7lvvMjoyRkVVObsO7GL77q1KVnOTKawaCCUCkzCDGv8sKrODHG0LSZLC7IgEAlhtaRQU51O9thKzxUJ/7wBNd5voaOvA7XEpoFq1j1BbWcOugIwvx4fXm8Gd+js0NzdTWFRIWlrqqsCK9n3ULmZ6TNlqFp5HBZqyLLO0tMSbr79JaVkJNetrVsWmzMzOceLtE5RWlFCzYW2kjbVsSmQDqAWOoRAdrZ2ceecsUzOzXK1r5F999lfZsXcbW3Ztprqmkso15eQX5oEs09nWzdW6e6TZ03C6nUpOMDQbKE1bx86lAlablaY793A4HMuyKto5dWpqmrbWNrZs3aKAm7hr628eEjcO+qAl+j49SbCi9utHFLAkBSpPRHm1Wo8fSZLo6uqmqLgoptHidZLz83N0d3VTVlEWHdREB9T42ARd7d1Ur60kJTUlxhhLnQSvXbhOIBBkx4FtimdREpASY2WuoSW1titvfOctat+v59//wWfwZKZHyhsMBipqyhgbGWdoYAiAofvD/Jff/joHntnHJ/+Pj8dM4Et+P2aLKeZZE+J6hAHI7Zt1dLZ3sWvvrmhEWE1+ikh5TRyWKMMixFxbEMWYzM2iIBIKhpianGJxcTFhUovYx6hgKO589R5aRqe8spxjx48x0H+fU++cioAm7cBPSUnhyLOHCQQCnDtxLjL5R+xsRJHKtRUUlxdz51YjD/qHIs+o3qt6QxUpqRbu3GiMHNu0awOZ2V4arjfyoG+Qyo0VIAi01LWS7nWzdks1I/dHab7diizJkZ+E3Xb4tznFwrYDm1lcWOTKuesElpZQvMaCirG2ADv2b8PqsHLx1EUmJiaRJYmgpHibhUJBisuL2bB5HU13m7lTfyeshw+Fde3BiJG3LEvkF+Zz6OhBuru6OfHuKUVtGWNXEF14tAtAUgNwWY78xIvCWsT+JJTROV/P8FEPpHR3d/Pd//1dFv1+Pv1Ln2Ljlo0xLEowFCQYCkZsDoKhEKFQkL7eXr73ne9z6cIlsnxZfOKXPs7up3bhzVIM3oOhkNL+UpBguB+UnxCBYICgFGIpFCAQCjC/MM/E5ASTk5P4lxYJhYIEgksEw+cGpSBLIeUc9fxQKIjRYmTd5rW8/C9e4qlj+wkEg7z2wze4cPYC84vzEQAQq86I9mNxWTGf+PTLBINBvvfd79HV1R1hDWLfs8S+1LZnfF+upg9X6k+9foy/JkDj3XssLC6yectmzfnLsyk3r91EkkJs37U94bn07FIkWWJxYZHzpy5y4cx7uDxujjx/EICcPB8Opx0t6+LyONm6ZwvPvPw0AAaDkQsnL9J2ry1uLMgxba2d5/MLc8nIzODm9VoCgUBMP8a2VfT5yivKWVpaoqOjI6FNk2X31hNtn+gaOi9zvl4dH1WSvR8fRfmJhtAf6B/Av7hISUlx0jKSLNHR1oEsyVRUlicel2Tu1t3FYDCwZn11AtAAaKpvYuj+EJt2b8TpdhCU9KMrxp+n3l/7+b13LnPyR2f57Fc+Q26RomJSjS9FoKA0n/bGDhpr75FmTeNrv/3HVK2r4F997v+MAWOhUAgpJGGxWJIacqmLcX9vP9cvX6eispxNWzYSn0QLouoePZCiBSigRGcc6BvgwYMHjI6MMjY6xvT0TGSwGY0GrFYrNpsNq9VKaVkpNetqEjwVImBFUg3IBKRwPhtREMP6+gXOn73Azas32LZrO6FQ+PywtX1GRgb7D+3jzIlz/z917xnjSLbl+f0Y9GQymcykyUwymd5Wlsnyvst1V5tq8+rZmZ0ZQBhgoRkIIwErCPogLRYQoIUESB8W2BWwWqwWWo3mvXnd/bqqXXnvsqrSe++995lMRoQ+BCMYZDKru988p1tgkckIBoNx4t77v/9zzv9QX9vIweMHtJRlAKNg5MTZoyzOL/D8/gve+fgitrR42rjRaOTQqRpeP67n8Jka5XyMAofO1PDi3kvqnzRy5PxBqo8oAnGVB8sJFuWyOL+ksC4OGzn52QpgFGM6GrEyz5IQC4ozCLg8LqqP7KHxeTMNtU3UHN+vBOIZYiyHUeDkxRPc/fIe928+4PJH72hB0iZB0YI5cHQ/C/MLPH34nHR3OgWFBQlZQmDSAjQr9ihqqLXPanG50nZI7MP3S3lNvpdSTXTCGxYJ+rYjNfkNAAWgtbWVb77+howMD1d/8gmudNcbJzhJklhfX+PRg8d0dXTjcqVx6f1LsfR9WQN2+glOjgGDSCTC1NQ0k2OTTE9Ms7G+wdbWFpubW8g6MTHBqIi3pbnScLqcuNJd5IZy8GRlYBSMiKCJLgqyjIiioRIuyiMYzqXxZTPtLR0MD47w1sWzhPPDyrWOBdzqg6QFJHwBHz/7s5/y5Rdf8vmvP+e9K+9TVVWxQxzu+2itqHbU2+iHBGmmSlDQ2099rSVASBL1r+vwB/zk6OIHd7s3JFlmZXmFtuZWyirKcKWnJSwqdwMpw/3DPHv0gvW1dfYf3kd1zR7mZ+a0z+02XquZe2fePkV7UwfPHj5nc3OTPfurtFIVIICoZGhhNMWz+xA4eLSGm1/eorO9kz1798RdwbK0IwNIQCCUF8ThdNLR1kFFRUXCtfuhQbVvygDSf3a39l3bf0hLFaj9p9Z+a9fP94lPSUCOCf8r/7o6u+nv7+fCpQuafori8onvJckSda/qiEQiHD99XLsxREnUfJ2P7j4iXJhHUWlhbMATNToysh3h8Z2n+IN+9h6q1o4vSUmDXlJgF+zswI3Pmvl//s2v+Ov/7q/Yc6gSldZLdtEYDAb6Owf4zf99HZfbxb/4n/4bzBZTApuwtbFFV2sX+cX5+PwK9WjUuXyMxngcw72b9zGZTHz4yRUlODWFu0avUKswF/FtoAyKW1tbvK59zVfXvqKttZ2pySmMgpFAIEB5RTnVe6vJC+fh9Xqx2myIUZGF+XlaWlrp6erGneEmMzMzwRWkvUZPTRo0+wWyAywtLdHU2EJhUQEOp5PkoTXLm8XqygodLR0UlxZhtVljfnCVDoecUA4dLZ0IgoHsoKIybEAZfI1Gget//zXvXL0QE2QDg2DA6XIw3DeC3Wkj05fJ3S8ecO6jM2BQUo9nJ+cY6R9joHOQhdlFolERq8OixC7pXDvKfSCT7nERFUUGugaZnpgh05eJxWJWThAZi9VCli+LnrYexobHCOUHMZtNsQBs5aqEC8OMDI3S0dKJP9tHujtdN+DICW6gUF6ItdU1GuoaMBgEgqFcZbs+ZiXJraMGe6s9SO8OSuUTj2/Rx5ElbZelhK2qW1bfR3YEzT6v5dbN24SCufz4Z1eVMhffAVKmJ6f4/NMvmJyY4sCh/Zy/fB5PVgYgExXVAFsxFkAvsjC3QFtLOw2vGnnxuJbezl6mJqax2Ky43E4yMt0Ecv2ECoKEi/MI5PpxudMwCALra+vMTM0yMjhKd3sP/d0DLC0tYRAE7A5rDDSIcReHrOgZhfJDBEO5jAyN0tLYysbGOjnBXC0YXnV/6O1otVmpqKhgfHychtf1uD0efD5vUjzUzvijBHdkklsvle2Sbau66VLZdjeQotpQlmXaWttoaGjk7LkzSuaO5pbfaUdi79++cYeFhXkuvXcRq9WqY1PEHSBFlERePX3F88e12Ow2zr37FoXF+ciykp31+d9f45M//zgm1hj/Jaqbb21tnWv/8CVX/+ITKqrLWV5aobOli8nxKfzZPmUcQe0POpd17Pemu9MZGxmnr6eP8oqyBNFNdR+9qKZBMLC5sUlbaxulZSU4HY7EcVCXYJBsu1Tuu0R77eyb3+XqSYxn+qe3PwGX0K6unz8qo7KyvBxbvTt2AB+ID35Li0u4MzK0+AW1ybKiarm1tYU325uwYlBfT0/MENmKUFiaTzxu5juouRSdt6e1j//0v/09P/3nP2L/ib0pEa0kK6yK3Wmn9uErjEYj/+P//t/vUJ0F2NzcAtBk+PVNf9zZqVlmpmY4e+Gslqmi7BN3peg/p4IU/XFESaKproHaFy9ZX1unvLyMI0ePkJ2Tjdmc6HpKbrIs09XVzcN7D/j0Hz+loKiQ8xfO4fP5drArycyKAGCEc+fPMdg/xKN7j7j686uAkuapgjZJlDh8/DDdnb00N7Ry8txx5XgxOlYwCKS50vD6vUyNz7AXVUtG+a6qmkqMRoG2ug72n9gbO2+J7tYeTBYT+WX5iitmO0p3Sw/lB8oQjAaOXTrE4twSU6PTTI/O0PZqlo56gbziIIUV+dgcdgRZ0FgWSZAo31+C25NO66t27n/9kGPnjihZSzGgmBXI5OSlEzy/94LbX97lwvvncbvTwWgiKoFJMPLOlUvcuHaLb6/f5MrVD8jNzcFkVNIk9cwKiJy/dA5REnn6+Ambm5ucv/AWRkEpMZGcurzbilx/f3xft2yqlqpfQCJIiYpR7t6+qwXNvvv+uwhG4TtBSntrO/fv3Mdmt/Hxjz/EG/DGXGvxBUVUiiJLEtNTszTVNzM8MAyyTEZWBqVVpfhzvHgDXq34XXwy3p0l2trYYnxknLGhcbrbe+ls7cZms1JcXkR1TTU2mxXZICAJgsaMZQUy+fAnH9DwspHWpnbmZua5/OE7OOyOBDvKshBbxUuYrWY++tGHfPnFV3z71TcA7NlTmZJZUa9pKjsmsyuJ9tn9d6rtTQsxvS03Nze5f/8BucEcqqqrUuqmJNuxu7OHvt4+jp86qhT9S+HKUj8b2d7m8Z1H9PcOUr6njIMnapRxQ70nYr9FjC0o9eem/RZJB7YEmVMXjpMTClBf28iXn37N4eMHKd9TppN9UKQAlFeAQeDMhdP85ldf8Oj+Y9778F3lmuvSlSVZTtBVOXi4hubGZp48esLVn1zV+qF+HP6+Qn3J+/02zIredr9LhuVPjV35vTIqcdpPC7+Lo3ZkmpsUNdVDhw8pn9eiwuP7SrLEk4dPCOYFFVGtWAdRg1xHh0fp7x1g/6G92B12RWlS86mLdDZ3sriwTM2J/QiCWnQsFkSnBd6lzuXf3lbk8idHpvh3//Lfc+GTs1y6ej4x4E37zfHV0N//u18x0j/GX/+L/4JwUSjOpOgDsxaXGewZpLy6PJ5enJSpYxSMvHz2itWVVS5dVoJFVbdPMoujghRAO4Ysy3S0d3L9N9fp6uwmGMzlo48/4uixo7gz3BrVCew4pv7YPp+PmoM12O12Oto7qHv1mrW1NQoLC7W0aT2zEkfkyt8mswmbzUZTQzPpbhfe2GpSf7tYLBZWV1fp6eyloqoMo8moJQGpg+vqyhrD/SOUVpVotK8sSxgEA6ODY4wPT3Dw1H5kGabGpuhu6aVsX4mS/WM0MNo/xtz0AlWHyzU7W2wWMgOZhEqC+IJeolGRsYFxhnpGiGxtkeZ2ImgTnwyyop+Tk5/N1NgMA50DmC0mPF6P9nPSXE78OQH6u/oZ7B0iJy8Hm82qBdWZzSYKSgoZ7Bugs7WTUDikqKUmxRRhMGAwQElJCZFIhIbX9SwuLlFUHLvuKZiV5BW5fsX126zAVPZEz6Bor3WBqgDrG+tc/+I6bW3tHDlymLcvX8IgGN44uUUiEe7fvc+LZ7XkBHP44OP3SXOnaStwUYoiySJRKcrYyBhP7j/j9Ys6NtbWqdhbxqmLpyjdU4I/x0daehqGGAOmTHAqExOfMJV4IFGLSRCMAh6vh7yiPMr2lOLJykAUo/R29tPb2YcgCLizMlCJwmR2JSMzg/bmdoYGhgkXhjFbzIlaRTpmxWg0UlpWwsT4REpmZSd7sjMTKBVLthtTpm+pWLHk13rA+eD+A4aHhvn4Rx+R5nTqxm3dnZQQQLvKV198iSczg3Nvv4XBYNBARtzlo/y9sbHB7S9vMzI8xqHjB9l3ZG+MHY0DodXVNa79w5d8/Isr2Bw2JElM+L0gs7G2zvVffq3tI8symV4PRSUFLC4s0dHShclkxB/waf1EiLGkim3AZrdhNploa24jy+clQ1+gNXZ99GOjxaJkPTU1NhMuyMcdG7v1rMkOtjmJDUsOiv4+zMr36be/S4blj8Su7Mqo/EGAipywV/xWf1n7Ervdzp69e3YAFYXek1lfX+fl81eUVpTiz/YldBBZluju6GFycoqjp49qg5SWliyJ1D56iT/HH6tirCL1WOS/1uHU81f+3o5uM9g5RN2TJrqauvnsP1xn3/Fqrv71RzsGi+SJ/bP/eI3Xj+s5dek4wXAu2cFASqAyNzPP6MAoe2r24HA4EIzG2Lb488b6Bo/uPaZqbyXFJUU7vktJYRYSzkONSRFFkdu37vDsyXM8mR6ufHiF02dPk+5O185d3wH1TT1PvU0FQSAYCnKgZj/bkW1FJ2JmltKy0h1pvsmA02Aw4PP7GB4aoauzm6q9VZhMZiVYObZdkiXS3em0NLZisZjJzs2ODa4GzdYGg4Herj4yfR5cblesM0lah/r6Vzd45+oFRFmi7nEDRpORfcerUV2IkiTx6KunnPngRAwAJU68FpsFX66XQJ6PSGSb0b4JhntHiWxFSM9MwyDEKV6TxUSwMJflhRX6OgbY3NzAl+NFiOmoOJ12skM5DPQM0d/dT3YwgN1u0wYqi9lEflE+fd39dLX3kFcQwma3KQATOQGsgExBQQFms4n61/VMTk5RXFqMoNPn0K6/DgImAxb9ZPd9/0EKsKLLIlGfZ+dm+WUss+fipQscPR4TZXwDSFlaXOT6b76kv2+AAwf3c/biGYxmJRso7uqRmJud4+6392isa2Z7e5vqg1WcOHeCnFA2GGTNjauCE1FSXEOiFEUNiFcnzXhgsM5lIYkx0CfjcrsIFYYI5uWwOL9Id3svw/3D2B22WFBnfBQzABmZGeTkZtPZ1k13Rw/BcK4iob+LO+9NYEXvtksGK/r+lXpCkr/jQYIt9X+rNlXtOT42zs0bt9h3YB/7D+x7o8tHteWdG3eZnZnlvY/fw+GwK6nEaqq4FqiuBOx/e+0GC/MLnLl0iuLyQsV2GphU3G3rq2tc++VXfPSLD7DarTt+jShLbGxs8uUvv+bKL96PlQuJxbWZjYSL8lhZWqGzpRu7w0aWN1MDmslgxRfwM9Q/xGD/IFXVVRojBzGWwmBIWFj5A37aWzuYnZ6mqrpKcxGrttIvFlLNF6q1fghYid93f3jA8t1JkiEAACAASURBVAcEK3+aQOXJoyf4/D5Ky0pJBioqwp6enqG9tY3q/XtxZ6STDFQa65oxmU1U7i3XVklq7ML01Axdrd1UHagkPUONHFf9nJJ2PipQkWWJ0YExGh43MTEyidPl5N4Xj3Ck2fn4Lz/AHVM0hcQVrPq488V9vvnVTf7bf/1fK5kkQLgoLyVQmZ6YYWJkggNHDmAxm3ewKYIg0NXWxejQKBcvX8AR84cajcYEYbf4Z+KAJRKJcO031+nu6uHUqZN89PFHeDyehBsuVa2fZNCSDIxkZMxmM8Ulxdhsdl6/fMXk5CRl5WXa+WuriPhRtDvAF/DTWN/I5uYmBUUF2j7qfWKxWZianGKof4iKvRWxeJM422W12+ho6cRkNpEdyk6IRcrwuvnmH2+SXxJmc2OTod5h9hypxJnu0D7v9qZz99OH5FeEyfC50ae16h8msxFvbhb+kJftrSijfeOMDY7jdDmxp9m0wdkoGMkO+5GiEv1dgyzMLOAP+mLidAasNgvBcC4jA6P0dfaTE8pWAmxlWdlusZBfFKa3q4+ejh7yi/K14OpUYCUYCuFyp9PwuoHBwSFKSmMp3bHLrO9byYAlFWj5QWAliT3RB0n29fXx61/9mqgocvXHn1BaXoIWH7HLxDY1Ocnnv/4NKyurXHr3IlX7KrU+GBUVm2yL27Q1tnHv1gM2t7Y4eOwAx84exZftVWIkJVF5xICIKEaZnpqhr7ufob4R+rsH6GnvpbO5i7aGDnraexkbGmNmapblxRU2NzaQZRmL1Yw+Ng5Zxmq3kV8SJsuXydT4FF1tPUxPTOPP9Wtp9Oqk50xPI5wfor+nn46WDnwBP670tO8NVtLdbiVOjaSYFUOiDVOxK8kgNFVLBpr691Tbqt+xubnJL//hl1isZj765EOMMffTm0BKT1cPtc9rOXL8MEUlhbvGpUzPzPDttZtEItuce/ctckM5qY8tiRpb8sHP31fYEmQd2FTuxbW1db7+x2+58vP3sdqt6KULDAYDwfwgi/OLdLZ0k5buxJPpSQlWBMFIZlYmrU2tyDKE8oLxcTU+GGpjpMlkwmI209TYTE5ODpmZmQlj5JvlA3ZPN08FPH8XgOWfClr+gOzKnyZQuX/3PoWFheQX5O8AKiqYGBsdo7enl8NHDylIPXaTqoNa7bOX+AM+woV52qSmun56O3uZnpzl8KmDMennNwOVscFxGp8140hzUHWwghv/eAe7087pd08w3DdKsCAHi9WSSO3GbtBXj+r4f//tP/K3/8M/p6qmkunxGTbXNymtLE4AFMYYczIxMsHM5CwHj9VoBdLUYFo1kLauth6TycSRE0di296sHCsYDBgw8JvPv2BkeJT33nuXI8eOJAiMQSJISd72pqbvjMFgLmlpadS9qmNpeZny8vKEATTZljIyDoedza1NWhqbKa8sx2q1xPeI2c5ut9Le0onPl0W6Jz0BqBgMBibHJllZWqaovFBZKcfsaBAMDPePMDEyweb6Jq6MNMr3l+kGVAkEAyO9oyzPL1O6v0hbeetBivKeMmCaLSaycjxkBjzMTc4z2D3M4twS9jQ7VrslxgiBL8eLzWFjqHuY0YFxPIEMrDZFgdZqs5AbDjLcP0Jf1wD+XB92TU/DgM1qJZSfR09HN71dfRQUF2CxWDSwop/kQCYQCODzeWlqaKarswtPZiYZngzleEnBtCkHudigs5sORyrdkdR6Ksq1evzoMbdu3sbjyeBnv/gpXr9Xm3jUfpY8sU2Mj/PFp9cwGAx8dPVDArkB5XiiqGgYyRJr62vcv/mA1uZ2soPZnLt8Bn+uHxlJs1tUirId3WZqfIrOli5eP2ugp62H6ckZ1lZWlVIHZiNOlwN3Vjp2p43I5hZz0/OMD09oAHJiZAJJkrA7bRprpv6GNJeT4ooi7E47A90D9Hf34wt4cTgdGuBEVuLSCorzGRkcpa2pDX+2D1e66zvByuTEJPWv6zEajeQGc+OT3C423I0li/ey1EBTtVkq8KkeNxqN8vlnv2F6epof//QqGRnuBCChfYfGsEisrKzw5W++IsPj5tzbb2n9NdnuC4uL3PjiBgaDgYtXLpDl9aQEKeo9srq2zle/+oYPfvYeVptFu5/UhySLbK5v8vU/3uD9n17GHpsbVNSuXrVgfi6zsQVruiedDI97B1gRDAbSXGmsrazT3tpBUXEhdrs9vhglxj7r7ODz++jq7GZkeJR9+/cqiwpDfIxMHi9/O7BCwr47+vIPACH/PwEsf1ygoq4+koHKsyfPCIaChAvCuwKVudk5ert7qd5fjT2mkaIHKi2NrbjSXeSlACpTk1NMjk2x5+Ae4je4rDs/NdYldv4GGOweIq8kxH/8X/4z0e1t/u5//lui0SiLc0uU7y9V6PYk1qGzsZv/81//X/zl3/0Zx84dxmAwMNQzjGA0UlRWkABUtKyg7kG2t7apPrBHyxjQsykAzx6+oLC4gIKi/B1CbKrbJ5lNaapvoqGhicvvvsO+A/t06cpxd4/aUmm27AaC9PZV/87JUWTp6169xuvz4vP5EjqEnlVRV/0ej4eGugacrjSltpNmgxirYjXT+LoJf0AJjNQDFRnobuvGaDKRXxLWBjUpplAsRqPc+PVt8svzOXS2BrPVrLkP1FV6NBrlxc1XHHtHiYsSde4AMQm0KC5IGavdQiDsw2Q0MjU6w3DPCItzSzjTHVhsigvL7UnHm53F+PAEQ93DpGe6cLqcGAwGLFYzwXAuw/3D9HX2EcjxYXc6NLBit9sI5ofobu+mr7uPwpKCpFiHRLDiyfSQFw7R19NHY30jU1PTBLL92Gy2BMAS73G7Dy7qyi8ZjCQDE0ic6AYGB/nq2pd0tHdQXb2HKx9/gMORmNkjk1iaIiqKTIyPc+2z65itFj7+6ce43GnadlFSYkimp6f59tpN5mZmOXS8hoPHDygijrIYq4QusbUdobW+jecPaunt6GdhfoFMn4eyvSXsP1ZN6d4SwiVhcgtyCOQF8OX6CAT9BAtzKaosoLCigEAoQJrbyeLsIoM9Q/R3DbC2uobFZsFqs8QnNIMBT5aHYEEuo4NjdLf3kO5Jx5WRHo/JkpXsnqLSQkaGR+lo6SCYl4vD6XgjWCkrL2NpaYmGugbW1tcpKCxQJr0kG+onv+QJYzeAsitgSeG6i4pRrl+7Tm9vH+++f5miosIdcSmpQOc3179hcWGB9z9+H4fTkRCXooLOjY0Nvr12g82tLd758BLpblcCSImK0bj7LgaAV5dW+ebTGxw+c5CVpRXGhicYGhhhuH+EjY0NzBYz0WiUb399k/d/ehmr3apwt9r8oAw4RkEgVBBianKartZuMrIycGekx0CFEON7FfbSn+2nu72L2Zk5yivL42Omaj/dmGYymkhLc9HU0ITL5SI7J3sHwFRt9UPByg9hV/T2/0MClt8TWPnjAhXdOwlA5cWLWnw+HwVFBbsClYWFBbq7uqnYU4nT6dgBVDpaOzFbzBQU5+s6n9IJFuYWGB+ZoKSyGKNJSDgvLb5BB1QsVjMz47MsLSzR2dDFsYtHqT5SSXdzL3aHjfyyMEDCDTzaP8a/+Zf/Bx/82btc+uS8BiK6WnpId7vIKwxp76kgxGAw0Nnahd1up6QiLqkuGOKsyvLCCi2NLVQfqCYQ8OsAipCSWREMBhbmF7n+xZcUFBZw/uJ5LdA1GaToWZRULp9ULRmwaMxKKEhfXx/tbe1U763GatGlBKZgVSxWC/19AyzOL8T8u8oEaDAocSoGwUBTXTMZmW5yQjkaUFHdeU2vm8j0esgJ52h2VoHF+MgUrx7VcfhsDYUV+Un0szIQujxOHnz+hHB5CKNJYH11nZWFFZYXVlicXWRlaQ3BaMBgNMRBryRiEAy4stLIKQxgMhmZHp1luGcEUBSJMciKJks4h9nJOfo7BjBbzGRkpSPLYLZaCIVzGR0ao6+jD1+2F0eaUwMrDoedYF4uXW0KWMkvCiexd4mTnCvdxd79e7FYLXS0dVBf30gkEiE7J5Agu7/TAj9soNKDE0mWGB4e5puvv+X5k2cAXLp8kWMnjmk1jhJXx7LGvIiSFAMpX2K1W/n4xx/icNoTmBRRitLf28+tr+4gCAbeunyWvMJQDGgqk9m2GGVkYJTHtx8zOjSOL8dL+b5S9h+rJliUizPdiWxQ3UL6GJWodg8o7BrYHFYystzklQTx5XgRRYnRwXEGugZZnFsgK5CJKZaqDmC1WggXh5kaVyY9i8VMlj8rAayYYrFHA72DdHd0k18YTlidJwRKx/pkSWkJkijSUNfA1NQ0xSVFmEwmzYaJE1y8P+7GiqW0Y5LrDuLjsyiJfPv1DTo6Orh46QL79u+Nx668weXTUNdIS1MLp946qSQ6SGqdp3ifi2xvc+ur28zPzXPhvXN4sjI0kKII9ona8SRZYmtzi+7Wbp7ee0FXSzd2p53piRlmJmdYW1GKSY70j9Lb3sdQ3zAdjV3UnDygBLOrl1a7SMp/RqNAuDCPyfEputq68QW8uFxx9WjVfmazGYvFRntLOxmZHjKz4i4d9Zj6dOXMrExGR0bp7uph7/69mIymhHEyOd1cDyzfBFZU26RiV/5UAMvvCaz86QAVPW35sraWzKxMioqLdgUqy8srdLZ3Ul5VTporLWFSU4JpezEIBopKCxMAjCTLLC8tMzIwSlFZAWarmbirJzVQMRiU9M7RgTFywtn0tvVz+NxBOuo7yS3IxZudBSTGp5jMZlxuF+/+5JLmngFob+zEl+MjJ5SdAFAUN4+R5tfNeANewoXhBICiAofhwVGGBoY4ceZ4QnzKroyHLPPFZ18Q2d7mZz//GVarNaFzpKqe/Cahufhn5aRtO1cNeXl5vH5dx/zcPBWVFfFrZNANGjFWRZIl1tfX6WzvpHp/tTIgE3f9YDDQ2dqJxWohXJSXAD4j29s0vGwiVJBLpi9Tm3hESWRjY52G501sxZR1Kw6Waas6FbCIYhRZlulp6mOoc4T11Q0mBqeYGp1hZnyOuYl55ibmGeubYHJwmpWlVSKRCIJJwGBS4mUEwYDbm052gZ/N1U1GesdYmFnA48vAbDFhNAnk5uewsrTKQOcg25FtvNlZykBotRDKDzI2NEFvRx9Z/iycrjQNrDidDoLhIN0dvfR29RIuDCcIAqaa5ILBIFV7q9hYW6exoYnW1nZkWcKV7lJAoyzvAC36Pvhd/1SgMjo6yo1vbvD00VPEaJRTZ0/x7vuX8Qf8u7t6Yn1RlCTGx8a5/vmX2OxWPrp6BbvTrvVhdeXd2dHFw9uPyPJlcumDC7gyXDG1WgVwLCws8vz+C9qbOrDZrRw+XUNJdTHOdDsyaqVdvdZK3JWn9nn1b2S0ZznGmvlDPvJL87BYzAz3jTHYO4zdaSfNnYbKCptNJvKK8lhdWqGztZvtSAR/bkDTLUIGi8VMfn6Y7o4e+nr7KSgpwGqJ98f4RGrQbF9QWIAzLY2G1/UMDg5RXFyE1Wrd4c5LBVjU/vOmhzYOJzFloiRy9/ZdmpqaOH3mFEeOHv5eIGV6apobX90gvyDMibPHE1KR1deiFOXhnYcMD45w+uIpguHcGHMia2rM6vE2Nzdpb+rg+cNaxkcmcLnTaH7Zwj/725+z70g1lTXllFWXUFxZSLAgiNPlZHVljZZXrTjSHEyOTuLxZsTiWZQrhfr7UUQs8wrzGB0aZbB3iIKSfCxmc+z6xcdJr8/LyOAoA30DVOypSJBvSA6sNQpGvD4fDXUNABQUFCSASv08kQw24zZ8M1j5QwCWPyGw8scBKuoEGn8ncWX3+tVr0tPdlJSWpAQqGGBlZZn21nbKK8pjypaJQkU9XT2IYpSyylLN5aP6U9dW1xjoHaSgOIw9LVayXY5lksT2Mej+k5FxpNkY7BzCneXmyY3n7DlUwezkHCXVxaS50nbQgRarleKKwlgBQeUR3RbpbuklryCo6DokZfRIokTzq2bCRWHFL21ITE0WBCMdLZ0sL69w8uwJ7b1kcKIHRnWv62lvbee9K+8TDAV3uHx2dpCd/m+DYWe8SirAkgxW7A47RqORutd1+P1KdVHNkilsKhgFWptb8Qf8ZGZ5NPCoTm69Xb2IYpTi8iJlcokJfC0tLdPV2k1BaX4sfkWKTT5Rutv6mJmYobCigKc3X3DmygkNpIhSlO3tCEM9o7TWtrOxusH0yCxnf3ISf9hHIN9HoNBHbkk2WSEP9jQbkiSxOL3IzNgcY30TLM+vYLaZsNjNSLKMQQBfMAur3crE4BSjfWNYHValOKVRwB/yI26LSl2hhWWyg34EQcBsMZNXEGR8ZIKejl68KcBKKD9ET2cP3Z29hAvysNpSB9iqlrJYLBSVFFFQVMDM9DTNTS3U1zUwOjqKJIqkZ6RjMpo00KKyDHrwkvwvKkYZGhikvq6Bu7fu8qr2FVubW5w4fYL3rryr3Lea/kecOdG76qQYCBkZGubLL77C4bDz0Y8/TAApqkuuubGFZw+ekx0M8NblM5gtZg2kiGKUxtctPH/wgvX1DfYcrGTfsb04XHYkWUwQg9vY3GB0YJyJ4UlGB8YY7hthoHOQ7pZeBnuGmZuaY2Vpha3NTQVIG5X+r7BnCvjL8GWQG85mdnKOvo4B1lZW8QayMJlMyqRnNJKbn4sYFelq7WFjbZ3ccK62MhcwYLFZyA3l0tnaxcjAMCXlJYoN1D4V70zEpkqycwL4Az6aG1tob+/AneHGk+lJGX+kTUb88IlC7WdbkS1u37xNY2MTR44c5tTpk9rx9SBF+Xq1F8tsbm1x/bPryMD7n7yH2WxK6fKpffqSrrZuDh6vobSyJOa2U8FrLGA6KtJcp9h2YmwSX46PQ6dqyMnL5sZnt/n4L6+Q5nYmjEEmi5EMr5tMn4dbn93lJ3/9CQuzi/S09yJGRbICmZp2ShwOKCDTn+2np6OX2ek5CksL4gu42KrKKAhkejNpa25DkiTywnnxBaTOZur4muZKY3lxiZbmVoqKC0lzOlMu5nZ3AalnF09d/qGAZTfQou/PbwIU/xR25XcMVnYFKn9UwTezyYwoinFxHUGVYxcT9gHYjkaBmMS5LGoiSGazmbXViLa/EBNnQpQUn73BwNZWRJNtVz4nKjeopMopg6pPbrXZCOQFmJmYIdOfybPbL/EGMsnyZWrHV5squCYI8cwbwSAQ2dwAwOawaUBCL8K2vLICgCs9TTmOlmIcP/b01DSBHL/WSZJbglCQJFH/qp78gnwqKst33fdNbEqy0FByM3yHWNjRY0dpqG+k9kUtZeVlbzyWz+/DbDYzPjZOcWnRju0Oh4OFhYUd768urwJgT7PH6WJJcR0MdA3izcmi6lAFn/2Hawx0DZFXGiIqbjM5MkVvSz/rqxukZ7k4c/UE/+lf/QNbW1v4/VmoOj+SLGG1WLE4zGTleZBlmc31CItTS0wNzND0uA2PL53ckhyyAplIsow35MHlcdLT0E/zsxZmJ2apOlSJ1WqhrKYEh8tBZ2M3j2894+SlYzjsTkw2M2feOcXjW0+5f+MBF98/T3ZujvY7MzzpvPvRO9y8fpvrn33Jlasf4PV6MRlNRKVoTCNHQDIICIKMbFCEogLZAa7+7CpLi0t0d3bT0d7JjW9vcvvWXUJ5QVyuNBwOB3aHQ3m22xHFKFtbEba3ImxubRKJRFiYX2BkREnLFowCeeE89h3cz57qKkVHArR7QZ/eqk5UyvuKbXq7e7n17S1c7nSufKJkZySDlIa6Rl49e02oIMSpc8cxGA0aSNnc2uLJnadMjE4QKgpRfagSk8UUE4OTY26hbeam5xjoHGZqbApRlMAgY7aYlXgTuxVPuh0xKrKytMbk6AyqK81kMREuCVFQobBXkkFAkAWsTivHLx2hv32A3rZ+ZqfmOX7uCFk+hVU1CUb2HqnGbDHT3qi4n4+eOgKiMk6ZgCxfJhfePc+dr+/y7fVv+fDqh5hNZm1gF0CTajfIymBUUFjAT//sJ9z65jZffP4FpaUlnDpzCr/fHxc40wn9SW/ok7s1WZbp7u7m4YNHLM4vcOzYEU6fPR1j0PTu8522lWSZZ4+fMz+/wAefvKfEDeq3SwoQaWtup6WhlfKqMir3VWilDtSYFFmW2Nzc4tHtJ0xPTJMbzqF8fzlujwtJkpibnY99d1R3HklskKjME76cLArKwnQ0dNHV0sPEyBTH3jpMRpYHkLTrHAXcHheHTx2i9tErGl81c/j4QSQBJFlAkCQkg4Qv4KWssoyWhhYqqyrI8mYl2IxYmRBVBO7MuTMMDQ7z9Vff8hd/9ecKe6aX0X9DeQTVjuo1T1XqQi+7r72XQlBObanG8uTvStW+zz4pP/cHkOD/vQCV75rU1OZMc7KyvLzjfcFgQIzZyZXuAgwsLy5hMOSjKpqqzR2TQY5uRxFMSl0H5RgCLrcLo9HI+MgkOXk5CWqmklb1Qfe9ggEkgdI9JSzOLuHxZtDT3MuR/+pnCRTgd03qc9NKnYoMT4Z2Lvq2vKD8ZndGxs7fLig39OLCEgWFBTu2J6vRAkxNTbO2tsaFty8m7fvdSPe7fkvyvrLuZtYPkoKg1PZ58vgpkUgEk3n3W0sQBNLdbtZW13ZsUwdIQUg8dzXd3GCQcWekJ6zaB3qG2NrYZO/xKqwOK2X7iml63kpucTa9zX0Mdo1gd9moPFZKulfRXwmV5dD9uo/MYEZCDRM97S0YDJjtRgKFXrx5HqaH55gemKH1WSdpbid5Zbn4gl7MDjPVpyoY7RlnpGuctZV1ak7vx263EyzOxmq30vy8hef3XnLy0nHsVjsmq4kzb5/k0c2n3L/xkLc/vIjX59N+b3qGi8sfv8Ot67e5/ulXXLn6AX6/L658SuJEJ6AEIhoMAu4MN0eOH+HoiaNMTkzS1dHN+Ng4c7NzrG9sIIm717oymcykp7soqyijqLiIvHCeUgYgyT4QH6Diq+44eARobmzm4b1H+AJe3v3wMharZQdI6Wjv5NWz1+QXhTl54YS22o6KUSKRCI9uPmJmapaakwfIL8lTGBYpiiTJbG9HGBsap6+jn4W5JcwWE8HiHLLDAewuO+rtnzyZb29H2VzdYHVpjfmpRXrb+hnuHaWoqpD80lCshpOiRFtUXYg/10f9s2Ye33rK6XdO4vV5lWslQOWBCrYj27Q3d+LJ8lBaUYJBlojGvjInlM2Zi6d5cPsRzx4/58y50wiysMOGypikNK/Py5/91S9oeN3Iq9pX9Pb2UV5RzslTJxS2MgmwqG23CUbPigwODPLk0RMmJybJyMjgpz//CaFwKCVI0dtXtW1/3wDNjc3sr9lLKBzaAVIkWZGUePGklmBeLodPHdKOp3/e2Njk3rcPWFpY4sjZQ4QKQ4ixApUa44cCTqIp7lf1fNR9jCYT+45VE8jz0/SshXtfP6Tm+H4KSvORDDImQbnOkkEgvziP6ckZ2praKSgO4/V5kQzKktUQAxGHjx9iqH+Qp4+e8eGPrihMobrQlSQQBIyx+8vusHP5vXf4zWdfcO/2PS6/f1mry6XVa9oFrOjts5vqsPo7E2pyvQEcpDpG8r3w+6gj9PtUtP2tgUoqee7vQvfJE53X56O9rX2H31TdF1nC6VQKh01OTLGvZuc5hPJDtDS1MT05Q3YoEBc8Q8Jut1FUVkhfVz/7Du3BaDEpEz2kZFXU8/dkZXDh47fIzvPzb//VvyevOBQ/J913AzvYFEEQGB+eJM3lxO1JT8yyib2en1tAMBrxZGaQLHcPsLy0giSKZGRmJLEgqYHH+Ng4ACGdy+dN7Xcltaw/niRLeH2KFsT8/LxSG+QN+yt0aOrtK8urMYAaGyRjnXJidIIsvxeT2aT5uKPRbbpbesnwZZDp8yDKInuOVnHn0/tUH69gsGuEQNhL4d58JOKrucID+TTfb+PwB/sQZYntrSjrS2tEt0UsDrNW80d/vXwFWWTleVieWmFqYIaOVz3MTsxTvK8Am81GqEwJ5uyu6+Pl3dcceqtGkf7P9bD3WDXNta28uPeSExePYrPYMdnMnH77BA9vPOHeNw+4/PHbit6NLCHJAunuNN795B1uXrvFtV9f461Lb1FWXqoMaElF8BS8kghYBBSWJZAd0BVAk9mObLOxvsHm5iZGoxGL1YrNasVsMSeoFavXX9+v9as6PUBR/pY1HYznT19Q97Ke/MIwFy5fwGgSdoCUwYFBnt57SnYwwInzxxNBytYW928+YnZqlkOnDxIsyNFASlQUWVtZ5dXjehZmF3G47FQcLCU7HMBgNMTdTmLi+anniAEc6XYc6XYCYT+hklz62wbpbOhiuGeE0r3F5OQHFNvLAmmZaRy/eJgXd17x/G4tZ989jTtD0VQyAXuPVLM4v8jLJ6/I9GaR5fWA0YQkKxNfQUk+e6araGlsJcOTwf4D+zSpdlDHHsV2ELOlQeDwsUPs3VdN3et6Guub6Orswu/3E8oLkhfOIxTKiwmdxX5bim69trrG2NgYY6NjDA8NMz01jSvdxeX3LlO5pyI2acYBimbzFCBldXWVOzfukJmVyZGTR5LiUhSQEtna4sGth9hsVk6eP6FzAcbiycQoa2vr3PvmAavLqxw/fxR/rk/L5orbTtTslczeqU2UorHnWJC0CL5sH2c/OEX9kyZeP6lHMAqEi/Ji5SuU7CaT0cT+w9VMjEzw/GEt7/3osq7AqgHJIGG1Wag5cpAXT14w0D+oqEEbjTHQoVhNz6qEC8McPX6Uly9ekhvMZf+B/Tvk9VU3iR6sAAmARc+uwPcHLLA7y/LbAJZ/Crvy+wArf1TXj8/nZWtzk9WVVZwu547tqrsmkB1gemo6/p4saTVicoO5GI1GxobHyM3LQYx1dkPM/VNRXU5PRy99nf1U7K9QhKJ0rIoQI1b0LiBJkjEZTew9XE2m30PTi1bOvHtS+37t/ISdwGE7ss3M5CwlFUUIQnzQj6cQ8YsBdAAAIABJREFUCyzMzuP2uBMUEPXHXl5UGBePJ864vMn4E+MTuNJdpLnSdpxj8rGTXVepmkY17gIgd2NVvF6FFp+bnXsjUFGOszOwD5T3VpaVmA5Z1wk3NzaZm55nz8GqhHMb6B5kY32DPUcrkFHiVSoOl/HZv7/Gy7v1hMtDCSBFFQnLzHWzOL3M61tNGAQDkc2IegLKEzJmmxl7mg1bmhVPthtnhnKPurNduLPTmeqfYap/huW5FUprisj0e3AH0qk6XkbHyx5q776i5sx+MrMy8YUyqRIraH/VwYv7rzhx/ihWiw2Lw8rpt0/x6OYT7nx1j8sfv016ejqgVF1Oczn54Mfv8/D2Y+58e5fpyWlOnD6O2aSIBKquIGWllxqwAEhifBA0mU243C7cnriAodqS2ZJU25TLFAcn+v2j0W3u33lAe1sHlXsqOH3ulBYDogcpE+MT3LtxH3emmzNvnwHiirGRrS3u3XjI3PQch88cJDc/EaRMjE7Q8KwJUZTYd3wPvlCWFhcRD56NZ5IknzMoRauVayPicNvZe7KShekl+tuGaHrewvjwJAdOVGuuLrPVzOG3anhx5xXP7r7g3HtnscdAgkmAo28d5e71ezy6/Yj3fvQuDrugrNJj1bGPnDjE8tIKTx8+xWa3UR4TSVTBiiG2SgcSastY7VZOnjnBwUM1tDS3MDI8SmNDM/WvlQBOr8+LJ9ODyajEq6mxbtHoNhMTkywtLgFKKrQ/4OfCpfNU71OC2NW0/EQgFw+GVa+ZJCsaK3du3CES2eLKj95XJm1pJ1Py4mktS4tLvH3lIhabRYtLUY+7vLTC/RsP2Vjf4NTbx8n0Z+5IYdffV6IUJRoDJPomS4kARoz1A1GWMFnMHDl3iNp7r3j9pB6H04434EWSDdqC1GQxc/D4AZ7ee0F7Syf7DlRrLiC1HlD5njI6Wzt59vgZ4fy8hDpAKquit9WxkwqDeef2PaXidEy+IWFBr6vlBOwALKncQfDdgCX5mAnX6jsAy++DXfldtz/qGfj8ymQ2PTO96z6CIJCdHWB5aYnNzU3lPd2ka7aYyQ1mMzaisApqiXZ1e0ZmBjmhbHo7+7Vy7zuK+en0SLSYE0FJazt46gCNz5q0yUDZ36CBlGQ2ZWp8BlmSyCsIatuTWZOF+SUyvZ6U4AFgcWERAE+Wh+/TJsYnCAZzd71+f6jm8XiU8gCzc9+5ryAIKYHK1uYW29tRDXSB0lnGY/YNBP0aNRzZ3qa7VZHUz/R5tJVdNLJNhtfN0uwyFYdLkA1oIGVjbYOuV70Md4zhzHAw2TeN02Mnp9RHQU2I4mMFhKqz8RZ4sKVb2NqMMD04S+fzPrpqe1mYWiQS3SIqbRMo8lJ8tAAJkdZnHfS1DrIV2cThsbPnlKKU/Pp+A1MTU0RFkZx8P1WHKpkam+Llozq2tyOIYhRnup1Tl46ztbXF7a/usbq6qtDgkjLI2+xWLn/0Nnv2VdHc0MK1T6+zuLyUkAKsDtZybEJQAkwTtWHEmL9ffURjVHuqh34/JY00WY4+VkdHkmLZVBLT01N8+qvPaG/r4PCxQ5w5fzolSJmZmeXml7exOx2cf/88ZpMRNRNkc2ODe98+ZG56nqNvHU4AKZHtbToaO3j5oA6LzcKxS4fw53k1kKIG3oqSSFQS2draZGleKTo53D3CWP8EywvLbEe3E85blKKIskSG383Bc/so3lvI7PgsL+/Xs762oV03R7qDQ2cPsL62wdO7z4lEItokbbVZOH7+GCvLKzx/+EJTytUYQQOcf/ss/oCf+zfvMzQ4nJTCHdWEBncqtUrYHDaOHD/CT37+Y/727/5LfvbnP+PE6ZM4nA5mZ+eYnJxifHyc4eFhBgYGGBsbx+f3cfb8WX7xF7/gb/7ub/j5P/s5+2r2IxiN2nfIOjvvBlIkSam3NjgwxMmzJ8j0JoILNS6lv3eAzrYuqvZVEsgNJMSlSJLE0sIid7++T2Qrwpl3TpEV8O4AKfr7WDsHUWJrI8Li7JJSZDYSQQ3UBjQNlqgUZ2UMgoFDZ2qw2a08v1fLyvJqAmCSZIlgfi7BcC7Nr5tZWlrWxhrVFSwIBo6fOcbS4hLNjS07WKZUY9p7H7yL3WHn+hdfsr6xnlg4UfcsJwF8/Tb1dTLIlpO+N14OInEcVe+Z5Jb8+d2+K9X2H9JSffc/tf3eGRVBUNCnUhlTRYIKcvTFfL1zs3MUFxcDqQNqc3NzAQNTk1PkFyTGqQgGgVA4xPMntaytrGFPs2vuH0kAQZaorK7g3o0HjA2NEyoMgqD6hSU0Ii+ZWYm1w6dr+F+vPWBjbQOny6F9p9r0IAVgYngCq81Klt+b0u2ztbHJ5voGWTH2IVVbmF/A4XQq6Ynf0VZWVlhZXtHQ+x+zGY1GPJmZzH4HUJFi9tN3fPX18rISaKykosdXxGPDY1htFjxZGURFZaIZ7FHYlL3HqjQ2ZW11jfonTWTn+5kYnEIyyEii4k6YHJxiqH0EUZLJKfVjMEJf3RC5lf6EgUSw2bBn2bTzFbdFliZXmBtZpLduEHualUChj8xcD9Y0M6XHCpnsmWGsZ5yl2WUqj5biTHOy51QFXS97aXjUzN7jVQTzg+QU+pEkic6GLl49qefImYNKzI7HxcmLx3ly+zm3vrzD21cu4YqBNZNgQjDAkVOH8GX7eHr/KZ//w+dcfPcieeGQ5gpS0/ZVUC2KCqOiDhuCIIC8e3zKG22WNPjoV7Pb29vUv26g/mU9ZouZi5fPU1RapNlEL6O+sLDAjes3MZmNXHz/PDarhaiaARLZ5uHtJ8zNzHP0rUNk5wU0V93G+hZ1T+qYGp8mpyCHyoNlIMhxIb+Yzsrk8DSj/eOsr6wT2dpG1jFkajOZTbiz0knPcuHN8cTYXAk5plEUKsnB5rTS/rKL2nuvOfJWDWmxwHe3103NqX3UP27i5cNXnLxwAoNFQJAlvIEs9h3ZS2NtM62NbeytqdbceIhRjCYTlz64yDe/ucGtr2/x4dUrZOdkx5mVGCugjzvSrrqkPimFFLNzA+QGc4AjKe2lXz3rJ/0Em6Zgz/SuHnVbc2MzjfVN7K2ppmpvVUqXz9raOk/uPyEzy8P+I/u07SoQ2tzc5OGtJ4iiyNnLp0nLSNsRuxIHLFEGugcAeHHnlZKFFhVjv0HGZDYRCPlwuVX3sKwtQiUh7k4zW80cPX+YJzef8+zuc85/cE5J95clZfw3Chw6WcO3n9+i9vFL3v7gIhgVVsUYuxa5ebnkF4apq62jtLwEt9v9RlbF5rDxwYfv8etffsqNr2/w8dWPMYKWIad5BAyJFc8hkV2B1OEVyXb8PsG335dheRN78kOZld+1C+i3Tk+G75eiHDuO7p34wGExW2hpaUEURSqrKhNSWpWmJN9ZrBbqX9djtVoJF4R3iIRZbTZam9owm83khnJAn00ry7jcaQz2DTE5PkVhST5Gkym2TzyFTMmlj5+9mlaWkeXm4TdPyPJlkl+cF3s/sc6OBkI2IzTVNhMuzCOYH4ylEMcF2gTByPTENEN9Q+w7uFeR2E5RjLC1oRWb3UZldWX8e3apbjwxPklneyfHThzDnZGhSydmx2v9c/JrfdPn9e9m+WSbqynGvT29rK6usr9mf8r0ZFWbo6mhGbPFTFlFaWyAUtKQR4fHGOwboLpmD7aYEvF2dJuXT14TCPrJDecgSiLb2xFePnyNKyON4j2FiLLI9vY2dQ8biGxsceDcXp5+VUvJgQJMViO9jQOM9UzgcNspPBjC5XViSbPQdLOd0L5sTDZjQnqtvq6IQTBgS7eSkZuO1WFhbWmDudFFFqeWcXjsWGwm3P50HG47syPzzE0s4Ml2Y3PY8AazWJ5fYbR3HI9f0XnweDMwmUwMdg2xHYkSCCrZXY40B76Aj/6ufkYHxwjlBzFbzKgqmsgymVke8gvzGR4YprmhhbGRUQRBCRyPx/7orri6wiRxVaZfXaXS3UguLaCmQWq1kZDZ2t6iraWdG1/fZKh/kKLSIi5feQd/tj927RJrvaytrfH1b74hui1y6coF0lxODaRExSivn9UxMjDC4dMHyS1QNTdEtiIRnt15wfzMPFWHKinaU4BskBJAytrKGi217Qz3jGI0CWT43WTmeAiEvQRLs8mvCOHL8+Jw2TEIBlYXV5gdm2N8YAqDUcDlccYEupRf6nA5yPR7mBycZHJ0htyCbIwmEwICznQHdoeNvo5BBKMBrz9LSzPO8mexurhCT0cvOcEc0tLU1NqYpIDRSH5RAQM9A3R1dBMuSBSEU0Y9rSMqkxk6sKHZVdUd2iXFXG/nFP/Ue10vC6AsDmWNRZFlpY7P3Vv3CBeGOX/prQQGT5bjqcgP7zxkcWGRtz+4hMVuQZbUQoMK6/by8SumJ2c5/fYJMrLcOmZDX8FeZH1tnVcP6xjsHmawa5i9J/bgD/nIDvsJFeWQkx/AYEBRiO4bZah7hMpD5Xh8GTHdprh4kwFFaDHTl8FAxyBbG1vkhrO19HCDQam3ZTQa6enow5/tIz1DcbsKGDTZfJ8/QHtzO9FolPyC8I7qyqrt1f6X5krDarHQUN/I7PQM4YKwlu2VOj05LuWRSnE4+e/dUptJeGenxk6q9Obk996UqvxD05h/i9Tl372OCuwEKsn54xoo0QEV9X11v4WFBTraOzl0+CBGozHl5GY0GZmfW6Cnq5t9NfsSY0NkpVT3/Nw83R09lFWWYjIbNSVTYrEQmd5Mulq6WFpcIVwU0m6MhPx4HVjRg4G5qTn6Ogc4fv5oApOjAghlf4GOxk7mpxc4/tZR7A67tk9c88TAQM+AsmI8fQRL7OY16jRSBEGguaEFd4abkrKSBBCT6rG8tExHWwfV+/biznDvACe7qyLuDlTUG/1Nlk++B1SgUve6DrvDTtWeqpS2VAHAk0dPyQ0pqxUVqEiyojQ8PzfPkVOHYwOYyOTEFF2t3VTuryDN7USURIb7RxjsHWbPkQpsTiuSLNLV3MvE8CRlh0rxZLsZbB9hfW2T+akFVuZXyC7xk1sZwGBSxMGMVoGxzilEUcTmtjI7ssDc6AKrC2tsrG4S2YggiSIyErJBuZfMThOeXDf2NCsLk0vMjy1idZqVAFynFZfHyezIPAtTi3hyMrBYLWTlZDI3scDE4AS+oBIMnOn3EN2OMtg1hNlmxpOlgExnmgNfjp+Brn6GBkYIhoNYksCK1W6ltKIEm9XKxNgUne2ddLR2sLa+jjPNic1mi/c5Xeq1nuJNOaGlmNxEnZqrFAMbvT19NNQ18vj+E3q7esnyZnLu7bfYd3CfJnWvTHTx+IHNyCY3r99ieWmFS1cukOFxa8eMilGG+4dpeNlESVUxxVXFmttEkkWaapuZHJ2k5tR+AmEfeuXT7eg2Y/3jtDxvZ2tji+K9BRTuy8cTcJOW4cDusmO0GDEIBkwWI450G55sNzlF2fjysohsbDPeN8HWZgS3PzZJxfqF1W7FneVmtG+c1aU1Ank+RUMDgYwsN2vL6wz3jhAsyMVmUwXdBHJC2Qz3jTA2PEZxeVFcIyk2iVotFvLy8+jt6qWnq5eCWDHKZLCirZwNir6Gfvmg2kfvSvi+D1Et5qm7B1SAIoMW4zM0OMSNr27gz/bz7pXL2opf7/KRZJHhoRHqauvZf3ifoiSsLx6IzPjIOA0vG6nYV0a4OES87EUczIpSlJmpWWrvvWJ9dYOS6iJeP6jnZ39zlWBhjlKSIt2Bw+XAF/QSLgthwED94yYcLjsba5v4Q94YCEkEK860NKLRKAPdQ/hz/UqdJmW0x2AQyMzKpL97gJWlFYrLirS+ptrDZrexsbZOV0c3ZZWl2Gy2hDlAP76q42ogJ4DVaqWpsZmuji5ygtm40lzK4jhJD2c3wKLXXtkNtCQDFhL2+T6AJbUOy5sAye8RrPx+gIoemGifSfh7J1BR31c/azKbaWpoxOfz4Y/FrKj3mVqXR0bG7rDT3NiCKz0df8C/g1XJ8mXS2thKdHubvIK8HayKI82B0WSiq60bs8WML5CVYMRksKK/+axWC9f+85e8c/VtLBZzAsOhXAeByOYWdU8ayCsKUVRelMCm6NmQjqZOzBYT1fv2JLAyympLea5/1YjP76WwqCBhe6rHysoq7a3t7KmuUorT7cKipGJSfiDa3WHXBB9qDKg8ffIUv9+/q4ifJCvKtC+fv6K0ohR/tk/HYIi8rq3D7rRTWl6MGrfQ3dbNzP/H3HsGSXKeeX6/zCzvq6uruqq9t+P9AIMZYDAwBEAcyOWSG+su7kLaVSj0QVKcQh8vQjrFRihCurjY1cXpdHu3u7d7FMkjlwAJj8EMZgZjMK69997b6vKZqQ9ZmZXV3TMYkEue3o6K7i6Tlfm+bz7v/32e//N/llY48dwxEDRi34Nbj7DYJFqONSErMjvbO3Tf7aWsspTK5nJyiszuzi7dN/oprQhSf7IGX9SDplArk86k2FzaZmt5h7m+JW03t51CURQSm0niawl2VnbZnN9mbXqT1E4aySYi2SRUVcHqsuCLeImvJVidXkcUBVwBBzanDU/AzfL0KpurO5REA9jsVoIRP4tTK6zOr1FWHcFikQiVlRDf2mVyaAp/iRePTxMU9HjcRCrKGB+aYGp8horqcmx2W8GAAqIkURaL0H64jbJYlFQyxcjACD1dPYwOjTI/v8Dm+oamhSKKmliZbvieYTHLZDJsbm6ysrzC3Mwcg/1D3L55hzs37zAxOkF8J055ZTnnXjjLyXMn8mKMxQBFF2HL5rJc++g6C/OLXHr1hT1jrrC1ucUXn9zEF/Rx+sIJ9B2/rOSYHJ1moHOQutYaKhrLjV28rOSI7+zSd6+f6ZE5fCUe2s+14CvNV0k3KRLr805XKZXz89ZilQhG/agqzI8vsr2+QzBaom2E8n3lcNmRLBKzo/NIkkRJuHCPhSIhpkdn2Vrfoqq+Ks+PE7BYLYRKgwz3jZJKpqjMe1fNcu0Oh52KqgqG+ofo7x3E7XUTyku2m+8tYxnSuQgmL4u+yJi9LV/3o/dHwUOmGP8VFHwVZmdmef+9DwgE/bz1nTexWC0HgBSFTDbDp+9/ht1u47mXzmucpDyHSVFlLZz3yU0sVgtnLp5EFUDnORXGUma0f4zOO93Y7DZOvXgCp9fJF+/d4oW3zmN32vI8GIyHIAhYbRZu/vI2L75zgcXpJdLJNKXlB4AVQSBYGmB2bI71lXVqm2oMb4lud1UVxobGKa8qLyQlmLwqJaEQfV19qKpqEGvN46N7VfSmq0bX1FYzPDTC44ePNT5lXi9pr3floMX/WUDLs3hZnhWwfBOw8k3Wjm8AVp4IVH4rWT8H8VT0VlVVidfnZXhomPaO9uLPCfnMHCBWHqM0XEpvVy8dh9tRVTCLv/kDftqPtNHfPUD7kTZ8AR9qPjdeEUVEBdqPtLK8uEzX/R4AmjsatQVU56wA+Siw6dyh9UgLTreL7q96OH/5rPGaWcxtuGcURVHoONZukHPNTTdSaytr1JtEzva+T1VV0qk0DruDZ2l6Oqn8FG2MJzVVLWSFfJPP7G3mWHc8vovH49n3HnPb3NAyEfx5N6vecrkcaytrtB5qKTruzNQs4WgYi9VCVs6yurzG5voWHafb0LCQwmjfOKqqUtVWZZAq7U4ria0EJRUBXAEHWTmDLMtsrmwx3T1PNpvF5raS2knjr/QQrPJpWWGKjJyVyaVz5FIymUSO7YVdtlfiuEuclNQG8ATciFaByqMRlofXmR1aJLGdpKqjEmfQQc2RKiY7Z+j/aphD51uxu+y0nm6k784QXbd7OHnpODarlcNn23n4RSf3bzzC8ZqDcCRMTpAJlPi4+NoFbn7yJZ/84jOuvHWZYFAjV4uCiKiqmtCbKFJeGaW8MkoikWJ8eJzlhWWWF5cYGx4z+tZitWCz2bHZrFitVqw2Wx68aGm8spxDzmkgLpVMGcR1vYmiBoxOnT9JZXVlXvjM2Akgy3tJmNrf8d1drn14jYWFRc5cOE15VawIpGTSab78/A6KqnD64glUQTV29Jvr23Tf6yEYCdJwqB6dcCkrOZLJFI9vdJFKpmk8Vke4Stt46KGgg7J+gCINEiVvQypaYtjdNiZ6Zuj6ooeO8224vU5NvE2yUNkQI74RZ6RnjJKyEkpKtWw8m8NK67Fmeu/3MzU2TX1zHYoqICgKpdEwrYebGewZpqK6grr6GnLksIgWI6skGArw7d/5Njc/v8XVj64yNT7Fxcsv4HJpO36DoWLiB+h0Ej27q3Bh8hPlC/R2UBafmZ+i5sHcQP8gN67dwONx8+Y7b2K1Wg8EKaqq0PWwi63NLa68cVlLDd9DoO3r7GN7a5vnr5xHlMQ9WVlaWPfxl53MTc1TVlnGoTNtiBaRzbXN/KWrxvftvx7tucr6CuwOOxMDU5q38XAjAKIigqRdl2SRaDvRQuftHqbGZqhrqgUUBEVBEUQaWxsY7B6it7OPSFkYJC1tW9dVcXvdNLU20t/bz7GTRw2uCpi0cPK2WFELZMdYeYw//OPf5+OPPuX61evMTs/w+huv43Q6jXkIB/NR9A2+AV73cE709x+kx6KP595sob2pzUXCoQesB0/ipnxTzsqv234tjwo8PfxT5EN5QvhHFEQ2tzbp7x/g9JlTWjbIATtxQdCCx309vVTXVuPxetGPoiPP0kgpfd197O4ktNo/qAXHSj5+WV5dzs7WNoO9w6RSaaIVeY0Jk6tQHwDtPDVUvTi3xNTINOdeOmvyhGi/l+dX6Pqqh5rGGs3Vm8/00b0pukdkZ2uHge5BWg61UBoOFXlm9L9zWZnHDx5T11BHrCKW3x3wRI7K7m6C3u5eWttaKQmFjB7bFwLa4zb81b0qB3tTFEULC9y7+xWtbS3EYjGTe1c1DJOqqkxOTjI+OsHpc6fyNZi04y0tLjPQO0D70VZ8eVG3zc0tOvMhgWCpH0VV6XvUT3w7bpBotzY26X8wSEV9lFB5kJwiszi1yNz4IomtBHa3jXBtkJwsszixzEzvIlanhVh7KZHWEIuDK9jcVnwV7rwXQEUVVESriMUp4fTb8Za5ECwCu2tJtuZ2SG6lsDotWBwWvBE3oiSxPrvJzlocX8SLy+/E4XawPLnK7laCkmgAl9eFy+1gdnSBTDpLOFaKZBEpq4iwMLXI3OQCFTVRTVxQEHC6HEQro0yOTDI6OI7L7SJQ4i+6N8R86QdFVbBaLZTFItQ11dJxtIP2I21U11YTCofy6etu7A6btmDksqTTKWRFRhTAYrFgc9hwuV2EIiFqG2pobm3i0NF2Tpw5zsmzJ2hua6YsVobT5cyHEHQwYOY3aHV2VFSWF5f46N2PtVIQL52nobnOmA+69+XRvU5mp2Y5c/EUgdKgMWcymTS3r95FURROXTqOaNEUpWVFIZ1O8/iLLhK7SQ4910ooGixaHPX+MICTohhbcT0cIWhGyXDDu/1ufCUeVmfXWJpewVfqw+ly5L2rIiWRIEtTy2wsb1FZX26UxQiU+Flb2mBuYo6ahmosNqthFyLRCIuzi0yMTlJnqi0jmnb7Doed5rZmJItIf88AwwPDlISC+Hw+w66Z7zedb6R7Usw8I+VrHgdxkAqeFZnt7W0+ev9jHj/spDQc5ltvaxksTwIpiwtL3Pz8FvVNdbQfbcvbAVnzzqgyWxtb3L5+l8q6SloONeU9WarhPVUUlZ77fcyMz9J6vIW2480gateYTqb54hdfcvGt57A6CmKb5nNOJ9Pcev8uF948R6wmSjqZZmp4BpsplKr3syiI+AI+luaWWVlYpb6lVqtAL2i232KRyMkK40MTVDdU43A6DFqA7tUOlpTkuSqywVUpCv0IBe6LsQYKYLVaaWltxm63a/W4untRUYlEwkiiWDQPD/SUmP3938DLoq+z38y78uyeld9ACOg3E/qB/UDF/Fyho54e/gHo6e6hvKKcUCifDVOYY+ikWn/QT1dnN+lkiqaWpuLdvapNCFnO0d87SLQ8qknUm0NAgiZ9XVmrKSoO9Q6zurxGrEJfHDDO2zxBQTv2z//2Pd743mtYrRaj05fnVrhz/R6+gI/zL51FsjyZT7Iws8Ds1Bwnzx7H6XIeCFSSqTS9nb00NjdoIS4T4DgIrCQTSXq6emhqbiIUChXfOBzMUymMjT4iXz+JCgaieIzNMfLVlVW6uro5fOSwllq9B2zqLv2BvgGWl5d57oXzBsiRVZnxkXFmpmY4df6kMZZjQ2PMzcxz7NxRrDYLqVSKB7ceEauJEqkMIysyfQ8GSOwmaTvTgiqo7MYT9N8ZxB1w4Qm5meicpuFsDTP98yyNr+ENuyjvCCPaNT5FKp5mdXSDssMhjQCoyEVkUs2QqNi9VjwxF5JVIrGaYGs+js0tYXPZcAccOH0ONua2iK8lCMZ8uHxO7E47yxOrpNMZQtEg3oAHVVWZG53H7rThDfqw2qyURkPMjM6yNLdCZX0FFos2xxxOOxW1lawtrTHUN8L66jolkRIjBKnmh1DnNOiLNKiIkojH66Y0EqKiqpyq2kpqG+qob6qnqbWJlvYWmtuaaWxtpKG5gfqmemobaqmqqaQsVkYwFMTtcWOxSnmuVzGPxSDWqkqBy6LIqIpCX/cA1z+9gWTRsnvKyiN5cmWBYDkzNcuju4+pb62jsb3B8LTISo6ur3pZnl/h+AtH8fjdBkhRVJnuO71srW3Tfq6FQNhfID6bUl2NoLE5pXTPnNU2PwU75HDZCcVKWF9YZ2V2nWhtxLjnLBYJp9fF7OgcVruVQGlAUxsVBYKlQSaHp8lkMpRX65sLjTgbiYYZ6R/VlKYbahB0cn3eHmnnAdHyKDW1VUxPztD9uIfNjS1UVRO8NBfu1M+/iGu0Z1zMYMYMRJ7EQUokEzz46iGfffw5O9vbnHv+HC+89DwWm8WYT3tBSjqT5uNffIJFkrj8+ksawMgTaPXQzu3rd0klUzwGzG+YAAAgAElEQVT/8nlESZurOkFaRWVuaoH+RwM0tNfT0F5HwVqoJBNJbvziNhfePIfdad9nfwDSyQy33tfqejldTkLREuJbcaZHZimJlOB0Owo2E80r6HI5mRiewhfw4Qv6tQzR/GYyGAoy0j+CnJOprqvSbK4eugfsDjuZdIb+ngGqa6qKJBT2hoD2ghWA8opyautrWVtbo6uzi+7OHnYTu3i9XlxOpymu9euDlmcBLGabvxes7F0Tfktg5TcHVIo9KPnPFf1fAC2Fziw8r6Li9Xnp7OxkN75rkDAP8qpIFolsJkt3Vw/VNdVakUAKXBWAUDjExNgE4yMTNDY3aABELVDR8lspohVRPF43IwNjTI5OUhIK4vF6ir0r+qIPlJaF+OAnH1NVV2nEnMeHJrh/8xG+gI+Lr72Aw2l/gjdFe256fIbV5TVOP695jsQ91ZD1m6rrYRex8qhRsHAvYjdzVux2Ow/zGVENjQ3G8/oEehavSmGc9kxm0+7F3MypvFBwSXZ1dTE9PcPll1/SslVM42fwF1C5ce0GwZISWtqb84ZW46J0Puwik81w9MRhdBJm5/1uQKH1aAuKKjMzMcv0xAxtJ1qwO2wkdnfpvd9PeV2UYCyArOQY7RpjZ3uX5jP1uANOHrzfhTfiYW12g2CVj3BTEAU1LyCWQ3KIjN+Yw1VqZ2d5l8R2isxulmw6hyIrmotX1OcZ2L1W3GUuUlsZtubjOPx2LHYLdpcVh8fB+swmSk7BW+rG7XcjCLA8sYrL79SyScIBtjfiLEwsEa4MY3dYcTqd+IJeJgYn2VrfJloVNThLNpuV2qZabFYL40MTjAyMoqoQKg2aDFLeta/mFzTDwyAbi42ZN/LNHsq+h65BYoCWvHbDyvIKNz67xUDvILHKGJdfv4Tb5y7yqimKxku58ektXG4XZ188BYJgLGJbm9t03e2murmK6obKPAjSgMr60jqjvePUH6olUhXKg1zF8MSYQz66HkY2m2N1bp1MKoPdbSuyUbp3Rb9XrDYLLp+LpcllHG4HvqDX8Kp4fG42V7bYWN6iuqkSnXDpdDrIpLPMjM5Q3VCFzW43vCpOpwOL1cJI/yhen5eSUBDdU1sEVgCn20VLWwuKIjM2MsbwwAhdj3uYm50jmUhhs9mw2qxFKsP6Q78W/WfveJlfy8k5VldWGRsZp/txNzc/v8ns9Cw1tdW89uarVNZUYOjfoO4DKYqqcO/WV8xOz/Lia5c076fe/xS8KY/uPKb9WBtl5WHjnGRF87zJikLXvR4Q4PiFIwgImicuf/x0Ms2NX9zmhbfOYzN5VMzXkkqm+fKDewaYEUWR0vIQ8xOaxzJWHTW4KvqG0+v3MD02iyIrVNZVmrznIlarlfhWnNmpOdoOtyBJFm2chAJPsCxWxujQGLMzc7S2txSFTp4GVvS/vV4vbR1t1NTWEI/H6e/r5/HDTqYmJ0lnMng8WsbQrwNanhWwHORd2bsm/JbByn9ZjspBzaxwarVYOXbsGLe/vM3W5pYhT61rqui8ERE4deYkvd293PriFr/ze79jcFX0eKHdbufKt67w8x//nJuff8krb76skdwUk0KKZAE5R0NLA8FQkJtXb3H9o5uUV8WobaomWhnTaqoYCzFYrTZOPX+Cr2484PSFU3Q/6GWkb4Ty6nLOvXhWm1w8WeYetKJ6bq87D2AOfp/NZsPhcLC9tfPE45hjoBaLRF19LaPDI7zy6hX2HnXvxDDHFp8UZzyIh1L03Qc0VVUZGhymoqIcl8dlLBJ7lS831tdZX9vg+UNtxuf0kNDi/CLlVdqOVFEUMpksiwtLNLTW5b9bZXZK01MJlPrJyTnmJhdQFIVoTQRZzhHfjrM8u0q4KoRkl3CVOPFFPIzdm6TmZCWhOr9BxszJObLZLOndNBanxHzXCv5qD3JWNuTX9eYudeCv8SBZRSRJ0oxiq5+l3nVmexapPh7TQjsldgIVPpan1vCG3JREg0TqStleiTPaNYEv5MXlctN0rI6uG/103+7h/CtnEe0ioWgJh8920Ht/gNtX7/Dc5XNahoGozdymQ01U11fT+VU3j+93Mjo0Sk19DRVVMcqiZVrGzUEFKA/gJvy6zexJW1tZY2p8msmxSXa241gsFs5dPEN9cx0qBYlz0EBtIpnki09uIssyZ148hSCKBRCjKgx1jyCIAvVttcW7eUVmpGcMu9NGrK7MOI8icbD8fFJyMhsrW6zMrrG1vIUia8Y6XB2isrUcUdKEkwxdC0XnC4j4Ql6cXicLE4vEassMNVFVVYjVRRl8MMza8jrhaBhR0RRo61prmB6dZqR/jONnj6JzVRRBpLGtnpnJWR7ceUikrJRAiS7kmC+Ep/MUANEicur8KU6ePcnK0gozUzNMT87y5Y0v+fLGl0iSBbfHjcfrwe/34fF4cLociJKEJElYJMnw6mazWa3gZCZDJpMlnUqzvrbOyvIKuaym9upyu6iqreLoySOGtpM5zKSNWTFImZ2eZaB3kLbDrZSVl5k2LqoBWkcGRhFEgZqG6kK4z+Td2t7YZm1pjdbjzfkabMUcO10XxUjDfsY5abFYiNWUMTMyRzKRxO12G69JebARjoVYnl1GlnOIgoBkulcqayuYHJ1meWGF8uryYluJZp+fu3iOTz+4Sk9nDydOn3jCuaiI5HWMdHutDzJQXhGjvOItduO7DPQP0t83wOeffc61z64RjUVpam6kuaWZkpKSwjFNpnqviq2Zz7JXl+VJEv1mDRaz9srTeCv/pTgrvxGgYu7ErytQqL/36PFj3L1zl8ePO3nxpUtPfL/D4eDCxef5+MNPGBkcobGl0aC+qqIKCkQiYc5dOMut67fpetjNsVNHyZE7EKyUlJbwxne/xXDfMAM9g8xNz2N3WKmur6a2sYZAKEA2f5N3HGvn3/+rv+bWZ3dYnl+iuaOJo2eOGOXb9cHe603RWzy+q3ltvmZAvT4vO9s72uR7BqDa2NzE6PAoc3PzVFZWFBfDMkh4ShEJ61eZVGaDsdebsry8zPLyMpevvPTUY0yMTaCqKrX1NUXHW15aIZlMEq2MopP+5mcXkHMy5VUxNEGwDIuzS5TXxtDDSLPj8/hCXuweO9lchqmBWQRBIFofRlUUEtsJnD4HO2u7RFpKDA9AJpNhc36HzZltspksnqiTbFImfDQfSsjJyGkFOaOQieeILyZIbqbx1brwlro1gTVRINzqZ6lvg9muJapPxHC4HITq/CQ2kkz1zeHyu3C6RKoOVTB8d4yxrknaz7RgdVhpPtFA/90h+h8OcPjsIQRBpLxWK57Zfa+P21fvcv7yWY14JwJyDrvLzvmXzrI0t8RgzzD9PQP0dfVjsVg0EbCqGIGgH5fLhcPpwGa3aZ66X1N8Sc7J7O4m2I3vkthNsLsTZ3dnl/mZBXbjuwiiSLQ8QvvRNsprKnA47EWeN51Amc3muPXZl8S34zz/yjk8Pk34SyfAbm1sMzs5R11rDTa7zVAbVVSF1YU1tta3aT7egCBiqLia1VRzco7ZoXlWZlbJpLJINolQZQkl5UE2FrdYHF9idyNB/Yka7C47hRUEUyE5gUh1iKm+WbbWdwiG/AiCgihIRCpKGe0aY3ZsntKygmijy+OivKacyeFJ2o604HS5NGGx/L125sIprr5/nY9/8RmvvPUyJSF9ASoGKzpxVhBFIrEI0fIop8+fZjceZ25mnu2tbXbju8R3dpmemiaxmyhapJ7UNG+RjUDQT2tHK5FohHBZqeaV1hcpE+jTKxXvJUgnUyluXr2Fz+/l2OmjRZ4r/f3ZbJbx4Ukqaiq0jJ09YBJgYngKUZIor4uZQEmxiNxB7SAlV/34OiiorC9neniWuYl5GjsaDFKtfl2RWJiZsTk217YIl5UaxxBVgWhlFMkiMjUxRXl1eR7ECkU2tbquhtr6Wu7ffUB9Yz2BYGA/sTZfQ8kMVgyROP2NaIV5T505yakzJ9lY32R0ZJSR4RFufHGTm1/cIlIWoeNwB+3t7UZdJ108Dr4esDxNov+/FFj5VcTgfqselb3ZP2YQEwwEaGxqpKe7mwsvPG/EZQ/yqnQc7qDzcSe3b96mtqEWi8WiTRBBMQoNdhzpYHlxmUdfdeJ0uWhqa8gfqwBWVEFEFEC0CXQc66D1cAvzM/OMDU8wNjTBSP8oglC4aWVZJpfL0f1VN29873WaO5oK12YCKU9q8e04VXndEFGQ9r2uKCqiqODxeQzWuzGxKGaWm1tdfQ2CJDI8NERlZYXxuScVwzK/vtcgiHsm5EFtL0hRVZW7t+9is1lp62gz8QKK3f2KqjA+PklJaUk+nbXw/OzUHADlFVHD+M1OzWKzWQmGS1DUHAuzi+RyOaJVEVRFZWN1g/h2nObjmqrxztYuK3NrlNWXItkkMtkMswMLBKI+lkZXSe2ksHqspBIpZjsXSaey2H1WAo1u/LVu+n40STqRweIQQRKQXBKSS8IWsGIvsbI9kWBjZIfUWoaSOj9WhwXJLhFuDbDcv8lc9xI1J8oR7QKx9jDTD+eZ6Zun8WQtdreVWGOEhZEVlmdXiVZHCIR9VLdUMj00SzAcpLpRK34Zq40iihLdd3u5ffUuz718rgisKIJIuDxMWUUZck5mZWGFpYVlFmYWmZ2eM8ZJyLut7Q4bVptNS7sVCiRw8hwNzWWsc1DyAEDWCsPpD30xMTe7w05pWSmHTh7Kp1AXiNF6wThz3R1VVbl38z7LC8ucuXiKUFmpsQPX50nvw34sFona1mqKFziV0d4JnG4HZdURVJR981NRVWaHFlgYXcIf8VLVEcRb6jHmvDvgwh1wMtU9w8CXI9QeqaIkur+COUBpZYjpgTkWJ5cIhvzG8SVRpKwqwuLUMtl0FslpQVAFRFWhoa2Oucl5xocm6TjejqJqWSWiJOL1e3j5zZe49sF1Pv3FVV799hVTiYw9YAUMwKLXa3K6XTS2Nu5bCGRZRs5pNZC0rC0te0tRVS3Dy2bDbrNhMfHqips2LoppfM39agCX/Pjcu3GXRCLJt955XSsOaujdFDyn48MTZDMZGtrqjX4zHzedzjA7MUd5TRSb3Xbg3HpS09eQouf29Inb56YkEmR2fJ6G9npjs6eqCggi4VgYBFiaXyacn4P6mmCxWCivKmdmcpazF2RES7E91L0v5y+d46f/6e+5ee0Wb33nTe31vVXNtRMuKjZZOJj+euGpYEmA02dPcfrsKba3txkdHmOgX/O0fHHtC+rr6+g43EFDQ4OR7XlQIUozYHlaTSFRKK7W/A8BVp61fVOw8g8CVA5a8MztWb0qJ0+dZHhomMGBQQ4dPvSU4wlceulFfvzDH9P54DFnnjubLzSYLxolikiqxKUrl0in0tz+4g5Wm4XahppisJIP7+hACMlCZU0l5dXlpFNppsamSSaS2OxWbHYbdoed2QlNCVQHKeYQztOK/GUyWVLJlEbwJY9g88Zp74B7vB6mJ6aRZdkAbHrTUbp+yohauKumtobhoRFeuPSCpoIo7kfaT3MLFo7/bGEfM0hZXV1lYGCQ02dP4XQ6i3ZY5s+mkknmZuc4euKIEe7RF6PpqWlC4RKcLie5fOHA+el5YpVRAyzOTy1oYZ88gXJmbA5JEimtCKGqCjNDc4gWgbLaMIqqsrG0xc76LlVHYswPLTHfv0zliTIW+lbJ5RTK2oNYvBKyLCO6BGweC5tjcUravcbiqY+p5BAJtLhJLmdIzKdY3FmjpMGHO+TE4tLAysrAJnM9S1Qdr8DmshBuCLEyts7y1BrRugiR2jDby3HGuicIlPqRPBJVzeXsrO0w8GiIQMhPoMSPLMuUVYc5Jh2m88sevvz0Ds9dOYfL5UIRVERBQVVFFEHU5NSropRXxzh+9ii7O7vs7iZJJ9OkUqn87zS5bA41r3GikUxNbH+duG7iQ1ksEqIkYbVaECVJI5O6nLg8LlxuFy63s7CZUAreDG1OmHe9hUWq6343k6OTHDrZQXlteYHbkn//wswSy3PLtJ5owWazmQCxytLMMvGtOG2nmooJ8qa2tbLNwtgSkepSqg9VFIUk9BaI+HA+18RE1zRjjyZJNUWpbC7UyTIXboxUhVmdWyd3JJfnK2itvC7G/PgiC9OL1LXUGc/7gj7KKiKMDYzRfKgRu81uum9EfAEvl998kWsf3uCTX3zKlTdeJhQJGfehmF8oZJQiyXVM97Fs6ltBEPNCdlYsFHgcBzVZefJ9bW7FY1fMRZsYmWBkaIwjJw8TipTsAzSKqpDL5RjuG6EkXEJpJHSg3Z8dnyOXy1HbVP3E83jaIljY8O5/j/5crCZK3/1BdjbjBPPp5Pq9bHfYCJT4WZ5fhuPFkhiKolBVW8ns5CwrS6vEKmIaQDX3jyDi8bg5de4Ed27cZXhwhJa25qJ+E/Pfp8vsAwZgEczrpbl7TJfj8Xo4ceo4J04dZ2V5hf6+QQYHBhkZGcXjdnP85HGOHD1ihLbM9t7cF0+z+weFgr4JWDmo/aZCQE8FKuaT/KaFhr4OvBzkVamtrSUciXD71m1a21qf6lWpqq6kta2Vh/cfU9tQR2m41BhnJR97tlqsvPLGK7z/8w+48dlN7HY7scroPs/KQcd3Op0GGCksygqXXrvIv/7f/y3KHhBhHsCDkKLuZThoU6NPbO2MJErDIWRZU3ysq6/dj9T31JdAhCNHD/Huz97j4w8/4c233gBFeSJY0a9pb22JwtgUvC77zrVId0ElnU7z879/F5vNysnTp/ZxU3SvCcDQ4DCKrFDXUFt0rMRuguXFZQ6d6EDnGKyvrpNMpiirLEPXd1icXyJSrmVi5OQcK/OrhMpDiJJIKpVmbWGdSHUpklUkm8uyOrOG1WHBH/USa4uwMLCCJ+YiHc8QavVj81kM/oSKSqDBzeZYnECr2/AIFI2kAK6oHUfQxvZ4gvWxbew+G4JNwO61EmoMsD6yxc7SDsFyP4EKL4n1JItjy4SrSrDYLFQfrmDw9hizI3M0Hq1HlERaTzfz8PMueu71cf7VM1roUBEpq4xw/MIRHt/q5up712lsb6CxtR6rzboPsOjzzu52YHc7fuMaByoq2Vz2ia+b544sy/R3DjDQNUhtUw2NHQ1FIEWfJ0M9w7i8LsOzVBQanFvB4bRrmV5PsCsby1uIokBVe0XR81M9M3R+1se3/pvL2Jw27C4bLecaGb47xurMehFQMbdQLMjS9ArxrV3sjoKukS/oxe1zs7q4XgRUFFWhvrWWu1fvszCzSHV9dVFdGVVV8Pq9XHnrJT5//ws+fPdjzl88S31TnbEz1rVdkOUi0LK3P8wA5lnbk9z1BzXz87lslq4H3XQ96qGkNMjhE4eKQj5mILi+usHO1g6nL54qOo7ZbmysbuJ0OfCFfAfbnwOq0vfc6efux/f54//59wzirLntXUB9QW1DmIgnDKBibsFwkPnJhQOvXQs1w9L8EmXlZZrtVBSQTOOgiLQfbmd0aIyb124SK4/i8/sKdYDUghqX2bsCBcACxTjFXOE8/0ZASxC59NILvHDpeSYnJul81MXNG7e4c/se7R1tnDx1gnA4XDjOnmHWOVZ7w0G/Clgxt99mCOgfzJp93YkJJmP6pM8LgsDLVy6ztbXF/a/uf+13vnj5Eg6ng88++gxZljFXRdY5Ijabjde+/SqBYJCrH37O2sq6EQPWixcW/i9k7BjFBoVCLR9BEDn53AmymSz9nYPG+w4CKXv7w+6w4/P7WF5afeo1KYpKbUMNbo+bh189NFx4X9fqG+p57oXn6O/r5/q160ABHIE51lzIEngS+NTdvMXnpRR5UdQ8N+C9d99jfW2dt7/zNq58bZ59n1O1rIyuzm5KIyEiZRHDm6KoCpPjU6iqSk2et6IqCvOzi6iqqrlpga31TTLpDMFwAEVV2N7cIZMq/L+1to0iy/hKtZBSNptlZy2ON+wGAWLtpaxPb7E6voHda8UZsBWFnlRVwVfvZmcuSS5VXD3Y/FBVBdEu4Kl2ImcV4ksJ41qcIRsWp8TG/LYG1FAJVvnJZnKsL26iqAp2t51QLMDS1DLpZBpFVbDYLTQdq2drY5vxgSmjWq8sy0Qqwpx9+RQur5OeB7188JOP6X3YRyK+a1QJ1qsbZ3NaNWZZ1v7+TTyeVnHZ/JDlHMlEgv6uAd7/yYf0Pu6jsr6So+eOAOo+kLK6tM7Gyga1LdWIUgFA6/2eTqRxuB1P5WHYHXkF0/xuO7md4trf3eaTf/cFm0tb/OhfvMvgnRF0XaV0Io0v7DU+v5fHo7v9DwpNuH0uEjuJ/HwtcCpCZSXYnXamRqeL7jszePf4PLz2zhUCJX5uXv2Szz++zsTwOOmMNh90Xk4ur/BqDsFpYTjFGOeve5jnbk7J7XscNMdlOe99UxQ2Vtf55c8+oPNhN3VNtVx562UEUXjihmRhdgFBEIhVRg/0puj9cRBnam9Ve4DtjR3+8//1Lj/+85+xNLPMv/wf/zWPvugqClUd1LJpbaPhcBwsnGmRpCeKZNrsNrx+D+trG/vO3WzfBAFefOVFZFnm6sefk0gkiuxaweYWwJrBqzK0bfam/JseSuGRk3MgQG19Ld/93e/wh//4D2hpa6avt5//8Jd/xY9/9BMWFjTg9awVm/feY0Xnalp39ooC7u2T30Z7anoyYLz4LAvm3jTl/anLxZoqeoqUnjalohIMBllaWqK7u4dDhw4VJtoBuipWm5WSUAmPH3Yi53LU1NUUfY9u1CwWC9V1lYwNjzM8OEJNnSboUzimsO879BRCI0VLyBPSrFbGh8ZZWVzh1PMnjTMyS+qbv9ucIryxtsni3CIdxzoMYIaq7tNHkSQRSbIw2DtIrDyGz19QcN2bAmd+obKyglQyzaOHj7BYrRpfJU/I3ZuebPS/KcVxr/hPQVJ7v3Cfoipcu3ad3p4+Lr9ymZaW5iJXu1ngTUVlZmaWh1894uz5M5q72xDmkvnqzgMUReb46aN5kmyOrofdiJJAy+FmZCXH9MQMCzOLtJ5oRpJEFqbnWZpfof5QLZJVZG5iga21barbK1AFlbXFDdbnNwk3lCDaRCSHyEznIoqsUHaoBKtTymt26Cm4KpJTYH0gjuQSsJcUa1eYE+UFQLKJ5HZlUhsZ3BEnolRIYYwvJXGXOLE5rdicVuIrCZLbGUKVfiRBwuVxsjS1iiCKBCMBBLQieMntFPOTC4RjYexOW35+gMvjpKq+grKKCKlkismRKcYGJ9jd2SW5mySdTiMrMoIk5NMZKTKGex+yopDLZclmtUdOzpHLFUCG7mEqAmjGMYuNKew3tuur6/Q96uf+rYfMzyziC/roONFG65HmAsg1G2ZFpfdhP6lkisNnO4y5quttKKrKeP8EHr+bkliJ9pwp7VqfY5lUhrWFDQIRP323Bvnk319HFEVe+69e5Ow7J7HarDx4v5PxzinsLjvJnRSxpjJcnuK6XIKg1d/KprIsz2h8IpfXZaSpiqJIfDPB6uIa9e11mnCYiTyvKgqTI9OUlUdwe9yme7awgbHarNQ0aqGP+ZkFxobH6e8eZH11HVVVcbmdiJK0f9Hj64Xd9Ac8W7mEfY/8WPd19XPtky+QczLPv3SeQycOGeUFzCDFuD9UlZ6HPVhtVhrbG4y7xjxGqqqwMLNEIp6gtqVGu6dU8/1V+CuXk3n3L9/H7rDzh//sB7z+B68gSiKf/r+f0/9giKrGCl79/mVNJdqkBi4IAtvrOyzPrdLQXofdYStKMRZFkdWlddaW12k/2mrajBbGd2VhlY21DdqOaNmJRfPDZPMdDjten5e+7n5GBkcojZTi83mL1j49Bd4s9WDYVVOacEFEw/Q+049hjwQtW6u+sZ4jRw9jt9sYGx3n8aPH5HIysYrYPiG5wnnssf+mNcGso1K8Nu/NHv36tOVnTVnes+78+unJB5GY9r3na8I9X3cs/fMvX3mZ8bFxrl//gm+//VbhtQNCNPUN9Rw7cYzOR51UVFdQU1tTCF1QINd6vF7eeOdbvPeff8FH733Ca2+9gr/E/8QwkOa+Egw5fcONpyqcf+kc/+5f/gf+9J/91wap6WlNd6VFomHGhsfZ3NgkWBIExHwIzBTayZ9Ec1sjj+4/5sFXD6moqiiUgjfOZQ/pVdH69dLliyQSCb649gVut5tDhzq03c9ed6CJcAXFGQN7x2YvSFVUrfT7V/e+4viJ4xw7duRAkGLeNfd09mK322hoaSgCO8lkirmZOVoPt+QNpIKck1leWKG+pdbYgawtr+Nw2XG5neTkHBsrm9gcNhwuLTNka3Ubd8CNKAnkZJXtlR0ki4jT70RWcgiCgCfiYnctibNEK2Kon4OeOZJaT2MPWtjo38UakJAcIpJdRLQWwKY+BpIg4o7Z2RjaJb6cIFCheXI8YRdbU3E25rZxB1wIkkhJlZ+loTXi67sEwlbsHhuBMj8LE4tUNsQQXU5ERBqO1NL5RS8Prj/i5KVjlJQGQbSADEjgK/Fy4sIxdrd3GR+YYGpsmomRqSLjY3dqtWnyZBTMiqSKrJFki3ZIB5E90OaSZJGwWCxI+ZRXSTI9Z5GQRA3sZdNZstkcmXSGbDpLLpdDskhU1VVS21yjqelCXkNjD0FTUYnvxJmfXqCutSZP0DSnM+fHJpEm4rQXnZ8i6zFz7b02h5WNxU1+9n++D6rKpd87T/2JGmPsDl9qpelUHfc/6OLa33xJMOqn5UzDvl28YFrwBATDo2Lmo7l9LlRFJbmbwua3Fa5LEGloq2dieJq+R/2EXn/BSC+HQiaIomjHP3LqEEdPHWZlcYXpvEbQ1PiUNpYOOy63G5fLqfGD3E6sVqvW96ZxsFgsWCwSUn6sLBYJi82GzWpFlMSnLhj6tcuyTHw7zub6JpsbW8zOzLGyuEJVbSXnLp7F4bDvye4pJt8qilYOYWVpjeZDjU/8Pr2p6sHrhaqqdN3u5f3/+DEAP/jvvkv76VUPqSQAACAASURBVBbjGl548zzHLxzh0x9f4y//l7/hyHOHeP0PXiEYCuTnhQY20qlMvg912QjReB20zStq3lsm6n1R6KdgKMjM5AyZTBaH3Y6Zp2Jct6IiigKNLY34A36ufXKdX/z0Fxw9eZSzz51BkqRCGQRznxcdY++Lplf3lEVQ9v0BDpeD0+dOc/TYUa5/fp27d+4yPDzC62+8RmVFBapSzHfSf+se8W8SBjK33zZf5Tee9fOkVOWnZgAFg5w9d5ZbN29x/PgxKqsqnwqALlx8nrnZOT776Co/+IPvaynA+dfk/IKkSSAHeeOdb/Hhux/xy7//kJdff4loRdnXgxXTTSkKIqefP8m/+l//goHuQQ4d73imflBUVUtnVFWWF1cIlgTz17RfS0GjoUgcOX5IE1aamaWyqrIIFOkkrSJGeR6svPbGqySTST764COcTgd19XWIypMJV/D1HjPz58bGxvjkk0+orq7ipcuXjMVeO85+kLITjzM6Msrho4eQLJKxEKmqwvTkNIqiUF2rjbGqKCwtrmhhj1jY4KesLq5SEi4x0pLXVjYIlGrVouWczM7GDmW1pca1bK/s4A15EEUBWYH0bgZ3yEnsaCmCKGiLf/76VUEhsZFhezyJzWdhY2CX+ERK81AAgkXAW+vAHrAW9ZnVa8HmtRBfSOKPebQFySLiibiIrySQszKSZMFf5mV9couliVUC4QCKqlLVHKPvy2HGe6ZoO6PVNrI77Ry/dJjuW/08uPaY4y8cIRLLF+qUQREVLKIFl9fJ4bOH6DjdTjadJZVIkYgnSe4mSMSTKIpiIskKBjFKExnMp86LIqIomPZqaKtHfm7JOS30pMiKUQNIkTWyZCaT0TJLFE23wmqzYnNY8fhd2Gw23F43lXUVWiFFMPg+e+eSnoY6MTSJIEB1U+WBYZZUQqs75HQ78/djYewUVdZ2yDNrXP3hTeZGF2g718QLv3tOU9TdM3ddHicXvncam93CdN8cP/qz9zjxyhFOvHIYu8NSCAebUroFUTAtdGL+OJqHJbmTxJ/3eBrhbYtI69Fmuu/1sjCzSGVNudGvmokx3bf5e7Y0WkokFuHEuWMsL66wurRKMpEmmUiQ2E2ytrZOKpF65lCwdj66kJkFS/5hjL0gGh6ebDbL9tY2ikk7yOv3cu7iGRpbNBFJcx8edK8DLC+uoCoKZeVlTzwnURARpQIbWtuAKoiKyOzEPD/7d+8xOzbL5e9e5OJbzyNZLftsljfg5bt/8jbnXj3NL//6I/6P//7PeemdF3jx7QtYHHYEQSSbzmKRJKx2a2HsDABa8KBo98r+xbQkrKWPryyuUFWjcabMPBWjL/KZmuGyML/ze9/lzq27dD7oZHZ6lle+dYVgSXBf/xW1PYu5LO85HxNw0eeMbAYJ+cPaHDZefeNVWtpauPrJVX74tz/k5KkTPHfhOaNu3F7Ziq8DK8Y15sHKr8JX+Ydq/+BA5Vm9Kl/3+XPPnaO7u5urn13lj/7xHxXSag/wqtjtdt56+03+7j/+Jz798FO+8/3vaAOpKoarTx/QcCTMO99/mw/e/YiPf/EJb33vTQONm5smEmeKqZqAlMfj4fiZo9y5dveJQKUwGQqf9/q92J0OhvuGqW2swW6zPxWstLa30tvVx/WrX/DO9/4RPp/vQGKt9n+BXCtKIt9+5y1+/MOf8NOf/IxTp09y8vRJ/D6/cW3fdIwUVWFudo57d+4xNjpGaWmIN99+I69gqe7ZJZv5ByqP7j9GlmXaD7cVx3AVlbGRCRxOB+GyMNl8zHxhbgFBgFBepyIR3yWRSFIXrgUgnUyTTqSpaixHUVW21rZRFRVfSOMbJHdSZNNZIqWlxvnvLO9isUuUVHv3+RBUVWVnMonVbaHkiJvt8SRWvwVXuQ05pZBaybI7kzaAit4EQcBT7mRjOE5qM4MvrC3MvpiH+FKSnZVdQlV2REkkWOlndWKddCKDy2vB5rZR3hhlfmSRivVySkoDCIKCw2XnxItH6LrVx8Mvujh8to2K2nIQLYiKSI48yTdvFGwODST48ym030Ss75m8n3uMj/n/Im5WEU9LA0Z7AQqwLw02k8kwPTpDWVUZTrfzQKCSye+ObabdsQ7P07spbvz8Lp3Xe2g+0cDJV47i9DhIbqdw+p1YbZa8vdDa7laCuZFFrFYrL//xRXY3E9z66T0G7gxz4btnaT3dlA/FiihZOe9VKSxw+m+XV9O0SO4WF2/UW01DNeMDE/Q+6CNSHta8G+j3LOjeVI1UnO+PvAc4EgsTiYX3HVPV+So5TSZB+y0XUpRzhddy2Vz+PQq5bJZcNkc2mzPCudrxtMXXaXcRrYoSDAbwB334Aj5N0ZtCSMe8WTPf6+bnVhZWkCSJ0kgIczN7vQAkUSKXlclmclhtFnY2d3jvP37A3c/uc+LiMf7wf/gB/hJv4fgH5eAClXUV/Ok//6f0fdXPL//mY+5//oi3//EbHDl7iI3lDVxel1HPRwMnggms6DnL2q+9QDQcLUUUJZYXlg2gYr5mY0Np8kBIVomLl1+gqqaKG1dv8KO//QmVVRVU11VTXVNFIBgwxvmpzbTom4GLYjq/fSnP+T9q6mr4o3/yR9y68SUP7j9kcnKa7/3ud/H5fIZn/VnBykFeEzNYeZaU5X8oAPPMHBUocBq+rj2Nq1KQ8S0c7yCuikWy4HK5efTgIV6fl2g0WojVFcXLNMe3w+nA4/HQ+agTi9VKrDxaxOEwuz+tNit1DXWMDI4wNz1HU1uz5iLNH0+/BnM80nx+ANlMhg9++jHf/sGbT3StFsfptHik1+dhsHeI9ZV1qhuqkUSpcP2Fr9ek8iWRSFmEgd5BJiemaGhqMAyI6a3Fn883i8VCY1MDuVyOrs5uHj14xMbGBoFAALfLZfSh+jU/iqowNTnFxx9+wq0bt0glU5w5d5pXXn8Fh8PxtSBldWWVzz7+lObWZlo7WtDr+qiqwtbWNre/uE1LRzPRvH6KrMg8uvcIl9tFQ2s9spJjaX6ZmYlZGjrqsTmtbKxtMjs+R2VTOXaXjc3VLVbmVylviiJaROLbu6zOrlFS6cfisKAoCjurcZI7aYI1XuOcDa4EKruLKSweCWfITnw+wc5YitBRDzavhdyOgiqDM2IrilVLooiAQGI5jTPowOHRshEsNomt2Th2tx1vyI0kau75zXktHOT2uxEFEU/AzerMOulEmkhVqUHktlgtlFWH2V7fYWpoBgQIlPq1madqM16PVRc4DAfL3cuybBDy9Mq1T/r/oIduyBRF0UJJ+vMUChHqpRYKPJUnc2SKflSFmdEZFmYXOXL2EA6XfR9fAQFEi8T08AwWq4VQtARVVcnlcjz8vJOf/sUvyaayfPtPXuP0a8dx+11srW2zNLnMwvgya3Mb7GzESSczLI4vMz0wTy6To7wpSnldlFAsyJGL7aCq3PzpPSZ7p4lUh/EHvYx1TaAqKs1HGzXFV0lb9CRRIrmbZG58gaqGCnxBXxEHQuOZSfgDPkYHxsllcsSqokUcGDV/x6rk4/+6xVALXB8wE9flvK3U7ILFasFmt+Jw2nG6HLg9Lrw+D76Al0CJn5JwkNKyEJFYKbHKGOXV5VTVVVJdX0VtYw01DdXUNlZT21RDTUMVsYoogRI/DpdDI8vu4a0UeBPFmiiFMKLK2MgkmUyGlsPNxmf0kTRwgapgc9iYHJ4msZuk70E//8+f/RWKovBP/qc/4uKbz+HUhc10mytQ1HfaupEP84gCseoo5185g5yTee+vP6Dzyx5ESeLUxRP4gz6DpKttWrUxHOoZRpIkWg83GwUm9U2tNn4WxofGsTns1NRX7/v+vediXhsCQT/NrU0oqsLS4hIjgyP0dPYyNDjCxsYGuZyMJEnYbDZjjDH1lplT8iR+C0U2v/B+3fbX1ddSHovR09XL0OAQdQ21uJyur+csou557el8lb1r30Fr4bNwVfLv+/U5Kr/NpqO6Q4c66Hz8mBtf3KC5pbmoNLY5o0VvrW0tjI6Mcu/Le9TUVlMSKilKWdabIIi4PS4uXbnEh+99xKO7jzhz4fT+EJBpx7A3RHXu4ln+4s/+DSP9o7QcMuXQm/LV9WOYUXdlbSVnXzjD3Rv3uH3tDhdefl4LGejxwD2elXA0zCtvXOHjX37C+z9/n7e/+20cTsdTxYV0z4rL7eKlKy9y6sxJHj/opKe7l/7eAerq62htb9V2UD6/RvgzEWjX1zeYn5tnaXGR+bl5VlZW8XjcXHzpIkeOHs5rXBRY62ajZQYpmUyGzz/5HIvFwtkLZ4tJlIrKYN8gqqrS3NZkhH1SqTQbq5u0HW0x+Clb61uAitevaQYk4kkAHG7NpZnNZFFVFdEqGceBvOfI+PvpINvilJCTCrmUTHIli5JWGfvhMoE2N6JNwOp5OhfJfC8KgoBkEZGzOidDxe6xgyCQ2E5qOxtBwGqxEa2LMDe0wPZmnEDQhyBoCpmSReLYC4cZfDjCaM84a4vrlJaFCJQG8If82OxWRPXgnYqqqqRSac3zlEyTTCTJpDLkslrYJpfNkc1oD/18BUFAEPMaKlYJu8OO3WnD7rTjcNpxuOxaSDXv+hYUzfjLyMZvwZRWutfdvrfpBMvx4Ul8JT78IZ+RPbPX02OxWiir0ipM17ZVMTU4zYd/+xmJnSSXv3+RQ8+3aoZbVYhUlhII+9jeiLO7GSe+lWB3c5eNxS0sVomqlgqidWEtDJIfNMlm5fTrJzj0XDu3fn6Pv/0XP6blVCP+kI/20y15Sfpir0oyrnlSPD4PBzVVVQjHwjS2NzDaP65p3VRG99yv5k8c0E/q/qyUX8VbLQrF836v100QTPy3byDCZZZtAM3T6XA4nsplFASRktIgoiTwd3/+I0RR4Ad/+l1OvXhCI37m50DBa/aE1FRRMXlHRGwOO699/wq1zTW8+1fvc+fTe4iiwNt/9Ca+gK/ImyLnZFaX1mlqayjyCOz1HjhcDlKJ5NP7QD/XPF9F9zI43U7OXTjLcy+cZ2tzi9npOaYnpxnsG6Svqw8Am91OaThEabiUSFmYWEUMr0/zCsuqXLDJpjXEWM9MNl97vpgCAFBdV833fvBd/v4//5wf/t2P+N7vfpdIWcSkwPzNPCsH8VV+W16VbwxUflVS7Tflqoj5m+fKq1f4q7/8K768+SVXXr1SONYBISAkePmVy8zPzvPZR1f53d//nhEC0r9LH0QFqKmr4tDRDnq7+qioLidWFdt/zia+irl5/V6OnDrE7Wt3DaBSJO9scpEZ7sL8tdW31JNMJOl60I3T5eDUc6dMfbQfrEQrolz51st8+sFV3n/3A956503sDnsRWDGLCxVprKBJ8r/48iXOnj9Dd1cvnY8eMz4+bpAwJYuEz+fD4XCwurJKLqctYFablbJoGS+/cpmOwx1YLJYigKJfmzndTQcpsizz2UefMT+/wKtvXsHpdJhSlTUNjsG+Icqry3F73Uaq5OJcvnZPRZnxHZsbWzjdLixWC9lclmQ8gYoW9pBVmUw6A4ImUpZTFCO8YNZj0DNongRWLE6J3cUMUx+uYPdbqXy9hN3ZNOvdcVKrWVxRG3a/BVfk4HTHvbsGySohZ01AVxRweuwkthLGc6qiEKkpZXF8mdnhOXxnPHnZ9TyHQRRpOdmIx+9icXqZkb5xw2vm9rnwBX2aZySru/tlstksmVTGEHQzvgtVI8VaJSxWiybkZtF4CrqRUmXtM8mEzOrSGtmMppOizxNRknB7XfgCXtx+N76gtnvXsiq0e8sA5YJWYuBJnChFVViZXyW+FefYc0f2hXzMi6koiNS0VDHaN85f/9kPmRub58xrp7jw9jnsTmthXqHdXza7jZJIgEC4kC2XTWcQJBFJ2r8w6efkDXp445++wsnLR3nv//6IkcfjGt+mvhyrw8R1EAUSO9o4uj2uomOYm6IqdJxoY2lumUdfPqb0nZe1kgb666auMYj/7Cez721PC+8d1JQ952YGI5oei87jE4waV19HlNx7HoqqaSo53c6nnuPC9CL/6d/8iMGuYZo6Gmg72cbpF09qxFNVMfgqhePuDz/o68Pe8Ytv7TI9OstL/+gFysoj/PQv3+Of/8n/xlu//y1efvsSdrumL7SwoGX/lZvs/V7hTlEQcLmcxOMJDmqKahJ1OwCsYHrN6/fSdriVtsOt5HI5tta3WF1ZZWV5lbXVNfp6+uh6nENAwBfwU14Ro6KqgsqqCtyefK0iCjZWzK9poiAWQkN7KQDah4hEI/zg97/PT3/8M370wx/znd95h8qqygPBCrAPrDypPS0E9Jto/78oSvi0FovGOHbiOI8fPuLo8aOEw+Gn7ipcLheXX3mJX777S+7ffcCZ86f3ZQGZSWNnzp9mbmaOW9du84++/21sDpvhVXna9+jZPz/9m7/nj//bPyhaqAwEutfgmMBH29FWEokkfV39OJxOOo62oRgpdvs5KxXVFbx45SLXPr3Oh7/8iNe//Ro2qw1VVLXSAXn3ps5b2TthETWy5tnzpzl5+jhbm1vsbMfZ2t5me2uL7a1tUqkUHUcOUV4eJfL/cffeUXKc55nvr6o6x+np7unJOWOQM0CAAYwiaSqZkizbsmVJa8v2Wnfj2T323rvn3L1Ox/bxrq110Mpry4o0oyhmAmAASCLnCZicZ3py5+7qqvtHdVWH6QEpS9fevR8POB2qK3zhfZ/veVMoRIWvoui59KiNUtq3EKDon7/37nsMDd7m0F0HaW1vzYe95nbM46PjxONxjvQeNFgQRVWZnZrDbDHh9XvJKlr9l7WVNby+fHKoeCyBzaGZWbLZLHJGxmSWtB29gjG+oiTlnGmzecdStLIJqiAa/aYIImabxNpwDEGAlidCiFaBijYT7gY782fXkKNZxp9fwlFtpWpXBRUtTrQcOnmhWZibx2Qxocq6wNL60OG1s74QLQIQJrOJ6uYQsyPzxCMJXB4nel0ZXRjUd9TR2NlANqsQXY2xtrTO+soGq0trefBhkrBbLThNjlwWZTMWuxWzzYTNbkUym5AkcZNyuVPLylnktKxlt42niEcSxNbjLC0uMzM+azybw+XAF/Di9XvxBSq0HawkGoxPocBTRM0cNTs+x/CNUaw2K6G6qqJ5pZ03f6/JeJJ3f/Q+516/SKDGz1d/70sEairRw6XFnMOAKICiahseSRIRC+aptUw+jcL8SNp9amPn9rroO9yDJIlcePMyV96+zsd+4UF693Ub6yweTWrZeS2mOwp0QRDYf2wPp19+lwtnL3Pgrr05Nmez/CsthGn0WZEviLYJSKdlY+4Lgkb3m8wmrZyIVHo/xdEjqpp/7kImxUg2B5siTu7U9HmUSqSMCK+izaggEIkmeeZvn+ON506y6/AO/u+//k9klSzvvXGOkZtjdO3szAO4nFORmGPtNsnhMr5Rsixz+cxVLFYL+47txe6w8+//+F9x/vRFnvnm87zz8hl+7tc+w+5DO5mfXsRqNWtFJQvCmgtfA9gcdsKLy2Wet1x0TB6saOcSyuo3k8mEv8qPv8pP1zbNiV5RFFaWV5mbmWNueo6R4VH6b/YDUF1TTe/2XlrbW7HmnNNLfVzKseracdr/Kior+Mznn+SZp57lqe8/zc98/HE6Oto3+6ywOULso7Aq/xTtHwVUfpqhyoXnK8uqqArHjt9F/61+3nj9TT77uc/kz1+OVRGho7OD3m29XDx/kdZ2LWttYRZHgwJUFUxmE/c8cDfPP/UCZ06f5d6H7/nI/XDgrv38xR/8FWND47R0NhV9VzbZUQmXuefQLpKJBBfeu0hWydK3sxeMbLebwUpzezPH5Lt4++Q7vPLDVznx8AmcDsem0GXDyTYnbBQwsh4qaLVHfH6fUS1165bflZcDJ4XPaRSHU7JcuniZ8+cu0NPXzfZdfUUgRc5mUZQsN67exOV2EqqvLnCuzTI3PWdEuiiqSjqVJh6NU9NUbVw3Ho1jd+YVTyYtYzLrhSFF3aHIiNYQBa3iMYKAoGqfK6KmSFVRRVIlwtc2kONZag5VIkdU5CWZbDpLJprF5rXgO+RClVWWb0SYfGOROYeJ0C4fvhav5jdg+ChoEQWSWSKb1MwiugC0e2yszKxr9YQ8JgPY1LaGmB9bZPr2LN17O4xn18NY9YGVJBFvwI03kE9SVjS/SsaoOHmTSiabKQYqhQzgFjso0SLgtDlw+hwEBH9+7WRkYhsJomsxNlY2CM8tMTM+h4CAKInY7FacbqcBXrw+D5G1KMsLK8xPLpBMpPBWuune1VVGsebv7/ypS7z0nddxOO188iuPsxpeIx5JINZJCKqKqAooqgYY1ZywNdLyC5IBWso1XeAWKqp0MsPYzSnsThuHHzrA8ceP8u6L7/O9P32a5u5GPv7Fx6hprCa2HsPlcRq/NxJEikLRe4AKfwU9O7u4eamfF6bmqaoJUhn0URms1MwgokgqlSKdTJNKpTWTXTJFLJYgEU+QjCdJxhOkUmmN7bwDM6g/h8lswul24HK7cHmceHwe3B4Xbq8byaSvlTzTq+/Mi5idQuBSpt+KHWw1RkWP9MoPIrz54il+8M2nqais4N/+/v+hmXVz8qChtZ7hmxpgrWupxWSW8rpD0ualtCkwWDMR6aZGOSVz5ex1UvEUh08cxO7Q8uKYzBLHHjzC/mP7eOl7r/Bf/6+vs213D/UtdXT2dmigTsgn+SxtdruNVDKlldgwbQ1GS8EKFDuN58elPHgRBPAHfPgDPvp29qKqsBxeZnpyhtsDtzn52knOvHWGnm09bNvRW9Ypt4ilEwsctXNj4HK7+MznnuTZp5/j+Wef55Of/gStra1FYEUfxw+LBCoXBVTIqvx/Yf75py1KWAJeyrEqpeHAAC6ni2PH7+K1V15jZGSE9vb2DwVBx+89zsjwCJfOX+bBjz1QAE7ydl9NqSgEq4L09HVz60a/Fq52h/MW3m9FpZeenT2cPf0eLZ1NH7pD1YFDoSf3weMHUBSVyx9cYXJsimMnjuL1egx2RVRVVEEx3rd1taKqcPatszz93ae5/5H7qa2t2QRWCinBrTzEC4XSnVqpQivsBx2gqKqWDfbUG6cZ6Nect44eP2I45OogRVUVBvuHmJ+d58DRfVq4cVYmq2RZXAgTi8bo3tVVZPZRFBVPRZ5RSacyODx24550py8t5TiYbZrDcSaZyYUrCtg9GrCJLsZx1zgQBRVVEEGEqbMLbEzGCO2uREmpRKcSmhOnRcTsMOGut2N2aj4NjmM26g4GWOmPMn9plemzSziDNqq6AnmwgkA6lsHmtBbZ0U0mU47VEYoWrdlqpqoxwOLkEm19zYh20RjJwjDWcsb6clkjdaZB/ywrZ4mux0gmkqQSaZKJFOlE2sg1oZvIREkLXzZbzTjcdpweO3aXHZPZXKTURVEECVyVTjx+N/XtNYBAOpkhsholth4nFU8RjyYY7R8zIitAM89VVlXSd6AXf3VlWUc7URAZuTXKs998keX5ZR588j4OP3QABIHLZ64xdnOC2Fqczj3tmmLTKcOcfNHZFG3zs7nPiq5lCFqYHZ5nfGAKVJXe/d2YLZq554En7+PAfft4+duv88f/+s/Yfmgb/io/u49u/8jCt7OvncpgJXNT8yzOhZmfWWBrcZF3irTmnGUrAhVYrGZMeh4VI6eNpK0h3fwnZ3M+SBlikTjhhTATo5OG+c5sNuEP+QlWBwjVVuGt9OYcTIXN5gTYNOd083RpEwQBt9fN1Ng0vbt7kSSRW1cG+J//7Vushlf59Bc/yT2PHs+bYxVNDO3Yvw05neHmxX76rwxS11xLY3sDFX5v0Wa1tGUUmfB0mMXpRRZnwyiKyo4D2wlWB3PjmgeMTqeDz3z509z32D38xe/+NS/94FVijyTYuX8HXq/H2FzkAab223Qmo+WqEcv7p23FrJS2O4GXrVqgyk+gys/OvduZm1mg/0Y/Vy5f5erlq7S2tXL07iOGP0spYNkqGtRqt/KpJz/JD77zA1568WW+8Mu/iNvtNp6l+F4364Z/ChPPVu0fDVR+Gr4qdzpfKauya/cuLp6/yFun3qa1tdXIAbAVq2K32+np6+Xa5WskEglsNmvuvPlw5cL78AcDqIpKZCOCx1N+x6q3Qr+Mw3cf4OVnX+NzX/6M8d2dW7HzkyCKHD1xmKmxKc6/e5EfPf0yh48fpKW9uSAqr5hdae9upcJfwelXT/P8U8+z//A+du/bjSRKxaYgtEmr5Pr3TnH4d3pWvZWmVy7cuc/Pz3Py9VMsh5fZf2gfu/ftIqtq7ImeL0NVFaYmpnj35LvU1FXT1tNmmHwUVWFsaEwr/d5QYxy/vrqGqqq4KpzG/WSzWSSTZNyPxWYmncwYu0yXz4kkikSXYzh9GqBxVTpx+x2sTUZwBeyIJgEkE7MX5pi9uEzPJ5twVtu01NuiCmIu6qtkYYqCiNkuUrfPTqCzgsm354kvp7j8rQFCPZW0HKrH5rAhJ2Uq2oLo0SAAqVgKQRCwOkp2nUCoKcj8+CLzU4s0dTYU9L9qzBddgWxOY51nvRQlSyKWZH1pg/XldSKrmkOpHuUEgKCF+pqtJi1yKKv59ehJ4eS0bJjPtPu14vI68df48Nf4cwpcey5V1ExnoiBisZkI1FZSVR8whL4sy0RXY8Q2Yni8biqCXkwms3Hu0jm2Gl7lhb97matnr3P4wQN85Xd+Gafbbhyz++gOJoamuH19hI03L9G+o5VgXQAh5zcl5lgUcma50lboP6CP59rSOsNXRoltxAjUBOja3Y7T7SxiSYLVfr7wb36O6+/d5OlvPE//pUH8VT5aOpsRTMVsSrkmCNo5gtV+BEEkk86wurzG6tIKqqolJrParJjMJqw2CxabFckk5qJKNm8Uyim9UmWjNzkjk4jFiaxHWQ2vsTS/zNz0PAICVquFqtoqmjsaqaoNIYrqlqCltAJv6bV3H97Fvmkd7wAAIABJREFUqR+d5swbZ7lw5iIX3r3Eg5+4n0994eM4XHZjrqpqPhGnzW7nyP2HWVlaYWxwnOnxWSaHp/AFKghWBzS/IpNoJB3MylnmpxdYmltCUVWNiWmuo6WzGW+lpwig6Peph5sn40m27+tjz5E9nHnzPf7lz/0rPv+Vz3L/4ycwSSYDpOhteXEZf9CfAzHlEW8pWCmcW6Xj8mO1Aj+d6toQtfXVRKMx+q8PcOPqDaanpjl69xE6uzs3JZbT5b42XsVFbM0WM4889gjf+db3ePmlV/jUz34SCYrqSekmID3vTzlWxbjNH4NV+UnajxWeXNr+MaHKpZ8VhnWVptYvDLuSRAmH08Gli5fweD2bwpU3BXWpKm63i6uXr2Cz26mtq0WgkBHIJy1SVS0z4+CtQWrra/FUuCkKrtvi/Kqq4K/y8+2//B5H7j2EuyJXGVnJp57fFOYnkGMZcuGJOVre6/PS1NZEeD5M//UB4rEEodpgjpbUduGF4cvOXNn3jbUNbl67yeJCmPqGOsxm82Z/mXxnG0FupWFt5UOTs+hhcVoYr/ZON/GASjQW4a1Tb/P2qXdQFYUTD99HV29n3h+lAKSEw0u8+sPXcHnd3Puxe5Bygk9RFRKJBO+/fZ6ahmoaWurI5pTu2NAEkY0InTvbjYiA2zdGcFe48IW05GmR9Sgr86uEmoO5mEZYX4qQiCaprPPmxhDMThOr0+uoWRWn38HiwDJDr03Q9VgTFc3uXMSLyRBsmsArDkU0GAVgZSiCzW2l+5FmAm0+1qejDL4xzvLYGpJJomVPAyaztiOTJFGrASSr1LaHDMCsm6asditri+tEVqLUNIeMMcyHC2KEsuqvs2ouuiqVYml2iYmhKYaujDAxOMXS3DLxaAKLw4K/zkeoOUBNW4jajhrquqoJtQTx1/kI1Ffir/cRbKwk2OinqjlAqCVIoNaHy+/C5rQiiAKR1SgLU0vMjswRWYugqipmuxlV0NeQYoTcUhDSKolaBESF34vDbUcP+S8MjRcEgXQqzetPn+Tv/ui7OFx2fuU//CKHTuzHbDUX/UYQwBesIFDtZ2lumZnROeYnFkin0lhtVi3Bl6ilGtD7VhOYBeMniKCoRFYiTNyaZOT6OJJJYtvBXjq2t2K12QrGOq/45LTM7esjtPW0sm1vNy9973XOnbpIqC5EqC5oyK7CzLaFfwsloChpkYe+gA9/VSXeSi8ujxObQ3sGYx+RKyOQzQH6rAHss/l+19da7rPSMGdBBIvNisvrIlRXRXNnE03tDXgqPYiSwMJsmLHBcSaGJ8mkMtidNsw5E05xeGw+NLVUVoCmGE++eIrnvvNDvBVe/t3v/muOP3QXVqsVPfGEIctyY6n3j81ho7axhtauJhxOB6tLq8xPz7O8sEJ4donFmTDzUwsszoRBhca2enp397DjwDZqG2uwO2xGqgd97UqShJj7bHp0motnLlNdV81DH7+fhz/+AE6Xg2//1fd5942zNDTXE6oNGeOuqCoXzl6isaWBuoa6TWNZJGMpTRdfGs794/8zwtON/tXKt9Q31tLS1sLC3ALXr9xgZXmF2rpazJaSHE/6X2Fz6gqH04HdbuPypSvYbDbq6mqLwpYLn7EwVHmrcOXSEOdyr8v3U3G7U3jyTwRUPkpelcIcKlt/VgBQjJhySjpGpdJfydjYGCO3R9i9d3e+84TCgcgrdLvdzvTUNJOTU+zYtSN/NR04FCw+ySRx7dI1KgOVVFUHNwGVrJp3BC3MHWBz2Lhy7iqyLNO9o8sAMB86AXV6PnezqqpisZhoam9CUVQGbw4xPTFLqLYKq9WSFweatkJFxWwy09LegsPhoP9GP4P9QzhdTiMbYlGKfCi5di4WfwtAVaQQC4CXkquNI2dlrly6wisvvsriQpjtO/s48ch9VPgrUNRsLk9HPr/H+sY6Lz/7MqIkcuKxE9isWlFAvXrx9cs3mJuZY+/R3Vjt+e9uXLyJq8JFXXON5kioaMrCG/RQEfSiqCrxWIKlmWX8dT5MVjOKkiWdTLMyt0ZlnRYKqYUvi2RSMhvzUTIJmRsvDNNxfxOhbX5E8gvUABBi+X+SKBGfTxFfShLsqMThtePw2qnvq6auL0R4eJWlsVWmrs8jiiK+ai9ms5nwxAoWu5VAfaUGXnJCtBAQLUyGkdNZrA4r1hwLWKoUskqW9ZV1FqfCjN4c5/bVMRamwyTjSTxBN9XNQeq7amnoriXY4MdV6cLitCCZRRBVox8VtbjwnZYfJSdQzCIWpwV3pZOKkIdQcwBvUANzq4sbLE6FmRtbIJ1I4fDaEU0Sep4PY9apxbmIdAVVqvyunLnON373b5mbWODJr36Kx37+YTwV7iJZYYDF3GdWu4WGtjrsTgeZVIb5yUVmR+cITy8hZ2TNxBVPkU5q6f2zGZnoWoz5iUUmBjRwMj+xSCKapKW7iR2Ht+HxeYwxkSQxV8MnN04IXDl7ndhGnEMn9tOzq4vjjxxlY3WD7/3FPzBxe5KWzmbcXu2+C3eT5YRzYeI1JQfyVPKyQ5v/uU1USd4aA7yU5s3R1ylb12TS/0pmE16fh1B9iNbuJryVXhKxBOPDE4z0j7K0sIRkknB6nJuVlFqscBRF4Z3XzvAH//GPiKxH2HtkD3sO72LXwZ1FfWDkRTH+6nlL8iY4k8mML1BBa3cLXds76NzeTkdvG23dLbR2NdPW00rPri6q60O43LkaP2I+v00pQBEFgbnJec69c5FQbYjjD96F2WzGJEl09Hbw0BP3szgX5i//6BtMjE7Qta0Lt9fD6vIaQ7eG2Lajx5CnbLr/fNtqs/eT/Lcpf0oOclhtVjp7OjCbzdy6McDAzQHcHje+yuLgh0KwUgg6AELVIcKLYa5euUZrWwsul6ssMNHHejNgyffBVnlVygGTfxagot/khx7D5mPKAZXC86kl36moiIKI0+Xk0sVLeL3ej8SqSCYTt67fJFQTwlvhLQInauFxksTAzUFMZonGlgZDYCs5RVqOTdFNFtFIjHdeO8OO/dtYCa+wOK/ZoGcmZlmcD4MgaH4Tgv6MisF0GJS8QM6RWKC6rorKYCVjw+MM3RzC4XZS4fMYgl8HY/qzBKsCNDQ1MDc9x41rN5ifWyBQFcCW2xkWgzLFWAClSaVK/2lJpnTBqb1OppOM3B7l1ZdeY6h/iLr6Oh549AFaO1sQRWETQMmqWRLxOK+88BqJZJITj53A6bLn2ACtKmgsGuPMqfeoa6yltbvZSESWSMS5cfEWDa11eAO5UFxZ5vaNEXyhCrx+D3q+lvmJRXyhCiwOi7Y7EAWWJpexu63YXNbcwhewuq3MD4YZOj1B8+E6mg7WGs50gqAVo9NBS+GO3CSaDIUVnU+yMRnD5XcQaPFhkkyYJDOSKJKJZRFU2PlID1aHhcF3Rul/6zaZpEwmKeMLeQlUVyKIopYwLidYAewuO6lEivD0ErNjCyzNLZOVs1isJiKrEWbH55non2L46iizY/OsLq4hmkSqGgI09tTR1NuAr6YCh8eGZNHo4Gy2oLpyOkNkNcbK/CrhmWUWJ8IszaywOr/KWniDtfAG60sbxCJxEFQEU249qpoyNdnMeHNAyF3pAlVlcWqJudEFMukMLp8bvWidPk91diVPneeF3vToLN/64+/x3msfcO/PHOfnv/YZapuqC3bGm3d3huNrjqb3VnqoaQrR2FGPw+UgGU8xP7nI0uwy4ZklFqbCzI8vMDe2QHh6iehaDLvDTnVDiJbuJnr3dFNVV4UkmQrAiWgAFEmUUBWVgWtDzE/Ms+NAHzUNNUiilrCrb18vB+/ex40Lt/j+Xz9NMpGkvbvN2OGW2vkLAQqU+nwVAxQlx5JsAic6IFFUotEYyXgSJat9Xy5ZW2mCwMLr6X3p8jhpaK2jqb0Ri9VCeH6Z8dsTTI5MAZo/nr4hLFRgt28O88f/6U85/crbfPLnn+A3f/vXqa4LMdw/jGSSCIYCRhI1YxwpVvg641UIWkRjbZgwm81YrFZsNhs2m80AJmIRc5JP6KYDFEmUmJta4P3T5wmGAhx/8BhWi1kbW0kbW5vNxv6j+7jrxBE+ePsc3/ivf0M6ncbtcbEwu8i+w3ux5yLGCis+30nhlrYiIPpj/JeT0ugAVr+iBgBEQjUhWtqamJ2Z58bV66TTaeoL2B9ttRk3XMBKan3d3NzMrZv9jA6P0tvXi0mStmRVioHInViVzUnkCls58FJw7JZARfgQoPGhKOTD/FSM48rY6cr5PxSes7CmhH58VsnyzW98E0mS+IUv/IKxY9iq7HhGzvDXX/9r2jrbufu+Y8bxer2ZwtfPfv85zFYzDz56AkVVkRXZOK++89cdR3WQkkqmOPPmGf77732DBz9xAqdbTwClYjKZtPLcqrb4KvwV+Kt8+Kv8VNdXGwqqNGJE+0wkFU9y5tT7rIRXae9uY/+RvVgt1ly0SMEizb1WVRi4Mcilc5eQ5SxdvZ3sO7AXj8dTEIqZd4r8qOMmyzJTE1MMD44wNjJGJpPBU+Hh8LFDNDQ3bDLx6OOazcrMzy3w1hvvEIvFOPHwPVTVVuUobC2ddyaT5tTLb7G0uMyJn7kXp8dplKcfGRzl8ntXOfLgAdwVbmRFJplM8OYzb9G2vYW6tmpkJUs8Gue9l89R311LdWsV2axMJpvh8hs3MNskmvc0oKCxQNHVOCf/+1nsXiu1O0JU1Lmw+20IUn4eFjqjFjrCRRfiRGZjyMksroCD6p6A5iAriJgkiXRcZubaApIk0nW0DZNkBlVl6vo819/sZ21Bq+58+Il9VDUEc8K00NSkjU02nWVpdoWFyTCRtagxFqIo4PI6cftcuHxOnD4XVrsl1//5ZHuykjXmbTyaYGFiibWFdZKxpAHqRUnEbDcBQkGxQk356f4pZqsJT9CFN+DBHXBjyTmXFoZhZ5JZ5oYXWJ5ZweFy0HuoC5fHmZub+agK/bUgiMTW47z2/Tc5f+oS++7ezcc+/1C+qFwhE5FzvCyXVl8pkAl60+VEJp0hldLqEWVzzqVZOYvZasZb6dGKNpZeqwAA6X9VVGYn5hm5MUoimqC1u4XevT05MJNfR/pvb1y4xXf++/eJR+N8+ouf5PjDR4uASqmsLAQNhb4npZ8rquYQvTC9yMZahNhGjGgkRiwSJyvr5lmtSSYJs9mExWbBX+0nVBfA66/YBPKK6hcJm6OWVBUWp8OMDo6xtLBM1/ZOduzrM36zurzOd3Nmk3s/djef+/KTuUKrGrh99/UzzE7N4anw0NXXSUNrvdHv5RzAi8e0eLy3SmNRXMKhWK6lUxluXLrF2NAY/qCf+x65G7PFbMjYYj+WXF8IAh+8c46v/+FfElnb4Gs9HZz4q99HlKQikFJ4nXJtK5+UcklK79TKXbPQOV//TFUV3n/nHP03+jl01yF2792VB25C/ll1X5v8WItMTUzzzFPPcOz4XRw+ctjQLfq5dVCz9fXzLLRx30XjUi5qbIsoPHFr1/efGKjARwMrPy2goqgKZ949y9un3+Krv/lVHE6HAVTyx+QVoaIqfOfvvoPd4eDRJx7ZEqjIWZm//au/o6OnnQNH9uUoce28co5Z0I6Vc+fPMjU2zZUPrhCPJ3j3tbPsv3sfD3/qASO9tSRJpFNpwgtLrCxqZcXXVzZyeR2sBpVpy2XcLQUsoiCiKio3r/QzcG0Qt8fF0fuOUhUKFCiB3OQrAC+JeJJrl64zeHMQRVFobm2mvrGexqYGvBVeAyBthWwVRWEpvMTC3CLzs/OMjY6TSWs+AC1tLbR0tFBdW5VzgC4GKPqYbqytc+H9S4zcHsXpcnL0vsP4q/xFIDKdyfDuG+8yOz3P/mN7qGuuM0CKnM1w8oW3QIDDDx0wxlIHKu07Wqht1YBKNitz4eQVVFS2He0kI2eQFZnFySXGrk1S21WFr76CeCTGG39xBlfASec9LaxMrJKIpRAEcPhtuKucWD1m5EyWrKygZLJkMwqZhMzGXAwlo2B1Wahs8uIOOI1oCVEUiS0nme8PI5kkWvc04vQ6MUlaRtNsSqH/zG3tPEsRxq9PUd9Vy977d9C+oxWxBLBCfuHHI3GW51cxmTVHVckkFQPykmzAiqrVdllZXGNxYon18AYA7oALu8eKxWnG5rJismo7z8Ix01smmSG+miSyFCO2Gieb0ULaq1s1/xXJZMIk5sOrTaKJyGqMkUvjCILAtkPd+AIVRWBFEiWUrML7r17g1DPvEKoP8sQXH6W5szEvOMuAlDu1UgBT+hwf5sQolhGoOiOxOB3m9vURoutRvLnw4qraoBZRVEZZ6GMmyzJvvnCaZ/72eUK1QX7+1z9HZ18u5HyL6LlSkFL42cZ6hImhSaZHZ8hkZEDF7rTh9Dixu2w43Q4kk0Q6pTFmmXQGOS0TjyVYX15HVTTzdKguSFVdEH/Ir0V36QpMLFFmJX45oiBy5f1rjA9PcPfDx6mo9PDyU6/x3Ld/SEtHM1/8rS/Q0tm8SflkswpTY1MM3hhibXkNq91Ge3crbd1t2B22orHZCrj8OGOoj8VKeIWRwTFmxmZQVJXuvk769vRiNluK8qQURvdo4659txxe5rUX3iD63kX++tJ1Mj3tTPz214hs795y7tzpPkvByYdGhm56vgJ2ogRE5J9DY6LefOUUE6MTfOyJj9HY1LAlWNFNZHp/PPPUs4QXw3z5V7+0aSNcag7ffO38/ZXmJdqqr/6XBirw0cFK8YLOgxX92Nm5Wf7mG3/Do48/yra+bXdkVeSszPPPPE8kEuUzn3/SsM2rqmrk98hms6yurvKDbz3F0fuO0NrRUgBidGAiG2xKZCPK+TMXmZ2axePzsOvwTt597SwX373E//ln/3FLAAaa0+7S/DKjg+MszoQRJZHm9kY6trXj9rqLFlAhYFmaD/PB2xdIJVLs2LuDvt29mqe6qJklSsGKIIhEN6IM3hpibHiUyEYUQRBwezzUN9bh9/vRa7boWUzTqRSLC2EWFxaRMzIqKnaHg4amelo7Wqitr82Zdwps6wUARVU0hunKxWv0X+8HQaBnRzfd27uQTGIRIyVns7x3+gMmRyfZdWgnzZ1NBkhRVYXZqXneO/kBOw5to6ZRrwMkk0gkOfnsW3TsbC0CKmMDk4zfnGDXiT4kq5RjVWRunx8lshKhrjfE2R9cQhDh2C/tRzSJZJUssfU4a3MbRBZjyJmsZjai2DQpIODw2fA1eHD4HEgF1LSgCiyNrbI8uYazwk7zzgasdqsBUkRV5Pb5MdLxDH3HunG6nWyEN7hy8iY3zg7gqXSz78HdbD/SoxXQKwEq5ZRbOZAiK1phurmxRRbGF0nGU5itJirrfVTWeRFMwiYwWeonUVaAqJCMpFid2WBjIYrNaaW+pxpv0KOxQQWsXjohM3xhjEwqw87jfXh9npxAlBi9OsYr3z6JnJZ5+PMPsPuuHZhMBQXjDFZQJboRQzJJ2Ow2TCbpI9Hs5WRLOSbGGNOSdP+qqrKxGiE8E2ZuaoHIehS31033zk7qmmqKGIlyAKW0RdYjPP0/n+PUi29z8J79fObLn8YXqCi61zxoL15PsiwzNz3PxNAUSwvLiKJAVV2Q+rZa3JWuIkVQbMopbpm0zPLcCuG5JVbmV8nKWdwVLvoO9FLh9xb1e1HOIdFUBFaymSynXnyLqbEZbl3WEpF9/lc/y+F7Dxk77mLQV+jMr7I4F2bwxhCzU3MA+IOV1NRXE6oL4cvlkdkEMj+iTtHB4dToNCMDo6wurWI2m2nuaKKztwOvz1sWoOjjJxSwBYvzYU6+fAqz2czDP/MgvmSK9r/6e6qfe4WFR+9n/GtfIh30G8cX9n9pU8voMIB4LE4kEkFVdbOq5i8oSRL+QKXBOuX7srhfC+/XeIbcuGVlmef/4Yck40k+/blP4a3wfiRWZWZqhn/4/tOceOA+9u7d+xOzKv/LAhX4p2FVDJOCkuW//el/o7GxkcefePxDzT+vv/o6t4eG+ZVf/eKWQGV4aIQ3X3mTx598jAqftwCk5M0+2azM3MwCb7/+Lqgq3Ts7ae1pRRBgdnKWf//Lv8Mffuv/wV/lK3q20lBCfTwiaxFG+seYGZ9FyarUN9exfX8fTpdjE2AxSSbkdIaL711hcnSKquogx04cxePxFAGUcoBFQGBjbYPZmVmmJ6eZm54nk8mUcXQSCQT9hGpCBEMBQjWh3L1sBif6a73f0+kMA7cGuXbxOqlUitaOFrbv7dMq4pZhoy68e5GRwVH69m6jo6+9CKTI2SzvvfkBa6vr3PP4XZqvUA6opJJpTj6rmX7q22sMoBLZiHHxjcs09NQRagmSzcqaqSiRov/sbQbO3EZRFB76jbsx203G3MgazJlKZClKOpZGkAQki4Rk1hK3mSxa9tfChSgKIkpaYebWAvG1JIEGH3VdNUbCKkk0IagC49emWF+M0Lm3lUBdoEhIpBNprr19i4tvXiUrZ9lz7072ntiJy+vcBFS2Ain6/UdXo4xemyC6HsNd6cRXX4En4EQV1CL2UAcnWSVLOqGVHhBEzRRUymIUhXgKIrGVOAu3l8gkslRUe2nsqcFit2r+Ozmwks0oDJy9jShI7LpnO9GVKCe//w4Tg9Mc/dhB7v74Xdjttk3KUBO0Ctfev8HizGLOl0ETkBarBbPNjNPpxOXVEpi5vE5cHhdmi3lL04Deb+UEo6qqpJJpImtRFqYXWZhZIBnXwsd9QR/NHQ3Ut9Rhkkyb+kJbw+Wp7tI2OTLFt/78O4z0j/LoZx7mkZ99ELPVXLyGCpiUjbUNLp+9xtryugYKW2upba42cgMVHls4LwrnSjngpCqwPLfC0NVh0skMTR31dO5ox2yxfChYmR6b5e/+67cZG5zg4D37+fK/+WXsdnu+T4oUW6F/QvF9RDYiTIxMMjc1z3J4BVVVsVjNhGq0fC4utxOHy4HT7cJmt5YFqFk5y9rqOqvLq6wtr7G6vMbG6jrZrIKnwkNHbzst7c2GI/pHASgA8zMLnHz5FC6XkwcffwCX22kc47o1RNvvfx3nwDDTX/48M7/4s6h6ltiSuVcKUNLpNAtzi8xMzjA3M8fa6rp2XBm9K5kkqqqrqK4NUVNfTWWg0ph/+r3qzyCUAAd9DW2sb/D8Uz/E43HziSc/gdVquSNYMUlabqfvf+cHxKIxfuUrX8RsMm9iVcQtAFLhmP+k5p//3wAV/XhFVXjpxZcYGBjkN3/rNwwnsa2AytkzZ3n/zAf8i9/8CoKYz8WhKz9FUXn/zPtcv3KDn/viZxBE0fBPkZWswaYkk0leevoVJJPEsQeOYHFYi5TGb3/lP3P0wcPc//F7Nz3fVjH2oiCSSqYYH5pgtH8MUZTo3dNDW1eL4fBVyq5Mjkxy6f2rCAgcuGs/rR3NuRDYgkyLW0xkwCgLrxehEwURCpzYtP5Xy95/ITgBSCZT9N8c4Na1fhKxOKG6ELsO7MLn9xYxKLpZIh6Lc/HMJaYnZ+jc3sm23d3IWblod7m2us7pF9+iY3sbbb2t2lioehhzktPPvUNbzvRTCCgvnrpKNptl+7FuLUpLUchkM5z6+zNM3JyhbV8TNR1BqturQFA3Ke/C5y2n4ArfJ9aSzPYvosgK9T21+Osr8gJe0OzdM/1zLE2u0Ly9kZqWUBHlWrjI1azKwIVhPnjlAuGZZbYd6ubgQ3sJNQaLgIq+FkpB3dTgDLPD84hmkYaeGlxBp/Gd3m8ZOUMymiK6Gie2Fie+mkBOy+jRXaABaEESsDgsuKuceKucufDgAsZDUVmZWmdlYg1BEmnsrSWYy5siSRIm0UQymubaW7dYGAszfXuWzj1tPPDZewmEKgtMQXlFKIkmkrEkF9+9QmwjRuf2DhxOO5mUTDqVIZ1Kk0lliEfjRDdiRbJGK56oFU602qzYHLZc7SEhR46phkNwKpUmHokTi8SIRXX/jpyCqA1S21BNqK7KMMUWjvnWu8Wt2Z687FI5/84FvvsXP0BRFH72S59k//E9OWd9HXioTA5Pcv3CTQRRpHdPF8H6AIKQBzP6PCg2F23NqBQpi5zskDMyIzfHmRmZw+6wsW2f5kxsABQpL29iG3Fe+PsXeeflsxy8Zx99+/pYWVzhoU/cj6cgUZreT4YSLbluuZZKpliYXWB2ep6F2UWiG9Gi700mCbNF87/S0hKoOT+q/Fq1WMz4Aj4qAz7qGuuoqgkaydk2KVEdsJRRuBOjk7zzxjt4fV4e/JkHcTg2jz+qSuCVUzT/0V+CSWLs3/wayyfuQilRkaqi3ePk2BS3rg+wOL9IVtGqJYdqqqiur6bC5yUXh6ndnyCQSWdYmFtgbmaBteVV7flsVtq729mxpw9bzqG3EBBuZj6091MTU7z+ozfo6OrgxEP3baFHilmV8dFxnn/mBR559BG2b+/7SOaf/y2BCvzjwMomRFqyALcCKgP9Azz79LN8/hc+T01dzR2ByrWrV3nj1ZP8whd/HqfbURao/Oi5HxGLx/mZTz9q+KfoGVP11++d/oCx4QnuffQ4FX6vEZ2iC49n/+6H3Lo8wL/9w69tuuetWuGAJ6IJrp+/SXhuCX+Vnz2Hd+HzVxSxK7qgT0TjvP/2eZYXV2hua+LgXfu1Xc4W7Ip+Ldg8icrS5iX3bgCWXB6H8GI4Z1YaJ5NKU1NfTc/OHoLVgZwA3ux0PNw/zOCN26QzGbbt7qa1u0WLZMiNgaJqUT3n377I0sIy9zx+DNEsFoGYRCLBWy+8S/uO1k1AZW5igaGLwzT21hNq0WpCnX3uHDfeGeTx33xAywUyEcbhsRFqD+KosKNHWpTOx9LdqaqqpKMZ1hcjRMIx0vEMVqeF1p2N2D02A6AIokg2LTM7uMDy7Bp17TU099bndy8Fi1sXEvkmMDk4zfsvX2DoyjAtvY0ceHAPrX3NqEJBtercnJNlmZvvDRJZjuCr9VLbGUI0iwZrqM/x8NQ5CwKMAAAgAElEQVQyiyPLpFNpVFXFZJWwe21YPVYgx7hkFRRZUwbJ9RSZuAwCeGs8BFt8WGzFgEVOZVkYWCK2lqBlVwOBWr82N1WBgfeGee+Fi5jMEgce2sORjx0o8lXR+8GUU4qZVJb3Xv0ARVXZd2w3VTXBImBdJL9UiEe15GXRjRixSIxkIpXLuqtVi97KD0AUtdwlTrcDl8eF060xNP6qSswmc9FxxoiUYQq2oq4LW/Gc0sYtnc7w8lOv8sPvvERjWz2f/dVP09DWgKIq9F8e4PbNYSpDlew4uA2LzWKMY1kHW0UpAid38n0oTBGvK5v15QgDF4eIR+K0bWuhc0eHAVTUrMo7L53lR999hWBNkJ/7tSfp7Osgk8rw2jNv0tLZzN7Du4s2T+Wu81H7CjSmJBqNEd2IEo1EiW5EkTOysYESRC2KRzKZ8FV68fl9uaR8ZcDRRwAnqqqyMLvArWv9TE1MEwwFefCx+7EXgNSyfZlIUvc336f+m98lsrOX0X//G0Q7moE8SHn1hdeYm13A43XT0NJAbUMtVaEgglRgEiujK/UxTiaSLM4uMjUxw8TIBDaHnXsfvptAVcBYf0Z/l7DnmkwRuHT+Cpc+uMS9999D7/beTayKYZrWN04I/P3ffgdQ+eKv/PKW5p9yuuTD/FR+GkDln60ood62UpT574vr/+i/CYVCAKysrFBTV7Pl7yFPs22F7tPpNPOzC7T3tOWBkZLfwSqKwuz0HGPD43Tv6CwLUhRVYfeRnbz4nZdZW17F7StOTVxqL9dp9sKdu81pZf89e5kdn+PW5QFO/vAU7dva6d3VjdlsRsuNL6MIIlanjXsfOc7A9dvcvHyT8EKYg8cO0thUbyQ1VFSMFPyCWJBdsKAfs2WUdOF7tQAwJuIJRoZGGB4aYSW8giiJNLQ00NXXoeVPUTQnWB2cKIpCMpHgdv8wt2+NkE6lCVYH6N3bg6fChaxkiqhsWZa5eOYK89OLdO/p3ARSFFVBTmsZaE0FtTdEUSs0WVUfZHluhYlbU2RlmcXpZa6eusUTv/EQgfpKKut8OCsczAzOMXZpCskk4vDYsbos2FxWLE4LZotJc0hMycjpLHJGIZPIsLEURU5p5jKXz0ltWzX+Wp/hmCiIIqIqsDSxwszwAqgqjV11NHTVGSGvhYCz1Iyk93dTdwNN3Q0sz61w7rWLPP3nL+INeNj/wG56DnVhMuvASWFudIHIcoSm7fX46ioMwKaDlKySZW54kfDYMlavlermABa3Gckq5h1plc3OtKqqIsezbMzHWJtbJ7IYpbKpAn9DzhFbNGGyStTvqmHi4gyzQwtUVHmZu73IB89dIh5JcNcnDmCxWsgkM9q8UxUoI5wEQWTg0i1kOcuxhw/j9XmLBK4+T/VjAbwVFXgrKsquZc3XKq1tsXKhlggCkqilnC8nA8opucLrljvuTk0tWNN63wqCiMVi5vHPfYwjDxziH/7HM/yX3/pDjjxwiAc+eS+j/WPUNNWw4+A2w9QJ5R1sCzcBhdfYirUFEaPul6K99frd7L9/D4OXbjNya4xQfRCfv5KbF/p59ps/JBFN8OkvfYIj9x/CYtZAnNVmxe60a/1beoU7gJRy/VbKREkWicpKi1HH5k6tHItVOFaF0TKlijUrywwNDTNwY5C11XVsdht7D+5h++7ths/UHZvDwdRXv8DCJx6h+U/+kt0/+2XmPv0Y47/+S2S8bgZuDDI/t8jBu/ZrRQdzt1q40dPbVnrPZrfR2NZIY1sjvTu6efuNd3n1+dc5dv9dNLY0GM+jqOqmenAKgCKye99OJscmuXj+Ml29XZhMxaq+NGOtKIps39HH6TdPs7q6is/nK6oBVHjPmz+7c6HCrcyvP077qQKVj5JW/6d1Lr3OwcbGRvHvBBGloJ4PaJQvYBTMKqX552fnkWWZ+qZ64/NCJiGTSXPhzCVcHhfd27swCvAVCBA5m6W6sYpgTYCLZ69w18OHWV1cI7oRxWQxYbJoIYN2uw2TWfNf0JsqaPkP9AGtba4mWBNg4MoQg9eHWJxb5NDdB3B73SiCilZMzASiSPeOTkK1Qc6/e5GTL5+irrGWXft2EKwKFqRF1gCLVgsnJ8zKOLDBZhtrJpNhclwLTZ6dmkVVFCqDlew5soem1gbMVrPm65HzP9GV3/LiEsMDo0yOTpHNZqmuD9HR10ZFziQk53b7ev9FNqLcutDP4uwS3Xs6aeyo3wRS1JzpB8Bit24ed1Gle18HQ5dFrp6+xfCVMT725fup7agx2LaqhgCVNT7WFtdZX9wgHkmwMr1ePNcKd6eClvzLVenCW+XGF/JisVoKdmkCSkZhaWKZhYll5LRMZZWX5r4mnG5HWYCyORRWnwv5xRysDfDIFx7g+CePcOnkVd597n3eevoMu+7dzvbjPQgCTA3NUBHy4K/3bWII5WyWqZuzrM2t4652EeqoLEpamC3q/xIfKkHA5BCpbHXjrnGwOh4hPLKMnJKpas8VshRNSIJAqN3P0JkxXv2L0yyOL9N3vJv9j+zC4XawOBZmqn+WZCKFy1Ve1CzNLzM3tUDXzg7cFfnSFYXp6IvZlQ/3DTGZzHcUnPnn/BDQUnCtrJwlHo+jyApyRtbq6mS0zUpVbbCoGJ8+lfKApbiPff4KvvRvf4l7Hj/Od7/+FP/lX/4BbdtaOfzIQQRBq/ZdCExKWRT9XNGNGPMTC6QSKawOKxabWUvF77DicNkNx8x8yQzRKHSpoGCSTHTsbGNpbplzpy4yPjDF0NVh7n3iOA8/+QBOp8NwdJUKFL0eNVi2TwtASjk2aqt+z3+35VdFrTR0t/S8hWtLzshMTU8xOTbF5PgUmXSGQNDP3SeO0dzeYgCxTdcoOF8heyUKIumaKob+4HeY/+zHafm9P2P/o7/I7S99jmvpDDX1NXT3dRsO+aUgpZRt26qJgoAv4OOhJx7g1Ctv8darb7HvyD56dnQb97EVWBER2b6rj1OvnWZyYoqW1mYjzb60Rf83tzShojI6OsrevXs3fV+u/s8/VfsnZ1Q+jEEpZE7u1EwmEw6ng0gkmj+vWJ5SSyVTCKJgFPAqbbMzc4iSSFUoUPS5TrPfuHSLaCTKsQePIkhCPglcicLNKlk6d3Zw5pX3cxVQ0+ipxIv6QBKpqg1Q31pHZcinhbmqOYdCsiiigmQR2X6wl2BtgOvnbvLmi6fZe2Q3dU21IJlAkVFVESQTvoCPBx6/j6FbwwxeH+KlZ16lrqmOXft2EAj6iwCL3ldks7nXm4tAJlNJZiZnmRibZGZimkw6g91pp2t7Jy3tTbgr3IbQzMgZQ4hmMmkmR6cYznnfS5JIXUsdLV2NuLxafplSgBKLxrh9fZTpsRkEQaBnXxf1rTVkFVm755IdZTKeBFXFattcL0cUBJAkbE4bI1fGad7WoDllqgKiZEJQFURFQTSLVNUFCNRWarS8opJKpImvx5HTMiarCXMOXJqtJiSzKW+nLaBQk7EUcxNLLE+voGQVfFUV1LXX4KuqyIcul7AnKLCysMrS9BKJeIqKgJfKkA+v32swCIXj4XDZOfLYAfY/tJtbHwxy/rXLnHv5ItWtISprKth+d7cBEPV8Nul0islrM2wsRals8lLZ5CWrKEUh+4VmuU0hlAXCSLKJBLu9rIyJrE6vY7JKVDZou95MSub2B+Pcfn8ct9/JY187QbA+gNlkQlUUnD6tPtPGcgSHw44gKLlqx5riy8pZbl0cwOV20trTXERf6/1VCFA+ihnmo7AeWwlbVdGiMmKRaM60FCWyHiGyHiEei7OVTrHZbWzf10dze5M2T0RNqH+YLGvtauZf/Pav8N2vP8XwjWH+5N/9GR//pcfo3tu5yeRjRMvJWRZmwsyNzbG2pG3SLDYzqUSq6P5EUaChq47Gzvqc7xn5kqU6u6JqoeyzE/NcO3OD9r4W/t2ffo2auupixpdcXa3cmJVGpmzq3xKQshXboR/7j22bfcjy8yKVSjMzNcvE6CSzk7PIsozVZqWtvZXOnk6qqrU6XB+VJdOPK2T1FVVhY892Ln/3zwk9/xqNf/h1fsdkYvw//CaJDwEp5QBK4VwRhHzxR4vNygOPn+Ddk2c5f+Y8sWiMfUf2lu2Dwtbc1oTNYef6lRu0tDYXXUdj1kQKrFFU+CqoqKhgbGS8LFApbB/GkqjqT7eA4U8dqPxjWJUPAy9bHet2u4lEIh/6+2QyqdWbEDan/FcUlbnpWYJVAcxmc0GyLO241eVVBm4M0dzRRKDab7ApxcmYZPqvDjI9NkNWzjI3MY/NYaVzVzsVfi/pdC6ddypNOpXWknBNLjI3uYDDZae+rY665hpsufLkZEGvbF7dUIXH5+HymSu8f/ocHb3t9O3pxWQ2FZmCRFGkZ0cXHT3t3L41zOCNIX709MtarYqmWvz+SioqfZjMJqOvtH7TgNz6+jorS6tMjU8zNz2LklWw2q00tDbQ2NpIVXVAc1ouw55E1jcYHhhl7PY46VQat9dF3/5t1DfXIJklY4df2GfJeIqRW6NMDk+hKAr1bbW09jRjtpmRcyBKV6j6a0VRSCVSAJisprJjHp5a4rk/f4lDj+6lvrOWqcEZspks9Z012Nw2A7AAiLrwEBXMbhMut2PLOQeAIJCMJtlYWmcjvMH6UgRBFAnWBahvr8VV4SoSzIUhzOtL6yxOhwnPriBnZMwWM063g+nhWaZuzyCKIl6/h8qQj7q26pwyzde9lkwS24700HOok/5zg5x5/hwzQ3OsLqzRd08PNR1arZlMSmbs0hTxjQTV3UHcIUeRP0MhSEmnMpp2lopz6ogF3arTv5UtbpS0QnhkBckiEl1IMPDmKGabmQOf3kl8JUEymspdQ1s7Tq8DQRLYWIlQ3VCV68K8TX2sf5x4JMGh+/YbPiK6ycfwsyoykW0OEdb7edNY5ZqqqkZFYc0pN6X5tCRTpBJJEvEksWiMaCROPBovkg9mixlPhZuq6ircXjdOt1NLv242aTWcJJFUKs21C9c5/85FRgdG2XN4N76AzyDHFEV/qaDkyXmj3b4+THNHA5/7tU9x6odv8zd/+Pe0bWvh8V96mGBtMM+AyVnGbo0zO67VNbI5rTT11BNqqMJsM6EqKslEilQiTSqRZnVhlYn+aZZmlunY3ZYr2JfbbQuajL50+hJv/OA0To+TQw8eoKougL+qsuwa0JuczWLaFEIrFPmrlIKUO5litmofhREDDfjIcpbV5RXCC0ssLS6xtLDExnoE0OradHS309zWTE1dTREb9OOApEITXilYQRS5cmAXf/Kzj/ErMwsc+o+/x/KLe7n9r75CrPHObglQ3hG61IwnShLH77+Li+9d5tbVW/gCPto6W/Un2cSqIGj+Rr193Vw6d5mV5RUq/ZUFqWoLrlPQDy2tLdy4fgNZljFbLAXH3blOz4/bflxz0D+7j8pP0jweL2trq3c8RlEVUqmU4TVd+DlAKpViKbxM355tm1CunJU59855LFYz2/duAzYnaEqnUpx76yLLC8uE6qvo2NHGwJVBFFUh1BBEUVTMNjN2d7GTVvuOVsIzS8yMzjJ45Ta3r49Q01RNz+5OLFYrZDWTkCIqOFw2Dj9wkIHLQwzdvM1KeIWD9xzA6XKAiFEtUwZEk0jvrh7ae9oYunWb2zeHmRybQsjZ6125mhCSJBHZiBBZj5JOpQymyeV20dHbQX1zPf6gLw9OdIYjB1AymTRz0/OMDI4yNz0PKtQ0VtPc2YgvWIGaSwFuMC6qQjaTZTm8wvzUAjNjs8hZmZqmatq2NWO12wyT0CZH3oLIhmQ8pfmDmIp3OKDt3J/6k+fpOdDJ0ScOASoWq4XRG+OsLaxjdVqprK7A43fh8rkwm80oqkq5/aGqaIo8nUiTTqTZWI6wsRQhlUhreVU8Dhq76qlpqcHusJb1O0lEE0Y6/HQqjclkorq+ilBDVY510UJyV8NrrCyssLK4ysiNMQRBoKGjTqPpc1mNtWrfWQRBQJYVth3tpqG7hmtv9/P6/3gLt99F99FWUskMmUyG+h012H3WIuZEByyJSJrlsTWSa5oZTQUECSMc21ZhwVOnOSqKigZWTKJEoLOCsXdnuPDdm2RTWbrva6PjUDNmi5m5/jCLE8uEmoLYc2YeURRx+VysL0fKrs35qUWqagIEa/PVlotClkvMZnrfppIp1pbXWFvZIB6NaaaYjKzV9JGzmo+RLBsARfvdZiErCAI2uxWX20Wougq3x4XL48LlduLyuLE7bB8qnBVVobo2xPjwBJc/uMLrL5yktbOZnQd3Ipm0Z8hmC8wGubHMqgqxSJyF6UXa+1px+9w8+vmHOXBiH8//7Y/443/95xx6cD8nPnUck83MtTM3WV1ao7LGR3VTFd6A2/AzAlAFtPpQDs0kGqz3E6jzM3J1jKtv36Cho47WvmZAYWxgite+fZL1pQ1OPHkPB+/fx3p4g6tnrjM1Mk1LVzNSmVWhKApKVsln9t2UP6U8SCkHTkqBSCnTojG0Mpm0trmTMzLpdIZUMqUxXRsRIhHN8TYRSxgA0+F0EAwF6enryaVZCBaF+ObH4cdIga+oRT5Hm5gyFd5/5wNM/ko2vvpLnPvqF2j747/k0Kf/BZOfe4KxL32WjDNfAbw0QOROrZCZEEWRvYd3s7ayxrl3zlNVHcTr9Za/Z1VbuD19PVy5cI2b125x7N67tvAxUTQ/FUmkuaWZK5euMDU5RWt7m/H9T+pj8pO2/y2ASjnzBGiTcm5u9kN/n0wkseXi6gt34aqqsDC3iKqq1NRWG9/ru86psSmWwyscOL4fi9WiRQMVsCmyLHPhncushFfYeWg7VY3aDmj7oV6uvX+TvffuNq6zafcvaMIk1BAkthFnZnSOmdFZ1sJr7DjSp9XWEE2IioiMjCiI9O7tojLo49q565x88TSH7z1AIBQo8VsBrZy3ib7d2+jd2UM8lmBjZYO11XXWV9dZWV5BUVTNK721AZfHidvjxu114fG687ZVRTHYJV3RxWMxRgZHGR0cJxFPYLFZ6NjWTkNbbQHYyDt1ZlIZFufCzE8vEJ5dIpPOIIgCVfVBmroacP6/7L13kCRpet73S1Pe++6q9r5nerzf3dmZ2d3b3dvzhwMOEMzRgIACAv8hKQZFSooQFUGJQlCCRIEgCRKSIADcM8Te7t7aWz+zM7PjTU977011V5vyJlN/ZGVWVXfP7ByAAw4R+iImero6Kyvr+zK/7/me93mf1+0oh82KewITvZUUhdnReWbH5vGE3GV2rPL39HaGl//VK0Tb63jhVy+UY+sq0fZ6Qg1B1hbXiC+sszS5wuL4MgCy2YQkl/0jJBHZpO1M89k8+WzeEEALglZV2RPy4At78Ue82B1lN2GxEq5QVZXUZor4wjprSwlSWykEBAIRPw3tMULR4K74vmSGSCxMJBZGURWuvXeDhcklGjsbyudVDVZFFARKKmyubhJpDROI+Tn77VMcfbGPB5dHuP32A4r5Eq3HGzFZ5Jq+1O/tXKbA0oM4qCreJheIaBbzBQWloFLMltiY2UayiNiDGriXEElv5Zj8eI7lwXU8USeNh+tpO9FghDmCzV42l7R6QTanllknAXanlfVFzTuierLLpLOkt9M0tTfWhHwqWQmyAVLUksrI8BjxpTgba5vksjnjIbLZrZjNZi1MZzJht9m1sJ1JRpY19kNnQcxmE1abDavNgtVmxWwxa/VN/pxNUVWk8qLV3tVGQ3OM/tsDDN4bIpPOcPb5p4yFTWdVSuVpTBBENtY2AKhrjBjnDET8fOcf/RKj98f54R++wZ1L9zjxzBFUoOd4F5HmUE3ml34dsHvh89f5cAdcTPZPMzMyjyCK3PnoHoM3Rjn+7BG+80/O4vK6NMaszofL62RlPk5rd4txv1TrGdLJDCBgtVlrGK3qNGVtnGtBij7u2UyW5YVlMpks6VSaTDpDOpUhk85QLGogU7NOKO3pM1L+NARBwO6w4XK7iDXEcLqcBIMBQpEQDmclE2gvMPKThCMM5kQPg5UBSzVYEQWRdCbNxvoGJ544jmySyTTH6P/f/zneKzfo/J1/S/0b7zP2W7/G7JcvwOfcb9VsN0D0nYs0/+BN3GNTAGy3txD66nP862KR0cExjp8+Rsvv/xGNf/oKly+/tut8Xf/bv+V/ev1d/sVv/zpnqz5jL52KoirEGmMALC0t09rW+tiC2p92+2sBKo8b6vm8MNLjhplSqdRD1eRLi0sgaG6JO9tQ/whOt5NYS7RGJ6GJERXuX+9ndXGVvpP7qWuOGIvt/pP7+PTNq6STaSz2sjHQQ65TQcHmstJ1uJ1wQ5D+zwb57L0b9BzpoqmjwdCvGKGgpjAuzxluXLzFx29f4sjpQ7R1t2q0cpVuRVFBFDQBrdPlwOly0NAa292HVWOhG6CpVROgLrxcW1ljdGCU2al5bWGqC7DvmGYrTnlnV1I0k7VivsjywgoL04usLKxSKpbKFvABgvUBfBEvctkKvlDUhM6PSrXM5/MM3xojPr9GqCFI15G2muPzuQLf+90fYnfZ+NpvvlS1g9KOsVjNRFvrqWupo1QssZ1IktpMk01lKZUUlFLZMr+khUG8QQ9Wu+bPYbGbsdltNeLEau2EWlLYWNkivrROYjlBLpNHFEW8IS8tnU2EokHsTr1EwsMfbn0H1NLTzN3L94nPxwnGAmWQjpHZpBv4VdPvVqeVQ8/twxNxMnZ9mtXJNSauz9BwMELrqQbsAauWkVUosjKgGW3V7fcj2cTyfV1bFHTlfoLE1DYWjwlVgLnPFpi9toKrzs7Jv9VHbjNPdrNQGyYpG5IV87VC9lJRQTbVTs6CILK+tAYI1DVUFumd9XNEQWBzfYvrF2+yvbmN1+8l2liPP+jHH/ThC/iwWCzGObX3Pr5wcy9B5uM0XW8g6kX+BAlFVbFYLBw7fQSL1cLtz+6wtrxGIBIAEYNV0a6zdi7YSzPT3tfK3/+Xv8m192/w1h+/h9lqorlXy/h4GEjZKXZUVQVJFmnsaeDOR/1ceeM6zT0N/Mb/+GuEG8PIoqS9R9KywKwOK7l0bte16G11KQ5AsK6i5dtp8LYTpAgIxFfiDN0fYmpiRtPuIGiVmR0O7A4b/oAPs9mCJGvFAmVJKtcsMmM2m7FYzJrpn9mMxWLB4bRjNn++ALZyjX++ca4eJVVVDFfunWBFA27Crmyo9dNHufry7xH7/o/o+j/+kIYfvMHgP/x7rB/q3f1ZO9ZDRVXY/7v/N63f/RGzX3mWsb/z8yCI1H9wheP/4vf49VOH+YHfy/HTj9aSAEiSyPbmlhbOeYhwWG8mk4zNZtuVpPKwpjM+eubPT0tw+zeCUXlY02vNfF5LJVPUx6LG79WgYXV5FX/At0ufsrmxSXw5zv5j+xAEKCkVbQrA2MA402MztPW2EGutr/E8iLXX43A7GLg5xKEn+2oW/l3fQRC0xVIQcQdcHH/mMIM3RnhwY5BEfIO+471arLAcCkLSYv9PPH+au5fvcfPybRJrGxw5dQhkGY1XLmoPrEgNYKmdLMt9gbLr+nT2pFgoMDc1z8jAGOvxBJIs0tzZSEtXM3aXDUWplBYolopaKGt6gaW5ZU2HYTFR31xHKBbAHXBrJmuKAqgUivmaz6tu+qSbSWZJbaWZGZolnczS2tdEQ0e0ho4vFUv82e+9TiFX4Nf+2S9isZorHii7xHYgmyUsET/BSC0w3flw7eUDoD+Iqc0M24lt1pYTbKxq9VQkWSJYFyQcCxKKBsqVqx+unTD6X99BAYgKkYYwbq+bqaFZQg1BQGNVSuVdTHVGm1BRSAKQS+WJ9URoOHyIpbFVRi9P8fHvXyfY5qXxeB2ZZJZ8pkC411sDUnaCaE+rg5X7CeaurrI2orEh3S82Ee4JaBWfEUmtZskmc9jdZSG4LCJIomYipyhQNt4qFopIpt3TzMpCXPMz8TgqepSqkA+KyuD9YYbvj2GzWTn/wtPEmmKPtEM3+qR6XP8yFy79PpUqYYCKnqcCWHr6uhi6P8SDO4Ocf/EsiorBqihqyQCdBtjdY15QFBVRFDny9EHWVzZYnV/lT37n+3QdaefCzz+FJ+TeBVK091ULMgUGr43wyQ+ugABdxzp48ksny/eVzghVdtiySSaZS+66Fr3Fl+LY7FY8HndNP+4yAhNFlKLC1MQ0ww+GWYuvYzKb6O3robO7A5fbhdVmqxKoV+uNfjIW5GFj+bkaGMPY8iEbSLU2xdxgUKpKiFSfy+F0kEymdp1HlSVmv/0Vll44R9u//xNO/pf/lKVnnmDwt3+NbF3IOP/OFr50g7aXX2f47/4CY7/xS4DWD/EzR8mF/Dz9H17mmsfF9ovny9WVy5Ya5a8t1fSp9qxvJjYJhrWx1+b8vfvI4XKQSj78PvjraD8VoPIXTVN+3MwfUdwtjt3ZCoUCuVwOh8NR87q+GK8srdDe3bbrfVNj0wgCNLc31Yg6AebLPid1jRE6DrQbLIuh0hdUek908eCzIQ4+sc9gJvZqGpDQ0gZLJQXZLHPwyf3MDM8x8WCarfVtjj99GIe7XJW5LLQ1mWVOnD/O8N0Rxgcn2drY4vS5k9idDijL9krlHXgFsJRvzB3p29X9AZBJpRkbHmd8aJJsJovT7aTvxD4aW6OIsgYOde1JNptlZnSOqdFpMqkMskki3BAi3BjCUwVOSkqhph/0/szn8mRTWdLJLNlUluRWivR2hsx2xpgQzBYT+0534Q/70EvXa+dQeeP/epflmVX+9n//X2BzlN0bHwE6drZHZQ6oqkA2nSWTzLK1vqXpVBLbGrOBgN1pp7mziUg0hC/kRSp7FVTT3VBbV6a6qTtj36qCKCi072/h7uV+4gvrhGLlQo7lnfhejEGJEqqiktnO4q3XwmLh9gCBVg8bS1tMXJ3lzg+Gka0S0cNBzI7du6rqibmQLpEYT5JN5Kg7EqD5iXpMZuA1oI8AACAASURBVNkICdo8GouR3shid1cEyLJZppgv1py3VCghy3IlbVXU3FE3VjZo6W4xMi9EseKUubG+xe3Ld9hKbNHW1cbR04exWq01Ys29CsrtNaZ7iTL/PEyKqiiIQoUZMjYdkrgLsJhMZvYf3sfNK7dZXYrXsCp6+E4URNDNynYqHKtafHEdSRb54q8+x4WfP8u7f/oh//6f/REnXzjCyS8ex2Lbnf0GsDS1woffvUR8fo0zXz7B0WcPc/+TB6zOxalviez5HpPZRD5f2HNOFQSRjfUN/GE/1Zbq+rNVDRqT20l+/Pr7pJNpfAEfTzx9hvbuNqyWCnivgJzdhm3Vf/+814y/PWJMH6UzkiRp7zWkPJ6KsUGoBSsoFSZaFEScTgcpIwN1t1Sh4HUz+F//JrPfeJGe//UPOP8Lv834r36D8V/9Bopl9/PY9vKPyLudjP/yV3f9bfJXv0Hjd1/nxfvDfDy7wME9vle1SFbvm/X1hAFUoJxuvEcoyulyGdm0PyvtbzSjIpR3uI9qqTLKdTh3Z3SsryUoFIqE68I1rytKicnRKUJ1Yaw2a5WQVGEjscnNT2/j8bs5cHJ/+Rpqs1QURWHfiR7+6H95mbWldSSzFuZArainnR5HJQUQ0NGtWM6Cb+5pxBvwcP/qAFffv8Gxpw/jDWjhK92DRRSg90gPHr+bu1f7ee+1D+jq66SjtwPZpBUqrAYsCnvTcjpTlFjbYGRglJmJOZRSiXA0xOEzBwnW+Q27bx2gbKxvMDk0zfzUAqVSCV/YS1tfC4H6agFutflbiUwqy3Zim821LbY3UqSTGQq5Qo1vicVuwe624QlFsLtsODwO7E4boiRSVEo1C88n//kyI7fH+dX/5tu4/a6a7/QwNmNnwbRCrkguo2lSCvmiAUzS22nSySxqmaoWRAGPz01TRyP+oBdv0IfNYd0lFBRE4aGL5q5+FyqiYVHRVQyaZmHcM8nM0BzhWNDQqqhG+KdS+qCEtvDm0wWUkoLNrS3oqqpSAtxhJ01H65EsIrlUnoU7cRbuxKk/HCB8wIds0ys3ixTSReaurrL6YINAlxt/hwuz3YQo1e58TTYZ2SqT2cgiNlcstk0WmWK+VAMcSkUFq00HcNo1x1fWURSoi0Vq+k8URJbnV7j20Q2sdhvnnj9LQ3PMYFmkcvHN6kySalBojK0gkMvmyKQz5HMFslnNtTafz1MoFMri21JZF1ELrPRmtVlxubVMH5fbicfnwWw2VxanMnDZG7AodO3r4sGdgV2sCoY4UkGvbqt/D0VUoKRrPhSUEsTn17BYLXgCbtzAL/3DbzJye5z3Xv6Ye5cGOfetJ9h3qsvYHKY201x85SoDV4fpe6KHr/3WF7W5RhDx13lZmtJDsbvZKIvVjFLSMoxkWa7p21KpRCqZprm9eVeYrXoMs7k877/xIYV8gee//ByNzY01tvbVAGVv1nIPgPIQEPJ5QufHZc6UHaE4VVUrn1mdAbdDSCsK2mytqgoOl4PVpVUEUaxJ99fGtRIuTHY0c+3//OeEP7lG7+/+Rxpfe4+h3/4Oc194ogJciyX894ZYeeIo6o4NNkDJbmPj+EG6PrnGy1NzlT8USyCqIKgaRlGKCOXvIggCifXaxJOH9avT6WBlcflxuu6vrP3MAJXH0a3sZFoeh7lJp9IAOByOXedfWVoBVILhQGVBVRUSawm2t5L0HOredb7heyNIksixp48gyRLFKr+PatFstC2CJEm8+/JHhBoCu1C7y+ek+2gHdpetyuMAqDJl8oTcHDt/mLuf9nP9w5ucef4UTrcTUSlPaoCgKkSbo7g8TgZuDXP/xgNGB8bZd7iX1s4WREk1AAtQk4EAkNpOMTM5x9zkHOtrG8iyRHN7I609zZVyA+WYeEkpsrG+ydCdEZbnV5AkgXBjmFh7FKfHTrFULIfAtKJ3yc0kq/NxA5gUyjFcQRRweBx4Qi6sDgtWh1X7abfsWT1URTGwTKk84d98/y7X3r3FL/6jbxKKBWpio9W7tnw2z9baVhmMFLQFK1cgn9VSxqsFs6DdUzaHDafHSSQW1qzW3XY8Po8R390LlIiCSDadZXszRSaVIZfJk0llyJZTYM0WM26vS/vnc+Pw2CvnUxUUQdH8XsqApX1fK/euPiC+sE4g6jNYFX2RVsuqTG0xUchsZxEQarLL9AVxazmFzWOl7VyMYlFh6cEq8zdWmftsheA+L+EDPjZnkixci2P1mdn/C6246u2k17Ksj26R2yjgCJlq+tbmtpJLVmLyoiAiSRrlb9R8Ac2XxqwJY/X3ri7EMZlNWuZTVcinWChy+8pdPD4PF750Hke58F21sHanSFNVFBLrCdbXEqyvrrO2uk5iLUGpVM0aVusoBEwmGdlkwmw2IUkyO9c7RVVYWVo1zAW1puIP+Dh8/DBNbY2IklwGJrWARRFBVMBsMrH/0D5uXr1NfHkNf9gPIpqGDAW1vHgIgkCpuGNhq1oI11cSBKMBdGsFQRDpONRK874Gbn5wl/f/9GNuf3CPc996gvnxRa6+cZNQQ4Bf+affoq7MnOh95wv7WJxcYTuR1FgeKouVKIjlZ0+oCUvpf9tMbIMq4PFWwj47M7MUVeWTdz4hk8rwwle+QF2sDkmUap7HaoCyE5zsZkIfX2/0OH9/3KYDFx2wKMruMJAoVuovCYKI2+1mcmyKXDaH2awbDtauafrYiqLIyrlTrJ4+TMvLr3Pgf/43NP/gTfr/wd9hs6cd8+YWUr5AZscGWjuH1ifZujDmUonU5AzIMqZkinPHXtzz++RidThdLrY2Hk934nQ6NXNDRUH6azJ429n+2oDK4wpqH9UEQah1Ed3R9EKCgFFNs7ptbW5rKZRuZw3gWVtdByAYCVTSOxWFQqHA0twKsdZ6zFYTpR3eIPpn5nN57l0eIFDnI5PK0Huis4yWVRAgl84zPTjLzQ/v0rqviVh7vSEG19kVHazYXFaOnjvE9fdvcfvSXU4/dwLRIhpgRVS1x8rldXPmuZNsrG4wcGeY21fuMDYwTu/hbjxejyZ2QusuFZX11XVmJuZYX9VQti/ooe9YL43tDcgmCT1VWGeJtra2GLk7xvz0AqIk0t7XQn1rHbJJolgqUijmKSkKG2sbrM7HWZ1fI53KAGB32fCEXdhdVpw+B3a3zdg91NwDglYZW28aTV5mg6omz5Gbo3z43Yt87bdeoqGzoj3S7gmRbCrL2mKCtcU1IzVWEAQkSdKK19ksePweIg1W7A47Nke5sJ1VK2i3VwhHqBJ66gAosb7J5vomW+vbbKxvGh4v2gIEFqsVu8OK1+smlyuwOL3EzNgsoE2CvqCXo08exu60a94uShFFVJCRibXEmBiYYuLBFIF6fw2r4vG72FpL0igImjmbghb2EgRyqTxmh91ga0ATuhayBQRBRJKh/mCIyH4/iekt5m+u0v+nEwiSQNuzUYK9HmOBUIqqJtw1WJcKmCtkC4aAVl9gcum8UTpCEEVy6QKFXAGPz1XDsMTn4zS0NlQASBnw9d8eoJArcOKFY9jKGp+dIEWvGbS+ukb/nQfMTs8bLJPJbCIQDNDb16sBTLujnOFjw263YrFoQPhx/SAK+QLb29tsJLbYWE8wNjzOB+98RDAc5Pjpo9Q31FUxKZWYvw5WOvd18uDuIAN3h3j6+Sd3sSrBUABB0LQfvpDXCOPp95lCCYfbTno7XX5fyehvk8nEyeeP0nuqm4uvXOHl33kFi83M879ynt7TXXt+R10oa3PsXc9me2Mbk9lkzJX62AAsziwhigKRaBi9qJ1+nfrPW9fusLoc5/wXnqYuVlcVpqtlUWpYMGNz8XATv11ZJ4rmUK1tAjJkMhkymSy5bJZsNkc2kyGbzVEo7A5jCYKAz+clHAkTjoQJhAIPZRZ0wPIosKKHgFrbW7hz4y6jg2P0Hdm/y0RxJ9MCoFosTPzaN5l/6Tzdv/8nPPV3/wlXfu+fk2qsK79pz8vS3w2AxWJFKJUo2m3c+8N/hYgOgLUxqv9/vovz9n2UkqJ5bxn98HAAoipqDdv3s9B+ZhiVn1bL53X7fO3hq75xk8lkTTqb3tbj65gtJuxOuxHWAW1CKRVLhGOhckVPHZxURKH5XI47F/vZ3kxy9MJB3v3Tj/AEPUimitMggDfiZezuBGP3J1lbWqdUKJHPFoi1R4m21mG1WQ2wYraZ2H+ylzuX7tN/Y5DDZw6CiAZWhCobKUXLNnnyC6dZWYgzcGuQax/feOgN5/F72H+0l2hTHTanrQZ06X4mmUyGkXtjTI/NANDY1UBzVyOiLBhZO4VCkdnxOebHFsmksyCouAMuWlob8Ybdhjmb/qDqhR53Nr2njQnB2O2pBmiZG1nkzf/4Y5775XN0Hm4r96k2icQX1pgZnie1mUYAHB4Hrb3NhKJBzazLbDJCJjszTPT/7xnCUWArkWQjvsHG2iYba5ukk2kDkDjdLiLRMP6AD4/fg8Nlx263I0q1k4GqqqRTGTbXtfL0YwMTfPruFU6cO6aF9UQZUVUoUkRGpvNAB7c/vcvK7CrhpqDBqgTq/YzfnySfLSBbtIXb7tXszrPbWTwRp/F9VFHEEbCxtbJNZiOHxaMzIwLeZhfuJgfXfn+QhpNBQvsqmXGCIJBN5JGtMiabXLNYKCWFfLKAq9lpvF7MlShkCrhaHcZrm/EtEAT8EZ92PaLIynScUkmloS1W0+eJ+AaTI1N093UTCoc0YFK1W5fK5egX55YYuDvA4vwSZrOZnv091NVHCIQC+Hy+sn5ir0J1P/nOULLKmC0WAkGt7w8fP8TY8BjXr9zk7dfeJdYY5dipIwTCgTI4qQUrFrOZ3gM93L52h0R8A0/AY7AqilrC5rDhD/pZWVil80BH5b5TtRpcoigQiASYGJikkC+UNxC11+jyOHjxO88SjPr54OWLNPXGap736j7YTiQxW0yG10q1vkQfL3/Iu+u+BYGluSVCdaGaDV+FjRGYn11g4O4gvft7aO9uN8a1+lkTal6rBSg1zGQ2S3wlztZWklQyqRnyJVMkk0nSqTS5bO4hOhqwWCxYrFZsNismk2lHXwgUSyUmxicZfDCkfZ4kEggGaGtv4/CxQ1rIi53aFGFPsKL1gaZXCYZDxBqjDNwbpPdgzy4gV82SVc99giCSC/q599/9fSZ/8StstzchKColswnb4uqe4ygKItalOHlZQooEYWEZJJHk/u4ahlIURAp+7dnL5bJGhtzntUIhj9ls/v+Byl9WE/h8Ma0BVPZIZ0ttp3A4KzFAPeNnPZ7A6/caA6Uv4AuzS8gmCX/YZ7yn2nclm6mAlH0nu3AHXLz/3U8Yvz9Jx46UWrNVpvdkJyszq0w+mGVxYomt9SSfvHKZUlEh1BAg1h6loT1KY0cD9U11tO1rZuLBFL6Al5buZq0PdL0KFbAiihCJhQjVB1hbTlAsFss3r1AmMgRsThuusq294WNSBb4KhTyTI1OM3BunUCwQa6mjuacJs02r6loslQwh7fzYArl8Hk/ARX1nM56QE7HMyqiKUs7w2Z35VL3DqHWvLD/URlkBBUUUWZtP8Nq/eZuTXzzKgad6a8yQsukcQzdGsdqttPW1EI4GcbgdOwSYtYZi2mfp4ZTKxJLP5NlY2yIRT7AR32QrsVXW+QjY7DZ8QS8dPe34gl78QZ8BgrX3P/rhdrtdOF1Ook1Rmtoa+fTHV7jy3jWOPnmYSEMYBZBFmSJF6pvqmBicZHJwmnBjRasSigYY759ic2WLQKPfmPgdXjvpTY1BFEXRYKc8YSer4+tsL6aweX2AaOz6VVVFySs46zQNV4VNUcht5nHVO2oEd6IgUkgWUVUVm6dSej65mQZBwOG1G69txbex2rXQns6ILE4v4XDbDQZBFAVUBW5fvYfD6eDAsT4DmOiaFEmSmZua597N+2ysb+BwODj1xEl6D/RiNps/N6RgXPtPQGPvzBxTVAVJhO59PbR3dTBwf4Bb1+7w2g/e4PTZk/Qe6NkFVlRBpKevm8F7gwzcG+LJZ05XMoAEzVOlriFC/60B8pk8JmvFbVlnXgJ1PiYGJkmsbBCKBbTnYY9Fr/t4Jx+8fNG4/tqFTev77UQSl8+5J3tRzBdIbadpbGswXtf/bW9qJQU693UYz1E1yMmkMlz+8AqBYICTT56oWSz1Y2q0SOXduiiIFAoF5qbnWVleYX1tnfhqnOR2quYa7Q47TqcDr9dDLBbFbrdhdzi0f3YbNpv2z2K1PNYYq6rK5sYGK8srLC+vsLiwxGeXP2N0eIRzz54jGovuyofR9X01YIVaW4UDh/t4+/V3mRqbpr27TXOLrZrvqlmVasGtLmnY1qswi5A40E3gVj9SJkvJVmtWKmWy+G7dZywSwun3akDlkV9Yy47cK6qwswmCSCFfwPSQ9O+9jte/D/xkz9hP0v7GApXH3SHlchrdaTbvVsdvbyepi+4U0ipsrG/S0dNa87qqqizPLROqDyFJ0o4YOOSzee5cvEd6O03fmV58YQ+KotBxpI2hG6N0HGnb9fmCIBBpDuMNeXG47SQ3UvSeeIlSvsDS9CoL44tcffsGP1p4G9lsItYWxWqzsLIQ52lFob23TWN2xIocVwcriAoIEKoPlD9r5+5+pz19pV7M6nKc+9cfsJXYJlDnp+tQGzannZKiaVAyqTRTI7PMTyxSyBfwRTx0drTh8NoNtkSv5JtOZkhtpcmlc+TSFZ1IsVDCZJYwWUyYrCZMFhmLzYLTZ8dq1x5MRdSM7ERBJLm6zav/+i26T3Rw8qUjGG6KIiBITD6YRlXhwBP7sDvtRsXih4GUaoBSzBVZW06wurjK+kqCTCprhIq8AQ/tPe0Ewpp3h1Zafm8x4V79vFcTVQVFFXB7PVz48gWufHCVG5/cYt/RHg2ACiKyKIMM3Ye6uP7RTZamVqhrDaOqCnaX5j+RWN4i3BxCURVkVcLpdbA8tYKqlDUHZREjMnjqXaxNJyjmFGSLiA5WSukiqqJidVkqxwPZTc2B1xm0G+fSF5nctlZF2uV1IEna65ntLJIo4vQ6NPZDhe31JOFoCFkylRe0LJtrW/Qe7kESpTIQEZkYmmZ7Y4uzzz2JxWyuGh8BAYH+Ww+4c/0uPr+Ps888RUdXOyZTLUB5lN5hr53hXvNH9U5XN+YzNkJVBKDZZObgkYN07+viw3c+5rNL17HZbbS0N9eAFUUUsVosdPd1c+/mfTYTW1rhRZ1VEVTqG+t5cHuQ1cVVYm0xjQUTylltgog34MVkNpFY2STcENJYVkHbjFSuqzobrMJCVX/XXDpHJpUl2lZv9G21WWFibQMQ8If9lWekDN6XZpYQBIGGZj09XDCeLVVRuPjBZRRF5cLz5zCZTXs+c/p16CBlbXWNof5hRoZHyOc0E0h/wE9DYwOhcIhgKIjP58XhdCDLuxfNv4geRUHB6/Ph9fno6ulGVRWmJqb48L2PeOV7P+TA4T5OnTmlAR+q2JUqsKJfgwJGCKihuRF/wEf/nQe0dbWWj9G0KpTPI4ii5vasVsZMKWuPoAJ8pn7pqxz/R/+Ctj99jbFf/0XjXKIg0vzHr2De3Obt00dxeWqTCKr7R3s2Kpt5m81awxrXHF8lgM/l85hN5l2GfdXn/qtuPzWg8pdZSflhba/aPTuvIZ/LI4oSsizXeFCUSiXSqTROl7NyPlFka2OLUqlkZNjobWNtg2wmR6Rht8BJVVVuX7pPejvD/tO9eMMe44brPtbB63/wjkHd7tWsDiv7Tnfz4NNBRm6NcfT8QaJt9Zx49iiiIJDL5FmcWmZhYpGZkTmGb49y73I/TreDlp5mWrqaaOlqprWrGUf5+2g+DJWKzDvTvasnZd0PpVAscP/aA2bH57E6LBx6oo9g1G8UtCuWisxPLjB6d4JCPo8/6ifWUYfFaUZVFQqlAqqiFRqMzydYX0iQ3s5oaa2qiiAJmG0mTBYTdruFfK5IajtDcW0bpVjS0jQFAU/IRbS7DrvThiqIpNIZXv+9d4m0hDj77dOo1Kbfba5tsTq/Rktvo7F7r7kP9gAppaLC3Mw8i5PLbCa2UMuGXcG6AJ37AgTCAXwBryF43enZYYCVKjFioVAkk85iMsmaHkKqDfdV+l1EUDR9kd1u5ekXn+LGxZsM3h4mtZ3mwMl9lMpgI1wfwhfyMTM6R31rHZIko6gqoViQ2bF5TbwqiqiC5sOzNLFCPpnH4jYb2T+KIOKLuUnMbrI5m8Tf7kEUQBQkUmntPrC6zJUJSBBIr+WRTBI2j7UGpEiiTH67gMVuwWSpLErZzRx2j93IFslsaWDUH/EiCgKyJDM7vYAgCMTaosaYpJMZhu4O09Aco6GloWYBFRC4c/0eA3cH6ezt5OyFJzHJJiRRt+iv1Tw8LJxQfR88qu2k6bWTldmUchqrSGVes1isPPviBd589W0uvncJu91BuD5ogBVR0MBgb183Q/eHGbgzyJkLpwCxLIxW8Po92B12ludWaGxvRBXK2jNFO0aWJQIRP4mVBGqZjZFF0PW3oqgp2ipgQEAWdwjSRZGl6VVEQSQS08Jqtf0msBHfRJJEvEHPjsVJYGF2iUDIj93hqHmGBEFkbHCMeFmX4vV7d4GUahApCALjoxPcuXGH+OoasizT3tnO/gP7qY/WGVWMPy9k9xfetSu7f21tbyPW2MCVS1e4e/suE2OTPPv8MzQ2N+4JVlBq7xMN1EkcOHKQT97/hPmZBRqaY1UMyt5gRfvbbsCy8vQppn7+S3T+wcvYltdYeu5JREEg/P5lGn74DkNffpY7sTqe93pq7vfquUlveqapdQczU30fVLe9GJW/7DDQTwp2/sYyKgCSLGtpmKXSw70qVF3cKGhaVv2mKGlmVzud+rJlQaR9h+Asta1lD7l97l2fobmdbtPc24g/4qu5gVv3N6EqKjODs7QdbHnINWpCp95T3Vx/9zbxxTUcbruxqFlsZtr7Wuk80K7FNDN5Pn71EqVCCZPJxNCdUX78nz8kVwZSrd0ttHY109rdQkNrDPOOPP1qwyKdRclkMtz4+Bbrqxu07WuhpacRQdJiuiVFq6MyfHuU+ckFPAEXLQe6sdhNZZalRCGfZ2U2zspcnGQihaIqOLx26rpCOH12ZIuMUC5+t5c+RS2h1dRZTbE+m2Dw0gh17WGCDQHe/XcfY3NZeeY7TyFQtdiXWZXtRBJVVYm11RYAq94Z6v+XRZn11QR3Lt+jkC3g8XvoPthFJBrCH/QZYs2H1ZkRRZFMOsPa8jqbG1ukt1OkttMkt5PGvaPfY7IsadklFjN1sTBd+7twlF1qFaEc/y5Xcz59/iR2p53h+yPYHVY6+rQ6G8jQ2t3MrUt3WJldJdIUQhIlIk1hZkfnWZxYIdZVh6IqeAJure7O6CqtxzVr+pkHC/ibPFgdVgKNXuLTCfKpAqFOHyaHTCFVwGSXjQJkqqKyOpogm8gRaPEgV/WHJMrktnIk19KEmgPGa4VUgdRGhsbumLFbX51dQ5Zk/BFNCFwqKixMLBKOhXE47Eiipjm5d+0BkiRx5PThHWyXQP+dAQbuDrL/YC9nnj5TYWEeE6AUCyU2Extsbm6zsbFBLpst+/BUmBJRFPB4Pfh8Pnx+Hw6nwwBCu8B9lbhSX+wsFisvfOV5Xv3+a3z4zod85Vtf0rRtIojGTtbGvoM93Llxj86VdYJhfxlEioiilmU3dG+EzfVNXGXhsSaU1wBoQ3uM5bkVJu5P0nm4HUUBWdQWNv0KqwFzrTutyvTgHHOjC9Q1hrA7bcZ9rC9opUKJhaklwvUhTLKp5plZX15nK7HN8SeO1LApWv8WuX/7AXXRCO2dbTUAp2aMRC3E8+O33mdmcoZAwM/5Z8/R3dOtafH0LLEdrFj196p+pv/CbXdcB9BY93PPnKOrp4v33nmP11/5ES9++QXaOtoMsKJdp1BzD1SHgNo6W7l/+z6ffnjZuBf0ENBeYMW4BLWaFdPa0D/+TTYPdNP0/Tc58o8/ASDZ0UL///AP+BNBwLK6TjgSeiiI0MG+zv77ynoVYcc9srNtbGwQCgUf+nf4q2dV/sYAlb1MdCwWbXLN5XK70KLeJFmiVCruYl7EKnfJmtdFXZdSex791700CHrhM4t1d3hJNsm0H2pl5Nb4LqCy027YbDNjd9k0EeKOzGilXIZVEkRsdis9RzoZ75/kzHMn+dp3vqRZn8+vMjUyw/TIDJfeucx3/91/RhRFGtsbNPDSrYGXQJ2/Rn+zHl/nxie3yWVzHHxiP5GGkCGoLSlFkltJ+q8OspnYItZeR0N3lJJaKlvml0gsJ5jqnyWdzGBzWanrCOKOuJAtcpVAt6RZ1O9o1VU5TQ6ZkNOHP+ZmcXiFhZElrv7ZLVQFvvIbX0CURYqKJjRFEg1WpZAvGH1dGcfaSU9/aKdGZhi+M4LT5eT0+VMEwj4jhXIvgCIIIqlkmrXlNVaX4qytrJHcShmfYXfacbudNLU04nA5sTvtWoG8XIF8Pk8+nyedSjM+OMH44AQNrQ107+/EH/IjqoIBWAAOnThAKpli5P44dY0R7C4HqiASba5ncnCKyQdThGJBRFHE43MTaQyxNLFMuCmIbJFQzSZaDjQyenOC1Yk4wdYA175/l7N/+wR+p4dwRwCz28zKSJz5uys4gzY2F1PIZon4SIJirkQxU6RUUAm2+fA2aIumnnmDqrIymsBsNRNpDyGXQcPy5BqySaauJYQkyRRyRVbn1oi11mt0sygyN7JAIV+k+0CHsdtemF5idTHO0dOHcbvdSKKELMlIosTo4Dj3btyns6fjc0GKrndIp9JMjE0yOT5JYn2DVLJW62Aui6kFQWPutNTgIoVCwTjGZDbj83lpbm2h79B+bDabUc9H14QoaAyLqGrsit1m54UvPc8r3/shH7zzES99/UVESUQVKiGg/Yf2MTwwyv2b/Vz44jntXGVWpftAF1NjMzy4cQ5J5QAAIABJREFUOciZ504Z96wqaGxYJBqipbuZqeFpSiWF9gOtWsFDKnqYaobPCCMoKmN3J1maWibaEqH7aLexyFazKZPD8xTzRToPdtSADUEQGX0wjs1upbWztWa3LggiQ/cGyGVzHD99vGKZL9T+FAWRXC7Hm6++xcrSKk+ff4qDR8qi1SqAslfIbudi+Hlh1Wpm4pHHVf1fTxfWftF+1Efr+fYvf5tXvv8K7771Y77+ra9RV19nvK9aYFsNVkRRwWwy8+wXn+HV77/GR+98zIvle+FhYEUbpz1EuuXfl196huWXntG+f7mPp8enWfzxRU49dQKL1cL0b32H2f/qb+9iswDm/tt/wOu9XfhzeQKBwOcCjEwmy0ZigwMHD+zut5+AyXqcEPhP0n7mgcqjQki6ijmfy9cAFd39EcBUTjXVWJfa8wK7F09jAa+92XUKby/mpljUEOtODxC9dR9r593/90MtxVaq/T47wYon6GZldhVVURH2OJ2+ODd3NTI3vsDQ3VFOP+tFEiXqmiJEm+t56vkzWr9k88xOzDM1Ms3k8DQ//KPXWVtex+6009LVRHNXIw6nnY31LZxeByefOYbL5zTSkktKkZX5VR5cH0Ipleg50YE34in7pZTIpDJMPZhhbTGByWqi9WgjDr+NUvn9hVK+bCZX8ajZqxkTs6pqWUwmkfr9YabuzpPezNJ5upVisVi2iC4zEVWsimZgJe0am+odmlpS6b8+wNLsMnUNdRx76ggWi9nQSewEKNlMnrnJOWYn5thY1+L3VpuVcF2Inv3dhOsjWmhIlnd9j51NURVSyTRD/cOMDo4xMzFLuD7EvkM9hOtDaAhUhlKRo6ePEF9a486Vfp56/jSKoOlDeg53c+X9ayxMLtLQEUUSJVr3t7A6H2duZIHWg01Ikkww6mdzdYuVyTiSRUYpacyWrj/xhl04PFaWRtfYXkmyNZ9EEARy2wXMVhOWgAW734ozqIliq9ODE3NJCukCzYcbMJm013PJPJvLWzR01WO2mBEFgcXpNVBVGjs1szZVgZnROcLREL6gT2MsFBi4PYQ/6KOjt70m5DM9PsP1T2/Q0trM08+erQDJMkjRAJLW1/l8nqmxKcZHJ5ibmUdVVQKhAM0tTfj8Prw+L36/H4/Xs2edE1VVSaVSJNYTZT+WdeKra1y/eo2b127S2d3BwcMHidRHtGeVioi1OgzgD/i58IXzvP2jd7nyyWc8deGJ8q5ZW4TMFgsHjx7gs0vXWJ5fJhILG6yK2WKh7+g+bly6xeLMInVN2qKosyoK0HWoHdkkMdavZQl2HmojUO9Hv+X1RVoP0yklhaEbI6zOr9Hc3Uh7X6uhu6lmGkuFEjPDs0QawvgC3ho2ZWNtk5XFOIdPHixrTyqMVTadYfD+MG0drUTqQrsWSR2kpJIp3nz1LbY2t3jxSy/Q2d1pMDO1/iq72ZSdguBHzR21r1Weuz2fxyqoUvPuKt2P2Wzmq9/4Kt/7T9/jRz98g2/94s/h9XlrwMrOa9DBit/v59xz53jvzfd47833ufDiOUwm0y6wop9nL8Bi9MEO4FYoFLhx5Ra+gI/evp6H6kj047PpLMuLyxw7tXdNIL3v9fFbWVoCqCk58xdtfxnsy18rUNEf+If9/nnv04FKNpdF823c3XRPjGKxiMVirqXvhN3OtpJQK0DSjn20ME8pB4wlWUIvIlfdWg+0kMvkee8/fcL+092Em0KYzHt3vSfoZmlqhe2NpJbO+JAmyRLt+1oYuDnCykKc+obdtthmq5n2fa107G83Xttc32R6dIbxoUnuffaA5bkVioUi/rCPqeEZGjtiRNvqibZGWJheYujWCHaXla7jPZjtJoqlIsVikYWJRWaH5ymVFCJtIYLNXhS0MFxRr/+TL7K5uk02lUMpalVRlZJqhJ4cPhuukB1z2QZcNzRTVZX+H4+wMhHn2b93huXxNabvz9F1ug2zbEYRBE2wKFUofslUOwnrTRQFMqkc9y5r2Vi9h7rp7OvAVOW8qYUwJEqFElOT88xNzhFfXkMQBAKhAMfOHCXWGMXj8xoGSMau8xE7QL0JqoLb4+bEmWMcOnqAkcFRBu8P8/E7lzjx1DHNmK+cvWW32zh65jBXPvyMsYEJOvraAAhHQ4SjIaYGZ4i21CNKIi6Xg1h7lNnROepaw1idZiRJpmlfjO31JNN35gEthVUVy6UHRBks0NhXRz5bIJ3I4vDbaTvduOf166LkfLrI+vQG3jo3vogHSZSRJYmFqRVkk4m61giSJKOWBJanVwnHQrjcTkRRZHFimWK+RFcVmzI7Nk82nePUUyc04V55LFaXVrn80VXqo/Wcf+G8AZRkqZb1KhaKXLt8nYH7A+VK4G6Onz5OT08XgWBgzzCCdj/s/o5ejxevx0tzc7Px2traGvfu3GPgwSDDg8PU1ddx5PgRWtvLIsnycdVgpa2jjWMnj3Dz2m1CkRBd+zpqQkBdvR0M3Bvk3s1+vhB7toZVaelsYXxwgsHbw4RjEW0XLlSEtSbZTEdfG4G6AAM3hui/Ooi/zkf3kU4stkoqaTaVo5gvMjsyT2J1g86DbTR1NT5UWD4xPE2xUKL7UGfleRC0kN5o/xgWq5mOnvYqcKP97L/1AFSVIycP1zgR15RCSGzyxg/foJAv8rVvfpWGpsYakFLNolSzOJXn6eHeKjXP1x5juteiD7tDLDpoqWbM9PG02W18/ee+zvf+0/d47c9e41u/+C3sDvuusd9LXNvW3srZZ85y6cNLvPej93nuS89hMstlobV2B1WXrQCMOj07W/VG7vqlG6RTac5/4WljbTP6oWps9X6cnJhCVVXaO9oqx+wAitVtaVETTtfVRfYEQHsByc/LdPzLaD/zjMqjWjWj8rBmKivGdxWSEjQnRrVcd0M3WsKgIysW5YChbxH1HUtVDLlULKEbTunn1m5YQAGr1Uy0vY7Z4Xn6Lw2gqhCKBahrjVDfGibaXk+oPoAgCvhCmoh3M75VA1SqJxq9xVqjTI/MMXpvjEg0ZOyadz4Aehqvqiq4fS7a9reyHk9w8NR+2v7Wl3H5ncyMzjI9OsudT+/x5p+8q+3E3XaCsQC9J7s04GR2kc/nGbw+ylZ8C2fAQaw7gmyTDN+VQqnA5so2G4ubbMWTGmMlaEyUIAmIkmZHr5ZUkvEUy2Ng89hwhx346t2ossjoZ3OMXp7i6b9zEm/Ug2SSmb2/wNLYMg3dMQS1wqqIqkAhV9jT0VYURLYS29z6+B6iIHDy/DHqG+prJmNR1EJCow/GGb4/QiFfwOv1cPD4AVo7WvB4Pbu1KtV6gF0Pcu1Dq++gFFUDVja7zIGjB+jp6+ajdz7m+sWboEJrVwuioIIk09TayNzUPKP940QawjjcWgio90g3F9/6lOnhGdr6WlEUhdbeZpaml5kdWqDnpObFYTFb6DjaypVXbiBbZEwWkzGZCopQAfo2kWKmiDfmxiTtnY6o+5esjmqAJNZTb4CUQrrE5vI2sfYIVpsmul2ZWUMpKjR3N5bDbSJzYwv4Q14CYb/BpowNTBAI+Yg2RdHFtihw7ZPrOF1OnnvpAmaTaVcoQZZk5ucW+Pi9T0huJ9m3v5cDhw5QVx9BEPZIUf5JNA5VfwqFQlx49gJPPPUED/oHuHf7Lm+9/hZ9h/o4e/6sdj36GFeBlZNnTrK6vMr1y9dpaIpid9qNEJBsMnH4xEEuvX+Z2ck5GltjVZW+ixw6dYCP3rzI1NAUHX3tqIKoVU03DIZkAiEfp547zvToLBMPJrn245t4Am4SZePG25/cw2rXwm37T+2jvrlSpmAnSElvZbXNSXsMn7/CpgiCyPbGNktzy+w/vM9gynRN0vbmNuMjk/T29eD1emrGR/+5vLjM2z96B0mS+eYvfINwJLwLpOwVnn0YOPlJ6zM97PiH6UJ0wGK8qzx3+3w+vv5zX+cHL/+AV//sNb75898wsoF2jn11arkoKvTu78FsNvHhux/x9qvv8IUvPWtkNFansX9eE8trzOVPrjAxMsnhYwcNQz3973sJmEVBZGpiCq/PSzAUfCxmY2lxCb/fX+O5Ul3b6ZHX+VNKTYafYaCiL6yPanq4J51O7/l+VAVzWceSz+Ww2bTOF0WNGpVl2QA5+kJkkk0ICORzBeM8oqAdC1DIFbDYaid1PR5YKpTKE1g5Nk0FrPzKP/l57TryBVZn4yxMLrM4scRnb90isbyB2WqmvjVCXXOYZCJFIrxJS0/zQ5EvaDqbtt5W+q8PkNx8NAOj92WxWOTWxdskt1IcPXuYUDSIoiqEogEOPXUARVWYHZ/j6jvXUAUtfHT1rRvlazRh99ixOS00HWgk3BYwQIqilEgsb7A0HieznUEyibgjDpxhB2anXK4VVDue+XSB5Gqa9FqW5ZE4a9MbSLLIwLvjnPj2QQKNXoqlIq6QA2+9h5XJNW3nbqu9bUulEpIslS2fa7/3xIMpJFHkiRdO4/G4ax9mURN53rh4k6W5ZaKNUQ4c3U8wHKyICqszfXbQrEaMvUpcmC8Va/wKJGoL2unxc5PZzIUXzvPRjz/h+qWbyLKseVgogCRz7MwRVhbj3L58j7MvnkESZbx+Dw0tMWZH54k0RrC7rVitVpp7mhi7N8Hq3DqBmBdJknF7XTh8DmSTzPyDZaL7IsiijCIoZRGvZiyW3c5j99iQpN1TgShooZ3lkTiZrRxN+6NYbVaN3VBF5ofmkWWJaEc9siihFBTmRxfwh334gj5kSWZ5eoVMKkvf8X2GxmRmZI50MsOJJ48bYR1BELl/+z7b20le/Mrz2Gx2Iyynp0ALCNy9dZerl67h9Xr45i98g4bGhl1hBNitUYLPj5tLO+ccURPCHj12hMNHDnHx40vcunGTdCrN8y89ry285UOr62idfeYs3/vj73Plk8947qVnakJA7V3tDNwd5M61e0RiYc1uvRwCCtWFaWxrYLR/nGB9QMs8VIoglf2SStrtYTaZaO9toa4xwui9cdLbKZzlNNXuI12Eo0HsLjtmi2lHeKWiu8pn8ty+dBez2UTf0X0Ga6X3c/+tQcxmM90HumuBCHDrym1kWebwsYM1z4R+/lQyzZuvvY3dbuNrP/dVvF7fI0HKI9P9H4OxfNxWHWaBCmjRAYuedaOzK4haaD4SifDlr3+ZH/7gVX706ht85etf1sDbzrGvOp8OVto72zGZTLz31vv88OXXOHbmKF29nVC+J2rbHsyQqjI7OcP1KzfZ3kpy7NRRDh0/+FggJbG+wfzsAsdPHq0Kn+4eB/0cxUKB+bkFenp7HtnXnzcOn68l+snH8acKVH4aKcrVAMbn01TM6+vrDz3e6/UAWkEmj1dbqErlNGV/0M9afK3meI/PjSRLrMcTNJXNjwBCdUEEBOJLq7h8rQYtqwgivqAXu9PO6N1xjgePGEXc9FaNuM1mE7H2emLtlQyVTDLL8vQqCxOLjN2bZHU2zoPPhvjwBxdp6IjS0B6jsSNGU0cjNrutZsLRNyDVQtJHtQc3B0nENzj85CEisbCR9aNrSAqFAhMDU9S31nH4XF9ZNFsiuZXi7if9TD+YRVEU7r7Xz2c/vInNrWWTmGwmSsUSzrCDup4Q9oAVBLWsdalY8etjCCDbJLxNLrxNLvLbBaY/W2T25iI9z7dT1x3QhLOiZoLli3rYWNxkM75FKFYV/hF1Vmw3/ZjP5YkvrtHe24bL7ayJv4uCSC5b4OoHn7GxvsmJp47T1dtRnrAfXlsGVWV5YZnZ6Tk2E1vkslly2Ty5bI5iucCdy+0iUh8mUh8hUh/B7XWhZztJgKgIKKqIaBG58MJ53nvjfa5+ck0TqUbDGgtns3Hy7DEu/vhThu6M0nu0C0mV2X+sl5WFVYZuDnPsgpaJ0dzZyPpygsn70zjcVqwuDcDLsoQ74GRjaYv0Zob6njB2r01jVMqAJbuVw+Gxa74tVa1UUFieWGNzcQvZLNN8oEEDQaKEgMhM/wKpRJqOI21lfwaJkTvjoELvUa1IXimvMHZ/kmAkQKxJS0ku5IoM3h0m2lBHtLHeYFMS8XUG7g3R1dNJQ3PDrsWvVFS49NElRofG6Ozu4Nnnn9UqKj9mGAEej6LeU78gauc9d+FpXG4XH3/wMW+9/jYvfvkFDUQZ79UWLI/Hw4kzJ7hy8QrjI5N0dLdRpKiFgER44vwZ3vizt7h95S6nz59ELM8jsghHzxwhEd/g+se3OHHuaAWsAEggKpqgXARcLgeHn+gDYCO+yav/4Q1iTfW4/bVh8GovE0HQyh9c//AWhXyBJ549haUMPnWWcXZinpWFFY6ePoKt3Md6yGd2YpbF+SVOP6VVaq+EhARDsP7xex+jqipf/ebDQcpeLMrDwqnZbJblpWWWlpZJrK2Ty2n2+JpYvUCxWMBiseJ2u3C5XbjdbtxuN4FggGAwaDx7NWGWKtBSXflavwd2gpXm5ma++JUXefP1t3jz9bf40tde0nQnO8a+poghWhioqaWJr3/7a1z68FMuf3SFm1du0d7dRl0sQiQaMTy+qoFLLpcnsZbg9vU7LC+u4PV7eeGrz9PYVDHkq/RfbbgHNIBz8cOLWCya58/jtKGBIfL5PH0H+2o+o3osdra/irAP/AwzKo/TrBYrbo+bRGLD6ERFBEqVmKGekpVYT2jx5aodUzAUpP/uAy2sI4qIqopsMhEMB1ld1uyL9d2O3enAF/SxPL9K+772it+BKiLLMgfP7Oez928ycH2YvtO9aCRLpbqmfj16q9biOFx22vqaaeiIIooST7x0klhrlIWJRebHFxm5PcZHf3aRYqFIuCFMU2cDzZ2NNHc1kUtrxlw6c/SoNj02w/ToDG29rdQ3Rgxwohu+qarC5OAU2VSGg2f7NBakXOcom8pQLBTpO9dD4/4ohVKBrfVtViZXmbo7x9LoKrlkDqWk4gzZaThSR+OxSBUQqgq9qbVmeaIgkEvnmb+3jK9ZKzdQKBYxybKx+7e6zEgmSXNjjfoR1PJ4l69vLyHz6nwcVYVoc53R//rEmtpOc+X9z8jnCjz9hadobI4ZqcmaYFMyAEqpWGJ+bo6Z6Xnmp+fJZXPIsow/4MPpdBEIWrDbbVisVgRBYGVphYXZRcZHJlFVFavNQs/+bg4dO6iJqcUK9Wsymbjw4nneefVdPn3/Che++DS+oHbPxppitPe0MT48QSQWxh/xYrVZOXC6jxsf32J6aIbm3iYwwf4TPdz44DYjNyY4cLYXURLIbGcJxvx0HW9jqn+WyVuzWOxm/I3e/4+693yS5LzOPX9pyntvuqrttO+enunx3mAGwGBAAiRIUaKkiBuxnzf2X9D+Gxuhe6/i6kq7BAhDgARmBuO9ae+997a62neZ/ZBVWVVtBhApUdQbUdFdlVmZWa993nOe8xzsPiskBbY3dhSybVrgLJEkMhVlZmBeUUjOd+Ev8aLTKzwSISkw2j7JymyUotoC/PkeJFFmZmSeyHyUiqOlWOwWJFGmt6OPeCzB4ZPViKKELEm0v+okmUhy9PQRNJKs6MIkkrx8/AaDwcDJs8dzFj9JlInvxPn9V39gbmaeM+dPc/zk8ZSV5eDFL92vMn3sx+7isoju+7gD6o8dRSNruHvnLn/46g/c+OkNVXZd+Y6ywB0+UsvwwDAvn7wkGA6iN2hVF5Db6+bo8ToaXzWTVxAkVBhElmRi8Rh6vY7z18/x5PYTnn//iqNnD+MP+1Wwks4FlR63aStQmkguiJkUAtm/O11Pse2YGuF35uopHB5nxpIiKCqzra/a8Pq9lFWXklYGVr67w5sXTXg8biprKjJgMmtX39HawcT4JFeuXVbcQm/ZwWe3UXpDAIrcQ3dnN8PDI8zOzLCYlfXXbDZjMBjQajVoNFqMRiW55+bmJouLSwwPj7CznaECOJxOyivKqagsx+Px7AEtacCS5rSo1pV9wEpZWRmx92Pc/vY2t/9w50Cgmt6UZigACsH2Jz//kJHhETpaO+np6KWjpRNBFPD6PLi9btbW1liJRFldibKVsvTr9DrOXjxDeXXZAX08F6Sk26O9pZ2pyWmuXr+CyWj6QWuKALQ0t+L1eQlmEWnfFvqcXQ5y+/ypVrB0+S8NVABcLheLC7lWEaXDKYuhwWDAbDGzvLSsHk/zT9weF/F4nMhSRE2mBuALeGhtbCe2E0eUMzwVf8hHV0uXslBppazridhdNsoOH6K7qYeJgUlCh/L2uoBSJbGL6JVu5JEuJWFdSU0xRpMel89J3bladbGcnZhnYmCKsf5xnnz7gt/+P79DkkQsDgtbm1sUlOVTXF6IO5UZFTKAaHkhQvubLlx+F6W1JXuicBLJBGvRNUZ6xvCEPVhdZmLxWCo1wCY9jQPojFpCVcHU95LozVqQwOozk38siLPQSmR6lcXxZbRmTQ5Iyc71s7usrezQ8pte/NUugkd8LPZHWBhewlvsQhBSXCAxicVlIjIXJRaPpYTPFAuFEuKce01BEJkencFsM2F1WnPqe2dzh8e3niIgcOXGRXx+b46PPQ1SErEEHW2ddDR3EIvFMegN5BeGKSwuJC+ch06ny1kUdj0By0vLTE9OMzI0SktDGyNDY1x85wJujzOVLTmBmBDQ6/W8c/Mqf/j8Wx7dfsr1n17FYFJ4BkdOHGZ2co6m5y1cvnkeSZIJ5QeZLpxmqHsUl9+JyW7EYDRQc7qKxofNdL7opfzEIdaXN/AUuHEHXFjdFuYnF5kdmWeqZ5aZ/jm0qaSCkalVIlNRJTx5WwkjNzmM5FX4MVr1qgtGQGC0c5LIzAoFVWHyiv1Ioszm2jajneN4Am5CJYqWSnQxysTQNKXVJdgcNmRJYnFumbHBCaoOl+NwOtQ672rpZnlxmesfvKOKimUmUIH73z9gbmZejRqRU6Dqxyx+amv8SP+5mNNFMztsSAEWEeqOHkaWJW59e5tvvvyGDz/+MAesJMUkMjKXr13iN//7U54/fM7V9y8r7rW4ks6ipr6GsZFxGp414vG70em1qXlAxma3cPnmJUWx+HETlUfKKK4sVn5vUskFJSZEdWElZQkBkERZ/V/9Tal62t7a4fXDRjZWNzl1+QQunysHpIiCSMPTJiRR5PTlUzlh+4Ig0vKmma3NLd7/8DqSnAH1apTQYoSXT19RVFxITW21ai3ZD0ym2ynbirK4uEhrcxvtrW1sbW1jsVgIBPzUHq7F5/PhD/gxGlMpGg5oz2QyydbWFiuRFcbGxujp7uXl8xe8ePYcl9tNeUU59ceOYjQacwGLmGn/bLCS3e6JRIKq6ip2dna4d+ce39+6y/X3r+3vAtzHsgIChUWFFBYVsr2zzczUDJPjk0yOTdLT0YvRZMBsteDxerDaFOtQXji4iy+y28W5V5l5eUlph+LiIqprqg4EKdllcnKKudk53r3xrho5praTmHv9/4zyFwdU1MGX/dk+LqT0eU6Xi7bWtr06KVkhyi6ni8WFRdU6kr6+1+tFEGBhfgmb00YyJdfu9XshCUsLS4rLR1B4Knn5Abqau5mbmiNYqJiyVbKbKFNYHmZ5fpmB9mGsLitWhwWRdBr4zH2lPUm/YD2yzuzYPPllIYwmfVbnUiYDrVYmvyRE4aF8eO+U4mfe3OHR108Y6R9jcXaJpqetLM8vY7aZKSzLp6hMUa0NFPhpetKCTqfl6LnDSn2mniXbJ9/XOoggCpTUFKqfxWNx+hoHScQSlJ4oQhAgnlA0VsbaJ1mciuApcmHPt5BIxLH4jBjc2oyQ3MoW2xs7QBJERZ1WkEQkjfLaWY/R/tkA1qCJsmsFiJLE9soOCyPLGO0GrG6zalUxuY0sT6+wtryBzpulm6Oo+uX0l831TZbmlik/XKaSLBVQIdD6up2d7R2u/+Qd3F63WteqGVoQGBkYpfllM2tr6xQWF1B9uBp/0K+Ss39M4juHUxERq6ypZHhwmCf3n/DNZ99QW1/LkeOpdhCVQWg2m7l+8x3+8MV3vHj4iqs3LyOLgF7PyYvHuff7B3Q191JzopJEUqT2ZDVL88u0Pe/gxLVjyBoZh9tO9ekqOl500vGsh+jSKiVHCpEkGS3gz1cE9FaXVpkdnWe0YwJBFEjsJNDqNejtemSthNlhwuazqMRxURBBEBjvnGR5MkK4PI9waTAl2iYy0DSIRquh8nh5iuMl0tPUj8lspOJwmXpe+5tOzGYj1fU1qjshuhylrbmDktJiCooLVPdDevF787KBoYFhLl46r4a27g5rzSy0B7sQ9muf3eXgUNEMYEl/Ul1bjShJfPf777h/+z7v3nwXEFOZkZXf5nQ6OXn2JM8fP2ewb4iSsmISacutJHP+ylm+/u0feH7/JRffO48sSsRQ5PVNJqOiWPykke7mPtai69Qcr0YQxRyukYREMpFU1WizrRzZJbK0QsfrLtYj65y8fBxf0KfWcZpU3tPax+LsEqcuncRiMasRX4IgEllYpq+rn6raSty+3HBkQRBJJpLcv3MfWaPh6vWrSt85AExku1WTySSDg0M0N7YwPDSMLMuUlZVytP4o4fywuqP/sURNQVCAv16vx+vzcuz4MVZXV+nt6aWzs4vnT5/R2NDIhYsXqDuSmQvT60muEFtC5a1kg5W6I3XsbO/w+OFjxSJ67fL+5OpM18kS5lP+02q0hPPD5IXz4Ezm+Xe7x7NLLnjYm+hR+X6S+7fvo9VquXL9ylvbIXvctDa1otPpqKyqzKnLt5X93D7/EfwU+AsEKm8r+4m+uVxOtre2iK5EMVvNOcfShFqny0l7+2ROGFlSTCo7PVlmdmaWQ+WZScQbUAbx7OQcHr9bBTh2lwOjycDUyAz5JWHlJimyG3EllLPmZCXR26t0vOimor4UV8CZ0l/YS6gE2FjdYG58nsmhaTRaDYUV+XtASravPnuSFhAwWowcPlnD+ffPKGh6IcJI3xjDvSP0tg9w5/N7bG5sYbIYKa05hCAJ5B/qQziRAAAgAElEQVQKEyz0I8qZTrM8H2Fucp6iqnx0Bl0qkWCS6ZFZIvMrFNSE0Jt1qsrheOcUSzMr+ErdOEJWJalhll5KIhFnfjBCZDIKSSU0Nkl22wk4iqwM3ZtAY5Sp+LCQpKAMVGexla3oDtPd81jOmlTbu9lpAgSic9GcxJBp9eHsMjM+hyAIBApy2fGzE3NMjExRd7xGEV3LEcASiMfiPLr3hMmxKVweF5euXyIvFMxpB7Vvwb6LQqa/ZgBhYXEh/qCfZ4+e09LQyvjIuBoFkA5hdbicnLpwkkffP6G7tZeKw2WIQhKPz0Np1SF6O/oI5Ptx+RzodDrqLxzh2e0XdL7qpuZsFaIo4gu60Vw8TOvTdiLzUSRJUqPBhNSzWJ0WzA4ziViS6f45ai9V7nlutZVEhZcz2TXDwvgyeaVBCirCigCbJDPSPsr6yiZ1Z6tVxdnR3jHWIuucuFSPRqtFliSGukdYWVrh7JUz6LRKGDVJgRcPX6HT6Th9/mTODl0SZQb7Bml83UR1TRVHjmWUUdV6/xEgRUBgeXmZ0ZFRNjY2MRqMmUR2RgMmkwmDwfDWUNHdu+y0S6CyqoKVyApPHj0hGApSe6SWZNolmVqsDh+pZah/iBePXxHIC6A36tT5wua0c/bSaR59/4TG580cP1ef2vwolhetRsvJi8cxW0x0tfSwvBCh+nhlSotGsa4AinVO1VERVTceQHR5lYGOQaZHZ9AZ9By/dAx/3l6QsjC7RE9rL+GiMMWlReq4kEQZkklePW3AYDRQf/JoDhjKBpTzcwvc+Mn7mEzGt7oZ0iAlHo9z67vbdHV0Y7FYuHjpAofrDmOxZKzbf6oybSKZwGw2U3+snvpj9czNznHr1m3u3LpNZ0cHH9z8AIfTsQesZIDq/mDl+MnjbG1v8+r5S0RR5OKVC3ssK+rzJzJzwW7AIiLlRqS+5fftN/ek/yprVJJnj54xNzvPjQ/fx2zOrIdva4toNEpPTw91R46g1+n3tfZn3+/P7faBPwNQ+SFC7X4WlHT5MZE/obBCLhodHaWmViEB7eaphMJ5NDU2MTE2oSDY1K5HlmTyC/MZ7h/h5Nnj6oKo1WrIyw/S3z1AeW0ZoiymhLdESqtLaX3dxlDPCAWl+UoIIYqKJKKMTgf1Fw7T8qyD1mcd6Aw6XH4HepNe2bUa9chamYXpRWbH5lhZigLg8NgprMhXQt+yAIpSh3uT6c2Mz9L2uoNkAiqPlKvnOtxKxMWRMwqBKpFIcPerB4z2jWIwGXh59w2f/+PvEASBvMIA4dIQ4UN5IChoPFDoz2mPpellDBYD7pCTeFIhxW5vbrM0GcGRZ1Uic1K6KclkQm3r5fEokckoZq8Bsz8lAhdPkIgnSSaSrIyt0/fdKIIoUP1JMYKYkcaXJAl72Mx87zIbq5uYbFKKCySiMWjY3lLE30gtwPFYXNGdyBow0cUoBpMBSwq8putnqHcYg8mwN5pBENnZ2uH+7Ucszi5y+sIpqmors4i1GV/wbjPoW3d7Wd3XaDBy9d0rFBUXcPfWA/7w5Xf85Bc3lbD21OJVVFrE6NAY7U0dBPMDWGxKBujaY9VMjU/T9LSFSzfPI2lkXG4nNceraH7RRk9jHxXHykACp9vO4XM13P/0CTMj87j8s/iKPZnFPNVGmytbmOxGNLJGBc85GhOJBMsTEaYGZ9ne2CFcGiC/MpzKtyMxMzzH9PAcBWUhfGEfkiizFlljoH2YYIGfYH4QWZLYWN2ku6WXYChAYUmBalruaO5iYX6Rd967gslsVvu2IIgsLy7z8O5jgnkBLr9z6UBOSvbCBwpAWY2uMjoyxujICGOj46ysrOQ0iUBGaVoQBEoOlXDsWD0FhQUHchj2AysAx08eY2J8gqePnpEXCmJ3OtTFKp6MI0syV65f5tN/+YzHd5/w7k+uKRslIYEsyhSXFbO0uERbYwcarUzdiRTxMQVWZEmm5lgNFpuF9sYOnn//Cp1eiz/sJ1gQwO625bh7JFFGRGRlcYW+jgFmxmfRaDWU15ZRUl2MTqfdtQFSkkW+evAak8XMyQsnUmAnrTMk0NbYwcLcAlffvZySvM8l0M5Nz9H8ppnKqgpKSw+pC9lBbQWKUN/XX33D8NAI5y+c4+y5s6RVhnePqbdtBPYdcvuIsaU/93g9/O3f/ZqOjk5uf3eb//k//onr716juqZavfePASsAZ8+dIZlI8Prla6IrUa7fuKYQvLOfZZd1Jdtdl7Gw703XsF/ZD6Bk19XTh09pb+nk6LEjlJaXqsfe5n4DePzgMaIocvLUiax7/TH8rv+4Iv3DP/zD246/9eCPLW9LHAjs2mnvfp/MuUaSdCUqO3SzyUxzczPxWJzyivLUp8lUTpgkkMRis9DU0IwoChQUFaj5YgRBQKvV0tneqShYuhzK7h8wW0x0t/ei1Wrw+FzKfRFwuG0sL0YY6BrE6rBgtVmBlAx8amev1WkIFys5dna2YyzOLDE/tcD85ALTIzNMDE6yNLuMTq+loDxM9YlKRSXWYkQUJZVDo+wspYzrQlDQeVdzD91NPVhsFs68cxKXV8mnkv5eWiY8mXqu2E6Mrc1tfvr3H3Dhg7Nc/fgSFUfLMJgNzE/N0/i4hdf3Ghnvn2S8b4L5qSW2txQezmjPOHafDavHTDzlzpkZmWNlPkqwyocgQyIZJ55QZPKTySQrs1Hm+pcwuvQ4SiwIGgFRIyJqBGS9hMYoM9W4wPrcJqGzXiwBxe8soAwsAYUUGJ1ax2DVY7Aa1N+1MrWKKAq485xq3UwNzGCxm/EE3aldopJN2eawkVcQUPPVbG/FaHvdTmlFCYGQH1FUInxEUUIAntx7xvz0HFfevURFdfkuaf3c0L+0eT9d1we90udkT7x2px1/0Et7cwcry1GKDhWm+o+iueIJeunv6mN2el5JFy8IiJKEy+Okv3uQaCRKsMBPEsU6AjDSO4YAOL1OEGA9us7LW284/k4dM6PzLE4uIms0GIx65JSqbH/TEKIoUnq0OCVRn/JNJ2FxMsJQ8yiLk8uYLEYOHSkiWBRAIyuaGpP9Mwx3juHNc1N9ohpJUkivjQ9b0Oq0nL5yAr1ej4DIqwdviMcSXHr/Aga9HkmSWF1Z49mDF5SUFlN/6miORH5sJ8YfvvoOURD52ScfoTcYkERxz2S7OzJrc3OTxw8e883vfk9/Xz+rK1FCoTyOHa/n6rWrXL5yiaNHj1JdW01FRQUlh0pwOJ0M9PfT3NRMT3cvAG63G1mW1fGT/iuQPYFn3ocLwnS2dzI8NExFdQWSJJGeoVRXhEFHe0s7oigRCPrVOSoJ+PP8bG1u0dPeB0ISf1ARb0z3CQCb00ZRaQE2h5WdnRhTo1OM9I8xPjTJ3NQ8Q93DdDX1IGs0DHYNMzYwwfbWDqU1hzh2/iiBfCXpX/b8Ikky8ViMx7eeEY/HeefmFcxmkwpSJFFiYXaRF49eUVxWnLGmqEkqJeKxBN9+fQuNRsOHH91Uslqri6OQCS1XwYvA5sYWn3/2BRPjk7x/4z1OnjqpjhfILLzpcZYu2XPb29wS+41DtQ1Tv93j9VBVXc3ExAQNrxuIRFYoLs6o9yppFlCSqabulV570m0riiLh/DBGk5G25ja6OroVd6/DsauvsOe5s/+mn+mgZxeE7HVA2DP/JJNJnjx4SkdrJ/XHj3L+0nmlDwrCHpCSuYfSRmMjYzx68JjT585QXl6WU+fZ5++2pojCXkC529Kyu41+CPAIgvB/H3Tsv4zr50CeCgmKi4vp7u5RjgvZxxWeikajoai4kIH+QS5evah+N56MK4qjdhu9nX05PmSP30tefpCu1m6KygrR6jTEUCTFT146wcNvH9P0tJkz104pZE3I4asIQoLC8gLyy8IkEkliOzHW19bZWNtkZ2sHm8uK0WLIadxsC0r6ffYOfmcrRvOzFpbmlimuLKLqSEWOOmH29xOJjFSz1W4hmUyyGlnF6rKi1WkoriiksDw/lRU5zuPfP2NhZgGdQcvYwCRv7jaxubaJ1qDFV+hhfnIBV8iOLWglMruC3qpDa9SwE8/kSQFYW9pgtncJnUWDs8SiwMZUZE56pzr6ZIbI2Bqhc162IttsrW6jM2uzrGsisl5GkAXWVzZxZO+QJIF4LLcfxHfiani2KAjEYnHWVzcIFedl9R+BscFxSAoUlRbsciMIDPePMDE6yalzJ3PymuwHUnJ2fvsMvuzdOOSagcVU9t1QOMypcyd5/uQl3e09VNZWKH0vkcBkNHL64mke3n5IT1uvYtUTkjjdTmrrq2h53cb4wKRiCQPKD5eyub7JUNcoeqMOf6Gftcg6kixx5OJh5sbnGOoaZaBlGEFQwI3db2N1cR2z3chGdIvtzR0lP9HGNguTS2ytb2G2mxSpdr8ztTgpYHygZYjZsQUCBT6qT1QpvJQkND1tJR5LcOadU6oOSn/HAEsLy5y5fBqrxZJaBCVeP36NVqPl1LkTOTt0UZB4cOce0ZUVfv7Ln2O2WLL4Q/uDlCTQ2tzCk0dP2dzY5Gj9EeqO1OHz+fZMunq9Hrsjkxm9Grhw8TxdnV00vGng+9t3ePzoMefOn+PY8fqcyTYhkrvLTnFWzGYz7998j88//YKnD59y5foVEonM/CSKIpXVlUyMTdL0qgl/0I/H78qo1opw8txxYrEdOpq6kGUNFbVlqqZOOtO2qNNRUFJAfnGYrc0tJsemmBiZZGN9QyVc5hUEcHoc6I16woV5qgjl7hBuQVB4XC/uvWRjbYPL71/EZrfmWBjjsTjPHr7AaDJy5sKpTP8XMto2b143EFmO8NEnP0VvMOzZweeOC4HV6Cq//fQLViIRPv75R5SXl7/VinLQ4vZDXAjItVLsHpOiIOKw2/nbv/s1z58+59HDR6ysrPDxzz7KcQVmk2x3c5XSKrZ1R+oIBAPc/vYOf/jq91TWVHHuwtkcrRXY5Q7KXC7nGffwM3fXYQ4wEFiYW+DB9w+Zm53n2Ml6zp4/m5Uq4WDdGlEQSCaS3Pv+PnaHndOnT+17nz/WmvLvbYX5i7SopBFw+mj2dZRjmc+TJNmJ7dDR1k5xSTFWq1VpbJUToSDgeCJOZ3sXeeEQVqs1pxPv7OzQ3dlDYUkRBoNetao4XHa623uJ7ewQDAfVZ5AlCX/Yz8TwJGMDYwQLAqmJIgu1k0H/yo5YRG/QY7GZsTmt6A06hNQ5UsptkSGvKQq4UtbuZ3VljdcPGliLbnD0bB2l1YeyJm3lGjnoXMhF58M9Izg8DuxOm/o7sut4sHOYYHGA41ePUH2mklPv1+MKOtje3MZsNzHRO0XrvU5a73YxP7JIbDtGbDuOIAloDMruc2t1i8m2WSSdhLfSgSBl2jHddtPNi0y9maf8ozD2AjPrc1vsrMaw+Iw5OyZRFNmMbBPfjOMMOdTBtjq/TmInjrfAo1oAJvqmcPqcOL2Kzsd6ZIPpkRmKyguwOqwKmVMQaH3Zgc1hoaK2XLWkSKLE1sYWD28/xuV2cu7SGfXY20DKzs4Oa9E1otEoK8tRlhaXmJ9bYHlxGbPFou5odu+gsuve6/cyPztPV1s3oYKwkrE7tc22O+0sLSzR19VPqDCEXq8lCTjdDuZnFxnuHSGYH1DD0l1+J5HFFUb6RjGajSzOLDHWP875D05htpkJFPlw+RzIGpno0irz4wsMtY0giAKbq5ssTi0RmVWIykazgUN1RRRW5WOxWVRrSyKeoOtlH0vTyxRXF1J5tByNrEUSRdpfdbE0t8yJi/X4Aj5kSSK6FKXhaTMFxQWKSFXqOgPdg/R1DXD24hkCoUDGmiNKdLZ00dHSwYXL5ymrKD9wd54GKRMTE3z1xe9oa2knGAjwyS9/Tt2ROsxmc86uM11278rTO2Ofz0fdkTqKSopYXlqmsaGRpaVliouLkKWMdWX3Ljs9v9jsNmKxOM2NzbhcTiWqadc8FwrnMdA3wGD/EKXlJSnLlqDKIwTDAVYiUbrbe9Drdbi9rvQtsv8AApIs4XDZCRXmUVxWhMPj4NZvv+fv/89fk18cVjKBy3LOblwUxVQbiCwvLPPkznO2N7c5985ZgqEAgpDREJJFiTfPG5memOHajas4XJnknem5JrIU4f6dh1RVV1J/7GjW2JXUsZLdXkuLy3z6/33Kxvo6n/zyEw4dOqSOjf2sKLsXOyGr7X5MybViJHM+S89LaauI0+mi8U0DfX39lJQUYzAY9rWoqf0gy6KGAEajkYrqCpKJJG3NrfT19OPze7FYlMSeQtYz5QLGvRbY7NdBFhaS0PiqiXu37hOPJ7j+/jWO1B/JcpG+HaQANL5ppKurh5sf3sTj8eTUfc5z/hmsKanv/OdaVH6Ip/K2chBPJfvzNDt8YmKCYF5QRcKKX1khfxaXFKPVaBnsGyAUzlNJb0kxSUV1JW9eNtDd1s2ZS6dUq4rL7aKiuoyu9h6Ky4uxOSyq3oHRqOf89XPc//0DXt1r4My1E+gMeoWwmKUmKSayk+jtqhdhL8M7u3MIopKie2Joiq6mHjSyzLnrZ3B5nKl6PXhAq6SuZAKzVVEoXYuskSYYC6LybADb23F2tnYwW42pjpwZjMESP3VXq0kk4mxsbTLQOERfwxCyVqL36RDRuTUkjYQ1YAYBdGYNoZNeJK2kmq3Tu8q57iXGnsxw6IMQloBCuLMXmFkajLI2t4nVlw5NVX6XwaojMp6S4U/vbGQlUkjVXNiJIyCg0cpqPa5GVgFFvC9dIgsrrK6sUnm4PKe+BUGk4XkTsViM81fO7cmfka7f7AHf3NBM0+tmVetA2LUkabVaKmsqOHXmlJLfQ8iKLMgOXxThyvXL/Pb//Zx7t+7z0S8/RNJk8kWduniK6clpXj1+zdWbl1Vz+4kL9dz+8i4NT5o5l4oAk2WZ+nN1vHrwhs4UaLA6LGpIrCxpsLvtWBxmiqoLUgJ+HeRXhCmrL0ar16DRadHpdTnJHeUUeN5c26L9eTdb61vUnK4mWOBXpfQH2oeZGZuj+lgFefl5yJJEMgGNz1owGAwcO1dPWthta2OLljdt5IWClFWVIqf4FYo7aJXXL15TUFRA3dG6fXfn2SDlyaMnvHjxCqvFykcf/1RR1BQzi8DuMbVfyTkmQCgU4q/++q94/uwFjx48ZH5ujl/88hdYrJacXfbuUHtREDl7/gyjI6Pcu3OfX/m8mC3mnJ23Xq/n2o1rfPmbr3h09wnXbyr5ftL6KpKsRALFYzEanjcxP7tA/ek6JI2cInGmh0ECBIlEMomUyiKuRv2QaznJ7ufpcTU1OsWrx40YDHouvH8RpysVKi5mFrKJsUn6uvo5fKSGYDiYY2FMh40/vv8EnU7HmQun1e/vjgRJX29zc5MvPvuCWCzO3/zdrwn4/anj+3MhROHgRTBzzv6AZb/syelrZGtaZVtXqmuqsFjM/Pazz/nn//XPfPLLT/D7/ftGBB2ktaLVaLlw6QJFxUXc+vY2X/zmC4pLSzh8pBZ/QBkve9YygT1WlINKuk6mp2Z4dO8x83PzlFeUceHKBUwmk1onu6Pi0v9n94G16BrPn76gpKSYQ6WHcut+H87dj7Fg7X7Of8/yZ7GowNutKrkWlNT5P8BTyZyVRKfT0dHRyUo0Su3hWpWngnpPAVmSmJubo6+vn6raKmRZo3YaWZZZja7S09lDKD+E0WRUUavT62Sgd4DRwXHCRWG0WQuiVqfB5XMx3DvCcN8osixhc9rUnYSYhYDTE0j2S/UVZ4WBpkmhG6ubDPWM0P6yk6nRaexOG2evncZqt+ZwV8Qs32X27ildr2nex/z0AvOzC+SXhDPh0SkC7fb2NkPdIzh9DqxOS6qek0wOTiEI4Ml3p0SlYC26QSKRoP7DGg6dKaDoVAhnvpVEIkFkMsrq7Drjr2eYbllgZXyVjcg2yXiClcl1Bu9MUXglgKfSoT6jxiizOrWBpJEwuY05vyO2EWd9cRNnyI5GqxA4ozNrxLfj+Iu8yKLM9sYOc6ML+PO9qtDY9Mgc2xvblB0uRZZkZFFmpG+U5YUIJy8cR5Y1yJKEJEmsRdd5/fg1dccOU1JapN5b2eELObu4ZDLJ/TsPaGloJRQOceLUcapqqqiuraL2SC1H6usorSgjFtuhq6Ob3u4+AsEAJrMpZ2eWbhtQFIU9Pg+tjW0ICATDAdWqotHIGI0Gutt7MVlMOFx2kqn+arKa6O8cYHtzB1+eV+kLkkgwP0AsHqP5ebsitnamGo1OSQuRDr0WRQmtTsOD3z7lwk9P4y9UcvVotBpVV0PM2l0vTCzR9apHEWq7eBhfng8pJeA2NTxDT3M/BaVhqo5WKd8XJToau5mdmOX8tXO4XU4lZ5Ag8uLBS6Irq7x78xomk0nZ4acS8N377j4b6xv85OMPMRiMB+zOlbZofNPIkyfPOHy4ll/+6pf4/f49IGU3xyH7s9076+y5CJTNTzAvSHNzC709vVRUlqPT6nIsK9kWjrQ1NRwO0drSxvzsPOVV5eqx9LUNRgNavY72lg40Ghl/wJfDVxFEkYKifJJAf2c/o0NjuL1uzGZjpi+moHH2pmZjfZNvP73FzV/dUBRjs3bjkpj5Xl/HIA3PmnC5nVy+cQmbTQGzaYuWKAhsbWxx/9YjrFarmhhSnadSc09vZx8drR1cunqRvFBe1n12u+iUZ3hw9wGjY+P81a9+STAYyLGMZHMh4O0gJXtOPajstj4k9zmWbf1Ot6nVZuXQoRK6u7ppamzG6/XgcrnUex1oWUl9lrZiW6wWKqsrSSaS9Pf20d7azkDfAMlEErvDjkajUa0x2ZaLg6wngqC4zHo7e3n+5AWvn79BFEWuv3+Nk2dOotVq91hRVOuM2gYZkBKPxfntZ5+zsbHBz3/xc0xGk3r/3S6f7GdL1392m+3XRvu1zY+xgr3NovIXAVTgxxFq04tFpvNlTHMbm5u0tbRSU1uDwWBI3TNBxsGRxOG009TQBEB+YX4WkAFvwEtvdx9jI2OUV5Yr1opkEkmWCIQC9HX2MTY0RkFJPrIsqY1jMhsJ5PtZWVphqHeE4d4Rtre2MVtN6HT6VEc82KyX7fKJxxNMD0/T1dBDd0sfkfkIbp+b2pM1VNdXKozylPk2G5SoE1KWu2G3L9NkMTLYPYwgiLj9rgyhGAFRlpganWZnO4a/wAupMOPoUpTFmSXySvxq2PH2xjZL08vYAzZEWVkcDQ49zgIbsZ043gonh66GMHoMJGIJVsZXGX8zx1JfFHuhmcKLmdQBADvrMdZmNrAFLOjM2pzBuzq3QWwjhq/Eo9bZ4tgyWr0Od8iFJEpsRDZYmo4QLsvDYDIgiRKjvRMYjHoKDuWr9dvfMYhOr6O8ukx1IYiiyGD3IDNTs1y8egGdXqdO2DmLpKD46299c5uh/mHOnDvF5Xcu4fV5cTgd2B12LBYLRpMRq81KSWkJofwQA30DtDS1opE1+FOTczK7R6ZcQCaziZVIhO6uXsoqShVJ7aSiCmxz2pgYnWBidIKSihLSYYgWm4l4PMFA1yBGszFlPVL4Dh6/h+bnrSTjCXa2drDarZgsRpLJZGqiEdhY3eLpNy+4+LOzGM2GrH6ZcT9G5qJ0v+5lcmgak8XEsYt12Jx2BeSJEkuzEVpftOMJeDh+vh6tRqOo1I7N0tHYSUVtBeVVparLZ6R/lK62bk6cOU5BcUGOy2egZ5C2pjbOXz5PQWGBasJOj43sHWFfTz+3b39PRUU5N39yM5WXaS8RM12yF8zdZe+illnA7A474fwwjQ2NDA0OUlFZgUajydkIZa6pLFZ6gx6tRkNzUwt2hx2X26kCmvQc6PG6WVpcorO1i0AoiNliyglFEkSBQNCHN8/L2OA4vR29yrhNkeYRdoExYGtji9//5js+/Kv3MabGQfaGaGNtk5ZXrfR19lNYUsCF6+cwGAx73GnJeJL73z1kfXWDdz+8htVqUY8rLh9FOO7W72/j9Xm4dPVSTp/Zr73GR8e5d+8BJ0+doO5IXa5758CFcbfL7se7fA5q492AJWddSbW72WymvLKc4aFh3rx6jU6nJxAMqM+1H7E6m2SbBrGyJFFQWMDho4ex2e0sLizQ2d5JS1MrM9OzLC4ssra6RiKRQKvTpfSHlLxlm5tbrEVXWVpcprerl6cPn/Hi6UtGR8bQ6XUcqa/j3Q/exeP15ACU9Lypri27rJDpXvr7b75ldHSMj3/2EeFQOKs+fpzLJ/v83f+/jbP3I9rpvx6ZNts092PcPzU11Tx++IiOjg7OnjurHE+Z6tLEN7fHTUVlBW3N7Rw+WofRaFBMs0ICg97AletX+PqLr3nzooFT50+QEEVkwOV2cfXGFe78/i4Pbz3m6geXkWRRdQM5HHYuvneeuel5+rsGGO4dZbB7GG/AQ7DQr+xW9Rp0eh0arTKpxmNx1iJrRJdXWV1ZJxqJMj+9QCKewGIzU320kvwSxbqT/q3peoHsXchbzNoK5w8Al9dFqDDIYPcQBaVhtHpNyoydgAQ4fU7GByYyWXYFEaPVSDKRZHN9C41Ro+SgMelAENha28ZsMKhZpwVBwOI1sjS+guuQDW+5E3eZnWQiQTwep/PLIbZWdkgmkhm5b0FgeyWGgIDelsp3IWRMlzvrMXQmbc5A2F7fwRwwq4Nmc20LUNIQpCfA9eg6eYWBTD+KJ1iaX6akokT9LL3zGO4fweP3YLaa96SrT5fNzS2+/epb5ucWeOf6FapqM2qP6WfeXUKhPH7993/D97fv8uzxc1ZXV7lw+cKBCpYnzpxgoHeQxlfNnLtyRk3pgAgnzh7j2y9v09veR2VduZpxt6a+iqX5JVpftWOxm7A6FP5RjBjbGztKZJdRT8vTNsKlIXxhD0arASGZZG1ZSeTpcNoQxQz5DhQ32WDHMMvzKxhNBmpPVePP96W4O4rGycL0Ii3P2rHarJy4eAytVgEpWxvbNL9owe1xc+REXcryIiOio34AACAASURBVLO5vkXDiyb8AR81R6qRxVTYt6js4J8/fkEgL8Dhulp1Ys24EzKL3tTkFN/+4VvygkE++PCDHP6F2u+FvWAlXfYbL7tJl9kugXA4xCe/+Dmf/eYzPv/sc371N79SyYrZLqC0K0AEautq6ejo5MnDJxQU5qukyoSQCVW9+M4FFubmeXDnIT/9xU10Bl1OpuSECIGAnw8+ucHLx69ob+xgdnKGyrpK3D4l07ooZcjn6vywS5l2aWGJvo4BxobGEQSB2qPV1NRXq+Aiu24FBF4+fc387ALvvH8Zl8e1x+UjCiKvnr1iZ2eby+9cytq5C/vW7c7ODre+u43DYef8hfP7uhgOWhiz+2R2eascQFbZG3yhXCvtGsp2B6XvnUgmsFlt/O3f/5qvv/qae9/fZW5uluvvXlcT08JeYjXsVTAGJZN57eEaqmurmJudo721nYmxCcZGxlRNKgCD0cDOzg6xnVjOMwuCgD/o58KV8xQVF+F0OrKO7dPns+awbIAhCsoG5+739+nt6eXK1SuUlZWp99j93beBlLdZU/6jyl8MUMmeIP6Y4nA4KCgsoL2tgzNnz+x7TtqP3NPdQ+OrBi5evUg8rnS2pJgkvyBMTV0N7S3thAvDBEN+NZlYIC/Alfcuce/b+zy6/YQL188ha5RJOJ0t0xvw4Pa72VhfZ7BnmOG+EVqet+fsoEVRRKvTsLW5pRp0RFHEbDVRcChMQUk+DrddRcnp506fB/t3nv1KAlH1YZOA6voqpsam6Wnp5fDp2oz/XBBx+5yKUNfyOia7EVFIYrGZQVB23zqTou9isCrWqp2NbcCgIvCkKGL1WVgaX2F9cQuLzwAo/nwJKP8gn4b/3sNcxzK+w071GTcj22gMMhqDJmeQiKLI9voOFpdJfZ+MJYnvxNEZFVAjiCKb69todBo16mdrY5vYdgyLzaICopXlFRLxRGZHmirLi8tEliKcvng6dyBmPcf21jZffvo71qKr3PjJ+5QcKv7BiTRd9AY9N3/6AQ/uPqS1qY2i4iJC+aF9wYrFaqG6rorWpnZq6qpUpeREErx+LwXF+XS1dlNYWoDOoCMdWn3i4gnufn2PN4+auHDjXIrjIhJZjOANeqg5VUXHmy7GescZ7RlD1sk4fQ4iiysYzQZ2NmOsrkRYj26wvrrBxuoGK0tRtDotlfXlhEryVICSXqwmBifpauzBZrdx6soJDAZFZp8EvHrwGhA5c/UUGjmtiinw+slrkokkF66eyxA2JcUy+ezRc2I7O1zNUtLcL2okshzhy89/h9Vi5eNPPkan1R24m/sxHIf9ju9etERBpLikmA9+cpOvv/wdL56/4Nz5c+o9Mly4zNwlyzLXrr/Dv/yvf+XF0xdcvnZZnWfSbW7QGxS+yqdfcfe7+7z34XUkjaTyVUBZDI0GAxevnae/d5A3Txt48N0jtFoNgbCfUGEe3qAXWZbVtALJRJKtzS2WF5bp7ehjdnJOUQ2uKaOsphRTSgRsv+ipzrZuBnuHqD95hMJDeyPfREFkZmqW7o5u6k/Up3LnZO/a9wLLJ09fEIms8De//ms0mnQE0ttcDAePrR8LUPY7Pxu07AdYdnNX9Do9P//Fz3n88DFPnzxlaXGJj372ESaT6YCIINijt4LalJAAn8+H77qS/ywejxNZjrCwsMDS4hLRlSgarQa9Xo9Op0On06LX63F73Sr/ZG/97OUi7WdFSYOU72/fpaWllVOnT3Hq1MnUeQdHXP1Qne51y/3x1pQfKn8210/abfO28qe6f5LJJG2tbRQWFWKz2VI3zvUl6/RaVldX6WjrpKKyDK1Ol+NzDOYFGewfZGhgiNLKUtWdQhKsNitWm4Wejl6G+kdwuB1YLOac3YQoCGg0GnwBLyWVxeQXhwjmB/Hn+XD5nNjsVgwmA8FwgOKKIirrKqg9Xk1JZTGBcACz2ay6HCRJyjHHS6lJIG3W3e2eyOG/kN1JlIlBp9Oyvb3DUO8IgbAPnUHJjIqgTK5DPSOYbGZsLoui6SGLjPWOYzDrsboU0IKQZG50EVESsXmtJElAUqk/SSMQnV0nvhXD7DMhZDWAJIuIGoGx5zP4a92KZSkpsDS8isltxOwypkz9ilJmMg6LwxHsARtmhwlJlNhZj7M0GcFb4FEIwpLM9NAsWp2WvOIAsiixtrzO7NgcxZVFmC0mhbMyOs389AJHT9eh1erUybS/a5D5mXnOXTmLTqvNmE6FjHvt9fM3jI2M8dNPfkJBYf4e19r+7oS02TrVp0JB+nsH6O/rp6q6SgGPu1xAAC6Pk862TtbX1iksKUhNnkrfViLQetje2iJUECSRVJJIirKIy+NkoGuQ5YVl8gqDQJIv/+c3XPjgHG6/C1/IS6gkiMVuQkBgcWaJwY4hosurgMDsxDzL8xESsTh6g568ogC1Z6pxeBwqL0HpSwID7UP0tfbjDXo5dfWEokIqKOTK148bWZxd4vy1s/h83hT3QWawZ5Du9l5OnTtBflF+jstnbHhMsWCePUVp2aGcqIVst8TWxia/+ddPicfj/PWvf4XD7lDrP3snCLmT9b/VXXCQS8Dj9bC8tExTQxNFJcVYLZa3uoAMRgObW1u0NrUQLghjtlhUd2u6GE1GrHYr7c0dzM3NKykEJDEzbsgAJ6fLQXlNGS6Pk2QyyeToFEN9I/R29DHaP0pHcxedzV2IosBQzzCjg2Mk4klqjlZx5tIpQoVhhcuQ5RbIBimT41M8f/iSwpJCzlw6nTPHpF0+iUSC29/cQdbIvH/zPWRZ3hVlkvuanp7mznd3qDtSx7Hjx7La5SA9kX8/kLJfu+5eg7LdQfu1uyiI5Bfm43K5aGxooquji3BBGIvZsiciKLsP7OaupN1B2b9bEiWMRiNut5tgKEhxSTEFhQXkhfLwB/y4PR7sDgfaFBjfz9W/WyYh1wWUC1Lu3PqettZ2zpw9zeXLl3OeZTdozPyOH+/y2e/9QZ+9pY3+8zkq8KeFKWd3pIPE35xOJ69fv2FzYyNX/C3VYRJJhbTm8bppaWxhcWmJsooySBENkySRJAm3101bSweL84sUHyrOdAwEbE47efl5jA2P09PWy/raBi6vO2X6FiFlQlUAhYhOr8NitWBz2nD73PhDfvLyA3gDXuwOGwajQQUkkiSrXIFsUqPqb86ZPDJ+4f1e6kJKLmBxuB2M9I2wtBAhXBxSwAdJZFlmbGCcZCKOP9+vRirMjM6ysx3DHXKm6j7B8twKmyubOEM25dpCanoWBOLbMVamV1PuHH1qkVMGkNlnZKZzkZ21OM5iG5GJNTaXt3CErOhNWhWkiILIxvIW6/MbuMMODBbF5762vE50bo3gIX9qFy8y3jOF1WHBF/IqLompBZZmI1TVV6DTKlag4Z5REokk1UcqEVM7eUmSaHjRpOTiqa1Q6znbz7uzvcOdb+9SXlXO4aOHM1L0+060+/EglH4qS1KKMNuKpJEJ5gX25apIssjm5hY9nb2UVZeh0WoUDZpkAo1WZmcnRm9nP/klYXQ6nUp61ht16Aw6+rsG0eq0aDQavvv0Du/96homs7IbkzUyVrsFb8hDflmYiaFJtrd2uPzxBYqrCimrO0RRRSHBwgAur0sF6GlyrCRK9Db3M5xSZD527ih6nS5VbzK97f0M941w9PQRisuK1e9srm/y6M4T/EE/Zy+eTvVxhUAbj8W59fVtLFYr7964niLcCjn9PC3G97svv2ZhYYG/+tUvCfgDat2/nYi5m0i7/1jZPSsdBFbyC/Jpb2tneGiYI0ePZM4VUOUQ1JlJgEAwQHdXDxNjE1TVVO25RyKZwOF0YDYbaW1qZ3N9k4Ki/KzNlZADhERRxGq3ES4MUVZTii/oRZQkZI2MwWjg1ePX/OzXP6G08hCHKko4fu6YEiouy7sASoZcKQoi6+ubfP/NPRxOO9dvXFVE24Rsl4+ySPZ09NDT1cu1967h9Xpy+vxubooA/O6LrxFEgZ998jPkVKj027kQuYRNtd0OACnZ99/9Yk+rZur9bWAle4ORbne3x01xSTFdXV00NjRhMpnw+Xy5z50GIpDzG3cDlt2gJReovf21e74Xc35/BqBkH9uJxfjm6z/Q3dnN2XNnuHjp4ltByh/r8vn3sKb8lwEq2cBE/c6/waoiSiLxWIymxibC4TB2uz1zjawIIJ1Oh1ano7mxGUEQVBn+9PUtFgsGg5625nYW5hcJF4YVv7QAIgImk4ni8iKSiSQD3QP0dw0gCCJOjyPDfM8il6UjLrKBh5D1XhSURGM5VpHUZC2nJu/VlTVmJ+YY6huhu6WHvvY++juVe/d19tPf0c/40Dg6rTYj3JSFuNPdTZIkNFoNg93DmCwmlYSZRBGlGxuYwB1woTVo1Ml3cnAaq8OM3qQFQUDSiMyNLBDbjmPxmJXvp+pXb9UR246xPBFlfWEDnUWHrJPUgWpw6Bi4O4bOomV9bhOL14gjbEGWNFk7Y4G5nkUkUSJQ5k1NtBKzgwsISYFwRRBZ1rC9vs30wCyh4gB2l13ZGQ5OQyJJWY2SwE4WZXrb+rA7bOQXh9UIBoDmly0UHiokFA6pE0GGSCuytLhMV1snx04ew+12qxNCug+m/x7kWsieMM0WM329/exsb1NWUbovUFG+I9LT1Usgz4/VZsmMmWQSk9VEd3sPRpMBl9eVIkMrd7A5rCzMLjA5MonBbODJd8/4+L99iCRLOeHTSjtA6/MOLHYzJ68eQ2/Qq8AkW48nW5l3tG+c/vYBisoLOXyyFjkVKSKJMssLEZqeNlNQks+RU3VqvhlRlHjztIGV5RXe/8l19EZDjjWltbGVkaFRbnz4Pna7/QBrisBg/wCvXrziyrWrVFSU/+CCl67HdPkhIuZ+gCVnY5T6K8kSJpOZpoZGPB4PHo8nx6qSDVTS+iw6vY62ljY8Xg8Op3OPVQXA6XYSjyfoaO3EbrfidCnqwmrbZy2C6Q9EUcRitRDMD1BQko/daeerf/2a/+P/+m+ECkNY7dYccLDfjlvZZAg8ufuUtegaNz56F2MqQm23jlAikeDud/dwup2cvXAmY/HNumb2a2RomDevGrjyzhVCoVDOov42LkSm7lNtd0Co7NvaM7tN9wMuansnk7nvd7V9NlixWqxUVFYwNTlFw+sGJiemCIVC++utvA2wpNsi676iKO4BL/sClT31nKvVlXOOKLKyssJvf/M542PjXL12hbPnzv6bQEp2W/xHgZRs8AUcCFT+PEyY9M3+ZPPdwcg6Xc6cPYPNbuP7O3eJx+MZV4iYHTIsUnf0MJVVlbx6/prRoRF18KQburq2motXLzAxNsnXn31DZCmqEABTxDGDzsDJcyf46K8/Ii8UoK2hjS//+Wue3n3BSP8o25vbyKKkvCRZEcaSZPWlkbU5r/Tnoiixub7F1Og0HY1dPL71hN/976+5/cX3vHr8hpH+UWRZxuFy4Pa68fg8+AI+/Hl+YrE4z+6/5Lsv7qRUWJOqdSBthhcFgaKyIlxeJ11N3cRjMXUxKqooRKvTMtgxlBJJE8krDmK0GBjpHEdIhVi7fA78h3wsTiyzMh1N6WkoC5csywQrvYQO+0nGYapljtGX00w2zTP+eobo5DoGu56xl9PYAma85a4ckCIIIhsLm2ytbuMrcSNrUjok8QSrC2s4Ag7VwrSysAqCgMPnUPvX6tIa1pR+Svp7a9F1rHZLzuBZX10nmUhgsVo4qKxEIgiCgD1FUt1dfogjtLt4PG7m5+bfeo7L40QQBBbnFvfcw2q14HQ5GB+ZIJ00Ln2OKIpU11exvbVDZ0MXJotRiRITFD2eTN9W/q4sRrG5lFD39CvXiqe0v4DAWN843c29BPMD1ByvVkOT0wtYw5MmDEY9x87WI4uSKsE+PzPP8MAINUeqsdptuQTazW1aGtsoOlSUAopZBNrsCTOZ5MnDpzhdLurrj6rjEw72zeeSCH98G+2nAZJ9bVFQEhG63G6ePnmmLnT7zS/pcVdZVYnD4eDV89e552e1nyCInDhzjEDQz9MHz4lGolnPn1Ufu+4hpNppzzkp/lKOK1ht+wxIEUSRvq5+JsemOH66HpvDnnOt9LOJgkh/9wCr0VVOnDquAticutvFTXn14rXCu6qpzrrWD7fFQTv49LP8seTN/b63+/q5Lo4svlzqf5vVxt/87d/w3o33mJiY4L//4/+gsaFJtaDvbgcha03J1LuQ0377teN+L3U8qudLu66ZWefiiQSvXrzin/7xn1iJRPjlX/2CkyczaQrUCL+s590PpOwXirynDv/I9vi3lr8YMm26iEIuqXb3e/VzUZkkFXGszASg0Wi4fv06n336GU0NTRw/eXzf+0iixLX33mF+bp7b337Pr/72l5hSAk3KCVBzuAaH08Htb7/nm99+w7kr5yg+VKhkK00mEBMCdruNKzeuMDs9x3D/MKNDo0yOTpEkidvrwuN3o9MrpnmtVon8SXNFNjc2c14ry1EW55fY2lSExERJxOG0U1RWjMvjxON1Y7FZ9qDbNBEskUgwNjxOR1MnLx6+or3RRGVdBYWH8pVttAhKk8eoP1vP97+7S2/rANXHK0gmE2h1Gkqqiuhq6iEyv4LVZSaZTHCotpjWZx3MjS3gDjtIiCL5ZUFWF1cZ756mxKpFa1DARjKZBFHG6jFjsOpYno6yOr+OIIFe1iJpJSxeE21f9qm79vSgkUQJkjA/tIzBosfmz4RGrsyukEyAO8+hDvzVxTV0eh0Gk8K1ie/EWV9dJ780rBJp19fWSSaSWO02tY8IgshadA0Aq00BKkL2opf67upK6hxrRjgu3ff+mOL2euju7GFzcwu9XpE8T5MrE6kkmnq9DpvdysLcAqIgEk9FFAiiCPEE4aIQza9b2VjbQGPQphZzhcztdDsoqSjm7tcPUlpAGVJfQkyoAn8IIpHFFexOe44I1e6FORFL0N7QydTINL48H/Xnjiq6NCmQIksyzS/bWIuucfnGRSW3T3rCRODN0wbMFjN19bU5IEkQRNoaW4nHYpw+eyqnTtMLfPoZ2lvbWVxc5ONPPs4FJuLeheSPiRb5MZEhaZ5I2h167vw5fvflV/R091BRWfHWIABRFDl19hTf/f47BvsHKSktyUlaqE70ksw771/h03/5nHu3HnDz5x8omkqJDLkWUMm72frrCXK5Cuk63u93ZS+k48MTvH7yhlB+HlV1VXvArBr5llREDr0+ryLrQBqY5ALLdJmZnmFifIKr166ikTU5xw8Cl9nPuPu87HP+lJId5bP7Pons6K23kGwlUeL48eOUlJTw3Xe3+P72Hbq7u7lx430cWRE56bKXcKse2ecBpRyxureB7N11np6/BgcGeXD3AYuLS5SWlfLOO1dznusgK0r69+6+7x/TDv8Wa8qPLX9xQOWPLdkTSmlZKcWHSnjy5CmV1f8/de/93UaW5Xl+IgLekgAIgARB7yWSEiVRNpVG6aoyy3RWdZmeM909s33O/Lrn7Nmf9oft3Z/2H9hzdmZ2ts1MdXV3VXVVZmWlUxp5Q8qQFEXvvfcOBBCxPwQiYAhSlFJZqbo6EMCIF+69F+99373fe2+tzppOfcllRMwmM9//s+/xi3/8Jz76/Sf8+GfvqShYO6kEocIQP/7Ze1z++HOuXr7KwuwCJ8+qxDBZVCtQVkSC+QGC+QFOnT/J8sISYyPjTIxO0vuoP20g28/8ZTBIOJwOwiVhvHkePD4PuZ4cDAmmvCZZO6+gcickUaKsopTismImRifpfNBJ6437LM4tcurCSURBQHV+M+Dx5lBeU85gzyBF5SHsbtUboLS6hJHeMYYeD3PsYgOSZCAQysPjz2GibwpvQa7qYWCEiqYSOq/3Mt4xTXlzMUbJhCjEiMXVqwgWkbxiI95wjk7+1GRjZpv+L8cIVvr1QU+SDKxMrBGPxCmsDSay9KoT4+rsBlaHFYfbnngpBdYW1/EGPAlzjcja8rqqAUmkCRAEkfUVdXXqzEnXnKwlVq1O916NiiwrSBKsrKyocTESYeqT+xPgQo9LcjjJy/MBMD83RygcQlZkPQ9S6rW9eV5mpmbS+02iTLhEBSoTY5OUVpfuucbRk3Vc//QGCDA2OE44Jd9R2vMvreH2qgAsmyfB5toWD2+2s7m+RU2j6jGiEWu1cjMTswz3DlN9pJJgKKhrdgRBZKB7gOWlFV598xVMiTw0oILA7c1tOjseU1lTidfn1a8vZAyasWiUO7fuECoMUVWVnjAt9V6fJAeuCDMmqieeS1C1Kjdv3OTmjVtUVVfpdtXMcAgigAjVNdW03Gmh5XYLpeWlaI+QqWFwOB288vpFPv3wMq03Wzlz8TQK2ju//wIuk+x4GJAyMzXLtc+v4/P7ePWtl7NqOzQQ0t8zwNrqGudfPpf1/JnS0f4ISZLSeDnP0m6p93GQZDvfQeBxP8CSClbUcyhpZVPrPDc3l5/89M/pfNTJ55e/4L/91/9GdU01J06eoCBUoN+DDvpTbjHp1rz3nrMC7H2eP3VxtbK8wldffMXgwBA+n5ef/PTPKSsvO1D7uJ+pdD85jMnnm5I/OlBJ7RCHPkbIHlMlU6ui7RMEgTfffJP/+p//C19+8RXvfu+dtA6TOpjk5ubynXff5ne/eZ+PP/yUN7+r+sunghW3280PfvR9bly7SWd7J/Oz85w8e5JAfl6adkVWFERJxOfPw5Pn5dipY8jxOJFIhO2E1iSyE2E3sovBaMBis2KxmLHarBiMBpWMm+XZU0U4YNDVYzpIIsWlYYoSk9qjh52YLRYaTh7FIEo6WKlvqmNyZJJHrV2ce/00iAbMJqisL+dRSxfLs8t4gh4wQGVDOa1fPmSqf5aiOnXys9ntlB8vpvfOIFNds4SP5kMihoPWNoqiIItyYlJOtnvNy6VMdswyfn+GinPFahvvyiyNreL0OnDnuXSQEovE2VzaoqAyERFVlIhsRIjuxvAEcvRV+PrKBoIg4Mp1JSfc9U0EQcDpcqS9aBtrGzoJUa87Kb1u11bXcLpc6jNoCcUSfVADK5A+4GUTbZXk8amE5IW5RULhvQBCO48vz8tA7wA72zt6UjlNXDkunG4Hk6NTlFaX6sekvhNWm5Ucbw4ddzux2ix4AukrvehulM31LR3QaaLV2crCKveuPEAySpx57RT+/Ly0iUYQRCI7ER7caiMn1039iaTGBGA3skvHvUfkh4KUlBfr59bKtD/oQJYVTp05mTJo7p3IHt5/yMbGJt//sx+kT3T78BaSxx9cNptkjkupK+tsZS+8dJ73f/s+fb19VNVU7av51cqfPneGj3//Ef29/VTVVKbfX4p7c3FpMQ1N9XQ86MBoMtJ05nhauH5tgaRNdtnAStZ6SAEpq8urXPnkKm63izffuZQGJLWyGiBVFIWHrQ/x+ryUlZcdODlp4LK7q5vqmmo98ObTyqHb7IB7Sd23X7ukziXadffrA6kLYe2ckijR2NhIaVkprS2tPHzQRndXN6HCEM2nm6morEAQhDTAAumgJe2eDxhGso37siwzNjJGe1s7gwNDmIxGXrv0KidOnkiL+ZKpRcn8fZh357Ag5ZvQpsALqlE56KWHvR0s2/EeTy7nzp/j+rXrFBWFaTzWmDw+Y+VTXl7OG2+9zuVPP+f9X7/POz/4rpoJNFFeRsZoNPLyqxcJ5ge5efUmH/3uI4L5QeqPHyVUVIAiiXo+HxW0JDq0IGIwGLHabHvuM3UA2g+AZGv4fVcQKROtoMgossyxUw3sRnbpfdRHbDfK8bPHdLBitdpoOnOM21da6LzXTX1zHWCgtKKE0b5xulr7OHXpOCarkRxvDuGKEOMDk5htakZlAG/AS/GRXUa7xum7PUL4aBCz04yoyMiCClAEWUBU0ttUsho48kYljz7upeRYIdHtCPNDi6AIhKqDCd6KunqbG5pDFEUCYb8ein1pZgVREPAEPLqNdn15E6vdqptVREEksr2LyWzS46zo9RWXk67nqW2iyJCoX7PZzMLqgk7cTi0j6APWwVoVbaCTZZn1tQ3UlA+mLOVS+3O6d5uehTlxHw6ng63NrX2vubK0SuURNYrt3OTcHqCyurQGgNvrTpo0tIkMgd62fowWE2ffaMaumZCEZCwNgLGBcSI7ES6+eSENTImCyOjIGJHILk2nj+su9Vp9xeNx+nv6qagsJzc3yS3SjtV+x+Nx2h+2U1pWSqhwL6jLtipU/356kJJaPtsiKtt4U1tXyxeff5EIr3+w+QegsqqCGy4Xw4PDVNdWQ5YsuTIgijKnzp5ke2uLR22dVNZW4HDa92hVBFFMAytyXADyQRb37Y/aGNPV3oOiKLz+ziXMKe9KNpPRyvIqK8srvPJ6dq2LVm9aO8zOzBKLxqiprc5aLvV5Ibu5Ie2ev+aEmFo2WxtlAytweFMQgMvp4tXXVLLqo45HtN5t5be/+S0er5ea2hrKy8sI5gezghZNtFxCh3mOjY1NOjse0d7WztraOjabjVOnTnKy+RSuFM7dfrFRnmQqfZK55+uClGeRbwWofF2tSrZzZWpVAM5fOM/E5CRfXP4CfyBAfr6aCCs18qQGVhoaG7DZbfzhg4/41S9/w/d++A4en1dPsS4nNDW1dTWUlZXS1dlF24N2Ln/0ObkeDw1NRykuK0KSJF3LAipoUa+ZpREP0a5PGnRAW11J+t9ygkQrC2rnP/NSM2aLiUcPHrOzHeH0K6cwSBKyIFJcXszK0irdHT3YnFbKakuQDAaaXznB9Y9v0XHrMSdeOYZBMlDVWMnuzi4jj8eRjAZ8IXWiCVXkY7aaGOkaZ7B1DKvLgqfQjdPvxCCKaYAlVUqOFTJwa5S7/9JGoDwPi81M2fFCbC6bzoPY3YiyNLVCsNSP1WlFi6C5MLmEx5+L1WZNtLnC2tIa3oA3pW3V1b3JbNpTj2aLmd3IrtoPs7SDosiES8KMDI6wML+AP+Dft4Bd3wAAIABJREFUUybVBJStrTJX5H09vUiiSElFSZrZJ7Vfy4rM0uIy1oS2LfMcsiKzvbWN1b7/anVlcYXGM/XEYjG2NrfT9omCyk8xGA3Ynba0ugJYnl9hZXGFupO1eoyUVFE5MTDSP4Y/mKdriVLNPsP9I7hyXPgD/j3RfidGJ4nsRKhMaBX2M/uMDA2wsbHJG28fS5lED57Mnpbc/CTJ1KqkgjoZmXBREaMjo0/0ZlTvUaAwHGJocDiRyiAByJT4nrKSKHHy7CmG+ofpbHvM2ZfP7NWqJCY2DaysrliAKVZX/oW8YOZzJOt2Z3uH4YFhKmsqcDodT3h+kbnpOQRBjQWUWTdZ+SmzcwAE8/OfaeI6DLh81glxP8DydUxB2vlEQQ3id/LUSZpONNHT3cP9e/e5ffMWt27cxGqzUlpWRllZKaFQCIfTkYxwvA94Ua+jsLy8zMz0DLMzs8xMzzA1NY0syxQXF6kRZqur9HPtJQg/uxYls1zmOQ6zPWvZZ+D4vZAaFXg2rUoqWBEBRPjBD77P3/1/f8f7//Y7/vI//CW2hGYjMwSyjEhFRQU//Yuf8Lvf/I5f/8u/8Z133yZcHCZ1LpORMVvMNDY1UtdQx0DvIA/vt3H182tIkgF/UPXCCeT78QfyMBpNqpqQw2fJBNjd3WV7c4ftrW12I7vs7u6mfZstZtw5blw5ahA6k0ldpWvXUhIkPBWwiJw4cwK73c7dG61c+zQ9sm7DyXo21jfobuvF6XaSV+DF6XJx8mITt79oofNOF/XnjmAyGjnSXMfubpTBtmF2tnYIVQQxiOALecnxuZidmGdmaI6JxzMY+ufxFuZg99pUHYGi6G54ka1dZocX8IZzGb4/Ts25CkoaC3UPFUEQUaIKIx3jGE1GwtUhffvG8haRrV3K6kr0CTKytUtkO4LX70nL/rsbiWGxmvfUr9mqxiGJRHYxGZJ1l/rCFZWEQYDhgWHy/HlJ848gpmlVNNnPVCDLMrIs09vdR3FpMRaLJWtfkGX1+KXFZXK8Ofo9pX4DbG1u48lLaklSr6soMsuLq+R4c9hc32Q7BagIooAiK6rHj8e1d+KXobejH5PZRHF5WN+cqU1ZmFlkc2OLxlP1Gd4eIpsbm8xNz3G8+XiaKVMrM9g3hMVqJVycdFlN9S7QtrU9bMfpclJWXpZ2i9lcW7PJQbE3Uusq23GHXUQVFxfR/biLpaWlrERKbRzS+k1BYQFdnd0sLy2T68lJlBHSyNSa2O02quqq6Hncw9HjR3E4bHu0KpDUrOTkqufLyc1BFNLDsGvlAAZ7hojH49QerdG3a0AQkm2t1dPM9AwWq0U/v5Ci9comc7NzOJwOPX7PXo3X4SeprJ46z2HVfhBgeRrtCmQHLKIkcvToUeqO1LG1tcXw0AhDg4MMDg7S1fk4cbyA3WHH6XTidDqxO+zEYnFi0SjRaIxYLMru7i6LC4vsRNQ0IUaDgUAwQPPpZhoa6lU3dg4GJ5l/78dfynaeFwWkwLcIVJ6HVkW3G+5zLlEQsdls/OhHP+If/+Ef+f37H/KTn/15smNlASvBYJCf//uf87tfv8/vf/sh5y+eo/6Ymn9EEsQ07YooitQeqaGmTk1iNTY6zszUDO3321VCpiiS48lRPX0S3j7adzwuE4vGiOodM8bO9jabG1tsbW0R3Y1qT5n2TIIgYDSqwb9SV3I2uxVfnpeGpgYC+X5dq5MKWGrqa7BYLVz/4gZXPr7Ga+++gigKGA1GTl9sZnNtkwc323jp7fPYnBb8+X4az9Tz8FY7Pfd6qT1Vg9lk4vj5Bnoe9DHZN83myhaVTaUYJRHRIlJQGiRQnMfS3CpzI3PMDi2iDC3ocSZSxWQ1UXehEiUOA3dHKG8q0YOqKXGFwYejxCJx6s5WYzKZ9Lwxk/1TWKxmguGAPkGuLq4hCAK5vtQBVWB3J5KVMKupvHe2trHbbBkaKRlklesRCAYYGR6l+Vxz2n4NrGjdbr8XUOuX42PjbG1tUVlTsUebksrfkWWZpcUlautr9EFRW00rikwsFiOys4PVbk3Txmi/o7tRNlY3cHmcyHKc5cVl/V4UWQ0et7K4gtuT7smkKApd93tYnl/h2Ll6JIMW3G7vcw31DmOxmgkVFezZNzo4BkBZlUr0TR3EYtEYo0OjVNZWYjQY0+otTauztMzYyBgvvfySntfoSXIYk0/mszzJhPwkCYdVMDc+NpHuWaGNJ5qmLQFEQgmS5dTElA5UDpKG40fpedxDZ1snZy40p+3LHAu1FbX6vReogGpO633cS34on5ws18/W1tOT03pCzcPI3OwsgUAg47zPR9P1vE0L2RbDT6NdySyfCYBEQcRhd3DkaB1HjtYhyzLT09MszC+wtrrGyuoq62vrzM8vMDo6htFowGAwYjQaMBqNGI0mautqCeYHyS/Ix+fz6a7F+z3PQX8f5BX3IoMUeIE1KpC9Iz2tCUgURIL5Qd56+y3+8OEfuHb1Oi+/cvFAsOJ2ufnJX/w5H3/4Cdev3KC3u4+XX7tIID+Qpl3RtAOKolBeUU5pWSmyIhOJRJiemmZ6coalxSV2dnZYXlxmZztCJBJJCzRkNBowGNXOaTab8fq8hO1h7A47docdm82KxWrBbDZhMpswJUK9x6Ix1tbWWF1ZYzmRs2Z8dJwP/+0jCotCHD/ViD+YDlgMooGyyjIMBokvP7nC3autnHvtDCJqbosLr5/nsw8+5961+1x46xwGg0RJRTHRyC6d97sxmgapPFaB2Wym7lQNTo+TvrYBHl3rpupkOVan6iYsyCJ5QQ/eQE4if8yOmpxQllGDw6lmALvXphINv+fgN//XH5jonKbseImaHr1tmMjGLlWnysnxunRAsrGyxerCOhUN6nNo5obVxVWMJtOeeCmRyC4+y16NislsRFFUVTgkzGWyyqsRARL9p6g0TMutVlZXVnHnuPXVsd7vSJJrs4k24PV09WAyGQmXhPd4+oCqTZEVmZWlZeLxuD6RaUBGTkSo3dzYRFEULDbLHiKtkjAbAeR4c9K0cZIk6e/NyuIqbq8r7T0a6RljbHCCyiPlhEoL0sEYIKJOhFsbW8xMzlJTX42YQT5WFIWR/hHyAnlp8Wm0QW90ZIxoNEpFVUXWutJE8xqpb6hX6/iAwfBZvBWel+R6cjFbLMzOzgL1+vbM8Ulra3eOG7vDzuTEJEca6vbszxSH00FlTSV9XX3UHzuiaymyXeMwMj4ywebmFqdfas66P7OtNzc2WVtdo/7Y0bQy+9msd3d3WVpcpqam5qnv7duS/eaTpyHaZpbPJPLq2ipJJFwYJhTK7on3rPf/pG1Po0XJXv6b454cVr5VoPIsWpVMeZIJSAMrjccamZicpOXOXRwOBydONh0IVqwWKz947/v09/Zz5csr/OqXv6a6toqzF87icDoQ5BQvFiFhcpEkREXVLJSVlVFWVrZHda8oijpxiJIaNfSpAlIlEbvRZMLr8+H1+fT9u5EIXY+6aX/QwYf/9jHh4kKOnWokz+9L8mbiUFRazKnzp2i50ULLtXuceukEoqDmMjr36lmufnKNu1+20vzqSQxGicojlexGovR3DhKLxqk9WYXJaKakqgiHy07n3S46b3QTKPETqszHKIkoojq5Ot0GHE67PuGq95+uWTF6TRx/4ygtHzykoDzIWOckW2vbVDaV4QuqiQQNkgFFgZFHo5jMRkKl+Wk28pWFVXJ87j31GY/FMBiktG2KImNLDPqL84vkF2qZlqUkByGhVSkqLaLlVisf/NuHXHrzVQoKC9JIcbIiH0g1khWZyfFJBvoGqK6rxmAwpJFkU7UpiiIzMjwKqB5Csq4RS0wisszMxAwKCjaHLQlgUjQrS/MrSAYJk8XI/PQCCBCPybo5TFZkVhdXcXvTPX6Ge0awO21U1penZbjWn0NWECWYm14ABYpSTEOa7GzvsLK8wsmzJ7LWxcTYBGaLmVCC75CNnwLQ39tHWXkZjhQORWa7HnbwfBJI+TpaFUEQyMvzsbS4uGdfNjOgIAj4A34WF5cOfY2ao9X0PO5hcnyKipq9AE/JBLyJPpWtfqYnpjEajYSK9k6U2Y7RQK83z7enfDZZXVlFURTdJPFtyEHE2YOOeVairXqtdO0KsAe0ZLqWZ5MD4/E8oR9n238QQIEna1GedN0/ljYFDkXn/HblMIhR334AOhQFkbfffovKqkq+/PwLrl65ppPaREHMiCQoJCZHIzW1Nfz13/w1p8+eZqh/mF/8/T/RcusuW1vberRXSTToIfAlUc0jo33UAFnqfoNowCgZsVvtWMwWjJJR336Yj3av++2zWKw0nWri53/9M06fa2Z+dp7f//oP3E1krhUFNey1QZQ40lDHiTMnGBsc4/ZXd0FRg68VFOZz7rWzrC6vcfuLFmKROAZJou54LXVNNcxNzHP/Sjux3RiSaMAX9HL69RMEi4LMjszz4HI7gw9HWJvfRBIkjJIRo8GoR+A1iAZMklH/GEQJk2Sk4WId8bjMlV/cIhqJUXemikCRX496KwgiE92TbKxuUdNUhclk1LUp0Z0oW+vb+AIeneOiicliJhLZ1f/WmfpuJ3lBHz2dvcRjscS+JIBQEgO+y+3iuz/8DnE5zu9+/T63rt8mGo3qOXgO+kQiEVput/L73/0Bp8vJ6fPNWU0+mjZla2uL9gcdhItDOHOce7Qp0d0oHQ8e483z4vElY9Ok3u/ywjLuXBctX7WyNL9EQ/NRDCYp7blWltZwe5woib8VRaa4KszG2iYLs4t76ir9HUumr8iUaFQ1V2bzcBNFgc2NTVxu14GD1s7OLutr63osivRzPHm4epYBcc+AnsatecJCQtg/PH82ABSLRXU+mVrmYCLuzpbKMdI0VPtNZnu0OCkLA1ABjd1hJxqNEo/H07bv1QCp/cqU8OaKRbObkjIlGWn3+ZKa4XCTYiZxNPVzmGP3m+yz9Y/MPpItqnFmfKIn3VO2MtnKHrRfu26mmSdTi/KnBFLgBTf9aPIkE9BBsVVS9xsNRt770Xt8+ulntNy5y/LSEu987x09/TjsjfwoI2IxW7j48kvUN9Zz/co1Wu/ep/XufcJFhVTXVlNaUaqaZDSknapF2Se40/MURVG08FLIsozNYuNEcxNHGutovXWPzo5OFucXeeWtV7DZLMSIYQCOnWjEZDJx59odbnx+i3OXziBJkuq9ZJC4+cVNbn1+hzOvNWOyGqk6WonDZefBjTZaLz+gsrGcvEIfdoeDo821FFcVMjE8zdz4HItTyxhMBnwFuTi9DiSThMEoYTQZkIwScVlmc2WLlfk11hbW2FzdoqA8yHDHKK/89AK+fJ8ORERBYHl2lcmhGcLlIQKFeXqYdjFh9gEBr9+r14m2z2wxE9mOJOopqbaWZZma+mquX77J2PA4pZUJToUs6HEOpMTLWFCYz49+/kPu3Gjh4b2HjI2Mc+mtV8nz5+nalVSRZZm+7n7u3LzL1tYW5ZVlnHvpLGazeV+QoigyrbfvqS7kzcfV+5XlJBiRZbo6utnZ3ubca6d1vo8sJ0GKLCsszCwiSKpnz/FzjeSF1NVwquZmbWkNlzedo1JUWcj44CTdD3vJfTMHAwYEUX02rR5kRdbdvGOxuH59zQSkTWiZruCabG9t74nymyqiILIwPw8kg+NlK7N329O5tj6L7Kd5UWQZMSMoY6pk9o2dnQg22+Hji2hajcNwWva7vlZn7ly36h23sqaSw5/gWm+yqIAqkiBz6ueUZURJ2lNe2xaLHQ7YPE85rMbhSZqWg4i28OSotppk07LsOf459M/93bcPF5n5Wdy//9ggBV4AoHJY88/zBCvf+c7beL0evvz8S375i1/y3o/fw+FwJNX5IkiICbWqjBbaODcnh+//8PssLi7S9biLnq5eLn/yOUajkbKKUoqKi/Dmecn15CIIgj7ApxKtUuXrqPrSjheSf0uSpAMXm8XGS69eIJDv59qX1/n9r37Py2+8TLAgyV2pq69FMkjc+uoW1z69yctvXkAySBQWhXj5rYtc++wG1z+5RfPLJ3B7XRQWF2J32nl4u53Olm5yhtzUNFVgcVhxe9w4c5xU1JeyOLvM7Ngs8+OLzIzMpyeGTHB75LiMAjhzHYQrQxw5U8POeoT7n7Xz7t+8hRYfJRqJMtA2hCvHSUVDmW7y0V6ylYVVjCYjrlznnnqzWMxpni9qPSlIAhQU5eN0O3nc3kVJRUnChKdyVZCS/AxkEZPJxMuXLlJSVsL1L2/wm3/+LXl+H4VFhdjtduwOGzabje3tbe7eamVpcYlAMMBb77xBsCCoe/7sB1Kmp6bp6+7nSGMdrlxXhqlMZnNjg55HfYRLC8n15RCT40mAkjhXNBqlu03lwjS9dAxv0JNiclS/43KcteV1XLnOtP4nSAJVDeW0337MxNAUJZVFKLICUnpsGSkDlKSKBl5Sg02lytbmFsFgMOs+TZaWVLOIz/dkc8M3xT15GpHlJ8e/SJWdnR2dePukSVNWZBYXl7DZbVisljSNH+w1+zxJXDkqSFxdWcOb533iGGO2mFFQ2NnePrCcJlrfiGd4MO2ngXte8lQTZ0rZJ42/+5mD4GDAoh6/F7SkHr+fZILhp+nj+4HObwOgPG/51oHK85QngRVNJFHi9OnTeD1efvvb3/Hf/+G/896P30tjq2txCpLRAlXuCoDX6+Wliy9x7sI5pian6HrcTX9vP73dfer5JQmvz0OePw93bg5WqwWzJUGINZkwm83qRK1FblVkFAXkeJx4LE40FiMeixGPx4nH40gGA0aDAcmgJv0zGI04nQ59QtgThCjBmRFFERGRmtoafHk+Pv3wMz794FNOnj3JkcYEmU+C6toqjEYDVy9f56uPr/Ly2xcxGCWCBUHe+P4lrn12gxuX79DYfJTCsgJyPbm8/J2XGOkfoethL3cu36e4KkxxTRhjIqV8MOQnUOBjdzfK5sYWuzsRdnd2iUR2iUaiyLKCI9eO2+fGaEp2wzf+3Sv8/f/5S05dOk6oPB8BgZ57AygyHD1dm5KyPhmEbGluhVyve88LKSsyZquZpfnlRB+QVa2XCKKiunrW1FfReuM+05PTKbEiRIjHkBOmQEUQkRURUVAoKinkx3/xHo87HtPd2ctsy/09GeVdOW5ef/sSZRWlKvE5Hku7p0yQEo1FuXHlFnaHnaNNR5AVmXg8hqwoxOUYsizTfq8TRZE5crxWBymxeCztXD1tPawtr1FUEdZBigZmQFXpb65tEovGcOQ4dHdoTfIKfbi9Tkb7xyiqUDOKC0oiA6yicnYMBhUIx6K7adoWRZETJrHkhJUq0WiM7a1t7Pa9ZqFUWVleRUqkk3iRZD8eS2qE4sNIJJHnKZupJrNfACwvqq7MmvlPvx85nfuWPI+SNt6JKRo/ZyIz8vLSMlCacVxiDIG0gIeCILC9vaOaqITU8goiGvlWLa95aMkppqVM7st+/Jlnla9zrv3ASOa5D8NfgeyART3PwfGVMs/7NHJgPqBDer8lz/V8Qcrz0qbACwJUnpdWBQ4GK5nM7IrKCv7qr/6Sf/3Xf+UX//2feO3SqzQea0x/sRI/M81BoAaCDYfDhApDXHrjNRYXFpmbm2dhbp65uTkG+4fY2dlhz0yWIooCT7vYUBSVQR7MDxIuKqSwqJA8f57KixHSk6hpgMXv9/PnP/8xX17+ipZbLczPzvPSaxd0sFNRWY7BYOCrz67y5Ydf8dIb57G77Hi9Ht784Rvc+uIWD293sLK4Sm1TDUaDmoU5UOin+2Evo73jTA5NUVwdJhD2Y7Ka9FgjJpNx70CrT57pK5NQaT7HLtZz+Z+u8NP/+T1Gu8dZX1yn9mQVdpc9PY6GKBDbjbG5tkW4NLSHAApgsaqB3XYjESwWzVNG1Afa4ooi2u894sHdNvz+PAx6lFU1IZze/lrry6Ia2rz5OCdOn0CWZSLbEbY2VbdyOS5TVKoG/lNQdCCa/sxKGoh4eK+N5cVlXnnrIpJB2mPymZ2eZWRghIq6cqwOK3E5rpt8YvE4siIzMTLBQM8wigKBsF8FO3JMvx6oA67mrmx32/a+S4j48r0Mdg6zubGF3WFL06rIgGBQKySys6vWodbHBEnn+khZyMs7CfOb9QlAZW11Fbd7Lyk67T73G2if48CoyUGTCkA8Fn8yjyUhu9GoDlTSr5F97Nve3mZlcZmCxrq0spkgJROcZLt/URAQJAGn08HSwnLKNdV+nqoV0ojkkiRisVjYTvBktGOkjPrXgiZqJsDdWFTtw+KL4TFykDwJrBxUJpt2BdL7YfawGdn7y74pG57G4eKAd+AgEPQigxR4QYAKHB6sZD32KcEKJM0x/oCfv/4Pf80H73/A5U8v0/W4i7e/+zYeTzpzPdUcJAoa/0RKmBFEREEmEAiQ58/Tj1EUhe2tbSKRCDs7O+zs7LC9s8OubvPV0m4nviUJgySlaVBEUSQejxOLxYhF1YR/0d0oC/OLTE5M0HrnHi23WzAYjISLCznZfDLhRq3CqVTAYrFaeOudN3l4v427N++ysb7O6995HYvNjCzIlJQW88Y7l/jq06t89sEXnL90Dn++D7vVystvX6Sj9RHdj3pYmF3k5EtNONw2RLuTE+ebKK4I09c5yGDnCIOdw+T6cwgWB/HlexANhoR5InXCTtRdlv584Z3T/D//29/z8T9cJlReQHl9GaFEcj3N5KO9POsrGwB6gLRM8Rfk0dvRT++jfupPHiVVqwIq+VlNI3CXrz67yqtvvZySCHIvWIknwJe6MY4oClhsZqx2K16SHJlMcALpgEEDKYP9Q7S1tlNWVUqoOIQiy2lmna2NTa5/fhO70051faUOUuJyTG/X4b5hOloek+NxE92N4sx1JDQxe0HSyuIaNocVySjqQEZfOaKCnKGuEfra+2g816D20oRWRRJEbA4bkkFkYW6R4orixHPJyIKI0WxCQWFzfQPZ70NW1LQSGokbUM19GavzVInF4/uajl40URSFtbU1PaPwwWVlpqdmAPD6vPrxmQkpU/vGvdv3URRFj2S8H0jRzqV9ZzMfaHyUcFkhjx92sTi/RJ4/aV7LBiwURcbj8zA9PbPnWbL5YZhMRgxGI2ura0+sjxdJDsNfeZJ2BfYPIJgqB81xzxpZ+Umg4FkBymH2P8v9PIv8aYwIKbIfuj0IGR/EWREFEYfDwc//4ud0dHTwxedf8nf/799x9vxZzpw9s7ejpWlYQNOypIKWVLdlh8OB7QmryKeRzI6+s73D5MQko6Oj9PX086tf/orS8lJOnTmFP+DfA1gEQeBk8wlyPTl8/vEXfPDrD7j0ndfx5uWCZKCwMMT3f/wulz/6gqufXOPY6UYqasswG0WazhzHX+Cn5VorVz+6TnFFEVX1FRjMEv5gAK/fy/raOmODE0wMTdLV0oPBKOEJ5GJ32bC5bNhdNqx2CwqKGq038TzxuMzuzi7j/ZNMDU9TXBNmtHeCH/7NO7hy07P8aiYfURDZWt9Wozy67Gn1IisyIhK5vhzCZYX0Px6gpLIYd44LPVBbwgRUVBYmGo1y7+YDvvrsGhcvXdADwmlgJY6sm4L2AhbQQMve9kquklJBg6zIzM3Ocf2L6+QFfDRfOKV7YGj7o9Fdbn51h2g0xoU3zyIZDQmTUGJ/LEZ/5wDdbT348n00nj3Kr/7LbxPB3tJNCBpQXF1cxelxpk+QaGZCMNvMFFWFGekeJVxRiMfvQZRFZFFNJSGIIr58H9PjM8hyHDmFi+VOcCBWVtYozqgHs8WMKElsbm7q2zInPE3793VDFnxdOez119c3iOzuZo1Km3ourd3HRkYRJZGCwoI9Y1XmJDczNUNfdz91DbV7kkdqnmDZjs02BmqaTVlRqGuopb97gAd3HvDG915PlEjmB1LfG3TzT6goRMvNFtZW13DnJO9D1aKISCldXhAEvD4PCwsL+9bF85zEnre25nkBFtjfVHjQ8x8IYp6y3p5kQnpaL6rDyjcBUuAFAypfxwSUuT0T5aaCFSDNFCQKIgjQ2NhIeXk5lz+7zM3rN+np7uXS669RXFK8p9F0zxCddEuapkW7BuxVlX6daJipQbZkRcZmt1FZXUlldSXnXzpP+4N27t97wL/+4leUV5Rx+lwzHp9XByygTkzlFeW4furi4w8+4aPffcRLr75EaWUJoIbhfve973Lt8+s8vP2QpfklTpw9jmSQKCouxPNeLo/uP2aod4jxYTVIWEl1MUaDkZycXJzHndQ0VjE/s8Dk0BSLc0vMTSxAwhQiSiJWh5VYLEY8GicajeohxAVRIFSSz9k3T/Gf//e/585n93nrZ5fSzD1aWwsJoGIwGrKGyZdlBUSZuqYaZiZmabvbzoU3zqsART2LbgIqry5DkRUe3Gnjw998xMXXL+DL8ybBiZCuXVGPTgEsgJwwzWcj7KUBBkUN3Pb5H77AZDbz8lsvIyY8bOJyXAcV7fceMTs9S/PFkzjcTh2kxOUY8bjM4/tdDHYPUVCcT+3JarY2t3T+iaZxUesheQ+rS2s4cxx7+qAO3ICi6kKmRqbpetDLuTebkQVRBSuCykkJhvzMjM+yvLiikjITz2Q0GbDZrawurexpCwUFi9WcBlSyiSgIeyIYv2ii1ev8nJrXxufz6doODUSkcoM0GRsdJ5gfwGgypmhEMtyIFZWzdDPBWWo82aCXy3Ql3g+gZDOPa2DFYDJy9PgRHtx+yNT4NIUpMVVSM4hr5p9QWOVtTY5P4nK79mjCUonWAB6vl7HhkUPU4osrTwNY9it3kLfPvuf8GpP8Ybkt3xRAgW8OpABIf/u3f3vQ/gN3fhOiRXo9VLksA1rmdtXWnYwEmxoVVkl8a2UEQcBoMlJbW0t+fj59fb08uP+ArsfdyHIcj8eDyWjS7ef6sULyt5CyXWtwfV/KdnWfsGff03xEQUy7nsFgoLCokIZjDRh6S+RtAAAgAElEQVQMEj09vbQ/7GA3EiEUDmEwGBBQfeoFQcBmt1FRVc705Ayd7Z2gKOSHClRVvUGirKIEBIG+rn6G+0fw+Lw4XQ6MBgOhogJCxQVsrm8y1DvC5PAkJrMZd64zoeYXcDjtBMMBSmqKKasuwR/KI8frxmq3IgA2hxVXrovcvBz8BT4ChX6qj1VRWBbCbLHgDXj48B8+4fiFBhwum17vqR4/I71jGA0SRRXhfevJaDQgSQaGe0dw57hwJlb+KCpwUlAnSG+eF3++n9GhMfoe92O2mvF4c1NIRIn+kzBd6KBYPZn+SY1PAgqyElf5KqhajqX5RT754DMikQivv/sa9tTgbUo8kb59nPu3H1BaVUJ1faUOYjSTzuMHKkgpriqi5kQVggBzU/Pc+ayVt37+mupaLMvIcjxxD6qHVcfNx5itJiqOl6nPk7hrff4RQBJVt+6JgUnMNrMebl9IxGOw2qwM9wxjtVrx5/sTGi61T89MzrG5vkl1XaVanmRfHe4fQkBQsweDfpygt6lAf98A25vbNJ04fmDfT77be7/T3/3DSqqGQsm2NfF/MhVET3cPoyOjvHrpVZWXo6TuVXSOkoLC+sY6N67cpK6+jvxQvg5G9X6hgxCFzrbHDPYPceG187hz3WkmH7UPKWnAV0Fha0Pk/X+u4gc/68ViiyZMQIpuZlNQ9LEi15PL8MAI8zPzVNRWJOopOZZpbSMIAjable7HvQCUV5brtaHtT61jURRZXVlloH+QphPHMSaiaGeOl9oYfVBbHvT7oG3PU/abY7KVe1LZ7H342QC5kFL3mW2QTbK11UHlnkWeE0j5P/bb8UJpVDT5upqVTMnGWVGPz24KAqiorOA/lfwnurq7aXvwkCtfXuHalWtUVVdx4uQJ8vfJfyFntJd4wO1lWgoO8yx7H05K09woiozNauXchXM0nWjixvWbtD1oZ3xsgje/8zrePF9aGgCH08EPfvx9rnxxlbZ77SwtLnHx0kUMRoOazLD5OOHiMFc/v8aVj65QeaSSxlP1SCL4fF4uvvkSM5OztLW003b7EV0PeygqL6SksgizzYwsq54rokXEG/DiDXj1nDNZeRwpv+tOVlNxtJSP/sdn/NX/+vOsSH9zbRNv0Ju2TVNfa+RXRJmSqjCjA2O0tz7CF/RisVrRaNGyrGZHEQUFX8DDmz+4xN1rLdy+dpfpyRlOnVMTOmraFVkBMWHz10xCyTYV99yLJkoCgFz7/DqSwcAb37tETmIiSvXwWV9d487VFtweNw3NR9PIs7KsMDowykDXIIVlIaqPVargRpFZXljBarcgGaUEj0VV8cRiMSLbEcxWE2vL6xSUBVEUmXiK9lFW1OdXFJVv4gt5cHmd9HcMkh8OYDKbda2K0WzE7XEzPTFD3fFaZEVASPBUXDkuBnuGkGWZzFAbVpuNrc2t9PrJiMkhCk9+95+358hhJU1rIaumu5wc975JJjVRFJnx0QkAiorDe7Qfqf0/GovS2f6Y/FCQcHHhnrLZtDWp9aUB5NQVdjLLt9rfJYNEw8kGbl+5zXD/MGVVZYmSWvD8JHnaIEoUhkOMj44TT+EPZeOpyIqMx5uLgsLCwgJhqzVpKt+nvTLv9UWTw8Zfedqy8M271z+r2/ZTX+cb1KRo8sJpVDQ5jFYFsqPe/bbtp1nZT7siiiLBQIBjx45RVV2FIAr09fbz4P4DOjs6WV1dxWAw4HK5Ei6ze1cOoiima1wO0pAkIgZmfgQOPp60e09qdoxGI6XlpRSE8unt7qP9YQcmo4FgQVAtl6gbURQpLSvBYrHwuKOLof5B8gvy1dwiAtgdNiqqy4lGY/R29jI+MoHP78PusCMADpeDsupScj1udnd2GR0cY7h3lK2NbZxuO1abFVGQEpqk5H1LooSImKZlytQUFZaFeP/v/kB5bSmeQK6+mgD15RobmGB3J0K4LIQoifpKTVtBJlofQRRw5ToZ7h1hbHBc1+xoq99U7YrBYKCkogRBFOnv7qe7o4ftSASb3ap6bAjaSlY9t6IkrqUktSkIqNqMhAYmuhul9fY97t5oxZ3r5vV3L+FyO9Mmn7gcJxrd5cuPr7IbiXDhzXOYzCbkhCYlFo8zP7vAvesPyPHl0HDmCAqq509clhnqGmZucp6Trx1DVmTWVtYZ6R6j534fY30TjPdNMNA+hN1lQzKK7O5EsdjNif6eUleJb2eOg/H+KRRFxhf0pmjyBKK7MSaGJykqK8RkMSMm2jOyE2FiZJLisiKsNqveXqIgMDc9z8z0LMdONKZkXRbSfo8MjbC4tExz86lD9vevr1HJVMvvp1FJ05UoCl99+RXBYJDq2mo9TlBqKc2MBwr3Wu6zubnJuYtn9TPG5XiitEI8AUT7ewYY7Buk+fwpHG7HgSYlLbyBoshsb0p88M/V/OBnvVjtMVI1fGnjXuK9yPHkMDk6ycTIJBW1laq2NTFupGpVQCAWizHYN0hxSTEOpyN95a29r0JSq/vw/kOCwYC+mMv8ZNOmpI+/e9vv29CoZF7raTUsT3PM85LDak8yyz/TtcRnP3Yf2Vej8sIClVQwcaiyzwBWMgGLklEutbPZ7XYqKio4efIEuZ5cIpFdent66Wjv4OHDhywtLbGzvYMiK1gsluSLL+xvAjrsRw95vB/gYe/ArZuWgNzcXGrralhaWqb9YQczUzOEi8OYLZY0U5A/6CdUWMBg/xBdj7qwWq348nwqiJBEwkUhfME81TTS2cf21g7+QJ4a20QQcOe6CZcWUlxehKIojA9PMNQzwuLcMoKiYHfaMBiM+sSV+lKpgCxZVxpwcbqdbG1scfPTu5x+vXlPtl2Hy85I7xixaIy8fF/aQJgJViw2C4GQn+nxGQZ7hlEUBU9eru6amWr+APAHfRSVFRGLxRjqHaK3s4/pqRlEQcDlciJISY1e0kU0YU5RFH2KWFpe4fOPv2R0eIzqo1VcePUcRpOBeALsaDFRZDnO3eutTE/McOaVZnJ8OSnk2Thrq+vc+vwOZquZExePI0gkTELqJNd1r4ftjW18IR99DwcY7hplY2WD3EAOBWUBzA4Lnbd68Id9bG9FmJ9aYGVhDU8gB0mS9oAVk8VMdGeXyaFpAuE8FZAkgKXVZmW4dxSL1Uxe0IckqnmrjEYj/V0DeLy55AXy0sxC62sbjA2PcrThCGazOdnOWpuKIlOT04yPT3D23Bk1rcUfAahkquCTuZg0T5qk2UX7Xltb4/q1G9Q3HiW/IF87UG1TRSNFq7AlHo/xxWdfUFpeQml5qW7qSTX7KChEY7t89elXOJ0OTpxpUu9B4yzpY2HymNR729yS+P0/1/C9n/VgscXSIErmuKe9H7neXHof9xKLxijQM2EL+gSk1Z7T5aTjYScWq4VwUVhvt9TxR/vbbDbT9qAdi9VKRWXFU7dfanC4FwmopF7zacHHNwVc0trgKcBJ6rHPfO1vRovypwdU4PmAlcztqS9t5jWS5clo/CRoESWRYDDIkaNHONV8ikAwgKIoDPQP0tvdQ3tbO3du3+Fx52NGR0eZmZ5hdnaWxYUl1lbX1Iy2u2pG2+hulFhUDeymJLxDJFHK2gEPAjypICZVAwPJVZHJZKSmthqHw05nx2O6OrvwenN1jwXtGKfLSVVNFQuzC3S2d7KxvkFhOJyYyATcOS4qqyuIy3H6uwYY6B5AMhjw5HkQRRFJFDGZTeQXBimvLsVoMrI4t8TY4ARD3SOsLa9iECXsLoc+uaWCFgR00KI9X1FVmD/8j5vMT5Vz7Fx6jA2bw0YsGmO0b5wcnxubw7YvWFEJnRaKygvZ3thmsGeYydEpXDnOfbUrZrOJwqICymvKMFvMzE7N0t8zSH93P6vLq2ysbRCJRFTXcqMaO2Vzc5PJsUm6O3tovX2fttY24vE45187S119DVoEXCUBQOIJd+Su9h56HvVS21hNcWWxrmWJyzG2tra5/fldYrEYJ19pwmw1IStxYvFk8Lf7Xz5kbWmduBxHlAQKK/KpOF6GP5yHzW3FkWPj5vstvPGXr1B9sgKbw8LMyCwL08u481wYjCrPQq1fdQJye91MDc+wsbpJQXEQQZ+QTMxPL7KxtkFZdWliwlInquG+EQRRorhU5Q2JqNqWeCzOQO8gxaXFas4fjaQsJjUrC/OLjA6P0HTyuJ4pfL+JLvW9TG5Lf/8PJ9mBSjZ+igZMh4dH6Onu4fyF8zicjqTHll4yyU8ZHRnj8aMums+ewpXj0rkjcSWe0MCBrMTp6+5noHeQMxdP40xo21K1NMlUCan8J3Xf5qbEh/9Sw7s/7VE5Kin/dP6JdncJ3ordYWN7a4f+7gHKKkswmU26NhMhOZkZDAamJqdZWljiSH1dMqcPe1fVkigxOjLKxvoGjcca9k7SirJPWx7MOXpRgErqtZ8VeGRdbD7D52nlabUt+57nmzP1/GlxVFLladwVD+u6nM0jCEjjrkByRZUZe0UTk8lEXV0ddXV1yLLMyvIKc/NzzM8vsDA/z/z8AqOjY8QSSewOK1IilookiZiMJpwuJy63G5fLlfg4CeYHsWVJ/gb7uFAnuCyNxxopDBfy4ft/4MP3P6KxqZFzF84gSQYEWXVBtdttvPtn73Dv7n3u3b3H7PQsF169QDAURFRkrDYrZy+cpqq2kpZb92i/285A9yDHTzeSHw5iFETiQhyb3c7R40eoa6xhcX6J0cFRxocnmZ1oQzKI+AvyCBT6ySvIQzKoweo0DxKkpK3X4bBz7s3/hdYr77C1cRWbIz33SFVDBYszS3Tc7eSl76jmErUeUvpCou1kQJBEjp1rJFRawKOWx1z9+AZl1SXUNdWpUUMFBVGQURRR9XgRRYxmI9X1lVTXVzE7NcdQ7zCjI+P09wyivfdGoxGL1cLGmhrbxWA04g/mUVJeRElFSRppNnPSGeoboa21ncKSEFUNVTr4UBSZWDTOvWv32Vzf5NQrJ7A6LDqpVis3OzHH5NAMbp+ThvN1ODx2fXLTAsetLKrxLWxuK7Ii4y3wYLQY6WkZoP1aJ3VnqsnxutQ2UHsQBpOB0toi+juGWJpfxhfw6VyVYDhAb3sfG+sbOF0uJNRB2Ov3Mj89l94nFRlXrhsFhcXFJcLF4ZR9akoDWZaxWi2AGuzMbt8bnfYgfsrzdn89SKYmJpEkCX/Af2A5RZEZHBjEaDJSEE4mWszknsTjcdruteP1eSgsCqkQI4vJJwlSkuNTJl8lsx7kFD6JSDon5MjxOgZ7h+h+1EvzhVOJ+k0msdRclYtLwrTcamV9bV11UxaS10vlGMmKTF6ej472RypPKeU+njaUfip/5dviJR1GnuQB9G3Kc40C/Ed6t7LJCw9U4JsBK5BOstWuA4cDLNo5kweDx+vB4/VQU5PcrMbDiLK9vc3O9g7b29tsb28Tj6seGVqYfPUjE4+pQd1iMdUFdTcSYWV1lcnxCXrW1/V7EwSB/IJ8SstKKSsrI5gfRBCEtBc6G2CREfF6vfy7v/wLrl65xsP7D5mamOKt776BOzcHWUbPxtx89hQFhQV8dfkKH7//CTVHazhxpgmj0YAsyHi9Ht569w3GRsZpudnC9cs38OZ5qWmsJr8wqJKVBRFZFPH5vXjycqk/Vc/8zDzjQxNMjU8zOTqNIAj4gl6C4SB5BT7MFqP+HLIiI4gC7/1HCwOPC/j0X8/zZ//xy7R2lCSJhjNHuX35Lg9uttN0oRGD0YCYqIA4cT3BnraKjysy3qCXi9+9QN+jfoZ6h5kan6Hh1FHCpYUogpAVsIiCSKAgj2AogCiK7GzvsL6ywerKKmsr6+xs7VBeU04g34/Hl4skSSkTSrq3hjbpTI5Pc/d6K3lBHycuHAfNHJDQqLS3PGJhdpH65iPk5LnTgrnF5TijvWMMPBomuhulvKEUp9ehknPjMf1aABsrG0gGEYvdpJMlHbl2jl6opqdlgM6bXVQ1VRAM+xFFlYwsKgL5pUFGesYZ6R3H61dD80tIBEJ59LT1MjU2TfVRlz6Z5gV8TI5Osb6+obq0JiiaNpsVk8nEynLSfTmTlGl3qOBkc2MTny8ZPFF7L7/pwfKw48zk5CTBYABDIphh1nMlzD/DgyOEiwsxGo16uyevp/aNvp5+NtY3OH3+1TTNzb73mQFSMu87M+Jz6riQGkfIZrdSXF5Ef08/DU1HsdntpOa70q5RVFrE3ZstjA6P0nC8IX2cSQBNTfwBP7FYjIWFBQKJ3E7ZgMaLDD6eVV4U0PLcY8x8iyAF/kSACjw/sALpHehpsmJmy4iZFbSkXEMURMwmM2aTGdLjNmWVgzq3LMusr2+wurLC2OgYQ0ND3Lpxi5vXb5KTk0N9Yz1NJ5p0+79+XBpgUcGK0Wji0uuvES4K89nHn/Ev//QrLr3xKuVVFUmvIBHCRYX87N//hDs379LxsIPJsQleeeMVvH4PSAYERaaktIj8wiD9Pf08evCYG5dvEQj5OXX+BDaHTZ3xNI2NIJIfChIoCBCPx1icW2RydJqpsSk67j5CMkicff00rtzkalpWZCQj/Oh/+or/+29/zNk32giGl9Lqy5Fjp+5kDZ2t3Xz5/jUChXkUFOfjDagmKeJqW8SJq8HLBFHVskgiNcerKSjO51FLJ3evttLfNciR47UECvwgSshKPAtgUUGHyWzCG/CQl+/L2g80z5vUZ0ldFS8vrXLzi1s43Q7OvNqMIIppQd3GhiYYGxijrK6U/JJgWkTauBxjsHOY4e5RfCEvsWgMt8+pg5RMr6r15Q3sbpvOoUFRw7+bbSaOnK+mr3WIntY+NeVCyKeCFUU15+UXB5gYnGJnewe7XSV52l02HC47MxOzVB2pRFYEJMDnV6M6L8wu4HK7kBUFQZGRRAM5npxErpnsE5XdoWoJ19fX0+J6fFOJ7Q4b0yj1vYzFYszMzHL8+LF9y2pjx9zsHJsbm5SWNSeutzdQmyzHefTgEd48LwVFBbopYT9tSmo6ikyuStItXhUh4UWlgRUtuJsGVkRJpLahlpGBEQZ6hzh6/EjaOKn9drlduHPcjAyP0XA8GdslNdeTFk9Fi849NzeP3+//kwil/03IHxO0fJP1+22DFHjBOSqZ8jTmk4NshwfxWTL5K9k4LBqPJXNb6vFPsi8edG/7fURRxGqxkJOTQ3FJMQ3HGmg62UReXh7r6+u0t7XT+agTk8mEP+BHFJNeMBr/QyO+Ja6G1+uhqraKqfEpHj5oY2d7m6LiMJJkUD1WUAezopIiCsMhhgdG6GzvRJIMBIIBpMQ1JFHE58+j+kgVVquF4b5h+rsHMRgNiUytgs5vIAXw2Rw2/AV5lNaUJAKJzTA1Ok2otADJIOmTk4KCx7/K5Iifx/fKOXGxC4XUQVrBmePAF/QQj8eZnZhnYmiS8aFJdrZ2MFtNGMyaa6WiBw/RvDIsVjOF5YVY7TZmJ2cZ6hlmfmYBu8Oqgi3dF0abDJItKJAy6WimKyEZc0Mh6QGi6BOPwvbODlc/uYYsy7z09nlMFpMOMBRFZmtrh7tfteDIcVB/+ggyKqdF1abEGekbY7BzmECxn9IjYa7+5han3mrC7rbqvBeNxxBXZEa7J9hc3qT2XFUaf0FBTSToDXlYmVtjYXqJ/NJACjdKwGQ1Mzk0jcNlx+VxISbSD2ysbjI/PU/V0UqVc4SA1Wql51EvTreLgnBBCqFWYHpyhqXFZRqO1esaqlSvH4PBwL2W+xSECigsDOkmhoO4KknC6JN5DXslOz8lfU+6x8/i4iL3Wu9xvOkYef48Uj1+tLgmGj+lr7efkeFRLr56Acko6deIK2p8m7gsMzs9x6OHnRxvbsTj86jcFZ1sC1psneS9qP/v7u7S0fqI3s4+5mYitF5/mVMXr2CzyxiMhpTxKJ1ISwr/CwGsNgtT4zOsLC1TfaRK79WpxHVBEFheXmF8dILGpgads5ZGiE8h1LbebcXn81FcXHQgx+JJXKOD2vNZgatOFs7gznyT8ixzQTbZj7/4Tcg34NXzJPnTJNNmytN2qIM6wn77DgNYUrc9CbhkO99B5Q7zUVIGHpPJpJJ7649QVl7G7MwsbQ/a6OnuxeV24fF4EIUkYNE9hxL3IQoiFouVuiO1xGIx2h60MTI0SmE4hM1mS/MKcrqcVNVWsrq6xuP2x8xMzpBfUIDFYk67P1/AR2llKSuLK/Q97md+Zp5gYRCTyZR89sR51UlGpW5abGqQt+HeEZbnVwiVhBBSJnwUKK6c4f2/f4XCslnyCpbSVo+yomZLzgv5KKosxJnjIBrZZWp0mtG+cRZnFlGQsTltCXSRBC1q/YDb46K4sgiLxax7By3OLWJ3WFMItwlgkkK6JeGmrLkqp66WNcCgfdSYKXFufXGHpYUlzl46jSvXpZt6tGSD7Xc6WFlaoemlY5gsxgTxVtWkzE3N09Xagyc/l5qmClaW1rh3uY3z329GNAo6GIprE6csM/BwBEWBsmNFuju1BqjUiUnAbDczNzKPyWrGkWPXAabJbGJ2bI7YbjxBqlUnsthunOmxGULFBVhsViRRQpIkJkYmASgtL1EJ4gkwsrywwsTYBCdONSFJUpJMm+iLBoOBB/ce/v/svXeUHFd25vmLiPSuvPfeoOA9CIAwJEASTTabpn2velotM6sZaUbSnNXMalbd0pjVrmbO6oxmdEbbq5basNmGzRZN0wCgAQEQpuCBQnnvvU1TmRmxf0RGZERWVqFAgt0gWfecPJkZ8eLFixcv4n3v3u/eS3p6GmXlZSs+B9pYSvad+Ht5WdnjRytjBCq9vX00325m1+6duDwuPRhbNHafjUDlUuNlFhcX2bFru76q1tySNW+fa5euMTk5xQMHdoMo6MBH8yDS6zNoU2Zn5njv+BkGegaw2awM9S3QcvNxnO7/QVfrDTpbusjIzsDhcpjePyawor0DRJFIOEJXWxdlFSUxt3IhTpaN3Zvw4iKdbZ2UV5bhdrt14q1xQhNFNa9Tc1MLgihQW1e77Dss8T5+1EBlpYn3Vw1cVjr3ncb8Ry2/BoCiybJA5dev07lL0V117+aYFdRi8SixZlFX/+btifFNzPUIST+J9X2YT2KbEz9FhUV87X/5Gs88+wwC8OLPXuRHzz3P2NjYkrKCMTS8IGCxWDlw8EGefPqz+Bf8/OSHP6X1dmts0MbLulwuHjl2lIceeYjpqRle/PGLtNxqQxQkLKIFSZKwiBIpKSkcPnaIBw7sZnpymtdfPE5/zwCSqO7X6rWIUmxyU3kx6ZnpbNmzicmxKW5dug0YYqyIAhk5Mxz87AV+8d2DRMJxFXVcFa4gywqCKJJVkMWGPevZd2wPlRsqCAZDXD93i7f+6V1uNTYxMzWDrMhE5IjOE4rIERAUiqsKOfD4fuo21TA5McXbvzzFqTdOMzo0EtOOxHPpRKMxXlFMGxKJ7Y+Xi38icpTQ4iIXTl1ksG+Q9dsb1CB4JtW+zFD/MP1d/ZTXl+qZjrVPMBiiqbEFl9dF3bYqokqU2ck5REnE5rKaJjRFjsfhWJhe0Im0uvkoGjGRNn0ZHlw+F/1tAzEeVTxiakZeOuPDEywuLur9npaViqIojI+q+V00gOZL9TE9OaOX0yZzzUNmYX4hfu9ko6lCwO1xMzc3v+wz++sSbYxNxHLZpGekL9lnFEWRGR4cJi8vd1kuSTQapaOtk6LSQj0ZpjFUfjKTz0DvICdeOsnC7DwPPLSbQ48f4MjnDgOw88AONu1S49ScOfE+szNzJhNgMvO5ykEpBAS6O3rM5FxDO3LzVQ/H4UFzkkIz50Zte0ZmBuNjy+f8WUk+ilxPdz1nLPOe/6TK/X6992erViH3EqystD8ZUDC24U43dzkA80EyZS4HXLT2a2rB6ppqfut3fosjjxxhcmKS7333e7x36j2i0ah+nRpYiQMWdeVcWVnJ177+VXJyczj++gneeuMt5GgUSbIgxUi2oihSW1/DF77yLPkF+bx/6n3efPk4/oUAFtESq1PAKlmpqq/iM08fw+fzcvbkOS6evkQkEjWBFb1NsbYUlhVQ3VBBT1sv3a29S/rhoafOEwraOP3LLUsAipG/oX0km0hRVT47j2xly4MbSc9Jo69jgPdee5/Lp68wNTGlBlRLBCyiQmltMQcf30/txmqmJqZ457X3eOe19xgeGCYqR2OgRD2fNhHIsmwCA8bP6PAYb754nO72Hmo31lBWUxprf7xMKLTIjQu3cKe4KatV92tRaRVFpvVqO+FQmJqtFXrup7mpOdwpLgRR41NpIEVhbGCCwbZhZifmcKc49f2aGIGEIAjkV+YQmA8wMTRp6vfMfDVn1MTIpH680+3A7rAxOTplKpuS5mNudo5wOGw6j9enco9WyrDr8bhZmL8/gEoyDsv4+AQpKT5dQ5hMZEVmbnaO+bl5crU4K0nq7evuJRQMUVFVdse2yLLMzcu3OH38DC63i8NPHCK3MEetL1YmIyud8poy9h7ZgwKceuMM/nn/0roSrsvlcZGVm0lXezeKkpzM6/F6cHvcehbolXgXmVkZTE9Nm+7/r0s+7OR7P0/g90I+Dtd2/7dwBfkgYOWDaFc0WQ6waG1ZSeOS/HzLg5jVAJuVtC2SJLFt2zZ+53d/m/p19Zw7e45/+Pt/ZGRkZAXtigpWfL4UPv/FZ9n9wG6ab7fw4x/8hKnJqVicFIsKRgQBX4qPzzx5jP2H9jE2MsaLz/+Cgd7BmGZFDQJnES2kpKXw6JNHadhUT1dbN8dfOkkwENJBj9YX2nUIgkj95jpyC3NoutTE9IS6MtdC71sdIY595W3e/Ole5mdcJoCiu+Mm+Sgo+DK91G2vZs+jOyipKWRscIKzb5zn4juXGR8ZJxINLwEsggRldSUcfOJB6jbXMDs9w6k3TnP8n95SA98FAvpqVwMs0WgkDlpk1f305uVbvP3qO8hylH1HH6BuUy0QJ0tqk1fztVYC/gAN2+tjXgBXeD8AACAASURBVEPxFfbowDjDvSOU1BbhSfXEAI6C1W6lrKFYX3mDSp699u4tOq/20N86xPToHJND00yPqSAhcaLRtCrpuWk4PA762gb0dsmKQmpmKlabldGB+EpZEARSM1OZGIub4WRFJjUtFUDXqmji9XnVts3OLVGva+1xuz3Mz6+cvPDXKRPj42RkZt6x3NDgEAC5ecu7MHe0deJwOsgrVMGM8Z4opt8KZ986R9PV25RWlnDw2H48XveS+jTx+DzsPbKHSDjMe8fPshhe1PdpGgujFxpASUUJM9MzTCcklYxrZCA3P1e/LnMZ873MzMpSNW3LaFU+jvJJAywfp+v5eLRyBfkgHb0a7cpqAMsdU2kvExL/gw6Q1ZqWjNfgcrl44rNP8IUvfZFweJEffu+HNF68hKIoS7QrGlgRBQFJsvDA3j08+8VnCYcj/OxHLzDQN2Aw2Vh0PkLDhgae+fLT+FJ8nHz9bYYHRw11qmDFYrWyddcWDj12EP98gMYzlw0RLc1aFfV6BBq21SErCrNTS1ffW/bfJLtgnNeeO7AEoEQMICEajSz5yLKMaBUpW1fCrke3U76ulOnJGc6fbOTcicZlNSyiJFBWW8rBJw7QsL0eBIVrF27w6k9e5+J7jYwMjRKVZZOWJSpHCAT9nD5xhhuXb1JYms+hJw7o5h4wThyqNqW3vY+C0jzSslJNAEZWZPo6+nG6HRRXF+rXC1DWUMzhr+zX+2duco6WCx2AQPmWEjYcqiOyGMHmtNF+qYvxwbjnjfFb7XyF7KJMFqYXiIQjhl5X8KV7mZ9WtR1akEJfLHqwEXi4var3TmK2ZKdT1egEg8HkgxxwOB2EQqFl9/+6ZX5+Hp/Pd8dy09MqSNNMRMl4D6PDY+QX5cUSecYlceKfGp9ioGeAdZvr2bZ3q8kt2ljWCDxS01PYtncrs9NzDPUNL9mvnys2/vIKVFfiiTHNo25pe9Mz0lmYX7ijpiQlRe2fRBPeStyPZOe7H+V+N5OsJB/Xtn9s3JNXkrtxXdaPMbjg3anMSuWSgZXVujx+kMGSeJ1GsLJSgLqKinJ+85u/ySsvv8rbJ9+ip7ubY48fw+FwxI8Xl8ZcKS4u4otf/SK/eOEXvPTzlzn08EFq6mtMLsyCIJCWlsZnnjzGP/3sJU6+dpJHPnuUjMx0IkQQZRmLaCFChKKiAjbv2ETj+5cY7B2moCQPURSJRmVEQSCqxNyIFTXQGaAHcDOJIPP419/gb//9P2PHQ+fJLR3U+8eoVTD1ndYfSjTePxIUVRdQWJnPUPcw3c19nH3jAkWVBVSvr8DusCMLIhbU9mtaoOLKIkqrSpidmqW3vZ/+7gF62ntBUF05FUVBjnE8IpEocjTKhh3rqagtj5H1ZBNA0cbMQPcgkXCY4spCXYOkXpdCKBBkanSaosp8FEHR9f1mQrHC3PQ8LRc6sNgkqneUYXPa8M8FkKMyNbsqGO0Zp+tqL9HFCDmlWXq/GN2BHR51XPjnAqYxYnfamJ82gw+bw4aiqPmMLJIFCbBY1Ik3vGie0ESLWv/iChOdRZKIRqPL7v91iqIohIIhnIY+SRTtvgb8AWx225JYK9rvcCSMf8GPJ2YOW+4doygyw0OjKCiUVpWQSABOVl6TvKJcnG4nPe29FJUVLrsAkxUZp1sl3s6tYJZzuVWgGQgEsdlsGF2UjeJwOlBQVgSknwQxBdb7CLg190I+bqAkmXz8ryAmH/RmGE0gqy13p7J3S469q/auktBrbIfWfo/bw7Off4YjR4/Q093DP373HxmMqXGNZqBEU1Baaipf+PIXKCwq5PjrJ7h47mKMhR7vD0mScLvdHPvcMex2O2++fJyZ6VkTZ0Wrv7ahmpTUFG5cvqlqNwxaFaP5ZzG0iICgJuZLohIvrhpk497rvPKPj+jETyPpMJGvohh+a6TXiKyGsEdQyC/PY/tDWyioyKWvvZ9Tr56lp70fWY4u0a5o9fjSfGzYuY6jTx9m484GymtK8aS4SctIUYPYFeZQXFHIvqMPUFFbhm7qMXBS4nEyFHo7+nD5XPgyfGZCpSIzNjiOLMtkFqjZojWzj1ZGUWT8swFazrcjSgJV28uxOW3IisLCTAAAb7qbqm1lpGR56G0aYGrEbJrRzunyOlAUhYVZv4FQC3anncXgIpFIWC9vtakk0FAwbl7QtoXDYdO9EwQ1DYVZU5MwxiU13P79KOFwmGg0it1hv2NZv9+/bPRogIW5BRRF0c1hmphATWzyGxsaw+vz4nSZOUaJ+YiWikJxeSEjg6MEA3HQkGxSlSQJl9vF/FwciGrcJa1+7boX7kB21sCtEah81LFEft1yL7Tmn4Q2fBTyybiKmHzYG7MaEJJY9m6OSZQP4vGzpB0rgJbE84Cai2Pb9m187Te+hiAIPP/DH3Gp8fKSa0oEKy6nk6effYqG9Q2cP3uBt4+/rddtBCspPh+f+dwxRFHk9ZfeZH5uYYmXkUWysHHbeman5+jt7Nevw3hNEJ/4bHarvs9EnlVkjn7xBINd+dy60EAkEmFmcpbhvhE1a3BjC5ffvsr5Ny9x89xtum73qF4roUXdDKSBFw2wWKwilRvK2XJwIy6vk1sXm3j/+EXdHKQST82k3Ug0CqJAUWUhDdvq2b5/K5sf2MSWPZvYtGsDG7Y3kJaZGr8Gw8RvnGCmJqaYGpuiuKJQdw807h/pG8PlceJOSc5NkGWZlovtIEDNzkrsrrgmamHaj91lw2KzIEoiZZuKsdgsTA5NJ63L7rQjSiKB+aBOcta2AywaQImm8QovxrdpHizhxfCS58NisRCJLA9ULBZJN93db6JNvHb78hoVTQL+gA4skolmFvF4l6YKMIosy4yNjOtBBe9WisqLkGU1SeidxOPz6CkgkonLdWfTHajpJERJIhgI3F1jP2Fyr8z+q637kyqfCNNPonwQU5Dp+FWYhZY7RpN7vXpIBCvJVlCriairmYPy8/P5xm9+g5dfeoW3Tpykv6+PR489qqtzRUE0mIJUM5AkwZFHH8br8/D+mXMEAgGOHjuqPiSxaxZFkfT0dI49+RgvvfASb7z8Jo9+9igOlwNFkJEVEESRkvJiMjLTuXmliaLSAh0ya+YfgMVQDKg4Yrl7EvgUiiLjSZth32ff5bXvH2Fi+HuEF2f1uBM2hxWH24HL62Ruel4ngQoIOL0OsvIzyK/Iw2pTvZkUMRZ5VlDwpLjYuK+B0f5xOm50ce74RcrrSqlcV45ksWDBoucSElGD72odJsb6WmunPp7kpe3X/suyQvPVVqx2K0UVhTr/Q5NQMMTU2DRF1QXLxnmYHJomFFikens5Lk/cDVkUBPwzftwp8dW9ZLGQkuVjZnQ2lq8lrnkDEEQBp8dJYN480dhj9yIUDINPLW+z2xAQCAUX9eMtFgsWi7SEyyAKIlardUWNiSSpr6VoNIpkub9eUaGgyp1xrEKjEvAHSElbPhz1/NwcsBSoiIKIHDNPiqLIxNgM4cUwWblZCWXUeysryrKLGUEQSUnzkZ6RSm97nx7QbblJzev1MNAXJ8vqmcVj9bvcbv3aVhJBEHDY7SZA82mMTrucfJJBxUchn9jeuhcD4cNoS5aLdfJh6jTKatym420xa1e09jmdTp79/DMcPHyQ9rZ2nvvBcwQCgWVJtoKgRiPds3cPhx46SFdHN2fePWNyM9YCgWVmZfLIE48yP7fAhbON6rkNK3NJlNiwdT0LcwsMD4yYzD6aLAZDiKKomxHAPLmDOvnXb3+FcChET/Pnqd1exeYD69n52Fa2HdlMwwN1VG+rYMvhDWx7eCO1O6ooqsnH5rDS09LPxeOX6W8f1Am4Rg0LKOQUZbHj4a1kF2bRcauLq+/fUPMxyRGTZsVovjGSe7W2Gj/JJOgPMjo0Rnltmel6NZmdVL1k0nPSTPdT+y0KInNTC4iiQErmUqLn3NQCdo9dN+0BeFJdRMNRIsGIfn/i9YrYHDYWg2agoUU8DS+GdVdoKcZHSdSSiKKIHEkCqCVVY5IYVEoHSRrAvg81KuGYyUvTGCUTXSMYCiV1YdauU9MYalqK5d4Lc7PzqndVWqr+rN1JEt8NmbmZzEzNrggQBUHE7nQQCgSXJb1q2rNQbBGx0rvMarWyuPjrdU9eAwSfDPlE38V7pQ67lwAjWZ0fFtCsBFji5zNzV7Q2SKLE7t27eebzzzA1OcXzzz1/R7AiCiKbt25m67Yt3Lh2k+6OLt08oIMVQSQ/P491sTwiAX/Q4FWk1p2Tr4Zpn0ni1QPgX1BD3ydOaFoiN1mRmZ+dp6nxOrXb/46e5i9jc5Th8DoQJcHkJhyJRpBsEilZXvIqc6jZUcmG/fW4fS46rndx6eRVRgbGCEfCOmCJm4Mk6rZXU7mxnOG+Ea6evb4qsGIELGZXU3kJ4NJWqClpvqRgxmqLaRkME03i2PamulFkhYUZP1MjM7Rc6ODMzy7y87/6JVeP38Q/HY+nIQoCsxPz2J027C674X7H3cQD80HcXlfsnqsANBRQJyi3O25+WoxpGTQ+hiiIRCNRwosRHE6H4ZxqvcFAUOc6JBvjgUBADV63QpySX5fYrEvNXMuJ3WH2Xkocx5oHVDLthBGMxl29pxPKiEvKJo+xJDA6OEpmTkZSgGU07QUDAZxuV+wZXhoS4W40SpFwBHsCEX6liKcfJLbUmnw65BMNVDS5p3bBj0A7crfnW+6cSeOqLKNdSSTaVlZW8sznn2V6apof/+jHBIPBO4KVvQ/uJTs7m5Nvvs38/IKJr6K9/OrXr0NBoe12m3peMc6BsdmseLxupqfMhE5NAv4ATrfTxAvRRFFkQsFFrp+5BcChz4+TX97L2z89ljTwmhaeXgtRrygyDo+N6h3l1OyoRAGazjVz42wTgUCQiObKrB0XjVBYmU/1pkqG+0e5cvY6kUh4RbAC5qi5iYDFyLdZWPCDomB1Jl+paxO7kRuiiX82SMe1bpovtHP7fBs//POf8dxf/JzGX14lOB+kamsZj/3zwxz7vYf0MRAJR5kbnyc1J0WfPIzjKhqOEgqE8CTwYQLzAQRBwOVx6uMo6A8iCAJOd5yPoan8NY6Gpq2JRqOEFxdNnkSJz2YwGMTpdOqA907yUU5wiZO+dh+CwTu7TzudDgKB4LIaEC0OyoIhINv3/2cVR7cd40/++W79uJQ0H1ablee/s4f/9dnHARgdcvPFA1/j4umiJfX2tKfz1UNfp+mq6m48PTnPxdOHef2F/51vPvE03/jMM3zr9w/RdC1zSdsW5v16YkhN9PeAKBAMBFXTaQL3JvEeKIrq8eNYwTtqTdZktfKpACqafFSEo4/KvLPacyaT5cL/q8cmNwWVl5fx9LOqZmU1YMVmtXHsiceIRqKcfP2E7gmk1queIz09jcKiAlqa2kxelVrbU9PTmJ2e1VfsRhNQYGEpGVGb3KORKNdO3yAUXKRhdx0Ol43DX/o5TRc209dWYg6+Zgh5b/T2kWN5enxZXtbvq6W0oYiZ8VmunbrJ/KxfrUPPZKxmJC6oyKNmcyWj/WNcOX2dSMyrZVnNigGwJLsOTYL+2MTuTP5id7hi7sLzAXqa+zj3WiMv/M3L/O2/+S7//Q+/w+v/cJLxgUlySrIoW1/C03/8Gb727Wc5+o2DbDy0jpK6QrzpHpUDFJXpvNyNIitkF2bq91YbD6IgsjDrR0DAm+bR74koiAQXQtiddiSLFDdhBNRJW80RE3M/jgEqh9NhGqOJACZxHAL4/QFd26CNlftFtMzki4srAxXNtGr0tDGKIIi4PW5AYGFu3mR2A7jWmMmtq+mxsgIZWemmuvTnNvYKT0sP8d9+8mNS0sznEwWB3o4xWm48Rc36GX7v373PH/zZ+3i8Yf7s9w9y41KWqbx/3o97BXJvIEaOdTgcK96XSERNpGhPAlTu9A5eM9esSaJ8KkfEr4oh/VFyVJKdJ1FWjKS7DFipqCjn6WeeZmJ8gp88/xNCodCK7U3PSGf/wf309fZz7dJVU3u0Pl63YR0L8wv0dffrQEeTtPRU5mbmltrOFXXydrqXvuiicpQb55uYm5qnfkcN3jR1ZZpZOMiGfWd5+/lnkaPx5HI6gJDjH3WfQeMiQE5pFnW7qomEI1x/7yZTYzMm4AEqbyK/PI/ardWMDU3Q+M4VgsGQDlY+qIQCi0gWC3aHPQYcBJBhqHeUiycv84v/71UunrzM9/7P5/neXz7P7YsteNM8HHhmL7/zn3+Df/nXv82z//oJjv3mwxTV5DPYNkJwIYQginoeJYtoAQW6r/YxP+WnYlMpnnSPDkAlMZ4kcGFG1Zx4U706iBQEkcBCALfHZRrL/oUADpcDi0VLPijENAngNkRP1V3OBWFZt11REAn6A7jcLtPkLRiArLE+07H38JlOpqXRiMCiKOomEMAE4I3idDn1iT2ulYi30RdzS/b7tTLq8W5PmMraGZ77To1+PzJzslgMLaIoS69TFERESSEjK4jFoib5VLer36ODvXzld/+Ub/yrm2zdM8zWXSP80V+cJb9ojld/VqUDUQEVqHi9HtMCxfitAVCXO37/Ej32REHUTV4asEvWl2uyJquV+4tS/yuWD+sd9KHOfYcH9YN4DWl1Jh6refuA+Zo1jwFjGVEQqais4HNPf44XX3iRn/3kZ3zxy1/UI2cmegKJwIZN6+np7uHs6XMUl5eSmpoCiqyr7ovLivH6PDTfaqGorNDUtrT0VGRZYXZmDm9aPJ5EKBBCUeKaBKNMjEwyNjhOxfpS0nPTTEBizxOv8Pf//s9oOreLut1n42YX2UxkFRO6VxYBRDxpLtY9UEvLxXZunr3Nhr31pGWmIoogKyIiMiCSX5aLzW7j5vkmLr93ld0P7QAh3veaJ5AoiMiygigK8YBzifdNFAj6gywuhrly5hrdbT10tfTQ297PYnCRrHw1G3RZXSmZeense3JPrD3KEq2P1Walbns1107douV8BxkFaaTnpWG1W5gYmmKif5KF2QBlG0rILsrSx4E2fjRAsjC1gNPlwO6wxyMHKypvJbsgG0GMmQBFgcBCEJfbpV+bbg5CBSRGXlLAr5o5NE1LopkS1Pgj+alL8+Po5e7hJGd8NlZXXsBmt5sAvDlOjAix/w6nk8VQSM2xJap9EFXUfFuyImOxWnA6nTGNokgUWc9p/JVvtvHtP95Gy80MahomyMrJRFFiAfQMYEWPZ2Roo/ZPQGRkYJTZ6Wk2bi82AT2rBUoqZpkYjQOOoD9IVJZxe2JZsxM8fgRBxO9XAazGPUpM36HXFdP+rIbL8kFjSq3Jp0c+9SPkfvVB/zCamOW0K/r+ZcxAxuOrq6s59vgxBgcGOXP6rLmuBBOQIAgcfOgAALdvNpnaIIpq3JTSshJGhkZRYpmNNXODx+dBEAQCC2ZCoeZBkswDZnpsBkEQyC+P5UcxBKVyeefZdexlzvzicwQDybPRat8mjYohg7DdZWXdAzVYbRbar3frUVK1/Rr3Jasgk5qNlUyPTzMzNXtX4DLkD3H7SjO/fP4N/vuf/x0//Jsf8/qP3+S5//FTRvrHqNtUw2/9u6/zn37wLf7t3/wRX/79Z9l7bBeCKDAxOBknuApxPpB2P5weJ/W7avCmeRjtHqfpTAvX3rpF3+1BRFGkanMZ+aU5iIKAJEoxby6LCaRMjkyTU5Jt0qZMjkyyGAqTk5+lj8doOMrk6BRZORlxjpIoMjY8jsPl1FfeWvmJsUkEBFPmYSOQCYVCzMzMkJ6Rseq+TCYfJqBi0u2G+jIy0hmfmFi+jljZ7Gw1383I8KihXWY+UGFxAd0dPYRCi6pHVmz/noNjlFfP8Nx3VHfinLxs0tJTCYfDvPXK28xNz2lnIxoRkKOS/q0o6qJiZHCUsyfPk5qeSllNmUE7opZrvZVBcfmcPpY6W7sAKCjM19to5KeodY7giyVkXEm7peX4SU9PvyfAck0D8+mWT7VGJVES45Dcj2J8YFcT/j9xtWdcPWraFWMsBuP+hoYGOjs6uXj+AuvXN5CWnpb0vKIg4vV6KS0rpfV2K7v37ta3ayvInPxcbly7xeTElCn4mcZV0LyCNANQNBrXACXK7OQsnhQ3kiQSjmoRUuNckA0H3uH6qf00vn6MrUd+xPjABBaHBZfPid1lQyZ5v4lyXLMiWUSK6gvouNzFYM8IReX5iCKg95H6nV2UTcu1doZ6hkhNT1HNP4a0LbIiI0ctNF2ycPvaEMGF1+ls6WK4bwSrzUppdTFl1SXsOLCV4b4RbE47B47tBVHLahwzXQEl1UWMDozTerWdlAyv6q2DrMZ+0VQ4MU2XL91L/c4aIuEIE0OTSFYJp8eBw23Xx4JxnGhgREKk80YPDqed0ppiE0G6r20Al9tJbnFODJAIDPSMoigKhWWFutlHlmWGB0YoLitSgZDhHo4Mj5KSloLL5Uw6+YwMj4ICeXm5Se/R/SC5eXlcv3ZdfU8sw+MVRZHi4mIEUaSvp5f8gjxd0yKKInJURhBENm5ZT1tLO+2326nbWKsfL4kiX/5GO//hT7bSdjudqrpJcvKzaW+2szDv5/SJs8BX+Ks/3bdsO1tutNKwJYsHDu/WTTAamH3h+zVMjDl47KkedbGiQGtzO/mF+aSkpSxxVQeQozID/QPU1tciiZJh/9JOGB4axmazkZmdZarD1Ed3AB8fVtNyvy0+1+SDyxpQSSKJA/x+BS7LmXoSy3wQsKIdd+jwIVpb2zhx/ATPfuHZ+DkTTEAoMvXr6ujs6GSgb4CCogLd/ANq1lVBgLHhMTKy0lEE9RzumCuk5qKpvpzU3DiAHogMiLkby8xOzZKRn6GDk3dfPMKZlx6hqKaFZ/7w/0EQo+x99nle/dt/QV9zlJnRLaw/8BhBfx63Tr1O/b7/jaK6i2SVZOD0OBAFgdG+Ql74v/4DT/7+X1JY2waIZOSlMZoxTk9TH9kFmdjtNgRBRhQkPUiaxWYhMy+DoZ5hqjZUYpVsjAx66WvLp6ctj+6WXPo6s4iERRzOX7J9/5scfeowZTWl5JfEk9HJisxQ3wjn3r5AX+cAJVVFsX6WEeWYqUCysGFXPWdfv8DtxlY27d8QAxKKamZKACuiqMa9yCvNNQWbS+RLaBOCRZQY6hphYcbPup212Gw2LJJF1bLMLjA5Ok3dphp9myiIDPYM4fa4yczK0OuaGp9mMRSisLhQ15aomjcYHRqlvLLcNP6MMjGuaipycnLuTov4ISaluzX/5OXlculiI5OTkybNUKLYHXby8vLo6e5l556dpmdR+52ZnUl+QR5NN25Tt6HW5L677+FRSv/fWX70nWr+7L9eQBBELBYLx559lLdf6wFgx/7n2bRjmoA/QDAQJLAQZGwknfPv/gHZednse7gaa8wlWQMpl8/l8Pzf1/Olb7RQVTcDCPT3DOCf97Nn3y6TKdBo9hkaHCISjlBcWqy3MRlfRiubm5tj2r+Sa/LdypqG5dMla0BlFXK/J566E2C5E1iJl1sKVjweD3v3PcBbJ96ivb2dysrKZc9RUVWB3W6n5XYLRSVFKIqoR6v1eb14vB5GhkapXV8TP04U1Wy5BnKi5pkCYDVEJhUEkZA/SHgxgi9tqWdCX0sNA+0V5Ja3kpJ5Fl/GNmbHN2F1WKndU8lYn5dbp9SyEwOTTA5NU729DFfKcvlYFMrWFXP9vSYGOoYory+J9bOCFHvnLsw6CS4c5Fajk6bGXQz1FrMw5yI9a5bS6hE27engqX/2PmU14zidMvDVZfsvtzCb9Mx0Om93U1xRFNfwibKaFFGO4Pa4qdtaw41zt+hr7aekVgU0oiIgK6IKpDT3bCUemVjSIs8qskGbIpjOPz06Q9etXjJz08ktytG1LBZJor99EKvVSnFVEZJowSJJLIYijA2NU9NQhShKWESVTDvUP4woiOQXmnkmM1MzhIIhcvNylkyCmvlqYmICp9Np8jzRiLRGSXYN91qSaRpFQSQ3V9X2DA8Nk56hmjaSAXeAkrIS3j99lmAwiN2umks0jZ76G9ZtXMfxX56IhbgvAyH2TIvwpW928p//7SY6W1NUkqwg4HQ62bxzEwBe7wgzk6exO+xkZrtxe90UTGdx/l1Yt7keu23c1F8dLen833+6iwNH+/nyb7XpQLL1djser4fi0iJTYEZNcwYw0DuAZLFQWFSwlF8kxM3J0WiUsbExtm3btrRPlzWtCSvuX5NPt6wBlbuU+xm0JAKSlfYtR7BNtn/79u1cu3qdk2+epKSkRF+hGV/OUUUNm15TW83tptvsP7QfSRJ18w9Abl4ugwNDsRe7iKgoRFEjc6qmH8OkE9OWiJIUMwmpdcxOzSEIAinp5uirdqeflKxxzr1yjP3Pnqf1cieVW/8bja8/jyjN4UpxkR5RTVcF1XnkVVbTer6T1otd1OyqWLZP3SkuMvLSGOocJq+klOmRYga7ShjsKGags5DJkQwcriBuXxNF5a18+V/epqx2lLT0oIGzoV3XylFFJRFqNlRy/u1GBroGKaos1ElkGliRFZmC0jzGh8bpvt2L3WEntyQHRBFBlpcAFjCPU1mJ80GMY3lieJrmC214Uzys392A1WLVQUpkUWa4d4TC8gJcTqeu6RjuG0JRoLi82KRlGeobIjM3S42FYggEqHE18gryTHwJo0xNTJKRmZyfstpV9AcxGdyNViUjMwOrzcbw0DAN6xuSPnMa0CgtVYFKb3cf1bVVplQTyOrvsooSUlJ83LreBOxDQOsXkYNHRvjB/5znR9+pISvXr9et9cX2vdvZ9kAOFotFb39Xq2pa1fhHoN7rgV4Pf/6HD1C/cZI/+NNrOkiZmZljeGCYrTu3JARuNABJQaS3WzVh6WYkMc6LMsrkxCRyVCYnN+eOJp81Iu2arEbWRsmHkPsxKdRK6vLE7ck8LhInDlFQkw0+9PBhZmdnuXXzVtK6tbqqa6sJhyP09fabYqqIgkhO246yAgAAIABJREFUXjYL8wsszMezswqiiNvjYj6WoM1ojhAQ9ElWC9cejMXscLgdels1lfKuY6/Re7uOlsYs7A4rW484yCzoJeR3I0fN12532aneWa6SQQeXJuZTZIHJoVxund1J+5U/pvHEd/jr3/9L/vE//S43zmzC6Q5w6Ol3+df/9W/49j/8FYef+o/Ubfk+63d0kJLmX1Jf0hWo4aNdc15hLpk5Gdy4eJPulh5AiE8cMc8Ri2SlYfs60rPSabncxoUTlxjrH0cQBCTJghTTbkiiRf1I8Y/F8FsSLUQXZVoa27l9rhmPz83m/RtxOBy61kSJwtXT1xEQqKyriG+XoeN2J2npKWRkZaCRbqcmZpgan6KkrNhk9hFFge6OHjxeL+np6QljLgZoozKjo2NkZ2ct6T9jv33UcidCrSiKFBYV0tnRuWyoeU1ycnPweL3cunFLL6v2Sdy8IkkWNm7dwMjQKKNDY4CgZxy3SCJf+WYn77+bQ3e7Cs61VBagZjy22WxxjpFkQYyZE/XYRKLI9ISTb/3BA+Tk+fnTv7yEzaotXhTOv3seu81GTV1VnOhuANmiIDLUP8T01DTlleVLxrLWJ9r2gf4BBEEgNz93yfUm9uVqZM3MsyZrGpV7LHcCK78qLcxy2pXVmIGSqbzLy8vJzcvl4oVGNm7aGK9LBKJxVXZhUSFWm5X+nj7KyktN58vJyVF5KiNjFBrclFNSU+jvHTS4TYt6lNNQIAjEE7tpmZTDoTB2l830wqzcdJ2swj66rv0GDfuvY7FayC7tZHygmOazBymqvwaAogjIURGr3YkoWoksKvij6iRw6+x+Gt94nNGeMhaDTlKzR8nIaye76DW2HvwFVRvncDiUmLZBnewFARZmF8gvztMBlXYdyfrf9F8bL9otEGHP4V00nr5E0+Vm5mfmadi2DkkUVZOOIENUjU+x45BKwG270cGt8814Ut2U1ZeQmZeBgqphAdUspImsqPEyQoEQE8PTdN7qRo7KVDSUU1pbgsUSi7kiSUQjMpdPXWNueo7t+7bGcs2oK+jb15pZmFvg4KMP6it3URBputqE1W6jtr7GpE2ZnZmjv6efHXt2YA4MGAf4/X39hBfDlJaVGlb1S007vwqzjyZGF/74NpGG9Q28/IuX6O3ppaQ0ZhJMMP+IABJs37mNt0+8zUDfgMrbwaxVAahrqGWwf4grF4dinDHNnCRz+NERvv93FVxrzCQnz48pHQYGDVliYslYH4aCIn/2r/YwO2vjd//4Fj0dsedJEGi9dZP52XEOPLwfl8e9BKSo7wCFi+cu4fF6qG+oM/WN7rpukNbmFrKyMklLSzP3210s5NaItGtilDWg8iuW1T5A9wLQrBasGNuW7LyaXX37jh28/E8v0dHRQWVlpYkYqJl/JEmiuLiYnu5eHhRFk/dORlYGkigxNjpBcXmxTqhNTUtFlmUW5vw4vSpA0QKF+ecDJg8VLSna4qIKVIwiSSI7HnuNV//ut5kZqwEUJEsEu3OBxl8+TXaZGsb/xN//wbJ9NjueRUnDTbY8fJy80h48vhDTozM0X2gnr2wDFlsqJrce1Ek/vBjBm2rkVcTdOo0vf60vjKJO1rE/MthsNnYe2MHtqy203Ghlfnaerfu2YLVb9clPiJlwCkryySnMZqhnmPabHdw42wSigDfFjcvrwu1zqYRhi8jc1DwzEzPMTc0TCi4iIJCWlUrtlmo8KR7TChpZ4NrpG8xOzbJt7xYKSgoQRQFJtDA9PkNncxdVdZXkF+abtCl9XX1s2r4Jhxa4Llbn7ZvNiJJEfUOdzmcwuiULgkhPVzcWi4WSslLz+BOX1xIm9udKE5yxjmTjfyXzTyLJvKammjcdDm7cuKkDleWkYX0DjRcuceH9CyrJnPgzpYEVUZQ48NB+Xn0xSCQcYXZ6Fl+qD1kEq0Xmq9/s4i//jwb9WKO2UhIlM5gyaBoFQWRu2kVXmwpOvv1HO0xtc3uq+PZ/maaipsKk3dNAiiiI9PX0MzI0zIOH92Oz2kzg0ti3giCyMD/P4MAQe/fvXbXZZ42fsiZ3kjWgcp/KvfI8Wom3okkyvkoyrUp9fR3vvvMOF85fTEqq1QJPlZQW09HewfTUNL4Un85TsVltZGSlMzYyZjouJc2HgMDs9Bxunxs5Zm5yuBx6fBWNp2J32BEQiIQSs8CqL7uqLVfwpnfRffPr7HnyuwBYHSEs1kVOfPdfxMrKiFKU1JxBBLGZlKweckpdvP/iV9n9xAsU1rapKnlRAkSIaSQ0Dx2tnzRZmFFNPb40n95WtUySGDUJnjZqeUElYIIOWERRpGFLPb5UL5fPXuHUa6fZvHsjmbmZCIqsa1c0wFJUXkheSS4TwxOMDo4xP7vA9PgMI72jKIbcBS6vi8zcTHzpXlIzUvGleWNk1TigUmSFK6evMzUxw5Y9mygsLdRBCjJcPnsVt8fNxh0bEXVzk4Wmq03Y7HbWb1ynR8MVBZFoRKbtdhvllWV4vV6TNsXYX12d3RQVF+kcqCV99wFW2R/UbHCnYJBWq5V1Deu4dvUaDz18GJtGlE2iVbHZbOzYtZ2Tb56ku6tH1TTG6jESa602G3/xX4L8/Pl/w5uvWnj4scNqkkoRHv3sMEefGIo9yxbyCkO8efm1WJRldaGgSVXNHK9dfDlWr0ReQYg3Gl/VNVzRaJQzb71PT2cPm7dvZNP2rSZeiukbgcZzjfhSU6hvqNf7xqhNMT4Lba3tgGoC1q7rXnr7aHWuyadL1oDKx0Q+TIyXZGBlNQAmsTwSbNu+jZPHTzI0NKzHujCafwBKy0oB6O/tp369+nLTXlbZOTk0NzWDEgscpyikxOKzzM3OUSDkxc4n4Pa4CCzE46uIgojd4UAQBMKhRd01V9BXkCKSKFKz7cc0vvknjA+8hRCL9bnl4Ve4fOJRAHY9+TwNDx5HkqI0nWlVXYzzD8Uu1BwOXZ2w1HMIhslcO58oCszP+hEEAV+ad6n2xKRK134vtdeLWlRbIb46liSR0soSfKk+Lr7XyLm3LlJeW0rtphrV5JQEsOQU5JBTkKOH/g8vhlmY8xONRPGkuLHarfo5NTHGSpEVmSvvX2dqbJrNuzbGiLKSbuq6fukm/jk/h44dxGm364BkemKavu5+Nm/fhCMWI0UNIifQ3trFYmiRho0NJm2K1r8A01PTTE9Ns3WbcdJc6u0T77PlTUKrkbsZ/8uZfzZsXM/lxku0NLewcdPGFetrWN/AlUtXef+9s5SWleigPtEE5PX5eOSJo7z+0hu8/LNX2H94L8Xlxcjq44coJ7RFUq9DugPdULvfSlTh1Jvv0d87wI4HtrNh8/olpiINtIqCSFdHN+NjEzx09LBOsDbWaeSmiIJAW0sbWdnZZCQE7DMnRl25rctFu12TT6+sjYKPmXxQ9ehq1bDGcySbDDZu2ojd4eBS46UldWnlU9NSSU1Npbur23QeURTJyc0mEokwZUhZb7NZcXtczEzO6OVEQU3atjDnR4i5awqigMNpBwGCC6H4yg6NmKhObKXrzuPwdHH2xUc1LTh1u85x7Hf/Wm1f5jhWi0J0MUokFFXBjGCow7BaFASRSCiMIAgx/kY854z2mRyZxOV2Ybfb49sTTD5GkGI8VuW4xIiQopaTJ+bqG2tHRlYGhx8/SGVdBV3NPbz90imVaCsrOmHWIlqQJAmrxYokSVhEC1bJhsPhJCMrg+y8bFwuN1Jsu/ZtlWxYRAsCAkO9w5x78yLjQxNs2rmBsuoSLJIUI9Ba6O8coLO5i+p1VeQX5OogBQUun7uCw+GgYeM6k8lHUeDmtZukpadRWFiwxJNE+93W0gpAWUXZqsepcawmkztNcsn2J3sOEvdpx+Xm5pKRmcn1a9dNpNpkmcYtFgv7D+xnemqG82fPm4jEQsKYysnN4akvfY609HROvv4O7x5/j5A/FHsGYiRbLS+ToOZwMo6pxI+2f3Zqltd+8TqD/UPsObBbByna2LNIElLsfouCyOLiIufOnCc9PY3auhrd5JPM0wfUGDgD/QOqd5MBbCbr74/S7LNmQvrkydod/RjKr9rDyPiCdjqcrGtYR0tzC+FwOGlZSZQoKy+jv3dAD4WvvaQ0G31/z4D+MhcFNebG8MCImnQtVjY7P5ugP8jM5Kz+wpckicycDEb6xkCJh/DXYk8Igkh+eRbl639AX/M2hjpVrY9gWMULgoAclmm72IUckSmsyotPoCSotBWFoa4RfGlenG6neaIVBSZHppkYmaK0umhJXy0HUlRzGshRZYnXmCSZgYsGWOw2O1t2b+bBR/fhS/HSdLmZE794hxvnbzI+NA6KoAMQi2jRAYvVYtV/G4GM9i1HZXrb+jn1yhmun7uFKIjsPLCditoyFcxYbEiShYHuQS6dvUpeYS5bdm7SQYokSlxvvMno8Bi79+3E5XLpE50giLTeamVyfJKde3aoSQ8N3BRtcl5cXORy4xXKysvISM9Iqk0xTnIfVptyr0QSJXbu2sHQ4BDt7R365LyclJaVsGHTei5fvMzN67dMmqxEsOL1ennimWNs3bGZ3q4+XnjuRa5fvkEoEFLHiKg+Cxqw1oCLBnK1jxyJ0tHcwZsvH+eln76C3x/g8COHaFi/LmGMCqb2AJx47ST++QUOHzms3u8kJh+jNuXUO+/hcDjYsmWL6bo/qDYlmaxpWD6dsmb6+RjL3ZqD7mQCWomrYpTq6iouN16it6eXiko1Bkk0ISx9ZVUFVy5foa+3n7LyUj1KrdfrJSs7m/6efjZuXa/HUykoLqCtuYOJ0UnSs9MQBJHCknwun73CSP8IvjSfbv4pqizkyulrTI5MkZ6bqkcxF2OeMXanncNfHqT71gCjPetxeoYZ6RljelQFTYPtw8xNthIOhaneXoEv08dEfxzEGMHFcOcIocAi1ZsqVc8bw2SCAi3X2nC5XZTVxj1VTC99o7lHhpGRMQZ7BxnoGWQxuIjH5yEjK53UjFTSM9NIy0jT8xvJsVD9gizHiJyQm59Ddl42E6MTdDR3Mtg7RG9HPxarRE5BNjmF2aRmpGK1qwBDE41ds7i4iH8uwPzsPNMTMwx0DhAOR8jKy2TbA5XkFOSY+kAURNqbOrlx6RY5edk8eGQfdrtDBym9Xf3cvtFMw4Z6quuqTX0Q9Ae5eO4ShcWFVFVX6f2QCOZuXr9JIBBg155dScesJvdSm2Ist5oknstFbl6/YT3nz13g1DunqKgo1wHzch5ABw8fZHZ2jnffehev10NRSZGJr2I0A9ltDnbs2UFNfTXvnzrPpXNXuHTuCmnpKeQV5pGbn0tuQS52u0019UWihBYXCS+GmZ2do6O1k56OHqKRKL4UL1t3bqFuXS1Ol9MEULRrFg1j9vyZ8/T3DnDo4QPkF+SvCFIAujq76Ors4sChA7FElKvXpqzJmtxJ1oDKJ0DuRPy7G1nO88G4vaSkBJvdTkd7hw5UBFE0BX8rKCrAbrfT09m9xE25pLyYxnOXCPgDWB3qpJxfXIAkiQz0DpCZk44oitgddrLzshjsGaayoTI2AcjkFuTg9rrovNVNavbGeF57YpOEoOBwWtj75Fu8+b3fQI7K9NzsZ9GvEnAjERmnz0l5WSmpWVpsCnMGYQA5EqWvdYC0rFQy8zKWaFOGukeZm55ny96Nuv3eaN/XQMrEyDi97f0M9Q8TXgxjtVrJL8ojNT2F6YkZJsam6O3sj9WtkFOQS3lVKQXF+QiSiCgZwKSs8lKycjLJyskkEokyOjTCQM8Qg71DDHQPAaCgYLVasDvt2B02EAQWZhcI+IN6X0miSH5JHhX15aRnpi8BVv55P5fPXmVseJzi0kJ2H9iF3W6PaUwEZmfmOffueXJzc9j+wHbdlKURby+cPUM0EuHBQ/sRY9qURAJmOBzm0oVLFJeWUFxcnBRgfNhV+J3kbvgq2vm0Z8EiWdj/4D5efOFFmm41LQkAp7Y9DlYsFguPfeZRfvr8z3jj1Td46gtPqdFtY+U1sCISf6ZTUlM5+vjDjI+O09vTz0D/AK1N7TRdb0YQVLJuOBzWk2eqbRSw2WxU1VRSVVtFdm4WoigZ2mT27NG2i6LI9as3uNJ4jYYN62jYsH5Fcw8AisKpt98jLT2Nrdu2mvt2FdqUO8WtuRtZM/t8MmUNqHxCZLVg5U5aldUcb7FYKCsrpaOjI2nAK0EQsVqslJWX0dXZzQHDsYqoUFJSTOO5RoYGhimtLEERZBx2O3kFeQz1DbNpx0ZEQeVfFJYVcunMZean53GnuvXzV2+o4sqZa4z1j/PQs+9w8KkTyIoFiGABIjJs3N/Ihn0XCQVCyMomLFaJA1/4nVhrqk3tzSke5I/+7vdME3X37T6iEZnKDeVYYqpvzZYvR2Q6bnaSnpVGQUm+aUVqzEQ81D3E+fcasdlsFBYXUFxWRG5BDhYt/0rsxRoMBJkcm2RsZJyutm7ef+cCdruN4opiyqtLSU1PQVYUHbRIqJo00SqSX5RPflE+kWiUybEp5mZmCQVC+P0BQoEQwUAIWZbJzsvGm+LBl+LD43Pj9rlNHjZG81Rf5wBXzl8DRWHX/h2UV5fHwZggEAoucuqNU9jtdg49ehC71a4DNUEQGR4coa2lnW07tpKRkbGEQKutxptuXmdhYYHPPPm4oR1xM4ixbeoYujOn4QNNcAnPwGq0i9oxNbU15OXncfrUaWrrarHE0j7IIjGvHEP/Ak6nk88+9QQ/+sHzvPLiKzzzpWdwuV1xO7ywlGSLIJKVk01mdiZbtm9icTHM2Mg4gwOD+P1+bFYbFpsFm9WK1WbD4bSTX5CPxWox9YlRg6Jtj+8TudJ4lfNnLlBZVcGDhx403Te9fILJ5/rVG0xMTvLkU5/V4/Asp02Jb7t7892a2efTK2tAZU2WlZVclSsqK2htaWVsbIzs7GxgqfmnvLKc5tvNDA0OkZcfzx6bnZONw+FgoHeQ8qoy3fxTVFZE/7sDzM3M4fG5EUWRorICrp6/Rk97Hxt2rtPrLijJp/N2F523usnMzUCyWfQAZxpYkRW13U63CyWW/2alazVO1Auzfoa6RigozSU1PUUHKdqLvbO5h1Bgke37t2CRrCqAinnH6CClZ4gL710iOyeT/Uf3Y7dZ9f0Qf/EKgojb7cHt9lBUWsym7ZsYGRyhvbmDzpYu2praSc9Mo6iskKLSQtxeNTeRLJhBiyRayM3LJjcvW590E812pmtOmEwEQSTgD3L94nX6uwbIyslk14GdpKSm6FoUURBZWPDzzmunCAVDPPLEI/i8Pl2TIggiShTOvHOGFJ+P7Tu3mUw+cU6GSDQS4eL5RgqKCimJaVM+TATTD1L+biXZsyCJEgcOHuD5557nyuUrbN+xXW+LyQRkiEybkpLC555+kh//6Ce88OOf88ixo2TlZCEZ6k2mXSF2z+12OwVFeRQUxfMpyXKCZ1KCe3wiGdgIUBRF4fzZC1y5eJXqmiqOPHZEJ49rxyYDKcFAiDOnz1JUXER1dbWp/41g0zjWzW28d9qUNfnkivStb31rpf0r7lyT+0sEQbhjSG+9HOZyxv/qZKH+1+pTTCUVvF4vF85fwOF0UFJSoh4vxLPeK4qC1+fhyqWrgApaUBT9PJMTk3R3dlPbUKvGJ1EUHC4HLTdbCIcjFJSopFtJkvAv+Olq6yYzOyMWsVZBERS8KR76O/oZHRgnpzAbySrFPICEGM8i7hEEQgxAoJshTCRWUeVcSJLEzPgsN99vxm63sW5nHQ6HQz0mBkZGesdoudpGcWURFXUVJpBikSyAQMu1Vq5duE5WbmaM12HTw9urGgP1WxLVydn4EUURX4qX0ooSatZV4/K4mZ6cobu9h7amdgb7hogsRnA4HTgdjjgIEOOkTC1iqSRK+kcDGqqnUNxrRI7I9HcNcKPxJtcvXGdhLkDDlnXsPrALt8sdi8ArIUoSo0NjvPXq20QiEY585mHyC/JMIEUSJN45/i5Dg8McPXaEjMzMWB9LBtOSep1n3ztDd1cPn3n8GOlp6frYM05wxii2ybQpiRPfh4nZkfhcGJ8D47NlfBa0Y9LS0hgaGubqlauUV5Tj9XpRYvuNz4X6S93u9rgpKi6ipbmVa1euIQD5hfnqNcdKG/shEeAatSF6vxk+xjEl6eNNMo0zURQJBoO8+epxWm+3sW59PQ8dfUgHKRpZPRlIkWWZl37xMlPTU3zu6c/h8/qWtFU71nivjADZGFog8V4YZTXAZc3s87GXby+3Yw2ofMJktWAlEagsBS9moKLuV7cLgoDVZqWvr4++vn62bN0Sr1MHIwKiJDI1OU1bWzsbNm+I2cjVWlxuFzev38TtdpOdk4WCgmSRCIVCtDW1U1xeiN1hQwGycjLo7epnsHeI4opCBFEEFBxOBymZKfR3DDDaN0Z2YRYWHayostSFeekLXBRUDwpBEBgfnKTpQisut5MtD27E4/XEAIg62U+OTnP97E0yczPZtnczFsliAimRcJTG9y7R3dZDeU05+w7twWa3xzw0NG8e0TRpiNJS4KR9LBYL2TlZ1NRXUVZVhsfjZnZmju62Htput9PZ0sX46ATBhSCKouB0OvW26qHtdTCmbtOiAE+NTnL7WjOXz15moGcISRSpbqhm94O7KCkvQRIlrLHcMaIg0nqzjbNvncXr8/Dok4+Qk5Mb8+QRdG1T47lGmm4288C+PdQ31OvnTZzoxkZGOf76CdZvWM+27dtMk6c23oyTcLLvxN/3YhWe7LlY7lnQ9mnPTklZCU1NTbTcbmFdwzpsVlsM1ism8GEEKx6vh/r6OmZn57h+5Rp9PX3kF+XjcKixaBIBixGMGvvJDOzMY1sb89oYNx4/0DfI6y+9zvTkNAcOH2DXA7t0byLBcGwiSAE4c+oMTU23eeSRo5RXlOt1G9tlvEeJ32bAufJ9XA0AvdeB5dbkVy7LAhXhDpPanWe8NbkvZTV8lUReSuJ/XQUtm80IiiKrgcGuXOG1V1/ja1//Grm5ucix7YosE5GjKIpMd1c3P/3xz3j0M0cpqywnKkeQFZloNMrPnn+BQCDAU196kqgSJRqNMr8wzws//Dm5BbnsPriTqBwlEo0wOjzCW798l8KyAjbuaiASjRKVI2pK+dFxLr17BdEisnn/BuwuG3LMU0ZrsxYAbTmJhKMMtA/R1zpASoaPTXvXY7fbdZAiCiLzMwtcfOsKbo+LB47sUieT2CRtkSwEFoK8f/I887MLbNm1iZp1VXHtjWA2LUE83oZREv8b74n2W5Fl5ufm6e8dYGxknLGRceZm5tRCAjgcdpWvYLNhtVmx2W0oisL87DwL8wuEgot6nQ6nnZLyEsoqS8jMyUIyxveItS8aiXLh9EU6WjspKSvhwMP7454/UnwyvHThMpfOX6ZhwzoOPnQwFpNjKUhBUXju+z9iYcHPb/7WN3C73KbJy6gxWK025V6aCpZ7DiD5s2A8pn+gnx9+74cUFRfx9LNPq+bT2HMB6r2TDeNSe5ZkWaaluZWTb54kGo2ye+8u6hrqdL6LYqhjaftWp0XVfyPQ293LpfOXGR4eISUlhUeOHSU3PzepqQdYAlLaWtp4+aVX2bx5E0ceOWIy261k8lmNVuxOz8RysqZR+djLskhzTaPyCZWPQquSaP5JTU3l4oWLWK1WSstK9dUjSvw4j8/DrRs3CQSDalhtRUGOuSqLosjtW81k5+bgS/GCoiBZLEQiEVqb2igoKcDptKMATpeTSDRK5+1OUtJ8eHwetFWp0+UkPSeNge4helv7CSwEcXlc2J123QSSyJHQzR5hmYG2QW5fbGN6bIa8klw27m5QtSCihCSpppJwMEzjO1ewWC3seWgnLrfbBFLCixHOHH+fgD/Ig0f2UVZZooMU1dQi6uYTbbUrGcw/xpWvyQykr5YFUxmHw0FmdiYl5SXUb6ijZl0Vefk5eFO8uNwuHHY7IBAOR1iY8xMKBHG5XGTlZFFSXkxVbQX1G+vYtnsrxaVFeLweNRaHJOlaEGRobWrl3ePvMT4yztYdW9h7cC82qx1JMphzBJErF6/QeP4y9Q11HHr40LIgRRQErly6wq1bt3ns2KPk5eWZTRErgBRtjKrfd2fySezbxLG/0nOQzAS0nFbF5/PhcrtovNhIwB+gvKJcv6ZEzYp2vAAgQFZWJjV1NYz+/+3d+V8bZ54n8I9KQkJIgLjvGxsb25jDF/GV2EmcO+kj6emZ7p7d6d0/aGZ3puc1+9qe7u3MdKePHPZ0dy478YVvbGKMbe7TGASSkEAISVW1PxQSkpCEAAFl/Hm/XoltVamqkED14Xm+z/NMTOJ+Ryfu37uP2dlZmNPNyvfbYgtLZOtJtNaUaN0+ADAyMIKvvziPe3c6oBEEHD32Ak6fOQ2LJTPYzbbUPRn6PbkUUmxTNnz68WcoKirC2+++DZ1Wt6yVJNEun8i/r7U1hSFlW4jZosJi2m0qkVFAiY72iTbqQdAIMBqNqKquxsOHD3HypZPB/TWCAIhSsDtkZ91O3LvbAa9nATq9UngqQULNjhq0Xb6GR52PUFpeEnz+vsa9eNzZjc72Bzjx6rHg4w1NezAxNoGOG5148a1j0OlToFm8/pz8HBw904r+hwMY7R/F08EJZOVbULajFFn5FmVVY0mG3+eHJEkQfX5Mjk1hpGcMfp8fBSX5qKqvQEZWxuLNNWRyNr+M9ssdkEQJL5w+AnN6elh3jyhKuH7hZnA14cLiguCEaGETvYUEEskvwmafht8vwuv1QfSL8PuUFiJzuhlZORaY083B38hDl0EUJOWDW5KXPpxNJjNMVWaUV1WEvadynO8BTZSho4JGgCxJ6Hvcj4479+GedaO4tBgHWw+gsKgQkRODCYKA9lt3cev6Heyu3xUMKZGTugVeB5fThauX21BTU426XXVhXQuR1xLt+xBY+TfwRLYl+r0fT6y5VZqbm2G323G97TpZXb69AAAgAElEQVQsWRYcPHQweB2SLIUN5Vf+LwRH/GRmZuL7738fT8bGcf+77/Cw8xE6OzqRX5CPPQ17UFJagvSMdGgFXVhLT6yv0+PxYGzkCcZGxzA6PAq7TVl/6+Uzp7GrfhdSFltswkYBCdHDoqARMD8/j88+PQu9wYB3v/fu4iKF4SFlpRaQeK0pRNGw62cbW0v3T+RjK3X/dD3owqeffIrv//D7qKmtCev+kWQJoiTi6dOn+PDX/4EjRw+j5VALRNEf3Ha97QZuXb+Ft773JvIKc+Ff7M7paO/A7Wt3cPjEIZTXlAW7gBw2B746ex6m9DQceukAUgwpi8fyL55Xhnt+HiN9IxjqHsHC/ALkkCLeSHnFuajeU4nMrMzgKImlG6sAp82F+zcfYH52HodfOoii0kIEClIFQYDX48X1b25ixubECy+1oqK6LCyk6ARtWECxT9vR87AH/T2D8HmVmX2X/8a4uAiiTotMSwYsWRZk52QhvzAPuXm50KZol79PUmgX0fKvNdqQ9PB/a+ByzWJkcBSP7j+CyzmL/II8HGg9iLLyUkSbGAwA2i61obOjC3W7duLMm2eWRj5FCSl+nx+/+8+P4LA78PP/+XNYLJawkLKWLp9oX8tKj8d7XeJti9cFFLpd6WaU8fGfPsajh49w6vQpHDh0ILgtshso9DhhXTySBM+8Bw8edKHzu07YpqcBALqUFOTkZCMnLxe5ebkwGAwQRT/8Pj98fj9Evwi3240no08wPTUNWZaRok9BUXEhdu7aid31u4ILbC4bCRRWyBweUjweD/70h49hnZzCj378AcrLy2OGlHitKasJnCyifa7EbDpjUNnm1lurEvnhHNk37/P78It/+QXMZjP+9id/CxlyWFCRZBmyLOHjP36C0ZFR/OznP0GKXh8MFp55Dz768PfQaDV45/23oREAUfTD6/fhy3NfYXLCilfePoV0S3owrIyNjOHahRuABqhvqkNpTQlkGcFjBmpgJFGC9ekU5lxz8C34AAEQtIt1FVoBmdkZMGeaAISHEwAQfSJ6Ovsw0juGVGMqWo42Ir84L1g0qtXq4LI70XbhBnxeP1546QjKK8tChjEvtaKIfhFDfcPofdiLKes0dDodKqsrUVVTgVSjESn6FBhSlLoSraCFc8YJu80Bh90Ou80B+7Qds7NzAJRQY8nORF5+HnLzc2DJsiDTkgF9qj4s8CTSWiCKIqYmpjEyOIKRoVE4HU4AQF5BHhoPNKKyqgJarRD+2/ZiAHG5ZnHp/CWMDo+hqaURx04eixtSIAOffXIW/f0D+OH7P0Btbe2KNQ1rvbnFezyajQorfr8fn336GR49fITWo604dvwYNBpNWK2JLC39PXCsyLoXpd5KxsTEBCYnrJiemoJ10oqpqWkseDwh5166Tq1Oi+LiIpSUlaC0rAQFhQXQ6XRR63qiDZdX/r0U3O0OB85+cg52mx3vvPc26urq1hVSQreHPicSg8pzhUHlebXeVpVYH8yhH6a3bt3CV198hR//3Y9RWlYatah2cnISv/nVh9jf3ICjJ46GtaoMDQzj3Cfn0NDcgObDjYtBww/X7CzO/uEcoNHg1JsnYUwzBsOKa8aJm1fuYHJ8EjkFOdh/eC9STanBotmla1gqpo11Qwr7gNUAk6NWPLjzCF6PF9V1VahvqgsprFU+7CdGJ3Dr0h3oDXqcfPU4cvJyloUUrVaHkYFRXL90HQsLXmRlW7Brzy7U7qyBcXGacSB8votYTeGeeQ8mJyYxMT4B64QVkxNWeDwLwe0GgwEZlnRkWjJhTFOKfHU6HXQpOuh0OkiSBPecG+45N+Zm5zA3q/zp8/mh1QooLClERWUFyirKkJWdGbyW0NaTQBdgZ8cD3Lp2GxqNBsdPHsO+xn3hNUARIUUDDS6c/wZ32+/h1TOvoKWlJSmFl8kIKQGJhpVoPw/KPvLy7YtFsn/5y1/x3b0ONDU34dTLp4LdeaHHjtW6Enn+0HOKkojZ2Tl4Fxag0+mg1SlrOOlSAhMOxh/im0hAAYCenl58/ufPIWi1ePfdd1BVXZXUkBLt2mI9tmwfhpTthEHleZasVpVYIx4WvAv45//9z8jPz8f7P3p/WfdPINh8/pcv0PWgCz/7h58EJ2HzS37IsoyvPv8a3Q+78dYP30RObnawC2hywoovz30JbYoOL71xEmmmpbAiSSJ6H/fju1v3IYkS6hpqUbmrAoAmLLCEfj2yJCv1KhE00MBpd6Hnfh8mn1iRmZWBptb9yMnLXnYDfvxdD7o6HiEnJxsnXj0Kk9kcDDCCRgOtVge/149bbbfR3z2A3PxctB4/vFjjESgwDe9KiRT5WLSRHjMzM3DYHZhxOOGwO+Cw2THjmIHHswBRFBH5ox0oPDaZTEjPMMFkMqGotAglZcXQ6/XLuwFC6hU0Gg0mxidx+cJlTE1No7qmCi+efhGZmRlxR4gIGgFtbdfRdqUNBw8dxMsvn96w0SGxHktUrLCSSKuKsl/0sCLLMs6fP4+b12+iqLgIb739FixZluD20LASer5oLTXRriehGamF2K9drIAiyTIuX7yM2zfvoKi4EO+99x4yF4tuQ4+5VSEl2tdFzzQGledZsrt/lO3hrSpXr7bh4jffRh2qHGg5ccw48Kv/82vU1tXg9JnTSlHrYnfN3Nwcfvubj2Aw6PHW99+ELkUbDCsTExP46tx5CDoBL71+AqZ0E0RJDLa8zM7Oof3aPYyPjCM1zYD84jzkFeUitzAHglYbtXVI+beMGZsT4yNP8XRkEm6XG1qdFvWNdajZXR2sNQnMNOv3+dB+tQPjI+OorK3E4eMHodfrF2tWtMGunsknVlz79hrc7nk0HWhE44H90OlSggEl3gyha31PowUZn88Hv98fXMHamGYM1iaEnjfy36HhBADcs27cudmOB/e7kJ6RjpOnTmLHjsU1niJC3NJjSki5du06rl5uQ0PDPrzx5htLN7eQm5waQkrARoUVAOjs7MQXn38JURRx6vRLaNjfsKwrCFgeWEKPG3nsla4biDWSJrRlKjygaAQBs65Z/PnsnzEyMoqm5kacfvn0YtdRYiEl7LgbVF/EkLLtMKg871YKK+stql1YWMA//eP/Qk1tDd5+562YrSrffnMRt2/exvs//iHyC/PDuoCGB4dx7pP/QkV1BU6+cgIylupNJicn8dW5rwFBg6OnWpGdl7XYIiMqtTOSiNGhMQz0DME6boXX64UgCLDkZsKcboLOoFO6onwiZMgQ/SJsVgfm5+YhCBrkFeahuKIQxeUlMBpTASAYUASNBtMTNrRfuwf37DyaD+/Hzj07w9a+ETQCRFHCvRsdeNzVDUuWBS+9chJ5BXkhN/PwETOBcwCJz8QZ7X2K9jO8lt+yNSE3LFmWMT42jvsdnRjoGwQANLU04cgLh4KtL7FaUQClherqlTbcuHYTe/ftwRtvvhEMSYmElMjrW6nLJxkhJWAjw4rd4cBf/uvPGBwYRE1tDV498yrSM9LD9okMLJHnjlYsHW+OoGjdiZHLJwBKQJEkCQ86H+DyxSvweb147fXXsGfvnrgjexINKdGuha0pFIJB5Xm3Ua0qgW2SLOHChQu4ce0GfvrffoqCgoKoYWXe7cavfvlr6HRa/OgnH0DQasO6gNpvt6Pt0jVU1lTixMvHAY0cDCvT0zZc+OsFuJyz2H9wH3bu3QFJEiEtzs0SmOTN5/fB+nQKT8eewvp0Gu5ZN3w+nzKnhHaxhUQrINOSgcKyAhSWFsJoTA0r2AyEj4V5Lx5+9xj9j/phzjDjyInDKCwpWNaKYn06hWvfXsPcrBt7Gupx8MgBpCy2tsQKKJqI32Qj/57Q+7rK364jRZ5P9IvoedyL+/c6MWWdQqoxFXv21aNh/77FZv/wryFyhI4S2ER88fmXePjgEfY3NuDMa2fCQspWFV2uRrLCSug+geeKkojbt27j4reXIAgCXjjaiob9DTAYDGH7xR7VFeva5LDXMJbI1yowTH1wYBAXv7kE66QVJSXFeO2N14LreAGxW1GAld/D0H1iXUesx6J+DQwp2xGDCm18q4rH48Ev/uVfkZubix/9+IPgkODILqChoWH88aM/omZHDV594xVl+HBIWLlzqx3XLl8LtqyEhhWPx4Mr31zFUP8QMrIyUd+wCyWVxdBosCywhF5/vMX5gOXN3+7ZefR09WKwewiyLGFH/U40HmqAQW8Iq0WRJRn373Si894DpGeYcfLlkyguKV4xoARaLTxuD2w2G+y2GdgXa0w0Gg30+pTFYljlT6MxFekZ6TCnpyM93Yw0U1pYN07ke5Qo74IXT59O4MnoOJ6MPcHkxCQkUUJ2bjaamvejbncd9HpD8LWJVoAZ+tp5FhZw9tNzGBkawckXT+BI65Gw7p6trGdYjfWOBFL2ix1WAGB6ehpffPElBvsHoDcY0NzShOaWZphMpmX7xgota6GJuMlPWadw8ZtLGOgfQFaWBSdfPIldu3cta0UB1BFSoh2ftgUGFdqcVpWbN2/i6y+/xg/e/wGqa6pjdgHdvHETl769jGMnXsD+lsawepXQlpXyqnK8+OpJCIJGCTKSBFGS0Nvdi/vtnbDb7DClm7G7oQ6VtRXQCJrg1PlSRLBaqXlcEATM2J3ovt+Nof4RCBoNqnZUor6xfnHmzvDJ22Yds7hy4Sps03bs3L0DrcePBKeWjzYxmmZxBMyT0Sfouv8QI0MjWFjwBm8IBoMBWdlKkWVgTgy/3we/zw+v1xtxvUuFsWkmE8xmE1LTjDClpSEluErz4vouggBJFOF2zysjf9zK6B+Xy4Vp6zQAGRpBQH5+HopLi1FdU42S0hJldlokNjpEIwjo7enF11+cx/z8PN5483Xs3bc36vPVHlJCrbdlRdk3dlcQoEy7f73tOnq6e6ARBDQ07EPLwRZkZ2fHPN9qWs1CBYO4242+nj50d3djoH8QqQYDWo+2ormlOThtf6IBRXl8fSEl3uPL9mNI2a4YVEix2laVWB/IsUYA+fw+/Nu//hs0goB/+B//PVgsGBlWJEnE2U/PobenF+/98B0Ul5YsCyt3b9/F1UttKK8qw7FTx6DXpwQLaCVZDg5tvt9+H1OTU0hNM6KqtgJZuVnIyrUg1WgIhoDQNX9CPxC9C15MLa6XY306BZvVDp1Oi9rdtdjdUAez2bwsoEAGuh/0oP3GXegNepx46Rgqa6riBhTvghePu7rRdb8LDvsMDKkG7KjbgdzcHOTk5iAr2wKzOT2sViX0Ov1+P1xOF1wuF1xOF2acTsy6ZjE3N6cMOV78M/znefmP71LAUVplCgoLUFJajMKiQqQaUpfOHeUmFWt0iHveg2/Pf4uHXQ+Rn5eH1998HcUlxWHHeRZDSkCi3WuJhJVl+4X83Wq14saNm3hwvxN+vx+ZmZkoryxHRUUFysrLkZ5ujnnulciyDOeME319fejt7sXIyCgkSUJmZgZ219fj8JFDMBqNAKK/95F/Z0ihDcCgQorNaFV59PARPv7Tx3jlzCtobGoM63MPDSvu+Tn85//7LTweD370d+/DlG4OFtcGwsq99g5cvdQGkykNx08fR0FRXkTwUQLLk9EnuN/eiadPJpSuH8gwGlORlZcFkzkNWp0OkigtFt5KEP0iHDYHHLYZyLKycnNOXjaKS4uwo34HjEZjMJwACM4uOzluxa2rt2C3OVBWUYrjp47DbDbHDCnz7nncvn4b3Q97IIoSikqKsG//XuzYWYuUlJRlI4AC1jICSJKU7rfAVPyBCfokUYQgCEgzpSlfV5Rjx7o5xRsdAo0Gjx4+xoWvL8C74MULR1txpPXIst/INyKkxHs82RJtVQGWt9qt1BUU7Tgzzhl0P+7G0OAQBgeHgpO6ZefkIDs7GxmZ6cjMzIQlKwtZWRYYDKkQ/X74ReV9F/1KF+nk5CSmrFOYmpqG3WaD16fMhJyTk426XXXYWbcTBQUFiFzCAEgsoCjbNi+kRDsHbSsMKqTY6Gn1AaVY8MPffIiJiUn87O9/iqzsrJhdQFarFb/98HcwGo343gfvwWQ2LWtZGR8bx9dfXIDDYcfOXTtxoLUFhlT9ssAiyRK8Xi9sUzZMW6dhnZyCzWrD3Jwbfr9fWb9HWBxKqxWQYclAQVEB8gvzkJOfA31KCgAsCyeCRsCMw4m7N+5ieHAEJrMJrceOoKq2SimojRJQJEnCg44u3L5xB6Lfj91769HQuA8FBUpxYrS1VQLWewNO9DfulYatKvssH7oKABNPJ9B2pQ19vf0oLi7G628uFV6up+hSTS0poTYirETuG+0XBEmSMDExgaHBIQwPDWNmxgmn0wnvwgIihR458OpmZGQgOycHubk5yM7JRll5GXJzcwFEv+nHK+yO1YoS7VgMKbQGDCq0ZKNbVQDA7rDjl//332EypeGnf/9TZXbUGGFlbGwMf/r9x0pYef9dmNLNwYLYQIHtwoIXt2/cxr32Duj1KTjYehC1u2qAxSn7QwNL4HqX5k9ZWtE5llgL9LlmXHj04DEeP+iGVqtFY8t+7Gvcp8yfEqObZ2zkCa5+exU2mx2VVZU4ceo4chbrDSJHzYSeL7A9ntCFIZMt2pBVIPy1mRifwLW2a+jt6YMxNRWtR1uVRfeE5YW2oX9PpKtAbS0pkZIVVpTnxA4s0Y4Z/vMnY35+Hna7HXa7Awsej1J4rdNB0Gqh02qh1+uRm5cbtTsnVCJBcD0BJdY54j0edV+GlOcBgwotSWarSujxIruA+nr78NHvPsLehr14/Y3Xg8eIF1a0Wi1efeMVlJaXBsNKaFeQddKKixcu4emTpzClm1C7sxY1ddXIyExf1sUUek2xvqYAIeQ3fZ/Ph8H+YfQ86oV13ApBEFBXX4fmQ01KN0+MgOJ0unDjyg309fQjMzMTJ06dQE2NMt14vIASrZUhdHuiVlu7EOv4kaNCBI2AJ2NP0Ha1DQP9gzCmpuLg4YNobmlGampq1G6jjRgVEu/xRAXOm8jPQDSrGQ0ErD+wrOWcsazmNY3XxQNEDw4MKbRODCoUbr2tKsDKXUCSLOHitxdx9cpVnH7lZbQcaIYsR7aALIWVqakpnP30HGzTNhw5ehjNB5uDQ5dDw4ooihjoH0TX/S6MDI1AkiXkF+Sjpq4G5VXlMBoNYaslRxvaGXozlmUZs85Z2KbtGB0axUDvIES/iExLJnbu3omdu3cECxljFcreu9OB79q/g0YQcPDwAbQcbA4uAhc570jgOEDsVozIa1yLWMNY4x03cA2iKGJkZASDfYPo6+uDzWaH0WjE4SOH0NTcBIPBELcFBdi6gstY54m01rACrK91Jdq5VzOJ21pH/ATEDKhRg8bye8d6WlFW2rbSuWhbY1ChcJvRqgIo9Sp/+P0f0d/Xhw/+5gOUlZfFLK6VZQmeBQ/Of3keD7seobKqEq+8dhr6VEPU1hVJkuByudDzuBePuh7DbrMBAPR6PTIsGbBkWWDJyoR5MWTIsgRJUkYciaIEp8OJKes0bFO2xeG/GqSk6FBVW4Vd9XUoKCqIuXqwcjwZj7u6cbPtFjzzHtTV1+GFY61h698A4S0osUbOANFbMtYj8v2LdzyPR1n00DZtw/DQMAYHBrHg9UKn06K8vBy1O2qxd99epKamRj2emgouo50nnrUElrW0ciQSWJTnr27m2fWI1dWYSECJ9fxkhZRY56Rti0GFltuIVhVln/CwMu+Zx7//8ldwu9344G/eD85aGzheaFhRjiXi3t17+Pb8RRhNRpx+9VRYV1DgeaGBRZZlTE5M4un4BOw2O+w2Gxz2Gbjd7pjlKVqtFtk52cjNy0Fufg7y8nORlZMVbAkBlsIJgGALiizLGB0axfUrN2CbtqOopAgnXjyOouLCqEWy8QJKtNqYwOs5Pz+PBc8C3HNuSJK0uEKuDjqdFjqtMhmcXp+ClJSUhD7QJUmC2+3G7KwyrNk548L4+DjGnzzB1NR0cL+MjHRU11SjprYGFRUVYeEk8joTrWfYrFqGaOdKRLLDSqztMVtJEgwsiRwrlkTqn6I+nmBAUY7BkEJrxqBCyyWjVQVYOaxIsgS73YH/+PBDeL2+uGEl8FxZljA+Po6/nPsrbDYbKqoqcOjIQRQUFUQNLMq55JCWHeVPj8cDp9MFjQZLI34W/zOmGaPWV4T+PWwtHhno7+3H3dv3MDU5jYzMDBw7eRQ7dtZCCEyOtsqAImgEzM3NYWR4BCPDoxgbGcXs7Cw8CwvBOVFWnhQdwdCiT9EHjx36s+33+4KBJ1Sq0YiSkmIUlxSjsLAQefl5yMjIWHHtITUWXEY712ptZevKSuffiCLqeFPuJyugJLI9kXPTtsegQtFtVBeQsk/4CsvRwkpgW3gB7FJXkM/nw72793Dz+i243W5UVlfgcOsh5BXkh804Gxp6lMfkqNcUT/gIlKVgIYoieh72oP32Xcw4nMjKzkLLoWbsrt8FnW5pSHOiASUw5Lr7cTeGh0ZgtVoBAAa9HqVlpbBYLDCmGWE0piEtzQij0QhdSooyV0bgP1GE3+eD1+uFz+uD1+eF1+uDz+sNfr2Br0FZ40gLs9kMk9kEs9kMc7oZZnM6MjLSVwwlsR5fbcHls1LLsFmtK0D8VpHVXEe8EJPI+j9A/NcwXmtMMltRVroO2tYYVCi2zapXAYBpmy0YVt773rsoKy8LHisYMqK0rngWPOi424FbN25jfn4e1TXV2LWnDqVlpdAb9MumyV/LlONhXS+ihLHRJxjsH8JA3wDcc27kFeTh4OEDqKmthlarW7EGJbL1ZMGzgAedD9Bx7zvYpm3Q6bQoLS1DRWU5yisqUFRUGJwsbaXr22iJjARR9ltbsWWsc8R7PJaNuLFtxKiglbYn0pWzngLgSCu9bit3FSW3FSWRa6JtjUGFYkt2F1DoMaONBLLbHfjodx/BYbfjxVMvoeVAc9jxorWuBI4x75nHvfYO3Ll1B/Pz8xAEAUXFhaioqkB5ZTlycnPCWlMS7ceXJAnOGSeejk9goG8QI8Mj8Pv80KXoUFFZjn3796GisiK4oCCQWJGsRhAwNjqGjrvfofvxY4iihOLiIjQ2NWLX7l2L87GsrqUhmVY6z/NcbLlRYSWRfVZbfxLvWlf7Gq03oCS6z7LnMKQ87xhUKL7NDisLCwv47NOz6O3pQf3ePXj1zCtISUlZ3oUTpXUFUNYUejI2joH+AQwODMI6qXSf6PUpSM/IQEZmOrKys2DJssBkMkEQBPhFf3AafVGS4LA7MG2dhsNuh8MxA0lUjm02m1BVU4Wq6kqUVZQrxapRwgkQe/0bjSBgdGQUbZfbMDw8glSDAfV769HY1Bjs8opVHxPvsY0Wv4n/+Su23MqwErBRI35CrRROgI0LKABDCgFgUKGVJPqBnMywIssyrly+giuXryA7Jwfvfu8d5OTkhB0zsnUl1rFcLhcG+gYwZZ3GzMwMHA4HZhwzEEUR8b6NMy2ZyqKAWVnIzslGXn4ecvNyo7acAIkFFOukFVcvX0VvTx/MZjNaXziChv0N0Ov1MY8X69+RErmhJMtqCy2B7VlsuRHzrax1P2D9wWW130OJvjcMKbRODCq0ss0KK6HbJVlCf/8Azn72GbxeH06cPIGm5salGUQjaldCzxWtBib0Ovx+P5wzTrjdymiXwGgfrVYLjSAgPd0Mg8EQdt3x1t1ZaQSP3WbH9bYb6HrQhVSDAYdbD+PAwQPLhg8nEk42K5AkWmgJrK3YcjvVMWxGYFntvhtlVYXM6/heZUihEAwqlJi1dgFFezzeaKDQ7YEWkXNnz2FwYBAWiwVHjx9F/Z76ZceOFVpCjxt57pWuG1jFfCARE7TJsoyxkTHcunkL/X0D0Om0aGlpwZEXjixbqTjR+UfCryvxIJEsidw8tqLQEtj6G9t6i1nXEkI2I7isukVrnUF6q99HUiUGFUrMelpVoj2eaFgBlFls+/sH8M2FbzA5MYG8/DycOHkCVdVVwSG0sQJLtHOvdd6JeGvuBOcokWQ8fvQYt27exuTEJIxGI1oONKOpuSlYExPt+fFmcI127mRJxo2BdQxLtiKwJOP56w4YSWjpU9P7SKrCoEKJ2+ywErpPoHals/MBLl+8BIfDgeKSYjTsb0DdrrpgnUdkYAkeZ9kaKqv7QI+33o4sy5gYn0DXgy48ftQNt9uNnJxsHDx0EHv27onbxZPoFPNRr2mLPthX0/30vASUUMkYKqyGbp5EJKuwW63vJakCgwqtzlaGlcDzRVFEe3s77ty6A5vNBr3BgIaGfWhqboIlyxL1PFGnLU/wa4m2WJ+gEeD1evGw6yHu3e3A5MQkdDotamtrsa9hH6prqpXC2yQGlM3+MF9rPcxGF1kC6r+xJXNeEzWGFgYU2kQMKrR6mxVWlH1jBxZZljE0PIy7d9rx+NFjSJKE0vIy7N69C2XlZcjOzl7WNbSa6wTCP5BlWYbNZsPgwCCGh0YwPDgEr8+HvLw8NDU3Ys/ePWGrB0c+f7UzuAKJf5Bv5qifSKxjiC2ZgQXYutCyEUPin6X3kbYUgwqt3uqm8F59WIk8R2RNSbTRPC6XC3fb76Kr6yFs09OQZRkmswllZWUoKy9DQWEhzCYTTGYTtFrtitft9/vhdDrhsDvgcDjw9OkEhgaH4HQ6oQFgsVhQWVWJvfv2orikOOyY8UbvrDecbGUgAdbZCvIcBZRIyQ4sy46fxACz0fP0PMvvI20JBhVam40IK8D6A4ssy7Db7BgcUmaRHR4ehsvpCm7TaDRIM6UhPT0daWlpiwsWyksLIEoSZl2zcLlcYTPZGlJTUVlZgYrKCtTU1AS7mAJWszifsj3++jexnpcsapnhNqFjbKMb20YHFjXbTu8jbSoGFVq7rQgrynNiB5bIY8qyDLvdgakpK2ZnZ+FyuuCaVYLIvNsdrCMJ/KcRBJjS0mCxWGDJzlL+tGTCbDaHLZngzsUAAAW5SURBVNKX6IyxmxFQtmKm2niSeT3b8eb2vIWV7fge0qZiUKH1SUZYibVtvYFlpXMmsn0t834kMrx4PQFFbcEEYA3DWjwPgWW7v4e0KRhUaP02M6xEO1+0eVHiTSe+lv78tUxhv5r6k2Qs+LZZWMOQXNstsDxv7x9tOAYVSo7VftiupisISCywLB0j+rdnshZxW+0Cfc9SONnKQMQb3LMdWvj+0QZhUKHkSVZYWWnbakKLcqyN+XZN5uJ8S8fc2LlL1IY3t/jUHFz43tEmYVCh5EpmWFlpe6wWksTneUns2zjR6evXOqx4TQvwPaPBJIA3udVTQ2jh+0ZbgEGFkm8tH6gbEVjWcz2JWOlDO9mtJ896OAF4o0uWzQotfL9IBRhUaGNsRFhJZJ/V1KEkeo2r+bBO9qgdhhNajbUGGL5HpGIMKrRx1vqhmYzAAiSveDaeROc7YTghIloTBhXaeBsZWFazX6REg8xGL8632n3VhqGEiDYQgwptjvX0qa82iDxLC7c9SwGFgYSItgCDCm2e9RYAriWAbGRo2coF+jYCgwgRqRCDCm2+rQgs6zlOskLFZocTBg8i2gYYVGhrJGt45VZ18yRqM8IJAwkRbWMMKrS1kj0fxFYHF66DQ0SUVAwqpA4bPYFVsgPMZnbjMJwQ0XOMQYXUY6umCI8VYra64JUBhYiIQYVUSA1rmmwVhhMiojAMKqRez1NgYUAhIoqKQYWeDdsxtDCcEBGtiEGFnj3PamhhMCEiWjUGFXq2qT20MJwQEa0LgwptH2oJLQwnRERJw6BC29dmBBeGEiKiDcWgQs+3lcIMgwgR0ZZiUCEiIiLVihlU+GskERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGpFoMKERERqRaDChEREakWgwoRERGplm6F7ZpNuQoiIiKiKNiiQkRERKrFoEJERESqxaBCREREqsWgQkRERKrFoEJERESqxaBCREREqvX/AbSz3OfDukG0AAAAAElFTkSuQmCC\n", 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\n", 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\n", 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\n", 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\n", 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SGRqbG9CyqwVVVZVQa9Rp+7ukO9f1EPuaCYIAp8MZFe/JiSmEQiHo9Drs29+Kvfv2wWhcW2nJJC35EpZs+q0Uk6xEt0vS8q7x7opKsUpKLkk9m4TOcRz6+/vR1fkWo6OjEAQBDY0NOHCwDfUN9XEhEF/dSezAmP7DKJHItrL/4sH4WGQSEi3P8xgfG0d3Vw+GBofA8zwsFgsOHzmEPa1711RZ0glLskRfiLvSfMhKrssmI9cP4q2SlGwFxe124+3bbnS96YJtwQZWIkFDYwN2725BQ1MDpDJpmuNLH9drzi/mmNJ1mI1lbZyI/w4GgxgdHsXbrm6Mj40DAlBeUY7de3Zjf9v+Nc2b2Uq3uM/ijWMSFmKDvJuispn9UgotKcmWiwjKm843ePzoCVwuFzRaLfbtb0Xrvr0wGA1JKzPxIyJSN0kln2Qr+2ua8i4tLsmuxmaitHg8Hgz0DaCrsws22yK0Gi3aD7ej/eBBqFTKuPXTNQllW13Z6n4r610e2DpJSdXUs55mS4EXO8SOjIzgTWcXBgcGwXEcrFYrWttasWt3C5RKZcaYTjyuVLKda3+rNY+lkW7xeRYu1zKGBgbR3zuA2dlZyGVytO5vxeEjh1BqMsVtZyNVwp3aFBS3bRKWnQ6JStbrbLGkpEvqiYLytqsbjx4+gsvpQoW1AidOn0Bdfa3YiTVhe8nkJPa41g4NzdwklC0ZRygkEZfYZRgwGB8bx6sXrzE2OhZN9idOnYBWq41bL1FY8lld2UxZybTuRl6PQkjKRqookQrK2OgY7ty+i7nZOShVSuxp3Yv9ba0wl5nj10sT04nHmOwc1tuUmbT5cs1onrXiHXn9bLZFvH7xGr09vRB4AU3NjTh89DCqa2ri+rLkQ7oT/97MOC503ysSlh3Luycqm9XkUwhJSZfUeY5D99tuPLj/EE6HE+XWcpw6fQp1DWLHvVTJPFkij5ei1HenhZgkK2USTSMtLMPGJXupRIoTp07gyLEj4oRz60j0xZbkC0mhOs1utCo4NzuHO3fuYmxkDBqdFqfPnMKuPS2QSqVJt5cuphOPO5/CHSFtJ+wM0s0yLNxuN968foOO153w+/yoqa3BxcsXYCkvj1tvO0v3ZsQ6CcuO490Sle0iKdkk9diEvrS0hJ9/uoHJ8UmUlZfh9NnTqG+oy0pQEuUkmw+aNXNarOO6rm0HTz5sM1lCXS1rrxUWp8OJu7fvYXhoGCaTCRcvX0RDY0Pc8pkS/XpL6JvVyTafbERS8tEBPFk8OxwO3Lt7H73dvVAoFThx6gQOHGyLE5RsKoLZCHfqKlLmFJfyW5GziZU0MRwMBvH2zVs8efQUgUAA7QfbcfrMKahKSuLWKcY4LpaRbdH9kLTsBEhUMq5TxJISDATw9MkzPH70GFKpFOcunMO+ttacBSXdcQhpmoFSXZtkj6dKTGsqKmxs8lzbRr+ahNdKS2yyHx4awb3b9+BwONCyqwXnL56H0WiMLhu3LZZN2+a/E2Uln1WUxHVyieXYv0PBIJ49fY5HDx8BAA4dOYQjxw4n7X+SSbjjn0tSsUn2xYUbGKKcTryziV/xuXhp8Xv9ePTwMbo6u6BSqnDqzEkcONietkqYTXXlXZOV6P5IWrYr746oFEO/lGwlJdOdp8DzmBifwI2ff8HS4hJ27dmFi5cvokStii6TLKGnqp6kkpNUnRJ5QewLE/AH4PcH4Pf7EPD74fcHwHEcJBIJpBIJJFIJJBIJJFIp1OoSlKhLokkz1ciINX+zCdKw5q4xtbDwHI+Xz17ixbMXEATgwuULaD/YnrbdP5emoELJSuK2802xSEpsFWVifAK/3PgFi7YlNLU04dKVS9Bo1NHlcq0IJh01lCSuE5dJ91giyV6jVOKdTFzSxXDs44u2Jdy7fQ8T4xMwm8y4+slVWK3WuGULEcex209cN9XyidvOhq2oJJK0bCtIVNKuk8dqykYlJfau8+6de3j+9Dn0Bj0uXbmMhsb6sIisbiNZQk+XzBOTeOy2bAs22JfsWFqyw7Fkh8PuhMvhApd09E/q0JBIJdDptNBotdDptDCUGlBhLYeprDQmoadOpMmkJVmyT0z0K8tu/HrjV4yPjaOxsREffPg+NDGdbd8VWcn04bsVkuJeXsHt3+7gbddb6PQ6XLpyCQ2N9fHL8rFxmlpQ0lVOkjUV8QKPQCCAleUV+H1+eL1e+Ly+6HdYgWEgYVmwEjHOWAkLlUoFrU4DtVYDdY7ivR7pjjzOgMHI0Ahu37oNt9uDU6dP4sSpk3HxXmyykrjddGxlPy2SlqLn3RCV7Sopic+vuJbx/bfXMDExgYOHD+LshbOQSiXRZTJVUWIFJV0idzldGB+bwOT4JKYnp+D3ByAIYsLSGXTQG/UwGPQoUZdAJpdBrpBDLpdDoZBDIpGAC48+4kIcOI5DMBiEZ8UNl2sFK8vLWHGtYNm1Ar9f/J4VuVyGcmsFKqzlqKisgLWqPPyNy8kT7nqEhQGDjlcdeHD3IWRyGd6/+j527d4VXn91O5stK4nrJCMfSbyQkrLe/igDff348fpPCAQCOHLsCE6cOpFTPK8+lr4iGBFxp9MJ28IilmxLWLTZsGRbgsu1jGSpjmWZ6BT6qZBKJFBr1NAZ9LBUlKHCWo5yqyX6RYX5kG7xudUqYcAXwJ3f7qC3pw+VlZX48OOrccOZi1G6t4OsACQsRczOF5V8d6AttKSkSuoT4xO49u338Pp8uPLBFezdtzdtFSUXQeEFHvYlB3re9mB0eBROhxOCAGg0alTVVsFabUWpyQitTgOJRBJ3XOmuVToYMFhZdmNuZg5zM/NYmJ2HfckBgEGJugRNuxrRsqsZpjITJJLVBJ4s4adK9skSvX3Rjl9+uom5uTns378Pl65cgkKhTNtvpdB3pMnWSUUuyTzb12WzJCW2Knjv7n08e/IMlnILPvzkQ5jMppyrgskEJVZOOI7D9NQMxkfHMTY8CqfTBUEQX0eDQQ+DyYBSUym0ei0UCjmUSgWUKiUUCkV00jiO58Bx4nuIC3Hw+8QKzOqPG44lO+xLjui2S01GWCsrUNdYB2uVNSpfycQ7XZUllXSzDIu+3n7c/vU2uBCHC5fOo/3QwZRNmtupspLrsoWCpKWoIFFJus4GqinZdJ7NRVIEQcDLZy/w263b0Ol1+PR3n6LMUpY0qWeT0GOTuc/nw9DgMPq6+zAzPQOWYVFZU4mqmkpU1VZBp9fGd8xNOHchhZBlYs2EWOGkEPQHMT05jaH+YUyNT4PneRhLjWjc1Yjde3ZBo9WAZeM7zWYrLLGJXuAFPH38FM+ePEeZ2YzPvvw8rqNturvSdCMpsk3ysevGXYcNJGiWYXMWxlTzhuRzKH1i7LgcTnz/3TVMTU6h/VA7zl86HxXRxCpKtvEcu99gSJz9dXhwBBNj4/D7A2BZCSqrraiurUJZhQUGgy4qIhsVbkC89n5/AAtzC5ifncfC7ALmZxcQCoWgUqlQ31yPpuZGVFRWxEnLRqXbveLGrz//irGxcbTsasHVjz6AUqnKqiko2xFBWzUb80bWyTckLVvOzhaVYmzySdWOnyyx8zyPmz//gtevOtDU3IgPPr4KhUIe93zk72RVlFQJ3Waz4dXz1xgZGkEwGIROr8Pu1t1o2tUIVYky6XEK/OqHRqrrsZ4OiPHJMSwTLAuf14fx4QkM9Q9hfnYBDMOgoakBbQf3o9xanlFY0t2ZRv49MTaBH6/9BJZl8fkXn6GmtjZ6HLmW0POR5CNsRFiyZSskZWxkFNe++wGBYABXrr6PPXt3r7sqGBvPHM/BtrCI3u5eDPUPwev1QqlUora+FtX11aiqroRUJkl6TMD6hRtILd2hYAjTEzMYGRzB5Jj4HT9KlRINzQ1oa98Pg9GQF+lmwODl81d4cO8BzCYzPv999tItbqMwcUzCQuQREpU16+QgKuuVlNi/Y5N7bBLlOA7Xv/8BPd29OH7qOE6fPY3IZY9ISmJST7zrTCyJ22w2vHj6EsMDw5BIJWhqaULLnmaYy83x204hJ5mSfKrrFCEx2WT6lliWYcCwLJZdK+h/24++7n4EA0FYKizY174PjU0NkMmka5J9bDk9U6J32p249u0PcDqdeO/993Cg/UB03ztRVtLNvlpISXn+5Bl+u3UbxlIjPv3dpxmberKJ51AohLdvutHztgeLtkVIJBLUNdShZU8LrNUViFzqrZbuYDCImYlZjA6PYnx4AhzHobq2Gm0H21BdWwWJhM1JupNVVybHJ/HjtZ8AAJ9+/qn4PV7YWbKykfXyCQnLprNzRaVYmnyy7ZcS+1woFMJ333yHwYFBnL94DkeOH42/o0yR1JPddfI8j6XFJTx78hzDA8OQyqRobWvF/vZ9kCvlaysvMUk8dYJPfwea+GGYegjj2iGbyZJpZLkQx2Gwdwg9b3qx7FyGVqfFibMn0NBYH032ie3/2ST6oD+I699fx/j4BI4ePYLzly5EhWa9SX6jzUCZrl2u5CIoQP4kRRAE/Pbrb3j+9DmaW5rCVUHFqnykaepJVUUJhULo7e7D8yfPsbK8grJyM5p3t6ChuR4KpWJNTANi7CYKd+Lza69B6muWjXQnigvDsvB6vOjvHkBvVx98Xh+MpUa0HdyPlj0tG5Zul8OFH777AUtLdly4eB6Hjx6J9lvJh6xE9hN7TnHXZBNHtpGwvFOQqMStk6ocvs4mn1w7z/KCOFzym798g7HRMbz3/mUcONSeVFKSJfXEDwiPx4OH9x6hr7sPUpkU+w60Yt+B1ILCC+mqKqvPx55b7F1uKBhCKBSCVCoFwzJiIk3xZl6T6GOqKJHnY5NqbJUFDIOJ0Um8evoKjiUnaupqcPr8aegNumg5PV2iT9oUJAB3f7uHjtcdaG5uwqe/+wxSqTTl8cT+zkZWYs8x9jyj/86Q9DYiLFslKaFQCD9eu46e7l4cPHwQFy5fiKtyZNN0GRtfHMdheHAYTx49g2PJjrJyM46ePIqKqorosaaL6djf65Hu9BWC3KSb4wWMD42hq6Mb9kU7jKZSnD53ElU1VXExHF0vjXTHykowEMSNH3/B8NAw2g604f2r7+dVuhOvQ776Xm1EPLZaWkhYCg6JSnT5TWjyySQpPp8Pf/vz3zA1OYUPPvoArftbc5KU2LvOwf4h3P3tHrxeL/a3t+LAoQNpBWXtY/HlcUHg4Q/44Vh0YMlmx+LCErwecd4Jv9+PgM8Pjos/L1bCQiKRQiaXQqNVQ2fQQafXir8NOqg16qTJMRtpYRkGvCCgt6sPr591gOd4HDh8AIePHoJcIUt6Z5rurjSy/JvXb3Dnt7uoqanG519+vqZzYiHvSGPXT0e6xJ/tF+tlEpTEbeUqKT6fD3//yzcYH5/A+YvncPjYEayn6TJSFZyfnce9O/cxNzMHvVGPIyeOoLZB/NK+NVKTJKZXH1/b7JNUukMh8XVjko+SiSXT65tJusdHJvD84XOsLLtR31SPk2dOQKfPXroTK4QMGDx68BjPnjxDc3MTPvn8U8hksk2L4400Z+ZDOrZSXEhaCsLOFJXNrKbk2i8lVXL3+X34r//vvzA3N4ePP/0IzbtaUkpKqjtPQRDgXnHj7u17GOofQqm5FOcunYXZYo5Zl18jKImJPLJ9j9uNybEpzEzNYslmx4rLFZ1zQqFUQK1TQ64Q50+RKxVQKhWQSCUIBoPgQhxCIXEulVAwiBWXG8uuZQTCc6cAgFKphMVqgaWyDNaqCmi0arCsJKW0xN4RxgqL1+vDi0cvMdQ/DK1Oi/PvnUN1TXXSRJ/YSTGZrPT3DuCXn35BeXk5fv/HL6FSlRQsyUfOLZFCJrxCS4rb7cGf//O/YLPZcPWjq9jTuifrpsvEqqDfH8Czx8/Q8bIDqhIljpw4gubdzQCTpO9KmpiOPUee5+B2u7G0sISlRTuWnSviRG9eH/w+H3xef/S8BEEQ4y38U1KihFqrhkargUYn/taX6qHRakSBYBNjIrl0J1ZZOF7A2463ePOiCwBw4PABHDpycGPS3dGFO7fuFJ10b5aw5HM7Oe+XhCWfkKgAm9/kk5jcQ1wI3/7tWwwNDuHT332CppbmdUnK0MAw7vx6Bz6/H4eOtaPtYBsYlkkpKJHtxwqUgx3eAAAgAElEQVSKw+7A5OgkJsYmYZtbhCDwKFGXwGg2wFBqgK5Uh1KzEQqlIvn1SHNHLwgCgr4gXM5lLDuXYbc5MDc9D6/HC4ZhoNaoUVFVjsaWBpjLTUmlJZ2wzM7M49Gdx1hxreDg0YM4cvwwpFJJnKwAWJPok5XQR4dGcf3ajygrK8NXf/w9VCXbX1ZSvS/yKikrbnz9H1/D4XTg8y8+Q11DfU6SElvVmJyYwu2bt+GwO7Bn324cPXUUMrksbVUwmXQLggD7oh0TYxNYnF/C4sIivB4fAAEMA6jUJVCqlJAr5VCEhVsml0GAAC7EicfM8eA4Hn6fHyuuFbiX3QgGgwDEOYFU6hJYrGWoqLSg3GqBRhee+TiNdCcTFo/Hi+ePXmJ0cBTGUiMuXb0Es9mUUrpTNQUlSrfVasUXX/2uoNKdb1lJ3NdG2QppIWHJCztPVIqxmpIswcc+d+vmLbx49gKXrlxE+6GD0W1k29zD8zyePHyKF09fwFRmwvn3zsFYasxYRYkk8xDHYWxoDN2dPViy2SEIAkrNBlhrrKiqq4TWoI25w0w8t+T9GVKRmNgEQcCyawWLs4uYn7FhbnoeXCgEvVGPpt2NaGyph0IpDplm2RixSEj2kUQfDAbx5P4zDPUNw1pVgYvvX4ROl7yMnlFWhsdw/fvrMJvN+MOfvtoSWYk+t4GEl62gABuXlP/89/+Ea9mF3//hS1RWV+UsKYIgwO/z4/HDJ+jq6IJGp8W5S6dhrarMqSrI8Tzsi3aMjYxhfHgCTrsLDCNAq9fBaDLAaDbCYDLAYNJHr23Sie+SPMYyLARBQMAfwIrLDafdhfmZBSzMLkQrhhqtBnVNtWje3RgnLXEVkDTCMj01i/u/PkAwEMTJcyfRun9vXIfxXCqEwwPD+On6z5si3bkKdy59r7ZrlYVkZcOQqOS7b0qu/VJevniFX2/cxKEjB3Hh8sXoNrKVlIA/gJs//4rhwWHsat2FMxdOgWHYuKTOcaGkghIIBjHYO4juzl64l93Q6jVo3tsEa40VKrUyxSRbCefJJ/9gS0dsZSNCJHGHgiFMjU5juH8EdpsDUpkMtQ012HtgNwxGfUwiTi8swwMjeHT3CaQSKc5fOY+GxvqcZCWSQMdGxnH9u+swmU1xshJb1YmcU6oEH3vOiX8nS9T5EJZM74NCSMrX//E1nC5nWknJ1L/KtrCIn679BKfDida2vThy4ghkclnW0u0PBDDQM4CBnkG4HMsAgLIKM6obqlBVWwWFSh4X1/HnkXkEG5BaMAVBwIrTjfmZBcxNzWF2eh4sw8BabUXj7gZU1VSKHbRTVAnXNGn6/Lj/6wPMTM6goakB5y6fQ0mJMqcKYeRYR4fH8OP3P6K01Iiv/vQV1BpNUVUIt0JY8r2ttPshWdkIO0tUtrqakkuTDy/wGBocwjd/+QaNTQ347IvPgNiOgVncfbqcLvz4/U+wLdhw4uwJ7N2/BwKEjAndH/Cju7M3OkTSZCnFnrZdsNZYISBZf4HwNhNGSqT6YMtEsgQXn3TFv51LToz2j2FieBI8z6OhpQH7D7dCo1GnFRYpK47WcbmWcfeXe1iy2bH/4H6cPHNiTVNQNkl+fHQc1779ARaLBV/96SsolcqUshL5ne3Mn7HXIP4apZaVjZDNh/FGmnu++uPv1y0pQwPD+PXGLUgkLC5fvYSKyoqsBcXn86PvbR963ogxXVZhRm1jNSqTyEk20p14HRKJey3ZZPHMwLPiwdjgOEYHxuHz+qAqUaF5bzP27N8FuVyescLCMiwYAG87e/DyySuo1WpcvnoJ1krruqR7YmwC1/7+A0pLjfjDP/wBJWr1llQI8z0cf7tVWkhacubdFpX1VlMyzZmSTZPP3Nwc/v3/+XeUmkrxx3/8A6SyhLb3hH4piYl9fm4eP/z9OgLBIC59cAHVtdUpk3qID0UT+ujwOJ4/fA73igfWmgrsbdsNU7kp+oGyur4Ql8DjP2gij6/OaxHwB+D3BcBxHFgJA4lEAqlUAolUAqlMtubNuSomCdN9r7lTZBEKBNH3ZgBDPcNgWRa79+/Cvva9kCsUGasrPMfjxeOX6O3qQ11jPa5cvRztoLieZqDy8nJ89affR78fKF+yEtlPMvIhLesVFCC9pHg8Hvznv/3nhiSF53k8f/ICTx89hanMjPc/eQ8lJSVZSYrH60V3Zzd6u/oR8AdQWWtF64HdKLWsjenI/hPFZL3inUm4o48LAuanFjDcN4LZqTkoVUrsP7QPzXuaohWWTNWVhflF3L15D54VD85dPoc9rbvXJSuT45P4/ptrYt75hz8UvDlTfD7/o9tSsV2khWQlJ3aOqBSymrKRDrTJkrw/4Mf/+3//G3xeL/75X/4JJRp12s6ziYl9enIa1/5+HQqFHB98dgV6g2FNUuc4Li6hLy8v4+mD55gYnYTOoMWRU4fSCsraig4Pn9cPx6ITi/OLcCw64VnxiEOTY0bypIqbEk0JNHoNdEYttHoN9EY9NDp1XAVFTLYxH/5xCZiF1+1B98teTIxMQlWiwoGjbWja1RDtdBub7CUSaVyi733bj6f3n6GisgIffnYVSqUi5yQ/PDCM69d+RH19Pb746gtIJJKsm4GA5Ek+2b+zna8jE+mmg8+HpPj9fnz9H19jYWEBX/3x96iqqc5ZUkKhEG7fvIPe7l40727G2UunwbKSuHhO1nTJ8Rz6uwfw6ulrBAJBVNVVis2DJkNW0h17DcTlV69VKBRCIBAEy4rCHZkTKBnphDvy79gYt9vsePuiB7Y5G7R6LQ4caUNdY03SGI4VFikrQSAYwp2f72BmahbHTx9D++H2lP1WMlVWvv/7tZykWzyn1LKS+O9897/aKmkhYSkK3l1RyUc1JdsOtIlNPr/+8itePn+J3//xS9Q31K/KQRaSMj83j7//+TuoSpT46IsPk955xkoKFwqh+00vOp53gOd57DvUipbWZjAsgxAXSikogsAjxIUwN7WAmYlZLC0sYdmxDAECwDDQ6tUo0ZZALpeHR0vIIZVLIZFKxJESHB8zPDkE97Iby44VuJc90eiRK2WwVFlgrS5HmdUMmUyWVFoShcVhc6DzWReWFpZQXV+N4+eOQaVUROUkVVPQ8OAo7t96AJPZhA8/uwqtVpNzku9+041ff7mFvXv34uPPPka6mT/jE3f2/VbE5QuTwDJ1GM1WUoLBIP769V8wNTWNz774DA1NDdHtZ9t06ff58eO1nzA5PonDJw7j0NF2CIK4fY4Ppayi2O0OPLrzGHMz87BYy3DoZDt0Bl1a6Y4cd+S5UIiDy7EM25wNKy43fB4vfB5xaLLP5wcS8h/DMGAlEihLFNDqNdDoNNAaNNDpdVDrSkShSYjdyN+x8RveGuan5/H2RTdcjmWYLWYcP3cMxlKxD5ZUIk1ZXRF4Hg9uP8bo4Cj2H9yPU2dPrktWRgZHcP3aj6ipqcEXX/0OMpl8XbIS+1zi34Xqf7UV0lJIYSFZyQiJSqbH89WBNvLY0NAQ/vL1X3D46GFcvHwhJ0lZWlzCN//1d0ikEnz21adQlajSSorX48HtG/cwOz2LiqpyHD7ZjhKtOi6hh3hujaC4nC6MDU5iYngCXrcXMrkMBrMeepMOBpM4RFkiZePONdUdeuIbnOM4eFd8WHasYHFuCQvTiwgGgpBJpSirMqOy1oqK6nJxdtto4l0rLACDoe4hvH3Vg5KSEpy6eBLl1rJoUpaE5SRRVibHp3D7xl1otVp89LsPYTDoc0ryLMPi6eNnePTgEY4cPYyLly8llZXEBA/kLiviOvlJYtmMaMlWUjiOwzd/+QajI6P48JOr2L13T3Qf2UqKz+fD93/7AfNz8zj/3jm07GkCzwtpJSUQ8KPrdTfevOyCVCpB+7EDqG+phQBklG5xiLIDCzM22OYWsTgvxp0AQZwLSCWHQqWEQikXhyorZOAFcTZcnhO3xXEc/B4/VpxuuFc8EHhxeLNEKoG5woSKmgqUV5ZBqVKmFW5AjAFBACaHJ9H1ogc8x+HQiYNo2du0proiZSVr+q08ffgcfV39aNrVhItXLkSn388ljnve9uDGT7+gpaUZn33xefT5fMqKuHzxCIu47/W/pwolLCQradkZorIVI33WU01ZXlnB//qf/wsqpQL/9C//BFYiyarJJ8SH4HS68M3X34DjOHz61afQG7QIcVxKSVmYW8DtG3fh9Xhx+OTBaEJfLaXHJ/QQF8TEyCSG+8awOL8IADBbTahqsKLMaoZEIlm9q11znvHhkOr6xiUzNjKXOmBfcGB+yob5qQX4fQGUqFVobG1AXVNNtMqSLOFLJFI4Fx14evcF3Cse7D+0D22HWsXKSjixS1jJmhL63OwCfr1+CwqFAp98+QlKSw05JXkGDO7cuouO1x04c/Y0Tp05jdh2fmD9spLs37HkkpzTDRdfr6TwPI9r336Pvt5+XPngPexvb4vuK7apM51we71efP+3a7AtLOLy1Yuob6pLKykcF4JtYRH3bz2Aw+5EbWMN2o+1QaFSrKmicDwX9z7y+/0YH5rE2OAEnHYnIAgo0ZbAWGZAqcUIo9kAlVoVPbasrx8vwLPshdvlhsPmxNzkPPzeABiWQanFCGt1OaoaKqFUKpPGL4Bo5cTv9eHFg9eYn55HVV0Vjp89CrVanbY5kwHw5vVbvHryGtV11fjgo/ehUMpzlpXXL1/jzm930draig8/+XBTZUVcLn1TZi4f4JtZaSFh2VRIVDI9nu1In0zVFEEQ8M1fv8HQ0BD++b//E8osZVlXU1ZWVvDXr7+B1+vFp7//GKUmY1pJGe4fxoPbjyBXyHD68kmUmo3gBSHurjM2oc9OzqLrRTccdifU2hJUNVSisr4CCqUiqZxExCT28XTXNZHk7fjinCpLs3YM94zBueiCUqVA45561O+qg1wuX5PwJawoJKEgh44nnZgcmYLFasHpS6eg0ahT3pVKWQmWFu248f1NyGQyfP7VZ9AbdDnLyi8/30TP2x5cuHgBx04cSysr8ee9tt9K7POp/r1Rkr0+yQQFSC4pgiDgpx9+QtebLpy7eA5Hjh0JL5u9pHg8Hnz31++xtGjHlY/fQ219NXheiApKrKREOoEP9g3h8d2nkCmkOHrmCKzV5XESk6yKsrhgw3DfGCZHpsR5eUp1qG6qRlmlKRrXsce69lpkTnGxzTuCIMBlX8bC9CIWpmxYdq5AJpWiprkaTXsbwl8Xkb5CONw7jK4X3VAqlTh54Tgqq61Jm4JWhYXBQN8QHt1+jIrKCnz02YfrkpVIhbCtbT8++Ohq2ubM2N/r6X8lrrdzpKUQwkKysoaUgSH513/913Qrpn1ys8kgVWuXT+FZiY8n3lGtJu/Y5YS4daO/wzNiRh7r7+/HwwePcP7COTTvas5aUgLBAK79/Qc4HU589LsPYS4zhe8+Y/qhxEhK16suPLr7BKayUly4eg5avQYhngMXbuIJ8Vx0nw67A8/vv0DP6z6wUhatR3aj9egeGM0GsBIWnMCF98OB4yPrCuF/i9LDhbfH8SHwPBf+vh8hKkIIn2f8T6QpLNLJMXzOEDvdVjVUwGQxwr3swfjgJMYHJyCRstAZteFrG0mS4jVmWRbV9dVQa0ow0jeKidEJWKsrIJfLwDAMmPCrxIIRp14HoFaXoLKmEv3dAxgdHkNTSxNkMmnc6x2biJnVB8W/GQaNTY1w2B14+eIlNFoNLOXlYBgGAgRxXUEI70+Ifzxm24Kw+pgQ/i/x37GPrQde4NfEduJjmSQFAG7fuo3Xr17jxKkTOH7qeHjZ2GYeIWUcR/qkfP+3a1haXMIHn15BTV11tJISiedYSeE5Di+fvsaLRy9hrjDh4ofnYSjVR+OZj8ae+DfHc3DY7Xh+7wXevhS/YdtaV4F9x/aiua0JOoM2Lq5XY1jc5+pvLknMrv0Rzw/gwtdOrpSjtNyA2uZqWKrKEAiEMDk8hZG+MXjcHqh1JeGZdSNdYAREYhgATBYzqmqsmJmcQ9/bAUilUpSVm8LPC6sfvtGYYWA2l0Jn1KO7sxsL8wtobG5crVaGSRvHAKprqsEwDF6+eAmvx4uGxob4dYX4+E0Xx6liOD5+I+cTf5xCzE+yeI/k1MhP+veEEPeTzftnPe+1fLw/12wzq/N7p/jfUz2xYysqW1FN4Xke/9f/+J+AIOBf/rf/DkTf3KlFJXKHeefXu+jq6MKVj95DXVNt0hJ5JHG/ePQCXa+7UdNQjePnjoKVMKJcRLcnioHP70f3y24M942AYVm07G9EbUuNOIeKEHssfHR/qyMwOHjdPtjn7XAve+D3BeDz+BDwhYcnhzixj4iUhVQmhUTCQiKTQq0rgdaoga5UixKN2PkQWL2LWjsvinjn6VpaxkDnMOwLDpRVmNB2Yj80WnW4D4q4zOrfLByLTjy8+RhSqRSXProIY6k+rpNtYmVlbnYBN74Xv9fn4y8+CstN8jvSSAUnctwMw0LgBfzw7Q8YGx3Hx599jD179yStrMT+O1NlJfpYFndrictkqmqtafJJIiixy0V+P338BHd+u4v2Q+24fOWSmP5jJCVT/6pgMIhrf7+O6clpvP/JlWglJVlzT4gPIRQI4v7thxgZHEXT7gYcOnkQYFabn2Ljmed5eL0edL/uxWj/OFgJi+b9jahurAQrYeOadRLjGknOI5ZkzT+xd+uJlYTEKqHfE8Bo3zimR2Yg8AJqmqrRengPFApFXJzHxjDH8Xj9sAOTo1PYc2APDh9vj/Zbie17layy0ry7GZfev5hzB1sGDB7df4RnT5/j6NEjuHD5YtaVFfG8k39x40YqLKvrZP7ALkS1pRgqLFRdAbATKiq5NvtsRTWlo6MDXZ1v8P7V92Eym+KSfKoEL0DAQP8gHt17hLZDbdh/cF/cspzARRM7J3DofN6JzpddaN7biKNnDoNl10oKx4XgdDjx8JdHmJ6YRXVTNQ6dPYDScmNUqsRlxQqKeIfJwe/3YX5qAeP9E+h/PYiR7jHYZhbhsotfMiiRSqBUK6A3aWGw6KHWq6AsUUCqkIZHF3GwzzswP2nD1NAMJgensTi7CJ/HB3mJAqx09U4xcvfICxwEQYBSpURlfTmUSjkmh6cxPjgJqUwKXWlsdUW80uJ3rqhQXlWO8aEJDPePoKKyHEqVImVlRafVQGfQ4W3HW7icLtQ31kc8MpzQmdWf8Kse+TcgfmFdU0sTpian0PGqA+XlFhiMxjWVlVR3pJHtJbuLyuZuTUj4LxVJqyo5SkrL7hZ88OH7cRMTRraTGMOxR8cLPH65fhNjI6O4cOU8Gpvr00qK1+PBr9dvYXJ8Gu3HDqDtyP5ViU6QlEAwgKHeYTy58wy2uUXUNFfh8Nl2lJaLr0EoHM9iPPFxcc0LHDguhEAggBXXCpw2J2yzS5ibmMfM6CzmpxZgm13C4rwDS/N2OBZd8Lq9EBgBrIQVxSlcNeR5Lhq7kSqhIABSmRRllSZUN1RCEIDxwUlMDk+hRKeCWlsSjlsWsdUVqUQCa60Vfp8fg91DcLu9qKypWI25FJUVRsKiu7MHwWAwXCVJEccxPwIQrRDW1NbA7w/g5YtXEHgBtXW10YhZbxwnLpOuwpKq8pGp0hKJ3+wrEdlVWdZbYcl3dYUqKzugorIZo32ymTclVTUlGAzi//w//gd0Oi3+4Z/+lPJONNJUEnnO4XTiv/7tz9Dqtfjsq0/AskxcW35kbokQH0JPZw+e3H+Ghl31OHrmMAAhqaRMjU3j+f0XAMOg/dR+mK2m+PlWBPF7fyJ/220OjPWNY37KJjaxSFkYzDrozToYLHooSuTRQEg3Okoc4SDAu+LDisONFYcHK/YVrDjcYBjAaDHAWl+BskozWAkbvUuMH8EjdjrsftYH+4ITZRVmHDi5D1qtNnrnKA0PEZVKpHAve/Dwl0cIBEK4ePU8yq1l0TvQ2A62kdFAXR3dePn4FQ4cPoCTZ06sucvNNNwz6A/ir3/+G5x2J37/xy9RXVOTdWUFWJuAM83bkYl0lZVUghK7XuT3k0dPcPe2KCkff/oRGJZN6K+UeYTP/TsP0PGiA8dOH8WBw21xVbrVyQjFx5ZdLty4dhPLrhWcvHgc1XVVq82LMf1ROC4Eh92J53efw77khKm8FK2H96BEr4LAr1YGxSbJ1f0BQDAUwtLcEmwzi7DNLsHn9okfcuFolkhYyBQy8T3M8dFRP7H9ViRSCbQGtThE2aSHqcIImUwWfo0YpKoQLttX8PZpD1ZcHtQ0VGH/sda46kokhsXlJeh93Yu+NwOorq/G6YsnozPaJqusMACePXyB3q4+nDhzHO2H27OOYwDRyspvN2/jTecbnD13BidPn8oYx3HPpakSJovdjXQcz1elpVAVlnxWV97xysr270xbjM0+sW38Dx88xL079/CP//yPqKyyIpu+Kf6gH3//87dYtC3hq//2JdTakjV3oBHB6O/px4PfHqKythJn3jsV3VaIC0UlJRgM4O3LbvR1DcBg0uPg6TYo1croNqIdGXkBwVAQC9MLGOubgMPmgEQmRUW9BaUVBmj0agiMED2HyPnGXr90IyWA+NK4z+OHbXIRC5OL8Hn8kMmkqKi1oHZ3NZQlqqiwxDbdMGAwMzqLgY4hsCyLw+cOorzSEk3GsbLidfvw8OZjeD0+nLtyBlU11pSywgB4+uA5+t724/SF09h/YF94QrfsOyW63W789eu/weP24LMvPkN9Q31OSV68PuubxTMTyd4n6aooAPDowSPcv3sfu/bsio4IyVVSOl524P7tB9jXvg8nzh6DIMTPZxI7mZvLKUqKx+3BhatnYbKYUkrK2NA4Xj1+DYZhsf/4XliqyiBAiMZ0dL6UcKfzYDCI2fE5LEzbsDhnB8/xYCQMDGYdtKUaKEsUkKvkUJQoIJFJ4qsAAg+GYcUmpmWfODzZ6caKww2P0wOO4yGTSWGuNKGizgJDmSEcX6siu9ohVryGoz3jGOkdh0qpRNuJfaioLk/anCmRSDHUM4Q3z96ioqocZ987I36FQwpZgSDg/q2HGB0aw8X3L2DXnl1ZxzGwKiuRjuLHjh/D+YvnUzYDAZnFO9tmzUwf7JshLoWQlnwJyzssK9u76afYmn3ihUYchvndN9+hvqEex04cjZOUyHZjS9qR554/eYG+7j5c+uACyq3lSZt8OIHH1MQU7ty4B4vVgrNXTkNsMlkd3cMJPHxeLx7deoKxoQnUtdTi4Ok2SOQScUhyuCwe4sSmntnJWXQ8fIOJwUkIEFC3twa7jzTBYNFDopBEm2MiHRcjnRHFYwt3oBWEtD+r11MQO8iatCivL4OuVAuO4zE/YcP00Ax4nofWqI52+ousAwD6Uj0qasqwOLuE0b5xKEuU0Bm14dKzmLAEQYBCIUdVfRXmp+Yx0DOIcqsFJWpVXEdABqtNOVU1Viwt2tHd2YMyixkGoz4uDjJ1SlTIFWhqacLI8Ahev+yAwWiAyWxO2QyUqoSeuK/cOhGuynLsT2Isx8ZpJIajssJxePjgER7ce4Dde3evW1JGhkZw68ZvqG+qx7nLZ8EwDLiEZSLb8Xg8+Om7G/B6vLjw4bmkksLxHEKhIF4/7UTXi24YTAYcv3wEepMuXPFYraJEmniCwSBG+8bx5tFbzE7MIxTiYK4sRc2uSjQdqEdZjQkaowYqrQoyhRSshFltfo2TeFF4ZAopSnQqGMp0sNSYUd1SCb1ZC14QsDC9iJmROcyNi98AXqItAeI+W8IxzIhDmC2VZthmFzHSNw5AgLHMEI4tsSkoEi8mixlqTQkGu4cxPzOPuqaa8IfWajMQEyMaNQ21WJibx9uObpRbLdDrddnFcbRJE2hsaoTf58PLF6/gcjjR0NgQlRMBgrhekqagdM1ByTqOp+o8nrwJJX9NRKnfQ9l1wM2liSdfzUHvcCfblE0/20JUCjXaJ7ZgFFcmj+43eTUlsW/K48dPMDo8gs9/9xlK1CUxSiPET0aFSFMRB6fTiRvXb6KhuQGHjh8KJ0wgOsonLAOu5WXcvPYrVGoVLn50PtppMCIpIZ5DMBjA/RsPsTi/iPYTB9C0rx48eAh8eOhn+I7T7/ej+3kPBt4MQ6aQovFAPZrbG6AxqMFFm6XWygkXruxEEnrsiIjIKCCe58J9TyIjJbhwm7543pFrpyyRo9RqRFm1CQFfANMjs5ifsEGpVkClUUUufPiNCkjlMlTWV8C15MJo3zikMikMZn34VWKisiKXy1BZV4npsWmMDo6hpr4acoUcYJA0ydc21mJidBIDvYNoaGqAUqmIi4yMsqJQYNfuXZiemsLL5y8hk8lgrbTGry8IKZN8qqSWTlxSSUns8okkCkr0b47D3dv38PjhY+xra8UHH32wLkmxL9nx/Tc/wGgy4oNP3w8LQPLRaoFAADd/uAmn3YULH8ZXUvhwfxKO5+D3+fH4tyeYGJ5Ew546tJ/aD6lMklAZ5MDzAvwBP0b7xtD56C1s0zZoTVrsOtyE+tYaGMr1kKsVMZ1zudVKZUwcc+F+J7E/q828QvS9K1fJUFphREW9BSVaFfyeAGZG5zA7NgeJhIFaXxJ93VeFW4BCpURlYwX8Hj9G+ycQ8AVgtprAMGtlxWAyQm/UYqB7CM4lJ2oaqqNVDrHD1WrcSFlRViZGxzHQk3scM+IBoL6hHhKJFK9evMLU5CSampoglUmzEu9kwhIbu8n6raTqz5KpX0syqRASftY8n5X4pxeWXPqwrKe/S8ptvXuyQqKS/PHkd6CJf6WqpgCAz+/D999eQ31DPQ4dORhTjQmHrBBJ2vEdaO/cuisO3/zkfcgV8uiHwqqoiDJy6/qvWF5x4/JHF6BQKaIVlMiQzVAohIe3HmNhdgGHzx6Cta483B9AlJTIXadtzoZXdztgtzlQt0esoKi0yhgRCYU/NLjoY6FQCG6nB44FJ5bm7JifsGF2dAFT/SFTwSwAACAASURBVLOYHJjF3Og8bBNLWJy2wz7rgH3eCZ/HB0bKgpWyqx+MkSYkYfUVkMpYlFqN0Bk1cCw4MDU8A7fDDZ1JA1YqiQoIyzBgWBYVtRa4nW6M9o+DAVBaXopEWZHJZCivKsdI3whmJmdR21gTHnUUviONTfISCSprK9HX3Y+p8Sm07G6BRBI/ymNNh0RBiJMVmUyGXXt2weFw4tWLV/B6vahvqF8d7ZUmycdESMZklPSuMsN7IrFTbWxTj8ftxrXvfsCbzjdoP9SO9z64klRSoseYICkAwAkcAv4Avv/bNYRCQXz8xUdQqhRJhyFHJPjezfuYnpzF6UsnUV5liYnl1T5W7uUV3LtxH0s2O/YdbUXzvkZxmHFCZTDEcZgcmsSre52wTdugN+uw+2gLqporIFNKo81MkQpJbGwLgiDuN1IBTDNMOVG0eYEHwwIlOhUsNWaUVhixbF/G1MgslmaWUKJTQa5SRF6kqHCDYVBeXQae4zHWP4EVlxvlVZaksqIz6iGXyzDQPYRAIIDKGmv0vSAuvdpJXCaVoqq2Cv09Axgfm0TzriZIpZKU8ZNUVgBUV1eh1FSKjled6O/rR319PZQq1RpZSRTvSIykqhSmEoV0wp6Pakuq98xmCgvJSs5sX1HZqk604aXC/4+pkSS09z9/9hxDg0P46OMPodFqkGykT2QLEWmZnp7Bg9sPcPDoQdQ11iIySiGxyefVs9cY6h/GiXPHYKm0gOe5aOdZMWGH8PTec0yPz6Dt2H5U1leskZRQiEN/5wC6n/VCKpdg74ndsNSIczZE5loJccFoEg/xHFbsK5gZnsVI1zimBmewNOuA07aMgDcARsJAoVFAqZVDqpAADAOO4xDwB+FxebE068D82AJsY4tYcbgR9IfAShmwMklUWmKFRamWw1JbBolEgrnxBcyNzUNjUEOhVsa9DgzDwlJVBp/Hh9H+CXAhDqaKUjCMOEV5RFaUSgWMJiMGu4fgdLhQ11iDiMzEJnmGYaFUKGA0GdDd2YOVFTfqGurAMMk7DMY2HUVHUACQSCRobmlCKBTCqxevsDA/j7qGhvBXA6RO8qlK4RtJShE5SRSUaPzyPGanZ/Dnr/+Cubk5XHzvIk6eORmWsLWSkmqET6TacOvn3zA9OY0PPv0ApjJjXGfWxNFqzx8+x0DPIA6dbEd9S120GhgrKSuuZdz9+QG8Hi+OnD8Ma228dEcqgz6vD52PuzDaNw6tQYM9x3ahusUKmUIaM38QF5WTSMWEE1arKlwoBM+yB8v2Zfi94hduBgMB8XuruBDAhm9MIoId8zv2RkYql8BcbYJKrcLijB1TQzPwrnihMarjhDsi1abyUkhlEoz2jcNhc8JSbRaHGK9pBjIhGAhgsHsIcrkcZktpfBNmOCgjcWwqM6G7swdLi3Y0NjdGXHnNSCABQlJZESDAbDajtq4G3W970NnRCWOpAaUm09qYzbK6srqbzZeWbKos6YQlH81B+ZIVEpVtICpbVU3JptknEAzg+2+vobLSimMnj8Wsv1pNiSS72JL5jes3wHEc3vvwstiUw/Ph5ThEqjazs3N4eOsh6prrsO9wa9yooUiVpONpJ0b6R7GrrQUNe+rC5XA+mtTdKx48v/0SMxNzsNaVY8/xXVCpFWIH3JgqiiDwcLu9mOqfxsibMUwPzmLZ4YZKo4Sl3gRrSzkqWspgaTShtMoArUUNrVkNnUUDnUUDg1UHc40R5jojjFY9lBo5wAhYsXuwNOPA/JgNvmUf5EoZpErpGmFhGAa6UjVM1lIszdoxOTQDqUwCjWG1lA5GrHKUVZoR8gcx2j8BnuNhrihFbJ8VBgzUOjXkCgUGuwcR4jhYq8rXJHkhLD+RmWq7O7uhVClRZilLWsoGVuUkUVZYhkVtXS1UJSXoeNWB7q5umEwmGIyGpEk+MdGnkpZc/4uQKCwCL1Y2Ol514Ntvv4NMJsOXf/gSLbtaopISWSedpMQ2+bx8+hKdrzpx7PQxtOxpTugwvtp0yQs8ert68erZa7S0NmP/4X3R7UZijxN4rCyv4N6NB/B6PThx6ThKLYakkjI/PY+X915jxelG4/46NLU3QKaQiO8LITKiLTJUWdx2MBDA4owdc2MLmBmZw2TfDMZ7p0WhnlqCbXIJCxOLmBtdwNzoAmaH5zE/asPy0gr83gAEBpDIJACzKi6rsi2+jiU6JSx1ZWBZBrNj85gdm4M2RrgjUccwDAwmPUrUKowNTGBxdgkV1RZIpPGywjIMyqwWLDuW0d89CIPRAJ1eE9N8GVsRYaDTaaFUKdHd0Q2e41BZXRXXKTNuvSQVwkg8arVa7NrdgrGxcbx6/grLLheqa2vCX8aYWbwzSXcyaUnVpyXTeyNVE1EqacmtWSg/1ZV83IC8Q1UVEpVcRSVTsw8v8Oh43YHe3j58+NEH0Ol1SDXSR4juQ0Bfbz86X3bizPnTMJebk1ZTfAE/frl2ExKpBOffPxtuml5t8uEEHj0dPejr7Efjnjq0HGgW7xyjQ5A5OB3LePbbC/i8frQe24WqlkowLMKjhLjonWUgEMRYzwSGXg3DtbQClU6J8nozavZZUVptgFIrByMDwCA6o2dsJ87IvBWRa8NKWSi1CujKNDDVlsJo1YFhAMesE3NjC1heckOmkEJWIl8jLHKFFOZqE7wrPkwNzSDgDcBYrgfLSqKywjAsTBUmBH0BjA1MQCqTwGDWR5MvIM6zYrKIfWAG3g5Co9XAUKoLLxOulmA1yVdUVcA2b0NvVy+qaqqg0arjIiUbWWEYBuUV5WhoasDY6ChePn+JZZcLlVVVce39yRJ9JL7SJ+LkxEpJopxE9uH1evHTjz/j6eOnqG+ox5d/+BLGUiMi84DEjmSLbi8sE5H3R6ykDA8O4/bNO2ja1YQTZ4+LRx/bvyom/qenZnD3l3uoqK7AiQvHoscckZkQz8Hr8eLuz/fh8Xhw/OIxGMy6NZISCAbR+6oPva/6oVDK0XamFcYKfcKw/9WZmYNcCI55J8Z7pzD8ZgyLU0viN3oDUGgVMFi0MFWH5brSEJVuXZkWmlI1WCkLt1MUbdvEIuZG57G85IZUJoFUJRPzQ/j6RsobLMtAZ9bBZDXCMe/E1OA0wAjQm3Th2FmVFa1BC71Ri/GBCcxP21BZVwE2XFmJVGEkLIvKWisWphcw1DuM8qpylKhLkva7AhiUlZvh9XjxtrMbOoMOJnNp2jhOJStKpRKt+/aCAfD6VQd6e3pRWiqKd2zDdibxziaeM4lL4nsju0pMcmlZX5Uls7BsRnXlHelg+26IynqafWL3karZJ7aasvqsgB+v/wS9Xocz584krCFEqykR1Ykk0RvXf4GyRIUzF08jMpGUuA8uehfa+fINxofHce79s9DoNdHHI6Xs2ek5PL//Eta6crQdb4MAPtqO//+z9x5BkpxZnt/P3UNrHZGRWlRmaV0F3eieRqPRGLGzS2XctaXt2t7GeOAYzWhGMx5oxgMP5IF74mW5S+Msd5Zc1dzp7mmBBhpAASgAVaiqrKqs1FpFisjI0MrdefBwD/eIyKpCN3qmBb6yrIx093D5/H3/7//+732y0qRUKnPnF/doNhpcfOUc/pjfYE9kE91+sHPE7Kfz5PaPCadDjF4eJDoYxul3gKiX0FcMYKKXI9c7mqbc/qx3Fvr90u+ZaBPwR71EBsKIdon8foG99UMK2SLesMcaEhIERFEklo6ACtvLuxSPS8T6Il1gJZ6OUsqXWZtfJxwP4fN7W7sQjBFpoi9Bdj/L0vwKA8P9uFwu9DAStJ2VKAgMDA+wsrjCytKqVmbf8ewy+51gRUXF5/Nx/uJ5FEVh+sFDph9MY7fbDabmJMDSCVxMlvTUfxY7NoETgOPjYz669RE/+uFfs5/Z56VXX+bbb367Vd69O92+UzirL+8Uz/7gP/yISDTMd95+w6j700uXUi6X+dkP3sHldvGtt76BIAoG4NYzfBrNBrd++hGF46IGUuKBtkarBVJqtTpffHifnfUM/WMpzt48jc2pZ7TJJluUaTSbbC/tsnRvhZ2VDLVqnVAyQP/pFAOn+4gMhggmfHgjHlw+LXxpd9mwu+w4vQ6cPgeekItA3EdsKEykP4gn5EayiRQOi+ytH1DYL2Bz2LB7rIBFfxp2h0RiME61XGNreZdGrUE4GbSwg4Ig4PF7CEWDrM1vUMhp0wCYQ5kC2vuQHkqzsbzBxsomo6dGWmnI1lCmbsfpoTS72xnmHs8xMKRNN/F0O1b1FZa/JVFiYGiAkdFhlheXuXf3HnuZDIlk0qJdMWxZM5znZgtP6nC/LOPy7H0/HbR8FYDleQcWvypY0c/vdxis/H4AlU7HffJyE03+HNk+xijVFPY5ODzg1oe3uHHjGql0qktEq4/s2tS5ytrKGg++eMBLr71IOKaNaPWRqKxqWTKlcpn3f/YBfYN9nL10up0V0RqBVmo1bv3kFg6XgxuvXwdBNUafsipTr9e4+/49ysUyF185iyfkQRcT6iClXCozf2+JzbltbC4bo1eHiQ9GUCVd+NsGKPq5GaDEwqb0SI9VrU5GH6ELooAn6CI6EMLutJPbOeZg8xCnR6tp0Tk6C8b82O12tlcy5I+KxPs1sNIelWpgZX/7kO2VHfqGk1pZfPOIVBJJ9idYnV8js73H2KmRVll9q5MXBBGbTSLRl2D24Ry7OxnGJ8e75lIRRdGwBTNYMZicloMWRZHh0WHGT42zv3/Ag3sPmL4/TalUxuvz4vZ4TqbJO4DLl/pp2ezu7i7vvfsL3vnJO+zuZDg1Nclbb3+XqdOT6A7XHOrRn5Nu+yeBlHq9zl/9+x/SqNd5++9axbOdupSm0uTWzz8ie5Dlm2+9hsvrwqxL0TVWX3x8n+2NHa68fIl4OtbFDNbqde7dekA2c8TUlXEGpwZRkLvCl7Iik93PMfvpAofbWVx+F30TCQbP9hFKBrC5JFSUtm0boSfdTtuCWq0KbatTkAQcHjv+mAZcbE6J/EGR/fVD8nsFbA4Ju8eBGbAIgoggQjgVQlVga3mHSqFCpC/UAbgF3D43DoedtYUNBAEiiXAXO2h32Ikmoiw9WSZ3dMzw2CCCKHZVYNYnNOwf6mdlYZXF+SXGJsZwOO0WO+4ObZrAiulvFS0UdOHSBRxOBzOPZvji7j12d3ZxuV0EgkFjHyeB75OYledhW8zn+jzA5XlBy/MClt7n9KuxK1+Dlae2306g8uuqn2IGKs8b9jFvq6gK9+7eY2Njk+++9aY2QgXMYR8zm6I7wvfe+QWKovLqt15BEARLpo/eadz97B572xle+fbLOFx2I9SjO/f7nz5gb3efF751HZfXZdGlNBp1vrj1gKP9HOdePE0wFjA6BFnRfueP8jz6eJZKoUrfZILBc2nsThuy2ta+mAFKm4HRBLOlXIn8fpH8QZFKoUKtVKNebdCsN5BlGaQWg2RmoVTanaEI7oCLYDJI8bDI3uoBclPGp9dSaTk6QRDxhT04XQ62lzNUSlWifS0n3hLHCqJINBFmY2mLo/0c/SNpBJ2Gb21ndzjwB30szizRlBX6Brr1KnoIyOv1EAgGePxghmqlwtDIUM/sHyNWr5uLiVnR1wG4PW7OnjtDXzpFpVLlyeMZ7n9xn5XlFZqyTDAY7AoLPa8DN4d8ZEVmZ3eHR9OPuPXBLT768GPy+TyXrlzme3/8Pc5fOIfH4zbs2syimP9+GkhRFG0+qs31Td78w+8QjUfonB/KrEtZmFng0f3HXLpxiYGRfgsrqLMq848WmHu4wOSFCYZODZpqmWiMX73R4MHHD9nfPWDq6gTJ4aQmEJfbVZgVVaFarbE8vcra4w0ku8jI5SH6xuPYvTZU9POzgm8dWJnZQDM7qKJa/tY7KLffRWQggsNto3BQZG/jkEq+ij/iRZBEwy50XxKMBRBFie2VXYpHJaJ9YUTJClZC0QDVkiYS94f9BII+CzuIquLxeXDY7SzMLGJ3OIjGu8W1uh077Hb6B9PMzcyxsbbJ+LMygU4AK2bg3Zfu4/zF89jsdpYXl5m+P8387DwIAuGIdk09wXcPtvCrBi6d++3FSv4ygOWXZVf+JsDK10DF2p668tfd/ib1KV+myJuKyk9/8jMi0QhXr11pvQr6GtUS9tH1J5lMhtu3bnP15hX60qmWs8QEUmTyhQK33v2I4fFhxk+PmWYs1hzr7s4e928/YPz0KANj/QaY0B37o8+fsLuRYfLKOLH+qMWpK4rM4W6WJ5/NI9lETt0cJRD3tTq6dl0KWWkaAKWcr7C/esje8gGZxX0OVrPkdvIUD0tUjqsUDssUDkocZ4rkdgpkN4/J7eSpl+uAis0pGY7CuNctByzZRcJ9QZoNmYP1QwqHRXxRL1IrFKQ5XhFv0IMoiGyvZEBRCcUD6HyGKAg4XU68Pjdr8xvIsky8L2YBFKgqgVCAerXO4pMlIvEo/oC/Z5xfFETCsTCKrPB4+gluj5tEMmaxHH3bTrBiDQOplm2DoSBTZ6a4cOkCfr+fTGaPxw8f8flnnzM7M8vW1ja5XI5ms4nD6URqZQyZLMr4V6vXyB0fs7+3z+rKKp99+jk//9m7fHH3HuvrGzhdLq5ev8r3/uh7jE+M4nRqo30zsDGzKJq96loVs/7I3EnDk0dPuHP7DlduXmHq3JTFto3tVC2zJneU472f/IJYMs61V64Yx2qDGYW93X0++/AOyf4452+cM4CDzqY05QYPPn5EZmuPycsTpIYTXSBFVmQyG/vMfbZI8ahIajzO8IUBHG4NeBt1gHqB7xYbaLkXJzCDmn9ogxdBoAVYwkh2kcNWir474MLpcWr2burgglE/TpedreVdyoUKsXSkxYjoAEEgno6S3T1iY3GT+EAcl8tpsIO6rUfiEfLZPIuzy6SeoVfxeD3E4lEeP5jhYO+AsVPPmG25A6x0Am9BELDb7QwM9nP52mVCkTD7e/s8fPCQ+/fukz08QhRFfH6/dm3PAC1fBXA5CbQ8jWV5HsDyq7IrzwJb+ja/Ctj4HWVVTgQqv9El9L+K1ORn6VPao0q1axuzozaXzM/sZfjn/+xf8MYbf8Dlq5db25mcuynlUh+Z/ugHf836yjr/4B//fUS7VrNCL/vdVJrIssyt9z5icW6RP/zP3sbtdbXn+ZGb1OpVfvr9nyMrMq+//QqIggYqZJmm0mTh0SLz04sMnx5k+PSANtOy3DR+76zusji9itvnZPzasFHnpLNUf1OWOd495nArR+mojCCAK+DE7rZj99hweLTfkl3UUjkbMkpDQW4qNGsylaMq5WwVVVGR7BK+mIdgyocv4sU8y6sgCMYcKflMie3ZXSTJxtiVIULxEKIgYBNtRsnw1Ycb7G0cMHV5nIGJAWyihCTZjBLk8/cX2Fza4frrVxkYSiOJNkuZfVVR+cUPP6RRb/D23/subo/HKHeuz7SszwekAr/48ftsbWzz9p++zcBg2nLuOssCWEqUA11lyvVt9KZnYuzt7bO2ssZeZo/Mbob8cd7YRrLZsNts2B0OHHY7doedRqNJqVikVqtZ7Nfn9zM8MszQ8BBDQwNa53WC/XeKwa223p3do2+3u5Ph+//m+6TSKb77x28iCHDSZIO1Ro0ff/8nHOfyvP33vtuawqFpSUUulcr8/D++hyDBq999GdEmGDbYVJo0mnUe3p5he22H8QujpMdTrfVte240G8x/scTh9hGeoIvBc/24vA4TQ6LN/dPJCukdWq1Sp1qoUavUEUQBSdJq/4iSgCiJOL0OYxJNc+l447mLbXuoFGpsPNqmWZVJTyTpG0tis7dL4+tTOeytHbDyaJ30SIrT1yaRRAlJlLC17LhRbXD7nTs4HQ5e+97LuFxuY7oIfUZvuSHz7g8+QBQE3vq7b+JyubrsWDR9XphZ4OP3b3Pm/Gle/ear2Gw247z16xAEwbLsabZsvh+CILCzvcPDB49YXlqmVq3hdDkZHx9j6sxpBocGLfMidbaeMyz/kmX4Ozvt5ynn372PzvU9zvmE8vYnleT/ZWZG/zLtd6zc/onIy3bSit+2dpKQ9su2Tn1Kr7Ywt4AgCJyaPNUTpHR+t1gssry4zIXLF7A5bK3tTCM1RaFYKLE4t8TE6Qm8Pg9NudleryrMP16imC/y4rdvIEqSRdR6nD1m4eEyiYE4w6cHLXS8qirsru2x+GCVQNTLyKVBBJvYGpE2DbAkKzKHW0fsrRxSL9exuWzExsIEkl4Em2jtvFqhIEEE0SEgOiRsSLgFJ/6kB0VWKB9VqWRrFPZLHO8UCKT8JE9FsDvsKCaniAiBpBd3YIT16S0W764ydXMcf8SvHU9ugmRj5PwgjVqDhQfL+EI+QrFQ+waLNk5dGiefLTJ9+xHReBiPx0tTBpukna8k2bjx2lXe+9GHfP7RXV574xUUVUEEFFVAVEARFGiNYl974zV++O9+xDt//Q5/9z//U4KhAMZTVdoO3hANozkrRVFAn+en9Q2LNbT+iMWiJBJxY3GlXCGTyXC4n6VardJsNmjUG9Qb2m+fT2RwaACvz4vf58Pn9xMI+AmGgoaTNgNr43A9wInVzq2hns79ZA+z/PD7P8TtdvPN77xuASn69ubJBh998YiDvQNtrhqvq/U+tAG7rCjc/egLarUar373RSS71ZZVVWF+eonttR1Gzg4xMNFnAd2qqhUifHJ7nuPDPP1TKWLDEVCtwMk8saeiKNRKdQoHRUq5CuXjCo1aw3QvusdjoiTijboJJHz4Y15ESdLspWW72nPWtnX7nUzcHGF7NsPW/A7lfIWxS8PYHXbDflEgMRyjUWuyubCNx+dm+PQQotqyIaWJ3WXn0kvnuPv+A6Y/fcS1166AaENRBQRVAUWr1Pzi69f5xV9/yOe37vLqt1/qtmMRFFVEVBROnT1FIV/k4b3HBEMhLl+72GWPoiiimJY+zZYFQTTZvEiqL0WqL4WqqqyvrTM/u8DS0jIzj59owvh4jL50H+l0mlRfinAk3AJGQpetAogdiwRR7NpOFKzLtHmV2s9QD6sb61vXYJy30Ptv3Z4FY73aWt/uP43sxg6AoKpKT7Ci28zT2vNsc+J3FeV3Daz0bL8zQOWXaV+WsQHNqNbXN0gk4nh93qcCGt05ryyvoigqp6YmgPYLYe7852fnURWFqQuTpmNpDr7RbLD4ZJFEOk4sFW3PfKxoMf8n9+aw2SUmLo0azlrXpRxmsiw+WCEQ9TJ+bQQF1QApesdQq9fZfLxDfq+A3Wun71wcT8SFrrvRRqfWTrCzoxMFAVlfL4An6sITdRFVQxxvFjjayFM+KpOciuOPegznraoqiqBgd9sYuzbE4merLN1b5fRLE7g8bmwiCKqCKAqMXR7h8a1ZZj6f4+YbVxEdIoKiIAoKomjj/AtnuP3Tz3l8d5arr1yyOHlRVfCHA5y9NMXje0/YXNticGQQRBBUEVC0zkC7GuwOG99++1v84N/+iJ/+8Gf8yX/yxzhdjmeCFe2567t5ipPXO4JWc7qcjIyOMDI68lT762x6qNFsc53tWQDFurz9nAv5An/1738AwFt/560u8Wxbw6EtOzw4ZPqLhwyNDTE4OmBM82Defmtti52NXc5dPY0/FOhi9DLb+6zOrpEe62N4asAAJ/o+Go0Gc3cWyR3kGbkwQKQ/ZDAxRqjHNFN4tVRjb/mQ3G4eVVWwu2y4Qg7Cfj8OnwO7x67NwtxsosjaLMpyU6GcrVI8KJPfK2lzVcW9hNIB3EGXAbR12xVFjWXrP5vEE3KzM5thUVaYuDaqMQotsCKqAulTSSqFCisza4QTIULRkLFeUBVC8SDj50ZZfLRM30gfA0NpFEVEFDQoIaoKoViIM5emmLk/y/rqIMOjQxY7ltDtTAMr1168SrFQ5PatT/F4PUyentD2pdvjCWBFsw99wcm2TGtfwyPDDI8Mo6oqG+sbbG9us7Ozy5OZJzy49wAAl8tFqi9FX7pP+93Xh9vjbu2jG7w8C7h8GdDyZQCLGXScBFi+Bit/c+03VqPymySkNZ9LU27yzk9/xsTkBKNjoyfqU/SYN6jc/ug2qqJw46Ub6MI8WWnXsJBlmVvvfkQkFmbq/CR6qrJeN2V5fpWN5Q0uvnAel8eFWZuyu5FheWaVsQsjBKN+S62VcqHE449ncbjtTFwfRRUxzU6r6QEqlSqr9zYoZsvEx8OkpqJILskkQGxX+MR0XXoJckP3oPaelFAQVFxBJ56wm3K2wvFWgWZDxh10ILSqf+rORbKJ+CM+DjeyFLNlon0hEPUqnAI2ScQX9LGzvEej3iDaF23NXKv92B12UGFtYcNIWdbj/AICggDReITt9R2213cYP92qIAuYs4BEQcuocLpdRGIRZqZnyOzuMTI2gmTrppzNAtq2vkYwxcx1JYJuXxaLacflOzIbfpkf6FFbpWVzug5FxRrKtBR8az3fSqXCf/y3f0W5UuHtP/0e4WioJ0hRFa1OUL1Z5+c/fBdZVXj9u6+1Chla0+prtTofv/MJbq+LCzfPt2boboWEVJlKRUurd3lcnH3hdOt82mJwWZZZuL/M/tYhg2f6iA1GLCClKcsGoK6Uq+wu7rM1s0u1VCXU76fvTIzQUBBv1IWzVVlZFbSS+Igg2gUkh4jDY8cTcRFM+3AGHKBCYb/E0XaBZrWJM2DXUq11r2ESvmol9O3srx3SrMkEYj4EUbMtFa2zC8VDHGwecrCTJTUc14SohgBcJBj1c7CTZXd9l4Gxfmw2G6qKyY5FovEIu5sZNlY2GJscPTFlGQQEUWBweJC93T0ePXiM0+kkkYp3+ceTbNmwV03h22XLnboQURAJhoIMDA1w5uxprt+8zqmpUySSCRxOJ4fZQxbmFngy84TPP/ucJzNP2MvsU61WsTvsOJxO43yepnPptf4kfYj5/TpJt2L93rP1KycJbf82RLa/I5qV3z4x7W+CkLYdx2+vpF3mfgAAIABJREFU39ne4d69+1y/cZ1YLGoAFd3h6o5cz/apVit88O4HnDpziv6hfgP46E5YUWS21rd48miWyzcuEQj5LSJaWWny6fuf4/a6mLp0ygAZiqJQb9a59+F9bE4bk1cmjH3qTv3JZ/PUqnWmXhhHcohGh6BrW0r5Mst316lXGqTPJfAlPEYYSxsNmzumdglyvZz4SXOkCLRG6EL73tocIr6UFxSV3HaBwl4Jd8iF3SFZwIrdacPldbG/fqjVwEgEDEcvCCJOtx1FVtleyeAPenH73aZy4gKheJDMxh4H24cMTgxoKc16FgMCoiQRCgdZmFlEURT6+lMGOGntBj17QgACoQD+gF8DKzt7jE6MWOYEAqvzsopszYDNBFgM4WJvR/+r/kO//8YxMAAKdLIopoJvLZDSqDf4q//wQ46yWb77x2+SSMUNkIJu66piCfk8+PwBq0urvPytlwhF24XYdAGtrCo8uvOI3e09rr9+VROdqtb6Pw8/nSF/VOD8y2da8/W0vyvLTZYfrbKzukf/qRSJ0ZgljdnQezWbbC9m2Hq0S+W4gj/lJXU2hj/uBaldhdf8jnUCOwOEoWJzSXijbkIDftSW7eZ3i9hcNpxeh8Vt6M/Z7XeBAPtrhwiSgC/k1WysZcOiJOALetlZ3qNWrRNLR42UekEAUZQIxwKszW9Sr9bpG0watqWHTQRRAysLM0tUyxUGRvrpzAIyg25REhmbGCWXzfHw/mMURSU90Krb0gFW2pdkFoWbALYJsDwLtOidr9vjJp6IMzo+yuUrl7h6/QpDI8NEomFkWWZ9dY3ZJ7Pcu3uPxw8fsbe3T71Wx+vzYbPbjDN8HtBykqDWeD97AJaTRbfPBivdIOGXByu/Ctj4Gqj8LbSvAqj0Dst0AxW1x3qr02+PVh9OP2RtbZ033vgDJLtkdOzayFX/jj5qlVlZXmF+boGbL9/E5/fRme2jqgqf375LpVzmxqvXEUTB6DAUVWFzfYul2WXOXz+HP+RrlQrXnPvK7Co7a7ucu3kal9dhYVM2FrbYXdtj+PwgvojHNJGhlqaZ2ztm5YsNBBEGLqVwh5xGFkfTxLooarsirq4DUNHqZJjvcaej1+6bYjhMWhkOnogbd8hFca9EPlPCHXZhd9pazlVzxE6vA0GQOFzPItokfBGf4ZgEQRtx5jLHHGxn6RtJIEk2Y0QqihKBoK9Vl0IgnopqrIpOXQsCXr+XaqXG0uwyiVQMr8/bnp0Wa/aEAERiEcLhEI+nZ9je3GmBFWu6Z6fj0393ApZOJ9/NtPzqP4oOlFs/sklEqmf0tLczZ/+oNBoN/vqvfszO9g7ffusPGBjuN/RUur1qYLudinywf8Ctdz9maHyYc5fPWFKQ9Wyb7EGWOx/fY3hiiKGJQcO2dPC8tbrN0uMVRs8NE09HjHL4OpBYn9tkc2GH5EiM1Km48X5ZdCjVOitfrHOcKeCLe+k7G8Of9CJIQptF1KvX6v/M98KcPWJ5Jtq1e8IuvBE35aMqua0CtUoDd8CB2Er91e0XwBvyUK802V871GYGD3gMoAECLq8LENhZzuDxu/EFfW2QIQi4PC5URWV9fpNQLNiTHXR73KCqLD5Zwh/wE4qErFlAWEG3KImMjI9QKVV49OAxpWKJoZEBOvu3XqNzowN/lj133btu9lBRFSRJIhDwk+5PM3l6kqs3rnJqcoJoLIqsKKyvrfNk5gl379xlY32DarWCx+vF6XR2gRbjvHTgIlgBx/MAls5trH9b2RXrgOOke9bNyOj7/XVlA/0OsCq/n0Clc9lJFWnVjvXmzrfzXD74xQd4PG6u3bhmhjJdQEUP7dz57C6lYpFXvqFVotUFhaAVaCuVStx+/zYTp8dJD6W7wj53ProLwIWbZzGLdiuVKvdu3ScUDzFyZtBw6rIiU8yXmL2zQCgZpP9U0tIhKKrMwUaW9UdbOLwO+i8lcbhtlhGwpVhda+TcbDQpHpY53ipytJLneK1IcbdCca9COVullq/RrMhIThFBEiz3TGdgdDra5hTxRj0U98rkd4v4oh4ku2iAFQTwhT3Uyg0O1rP4Ql4cHofhxCVRxBfSQkByQybaF7GEgLx+D5VSlc3FLfqGkjhdzvZoszWqTaRibK5ss7W+zdipES0lGOhFnYuiSDgaJhwO83h6hq31bYZGhizVa62jT+syvUM0XKCJqVP1UFkHePlVfpQTgIkVyFgBCkC5XOadH/+c9bV1vvHt1xifHLOKvlUzS6L9bjQbvPuj91BUldfffLUr5KMXefv43dsoisKN16+2mLY2UKmUy9z54D7+oI9TJmZQaVW4Pdg5ZPH+MtF0mKFzaRTUVvXb1ozIikqlWGbpzjr1coO+swkiw4EWQGm/M2bG0wzo5M5QGeYQpmDqfEF0iPhTPgQBjrcLGtgOamEkDUy3wUYg5qd0XOZg44hA1IfD7TBG/6IgEIwGOD7Is79+QHIk0bLBdggoEg+xt3XA7uYeQxMDRq0S3cYEQSSWjHKwc8jKwiqDowM4nI6ngm5BFBgaGQQVHj2Y4fAgy8DwgKXOitnv6R36r2TPPcCL8R2TF/V6vSRTSU5NneLq9SuMjY/icrnIZDLMzDzh3p17LC0uUalUcLs9uNxuExTqAFNPYVm+LGD5MuzK84SCep1H5/rfU7Dyuw1UThK0doOX9t+9KtKa0b/+27xdo9ngnZ/+nKkzU4yMDD8VqGhOTuWj9z8ilU4xfmpcqz5rOEFtVLe6tMbK0irXX76Ky+00nIA+5f39zx4ycX6McDzUqqipOfD15U12NzKce+G0kUmkdwrL0ytUihUmb44jiFjYlEqpxsr9ddxBFwOXUoi2dhaPYoR82pU7S3tlsmt5sst5SgdV5LqMw2/HFXYgOLQOXWko1PINykc1irsVVBVsHglRtAIWM7si2QW8EQ+FvRKlbIVAymuwHnrp8EAswPF+nuP9PPHBiCZaNEJATpoNmd21PZKDcewOh9XJx0JsLG1Rq9VJD6W6WBWbzUY4ps2yXK83SA+mu0JAZuocAcKRENFYlJlHsywvrjAwNIjLbY2nQ7ezULstpfeo81fQpjwPMDGPaM0ARVEUtja3+cH3f8j+3gEvv/4yp89NnQhSdF2KrMrMPHjC8sIyL37zxa6Qj9qy842VDRZnlrlw4yzBSNCwfR08zz1Y4Gg/x8VXz2N3SIa9NhUZudnk8Sez2F12Tl0b0XQtpkKJsqJQrVRZvruBLCsMXe7DHXYZYKkXSNHDmMYdUZT2aLzjRw9hmgGLIAh4Qi58UQ/FgwqFvTKBpNfCrCCAJIoEYn5yu3kKh0Ui/SGLDQuiBla2VzKoskokFbYAbkkS8Yf8rM9vINklookInbVVJFEimU6wPL/G/u4Bo6dGNJF360y69CqasZIe6MPtcjHzcIblxRX8gQDBkL8FMDr84Fdgz73A+NPAC4DH62FoeIiLly8ydXqSYChA7uiIx4+0wonzs/MUi0WcTqeRlm8BG9pJWFiWXwawWLfvZld+Wd3K18xKV/vdBirdgOSk5eZRfic8aX+yjhzaa/f39/ni7hdcvXqFWDzWE6hoI0Xtc6VS5uOPbjN1ZpJUX5vZMMCIIjMz/YRiscjVFy4DWGLnq0ur7GzucuHGeexOWws8aBk4M3efYHPYGDk7ZGFgysUyC/eXiQ/FCCcDbQ1Aa/S5/niLaqnG4MU+BLtgovDbpc0VVaVRr3OwkONoI4+qqriiDoKDXvzDbtxRJza/hDNkxxWx4Um48KXduCMOmnWZ4m6F8kEVRBWbWzJeGi2NUrCAFYfHwfF2AaWp4o24WqPNFrsigtPjJLtxhN1hxxv2WuL03oCX3VWNVdHj/Pp6u8OG3FTYXNqibyjVk1XxeN006k2WniyTSMe7QkBtJX075h8KB0n3p5mfXWDm4QyCIBJPxhBM5fVPcvAmS7F87hyh/io/RkixFzAx2SloAKXZbPLZ7c95/+fv43K5eOuP32RkbPipIEVn2orFEu//7H1S/SkuXDtnZLmpLTtWVYVGs8kn736Ky+3k/I2zbVtrvQvlUonpTx+TGkqQHE5YQjRKK4R5sH3I2JVhHB57O7zZCvk06k2W761TL9cZvJTC6XcY9Yf0MKZVDN5mCVFbOitUS5XazmcjQBdgARWb04Y76OR4u0glX8Of8Bh1QAS0Ds5mk3B6nRysZ5FsohHG1G3Y4XTQqDbYXcv0BNxen5tCrsjO6g6DEwOa+LvDju0OOz6/j4WZBQQg0ZfoCbo7bTmejJPqS7G+tsHj6Rky2xkisXCrirHVD+r2fBJo6bpvPez5eZjEk8JGLreLdDrNuQvnOHfhLOFwiHyhwOyTWabvT2slI0SBSDTSmuqifX4WPctTAIsBPtTejIoVPJwcCvoyzMqvC6x8DVT+htpvIlBZXl5hYX6Bl199GY/HY+lydMeqf1tVVTY3NpmbnefKjSt4/V4LmNFf5k8/+pxoLMzQ+DDG6LflTKfvPgJUpi6earMpqkL+OM/c/QWGJgcIRP2GI5YVmbW5TfLZPGOXhxEkwcKmHGVy7CzuExsO4425jRGpDn70InXVYpXM40Mqx3UCA17CEz6cQTtCSzuoO33d8euOR7ILuCMOnH4b9WKTUqZKLVfH7pYQ7e2MAjNYsbslVBny20UcXjsun8NCobs8Dsq5Ksd7LVZFao9IbXYbckMms77f08kHwn42O1gVLYYvGIAkkYyxsaqlzI5NatoTASuTorW2g/f5vYxNjHJ8dMzMwyesLK4QCge1ircd9qPb2tNAy4nO/pf41wVKOmwY2qGho6Mj/vqvfszi3CKTZyb5ztvfxh/0t7N7WjbaC6QoqsInv/iEXPaY17/7Gnan3bBbxbA5haXZZdaW1rn80kU8fm8PNmWeXDbPuRdOI9kEi86qWq5oIcx4kL6xRBfolpsKa9ObFLMl0ueSuEMuI7Rq1lp1isH1c6scVykdVKiXmzRr2v5UpfVWCyZWtfVcOgELqEgObVLD460CqgK+iJ5q2y6K5vK6qBSrZLdyRPtC2By2NqsiCPhDPnZWMjRqTWL9VsAtCAL+oI/1hU1UFRJ9sS52EARC4SClQoml2WVS6QQer8caAjrBlv0BP1NnJ3F73CwvrvDowQz54wKxZAyHw97tD7+ETZ8E+r4MeLFur+3L4XCQSqU4c+4MFy9dIBwJkclkeDj9kOl701QqFSLRCI4OPcvTAMuz2JUvGwr62wYrv6WsytdARV/Sa/+9gEqvjJ+H0w/Z39vjm9963fTytoSxprCPDlTmZ+fZ3Nji5ddeRJIkdCGtnu1QOM5z7/P7TJ49RSQesehTatUqX9y+z+DoAPG+mIVNWZlbI7t/xJlrk60ZabUXvlqrMXd3gXAySLQ/bHHszWaDlXubiDaBvjMJFNqdiYoGtEClcFBmbyaLLCtEJ4O4Y852B2jE9vUrteohdAcjOkVcMQd2l0Q116C0V8XmkbC52jF2cxjIE3JRydXIZ0r4Ex4ku6b90ENALp+Lw/Usgijgj/qfn1Wxt1mV1GASp9tl0OL6vkVJJBgOsTCzACok08kuQWIvB+90Ohk7NUo8EWN9bZNHD2Y4Ojwi0Zd4Lgd/kiMx6wG+NEDp8c506lVkRSafz3Pns7t88PMPqFZrvP6db3Dl+iX0mXs7dRy9QMri7CIPv3jIhasXSA/3tQu6GWEWmXq9wSfvfkowGjAy1kA17LJULDL96Qzp4SSJwZjBpugd1tL0CqXjMhPXRxFtVtAtKwq7CxkOt3IkT2miWdUU4umltVJkmWqhRn67SHYpT2GnTPW4TuWoRumgSmmvQmGnTH6rRC2vFT2UHB21MvTOtvWfKIg4fQ7kusLxVgGH194Sg7fF4aIg4At7Odg4olFtEu4LWWzYZrehyiqZ1T1i/VEcLqcFcLvcTiqlKlvL2/SP9WN32DtYFa2DTKVTbKxusrm61aW7epotC4JAIhnn9LkpVBXmZuaYmX5CLpvDbpfw+b0W32i2T6UDaHR1xGr39s9iX8zgxQJc1DbQ0bex2W0kk0nOXzzP4OAglUqFRw8fce/OPQ4ODojForg9np6AxcyqWNbRDTgMoNUFbL4GK19h+xqo6Et67b8XUOnsWABuf3Ibl9vFxUsXWy+dytMyfr64cw8BuHT1ovFCmuunrCytsb66wdUXLuNwaemaumPdWt9mfXmDc1fP4PQ4jFHiH/xvf8k/+hc/5NpRkcU/eslwyIois7m0w+FulrFLI9gcEv/wLz7kz/75B5xezPBvIl5ymWPSZxPYPTbD2dvrdd6+u8M/en+df/LuOn92Z49/vFPmT0tNBpoK60EHeTuGY7BWMlWNDs08ClFVbSIzm0fCE3VQO25QzmhgxeFpz+QqoBdNA0/IRSFTplZsaPF+UTLK1TtcdmrlOkfbx8T6w0h2CREtPm932DVWZW2f1FBCExPq5c1FkUDYx+bSNsVCmYHRdE9WxR/wUSlXWJpdIT2QxO1xP9doVEUlGApy+twUoigy92Sexw9myGaPsNkkvD4Pup/oNcLsdPJf9Y85u0VRFTI7GT65dZsP3rvF3k6GkfFhvvP2t0kkE22A0rJTi+C2A6Tkske895P3iSai3HztuqZT0jUhtMMpT6bn2N3c5dqrV3C6nZaQj6xqhQrzuQIXXjqHaBMNe5IVmfxRnqXpFVJjCcKpYBebUsyW2ZjZJpj2kxiLmlicdhhTP39ZkclvFjlcyJHfLlEvNXH47QQGvARHvPiSLlxRB66wA2fQjsNjp5prUNjR7NHhtSPa2wyJDlbaWhBwh11UclXyu0X8cS+SQ7KwKja7DUFV2d/IEoz5cbgdHayKl8zaPrVyneRgQvuu0BbmBiMBNha3qFaq3eygKAICNptEOBpmYWaRcqnCwMgAbYnKU2y5xTDYbDbSA31MTI1Tr9VYXV7jyaM5ZmfmKRVLOBy2VnG2E8BKJxDpsMdOLYcZxHQBGLW3WNcMXCzrBQF/wM/k1CRnzp5BsonMzcxy74v7FItFEsk4DkcHw9K6djP4MACJfr8EwXLuXdsJAjrA6qVb+arAyu9JCOhEoPJ7XZn2y7aDw0MmJsafe/v9vX3SA+mT12f2cTgd+EP+LkiV2d7DZpcIxYKopoqRjbpW+tvutJtGvq3vrO8RiPjxBj00mnXTSwkHa4cE4j58UW+LPYHLy0f8+f83S6xYB7Tq7gW7SEBWiOxXObtf5b+8e8j//mKUv7gcpHM+GHPr/FtpVbvEJhCZ8nE0V+JosYDTa8futqOgmKpKikguifBwgMPlY8q5Cr6IhKhq60VBpG8izvzeKvsbWQantHuqqCqCqpAeT5FZ3WNzaZvJSxNGtVpFEXE4HYyfG2Xu/iIHmUPiqTgikjH6liTtGBevXyCztcftDz7nzb/zRkv0CIr+v6KVJteaVvETtGWiJHLp+kUmpsaZ/uIhy4urLM0vY7fbGBgaYGRsiEQqSSDo1yrymu+T+stXpHxakxWZ41yeg7199jL7bK5tcnR0hMPh4Pyls5y9cBaf32ecg/4M9c/Gsg6QUq/VeP+nHyKKEi9/88UWSDFVtW0xGrVanflHC6QGkoRiQZqy3N6mFdbZXt2lf6wPh9veLkTYOt763BY2u0TfeEvb1TFw2Z7PYHPZSE7ELO+BOXNP/1zYLnG0lscZsOPr9+MKO9qlV1vbOhzW5+Lpc1HarVDcqZB5mNXYxbDTsNv2PRIR0SqS9p2NsflFhsz8AUNX0tqzbVWJFVWF2EiE7NYxu8t7+CI+FFVpVU0WkOw2+sZTbM5tUzguEAwF0E9SUVRcHicjp4dZnlnhcCpLLBGz2LEoaiX0o4kIUxemmJuewx/0c+Hqea2YHSfbMoCoKMYyr9/Ly998iRdfe4GN1U2WFpZ5PP2Y6XsPsdvtRGMRorEo8WSMWDxKKBJqaWfM1Vyt1V4BFLl7GVjL0cuqbNW06duaPuv5DYrpu+bpKnwBH6+89gqXr17ms9uf83D6IY8fPubSlYvcuHkDn99Pew/t6rf69et+Sa/tJAjW6rbm8zJ/NlemVVTVED0/bxXbp/mCX9ZP/K5Urf29ByqdDvCkJssy5VIZX8D3XNs3m01KxTLBULB1nHZHrn8uHBcIBP2tF0E2nLSiaDqUQCigTURm6gh0oGKzm9IJVW2q+0qhQv9Un+VYAHJDptmQCfb5DR3Btdk9/vv/9zF2RWUz7OR/GfDxXsyF/3IEVZE5v1XiH3+2z0vrZf78owMClSb/9GbIOF7nNZmb9oIrhkMRJZHguIeDRwVy60Wip4KtUJjmNJG07X0JN0erx+R2CnjDHs2RK0KrxL4Db9hNdvuI9KkUotB28nanjVAiRGZ9j/Hzo0YpbkFVUFSBgfF+VmfXWXy8RCwZRVFERAmjA1FaJfOvvXyFj37+CR/9/GO+8eZr2gRufDkH/9LrL/LCqzfZ2dplY3WDtZUNlhdX0LI4JIKhIOFIiHAkRCAYwOV24XI5cbldOF1O7HY7omit0dKrqapW86RcqlAulSiXK5SKRcqlMtmDLPt7B8YEhjabjXgyzmuXX2N0YgSHoz15n9phl2aAoi0z6U5kmU8++JTc0THf+t43jLl8jPCK6fPK/ArNRpNT58etwtzW5+21XRRZoX+sz7B7HSjVqzWymRyJ4ag2F1DHvFfFXJnScZnUZAxREmkaUzyoBtjRz718XCW7mscVcRI5pXVQZmB1oh2L4E27cMUc5BaKHMzmCI368ac8Rqn5tj2ISAKIdpHwYICDlWOq+RruoGjp0CTRRjgd5GDtiEatgc0tGecpqArJ4Thb89vsrGbwX/IbgJtWxzk8Ncjm0hZzDxaIvhFBUUQQFWMeIK3jUzhzaZJKucLDu48QBDh/5WSw0u4AreBbvwfD40MMjw/RqDXY2thib3efw4MsC3MLPH44A2jZTb6An2AoQDAUJBQOGp99fp8pnHJCCfseAEbvXHsCl6eBFlU2pvNwe9y8/gff4Oq1K3x2+zPufXGfhw8ecfOlm9y4eQNa1XwNUKIoRon+TrCinb9gdPxfBVjp1b4GK73b7z1Q0VsnI9DZSsUSoOX6P6spikKxUAQwRq29WiFfJJqM9FyXzxVI9ida+2vTn4265rRFqe3kAArZAqqq4o+YRsmtdc2GjCBp4RVFVYjkyvz592exKypP0j7+6zeHWJzPEh1oCX4FgXt9Lu7+ST//3fsZ/ouHef7JFznuJu18OOTuCbr0Zp57wzy5megU8aacFLer+JIe3KH23CKCqiAKktY5xNwU9ks0G00Eh9hmVVSFYMrP1pMMpVyJQMSvgQRBRFAVYgMRsrtHZPeOSKZb5cFVjVWxSSLDk4MsPFwid3hMOBZGUQXNZZtYlWR/gssvXOL+7Qfc+eguN169DtLTRqPaVXY6eFES6R9KMzg8wEvfeJHDgyzZgyOOc8fksjkymT2WFpZ7PneppZsRRS29WxBFJLE1r4yiTbcgN2WDoej6fqvy7sj4CPFEnHgiRjAStI5aW8X6Op+fHuYx25VZozL7eJ7VxVUuXrtIIp2wghTVlB0kKyzMLBFJhAlGA5hnMdaOL7O5vE0g4sfjdxtARG8H21lURSHWH20xOorxW1EVDjeyiJJAIOF7KpvSqDXYn80iOUTCY633Qulmjczf7bqfDpHwaR+5hRK5lQJ2j4Qr4DRsV6LdQSmAP+Ulu57nYO2IgQtOA2yLLTAe6guwt3rI4VaW9HhKs51WpWOH004kFWZ3LcPYuRFEextwi0hINpHRM8PM3V9gf/eARF/CYFXQBwdoMydfe/kKANN3HgEngxVo262itsCCLLc7WFG/DxIjEyOMTIwAWtCocFzg4OCQo4Mj8scFjnPHbG/u0Gy2n6fNZiMQDFhATCwRIxwJGUUThR4dviIrPYGLft+fBlo65yXyB/18563vcOOFG3z04cfc+uAWC3MLvPnWd0imUq0v9WZXjON3sCtfBVjpxao8q/26GNjf9PY1UOloJ7EEpZIGVHy+pzMqBnAoFFBRjUwQwBhZAjQbDcqlMsP+oa591Gt1atUavoC3y4HWa1qYRjBR7gC5gzyiJOILeozQjnGsehN/1IsoiciKzH96aw1/tUnFLvI//Z0JttePkewS7mhLOGva7//6aozL21WmDuv8N5/meH/QablP5tGGebkxIqHtiDwpJ9XDOkereRwXIpqjElrhBUEblXoTHgqZMoX9EpF+U4lyIJgMsDO3x9FOjkDEb1kXSYaw2SX2NvaJ98W00ajUdiIDE/2szK6x8HiRG9+41pNVAYXx02NUKzVmH8zi8bmfOhpttza7AmbHrzmVSCxMJBa2OJhmo0mxWKRaqVGvN6hWqtSqVWrVuqYtUVrVX5X287DZbUiShE2SkGwSNpsNl9uNx+vB43Xj8XhwOB2m+HjvjrgX0OwFUPTfqqKQ2d3jzid36Rvs4+zl0yYtSzeLsbm6SaVU4fz1M8Y+zPs7PsxRPC4ydXXCch46K5JZ38ftd+MOuIxUYx18NBsyud08waQf0SaaKiRbz0NWFPbncyhNhcT5sKGB6bpu1XrdYJ18TlU1OwpNeDl4mCe3UiR+zoatJfhWDUZNs19ECKR8HG8XaNaaCC7REsJ0+Zx4Ai4ONrMkRxMWZlBRFBJDcQ53jrR5gAYTljCmKEH/eJq1+Q1m789p7KBgZVV00C0KogZWVJXpO48QEDh35VyXLWt2290xd9o0gIxipF8D+II+fEEfI+PDxjIBgXK5Qj53zHEuz3EuTz53zFH2iLWVNcMHSpJIKBw2wkh9Ayli8Siqnt4tdAABE3DpBC3WM+4NWBS06TD+8E/eZmFugfff+4D/+y/+FTdfuMmLL7+osafPya78usHKrwOM/LazKl8DledsxaLGkDwPowJaWAfAfwKjUi6VURTFAmT0lte/G7R+V1VVmvVG1/YAhaMi3qAHRAE6BtsnannDAAAgAElEQVSqouKPafuyNRW+dX8XgPfOx9m0iVSOqgSHfEYGkbnJosD/eSXE//zOHpPZBpd3a9xPObuO3yka63zZlBZw8A+6yS2VKWWqBNLejn0ouAIO7G4b+d0i4XTQEv6RJBv+qI/DnRwDp/stTh5RJNofZW/jgIlLNdwul2U0arPbGJ4cYunxMvlcgWA4aGFVND2iNjo9e/k05VKZ6TuP8Hg8jE2NPXM0ql1z94jU7NzNIE60iQRCAQKhno/T2O55mhV4yHQJnnpsB21woq3rBij6NqVSiQ/euYXb7eKl11/oArNtZkUTWM8/WsAb8JLoj1vYQLWV9ry1soNkk0gOJixhH4ByoULxqMjgmd7aruxmDllWCA8ELce3XJeqkFsvUD2uERn3Y/NIBiNlBk0nNXPHojfRJhIc8XK0UKS4UyE46DOJUtvHRRDxpzzktgoc7xSIjUat+1ZUIukQW7MZKvkK9rD1/deEtnZ2VndJDSZM56SFMSXJxsT5cR599pjdzQzpoXRPVoWWlubaK1cBeHDnIUAPsAKgQAsI6Pba7qBb16/bYodtm5tu5063g7g7Trwv3uUD8scFcodHLZYxy+bGJvOzCwA4HHZS6RTpgTTp/j5iid7ApRO06OGhTpbFAlhaISEFGJ8cZ3BokA9+8SG3P7nNwvwC3/3em6T7+9v3Aw3APS9Y0e/R3wRY+X1kVb4GKs/Zil8i9ANQKBQRBAGvr/f2hXwL+Pi71xdyGlDp1MNUy1Vkfd4VU2ckN2WKuRLJ4diJ5+OPaceZ2DrG3dCQzMeTUfK7JURJwJ/yAr1TXN8ddiELIKlwY6c3UHlaM7+IzrAdV9BOfrOEL+lBEKwvnSAIBJI+DteOaVSbSB6riYb6AuT3tykelQjHg5Z1qeEEe2v77G8eMDQxYCxXFBVRUBg6NcDqnKZVufbqVW25zqogtjpr7Xyuv3KNWrnGp7fu4HA6tAwKk4NXWo5PVLpHmloz/W1y7mB18N3fa7dndajP01Sl9z6UHuyCJRTS+t7B/gHv/+wWtWqVP/jDb2ki7o6Qj3mfB5l9ctljLr5wDkEQDHZPBwiyLLO9tkO8P4bNbqMpW8NQ+5v7qEAkHe557tntHJ6gG6fXYbFVM2NUzdfJbRTwJdx44+4T7+PTwr36/dEmC9Ts1x1xUonUyG+V8SXdCE7tmUpYn6HDY8cTcnFkAiqKomhgWxAJ9QXZWdjncDuHL+S1hDBtko3kUILN+W0qpSpen3b+kqnz6xtOsvJkldkH8yT7WxlCJlZFFNuAWhJt3HjtOqCBlUKhyMVrF7SQtN4BmwEL7fBHJ8huMwfta7V0mKZw5ElgJhDyEwj5GRofMr5fLpXZ3c6ws7XD7naG9dV1QMDtdjEwPMDwyBD9Q/243S7k1rM4CbRYWJanABaHy8Ebb32bydOnePdn7/Gv/9X/w2vfeI3rN69rehcd+JgGJE8DK+Z79JsKVn6bWZWvgcpztmazlW3jsD9jS337JjabRtV3jvgAGg1tfw6Ho8c6zXk7nNZ1uj4FYGB+gz//s38KaGzGf1trINk0fQOqlu7mrmjHEEQBm0PrFAb2S8Y+lpMeGstH2D12JLuILHePTBVVpWIX2fLbGMo3GTtqdoV92ts/3+ygrpiD2nGZZrWJ5NOuUXvxtJi1M+SANagV67g8Lsv3/VENvJWOy11AxRfy4va5ONjJMjDebxEjAtgcNgbG0mwsbnLmShmfz2d0AkbmhOHgRV781k0+/OlH3Hr3Yy5eO8/U+SlN7No6Xid9DnSNSPXWNTLV2wlak19X6+y0e4ETgxmZWeDuJ/dwuOx86+1vEo1HukCKlU1RmH+0iM1uY2B0oKeINneQo9mQife3s3XM51DMlfAE3DhcDiMTyNCnyArVYo34aLjntejLKrkqAOHhbray9z15/lIIvpSbajZPvdjE5myHfzCFGUVEPBE3h8tHyA0Z0SEiCW2BtM0u4Q64KGaLPY8RH4yxMbfF3tY+o1Nah67rrUQJEODUhXHufzzNzvouA6MD7QwgMMCKzhAKLWbF5XGzOLPI+tI6p85OcvbS6dbEhlbAooNwwGBaoDfA7qVR05Z3X5fONrb/FpBRcLocDI8NMjKhhZBKxRKZ7T021zdZX1lnYXYBURRJpVOMjA4zPjmO1+fpAi366ZlZltYD6gIsun5laGSIf/Bf/X1+9pN3eP8X77O9vc2bb30Ht9vTFQoys6cngRW9PQ+Q+NsIA/22gpWvgcpzNnN62vM0WZYRRatuw9z0Cpj6Np3HUtXuY5lHmJKs4DsuWb9Y630uZvDgr7RDRwW3HaWpaPF75eQODODIJTKUh1Dt6aP8Z4WAACSnhIqKXFPAp20j0XZ8DrdmlnXTuepaEsmmVQItH5dbI572aFRUFULxIPsbByiygiRKRvhHUQUkQWTo1ABrCxuszK1y7upZUERNAwBdDt5mt/Ham6/w+Yd3uf/ZNCvzq1x96Sr9Q1pYwkyfm527GbSAlTU5ybH/OtuJjMIJz7xWr/PZh5+zsrhKeiDFC6/fxOF0PBWkKKrK0cER2+s7nL50ClESukS0iqqQzRyhAqGYFWTqIaDicYlAtDfAqJSqqKqKw9MG8L1YkXpRy6gRbeKJ1/68zTIKVhVsHg1wNCrNju3aQBvA3sroqZVqlsGN2rJFT9BNdiOn+RVRt2+t03N5nPiCHg53sgxPDhp6K8Vkx4mBOP6Qn7mHC/QNpQxWRYfOFoYQTdN24do5Jk6PMXN/lrlHsyzNLnLm4hkmz5/C6XRahKmyaha5auDCEg4zDWrMNtzJoEBvUGMOKxn7aIEYj8fN6MQwY5OjKIrCQeaAzbUtNtc2+fjDT/j0488YGR/h7PmzpNJJTZdD29foLEsnw2LRsJj0K3anne/98Vvcv/uAj299zF/+y0P+6E/+kEQyqX+jS7ein/PzaFZOYlV+1fb7FAL6nQUqXwVtbm6dotFnbq+oT1V068CnF/WvmkCRuYaKmfFYOzPM//U//ANkRaaQL3D7J3cYuzBMZCCELDdpKk3+4V98yCufr1quwSIoVBSUpoLN+ex02M6rdjUVwmWZbX+3CZ3ErGg6FQmbU7vmZu2EzBW7luFQK9VbDtx6j9x+F5VCted3w8kgu6t7ZPePSPTFMNeiEAUFj89Dsj/B+sIGk+cncDpd6KLfXg7eZrfxyhsvsb2+w4PPpvnFj99ncHSQyzcvaXVRzI6p14gUDKfey6n0cux/E62bWdHs4nD/kI/e+4TCcYEL185x7vJZ2oX9OBGkqKrCzP1Z7E47I1PaXEGdIlqAg8whgbAfe4vhM7MZjVqDeqWO2+/sqSWplTUhud3d223p71St1MDhezrzab6e49USNo+EO+Y4cSCidzaiJGJzijTK3barqKomqAUcbu349XIDwvr6tq14Am4OlCzlQhVbyNYVPgqnwmzNb1Ov1nF72uEf3Y5F0cb4uTHuf/SA7bVdBscGNNAtte+FmSEE7U1we93ceO0apy9M8vDuY6bvPuTJ9BPifQmSfQmS6QSRWKRVvdXaEcomYGGtmdJ9L04CNdo6sYudseo8rMAlnowRT8a4+uIVjo/yzD2eY2lumaX5JcKRMGfOn2HyzClcLqfBsmgn1jpeC7Do91/Tpekn066Dc+X6ZVKpJD/+0U/4y3/5r3njzW9z7sJ5S0j4qwYrX4eAnq/9zgIVc5rsV9G+LKOiqG1j6HUuWjlooef+FEXRymKLAlZWuv1HL7wkStaF5uqK+u+iaTQarMna6EOya4BJVoxtNSq4rZgPVbXzP3ZqtSG+u1zmf7yV4/+46OOfXfRSMVXutJyT6SUyZke2CQiigHwCUAGwu+00q82e69x+F/uHWa3+Qsft80f8CAIc7eVaQKUtcgTtuYxODZPZzLC+tMn4mbGnOnjdqaUGkiTTb7Aws8iTB7Nsb2wzcXqc/qE0ib6ElsHUMSLV7sfTHXr7Pv16K0g+LbxRrVRYW15neW6Fg/1D3B4X3/zeN0ik4gZIsaQrd4AUgOz+ETsbu5y5PIndYe8S0QI06nWOs3kGJ/otxzcLaQE8AU/P86yVNKBiZlTMTRRFGpUGzZqMN+V+6v0QBJFmrcnu3SP2vsghSAJ9L0aInQ/8/+y9aZAk53nf+cuj7vuu6uq7e3ruwQCDGyAIigdIQpLJlWVbsmTKlkMRDsfaXu8Hf3PIu+GN2LAjdu3ddche25LWOihR1sET4AGKAAkMZoAB5p7p6en7rKO7q+u+MvdDHpVZVd0YgKQOku9ETVflUZn15vO+7//5PxeCNPgsrM9R9sq0a4OyaX2GDrdWPNDKClqbJ6iZNGulGsFwv9O8QiwdYX1+k+L2HtkpFyAOyHEyGycYCXD73TskR+J4PF4b6Lb6q5hmDDR59gV9PP3RJynmiqwsrJLbyrO5ugloJudUJkkgHMTn8+ILePH6vPiDfhwOHQAeMbeKgmgDNf39aB0HoiDYgLwBYBTb3NkDLsGQn8eevsAjTzzM8v0V7ty8y+uvvs6Vy1d46MJDnD57CqdTL14piAMmIcUC2qDHrhimoMxohr/zS3+br335Jb721ZfY39/n6WefMdPJfRCwYn2uP6yw5R/19iMLVH7QzWAitKRCh0/6hme5kZ/Dtk8UMCKHzSRHh5h+REHU/Fs6Xct2+3W1ZHBaKKtZu0YQ+oN+bHTIeqLnvDu1U+XNjorsOBxQAfi6kC1rE/NiRJuovjTn48Al8i8ulvi5+Rr/9vEgX5npLQ52B9k+048o4XBJdJqDTIPx3umRaZZbQ7UFT8CNqqrUKw2ckd6ipSgKkiwTigXZ3dkzt1nDlCVBJBQPEktFmb92j+xkFq+usQ6b4HvUuYggCpw4d5yx6TFuvHWD+Vv3uHtjHodDJj2aIT2SIpaMEggGzHos1gn9KM3nsIn9h9G6Ha3eT2mvxPryBmvLG3S7XcLREI88eZ6J2XGcTscAQAFsIMVoqqpw853bON1OJubGTTbFeh7AXn4fVVGJpiJD5ax6UAPAGxgOMpq1Fg6XjMPihGskOTNaSzfJuHzDwYx2vyq7tw/YuFhEdolM/3Sadq3L1sVdijcPGHkmRniyN04M+TWen8MjUy3VNQAmaYxA/7MVRAGHR9YYFb1Zj3F5nUiyRLVUt51n+Lj4Ql7cHhf5zQLZqfTAMZKgpd4/89gpLn7zMtcv3eTChx5BS/xzmCxrG6yLdCQeIZbUHH5r1RqF7SK5rTz57TxrKxsDc50syzhdTu3ldOB0OXG4HLhcLpwuFw6njNPpxOF04PZoiQzdHreZM2XAnG0F8oIlRNwAucbCbgEuoj4WZ+ammD0xQ247z7uXr/Lmd9/kxrs3eOTxRzh+cg5ZxmYS0vriEHbFYgryeD38Dz//WV75xiu88fpFqtUaH3/h4x8YrBzmXGt7pu/Bcvy4syo/ASp97bDFWrCi3wfQfkVx0DnVtl/WE7YNOUYQRC0EtKvTzaJCV9Hrfgz5LtPvrdszJ9nMJbpGIooii6MR6k4JT6vLM/N7/GHQSbfdC00UBRFVVM25XwE+slxG0ueQt0bcOtui8J1JL98ddfHLN6r8+ndL/OKtKv/7UxFuJLVFop9N0QoG6tuE3n0NHCuIiA4RpaP/nr7+NjTqVr1Hq1tbOBFi5fY6zWYLt1vTXLUFoGfiOnXhJK+/fJEbl28MneBF+kI99fMUBTxeN088/ziPtDvkt/JsrW2xtbbN2tKa+f2SLOH1evF4PXi8bhwuJ5KkgU9RkpAkUa9zpNVyMR6sUcjO/GywYWgslLFvuCRozUgK1+126XQ6dDtdmo0m5YMK1XKVWrVuAm+Xy8nU3CRTxyaIxnudOQygQH+afY012dnYYWdjh1OPnDDZFOu5xvvS7gEqEIqFsNZwMfY3a01EScThkukOGYPdTtcsWNnfBEHUGC2jX1R9HJhyrE3M5Y0aK9/Zpllqk3k8RuJMCETtfiMzfnbe3mP5a9sExrxkn4lp6faxy6n2DAS9cGCfMiKI5v1IDgmlMxyBapXBXbTqrUP3R1Ih8hu7KIqqRccZOVIsjrOhaIi5c7PcvXqP0M37HDszC4o4FKxob+2mINDmDUEQcXvcjE5lGZ3KagutotCoN6hWatQqNWrVGo16k3azRavVpt1sc1Aq02q2aDVbdA9xDBcEAafbhdvjwu/3EQwFCEaCBEMBQpGwGTRgYxUMgKKDF1HtzVE20KKqJJIxPv7iT7G1sc2VS+/y2iuvce3KNR576lGmZqZMHxZgqP+KaOkDqynoIx//CB6vl7cuvYXS7fLxT35cL4HxgwErR/mr/EXlV/nr0n4CVPQm6HbEw5rbrWl5jXoDr/doWlkURTweD416Y2i4L6AX94J6rY4vYKe6vT6PxhjUG7g8TvP+vP7B64qCVkZeEAWataYu3F3jRwHa4FS6CgjQkUW+/VCGT19e5yM3csz81AT395raANPNP9YmKSqfu7IPwELEwdWMJUpAVejKEr91PsiX53z8k8slfu/PcnzxmJd//3iEgg8daPUNuK5Kt6Hgi+tVki25EozWbSlIzh6w6A9hBnvUkZUW94U0bbhaquHW86lYwzsVwB/0MXt2hvmr98isbDE21QtnBqupb/jkriha0qqR8Qwj4xlUVaVSrlIqlqjX6tSqdRq1OvVag0K+SKfdodvV0tAfNqF/P+0o3ylRFHE4HQSCfhLpOP6gn0DQjzfgIxwNm8xfPzix9kN/2QQDpHQ6Ha69dQOPz83k8R6bMizBXOWggsfn1hxtj2AlNSZqcLvT7aBcqPbYzSFKhSvoQnJIVPI1E2QANMttVl7bpjhfInEmzLGfHUVyG09TC0GWnCIjT8WInQqy8XqRO59fI3EuTPqxKE63aC5E9d0m7qDDZOp6920H3Z1WF1fYdSi7KEiDeYusLRAJsL2cp3pQJRgJ2v1UDFOlqjB5fIKD/Qp3rs4TCAUYGc+Y+6xgBTR5Nhxlbb5U/f4o+jzgcjtxe9zEEsMzaFtbt9Ol3WrTbrfNpJWNepN6rU6j1qDZbFEuV9ja2DbHgICAx+shloySyiRJZhKEoxEUQdf4DYCiDoIWawkAURDJZNN8+jMvsLqyztXLV/nm177F1MwUzz7/DB6vB1W0+68Mc7a1moIEQeSpZ59EliQuvvEmwKFgxezvBwQrRvtBmYB+1EHMjz1Q0Wy37827ezyaZl5v1N8TqIAGRAyw4Xa79MHWQ97m99U1p1BjQVdVBV/Ah4BAvVo3gYrxndbKp0aTJBmvz2M6mGqah701Ki2cuuPrnzw3zXPXt/E3Ovzbd3b4hakQ7Uob2a8DB6MiqwL//Ls7HC9qWt+/fypq3qtqGXwABa/Ev/xwlD88HeRfvL7Hl/9gk//0SJjfORekK/bs96Ig0q51UFWGOjyaOQnaXWSn3cnXGLTDgIq1+YJeVLQIEmuJgv4JfurEBLn1HDcu3ySWimnP1cqqCP1hy3CYNgrg83vx+b223zGsqarGlhmTtapt1P1BzC29z6qlWq3af+xgk2QRSZKRZS2D7XtRvMOASe9eBwGKsV1RFFbur1LaPeDCh87rofj9qfd7x1fLdbx+Oyi3A40+02YfEHF7XVq/tbuIDtHsP1EUUbpdXVNWCCS9lDYrdFtdVFVl7fIOG5dz+DNezv3dGdxR54BpyroguMMuZj49Qnm9xtqreXbvlsk+GSd5OkK3qdJpdM1khYbZp18zVlWVbqt7pKO6IAiHunoolnIYB3tlgpGg2Y9G7R9RuwEEQeDs46eoV2pcef1dPD4PkVhYMzVbwQrYAAsMRvcM1fAf1NdP1HxzHG55qPnOdDBVFGqVGgf7ZcoHVUp7JQo7RdaW1wFwuVwk0gmyYxlGp0ZNVtSoim6Aln6WxQAsE5NjjE+OcfPqLd659C5bG5s8/eFnmJ2bQRQVW1/0hzIPAyuPPfUYABffeBNVVXnh05/UO9AeumwFI4cGFLxP59rDzv9BtL9O5p8fe6DyoM0YLI368GiT/maAmYYOVPqbwag0601dwHvQwuvTJvNGrYEoREzQIYoistx7ZKIgaim06eIJeKiWq7Z91mFSK9VxB0MogkIx5ObffeYk/+IPb3AmV+OL5Rb/QYTrT6apiSKCqnJqs8rn3szx9Ir2nb/1cJhXJ31mJlcrWLG2Wwknn/vZJJ9arPPP39jj526X+T+fifPnU14EHSU0Sm0EUcAd6Gmb1glSEEQ6rS7eoGcotS6Ieo8cslA73Q4cTpnqQVVfaEXbBG+wKwICZ544zesvv8n1S9d59LkLDNj4YQh1zpHaKHCk2U+/OJL8w58krMUh3+u4/mY33ai24xRFodVqcfvdu0TiITLj6aFsivE9qqpSK9dIT6bM8wea0O883muiIJqRNO1GB5ejZ5Lpqpo5tquH9IfSAfbWD9h4O8/WtQKCAHOfGic806v3M6jZDt5PaMxP8Bd85G/us/5Ggfz1EvFTYS2RY8w9dMEwJn61o6Iqqplrxbog9MxDggnkhjWPz43slDnYLaNOaXLc30yzgyhy4UMP872vX+Tyd97i2U8+g9frsYEVGAQsxodeEcBDb+f7blYfFLffg9vvIW0Z9/VKncJOkfxOkfy2VvH78utvkx0fYWJ2guzYiJbqXmdaVEHUAIsl8aIVsJx56BRjE6N895Xv8crLr7B8f5lnPvw0Pr+357uiikNNQUeBFVEU+cSnXhjwWekHK8AAq/J+209YFa39BKgc0qzanCAIuD068Gg0LMcImkc92ChEAJ9PmxTr9TrhSMhyjjaxuj1uJFGkXrM704Fm+gGo13oMiSioqIKIrPu2CNipZn/QS2GrqPt9CKYdFzTHvsaBBno01kbl8skU/8svCPyzP7vNVKXNv3ljC+WNLSpuCW+ri6z/nKYk8B+fiPHbj0RMBzdj1T50ARTg63NBXp3y8/ffLfG/fWOHq2k3/8dzKZbiHpr7bS1VvlM2NVJB6E0woJl+HC6Hfjm7s6IoStokb1nVbJS6IOAP+ajs9+WZ0Zth/hEFkUDIz9zZWe6+O8+mbgJSFNUEK0ZCqX5NFKwsC4ORDIe095Nc7Ptptnt4UI3Y0vrv0wpQtP0KC7fuU6/VufCh86jq8MXezM1Sb9LtdAcYFWuzaqDWCBDDJOl0OxEE6DQ6eIJuFEHRfFEEbQQKgjYWG+UWudu7NA5aTD6dIftoEkHssTwmazcEsFibKIggQfpcjOSJCOsXC6y+to0/6SFzJobT02NTrPIrCCLtZkv3zXDYIums3y2IwkDxvf7+CEYDHOyWB/rU6m9lNKfHyaPPPcIb33iTy3/+Fo99+IKp9BjOOgOAxfh8xH30t+8nmnIgEsYyoFw+N9npLGMzo6iqysFemZWFVdaW1lldWsPldjExPc7xM3MEQwEtqkcUbYCFrg5g9DkjEArwqc+8wI2rt7j61jU2NzZ5/mMfZnxyXANx5o8ajAoaBlYUVeHSxct4vF6ee/45W+iy0Tc9X5SjTUA/YVUevP0EqDxg8+pApVbTIhP6aWmNfu59NhiTWqVq7rP6j0iihMfrMasyi4KgDzhR96B3Ui1X9cie3n3IevIoYxkxzUVBL6hQLzfwBN2IgophHpJkiepeHVUxWBhN0K8ei/MP//ETPPfnSzx2p8DxdpdQo0vVKbEddHJxwsefno2w6Zf1wn1akwRt4RIlaejCawy4tsvBf3oizpdOR/gfv5fnd35/mT86HuJf+2SEY2EbbW5oNYIgorS7pjYqCD2HRVEUTKdJMBxMrQCm994X8rG9lDvSB0BRFURFZOL4GNtrO1y/dINwLGTWX3o/mqi1PahWOpRV+AE0jc4++pjDtLShzIqtJpD2fnl+mbvX7zEyniaaiJgmn17YsmJjC2oVzYF3mJ8V9JxU+01aBtsoCiIun8ZMNiotAklM0A3agtcsN7jzyiLr724Tm4kQn4kQHgsiO2T9Weu/wViM7Khz8J4s+yWPROZ8DBSVSq7B2791h7HH0kw+mUFwOUz51e5ZoNPQxrnL3eeMK/Ycyq2+OP1O5cYYCkYDrNxeo9PpIkm96doKpo1bFxWRQMTP+afP8e73rvHKF/+csZkxpk9METDKcRidMIwFfB8A5IOClS52sKIFCdgBXBet7wORAGceO82ZR09pmWoXN1i4u8jCnfuMTmY59dApYvGIDbAYoNVaaFEURM49fIaxiVFe+9b3ePnLX+eJZ5/g7ENnkKR+5vRosPL4U49Tq9W59OYlwpEw5x46Z/aHtTaQcd33A1YOa+/HsfZHlVX5CVB5wBYIBpAkif29fQRxMJMr6JMqgNolFA4hSxLFwi7HsAMbY7GNJmLsFfaHOrHGElGKO0XzeFFUUFSRr/7aZ/lXr17h0efPExS0wdkFoukokiRS2NhlLKhlTv3dv/ccv/1LT7OfK9G5tMD+VolINmRO8Iog0nbJvPzRaf5jyInSVcmciyI4RH2h0TVQpasNYstvMCfHITN8v1NhPijzLz81yheWKvzTV7Z4rdnlNwMuvpINocrCwPHlnAYGg3F/L/eKZfC1qi0EBNz6wjWMwXC6tZo0nXYXWdbA3WGaqCiKPPzMOb738kUufusSZx47TTqb0haS71MTfZAJ/Sgn7vfTTO1siNlp8B4/2KKkdBWuv3WDxbvLJNIxzj5+xmbyOez3GiUjZKd9yrH6bvmCXgS03CKekMccF0bIvSRLhBJBiuv7JCajWvSTIKC0Fe5fXOPudxbxx708+SvnCWS8bN8usL9SRu0qhMYD2oJjuT2bI+UQwGlleFrlDrv3DvCnfMx8dJzSSoX7315j+0aBY89PMHI22WMGRZHSdgWn24nb7zIZQYN1MX53vdIgGDm6GrvHr5ucqw2tfIP03otQcjTBh158moWbS6zeW2X13iqZiQwzJ6eJxHpVMBUMH58jGMAjTFOdrhZR1u30ecTp/Wb4SA36ajL0kkUAACAASURBVHT7GNLeczCjfdReP4miSHIkQSqb4myjyf1bi9y/u8Tq4hqZ0Qynzp8klU4gipKdYVHt7EooEuJTn/kE3/3261x87SIH+wc8/dxTZhiz3invCVY+8tHnOdgv8co3XiGRTJDJZLDWBjrMufawNiwK6C+S6fjrwKr8BKi8RzPC9ERRJBKNsFvcfe9zBAFJkoglYhTyxb7v6+VSSSTjrC2v0Wq2kOTeJKeqCulsmnfefJdGvYnT5TD9VOKZOJIoUtjaJZwImRqJy+UikY2TXyswdnzENP+IqkggHiAQ9ZNf3iWcCdlYFVUUkWVIn0iwfnWbrRtF0qdjiE7RiHIEkZ6ppW8d6l+W+ultow+7bYVvHbT59iNx/oFD4h9d3OGz13f5Dx+b5N3piMmmCEBpq4wv7MXtd9m/R5/oa7rTsD94eIFII+Sx3Wrj9vTqBR2mibp9bh597mGuXrzBpW9fJpaKc/qRk0TiYeMg7e/3oYkeBVqOWhAetFknfNt2Cxiwtge1fRtAqtlo8dZrb5PbKjB7aprjD82ZWqK1GWyKyayoiiVv0OHXDEQ1Jutgt4Iv7MVI9KWoihlyn5yMUcofsLdZIpwNsj2f592v3KLT6nLuxeNkTidQ9XtOHo+CCKX1KkpXJTIVHAAr5j0PAW6ioMltabVCNddAdkukTkVxOGSSxyIkpiOsX8lx++Ul1t/Z4dQLs0SzIZrVFvW9BqmZOKJkASdizwTUaXVo19t4J71Do96MZtS6alQbBMIBm4+V9flYZRnA4/fw0JNnmDs3y8rdVVYW1thY2sDt9eDxufF4Pbi9bjw+N06nVh6h29WUk25Xc5TutNq02x0tkqfVot3q0Gl36HS6dNodlG4X9TBHMeN+RBGHnnPF4XLgcjvxh/z4g36CoQC+oBdJkizKipGvSvtFqiDaQIvD5eDkIyc5dnaWxTtL3L+9yLe+/AojYxkeffoCgaDfZFgQ9egcC7siyTLPf/w53n7zHW6+e5ODgwM+9smP4na73hdY+eSLn+T3f+fzfOlPv8Qvf+6X8Hi9Jsh4UH+V9xMF9OPuq/IjAVT6zTAPdI4OQN5Pi8di7OzsPPDxiWSChfmF3jUFe+RPIp0AYLewRyqTsPk5JDPavvxWgexkxvRTcTmdxNIxcpt5Zs9N2cBNajzB9mqO/fwB4VTQ9GuRRJGRmTR3Ly+wv10iMmJnVUQRvCEP2bMpNq5vs32jSOp0FMkl9cAKmLko9A8DbcDx1ThWhd35A5S2SvJMjK+H3Lx+Nsnfe2OLf/2Fu7w1E+E/f3ya7ZhM86BFu94hNZWwfaeVMq9Xmrh8TiSHdChl7jCASrNtS/p2VAvFQzz36WdYv7/B/I37vPrSdxmZyHDioTnTHKRd5AGBiQV8qKpKp93RQjYbTVrNFu1mm06nS7ejLQDtdptuR4tUMQpLaufq4NchIUmalqppqzJOl5Z0y+Vx64m4HAOOm4olBsymPfeNmcOoZIDS3gGX/vwtmvUm5586x9j0qAlEtHtUbJ/7m+FcfNRz8HhduLwuqvs986qR28cYG/6oH2/Iw9qtba5+/Ta5pSJzz05x7JkJRKdoRiMpaDlrkseiiLJAab1Cu94hMOLDFdL8Ro56jKqqUss32V8p0+0oBLN+wmN+ZIdsypgoi0w+MUL2bJKF76zyxn99h9GH0iSmYwiiYLKXYI1Y68kwgC84aAqzRSDprKHhr2b2NWDmS7Ecb2rxiooiKrg8Tk48PMf0qUnWlzap7Fdo1BqU9krsbOwMsiHGNVCRHTIOhwPZKeNwOnB6nHiDXmSHpBVcdUhIoogoSfQTBqoK3Y4GclrNtgZ2mm32iyU2V7ZQVY14EUQBr99LPBUjkYkTS0VxuVwWcKIOgBZREJFkibmzc8yemmF5foVb79zha3/8MucePcvcqVm0pa0zwK4gyYiCyKNPPkIgFODN1y7xxf/+JV746U8QCgUfGKy4PC4+/TOf4o/+4L/zta+8xGd+7m+ghRQ+mL/KoLy9fxPQj5Ovyo8EUDms9QOY98qVMizstrdPIBaPc/fuPJ1OB+k9HqooisQTcW5cu0mtWsPr8/a0Sh2wJFNJAAo7BVKZhM1PJRKL4HK7KGwXGJvOagNUN/8kswlyl/PUynXcPrd5TjQZxe11kVsrEE2HUQXFZFWCiQCBiJ/80i7hdMh0FAToKB1kCXwRL6MPZVi/ts329SLpMzEktx2sIGgDRJIkVFXVXYmH9WUvUdnu4gHtSofE8SjesKZ5ND0i/+WjU7x8YYRf++Yyv/Ebb/PFp8b4v1MBLbtsKnAoZd44qOML+QY0Uesgdugmhnar80ADUFVUBFEAEcbnxshOZ7l/a5GlO8tsr27j9Xvx+D14fR48Pi9evweHw0G3o5UhaHfaKF0tr0ir2abZaNJqtMx8Eq1my+azMaCJCoIJQNAT+5l0saDdn5HEbdji0jtWwOly4Pa48fo0rdntceP2unB7PGa2UIfLYfP/AWyAptXU0t3v75Yo7ZbY2cjhcDp46mNPEomHbQAF7GzRsEgWQynoz9as3XKP3wrFguzm9jAyAlrNP6og0my0yC0WWXxnlcxskk//Tx/BG3HT7XY1oITu8KwoIGqLUnImhsPlYG+tRO7WLg6XhC/lxZ/0Ijp1Py504N5R6TQ67K2UaZSauAJO0jMRXH6HCVBMx1ldPh1BJ+d/9iTTj49z/avzbFy/RfZMWkvuZx4r2GS4WqprTt9hn+mnBXbGSRRFRKcGTBvVQyqOWvu43/9Bl2lFVZCdMpPHx83ra89Opd3U8p5oDIR+TVGraTQsKmkYezasDZtnjfHZ7XSplmtUDqrUDmqU98usLW2wPL+KIApEE2Hi6RiZ8QyhcNBkjQ3QYgUsoigyfXKazHiad9+4xttvXGFlcZXHn32MSDSEIojIktzLhdTtoIgisihz/OQx/AE/3/n6q3zxj77Ei599kWg0/MBgJZlO8tzzz/Htb32bN994k6eeebr3HIaYgI56VvZ9378J6EeNVfmRBio/6BaLRVFVlb3dPeLxmC4Iihn5Y44FfZDGYjEEQaBYKJre94ZDrWaucRKOhCnmijY/FVEUkSWJZCZJYbsAegZMVT83M5ri5uXb5DeLTBwf1UGMiEOWSY8nWbm7RrvRRnJJdlZlVmNVSlsHREbDoHRQBAVZlE2w4g15GHsoozMruyTmwrhDTrNCsarYNYajWreuUNqsUCs0CY8HCSR92CIkRJHtmI//9e+c5dGlff7BS/f4wuUN/t8Lo1zV6WBBn+SNc7odhWatRWrcYFyGT/BGxFC7OTzzp9Fsjm+WiV2SRebOzTI+O8rqwjrVgyr1aoOt3QNajaMXDYdOcztdDtw+N6FYENkpm4yH06VFPDmcDiRZy3ciSuJ70uhGU1XV9A1oNbXkWp1Wh1ajRbPZolnXwFGlXKWY26WlR6BYmyRKON1OM8+KKEnaYiqKNOpNW6i71+8lPZri5MPHcXvdAyHI/TlJ+t8DA6af/szNhsN5IBYgt5anUW3obILuc9BVuP36Am999SreoJsTT88QSgXwR3wgaKnsDZxlBSsKIpII0bEQkWyQcr5KaatMabVCaa2MwyMjSlo4fKfVNRdmURZJzEYIpn0IwqAflR1Ea/0WHgly7JkJNm7sUFja46V/9yqPvHiGsdMjNsAtiCL1Ug2X12Uyf1Ywbr2OkcG2UT08LYLh9C0IdrMC9ExBtuMtVJLkkJAcg35bwxyoYRCADDznI02YPSDsC3nwhTQ2SdSf736xRHFnj+L2Lneu3uPu1QWiyQjjs6OMTGRwyA4doAwCFrfXzZMffYKNpQ2uXb7BS3/yMmcvnOH0QyfpgOm7gq50deggCiLZ0Qyf/Buf4Otf+iZf+ZOv8DM/99OEw6H3BCuiXhLg9LlTbG1u8fr33mAkm2VicmKoCUjru+GsyvfjWPujBkgOa39lgcoHMc184GsdkvStn1lJpbUcEJubmySSiaEOtWA4y3aJJ+IIgsDO1g5jE2M9BK37qYiCSGY0zfyte3TaHS3Vs6CalPzIWIa1pTWKO0UiibB5Tz6/j1gqwtq9dcaPZU0Qowgio9NZ1u5tsnxrnWOPTA2wKuFEiK17eTxhNy6fE1nS6qZYwYon6Gb0oTSbN3Ns3yji9Dvwxlx4I24kj+Ycp6iKpoUqgwtSrdigmm/QONBq9YQyfmITIXPCt2qjgqCBsndn4vztD3X5mZs7/NN3Nsit7vPffuYs92eSPa1UEMmtFxEEgVAyNGD2sb4XjNchg9g6uZuf+8AKaD4Cc+dmbed22h3qtYaW0l0SzcVekiUEUbCZN6wa6WHaqIpKVzdtPKhjrSCBLEnILgkv7oHfae0TtavSqDdpNpo06xq7o33WWB5V0XxIFEUFVSUY9jM6NUI4FiIUCeJ095IODgMott9yyO+V9cWw3WrjcBmJBTXNVLFEvsTTEZYkkc2FHWbOT4LaZePeNq994SLVUo3Hfvo8s49NsLddYvnqKtvzeTLHEyZDKCgCKHawgiAhqCKqoBBM+fEnvLRqbco7VZpVrQ88IQeSU0R2agu3J+wyMyNbwYnxuQdcjMKiAoXFPcq5KrNPTpL4W1HuvrbI659/m8TEEk985hFiIxFEQaRVa3GQr5CaSNjYFLNP+kCl7JTpdIYX6FQU1TTn9Zwye+B7mDJhgJejwsmN7xu2XTnkGb8fp3B7tI/mXBuMBQknQsycmaTdaLO1mmP9/gbvvH6Nm2/fYWwmy8TsuBaafAhgyU6NEM8kuHH5BlcvX2OvuMcTzz2Oy+kyFUlFUJHRLGcdBaKxCJ/4mY/x0p99na9/+ev87N/82aE+K9bEVIqq9pxrP/Y8O9s7fOPlb/DLv/JLuFxu+k1AoCtDFsfao0DGXwar8lfZ/CP9+q//+lH7j9z5w25HhZYOHHuINjq43e43MGSr7TwV1XQkdbvdXH33KgIwd3xOyxBqO1LPGIqKAMgOmZWlFfb3S5w6e7IXSqkqGGm7nU4Hd27eJRwJEY728q2oqoov6OferQU6nQ7ZiRH9fC180+VxsjK/htvrJhgNmBlNZYeEisrm4jaBaACPz62NL92c4I/52d3YZX+7TDDhR3b0cpKIgqbVi4KA7JQJpgM4XFpxwEq+zsFWlWq+TqfRQe1Aq9KmWe7QPGjT2G9TKzbYXSxTKzY15+OxIIm5CMGkH0EQkUTdx0KUEEXNvq0VKxPYmS9yUKiy+8QElz56nEyxxue+eJ1srsLSeIyW14OiqCy9u0ooFmRkNo1kOOAKgubxr9fNMarWbi1tk5lM4w/6zO1mbR0w35vPWP+r5eYQrE/V9k8QNfOKy+PC6XYiOzWt3KzFo6IX71NNEKKoila/Se2imhEyvffGq6tohQDf78uonWO8rJ8RBWSnhMvrIhDyE4pqRRnToynSo0nSYylGpjJkpzJkp0ZIj2vFFb1+D6IsDu0DQ+qN3wU9kGIFYMbi1el22VjcJJqO4g14zLGijbfeQivJEp1Ol+2lHURJ5NUvvM7FL77NsQvTvPCrz5OeTmhp1wNuul2F4uourUaHQNyPtQ6SKIiW522MKsEEBg6XA2/ETTDlJ5D04Y978UU8eIJuXH6nGa2iOXoKSHruHiOHj+Ewr8mdSGFpj721EvHxKJljSRwOB+mZJDMXxsmv7HHpT9+hUW6SmkqyeW+HdqPNsQszyA7Z/H5r7aeeTIvkVnIgQGYyfagcm7KLeqTsajKomM+tt61ryo0pl6imPNrlcrgMd5Wu+d3WV1fpaGa1/n1K15RTzQdJ1ceNFuEVjAYYO5YlGg/TbrVZX9xkZX6FWq1OIOpHlmVUFXPuQ5cpp9PByISWHG7h1n12NnJkxjLI+jPVy4xpdaH0CHGfz0ssGefmtVsUcgWmj83Y/LmsC3hPnLTvkiSJRCLBlbffQel0mZye6j2TIfOMMd8OnXssz8/KgtoZUXsUkcrhUUVHRRv9II7/Abd/ddiOH2ugYk0adhRQsd5LbifHysoqjz52wdw/DKgYZ5bLZebv3OPM+dM4HA6LbV87y+PzcO/OAvVanam5KRPEgKYp1ao1Vu+vMXV8Ul/UNaDi8bnJb+XJbxYYnx3VQwK16wcifvIbBXa3dklNJMxwQVQVURIIxoMUN/bY3djHH/Ph0POVGGDFOmBcARfhbIhgxo/T60DpqBpjUqhT32tS32/SKLVoVdp0W118US/x2QixqTCekBuHw2Gb8PvpchDIL+xS2iqTmkmQnIzTcTm5enKEd8+N8uj1DX7+K9eRFHhLFNktVJh5eAqP1z10gjciCOrlOjurOUans3j8Htvkrqq9yQMGJwxtghGMue/IlxWQHAZKDpv8VZUhwGQQvDzYCwtoEXrv9Zw3qqpoUmUx29gBhf03q8a57/HPHDV9IKWnaRtRHCJLd1YIRPyEYkEbUDH+N8RUdjm49PIVLn75bQJRPy/+o09w/PEZk5UxoE0g5kMFCqtFagcNQgm/TfO1Fm7UGDzjs9CTRWPfIS8rOJH0z4YsG+xgcXmf4so+sbEI2RNpHdRoJku318XUQ+OMzmWYv7jIlZeu0ag0mTk/SSIbM02hVrBtMI6GjO6s5BAEkcxkyi7Hhsyqg2DFeNkWNF0W+1+K2u3Jrw4UTBnV91tl2AAknW6XWqVGafeAg70D9gv77Ob2Ke7skt8sUNzZZb9Y4mD3gLKeLr9eq2umXEm7X0VRNIVPVUww0wMdCqo+R6bHk4xOj6AoKqsL66zeWwcBQpEAgkAfYNFaLBUlHAuxeGeJlfsrpEaSuN2uQ8FKKBTE4/Vy8+otGvU6YxNjpkyaxUJNCTLeaN8VCAWp1+pcffcqk5MT+AOBoc+qX0ky3g/7qw7Z1rvs0Z/fa/th7SdA5QO09wNUDGEY+I4jgIr1GsbW/sXLClQEQaBer3Pr5m1OnDqOx+OxPFh9WjQxgTbIBFHg1o3bpNJJwlHNfKOoCoKgLSyCIFCr1bh/d5G503PIsoRR8A20Sr33bi1ohcGSUdvk7jRYFZ+bYNRvDlRBAE/Aw/r9TUAgFA/q27WJWXZKBBMB9rb22d3YJxDzm2DFyigYmiOAKEt4gm6CKR+RsRCBlI/oeIjIeIjYRJjYZJjIWAh/3IvT7UCWtFTXBpAwtEODRdEYFYnd5RK7ayXiE1Eys0nbJF8J+rj42BRbmTAvvHKbT166Ty0WoPv4sV44c98Eb9x3Zb9CYaPI2NwoLo/rUDal98ztmsl7LdAGKOnXSvsn/+Gg5HBW5TCt9L1eNgbF8t4AMMPAiwFcjN9rAy48OFgzBo/NDGCOKFX3+ZFYW9hAdsokswnbWDHcrpVul+vfu8Wf/j9fodVoMXVmnGc/+yTRdAidKtEXGFVfIAQCUR8Ot4PCapGDQo1Qwo8kS+Z3GyZDoxmAxWrG0fbbmQoDmBgyZQJtscewGCClsLxHdDTM6Ek7SDFNm6JMIBbg1NPHOChUWLu9wfZSnmgqTCQZHgAm/S8NqAhkpzOHym6/3PbmJftD6mdSDGBiyOdhwKReq1PYKrC9ssP64gZLt1dYuLbI6vw62ys77KznKGwV2d3ZYy+/T7lU4WD3gN2dPXZ39ihs7ZLfKLCzmmP13jprC+sUt4sc7B5QqzYQZRHJYUQJqihK15zrtPtQESWRWDpKeixB9aDK6r11Nle2cPvcZiJBAdH8vQICgVCAZDbF+uI6C7fvE46FCRgMK3awIggi8USMbrfLrWu3cThkUumUnU2xLOR21k4gO5rl7u27rCytcObcmZ6zv+WZfVBWpT8XSz+gOIxVOYptGdbeK+fLD7n96AMVGM6q9AOYnsZhv4Z2XO+bjO8zAYt+nCRLXHn7HdKZlOazcoj5BzQB9Xg9XL1yFVmWmJyeHGr+8Xjc3Lp+G5/fRzwVN1QDFH3f1sY2hZ0C0yeme79UBa/fQ24rT36rwPiMnVVxe100ak22lnaIZWI4XQ6zh0Q0U0A4FWJvq0RxfQ9/1IfT48IYJP30uTG5C2gTuOyUkR2y5qMhSUO00R4wsU72BkCRRIni6j75pV2io2GyJ9LIkkP7PrFHqYuiRH4kyp+Mxajkyvzjm+ucvrXO1micSiRgTvA9ZkW73kGhTHFnj+lTkya93j/BD5sY+if6/ond9s+i/R0GTKzMip1V6dJVujQbTWrlGge7Zfbye+S3i+zmtMm9uLNLcXuXwra2ABzslamWq9QqdZrNFt1OB1HuTe49cKIOAJjeXztwsYIW6zHDgMtRk97hjrS9MZRbL9BpdxiZTPeNFZW1hQ2+8H99kRtv3OaZn36cF3/149TKdUqFEsmJhA6YtQVFRDDHqwB4gx68IQ+763vsb5cJRP049agmBEy5HQhlN1mT4ayKCYItMmb87ba6bN7Ksb9VJpYNM356BEmSbfJryLmgg6NKsUplt8YjnziHKIp85w9fZ2c5z8hUCm/A28em9LI2b6/sIAgCI1Npm5Ot9a/BqvR6ffg/RVFNYKKB2CHgBJVKuUJuPc/q/Br3ri2yeHOZ3EaB/d0DlK6K2+ckkgqTGoszMptmZDpF9tgI48ezjB3PMjo3or2OjTAykyY9lSQ1kSSaieAP+5BdDpqNFvv5EvmNAhuLW5oTdb2BIILDrSdpNBmXHuCSnQ4y42nCsSCFnSLL86uU98tEU1FkWbL0hXae1+chO5klv5Xn7s17eH1eItHQAFjR5FtkJJtmf6/ErWu3iCZiRKK9JHmG3Bjn6g9BMwHJMpFolHeuvIMgwPjEuEX5UzESFP5gWJXBsfgjwKr8+AKV4dsHgUrfVtt5JmBRVTweD2+/9RYOh4PZY7OHAhXVQPWiSG47x9rqOmfOn8aaIMuQX5fHxcrSKoWdAsdPz9nvQHeIWpxfIhgOEIwEbayK4asiyxLRZARNM9R+RSgaYHtlh9x6gWg6isPpMB1MBUByiITTIfZ3ShTWdhEEAW/Ia1Lc/YAFLBO6BbhYnV2NV78WarArxiS/NZ9nb71EJBNi4nQWSZJtWqgoaBWAJVGkUWly//oG92dTLP2tpxlb3+Wzf/BdortV1qYzdDzOAS10e3mb6kGdmTNTSHoxxKMmhn6q3PpUNTmx0+aH0eX97IpxXLPZpLR7QG49z/r9DRZvLXPv6iIrd9dYv7/J9mqO/KYGUvby+5SKBxzslinvV6jsVyjpERH5zQK5jQJbKzus399k5e4aubUcu/l9KqUqjUZLWywdko0xUVRlKJMyAFp0metNk3bwdtgCaLRBB83ed5R2Dyhu75KZTCPJmi9Vea/Ml3/zZV7+3W9x7PwMP/9PPsPU6XFEScTlc7K5uEOz2iSajuhy3WNWes9bxOVxEoj72d8sUVjZpd1oIzsduPRaO73FZVBeBWG4DJtybIJmkU69Q35pj807ObrNLiNzKUaOpfVxYZdfI8JHFARatTaLV1ZwuBzMXZhl+uwkJx87xuqddV75g+/SbrQZncmYiQqtsrp6dwOXx0V6IjWUQbGClf6XIAg2cGI8o34ZVVSFg70y64ub3H3nHos3lslvFWk2WvjDftKTCSZOjDJ9doLsTJpYNko4EcQT8uL0ODUnZKs/kwGatSshSAIOp4zL48QX9hJJhkiOxckey5Acj+P2umg2W+ys5dla2mF7eYdmo4k34EbU65v1Axa338PYTBZJllhdWGdnLUckFdGVMs0kJurztsvlZGx6jP1iifmb94jGIgSCfhNw2P4KAmPjWTbWNlm4s8Cx48dwOnuV3q0MnRWsiIJINBrhoFTi+tUbnDpzEqfLZXue78WqWOej98uq/ASo/CU140E+aPsgQMV6jX7zjxV+QA/U5HZyLC0t8+jjj5r7BV3jG2b+kWSJm9dvkkjETfOPsd/0R5FE7t6aJxqPEIyEzFlFVVVCkQAbq5tsrm4yOTepO3lp1/QFfJQPKqzcWyOeiePyOE0TkCRLRJNhdlZz5NbyhJMhfSLsmYFEWSQ6EqFRabK7sc/elpbS3+P3DAUs/ZO7sQgMe0kmq6L97ba65JZ22bqdo1XrkJ5JMHo8g+yQBrRQUdLMOZ1ml/lLi4iSyMkn5iDk59bDM8yfneTCxbt84k8vokoSW9NpkLW8GZ1Wh7tXFshMpDQzg9BXX2XIX7tsDLdtWNkV6+Rvbrf4o3S6XYrbRdYW1pm/usC9a4tsLW9T2N6lUW/i8rmIpsPEs1GS43FGptOMzWWZODnK+ImsppnqGunosRFGZjOaZjqRJDkWJ56JEooH8fhdKIpK9aBGYbNIbqOgA58dKgdV2p0ODt3Zd5gvwDDQov/R5NrWJ8M1dSv7NNh65/mDPlbm12k1W0QSEV794ut8/t/9MU63k7/zz/4mFz7ykGWh1nwTBFFgc2mHZr1FJB0eACu9cayF+0dGwiAI7G+V2N3Yo5yrgCpoEW6ybGNZ+s0/h4IVBOqlJvnFItt3C7SqLWKjUSbOjRJMBIayKKIkmeOnuldj4a1lAE49OYfHq1UF9wW9nHriBNnpNG9/6ypvfPUt3D436YmUPmYEynuaiWPyxDiBSGCo3B61sPSDE7ucKlQOqqzOrzH/zgLLt1fYy+/j8XsYmc0wfXacyVPjxEeiBCJ+ZJeMguFLpcuRYvdbGeZcq+oAY5i50jAL+sJe4tko6ckUvqCXTrvL9kqOjcUtWo0mnoCnF0ZtASyCIBKOh4kmw2yubLO6sE4g7McX8Opze08GZVliZDxDbiPH/TuLjIxnTJ8Vsx91MCBKEulshts37rC/X2J6dlpj3vrmEZv5R+/zZDLJu++8S7erMD0z/b5YFet4eq9n3f/cD2M8j2JCh7WfAJUP0H7YQMV6jb6tNsExmBJBEOh2u9y4fpOZmWkCwYBpNz/M/BMKh7h94xYHB2WOn5yzMC69a4fCQe7PL7JX3GP2xKzlfrRrBsNB5m/eAyA5ksAgLVUVYskI60sb5DcLjOjaqgGApx6wnAAAIABJREFUHC6ZSDpMbq3AzqoGVlxuw8SjMyuyRCQTxhP00Cg3Ka7vsbdRArRU3D3nwR4oOYxJsb10s0+n2SV3v8jm7TzNSotoJszEuVGimfCRWmi73mb+0iLddpczT53AF/SZ31uOBnn7Q6cpxUN85Etv8th3rlNKRNjLRFlf2GQ3t8fpx06Y6fMNYGW0YRrpsGad4AEToAzTShv1BuuLmyzdWuHOlXk2l7cp71fxBj2kxpNkZ9NMn5lg7HiW1FiCUELLA+L2u3F6tEy7qkV+jFe3q9vrBQ1YOt0OXF4n3qCHUDxIPBslM51mZCZNYiSGx++m2+6yu73HzlqetXsb5LcKtNsd3F4XoixaHGvt5p9eiKkdsPSDlmFmhv5mDVdVUXE4HbRaba585yov/d432Fza5m/86qd54Rd/Cn/YhzFSVcs1NMdb2FraoVFpEk6GdKA+CFYQBGSHTCgWID4exeV10ag22dvcp7i2T63UoKk7fYuIOBwagLOZexBAgcZBi9J2mcLSLlt385S2ynSaXRLjMSbOjRIbCSM7ZRtAMcG7wTgKIvtbJe6/s4LL7eT0U8dtMmyA52gqzMMfPofL7eDbf/Q97lyeJ5GNE46HWLm7Tr1c5+Sjx5HlXli3rZ+HyPCAydLCCHa6XXKbBe5cmefetfvsF0p4gx7G5kY5dn6GkZkUwagfySFpUTuqYoKTw4CJYm6zOIYrRzuGK4qmyFkDDERJwBNwERuJEM/G6HY0wLJ5f4tGraEDFtkQMF0AVFxeN5nxFLs7uyzfXUEQBCKJkC7Jht+KBlZSo2nWFtdZXVxjfHoMh8Nh+qho/av1pdfjRpJlbl+/QzAUIKrnxTKamXXYIn+iIOJ2u6mUy9y8cZPTZ05936yK1fxjZ1V+OOafv0Q/lR8PoGI87PfabjAm/dcwhELfqv8/aP7x+/1cvnQZj9fD+MT4e5p/EARa7Ta3btzm2IlZc/G0OtUamSHv3pwnNZLEH/T31CEBvD4P5XKFxfklxqbGcLqdplYhShLBSIDl+RWqpRrpsaT5GwRBwOl0EE1HyK8X2VnJE06E9aquOljRhdLtdxEfixGI+mnVWxpgWd+nWWvRbWkmKKfTYQnVHM6oqArUD5qUdyoUVvbILRRpVdvERiNMnhsjPhbB5XZimIX6tVBJlGhUmty9tISqqJx6Yo5ANNBnv9fOzU8keeunzuOpt/nk777C+J013qi3EEYTTBwfG8qm9L8/zJzRD06GsSedbofcZoF7V+9z9515ilu7qEB8JMr4iTFmH5okPZEkEPXj8joRJdEymdu10sOdafsn/CHaqT5pO90O/BEf8WyU7OwI0VQYt9dFvdLQHCEXNijtHmj+Tz4Poij0AIWFRTmSZTHHzyBo6Y0pO7uiorK5vMVLv/dNFq7fZ+rUJP/wX36OzETK9jxs/wuaGTMUCyCKAltLOfZzJcKJMA6Xwx4xY43KEAQkWcYX9BIfjRJMarLTqDSpFCsc5MvsbZbILe2yv3lAYWWfwvIuO4tF8ku7FFb2KG2XqZeaOJwa0E/PJMieTBNKBnE6HTbZNU1HFvkF2FnMs3Jrg2A0wKmntGR5/TJsnCvLMqOzWS48f57dnX2+9v99g/xGkWa9RWYiRXp80OzT37/9ctt7Dtrner3B6vwaNy/dZnNpC1VVGJvLcvLROTLTafxhL5Ks5a/qKl0doOjMh+5TZYBzQ3a7qqIDaQ3EKN0ujXqTSqlCvdagWW/SbLa0FPrttvZ9Ija5Nc5FVU3wAprTfyQdJpaNoqqws5pn4/4WqqISiPpM3xAtWlFAcshkxtPUqw1W5teolWs6o6qBFasZKJ6Os3RnidxWnvGZMZPB0o4UTOCSSMbY2tjm/t1Fjp2YNU1AVnO49bOxJZFIcPXda7SaLWZmZ/7CWJW/5uafQ4GK8B5A4P05ifwQ2vtN+nZYttT+7bZkRrYsjKptf3+4pRGO+vnf+zyVapVf+dXPmUnPFNVwpDTyBPSKsh2UK/zmf/qvnHv4HE8++0Qv5bc+0BVVodls8Af/7QuEo2E+9uJP0e126OiLWKfboVKp8uUvfJVYIsKTH31Cnzw6GKGCC7cWuPHWbWbOTDF9aoJOt7e/2+1QKVe5+t0bNBtNTj5xHF/YY95fR+ma1ZKN31Hdq7K9nOOgUKbd1KrfCpKAN+TB6TWSgKkmnlIVhXq5SaPcwFhs3H4XoaSm4Tpcso09AQY0UIDKXo17by0hOyROPTk3oIUOczoEiBQPePa/vMRDN5Z5/ZkzvP0rn6Th99iOgb56N0fJ0pDEVoZcHOyX2VreZnN5m3azhdPjJDWWJDkexxvwmhqjVS5scqUoA99plT/bffTJ7rAkTtb07tZjrLVmGpUGufUChXVtAZRkidRYkrHZLIGQzzxueGIz4/vsk/ODtEqpykuf/wZvfvNtzj97loefPcvK/DpnnjxFaixpG2va+Or1lyGfiqJQ3NnlzuV7qKrKzPlJwqnQ4LEWGTb60zo+VUWlXm3QqDSol+s0620tXFZP1Ke9tMrcvohXZyftLEa/7Br9bzCCiqKwcmOdwsYeydEYMw9NmWzIMBk2+13ohVDn1gr82X/+KpvL2zz+sUf45C9+XPe9GGRUhjWrTO0XS6wtbLCzlkNRFKLJMCPTGaKpCKqgDsikVVatc5jRn4qqoHS7NKtN9osHlPcqtOptGrUm7UbbZAJ792KXaafbiTfoxuP34Am48Ya9uH0usyyJnVnVtkmiRKfZYeX2OoWNXYJhP8cvHCMYCfbMy6KIJMoICKzeXWPhxhIj4xkuPHteq00kysh6+gJZktle3+HNb19mbGqMD330aURRQpbknslarwtUKVf44h9+mdHxMV548ePIuolZO6ZXJsEYOwaAfvWV17h+7Tp//1f/PpFoxHzmxu8aMCOJ9nnR+qytSQDtUUjD5oLh8vGg47X/Gn+B7dCJ+a88o/KX7adymPmnXq9z88ZNTp0+hcfreU9WxeF0kN8psLy4xOmzp8wJ0GBVQNC1W5W7N++SHRvB6/diqrKoWiE6SWLh9n0CIb/F30UDC+F4mHq1xvLdVTw+D6FowDxXEAQcDpn4SJzCZoHN+9soikooGtBCLmFAO3V6HETSYVKTceJjMbwhL7JTplVvU9uv06w2aVZbtPRXu97B5XESzUZITycYO5khNRUnFA/qxdx6DrWGHdjQQAVBQFAFcqtFlq+t4fa6OPPMSXwBnyVayOL42BcZIQgCFUnm91tdbmSivHh/k2f/5DVabhc7U2kEXct9EJBiMCjG87EyKJWDCjcu3Wb+6gIHu2WiqTDTZyeZOTdFJBVGdkpmaGWPNrdrpQZLYtjoVTDpdZVBytygc4ztPV8Tfb9gzaFiLAzGMb1Fx+GSCSdCjEynCcWDqIpKbq3Axv1NyvsVgpGAWSPJMAn1zD3GGLLn7TjKdNZpd3jtq2/w2//m9+h2uvy9//kXePbTTxJNRcltFMhvaE7ePVNkz5YjmGPQAGBa7qB4NsZ+/oDNxR26rQ6BSEBLzoYxhnoyDD1N15QXScLpdOANeAnE/ETSYcKpEOFkiFA8SDCm1cTSTJ6WBUnsLUiiZCyKdj8sgP1cmeVrqxwUyowfzzJ5ZtwM1T9Mhs3PFrBpMI6+gJeF68u88dKbBCMBUmOpQ/vbaAaoaLc63HjzJveu3adeaZCZTHPy0TmysyOWpHuKqXzZFC1TVg05VWl3Ouzt7LF1f4elG6tsLGyzlyvRbnZ0cOckGPcTSgeJj0WIZsOEUn7C6QDBZIBgwo8vrPkd1asNSvkDdrf3ya8UKG7s0W61cXqcZpJBQ+ZRVRR9/otmIvgCHnLrRbYWt5Edmn+Lna0QiSTCuFwOlu6uUivXSI+l0Gq5aYu+EbrscGhJ4QRBJJkZ7s/mcWsmoDvX7xCOhInFIzbZMlp/uHIyleT6u9epVqrMHZ8bMP0Y1xjGpliZyx8j889fX0YF/mqyKgcHZX7jP/wGD194mOd/6sOmJmecP4xVWVtb548+/995/KnHeOTxh4eyKvVGjT/+/T9FkiRe/LlPgaBa7L8KrVaLb37lFfaK+zz3wtMEo0E63Y7OunRptZu8+e23KGwXOPnoCbJTaTr6d3eVDoqi0Gg0TOdOp9vBxKlxYiNhjdpVe/Zo+2+yaFqKvT+Oaja/ENGuHRgTv6qq7OfKbC1sUzuoE01HOHZ+WqP3H0ADFQSR8l6Fm2/ept3q8NAzZ4gnIpz79js89/lvUQv5+davfIr1h2YHb9AqH4cUYFNVhU6ny+KtJdbubSAIAuPHs6TGkzjdTpvWb+2rfk3Vbk7pMQCgpZavVxo0qk06nY6Z0t5IcS9KEg63jMPjxO1x4nQ7zFT9A1qY2L+9N/n2M1PtZpvt5TwbC1rOnYnjY4zPjepZPD84u3L7yl2++Ftfo16t8+IvvcCFD583v8uIMLny6lU67Q4nHz1Baixh9rVi6UurPBqf2602S7dW2FjcRhAEUuNxkhMJ3H7XgOYPg/JqD6V+sClOFAZ/a+83C+xtl9hc2KZeruPxexg/kSWRjdt8UQ6T4f5ntJfb59bluyhdhdOPnySaDPP61y7xyh+/SmYixc/8yqfITo8MvU/j91dKVa6+foN6tc7kyXFGZ0Y0s05fX1pZlH4ZNvq+1Wqxs5RjaylHu9lGkASC8QCBqA9f1IvL67SA+cPT7Q9rzWqTWqlOabtMZbeKIIgE4wESo1FCySCSXq3aynCIgkCn1WXx6ir7+RKZiRRz52dwOl2aCUgylCLZZFZOnDvG3LljJqti7BdFiSvffYeNlU0++dlPEI1FTWZG1kPLZVFzwv7SF76Coij8rb/785rSqBe9tAYOWFkVSZR57Tvf5eqVq/zaP/o1AgG/KTfDWBVxYNx+MFblB8Go9F/jL6j99WVU4P35qcAHY1UeNEzZONblclEsFLlz+zbnHzmP7HAc6lRrsCqBYIB8Ls/8nXucOHNcc+LCzqpIkkgoEuLm1ZsApEfTZqy/fgjp0TSr91dZXVwnO5nF5XKadlpBEMmMpdgvlli+u4rL7SQcC5laMKhIkkRyJEY4GaJUPGBraYeDYoVA2I/T8B3Rv8tkP7Bk89QHVS+51eEv6YgoIEEQ2ds+YPHqKrmVPLLDwexD04yfGMXhdJgaqN0nxvJZv8edtTzX37iFLEucf/Ys0UQUBIH8zCjXPnqBwG6Zj/3W1/Bemed+MoKQigzIRr+Zp+ef0mV7Lce1712nsFUkPZ7kzFMniaQiZnZN64T//7P3nkGSXded5+/59L68r+pqb2EbhnAECBAkRANKFDUzkkaanZ1ZN7EbijUzsbPzYWMjtLGK3YjZGa1mZEmJThQ9CAJgAyDQDaABtLfV5b3NqjSVPvO9/fDyvXxpqrpBkRIh8nZkZ+Xz795zz/3fc/7n3ErVQmJta5yVVgydSrlMYiPF6uw6K9NrzN1cZH5skfX5OFurCRJrSZIbaVLxNOnNbTLJHMmNlBlGvhBnbXaDpYlV1ufjbCezlMsVJNV0WTj9/tYM0xqMBcf7WSYjUZYIxQK097VRyBVYnFpmfWmDcFvIdjW0sq6YVshmUvLa4jpf+fff4NQ3f8z9H72H3/y936B/tLfJr+5yu2jvbSMZTzJ3a55ivmgmP5NM60h9hllLyVYBbjXxV3tPjHKpzNr8Bisza2QSGWRVwVPNRFxLAmiBsyqfykEEr1kzdv+0sqgYZYPNpS2mLs6yPreB5lIZPjzIyNFB/OGqpbL6HNbyEUJjvxJqSeQq5Qq3LkwyeWUat9fNiUeOEmmPIEkSg/v7ufux4yzPrPC9P3mBz70/RmF/HwR9TTotvrLJ+TfNpT6OPHDIDGsWuSOQYln7dEMnl8uzMLbIxIUZttaS+CJeeg9003egm1BXAFdAQ5QFm7diJzS0sjUbt8+0LKsyLr9GuDtEsDOApIikN7fZmI8TX9pCcckmELLkzzB7piiJxLojgMDS9ArJeIq2ngiI9WHGwWiQ/HaO2Yl5AmE/3oAHqFk2RFEk2hFldnyOjdU4Q6MDDt1Su5YkiLi9Hsau3cLr99HeYS2KurNVBSAYCHDxwkVcLo2evt46q4rTcmJZ9RstLM5vo8W2xr9b/b7d9p3Kz5NF5RcaqNRIgfXun3pTW2v3D4DP5+P8uQsEAn46uzpt949lsraAhX0/IBKNcOnCJQzDqKZodt7XHD+CwQDpdJqxq2P0DvTg9ta7gBRFob2rjYkbk6yvbNA33IssSbbJXxQlOvvbSW2lmBmbAwMi7SGslPVWJ3S5NboGOtHcKuuLGyxNrZLe3EYURdxelx3O2QhaJFGylf1uil4W5fptloKvwOZSgqmLs2zMx1E1heHDg4weH8YX9Nr5U5wApZ64aCp3wzCYuGQmo4q0hbnrkeM2n8XqZBVVYe7EKGMPHCLw4ju8+vK7vFss0Tfai2xFD1DjLTtng+VSievnxpi6No3L6+Lw/fvpHemuEmItK0rNzbOb2bxcqZDcMGfdU1fmWJ1dJ721jQF4/C7CXSFifWZ23vbhGB3DMTpG2ugcaasuLRAl0hMk0ObDF/HiDrgQRIF0fJv44iYrU2tsrSTJb+eRFBHFpdiAxCLH2m7Nuj5gbhFlU/EHwn7WFzZYnFrB5XXhC3jsPmKRAFuBlVwmx4tffoWv/Ydv0tHbzu/8z/+E4w8dbUq25zxfVRU6BzrAgPmJBTaW4kTaw6iaag8SViix9dxOy46iybT1xOgc7ECSJbZWk6zOrbOxuFnlSphr+siyBTLqgctOZPAdQ+1F0SSZL26xcHOJuesLJNaSeLxuho8OMXJ0CF+oJr9WX9kJoFjbRFFkfXGDK2eukdpKM7R/gMMnD9qke0ueXW4Xh+47wN2jfTx16hzPnTqPLomsDHdjSObquxtLcS69dRWvz8OxjxzBF/LWW0ltN2RrkGIYOoV8kZlr80xdnCG1uU2oI8DA0T7aB6IobhkdC8zUgxM7k61hpdgvOzhvrT8Ghg2OJEXEF/YQ6QnhDnnIJLKsz5pg3BNwmckNBWxXqCAKBGM+3F43S1MrZnLA3pgNViw3ULQzSnxlk/mpJdp728yQZEckkKIoeDxuJm5Mork0Yu0Ru20sORcEkWAowOLcIgtzi+w/tN/mHUFzEjjrt8fjYWV5hbmZWU7cfcLeXnNTNZNqd3L/1Mas3d0/O7ljd3PTtio/T0DlQ+H6gZ9P94+u63zpL/6SQiHPb/+z3zaFq1EBNCgB3TB4+cVXGL95iy/81q/j8Xlqs3G9jK6bHTebzfA3X/kWqqby7GefQRAFKpWy7QKqVMrMzy7yxiun6env4p5H7gbMKBTrOqVSkUvvXmVuYp5IR5gj9x9E1iT7HpYryDB0CoWimX9jdpVMOoski0S7IrT1RU1lJxjN9dUgO7uRPguZAom1JFtrSdKbGQxdxx/y0TPaTaw7gmhxSARHBtEGsqzTPF7Ml7h69jqpeJrB/QOMHB6qJ6PtwEW5eW6M7/7FD8ln83z8Hz1luyT0hrVqMukMV96+RiqRZmBfHwP7+xBFKw29XqfcrbpoVPi6YZDP5lmeXGVjKU6pUEYQBXMV644AwTa/HQHRKI936lYzDINcOs92PEs6niGbyKLrBoGon47hdoJtfjs7cCNB0arPJndQvsTN9ydIb27TN9rDniNDSFKNDOoECxjw3qvneemrP8If8vHp3/kko0dGgNuTPp2ytLES5/I716iUy+w9vpfuwU6HBVOv63ct3TuGTrlcZmNpk+WZVVKbaSqVCoIAvpCPYCyAN+hGdakobtkGUI3PYT+bblDIFW13XG47T3pzm9x2DgEBT8BDtCtCpCOEP+K3wYfVLlZdNbnLHDIsiiKFXIHxi1OsLa4TCAc4eO8+/CF/3Tk7VB4Hzlzh0b98ibKq8OpvPs2Z9hBXz97AG/Rw9KFDKKpiy6FZX/Vy22RJ0StsLG4ydWWWcrlMtDdM+2AMtQp6a3JddUvWuYWd7rpmEvpOpc413OD+EAyBzYUkq9MboBt0DXfQNdJhu4NkUa66eQQ2l5JMXJwmFA1w7OHDdW4gSZQp5Uu8d+o8qqry4NMn8bjdthvIcgG9c+osm+tbfPz5ZwgE/E3EWlmUWFpc4UffP8WDjzzA0RNHsJZIsACI6SaqJ9VOjU/xg++9yK985jlG9+6tAeZfun8ay47I6JdA5TZAxXlMHV+jeuzVK1f53ne/z+c+/zkGhwbqgIp1biNYSSSSfPFPvsjeA3t59MlHzBm5rlPWy1XFYVDRy8xMzfDyCz/i8PFDnLj/OJXqDMUJVq5fvsmFsxfZd2QvB07sx4oQsjgruqEzMz7DlfeuIysSh+8/SKQ9ZO9zPp8ZHquT2EiyMrvC2oKZe0OURDwBN96AG0/Ag9vnwuU1l00XBKG2ajBQKpTNkMRsgXy2SCFbIBVPU8gUAHMNokhnmEhniGA0WGeih9srdxBYX9hg4vIklYrOwXv209XfabfVnUSlVMoVTr/4Ni9//TViXVE+9TvP0j/aZ7ftxvIGV965DgIcuGcv0c5I06z0diClWCgxN7bI2uw6hmEQaPcT6gwSiHqRZKlO8dfJlt4sd61Kk2Kq5qOplCpsLiZZn4tTypdxe1107umgrSdiRrY0AJadwAoGzFybZ2lqhVAsyNEHzXwQTkU6fWOO7//5iyTjKZ7+wpPc/+TdKLKy4zPeruSyOa68c4346iaRjjDDh4YIRYN1YMSqq0YOi7MOLR6LuSxBguSGGZli92nDDOnX3AqKplQHXZMLZBimHijmiugVvfoepmXGG/QQ7ggR7Yzg8rpaAhPne4sNg4sToJQLZRanl5m7NY9eMRg+NMTgvv66gWEnsO2UESmX5+R3T3Pfd89wKRLgSx85Svi5B5CqSyvsJLeNMlsqFpm4OEN8aRNP0M3AkR40n6suiqoRpDgBimEY6BWdXDpPNmlGVOmVGpixbA2iLOLya7iDGppXRZSsCYqTC1UfBVMpVlidiJNcSaF5NIZPDJiutZ3ASizIsYcOoaoakh3JI5PaTHHu9Yt09nZyzyMnkCXFBiqyJJPP5vnRd16no7udx59+xAY5dVwV4OXvnyKdSPPrv/l5NJdWcw86IoCsZxIEEQz48z/+c6LRGJ/7/OeagMpO7+2sl18ClV9woAJ/O6tKuVzmj/7wP+Hze/nCP/7CHVtV3njtDS6cu8hzn/0kPX3ddcRaC2QYhs6br53mxtWbPPTYgwzuNYFQWa8lWSqXS7x7+hwTNyfYf3Qf+47txbKsOMFKcjPJe2+eYzuZoW+POUsWZdG2rjQCFt0wKJVKxFc2ScVTpBPbpBPblEsVs06oKX27WCZNR1E0BV/IR7gjRKQjZC8e5uwwdzLzLJcrrM6sMje+QD5bwB/yceTkYXwB708UMgtmiPFLXz3Fu6fOcezBwzz9Gx/FG/Ty1g/eQdEUjjx4qJrpt5nQuZvpfH0pzvTlWUrFMrHeCB3DbShupUnpW7JkDTw7WVN2s1Q5f1uL4ZkXE0iuplif3SSXyuMLeRm5a9BM+HaHYEUURDYW44ydn6S9t43D9+1HEESS8RQvfflVrr93k5Mfu5enfvVxfAFv07Ps9syNxdmn5ifmGb8yRblUJhgNMLC3j2hXFGv5iWZw1whk6tsKzAikTCpLIVeo5vcoUswVKRZKpvvLAbhFUUB1qXgDHjx+N26vC0Wr5c+w30lsftfdwIlJGk+yOL3MxvImhq7T1hVj7/FRvH7PHYfN23XmsALOfPtN/tHb13hobpVzT93D6599mJxXuyOQUiwUuf7OLTLJDN17O2kfiGIIVHVNeVeAkt8usLWcNMFJKmeDO1kzU+o3attKsUK5aOoQURLxBDXcAReh7gCKS67JYYOVQRZlMls5Fq4tgwGj9w7vCla6BzrZf49JnnWClblb80xcmea+x++mu7erzqoiSTKT1ya5cu4aTz33UTq6OlpaVVaW13j5u6/w6Ecf5cDhfXVWlUZSrfX7nbfO8t477/Ev/5t/idfrsfufJTONQMW5vVnG6o+zys8CrPwSqPwE5YOAld1Mjj+p+8c6t1FBXrxwkRd/8EM+9ZlfYXTf6B1FABWKRb76pa9SLBb53D96Hk3THIqkFgVULpd48XsvsbKwzBPPPkFHT3sdWClXylQqZd47c46Jm5P0DHRz4sHjjsRNtTwr5VKJG5fGmLo5g6LIDOzrMzkXuwAW6x3MfaYrI5PKUMgVqZQr5nF6NXsqoGoKLo+G5tHweN12GLZVbqfcnYodTAvN4uQSC5NLlIolQrEQQ/sHaO+J1Tp2nfn4zt0NVhstzSzznT/7AfMTixx74DDekId7P3oXgYi/RR3srPALhQJTV2aJL2ziDrjoP9yDO+DeFaDsBoLvpLQyFdfq0AzDTK6mWbi+giRLjNw1SCDi+0BgZf7WIrM3Fjh0736uvzfGmRfeYfDAAJ/4zafp7Ouoc7e1VqytFehuk4lyqczi9BIzY3PkMjlcXhc9Q1109nfg8rhaWlmc9dYYYdV4v92sVbuVnd6rFTAB05KQTmyzvhhnZW6VfDaPqql0DXTSN9KDr5q/pvF6OxXnO1hApVQu8fq3T9O3p5vHZJGP/cXLBOIpXn/+I7z/+DHKYmtwXa6UKeTyXHv7FvlsnuHjAwTafFi5Z3YCKeVKmVwqz/pMnNR6BjDQfCqaX8UVUHEFNCS1dRsbhkG5UCGfLJBPFcinixQzJQRBJNDhJToQwuXVmgCLZa0o53Wmz89hVAz23jfSEqws3lphcWKF/Sf20DPSgyxKtnVEROCdl99HEiUe/cTDKIpaZ1UxKgY//JtXaO9s49GPfaSlVUUURb791e/idrv51Od+xX42WZJ3dP+srazxtS9/nWc/8XEOHj70gd0/v+hA5UNBprXKTyNLLewe/eMktzbmVLHOrSM8GQZt7W3cGrvF7Owcx47fxXkLAAAgAElEQVSbK6O2igAShGpUBmYm2o6ODi5duMR2OsPw6HADeckkzwqiSN9gL/OzC4zfGKenr9vMKIpJ+LUWB+zq7URWFG5dn2BlfoXOng6TlGgz3EEUJdq722jvipFObTM/scjC1BKGYRAM+ZEVyczLKNQiFUyCmLUwm4CmqXj8XoKRAIFogFAsRLgtRKQjQrQjQigaxBfw4aqmn3YSEuW6vBQOkq09Y5GqFilYW9hg6uoMY+cnSG4kiXZEOHzfQUaPDBMI+u0ZiBUx4SSlOZn3uxGorX3+kJ+7HjlOOBbkzRfeZnlmla6BDmLdUeDOQEoum+P6O7dIx9N07+lg4GgviqvZimK67qzzqisuG478Knot94kFDnf6CAh1v80IH1O+TM6h+YYuv5l0L7GSZH12A0VTcAVcGBh2Fs6acd6qp1o9BiJ+Lp++zo++/mO21rb49H/xSZ78tcfwB311faHxb6strNIYIdFIsnWeJ0kS4ViIgdE+/GE/2VSWpZll5scX2FrdwtANvD4PsqzUZMECVw6SbP1SD85on9tH+jR+ZGfkj0NubbO/gwC+vZVhcXKZmxfGmRtbILWZIhgJsPfoHg7eu5/O3g606jozreR4JwJyE+HSgNRWmsWpJfpGeykPd3H+sWNkfS4e/8abHH3rGvHOCPGov0luS6Ui19++RT5bYO89w/ii3h1BSkUvUzEqpDe3Wbq5xsr4OsV8iXCvn84DMYI9ftxhDdWjgGjqu0qVaO7MtmwYBoIEikfGHdYIdvnwtZvBAqnVbbYWUhSyJVS3hKSIDsutKc+yKhGM+UispokvbOKPes0s3VWZFwSRYDRAJplleWaNtp4IcnUxVouU7/G5mZtYQHUpRGJhO2utgJnRuFKuMDU+Q/9QHy6XCzuDsCO9QqWiM35zguHRYdzVjMPQQPwWa3rI5/Nx5dJVDIOmnCqN/aaROHtnhNqfTfTP3zGh9sMd9WOVv4voH+d9TAGqP6ZVqLIoirjdbi6cv0A0GiXWFmsZAeS8rwB4/T4MAy5fvEI4EiISi9SEEMM0SVdDlvsGe5m8NcX0rWkGhgdQNdUGKwIgiCKx9gix9igzE7NMj00TjATxBwMmQ16oRRq4PR56h7pp74mRz+aZn1hkfmqJcrGC5lLR3KoJGnCuHlvrrJIo1YGXO1HyUkMEkKXYrevpusHWWpKZG3OMnRtnbWEdAYGB0T4O3bufoX0DeLzuJoXuBCXOTu5s21YKwRnNZZXkVgpf0EPXYAcvf/U1Jq5M0TnQgS/oxQoxt9YzqQMp21muvXWLQq7A6N1DRHrD5tGtQEqllujN5htVrVLbiQyJ5RSJtRTJtTSp1TSJ5TSbSwnSa9tmjpVi2XRTyEKdLBqG4UDWtZlsVbUhaxKRriCZRI612Q2MioEv4gOhNVixIsSWp1f41n/8AbM35+kZ6eJjv/EEo0dH7Ps4Q0Gt9rDqvRGk2G0i7jwgOwGG9Xcg6KdnuJue4R5Ul0pqK83SzApzt+ZJbCQp5ApIkoTqUh2m93rg0hjhY8nwBwEqTpl1RgIJgrk68vpinLnxBcYvTzF/a4F0YptgJMDQwUGO3HeQ/j19+EN+ZElpfucWctwa/DXqH1hbXCO+ssno0eHqelGwPNjB+48fw7+V4tkvnaJndo2FwXYyHtUOmx8/P0UynmLPXYP4Yz4ztL4hRNkCKcVCkbnLS6xOmry1SH+AjgNR3GE3iIYt05WGpIaGA6A0A23T0iNI4A67TMACpFe32VpMUcyVcIc0BNF8X1EQq2BFJhDzkVxJs7m4hT/qQ6mmVcCOBgqyNrdOMp6is7/ddrMIAnh8HpIbSVbm1+gb6bGjGy0dGQwHmLw5jV7R6envqu4TzUjHar8IhALcuHwDUZLoH+izZdzZltYNLfmJx+PMTJmL2TpBTCNIuV2Y8k7g5GcBVP6OE7/9YgKVVjPqnbfvblWxjqmbzTisKtFolPFb48zOzHLsxLEmq4ogtA5X7urpYm5mjrHrY+zbvxdVU+veUxBAQERRFbp7uxi7fouF2QWG9gya7HcnWBEEfH4vvYO9rCytMX59ElEUiHXE6pS/OeMWcXvc9Ax209nXQSFfYHFqiflq5E8+U0CSzDBlC7TUrWviBC2OAaDVp5aZs/YBgfTmNiuza0xfn+XWxUnW5tco5ot0DXRy8K597Ds+SltXG5rLZQMmZ4du/L3bx2rv2t/1Cr9YMKOIOvrbOfn0vRx/+AhL00v84IuvkNxM0T3ciWwvGmieWdErbCe2ufbWGLqus+++ETxhtz0rbeQc2a6/qlLPZwokVtKsz8RZHltjazFJJpGnmClQypcpF8u2K6NcKJNez5Ba22ZzIcHWfJJMPIOuV1DdCoiWTDkyOQvOLzMEOdwVolKqsDa7QTaVI9wRtGXV+k8URLYTGU595Q1+9JU3GDo0wK/+q0+huTU2FjfpGmhvGXbcqFytv23w4iBdW9t3AyvO8E1RFFEVhWh7hMHRfjp621FUhVQizcrcGkvTK8yPL5DcSFHIFTAqOrIsmRaXJvBigWepDsjsGp7ssAaWC2XSm2niy5ssTi0zfmmKmZtzxJc3KRXLRNvDDO4f4PC9BxgY7ScUCdqDYSsZ3qkenDK7E8g2DFiYWKRYKDF0cMCUzGqagrIiMXF4kKv37WX08jSf+NobqPkSc0PtTI0vsTK7Tt+BHiLdoTrXtA1Uqu6eZDzNzPkF8pki0aEQXftjuEMuEASHlbAxJL+WcdnY4V8tm7Ips5Is4Am7CHb6QIDEUprtjSxaQEPR5DqwoqgygTYfiZUU8cUEwZgfSavJpKJIaG4Xy9OrSLJIMBa0J1uCIBKOhpgbn0ev6HR0t9VZVRRVJZ/NMzc5x8i+YXNS2ADANU0lvr7JwuwCh44eQrJIwc6oJet+1d+GbnDj+k2GhocIBAI1YLVD/2m0Tlrf/4DzqXz4w5Ot8vNAqnWe74xAGLs5xre++W2eePJxTtx9Ytc1gKzthqGzubnFl7/4FSKxMM999pNIklSnNJzk2sWFJX743ZcIhgI8+vSjeHw1DoTTfVAqFXnnjfeYnZwl0hbh6L2HCcVCduSQ06xr/c7lcqwtrrM8v8rG8gblSgVJEgm1hfAFPHgDXrwBD96AB1mRW2adbKpXA/LZAplUhkwqw3YqQzadJZPKUCnrIEAwHCBadR2F28O2z9cqjT5V4QOQDo0W2WZb8Rtmb81z4/wY9z15N96gx+bozI0v8OKXThFfjvPwp05y/PEjZmI1XSefK3DhtcuIksjee4fRvGrTmknOtrO2lQollsfWSK6mzRmiS8YTduGNuHEFNTuDaFPdVnSK2RKF7SKFTJF8wlzCQFYl2oajhLoC9ZE91iDsdHdU98fnEyzeXCHaHWHkxIB9jKHDpVev8e6LF2jvj/HRLzxK96DJQylki5w7dYnB/X0MH6qFg9e4LbU8JVa7OUFKq7a8nb/8dsRiQzco5IvE1+Jsrm0RX90kndy298uKhNdvyqzmdqFqMoqmoGgqiiqjKHK1b1YH+Opsv1QsU8wXKeSLFPNFSsUiuUye7WSmtu6VYJJuw7EQkfYQ0Y4o3oDXHsx2e8fbyXAruXV+O0O2z7x4Fs2jcuyhw3X8MqfLslwpM3p5mk9+9Q3UTJ5/P9TB2ZN7GDjSh4Fhy63l8rFkdnM1wdylRRS3QvfBdhSvpZt2DhSwn/EOMljX5MMpMyaYyCeKrI9vQcWg52gn/ogXi7gqCAKyJJuclXNzyLLMoYf3oaiKg68iMnl+hsR6ipNP343H67WJtYqscPPcOEszKzz56cfw+nx1XJVsOscr33mVo3cd5ujdR2xSrXVdWZRYnFvi1Iuv8cxzzzA0MoiTp2JbkR08lWK+yH/6w//MAw+e5MGHH+JOeSq17T8dnsoH4ai0usfPsPzDINPCTw+otNrXSLCrAYrdQ5WtYw3D4Otf+2vm5+b47d/9bYKh4B0Ra3XDYOzGLX74wg8Z3jPEU88+aV+z1YA3NzvPqy+9hiRJPPb0o0TawnWRRlZ+FF03fa2X3rtMNpOlf08fB08cwOXWGu5fizyxthWLRTZW4qyvbLC5tkUmlaFcqUb8GAaaS0VSqpljZQlJlhAlkUq5QrlUNldLLZYpl8p1daq5NfxBH76gj1AsSKQ9jMvlsvc3ugic5YN2MGf7GA15UhqJrdfPjbE0vcwjn3rQnO05lH2lUuHS6Su89tenUVwKT3z+YfoP9TL2/gSbK1scfGgvmlet1X8DGHRGdKU3tlm4vkK5UCbcHyTQ4UVxyxj27LKFHDb8turBMAwKqRIb01vkUgVcPpWOPVF80VqqbguwWPwgJ1hZmdxgbWqDfSf3EIj4mL+6xJlvvYde0Xnk+QfYf+8okiTVsrKKIudOXcLjc3PsoSO7AhXbZy+ITSClCXjeQbverk6cvwu5AunENtupDOlk2gTH21lymfwOVtnd1ZwoimhuDc2t4Qt48QW9+II+guFgdRVyWr/X30J+64i/LWQXamDlzItncftdHDl5sCVQqdiJ1wyMQoE9X3qNL7w3yWZ3iK9/7j4mB2O2jNYWMa2wncgw+f4sqkel73gXiLoNUmwdswNAaXzWXeu3QS6cBO9KUWflahyjjAlWwp4msJLdzDN7cYGefd30jHbZ5FlZlCjlylx8/Rp9e3oYPTZi71MklUK2wJkXz3LgxD72Ha6l17cigE6/dIZyqcInnn+mjlRrXbuiG3z1T7/GgSMHePjRB233duNChdZCiKIg8ldf/DJ+n5/nf+35JqBi1UEjUKmrG/v3P0hC7Y5ARd5px89rMZNz3TlYEQXxjjoLmI3cKhpAFISmGa51Xfu7+lwf//gz/Okf/ykvfv9Ffu03fs1U5rqDMyCIppVeBHTQARGdfQf2sp1Oc/qNM7zz5js88MgDpoBUH0cHZAnKFegf6OO5z36Cl1/4Ea987xUefuJhega7EfXqkaKMKOjoosiefSP0DvRw7dJ1xq7cYml2mX1H9zJyYBhZktF1HcHQkazIAENA10U0TaRnoIfu/i4AypUymXSGdCrDdiJNdjtHpVyhUq5QKpdNgFIsIckSbo+bQMhciFDRFFxuDV/Qh9fvRdWUD6zQd+tUVsds1W7O9rEHS12sawvrvEKugObR6tx+1jUQDI48dJDRu4Z56/vv8u3/+CKdg21EeiLsuWsQt89FWS/XuXwaLVblcpmViXXic1soHoW+u7px+ZUqX2D3CJam96oKhSiKqAGZnmPtbG9kiU8nmbu4TKjLT+e+NqgGXImIlCtlO8xT10UQddoHIySWktx4a5z1mQ3WZjY48dQR7nn6BJqm2K4HU/Z1REQ8AQ/biUz1WXdXYK2sCq1nh3egCIX6KBLJcY5RbWdrv9vjxu1x097dVtf3dd20ZhULJYqFIqVCyQbSlqnddDkJqKqC6lLRXBqKWksOV/9ItwciPwm4biy6WG1vvV7n2PeQRNM62aI4+4Vh6OTLFf4s5ufN33qUfz62yP/w//yQ904M8M1PHmc9YIIuXTfIbeeYubiArEr0Hu1AkKBS2R2kWLJf3C6RXstSLlQwdAO9bHKwdN1AFAVcIRVXWEXxykiSRMWoIAiC/W6iDnpVSUqqSOfhKCtX4ixeXqH3aCe+sIeyXjZl2dDxRT34230sT64Q6Q7h9tZSIKgelWh3mKXpZQb29yK63Ai6ji7quH0uwrEg8xML7Dk4XJXJWpRi72APl969QmIrSTRmEetNfakbIrIs0dYZY3lh2d5nuaacQ65uGEjV393dXYzdvIWu63YOGee59m9dvyOAcKfHfdjLh4qjYpWfFqn2g3BVzGNbR404ibWaS8Pr83Lu3HlcLo3unm7bD4njTEEQaOSrdHZ3ks8XuHThMpqm0dHVvFKq6UcVcbldDI0Osby4zLVL11FkhfYukzTm5K0gmBEUXT0d9I/0k0ltM3lzitnxOUrFMr6Az0xa5CQwOn3p1EJWXW43gaCPWEeMrr5Ouvo76Rnqpn+kl4HRfvpH++jf00vPUDdd/Z109LQT64wSiobw+DwoitySryI1RFOYMwqp7rfTn994bCMvwukbbvT5Yjh9vQYWi2jm5hyqS6Gzv6NGTsWyclR/SwL9B3oZvWuE6++MMXt1HkWTaR+IIilOd12NiGgYOpl0lpkLC6TXtwl1B+g+1I7iajShVyOAHJESzT79ij3wWDwXW+68KsFuP4ZusLWUppgp4ou67cHUosnaXCkESvkyt85Oc/OtCQKxAJ/8r59k6Gh/NaS8MQmfeVY+UyC+tEn/3l5T1sSdeSaCINTu73CHOF1DNo/lNgRbJ1fFyXNq5J00/naSvSVRQlZkXG4Nr8+DP+QnGAlWPwGCkSCBcIBAyI/X78XldqEozfJ6p3LbyD1pJb9Oc38r2W3kwwnUVq229MjSzLLJdxvswjB0W3Yrhm7LrvX3/PgiqXia7nuGuXlikAuHu7n7wiyffeEigq4z0RciXy4z9f4cuq7Td7wbSZOqVhlTVi0Xc53VplgmvZYhPpkkMb9NOVc2+4+ugwiCIiCpJk8js5FjezVHdi1PMWe60US1RiQ1+6lR1ZsikizijbrJxvMkl7fxxTzIqlRXH96Am/hCglKhTKQjWOOGiCJun5vl6TUkSSLUZnJVTH1nWgEXp5eJdUbw+X01ORMEvD4P49cncbk0Orraa7JkWRKBbCbH1PgMB48cRFVVu7845dvJUykVS4zduMXI6Ah+v/+2PJVGLsrtuCk/C57KzwNH5RcCqLQGJNVrNWx3ApHGezVGALVSJIZh0N7ezurqKpcuXmLf/n24PZ46sIKDZlsvZNA30Ed8Pc7li1eIRiOEo+EWwmcSbFVVZXjPEKlUiuuXb5BJZ+js6TTdMHZYsuUjFdA0jYGRfto628hlc8xMzDJ1Y4rN9U0URcEX8CNJtZBOq8PWh3vuPCjcURTQDmCjldIXBDPiSbyDARHqf7ciHtrg0LBqvwZUJq5MEYgEiHVFWwIVEziYUhBf3UQQBQ48uJdb705y/pUrKJpMpCdUtXYYVKrm9/RWhunz8+i6QffBdsJ9ARAMGv38UHP1mffXqxLn/JizMwtmWe9lky5FAW/EgygJbC2myaUK+GIem7divb9e0Rl/Z4Yff/EdDN1g733DhNoDdI92mqRPsAm25nk1pVsuVdhYjNPeE0Nza7cHKg55MGXXOajXH9MMShpkgoYIIydoEWje1iKqpxnI/OSf3YCzU25vJ7+NwKtuoKI2UDjBilODLc2uUKnodA91IVALUTdJqrrtVtT1CrfOTRKI+GgfbEPXK6T8Ls7cPchim49nX73Jk29NMZHKc80wQYrmU6sAuT5SzQIpxUKJzakkGxNJsvEcgizi73YTHvbh6XThblNxxzTcURVXRMXdpuFpU5E9EoYO+a0imfU8hVQJ1a8gSPWEa6tvm2DFQ2olQy6Rx9/hrfGvRBFJkcAQ2JzfxB/x4fa6sFwvqkslm8wSX9mkd6S76oox7+MP+JifXELXDbr6OupItZqmsbESZ2sjwd5DozWZcgBkWVYYvzFOW3sb0Vi0pieFmrvT2aYut4vz58zo0J6e7iZQ0tj+OxFqfwlU6suuO/++igUIPkj5aVpVnMe0AisAff19XL54mfn5eQ4dPmSa+XYIWTYc20VBYHBkkIW5Ba5eukpXdxf+oL8lWAEBSZIYGhlEQODG1ZvMTMwSjoQJhExWudWpoDYz9vl9DI70M7x3CEVVWF1cY/rWDLPjs6QSaXRdx+31oChKA2ipj5RoHBhqYZ+7KPcWCty6lhXueSfKvZWyd0aJgFPhNQzqRn3n0ysVxi9P0tYdJdQWtNvEAg11UQzlMjffHccX9rL3vhEOPrgXxSXz3guXmDw3S7DdjyfswjAgl8kxdW4OSREZursX1ac4wprr+UrW/QB7EGiEKYb9NtYwRMMec6Mn6EJxySQWU2Q2cwQ7/WbEDQIr4+uc+ctzrIyvceLZQzzw/N1EusNszG1SLutEOkJ1ytbZ9ladLU+vEooF8Yd8TW1UZwmrSwBngeZacjiz7g2y2zmSmynWVzZYnl9hcWaZ+OoWW+tbpLZSpJPbZLdzlEtlBEFEURQbJFjXbgIMsKOc3UmUz518dpJZZ520AuatQJcFIneTX6r6wpJfC5CszK9SKpbpGe62ZdW2FzqAysbiBmvz6/Qf6kXzaqZ1pCpzi+0+Tt0/QDmZ45+/PcWj2SLLe2LEvTIW8K4B9mrUWrrAyuUNCuki7phGaNCPv8eN4pOw1rBqBbgNEWSPhCeq4u3UkDWJbLzA9moeURVQPDVXmzN0XlIkVI9CcnEbXTfwRT02cBNFEW/QTWIlRTaRI9YXtSdoomAu6Lg6s47mUglEAghUF4yUJfKZAitzqwzvH0S2cj9VQY5R0ZmdnKNvqBe3x+2YcJnfbq+bG1duoioqA0N9TVZIwfm3YIKfsRtjlEslDhw8UAdEWgGVWt/5+4v8+XkAKh86jspPWkThb89V+SDH+P1+nv7403z7W9/h9VOv89GPfdQ0le/GVzF0BEFEU1We+8wn+cZX/4YXvvMiTz7zUQZHBpo4K6LlzBXh7vvvoruvizdOneZHL5xieO8Qd5+8C9WlmtwV0ZyN2/dDxO/3c+zuIxw6fpCl+WVmJ+dYWVxlbnIeQRAIRoJ09rQTioXxB71mojkHR0iiNVlOFHaul92Ik4ZhUC6ZYbmlYolisUSpWKJS0U2SmyIhyzKSLCErEm6vu64TWVc2OUOC6RMXzDTedTwGUa+LqrD+lqT6LLqtSmozTalYYnDIXPkaEQ4+vJfBY32c++FlXv6jH9N3qIvjHz/IxsIWhgH9x7qRVNFBom4mVYOTo1JPnty51Ih1hlFlrlTbOtDhRRBh9Uac+NwW7oCbay+Nszqxwd6Hhjj8+F5cHjeGYODyaYQ6g2ytJKkcrtirQ4uCuSaRiBmFJArYqeQbSdLOrLRNTyk0EGxFgeRmiivvXWNrPQHUK13Nrdmk7FZFEARcHhcerxuP143b66l+mx+XW0NRlSYFqxt6Hbflp1YMTHktmCn5S8Ui5VI1HF23+BlmW3p8Hrw+Dx6/B1mW69pYcuoU0eroO8uvJduqppHaqkU6iaJIpdIsO8mNFJIiE2wLoOsVe7v1DCVF4g97gnzpsT38m40Mv///vc2PjnfxpccH2XTXr09VLpVZu7mJIRi0Hwkju+sjFaEGuBuLzb2qTi7cbSpqUCY5lWVrMo0gCHhjVV1j6DZnRTQE3BENf4eHxGKKaH8QzS0iGuZxsiTTOdLGwvUVtje3CcYCiLqOLogEon48ATdrCxv07ulBQqpOGkQ6+zpYnFpmYy1OV28XuiHYTJXOng4A1lfWbZ5Krd4MJEki1hZjY2OjXiQaeCrO0tnVwfLSSrVPNR/0d5y75ENRPrRA5YOSane91m1AjPNeTmKtBVas8+3v6vH7D+znvsUlzp59l86uLg4dOWjfD8xOvBNY8Xo8PP/5z/Ldb36Pl154mZMP38/RE0d2BCs60NXdxfNf+AwX3r/IpXOXWZpb4p4H7mZwdNC0cugmWVYwqs9dHZAEQaR/sJf+wV7KlQrxjU1WFlZZXlhm7OqEHWYoSmI1YsePz+9F1VRkRULVVBRVsQcHZ5inYRhUKno1CqhEqVSqKvUShXyh+imSz+Up5osfyFLm9XvpGeiid6iXQMhvrytiD0UtlH2rIskSgihQLJZue89UPA2AP+JzhF8aaB6V+z59nNGTg7z7nYt8/w9eJdIbZN8jw6huxQ773Kk4lXpjeGerIohOma0CAOrBir/NS2o5w41TkyQW03TsjfHUf/swgZjPTBdu6FBV2P6ol63lBLl0HikoIVXBidSgL/WyOcBJ0u0H/FbApVwqMXZpnJnxWTSXi4PH9+Pxe/H5vXi8blwel71Ss7mWVoVKVWbyuQLZ7Ry5TJZsJkc2k2VrI8nS3ErVKuW4tySiuTRcbg3NpdmkWFmWkS3Aq8i2q7OxVCoVKhUTLJnfFcrlMqUqGCkWzbBlC0xXW+U2NVIv226PC6/fS1d/F0OjA2Z/tJ6fGuBulF9REE2CbRVreHzuau4YY1d+c247j9vnsgfBusgiQ6eYL7Edz6IORPj3j43w4n29/M4PbvJH/+9ZvvyRfr51VzuIUNF1NsYTlPJl2g4Fm0BK3bITDTJcnwLC/A4UDT53LcXDszl6NwuE3tskrYkshDXeHvbz3aMxtj0quiAiohPo8ZFazbC5kOL/uDLBRy+tcG0wwv/+Xz6Ev82HIArEl7bwV7PxWhOqf31hkseuzTN1+jp/+W//sb0vEDHztsTXNunq7bLrRjR0XF4XiqoSX98yiauCpUNrwDEYDjB1a9q2ijbKfSNxNhQOc+vmOOVyGVVR+CDFqOrrOy2tnueDlp8Hwu6HFqj8JOVvY1XZCaw0XrsRrDz6+KOsrq7yyksv09YWo73TXKvnTsCKz+vl+c9/llde/BFvv/kOic0EDz/+kA1WrHsJgo5YjdYRFJF7T97D8J4hTr9+htOvvcXVS9c5cuIw/cN9Zur6KmAxByKx2vlqVp6OjjY6Oto4ctchioUiia0kqUSKxFaSdDJNYiPJ0sySDSp2cqvtVmRZQnO5zIggn5doLILm0lBdKqpqrmqrqgqqaq6wWqmUa4NFqUw+l2d5boXxa5PcujpBMBKkZ6CL/pE+1GrIaCtlb1tdRB1Rr/4SQdVUSgVzzREaZMS5fkx6cxu3342syHbYJ9SUfqDdx+O/8yDnvn+Z6fPznPv2VQ49NUrPkQ7sENEGa0ojSLmj/BOOXbpoyYJhgxWjbLBwdZXx12YBGHmwj0NP7a3Nyi1Z1Q1ECTxhM1Iitbldt/6M9f4WMNEdoHUn5WW5fey/BRMMLM4scv38TYqFIsP7hjl44gCqqlRN4y1yREgSqqyAI3y9VTEMg3wuT1WMymEAACAASURBVC6TswFMPlcwV/HOF8jnC6S2UpSKJcrl1laa2xVRFJEVGVVVzfWsXC4CwQCKqqC51Op2tSq/JoC33UCi6ZowDIPMdrYaPWeGT6cSKa68d5Wpm9McuusAXX2dpluHBsDtkF9LLqy29PjNjK65TA63f+e6ymXy+CP1besEw8m1NLqh428zj7nZG+D3fucEj1xe5Z+emuSZ88v8xyf6+KEqkI3nCA340Pxq04Kqtiw71guzSl20EvDseIZ/c3qLQNHcXhEgLQmE8jrR5RzHlnP8xvsb/N9P9PDq4TZARHZLeKIuEospRy4nw7aqBGJetlYSDBzqs11QoiHYeqFcKpm6r/o8siwRjATYXNuyrSwWDhcEgUgsxFZ8q2WdGrpOOBKmWLxFKpkmFA7VvWutv9VAfzgcwjAMElsJ2tvbmuqnFbD4aQCOD3P5UAOVv0uryk6llQvIeS1JknjuU8/xxT//Et/+5rf5J7/9T3B73E1gxTqvlRvo4889Q/hMiHffeY9kIskzzz1dy2C7g3Ul1tbGrzz/HOM3x7l0/jJvnjqN710fh44dZHjvkLkOj+V2EKQmKwuAoOu43W5cLo3OrvY6cFaumIChWChSyBfMcM9iLRGW9S0IJslT1UwAIismABEl8bYzg90sELqhM3pghHwuz9z0AvNTC1y/cJPJG9M88MR9hKKhloq9cZtVNE2lVCw7jtOrgNTxPLpBOrFNpCvUUlas580kMsiazMnPH2drOcWlF24ydXaOg0/vIdDt/UAgxdDNRdwEGUS5Fk3gfCdD122wApCYT3PrRzPkkgX2PjqIv93L5mySXCqHN+i1AablCtENHdWloLgUtjczMFQdwFpYTfRKVVZFJ7DYPdS4VCpx7scXiK9tEm0L8+BHHyASC9vXsAjfjddoJR87gSOfX8Hn9zc/b9OM3jDdSuUy5V3cS5Jk5geSZdMKI96BBel2xTB0PB4Pbe0x89mq/JGVxVWuvH+Nd398jnAsyOG7DxFtj9RbCBvACkClalLx+EyuRnY7hyfgAWvWbdTcO5VyhWKuiMtX776wngMgsZJC86hVAm1V/gSBV4+0cXpviF89Pce/+9YET/tVfv9YhESnqz7YoM5a0rzKdWN5/lqKf3s6gQhci6n8h/tCvNvnpQykbmzzwHqBfx0vcmgtz//64jzeksELd3ViGDqhHj/L8Q1K1agho3pPXdAJdQVJrm2T2kgR7ggh6jqIprsYsPu5ruu2iIdiARYmlqhUKkiibHPJJFEiFA0xfm2SSrmCLDUPmeFoGIDN+CahcMh2l+5UwhHz+K2trSagUtcuP0GI8ge1uHxYyocaqPwk5WdhVWl0ATUe7/P5+PRnP82X//Kv+N53vs/nPv+8OcNyghVq12gEK5IIDzz8AKFwiFMvneKbX/0Wzzz3NKFIqMkVJElUrSumGXjvgb2M7BthbnqeS+cvcfb0u1x8/xL7Du1lcM8g/mA1OVjVygLUgRagDriA2RlUWUGVFbxud0s/tPO8n7w0m1CtYvnzPR4Pew/uYe/BPWzFE7x16h1Ov/I2Dzxxv63sLUXvzKRrmc+t3BSKplDewfUjiiJ6xQwzrpQq+CO+HZ/YMAxWJtZRVJnYQIS24Sg9Rzq4cWqCt/7sPN2H29nzeD+qt97kqxs6elknuZCmmC1RLlQoFypUSuZgI4gCnpiLQI8X2UWTZQQgm8wz/eNFNsa26DnRwV2/fhCXTwNdJLmYZnM+iTvgrlpSzPa13D+CIOALe0hvbu/qX3daVBpLY24Uy5py7b2rbG1scfzkUYb2DtoEVOscK1Ks8To7gaEPUlo9pyLfmbm90XLxQUpr2a+3Slky3NPXTUd3O3NT81w9f4M3X3qLnoEu7nro+K4ZbAVRQNRFPD7TopLP5O3ntXLtCFX9ks8UAHD73C2vVcqXyGxliQ1VowyNeuCRlQX++IFu/tjQ+Z8mk3zvzWW+kSryJ/e3kVBqRPBGd09jPVi/D2yU+NdvmSDl1ICL33uqjbIkIAhmLhvvHi+vFSq83+/lj8bTPDa1zX/32iI3un3MdPlR/QquoEphotj0Lt6wB0kW2VxOEO4I2c9lTaDKpXLNGlyV/3BbmNmxBRLxJO2d7Y7nNQhHzYSaia0EbR1tCEbVKi2YPK5ILAwYxNc3Gd4zvGN7GYYOgmhbXbY26600v+hWk93Kh75Wfpq+s1ZCshs6bUWEsgmDDcq2u7uLjz39Mebn5nnlh6+YhClHvL2VZtn+LYp1yl4UBA4cOsCnf/XTFIslvvHlv+HKhav2PWRJNpcgt44Xa2mcZUlhaGSQ557/JJ/4zLO0tce4cv4q3/3a93jp269w6/o4pWK5Lj20VP0IQm1BQVky86BIjo+5X2r6mEuvS3+rT2OkRGMOFqH6rtbzhaMhHv/Eo3i8Ht5+9Szp5HYdkbNV5lSrvlWXSiFfbGo3Z8mlTWXvDXrqzneaz4u5EpmtHJH+IKJsgiDNp3LsV/bz4O/eRTaR5/Qfnmf6rYWmJF3xiQTJhW1K2TKCBK6wSqDPR2QkgLfNRXYjz+rVTUr5ct0AUCqWmTm9yPt/co1Srsy9//QQ+z42aK5kC4gS+Dt8pNczTanZncUb9JhE5sLO7hHLAiFXB3uhQd6BusF1bXGdxZkl9h/dy/C+IcdCfmIdSLHbstrGzpW2ZTvsvZbj56f1cV638VOTw52Pud25rWTZKcfWe8uSzPDoEM989kkOnzjA4uwy18/f3FV+rTp3uTRUTSWTzjTIda0divkigiCgulqDtO2tLACBtnoQ7pyEJJe3mZFE/t3zw/z3nx3mnvltvv7n43zmagKxQa4alxtxkmwB/tX7KVQdVj0i/8vjEcoNZCjFLeHrcpPeKvK/PdLBuldGrRj87pkl+5mCPf6W8ixKIoE2P8m1VP0zWSH+FZ18Ll97Pt0gGA0CsBVPNF0vGPZjYJDYbN4HmKkd/D4Sieb9rYCapmm43W6SyWTL6/2yNJdfOIsK7G5V+SDEWmdxWl924qscPXaURCLJW2feQlEUHn/ycYQWlhWwA3OqBC7L5KvT29fLF37zC7z68inOvPEW05PTPP6xx/EHfHXWFQQRQaiaX3Wx+lukp7ebnt5u0uk0E7cmmbw1xXun3+fcW+fo7uuhq7eTju4OAiEzJFq0XRGOEDjDqQxb19VPYk1prFen7qrVrVRzlTncVNW8Uvh8Xj7ysYd49fuv8/arZ3ns2UdQNaXeslKxnr1GSgyE/CzPrlAqlhDlejdExX6XZrdHY8mlTQXoCdbPXHVdJ9jl5/7fPMry9XXGTk2zcHGVkcf7iOwJkE/kyWzk8Pd4CfX7aqb36rt62lx4O9ysX0+wfj1Bx+EwhmKweSvNzBvLiJLA/k8O0TYaRhJFOwrIMkGrXgVDNygVymZafKE+wslpQduN0GzPzP219xMdfBQnUNcrBlffv04g5Gf00B677pxpwGvAugHg2+7D+rrejRdzu7KbleNnUeotgOZ3oxzXZNjUEaqicujEQYrFEreuTdDWFaOzt6NOfi0XEEY143IFgpEAqc107a0aIn9k2Wxvy3XXWCy3raLtPCTkkwVUr4LqVbjgkfjt3xjhk1c2+a/eXudzl7f4Px+O8m6XVnv/HXRA+3aZj8ybcvRXh7xkVJMXJlZ1qG76sdEiCttLeeL5Cn9zLMK/eGuNk5MpYukiW0E3ml9x8JNrKQUkwO3TSCynKJXKiKpIYzxfPlvA56uBMlVTkCSRQrZQfe7aGS6PyfvJ5wot30c3dNxuF4Ud9rcqLreLQv7Oj/9plw+b9eYXEqjAz9YF1Oo+1jkfeeRhKuUyZ8++i67rdtjyrgRbwJluP+D38dxnnuPaleu8+fqbfP0v/5oHH3mA/Yf2metMGA4w1QKw6IZOIBDkxN3HOXbXUeIbm0yMTTAzOcvC7AKGYeByuejs7qC9u51ILII/aGawBWzwAvUAprbNuKMw0Ka6ajDT17ePIyxacJ5bI8Raj+XzeXnwiZO8/uIbnH39XR588mTdLN8CfjiApb8KzLaTGYKxQBOh9k5LMWsqfNWjthzwDQza90cIDweYPbvEje9P4+/y4O/yoHpkAj3eJpBiFcUjE9sfZP16gvmz66QXM2Q3CvTd3073XTFkRcZaldYa6C0Xj+pWMAyDUq6Ey6PZ9VunrKpV5AxdbSzZdA5JllouhWAVa/vktSlymRz3fOxBkxPVMNt3gpSdAMpu7p8P6ov/mYQmN5Q6PdHgOq1uremOxjg1hwwfu+cIG6txzp25yBPPPYrb42oC284JUTgWZv3qBqViqZr8zMFhEsVqtmHQK63btlI2+TJm5FFrd00xW8IVVu1thijwrSNhXt7j45+dXecPv7fM64Me/uD+EIsBue5cpyzfu1y01dqpAVf9pM7RRrJLRFQEcskiPx7x8y/eWkMEjs2neS2gISkyQmNYWrUNZLd5/0K2iKaqTbq+kCs26B8Dza3Z4MECPEA1JYJMcRdgoTUAD5OA3jrdga6bVpVisea2MnTdtrD/sjSXfxBA5adJqoXWIOZvw1dpBCuPPfEYoijy9tvvUKlUeOqZp5o5Kw6wYp1rgRUweY6Hjx5iYLCfV374I3586g0mbk3ywMP3E2uPmcqf1oBFRDLXoMFU3m1tMdraYtz/0H2kU9ssLS6xsrjC8uIKs9NztpIx1/DxEwwHCQT8uDxuNLdmrq3idqFqKlTzbexU6upVaO7ITlOzNbDYs9AGCwo0KPtqP9d1iLVHufcjd/PO6+9x+d2rHD95FGzwV1P0YJISgxHT9JtJmvkXrLa0CIn1g+TOFodCtoikiEhKre7ttPeOd5cUkaGHuuk4HGXsxWkW3l0jti9I7EAIySW2BDlWDpbMep7N8RS+LjfHf2sPml/ddXakOxS3lbK8VbGTSTXc2gkWsts5vAFPLSGXUE98tQBhJp1j4voUvUM9xDqjtjuz0d3TCFIaAUorYu1uLte/y9JyoiM412+p5ufZUY6rXKEWMows88Bj9/HKd1/lvTfO8cjTD9VZ96y/LatgKBYEQyCd2CbUZsqyU34toGJxnhqLUTFBiiiZfKzGUilWqJR0FHfzkJHUBP6vj8T464N+fu/MBt/5+hJ/ftTPHx/3sy03A+49W6YMFiSYCkp2XTYDUQE1oFBMlZgZDVKUBNSKQV88Zx8jVQnm++aT/Offf9UONTcMg0qpgnxmwkx2KAi4czVgYFk/nIBEdSl1VhPnPk1TKRSa+TBWcbk0Ulspm4dyu6Jp2t+rReXDVv5BABX4ycDKB3UB/TTByiOPPYIoSZw5fQZdN3j62Y81gRWAOv54bbNtXQkGA3zmVz/N5YuXeefMWb7xlW8yNDLIvSfvtSMrGgGLbuj1pFtrmyASDAYIBgPsO7AXgHRqm814nMRWksRmguRWktmJOQqF5k4migKKpqIqZk4V2f6uRU/IivlthnVquNwuXJqKqwp0ZLF+oS7zmaU6pe+MTqoHLPUz04HhflJbKa5fGqNnoNtcpA5sM7PTfK65VFSXRiqxTa8gYgjNhETzb6FpJi+IIlSVezFXRPOotWySRu38VqHPsiYR7Pfj7/YQn0px7k/H6DvZRvvRCKJjtqiXdVYubrJwdh1PTGPPMz3kE0XKBR13YHfFKAoiomqmrC/lynXbWxUBoWl2Z2UjzqVzRNvDLS0dNqhA4Or715BliSP3HKyBmB1AitOK4gQo1nmVcoWt+AbpZJp8Nk82mzNXQ87mKBaLVHQdvVLNwFoxuRACtWyvoljNBCuKSKK1Wq0AdlSauUyAlQ1WFKv7cPxdfX8rGkiSpGo0kITb48LjMRPPuV0abq8bRVFswN5Kjp19eicZ9gcD3PPQXbz9+lmuXxzj4Il9DkuruTCeNZEJx8IIAiQ3kkTaw03yqygyCAJ6xbS26WI1UZpoIBrmqufWoN9KfixLoeZVW+6vGDrTEZV/+WwHD89m+R/f3uLTYxn+4L4A39/jrrPRBAtmHSRVERoAaWPRAjL5eJFiTietSUSzZYJOGVbM85SKQXi7BZAotgBmgkAhW2i6r8vtIrudaz4e0FxaHa+lab+mtdSJOxVVU9lOb9/+wF8W4B8QUPl5La0Aj9MNJIoCb75xmkqlzLOffNaMxNCdplChOSIImqwrx04c48DBA5w/d4EL719gZuob7Nk7wj0n7yYYCjYDFmpRQk4rixO0ADZwcb5DRa9QLBTJZXPksmbeilw2Ry6Xp1goUi6VKFQTYeWzOUqlsplxtlSiVCrvCA4FQcAf8NPWGSPWHqOts41gdfkAUagpfCePxwlYGmemug6Hjv//7L1XbGRZmuf3uya8dwwGvU3a9KYyqyrLdne1nd7ZGWGwmlkJs1pgn/SmB70Iml0I+6AXQcBCgCAIOzOL0ewOdjC2q7p7ynZlVlVWWjKZJJPeezJIBhlkuHv1cE3cGxFklmszNXUSkYy4/p773e/8z/9z/SzMLDI+NEGysQ5UXTlV0OeSKBEM+zmoyPCphQ8bz7KacdD2LyvD/FEBd6Bsp39W21s+QFVUGi4maLlRz9qTbeY/XGP9cZrWl5KEWv2kZzLM/2IdtaTQ8XqKWI82Y14fSpPdOCKQ8J6o6MvRNQJOr/NERsUKErDcr/W4xUKR/HHBzNthOG0b/WD8XVtaZ2t1m3PXBvB4vSabYqyvZFKs5zeWFfJFVhdXWJhdYnVpjZKR/0QQcLk1Fs/v9+mRb5KWuE0QtFpFQnlWrapa1V6MkggqepVfrdK1qugFH5VykkLFlrBQT0OvKBTyRY71RHClUkmT66KWEK6yeXweUo31NDSlSDWlcLmMAf7ZMqyZ7jQZbuloYWN1k4mRSRKpGIn6uA1sG6yKwyETCAfY2y47kFrl91mMilJUbKZXURC1BGuCQkmFfLaIgIDD6wBU/dzlY5nsjSBwq83Hx01u/sXIPv/L7T1+f/SQf38jxFBCd8CueQW1mzOo7ZPP5DEKmFgT9BngargpxL/7Nzc0AClqVZnH3p8m2hCh81wrDtnJ7//pB1z7eAJRFMkdVYMal9tlZko2+sC8jmcxKh43+XwBRVFrRfVXn8vlIpc/+XjfNHv7WgGV30RWxXocG8Oi7/fCiy/gcDh49533OMgc8Fv/7LfMcEMj3b4BVoAqUxCU2RW328X155/jwsXz3L/7gEcPHjE9OU17Zztnzw+SbEjaAIt5PRaWxQZaoAq4GGyGw+vA5/VV9c9pfj+qXtNGy1SrZaM9Pjomq/89OjoivZVmZX6V6aczADidTpINdfSf7ydRZ+SAqFb2NWemIiDL9J/v49Nb91lf3qhiVQxFX6JErC7K0+FJivkCYg07v9OjAZBcNofb50SxMCnGM5dkbXYqCkYuFguTViqZA5BBr2uki0qpoCC7JJIDUSKdAZY/3eTp3y4iOUWK+RKNVxM0XIkjOcpgolRQkN1lBkqoGPwrm1JSEOVqgGC0/FFeG4wqIkOMbYxBMBgL1jyGIAooJYXxR5MEwwE6etq1/rOYfCqbYe4xQMrOVprH90dYW15DVVQ8Pg9dvZ2kmlJEY1G8Xi3ZXuV91jq27R6+hP3/tAzBqqpSKBTIHh5xeHhoJpzb3txhZWGVmYlZBEEgEovQ2NJA72APLpfTBN61ZLgScF947jwba5s8/GiI13/rFSRZQjXAtsGqiAqxZJT5iQWUUkm7X4v8OpwO3F4XRwfH+rNQUXUgogoiDpeTYn4fQRV0R1w7oDFykChFBdkpQUmhMs27KAig67WiJPAn5wL8XbeX//HuHn/2t1v81x4v//ZmmF2Xtl8oryCoKoJY25cDLDmZVPDntPvZt5mfaj93DRCfdMzTz/V5133e9uvO8vqPsX2tgMoXbb9usHLtuWv4/X7e+slb/Mkf/yk/+q0f0tTSZNYG0lqFky3UZFdEFLxeDy+89DwXLp/nwd0HjI6MMj05QzQWYeDcAN09XWbCuNNAC5SBC2AyLlAGJFYHRWs9EvOqrX2nTzVkGRxOB15/7SyZqqqyv5dhfXWDzY1N5qbn+dncz6lvSDJ4cYBkqk5XHBXmMVHz49D6yIBvCq2dLYwOjVWxKgqlsh+QruhBYGczTbwhbs4qDTu/L+gFQeAoc0woYU8uZvSfy+ficDfLs5phenIHXRRnd7n7/4xy7d8M4PBJON0OWm/WE+8LM/nmIgO/144nYmdp8ocFFm+vc+b7zTWObS8AqHcqxVwJp1t75WuZbo4yxzg9ekK+KiAgsreZQZJEQtGguazS7LM0vUw2k+XG69fMcHfjmmqZfIzfqqIy/HCE0aExXG4XvYM9tHa2kUjGkfSBrNLhFmoDkK/cX+WEKbJmYgKXpGVZNhJ/mUn7FIWtzW2WF1ZYWVph5OETJp5McvbSoFaNt5aJtwbglmWZqy9e5t2fvM/U2Cw9Z7tMM6IVbKea6pkdn2drbZu6xjrN/GOR30DYz346Q63mDrhQFYXcUR7ZYwcOgiCaeX+KR0Vkb3m9kWOoVhMFkR0P/K83w/znPh9ndjQ2byaiHctVgvbdInNR+/O1nlctlBAQ6Doq4dQjluZjbhMcm/4vgn0/gFJJMZkka1NVFUmuTjhZKpXM7SuvpVQqnVo2olQqmeZBo19Oa0qphPQNYPnM7WsHVL5qx1r45YAVKDMjiqLQP9BPPBHnb/7qb/gvf/4X3Hz5Jlefu1IVEQQVTIL+xQAcVsAS8Pu5+cpNrr9wnadjE4wMPebD927xya07dHZ30NrRSlNzIw6nowq0GNdnBSa1wAtgY1/MZTWAjLGv0ReV22KJkghHw4SjYc70dXHt+SuMP5ngydAob//kXeJ1cQYvDtDYnDIBi1XRa9cEqCVNYeisyt3bdlbFyORrKPpwLIzskEmv71LXWGcJS9aeo8vlxOVxkd0vAxHRoMf13x6fi/Tqnk15lwcTgcroUE/IVbPWDIAv7ubCf9dd5YwoCALFnHbGWs6NtVrhSEty5fLWNkuJgsjRQQ6Pv5yC3WYOAna39ghFtbTxlfsa1ZnnJhaIxCNmMTdrOPJJIGV3e5dPPrjLXnqXrp5OLl+/hNtSqVY7hz6zPiUK6ESfm68IuNSK6LO2SjkWRIVkKkldMsHFq+dJb6e589E97n/8gMmxKS5dv0BjS6NuS1SqALd5HlEkkUzQ2NLA9Ng03f0dmonYArZRFSJ1YVxuJ1srO9Q11pn7qqpWmC8UDbK5sk0pX0J0lP1USpTM1PvHBzn8Hi9GRWpVZwIdXgcImgnIHbPL0GfRj2NxB2NxTW4+TblMb5zX54/5f6Mu236i4UMElPTU+q+tHGp9DAw1B8r3puueysR4iqL5K0kVDKL2HNUqACMIup/OSZE6JQWHq9o/x7j/UqmEUSX5s7RSRVTQNxE/p7evHVCBr94EdFL7MmDF+t3Yr66ujn/53/9LfvrmT/nwgw9ZXVnhez/4nhZNAzZ2Rfu/oihihTkINMDicjoZPDfA4LkBVldWeTw0wszUNOOjTxFFgYamBto72mhuayYQLDMFVp8WW/9UsioWAFPe18LC2DrNvi9UVI2tOJciatVhz14YoG+wl8nxKR4/HOH9n31Ae1cbN16+rg+mZUVv9IWqlk1AbV1tjA2Nn8iqoGqzr1gyyvZ62nxulX4q/pCXbKZMn5cMh0Vd6bt8mtItHBVx+GSt/yocao2rBS36x6mDDUFP6FXJvNVSfqWstk52SzpQOMFHRWcxCsc5BEHA4SlXFdZ8R8phzLlsjlgyXNORtlQocbiXpX4gaekbu2Pxzkaag8whV873mAOdsb+VeTFAiqqqjDwY5cmjUdxuN6++8QotHS2W7cQqgGIddE4yYdVa/5W009hCquW4vEJ7ltFEjDd++C2W5pe589Fd3vvpBzQ0pbj64lUCAR/VYMVuxuw718vywgpzkwt09XdoZh8dbKu6rCYb61hdXAOdfbU6bwciWt6QzO4hIUtiN0EU8fo1YJg7KBCss4coi4KALEk4PQ4KWc18qRrvMRb9gH69uj6zsb+WthkQ+bDZxcuLOX7/ySF/MRji0Fm7pEYpr+AvKfzemGZ2/KQjyE7QZUJ71dSxgk3mlKLGcBgmK7D4tqhayLF5f/o7YDAwteTmtHBjbd+SmavG2k4C06VSyVao8FfdvvJ345fcvpZA5Yu2z2sCqrndlwQrbrebH//2j2m8e4/33n2fP/2Pf8r3f/h9GpoabOxKLd8V25cagAW0CsuphhSl0musLK0wNzvH7PQsH75/G1VV8fm9JOuTJFN1NDQ1EE/EywNbhTNuVZ/UAiE1QIx2LMkOYiqOVfUaSdpg3DfYw5m+LoYfjvDg04ccHmR5+Ts3dWdFO1ixmoBkh0zvuR7uffSAjZVNEqm4jVVR9fMn6uOsL22QOzrG4Xaa5h9RUFFFEV/Qy856GhT9+RrREzq97va7EQQ9f4PfWdNPxZATw2TnCWmzWaWkmua+WuGaJnBRBbLbWoSB0xKFYWMqLGyIKAgUj/Xr8zrNba1MR+GwCArmzNpmqhFEtjd3AIjUhS0gwgo+ROYnFnC5XDS1NZggr5JNMb6risoHP/uQjdVNOrrbuPbCVZNFsd1LVSK48jGs922TrdPi4/X2WViW02pNQQ0ZBpsc1wQukuYg29CcYmzkKY/uDfGzv/k53/rBa4QjIU4DK7G6GMlUHVOjU7T3tJYBg+GrIogkm+pYnFlmb2ufUCJkmn9EQSUYDSCKIoe7WcJ1Qax+KrIs4/a7yR3mTNlRVVUzHekA2x1wkd09MiOoTDmt4S93GlhRVIX/cCXE88sbJLMK//69bf6nb9dRlDDZFFOGjxX+j5kDEtkiBVHgj19s1PrekD9j7oSxrwagi3k9SlCWylFe5nMtOxdb5aAWGDGuRTMLyTa5tLHCJfVUIFN1rpJSZUr6xwYefpXta9szX9Rh6TRhqbWu5kzORk8LNbetNTO0RmhcJvua6AAAIABJREFUvXaV//b3/wUAf/5n/5n33n6PfD6vhVKK5YHCSNldTkleHqQq0/Ab6e5FQcAhyzS3NnPzlZv8wR/+AX/wh3/AK6+/THNzMzvbaT659Sl/+ed/xR//33/C3//Vm3z84SdMjk+ym94zr9VM3W9Jdy4KIrJYTudvfCRRRhJl8zq0dOlamKcoamGgsiTZtremxzeXSzKyw8HFK+d59TuvsLO1w7tvvkc+X6g5UFudONu72/H7fYw9empjFYxnIwoiifoYgiCwubxd8Yy04wajQVQV9rctWUDN5yDi9rmQZImD7aztmVrZhUogYfif7Ezvl8GKYFeExjGKhyXWHu+Qy2gRA6JklQf7sa1g5Ggvh8PpQDKq+laAjMyOFu3kD/vLAMUix1uraRxOB6FYqEqOBVHg6PCY9eVN2rpbtGcqlPveej2iPvO9/9EDNlY3ef6V69x8/UWbqadyMLB+quRcH5iMjyRJNhkry71s+1Qet9ancp9K+a0lw0aa+0o5rjy27HBw9uIgP/qdHyBLEu+8+R4ZPQX+STIsiiL9F/o4zuaYn1y0AUHjuImUlvhvZX7NZLyMwV92OAiG/aQ39qr6WBBF/GEfh+msHsIsmgyFIQf+qJdSXuFg88jcx9yuMqrLsszaX8Y243Vu/vcbmk/Pa3NH/Ke/XuPFpWOcih5OrQpcX8jyZ++v8920Juv/4bUmplN+Gwg+KYqpeFxEELS0A0azMpMul9N2zaIgkjvK6dW8hSr5zx/nq0ye1pbP5cvMd60xoYIVzedzZhkK+3aWd+szjmHW7b4qM+dvWvuGUfmcrRazUmkCgi/HrICG7puam/hX//pf8YsPfsH9ew+Ynprmje+9QXNrc012BWr7r+grzFbJsoiSRCwWJRaLwiXt3IcHhywvLbO0uMTmxiajw6MUikadF4lwJEwoHCIUCREOh8zvLpfLxsAY92LtP7CzLtaeE0XrhYq29dZXUBGho6sNp9PBO2+9yztvvsfr338Vp9NB5ay0VFL0wUGm70Ifd2/dq2JVjFBlf9hPKBpkdX6dljNNOr1eTkcer4/icMhsr6YJJgIY5h9R0HJSyLJMtCHM1uIO9V1xkHUFqRqsArbsoKIg4glqLEZ+L8/68DaRjgBOnwNBtPRXSWVv6YD9lUMkWSTWGWLl/pZ5jJOiXkRBQCkoHG5nibdE7SDFYrpJr+3jDXq06ruV+xcVdlbTNHakyuHIot1hd+7pPKIg0t7TalPyVrBkDMCTo1NMT8xy/vJZunu7qoBZJUgBbIOccX7rcus6+/V/tYq7lvxqF2JhUqQKNsaSEbqSZQlHw7zxw2/z5l//jHfffI/v/Na38Hjc1GRWBJVkQ5JEfZyJkQlaupo05kMosyoOh4Pm9kbmJufpOtuOw+W0sSr1rUmePpwiu3+EO+DS5VdrsaYIm4tb7K3vE2kI2VgVUVAI1gfYXc2wM7uPJ+wC2dIfVuZQsJuBzG5Q7JV9/8vZEFm3zP/84TYDmzn+r79foyRAxiXizynIOlmVcYj8n99q4p2zdVo4t36M3GHeUi/LzgAepA8BgUDEb5NBo/nDPvvzLClkM1nqm+qrnrlRIT4QrC5GajB++3v7BIPVDvYntYODQ+rrq891UvunzrZ8rYHKF3WsrQVGnrX+84IVsEfJnORk63K5+PZ3vk1PTw9vvfkW/+XP/4ILF8/z0isvVfmunAZYrFldzZHfqlwtaelFSSIQDNDb30tvf6/mpKsopHfSbG1usbmxyfbWNttbO8zNzNlqirhcTkLhEIFQQAMv4RDhSJhYLIrssNiFT/F/KUdFGdd7AmCRRJrbmnn9u6/yzk/f49233uf177+qJbeymoGEsgmorbOVsaFxRh+N80rDTdNXRRRU06m2qb2RkXujHOwd4A34bIpelUSi9RG2V3doH2zBMP8YYcqiIJJoibO5sM3O8j7xtjCIZVu64VRrHYQMeYh2hjhcz7I+soOKisMt4/Bqn+z2MYVsAX+dl0h7iKJeONBKrJ/EpuxvZEGFcCpom+Ua8lY4LpLdzdLU02DKqlXpb6xuoygK9S3JKmYAtNwci9PLNLY14PP7bIBDe47l69la3+LhJ49oam3i3OWzVeygJgJ2BsXoV+1YwongxPq9kC+Qy+U4OjrmKHvE8fEx+XweVVEolbS8KCVF+ytKGsskSRKipLGOTj0hocvtxuNx43K7cDqdzwThn1WOrcNOJB7l2z94nZ/+7c955833+M6PvlUFuDUgIIAoMXBxgPff+oC5ibKvilkrRxBpOdPM7MQ8awsbNHc3YW2JphiTwzNsLGzSMtBkXrcoKPjDPrwhL9uLaU1WBFGvEKw71aoq9T1x5u4tsz29R6I3gqJhJJsJqAqsgJYbpgZD8JOeAB+1+fidkX1eXMjSslsgkCux75aYcYj8Iubm3e+2kPG7kCtC2Q+3Dsp+JwImuyYIIgc7WXwhj6lzNNkwwC0EIvYQ+6ODYxRFIRgugw1D/vcPDhAEgVA4aHtvrM99fz9DfUOyNliuuG9VVTnIHODvDlRt+1W3rwvA+VoDFfjNAyvAF2JXWlpb+MP/4Q+59Ytb3L17j/Hxp1y9eoVLVy6ZlKRoO3XZ4da8lqovUItp0TaxKGBJQhFFEnUJEnUJ+gb6zHsqlUrs7+2zm06zm95lb3efvb09tje2mZmctTm7hcJBYvEY0XiURF2chsaGsiKhxnMy+6G2ojcUYnN7C6+98Srv/uw9Pvj5L3j9B6/pL6iWrEp7Bto9yQ4jr8pd1pY2SDaWI4AMhd/QVs/og3FW5zfoHCznAjGiJ5LNdawvbpLe2CNSH8Jq6y8B3oCHYDzAzlKaeGvEvH8rq4JimTHrLRD3EWrwk8vkyR0WyB8WyGeLHO0cIrkkkgNxPBGXJh+5skydZPIR9XOmF/fwRby4/S5TvqyJ2rbXtCRX8cZoeV+LXX9jaROv30MoFjSdaMuPSGBpYplSsURXf7uNlreCHVEQODw45PY7HxMIBXnx1Rtm2LFxH9rx7CClFoNiVb7FfJHt7R3S22m2trbY2dphZ2vHZP8qmzXCyshCWzohvLaySbJEOBIiEo0QiYQJRyPa92i4bFaocSgTYFvkuBJ016XqeP17r/IPP3mb93/6Aa/94FVkScIEKxYZrm9MkmxIMjEySVt3ixkBZLAqoXCQaDzC8uwqLWeazGeiqgpOl4tEQ4yt5R1a+ppMoC2qIqIkkWiJMf94kexeDk/IWcWquHwuYm1hNqd3ONo+xhNza2BF1fMGWfxVbPdeq2PQnue+R+I/Xo3xJ9cSpgwf7eTYmdgncSaC3++qkCUNdBxuHvG/Pd/K/3e5RTND68csFUtk945o6Eja/FP+8l9/h3830IpaVLkmlavMC4JIZk8zfYbCIRsIBzjQ1wVClkADC7DOHeco5AsEQ0HLfZ3sJ3V8dEyxWCQQqGZontV+Haad34S8L197oAK/WWBF2++zm4Ks+zudTl771mv0DfRx+9ZH3PrwNnfv3uPq1StcuHwBl0sbiMrhzIBlRmPOTm0XZ/l+AmjRNqtYYlD7okgsHiMWj1X1calUYm93l53ttM7AbLOxscn05AwAkiRS31BPS1szLW0tRKKRmic/SdFbL72lo4XnX77Bh+/eZmx4nIEL/XpSqmoTUGtnC6OPRpl8MkWqOaklQjMYE0HE4/GQbEiwNr9O52AbRvSEEekTTYZxuhzsrKZ1oFKRklyButY4U/dnyWweEqjz2lgVxeg+A6xYBmGHS8bhcuCLWUxjevbUsl+NUB7YrQq8AqSIosje6gGlfInEQLRiffnv7toe/ogPj99jY1MACrkie5v7tPe16v5NFSBCgbmJBeL1MSKxiI1NsZqASiWF2+9+jKKovPLGS7jd7mrzzikgxcqsHB5kmZ6cZmZihs2NTfSOwO12EYvH6B3sJRAI4HG78Xg9uD0ePF4PLqdT86eSRNPHCsoZbEulEkpJoVgqUcjnOTo65vjoiOPjHMdHx2QyGdLpNBurG0w9nTafj9vjNmW4ubXJfA9PleMa7EpjSyOvfPsl3v3ZB9x6+zavfPdlk0/RgEjZBHT28iBv/907zDyd48xgl5n4zZDh5q4mhj55zP52hkA0YGMFU21J1hc32d3YI1wBtOMNUZbGV9ld3sMfSYFSNFkVJBlKRaLNIQ42s+zM7NMQciLK2jpR0csXCIIm64pFjwm1TWai5blqfSOillT2F7I4vQ58dV4TFBgyLggi+cM8+aMCidaYBlIsvkDZvWNQIZQI2YC3qqoc7B6SaklW+acc7B8giiL+kM+8DkOGDzOHmn9aMEhlEwWR9J4WJRgKhcx9jVYLWGR0hiYYDNRkPD5LiPOzEhx+3do/CaDyZdqvA6xAbVMQaOxKKpXid/+b32FlZZWPbn/Eh7+4xb1793nu+nOcPT94KmDRvtVgWSp+VDEcFfdpr2Cs7yOVa5kY9xyNxYjGYnSd6TKX546PWV9fZ2Fukfm5eT7+8A4ff3iHWCLKuYvnzDpDFZddpegrZ6Xdfd0szS8zfG+YppZGncatNgHJDpmu/i4efTrE7vYewUigilVp7GhgbXmD9PoukWTEHChUVUGSZOoaE6zMrdFyXMThlm3KXhFFQokgbp+bzbktAnFtxqcIZQ7FClYk0UjCJiBLsi0fDlRHTlkdE08DKaWCyvbcLp6gm0DcXzaxWPxLspljjjLHtA4025Q6aLK4trSBAKRakzY2RRQ0J9rVuTWOszku3jhfxaYY24mCwL1PHpHe2uWVN14iEglXmXxqgRQrgBMQWF5c4cnwExZmFwBIJBNcu3GVeF2CRCKOP+Cn0kna2k6ajRo6X5Ls6jBSY1vjGRQKBXbTe2xvbTM/N8/C7AITY5NIkkhLewuD5wZobNYiVGoBlpNAd1tXOzeyx3z0i094OjJB79kezbQiqDYTUF19glRTPZNPpmg/06ZlRFYVRFFAUUUaW1OM3h9ncWqZwet9pq+VqipE6iJ4fG5WZzeI1IdtQNvhdJBoirE+v0ldNobDI5cHXgVUUURGpr4nzvyDFTaf7pHoDWumZdHC6grYAIvRTjONCIJWiyo9laGUV0icjZvO/5KoXYfmCC2wv3KAKIgE6wKmzMiShCTK7G0eIEkigVjABryPMscoRYVQNFjFmmTSGfzBAA6HXCUne+l9vH6vHrpsd0AG2N/THOuDYbs5qZaJSBRFDvUaP/6AxtCclkPl62K6+bJN+qM/+qPT1p+68h9TM1+aL7rvKRVza63TFGZ1oi7rNWjHLX+37mM9Z9V3/RiBQIC+/j46u7rY2d7m4YNHDD18xNHRMZFoBLfHo5scVPP4xsy8fL7yd8FyHUZBN/u2p/+udQxRFKFiG0mSCIXDtLS1cPb8IP0DfYTCIc1p9/EYczNzhCJhQqGg7Tz2vwCW+9HX1TfW83R0krXlNTp7O80XXVVVrHnVguEAM+MzHGWPaWpvNLOMal2r4vG5WZ5dYX83Q2N7PSp2YOYJuFmZXqVULBFOhjCfnOX5Ojwym/PbqCoEYr7yM7SZH6CYKzLzyRId15twuBzmdVb2rbFMFERKeYWFT1dpv96Iw+2oAikgsDq6QeGwQMu5Btxet7mNJEomO7I4ukKpUKLzQhsOWdaW64ODgMD4vSlC0SDtvW1IoqQ/U21/AYFHHz3G6/dy9sqAHuEiIImidgxRKwK4trzOwztDDF4coG+wR99GeiZI0QCZwPbmDj/9u58x/GCYfC7PuYtnee2N17h09RJNzU1EohE8bo++v9FfYpXMVcnqF/gYg6okyfj8PhJ1CTq7O7h4+QKtba04HA7mZxd4MjzK5uYmdckEHuM9tMhv+flqElH+H2J1MbY3t5kYm6Sto9X0RQOLfgCCkRCTTyYplUrUNyVRVdWUYVEUKBQKLEwtUdeYwOl2AqqpO0RRYHV2HV/Ihzfg1c6t6wp30M320g77WxnCqZCWTE0/taGjRIeE0yOzu5LhcPMId9CJ7JKxFoE0msFendSfhjxkt47ZnsiAAsneGN6I22Q1jEgySRQ53s+xOZUm3holXB/U5FnSZK6UV1gYWSbRHCfRENNkVZKQRJGV6XUO9g7pv9KLw+E091FKKqP3x2lubyLVVG++A5Iuw4/uPCLVlKK1o9W85jK7IzAxOsn+7h7XX7xuviPGX+N9sMrjxPgEy0srvPraK7baVCfp1tr6zy5Htb7X+v2s5V922y/Z/u1JK/7JABX45YEVKwioXP55wErlPrXAhe27DkACgQCDZwfp7Ork+OiYkccj3L/7gO2tLYKBIP5gQK8QWwOMYH0hTgcdlcDFOhMylwnVy6qPYz+G0+WiPlXPwNl+ItEwC3MLDD98zNbGFvG6OB5vWdFbTSBWsKKt0TJOBgJ+Rh+PI0syyYakqd7NMUFVESSRQqHE9NMZGlsacLldeol2TdELAiAKLE4tEauL4Pa6AdUENJJDJp8rsDq7TiwV0QAGmEBFBVxeJ/njAluLO/iiPi19ven7V375S7kS0x8v0nGjGYfLYV7nSYOkxpaUmL+zQsf1Jpxul973huIXSc/vsbeaIdWbJJwM6opTAwCGEj7cP2J1Yp3G7hTRZMRU6oai3VjaZmtpi74rPSZbYYIcSWR1bo3FmWUuXj9HKBIyQ4OtylpRVG6/8zFut5uXv3UTWZJNWSxXMq4NUhRFYejeEO/9/H1A4OZrN3ntO6/S0taC15I9tRYwqRwYxYq+/NJgpca5AsEAre2tnLswiMvp0rNBj1DIF0jWJ22DUvldL8ux8b8gCNQ3JpkYnWBjbZOOng471a9/dXtcZA+PmJ2Yo7mj2RI+qxVTDIT9LEwtcpjJkmpLmiBcQMAf8rG1ssXOepr6troySlJVREnAE3CzPrdF/ihPKBkqX6+qvWmioBUodAecZNPH7C0fUDgq4vJpIfAGYDEgi/GsrEyGOZirAumZDHuLB7iDTlKDcTxBlymnZZAigQorT7aQZImWc41aSgNjO1FibWaLo71juq904nI5TdAhIDD5cJp4Mkpje0orXKjvs7m8yfriBv2X+vEHfDaGcndnn6nRafrO9RKNR819JAvAevDpI0LhIP0DfbVlr+L3g7sPEUSRK1cvn6g3rbr1tL+V/iPfAJWvSftlgZWT1pdBgFq1rDKr4mnsymmAxThWIBCgp7eHwcFBJFFkYnyCBw8e8nRsnMPDQzxuD16/zxworExLJWipBVxEQTyBMTmdaal6CSuOg+V88UScwXODOJwOJsYnefzoMce5HE3NjVUvr/YdKmek4WiYvZ1dJsYmaWlvseRSEGysSCgWYmpsmtxxjsa2BtuMFFR8QS9L08scHhzRYFH0RvOHvazMrnGUPSbRGMfg1sxzqOCP+thd2yW9uksw7kd2VoOVQq7E9McLdN5oxuGSgdp9bVV6pbzC3J1lOm4043Q7LOtEsulj1p5uEa4PUt+VKLMkeo4PDWhILDxeQlWg61JHFZsiCiITD6bw+DycOafVljFmoAab8vDWEP6g/1Q2ZXJ0ioWZJZ5/9XnC0ZAWYWMCkzKzUglS9nb3+Pnf/wNT41N0nenk+z/+Hg2NKQ3o1AAo1sFAqhoovho2xfapfFcqnlFDYwO9A73axGH4CWNPxnF73LYEirVAt/G/VgvLy9jjMWRZpi5VZwPcBmAOx0JMjk6TP87R0JrCEDxV1XzAFFQWppaIJaN4/R7KrIyKy+dmeXoVSZYIRv2m/KKqOLyaI+3GwjayLOINebQj65WdDbDi9DjwJ30gwMFGlr2VQ0q5Ep6AS/NdsTAs9v4TKB6VONw4Jj2XIbdXINISJHEmYppfKk2akiSxvbDH4VaW5sEUvqBXNwlpz1gpqCw8XiLeGKW+tc7GpqTX99hY3KL7fCeBoGYGlSRN5qefzFIslDh/bVDLl6PvI4oSC9OLbKxu8dzNq2bqBeOaJFGiVCpx9/ZdOrrbaW5prmLuKn8DfPj+hzQ2N3HmTPepetKq6571t6wPnw1UPq856Rug8mtqXxSoQG0zj7WdBGYqwYq57WdkVyqPbQUslcdyu920d7Rz8fJFQqEwBwcHjI2O8/DBI8ZHxzg8PESWZfyBgKngK0FLJRAyrq1yGTW2qwQu6inHtu5vVfYNjQ30DfRQyBd4/GiE1eVVWtpbcep1iZ4FVpINSSbHJlldWaOrt7N6RqpqOU9yuTyzE3M0tTdaKHZN0Qui5ke0MLVEoiGOy+3SnoeFlVFVlZXZdcLxIE6Ps/zcVO3JiKJIMBFkZ3mX9OoewXhAqz5rASvFXJGpj+bpeqFd83cxZ0knD5RqQWXmkyW6n2/VTD86gCjmiiwNreHyOmg534Qsy2VlLpQT6B1sH7I2vUFzbyPRRNgcCCRdCe+s7bE2u0bPxW6CkZCpmA02ZX1xk8WZJS5cP0soEq7JpuSO8nz03iekmuq5cOVcGSRZTD5lcKEBKVVVGRt5yttvvk0+V+C177zKc89fw+EoF0o0Bi4rQNGWWxW8aJExLMDmy3+qzacVv/W/DoeDjq4O2tpb2Fjb4PHQCJlMhtb2ls8EuiPRMOmdXSZGJ2hpa8bt9egouqwXZIdMoVBgZnyGhtYG3B6Xrgc0GQ5GAizNLLOfPqCx3QpkVNw+N5l0ho3FTRLNcQ1YGO844A17ONo/ZmsxjT/mMwGxAVaMexdFEW/ES7Dej6rCwVqW/dVDcvt5cvt58ocFSnkVtQTFY4WDtSzp2Qz7y1ly+wWcHgeJMxFCKX+ZsZAkEzhLoiabhcMS6+M6AO+o08GGJtOyKLM+u8lhOkv35U7cbqdlf4m50UVQVHounUGSZBOYq6rKk7tjNLU10tjSYNtHkiRGH2hFMgcuDGjyZlyXDkB2ttKMj05w/uI5orGozZRllUHDjJQ9zHLn4085d/4sjY2NNl1+EkApAxirk24tE1C1T0yt9nmBxzdA5dfUKgHC5973lwxWrIDFqgzt609hW/TjybJMKlXPwOAAFy9dIBqNcpjNMjoyyuOhxzy494DVlVUKxQL+QBCny1l+YbC/QF8lcLHfF1XntCr69o52ItEwj4dGmJ6YobW9BbfH/Uyw4nA48AX8jA6PITu0GanGdAg6zlB1O3+QqdFp8rk8Da2pKl+VQDjAwuQCx9lj6lvqUE2covWxL+RlY3GT/Z0Dks3xcnE0/fpUQHZI+ONedpZ32V3fJxgL4HSVlX4xV2Lyozm6X2jTfQm0+zFs+9YIFUHQZmmlvML0x4t0Pt9m+qgUj0usjKyjFFU6Lrfi9rgqmBQNpKgqzD6cx+Fy0nWh3axyXLbLS0w8mEKWZfou92qRMhaTkSiIDH8ygtPl5MK1szoQ0pkYC5ty/+NH7O3s8eobL+P1eE41+RjP8uMP7/DgzgMamxr50T//IQ1NRm4XESuLAmXau2zWORmcGNt/aZCi1pDvive0ErD4fD76BvsQgKGHw6ytrNHe1YYsy6fLsSBQl0owNT7F6rIGuG2Dhi6okViYybFpsplDmjuadeHVgIqoZ82dn1wkGA3iC3rKzKCq4g/7WJlZ4/jgmERTrHxsVWNMgokA6dVddlf3CCWDyA4HgmC8P1Y2QECSRHxRL8GkD1VRKRVUcgcFjtI5jnZyHG4ekd06pnhUwh10Em4OkeiKEm0O4/I6deBRDVBEUaJ4XGL58TqSLNF2QQfguvOsKIiUiirzw0vEGqI0ttdbnG9FCrki08NzNHc3UddQZzMXba1uszK/xuDlfgLBgI1NUYoKD+8M0dbVRkNzgwmiBEHQjy0xNzPPyuIy12/ewOP2WECKlWEr/15aWGJifILrz18nFAyajrS15MnKsFj/2rOd1/5e6/ezlp/UvgEqv8b2mwZWagGWSnbl8wIWq2J1Op2aH8hAP5cuXyKVqsfpdLG0uMjoyBj3795nYW6ezL7mwe7z++20JfaXqQpkmMtOBy61fGysyysVvaqqxOJxmlubGB8dZ2J8ktb2VjwezzPBSjAcIL2dZnJ8ivaudr0eUNmxVlUVZIeD41yO2aezpFpSuN1GJVeDVdEireYnl4jEw3h8HnO9NhIION1OlqdXEUWBUCyIwbsZfaYCTqcDX9RLenmX7eVdXD4Xbp9GJRfzJSZuzXLmhXacbj0nTg1fH6tTolJQmfponu4X2nC5nKSX91keWUMtqTQPNhCI+DB9UiwgRRBFlsZWyGwd0n2pQ6fPy+BCkiS2l9OsTK/Sfb6LcCysmXxMk5HIxuIm8xOLDF7p0+z2Fr8Ww59ge2OHh3eGGLjQT3tXm7leFMQK80/Z5PP44QiP7g1x/uJ5vvW913G73WZfWGeVRh9UAhRjW2t/Vcrrl2VWnsUWWt9xqxwDNDU3EQoHeTz0mKX5Jdq72nE4TmYIVVXB4XAQDAcZHR6lVCqRak7ZTECqqiLLEioq0+MzhCJBAuGAznoIpq/K6uIa64sbNLanyiyUAA6njCiLLE2voioQigfL16yqCCIE4gG2lnZIr+wRiPlwuJwIRj/oZkrt/dWuX3bI+GI+QvV+os0hws1BgvV+/AkfwaSfWGeEYNKPV0/IZsqGKNoAivFsszvHLA+vIQgC7RebtQgcyVJeQ5SYH1qicJSn+1InLrfLBDyyJDM9NMfxYY7Ba/24XC4bM/jk7jgCAueuDuqAvMymzE8tsLKwyuUblwgE/CaLIoll5vDRp0OIgsCV565UyZz2LtjlZ+jhMNtbO7z2+ivmPX5R/5TTvtf6/azltdqvOIfKN0ClVvuyYOVZgOU0sHISYDmNXam172mAxfrbqlQdDgeJRILOrk6uXL1C95ku/H4/29s7jI2NM/L4Cffv3mdxYYmD/QyqquL1+ZB0Z0DBUGIVL2Et1qXKfGG9B8F6P5UvomoqTEEQ8Pn9tLQ1M/bkKRPjE7S2t+Dx1gYrij6jFASBZEMd4yPj7O9naOtqq1LyAhCOh5l5Osteep92vcZKAAAgAElEQVSWziaDczFnnqFYiNX5NTbXtmjq0AruWSMofEEv2UyW1bkNwokgTrdTGySM86B557pcTkLJAAc7h2wtbFPIlfCFPChFhae3Zuh9qRPZpQMKhIoButyHkihRymssTPulJtYmNtlbzRCM+Wm72IQ/fDJI2VlKsza1QeOZFKk2LeTYnMUKIqoCo5+M4w146bvUg6zb8U2zjirw8PYwHq+bC9fPmcrdYFOMZ3z73U+QZYmXvvUiDtmBIJbrTJUVsmSClOnJWW6/f5uuM128+u1XLGyJnXUp57com3iM7SoHCutyoWKfLwRSPgdbeJIcx+JxEok4I0MjzM/O097ZhtPltMmxqipm8JgAhCIhstkso8NjJBuS+IP+KhNQJB5lZXGVxdklWrtbLQXvNNkLRQPMjs+TPy5Q31xnyraqqvjDfvK5AsvTq7i8Lvwhr37dmm+J7JQI1QXZWUmztZhGEAV8Ia/Z11ZTkO0ZGTIsamHPLo8Tl9epMxbG8ypH8xiMigFQREFkbynD2vgmLp+LritteANeRFEwZVqSZLYXd9ic36btbCvxVMzGDu5tZ5gbmad9oI36pqTNz2p3a4+pkRn6L/YSTyZsbArAg48e4vF6uHjtArLFpGkAlkK+yEcffEzvYB/NLU02wH6SjH3w3i9I1icZPDtgW/4s/5RaZp+vmSMtfANUTm5fBqyY+z8DrJwGWD4ru/JFAcuzQIsgaFFDra0tnL9wnstXLtHU1IjH62Frc5ux0TGePH7C3Tt3mZ6aZmtzi+PjYxwup5m0qxYI+UzAxXofQu2ZgwksBAGP10trewvjoxM8HZugraPMrBj/LPE9plNiqVTk6ZMJ6htrK3lJkkAQmBmfIVoXJRD02+z8oiji9ruZe7qA7HAQSYRsERQA4XiQjaUttlfTJJpiiMZAIYBoRCYJAg6HVguoVFLYWUqzvbhL7jDP0ugafTe7cHmcxuXblJj1IwgCuWyeqY/nkXUTUnN/ilR3HU6nFnZp7GcFKceZY2YfLRCMB+m+0IGozzgNECKKIosTK+ysp7nw/Flz5moCCklkeWaF5dlVLt44b/qmWAcZURCZfjrL7MQcN16+TiweNRkUQRCqnWklkbWVdd5+8x1SDSm++6M3bDNNA6RAOQmX1jfle7QCFKgEJ9UDhrbN5wMpn8XMafe9qpZjA7CEI2FSDSlGhp8wPTlNW2cbbrfLlGNtH0OCtf9TjSlmJ2dZml+iu7cbW4VonQCJxqNMPJnSHWsbbCYgj9eDisrc0wW8AS+BsE8nBLXjROvC7O/sszKzRjAawOPTotxUNPmVnRLRhgjHBzm2Fnc43DnEG/LicJYnLwYwsT8DuwnTWGd8JL18gQFazIFeFVif2GJncY9wMkT7xRacbqdptjFAysHOAfPDy0STEdoHmnVnWFkHFiKjnzzF4ZQ599wAsuywsSmjd8dQiipXXryEQy77eQmCwN7OPqOPxjl/5Sx1yYR5XdZon7npeeZn53n+pRsEA0ELSKkFxjX/lI8+/IjzF87T3NR0qtnH+Ftp/qlcb23fAJWveftlg5XTtqkEHJXLvyhg+bygxVjmcDiIxWOaM+6li1y6fImm5mbCoRBHR0dMT08zPvaUB/ceMjw0zOryCvv7+wAa66IPMs9iXNSKa7euN0BUZY4UBAGPx0NbewtjT8ZYmFugp++MWbK93CdgKHlVVYjXxZmZmGFjbUOz86M5yZqbqSqhWJjFmUU2Vzdp7W4xr8vofl/Ay97OPsszKzS01uup/+2OtYGIj5XpVQ7Sh8QbouUZTwVYEQWBYDxAqC6IoijsLO2yOb9DIObH5XEiyfrMUrQrsNxBnr3VDJuz26xPbrO9kKb9YhPd19oJRI2qsoJtRmmAFKWoMHVvDlES6b9+BofTaW6n+RdI5A4LPL0/QX1zkraeVpsDrSRpNvsHt4aIxEIMXOo3fVMMhaw50Ob46L1PqEvVcem5i+WBQXegrYzy2U3v8uZf/5RAwM8Pf/sH5ciKZ4CUsjMntgFQsGxzGiixttPMQbXel/IxaoOWkwCLlV0JBAM0tTQx+niU+Zl5unu7kWV7wjmrHEuSSCga4snwGKqi1jQBebxuCsUCk6NTxJMxfAGfzQQUiYfYWt9maWaFVEsKp0u2RLKpxFIxdlZ3WJvfIJqKan5URl+iFyOtD+H1udle2WV7cQdBEPCGffZIK6zPzw60DVBpfKzZjg2AcrCVZWVsg+zuManOOpr6UjgcZWZPFmVESeI4c8z0vXk8fg9917pwOl26v5Umz6vTa2wub3H2uX4C4aCNTcmkMzwdmqL3/BmSqTobmyKKIqMPRznMZHnh1edxOsqMoAFGRFHi/p0HqCrcePG6CUaMPqhl9pmdnmVqcoqbL71IIBCoAiKnARSrLJflw/r9sznS/gZH/MA3QOXZ7csAFfhyYMVYVwlWzH3UE0BMjWU1w6A/47JK0CIImm9LLBajta2VwbODPHf9Oc70nKGurg6HLLO2usb42FNGhke4e+ceiwuLHBwc4PF58fp8JmipPHclYLHb9MsvSKXvCoKA2+Mhlogx9HCY/b19Orraq14oQTcBCYAoibg8bsZHnuIP+onGoyarUs72KuD2upkam8br9xGJhU1WxWBfgrEgCxMLHB0eUd9Sh0DZBKSFarrw+D0sTa5wnM0Rq4+UnWsrwIoAOFwyoboAvoiX8dvTRJvC7G9k2JrfZWN2m52lXfZW9tlfP2RrdofthV2y6SMcDplAzM/iyArP/e4l3D63TodLtlmhAVIkQWR+aJHD/SP6rnXjD5XDM0VBy4YLAk/vTlAslLjw4jmcTqfNgVYSJWbH59lY3uTaS5fxBfxVbIokijz6dFjLQPvdV/B5vVUOtAaoEQWR46MjfvLXP0UQBH78Oz8iECwr72eBFGO5eZ+nABSjnQRITmufBbzUAt21gDe6RBty7PP7qE/VM/RwiK2NLbp6umrQ+ZhyGggGODw45OmTpzS1NuLxeavYwVhdlKW5ZVYWVmnrbtX8VyxyHE9GmZ9aJL2RpqG1Xmf+tHdOFAWi9THWFzbYXN4i0RjXwZNq9qsAeIIeog0RCscFNhd3yGweIEqar5YsSzZWwQhlt4KRWt9FQSKzecDy6Dq7KxmcLgctA40kWmNVuVIkSXOunbw7iyRLDDzfg8frsclzMVdi9O4EsWSUrsFOPcpHiw6SJIkn98Yp5otcffESDofT5ptSzBe5d+s+HV1tNv8qQ4YlUSKfz/PxB5/Q099DW1vridE+1n54+OARu+ldXn39VRuosYKS3yT/lC+y/ZdsJwKVb1Lo6+2L1gOyHUM4Pd3+s7YxFHOt9PtA1fVVFjk86RhWFG2tJVS5zHquyvMZAitJEslkkmQyCZcvAnBwcMDqyirzCwvMz83z4Qe3+PCDWyTrk/T199LX34fPr9XQsKb1r1Xt2agoba3Gqq031gkgirS2tfLc89f4+NYnNDY30jfYa25vq5eElp6860wno8OjPLzziJb2Zt2Gr9hS47e0N/M0GWf04RgNrQ1IFcXe/AEfXYMdjA9NUq8rciM1uVGDJdlcx3H2mOnHcwiiQOc5LaMrenkXGRlFVVAEAUEVERXFdBrtvd5FsVAgd5SnVChRLJQo5IoUCyVcHif+uE93ZnRwnDkGQBYlZD002LhnA6CIgoCgCiw+WSG9sU/bQDPheMgGUgxAsDK9Snprj4Ervbg9BvAxzEYC+aM8M2OzNLTUE0vGbaxImR3ZY3Zijp6BbiKRkO16Kr+rqsp7P/+A3NExP/7dHxOOhG0gxSqPJ4EUqxxbZ5TWWaexPnuYZXt7m0wmw+FhlkwmQyZzwNHREbIk4XA6cThkHA4nTqeDUDhMMllHoi6Bw+EwZbfWu2M9X6Ucazto75Ihj9oiBUSRxuZGXnntFd59+z0++fAOz798o0rujdIOInDt+asszi9x+92P+f4//67eD2U5djocXL15hXd+8h7Dd4a5+MJFREGTY1kCX8DPuWsDPLj1iLEHk/RfOaNdp17Gwetzc+6FQR5+MMTwB0/outhBMO5HUBVEVQeAioLbC52X2omuhll6usry2DqwjjfkJlgX0OTUo5mFFKFa3xWLRYpHJXKHebJ7R+ytZSjmS7j9btrO1RNJWZIUVsh07iDP5P1ZUKH/eg9en9cOuhWBsbtPQYW+Sz04ZNlyDIGd9TQby5v0X+jF6XJZ/J60babHpymVFLr7uy3ntYfGz07OoSgKnV0duvwJdrm1HM+oMzQ/t0BLS7M+MfjsrVbph1+Fk+uv2JH21PYNULG0XyVYgeoCXUarVSvIuD74fIAFPh9osS2vEFTjvJUo2+/3032mm+4z3QBk9jOMj4/z5MkT3n/3A2794hZnz53lynNXzMJdtQBLZeFEA6xYlbxqubYr166wvLjMrQ9uU9+QJBwJm/dj1lPRa6kIgsL1m8/x93/5JsP3H3Pp+kV7DRVBRBLh0o2L/MPfvM3YwzHOXRu0FXtDlOnq72RtcYOx+xOEYiEtgZsoA3q1XgVae1pQFIXZJwuoikrnBTtYKVe51uoCGf0pyzLBWABFVWo+f2uzDtCVylxbL6AUVWYfzbG3dUBzd4rGzpSpOA2QIkkyh7uHzD5ZINEQp7FDz/ZpOaYoiIw9mkBVYPDygO0YguX70KePcTodnL18zqbgbfVR9OM9HX3KytIKL3/rZepTyRozQvFUkGKV2TJIKx9DVVRWlleYnZllfn6B9fUN2/HdLhc+vx+f10uhUODwMEuxUCBfKFDI5ykUiua5ItEIyfo6GhobONNzBq/XWyXDJ8mxCViMzXQgrRXL1MDKwLkBdnZ2ePRgiHA0TP/ZvmqwIqgogMfj4ZVvvcRbf/sz7n50n+deuqrJk6hvKMnUp+oYvDjAyIMRwrEwHX0d+oGKiIJKc3szB/uHPB2axOV20nW2nWIJE6yEIgEuv3qRkTujjN2ZoKGrnuaeBhRAFrV3xbjfWEOUcH2Y7G6W9MYu6fU91iY3WZvYQJBEJFlElEUkh6RlrFUhl82RzxZM9lYUBQJxP7GmCKFEwHRmrQQooiCyv5lh+tE8TqeD3hfOEIpoFb1l3WQjIDJ6d5zMziHnnh/EH9DZQ51JKRUVhu+MEAj56R7sNn20DJnOHeUYG56gpb2ZRF3cch1lGS6VSjx++JhkKkl9qt6mJ621sqxtZXmFzP4+N196UduuSoarwfVnNdP8ssw+v0ntG6BS0b4qsAInA5HPst1J7IpxjfDZAIv1WJXHO5FV+ZLAJRAMcPXaVa5eu8rW1haf3vmU4aHHDD0apq+/j6vXrxCPa0rgtErP5tkqZqQiCoqqIkkS3/7ut/nz//TnvP3WO/z27/0zzTG2cjZa0u4pWZ/kTH8344+f0tXTSSDk1wYWNOVSKinEEzG6+jqZGpumpbPZVrAQRUSWZc4/f5bbb33Mk0/HOP/ioDljNZgZEGnr1ZJ6TT/WZl7dFzs0qlsVUARRm6Hq1WYlveqg1dHU+jxqyYdRyFASJa1yrAWgiIJI/qjA5P1Zcod5ui+0k2ytM5WxQblLkoxSVBi7O4HL7WTwWn+VD4kkSaQ30qzMrdJ7/gyBkJEksKzcRUGr57O2vM6VG5fxetw2RVw5I81ms9y5fZfG5kb6B/pscmee+zOAlFoAZXlphQf37jM3O0+hWMTIEvvizRdobGokEAgQCARwOp2c1FRVJbOfYX19nfW1ddbW1pifW2B0ZIz33n6fjs52+gb66OjsMP1KTpPjWixhJVh54aUX2E3vcev9W4TCIRqbG2zbiqJggu6mlibOXTrL0P1h6huStHa1VIHuc5cGSG+neXzvCaFoiGhdBEPdF0vQe66H3FGO2bF5nC4nLWcabWAlGA5w5dWLTAxNsTK1RmY7Q/elDhxuB4JhLtVlWBQUAlE/voiPxu4UuaM8mZ0DjjLHFPIFioUSxXyR4lEBAG/AQ7Q+jNuvhei7/W7T+dzKqFkBilpSWZlZZ216A1/Iy8D1Xtxetw2kiILExP1JdtZ36b/cS6q53ixUaBx3fGiS3FGOa29c0XxP9P0NGXvyaAxVUbh47YINbFtleG5qjkwmw4uvvGgxM9qBh7lM32987CkOh4Ou7s6qbczvz2Aw/qlVTLa2b3xUarRafiFf+DjP8Ft51na1fE8q153kw1Lpx1K5rpY/y7N8WGrZ6E/ybxEEAa/XS/eZbs6dOwuqypORER7ef8T21hb1qfqqwommXR+774qW98SScly/eofDQSQaYejhMKVSiebWZnMbbYC3RwHF62JMjE6ws5Wm/Uy7zbHWCFeOJqLMTc6zvbFNa1fZsRbd3cbpcuBwO5l7uoCqoPmi6P4q5XsRCUb9OJwyy9Nr7G7uEYz4y7V8dL8AASjkCgy9O8r51/pxeVymD4vVhl35KeSKjLw/zrnX+nF6tHBow4Z/kD5k4tMZlJJC37Vu4g0xE5gYPiWGAp18MMV++oCLL54jGAqafimioEX5oMLdDx7icjm5cvOyGR1RGY780bt3cLqcvPDKDTPNfbnybRn8APzinQ/J7GX4wY+/j9fntd2jdUYqWOhzOBmkqKrK0sISP3vz53x8+2OOj3P09vVy4/nrvPHdN7h46SItLS2Ew2G8Xq8WLl0hu9aPKIi43W7i8Titba0MDA7w3HPX6OzuQnbIzMzMMjI8wqOHQ+zt7RONRfB4vTXlWJMdwewna9p8m7O4KNLW3srs9CyjI6NaJJCe2LD8HhpSDMmGOlaWV5kam6Slo1WTG5u/ilYvaGlumYXpBb0WkGz6UwHEUzEO9g+ZezqPLElE68Ja7iBd3kVRJJaK4g14WJvbYH1hE7fXjS/oNfvejL6i7IshO2W8QS+hRJBIXYhYQ4REc4xES4y61jjRVIRgPIA36NUjecpAQjSdWsuAen/zgKn7c+xt7FPXkqDv6hktV4rpV6I52s49WWBlbp2uwU7ae9tMk6jhe7K9lmb0/hjd/V109nRg5A4yHGgP9g64d/sBPQPddPV0mhMHa6QPCHzw9i/w+Xy8+PILtlxTogmYyv0iCAKKovDzt/6Bzq5OBgb6P1O0z2l/T/te6/ezlp/UfsX+KfCNM+3nb78OsPJlActXBVqq9/ts604DLU6Xk/aOdi5cvIAkiYw+GWXo4RBut5tkfVJ7eT8jWLEqeAQt3PPoMMvQw2HqU0mCoWBNBa8leJORnTJjj8eJRMOEo+Ga4cpur5vJ0SlcHjfRRMQEMWZulWiQ4+wx85OL+II+M9zTCngEQYsE8gU9bCxtsTa3iSBAIOK3KbR8rsCjd0a49Po5nGYl5HJ0BBUDqSSKFPMlht8b4+Lrg7g9Ll2JwvbKLjOP5nF5nPTf6CEUDZnZPY3ZqaagZdbnN1iYXKZrsIOGtpQtsZsRajwzOsfawjpXb142Cw9WhiPPTs4zMzHH9ZevE41F7Aq+woF2bmaOR3cf8dwLz9HWUXZULAMQAyw8G6QIwMz0LD976+fc+eRTVFRuvnST7//we/T29hCPx03GQ7QMHLVa5aBRqwX8fjo62rl69QqNjY3k8wXGx8Z49GCIfD5PfSqp+bPUSGRoOtwaMq2fxirLkizT0tbC2JNxZqZm6Ok/c2IkkCBAQ1OKidEJVpdX6TqjDawGSAatREQilWBqbJrNtU2aO7VaNAZYEQSRZGOC7EGW2acLqCWFWH1UD30WTEATCPn+f/beu7uNK93XfKqQSQSSAAEQBHOmRIlKVrIlB9ntbHe7fc70mTP33llrPs18iFnr3jln7rnt09Ftq51t5UBJzDnnnDOBqvmjUIVCJCjRsfmuBRFCVe0KKOz91O8NG28wn6W5FaaGZlicXsZiMWOzRyuxqsXaVGjRZ8io93K0sqtyDxq1KrTq/426+8/I7vYeQ61jTPVPY82yUHeummBlAKPRhMlg1O5ro2hgrG+SkZ4xiquKqD5RqQXPqvfy7tYuD755hNNl5+yVs5hMJp2yqLTx4FYTu9u7vPirq5hN5sQChaKBseFxutq6uHTlEp58j3Zf6u+v+Nfo8Bjtbe28cOUF3O68GDBX7z31b7zbJ5lqGO9qSnYvp7rHM7UfKT7lCFSexg4TVg4CLJnUZUkGLDH7SnLchwEtaeEkWXZRHLCYTCZKSkuor69nZmZWK+NfVlGGyWxOCyvxT6P6DIpAMMBQ/yADfQPUH6+PSVmOL6CV685hbGiM8ZEJquriMi0iNOLKdTE3PcfY4BgllUr2RKQ1TT1x+/NYmFlkbGACj98dmQso+pSvwkqWw4a3KJ+t9S2mhmdZmVvFoVNXdrf3ePJVG43XGhQ5O+4axqspgqDMD9TydSenXm7AYjOztrjBYMsosyPzOPMcHLtYiy3bpnPTxELK2uIaXQ97yfPmUncmGnCoFdISDWyubtJyt53C0gJqT9RonbW+AFx4L8Ttr+/izndz5kJsOrIeQgRBYGdnly8++YK8vDxeuvZizNOooIKJDuDUaxCvsACEQyH++qe/cu/OfURR5MpLV3j9zdcpDBZiMqqzCMemLKe6nzNZHv/km5uXS21tDQ0nTrC5uUHzkxbaWttw2O14vPkZg7d6L6uwYrFa8RX4aH3SysrSChVV5UmOTwFmi8WMK9dFe0snOzs7BIsLiV0RLFYzzhwnPe29bG9sUVBcoAV3arAS9LK7u8tQ9yhbGzt4/HlKLR5ElJ+XgNFkoKDEj81uZWV+henhOZZmVjAaTWQ7osXfVAUtpkAfsfdwbMq6Cr2RkveCgfXlTaYHZhlpG2dve4/S+mKqT1eQ5cjWqsKqKoooCEwOzjDYPkxBsV+pl2Iw6grCGZDDMo9uNLOztcvl1y7hcNiJKi3GiOtyls7mLk6ePUmwqDCmQKH+WG989R0Go4kXX7maVk3Rq5a3b9xme3Ob1371aky2TwygHFK2z2HFpxwEag7RjkDlaS3dwP80bR2GuqJfZz9geVZo2Q9c9oOWVMBisVo4dvwYdrud5ifN9Pf2U1JWogQqpujg46VzxaKT/7k9blqftGEwGCgsCqQuoCWglCVXZ6YNROcBUmN4ZGTy8nPp6+xnc32TYGmhtj/VBWQQRTwFbqZGZpgamaag2Bepr4J2zVRYMZqMeAJ52Bw25iYWmB6aYXdrjyxnFrIk8/jLVs6+elKpaivGKip6N5AgKEXT9nZCNH/VTu35KiXrom8aURAoPV5MxfFSjCZjDKToy4Nvrm7SersTi9XCqRdOYDFbYqvPigICAo9uNhMOh7n48nNYzJYEqdwgirQ/7mR2ap4rr0ZqQ2gyeaKa8uDOA6YnZ3jrvTeTpiLHAkkUrCCabQGws73NHz/6E+NjE7z48lXeevdtAoGA5nKKrh/boSeDEtXiB5BUv534diwWM9XV1VRVVzIxMcHjpifMzc4SLApisVoS7tt04K2u63A6MRqMtDxpRRREAsFA4nFHDisn18VeaI/O1i6l4rQ/P6raRP46XXYEUaS3Q4nP8BX6MOhgBQS8gXxEg8Bw7yhzk/N4/B5MFmMEViJuSkHAkWMnUBbAareyvrjG9MgskwPTbK1vE94LYzAYtTnD9AO9XknRv4wGAyIi6wvrTA/OMtw2xtzIPNvrO3iL8qk/X0OeP09TX4xGUwRERPZ2w3Q39TExMIm/yMfJi8cxGaNKiMFgQJBFHt1sZml+ibPPn8FfqFRjNuru972dPW58fgu708GlqxcwRibA1KcjC4JIf3c/3e09PH/1Evne/KRqinqvq9d+aXGJb776llNnTlFeXhYbuxUPK3FqCnHfY/xn8e+T/X+/z1PZEaj8TO0wYeX7AJZMoCXV8aeDlv32sR+0pAMWgIICP8XFRbS2tdHW0kagMIArx7UvrMTHqyAoFXYXFxbo6uymurZKUziixxStreJwOpifnWegd5DKmgpMJp3EHlFVLFYrkiwz0DWAM9eFMzKHStQFBAajAbc/l5H+ceanFigo8WkSuB5WiPjw7a5s/EX5hPZCzI4vMDU4zeL0MqNd45y4cowsR1bM+npgUV+723ssTizRfb8vMpgIFNcGqTldiTPXoUni0afPaLDg9sY2zbfaMRqMnH3xFFnZWZovX41LEQWR4Z5RxgYnOH3xJB6fJ2Z2ZNXls7a6zoObTZRXlVJ7vEY3OIkJFWgX5he4/e0dGhobqK2vTQoFSmcd+0QKsZCysb7OR//xEYsLi7z97tucaDyZkAUU39EnPHUmgZJUlg5e9Nva7XYaTjRgtVppaW6ho6OTwsKABmR6eEgF3nqV0B/ws7y8QmtzG558D7l5Odp6SiBu9M4qDAZYWlyOuDNzceW5YorBCYKAx5uHjEBvRx/rK+v4i/wxbiBQarC48hxMDE0yMTCJ2WrBleuIcQWp5+zMsVNQVoDL48RgEFieXWVuYpGZkTlmx+bZWt1mc3WLjdVNttd32NnaI7wTZndrj5X5VZamV5gfW2RqcJbR7knmRufZ2dgjz5dDSW0RVacq8AXzsZiVGBaDwagBiigaWJxZpu1OJ1trW9Seqqb+dA1Go0kDFKV+i0jz3VZmJ+c4dbGR8urSGEgxGowIwN1vH7C2ss61N1/C7rAndfmE9kJ8ef0r3B43L7z4fEK5/KiaovvNCiLffXOD5eVl3nvvXUzmaGyUHlZSqyn/UG4fOAKVw7HDghWtrQxgRV03k/UzBZZ04JKwzj7LUwXk7jf3kL6Ev9PlpLamhr7ePlqbWyktK8XucCSFlf3iVbxeL23NbWxublJeqcjmkixpg4DaucuyhNvrpqu1i62tHYrKihIqfQpAbn4eU+NTjA2MUVRRpIsZiMa1WKwWHDl2hntHWVtex1+UT7TEe9QNpO7bYDSQ58/FW+zBbLWwsrDGaNcYRpORzdVNNpY3WV/aYHN1S+nkN7dZnV9jemiW0c5xJvumWZxaYmpwlnOvNXLsYh05+S4MxiigqJ2hPk7d53MAACAASURBVENnd2uXllvtCDKcefEUDqc9BlJUANla2+bJ7RYKinyRCrS6GBct9kDk/s0mdjZ3uPqrK1gtloT5fNROHBm++PRLBEHk9bde0zrsZFk+epdPfIe+vLjE7//nR2xtbvPBh7+hIpJBoX8S1Xf2+s5ZDyfxli6+INnvLhWwqBlG1TXV9HR18+TxE/Ly8nB73Mp+9XAtKIN/KpUQoKSshNGRMTrbOikrL8WWZYvbb+SeEgSCxYVMTUzR3d5DQdBPlj07UmAQLVjX6/dgNpvp6ehleX6ZQHFAKwinfmfZjmwKiv0szS0x2jfOwswSjhwHtiyLpq7oB+Qsuw13gZvCygD+Yh92VzYCsLa4xvLsMitzayzNrrA4tcT8xCLzE4uszK2yubKluK+sZlweFyU1RVQ1luMrysfhsmM2mbS4F7XYmigakGXobx5koH0Iu8PO2Rcb8Qd9GA2RmBODUrlWEETaH3YyOTLF8TPHqDlWlQApoiDQ3drLQM8Qz10+R3FpUXQmcR10G0QDjx88ZmJ0gl+99Roul0u7N2MgWwWcCKQsLS7x1RdfcfrMKaprqtOqKerfZ1FTfuZuHzgClcOzw4aV7xNY0kFL/HrPqrYkU1r2U1j0Hb3VaqWqqorOjk462jupqKpI6gZC69oTn0RlwGwxs7e3R1tLO0UlRdgjheaixxFVVSxWCzvb2/R09lJUEsRqs6praecjCAIen4f+zn5Wl1YpKo9OWqi6gAQg25mNJZIJtLKwijfo0dWDSIQVQQCz2Ywrz0GOx8nDz59w9lojO1u7rC9vsrqwysrcKsszKyxOKR2+LMk485z4S7x4i/JpvdnJK797AZvdFg1kFAQNOgQhqk6EdkO03GontBvm9JVGXLmu2AyfSIeMDI9uNBMOh7j0ynksFmvU5aODmZnJWdofd9J47iTB4kDS+XxUWOnv6aO7vYcrL7+Az+9NCwV6wNIHFE5PTfOf/+sPCILAh//8WwqLgpFrm1ouhyig6C1+gNnPUkFLst+OICiZbnX1dUyMT/DwQRNGg1Fx38TFraRzaQqRYy8uKaa7s4f+vgGqaitTBteKokBRSZChgSEGe4coLi/GbLXEwoog4M7Pxe6w09vRz9zULIUlAWUG48hRCIKA2WwhWB5Qsn3GZhjpGWNna4dct0uZ2yceWCLBsxaLCUeuA1/QS7CqkNK6YoqqAhSWBwiU+fEGPRSU+CirK6b8WAnBigCBUj/5ATd2VzZGozEaqxIJklUVDVEUWZxeov1eF8tzq5TXl9J4sQFbdpam8qkuJlmGrsfdjA2MU3eihmOn6pJCyszkHA9vP6Ksqowz509FMo4ioK1z+aytrvHdlzeprqvmRGNDnMsnUU1RXze+vcXy0hLvvvcuZrM5KXwnFi6MVVP0n8UrHfH3bqp7+aDgcQQqvxA7TFjR2ssQVtT1M90mE2DRr5cJtGQKLKk691SwYrFYKK8op7Wlld6uHmrrlMqR6Tr3ZC4gr99LV0c3M9Oz1B2r1ZbHpyvLsoTb56G/q4/5uQUqaspj0pUlWUIAzFYzJrOJ/s4BLDZLkiwgpUVHngNrlpWRvjEWZxbxBj0YDGrWSRRW9K4MQUDJSPjsMdf+5Spl9cUUVgUoqglSWFlAQZkfX0k+RdWFFNcG8RS6ceY5EASRps+fcO6101hsFl0Qo6CpKOqTqBSWFZl8Y5tTz58gL1/J7FDhRBSUip0G0cBg9wjjg+OcudSI2xvr8lH/ypLMna/vYbGYufTiRUzG2HRkQYiqKeFQmC+vf0muO48XrkYl81RqSvwTpyCILMwv8NF/fITNZuOffvch+T5v5JruDyl6SxZYe1BLBi3JFBaTyUT9sXpWlldoeviItdVVyirKdJk56d1A6j1ltljwB/y0PmlldnouZZl9ASUOKlBUSG9nL2PD45RURGKV4mAlJ89JjjuHvs4BpkanCRQVKCoXUfcbCLhyXRRXFiFLMqMD44wPToIskO3MigGWmFmxtcBZRXUzGIyYzWYsVgtZ9iyy7FmYI+pbTFpyBCRiArojwDs7Pk/nwx5ldmerhdPPn6C4skib2VvUstWUukDNd1qYGJ6itqGa42eOoZ8BXIWUrY1tvvvsJg6nk1feeBGjyaTMIRSBFFWVERC48dVNtjY2efOdN6JxR0L6ANqVlVW+/OxLTp1upKa2JiM1JdnfTOf2iV+eyeep7AhUfkG236D+1O09BbAcpsqS0O5TBuKmA5Z0sGKz2SgpLubx48dMT89Qf6xOexLdzwWkD6y1WMy0tbTjzs8jNy83IV1ZhRGjUan70N3WjSffjcPlUNeKOYdcTy4LswsM9w0TLA1iNquZJVHwARlnngNnjoORvjHmJxfwBvUpsroOSvfv7vYu9//+iAuvn8Vqi2YOGQwGTGYTJotZeerVIEBkb3uPh58/4fyvTpMVcQnEpIhGBovdnRBtdzpYX9ng5KUG8gvydZASLZEvCiJryxs0326hoNhP/am6BJePqk4M944w1DfMxRcvxqQjJ1NTOts7GR4Y4drrr+B0OROeOpO99GqKJEn8+Q9/JrQX4l/+j9+Rm5cXuT6ZQ0oqQNnP5RP/SukCSuHWNBgMVFVXIQgCTQ8fMTM9Q1V1JQajMS2sxMO33eHA7rDT/LiF9dV1yipKE85HhRWr1UK+P5+utm7GhsYIlhRhtpgTYMXhtJPv8zDYM8RQ3wh2ezauPJcG1BpwGozkB/IpKPKyvrrB+MAEo31jrC6uYzQacDjsiFqGUGwArQascVk/ekDWICWipKhqSjgkMTEwSefDHqZHZrBYLdSfqeHY2TocTocGKFoGkWhgY2Wde18/ZGVxjcbzJ6hvjBYw1GcJ7Wzv8c317wiFw/zq7WuKm0yIBs9qKo4g0tvVS3tzO+cvn6ekrCQOslPfK99+9S1Li0u88+47WG027f5Ip6boFcT4e3o/NeWw3D4/ctn8I1D5vuwwYUVt76DActDtvg9oyRRY9oMVAIfDQXZ2Nk0PH2EyGiksKkyqqqguoGSqitvjpr+3n8nxSeob6rUfYDJVJdedy3D/MJPjU1Qfq0Irg642GGnf7XMz1DPEwtwCxRVF0fOLrggobiBnnpPR/nHmJubwFuVrsKKtGvkjCkpw7N3rD7n05nksNnPy7BdBjOkg97b3ePDZYy69+RzWLEsMoKgxKusrm7Tcamdna5eGC8fwB30apOgzfERBRJZkmr59jCAIXHrlQmyWjw48wqEwd765R547V0tHjn+q1qspX3/2DT6/j3MXzulSWDNXU5ruP6S7s5s33nqDwsJATGefDFLiXT3xHbV+gDmopYKWpCCug+/i4iIcDgdNDx8xOzNLVU2VUo04Bayo8K2/pz3efABan7QiSzLB4sKksCLL4HDY8QW89HT2MtI/TGFRAIvNmgArdoedwpIAs1Nz9HcNsLa8htvnwRynrgiCgNliIVgWIFBagNFkZGFqgYmhacYHJ9hc2wJJxmw2YTIr9U0EYmcbNmjAGxsYrgKELMmsLKwxMzzLQPsw/a0DLM0uk+vJ4djZOupO15CTl6MATRygiILI+OAEj24+wSAauXztIkVlRRFgMmrKjCgIhPbCfHv9O7Y2t3ntrWu4vW5NzYlO+aC0v7iwyFd//5pgUZAXX7maxuUTq6ZMT8/y7Vffcu78OSU2JQ5QtO91n7+p1JRM/r/f56nsaX4Xh2hHoPJ92mHDitrmswDL00DLfuCSDlrSAUs6WFH/r38SBfD5fCwuLvDkcTPFJcU4Xa6Ejj2dqgJgy7LR1tKOy+XEne9OqaoIgkBWdhZdbd1k27Nxe91aEThtdmXAaDZhsSmF4EwmEx6fOxp7ootXAch2ZJHjdjHWP87s+CzeQo82uZ26vgokO9s7EVB5DmuW8vSlDLiJ34/62tvZ4/7fH3Hxjecirp8ooAiCyOLMMq13OjAaDJy+0ojH546BFKXsfhQaupv7lJmRr54lx52T4PJRoaW7rYepsWleuHZZmUcljZrS3dnNUP8wL736oqamxFepjT8vUYwOBHOzc1z/5Dq1dTVcunwxpqJnsr/pVJT93D76SqKZ/CZSAUsqdcXn92G323n4oInFhUWqaqqU4z0ArASCATbWN2h50orNZsUbiffRm6KIKLASKArQ19PPYM8g/kI/tuwsrYKs2qjFaqG8uhSj0chA9yAj/aMx6ooKLGq1WKvVSn5BPmW1JeTm57C3t8f81CJTIzOM9I0zPjDJ8twKW+tbbG/usLWxxe7WLns7e4RDEqHdEBurm6wsrLI4tcTs+Cxj/RP0NfczPTzD6uIa2Y5sghWFHD9TR3ldGU6XA6PRqKkuKqAoqcW7tD/soL9jEG+Bl+dfu0xuXk4UYsQoeIT2Qnz395usr67zyhsv4S/0p4AUI6HQHtf/8hmiaOCdX7+NxWrJCFJA4JO/fooUDvPu++8otaF4NjUl8X0ifKe+r38ZoHI0188hmfbE/ozzBCW0q7sJ95s76DC2TTUvUELbKc43kxmdRSH5xI2iqMyzpP5YfvX6r5ianOLTjz/lv/1f/w2TyaSbwVaZoyd+7iJ1LiBEkcrqSry+fJruP4769pPMrkxk5mR/gY+WplZKKosxGgzoZ6UNh5X5WsqqSpkYnqCruRt/0Ee2I0uboVmdOE69gh6fm+deOsPD7x5z7/Mmqk5WUFDiB0GMmccopriZIGgtpPvG1Eq0oiBgjLxX5pWRGe+fZKBtCEeOncbnT2DLssVAit7dIwoi89OLDHUPU1lXjj/o160XBQBRENnZ3qW7rZei0iA+vzemk9XWjWwbCoVoedRCIFhIsCiYPKg1SWevWjgc5vPrn2O1WHn52iu6uYySBx/GQ0rMfpL68zOXuOPXTTZfVvwEn/r5sdR7uvHUSUKhPb784iv+/slnvPH26wiiqJsnSIqd50rUz6elTJr50qsvsbm5ya3v7pCVnUVZZZl2X4Pyx2hQ5vPxevN5+zdvcv0vn/Hl377ipddfwuN3a5MYCrKIGJnZ+FhjHYHiAu7deMCDG00ERws5fqYeS5ZF+c0ABkFZX5KVe6cgWIC/0IcUllheWmFpYYnlhVVW5lcYnh7V+oB0D3FmqxmrzUJxRTFuvxu3N1ebh0kQo/eUHm5FQUQKhxnoHqCvYxBkOHa6ntoTNdqEmvrsHUEQ2dzY4sZnt9hc3+Dqq1coKAqkhBRBgO++vMna6hrvfvCuNvO79p3HZajprb+vn6mJSV57/TUsFkvM8SvfY2q1L2Yf+vWe0h3zM3P7pLUjReWQ7ftQV2LaPqDCot/2oNsfRGVJprCkU1cSpPI42VwQBIxGIz6fj4cPmxAEKC4pTnAB7aeqZNuzaWtuw+60k+/1xBynlt4c2a8zx0FnaxcG0YCvwKs6mWJUFRmZfJ+Hob5hZiZnKa4sQqn0KcX4ddT/27Js+Iu8LC+sMtY3zsriKrn5udGYE2Bna5fbn97n8lsXsNqsupobqX3gezt7mgpjsVkUONgN0dcyyGjvOL4iL42XTyhPgnGQolc99nZDPPimiaxsK+euno3M5RNdLmjrirQ8bGNpbokrr13BZrOmVFMEQaCvq5fBviFevHZVS+fM5KV2rg/uNdHTpbh8Cgr8MepJsk4/KpcfLqQks2S/i/jfV6p7OhAIYDAYaHrYxObGBuUV5THZQJCoFir/U+5rURQpqyhjfHSc9pZ2ArpaLbHnrSgrVquVkvJiRobG6G7vJs+dq5s2AtDVR7HarJRXl2IwGhjoHqS/e5DtrR1ceTlYLGbteqpArdy/StCrLctGrjuHQJGfkupiyuvKKKoMUlQRpKi8kEBpAb6gj0BJAeU1pVQdr6CusYbKY+WU1pTgK/TicNmVzB/RoCunry+rr+x7cniKphuPmZmYo7AkwMWXL1BUGowWNdS5egwGI6tLq0pMyu4er7z5MoXFhRhFY2xMSuT3YTCIND9qVcrkv3CJmrqo60ZdJ/5+VUFekmQ+/vPHZDuy+dXrr2m/CfUeUP/G1005UlM0O3L9/JCWavA+zLafFlqeZvtMgSUTd1AmsKJvx+Vysbi4RGtLG8cbjmGxWrXA2mSxKvF1VVwuFyNDw0yMTXD85HFtHWU9UEFERibbns3K0gp93f1U1ldhMhpjYlXU6rVGsxG7M5u+zn5CuyF8hUoWirqetk3k/2azmUBpAWaLiYmhKSYHJ3HluciyK5O77W7tcuuTezz/1kWsWdbotYv7vvSv3Z0Qdz59oMHN3MQCrbc7WFtao7y+lPoztZHCb0kgRftMoP1hJysLK1x65QLZjuxIR6qLN4l0tpsbWzy4+ZDK2goqaiq0+AMVYrSOO5Li/PVn35LnyePchbNaxdhMY1NWV9f45K9/o7q2msvPX0pQU/SdPsQXwUr9xKoOModlqYBlP1gJFgWRwhJNDx+xu7NDaVlpQsC4isV6WFFMxmgwUFZZxkDfAJ3tXQSLCsm2ZyeFFQERs9lEaUUJkxNTdLR0EtoL4Q/4lYE0zhUkCAJev4fSyhLCoTDDfSMMdg2ysb6Jw+VQ1Dkh6hJS405UaFHvK6PRiNVqxWazkm3PwuG048p14sp1ku3IVib2NEbn29ErGiqYiBFwEEURKSQxOTJNy712RvpGceY6Of/ieWobqrHZbBqg6GuuGAwGJoYn+O7zW5iMRl577zV8fm9MCrJ+vwaDSH/PAPdu3qO6tppLVy5mHJcCcP/uQ/p7+3nr7TdxR2aHTwbW+s+Sxlnp7+GnTEk+qJqSrq0f0I5A5cew7wtW9O0/LbDot8+0jf2AJRWgZQoryTp1UOJVmh42YTAaKCktSZoBlKquCig/9s72LoLFhTicDu044ucAkmSJnFxXpBy5EV+BVz3iGFVFkmUcTge7O7sMdA/iL/Rii8SWqDADxMCKgIDL7cJX5GVucp7RvjFEUflsd3uXW5/c5YW3LymgIsR2asleezshbn96nwuvnWWoa5ShzhEcOQ5OXTlJoLggAg2pIUUURJYXVuho6lKeaitLtI5XgY9YNaWzuZvFuUVeuPYC1kiKZqo5fcZHxunq6OLyC5fweDwpzyHmyVTX4d/49iYL8wt88NvfYLFYknbwySBF3zkng5Rklqz+RbpXqtT8g8JKcUkxe7u7ND18RDgcpqS0RIPTTGDFbDJRVlFGX08/7a0d2mSciQMZCIiYzGYqayrY3d2ls7WLibEJ/AU+LDoFT3X3CYIyiWhhcYDSqlJkWWJ0YJyBzgGW5peRwhJZ9mwt6Db2HohLkyc2EDwKBoaEz4yG6ASFahvL86v0tPbRcq+NqbEZLBYLjedPcOr8SZxOR0pAERBoe9TBo7uPcXvyePWdV8nJcUXdQaIOUEQF6IcHRvjm8+8IBAt57c1rGI3R9OlUkKJ+r1OT03xx/XPq6ut47sJzCfdq/P0aD9s/tpryE3H7HIHKj2WpBu/vYx8/FLRkAiz7u4ISO/YYaNFtb7VZmZubpae7h8bTjdoTfKq6KnpQkWUZp8tJa3MrUjhMaUWpbh2lI1d86bK2r/mZeUaHxqg5XqPUIUmiqiBAnieXkYFRZqbmKasq0dxIehdQPKyYLSYKSnxsrG0w1jfOzNgsYUmm+WYrL7x9CYstWhhKBZakoLId4tYn97BlW9lc26LiWDn152ojT5dRWToVpIDA41stCMBzV85iMBp1pfZj1ZTQXogHNx8SLAlSVVcZyRZKnNNHHawe3H3A3l6IKy+/EKe8xJYbj7/vBEFgeXmVLz/7gsZTJ6mtq91XTYk+hSaHlFQqij5V/CCWClrifxP631L8exVWSstK2drapOnhI4xGE4XBwgPBitVqoaK6kqHBIdqetJHnziXXnZsUVkABh6KSIO78PPp7B+np6CErKwt3vlsZuDVXow5YzGYCRQWU15RhMBqU38bAGP2dA8zPzCOFJGxZNsxmU0wqcnw2WHy2T7LsHzHivlyaXWZsYIL2pk4GOgfZXN+mqKyI0xdPcvJsA7nuXC2bRw8oKhytLK5y66s7jA6OUFVbxYuvXcVmsyl1WnSF4aKVZAXGRsb56vo3+Pxe3nn/LSWlOwNIEQWR3d09/vTRnzCbzfz6g/cxmc0xikk8pDyNmnKQuik/UzUFjkDlx7cfAlj0+zkMaHkWYNkPVuK3i38C1XfoAE6Hk8ePnpCdnU2gMJBSVUmWqmwwGFhdWaG/b4ATjQ0YjIaUZfVlZGxZNro7esiyZ+H25KlHnKCqiAYDdkc2/V39GAwiHp9bt98oAGmOKhkNAHxFXuwuO6tLa4z1jzPaO0ZZnZJJYTBG41f03yfA2tI6k0NT9Db3M9A+RNXJSs69dJpASUGk09eX9k6EFABRNDDSO8bYwBgnzzdoKZoqeOh98QZRZKB7iImRSS5evYA94h7SKyh6CNlY3+DOjbscP3GM0tKSmJTkROBKlM/v3bnP7MwM773/nja5nXpfpFJT0kFKvD0toCSzVMCyn7qiv7fLy8tZXlqi6WETdrsdn993IFixWMxU1VQxMTFJy+NWsrKy8PryU8IKKBMZlleVMT87T1dbN8uLy+T7PMr11q5TNKBaEJQCdv6Al6r6SoKlQSw2C0vzy4wOKtAy1DPM7OQcK4urbG/tRH/nKPebOl+PgIAUltjZ2mVjbZP15Q0WZpcY7h2h60k3nY+7GR+eZHlhGWeOk2On6jj//FmKy4LYHY6YyrUxCoqgtNvW1MH9Gw+RwmEuXL3AqXONERdTYjyKCimT49N88ckXuD15vPvBO/tm+Kjfpbr8y8++ZGJ8gg8+/M2+Lp/kf9X7OHOXT6rP0n2eyn4iagocZf38dEzNAvhB9iXEZiB8X9sr2Saps3gy2U4UkmcCqVYYLCRQWMDjpsc0nm7UapBI8RkYYvLMq9r6WjraOunvG6C2vkY7t3CSDA5/wIcn301XazeVNeUxyyWkmPeB4gKCJYV0t/YSKAlgs1vj1o9mAUmihCwpXbhBNFBQ7McXzGe4Z5Sbf7vDcNcIs+NzZNmzMFqMih/fYsJsNrG1sc381Dw727sIgojFpgQ3nn6hkRx3TuR66zvHVK4OkbWVNbqedOMPeikqj5SiF8WYbVR4CIcletp78RV48fginXBcx6aHg56uXgQE6o/XJd1/Otvd3aWzvYPqmmrsDnvS9p/FxAw78PiOe7/fq1p3R7V0WW7qe/W3IYoib779Jju7u3zx2ZdYLBZq6iKVTCMZavoMN/UeVzNxZFkiK8vG+799j+sfX+fG1zfZ2tzi9HOnErKBDAYQZQFJEnE6Xbz1/pu0PG7lycNm/vofH1NzvIbjp45hsqjZdRISoi7bR0IQJDz5btyeXE6caWB1eZWp8WmWFpdYWVpldGCM0F5IOf84YDMYDMigLVc+V/6aLWbc+XmUVpbg8XrI8+Rqqb16IBV1g7v+8/GRSR7ffczm+iZV9dWcOX9KmYIj8v2kgpSRwVG+/uwbcnJyeOc3b2O1WlNCiv7+UJd3tndG3JyXCRYV6Y4zPVTv9zvVW3LgTv37/iXaEaj8CPZ9pTKn3N8PACyZwkp8p55qf/rOXH0CPffcOf7yp7/S39dPVVVlRvtXrSDgJyfXRU9nD7X1NTHbiaKEFNbt32DgWGM9335xg4mxKQJF/pjzCYf1qadw8nwD05MztDxo5dIrF7SU5/3OT2nDQJ43F4AzLzayvLDK9uYOezt7rKyvsruzSzgUxmgy4vbn4Slw4/bnsbu5y6f/7+cYDKpKkujLTqamyLJM851WjGYjpy6e1OTv+Gup2tjQGJsbW5x/4TmtzZh1dYO6LMv0d/cTCAZwupwpzz+V9Xb3sbOzw8nGEwltR48tMTZFtXRqSjpI2e+JUr881W82VVp+JrBiNBp57/13+eh/fcQnH3+K2WymrKLsQLBiMZt56723+Orzr3l4r4mNjQ0uX72kuO9kZT+SrGC2KEogKW00njlJRXU5j+4/pqutm4GeARpON1BdX6WoF5HtEAxaOrNyHiKCJJGbl0tOrks777AUZmN9g5WlVbY3twmFQoRDYUKhEKGQ8iOzWExYbBasNhtWqwWrzYot25ZmUI9THnQK3MLsIu1POpgamyLXk8eVay8ogcKqGpQCUARBpLu9m1vf3sbr8/HW+2+QlZWVFlL06p86tcPXX35NUVERFy6ejzlm5Xgzh5TDSEd+GvsJqSlp7QhUfkT7sYAFng5a9lM9ngZWDqKq1NTUkJWdRV9vH9U11bE1VfaDH1EpZ/7wQRO7O7sYTbG3viiIMepKWUUpd2/cZ3RolGBxAJAIq4G3gghylGyys7OpPVFDW1M7aytrZDuzI4OJMiCkUlXiz9fuslNYFlDWk6LnEw6HNf+7FBmodjd3lWMRBQ1S1A5UfZ9wDQSRhZklVhZXOX3ppG4SRnV57OytoiAwPjxJtj2LQFFBwmAfWzlTZG1lnbW1NRrPNibsN90TqmqDg0O4XC4Kg4VJjz2ZPesT5EE76v2gJZm6kgmsmM1mfvPb3/C//ufv+fMf/8KvP3if0vLSjGEFwGQ08urr18jKyuLRw0fMzy3w2hvXsDvtCeqKBiuCoq68eO0qx04e48GdhzTdfURnaxf1J+oory7TFBZRAEkWEGT1HouFFvX8c1wuclyutL9J9T5Odv30105/zaPrC8xMTNPR3MXs1CwWm5Uzl85Q31CnpNfrAEXdTg8pkiRz7+Ydutq6KC0v5bU3X8VkNh0IUjbWN/jzH/6MxWzhrXfexBAJvI09zuTuyYPYkZqi2C/3zH5GpgaU/aD71MmTh7nds9aoSLtvUaS0tJThoREt/iXdj1b1savXtqCwAGSYm51Luk28vBsoLGBqYlpXDj12ENfvuyRSUn98aGLf84iJF0kBF3qFxBDJhtCvI4jx0JAYp6FXU9TPRgfGMJlNBEoDMTEiyTIKJElidmpWqeAZKSqnLku2v9mZWQAtWypZkbf4fehh4zc/LwAAIABJREFUfXx0jJKSYq2YXfx5pbODqimH8ZtL1Ub8/oQk10r/Xm3DZrPxT//bh+Tn5/OnP/yZoYEhZfuYQTf54KnuxyCKPH/1Mq+/9Toriyt89P/9J0MDwxroioIYqSFiTEhfz8/38NZ7b/Dme6/jcNppuvuI//y3P3Lv2/sszi9F4r2MkckD1dL4SltGg1GLQ1FfavpxspfJkGKZbnu1TVFQsnOQYXxogs///AXfXP+O9fUNnrt8jt/+6284eeoEFpNZiVeJTzsWjZGMIoGd7V3+/tfP6Grr4tTZU7zx7utYLJbIhIT7QwooLsq//PEvbG1u8esP3scZySbSf6f7Bbo+rZpymDDyc1FT4EhR+UnZD62wwNO7hdKpH8mUlUxVlfj2490/ZeWldHZ0MjM9g8/nJd7UJ81k19AfCVScmpxW5g+SEs9bvR5hJAJFBQwNDrOyvIozxxE9Ll3NWNX9Y8uy4Sv0MTo4Tu3JGrTqs8lUlTQKkv77EMX9Yypi/eFiQoept72dENOjM5TVlGA2mRKWa21E7sPF+SX29kIEigqiy9PEp8xNz2IymXC73QfqUEVBZHZ2jp2dHYLFRSnXS+f2Sd12ckg5TEv2u413BWWqrGRlZfHPv/snfv8fH/HnP/6Fd957m8rqyoyUFSJ/RCRq6qrxF/i4/vF1Pvvb5zScPM7555/DaDQq4J0idkWSJYLFQYLFQebm5unu6Ka/u5+B3kFy3blUVJfjL/ThzFVSocXIOUtyxD0jx98fB+tX4gfw3d09psamGB+ZYGJskr3dPVw5Li6/fJnKqgoMxtiaKOo1jfktRFw9M1OzfPfFd2xsbHDt9VeoicSqxTwsJAmc1SspkiRx/eNPmZud4/3fvEdBYUB3vLGQ8qwun4M89P2S1RQ4ApWfpP1cgOVZYeWgbQKUlpUiCAJDg0NJQSWdWawW8tx5TE9Ox+wvnGJ/BUFlgJ6enNFABYiJU9G3U1JRzP3vHjA9PoMvmP7YBFHQXEDaZ8/Q2SRNX4wDnfGhCSRJoqSqOGkb8Z3d9MQMgiDgC/iSLo+HltmZObw+71OBwNjoGADFEVBJFp+y3/HC/tfwIMcWHxS77/Ekub8zcXOmgpX//P1/8tc/f8xb77wZE2CrmBLoCmjl9iMfa7CSm5vDh//yIbe+u0Xz4xamp6a59voruHJdmitI3bfqDhIxaMCSn+8h/8XnOXfxLP29A/R09NJ09xGgpPEXFPrxFfooKPRrMSai7vzV2JaD2Pb2DquLKywuLDE9OcvUxBRSWEmBLqsopbS8lEBRQWSKi3i1KTmghPfCPLh7j87WThxOB+9/+D7+Al+Cq0f9vlJBiizLfPPlNwwNDnPt1VeorK7S9psppMTfG6nsIC6ffwQ7ApWfsP0cgGU/sDhsc9gd+PxehoaGuXj5ohanAvsH1IKS0dPb3RtzTZVOIZywrsPpwOl0MD0xTXV9ZcLyeAsUF2DLttHfObAvqPzQJssyI/1j5OXnxkBXOpuZnCHXnYPVatl33dBeiIW5hYT4lExtbGycvLy8mGwf1fbroFO7/w6WppkKcuI/328OrMOAFZvNxof//CF/+OgP/O2vnxAOS9Qfr0s7N5C6fXzcytWXrxIsCvLlZ1/x+3/7iBOnT3D63ClMZlOMuoJ2DLHAYrNmcbzhGPXH61hfW2d8bIKp8SkmxyYZ6h9GlmWMRiN2px2Hy4HT5cCZ48RsMWM0GjAYjRiNBm0G8a3NLXa2d9jd3WNnZ4ftrW2WF1dYWlxic31TG+ydTgfHGuopLism3+eJgRP1miVVE8Wo22ZqfIqbX99ibXWNhsYGLlw+j8Viid1OjMsmigGXKKTcuXWHtpY2zj13jlNnTyc5hkzqpaS4V5/B5fNULvyfkdsHjkDlZ2E/FrA8K6zsBw6ZBMEms+KSEh4+eKi4hA64rc/npb21g7XVtZgqtanMW+BlYmwyo7ZFg0hpVQmdT7rY3dnFZP7p/Ly2NrZYX12n/NzxjLdZnF+iqnZ/QANYWV5BkmU8Xs9THd/M1DRlFeVPtW2mlq5zPoiatZ/ScliwYrVa+e0//ZY//eFPfPq3T9nZ2ebUmVOZw4osRT6XqKiqwB/wc/vGHZ40NdPX3cfFFy5QXlWuDNTojjkBWGQQRARZwul0Un/MSW19DbIsszC/wOzMHKvLq6wsrSjpyqOThMKJ4J+qLpPRYMDpchIoDGhF6zyePK3ac+oJKeM+1wHKzvYuD24/oKezh5y8XN7/8D2CRUFt/WSuHnVZMki59d1NHj18zImTDVx9+Wp03X0gRW/fh8vnH8V+Oj3pke1rP0aW0GGrJancP5moIao5HHYkSWJra5usuMyV/cxkVmIz9LUc0pnRaERK0ummMnXyth8SKjMxNYtIPf9MTJbkhOyoVBYKKdfTlOH6MfuRZba2tnDYE9WUH8KedmBIByyp4lYOCisWi4UPPvyAj//yMV998TUryytceekKYhysAEiIMbNyx8etOOx2XnvjVY411HPj65t8cf0rAq2dPP/i8+R5clMCi8GgnKNeZTFEzt3r9eL1emP6iVA4xMbaBjs7O4RCYfZ2dwlH0pNlWamoa7FasdosWKwWTCYToiHRRZQs8DgZnKifi4LIzs4O7U86aG1uIxwOc+a505w5fwaLOVFFUb+TZK4edT1Jkvj6i69pb22n8dRJrv3qVdRibplAymHEpfyjqylwBCo/S8ukrsOh7StDWHlaVeVpTC3ktLm5eWBQMRiUWz6c4XUTnlL1+cnZU5yDrMxPkNG66n2ozw7K1Ha2d5BlWXuCVu2gnXCqwUA5rszcOk9j+wFLprAC0bRdPayYTCbe/837fPXlVzxqesz8/ALvvPc2FqtFgxV9kC0kj1tRPpIoKgryz//6T7S3tHP39j1+/+8fUVJWzMnTJygoLIgBFu13rYMWMRI4qyotenCRZQmz0Yw516ydz0EslZskZvDXwYm6bHdnl/aWDtqa29nd2aGiqoKzF86Sn+9JCyj6tuMhRZYk/v7J3+nt7uX8hed44cUrWkbaYUDKQa/HQZb90uwIVH7m9kOoLE+bGfQs+9N32PGmDmhbW1u6bTIDCrVAWqYqiSBmNu2BdpyCWo4/o+YPzeSIzH947cmRrJLMOlY1uFi9vgcx9Xu0WveHzmetS6G3w5bYn7aOECRWsdXDimqvvvYqXq+Xzz/7gn/77//Gr3/7a/LcyhQPMUG2OleQspAYdQXAaIATp05QVVtFy+MW2lra+esf/oYn383J0ycprypTKsnKclpoUZUWiIKLdiQ6gDmIxX+38WCiX2djfZPerl7amtvZ2d6mrLKMcxfO4vV6E1WYJLEo6udqm+q64VCIv/3lbwwNDnPlxSucv3g+iesps6kcop+lh+cfwuXzc1RT4AhUfjH2Y8SxJBzD9+AqSmaaorKxqX2WqephiEjMeh96/OCiPwd1DpGY5XHXWI5ZP/KZFFayKSRZmVdIlmLalSOfAwiSRAFAOBSzf0lKfU7qNnI4FFM8K2aQk0Qt80dtSUZGkmSSCR+SHH0eV+FMH1egtAlEYESWJO29FCntm0lKdbxtb28DiaCSqijYT9metkJzMldQjEsosv3JxpO43W7+9Mc/8+//49956523KK8sT4hbARJTmCHBHZSdlcWFyxc489wZujt7aH7czFeffc3dWzaqaqooqyzD59dlcknEHCO6Y1S9N9p5EL3J0t3Lqe6ZVIpKaDdEf38//b0DTI5PIgMlpcWcv/ScknW2D6Do24tXUQDW19b4658+Zm52jldff5XGU437QkrM+aRQhWLP+cjlcxA7ApVfmH2fwPK9xKwkUUL224fNqigqOzvbMZ9n4mLSrk84AhJpIEX5v6zJI/GwoYBI7PqqHz6VSbIUk5YsyRLZK2tMAv/3yjqSWyk9n65jB8he3lC2Wd0ET44GGYJukIMIEImR45Zlbd/q+hLKP3olRAlSTv1knBSMIjAniOKBAUMFFUsG2UXq/DjPCjHf59NrKlfQYcFKsCjIf/1v/4U//uFP/OkPf+bS5Yucv3Q+Jm4lqStI/ybOHWQxm2k4eZzjJ44xNDhMW3Mb7c3ttDxuxW7PprKmkqqaSvK0STqJUVpAryomKrBJQlBSWoKiEnHtTIxPMjw4zGD/IKFQGJfLydkLZ6mtq8GlK7qWWNE2uZtH/3+1OOTI8AjX//Z3QqEQ73/wPpVVlRlByn4ZPj92XMrP3Y5A5RdqmdQs+albKmDZ3VPKx5uMmQeGqra2tg6QEA8ByZWV5YUlHC5HEpiKhQ1JlpGkMGODY2Q7srFmWdPOPq2HpGxHNgB2RxabRCElHbDZnYqqlGW3sSnJiKKQACsQ7dSy7DbMFjPT49MUVyQWVZNlpS6H+nAriGDLtrG8uBK9NrqaGMpAaNDeq9dzY22dfG9+5Fgy61DVtNW9vb2M1j+oPcuTZLJBIVNYP2jhw/ht9LCi7lfd3uly8i//+js+//vn3Ll9l+GhYd569y1tjiW9K0j5Nwos+syg6BoKsCAIlFeUUV5RxtbmFkODQ/R299L6pJXmRy04nA4ChQX4C/0ECgti5nRSv28tXinu2iW7bqkGXVmWWVpcYnR4jLGRMaYmlQrRZrOJ2roaaupr8Rf4tJiRZHAS83kaQAEQgHt37nH39j3y8vJ474P3YgoXHtTd831BytPaz1lNgSNQ+UXb96GuPI2qctgBtesR2MhOUnNjv2NbXFhEEARycnPSbifJMuFwmLmZeUqrSmKW6c9F/35hdpGl+WUaztVrLha920dVU6T47dU+RBD2hRQtFiXS90W/Y1mT0PXxKnoXUKCsgJHeUTY3t8jKsoEYGb5SxBV4/flMT8woCpGgXBO9Si/Jsibuu3KVAWtpcZnSisjyiPqxXw653W5HluUYV95PwVINGGLc9UpnqWAF9AP601WxNZvNvP3u25SWlfLFZ1/w3/+f/84rr16j7lhtjCtIU1eSxa5AcmABsrOzqD9eT/3xetbX1xnoG2B0eJTR4VF6unqRZZlsexb+Ar9SO8Xl1F7Z9uyEwTEeXGVZZnd3V6mjsqTUUdG/dncVcM3P93D67CmKS4oIFAY0920MDDwloIiCwNbWFp99+jmDA4PUHavjtddfw2qxxqyvbPP9Q8p+9o+opsARqPxD2A8Zv/JDxKmoqog9Oyvp8mTnqcLC3Nw8ubk5GAyGlLEgahG5xflF9nZ3tblr4tvWv5dlieG+EQxGkaLy4L7noAJMss/1bSYz/ecqAImCqJyHqLxXFJLYjq24Ishw9wjjQxNUH6uMaUPv/pFlCUmC/IJ8RgZGWV5cxu1xa+sakiglFouFrGwbS4tLKc8pVWClNUsZFNbX16PnKEkZVad9Gtu3eu0BBoNMAs2fxhWUCayAcg8ebzhOMBjkk799wvVPrjM0OMi1165prrR06or+jZaarN9fZBunw8HJUyc5eeok4XCYpcUlJscnmZyYZHp6huHBYSRJ1s2LJWA2m5RibwYDBl3Bt+2dHXZ3dtjZ2SVedMzKziIvL5fa+lp8Ph/FJUVk27NjrqN67fTXLWF5BoAiyzJ9PX1889U3bG1v88pr1zh1ujFlZk+y9uLfP+0cPsnaOsiytG3+zNUUOAKVfyj7pbiD1AHNnqbuRlTJkGPOeXFhUSu9nwwW9APO1IRSat9X4I2JT5FkWfde2UcoFGJiZJKCYj+iUUyrpsQH18pxKoqsazuVacGukewcFUpUWAH0yR6IkkiWM4tcby4jfSNU1JUBhhhVRXX/gKKquH1uZFlmdmqOXHduZD0DsiQhicr+9O9z83JZXFiKuIkSO0cVgBCVImRqfIzZbMZkMrGRQlH5OQTVZgoshwkr+u1zcnP43f/+O+7dvcetm7cZH5vgxZevUl1bHS2Yth+w6P8Tp7IoiyL7NBrx5Hvw5Hs4ceoEkqTEam2sb7C6ssrKyiqrKyvs7OwQDocJh8KEwiHCkfgtt9uN2WLGYrFgtVowWyy4clzkuXOx2Wzaucdfp9jrnWSW5aQKSyygqNsuLS3xzZffMjw0jM/v49e//Q2BQCChnUzjUZLtI9WxJzu/ZO1luiyd/RIgBY5A5ch+ZHuaGiXra2tYLRbMZvOB1JvdnV3WVteoqatO2C4ZiChz/DgxWy2RQTYKNvr3siwxOTLF3u4eReXBA0GKpHMFadCh20cqiwUlKQZKkMSYmBU9rBSWB2i718789Dz5BfnKuoaoqiKKKDAiS2Rl27BlZzEzNUNVfSWiQYxx/8THqeTkuuju6I1MIqnC0v4dpSAIZNuz2dzY0LX743Swz7rf/RTFp4EVIJq9Q5Jg5sj2oihy6fIlSktL+fv1z/j4L3+jsCnAy9dexlfgi8sMgnhg0e8jHlji3mrQAiAaDEiiiCvHhSvHhRoB9bQPRckzaRLBRPk8lcqSHFBCoRAPHjzi/t37GI1GXnn1FRpPN2KM1FdKp6Lol6fL7Nkvpf9oHp+D2xGo/IPZYagqP1Qast70mTRz8/O4clza/6XIAL+fTUxMgCyT782PbhsfMxK5NlubW0xPTFFVV7mvmhIOh+ls7iLLYSPPm4uSKJQeUvSxKOq5ra+t0zs2w9bmNns7e+zu7LK3u8fezh4mi4k8by5ufy653pzYY5CUOJeYsUVSB5xYWPEXeumxmmlv6uSFNy5hNlligEZEjAySEgbRiK/Qy/jQOLs7u4g2EYPqepAAFVwiacrufDehUIi52Xn8Bf7I9c0sTsXpdLK0tBQBoeQry7IcM4D8VO2wYSV+m/1cQYHCAP/1//wvtLW2cfPGLf7tf/w7DSeO88LVF7Sg53TAAoluId1qkQOKPUeDkMS1ZVAhdv+HkYNM0LcfnOi3UduVZZmBvkFufneTxaUlamprePmVl3A6nUm2fTpXT/x5HIaSksnylNv9QtQUOAKVf0j7oV1AhxlIGw6HmZqYpOFkQ8Ky+HRh1e2jwsFg/xBms5lAZFbkZLEe6vuezl6ksERFnRLLkU5N6WruZn11g/Mvn0WWo22lg5SoahJmcU6J63j0bTNL2TYsNjMmswmz1Uy2MwuTxcT25jYz43NMDk8jCAJlVqXyZ3gvpHOpKOcSr67oYUU0iBw/V8+jG0/oae7l2Nlj2joGQX0yR1NVKmrKGO4dpr+7n+OnjsdkB8U/2ReVBBFFgeGBEXx+b0KQLtohJnag/gI/TQ+a2Nvbw2I2x2z3c3za3M8VlCmsKG0c3BVkMBhoPNVIbV0td27doanpEb09vZx77hwnTp3QXCzJgEV5l/hNKYpaCokFEuBFNcMzsGVCqnKCCyh9fIgsy4yNjHHr5m2mp2fIzcvlgw9/Q2VlZUIb+6komewv1XHGr5/q/A66POV2vyBIgSNQ+Ye1n1q8SiqYiT/GmekZ9kIhCgsDKdtKGnsiSQwPjlBcWpzQ4cYCi6KQ9HT0UBD048pxEpZC2rJ4NWVpYZme9j6C5YV4/J6YfaeDlHA4xMzYLCM9Y5im5gEoriqk9kQ5RotJ20f8OawurrE0s0xoSImfeXKrHe/zx8nNd6FdqmTqig5WPAVuSqqLGegewhf04vFHXECClKCq5LhzyC/Ip7ezn5rjNZhMJk1VMaBeR6W0l8liwlfgY3hwmPOXz+ngJLbTVBSg2DgVX4EPSZKYnZmlKDJ53EEDap+1Ou/3khaaRl3JJCNIaePgriC1DavVysvXXqbhZAPffP0tt27e5v69+5xoPMnZs2ewO5U4Lz2wqFlCyg4NMYpIWnCB2LmCnsFSDbQZx4UIIuPjE9z67hbjExM4nQ5ef/NXNDQ0JIlfORigpNtvqmM/gpRnsyNQObKflKWTzCVZYnx8AoBgMHgg99P05DRbm5uUlkdTjWOUDVnS3D7DgyNsbWxx7vlzMcqJsk00SDccDvHkbgsmk5H607XaelLcKx5Stre2abndxsriKll2G7XHy+D6QworA6yYDUlBC5Sqty63A5fbgaMgF35/Aykc5vGNFooqCymrL8FkMiZXV+JgpeZEFbMTc7Q1dXLljcuIRnPUBRRRVSRERFmisq6cu1/fZ2JkgtLKUq2mSnxQLQaR0vIS7t68z9LiEnlut3bN9nP/+At8yvc0NU1RUTBBSYkZjOOKvv3UVZd06sphFYdT208FLPn5+fzTP3/I9PQ0D+8/5MmjJzxuekxtXS3nnjuLx+uJBo7qRRM9tBDrHoJk2lhygDmopfo+07paBJHt7W16unvpaO9gcnKK7OxsJQ6l8aSWdbSfmyd+nYPEo/zYkPJLtSNQ+Qe2n5qqordUHd342Bi5uTlk27M1VSOda0mFhIH+QQxGI0UlRQkgEB9/0t3eg91pJ1BUgCSHlawGOTZAVpYlBroGWZxbpPHSCUxmE2EppMFJOFL5Nh5SVhZXaLndxu7OHnVnq/AUenAur2v71wNRqushCtHvreH5OuSJRUb7xpmfWqTuTDW5+S7C4Yi6ICaHFUSRmsZqmm+3MNI3SnltubZckJXAWkNkwPEVesmyZ9HT2UdxeTGIIMhKq6qqIgoKYBWXF3H35n0GeofIvZCb1P2TLE05Ozsbp8vJ5ORk2jiVTE3fhgZKP7I9jbqSKazEtx/vDgLlOvj9ft557x2uXL1C08MmWppb6OzoxO1xU1dXS3VdNXl5uuqzaaAFEsEF4oJyn9JSlp6PBwNBme5hZHiE9rYO+vv7CYXCuN1uXn7lJRpPNWIymbR1o+3vDyiJ2xwOpOxnz3Ltfgr3+fdhR6ByZD+aZZrxowabSpLE2Ng4lZUVSdqSIkCRmJYsyzKD/YMUBgMYzcZYFUVz0yh/pyenmZua5dSFU0BsjIvaviTLLC8s0/GkE2/AQ6CkIGlcih5SQuEQw90jDHQMYbaaOXW1gWyXAlvhyDw54XBI20e66yPJ4eiAJ0BZQzF5/hz6W4Z49F0zhRUBqk6UYzSgqSvJYMVb6CHPm0d3ay/eoFdJ99a7gCLxKEbRQFlNGR2POliYWyDflx+NVYmoKpKsvM/KzsJXkM9A/yBnzp+KHqcUnWcpVZqyv8DH1MRUpMCc7ileN/D9XAJqU9lhwArExq0A+6or8W25cly88uorXLx8ka7Obrq7urh18za3bt4mGCyk4eQJKqrKY+ZfEuMOOxm4QHJ4OailAlX9fTA1OUVvbx99vX2srKxitVg43tDAiRMN+Av8CIKQxGVz+IAS31aq7VLtK9Nl+9kvFVLgCFSO7JBtP8n3IApO/LqTE5Nsb29TVl56IGl5bHSMtdU1nrt0DlAHymjWjZa9I4V58qAZi81KRW15AjCog8He3i73v2vCYDBw4vxxZKJpxckgZWl+iY6HXaytrOMt9FBxogyjxRhdT4qCUygCLelidhS3R1g7NkmWceU7OXn1GGPdE0wMTLKxskH9czVYbVZlH0JkinvRqMEKQP2ZGu58/oDmu61ceuU8iCDJQqwLSBYoqyqmt72XtscdvPirKyCSEKuiqioV1eXc+e4+05MzFBT6NVVFrXCbyoqKi+jt7mNpcQlPpMBcqjiVZ1FJDnum6YPaYcetJNsuXl2BRHcQKBN8njl7mtNnTrG2ukZHRwdtrW1c/+Q6oihSWBigrKKcsooyPB63NtDHBuHG2+GotPHtS5LExOQEfb399Pb0srq6hsEgUlJSwpWrV6iuqU7q3oHUgBK/brpYFGX506soR+6cp7cjUDmyH93iC5wl68QlWWJwcBBRFCkpLYl8ll6RUWGhs70Li9VKcVlxWjVlfHScmckZzlw+g9FoIBQOJVVTOh53sbayxvmXz2KymhMgRXMBSTKTI1O03e/AbDXTcLGePH9uDKDo4USSwwngksyksA60JGWbsAyi0UBZQwnZudkMNA/x6Jtmjl+ox5XnVJQLCSAUAys2h43aU1V0POxmsHuIirpypDgXkCCIGM1Gquor6XjSyfzsPB6vJ6K8iFp6spqqXF5dzsO7j+hq76ag0J/86R5F7RF1s9UVlxQDMDI8Qp47D0gdp5Lqsx8bQjK1w4pbUdrYX12J/79+gFXq3gg4XU4uXrrI+QvnmZyYZGBgkIH+AW58e4Mb397A6XRQVFyMz+/F483H681PmPE6PcAczDY3t5icnGRqcorJySmmJ6fYC4UwGETKysp44coVKirLtQymdHACmSsoyrY/nIpykHVSbvsLVlPgCFT+4e2nHKcCsfVT+vsGCBYFsVqtWucbDxLxbp/t7W2GBoapPVaD0WjUAAKiagpAWArT/LCVbEc2FTWxaoo+gHZueo6+zn5Kqorx+D0xcSkxL0lmbGCczqZunG4Hxy/UYTAZEiBFza4BNBeRel7pLJqJJBEKhxAFEVGEsAyeQjdZdhvdD/p48l0r1acrCZT4k8MKIQJlBcxOztPV3Ivb5yb3/2fvPWIkyfI0v589M1fh2j3Cw0OLDJWZlaJUd9VMd3XP9MxylkuQSwHsgQCJ5YkAFwQIkIvlaYcX8kDwyBMJLC9LhT0QWA4Xg1kx3dNdXV1dInVkZGgtPcK1NjMezM3czEVGpKrKqrIPsPQMs6dMuL/Pvr94yXhPE9Dc9VnWnqzz4MtH/PHf/rmhprTe3CVrMjTSpV+bn2V1ZZ2PfvoRweCAcT1t5h8Tmq5b5p9wJEwsHmNrc4t333+3o9zzJ8C33aG2H16XugIvR1jsbZrtCiEYnxhnfGKcT372Uwr5AhsbG2ysb7C9tc3jR4+t8tFohKHUEOFwmHA4zEBogFAoRDAUwuf1IssyQhYoimLd+3q9Tr1Wp94w8gTVajXy+Tz5XJ5sNtv6zFEqlZCQEEIwnE5x5+4dRsdGmZmdwe/397zfzyMn9nPv93dvx9fLVZR+dXv18bJl+tb9npMUcImKizeMviaMF8xIm8vmOD095ed/9MmV62i6xtMnK6jNJks3Fp0qik1N0Vq5FjInZ/zokx8hhERTVR2Os5qu0ajX+eLXXxHFCgbOAAAgAElEQVQY8LN4d95BTEznWVVromk6G8ubPHuwRiIV5+aPF9EFrWNtgmISlqba8lHRmhYhMsff/9z0Vh1TUdEMP5EWYQlE/LzzyQ2efbHG8u9XKGaLzN++hizooayo3Phgid/+5e/4+tP7/OTPPm4lgnOagGRFZuHWPA+/eMTJ4QmpkVRPVUUGFm4u8PTxCmsra9x+9x0rxb+u62j0JxWTUxMsP35Ks9nE23KC7DT/XNVP5U071PY6h5eJdnkd6orRTrc5yF63H2Fx7OsgQqbScvfdu9y5ewcw1mQ6OT7h5OTE+Dw9ZW9vn2ql+sLn3nlO4XCIaCzGtWuzJAcHGRsbJTWcwuf19azT6znondn2+QTFaOv1qij9+nmZMn3r/gBICrhExcVL4FVDD6/UhyNxm2H2AZiZnbUpEb3G1lZAdF3nyaNlhlJDJAYTltLRaWJSNZX7XzwkGA4ydW3CRk50B7F4+OVjivkiH//Jj5AV2SIw9ggfVdVYfbjOxvImQ2ODLL4/hy7RJiU2HxS7CmSO3Tp+WdSPqlr7m5pq/NjpKrrUJiwer8yNjxfZfrzD7uo+kgSz78xYi67ZyYrXp3Dzw+t8/TcPeHrvGbc+uElTBUXGYQKaXZzm2aNV7n/5kD/5O3/UW1XRJOLJGEOpQZYfLXPr7k0kM0EcNvMD3eafqZlpHtx7yN7uHrOzM11KicOM9C1F81zVGfJFvydvQl0x60J/wtJrX6fKYrRjtG2qJ7PXZh3jaTQalIolCoUCxWKRer2Oqmo01QbNpmo9sx6vB6/X69iikSiRaOTS+9mPoF6FnPTbdxUVpV8fr0JSXlUB/KGQFHCJiotvEFddu6YX1lbXiMdjJBJxdNrOrZ1mHzv29/Y5P8vwyR9/YpW31+tUUz786YfIsuGb4gxH1jneP2Z9eYPpxUkSqYRl8rE7z9bqdR7/fpmD7UNGptPM3Z5BlwzlxGyzk6DYyUmlWOb4vECtVqfZMBZxUxsqalND9sgEowGC0QEGIgGaesv0o6moahNdEi3VoZuwTN2cQNV0dp7tI2SZmRtTCF1yKCtNFQZHEoxfG2Xz6Rajk2mSqSRahwlIlmUWby3w4PcPOdo/ZmR8pK+qMn9jnk//+jOHU22vnCp288/4xBgej8Lqs1WmZ6adOTz6mHfeVj+Vy7LT9qvzImQF+qsrRt+XExb7GJ+nslj7O4iLCa/XizfhJRaP9Tu9K+MqitlVk8L12/cqBKVf/X59vUyZ59b/AZEUcImKi9eIl1Fanp8DxfiRbTQa7OzscOfuHaTW8uyXtanpGo8ePMbr8zG7MNtFhDp9U0KRENNzk06Fo0UoarUaX/z6S0KRIIt3FrvMPbqu0Wg2efT5Ew53jpi5McX4/KgVDWQnKaaDrjEGnXKxQnHzBIBHv1nhzO9BR0fIMkKWUDwyQhFUihUyB+cASEiMK8YPVSFXQosYPjtCF12ExQhNFszemkRXNTafbCNkianFSZQOM5CmS8zfnuXsMMO93z7kk7/zh0ge4TABSZJgemGS1cdrPPjyEcOjKTQheqoqs/MzfP6b37P8uL9TbWdOFY/Hw8y1GVZXVvnFn/7CUluuYv55ET+Vb5LMvChheVlTEHS/DFyFsNj7tPfby3HZ3pfjmK3f1x0+ftmk3O+eX5WcGGVfnaA8bywvWsaFEy5RcfFWQ9M1drZ3aDZVyxTQy+zT6URbLpXZXNvkxq0bRrZW3elEa3zq7Gzucn6a4cc/+3FfNeXeZ/epVKr84d/6CCFLjuyzprLy7MEaRzvHzN6cZnx+tEVkmtZ47SRF1TRO9844XD+mlC+TrNQBSF8bYmhmCF/Aiy45z1HTNRq1JpV8hUq+hnKYBeDZ5+s0j7KMzqcJxYLdhEUDXTIm5Wt3ptE0nfWHWwghmJgft8iKkDTD1KPI3PhwiS9/eY9nD9e4+e51hwlI6AZhWLq9wNef3Wd/54CJ6YneqooiMzs/w8azTf7gk48JBAJ0OtWaOVXs5p+FxQWePV1ld2eXmZnpt8pR9pX8CV6CsDxPXYHXQ1g62+lnvupHXOz9vmm8rDnlquoJvBxBucrYrlrm0jZ+YGoK8Boy87hw0Qcv60jb+SO7vraO1+NhvLUGjNm23ezTiUcPH6OqKjduXXeoJHYnWlVTuffFfULRMNNzUw7HWbPdg50DdtZ3WXhnjmgiahAOrelYx2f72S5bT7cZmUkz0SIpbTJjpNo3SUohV+Txp09Z+3oTTdcYXUyz8JFh60+Ox/EOeFBRUbWmY9N1DcUrCCYDpGYTTLxjLKw4OJUglynw+NcrrHy+TuGi1PJbaaKqzRZZ0lsOtyrX7kyRHI2zen+DvbV9mi1nXCsUW9OJp6KMzYyw/mSTi0zW2m+arXRdY/LaBMFQkEdfPUHT2gno7JFUuqaxcH2eZrPB+rN1x/Og29ZNMp8J85pNTE3g8SisPF3p+aw46l0SsWavf3nZbyb67UUmKyGJ55aXJNF7Ehaij9+G1HOCNtvptVKxfXvesX7lXhQv0u7zjvc/p97XoN81M9u6bLxXOa9XxQ+RpIBLVFx8Q+g1SXQSmV4Tha7rrK2tMTUz3RXa2gvmpPvk4RPGp8aJxCKt/tvEwiQQ2xvbXJydc+u9lrOn1lZrdF2j3mhw73cPCEWDzN2cterqmm6QFV3jeO+U5a9WSI4kmLs9g9oiKaYyY6oq9UaDzSe7PPzVMuV8mcmbYyz+wRypqSQenyFs2omJEXasdm1GCLNq+bUMTsa48dM50nODFC4KPPnNCutfb9Fo2NP5Ny1Coks61+5OE0/HeHZvnePdE+uYPWpp4fY1PF6Frz+9T7PZEYJtSDAs3p7nPHPO3s6BI4Rbt5HHxFCCRDLO8uMVxz143j33eDzMzs2y9mwNteWA+bzy9v0WSfqGSMfL4kUn9MvK9jVpXEJYXoS0mOO4CiF5Htm4bHuRNl9s7C9HUF7V1PMi5Z7bxg+UpIBLVFy8BehHUABOT08pFIrMzExf0kbb7LOztUOxWOLGOzdabXWrKbquc//Lh4RjYSZn274pdjXl2aNVSoUStz68CZLT5KPrGtnzHA9++4hQLMjSB/Mg0ZOkZI4vuP/Xj9hfPSA2EmHpJwskxmJommooH46cKCqquXWoKp0Ki3neuoChmSSLP5klNZPkbP+c5U+fUcqXabb60FsRR6qmggTz784QToR4+uUzSvmiY7yariF7ZZbeWyCfLbDxdNOpqrTOf2JmnIHQAE/uLfdUVTRdB11n7vocZyenZM7OHf4/uo0U2kkiwPziApVKhf3WIpSm83OvZ+S7jG9CXYHnT8b9JnB7m89zHH2dysqLtmUf3/PIyZsgKFdVUVyS8ur4YZ+9i9eG1yWbd4Ylb25sAVi+CnYTQa9oH03XeLq8gt/vY3J6oq8T7d7OPhdn59y8c8OhppjKQLFYZuXBM0Ym0z2jfKqVKl/9zX1kj+Cdj64jZGHLk9Ke9A82jnj6u2eAzsKPZpm6NYFQsAiKqjUtdUTV1LaaYksk12yZjszNUD5a4cmtOqqqIgnB8Nwg0++OUavUePLpMy6OshiRRU1rTKpmONnOvTuDJARPPl+h0ag7zr+pqgyNJRkcSbL6cJ1yqWwRKSt7rpBYuDlH5jTD6fGZVRdwqCozc9MIIVh5stL1rHQ+N+a9HZ8YQ8iCjbX1S80/L4u3RXV5GXXlVQnLZSrLZUrLZRN551hfVU15kf6fdw72a/C8Pi47p6vgdflV/dBJCrhExcUL4lUniBdN9La6ukoqNUQ4Er60rK5r1Gt1tta3mFuYQxJmsq9uJ9qH9x4RCAaYvOZUU8xyj796jKZpXH+3O8pH01Tuf/qIeq3OzY+uW+v2mHlSVLWJqqlsP91j4+E2kcEQS384z0AsYJEF+1pA5oSptlSJptpsqyqqiq7r6K21iFStvR9oExiT+KgqwUSQ+Y+m8Q14WP1yg92n+6hq2wxkkhWPX2Hu7jT5bJG1B5vWuOz+Kot351A1leV7Kw5FyVJVro3j8XpZvv/U4ZdjXkdN1/EH/EzOTLC6ska93nDci87/m/B6vYxPjLO5uXXpfX8RP5W3GW/CHPRcVeA5pMVo//nExd7HZdtVxvmybVxlnJed61UJiktSvh24V8HFG8Flb6tX8U8pFksc7B/0XC3ZWbdt9tlY26DZbDK3cM3Rj/1N/+T4lKP9I5beWUQIqcs3JXN2wfb6DrNL0wSCga4on82VbTIn58zfuUa4FWljJyCqprLxcJvdlX2SozFm350C2usAqVqzbeLRmjZ1RKNerVMuVijlymRP85wfZjndPef8KEutUrfUFrsKo+s6qqo6CIvslZl+b4L4SITD9WNWv1inUW90jTUyFGZ0dpj9jUOOd48d/iqarhEI+ZlamGRv44DzlunG7lgrZJlrSzPs7x6Qu8g7Vps276vpVFurVtnZ3Lmy+WdmdobzzDkXF9m+z4rd/NOpmvV8Vt7i5SJMvE51BS4338DlE7nRl3QlUnDZGF5UlXnZMVzlnN4EQXldph6XpLThhif/wPFN/HBfJdGbHebks762hq7rzC/MO5wk+5l9AJ4urxCJRUmlU6h6O3ur3W/iyf0neDwK15auOd/sW5FADz5/gNfrYe4dpwOtpmvkswWe3V9jcCTJ8OSQQx1RNZV6o87a1xuc7GVITScZW0xbY7UvVmhGD2maoQIBbD/YZ7vaBHTbBO5UAzx+hUDUj6TIrXMzzDpCEghaib9EO6fI6PU0gaifg6cnbNzf5trdaRSPAq01hRQBE0tj5DMFVr5aIxIPEwyHkDQNIWlommDm+iQHm4c8+XqFj3/xIyTJyK1ihivPLE6z8miV5YcrfPyzH6PpGpLuDFVOj6cJhoIsP3nK3OI1a3zm/bH/uOu6kfxtZnaaX/7rX7K1sUk8HgM0hEbP1ZR74WVypXSO5dvCy4QyX6V8v7BmR1s9stL277c/UXhZJetFCFBX3Ss8G1d9Jl70OXBVlDcH94q4eGvQ6Z+y+myVeDzG4NBga1//Hz5d1ygUCuzvHTC/cM3KXmuafcBQU4qFElsb21xbuobiseXyaBGO/Z1DTo/OWLyzgKwoTnOHpvLwd0+QFcHc3dk2+WgpAc1mk5Uv1jjZyzC+ONKTpJgqSkNtUDgrsvfokPXPdwFoVBskp6IMLyZJ3xxi7M4wkx+MMv3ROBPvjZCcjeENeShdVDjZyACw//iQSqHS8nVpWqahdup/lcRYnJHFFBdHWbaf7LUT1bVMVToac+/Nous6y79/Zq0fZJ63UAQzNyY5O8pwcnjapap4/V6m5ybZWtuiXCo77qE1ceo680tz7O8ckM8VrOP2sp2IRCPEE3E21jd6Py9viY/Jm8Tr9l8xcVVFw65KvOgE2kv9uMr2Qn28wPhe1K/mymN4TSoKuCSlH9yr4uKthKqq7GzvMD0zc2mmS5PgbG5soWsas/PdZh9zUltbWUNTVRZuzFt1TdORqqmsPFghEAowcW2sS03Z2zwgd55j7vYs3h5+KVtPdjk/yjJ1Y4zUTLInSdF0jVq1zuaXu2x+tUvurEh4yFimfvzuMLHJCMGhAMGEH29YQQkIhAc8QZnoWIjh60kmf5Rm7G4KgEq+yubv9zlePaNeq3UTllb/yfE4Q9NJTnfOONk5s5QYcxkB34CX6XcmyWby7G8c2HxtDDPV6MwIPr+XjSebxnXr8FWZXZpGVVW213f6OtXOLswAOlsb2w7zjwnLSdeGyakJDvYPLvdD+Q6YdF4FL/N2f9U6L+Qc20EMvrFEbz36vap68qYIilnndcElKf3hXhkX3zp6vRkf7B/QaDaZnJzoW8fM22Fic2Or9RYec/grmP9XNY3VlTXSY2mC4aDDbKPrGidHZ2ROz5m7PgM4w5Eb9TqrD9aJJMIMjQ9ijz7SdY3M0Tn764cMTSYYmkpiZrftJCkXxzlWf7tJOVchtZDk2sfjxKej1ljbOVSarZWVm12bqqkIj/HVHb2TIjTkJ7ObZfN3+1zs59BMp19bv6rWZGgmQSgZZHd5n3wmb43RNFslRmOEE0E2n2zTqDujgJAkJhfGOTs65+Lc6TMCEIlFiCVjbK5tdTnVGuemE46GicVjbLUiudrmvM4svG0H45HREer1Oqcnp5c+M8/f31uNe1sif66Cl51I3xRpsfroQyJe53ZVvIz/y6tc19cFl6Q8H+7VcfHKuKoEb3dY7VfPnLR2tneQJImJyfHuSJIeb8+VSoW97V2mr033NfscH55QyBWYmZ/u+fa++ngVn9/HxLUJqy9TTdl4ukW1UuXabUMVaPvJ6FTLVdbubRII+xlfHLHUCDtZaKoqe08P2bm/j+yVmXgvTSQdRKM9KTdbJpum6syXYjrompsxdsPHBKGTmIsycnsI2S84fHrKzoNDGvV6F0nSJZ2xm2lkr8z619vUKzXHWEFn6sYE9VqDnZU9B5HTdI3RmTSyIlh/stll/tF0nanZCS4yF+Qu8tZ9thNFXTNyrxwdHFEuVx3PgMNMZD0vGunREXR09vf2LGJ1lXwq32ez0OvIUXIVvKrj6zeBlx3fy+Z6eRMExSUpl8O9Qi6ujKv++DvymrykJL+9tc3wcAq/39+z3c7+tja3UTWNmdlpR1m72Wf16RqKojAx007Fb6oG2WyOw90jphcmEbLkONdysczm8jbDEyki8bBDTdFUlZWv1lGbRnp6RNvcYWZ5rZSqrP9+m8zOBdHRMBPvDuMJKFY7zVaosd6qYypFRrI2Y7ObWoy/26RP1zW8IYWRW4Mkr8UonZfZvX9Eo9boIitCkZi8PYbaaLL29RZqs2lN/pquMxANMDiaYG/tgGq56lBVPF4PY7OjHGwfUiqWusw/YzOjgMTG6pbTpGMz/0zNTKJpGrtbzuiffvc4EgkTDoc5ODi8+sPT8Wx8X/Eqk+bL1v22yMvriRh69UR0rxMuQbk63Cvl4q2AfbKq1qocHBwyNT115XobaxsMBAcYHhl2vKWbqNXrbG9sMzU7iawoXWaf1cdrSEJiemHSkYFV0zVWH6wBMPvOVEfUkc7u6j650xwTN8bwhbztt/6W4lDOl1n7fItaqcboO8Ok5hMgGQTJ8P9odpAq3VI5dE1zbObaPeY6RQBNXW21paLpKqF0gKHFOJV8lZ17h9Sr3cqKP+Rl7Eaa4nmRw7VjhwlI1zUmFkfRdJ2t5W1rn3GtdSbnx9B1nY2VrR5OtT6GR4fYWttyLMho3StdJzGUYCA4wNbG9pWeBYCx8VEO9g5em3LyffNneR2E5VUm4avmQelFLF5HHpbL8G0QukvbdUnKC8G9Wi7eOhwdHqFqqmMRwk7Y/VM0TWNne5fpmakux1tzIjvcO6RerzM9N9n1lq02VXY39xifHsPj8zicaIuFEgc7R0zMjeH1ex1qSrVUYXdln/hIjMGxuE2ZaCkfjQZb93eRJImpD8YIJv3tzLVWtFCbCDT1NkFpqydNa7Pva5tTdDpXaR5I+hm+kaRWrrP/6ISmbd0fw/m3SSQVIpqOcLR5Sq1cc6gq3gEvw5ODHG2fUKvWrOuo6Rq+AR+psUHD4bYV4mzH5LUJKuUK56fnjntgjleSJMYnx9lvEY/n+amYSI+MUCgUKJVKPe+t9ff3jIC8KF51Un0dpOUyfBNqzKum8be38SbgkpQXh3vFXLx1ODk5ASA1NNTzjblz3+nJKY1Gg9Hx0baa0uGfsre7j8fjYSg91DrejvY53D+iUW8wOjXS1c/u+h66DmPXRq19Zt3tp3vous7E0ig6epeasv/0iFq5zuiNFIpf7ktSmq18L7qmU6/UKV6UKZyWye4VyG4XyKzmuNgqUCvUrSRpmpXwzW66aZMVf8zL0EKccq7C4dMzms2G5TRr9p2aHUTXNI42TrpUldTUEKqmcbh55DD/aJrO8ESKWrXOxWm2y/yTGh1CB/Z3Dx3RP/Z7kRoZol6rkzm7cNzPzvtq1h0cTAJwdnrmaOdN4bvu3/I6CMfrWLfnm8LrHOebJiguSXk5uFftB4xv8g20X9SFfVIw36pPjk8IBoMEQ0Grrt3k0om91sJ16ZHhVjvd/imHu4cMj6SQhHCYfQB2N/fweBQGhxNOs4+qsbexT3IkgTfgcTgBF7NFjndOSU0P4fV7utSU8/0Lzg9yDE7H8UW9lgLURVI0Fb1Fqk6fnbP/1Sknjy84W8lysVUgf1Cikq2RPyhy+CDDwVenXGzmqRXq1jVTzcUNW6Yhc/HBgaSf+FSEwkmRs62szdRlkBJvQCE2EuF0N9OlqvhDPiKJEIdbx115VQbTCYQsONg5dJh/ALw+L4NDSQ53jxz33u6nkkoPATonRyeXZijWdI14Mo6OztmpM/KnH1408uf7jNea46MHefkmCcyb6v9Nn4tLUF4d7tVz8a3geW+tJyenpFJDV2pH1zUO9w6JxqIWselENpsjny8wMp7uOtZsNDjcO2JkcgQhC4fZ52j/mHq1zth02lJDTMKxtbyLrAhGrqUsJcMkH+VClb2nRwzE/CQmY5YPRztCpk1S6qU6mXUj3LdWqBMZDzK4FGHodpT0+3FS78cYuhsl9W6M6EwQ2S/IH5U4XckBUM3X2iqLNfZ2yHFkLEgoNUBm+4JSttyV2XdwOomuaRxudPuqpCaHqJSqnB9fWKoKgFAEyXSCo51jZwr71jVKj6c4z5xTbjncdiIUCeH3+zg5OnHUtd9TOwYGBgiFQpwcn1pj7H4OXp6EfJ8dbk28ycn4eYsMvs7tTY35TcIlKK8H7lV08Vrxomv8dKLRbJA5y5AaTl3alzlBH+wfMDpmmG16mREO947QdZ3hseGuNo72j2nUG4xMprsmwN21PbwBL4l0wmpT0zRKuTIXRxcMz6SQFeEgB81mk50He0gCRq8Po0t628xkIwGNWpOz1Qv2vz6lkjVCdQdvxgiNBvBEFGS/ABlohS9LMgQGPcQXQqTuRglPGkniMs/y5PaL1uKFdrLSuuIkZ6PIXsHRyhlqU+1WVUYjnHWoKgDJkTiKV+Fgsx1xYzf/VCs1MifnDh8UgHSLEB7ut1UV6/rpOpIkkUqnODp0Hu8kPXakhlMcHx933b/noe3/8v0nIi+C74I5503hmzpvV0V5vXCvpIs3hpcxLWUyGVRVZSj1fKJiyvjnmXNqtTrp0W61xJx0D/ePCIaCRKJhR94PTdPY29nH6/UwlDbS9JuKQ7lcIXN8boTcSm3ThqZrHGwcImRBenqoS0053sxQLlQZWUoh+4TTDKWZqxNrHD46o3RSITjsZ+hmzBiwwEFmdKtt54Ys4U94APDGFHI7JbJbhS6yYkXdyJCcjVEr1rk4yHepKkPTSXRN53jr1HbtdBAwNJEkc3hBrVZzmMuGRhJIAo72jm11jDGHYyH8AT8Hu0ddixSaGBweJHuRo1arXcknJD2Sbt3rWs/77OLl8EMgLd/0OboE5fXDvaIuXgmve5LI54xkYbFYtG8Z+xvy+fkFOjrJwURPR1owyExyKNEzFf/56QXJ4SSScNY7PzlH13WSI6aaYpAVXdM5P7ogNhyxssMaxzUajSZn2xnCgwOEkgMOx1u76nC+laVeqpNcjBKbDiHJktWG1klQNK3nZqoPkakAwbSPwlGFwmHZuSKxzcwUSPjwhj1kDwrYFzzUdA2PXyGYGCB7nEO1+dnoukZiOGbkmTnNOs5VKIJoIsLFWbZLsZAkicRQgmyPDLbmuGJxg5xdnOccx+zPk92nJJGIA5C96N3mi+KHHiHUC98V59nL8K350LgqyhuDe1VdfOuwTxq5XA4dnUgkcqW6udbEFYvFeh5vNlXyuTzReNShfGi6Rq1apZArEI07+9I1nbOjDIpXIRgZsManaRq58wL1ap34cKxNBFrHLw6zNBsqiYmY1Q841ZTSeYX8fpHgcABfzGMRGQAdG0nR2o7Dprpi36xjQHDcjz/uIbdTpJSpGGN1+Ku0SE06SL1Up3RR7iKY0eEw1XKNct55LBgdQBISubO8w08FIJKIkMvk0FRnPhVN14nGIxTzRRqNhu26tslaJBoGdIuY9iO85jWMtohrLtef2Jj36G3H60wZ/ybxXYj8eRvG+Dbds+8r3Kvr4kr4puT1fL6AosgMBAeuNI7z8wtCoSCy0l4J2fzUdI1cNoeu68Ti3QpN9jyHrkN8MG61bakepxfEklGEaKsdAOdHFyAkIkPh1v42+cnsZfGHvQzEArbxttWURr3J6eoFSkAmMhl0mGmMMbdVFAcp6bHZs7rquk5kZgBPUOZivUg1V3PkKLFUlaQPSZG42C90mX9CyRAAF0cGEbAIjoBIIsz5Sdbh86FpOrFkFFXVyF44yQNANB5B0zWy52YIs1PlCkeM65fP5i+9x5qutYlKtt3XmwxRflO46oT2NhIXuNxx9rve3wuN7S27N99nuFfZxVuFQj5POBKBPtEdncheZIn2ICEmzs+MxGOxRLfiYiYliyWjjr4q5SrlQpl4yqhjN21kjs6JJMMoHsVZJ1+lkq8SHQm3CYh9FWFdJ7OWQ62rJOejRpr+HhOtfV+nk+rzIMkSsfkQkgLnG3nUVlr+NlnREbIgkg5SOC3SrDUdTrUen0IwGiB3ku8iFZHBEKV8mUat4dyfMMhGNpPtGmc00SIW590kBozIoWBwgHwu7yBd/eDxeAgEAmSzr8f0823gVSa178qk+DZH+rwufFfuxfcJ7tV28VYhn88Tab1tw/NzqGiaSvYiSzwe79veeeYCWZZbpgYnLjJZQpEgHp/HsT9znAEgkYo7JuBSoUSlUCEx7CQ2mq5xtn8OEkSHu01WmqZRPClRylSITYbxBj2OCBed7kRnvVQFO3HpWuBR05A9gsjkAI2KSvm06vBVMRFKDYAOFwdOJUPXNaLDYcr5CrVy3dFXNGmcU/Ys7yBt/gEfvoCX7FnOMUaAYGgAj8dDtg9RAYjEog6F5DLE4rpoLeoAACAASURBVLEXKv99xNuosvxQ4F73bw/uVXfxVsCcVCvlCgMDvc0+nWg2m9Rq9a78KfZJvlgoEgoHe/7AFPIFQpHuusV8CUmSCITbJhxd1yhmjRTuoUS7jkkCStkKwVgAxds2QdmVicJxGU9AITw60EVyrP93ZHLtJCe96ph9Gft1fDEjtLmcqXaV1XUN74AHX8hrhUTbMRALoKNTzlcc+4PRAXRdp1Js+7+A4TQbjAQpF8td45EkiWA4SKnoTHtvjhMgFA5SKpW7jtvPyTG+4IBV/rsW6fMmJjh34vxm4F7nbx/u1XfxraHXZFOr1/F6vFeqX68Z2Vn9fl/f9qqVGj6/ryuaRNM0alXjmAlzcjTqeLt+nKplw/fDP+DsT9d1aqUa3qDH8vmwn6PaUKnmawSSPnTa6xPZ69vRz+Sj67pVtlNZMSFJEr6Ih3qhaZl/nOU1PEGFaqnepVR5B4zrXiu1SYyua8iKjMerUC1Xu9rz+X1UK71Dhn1+r3WPesHn81GtdBOmfvB6vdTr/dv7ocJVWd4M3Gv69sC9Cy7eKjTqdby+y4mKpmlWTg2vz9e3XK1awx/wA+3oG+P/OrVKHX+gu261XMUbaI/BJAOVUhXF60FWZIc5pV6pozY1/MHe4yhdVNA0nUDUa/VtQu9QPOwwiYmdoHTWN8Znz3qr4w0raJpOo9S0jtvPwxf00KyrNOtOIqN4ZGRFtkw/1jFNw+v3UK/WHcRI04395sKFnfD6vFSrNUsp6iRgPr+PZrNJs9m9uGEv+Pw+qtXK5QV5uxSXb3Kyc0nLq8G9fm8n3Lvh4q2Bphm5SDzeqykqtdbbutfr6VumWqk6VBMT9Vq99dbfUkdsOVRqlRq+HgSmVq71JCPVkjFR+4K9x10+ryJ7BN5w/3GaeB0TrCdkmJ9q+UbP1PLeoDGOesmpTmiajm/AS63SrVp4A76e+31+H2pTpdFD6fB4+5MYsy7gKPO8VPher5dGvfc5ueiGO+leDe51evvh3hkXbw1MWd/ruXxCByxFxef39zxuqi69iIo5OZrHzDBkMEw/vZSWWqWOr6W0SLYftVprwu9FVHRdp3JRJRD3I2T50nOyRzr0SlB3eX0Jxafg8cvUCo2ebXgHPK1xO6N4hJDwBrzUexISL7VKDWFrT0gCn98453pHRBCAP+Cn2eje326zRVRs2Wafd84+nxdd113zz0vAnYydcK/HdwvuXXLx1sA0AShXICpCCCuZmKdP+Wazia7rPU1J9Xqrbocao6kazUazKxIIoFFr4O2xv15tIGSB4lW6jqkNDbWh4Q+3x2CfjCUHMen+OvaauDv3meTG/qPrCSo0y2pHOaOe7JURQqJR7SYRHp9Cs9Z0ECYhBB6vQqPebaIxr18vouLxeNB1aDaaPc/NvG+Nen8y8yrl3wa8jRPhD3WS/qGe9/cB3b+sLlx8SzB/QK6ayMuaTPuYAoRoReC0zDqSZPxIqZra7qvTGVVISBLQo0khRJfzKoAsC3RN72mSEIpAkiQ09eXNFZIkXWru6CQCmqojFIOY9MpHoWlGXhVrnK0ymqohyT3K687y7XaMeyX3rNNabbl1rDM3hrUa8xUnDtM8J7+gMuWiPzqv/Xchs++LwCUl3w+4RMXFWwPzR+WqP5bm5NhsRbcISaDafDzM4/boFxNKK5Ot/ZgkGaRClmXUZrsdIUmoGKRDtxEOIQlU1FZWXB16DFsICaEI1HqHuiEEmtoO8+2qJwmHv4pZ5qr+GVpDQ/Z0T+hCEmhNDQmQPYpBHmw/5pqq9SYdTbX3ftUkI86+hNQ+v37Eol/dflBVFUmSkMSLm8RcXA29JvbvAnlxCcn3Gy5RcfGtoXMyNn9sehGLnvVbE5zWp7xBOgSqqrb6MgmNhOIxHn212V1XVuSebSqK3Lt8ixCoTQ3hFei6jllKSALFK6PW2mTKUhpa/z8PyPzpfzpJxmdIOZ3XpfOcAC4GFH7+H49wMdD7K6w2NHyhtrnJrjC0LgOy0pt42AmOqdSoqoastPsStv3mde7VlhCir9+JSTyuopCAkeAPrqaouHh9eB4J+CZJjEtGfrhwiYqLtwL2Ccv+4yckCVVvTYyi/RYOoMgtstHxY2lXVmRZ7ml2kWUZCckwgUjCSSwUxSI3euuYZO5vqoYJSTLIiCQEikdBQkJtqIiWn4pRRkPVweM3/DuMfjSDiGAjKzJkQhLoOtFyg//oSZ6f7lSZyjWI1jRyPsFOROFXk37+r6UB8gEFTYJMyNPuSwiEJBmqEBJ6Q0f2GKYW0/HXJB1aSy2yr/5sjUXVLQLoJDe6RUYc+zvMMUISNnKj9pxcTF+ZNvHo5ZvTvc/el2vaeTvwMuThRU1+Lly4RMXFWwNLUdE0JCEQmuHnIEmiZ6ZS0/dBfU4eDoNcdB83J1ZTITEmvvYbu930I7WOyYpMo9ZWVESLjJgKhNZsqSGSQUb0lk+L4lMo56tIOo7zEkKA1vbl+LdXi/yjX50RqRl/qxIUvYJ4VWOwUue94zp//36B//4nCf6/+aA1mdtJipAEel0HJMNp1iwjSZaZR2s0kSQJj0dBau0329KbOsqAvZ5xTFWN82/3afRnXj9FUbrIg6HC9J6MhKOuxzqPfhBCWOqNWU5yJ7rvJFyC4uJF4RIVF1fC88wRrwuSJOH3Pz9bqV0tCQwEkCSJSqVq+XyYpMKctAeCA4407qZ64vF6UDyKI/27qaAMhAIUCkWEkDAFHCEJBsIBzk+zoLf9VgBCkQEkSVDOVQjG22n3jXoS4aEgucMChaMSoZFgT1Xl7z7K8d/+9QkCeDzk5X/+MMZnYwGasoTcVPnRQZV/8Psct07r/A//OkOwCf/sRrjnj34lU0eSYCDmt9qXbMSjmqshhCAQ8rdIjkAICV2DaqlKLBUxCJXNZFMt1ogNRlv3qd1npVzB6/Naq1e376WgWq4SGBhoEbpu80+5VDEy6XaEj3cSHvPvSqVCIOC8vi5cuPj+w6W2Lt4qBINBqpWrZR8NhUIAFPOFvmUi0TCFXMEx8UqSQBYykWiEQq7YNdlHEhFK+VLbzNM6HhuKomu6teaP1JrkFa/CQCxA/rQIYE3+5oQeTAwwEA+Q3SsajqyiHf0ihGDptM5/86tTBPBvZgb4+//hOJ9Oh2jKxnhVRea3k0H+k39/hH81PYAA/tGvM1w/b7SUkraaIukSxaMK/pgPX9DrOG8hDP+ZwlmZgUSgy9m2kq+i6xBJthdwFEKg1ptUKzUicScxEpKgmCsRjoYNJ1ebCcq4L0XCkZBV3n7eAIVCkVAo+FxTjp0UFQvFrnWdukjNFd/Wv4m3elc5cOHi9cD9Jrl4JbwOXwH7D/rAwEDPhezsMCcvRVFa5XsvbAcQiUYoFko9HXQjMYPEmG2aSd8iiQggUcrb1RaJSGsV4eJF2Zn/RAhiqQjVfJVmXW2RlLapRZIkktNRtIZO4aDUYVaR+M8/O8Wr6ZwEFf7xn6Zpygb5sOd9EEKgKzL/+BcpTgZkvBr8F59ftCKVhBX6Wz2vozU1oqNBqw/zU0iCRlmlWW0SGQo7zD5CEhTPy4BEKBZ0EK1SroyERCgWcrSl6zqFXJFwLOxImAdGdFKpUCJkIyr26wXGatSdq1o78rd0qDCFQoFQuHsV7G8Krl+MCxffDtxvnos3hpd5owyGgpRKzycq0J7EwpEQhUKhta/tP2Eimoih6zrFfNExLiFJhKNhquWqI4GYJAniiSgSEvmLgjUpS5LA5/cxEA5QuCha+02zRiwVBUmimClZBKVNAiSCsSDhVJDcQQmtriHLhk/HcLHJx1vG2P7Z7TgVnwdZKFa9zq3sl/m/bxkmmJ9slUmX1PYYkSgeVvAGvQRifktNkYXSIkyCUsYgWdHBkMPsI0mCcrZMMBLA6/NaPi2SJCzCFo6FHZN1o9ZAbTSdqolJmCrGGj+RWKSnY6yQBKVSqUsheR5KxRKhHuX7EYirEote43PhwsXbA/cb6uK14rIf/cuOh0IhyuX+CokdQghC4RDFQtEKge1UEMxJtFQoO1QCgFjCmPCL+bKDePgH/Hh9HoOQtCZxs83YYJTieRFd1w2TS2uyH4gM4A/4KJyV2mYYm6oiJInBmTjokN0tGgRCVnhvv2x9CX81H0VpERghCWShWKTFvv1qzlB2BPDeQdXqo7BfpllRiU+EEbKMImSbOcYYQzlTZSAWwOP3ONQUdCjlKoQTIUvxMMddzlcIBP34Az5LeZJaZh8JiWg8Yo3ZhEkMTUXFTurAUFzKxTLBUNCqZw9j7iS5zWaTcrlMKPTiisqLEhFXOXHh4u2C+438AeMbXdW1X9r3jkkhHA5TrdaoVrsdantNILFYnHwu33cF3ng8jiRJXGQuHO1IkiCRTCBJEuen5446spCJD8U4P75Aou3fISSJeCpOs6GSzxQdJhdZCOLpGIWzErVSzaGqmIqGb8BHYjxG8bhMds8gKzPnxro1NVliPxmwolrshEURirUJSbCT8FNvqUazF3WEJMhtlSgeVAgPhwinQm2SYlOEyudV6qUGseFIl5pSOCmiqzrxoaiT0OmQPc0Ra5m97IQum8mCJBFuqSb26KPceQ6QiMViPe99IVdA03Ui0ah1fU30Iha5bA5JkojFoj2fg6usi9TLodeFCxdvP1yi4uKtgSRJJAcHATg7PQOw3sLtobh2DKdTaJrO2clZO2xVan/6A37iiRgnRyddkSzBcJBILMLR7pFlGjEn7rHpUSrlKhenWcdkPzw2hNfn4XDzuD221qQ/MjeMx6Ow9/gIXTdNJ3Y/EImhawmi6TDZ7QLZ3SKRquE7U/TLSEJuERvZIiydmyIrSLJMwW84wkYqGmfLOUrHFaLjYYYW4g7nWkVumZGQOFk7xx/ykRiL2sZkmIyOtzMEQn5iwzGH2Sd3mqdZVxmeHLYpH0a9k/0zEoNxAgPdCzgeH5wQiYUZCBpROp2OtGdnBjkcSg066vWK+BFCcHZiPA/DwymrvX5wFREXLr5fcL/RLt4qDLWIynnmvO9kZJ+I0iNpAI6Pjh3H7H4q6bE0J4enVqIp+9v/+NQYmZNzKyGbWT89PozH4+Fw+9giL0IIhCwYuzZC9jhHtVRzqBZen4fJd8apFKpktjM2omBM/LKsIAtBemmI6HCY7E6B8lk7wkkSwvJdMQmLSVrsmyxkzLOrZKo0Sk0GF+IkZ2LIwuZcK9oE6WKvQLPaJL2QwuPxdPimVKjkKozMDBuJ8GzX53jnFK/Py+BI0uFwXClXKVwUSE+kHUTOcLKFs+MzRsbTbdOS7RyFZBAPRZGJJ+N91TW7snJ8fIyieEgkE1d5jFy4cPE9gktUXLxViEQj+HxeS1HpB8tJNRQkEglzcnRqHXNGjgjSo2kajQbZTLZrMhydHEHTNI73jx11PB4PI5PDHO+doqu6w8didHYEWZY53DzpUlUSI3GSI3FONjJUi3WLMMgttcT4vyB9fYjRmymyrRDhUEVFKxlkqZOw2E0/siTTLDQIVQ1TV06RGb2dIpYOt4iNgiIbmywUhCShNeBiJ0d0OEJkMNQiTXLruOBkK4PH52FwctChpqgNjczRBcMTKYcpSkiC00PjeqfHU11mn4uzC9SmSnp02HFN7WpW5jRDcjCBRzGz63aah5x/nxyfkEoNdYVHO+q4ockuXHwv4X6bXFwZb1JSb5ttJIaGhi4lKvZ66ZE0R4dHjsnO/iY/MjaCJEkcHRxb5h9zMh5MDeIP+DneO+4y/4zPjKE2VE4OMtY+WVbw+/2kp1Kc7pzSqDUdqooiZKbemcDj83LwxDABKS0fFZNIyLKCR1GIpMLkbxmTuU/TCXx2TOZZjspJlepFnWZZQ2+ChECt6uT3yhzeyxD6/SneViK68xtJBqIBh4piNzUJSeZ45QxJkhhZTKFYEUXGVi83KZwVSU+n8CiKRToUIXNxlEXSYXQ67bguQhKcHmQIRkJEYt3OrccHJ0gtgmiSOOt+SQKQODs5IzU87Lj31n3rmOR1Xefk5JSh1FD3/b/kmXQjely4+O7D/Ra7eGU8T7J3vgFLjuP9JpnBoSFOTk8dKwXb/S46kR4doVQsk8/luyY5SRIMDASIxWMc7R059pvqxtjkKEf7JzQbqkM1GEoPEggF2F/fR0JymGRmlqYQQrDzZM8y0ZgqiNfnYermGJVijaOVY8BJVkwiocgyT2YT1qLL/56qU7mokVnPc7p8wdGDDPtfnLL72TEH907J7xXxBjz8B+Yq08DytYRlYjJVFFnIKLKMhOD4aYbyRZXRpWEGBgJWv7Iw1ic6XD1ClmVGZtOteoplbjrcPCYYCRJNRBzXpV6vc350zsj4sON8TKJ0vHfEYCqJz+93mHVM1ekic0Gz2WQwNdilfnU+V0IIioUijXrDUFQk0WUS7Lf69FXQSWT61XP9Xly4+Pbgfvt+4HgbJGqHD4MkMTExTrVS5eT4pMsJE7ozv07PTAGwsbZptWf6YJh/z8xPc3RwTLlY7uhPMLd0jWajyfbajkNVEUJm7sYMF6c5MkcXDl+VgVCA6etTnB2cc7x91mUCSo4mGJsf4fwgx+HKCZ1kRWmFHmfjIb6cM/wu/t5GllsfjDL70QST740w+k6K1HyCwdk4I9eHmP5onIXFQf7eMyOC6fdzcbLxYBdBkWUFVImDhyfkT4qMLqQYGk9aJMUkFbnjPPmTIuOLo/h8znDl450zSrkSMzemEUJ2qCm7q3tous70wlSPaJ8852dZpq9NWcS00+yzs7mLJElMTk30fAbM+2LiYO8AgJHRkRd6lpz73YgfFy6+q/j2ZykXLjowNW0Qj+2tnUvLCkkinogznE6xtrLWw9fBeMQXlhYA2FjZdJh/AIaGB0mNpFh/so6uOUNwp+emCEWDrNxbRdfaviqSJJhanCCZTrD1aJtyvmz4h9iUldH5NGNzac73s+w9OkRtaIaviaxYaeOFJPg/fzFHQ0gMFur8w/93laDPQzAWJDIUIjEeY3AqTiwdYcDn5R/+xQbJYoOGkPinP5+x1ByToMhCQa/r7Hx9QLVQZ+r2GMMzQ8iybJEURSg0a012nxwSToYZvzZimaSEJKFrOttPdogmo4y0on3MTVVVtld3GZlIE41FutSUrdUtZEVmen4acEb7mGW3NrYYTg9byd4km9JmT8FvYm9vH5/Px+BQO0LoZf1TXLhw8d2D++128dbAnGxCoRCpoSG2t7avXHd+cYHTkzOyF9kuxUWSjMRvoxOjrK2st5K1Cez+EDfuXKdSrrK3tedQVWRF4eb71ykXKuys7jtUFVkIrn+wgD/g59mXG9aiiGaEj0dWGF0YYfL6GIWzImu/26J03k4uZzi0ymyPJ/gnf3sRgI9WMvyP/+RrPtzI4tWNCB8PEh9s5vif/rf7/MFKBoD/9d+aY3s8ZoxDbvud1IsNtr7cR21ozLw7QXI0YZEiueWQiwbrX24jZMHCu7MIWbYIgiIr7K8e0ag3Wbg716Wm7G8eGsfemetSU3RVZ2d9l4npcQKBgHWe0CYs+VyB88w509emLXIDvZUQ8z7u7+0zOj7WRUZexhzjOtK6cPHdg7t6sos3AkkS6K1VjoUQVmhw53Ehda/KLEkS0zPTfPXVVzQaDRRr0ToNDWGwa+NPw79DV5lfmOM3v/oNG6ubvPvhXaNfSaALDTRjVeTF6wv867/8NxzvH5MeTyN0DV0SaJJgdDxNPBnn2cM1JmYnjLqSQEg66bFhhsdTbD7ZYnQqjcff/toEAn6u/2iRr3/5gI3728y/P2sc0ADZKDd6LU04GWLz/g5bX+8RH4uSnjciaTRJQ9M1/urjGWp+L//ZXzxh/qDAn//T+6gSlPwegrUmsmb465R8Mv/L31niV3fHMJcUFJJAa2qcbV9wsZfD41OYeXeSQDhgkC3hjNhZv79NrdLg5kcLBEIByy9FSIJauc7e2j4jU2kSQwnLn0Vp+bRsPd0mmUoymEp2qSkHWwfUanWuLcw6nGjt6tXu5i4A1+ZmrWvYy+xj7iuXylycX3D79q1L/VM6w5xfV0Za1z/FhYtvF+430MUL4VV/zPv5CnTWn5qZotlU2d87eG5yL7PNSDTCyGiatWdrxr4eyd8mZybx+32sPd2w+rRUASFz4851ivkiB9sHTlVFKNz68CYgsXJv1eFYK0mC5FCcuVszZA4vOFw/tiZ+0wykCIVwLMSNP1wkfW2Y7EGB9c+3yR7mQROWOejTD6b4L//rP+J//5MFnk7GKQ54CdSbFAMenk7G+D9+Mc8/+K9+xq/fnbBMPnpTJ7OdZeN3u1zs5oiPxJj/8SzB6ICDZMiy4R+z//SI/FmRa7emiA3FHCRFCJnNR9sIIbNwe85BbiQhcbRzTLVcY+nWfJeaIiTBxrMtgqEBRsZHOuq278HWxhaDQ4NEohFrwUbzWD+zD8DYxHjfZ+Uy9Hvm3IggFy6+G3AVFRdvFUz1ZXJyEr/Px9Mny5az7GVYWFrgr//VLzk+OmE4nbLUGiEkNBW8Hg8LNxZ4+PUjcuc3iSaibVUFjcmZcZ4k4zz4/BFDI0N4vObXo0koHGLh1hzLX68QTe4xtdB2BG2qTaYWJshfFNle3qNWrTN1YxwNUAQ0AQUF4RFMXh8nnoqy/XiPg+UTDlZOCMYDhJMhIkMhqqEB/uJPrvPPf2GYgjrVJl3XaVYa1IsNipkSuaMCmqYTGQozOp8iEPE7lY6WiQkdth/ukTnIMj43wujMiCMKSZYVdpZ3OTs8Z/HOPAPBNtERkqBZb7J87xnxwRjp8XQ7422LYGSOMxwfnHD3wzuGL0yHmiIkwfnpOcdHx3z8k48d6sfzzD4baxv4/X4rI6113FbHNbW4cPH9hktUXPQ0zXyTffQy/3i9XhavL7H85Al/9Cd/hM/nQ2jQz/wj0Fi8vsinf/NbHj94THpkuN02ICQdDbjz3m1WHj/j3uf3+dmffWIcl/TWZKfw409+xF/+P3/Fw98/4v2fvOcwAc3fvEbuPMfq/XVC0RDxVBTzK9QE3vnREl6/l93VPUrZEvPvX8PjM45rkkBqnWN0MMLNny5ROCtwcZIje5LjcOWYw5VjfCEf3oAHSUgIxSAZQoZmQ6VSqFIt1NBUwwwkCYnEeJyhyQQD4YAj7LsdDiwhaRLr97bJnRaYuj7O5MJ4F0k53Tlle2WPidkxZpamHdFBsiyz/OUzmvUm7350pxW+LKz1hCQkHnz5iIGBAEu3FvuqKQ++fojX6+P6O0sONcV8PjpD0Ov1Omur61y/sYRH8byy2cf1T3Hh4rsJ91vl4o3hRVdS7nyzvn37FvV6g7WVtSv15/f7uX7zOhvPNiiXytZbORgp9YUkCAQC3HrvHfZ29jk9PHVEAAkhSA7GuXF3id2NPccaQIoso8ge3v34DqFYiIefPaFaqluOpkYkj8LS3Tlu/vg65UKVh796QuG8ZIUOm6RAEYajbSwVZermBLc+uc6Nny4ytjiK1++lWVOpFmoUT0uc72c53Twne5hHkgSJsRhT74yx9PE17vziOtPvTBCMBC0Tj2nmkVurJ1eyVZ58ukrhrMjcnRmmFidQFE87Z4qskD8rsPL1OkPpQW58cB1ZFlZ0kCQkzo8v2F3fY/7GNZJDSSepEIKj3SPOjjPcfv8WPq+3p5pSzBfZXN/kxq0lAv6A4573e0421zdpNOpcv7HU9xm5DFc1+7j+KS5cvL1wFRUXL4xeCsjz9neXk9Bsydy6jrfUl9GxUQYHkzx88JCbt2866/dxqr119xb3v77P8qOnvP/j99rjAkBFkgTv3L7J8sNlvvrdPf7s7/6ttqqCoXzcvHuT/e0D7n32gD/+d3+Ox6vQVJsIoeHxevnxzz/kV//i13z9N/f54I/ew+OTaaqgyEa50clhgpEBnvxumSe/fcrE0jhjc8aaREKXLHVFaIYjrSZJRGJhQtEQY/Mj6K39JjRNQ0JCEpJhyupQD4CukGtd1dlbPeRk6wzfgI+bHy+RGI5bGWtN0021UOXxZ08JR8Pc+YNbKIrNeVZIaA2NB589IhwNsXR3qWs5ANFSU6KxCHNL1/qqKY/uP0YImVt3bllqisN8Y1NTTIL59OkzwuEwk5OTXc+Z/Vlx4cLF9xvut9zFN4Zek8rzstQKIbj5zk329vbJ5XI9k785yksSyWSCqekpnjxcRlXVnqqK1+vl/R+/z9nJGTsbu0iibcYQQuD1ePjxJx9Sq9Z5/MWTtglEKCiyTCgc4sc/+5B6tcGXf/01zZradlxtqRTRWJgP/vg9hidS7D7d5/FvnlI8LyMk2eFo61G8eBRvSw0x98t4FE9LGVHweLwoHo9V3vj0GOHNrbKKmUROVihdVHn862ecbJ0xMpvmg1/cJZlOWv2aCeLUWpNHnz3F4/Xw3id38fm9DpIiSzKPvlimXqvz4Scf4Pf5HOHXQhJsr+2Szxa4++EdyzwjJJtKJQnq1TrPlp8xvzhHJBKx3S9niLgd1UqVrc0tlq4vGosxvkA2WtdJ1oWL7xfcb7SLtwptUmF8Xr9+HYDlR8tdZXutbwOGH0qpVOLpo6fWhNaZV2VhaZ7EYIIvPv2CWrXeZQIaHEpy8+51ttd32F7ddi4SKMskh5N89McfUqvU+d2//IJSruIIBZZlBa/Xy80fXWfp/QUatSbLnz3j4a+fcn6QRRYKHtnTRVrMT0UoeGUPXtljERhzM/a1TEitOkJSyB7lWf18nWefr6EoCrd/cpOFu3N4vd42QWmRlEqhyv1fP0FtqLz307sEQwEHSVGEwsbyFkc7x1y/s0RyMOHwSzEISI0HXz5kaHiIqdlJB0mRbPfk0f1HqE2VO+/dvrKa8uTxMrqqsXTdafbppab0N9tIXWXN+/8m4Ko7Lly8Gch//ud//rzjzz3o4vsDSZIca+tcqTzd5Tv3G0Sh/bfZh1HO2tv6t+NT1/H7/RwcHLK2ts57yq1SOwAAIABJREFU77+LkGWkrlo6um58SkA0FuVg74DVZ2ss3lzE4/HYRqgDkrH44fAgyw+fks1kmZmbto3X+BwcTnJ2kmF9eZPEUIxwNGy1IUkS/oEAqdFB9rcP2V3bJxQNEY6GrPbNiTISDzE2O4o/6Kd4XuB4+5STnTMatSayIuPxehCyU4loh00LKxTZXINHFkaCNlkSFDJFDlaP2Hqww/lhFl2HycUJFt+fJxQJttYgkhGt+kKSON4+4cnnK0hIvPfTuyRTcURLkTFJyt7GAU++fMrk7AR3fnQLRfEYY2sRHgn4/d98Re4izx//2c8IBoNtk5DcDncu5ov89V/9kvmled65/U57/LZzlCTJsamqyl/8839BeiTNxx9/ZDMhtct03iuHGazj+PP+D6/PP6WXyuPChYsr47/rd8AlKi4svAhRAXoSld77ncTF7Ee37TMnf932qestQuD3ce/r+ySTCWMF3RYp0Vt1JQDbHCFJMDSc4t5X96hXa0zPTiNJkuX3IUmg6ToDAwE8Pg+PHzwxUrQPD2LSKrO5sckRDvYOWX+6SWIoTjAcRKI9Xq/fx9jUCGcnGbae7iALQWwwakzACCSpNZEKQSQeYnR2hEgyTK1cI3N4zvH2KYcbx+TPCtTKdSRdQm1o6E0dTTWIlyRJNOsq5XyF/FmR8/0LjrdO2V0+4GT7jHq1SWp8kNlbM8zemiY+FG2n6bdIjkBt6jz7ao2dZ/sMDif54OfvEo1HLGdfM1Pu2UGGe799wFB6iI9+/iM8Hi9CaqlFrYy8GytbrDx6xrs/vsvM7DSS5bvSJiKykPnNLz+lkC/wt/+dP8Mf8DvIhpExt1tNefTwMc+Wn/G3/uxPicfjDiLSSVTs+43PbsLSvVCl9Ny/L9vfDy5RceHildCXqLjOtC7eOOxZau24qlPt7Owsg4NJvvryK5ZaESDGBKX1rZ8cTHLn3Tvc++o+N27dMKJVWpOYPVz55q0b/P/t3flXG+ehN/DvjCS0gdgECDAgMMa7TbzEjh3HzuIkzp7m1k3Sm972vX/W+/a0vU3a3LRZmsTOnsZOHCde8QJmMcbY7KuE2IQ0M+8Pg8RIGgkJBAzO93OOj0HzPM/MYPvM1882Pfd6ceWnKyjxuFHoLoSozC+BFkVYbTY8fuIovj39Hc5/8zMOPXUQxWVFAMzR5cbO3FwcPn4Q1366gY4bdzDYO4wtexqQV+iMlhPnd6AVBBml5W64PcUIBoPwj/jhG/HDPzKB/juD6Ls9EBv0dO5PNJlgz7OjsLQQ7ooiFHsKF3pkNBNYo8MwgohJ3ySaf25DcCaIht2bUL+tVt0eX7MEWRRETIwFcPlcE/ILC/DI4wdgyYkNKWbRBN+YH00XrqOyugI7d2+fn+NjThjyGR4cQtftLuw7uA+5ebnRYJFqpY8sy7j08yV4yj3wer0xc1MymUS72pu8cdiHaOUIi/wvOrP/YtO6l+l+KslW+SRuVBa7imWhnJJ4fP5rWZGjZS9fuoIvv/gSv33rTZRXxq6MkRUFiiJHy8uKDEWRMTMzi7/+6W0485x49eTL0XPLigxJDkOWFciKjKmpSXz4vx/BbDLjxGvPwmQ2QZLCkBVlvpyMqakp/PuzMwj4Azj01AEUl7nnyyy0JckS7nfdR8uVVgRngqioK8emHXUw5Zii59Jep6K5flmRIYUlBHwBhENhhENhyJIMKSxDkiSYTCbYc22w59phteck9BbE7qGy0LsghSXcb+/FvfYe2Bw27H5kB4pKCqNzaYT5CcYm0YzxIR8unrkEq92GYyeOwJmbmxBSwiEJX338DSRJxguvnZgvMz93RVyYdCxAwCfvf4LpqVm8+bvXYbVZIQjqsJLerrbRlT632vH5p5/h5V+9hIaGBp2XGi7cd6q9U9Kdn5KtYR8GFaJlS9olyaEfirHawz+RuSrauSzauSqRssXFRWi60oTJqUlsjqwEAaJDQPFzVQAFJrMJVpsVN67dhNPpRGlZScIQECDAbDahuKQYzddbEPAHohNDoSjzDzYFFosFlTUV6L3Xh87WuygociEv3zVfRjsfxYXq+ipIkoT7t3vR29UHk8kEV0Geuj8JxGj5yJwTdUt+AWaTCQ6nA448J/IK8pBbkIv8YhcK3AXIL3bBkedAjjVn/kWB6t4t0R4RUdRM5DVBDsm4196Dlott8A35UeH1YO+RRuTl58UM86jzXUzou9uPq+ea4Mh14ugzj8KZlxhSFAW4cPYiRofG8fizR1HsLl5Yjqx5G7RJNOF2Wwdu3WjFY8cehafCE+1NiZ+PEj/v5IvTX8Bms+Gp409CNJmif0e0QzyiGD/cE/t7spCiLZPs+8U+T4bDPkTLxjkqlJ5sBZV0J9Ui9tOYutpJtWazukfJ1StNqKqqQn5BfnSuitq2zlwVAO4SN/r7BtByowW1G2thd9hj+gkFQR1dyXPlQjSJaL7egumpGVTVbNCUWQgrVd4NGOgdQEdLJ8wWM4pLi+fnowjR+SgmkxmlFaUorXQjMB7A/du9uH+7F8GZOdhsObA5rDCZTLqhJdJW5IEfmfeh3Z9Eu4GcugopMnfEhLnZELpa7uHWpXb4RvwoqXCj8dBOeBtqYLHkqPVM80M1ogmCIqC1qRW3mtrhLnXjyNOH4HA6YZ4PMJGQAgi4+lMTum/fx75H9mDj5oU9U0yakCIIIgITAXx9+ht4yj04fPRQwvFkvSltrR24fvU6jj5xFGVlZWnNTdHrTUk+iTb9ty8zqBCtuqRBhUM/lGA1hn+059HOM1E0wz4xv8sy5ubm8Mf/+0eYLRb87g9vQRTF6BCQdvgnUj4y1BKYnMTf/+ddWK05ePX1V2A2m6PHZUUdWlGHYyRc+vkyrl5swqat9Thw5GHIshRtPzIMNDc3hx//fR493b1wl7mx53Aj7E5bzDnDmjZHh8bQ1X4Xg/eHEJYk5LqcKPd6ULahBFaHOowjz78dOXL9enN69CgKMDE2gbGBcYz0j2HSPwlBFFBRU466rV64ClwLD3NRiAk7c8EgLn/fhLGhcdRv24hd+3bAYrFEA4XaY6MGiptXm9FytRU7Grdh36F9muAkRJduC4IIRVbw6QenMDkxiZO//TVc+a60hnwkScaf/9+fYbfb8bvfvxXtTdEuSdb2pqQz7JPYm8JhHyID49APpW+lhn8yWaqs16tiMpngcrlw+dIVOBwOlFeUR4de5s+wMBykGQKyWCwodhej6eo1zEzPwLvRm/i/bnX8CeWVHsiyjJbrtzA7M4sNcT0r6oRRAdV1VXA4nei+3Y3O1juw2qzqRNy43hVBEOHIdaCiuhw1DdVw5DowHZhGb1c/7nX0oLezD2OD45iemIYUkuYnxS4sUY70nEAB5mZDmJqYhn9kAmOD4+i704+2Kx3o7ezHxFgATpcD1ZuqsevhHaiq2wC73Q7RJEa3y48sGRYFEUO9w7h09ipmJmex/8hebNm1GWbTwjb/kZ4cQRDRdqMdNy+3oH5LHQ4cOaDpzYkNKaIg4uL5S+i+043jJ46jXGfIxyRq97NZGPa5evkqOto68PyLz6GgsCBm4u3C3x393hTtcTH+z1XzZxePwz5EhsJVP5S+TF9SKApL21Jf7zzxK4QibUTKNmxuQG2tF+e+P4ctW7fA7rBD0bQhCPovLKyprcHe/Xtx6cIlVFZVon7zRvV/wvNVFVEGZBEQgf0H9wEK0HT5GgQI2P/oPggQASkMGWpPgyyKqN9Sh7KKUlz44SKafrqOvnsD2PPIblgdVsSu9hEgyyJsNhEbN9ehrsGLCX8AQ/3DCIwH4B/z435HLyQ50puyENtEUYBoUifFLnyuPhhtdivKNpShtKIEbk8xrFarelRc2OROGyIAYGpiEjcv3cLIwCjyi/Jx5OlHUVRcEDcsMx+WRBOuX7yBW9fbULvJi0PHDqUMKV2dXWi+1oydjTuxcVNdwiofbc+DtjdldiaICz9dQG1dLWq8NQk7ECdbZqz9M1fbTD43JV62elOIaOVx6Id0rdTwD7D0FUCR8sPDw/jTH/+Mnbt24KlnnlLrxA0BRerED8e8/78fYHhoGL9+8zW4ClxQFAWyLCMsh9Who/nVObIs4edzF3D96g1s3r4Z+w/vVXtqZBlhWYpdZSRL6LjViSs/N0EQgPptdajbUgdLjjnm/Av3oMQM8USGnyZ8geiqHyksQQqrbUthGSazCXanHXanTf3dYYPJbIqGEiB2OCRmFZAoQApJaLvRgTutd2GxWLB9z1bUba6L9qLED/UoioIrP15FZ1sXtuzYjANHHk4ZUvw+H/713idwl7jxyq9fhtlsTggpekM+APDdt2dx7UoTfv9//gslZaUL1x3Xm6K30kc9njqo6L5JmcM+REaTtGuSQYV0ZSuo6B1b7lwVAPj6q69x8cIl/OaNk6iqqYr2qsTPV5E1nyuKDL9/An//67vIsebg1ZMvw2a3QVEUhOeXGicLKxVV5Tj0+CFYbTkxoSgyb0VtO4Cmn5vQ090Lk9kE76YabNy2EXaHNeE69EKL3n2nov+wXnivEQAEp4O4d6cXXa13MTc3B299DXbs3QGHw6bbiyIIIsIhCee+OY+h/kHs2rMTjQ83at7+HDcxVhAxPTWFj//5KQQI+I83XkOeK2/RkBK51v6+Abz3t/ewu3EXjj9zPOVy5Jj7i5ubknqlz8rMTdE7FxEtGYMKZW4te1W0ZfTCSjAYxF/+9BeEQiH8/r9/jxxrTlp7qwBAb28fPnjvQxQWFeDFX72AHGvOwoRanbDS2tyK89//DEuOBYefOISyilLdSbyRwDI+5kPLtVvo7rwPCAqqajegpqEGRe5CAEr0enTvUV64/5TDZvEPX81wjyzLGB4YRXf7PQz2DgEAPBs82L5nW9Jhnsj3E+MT+P7rc5ienMYjjx1E/db6hM3ctCElODuLT94/heDsHF759UsoKS3RDSlA4ruZQqEw3v7z2wCA//rD72Cz25cUUtTP2JtCtM4xqFDm1qJXRS0bOwSkravtJent6cU7b/8NW7dtwbPPP6vW0QSISBvxYUVWFHTd6cLpf51GYXFhNKwk61lRFBkjwyP49ovv4Pf5sXPPDuzcswMQEoectIFlwh/ArRttuNtxF6FQCA6nHZ4NZSir8qDE44YoCjE9Lcl+NvE/x/gHqiCICIcljA+PY3RwFPe7ejEzNQOrzQbvpmrUNXjnV98svPAxPqAosoLWG+1ovtqMHKsVx545Ck952UI5nZASCs3hs4++gN/nx4uvvoCKDRVphxRBEPHl51+i5UYLXv/t66iqrlKvLcmQT/yxSJvq58vvTVnsmG55BhWibGJQocxlGlSA1e1VAYCzZ77HuR/O4ZVfvYz6hnrdIaDo93Fh5U5nF07/6xSKS4rx4qsvwGK1ROesxC9dVhQZwbkgfjxzHh2tt1HqKcWjTx6C3WlPGY4URcbMbBA93T3ou9eP/p4BhEMhWHIscJcVw1Xgir7MMNflhNliTvmzVxQF4VAYszOzmApMYWzYh5HBUfhGfZBlBYIAlJaXoq7Biw01lRBNsRNZ4wOKKIgYGxnHz2cvwDfmQ01dDQ4ceRhOpzMmpESXF8/PeQmFwvjyk68wODCE5146AW9dTUxIAZB0XoogiOho78CnH32KAwcfxtEnjkWvLfK70XtT4s9FRMvGoEJLY5ReFW19bVgJh8N4+3/egc/vwx/++w9wOO0ZhZXO23fw2cen4S5144VXntcNK/G9K+232nHu7HlAUbC9cTu27twC0Zy4p4v2nJHzhcNhDPQOou9+H4b6hzE5MRm9bwUKHE4HLBYzBNP8g92kzguRwhJmp2cxMzOLcCgc/ZmYTCIKiwvg9rhR6ilBcUkRrDYbgPieCE3PxnxgCIfDuHmlBa032mB32HDg0Yfh3ehN2YsiigKCwTl8/vGXGB0exfETT2HT5vq0QwoATE1N4+0/vQ1Xvgu/fetNmOf3bolcq3qdme2Zor3fCPamEK0rDCq0NOuhV2V4eBh/+dNfUFFZiddO/ipmI7hIW8k2g5MVBZ0dnfjsk89Q5C7C8y8/B5vDtmhY8fl8uPDjRdzt7IbDacdD+x+Cd1NNwnBQ5Pq1Q1bad/xIkowJ/wQmfBPw+yYw6Q8gHJYghdVJupIkQZJkmM0m2Ow22B022Bzqqh+H045CdxHMZrUXJvHBHvtG4UhYkGUFd293o/lqM6YCU9i0bRP2P7IPNpttoU6SkBKYmMSXn36FCX8Azzx/HHX1dWmFlMh1ybKCD957H4MDQ3jr92/BXeLWDSna641IFVQWCyna+ul+ngqDClHWMajQ0q11r4q2XLKwcv3adZw+9Rke2tOIJ44/odbJIKzc6ezC559+DrvdhuPPPYWSspKkYSVyfkWR0dvThws/XsTw4DAKigrw0MONqKyuiC5ljj9//LXH9hilN5E2ImFCbVwwAWIf9rKkoKujC81NLZienEZRSTH2H9qH8krPor0oADDYP4SvTn0NAHj2xWexoaoyYU5K5Dr0Qgog4KvPv0TzjRa88NLz2LZje/RYqnkp2t/Zm0L0wGJQoaVbzV6V+POlOwQEAN989Q0uXryEx588hj379qj1MggrgwNDOPXxKUxPTuHgowexo3F7TPvJelcURcGd23dw8fwlTPgDyMvPw6Yt9ahrqIXVbo0ZitK7p/j7SPZziZfwMI57uEfKhENhdLZ14tb1VsxMzaDEU4Lde3ejqmYDIu8a0gaUSL1ISBEEEZ1tnTjzzfdw5bvw3EvPorCoMK2Js5HrEQQRF3+6gB/OnsPhI4dx+Mjh6LF0Q4r2njMJKfFtpPN5KgwqRCuCQYWWZyV7VYDMhoC0bcSEDlnGRx98hPb2Drz86kuob6hX66UZVgBgenoGX33+Fe50dsFbV4Njx4/CZkscCopcjzawSJKEzvZOtLa0Y6BvAKIgYIN3AzZu3ojyDR4IopAQWrT3mBDYUvwM9R6w2of4XHAOPd29uN/Vg/6+AUhhCeWVHuzcsxOVGypgiryBeJGAEpoL4cKPF3Hrxi1sqN6AZ154Gg67I3oNi63uiXzW3tqGUx+fxrbt2/D8S88nbIW/1JCiraMts9jPKp1juuUZUohWCoMKLY8RelW05eKXLEfqzM3N4d2/vYvBwUG8/ubr8FR41HoZhBVJlnH1chN+PHsOzlwnnjrxFEo9C0NBkXMmGw4CgLGxcbS1tOF2WydmpmdgNptRWl6C0vJSeCrKUFBcAJPJFLP9v154SUX7wJbCEiZ8ExgdHkNPdw/6+wYhSzJyc52orq3GxoY6lJSVRHtP1Pr6ASXy/dDAML776gwC/gns2rMLjzx6EBazJbaOZj5KtM24kNLX04t/vvc+ysvLcfKNk9FdayPlk4UU7ddGGPLROx8RZQ2DCi3favaqxJ8vk/kqk5OTeOev72BmdhZv/ucbKCwqVOulmDMSvwmbrCjo7+vH559+gcnJAB7a14jGfY2wWGJXBUXqJwssoXAIPd296L3fi/7efoyP+aAo8y9KLCmCq9AFV74Lefm5yMt3ITfPGZ0MnPjzUTAXnMPMzCxmp2cwGZjC6MgYRoZG4Rv3QZZkCIKAPFceqmurULvRC3epO6H3BEBCQAEQ7UWRJRmXf76C61euI8+VhyeeeQKVcXukqOUXDylDA4P453vvI9eZizfeegMOhyPlCh/t58sNKdo20v08FYYUohXFoELLl81elWTHkg0BqeXTn68yOjqKd/76N0AAXn/zN2mHlcjXkbASnA3iu2/PoLWlFXl5uTh89DBq6qpjrlFvOEh7TdpzTE1NYbB/EAO9gxgeHIbfN4FgMBhzn2aLWd2qXrM8ORwOY3Z6JvriwgiLxYLSshIUlxSjyF2E0jI3cvNy1bcSL7rtfGwPiiiI6O/tx/ff/gC/z4+tO7bi8GOH5lcDxfaiqPWFuKATG1L6+/rxwT8+gN1uxxu/fQOufFfKFT6prjVyPq3VHPKJPx8RZR2DCmWH0YaAtO3oLVv++zvvQhAE/MdvXoO7xK3WjQsrkfb0wkqkzP17PTjz7RmMjoyi2luFI8ceRV5+XvSNxno9LOrnyUOL+r2CmZkZTPjV5clTgUkEZ4OQJHX7fllS576YTCbYnQ7YHTbY7XbY7TY4cp1w5efFhBIg9dCJtvck8rkoiBgZHsHln67g3t17yM3LxePHj6HGWxOts1gvSny53vs9+PD9j5CXm4eTb5xcUkjRXrf6OXtTiB5gDCqUHavdqxJ/zkzDytDQEN579x8Ihebw8qsvo6pG3ao9flO4SHvx81YWPlcgSRKarlzDhfMXIIXD2NG4Azt370CuKzdpYNFeZ3xoSXYPS5X8AZ8YTiKf+8cncOmnS7hz+w5yrFbs2f8QdjfugiXHohtQIvW1vSiRtiJlu7vu4uMPP0FBQQFOvnESuXm5hgkpix1LWodBhWilMahQ9qy3sOL3+fGP9/6BsbFxPPfCCWzeulmtmySsRD+TEwOHrCiYnJzCubPn0HarDQDgravBrsad8FR6Eq43WWhRy6TeNyXT5clAXG+KKCSUFQURiqJgdHgMzdeb0dHaAbPZjF17dmHP3odgtVlTDvNozxE/1CMKAtrb2nH6089QXFyMX79+Ek6n/pyUSP2Y9hhSiH7JGFQoe5YSVIDVm1yr/TpSZ3p6Gh++/yHu3buPY08cw979eyAIicuFk23Mljh0oyAwEcC1q9fRfOMmZmeDKCouws7GHajbVAur1RrTyxJ7Dv0eFbXs0v7JaUMJkDjUAwDB2Tl0tHag/VY7RkdGYTabsW3XNux7eG/MJNf4gBL9LEUvigDgwk8XcO77H1FeUY7XTr4Ge9zbkNV21ldI0TsvEa0IBhXKrrXuVVHrZBZWQqEQTn1yCq2tbdi5aweefPrJmCXCqTZk0+tdiZQNBoNob+3A9avXMDIyClEUUO2tRv3metTUVkdXCsXfg961LvYziNB7SAOJ81NCoTD6e/vR2dGJzo47kCQJpWWl2Lp9Mxo2N6TsQdGeJ1kvCgCE5ubwxWdf4nb7bWzZugUnXjiBHEtOTD1BJ3BkElK09VL9DNibQrRuMahQdhmhV0Wtk9kwkKIoOHvme5z/8TzKPKV4/sXnY1YExdbV713Rfq/ElFWXNHe0daC9tQPT09MwW8yorqmCt64GngoP8lx5Ke8n2c8hlfgHcGAigPvdPbh39x56e3oRDkvIybFgy7Yt2LZjG9wlxYmTbNMIKJHvtRuvjY2N45MPP8HY2BiOPn4U+x7eB5NoiqnLkEJEaWBQoexbb2FFW7ettQ2fn/4coXAIx544hl2Nu5IOBWnbTSewAEA4HEZfTx/aW9vRdecupqenoSjq25HLPKXwVHjgLilGnisPzlwnTCZT0p9JMrKsvtBwdGQMY6Pqr9HhUfj9EwAAV74LtbVe1NRWo3JDJSwWC4DEcAKkF1Bijwu43XEbn5/6AiaTCS+++hJqaqoXHeqJadvAIUXvvES0ohhUaGVkewgo2fGVCCsTEwF8dvozdN3pgrfWixPPPQtHrro9/FIDS2yZheGe4aFhDPQPYKBvAP39A/D7/PNl1TIOpwN5eblqaDGbYBJFCKIIk0mEKJogSRJmZ2YxO6v+Cs4GMTM9g7AkQYAAQRDgys9DsbsY5RXlqK3zoqCwQF26HDPBdvFwoi2nF1Cmp6bVvWVutcJT7sHLr76MgoKChDbS2XFW27b2mvSuN76sXluZHEuFIYVo1TGo0MpYiV6VZMeXG1a0X2uHgq5cvoJ/f/tvmC0WPP3McdQ31Mf0rsTUS+OFgrorfLRvRpZlTE9PY2xkDIFAAIGJCQQCk5gMTGJqcgrhcBiyLCMsSZAlCZIsw2wywWqzwma3wWZT91JxOOwoLCpCsbsIhUWFCT0mEXrhRFsu3YCiKApuNd/Cd9+ewVxoDgceOYiDjxzIaD5K/NcrGVLSOZ60HoMK0WpjUKGVs1pDQMDKhBUAGBkZwacfn0J/fz+8tV48efyJpHNXtOfRncSbopdF7zr17mOp4h+w8Q//VOFE+3n8CwB9Ph++/uIb3Ou+h8oNlTj+7NMoKy3Vqbd6ISW+vUyOpcKQQrQmGFRoZa3XsKKtHw6H0XS1CT+c/QFzoRD27t+Lg4cOICdH7TFI983Hem3r3Y/eip50XkaoJ/5BD6R+QZ9eONHWibQ3OzuLq5eu4uKFSzCZTDhy7DE0PrQ7rQmzCedkSCGi5BhUaGUtp0dgNcNKfJt6vSuBQABnz3yPG9dvIDc3F8eeOIqGLQ3Rh3GqwBJ/vmShJdP7Sybdh3hiT0vq0CCFJTRdbcLP5y9gNhjE5i2bcezxoynnomjPk05A0Z4v2XWuZkjROz8RrRoGFVp5qzlfBcgsrMSXX6x3BQB6e3rx5RdfYXBwEEXFRdi3fy+2bNsSnQuiN4cl/rypQlKy614uvYdt/MM7WY+GIiu4eaMZ5388j8nJKdTWevHY0cfgKfcktLOcXpT48+pd81JCSjrHk9ZjSCFaSwwqtDrWa1iJ/z46z0SW0dLcgosXLmFgYAA2uw27G3eh8aHG6J4oSsI59UOL3vWmurel0ntQpwwJggi/34+b12/i5s1mBAKTqKyswKNHj8Bbs/BiwoW2Mgso8edfrBdF73pT3Vsmx5PWY0ghWmsMKrQ6VmoIKNVx3Yf/MoeC4tuQZRk993tw6eIltLd3QBAE1G/aiO07tsNb543ug5KslyX+Gha7/uXQXx0TFw4EEbIso/P2HVxruobu7nsAAK+3Bnv37UXdxjoIgqATOLLXixLfRqrrj293KceT1mNIITICBhVaPeshrMTXSad3Ra2jwO/z48rlK2hubsHk5CScuU5s37Ed23duQ3Fx8ULZFD0tya4pG/Qm1qqfqy8kHBocQntbO1pb2+D3TyAvLxc7d+/Crp07kV+QHy2rlU5Aif9+PYSUZNdBRKuOQYVW13qz5Bc0AAAIqklEQVQMK3ptp5oMK0kSOjvv4Ma1G7h9+zZkWUaZpwwNDZtQVVMFT7kn5iEYH1xS3ctyaR/ciqJgeGgY7e0daGttw/i4D6Ioorq6Co0PNWJTwybdSbBCimCRKqCodZMP9cS3pVcnVduZHk9ZlyGFyCgYVGj1GSWs6F3LcgJLfHuKomBychLNN5vR0d6Bnp5eAIDNZkV1TTW8tV54yj0oKi6C2WyOPW+WJ9IC6jLrwcEh9PX2oa+vH329fZiamoIoiqipqcHmLQ3Y1LAp5o3JEanCCZBZQFGPL70XRa/9TI+nrMuQQmQkDCq0NtYirADp9a6obWQvsKj1FUxNTeFe9z10dd1F991u+P3qdvmiKKKwsADuEjfcbjcKigrhzHXC4bDD6XTCZrMlBAX9e1MwNzeH2dlZ+Hx++H0++MZ98Pn88I2PY2RkBJIkQ4CAwsICVFRWoqpqAzZu2gin05lksu3KBhS9NvXqJWt/qWWS1mVIITIaBhVaG8tdepvO0MhyhoLU+ol/zZcbWNQ21Dcqj4+PY2hwCMPDIxgeGsbw8BB8Pj/i/+2ZTCY4HA6YzSZAECCKIkRR/V2SZASDs5gLziE4NwdFUSAgdt5Ifr4L+QUFKC0rRWVlBSoqK5IGE2DxcAJkHlDUMgwpRJQxBhVaO0YLK8muaalLidMJLWp7C+2HQiH4fD5MT01jamoK09PTCEwGMD01DUmSoSgyZHnhlyiKyMmxwmazIicnBzlWK+w2G1wFLhQUFMDlcsFsMuueN0KvtyadcJLss6X2oujVTXWepZRJWZ9BhciIGFRoba1lWAHS711R28lOYFnsPGrb2f8nttjwUbIHdToBJd0elGTnWc58lHTLpKzPkEJkVAwqtPaMGFaA9ANLsjaSBpRUrwZYgUm0elI9mJM99NPpPVHLpR9QkrWx2LVkWiZlfYYUIiNjUCFjyMYD2giBJWU7S3h30WK017aUB+5S3o2TfHhmfQUUgCGFaB1gUCHjMHJYAbIXWBa7hkzKZGK5D//VCCiLXUMmZRZtgyGFaD1gUCFjMUJYAbIbWBZrL53rWSmLPfBT93pkFlAWby+94MCQQvSLwqBCxrNaYSWdcksJLGq7Sw8tse1kJ8Ck+3BfvLcj+YTcpQYUtV2GFCLSxaBCxrSaYSWdsksNLGrbi/9zyfYLCNO1WIAAUocTYHUCSqZlk7bBkEK03jCokHFlawXMagUWIL1rXsoLB5caZNIJIvEWCybA4g98owUUgCGFaJ1iUCFjM2JYAdILDule+0q8KTkT6QQTIL0HfXo9NAwpRJQ2BhUyvmzuLZLtwAJkN7TEnj+7/8zSDSQxdbIUTtTzr35AARhSiNY5BhVaH9YqrGRSPqNJsqu0sVumMnmor0RAWUr5lG0xpBCtdwwqtH5k++G+UoEFWNqcktUOL0t5iGcy52UtAwrAkEL0gGBQofVnPQWWiGyt6knn3rP5gM50Mu5SwgYDChGlwKBC69NK9D4sJYAsdZ+TtVqOvJilrBICjBFQAIYUogcQgwqtX0YJK9moa+R9VJJZTtBgSCGiNDGo0Pq2UvM61iqwJLOcILOcMKKHAYWIVhGDCj0YjBhYstnGWsrKjrArEFAAhhSiXwAGFXpwrOSqmWyGDaMHl6xtsrZC4STaPkMK0S8Bgwo9eFZ6me9KBY3VDjAr1svBgEJE2cOgQg+m1dqTZDXDRabnWunAsBbnYkgh+sVhUKEH24MYWIyEAYWIVhiDCj34VnvH1wc9tKxqTw0DCtEvHYMK/XKs1ft11ntwWc1gEnNehhQiYlChXyIjvBDQqOFlrUJJzDUwoBDRAgYV+uUyQmCJt1oBxgiBJB4DChHpYFAhMmJgyZSsyIYMH+lgQCGiFBhUiCIehMCynjCgEFEaGFSI4jGwrCwGFCLKAIMKUTIMLNnDcEJES8SgQpQOhpbMMZwQURYwqBBliqElNQYUIsoiBhWipWJgicWAQkQrgEGFKBt+iaGFwYSIVgGDCtFKeFCDC8MJEa0yBhWi1bLewgtDCREZAIMK0Vpb6wDDQEJEBsagQmRk2QgxDCJEtI4xqBAREZFhJQ0q/C8YERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERkWgwoREREZFoMKERERGRaDChERERmWeZHjwqpcBREREZEO9qgQERGRYTGoEBERkWExqBAREZFhMagQERGRYTGoEBERkWExqBAREZFh/X+FKrhUsFKKMQAAAABJRU5ErkJggg==\n", 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\n", 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BXWhadC8fXdXQVI2p8UmSU5KxOxzxYGKYJrq+ck3J5ORoE69/bm5T4WOtmUA/r14VCSxC/HxIUBHiU+vh5eZVNXqZ2+3GiNTwH39nP0eOhfn3vxNkYkwnPWM74+Maw0PDKIqK0+kEoK+7j/m5BRRV5X/49x1cPJtPYCGZ4vIiJsYmUfg2wUAKmTnfoqSiGDW2x4+iqETCEcaGxikqLYieQ2z4Zym4iDPWI7McXpKSkoBoUEm0PIV59fDPimNWDQFJYBHis0GW0Bdii1AUlcR9RLt79uP3u3nlR/DKj5ZXps0BTnD46LfJzc9DiYUdTde4dfM2R04dYtsOP8efGuH8u7lkZGVw6vPPEI5ECAZ7OP/mfp7+0rn4z1NVlZGBUSwLikqK4jsqW6ZFOBzB6XKuqAQ5XU50TWfeP7/px2VZZuyxPWyjZfZ/1mQZfyH+ZUhQEeJT6DvfiQYSM5ZLVCW6yd++fRaBxQAA/9vvBiiv+D2+8avfJDc3h4gZwTJNXn75x3S2D3D85DEOH13iVncTH54t4VbzbXYf2IXb6+K//PFdQkZTbK2TDEzL4he+2c9v/kIN3e0ZVNTMxPtUBnqHcLldZOVmxUPD4mK0WdbpdGKaJpqqxc7cwpvkZXZuDtOyUE0TUzFRUaNVitj7vgqYqBALA8thZbmKkhhOftaVlY2CUGJlRUKLED8b8i9LiE+R1W+Ga72JLh9TVFSEgkJfbx9KbDhGUVWqq6tYWAgwNDiMqqroqs7eA3vQVI2m602oioam6dg1Gzbdjk23o6sa+YVLHD45zKsvVWHTbGiqhhGJMDIwQlFpUWwmUPTnhBajzbwOZ7SSkzik4/G6mZudi2+caBiReFPtekNAy7OAEmcCbXb4J/HYzX5sdPt1f44MCQnxMyFBRYgtJHGIxOv1UlhUxM3rN1lcXIz1lahUVlaQlJTM+fc/xIgYaJpOakoqew/sobOti3def5fAfBBN09E0DV3V4oHlxa/3cOHdPKYmvGiazq0bdzBNk6raCnRVQ4nNAtJtNgDCodCK8zNNk/zCfIaHh+nu7n6w6WE8nDwIK0A8rCzfdvmyxCbbRwkdibdf/bHiPDe4/WYCixDikyNBRYhPufWqKqqi8LnPfY5gMMCli5fiVRWny8WzX/w8M9MzvPnqm5iGgaKoHDryBMdPHWdseJyXv/tjrpy7RmAusCKw7Nq3QGXtHK99v4SJ4Qna7rZTu72G3NyceEgBSEr24nDYmYwtAmfFAgnA7n27SU1N4f13zhIOhzAt68Fy+gnTlVeHldUNtmsFjESbCSQbHb9so0rLeiSsCPHJ0f7gD/5go+s3vFII8S9vrXVHLCwURYl/BgvLsvB4vSzMz9PU2ER1dTVuT3QBuJSUFDxeLw03G5kYn6SiqhxV1cjNzaGqthLTNGm738a92y34Z+dxuVxMT04z0DdIaGmSH7+0G7fnOySnODj9hVNouh6v2CiKiqZqDPQNEAwEqa2rfTD0BOi6ji/dR1NDE1gWRcVFKEqsrTc2kUlBiX9tYaFA9BhFiS39v/w4o0es/fFAdOjI2tTH6vt98D0Jz+/a369+nda7TgjxkP+y3hUSVIT4lFkvqCR+TnyDzcvPp7GxifGxMbbVbYsHmpzsbNxeNw03GpianKaiqhwUBafTSVFJITXbagCFjtYO7t9tpau9h+GBYdyeflpuP0lWjoevfbMItzcafpaDxPL9T45PMdA3wM59O+OVluXQkZySzML8Ao0NTSSnJJOZlRk988Q3dyv2WOPhZfmxKw8e5SaCh2Ga60aZtT6Wh5oeBBdIDC1W7L/l81z9/erXSsKKEJsiQUWIrWK5qvDQZetUVXSbDZuuc/PmTbKys0jPSI/dCLKzs3C6XDTcuMnM1Ew0rKCgKgo2u42i4kKq66rJzM5g594dHDi8n70Hd6FpNj54ewdf//VJFMVacQ6WZaIAgYUFujp6KKssxeG0RzcmJHqMaZkUFRcyMjRCU2MzGVmZpKVFNzc0rWiYiYeuWGBZ/j4eDxJCy8Nh40EFZflS0zLWHQ5K/FgORMv3nxhcEkNL7Cw+MrBIWBFiUySoCLGVbKaqEq1uRK/Lyc2lrbWNe3dbqK6pji/0pigKOTnZ2O0OGm42MDM9Q0Xlg7BiYWG320nzpeLxerDZdBRUSsoDfOevCimtCFBSFoy/SS//Z1omiqbSereVzrZOTMsiPT0dRSUeWBRVobS8lN6uXpoampmf95Obl4uma4CyorqiJJRV4r0rCaEoMaaYlrHiXAzLiAYXLAzT2Ljxdt37X1nFWQ6CK4Phg9dBwooQj0yCihBbyVpVlcSAkjgEZFkWqqpSXFJCc3Mzrfdbqdteh023xY/PzcvBZrPTcLOB6alpyipKowu6xe5LVdT4z1MUsNstpqd0zr+XybMvjDwISaYJlgWWhdPpILcgl9mZOe7faaX9fhu6TSclLQUlFgg0TaOyuoJIJMLt5jvcuX0Ht9tFRmZ6wgN7UE1Z/rQcKpZD0fLjNxJCynIoWZ5JlNiku2ZvCsqKY5bvP3oK6wUW1h0OkrAixCORoCLEVrPe8E/i18tVFcuy8LjdFBQUcvPGDfr6+qjdVoumafHj8/JycTic3LzRwNjIGOWVZei6LT4MszqsFBQv8Bd/XMqhY1NkZC1FQwrRoRsLMCwTl8dFeVUZufk5jI2M0XLnPj1dvXiSPCSnJGMRDSuFxQWUlBczMjTCrcbbjI2NUlBYgN1uf6h3JV5dIWGIRgHDNOLfJ866iVdTYpUV0zTiIWR1FWg59KwVWqKXQzQtPWjsXQ4rsDKgSM+KEI9EgooQW81GvSorv7bix6akpOBLT+f6tetMTk5RVV0Vb3RVFIXc3BySk1NobGikv7ef8sqy2Iye2H0tFzYsk6Rkg442Fy13kjjx1CimZWEkhgIz1hOChcvroqy6jJTUFAZ6B7h3+x4jwyP40tNwupxYmLjdbmrqarA77Ny5dZd7d+6RmpZGmi/1wQNMqK6sVQmBtYOJlfDZsBJ2RLasNfpTzBWVGmVlSmG5Ifijwsp6DbYSVIRY07pBRfmILdY/ev91IcTPzVrrdazevA8e7EIcXUzN4tq1q7z7zrvs2LmDZ77wDEB8if2IadDR3s5rr7xOUoqX57/6PC63k4gZwTCM+GfDjNBww8n/9Gv7+LO/+wmV2xz0d/cxNTVDemYaaRlp2Oy2+LksByLTsOho6eBucwtmxODA4f1s370dXbOhaxo2zc7M1AwfvHOOqclptu+s4+TpkzidTjRVj69+u0xJWK33QVXHZGF+gZ7ePvp6e+nv62fePx8NCbFQoaoqNpuNkrISqqorKSgsiK0/o8aHvZZX830w9VqJH/Mg4MWOVR98n/h4N1o9WAgRt26Cl6AixKfcxw0r58+d48KFCxw9dpQjx47EezoMI4JhGvT29vHKj17B4/Xwy9/8xXhACRshIrGgYhgRnjseoKzqLQ4eDzHvn4+dT7Ty4XQ5cTgdOF1OcgqyKSorxO12o6kaoaUQ1y/cZLh/mPyifI6dPILPl46mRheYU1G5ea2BWw23SU5JZueuHWTnZJORkUFycjJqbP8gBfD7/YyMjDI2OsboyCgTExPMzs5iWRYOh4P8gjxS0lIwTSthTRWTwEKA3p4+IrENFPML8sjLy6O6tobU1JQVoUXT9HUDy1phJTGgrA4rElSEeIgEFSG2so3CynpBxbJMfvCDH9LX18dv/4+/haZpK6oqhhnhvXfeo+Xuff71b3+LsBEmYkQwzAjhSJh7d+5xp/keDdcauHqhnt/4X36d6u2VpOdmMDE6ztjoBMGFIEuLSyz455mb8UdnGRVkU1pRQmFJIXabje72Xprrb6OgsPfgHnbs2Y7T7sKm29BVndHhUS6du8z01ExsiEXFbreTkZGBzW5jfGycxeBifEgozZdGekY6mVkZ5BXkk5mVEX/8a60wGw6F6enuZaB3gNHhUWZn5rDZbRx4Yj/7DuzD6XCixhaxUxU1HlgSw4qmRvd3XQ4rq6sqq78GCStCrLJuUJHdk4XYopZ3VF7+rCjRXYhVNborsYnKgQP7aWttpbW1jW3balEVFQMz2pOiqCwuLuFyu1bcr2la9HT3cuHsJVLTU3nul79Ey51WFhcXySnKIWyESctKJTnDuyIUzM34GegaZKB7kMHeIRxOBxU15ezYu52svExu1d+h/nI9nW1dnH7mJFlZ2ViaSWZOJr/wjRcJh8LMTs8xOz3D5MQUU5PTBAIBikuLycnNISMzg/SMNDRdX7EvkGE+vOnhyicKSsqLKasoRVVV/HN+rl2q59KFy9y9fY8nTx2norISdDBja8aYsc0cl3d8VmPPb/T5MVHVlfsurcWM7QwthNiYVFSE2CIeZQjoQVXF4q//6q9wupx8/ZtfXzH8Y1oWL333JULhEC987cvxisrs3Cw/+O4PsdltfO75pzAVkx/94yv89Adv8su/+TWG+ocwTBPDWF5gLdpUmpmfQUlVEWkZacxO+BnsHmS4d5T0LB+HTj5BWloao/1jNFxtwoyYHD1xmNrtteiaDU3TsOt2NFWLVy/gQVVCVZT4XkCJlRPTNJkYn6C7s5s5vz/+PGiqhqIo2Gw2SitKSc/wAUSHnGLDNsODw1w6f5mZqVlKy0s5dfok6RnRoanlDRh1VUdRFPR4lUWGgIT4mNatqMisHyG2iLX+6EicBbR6bZXl2SeGEaG5qZmKygrcHnd8oTPTMrlefx1vkoeyytJYI22Yc+99yPjIGCefOYHDbWcpvEQ4EuLtH7+HaZpU7qggNSOZpDQvyelJpKQn4U5yMdI/Qk9bH6ODo7iSXJTVlZCSlkxvRz9d97txeVzkl+RRVlnC9MQ09263MDszS25BDrpmi886Wp7JtDyTh1hAMcwHw1IDfQM0NTZz/v1z3KhvoL9vgHm/n4mJCaYmJpkYH2d8bJzB/gHu3LpLb08PhmWQlOSN/bq08CR5qa2rxely0Hqvjdu3bpOdk0VKagqgoPJgjZkHU6cT/jdhO4H1pizLdGUh4mTWjxBb3Xo79q6uqqzuVQkEFvizP/0zttVt48wzZ1Y01P7Fn/0lxWXFHDt1hHAkTNv9Nt554122762jZlc1s7MzXPrgMkMDw7TdaWNhPsjv/PG/IxReYikcIrS4xNJiiFAohCfZw9jAGIOdwwT8QZwuJ5XbK8gtzOHWlTv4p+epqKngwNF9OGwO2u90cqfxLmmpqZx59imysrJjuzjH+kESqhGKojA2Osa9Oy20t7YTCARRVYXcglwKivMpKMrD6XbFe3CWLS4u0t3eQ3tLB7MzczgdDsoqy9i9fzepqanoWrSCsxhY5M1X38I/N8/zLzxPeXlZvLKiaXq0f2VVc62uaSuGf9abBSRVFSEAaaYVYuvbbFCB1cM/Jv/w9//A4tIi3/jVb8SGfUzm5ub4yz//Kw4eOcDOvTtYCi/xT3/3EigWTz//FFPTU7z3xlkW5heo2lWBw2Pn93/zDzn5/DGcXieLwSCmacX36XG47BRU5JFbks3CTJDBjmFmxmep3llJxbZyelr66Gnto7isiCOnDuNyuJgen+HKuWtYpsXeA3tIS/ORmpZCUnISdrudUChEd3s3LXdbGRsZRVEUikqLKCorILcwN94gvLS4hN/vByW6Ym10d2YFm03H4XRgWRbTEzN03u9ioHsAu9PB5549Q05eDjbNjqZpGGGD13/0BovBRf7Vt75JSnLKmmElOhykrttYK9OVhViTNNMKsdWpqrpuWPkowcVFPB53/HvTsujq7gYsiooKMU2T3u5eZmdmOXTyCRaXlnj3tfcJRUIcPnMQV7KLlub7ZOVl0narg+NfPkyK5kV32LA7bFiWyWDnCPcb2+i+30txdSFV+8rovt1LS3MrJhY1O6qwO2y03eoEFI6ePkJaZiqnnz3JhXcvceXC1VhvSXSoxeFwRIejIhHSfGkcOHqA0opibHYd07JYCi/R091DZ1s3/T39RCLhaEPtqmbavMJcqrZXkZWbyf5je6jdVc35ty/y+o/f4KnPn6a4rAibZcdms/HU50/z45d+zNl3z/KlL38J1aZiWgqKZaJasWZay0QFUKLTp61Yo+1yY7MQ4tEUSL+HAAAgAElEQVRIUBFCsDC/QFZ25orLerp6cHs8+DJ9hCIhbjXexul2UlhawOXzlwkGFzn+hSPY3TYa65voaulm9/EdvPO9syRneUGHoD/I7MwsS8ElssvTySxNY7hjjNbGdnrv91O+vYR0M437Ta2oqkJVXSUoCm3NHViWybHTR3F6nHzhxWcwIyZLC0sEA0H8c/P45+ZRFKiqqSQzOxPDMjAMg+GRUTrut9Pd0UMgEMTu0CmqKCAtIxXDNIgYRmxFWosF/wLdbb309w7gy/BRu7OawtJCTn/xSS6+e5l3fvouR08eZtuObQB4UzzsfWIv9Zevc//efeq210WrJ6aJqZgophKdBaSo0V2X15jZI4FFiEcjQUWIzzjTNAkEFvB6vSsu6+3ppbisGAuLifEJBvuH2HNwJ5Njk7S3dFJeU4Lb6+Lqh/X0dvaRX56HZldI9iXx2t++TUFNXnzWD6rCYNcwKVnJFNTkYEVguGOclhttVO4ux2em0tLYiqaqVG6rxKbbaGlo5eJ7lzj+9DFUp4rNbsPtdpOpZjz0GCJGmOnpWeqvXKe3sxdUyCvIYWf5DrJyMggsBpmbmUNDRTNVUBQUFJJ8SRTXFDPQNUB3aw8X379MUnIS+47s5fgzR7l2vp6LH1xiYSHAwUMHUBWVul3b6Onq4YP3z1FYXEhqSiqq8qCqYsZCi5YQRqyE6ctCiEcjQUWILWKzwz7WqqGPQCCAaZq43Z74tN6hwUEWFxcpKi4EoLnhFrpNo7y6nDdffQuny07FtnKufnCNwf4hKneWEVgI0NbcRdmOYm5fauHQV/biTnVhd0Vn7Ix0jzHaPc7s+CzZJdmU7y6i/94QHbe6qdxdhorKvYZWbDYHlbXl2G12bl+/y/m3L3DymROoLhXViDxUjQgGgzTfvM39O/dBge37tlFWXYpm0xgbHePqhXr6uwaIGJEVzcTLsvIyqdpZybEvHGZyZJr2Wx1cePciB4/t5/DpwzRfu0VTfROhYIgTp4+jaRqnnj7Jy9/9Ee+9/T4vvPiV6Gq6xKY+K1q0amKZoGibWi9F1lQRYn0SVITYAh6lkXb5+OVGWv9cdH0Rr9cTv763pxdFUSgsKiS0FKKzrZOKmnKGB4eZHJ/iwIl93G1qYWRwjLoD21gKL9Hd2ktuaTZ7K3fQeauH4e4xao9WMDU6w/TwDFll6STnlDLWNcFo9xjzk/NsP1pLd3M/HU3dHHx6L6qicef6XdIz0yisyMdmt9N0uZmGq00cOXkI0zKJmJH4eS7MB3jn1XeY9y9QWlVC3Z5a7A4bgWCQGxdu0tHSiaopFJTn48tJje9VhBWdGjw/u0BPax/Db4xQvbOKqh0VHMo+SOPFZq5+WI/L42Lfkd243C7u3WohJy+bbXV1eJO9HDh6gKsfXqOrs4vq6mos08RUifeqRJ9zCzVh+rEM+wjx6CSoCPFzsl642Mxf1h+3aXYtQyPDAGRmZkbfbC2LsbFxUtNSsTtsDPUOETEM8gpz6enuRbdpZOVlcvn8FfJL88gvzeX8GxdwJ7ko2V5IKBKi7kQ1Te/fIRIJE1oMYVkQ8AcoO1BEXk02qdkp9DYNMtgxTOnOQprP3mO0f5ya/ZVcf7eR9judZGZlkV+Sy/TEDF1tXdTuqMLhcIFhEQ5HCIWWuH65gcVAkKefe4rUjBQMI8LgwDDXPqzH7/dTWlNM2bZS0Kz4RoqhSDj+2FOzU8guyaS1sZ2WpvvMTM6w99ge9hzbxYU3LnHzSgOZOZnU7alluH+Yphu3qKqpQlUV6nZs49bN2zQ3NlNZVRmtpvBgddqNhn8ksAixeRJUhPgX8CjB4pMKIetVU1YbGR7G4XSSnJocXUANmJyYJD3Dh2mZjI2MAuBLT6P+yg18mT6mJ6cILYXIystgenI6unrr9iJCoTC9bQOElkIsBULMjM1RfbQMFIvuxgGG2kfJq87G43OTkp3ESM8Y+ZW5JPk8jPWPU7G9jPyyXPrbhpiZniEjI52K2lJ623r56Q/fQo3tt7NMt2mc/PyT+DLTCEdCtLd2cu3DepxuJ4fPHCTZl0QgGOTWpdtMjU9jWkZ0enJsF2W7w07Vrgqq9pbjTXXTdaeX829c4IlTB6jeXUXjpWba77VTt6uO2l01XD1XT2dHJ9XVNViqRe32ahrqm5ianCIzMyveVKvFZvwkvqYytCPExyNBRYifoU+y8vFJWL1+CsDQ0DA5OTnxFVKXlhaZmZmhsqYCgJGRUbxJHmx2G9OT01TWlTM8OAqKRUpmCncb76EoCul5Plqb2hnuGcHrc1O2t4jp4Vk8GS5M0yQ1P5mJ3im86W5SM1NIzU9mZmSOiaFJUnNTGLg7xNy0n7yyHAY7hui414XveBpur5snTh0gHIzgdDhxOp3oNh1NV/Eme3E4HUSMCN2dvVz7sB5fZhr7TuzGUizGhsdpuNxEYCFIRl5adDE704iv4js7Ocf1D25Ss7+SnNJsvKle7l1r5caHDRx75jDp2encbrhLUVkReUW5eJO9NN1opryiHE3TqKmroeF6E01NzZw589SKqcrLfSom6orhHyHEo5GIL8QnxDTNhz7+xc9h1Q7By19bazSRAiyFlhgfGyMnJzt+7NTUNKZp4kuPVlRGhkbIzM5kfHQC0zTIyM5gbGiMVF8qNl1npHeU7IJMFGByaJrs0iyqDlaw6+ltTA3MMDMwh67p5FVl4fQ4GL4/DoZCSnoyLo+L6cEZsvLSUTWNicFJXG43BeUFDPcMsxhYAiC/KI/KugrKqkspKiskrzCXzJzM+IaJAz2DXD1XT3qmj0OnDqLpGh13u7h69joAI33/lX/6bz9kbOC3qNpbTvW+Cqr3VeDLeYFzL1+k8fwwPff7SPYlUbu/mrnpOTrvdlO3r4ZwOMydm3dQFNi2u5bJ8SkG+gaxLBOP10N5RRn3bt8jFAo98mslhPhoElSE+Gf6OKEkMVCs9/Fx7m+t71csmZ9QTTEtk+GRYQzDIDs3O96fMj4+Dlik+tKYm52LrrGSk8nY6DgASalepidmyMrLYmxwnEjYoKAsn9G+CSzLIr8sB13VSPJ5SclK4uy3L9P4+l06Lveiqhpzowv0NPajGApZRen4pwNgKqRnpzE+OImqqJTXlAHQ09q7Ymn6tVZ6nRib5NIHV/BlpHH0zGF0m87Ni420NN0nOz+Tw587gM1hQ7eFufTTE8zPuuLPj2aLDtH4ctPouttDe3MnGbk+cotz6LjXhWEalNeU0dXew+T4FCXlxXiSPDTdaIo/pzt272BpaYn7La2P9JoJITZHhn6E+Jg2G04+7l/OH+d2q2+zel+f5cuW36ibGpvQdI3c/Nx45WVsZBRdt5GSkkxffy8WFimpKUxPT6PpOnabHcuysDts8edAt+nRJeMVNdZHAuGFCAszAZxeJ6FAmOnhORamFgjMLdJ9s4+rLzdic+jodp2RzlEUVHRdx+vxkOpLZW56Hv/cApZFfEn6tYwMjmAaJsc+dxRVg/mFeQa6hyiuKqJqVwURMwyWRem2LmYnk7j02jM8/Y0frbiPsp0lDLX7Ge4ZoWZPNRU7ShnpG2NydJLybSV03e9hfGSCnNwcSsqLabvbjmGY2DTIzcvB5XYxPDTMnj27H/k1i7920scixJokqAjxMXxUSHmUkPFJzQBJ/JmJASV63cMhZXZ2lrt37rFj53ZcTicR04g2z46Nk57hQ1FgaTE69GKz69gddoxIBN2m43Q5mJ9doHx7KaqqMjE0SW5xLp13upkYmCKnPJMPX7pKer6PZ3/7NKgQDoe5f7kDy4LqA+VEAgb3LrZhmRYp6Sl03+nDCBtcffcG0xMzBPwBzr9xgW//0XdISasgMP9ddu73kZtvkp4ZJC0jiC8jwFB/EgouHI7oTs6z03MAZOSmY2FhmhaLwSUC8xa1B3/Ih6/8R7KKvos3dYTJkRQguqlheo6PqeEZ/LN+0nxpaJrKvH8Bm8OGpqksLCwA4HQ7MQyDxeAiTrsTC4ukJC/z8/PR6cimuWGtWmb8CPFoJKgI8Yg+bkjZKLx8VLDZ6I1tvSrKg+sfDimmaXLz+k0Mw2Dvgb3xaophGIyPjVFWWY5pmSwuLmJZYLPbsdltAIRDYZJTk5mb8WN32snI9jE2OEFRbQHZxdkMdgzRUt/KaPcEv/h7z2Gz2zAti747gxiLJlVPlJGcmkSARbwpHmoOVOGw27HpNg6e2k9BYT6NF2+xMBvg8KlD+KfnGBsMc/3ifXIL9jIz6aWrLZmJMSeT405CSycAeO37S6RlBLA7xwmF9hEMuknLmseTMsvEMISWDCzeItn3ea6/8yI1B/4z06M58efGm+bGsixmJmbxpftweV0s+AMoioLT7SSwEMS0TNyxPZECCwGSk5MB8CZ5mffPr3hNNNaa+YOsUCvEI5KgIsQmbRRQ1goa64WPtZpa15L4hraZCs3qKkr0dtaKgLJ8/Zx/joaGBiqryklOTortgRNhZmaaYHARX0YahmmwuLSEZVnodh17LKiEQmFS0lKYaOtCQSG3KIexa7cJ+pfYtq+a6bFprrx+nYrdJQy1jZFVnA7A7LCfgqpc0rN82HQb/f3D2B12cgtz6Gruxul0kpWTSSQcYWp0ipodNeTmZVNQmM+O3Rqf/7IdTW2P7aMTHcoyTZM3fnSVyXEXlXUnGB+1c+vGNKNDOqMDubQ2e5me8LAwF90e4OJPzqGoBkbYRuG/amBmrDf+XLs8LuxOO/7paOBwe10sLixGv/a4CQaCqIoab+ANBILx59nj8TAyNLri9TBjlRVrg5k/q6srMvwjxMMkqAjxER4loHxkdeORmm6jx272jWujYZ7l6yzLYiG4wMs/eJlwJMy+g/sIG2FM08QwIwwPj2BaJr70NCJGhMXFRcDCpmnodh3LgnAoRHJqMpFwhPBSmLyiPG5fv8vk8CQ5Jdk0fnCbXce3s/1oDcM9o/TdHsSyLBwOByOdEwSmllAVlfGBCap2lmO3OZgZ95NTkIPL6WKoawQFldKKEmy6HU3V0DUdTdXQNB1VUaNTgE0TU1HQ9XkKixfZf3icUCSMYbxH3T44cGovYSNEf9cA/9+ffAGHq4Snf/l9Lr1xhM7b1Vz5yVfJKvxrAOy6jq7bSE1PwT89j65peJO8DI4PoyoaHq+bmYlZFEXF6/WgoBBYCMRDhjfJy+LiIqFQCN3pWvH/h0cd5pGwIsRKElSE2MBmQ8pa/SGrb78cID7GSWzusIS1UVZMTzajGwNGjAjNzc1cOHeBQDDAs899gbRYIDFMg/l5Pw03G9B0leS0FAwzwsT4BJpNQ9FUHA47AIH5AKm+FECh8143tXurycrNor9tiMtvXUPTNZ77tc+DBsVVhcxMzDE5NIXNoXHxtXra6jtYmAsSDoVpPHcbVX01OoSUk86N9xtYDC6Slu6jpamVqZxpMrOz0FSNjKx0HB4nqqJgWmp0t2LLRFUUFuaDYCnomo4RiS7qZhkmuqpjhA1U1SK0OIemX2ffqRZaG/4velvLUNUDAGiqjq7qYEIkFEFVNDRNwzItLNNC1/XY5QoOuwOAcDg6HVlV1PhwUDAYxJ0QVIQQ/3wSVIR4RBtVUdYbfkm8bqP7Wuuvb8PaXF+DlTi8kxBQTMuks7OTc+9/wNj4OHn5eXzphS+SkZWBYUaIGAYjw8O88dqbzM8vcPx0dPbM5OQUXe1dbNtZg2EZpPhS0G0aw4Mj7D60i/KaUjpaOlFU2HNkN9/7mx9y9/p9nv+1Z1n0h1B1sDvtZGZnkJ7ho7e1P7qkfW0JJVVFFFTkc/tyC0PdQ2RkpRMJGXS2dGMZFv5ZP9//7z9kanyKpaUQ8G1U7TTZOREKiiAje4mMzEXSs5bAep7ernPUXxzgwLFC9h/dx7m3ztNwoZkDJ/dSWllCUkoSk2MROpu7MSyD7MK3mRrbR0/LCwDomo3Bjm5mJ+bYcXA7mqYx2j9Gdl4WDoeT2ek5fBlpqIrKQiDat+Lxej525SOx0iLNtUJsTIKKEOvYzDDNWmuVPLhuZUDZzJL2y5evfuPazNvYWsM8/nk/b7/5Fm2t7aSkpvDF55+ltLw0vpR8JBLmVtMtLpy/hMvl5LkXv4gvw0fEMGi80QgKVO+IbrinqCqZuZmMDI6iKAp7n9iNYRh03utmqG+Ypou3OPTUAcLBMM0X76wIZoqqYJkWBSV5VO4oZ2khTOuNDpbmFzn57Alsuo27N1t46kunOPnMCdxuNwF/kEtnrzA2PIbT0cf01N8zNeHGiOQQWiqnsz2daxftjI+VMTP1FG/+SEXTDXzpi7g8LxKJ9FF/fonyOjsebwaqpnLmqycJRcLU7u3kL//Ts9jsEcwQLMwG6GnpI7coh5KqIvyT8ywGlti5rwgzYjA7NUfRniIUVWVhPgAoJMUaaaNPdrT/RPmEVqCV4R8hHpCgIsQjWCtsbDQVePk4c40gs2x5OffENzlzVX/KR/3VnXj/y1WU+/fv886b77C4tMiR40fYvW8XKGBaBhHDYHExyPvvnKW9tZ2CkgKePHMC3aZjmBFmZmdoa2mnsrYiul5KbFZQbn4OAz0D+OfmcXuc7D2yB7fXxV/+4d+QmZvO1/7Ni5hmhGAgSGAhGN3zJxgiEomQW5RNOBTh3vU25ibn8Hg9PHHyIIsLS9y92UJhSSHHTx/B4XDS19HPjSsN2G02nn/xS5SUlaAoKsMDw1y9eJapyZfJzc/hiaMHSE1PZXZmgX/87+cJh7Moqz7K+JiD+7cj9PeoTJ3P4d/87lWy8icIRzzYzQjlNQtU7+7GlzXLl7/1GlfeacDldrH78E5smo3h3hFsNhuFpYXMTvnBgqzszGhFZX4BRVFISU5GUZRYtevh11AI8cmQoCLEKmuFic0GlNXhJLG6sW5PS6xakWg5lBim8WCIQFm/wrMcdkzLZCGwwPvvvM+9u/fIyMrg+V94Hl96dBaPEYlgWiZDQ8O899Z7TE9Ps+fAHrbv2YaFyWIoOgW3ob4Bw4xQub2CsBEmYkSwLJOMnPToirb9w5RWF6MoCrfq72CaFrsP7eLKO1fZ+cR2bA473iQdvBYWsBRcor25m+mJadxeN/uORodkWhpb6brfTUV1BUdOHgJT4dr56/R19VNQlM/JM0+SnJyCqkYDQUlpCSUlJdy5dZf6K/X89Mdv8uLXv0paWhLPPFfD+2+dJSvH4NiZSkLhEFfOXaWrvQeV3ThsOSiKimZGpw0/9UIjf/uHX6a06tuElyIcOfMEbpcHBRgZGKOgJB+nw8HA5CCKopCdmxUNKv4FNE2Lz/5JfP4Tw2Tia64CJiokTFH+qOEfqaoIESVBRYgEHyekrDfLJvGNyrTM2BL16zTXxnYtBlAVBSP+tYoBKLFl5DcSCoe4d+ceFz68QCAQ4MDhA+w9sAcUCEfCGGaEocEhGm820dHegdPl5KlnT5GVm0UoEiISCTM6MkZXWxftrZ2UlBdhc2gshZfij0nVo8vYjw6PUlpdzJ2Ge7zx/bf53T/6HXILc7j6QT3XzzdEnw8sFB4Mibi9bg4e309xeTHTY9PcON/IxMgEdbvq2H94L3NTc1y9cJ35GT+Hjj7Bnv170DQ1tipt9EPToiFj995dlJQW89Lff48LZy/y9LNPUVFZTld7F83Xb+N0OimuKOLwk4cIBha5de02ve29JPuSUTUFm00nNWWEpJQj3PzwEM99005WTja6pjHYM4IRNimrKEXTdMZHJkhJTcHldscadxdITklCUx+sk7IcVCyir7nyERUwyzIfCitCiLVJUBEi5uOGlPUCimmZGJEIXV3dTExM4PfPMT+/wLzfj98/TzgcxuV24XF7cHvceDxuvElesrKyyM7NxulwYmBE36gtE4O1m20DCwGampppaGhkYX6e7Jxsnn3+C2RmZ2KYBkuhRdpa22lqaGJkeARd16neXsX23XVYqkV3Vxc9XX309/RH1wpRVXKLcqjaWRkPKQDTU7NcOXsVwzTIL8lnZnqWv/4//pbnv/FFandVoygqZ54/zeT4FAAKCooSDSm6ppPqS6W/e4ALb17CPzuP2+PmieNPUFldzu0b92i724bH4+ELX36WktIiNFWP7+8DoKnaigpEmi+N00+f4v13PuD1H73JM186w4lTJwiHI9RfuEFPRy/7juzl1DNPcrfpLh2tXcxNDxIOh2Ovo0VxxQ9pvf1rVNYuYdMs+joGuNfYQnqmj/yifKZGpxgbHmffE3vQVT3eo+L1ela8Bimp0RVux0ZHSU5Kip+jYirxBqOVVRX1obAiVRUh1qZYG0+Z/JjzKYX49NkoqDxqSPH7/TQ1NtLUdAv/3BwW0SmuHo8bj9eLx+tG13UCgQCBhQCBQJBAIIARiQCgqhqZWRnk5eVTUJhPqi8Nm6aj22xoWnRdkfn5eRobGmm5ex/DiFBUUsTuvbsoKCoALCKGweTkBG/99G1GR0bxJidRs6OK0opiZufmaL55i76ePpYWl1A1lez8bHIKs8jOz0a3aSuej5GBEa5/eBPNpnPo1EHS0lP5b//5zwksBPhP//fvoWlafEEzVYlWQUzTJDAfwD8zz/T4FN3tvYRCYdIzfNTtqqW0soyJ4QmuXqgnMB9g285tHDp6ELfLg6qoWJbFYN8QnW2d9HT3kpqWyq49O6muqULT9djzbdLb28dbr7+FqqqcefY0qelp3Lt9j/rL11kKL1G3q5aaHdVYioVhGoTCoegaMOEwkbDG//qtr/PcL53H6foes9Oz5ORnc+j4QdxeD++9dpZIKMJXf+UFnA4Hmqbz/b/7IcVlxTz19Glsug1N1bFMk7/9i/+Hffv3cuqpU7HqT3Ttl8RNFRP3LFprg8XVX8cvk7Aitr51G7ykoiIEH11NWX3sWiHFNE16e3tpuHmTttZ2DNOgsLiQEyePkVeQh82uY5irAk/izBgUlpaWGB0ZZ2RomJHhUW7fuk1jQ0P0WkV5qFnTptvYtn0bu/bsJCUtJX5OkUiYe3fucf7sh1iKxYkzxyksK8A/P8/VS/W03m0FVSG/OJes/EzSc3yYpsnYyDht99pYmA8QCARYCoRYDC4SXAiSlpHKwSf34fF6eOfH79N2t4M//JvfR1VVFheC+GfnmZuZZ2F2nrmZOeZm5jFNEyW2WWFRaSHbdtaSlZPF2OAYl89eZbB3kDRfGs88+zT5BQVoqsZg/yBd7d30dPYSCi3hcDqprq5idHSMD949x9WL16jbsY3tO+vwJHkpKSnha7/8C/zkx6/xxitv8eSZE+zYtYOSsmKuXLzK3cYWerv6qdlehcvjxO604/a48Xo8BAOL7Nh7nte/V8tXvmFw4swxCksLsek2utp6mJ2a5cTTJ7Db7SiqimVG10pJTkpeER5sNhu5+bn09fVH9/tRYn0nlhpfoRYeVFWWw8paQ0BSWRFiJamoCMHmqynrhZRAMMBbb75Ny917OJwOarfXUrd9G8mpSZiWhWFE4sdbsaXfE+8bHvwlvfyGpCjRKb1TE1MszAeitzNMTNMgEjHQdZ2KygpcblfsfKI/JxAMcPbdD+hs6yQ7P5tjp46gagrNTbe51XCbUGiJkqpiKurKCQaDDPUNMjw4ysToJIYRwbIsNE3D4XbgcDlwuZ14U7yU15Si6RpD3SP8n//hT/jSr3weX6YP/+w8RsRAQUFVVdweD2m+VHzpPlLTU8lI95HqSyMYWKS7rZuu9i4WA0u43W6276pjz/49OOwOuju7abjWyNTkNA6ng4rKcqpraigqLsRms0UrLP1DNDU00tHRCUBVTSUnTp3A4bAzOzfH6z/5KaPDI1Rtq2LPgV3YnQ76enq5dO4yM7OzWKaJhYVlRXd8tiyThQUvr/7Tn/O//9ElDh6ZASASNnjt+z8lOTmJZ7/6BWyajqbpzM/O88P/n733DI4jQc80n8ws7x0K3ntLkARJ0JPdbEO2m2lN9xiNpDmZ0EqKVUixt3cbe6fV6DbidrV32l3tyoVGexpp50bSjNqz2d0ku5sWNAAI770hXKFQKJRB2cz7UYUiyGZzZjbifqi7nohiVWVWopCVBeabn3m/H77F6WdO0djUkIpuial1XXe6uXvrLr/1z38TvcGAareTriA8NrLy4Fh/tgYpG1nJ8iUjG1HJkuVn4fNESubxLpGysrrCW2++zeaGj8PHD9PS2oykkkjKSeKJOAk5dfKPJ+IEgkG2Njfxb24Ri8Uwmk0YjXpMZhNanS5ToLnT5SIKIjanDafbmTnJwcMGcPFEquYiKSdYWFjg0oXLBEMh9rfvo76llumpGTqudBAIBskryqW2pRrPmodL714mEAgiy0n0Zj15ZW4ceXbMNhOSWspc7afqRATicoxQIMH3/vCvaTrYQDyZIJFMUFReiM1hw+m0Y3M6MOr16bSHCkkQmZmYpedOH57VdSRRorishIbGWkrKS9GoNCzMLdJ5qwuf14fD6eD5F56jtq4WjUbzmf0tLy+jvLwM3+Ymvd09dHffY23Vw4svv4DVbuHV177KzWs36e8bYGp8mpZ9zTS01PP6L7yG3+8nGAgSCAYJBoOEAiGSySR1TTWEtpa48ON6Dh+7C8DQwDDR7QhtZ09njomsyASDIRRFwWgyZCImCTmVrisoykeWZWZmZqhvqEdWBEgmkEURlah6bGRld73KjmTNFtdmyfIw2YhKli89j0ZTHi2gfbQuJSknMiJlanqKt994G0kSOfvSWfIK8jJur0k5werqKl13ullbW2PLv0UiXYOSuqpP39LdMVqtBpPZRH5RPhVV5eTl5yGKEipJyggGlZS6ttidAhIFkU2/nzs37zA+Oo7JYuLEmRPYnVbudfbQeasTi91C84FGYvEY9273sLHuw+Iwk1fqRm81EImE8Xu3CPi2kAGjRY/erMPisKBLCyhRFHn7L99nfmKRl3/xBZZmljh48gAl5UWZmTxqlQZV+lYGWpIAACAASURBVF5QBO5c72Juag67005NbTW1DbVYLBZUoooN7wa3r99haXEZu8POocMHqW+oR6VSfbaeY0ewpCMKOx1Uc3PznH/nPPF4nOOnjlHXWIsCrHs83Lh+k5nJGUwWM4eOHaC4tDh1bOREevsHXVnTkwZ+/fVj/OWPb5Bf5OONH7xJYXEBp549mRaIAoIo4vNu8u6PzlNTV81Tz51+aA6RIiv88G/+Djmp8LWv/xy5ubmZAmAhLVaeFFnZLT4z0bVsVCXLl4fPjahkhUqWLz2fJ1SelPJJJBP09vTy4YcfYbNbeeXVlzEYDSTlBPFEnDXPGndu3mVyYhJJraKgKA+DUY/eZMBoNmI06lGpVekuoCDBYIjt4DbBrSAry6sosoLBYKCsopSKqnIKigpThZvp9tydE1g8Fqens4f+3gFkRaaxpTHliSLAjU9vMD4yTmFZIRX15fR3D7A4t4hGr6aospAN7wYbHh8BfyA1G0dR0OhSE5Ij4cgDAWXQYXNakBMKF75/kX/2b3+ZovJC7nzUjcVu4fgzR1BLGtQqNWqVBrWkJrod4+bHHfg3tjhwuI29bXtRq1JRllgkRtftbkaHx9Dr9bQfOcSe1j2o1eqHT97pE/zu/X30OCmyTDAQ5Pz595mbnaOmrpqTT51Eo1WTSCaZm53j6idX2fBu4M53U1JWTEFJAVabJdNKvCNa/tVv7SUnN8K5r77JnRudvPDqOXJyXRmxtNMi3tfVz727vRw50c6efXtQiSpEUUQSJfw+P++88R6iKPL6N17D5XIhCCIqUfqZxEpWqGT5EpIVKlmyPI6fJpqy29BtJ5py/dp1rl69RklpMedeOoekEknKCTweD7dv3WFsZAxREqlvrqOupQ5REkgk4gQCQbzrXrweL9FoFIvNjMVuxe6wolZrEEWRZDzJ/fkl7s8tsby4QjKZRCVKWGxWbDYbVpsVq81KPB5noGeAeCxOVV0lrW2t6I06goEAlz/4hJXlFer31JGQE/R3D4CgUFJbTFJJMtY/TlJOYnGZ0Jo0qDQiChDZjiJKAiaHkXA4QiIYJxKKsjy1Rt/VIU6+eoTjLx5Bq9Yy1T/DypyHc68/h0FvQK3SoFVr8Xk2uf3pHURB4vSzJymvqEAlSSgyDPeP0NvVhyzL7N23h/bDhzEYDelW5AfiJJlIsuH14VlbY21tDe/6Bk6ng6aWJvLy8lL1O7siIolkgru373L92nWMJiMnTp+gtLwEUIjGYvTe62V0ZBTPqgcFBZPZSHFZCe68HCKRCMFgkN7OHP72e1/nm9/5l+QVirz46rnMd2G3YFIUhSsXrzI/s8i5V56juLQkE+2SRAmf18c7b7yHRqPh9W+8hsPhyERWdmpWUl1Sn1+vsvNeu+93kxUrWb6AZIVKliyP46cVKrujKT09PZx/733q6ms58/wZEBTiiRj3unu4+ulVAGoba2lqTbm99vcNsrS4xLpnne3wdsocTEid/OLxGIqSqkmxWC3YnTbKqkopKC5IpXkUWFvysOHZIBgIE9oKEggEScaTCIJAYXEBB48cxOGyk5ATeNbWuXzhY8LhMG3H9rG0sMTY8AT5JW7yK/IY6h7Gs7qO2W5Ea9ISDATx+7bYDm2nIgzpYlNBFLDkmHCX5GBxmHn3P31EMp5k39N72HuyGbPRzNZ6iIGOYY49c5iikkI0ah2e++t0XuvCbrfz7AvP4HA6UEsaFmYWuNvRSSgYpqq6kuMnj+N0OlFJqkzEIRzeZqBvgLHRMTa8GyiKgiAIqDUaHA4HG14viUSCHLebpuZGGpsa0ev1GbO1hJzg/sIiF97/gI2NDfIL8zl6/AjuvJxMobHf72dmepbZ6Vnm5+dJJBKkNlfQ6fX8w9/+79Q33eN3f28bh8OW7uB5+P/PHSF14c0PCAbDfOW1lPOvJKrS+yPg8/h4983z6PQ6Xv/ma9ht9p9ZrDypZTkrVLJ8AckKlSxZHuV/RKTMzs7ydz/8ewqK8vnKq6+AANF4lI6bt7h18xbFpUUcPtGOWqdiZmqWjmsdbPkDWOxmLHYzJpsJq8OCxWZGEAUCW0F8Gz4CvgBbmwE21/3EonFsdgs1TdVUVlei0WgyV+uSpEq1MW9HScQT2J2pib7xRJyBnkF6OnuR1BLtpw4y0jfC7MwcFXVlCGqRoXvDyCRx5FlZXfIQDoZRG9So9RIakwpJl/IDSSQSbG9F8K34URLgnffhW/Lz3K+dZmVyDYvdwv6Te9Cqddz+oIvKugr2tbeiUWm5cv46apWac189i9VkQSWp6b59j6G+Ydy5bk6eOklZeWkqgiKKSKKK9VUPPT29jI2MI8syZWVlFBcX4c51k5ubh91uQxAEtre3GRsZo6+vn6Wl+4iiSE1tDSdPncRitaAoCgk5QSIep6+3j46O2wSDAaqqKzl05CBWu41kMpEpbt6ORPCur6PRatAZdIiiwH/9v6f5h+//a87f+G/ojarPbVHfsdJ//60PkESJF796DrvDkREfKkmFZ3Wd99+6gNli4rVvvIbVYv2pxUo2qpLlS0hWqGTJ8ig/q1CJRCP86Z/8KVqdjm9863UktUQimaCvt5eLH16mui41ryYaj3Lr+m0GewcxWk3sa2/BlmMnEttmY92HZ3WN9ZUNIpEoNpcFq9OCI8eOTqdDUESWF5aZHp4h4A9htprZe7CVkvJiNGrNZ1IkoiASjUT55MMrrC6tUFhWyN72Vu7dusf01CxNbfVseH2MD03gyLNisBkY65tApZMorM0jEovg8/jwr28R3oqgpNunLflmXOVWVoa89Lw7RPm+YmoOVmGxm5nrv09RRQFNBxoYvjWGkoQzLz9FLBTn6vvXOXyyncbmBvQaPdPjs3RcvcWevXs4efoEWo0uU4AqJxWuX7lOf98AWo2Glj0t7N+/H1eO66EOp93snMDXVlfp7++nq7sbSZL42us/R0FBQUasKHLqeHXe7aLzzl1kWeGVr71MTm4OiiKTkBMkk8mUe3C6+FlRZLYCUb7+3Df49d/9Ds+98mymhuXR78jO5+/3bXHp3csIArSfaKe6pgqVpM60La8ur3LhnQ9xOBy8/o3XMJlMGcG5eyyAKIiZYwsPzOCyUZUsXyI+V6hI3/3ud5+04RNXZsnyT5lHRbrCg8F+mSW77PC7u7sZHRnj5a++hMVmQVaSbPpTIX53fg5PPX+aYDDIxfcvMTk2SXVjFQdOtLE4v0hvVx/3bvUwMTzByv1VorEYILM0v8zC9CKTw9Pcn13C7/PjLs6hqrECm9OGZ8XD1Og0SwtLxOMJjCYDkkpK/14KXo+Xi+9dZsu/RfupQzTta2B1ZY17d3qobanBZDPQc7uXgoo8XMVOBu+OYLTpcVfmMNY1wdqCh4AviKgTsOQasBaZEdUiG4ubeBf9TN6YpfJwGTllTnxLfvJrcpBjMr5VP8XVBcS243iXNqhurCS6HWNhepHaxhrsdjtqSU1f9yCKAi+/+hJqlRqVJKFWqVFkhbf/8S0mxyc5cOggr73+GnX1dRiMhociDDsmdzs3MX1vMBqpqKykvr6OifEJuru6cbvdOJyOjG+JSqWiqLiQ+qYGxsfGmRifpHlPU7re5JFjraSKpiU1+Na9nH/jfcqry1icXWB+doGZyVmW768giAIavSa9rYJWp6GotICVpTWG+4fZWN8gvzAPtVoNAlgsFnLz3Az0DLC4sEhNXU2mIHqnc2vHfybzbNf+KiiZ1+1+vPP9zU5rzvIF4g8+b0VWqGT5UvI4g7cdoaJkAolK2klWIZFM8M5b7+B0OTl8tD01iVhO8tGFj/B6vTz74jOEw2HefeNdPOvrHDjWRnltGbev3maobwRZSeIqcFJUXUhVSwXF1QXYcm2U1RdjdpnQm3TEYwlW768xPzGPIAnkFbsprS5Bp9fhW99kdnKO0YFxPKsekskEmxubXLt0HVGUOH32BDl5LqKxGFcvXkNSSTQdaODm5VuIKomS+iLuXetD0ogU1LgZ7ZxA0gjk1efgqDBjcGlBBUF/CEkvoHNqmbq6gCJD+eEibAUmfIt+5KSCI9eG9/4mZrsJvV7H+v0N8opSk4UXZ5aoqq3EZrMhInLn+l0qqiuorKpM+apIqTqOG9c6GB8d58WXX+Tw4faMZ8qOi+1OGuRRobLDznO93kBDQwOzM7N03u3EbDGTm5f70DBEjUaNK8dJz71eRFGiqLgQ0m3hKDvRs1TUzONZZ6hvmM6ObuLxGJFojK1NP6FQiNXlVSZGJ5kanWJrK4CkktAZdGh1WsprUmZ44yMTjA+Pp4qkbVZAwWaz4XA56L83QCCwRVV1VSoylBYaO/sN8NC/Ao/d791khUqWLxCfK1Syhm9ZsvBkgzdZkRkaHsbv93P6zOlMhGV8PHWVfvDIAXR6LW/8wwW2tyM8fe40WqOGTz74lJWlVapbqiiuKcC/6Wdpfpnp8Rk21nwkk0l0Rh12twVngZPaikqSMZnxnkkGOodYWVxlz6FmCiryKK0uYTuwzfLCGksz9+lYWEIURFxuJyeePYFOryUpJxnpH2HT56f9dBuDPcMEgyGaDtXRe3MABZnSxmJGOsdBVHDX5hDYDLA54yfgDRKPJVIncEUhtp0gGohReiSf1UkP2/5tjDkG1ubXyS1zIakE1hbWqG6uRlZk/L4ADocKRUmdYAHWPRvE4wlKSooBMi2501Mz9HTdo3XfXpqbmz9TpwE8VFj65AMnYzaZ+PYvfJs333iDDy98SDAQpP1IeyZVoggiZWVl1NXXce/uPeob6jCYUpEbRVQQFZEkqfbsW1dvYbVbefrcaTxr6/zO7/92ZqZQNBZnaWGJual5xkcmGRsax2Q2sffgHkoqSqhtrqawpIA71zq5dOFjTj+fpLq6GohRWl7KvoN76b5zj/yCfPbt3weiClGWkYXU8EJRevz+PmnCctZaP8uXgWxEJcuXks9L++yOpqTM2ECWk7z3znvo9DpOPX2KpCwTDoV4+413sFgtnDxzgiufXGN+dp5jZ46gN+i4eP4yGxub7DnUxHY4RN+dAcb7J/CsrIOgkFPswllgT832WfSwMrfG4uR9wqFtyuqLMVlNLM8sszi9hE6nxWI3ozfoyM13U9VQRX5hLg63k32H9qLVaVEUmcnxaXrv9pFXlIfVYWWga5DSmmJWFlcJ+oPU7K9kom+KWCyGq9TGbN8iW54AsUgMjUWNOd+IvcTMtj/K4p01chptFB/MRavXEFgOY3YaiQViIIPJasK/GqCisYyV2TWMBgM2u5X7s8tU1VVitVqZHpvBu+blxNPH0WlTtSnh0DbvvJGKTH3l1a+kREragwTIpHd2Hu/waBpoJ3Wz06asUqmoq69ny79FZ2cngiBQUlqCgJA215PJzc+lv7cPn89HVU0ViiKTTCZJKimRMjw0wsjAKAeOtdHYWs9f/fFfc+hkG2abmaQioyhJjBYDBaX5VNSVY7GZ2dzwMzY0TjAYIiffhd6go7yqjNWlVUYHR3G47FhtqWLgouJCvB4vfb39lJQUY7VadqW0Hh9V2T1OYef7mY2qZPmCkk39ZMmym59WqMiKzPT0DHdu3ebU6VPk5OYgyzJXP73GwvwCZ19+jvuL97l98w5NexvIyc/hwlsfEovFOHhyP9MTM8yMz2KyGimsyqe8uZSimnwktUg8kaCwJo+88hxMNiOCKLCx4mNpehl3cQ7lDWVsbQSYm1hka3OLvKK8lGurKKI3GnC67IjpqcXD/aN0d9zDleuitb2Fjk9uozNoceTZmR2bo7yphMXpJYJbIQrr8lgcXUJtVJPflIO1xIjeqUVjSs2+mby0iLnAgM6mJuKLk1NlJ7GtsL0RwZZvYWslRH6pG/9aAKvTSjySJBmXyclzsTS7Qk19FRarlb7OAaxWK817mlCli0fff/s8kUg0U1iaKhoVHoqmCMLDbbqPOxHvFis7x1IQBKprqvBv+em824kzx4XL5cwURqs1qbqR3nt95BfkY7aYkOVUMW04vM3F8xexuxzsP9SKyWpkbHCMual59h5uSRn5JePplF8iVX9iM1NaWUwikWBieIr7c/fJLcpDp9dSUl7M8sIKo0NjFBTlYzKZEASB0vISpsdnGB8do7GlKWVyt1OXslOr8lC6i8/UqmSFSpYvKJ8rVLIxwyxZfgLzc/OIokhtfS2KLJNMJhgeGqaqtgqX28XQwDAWm5k9bXsY6BkkFo1x4uwxYrEoy/PLVDVX0nKsibyyHARJYaJviu5Pexm+O0r/jSFCoTAWt4my5mL2nG5CZ9Ix2j2OKAnsOd5MZVMZywuraZO21HydzLwhWSaRTDLSN0puQS7HzhwmHosTCUeoaqxkc92PWqsmvywP//oW+eVuBATkpExhQy46k+ahE930p0sAVD1fhL3CTCKSIBaOY8k1kkwkMdj0oCgZIREJR9HqNMSjcZSkgiA8SPH4N/243K5M2iIUCLK0tEz7kXbsDkfmPR/ubHk4ivIkMmkicXe6SOLcuXOYzWYmxyc+8/rqmmoA/P6tTAoPYLBvkEgkStuRfSTTzsMvvH6W6xdvMjE2zcfnr/D2D97jyofX6O8aYGlhme1ImLgco661mkOn2wgEglx69zJerxdRJXLi+eNoNGpuXLlBIhknKSdQq9U89dxpgsEQw0NDmeO4g/zI85+Gx9VbZcnyRSIrVLJkeYTMbJ/0lbrXu47NbkelSpV0LS8tE41GKKsoJRKJsHR/mdLyEoKhINPjM5RWl2Iw6RnpHUVn1FFSXUhSTvDD//gif/hrf0zH+8/iLLRT3FhI0B/ixps6/stv/CV+nwZBUihvKSEWjzM5OIWiJCmpLaagPI/xoUlWltY+0za9urxKNBqlorYURIFYNAqARqshmZRRqVWkXc3SE4NTjyW19NB+r41ssDq8QfW5IiS1iKh6THvwzmeUfiAIAsmknGrVTs8xklQq4vE4yXgSo9EApMTIyvIKAgLFxUWZZZmfu1usfE7NxU4dy+O2272NJEm4XC58Pl8mWrOzjd/vB8Bms2ZeH4lEGeofprisCLvDlkoJyUmKKwqxOCz84E/+X7b8fvJL84hGIowOjHPzcgfv/d0Frly4zurKGo5cO+1Pt5FIJLj83iesrq6hUks0tzXjWVtnfHScRDJJQk7gzsvB7rQzMjSSFibKZ6ZqKz+jWMmS5YtMVqhkyfIT8Ho3sDvsQOqKd3pqGkEUKSouZH5mHllOUlhawOTIJIlEgqr6cuZnFtjwblLRUEYwFKL3Rj8+zyaiFGVl9pfIKa3DVWSn9mgVOrMWgOHbo/g3ttAY1eSUOLk/vYJvw088EaOqpQK9UUfPzV7C4W2ScoJkMmXnPz+9iCRJ5BSkPELisTgKCmqNCjmRRJKkVOQlkSTgC7I2t87Gkp/xG9MMXBin740x7v4/g4yenyVvjwNjjj6142kxsjtLlkmZ7Uq3yLKMJKXcWgHUGjWR7ZRY0ht0mW1XlldRq9Xk5uZmlu1EX+Dx0ZTHiZOd5Y++djcOpwOfb/Mzy30bqWU2uy1zPIf6h4lEIjTtbSIhJwmFQnTfuseHb1+mrLqE+elF2p85RENbLe3PHOT0V46z51gzpbUlhIIhbl66zf3F+xgsBg4/cwBBErh28RrBcIjCsnzsTht3b3URjUYyIrOmvprlpRXWPesp7xpZ/kxB945QVh5ZniXLl42sUMnypeNnCZUrisKmz4fDbs8sm56eIb8gH61Oy9zsPBqNFqfLwfT4DO68HAwmA6N9Y5gsRlz5Tu5e7sa76sNkM1JcN47FtcHdCy8iKzJqjUReZQ4AsUiCoZtjbK75Ka4tQKWRmOidyhSL7jncTDQSpf/OIEo6/SLLMnNTC5itZuYnF+i+2cv1ix2M9Izx4796i49+/DGX//FT/sNv/lfuXOjig//2Cbff7mZtZh3PzAaJaBKTy0hhqxuNUYWAmBksKKWnNqsl9QPBIKpAEBAEKWVvr1IhKKkohpyUEUj5l0QiO0LFkIl2LC+vkJvnfkic/P+F3W4nsr3N9vb2Q8s3NzdRa9ToDbqUOVw8wWDvIAVF+ThyUtt88OaHjA9NUFJRxLf/+TdQa9R0X79HMh0RESRw5NqobCrjwNP70erVdF7pZmlhGZ1RT9vxvWyHI3Tf7AYUWg/uIRgIMtA3iCynoidVNZUgwPDQ8BP3I5vWyZIl256cJcsT2dzcJJFIZGoqAoEA6551Dh9rR5Zl5mfnKS0vxrexyZZ/i71HWlmYXiToD9FypInZ0TnisQT7TrawvmwgtAVHX3mT9/7iNzA5vkf1QQVJSv0ZNhyuZmG4n9mBefae3kNZQwkT3euM3lNhNpUT9jvwe9sZ7FS49kElsUgOy4sS26G9wF4EUcBmt6I3pubf5JfkkVfkRmfSU72ngtGeMaoPVJJIxpgenKP+VBVxOUY0HiWeiGG0GBh8f4La0+WIagGdRkYlbaNRaQARUZRQp6381ZIKMe2wqsipfZCTStq3REMgnXbR61MRlUQiwfraOm0H2oCHW25lRUb6vPbbz2nN3R1deFyaxJ4WlhsbPvLyczOv2/BuYLVaM3U5I0MjbG9vc2L/MRRZpudOL9vbUU6eO47FbiYaj3L87BEu/N1HhMPbWOxGTHYzeSVu9AYdaq1E2+m93LvWT9e1HjgGpZWpVuWxgQnmpheoqC6nqKSQgXsDNDY1YrPaMJqMlJSWMDoyxvGTx1NutTyIWP2PfCZZsnxRyQqVLFmegNfrBcDlcgKwurIKQEFhAcFAiMh2hPzCfFaWUsuLy4q48WkHeqOe/OI8BruGcOY6sDoe1ES4SzoxWY8ycuM3QPkx0WgdAP2fvErA90289/X0XSliO+AgFtXR8T5odVGszhB2VwhFnkarneHQyQD+jVGW5jo4fOq3OHTqIJJKYmp0iq6Oexw9c5ihvmF8Gz5qmitZml0mvLmN2WVCFCXC3ggmdyrNIwoipc1FjH0yy9rQBkV78wktbyKJElqdjrA3gkqUICEiCVKqQ0UQUWs0xKMJNE4NyYScso5XqYhHYwAYjEYAAlsBkslkpgtHSgdzZVnO+IfsHgCoKHImpbPbtv6nxWQ2ARAKhR4qUPVv+nE47Zn3Hh+ZwJ3nJicvh60tP5Nj01TVV+DMcRCNR5EVGVe+k63NAH7vJslkgsXZJSYHpyivL6W0pgS1RkXbqVa6r/XRe6uf/OICqhorWV5YZah3mIrqcvYcbOGDNz5icnySfW37UBSFqppKPr30KR7POoX5BT/1vmXJ8mUjK1SyZHkCOwW0OyF4rUabfp5Eo0md5JPJJFqdFgSBeCyO3qAjEU8gCiJGi5FQKJRpO0UQsNjNhIMVJON2br19Aq0xCIB/PRe1ZhFbziB1B4awu0LMDN6mttXI3sPlaNVagr4QHRfv0HqohfrmOkDFYJeTieFJbn96h/ZThyivKWd8cJK+OwM0tNVz49JNFieWadhXy0DXMBqdBqfbzsLQMmaPEaNDh86qQa1TU3OknImOWVSSmlg4TnFjAUajgeV+D45cO5vLW5jtJmKhOCqVCrPFRCwSw5nrIOANYTKnRFAingSEVEswoDekPqtHUzGP4/NMzB4XSfi8otNQMASA0WDY9VqFwFaA0oqSTMfUxvoGdc21QKqGRlEUCksLMoXKAX8Az7KH2j3V3J9d5n/6199ma3OLqcEZJvqnuD+9zP6TrRhMBioby+i9PsDa8holZUXkFbmZGp4lHotjs1tTDsNeX+Z3tqYLesOh0EP7t1u8ZcmSJVujkiXLE9kRJvF4PPVcm3oejURTQwQFgch2BLMpdQW/Hd7GarOSiCeIx2JYbGbCW6G00BGAVAutSq3BXTJDYfUYz/3KnwHw7Hf+hqq9/5HqfT9i3+k+nHk9GMxz5Bc/mH8zMzqLRquhrLosVT+iUnHwWBvtJw/iWfVy+d2P2Q5GOHj8AOFgGN+aj6r6ChamFtHp9FTUlbM278HhtlNcVcjwtTFmehYZuzHDbOciNpeFSDCKf2mLqrYybC4bcz1LCIhYHGbikQQltUV4lzdxF+YQ9ocRBZHc/FzCwTAmiwkxLdiA1Myb9OemVqszAgJ+cvrmcfy07btbgQAAZrM5sywcChNPxDPLfBs+krKM1WFFVmRWVzyoVBJ2pz3TNjzaP44oiJz95jNM9E+xPLeM3qSjqb2e1uPNRLYjzI7NISsyNpcVSSWxsrCCrMhY7VZkOYlvw4esKNgcNrzrqQidLMvo9FoUBYKBYKZwdjfZzp8sWVJkhUqWLE9ArUkNoIvFUqkMnV6HgEAkEkUURTRaLdFIDIPJmBIt4SgmqwkQCG2FsDosyDJEgrF0ugT86zlEw0ZOfePHLE9XszjSknozRSHgDWLLsSEKIlveICpJhcOder4dirC8sEp5TRl6nS7j6CoKIjX1NTz38jPIskLXjW7yC/OoqqtkemSG0ooS3PluRrrHKCjJJ78kj/sTK9hdNuKRJGpRRVl9CTq9nuD6Nu5SF0HvNipBxVz3fZAFGtpr8a8GsNjMaNVakvEkhWUF+Ne30On1WG0WwsEw5nTKJRGPo1arHnJWNRj1bAW2Urv6mInEqccPTtg/6US9e/3udm1ZkfFvbiIIAkaTMfNzN/2pjh+TxYysyGxsbABgd6Q6gDzLazhcdgSRdLRlk+W5ZUpqiimsyKdubzU33r+dnjAtY8ux4ipwsrqwRjKZAEEgp8DFyuIqiUQSq9OKgoJ3fSP1eoeVzQ1/JjpnSEd7wuGfHGXKipYsX2ayQiVLliegUqW8RnY8QnYiKrFYHEEQ0et1RCNRzGZTSsBsR7DbrIiCwHYwhtPlRBJFosEIoiggCCKeuQosDh9ltffZc6KDvitnANhaCyEgklfkRqvWEtgIYnfZMOiMqFVqFiYWUUkq6ppqkSQVakmNaudelMjPz6OtfT+bXj/L86vsb9+HXq9nqGuEpsbF6AAAIABJREFUw6cOYbaYGbozSkNrPU63k5n+eSqbyhi+NUFxRSGtx5toP3eAZ37pJN4FH6PXZzBZTew71YKoSMS2E5TXl7C5uoVOpyOvMBff+iY5eU6SiSTxWByTJSVUorE4ao16l+eLjNFkYmsrQFJOZiIjSTmZWb8jAORH/EQ+7wZpgfKYzphAIIDRZALhgSgKbKWiLBZLKqKy4U0V/FptVmKxGD7vJu58N4IgEvAHGesbQ6PVUNVYgSSqOPHyUfpuDLC1EcwMVywsKyAeS7Cx4kclSeQV5RKPJdja2MJkNqLVavF7/QiCiN1pJ5FIsOUPIIoiWq0WjUadSg0+1n33yS3YWbJ8Wch++7Nk+RxEQUi36AokEqmak51228h2JGVlbzCwHd5GrzOg1WkJbYUwWy2o1Wo2vX6sNgtqjYbp4Xmi4VRUZWW2nKLKBbRqLSe+chlRTJ1IJ3tE7C4beYW5REMJwlvb5BbkolapCflDLE4vUVpRjNVqRS2pd7URq1CrNEiSipr6Gpw5Tno7+5DjCu3HD7HlCzAxMMXh06lBfQO3hmnYU0teYS5GU8px9uLfXGHs9jQLA/dZHlvDkWcj4Amw/+Qe9HoDy5OrWKxmXDlOfCub5JfkkogmiYaj5OS5CIciABhNqShBMpFAEIVMO66syBiMBnwbPmLxGLKiZHxgdkYVJORERrDsiJXdt93sXpYyTHsQTZEVGZ/PhyUdOdn5mZubfkDBmC7w9W34sFjNqNQqvJ4NQMHpdhIOhfm9f/YH9HT0U15ThlarRRRE8ovzUIBLf38FSVQhCCKuPCdarQbv0jqSqCK3KBdREPEsr6eiYS4Hft8WoiDgcDgQBIHNjQf+LlabDX/a7yXjJ5MdMpgly0Nk/yKyZHmE3VevhrQwCQSC6XUC7lw3i/MLiOlBc6sra4TDYYpLipibXkBOKFTVVbIwtYB3xUfb0b2oJIniyt+juvl3mB50U1C+iEpQEfbNcfrnzqE3LiAn6mg51EQ8nKD/xiBGg5GKmjI21nzc+bgbvV7HnrY9qFVqlCTMTc7hXfOl24Ml1Co1Wo2WU08fR0Tk4juXUalUtOxrZmFqkZ6bfbS0NSMqAn03h7DZbZz56lO0P3MAz4IXnVZHeDOCXqfn6IvtLE2vMtE1Q+/Hg8TCcWpba5jonUEURSrrKwn6gwiCiCPHiUatTgu6lOmbI8dBcCvI6upaRozU1tcQCoW4fuU6STmREhfpaEoy+SCy8pBYSd+Az4iW3QJlt0jZ2tpicfE+hcWFDx3XcCiESqVOFT6nj+VOm/JOG3UkHOEv/vCvsDmsVNRVsLywipJUUFD4+z95g5KqIr75219DFERUkkQkuE0iLmO0mlLpuo2tTJRGQCAcDGMwGpAkFduhMCBk5v4Igsh2eDuTAsqSJcvjyXb9ZMnyBCRJwmKxsJW2Xgeorq7i2rXrBINBmpqb6LrbzfjwOHvbWpmZnKH3Ti/7D+/Ds7pOT0cvJ84e48wrT7G0uMTE4DzrS6Vsev6U6+/0oaBgMBWyHSrm9Cs6dFodXZ/2IEkSR59pJxqOce9aHza7jdNnT2KxWAgHI1y/eINAOoUgiRIWqwWX24XT5aCiupxXv/4VLl24zI3LHbS0NfPMi2e4dfU2w10jlFYXE97eZmFygdmxeWwOK1u+AKIicuy5dgKBEAsTi5jtZvquDnLsxcOU1pTgW/Ox5Q3QfLAJq92CZ8GLSqXCZreiVqWESnArJeiqaivp7x5guH+I/PxcZFmmoDifpj1N3Ou+R3llORUVFciKgLDTfkyq42Xn8kmEXS3KTy423REpsiwzPDSMLMvUN9anhVAqYhMKh9Ab9Glho6DT69gObyMKInaHHb3BwMV3L9N3t59//71/S1yOc/3iDUZ7xlleXGF+YoF/+Z9+B026QFgQRGaG59Fo1FTWliNJEvPji2h1WoorigkFwoSDYQr2FSAKIqsra6jVaty5bkRBJBFPEAqFcDidmWjKjnB6UnQl66GS5ctG9hufJcsTEAQRu93+0NyY6ppqBARmpmax2qyUlpUwNjyO0+Wipa2Fmck51pY9HH/6KKKoovP6PSRRorC4kOKKsyiKitb2BA176zh85hB5RS+i1UdRMcm9a/0ICBx/5ijIAt3Xe7HarTz94lNYLBb83i0uv/cx0UiUZ188w9mXnufA4TZcOS48qx66bnfzzo/eZWPdxys/9wp1DbUM3htienSGZ184Q01DDXMTi0SCUQ6fPMTeg63k5+dRXFHEtfc6uHOxm6GOUSKBKO1n2lhZWKNxfwMaSc3syAKFpQWU15SiljQE/cFMakulUmEwGggFw8iKgkqjorK6gqmJ6fSylDg4fOwQdoedDy98RDgcTk0jTqeAds+72R1ZebQuBR62ld8tUhRFYWBgkNw8Nw67/UF0RpYJh8IY0m3SkGqZjkZjJBJJBEFAEgUuvfsxv/4//wr5xfnkF+VT01hN351B3vr+e/z8b38dZ44DENj0bKVake+vU1FflhI9oQieZQ+VdRVo1Rq8qxsIgkhhUT6iILK27CE3340kpeqeAoFAOvqSKubNCpAsWR5P9i8jS5afgM1uS9c3pHA4HdgddqYmpxFFkYbmBsLBMPfnF9nb1orT5aTzRjc6vZ4jJw8R8AW48t51xnonGOuxU1DqZf/RampbanDlOBm8Y8ZiG2OocxCtRsvxZ48iiSruXunGZDLy1NnTmIxGVhZW+eTCFbQaLS9/7SUqKispryzjwKEDnHvpLL/0K7/Iz//St3DYnXzy4afc7ejkxOnjHDlxhLVlD5fe+xin08nTZ0+TjMv03BpgfdlLTp6b13/1VdZXvBSVFnHgxH6e+epTnPv6cxhNBq68fZ3+20PoDTr2tDcjianZQZsbfiwOC8lkgoScxGDS4/f7ScoJ4ok4lQ2VxGIxhgaHiMajxBIxEOH0s6cIhUJ89MFHxBPxjFhJ/ZzEQwW2CTmRqV1JFd8m0mmjBzUtiWQiI1ImJiZYXV2loaH+QbFuettgKIRWp82IGoMh5eC7Hd4mGony3j9eoLi8mP1H9qdt/gWq6qvovdVPWXUpja0NrC54uHu5i+6rPQQ2g9S31lLbXIta0rA0vYwoSFTVVSJJKtaWPFisFmwOO4lEks0NP4VFhUiShCSqCG6lhYrVgrArcvLo7KPdc4+yZPkykk39ZMnyCI9eue+eG6PRahAEgYqKcu519xCLxaioKMdoNjEyNEZBSQHHnzrKOz9+j+6Oexw80cbxM8eYGJlgdnyO7htaNNo+RrrHiGxH8CyvMzV0kryiOY6eOUxBcQFBf5Cbl26j1xs488LTWC0WJoYn6b3bjzvXzXMvPIPZbEm5wIqqzBU6gNPl5NVvfJXO2130dPWysrTCyTMneO1br3Hz6g167/ZhsVk48dRR7t9fZnFugYmBSZLJJHlFuVy9cIOjz7QzPTJLwL9FXnEu1y90cOYrpzh05kDGwM2zvE50O4orz5FqL04m0Bp0rN1fIxKNolHLGEw63Pk5DPYNUtNYg1FvQFFkLHYL+w/t425HJzl37nLgYBtatRZZUBAVGSV9QlYUJZMKkflsZ89uu3mAxcVFzr97HpfLSX1zA0k5mRIxacESDoXJcTszwiVjQhfe5m+/9wNkWeHg0f14VjxU1JQhiyp++Od/j8lipHl/I5++ew1ZkTFZjOw9vJeSysJ0ykskFo2li51LsFqtiIisr3qprKlAI6lZXl5FEKCwsACVmGrbDgXDCAjYrFZEIWUI+KCd+6cXJdni2yxfdLJCJUuWNJ9nJGYyPbBj12hTviqlZaV0dnaxtrJGfmEe9Y11dN7uJOAP4nK72HdwL123urDYzNTvqaOgNJ/tcJjrH7VQ1fARS3MriKJIQUkh4WATp851UFJeyvLCMt3Xe9BqtZx58SmMBiO3Pr3Dwuwi5ZVlPP3s0+j1OgRBRFBSxaCqdAfKDmoJjp84TllpKRc/vMT5N96nYU8Dz73wLHOz89y81sHVizdo3NvAuVfPEY1GWF5cRq1W8+O/fpM9B1uwOS3k5udQ11LDH/+bP8dd6MbldmVEXDyamtA8N7mAM9eBwWDAmWtndmKOS+9d4vDpw9htVmqaq7j20U3e+vu3OPP8U+Tl5yOLCvUtdawsrXD9ynUW5uY59fRpclwuVJIKWUgLkEeGF+5+vHvS8MrSMjdvdDA1OYXeaOCFV15AlARiiVimKHdleYVgMIjVbk0V7ioyZosFULj8wce8/8YF/vP3/4ihviFG+kYpKiuk49Pb3Pr0Lv/nX/wBOqMWz6oXo9lAToEr5V+TFgjh4DYdH99BkRUa9jSgVWvp7xwkmUhSXlmOKEoM9Q6j0+nJL8hHEFJ1RfOz8xiNRkwmU3rg4+MnRWfJ8mUnK1SyfOn5SU6nO1f1O1fwoiCSm5cadOdZ81BQVEBjcwNdd7oZGx6j7fB+9uxrxufzMXhvCL1eT1lNKduKHc+Ki+e/aqWo9GUEUcCzaiS4ZcRmG6Pj4gDrq15cbhcnnj2OnFT4+PynBPxB2o8eonV/Kxq1hmQ8yd2O24wOjaVM5KSUQ60oSahVKkrLS2k/eojyinK+/UvfpuNGB/19AyzMLnDqzEle//nXuHn1JkM9w8xNzbOvvZWK6gqKy4u5feUuiqxw+uxJ4ok4siJz+oXjXDl/nUOnDpBMf1YFZXnE4wlGekb5+N2rtBxsori8kLYTe+m7PcCHb33E/sN7qaip4OTZ49y52sm7b7zPiaePUVNXgySqOP38KSaGJ+i63c0Pvv8D9u5v5fCRw+j16flDu6Irgig+bAyXTLK0tETn3S7Gx8bRarUcPn6YltZm1Go18UQs0+IcjUS4cfUGarWK6rrqTN2K1WZBEAW+/2d/w6/+9i9T11iLzW7l4wuf8N///O+49O5lfuE3vkVZdRmyLOPOy810F+18D7weH7c+vo2Cwplzp8nLz2V1YZXRgTEamuopKy9lcmSK1eVVnn7uafQ6PSpJwu/zMzM9y9FjRxF3RcR2kxq7kE37ZMkiffe7333S+ieuzJLlnxqPMwdTUB66J32flGVAwePxMDoySuveVgyGVPpCVIkMDQ6DolBZXYlGo8br8TI9OUVtYx2iSqSwuBDPmpfRwVF83k3Gh90MdNfzzV+9g8GgI5mQufyOmpnxPFw5f4IkSuzZ30L78UP4PD6ufnQdFHj+peepa6hDrVLjXfXywbsfsnx/habmRqpqKiksLCQ3101OjguD0cD42ARDfUNA6neorqkiPz+fmakZBvoGERE4fOIwObku7i8sMTY4js/rw+3OwWwz84/ff5MXXjuLpJIQxZSJ2Y++9waN++uxuWxAKiVjc1pxF+XgXfUyPTpDMBCmtLqE4spCvGs+JoYnCW4FKa0qobKmDM/qOsP9wySSSfIKU34j7jw39Q11xGMxBnqHGB4aRqPRoFar0Gi1qakDPDB+86yt0dXZxUcfXKTzbhdbgS3aDrZx9sWzFJcUpbxblCSJZBJZTrKx4eXtN95hbc3DsZNHcOe5MzUq8USc//zv/gtqjZr/9f/4F6hUavQmPe7cHP7mz/4Ws8VEUWkh2+EIVqslVXy7HWX1/hpzEwsM94wyPjiOwWTimZeexp3rZm5ynjvX7uLKcfH02adJRJNc/uATiouLOH7qGGqVBlGU6LrTjcezzksvvYhOp3/IZVgQUvUxu9unH+0G2s3OuixZ/onzB5+3IhtRyZJlF7sdT3fY6UbZebxzRZ2b52Z5eSWzfM++FiYnp7h66Rqnnz+JWqXi9HMn6e/uZ2RglHt3Baz2CT74xwuo1CoUWaHnzrfIL1rg5HMnKC4tRi2p6L83yOC9IXJyc3j23BmsVhuKonDvdg999/qxWMz83NdfpaSkJO3n8eDPWBBEfBs+rl29zp2OOwz2D3Lk+BGqa6v49ne+zfUr1+nvGWRuZp4TZ47z2re+xkDvAPc67/HBmx9RXluGKIp0XL7FibPHQU6Qk5fDgRP7ufTWJ/zK//KLD30GBpOeA6f3MTUyw/TwLGsrHlrbm2k71cr08CyTQ1Osr3k5crqdI2fa6bszQE9nL74NH6efOYlBb0StVXP01FFqG+vouNrBpQ8vpbpwJAmr1YrdbsdsMbOytIzHs44oipSUlnDwyEHKK8oyDrjxZDxdVJv6/aanZrj84ccIApx9+Tnyi/JThbhpE7q//cv/zvqal+deeZblxRVKK0sRBZHzb1wgkUzyb//495mfW2RmYpaZ8dlMO7OiKKg1anJyXZRXlVPdUI1Wo6bndh8Tw5MUlRZx5rmn0Gl0fPzJJ4iCwOlnTqOS1EjpgY3DgyM0NjRgSdeniOLnp3yeFE3J1qdk+TKQjahk+VKhPOLHsbvWIf2KXYZiqRPe+vo6IyOjtLS2oNfrSCoyspLE5/MxPjZB054GRElEZ9Ch1qgZ6B0gkUiQV5gHAuQV5FLXUsf1j9spr97i5LMRjGYjzhwHg/e+wtHTEY6eVtjy+bl9vZPpsWmq66o4c/ZpTCYzvo1NLp6/zMz0LE0tjbz0lZdwOh2ZOglRlJDSJzpBEDAY9NTX11FcUsz9+0v09fQxPztPUUkRDc0NuPPcTE1MMdA7RDKZoHlvM1UNVYRDYSaGJ0nKSe5c7+T5V59N7aucxOIy86PvvUnbqX1odOpMp04sESMhJzA7jNhzbawtrjE9OkM8kaC8rhRHrp2luSUmhifR6NU0tNah1WoZGxpnfnaRgqJ81NqUB4vRaKS+qZ7i0mIKCgtwOp1IKolAYIv7i/fRGfQcONTG088+RWNLAw6nHUSBZDKZ+n3kBIlknFg8RuftTq5cvoLFZuH5l5/D5rSl2qDlVOdQb3cv/+73/pDf/w//G9vhCLKiUFxeROetLv7kD/+cP/ij36OmoZqi0kJq6qvQaDRoNBqqaitpPbiHg0fbqKmrpqCoAJIK1y7eYGF2kdb9ezh15hR6vZ75mXn6uvo5fPwwlZWVqCQJSZQY7BtidnqGsy+exWqxplujpYwJnJguqt1J++yOmDwaPclGU7J8gchGVLJk+YwN+yO1KQ8biD2IoIRCoZTAEcjUN8hyyhJeVmS8Xi85uTnIikxtYw0L8/P03xugsq4CvUGXfh+BqVEXv/a7C1Q3VAGQSAj8+3/l4ju/OcnK/RWufHAVlVrNkRPtNLQ0oJLUbPm3OP/GebRaLS9/5UUqq6tS1v7pzhFJVKVObI+56i4tLeXbv/jzDA4Mce3KNX70wx/z7e/8PBWVFbh/IYcb124y0DNIJBLlyMl2jj91jMraClQaNb13+7n16V3aTrSSlBOUVBVTXlfGp+9e46lXj7O6tI531YsoCRgsBgxWPRabmdaTjUz2zzA2MM7CzCI1LdXsf6qVkc4x7l7vYsPrY9+hvZhsJu5e6eStf3ib9uPt1DfWoZLUqCQJl9tJbr77M0XCu6MH8UQcJd2irCgKke0Ic3NzzEzNMDczTyQSpbKmgiMn2xFVIvFkLGP+tnI/yu//i+/x6je/wv4j+1ld9eBZ9eD1bvB//Zs/4pu//HVa2lKDIiVEjCYTrQdaH/psRUFEkRUWphe429FFMp7kzPNPUV1bgyRJeFe93LzSQW5eLvv270uLFBXhUJjuu90Ul5aQn5+f6fTZnfJ59H0e9/jRzyNLli8yWaGS5UvB/8feewbHmd93np8ndM4NoJFzBkgkgjnMkJODZiSNomXv+dZSab23vltv7e3arrq62/Ldi12v17Vl69Z3tuXTSrbkoBmNZkYTyWEGSJAgciJiIzS6ETunJ9yLBjDkaEaW7L2qK7M/rC420EDjeZ5+uv/f5xe+v0+qTfm0n3tQpGiaxu1bt/EV5wzE1L0oi6IqDNy+g8PpoKCo4MAGPpNJsx4I4i3yYrFZYO+5NoNGdrbMNLZtH/ytlQU3mYxEdf0Gl9+5hdvr5sXPPY/ZakESJXRN58oH15BlA1/86hdwuz2fKFIk6eG38ccXtI7Ow1RUVfCdP/sOfdf7eOq5J7FabZx/6nFSyRSB1fWDRdJX6qPlcDM1jdVcfPPSnlBRWV9Zp76tlg9fv4ou5Gp0DGYDqqKQmkvn9lMQsNgtuAud1LRXsLYQZPD6PdxeF00dDVgdFmbGZ9jd3uX0hVM8/sI57vUNc/XiVfwLfs5eOIPD7tg79jK6pB+Y7AGoD7yEmq4Ri8WZn51jfm6BVf8qWUXBbDZSUVNBRXU55VXlqKioivpR5EzV+O3fKCKZ+CP+u3++w/CdYTbWQ/Sc6OY//q//ibKKMr729a/+1HHcv59Opljxr7LiXyOwEkDJKhT6injsiXP4iosQBZFV/xofvHMRm9XKiy+/iMloQpZklKzCG6+9iaZpPP3MUx9FxD7mm/JgNOXTXtO8SMnzKJEXKnkeSR7qIPmY6yl8FF0ZuH2H7e0dPvvKy+joB9GUsdExNjc2efK5J0DgwIRs8PY9kolkzllW3x/IpzMx7MDtTVJYnARyi9PMhJfK2ijj9/pJpzI8/cJTmK2WnDeKKDN0Z4jN4AbPvPgMbrfn4Kp8X6QIQCadIZEIE43GiEdjxONx6hvqKS7OdSUhyQi6htfj4diJY9y8fpNDHYcoLitG1mVKy0uYm50jmUgimyRQYXtzm+5jnfzwuz/CP7fMzs4u4/fGkSQBk8VEOpXm9MvHyWQzKIqCqiskIgkS0RTxSILVhTUCgkBpXTG+6kKCCxsMXL5LVWMVrUeamB6a5b3XP+D0hZOcevI4SzPLTNyb5G//4oecPX+ahqZGNPGjDisV9aPXStNY9q8wOT7J4twiiqpid9ppbG+gsqYy5xy7F/nKKGmyWYVoJEpkN0IsFuP6B22srXTxyq/8Lj95bYvwTpjahmqmxqaZHJnkj3/wLQRRIBFLkownScYTxKJxEokE2xs7bIY2AbDabDQ2N1JTW0VVbTVG2UgsGqPvej+Lc0sUFhXyuS+8jMvpzgkPRN596122t3d45YuvUFJc8lA78kF3zycYv+XJ86iTFyp58uyxH03ZL8YMR8Jcv3qNmtpq6upqD6IpyVSKvuv9FJf6qKmrRtVVNE1ne2ubseFx6ppqKSj0HogUXdd47ft/jiT/AYLwlYO/NzlipbxqGf/8MkdOHKHIV3iwaG2ENhm6M0JLewstLc0HV9n7IuX+9AwX37tEOp3J1TY8sB99N/t58TMv0NLagrhvPi3JnDhxnImxCa58eJUvf+1LCIJIWXk5AgKboU3Kqkr37m9R11xL94lO3vjBT/CVF+GrKKL5SCOCSeDGm7fw1RUSWt7I1XzoKpIsYrQaMVtMuMudpBMZFqb8WCxmatqrUZIKizNLJGIJDp9qY+rOfT78yRV6T/fQ1NpEaUUpd67f5f23LzE4MExjcwNWiw2z2YTRlLPoX11e4/7UfWKxGCaTmaa2Ruqa63B7nOhAVs0SCgaZn1tkZ2uH3e1d4rHEgeiM7Jbz3uu/yakL36GgaAuT2URxeSPRcDV/9oc/5rf+j99AEOBHf/k6iXjyoOtGQMBsNuPyuOg93ktNXRWFviIkUUKWZLKZLHf67zIyOIJsMHD67Cl6enuwmC0HKaL33n6X+flFnnnmGRobGn5KpOzXpcBPm73lBUueR528UMnzj56fVZvyszxULl38kKyicP6Jx1H37NsVVeFW3y1isRhPPncBVVf3bOAV7vQPgAiHj7STVbMoqgLkojOC0M+Jx3rIqllELdeKevW9z1Jdf5pjZwppOdyEpusIuoaaTnP5vQ+x2aycfuzUT23X3OwcP3njbUpKS2hpbcXldOJ0OnE4HIiSyOuvvc7rr73O9vY2J06eOPg9g8HAY+fP8aPXXmd0eJS2w20UFHmRZIn1tXVKKouJRWMkE0nchW6eeeUp/v2//X2e/Px5Gjq7SWdSuIocxCMJpgbu03KiHoPNQCwaIxVPk0lm2N1OkUlmMVoMeKtdJLZSTN+9j7vQRUl9EevzG6SSKbpPdjI/vsTta3fY2dzl2OmjnH/hMaZH7xNYXmeg785BcfB+j7IgCFRWV3D01BHKq8sBHUVTCUfCzM3MMzs9x/bWDqIoYHfZcXqdlNWU4nDZMVvc/N7vfJkT51f5579jQRTPIIoi6aSRf/bKCcqrvJSUL/Luj9/HarNy/OwxXC4nDqcDh9OB2WTZ687ZS70JIqqqMjk5yZ3+QZKJJG2HWjl97jROh/NAUGbSad547Q2WV1a5cOE8R3p7fi6RIgqf7p+ST/vkedTIC5U8jyz7ImU/nfNgNGVxaYnxsXGOnzyG0+06ECkbm5vcuztIQ3M9Xp+XrJIlq2ZYmvczd3+elo4WBFkgnU0f1LhoqsbS3Cyv/PfPk1UyiIJIPJ0lm52kur6F4+deRkNH0RREQeDOrUHC4SgvvfIiJlNuNo2gaUiiRCi0wZuvv4Wv2McXvvQKVqvtgQU9x1d+6Su8/ZN3uHblGulUmnPnzx081tjUSFV1FX03+mloakCSJQqLCgkGQuiaRmg9hKZpeArcKLqC3WkjshMhFokxeGOYeDRGVVs5O8FctCK5mUIXNQQJZLuEyWNEU1WiwTirMwFcRU6KGjxsLYWJRxPUtlQRmA0xcGWQk08eY3Nlm9mpOcLbEc4/9xhtXS109nYgIqKrOtmsQiadIZPJ4C3wYLVZ0bVcK7J/wc/k+BRry2uoqoq3yEvn8cOU1ZQgGwwHww4B/uJbp0ilDHztf7hCKptFlmQkUeJP/+Ao7gIbv/ob41y/NExpeQmPPX0Om812MJ5AFnMfk/siRc2q9Pf3Mz15HyWrUFZexsuff4nSstKDdnFBEIlGIvz4tTfZ2d7hpZc+w6HDhz5RpOyTN3fLk+eTyQuVPP+o+XmLaIEDkaJqKh+89z52u53eY0cOhEw8HueNV3+MJEv0nOghq2RJphLcunGb8ZFxHC4HDe11ZNXswaA+AP+cn3QqTWV9BVk7M4ijAAAgAElEQVQliyTJTI/PIMsipRUmZKOcMzTTNBRBJRyOYHfYKS0vRdsTKPuE1oMoSpbnXngWk8n0ifshyzIvfuYFIpEICwuLDwkVHWhsamBxYYFUKonFbsm5vio5oba04MdoMmB32bhx+SatPS0M949hchgxWGSajzdQ2ubj1f/wFovjK7jL7aRTaTKZLLryUeu3u8KJucDOrj9MKp6mqq2c4MwWK/MBmnsbmLu7xFDfCKefOom30MPorQk+fPsKF55/HJsVDLIRg8mA0WzE5rAePG8mm2HFv8K920NshDYxWYzUt9VRWVuB1Wklshvm/uQsmUwGRVXRdY35yUNcerOFf/qv/wTBkCWdFVA1hYErzdz4oIbf/eO32NnYAXTOPHkKo8mIrmkPjWzdFxa727tcfOcSuzth2g610dLWQlVVBbJkOBAhkiixurLGG6+/ia5pfPFLX6C2rvZTRcqnOdDmoyl58uTIC5U8jxQf9005MHh7oNNnZHiE9fUgzz7/NJIsk1UyZJUMb7/5NuFwmGdeehqT2cj6eoAP37vM9tY2Da31HDrShoZOVskQi8bY2dklshOm79IAhSUFGC0yWTWDpmvMTsxSWV9JMpVkYmSKrt6O3PweUaTIV8Dq0irJZBKb1Yama0h727ovThRFOdheURAfGuAHHNRXmPZmEz1IJBxBFCVsdhuKprARDFHbVIuSVVhZWqWippzQ+ibhnQhnnj7BcN8IG6ubPPlPHmNrY5OFUT/uEiexnRi1Z0rJqCZUFBAF0HTCK3E2lrawes0UtXjYmoswd2+R8sZSNud3WJlfo6q9jIXhZSaGpug62kH3qQ4Grw9z5d2rnH/+8YNt3V/MdV0nsLrO8MAIm6EtzDYzPSe7qKgtJ51N45/3s3htiVBg40BwarpOMu6l772v0nDoz1lefJVksoC2Iy0omSq+85/P8OVv9lFatYHFWsLc1Dyr/lXqm+qBh23tBQGmx6fpu3YLs9nMZ195mera6gM32f0oigAM3xvhyodXcbtdvPLFVygqKnoolfP3FSl58jyq5IVKnkeeBw3eMpkMVy5fpaS0mObW5gPTt8uXrrK06OfchTP4SnwMDw3Td7UP2Shz7pmzFJYUEFhdY+zeJNubWyQSyQNL/rmJOUxmE7ev3qH9SCsWi5XZyTmaDzVSWl3K5MgkDS31OJ0isibtDf/TWV8LUt9QB+wLKgmz2QxAMpX6O/crk05jdzg+2s89Uba7G8bpciCKIrtbu2SzWQqLvCz7V8hms5TXlDEyOIbBZEAVNMpqS1lbCLC+HGR2eB7RJFB7rILB1yeYviYjGPS9cQM5ZLOEudBAJBglk8hQ2uxjZyFKYD5IQamH9aUg7kIXRZVe5icXMFtMtHe20XHiEMP9o1x660MKCgtAA0VRyWQypJIpIrtRrDZLTqDUV7Czvc2t67fxz/vJZLJY7GbqD9VQXFWMwSSRVXT+9H//ZaqbN/mVf7NKcKmeubF5PnzzJiM3f4WG9iVOPzuEqhlwep0YzUYW5paobaw9eN0lJARBZPD2PYYGhqmqqeKZ55/B4XAcFNPuR1E2Q5t88P5FAmvr1DfU89LLn8Fuyw20/CSBAp+c7vlUh9p8NCXPI0peqOT5R8vflfZ5sCV5/37fzT6i0SgvvvwCOqCoCkP3hhm+N8zh7kM0tDYwPjrOjcs3Ka0sofdMD4IkMDI4yujdMYxmA94SL5UuKzaHFYfLzr2bwzQcqsM/v0JwLUTP6S7mphY4cq6H5o4GAv4Ao4OjnDh7DEWUcRW6QID1wDq19TWoqoooiGi6nktLoJNKpfYWUvGhqMqDpFIpPN5c95GufRRB2t3ZxeF0oukawfUQOjreQi93Bu7mOmwMEsHVINXNlcyOzdHQVcvFv1rm3sVRihsLkawC63MhrF4z2XSW4jYP6XQaXdXRNZ1EKE00mMVabCK7rbA6HqK4vpCwP0ZsN4HVZWF+ZJEj57vQNYHpoftYTFYa2xoQgMnBaeLRJBaLGaPRiCxL2B02GlrrqGmoQdVVRu6MMDU6DYKOr8JHaW0xNqeV1cU1hvtH0HSNqXtfYHXBy2e/8TuszCVwFTo5+lQ3P/wvJwhvO+k58xv4FyqorqvGKBsoqyrFP7dCOpVGsn700RjeDTN0Z5j6pnqee/FZjAbTQSRFFERUReX6jRsMDQ5jsVh46eVcPcr+zwD/IJGSFyh5HnXyQiXPI8dDXT8PGLzthne53X+b1rYWyspKyapZVlfXuHzxcq7b5GQv/kU/Vy5exVfm49SFE8TiMa6/e4PAyjolVT7aj7aBqB90AmVSaQL+dV755ks4PA7Gb09y8fXL7G6FKa8pxWQ1UVlfwezUHE3tjRQUFGAymHB7XawHAg+IlFydjGyQ0HWdRDKR225VAUl+aJ/2F7tUOo3BIO0VleYKhVVNZXd3h4bm3BThUDCEJMnYHDZWFlcorypldmoeURJQVIVUIoW3zENRRQHbgV2qOkpZmw9i9ZrxtXhZuhXA7DPkzNlEAAGj20AmliUWSOEqs6PFIXR/i8IKD7FQElu5BTWtMX13lt7zXSwKK4zdmcBgNNDQXEdtYy0G2YDJYEYUhNwU5L39W19dZ+D6XaKRKOW1pTR1NJJR08xOzOOfXSadSmO2mdndbGGs78scOvlbrC3dY20pt+AbTc8yefclvvQb3yKbTDJ4fRhJlKiqraKsupSF6UX8i8s0tzYdzHjqu9qPJEucPnfqofSaKIoszC9y8b2LxOMJuro6OX/hPBaL5WNpuH9YJCVPnked/DsjzyOD9gkRlAcfu9V3C03XOfPYmYOi2kvvX8Jms3L+6cdJpZN88M5F7C47py+cZHt7m3d/9B7BQIhDx9o4fLyd3e1dVpdWWZhZZGZslmvv3MwtWhKYHUZ6zncgGSUMJgMTQ1OkMknq2mpB0Ll3e2hvZo1KYXEh62tBItEIqqbszbNRMFnMSJLE6NAIiWQcTddRVQVd0w5u6XSKd99+h0Q8jsPlfKibKRQMkUqlcbkdqKpKKBjCW+hhYz1EJpOhtLIE//wKpVUlrC0FKCj1srsVprGnjq3VbfwTq3grXJjduRSUZBTZXYqhJBUycYV0OEN8PYmlyIjJLRMNJHDX2jDaDcR3kngrXOyshyltLCYeibO5tk3b8Ra8Pjejt8dJpzIH9SXKXkHyvkjbDG3mJkoDJ584Tsfxw2xtbnH1rRvMTczj8NrpON1O+8njjN36Xzjy5DWe/adpjj3fTc8THdjcVVx59Zu0n3iN1t4A3Y91YHNamLw3jaJmcRU4MFlMrC0HDqJQ0XCUFX9uho/dYd+LouTccrc2tnj91dexmM388q98jeeefw6LxfIzi2Yhn+7Jk+cXJf8uyPPI8mBqKJVKMTIySlNzE06HA03XmZ2ZJRQMceTEEQxGA3duDZJMJjl57hihYIj3f3yRrKJw6qljlFT5GLh2l6tvX+f25buM3hpjeug+M8Nz2F02hm+OMjN6P+evks1SXlfK9uY2k0PTSEaBhvY6VpfWWFtZQ1EVGlvrUVWV4cFhFFVF2XO+lSSJp55/ivX1IP/lD/+Ymzducu/eEBOTkywsLuL3+/nud77HvcEheo720NndcdBaragKt2/dRjbI1DfXk1WyBNdDFPkK2QhtoetgsVvIZjJY7TZSiTQOj51kPElJrY/i2iI2lrYpqHGT3EliMEtUnvCRCKZxtVjwtFnxHLKCqJOOZrCWGdF1jXQsg8VrIp3MYnGb0HWQDRIIEIvEEARoOFyHqqis+tdyHVAPzFRSVYVUKknfh7cwmgyceeYk3mI39ydm6b80gCiL9F7opu1YEyaHib/6z88gyRE6L3yXVCaFqikIBoGpgd/G5g7h8P4BO9u7qJpCWV0p0UiM7c1tVE3D4bYT2Y0cnBupZK4WyFPg+anz5+7AXWRZ5iu//FUqKysfmtuTFyl58vy3I5/6yfNIsx9tGBoaIp1O09PbvXcFr9Lfdwun20ljcwMbGyFGh0apa6pFNhm4+qPrmKwmes91oegKN97vYzO4RXVLJY5CG0ggyALBPw3R0FVLQYWH+fFFdrbC+O8vU9deS0m1j9mJOYrLi6hsrGDp/jJ3++7hK/Vhc9ioaahicnSKrp5OXC7XXhpIobauhqeff4rhwRFuXLtx4J66j8Vi4eVXXqK2rvYjLxddI7y7m5v23NGGyWRidXUVRVHw+rzM3Z/DYreQSqbRdZ39fwi5jhuzzURJfREjFydJJdLEd5MYXAbc5Xb8N4OE5xM46y0ggGwXSUeyWCuNiAaBVDiDp8x6ENXRdZ1kLInJZiIWzjnHOjx2LHYLKwur1DXV5LZZ1BCBdDrNwI1BotEoZ546hWyUWPGvMXZnnKLyApp7GtBQ2d0Jc/v9MGtzzbSe/DojVxcRZRGby0po6ZdYuV/Hl/7t/8biqMrEwDRHn+ihoMwDQzrLC6sU+oqw2C0El4Joe5Gc1F7Rstn8USu4IIgkEgmmp+/T3dWJzWr7VJHySW6zeZGSJ88vRl6o5Hkk+FkOtJqmcWfgDpWVFZSUlpBVsszNzREKBjl34SyarnHzWq5OoaP3MFc+uIKqKvSePU5WyXD9/ZtEIhFajzbhKXWTyaZJppKkU1lW5wIceaqD8pYSzA4jC2PLrMwG6D7fSU17JVvBHYb6R3jsubO0dDczdGOE2clZ2jvaae9qY3HWz9DgMKfPnUYScws9mkJdQx0NTQ1oqko2o5BMpkgmEqRTacoqyrDZbCh7hmf6Xipl4PZd0HUOdx9GURUCa+uATkGhl/7r/XgK3ETDEXRdR9PVXHGurqPrOkaLEckgUdZaTGI3iaZomF0WBAk8rXZCtyOYCmUMNhmDUyYdTqFldAwOA+loFsmSW3izKQWDWSIRSeLw2gkHoqiKimAWKKsuYWFqiXgsgdMpo2oai3NLjN4dzzm/9rTgKXIRCUe4e20Qm8tGa28zqq6wMr/Gj//kSwT9L9D5+A/pecZMeLuM+G6cuXtPMXvn16nt/HeYbGtUH6pgfnCJxcklmg434C32EFha59CRDDa7hXQmQzqVxmKykk5nADDutXnvC46hu0PomkZPb8/BefTzus1+/P6D5AVKnjw/TV6o5HnkmZ6aJhKOcOGJC7k6D12n/8YtHE4nTa1NzM/P419cpud4J8sLy6wtr9NxrJ10Js3192+SyaTpPttJLBrlxk9ukUwkUVWFdCpDbCfOTijM6LVJmnrrKa3zoSoqQX+Q0spiWo40MnJ9nKmRGTqPHsbr8zA2OEFdYx0Oh4OahiomRifp6OlAdkmIqogu5opLc1b8MiaLCZMlV4C7T1bNAjkRpusasXiMsdExGprrMVlMZJUs64F1jGYjgiQQjUSprK8gGokhSiJKVkEURVRVQxLF3HRkHTqfbiMRjyMKIg6PDVVU0NOgxFQW/noDAMkkIoiQXMtitBrQMjomg4l0NEt4NYrJZCIdz1DdWM3uaoTwZhS300tlXTmLU34C/nUUn8rE3Ul2t8O4C92cOH8Ud4GbdDrN7ct3EUSBnrNdgM704CzLcyvIRgOSIcNk//MceeYqRZUGnEWlXP+bbwLgKb7K7GCS9tMtFFUU4J9epbSihJKqYiZuT7OzsYvdlWvnjoZjuF0elEzuOJrNloNjq2QVRkfGaGhswFtQsGet/8kC4+NzeyAvUvLk+UXJC5U8jxSfFFm5e3cQl9tNbX0tuq6x7F8mGAzy2BPnEESB/hu3cLod1DTU8Dd/8beUlPvwlRXx9qvvIsgCx544wvbWDuO3J7F5bHjLXOiCztrCOkaLgdaTjfgnVhm7PoHRYsJV5MRV5GJ8YIoTT/VSVlfK4vQS1Q1VtPW0cPO9W4zdG+f4mWMHUZU3f/gmL3z2RQoKvIh67sr9QcHyafup6zqZTIYPP7hMOp2itaOZrJIlo6QJrK1RUORlM7SJpuu4C1wEAgFsDivJWBKLzUIqnsZsNZOOZxEFEbvLxm4ojMFkwGQ2MfLmEuH5OI0vl2MtMqPGNdLRLBsTu4iSgChKxHeSrA1tkI5lWBlaB0AQBUY/nAIEVqbXqGmqxlPoYXHGxvpyHG9hjEIfnHjsOGU1JejkCqAnh6aJR+Mceawbq83C7St3CSwHqGquYDvkwmi+T3THxZ13X+Lk579D36u/DEKuq6vmcCXLE8ME5oPUHKomvjPFzPAcJy4c475hjnV/kNaOFgQE4rEEkEs7gYDRZDzo5JmamCadStN7rPehY/7gFOSPk+/oyZPn709eqOR55NnY2KChsf4ggrC5sYmu69Q11JHNZtne3Kazt4Od7V2yGYWmQ00sL66SzSqcfvI4BovM8K1RzHYL7aeaUTWVtJJmfnSR4hof3jI3FoeZsWtTrM0FKan10dxbz+D7IwRXNqhtr2J9KcjqwhqdRzuoqq9kZvw+jS0NFBYVcuaJU9z8sI+//u5f09DcQNeRTgqLChC0j2oi9tmvAQnvhvEv+VleWiGwGiCTydJzvBu70048Faf/ah/hcISWjmbW14Pouo67wA2CkKtJsZpJJ1N4Sl2klzJY7RZkWWZ9OoSzyMHWyg63vztGKpqi+2stGN05J1fdobObjOEstlHQ4CIeTFNQ7qHqcBmBsQ2KqgrZXY0gCTJ2u43lmTVcHifR3RjL91dYnMmgaf8OXf81AN74fhpvYQJPYRx3QZxEvBhYpdxfQjSyS2TbjLvQQ217NcPXBQRR5/RnX+ONP/517N5VZu+c4vQX/ytXv/913EVO1gwyakbDZDbiKnCSjmeQZAnZIKOqKvtWNIKY6+yJxxKYLSaMhlzqRxRF1lZXcbpcVFZUHMxZejitIzwUHcmnfPLk+YeRFyp5HjkebE1WFIVEIo7dYT/4XiQcxiAbMBqNBNY30dFxuh1sb24D4PI6uTdwD6fHidVuZXt3h+2NHSqby0HIzZHRNY3g4ga+2iI0XcNgM+D0OZi4OUPPUx2IBhGbx0ZodYP69lq8Pg9rSwHae1pp6WxifXmdu333uPD845RVl/HyV19idnyWmclZZqdnqayupO1wKwDpVJpUMkUymSQRTxIMBIlEogA4XXZqG2uoqquitLyE7e0tLr7zIZsbW7R1tlLdUM2lty/h8jiQZBGj0UAmnaGg2MvsxDwOpx0BiO0mqO+sYerOfQSDwNpEkEwyQ83RcpIbGaKBLLoGuqaRSSh4q9xkwipaSqe2p5x4MInBaMDusBGTk3SeOsTSxAqdJw9x9tnTmI1mZsfmmR2f55nPJbhz5V8RXDPQ1v0U4R07WxtmtjcsbAVr2NpoZXK4hFjYCvwTBDHLpR/GyKZlBFHDVdSG1Rmm70df4+TnvoerMASApmqoiopszH3sZdLZnIGerpPNZDFZcgZ2wIEDcDwWx27/yF0WILC2TllZ2U+dVx+PpggfE5GfRl6k5Mnzs8kLlTyPJPtGb7FYDOBgMdJ0jUg0it1hRxCEA3Hi9riZvT+HxWZGNhjY2dqloq4MTdcILAXQNY2iioKDwtWskiXk36LtbBOqmhtOWFjpxea2YrGb0HUNb6kb/8QqiViCovJCpgdn2d0O4ysuoqWrhbGBcZYXl6lrqMNkNtJ1vIuOIx1MjU8zOTKFf9H/kLGYJEmYrWY8BW5aOpspryjF5vhov2bvz3Hjw5vomsa5p85QVlVKJpthY32DirrKnKAyymTSGbxFHgQBkvEUniIPmytbHDrXQmAhyI0f3sbmsdL70mF2NyNoaAiygCAKCCK4i43oGsR2I5Q2FyOLErHNOBUNZeyshnF7nYiCQDaVpe5YDbIso6k6SzPLVFSX4/Y4OfZYHZfeuIzFYuDY2faDIY8zYzMM3x7lic8/TlYVuX15hfmpLNWtx7nx5lkSMSuJiBNRVNE1keKaedRsrr5EzebmIxlMuY+9bDqD1ZubxqypOdffdCqNIAhYrLlhjfFYnIKCwoNjnIjHiUQi9B7tRdjv8hE/PZryIHnX2Tx5/n7khUqeRxJRFEHTiO5FHhx7M3FEQSQWjR18vbO9gyiION1OdrfDeAo8RHcjaKqeW8wRWF8K4SnyYLVbSWfTiIJAZCNOJpmhpNaHJElouo6z0EHLiQbSySwgUFhawPLkGhurm1Q1VDEzNEdgeR1fcRG1TdX47/u5d2uYssoyLGYrqqogyTJtna20tDezEdrAYDBiNpswW8yIsviQXb6mayQzyZwfy8Aw48OTeIs8nHr8BDZHblu3NrdJpdN4Cl2ompqb76Pmft/ldRHeDFNRX8ZI/zizgwv0v3EXh9dO9eEKimuKKWsuJatmDsQYwG4gwtpkCF9VAUXFBSwOruLyuLA77ewsR6g7UsPmyg42m42KygoMkpGV+6uoikZ7ZysG2UhxsY+6pjpmJ+Zobm/AaDEhCCI2uw1RFFEyCla7meLyJFvBSQ4ds3F/qIV41MzL/+x7ZJUMb/xfv8bAm1/h2PNv5TZME5BEEYvZjEEyoGY0rFYralZHFAWsFjPZjIIoiFitFgQEErEktbWOg5k+wfUQAgKlZaUPn0+fEE35WY8fnIN58uT5O8m/U/I8cjy4iERjUQSEh1I/0WgMp8uJKIrs7Ozi8rgRBZHIbgSv18P2xg6CAAW+AuLRBMlYkrKaUmRRQhYlDLKR0SuTCILA2nQQCQmjZMAgyZTVlpCOpYltJ7A7bLmU0vouZrOZwuIC1v25ehFRFOk63kksGmNiaCJn2qapqKqSu6Hg9XlweGwYLDJZPUssESUQCDB7f5ahe8PcuNrHW6++xV9++wcMD45Q1VDJ6SdPIJslkpkk6WyKtZU1VE3DVehCURUkQ+7YZFK59E94K4KvrBg1q/LWn71PTVsVX/pXL2M2m1kaXCEWTBIPpogFkkRX44SXYmzN7eL1ualqqiQ4tYXJYKLtWDNby2E8hR68BV4im1Fqm2owmy3ois7C9CKl5cUUl5ZgkAwYZCPdx7oQRZGRO+OI5CYUOxwOBEFASatIoozdYUMUJbJJFVEUEAUJo2zAZDDx+CtvsTbbyPJkR+6F3euSstlsyEIuimO1WtBVHVGQci3daQVRlHICJqOgKCoul2tvGrVIMBBCkmVKS0oO6lP2ER+4n/v60z9e8yIlT56fn3xEJc8jxf7cnH32HUj3B8ipgKaqewWSAqqiIokimqYjkFtgVEVFQEAWZTRFz9UiICBJMoa9uTRnPnsck9nI1b/uY+zaFOe+dJKSmlx0RRRENEVDkmQsNjPJaBpRFCgqLeT+8CxqVgUj+EqLqKyrZHxoktD6BhVVFYiiiCDmFkRVVYlFYkTCESLhKPFYfM8DRUPXQZQE3B4X5bWlFJf5KCorJKNlIGcNQnAtyPDACHaXDYNJQtUUHC4HCDB+d5K61lrmJud59wcf0PfuADWtVbkp0bMh6g/VsTi5RGA6lGvp3psULYgCTqcTV6GTxYEVBEGgoaOOlfEAakqlormCsZtTmE1m6pvrWJld5f7oHAICXb1dGGQDkigjCgIej4eOnsMM3xkmGo5y4rHjeL0eTEYT00MznHjyGEW+IoxGI0PXRskkX0EQBIyyCUmU8ZWF6Xqsj3sXzwMQmA1iNBpxup3Mj/mRJZmCogI2VjaRJBGX283i1DIutxODwcjaYgBRFCgsKjwQJQtzC5SXlWIwGg+EyIPdPp8kQPIdP3ny/MPIC5U8jwQfFyj7FBUWAbnOH2+BF0EU8RX72NzYBKC8opyla0voqk5JeQkr/jVOnD/GvdtDrPoDVDWW4ysrYm58kYKyAiSDhCzJuDwuzn/pDMef7eH667f5m9/7MU1H6nEUOCgs8VJaWQw6hDejlFbnrs5NZiMIAtlMFmy51E3PyU7sdhtTI9NsrG8CAqAfuMfKBhmH046r0EV5XSkmiwmjyYAugKqpZNIZ0okUq6urzM/Ok4gnSSfTpJNpspksTo+TI4/1kFVz9Rs2l5XDR9sYvjWKZJRJJzPceLuf3se7ee6Xn2JlfpWl6WV21sMUlHixOMy5uUjq/qwh2AnusrW8i9fnxWQ0sDyxhtFopL6lltWZNUxmE0dOdTPSN0ZkO0p5VTknzh7D5XYjCjnBJwoisijRe/wI3gIP/dduc/Xd6zz90hOcffIMl965zOCNYXrPdXP+hccYuH6HnY0wgmhAUEUkCWLRDC09P2DkWi9gIBXP0Hv+MKGlTUL+DZoON+LyuBjtm6CmoQYlo7K9scPJcyeQRZnJ0SncbndOIAoiaytr7O7scvbsmY9EyicIk09rUT44F/PRlDx5fiHyQiXPI01BYQGiKLK5sUlzSzMAxcU+7gzcRdN0qqor6bsusL4WoLqumhtXbiIJEoW+QpZm/FQ3VNB57BCX3rjC3Og8rUdz7cmyqCEKAg6Pk+d+9Um6z3fw5v/9DvcH5znxfC+aqhPfjaEqKsXlRUiijGw0AJDNKAfbJ8syrV3NtHa2IOxNElYVBU1TUdGRJIFIOEJoLcT6aoiN4AbpVBpd/5hnjKBjMpsw75nDOQrsWG1WquorkYwCWTVzsPhW1JeTTKZ447tvszizxPNffQYEGPjgHr6KQjpPdrAZ2GTNH2BnPZwTTbqOIAjIBhmL1YK3wMvOxi5pPUNdSw12m4O58XncHjetnS2M3Z5EV3XOPXmGusY6jLKRrKIyN7PAZmiT9s52SkqLkYCGxnpcbhc/ee0drn1wgwsvPM6JM0fpv3abkVvjHDraxuPPnaO08g2mh2e49qaKIOY6unRd5+kvfxZ3oZuymloyqTTLM6s5z5quFkb7x5Flmc7eDkZujWKzWWlqbWRna4fN0BaPnT+HLMlIkszY8DhWq5Xm1pbcId2f45OPpuTJ8/8peaGS55HGaDDg8XjY3Nw68MMoKSlB0zR2t3fxFRdjNBlZW13nUFc7fVf7CfgDHO45xKW3P2R5bpXy+jKaDjUwOTxDWU0ER+FHnTb7rdAGSab1WDMGg8y9y1k0vhQAACAASURBVKNM9s/QdfYwBoOBopIiREHEYjIhIKBkPypM3RcbopiLpIgCKKLO+mqQlcUVgoGNvZSPhsliwlviwWI3IxkkJJOI0WRENsiIsoTBIO09V65bRRJldFElk00ftNLuR576P7jNysIqRx/voaG9jqLSApburxBYCrC+FMLutNJ8qAHEXHpMUdTcAMGsytb6NpGNKKXlJfhKfKwvBwktLlJWUUppRSnD/aPYHXYee+ocRb4iUokUkxNT3J+eQ8koGIwGlhdWaT/cSs+JHgwGI75iHxeefpz3377I7SsDnHriJMlEkuG7o2yFtjjU20Z7VyulFSUEAyESsQQOjx1XgQOLzYooiKwvBxkfmqS0soTuk11EtiKsL4c41N2OruoE1zY4cqwbq9nC8K1RTEYjrYda9vxU4izML3Ds2FFkWT7o9vko/ZMTLZ9kl58nT55/GHmhkueRRRRFNE3DV1xMILB28P3i0hIEBDY2NvEWeiivKCe4FuTs+dMU+QpZ9a9x/oXHKa8sY2Z0loraclo7W1hbWmfm3hxltSUYLAZMVgNGsxElq7I4voyvtIius4d5/KVz3Hirn0s/vEJRaSFHTndTVVeJyWRBFEUy6cxPpQ8UTWV3O4x/zs/i7BLJRBJJlvAUu6hoLMPsMBLeiRJaDREKhshkMmQyGdSsmquvEQVsDgt2tx2n14G7wIXL40QUc6kqSZQRRYFUTOD7f/g91pYC/M+/9z+xEdhkdnQOo9FI98kODh9tJ7AUYGnWz/z4EsCBSZokSxiMMm6Pm4IiD6G1Te6PzGF32DhysptENMnkvWnKKko59+RZUokUNy/1s+ZfQxRE6hrr6Og+jMfr5k7/IJOjkywt+Dlx9gRVtZXUNdRx8mycvqv9jA1O0HP8CL5SH7euDzBw+S7lNWW09bRSWFSAoqqomoKqqWRTWbY2dpgYmKbQV8TJ8yfIJhUGr4/g8Xo43H2Iof5hTEYT7R3tKBmVxblF2g+1Y7PYkCSZmYlRdE2ns6vzoSLan+VG+2nnXJ48eX4x8kIlzyPDg3UqgiAeRDt8xT6mJieJRmPY7TYKvAWYTCYW5xdpaWumsqqKhflFAitB6urrGbg1wPbGDr0ne3nzb99i4PJduk93cvTMEW5ducP8+OLBVGbI2dgbDQa6T3VgMVtQ0iq1TTWcfV4htLLBv/+Xf8C5509z4vwxREHk7vV7zE8u4C3yUlDkxVXgYn5qgdnJOQRBoKi8kNaqJlwFTtYDQfxzywRXQ2iahsEsY7abMBoNmCQjkiwhygKqohEPx1lbDrAyv4ooiJitZlp7mykqLUQSFdJxJ7//L9/BYEzyr3/vX1BYUkBpVQlKRmVycJrZ0bmcwPG6aGpvRJSknB+NqqIqueGIqUSazfUtlqZXcLgcHD97FEmUmZ9aILIbpaP7MIe6DzE1Ms3M2Awms5nuI10c7u7AbrcdRHXOP/E4be1tXLl4lQ/f/ZDi0mKOnT5KR1cHsXCMsZFxsuksXcc7ePmLn2Hk3ijjQxMEltexO+1YbGai4SjxWCJX/CzkinzPPX2ajcAWowNjmI0mLjx3nt3NCCuLa7R3tOF0OBm4cQc06OrpRJJk0GF6aoby8vKHZvs85Dgrij8VTclHVfLk+W+DoO9fDn0yP/PBPHn+/8x+R89D39M/8hjZFxI7Ozt864++Rfvhdp5+9mlUTeX69etcu3KNz3zuRXwlPn7wvR8QjcV49qWnee8n75NIxHnqpScJBUPcuNyHqiq097ZRXltKJpMmvBshFo2RSqYQZQmn24FskFmYXGRlYQ10nar6KjqPH2Jx2s+f/6fvshXaprWzmbqWWsoqy9je2CaTyRzUgNQ219BwqA5RFvAvLDNye4xEIoFskCgo92KwymyHtknGU2SVXBuzrunomo5slCms9OIqdqBlIRPJEFrcJJtS6Dx7CFGo4/u/9w1kQx+/+m+GKCk3H3Tg6JpOwB8gshMjvBUhshtBU/eP7UctuYIAFosZp9tFeVUZ6WSGpblFMmkFj9dNz7EuNBXu3R4ik8rQ0t7CiTPHsVltyJL80zUfgoiiKoyNjHP39iDxWIz2rna6ezu5c/suw4MjIEDzoSYqaysQRYGJ0Sm2NrZIp9NY7RbsDhs2hw2Xx4XZYmb0zhiBlXV8xT5OnT9JNpXh8rvX8Ho9vPj5F1icXaL/2i26jnRx/sJ5DLKB0aExrn54lc99/nO0tLYg7UWhPj4p+ecRKvmISp48n4rwqQ/khUqef8x8XKw8KFQgZ6evaRrvvPMud+4M8Gvf+DVcbheZbIZv/+m3ySpZvvIrXyYSifCD7/0As8XMmSdO8earP0EXdLqOdeApcnPjwz4CqwEsVjNltWXIBhmjScZgMiDJEv65FfyzywBU1pfTfKgp1wqswd2bQ6wsrBKLxLjxQR9Gk5Ff/61v0tHbxs5OmO3QFiarCW+xG0VVmRm/z+idMaxOC2UNJWSyGZZnV9gJ7YIERpsBTdfQyEUSBFEgFU2RSSoYzTJFVYX4qouQBJm5gUUSOw1MD/wR5fWrfPl//GvsNhnDnheJJMrIkrT3v4wkSqBDNBwnmUiiKRpmiwkRAUXVSKfSrK8EWfMHEASorKmkraMNi9nM7Zt32FzfxFdczLkLZyguKT5Y8GPRGKHgJsHAOvF4gqbmRhoa60EQ0DSNdCrF9avXGRsZx+V2cfbJswjAnVt3WFxYQlVV3AVu6hprqKitQNdzZn6JeJJEIkEilmBuegF0nc7eDprbm1hZXOXuzUEcTgef+fxnWF9d58r7V6lrrOPFl17EaDCQTSv8129/l7KyMr74lS9ikAwHLeafJFR+1lyfvEjJk+dnkhcqeR5Nfh6hArAbDvN//tG3aGhq4IXPvICu68wvLvD97/0lvceOcPz0cebn5nn91depqK6gs7eDy+9fJhgM4Svz0X28kxX/CkvzfjaCGyiqwkdvrZyBW1V9JY3t9ThcDgRBJBGN0//hbSLhGB29h2hqb2Tkzhg//M5r3J84hdvzdX7794P4yrbJqhmyisL43Qlmxu/jLnbhKLDhv79CeDeCZBCwFVhJJpKk0xkUNfvQvstGCbPLRHwzQTqSxWA0UlTpRcg+zuW//C18VRf58m9+gMttx2QwYTZaMBlMGCQjoiAQ3YmjpBQymSyZZIZ0Kk06lSYRSxKPJnKFKoKQs583W2hub6SiqoLN0Bb+hWU2Q1tYrRaOnz7OocPtKFmFuZl5lpeWCa6HSCVTABgNRowmI/F4HKfTSUdXB22HWjGZjWi6zuL8Ihffu0g0GuVw92G6j3WRTCS5P3Ofman7bIY2D1q39Qf2X5QlSspKOHH2GOGdMMMDI4R3IvhKfDz74tPsbO/y/lsXKS8v4+VXXsZsMmGQjVx6/0MmRif41a//KiW+kr+3SIG8UMmT5+8gL1TyPJr8Xekf+CiqcvHiJW7evME3vvkNXO6cpfybP36T8fFxvvRLX8Rb6OHunXtcvnSZrt5Ouno7GBse49bN22QVhbaOFlo6WtBQSSYSJJNpkskkmXQGt9eF1W5F13UiuxGCqyGmRmYQBDh94SQl5cUA7Gzt8s5r7+Ep7OXSWy8wP9PGU58d59kv9TE+2M/K4iq+6iJi0RjB1RBGmwF7oZXIToTt9R10UUe2Sjn32gf2PR3LoKkazhI7nmInyc0Mq+PnWBn/D7SdeQ278z/i8jg48ng3NqsNi9GC2WhBV2C4b5TN9W0kUUQSJSRZxmq1YrVacLqcBzeLxQLoRMMx/PN+Nje2c0Z2Ph+NTQ20d7SRiCeZGp1iemoGJavg9XooKy+ntKyE0rJSioqKEASB+bl57t0dZtnvR5ZlWtpb6D7ShdPlIJlMcfXyVcZGx7HbbVTVVlFeVUZxSTHhSJil+SUkg4TZYsJms2Kz27DYrITWQ9zpH2QjsIHb4+boiV4amhvYDm3z5o/ewuPx8MqXXsFmsyKJMlub2/zguz+g91gvTzz5RM4UUBSRRfkhkQI/PYAwH03Jk+cXJi9U8jya/CJCJRyJ8K0//CPaD7fz7PPPoqoqkViEP/+TbyMbDXz2Cy9jsZp5750PGBsd48Tp4zS1NxBPJOm71sfczBwWqxmXx4nBbMJizc3gsVgsxGIxtjd3CAVCJOJJAHwlRZx6/AQOl3NvmKGGruu8+r0fUVxWzPHHjjLY7+X/+cMjbIVkGg9/m3MvzhBYWWFrY5vKtnLisRj+mRVUXcFRbCMeTZBJpVF0BU3XECURQRKQjSKqqpMIpXLtyvq/4P6136S08XdpOXmJ4spCFodW8JX7OHK2C4vJgkEw0v/+AJlkls5jh6msqsLhsGOxWDFIMvFYkoB/jbWVAOGdCIl4cs9qPleg3NDUQH1DHW6Pm5WlFYbuDhNYXUeWZZpbmujs7qSsvOyh6MTHCQVD3L17j6mJSXRdp7u3m+7eboxGmbm5eYYHh1n2L6MoCpIsUVJeQkVVOaqqEY/Fc2mfeIJkPMnOzi5Wm5Ujx7ppaW/BZDCxEdzg7R+/g9li4Ytf/QJOhxNZktFUjR/+1atEIlG+8c2vY7PaHmrr3t/WfMrn/2XvPYPkuO+8v093Tw67E3ZmZzbnhA0AFsAiEGAGKBIkRep4ujvf6a7Kpat7/OKqzmWXy698z9Xjx+Vy2X7KV889+Xmk86NAiZJMURRJAEQmiLzYiMXmnOPM7MQOfjEzm7gAQUkngVR/tho70z093f3vGfy/+4s6Or8xdKGi8/vLw9w/Wx9nxcpHH53h5o0bvHDyBfbu34uiKoyNjfHOj97BaDTyyusv4/Lk8vOf/YLRkVFsdhuN+xqora9hcnKans5uIuEI6+tRotHotmPbbFa8fi+FxQUUFAexO+wImUlMU9NCRdU0Ln54iXAozKk3Xkg3Dlxa49/8byIDPX+Oy7tCYeX/zr7nVonFY/TfG8Tpt+MuzWG8Z4q1hRBGp4SsyKRSKdBAVTTkuIKrzIEl18zwmX/G6vhfsu+Nf4HdcYbQTITWU3tZHF5hZWqV57/xNHarg+WZVbo+7eWpF45SVlGK2WjGZLQgItLT3ktPRy8CAm6Pm/ygH4/Hg8frIT8/H2eOk/XwOv33+7nf8yDT6NHB3v37aG5pwm63b1olMhO78JAJXVNV1kJrXLpwmb77fVitVg4eOUhDYz2iKBCLx5manGJ0eJTh4RHCa6F0ATpRxG63YbVbsdvtBIL57GluxGw2EQ6F6Wrvprf7Pk6nkzff+joeT7r4H5rA++++z/DwCG+88XXqG+o3REpaqGzWo9EDaHV0fmPoQkXn95dHWVWyj7NCRVVVfvzjdxjo7+f066eprUtXmp2bm+MnP/4J6+tRXnzpecqryhkdGeX6tRtMTU1htVpo2tdEbUM1ksGAosqoqko0FiMWjWG2mtMN8HY5l/Q5aJlS9DK3rt3mQW8/b/7Z10nKSQYeDHLj0k2aj57gnf+4l/57L1DRfIcc79/hLl4jv9bLaM8E3ef+Z8Jzf0DpsX9Nfuu/JiFnOjlPHmLo3e/j21tLKvJ3hMdfwlf75wRr+vGVeJnqnKfuYBWkRGb653j2jRPkOHIZ6hhhcXqZ1//kNBaTFavZysr8Krc+uUMkFKG2voZDRw7icrk3snY0VWNseJy+3gdMjk+gaVBaWkpTSyM1tTUYDMZNa4QgImwRAJDuXyTLMmazedv9yd6v6ckpLl64yMTEJC63i0OHD1JUUoTFmn69oqqsra5hMEpYLJaNHkTZ95+dmaX9zj1Gh8YQRZG6+lqefvZpbJmicMl4ko8+OMPI8CinXjrF/tZ920TKo1w+ukjR0fm1eKhQ0euo6HzlyRZ227ZuR+8fQRDJzilvvvkG3/ve9/nle7/EZrNRXFJMMBDkz/7iW7z70/+PD37xIW1H2zjYdoCy8lLGRse5deMWt67dpv3WPRxOBza7FavNis1uw2azIIgiqZScmYhTKLKC1Waldk8tkiRuiBSAHFcuqqKSTCRBgqW5JQxGAx6/Slnt/0FVy0fcOPOnjHS9Q+OzP0cW/i1Lk8sYrRKCFGfixrcQnP8GzRxCMojE19KBqmsj/4Acq6P69T/CSD+r0wlyAw4QNFYWVvF4PWiaRjKRRLNrLMwu4QvkIUkG5JTMrVt3GB0Yw+XK5eXXX6asvASjZEJVVcaHJxgeGmF8ZIxkMoXT6eTwkcM0Njfhdrs3LCeCKCIgsLi4yPDgMIuLS5summiUWDSKIAgUlxTTsKeB2rpazGYzEhKaplFUXMx/82d/ysDAAJfOX+LsB+fQ0HC5XQQLggQLAgSCAeSUymJokXgsTjwT+Ds4MMTM9Axms5mDbQfZ17qX3JxcBEFEAAYeDHD+44sk4glOnjrJgYOt2wRK+nOzeyqyjo7OPx26RUXn94LHtapkXxuLxfjud77L6toaf/Jnf4zP50tP4qkkH7z/AT3dPRQWF1C3p56yijJMJgPTUzPc7+0jEg4TCodZj0SIrkc36qAAG3/hIwhoqoozN4fDxw5SWFqEqikoiszoyDjn3j/H868+R47Hyc9//D4Gk4i3wM29Tzspbyqh82YvGi/TeeXbJGMCxXv/L9bmjhJdzUFOBjDar2Ir+h9AgMTqy0SG38ZgHySn8jWc/iUCDXksdobI8eZgwICgCFTsKWesY5IjJw/hdORw6+xdWo/so7CkiE/P3kBOKjTva6LtyCEsFitT49MM9Q8xOTaFpqpYrTYqqyqoqauhoqISQyZDRsgIxenJaYYGhxgaGGJ1dRVBEHC5XDicDux2Bw6HHZvNBhr03e9jaWkJURKpqKigrqGO6ppqJEnaGEtZkZmammJyYpLJiQmmpqaJxdLxP9nMnywCArmuXPa37mNP0x7MZsuGeAqHwpw7+zHDQyMUFBTwtVdeIhAIfK5ISa/TrSk6Or8hdNePjs7jBtZmX7u6tsZ3v/MdZFnhD//oLfJ8eWiahqIq3L55i1u3brO2toYkSZSWl1JbV0NpRSkIm8dSFJlYNIaiKukqsaKIZJAQBIHJiSmuXrjK8tIyBcUFHH6qDVuOlaXFJX7yg59x5OlD5AW9vP3dd6hqrGR6YprIegSTzcDs1ByFewL0Xh9haeZbTPd9G40YFucIhcf+I4Pv/z2lXz+BgML4hz9DiRbh29eKs2SK6HSKvDIXEkbiCwkClfmsjoeoP1jLeFe6v4+WEhjqGOGlb5xk9P44s5PzvPz6KYqKixFUkRtXbzL0YAiH00F1TTXVNdWUlZVlXEBp94iiqPTd72N8dJzx0XHi8TiSwUB5RTk1NTVUVVXidDo/M8mnqwZrzM3O0d3dRU9PL+FwCJPJTG19LS17mwkGgxuCRd0SiLy4sMjc7CyCKGCxWDBZzNisViwWC2azeVtROQ3ouNfJ1UtX0FSNE0+foPVg62Yvnx1BvlvdPdn3yKILFR2dXxtdqOjo7CZU4NFiZW5+nu/91+8Ri0U5dvwpDh46kOlirKKoCtOTU/T23qev7wHrkQhWm5W8PC8urxuv14PLnYvH68FssWw7h2yWj6qqdN7r4sa1mwiSwKtvvoLBbOAf/90/UtNUQ2FZAT//0Xs0tzVy8+ptCiuDDD8YIcfvYD26zvL8MuWHiui4sMzQ9e+Ripbga3iX6HIJGEIklusxOieIzR0kr6UCV20cZUVDiwsUNuSz0LdKYW0By6OrVDaWMzu4wIHj+1idCxNdjfG1b5zkzE/OU11byYnnT2A1WWm/cY+ee70cPHKQI0ePYDaZNwq3SaJEKpniXnsHd27fJR6L43Q6KK8op7q6msrKSkwm02YA7UNcJ1lxoGoaqqoyNjZKV2c3fX19JJMJSktLOXz0MMUlxenYmC2iZevv3QiHwvR09dDV2U0oFKKsrIyXvnYKj9ezLV7mYSLlM1k9ukjR0flNoMeo6OjsFquybXsmbiXbB0gURfL9fr79l9/mg19+wJWLlxkaHOTlV17G5XYhCiLFJSUUFhfx3PPPMjw0zIMHD1hcXKKvu49UKrXhfnA4HASC+fjz/eQH8/H58zAa0/EdrQdaKSwu5Kdv/4wz75/j5TdeIlgUZGZiloa9dRiNRtaW17A77CRjSWwOG3JSweawsjCjIkoSDk8Ym+suuFeJr5axPtcAmgln2Rm8jf/I6C++h4CAyWYktpTCbDehyWnXh6ilXSOo6TGwOW2Mdk1QWFLIyuIqmqJSUl6KQTQQWg3T3dHLnqYGjh47gtFg3EjZFYCOux1cu3adRDxBZWUFx44fo7CwMF2DZBdxsltKcvZeAaCmr6+yopLy8gpe+tpLtN9t5/r167z9g7fJ8/koKi6ioCBIIBjA4/Gku2Br24WCpmmMDI9wr72D4aEhVFWlvLKCF0++QF1d3Ubn7K3ntzNo9mGfmYeeu46Ozm8EXajo/N6zNbB2N7HidDh4660/oKurmw8//JDv/ufv8vSzT7OvdR+Clp4UDSYDtXV11NbVpS0likIoFGJhYZGlpSVmZ2aZnZllaGAYDQ1BECgqKuJrr76EyWwkkB/ga6+9xLs/fpehviGKS4q5/skNUgkZX34eK4ur5LqdLC+v4Mx1MDc7T2FBAFRIRBLYXTZURcVoC9P0xl/T9dP/k7Xx42gpJ5KUyXyRRIwWiVA0Tk6RmVRMRpIkFFnL/FaQJAlBE0gmUvgCXhZnljAYJAIFfgTg5tVbmE1mjjx1GCnj5jFIBhLROB99mM6Wqago55nnnqGwoHBjTLdO/hvj/hgT+rbXqCoWs5kjRw7TeqCVzo5O7t+/z/2e+3TcvYeGhtlsIRDIR9M0YvE4yUSCeCJBIh5H0zTsdgeHjxyhZW8LHo97V3Gy9bi7xaPsfPzQ89XR0fmNoAsVHR0+K1YAsraX7NzT3NxEeXkZv3jvfc6dOUf7nXbKKysoryinqLgQScrU19BEEA14PF48Hu82N8R6ZJ3p6WkmJye5deMWv3zvA15/8zUMkkRZaSn+gJ+xkXGOnDjCzWu3mJ2axe31MDM9S2l1MdMTM3iCLlIjSRy56W7D0bU4Tq8dAdCUtCDJb3yXyGwz6zMHiEw8A4DJYUJLJhA0sOSYSWQsK6lYCluOleR6CkeunfBKBEGA/IJ87lxuxxfwYzaZmRqfYXpymhPPncBhdyAKAgbJwOjwGGc/OkcqmdzIlslaUB5HADwukrTZ8dpiNnPgQCsHDrSiqirzCwvMTM8wPT3N3NwckiThdrkwmcxYLGYsFgt+v38jRXrzvm+36HyeQNnt+c59dXR0frPoQkXn94JHuXw+j23WFaeTP/rjb9LZ2UV3dzf37rZz++YtREmkuLiY4tISfL48XG4XLpdrowZHVqw4nU6qa6qpqqrE58vj/fd+yZlfnuGl0y8hSQYqqyq5/sl1LFYLzhwnc1Pz5BflI2gCZosVARGzyYIoSoiaiCPXQTIs4yvNRxRFNEXDarLicK+iJNwEmt9hruNbANhzbYgJGYNkJNeTw+z0Es48O4m1FL6gi+hKnEBhPqGlMA6nA4NkILwWoX5PPZoKNz+5hSfPS3NLE4IgIssKn1y6RNe9Lvz5+bz2+qv4/f5tImU3C8pOkfJ5Kb4708iBjfuRJZCfTyA/n3379mb2eXR43aMsO7pI0dF5stCFis5Xli8qTnbWVtn6fKtYUVWVlpZmWlqaSSSTTExMMDw0xMjwCFcuXd7YXxAECgoLqKisYE/jHpxO52bQpwh79uwhFotz/tx5rl7+hKeePkZ1TTU3rt1kfGic0rIS+voeUL2nOn18RUUSJQQ1bcmIrsVx+1zMjM+hpQRMZhOxiMr6bALiM6BJ5Pi/xzyvoAGOXDux1VUsVjMmyYSWApvVRnxxFbPZQiQVI9ftYmZoluKyIhZnlhAFiaKSQvp7+lmPRDn18imMBiOSKPKTH/6U+bkFDrUd4tlnn8VoNG6bsHdaUbLjuHV8H/e+wOMJFkjf94fFvmy85y7C4vPOTRcpOjq/G3ShovOV4texnOzGTrECm64gVVUxm0xUVVZSUVEBQDweZ3FhgeXlZRYXFxkaHubKpSt8eu06Tx0/xoGDB9IWB01EFVQOHjpIaC3E7Vu3KSoqpLSihMKiArrudfHMyWfo6eplenwanz+PyeEpPHluJoenyHXlMtk/TVljMUuzywzdHOXQa/8P82PzrIzGkFNrgEJiRaT+hf2Y7UbUKKTCMv6yPKY6F7BaLShxBYPRiJKQ02m5iMgpheKyYga7h/F43Thycrj04VXKKkopLilCEERmpmeZm53n+Refp62tbaNh32dqjzyGK+WL3IssO+9Jlt2Ey8PYzf30RQQK6CJFR+e3gf4t0/lKkC1//+uyNT31YeuErFtD3FzSxc0EbFYrJSUlNLe08Nzzz/Ptb3+bv/pnf0V5WRmXzl/iO//pO0xOTG5kmYiCyLPPPUt+fj4fnzlPdD3G0eNHiUXjrCwuU1NXQ3/PAE37GkkmUrjcbtAEzBYLJpOJoY5RKupLsdltLI4sU1xbSMuzDex9sRaLc4XCmgPUHavEbDITX02RX+YjuhjHKBko31NCZDlKfpGP0GKE0upi5icX8HjdmM1mQith6pvqmBiaIJlIceBQKwbRgEGSuN/dh8lkprm5KX0dn1Nm/vPG9nGWR+238948zrLbe33eZ2Hbdl2k6Oj8VtC/aTpfan5TAmUnnzc5wmcnxd2EiygI+H1+/vCb3+Stb/4hiqzyw+/9kPffe59oNIokSpiMJl574zVUVeXMB2cpKiqitKyUe7c7aD20H4NkYGp0mtr6ambGZ6ioLiO0HKK2qRqXO5exnikCRX5cXheTPbMMXh9j5OYkojjD2B0YvDJGdClOsMJPdCmOQTLSeLSepclVrDYbgiZgNJpwezzEInFqm2oYG5jAarVQVVvF+Mg43jwPBYUFCIJIMikzNDBIfX0tZotlm+jaKlK2CoKdGTOfJwIedU922/+LCJ7HfY9dz2HLHwX2yQAAIABJREFUPdbR0fntoH/bdL50ZMXJP4VA2XacRxQN220y2/nX+tZJTRJF6mpr+cu/+kueOnGc/r5+vvOfvks009smz5vH8y88z/TkNA96H3Dk2GHi8QTjIxPsbd3LxOgkRWXFmM0WYusJ8vx5DPeO0dzWREFpkOmhORw5DvYcqsNf6MNX5MPpWcNir6JsTwnlTaWsL8QwSkYaj9SxOL5CPJyksCzI2nyYiroyZkZnyclx4s/3MTM+Q3V9FZqisTC7SGV1RVqQiCLDA0OkUjJNLU2PJTYeJ633V+VxxMVval9dnOjo/G7Qv3k6Xxq+iDjJllX/dZbH4WGT3GfcCxnBYjaZePrpp/nzv/hzUskkZz48u2GRaGppIhAIcOfWXQoK0kG4ne2d7GlqwOF0cP/effYebGZpbpmikkKMBiN3L3VQWlFCTWMVy1MrzI0s4sv34vV5yHGHkBP5mCQTS6MrGZFSz9L4Kisza1Q1VhAPJ7DZbPjy8wgth6ltqmFieApBEKlvqmdidBIQqKyuzFyrwP2e+3i9XgoKCjau7UnhV3Ulfe77PkHXqKPz+4b+7dN54nkcgfKriIzfJA+bAHcVLIJAsKCAE888zWD/APd77iMIApIocfjIYdZW1+i618Wx40dRZIXb1+9w9MQRVpfXCK2E8ef7GLo/woGj+8nJcdJxrRtNhuZDjWgyjHRPMNo5QTI2zuqck5nBBUwmM/UH65i8P8vKzBrVTek+O6GlMNWNlQx0juBwOCgtL2HkwShlFaW4cl2MDo7h9brx+/2IgkgkEmV6aoaGPfWI0ma12d3SkbPrd3v80HHcYoV6ElwsT8I56Oj8vqN/A3WeaB5XoHze9l/XcvJFeFSQJ2yKlba2NopLSjh75hzr6+uIgkhdfR1VVVVcu3odm83OocNtDD4YQhIM7D+0n5H+UYIFQaxWK7cv36H5QBMNLXXMjs0xOTjN/qN7eebV4zz96lM0H3ZhMJTw3JtP03iggZGOMVIxmf3HW8jzeRnqGsUX9KEkNaLhKAePtzI9NosiqzTtb2Q9ss787AI19bVpISUZGBseQxAEqqqrHn79OzoMP9aYPUIQ/LZFy5MiknR0dNLo30SdJ5bHESkPW/9FRMivKloeK/hylwBcYCPg9pXTr2SCaM9kYlkkXjz1IpIocuHsBdqOHKKgsIArF65SXVNFdV01/T0D7GluIM/v5+bF28gJmWPPH8VoMNJ+tZP2C510f3KfxekuVhcddF7uoffmAxwOB4efO8jaQpjOT3rJyXVSXVfFWP84VXVVBAuCDPQMUlAUJBAIMDowhiSJ1NbVbLh9RodHyM3NxefzZawowoY1Zbdr3+3xttd8QUGwm8Xl1xEUT5oFR0dH57Po30qdJ5JHiZTdRMVuYkPT1MdaPu99duNh9TY+L6UWtosVX14ezzzzDEODQ3R3dSMIAi6XixPPnGB8dJzhgWFOv/4yFrOFcx+c5+jxowQLg3Td6ebA4f20tDYzMz5Hx/UuavbU0vb0QQpKCvAF8ggWKSiyDbs9QFV9BfX76ui52cfs2Dw1TVUcP3mU/s5BHE4H+w41M9gzSCKepPXwfgRgsH+YwqJCcnJzEAWRZDLJxPgkVdWViJl2AU8KDxMwn7fo6Og8+ejfVJ0nikfFo+wUEDtFxU4BsjU76FGLosi7ipdHiZZf1W20m8BpaztEcUkJH589TyQSQRRE9rfup6CwgMsXriBJBl79+mni0RiXzl7ixZdfICc3h6sfX8PlcfG1N0/h9rjpvtXNxOAkefle/AV+qhrMAHjyGxEEkfYrHUiixLEX22jYV8+DzgHWI+sceKoVWZbp6+6ntKKYPH8e87MLhNfCVNdVb5znxPgksiJTXlmBtuMe7RR8u43Xruv/iTO3dHR0vvzoQkXnieGLChTgocJEVhRUTXv8ZUfK805ry6MEy6/CVquKIAicfvU0iqpw/tz5jTTgUy+dJJlKcePaTYIFAZ594Vlmpmfpvz/A1157idzcHK5duM789ALPv/IMbScOEV6L0HWzh45Pu+i5cxPJEOXmuRlGH4xRVlPKU187gtfvJRqOMjYwTmVtBb5AHqODEyiyQsuBZgAmxiYRBCirKNk456mJKQySgcKiwscag8d2veliRUdH5xHoJfR1nggeJVJ2e75NRKhbBYX2me2PdXw2u/xm308UN7v1ZoWFqqmfsYrs7Lq8FVEQH2vC9ng8tB06xLVr11hcXMTr9eLL99PU1EhnZycH2g5Qv6eewf5Butt7qG2o5bW3XuWj987QeaebYHGAytoKisuLWI+tE4vFSCbj3DwfpaDsIIefc5DjdqJqKoIgEloJoWlQWp0WIqqiIAjgyHEAIEkSmqYhiOnxUEUVi81KSk6RSqUwGgwImpruFL1zLFUVUfzVOiTr6Ojo7ET/n0TnieXzRMpWC0jWMrJhXdllkVUZWZV33ba5n7YhdnZaWB52Xl+U3WJVREHg4KGDCIJAT3fPRpDq4SNtoMG92+0YJInDx9pIJZP0dvZiNJg49swRJEni9iftiIKIyWTCYbfjcufiyfOSF4gjaIW4ve5M+nB6Ca9FEEURlzs3XUlWktC09DVrqordYQMgFo1tnLc3zwPA0uLiQ69tZ9finZawh+73Wyjgp6Oj8+VEFyo6v3MeZ4LaTaSk13++QFE1FVmRt7iFdhcrjxIsW4+99Xx2O8edPKp+yFarg8PhpKKigr7evg2h4nK7qWuop7e7l2QiRX4gQE1dDT0dPSRiCXJyc2k7epCFmXnGBsYRM2nEkpiucWJzDDE1Oo8oChgkCUk0IIoCkbUIDqcDUUof35AJjlVkBQCbzQrAemR94/y8Xi8ACwufFSrZsft10cWKjo7OTnShovM75fNcPjvjUbL7bBUoSsZKkrWWyIqMoijbF3XHsmN7Vrxk30NR5W2CJStydgu23XneX6RWy87JvaGhgbW1NSYnJtPbVZXWA/tJplJ0dXahqiqtbfuRZZn2O/dQNZXKukryC/O5c6OdcHidlJwkJadQVJmVxe/Q3/X3pOQUiVSChBwnkUqwuryGzWklJSdJpBKogoqiKsQTcVJKCqPVhKIqrIVCpJT0+9nsVgwGifn5+cwYZgSful3oZcdr6zjtHJ/P+0z8ttok6OjoPPnoQkXnd8Zuk9DWiWxnwOzG5LVDoHxGnKjKhptHVmVSchJFkbctKTm57TVZ8bLT4rJVsGw9588TLI+87l3ibLLPq2qqMBgM9N3v23idP99PYVEhHXc70DQNl9tFeVU597vuE1uPoqoKB4+1oigydz69mxFjMkk5ReuJMDmeB+nYkswST8QJrYVIphJE41FScgpVU1BUlch6hJScxGA2oqgKqysryEp6PBVNweVxszC/kLlmLZMxpX3mGrde025j9EVq1+iiRUfn9xtdqOg80ezm6tnq4sm6dDRN27CIZMVIJBJmYmKCB/39TE1PE4lGkFVlY9kpXrKCRctYBLYKlt2sK1vPL31uj2Et2M1lpG4KIbPZjM1uIxrbjA3RNBWfL49YPI6qpsWU3WHLWIKUdICslC5drygysiIjK2mxkuOxs7q0lraKKGnrSVJO4va7mJ6Y5ebFO8QSUZweJwgan168QWR9HVGCHFcOvd19xOJRFEUhJacoKi5ganKKufn5jfsgq/JDrSq7jdFuY/JFMoR0waKj8/uFnvWj8zvhYdaUXR8/RKRsEyiKTG93DyMjo6wsr7C8vEw8Hkdj8699TdOwWq243W5c7lyqqquorqlGEARUQUPUVDRBRBU3g05VVd2Q8yLpmBJV0zayg7KZQVtjTR5n0t0pwLLIskw4FMblcm17r7m5efLyvCCkr2NseBxfwIfFZiGRStB+4x4pOUXD/noUVd5w12iohFZCfPzuJQrKAuSX+rHaLDQerWdmZI6+u/3cvSaw/2gL+55q4e6Ve3xy/lOee/kZWtqauPzhFTrudNJ29BCiKtDQ0kBHexc3rl3n9Gun0wG6qoomap8ZKwRp1zF6WJbUo7KndrI1M0tHR+erjS5UdJ4IdhMpWXdPet3DRcrw8DAXP77A/PwCdocdl8dFZU0lbreLnNwcbHYboVCI0FqI1ZVV1lbXGB0Zo6e7l0AgwNHjRygrL8MgGQEVUQV1Y8L9rFgh/arPiBV4vJTcRwWdrq2uoaoqLlfuxjgoqsLCwgKV1ZUALC4usry8wqGMu2d+dp7h/hGq9lRidaSFy9L8Mn2dDxgfmEhn8ygKA11DDHQP4iv0UVJVSF6xh/JEKUPdIxiMIs0Hm6jfX0vv7T56O++zp6WBovIiOu50UF1Xhdebh9lkprFlDx13Olk4ukgwP4CqCaiaujFW2QDdxxV0v65g0cWKjs5XG12o6PzW+bzy+J9dt7tImZmd4cLHFxgdGSUnN4eXX3uZ8soyNDR2xpV4fd5tYkJVVQYeDHDj2g1++uOfUlRczLHjRykpKdnVugJsc5SKfFaswOPXb9lZ+yV7fcsrywDk5OZsbFtdWSWZSODze1E1lYEHgwgCFFcUk5RT3Lx6E5PFRFVDBQvzi3Tf7WF2chbRIFC9v5JPPrhBQVUAh8fO1PAM8xPzzIzNkuvJoe5ANYVVQYYfjCIZJPbsa2B+aoGOW53kF/hpbG1genyG65/c5KXTJ1FUiaZ9jXR1dHPj2g1Ov/YKgiCiKDJIBkREZEXGIBk2xihzwelx26EphF3qzIg7LC9b1z1sLHWxoqPz1UUXKjpPJBvBs7uIlEQiwdkzZ+nq7MJoMnLi2eM07W1CQ0PVlI0gT9iZNZQWLoKQjueoqq2koqqc3u773L3Vztvff5vKqkpOfe0UdrsdVdAwkLGuqJn9t7S42W0i3oooio/IatpemC57nsvLK6iaRq4rd6O0/+zcHKqq4cnzIMsygw8GyQ/6MBglerofsLiwxL6jLYTXw1z+8AoaGmUNJfhKvGiCii3HyvTYDLWBSoK1fvIrfSxPLzM9OMedS/doeaqRRCLOQM8QBqOButYaPj1zk2sXrvPS6y9S11RN770+hodGqK6uxmg00tBYT9e9btqOHiLfn48oCLCLWEFLF8h72Dh9nnB5XNGiu4J0dL66SH/7t3/7qO2P3Kij80V5VGzKzmwYTctGmGhoaOlsHlnmnR+/Q/+Dflr27+X0a68QLApubFdUFVlJbaYZZ7KAVFXdFixLpriZIAr4Az72NDVgNJrp6e5hoL+f0rJSLFYzmaCQDXGzEfIibP2lAQJa5pFGWgxp2RTqLes3Fk0F0q4rLfNbVVVuXr9BOBzi6FNHUDUNWUlx9/YdlhYXaXvqEOPjE3Te66RhXwOCJHDxo8vkeHKobqrg2sfXicXiHHh+L3avjbW1ECM9owx1jrIeWie0GmZtZQ1FkcnxO3H5c1iYWGJ+coGyxhJUWWV8YBKr3UxRWSGjD8YQRIG6pjpmJmaZGJmguqEKo8FEni+P3q77TE9OU1tbi8FoSI9RZqwEhPQYsCnIBLJicXOsNu5zZkkPc3prdv/sT/Ye7Hy+FU3bfb2Ojs4Tzz9/2AZdqOj8VtktlXWrHMmu2c2aoigKv3jvfQb6+3nh1AscbDsAIhtpyooik0jFmZudZ2hgiI72Dq5/cp1PL3/K4MAQc7NzhMMRVE3FaDaAkBEKmoZkkAgU5lNUXMT9nj56unsoKAjizHGk4yq2TIDCdpWSnjQzj7ZIlW2CZOeyVaBomeudnJjk/IUL7N23l5KyElRNZWFxgbMfnaOmoYaS8mIunrtIUk7Sengf5z+6wPr6Om3PHqDnXi8To1PU7q8ikYpz/24/Ax2DrK2EWF+L4nDbcBfmsDy3wuLUMrPDc4TX1skvz2N5bo2l6SUqWsqQ4zLjA1OU1hajyAoTw1OUVpUQLAww0DuEnJIpKSvGZDLi8/vo6ehhcnKSmroaJEnaJla2irqt93j7WG2Klqy42xQbm4JlY98tIkQXKzo6Xyl0oaLzZPAwofIwa0ralZO2Nlw8f5G77e0cO36Uvftb0rVT1HQq7vp6hI/Pnufch+fo6uhidGSM9UgEt8dFYXEByVSKqckphgeH6evuo+NOJ6FQCH/Qnw70RENAwOG0U1FVzvDACB3tneS6XXjzPI8UK9vtPtqOyZgNMbL1Z6tA0TSNubk53v7B2zjsdk5+7UUkgwFVUzj30TnW1tY4+cqLzM7OcvPT2zS3NjE3N09/bz8th5sJR0J03u4mUJ7P/NQ8A91DxGIxPMUuCuuCTA3MsL4WpbAxH0+5C0eeDckkEV6KsLoQIliTx+pciOWZFcqby1idW2Nxdpk9rXVMDU+zHl6ntrEGOaUw0DtAsCiAw5mDy+0iz5dHR3sX01Mz1NRVbzRZ3GpZyd5zVVNB2GI5y8QS7WaVyn4GdgoWXazo6Hxl0YWKzpPBTqGyddLKvGKbNSXr0rl18xaXL19h795mjh4/linGlq4oOzU1xbs/eTc9WTZU0dDSQOvh/exv20tZdRnBwnzKqsqob66jsrYCf8CP0WSk//4AQ/1DeLwu7A472SnSarVSXVvF9NQMHXfvIUkSwYJAOhUXYdOSknEhARuCJfsDoGRE1k6RsrVWC8Dqyio/+P4PEQR464//AJvDjqapTExMcOnCZfYdbKGwpJCLZy+RSMTZ19bCpbOXcfvcFJYH+OTj61idVjQU5qbmKakvpKAhn/XwOiOdY6zMrrK+GkMVFBbGl4itxzHZjTiDDiJL64QWIxTU+Fmbj7A6v0ZJbSFzYwsIAuQX+BkbmCDP76W8uoyJkSmmJ2eobahBEiW8Xi9ut5uue53MzMxSU7spVgRB2BYflBV32Wytz4i8XUTLxr4ZwbLVHfQwS0sWXajo6Hyp0IWKzpPBTqGyc6LKvia7VtEUent6+eX7H1BVU8XJl14ENFJKClmRuXPzDmc+PIPRaOTUayeprq8m1+3EYBBR1IyYyRR30zQNo9FArieXgpICgoVBJkbG6e7oJZFMkB8MIGVSa00mE9W1Vawur9HR3kE4FKa0rBRBTFtW0LQtcSqbLovskrWU7FyyIkVR0yImHA7zg+/9gEQyzjf+8Bu43LmoWlqA/fK9X6IoCs+feo65uTmuf3KTlgNNjI+OMTM9Q+uxvdy4fItUKokn6GZ8cILCmiCCEfrvDLE4tYjJbsRoN7I6vUb9qQqQNBKRJKG5CKG5ME6/nWQsRXhpneL6AkLzEeLrCfKCXqZHZimvKyW8EmFxdpHq+io8eR76uwcQRZFgYRBBFPH58sjJyeXenXsszC9SWV2RDiTOjJOqKhu/1S3WM1VVN2KFsuJl07qmbYtpyQYfZ2NYdgqW3cTKdjeSjo7OE44uVHSeDLYKla2ZHNmQ041qpqTdPgsLC7z9wx9RWFjA62+8CqKArKT72Hz4yzO032mnrLyUk6++iMPpQFZTmSqzCrFEnMEHg/R19ZFIpbDYzRnXQ3oCtdttVNZVkkwkud/Vx8ToBGUVZRiN6WQ4SZKoqqkEBDraOxgaGsbv9+HMydl4D7RNV86jFkWRUVVlo/S+osgM9A/y3rvvEQ5HePOtr5Pnz9voRdTf94A7t9o5fKINr9/L5QtXiEbXaTnYzJULn1BaVcrKygpT49NUNpbT3zmAKz+XSDjCRP8UokkgUJuHzWNhsnuGpfFVTA4j9nwr7jInjnwbqqwSml3HXeQkGZFZX4lS0lDI4sQKnnw3qqyyOL1Mw/46xgcnkQwGauoqWQ9HGbg/SFlVKTarDUmU8Of7sFgt3Ltzj7HRMVbX1kilkhiMBoxGY0aEZMXJdvGy1fWXNaNkRQtsD1jOfoZ2CpbdLC1bP3O6WNHReeJ5qFDR05N1fmt8XgPCzeeb1pWbN28CGqe//iqiJG5YIu7cbufB/QccONxKS2vzZryKnGJ6epb+3n5Gh0dJJWUkg0hfbz8Gg0RhaSFlVaUEiwIYDUYEQeTg0VaKSgq5fPYqH/z8A06/cRqbzZbOCpIEDh05SKAgwKWPL/P9//oDmpqbOPH0cWx2O9kCcbtdR/aa10KhdLXcpeV0sbalZZYWl4jFY7jdbl5781V8+T7kTDpyPJ7g4vnLeH0eqmuriMWjjI2MUd1QxfjoOIqiUFlfwdmfnyVQ7CcSjqChkV+aR/uVTvIr83CVOAmHwgzeGkOyiGiKRiqZYrpzDoffhqfChafSSXI9xepcmIK6fGa6Fkkmkji9NubG56ndV8XAnRE0UcNf6KOvs4/ahmpaDjUxPT7DrWu3een0KWRVQlRFGprrESWR7o4ebn6avm8g4MxxEgwG8Pn9BIL5+Pw+nA4nCko69kdVEAXhM3VrNE1DFdI1UkRB3LV2zc4ictn78JkicnqtFR2dLy26UNF5ItitUFo4Eqa7q4c9jXuwWS3IGZEyPzfHJ5c/oayylH0H9qatKGraQnH7+h1Wl1cQDSLF5cWUVZfiyXMxP7vA2NA4E6OTjA6OYjKb2Ne2l+r6KjRNJVgU4MSLT3Hxo8ucP3OBU6+cBOPmuZSUFvMn3/pjbt+4w7279xgcGKR+T326sFkmJiNbNyW0FiIcTlfCjUTWUVQlc43pEv4er4eK6goCwXxq62sRRSGTuZS2KF27eo1IJMILLz+PisrI8BiyIlNSXsL1K9dx57kIhdaIJxJUFeXRcaMLT76LuckFBFHAV+olmogy1jFFKpki2JzHyKeT5JTYiEUShGfWia7E8ZbnYg9aWOpfIxFPYHGamB2dp6S2iMmeWTQ0RIPI9Ng09c31fPrRTXraezl8vI365jq623sYHR2jsqISWZARBZHahhrq9tSiyhpLi0sszC8wNzPPzMws/Q/6M6MpYHfYyc/Pp7SshMbmRixmy7ZCe0JGVOxWGXhrTZasWFF5vEq2Ojo6Xz50oaLzO+Fh1oettN9pR5Zl9h/cv9HsTlEULl+8islk5OnnT6Bo6cZ8Y6PjXPjoIjkuJ4dOHCJYko/BIGUaCaq4fS5y83JoPtjI/OwiAz2D3Lh8M92xuK4KgGBRgNYj+7l97Q7XP7nB0eNHtp2P0Wji6Ikj1DXUcPnCVbo6uhAQNlKcsy4Gm81GTm4OgUx6szPHicvtwu1xpS01W91fqkraC5J2ES3ML3CvvYOGxnq8Pg8pOcVw/xAWqwWDSWJhfpE9rfWMD08gGSTQIB6LU1QXpOdWH+5gLoomM9o5QTQUw9/gwegUEY0i8UgCW4ERk1siPBpjvn+ZvGo3ollgaXwVX4mXpcE1NEFFFAXmpxZxB1zMjs+zt62F4opCBvqGaGiup7qxkpGBEc68d5aGxkmOPHUYq82GqGWsH5JIftBPftBPY8seREEkEU+wuLDIwsISy4tLzM/NMzw0xPVrN2jZ38K+fXtxOBy7VgbeWmxva88ltlhKtlpSdKuKjs5XB12o6DxRZCfxRDLBnTt3qayqxOv1blSaHRkaYXJ8kmNPH8FkMiGrMstLK1w4cxGXx8WLrz4HIqTk5IZI2ezsqyGKAoFCP/6Aj+sXb3Dr6h1EUaSqrgpVU6ltrCG8FqGrvQu3x8Wepob0pKeJKKoMGHB53Hz9rdcRBWGb20HLCJZ0tstm+f7sNlVTSaQSmevcLso0TWN9Pcr5Mxc2rD2KKjM1OcXI8CiN+/YwPjKedvEU+rl3q4NgSYDp8RmMJiOphIyqKPiL85jsnya8uE5+TR4Or5WF8WUko0hsJYmt0IzZbsDWZGWxZ43wdJScAgehsXWMZgMms5HlyVU8QRdL08vsOVTP8tQK89MLVDdVMTs+T+fdbp569iinvn6S3nv36et9wOjQGK1t+2loasBgkBDUTRfOhmCQIC+Qh7/AvxEzMjczT/utdq5ducbtm7dpamnkwMED5OTkIAoikiZtCBZguysoW/FWVRHFzaq2umVFR+erhR5Mq/NbYae1ZFtX40wgbTbbx/TtvyTx9//ApcICTr10EmeuE01TEW/fpeX50/QdbaPt9Ek0NGzvvEvB//h3vHXpU1660U7g6i1ko4G1yhI0IBwOM9A7gMubiyCKG0cVRZGC0gKWF5fp7xnE5XHhcrsQESguLWJpYYnezvsEggFycnM2Kq1uZqOo6WZ/metSFCXjukln7KR/p11S2TTqdByNsvFcURXWQiFGR0bpuHuPC2cvEAqFOP7sMbw+L4lkgnMfnAM0jj1/lFvXbmOzW7HYLYwOjlLdWEl/1yD5JX7mJhcwWIyIRpHJB9N4S9x4S12E5iPM9y8Rmo+QisrY3BZsuRYMkgGDyUhkNkaO30EqooAs4PLnsjYTobAmyMpsiLxgHpGVddCgoqYcTYWR/jGKywpx5jgpLimipKKUlaUV7nf1MTo8iqooafdXJEwsFiMlp9KZPYK25dplFFXFZrdRVVNJaUUJsViM3q773Lt7D5PZRJ4/LxM/K3wmy2p7zb3MvwKfCa7VA2t1dL406MG0Ol8uotEYubm5FJcUo2jpGI+1tTUKgMbmPUiSRP6//Ffk/efv87MDzVj/l7/Bne/Fe+4KLf/yH7APjtL1V39E1+1uxobGSaRS7NlXB2RjHFQkSeTIc4e5/MFV7t3spLS8BEQJBHj6xeP88mcfcfHcJb75p28hWkRETURF3fyrfSOdWtzI7smmJquaSiwWZykTPBtdjxKPJ0gmkyQSSZKJOOFQhPXIOpDOMKqsqaShpR63x0VSTnDp/BUW5hc5/uJTKIrM0uIye/bVs7q8CoDZZkZRVHLcOYwPTeApcBFZXkeSJPylXhRBJh5KkoykSK0rpNZjhCeieIpzkSQDDpeBZSGElgK7y0oymsRRaWdlIoTJbMJgkIiFYviCeawspI9ZvaeSyeEpbly5zcnXXkAQRHJyHTz38rOMD09w5/pdrlz8ZNd7arfbcHlcePI8ePO8eL0eXB4XBoMRR66DEy8cp/XQfq5d/pSPz55nYnyCF069gM1qS/cNApAMkNW8W3tFClLGtbPdsqJbWHR0vvz+AA5pAAAgAElEQVToQkXniURVFRxORzrhNGO1iMXiADhznJjbO8n/9//IJ3/yJh+6c/mTgy2so7L6rTdJGUQa/9V/YfBgIxMjk2hoDPQMUlpZhCPHse04BoOBsppS7l3vILQawuP1IGgqJpOJI08f5qN3z3DnZjtHjh/ebLQHG+IJQEEhEU8wOTnJ5MQUy4tLLC0us74eJWspQkgfy2Q2YTQZMZlMeHxuahtr8OX78OS5kaR0EEZKTnHr2m0G7g/QfKCJotICVlbW0DQNu8O2cWyzzYwgQCIWx+XNJbwcoayliMWZReYGF8ktdjDTu8BE+yyWXDOiQWDyxgJqAiqPF5EIy4iiiMNrZ653CbffhRJPT+x2px00EEQBi9XC4vQysiJjt9jZe7iZm5du09vRS3Nrc3ocgaKyAgpLg0TXYyQTCZIpmUQsTiKRIB6Ls7YSYnV5lcmJSVQ1bdlwOOzsPdBCTUMNJoMJi93CC688T9fdbm7fuMPiwiKnX38Fvz9/86btECtiJl5FzBaA2yUTSEdH58uLLlR0nkgURcVisWw8VzWNaDQKgMVqxfX2Oyh2G1f3N2NfWECSJBQlPXuNfP1F6v7d98l95yOoLuXZV57m8odX6bjZxZHn2hDFTauKCASLA3Tc6GBsZByXx42UOV6gIJ+quko62ztJJZPkunJxuVzkuHLIyckhGo0yPjrBxNgEU5NTpFIyoiTiducSKAqQ63KS684lx52DxWZJ1w3ZJYg4fX0KqpwWID0d9+m6101tQzUNLXUoqkI4FELTNCx2K9F4NG25kVVsDhvroXU8+W4WOhYxm80EyvzcOdfJ/I+WcPrsHPnWPqxuM5JNZGl8mYFz43z67zvxV3nIDToxGAxoskZOnpNENIlkkLBYzWha2kVmsZrRVI1EPIHVbKWgtIDi8iI67/QgGQw4c5zYrDZMZiNmizldO0UwIpkkjBYJu5oOIK7aUwmk3S/RcJTV5TX6ewa4cv4qHe1dtB7aR3VtNQbJSNP+PfgDPi6cucT3/98f8tyLz9Lc3Lw5YJIhbeFS1XTcSvZu7hJcu9OqogfV6uh8udCFis4TSVlfH3/x3/01hr/+m424kkAqHVBrtVkwj4yRKC5gJbKOy+3atq9qMhIO+rGPTlF88ijHPr5OvLyQT/pHmZ2co6AkuO31docdr8/L5OgULa0taQuOCJqqcvDIAWLrMYYHR0kk4ptl4LfE2LjcLmoaaigoCuAL+hEy/WxUTSWZTLC0sEx8NpaulKukC51pWjqmwmA0IElpS4vBaGBxZpFbn96mtKKUvYf3brxPJBwB0kXqIpEwAEpKxelysLayRkFFEAGB+zcHuHWmnfW1KMUNQQ692YIipONiUnISX5kX/3+bx9itGfovjrAyEcZoMCGKEi5fDrMPFrE5bUiSAQEBySCR680BYGF6EVdueqxb2ppYWVzl7vX2jAjIxn1kuyVvbzSpaRoGgwGPz01efh7+oI+8oI+nS/KZHp+lp72X8x9doKu9mwOHWymvKMcX8PHGN1/nwpmLnPngLKvLq5x45kS6lYGqIiNjEA0PESJss6roYkVH58uLLlR0nkAERktK6P+f/nva2tpQtHQJ/J4f/Jjn/u+/x2Qyk54YBUJrIaoCVQiiiKiKGEQJTTKQjCfQRJH9pUWUfu8X/M3QOEcqS/gwKSN8+y0MkpSe8DIZJMXlxXTc6iIaWSfXlZ6MBVHEYrXw0munEAQRRZYJrYZYW03XSDEYDRSVFOHMdSCrciagVmV5aYXJiSmmJqaYnZojlUxuS2HedqVbAjuzTfwChfkcfGp/Jsso7coIhyMAmKxmjCYjgiAgyylyXbnMTS2Qisv0XO9jZWGVg6f2UbGvhAd3BlmbipBflUdKTmE0GEmmkkTmo4iqyJ5na4hHknR99IBcfw5NR+tJrcvkBb0YM/VhTAYTbq8bZ66D6dF0jx8Ak9nEyTeeJ5lIkUrKpBIp4vE4sWgMOZXK5hCnM6MkEVVRWF1aY3F+kak70+msHVEkWBSg5WATz5w+wfToDL337vPhzz9i74G9HDp6EJPZzKnXTnLjyk1u3riF1Wqh7chhIP2flyqoCKqwzaoi6sGyOjpfKXShovNbIVsMbeN5xiS/8zVkSqwnDRLJ4hLUygoUVUZTVdac6fgSAUhVlGG7dRchkcRoNCIKaZGiaipSXCF3YZl7dZUkPS7O/4d/gf1GB8H/8CP+9kcfMN3Zz/ifv8HMkb2ZNFcBf9CPgMDC7CJut2fXyc5oNOH15eHO82ykG6uaiqzKJFNJHvQ8oOteN2urITRNxWq3UlASIC/oxWKzpsvGC2lTikD6L345JSPLMpqqocjppnwl5SWogoqqbI5PPBpDMkiIooDZYkYQBMIrESwWC/fvPuCjt89RUB6k7kANLScasHtshBbDzI8vkoormCxGYtEoa4sRlJRMrjeX8r0lJMLp8VsYXeJH/+vPCZTnU1pdQnJdRhIlTCYjRslIQUkBI32jqIpKJpQGBLBYzVisZoCNRpGqqpKSU0TX14nHEkQjMeLxOJ4CFxVNpaiKyupSiOW5ZSaGJpkan6bxwB7qG2spLCuk82Yn7bfb0dA4dPQgRsnEkROHSSaSXL54lfxggLKysvQpiJkg58xnaasLSJK2u310q4qOzpcTXajoPHkIAiaTmampqXTFV0FEQcWf7wdgeWkJ4fVX8PyX7/H65Aw/t5pp3NuAZEqXci/+yYdYUjI36ip48PMLWO0Wousx1OMHOPSNU5zuG6btn/89sTwPw390mqlXnmV8aHyj0d5uWSLZ6qcbj7P9ezSN+bkFPr38KfNzC3h8bpoPNeILeLE4rETX15memGVlZRlEAVFMu1MkgwGrzYLT5UQS0wJEFEQk0YAqpN002fMQBBF3npuhB8MsL67gcueSF8jjwx+f5UFXPyaziQNP76P1mX1MjU3Te70fp8eOr8iH1WplZmyO8OI6oiTg/f/Ze+/gRu/0zvPzBmSQAEkEkiAIMLMZmx3IJjsHtUK3sjQey/Z4nPZsn713V3btbl1dXd3V7vmqvOvzbZ3D7TrNnGYkzUgajaSR1Oqc2YFs5pxzJsFMpPe9P0Ci2a3uGc1d1UxL835ULJDAC+ANaP2+eML3cSeT4LCSkmpnYXyRkc5xXB4nOSVZ9NYPMNI1xo//7hNyyrLx5XrJzM5EJ+vYWNvAZDbFTOa473ejbBb2RqNRxofGGeobYnpylmAwGPeViQ2ZjkWTRBESkxNxuB2kuJKpyt5LZ0M3DbcaGRsao+pQJWVVpSiKQsPdRpxuB1k5WYiCyIFjB5ienObKpat4v+WNfS6iMUdcQREQJfEL10wrqtXQ+OqjCRWNJwJBEB+w0TebTZsFqmFEKWap7vNlAtDXO0DCay8y+wff4sR33mZldicjSXaKKopJPncF/99+h/5vvUrx777O0pVbzM3M4fGmUbKnhIREK+2nj9H737yB/+OL5H/nfQr/y9tEcv1YTx0jITEhtj/bZs5sZ7tIWVtbp+52Pd3tMbFQeXA3ab401tfXGOofYWRghOmJmdjU4E3Dua3Uz1bKJ8FmxeNPx5vtwWK1IIlRZElCEbes+UVEQSHN6wYERgfHGBuCM++eZXpimuJdRfz6H71O6712BjuHKajIIxgMMtg9xEDTMAaznqwCH5YkC2srqyzNL7M4tsRExzQCMQM2SRKZHw1QXlPCa3/4Ep9+5yyNN1qYHZ2loDiPvOI8ArMBnG4noijFz4WiRJmbnmOod4TRwTGCwSA6gw6nJwW9UY9sENEb9egMegQRVpZWmJ9ZYHF2ia7WbgRVwGQxUXGgHEdaMl2NPXz+wVkqqnZSvKeI+dkFrpy/hj3ZTkpyCgadgb3Ve7h07gptrW2UlJbcb0V+KKqCsG0/tRZlDY2vNMLDOfOH+KkPamj8PDxs+rY99bNlka8oCvLv/yvWh4f53w/U8Orrr5KVnUVEiSDW1eN86jR/+a//kBf+/E9RVQXrez9G+r/+AcfoGJIks5qfxeivvcDYc0eIRmOmYrGUy/333wr3i4KIGFUI/8M7lH58Hl9gialnjjL2W6+yVpT/wOK2PX0QiYTp6ezj9s07BDeC5BXnsqMsn/mFBRrvNjM5NkkkEsFkNeLOcOHMSEFnlAmFwkQiEaKRKKqishxYYWp4hsBsAFEScbgcZOZ68fozMBj0SKIcr+WQRInP3j3L1bPXGR0Y48SLx3jqpWPUXb+HIEDlkd003G5mdmqWdH8a6TmpLAWWGewaIjAXa21WVAVREklMsmJzJGJJsDDeP8ny/DI5pdnkFGUz3j9BT1M//vxMOu91c+2zm+ysLiPFlcKBE9Xk7MghEo4w2DtIT1sfK0sriJJIqtdNaqYLu8vG6uoa8zPzBOYDLM4vshxYYX11A6NFj91lJ8llx55iY2Vhld7mASKhCEW7CnF73HTWdxOYWWRXdQWZPi+XP7mKPcnOC68+j8VsRS/r+ejdjwluBPn2738bi8mCTtIhSfJmZEpEFmUEQYzXIW2/fo8SLFr6R0PjieCxxWWaUNH4hbJdrDxKqGxtEwyF+E//8T+ya88uDh85HI9idHR28uEHH/L8y8/j9WUQjoQIBAJ8/ztv4c/1c/DYAcLRULywVVEV1G0W+kC8/kQUREKhMD9+5yNSU1284naS+b0fkXK5lsXKCiZ++xssHKyCbQvZRnCDG5du0NPdh9OVwu79uzEnmGhv6aDhdiOSTiLNl4rL60BnkBkbGme0f5xIJIykl5B1EgaTAb1BhyXRgiMthfXVDWZGZpkZnWV9NYjZbCKvOJfsAj8Gg5FIKMpP3vmMT975jBRXMn/4b/+Aop07UFWFhbkFrnx+HUmWqDyyh/6ufvo6B4hGI1jtVlIz3RjMOkIbYfRmPaqqsLa8xurSGnOTC4SDYYori0j3uulp7mekd5Q0bypVRyrR6/SMDY7zz3/1XUa7h/jzXTswvP4sHf3DBDdC2FNs+PMzcWc4QRSYnZ6h7V4Hs5Nz8SnXRosBi82M3qRjKbBCYDqAElWQdTqSnDZcHgez4wsEZhbx5WZSureY9jtdzE3OcfDEAXSynluX7lBUuoMjxw9j0BmYm57n4/c/oeZANQcOHkAn6dDJ+rhQ2UqhiZuDIreLFU2oaGg8sTxWqGgW+hq/ULYL4y2bc2Cb3flWLYPI0OAg01PT7Ny1M75tYmICDfcaCQWD5BXkAgIGg55wKEx7SztmswmH0xFbsEQRSRARtxawzciEvPntW4kqNNxuZHZqlkMnDmEozGP+1FPMnjqBaXSCzP/8D7g+PociySx43EREgY/f+4SJ8UnKdpdSeXAvskHmxsWbtDd14Pa42HtkF8luO70d/dy70cjEyCSiJKAzyKytr7O8uML81Dyzk/NMDk8zNTKN05OC0+PAm+fF4U5mdWmN4b4RhnpGGe4d5u//4r8yMTLJ7/0Pv71pDCdjTbRisVpiU4jT3Qx0DTA9NkN+cS47dhZitphYXVpjYnCCmfE5VgKrjPVPxCI400sE12K+MDtrytDJMu13O5kZnyO/OI89B3ZjNBhjaR4VjCYjOXMBTveP8PLVOpR0F2kvHqWwvIAEuxUVaK1rpaG2mVAohK/Qi7cgHX+xF7ffSVRVWJpfJtFpJaPEgzXZgiSLLM0tMzkyg8OTjM2RyGjfOPOT85TvKyUwu8hA1xCFZQUY9Hq627pJSk4iKSWZJHsSC3MLdHf2UFJajMFgvD//Z2uStRC73frZ/nl72EJfs9TX0HgieKyFvhZR0fiF8rj0z9bt9qhKfX09n3zyCc89f4ri4qL4t/Qrl65Qe7OWfTVV7KqsIKoorK2t8unHnzEyPILRZCQrN4vsvCxSnMmoqPHIyvraOgvzAWamZmlv6SC0EaKguICDR/c/+M1bFJACSzh+8GOS/uktFpaW+e9feQ691cKzL50kzZtKRIkyPDjExc8uk1eSS25JNjPTM9Rdu0dgIYAzw0FalhuL3UwkGiaixNqsBUEgGlEJTAcYaBlCb9Sz++hOTEYTOlmPXtbRUd/D+//1x6wur/LSt17gudeewWgw0NncQ1dzF9FoFJs9kezCbLLz/CwuLHHjUi2rK6sYjHpSUmPFqgajnoW5BVaWVrDYLJgsJgwGA6qqsLK0ylDPECtLa5jMJsr2luDL8RENRxgbnGCge5DAfABZlhElESkY5k8VhfIffspCTiZ3/ujXmMpJY2pihuuf3yDNn4q/OBNEleXlZUb6RhkfmCS4HgQRopEoskHGleUgNdOJrNMx3DLK3NgCpQeKEVWR7ro+cnZkU1iaz7VPbpJTkEPVgSoufnwJk8nMa998Bb3OQGBukR//4ENOvfAcJSUl6HWGzUhKTIhu/f5wRGX77RZaREVD44lAi6hoPBk8ykdk+xC57YZh7tRU+vv66WzvpKy8FJ2sAyAjw8PCwgIN9xpYCiyTle1Dp9eTk5+Nw+UgFAzR291HZ1snA72DLAeW6Wztov7WPZrqmunvGWBqfJq09FSOPXOMktLi2MImbfqqiFJsf0xGVnaXMf7Nl7mpk3nrwjXu3LzL2soabo+bBLuV6xdugCiw9+AuxkfHuX72JlE1SlFlAZ7cVJCgr32Auak5NtbXUUVAVBFEFVOCEavdwljfBCuLK7gzXKwurvDhP3/KZ2+dJS3TzYmXj/H0KyeQ5VgUKM2TRkFxHol2G8uLKwx0D9LfNYAkSuyqriDNk0o0qjA3Nc/40DjjQxOsLq0hiRLzU/OMDUwwNjjBxPAkc5PzJCQmUlFZzu7qXURCEfraB2i42cTEyCQWq4XSXSVUH65CliXGxqdJeeMFhp8/gr1nkL1/8xbW6XnOLiyxIUuUHyhhdXWV1roOOu91Mz81j9luwpOfSkZxGkarnrXldWaGZpgemiMcieD2OwjMLDE3MU9WcSZKRGW0bwJPVjpKVGVieJL84jxEQWSwexB/jo8EqxWzyUzzvWYSEhPIzs6OR1NEQQThfponPkjyocjKw59BDQ2NXzpaREXjyeDhiAr89KjKxOQk//SP/0hRcRHPnnoWVVWJKBGUaJQbN2q5fu0aqWmpPPv805jMZqLRCBElwsbGBr1dfXR3dTM1MUWiPTE2DC8lmRRnbCieyWyO78PjCmfvF/mqvPP//ID5uXl6Onu4de0OBcV5ONIcPPPaUzjTHZz94DyCLLDzUCmKEGVhfoG22x0sB1ZQUFE262Z0Bh1Wu4Uktx2Xz8Hs8DyDzcOsrwTpvNtDms/NS793msXpZdaX13nq5WMYdEZ0kg6DzvCAUd3ipg39QG/M4yQtIxWPz4M1MQFBgOWlZaYnp1lZXsVsMWO2GLEkWDBbLMiyzGJgkYnRSSZHp1AUBb1eh9fvJb8oD4crJSYdVYWpyWnOfXSBA8drcHtdhCMhEtu6Kfur75AyMsXFZ/bR8upBrl2sY319nWSPnaS0RByhEM9+0kBJ+xi2tRBLFgN1Wcn8fZaTgbUwJouRzGIv/fWDpGelUVCWy72LLXgy08gpzKbuUiP7Dlfhz/Lx2btnKa8o5eCRQ+hkHR+/9xP0egNv/OavxwtqZVFGkqQHCmqBze4pLaKiofEE89hvDFp7ssYvlIeN3x54bLPVdHurstvtprq6mhs3blBUXITP74stNBLU7N9HckoSZz45w7tvvc/zL58mKSUptiiZRMp2llJSXhyP4jz2fR+3UCn3b9bWlllaXKb60D6+/cffoqe7h//8v/0NtZdu0981QEFZHkaLgcqn9iDpJEZ6Rum81wUiFFblYbQbWZpfZHlhhfXlIGuLawRaFgkHQwTXQrTc6CASjnLwxX0cefEgRr2R0NoQcxNz8a8LgiDGRcpWsajT7SItLZ3K/ZV0t/fQ3d5NfW1D/BB0eh22JBsWk5ngeoil+SWCwSChYDg+7NFitbCjtBCvLwNXmiseuQLiKTO3y4UkSczPzpOWmYooiEzlePmz41UcHhzjWzeb2XO9iaVCL4svV2Gw6TGPT/Nnf/UZo3qJf5fnYsRqoNAi84etk/xzfyf/9jequNs/x8L4Au5sJ1OD06RmuEjPSmW8f4rCskIsCWYGugcoLCrA40unp6uPfQeq0ck6nKlOejp6CYfD6KT7+6yhofH1Qkv9aPzCeVz6B7bP0Llf9Jjh9dLR0UFvTy/lO8vjE4wFQcDpcOD1Z9LV0UVLUwsGo4GEBCtGowmBmIW7tJnK2boVRTFeUCuJUjxN8PDPVlGmqqoM9Q8x0DfInurdGIx65mbmWN/Y4Nd+9zVC4TBXz9xgqCdmGjc3Pc9IzwgJyVaKqvMxJZpQUZENEuZEE0mpm5GU0QVuf3yPzlu9VBwrZceefCLBKC6PA7PFTGgtwszELFl5PkwmMzpZh07WIYmxEQFD/cNsrAaJRqIY9Aa8Pi9lFaUUlewg0+fF6XZisVqIhMJsrG2g1+mw2Ww4XU68mR6ycrPYU72HvdV78Gf7sSfZEVQhlmaSYudGEsSYFb4kMTo4ysZ6kOz8LKKKQldLN2PD4zheOMilnbks943yJ62DFI7N0WrS8fyb17GvBfmDk8WEKrwsSQLti+v8JMXCG8MBCuZXqa3IZHZkHqc3hUhQYX5igfyyHKZHZlGV2GDI0YFxfNk+7DYb/d0DuNwuHI4UZEmmu72HtPQ0nA7HAwW18esnivHPipb60dB4onls6keLqGg8UTwqqiLLMqdOneZ7b77J+z98n1defwVZjn10FREy0j385m//Bh9+8BFXL17j8oUrpDhS8Pl9eH0ZuNPcqApsbGzEogmhEKFQiOBGcPO+EMGNDTY2giQmJrB3397YIrdpjy8KIouBJQQBklOSiSphhvqGSEiwUlhWwMT4BFb7KYwWA5+/d56ZiVlyiv0ceW0/BpORcCT0wDFurGxQ/1kzHTd7cHpTKKzKpeaFvQiKSP3ZJqZHZ0lxpqAzxKIEoVAk1mq7KaAioTAXP7vC4vzi/boMYguxyWTEYrVgTbBiTbCSkuTAl+nDYDQQDIUIh0KEQmHCoTChYIjutl7WV9dZW11jZXWVUDCEPcnG0ZNHSHGmEBUiCKJINBolNT2VztbOuPX86OA4DncKKe4Umu600nGwnNk/eI5jb1/g3//d50jA+/vz8O3PQ1GjJDgtJGfamO6f5a3URP6ka4rsN6pYmV1lZniO/PIcOmp7WZxfJtXrZnJkipJdxfS09DE5NknpzlL0eh1jI2MUFOSTnpGOJEuMjY6xo7DwF/kx1dDQ+AWiCRWNXziPSv9sn/2zXayIIqAoZPoyeeGlF/n4w494560f8No3XsVkMsUcSQUFuz2J3/rWbzI5OcnAwCCDA4M0NzbTUN/wyGGAD6PTyej1erpXV0GFmoPVRKLE00xJdjsCAitLK5gTTch6HQjEIzVGk5H9J/eRluXm3I8usji/xD/+L9/DX5RJxfFS0gvcRKMKrVe7uHemhcQUKy/+66fZWA6yurQO3E/Q6o16REFkaWEJSZSw2RPjM4kUReXa+RssB5Y5/uxR7PYkwsEw62vrrK6usb6yzsrKKmvLq0yNTREOhx84zq2IlYCAIIpYLGbMFgsOpwOvz4vJZKK9tYNPPviU/YdryC3IjdvkezMzaG/uYG5qAUdqEmaLmdXVlVgtiE5GUGA5NZl3/vgU9r/+Ef+mZZhTdwfYSE3kYqUPAGOCAXeuk772aUQgbX6VTpOeaDiKwRKbGaSqKjqDDlVR0el08ftEUUSSZVQldgySFOvw+VnXVkND46uNJlQ0fil8WbGytS2KQllpKQaDgR+99z5vf+9tnnv+OVJTUxGJRRUUQSTd4yEtLY191VWEQiGGh0eYmpxGliX0Bj06nYzBaECv12M0GjEajRiMBiRJIhqNcvHcRerv3iPFkULBjtikYJQITrcTQRCYn13AnGjCZDQRCoVjqSVZIhqJLeaSJJHiSub464dYWl7m9uf1fPT3Z9Ab9UQjESRZYt9LuyisykWSJHrrB2PdRoJIcCMWeTFsDvkLzAawJSei1+s3W2wF7ly7y9TENIePHyQ3LzeeCnrYQwRiYiQYDLK8tEIoGESvj9nZ6/U6dDodsizH0x7bC5rLKso4f+Y8Ny7dZHJsin0Hq5BlmfSMdPQ6PRMjEzjTUkhItDI7NYMoiBhMBhYXNgWXIDDgsAFwe28WL55p5dkL7bz7VCGXKtJRVXVb1dy2tIsmODQ0NB6BJlQ0nmi2UkBbwqYgP59ff+MN3n33Xd78zpv4/X6qqqvwZnrjqRFFUBBUBZNJJj8vj/y8POBBJ9wtlG2LoyiInDh5gkBgkUvnLmOz23GlOlFVkeSUZCRJZmF+nsycDAxGA5FQGGXzW380el+oQKxw1+Vx8PS3jlH9wm7e/T8+Zml2iW/8Ty9gNBnu76uiIuli/wwjGxEEwGQ2oiqwNL9MTmFWvIC2taGdwd4hdlftoqCoAEmUkUQ5Xm+zvrbB9OQ0kUgUWRIRJQlJFBElGUmSiUYVomsbrK9ubJ5bsFqtJNoS0Mm6+LnQJeh56ZUXuXu7jju1d5iZnuHIySPYkhJI86QyMTbJTrGMhMQEwuEokXAYo9HATDAcN9abdiSiAIt2C//+z57hP/zFx3imV2K1IwjkrIVQgFlHAsL8eizCE28nju0bgCgK/JRmAA0NjV8BNKGi8Uvj50kBbRcrfr+PP/nTP6G+vp47t+/wg7d/QGpaKvuq95Gbl3tfBKgKSPdbjaXYuLp4t0vsPYg/jhCbDfPiSy/y/Te/z2cff8brv/4aZqsZA5CcksTC3CKSKGM2mWID8SIKer0eJaqil2ORClGUkAQ53oliT7Jz4o3DvPvXH2IyGJFlXTyVIyixzhydrCMaVhFFCbPFzPryOoqi4nS7kEWJoe4hOho7KSwuoGLvTiRRZnlpmdnJWWamZpmamGYxsLi5wAsPFIj+rGJRQRBISEjAlmTDbreRlZb5FVAAACAASURBVJNFRmYG+2r2keZJ5fNPzvKT93/Cq2+8QmZWJiNDo6wurW2mpASCa2FMJhNKWIkfd9hmpT49icPXu5FUgYDdzEenKzAICpIS5pujARpzXIRsViRxDkESkDdt8HWynkgkuim05HhBtLxp4CZt1uXEWpDvf27EbUIndp8mcDQ0vg5oQkXjl8r/V7FiMhqpqamhsrKS5qYmamtr+fGPfozJbMLr9eLN9JLpyyQ5OTmeDolHVKQH25G3RIyqKIgCWCxmXnn1Zb7/vbf45MNPefWbLyMIIk6nk8GBQQTAbLEgCAIba7GUiqqoRCMqBr0RSRRZXVojyWUHYlGhjOw0VEVlcWqF9KzU2BurEAkpWBMM6GQ9GytBRFHCarEy3j+BKIg43U7mZxaor20k05fBgSM16CQdXW1d1F69FRM2JjOeDA9l5SWkeTxYLZZYXY6ioigKqnq/NXv7Qq4oCstLy8zPzxMIBFiYX6CzvYuWplZOPvsU+YV5+Hx+Xv7GS3z/X96it7sPX7afWvEWEyOTONJSEEWRpYVlrNbY+QithdFbjBjNJv66NIv/+3obz55p5NKxElzrCgljczz/43oE4M1Tu9DLBlAEZFmHpMaiMTpZRxQFWZRinVvilsusFOsVj3fzCCiq+gVB8rBPiiBoPikaGl9lNKGi8UTyOLEC22YEKgp6nY5du3ezs6KCzo4Oenp6GRoapLurG1VVsVgtZGRkYLFYMJlNmEz3f9ypboxG4wPRly3R4nK5eO70c3zw/gdcv3KTI8cPkV9YQGdHF13tPXj9GRgNBtoa29lRXkhbYzvdTd0UVhTgSnPS1zJIaCNEVrEfQYhgtSbgynAwMzyHLy+Wpupt7CcaipLuT2NlfpWJgSkysjxIosRg1zDuNBcJCVauXLuGNcHK4ZOH0en0rK1tcLe2nnRPOsefOobT5Yrbxt9vzRUfGL74s9ga2hgKBfngvQ+4dO4yTpcLW1IijhQH/mw/rQ2tFJUWxopqmzp4LvdpXG4XnY1dVB7dg8FgpKOui11HysjZkUXD/DI/8jj4Rv8ku2/3cuRiKws6mZuuRP7y1X3Y8r0ExhdZX9wgtzSLgZZh9Do9DpeTex0NuNJczIzPIgoirlQXCzPzBIMhUlNTkUSJ2elZIuEILpcbId79pKGh8XVD81HR+KUjCMIjOze2+6ts+WBsH1643RtDFEUcTieFhYXsrdxLSWkJbrc7Zkw2NcX42ASDAwMM9A/Q1dlFW2sb9+obWAwEsFgtJCYkPlCIigApycmEIxEa6htwuV34s32MDo/S39tP+a5SEAU6W7vIzPYi62V62ntJzXCTU5RFKBhisHuE5fllnOkOZFlifGCChckAKakpjPVOMjM6S1ZhJm6vm5ab7VgsJqqO7mGkd4zZ8Tn2HalkYy1Id2sflTV78HjSkSWZW1dvsbiwyAuvPo/D4UQn6+J1KqIYq0uRRAlRkrZFI8Sf+iMIAiICkiThy/LT3trOYP8ghUWFyLKMPclGc0MzsqyjZGcJrU2thEJhdu3bSU9HL4vzi+yoKKCvc4DlhRUy8zz4vA6+9cPL/GOxn/+5PIvvFHg4f6iImVN7Sd7hI7oRoae+n2R3Egk2K5OD05TuLSG0GmR2Yp59h6vobe3DZDSxt2YPbQ3trC6v8tQzJ9Dr9LQ1tzM9Nc0zzz6N0WCKdWBJW1450iOHEm6/3f4509DQ+KWj+ahoPNk8zrF2u5391t/boyux527eEktniJKM0+EkJcVBxa5d8e0ikTDr6+usr62zvLJMZ0cXrW2ttLa04nA4KNtZxo6iHZjNZkRVJEKEg4cO0NnRSUNdA1k5Wew/tJ8fvPVDWpraKN1ZSmdbJw23mzj63CFGBkZputXC/pP72FlVTmJSAs23W7n+cS1JLjvB9TAD7cO4vS70Bj2+/EzyyvJoutGCGlXZfXAXEjKDnUN4fOm4U13UXryD2WImryAPQRSZHJuiv2eAqpoqUpJTkCVpW32GiCxKKKrKyvIqK8srLC0tsby8TCgUxmw2Y7VasVjMGE1GLBYLFosldu7U+0XI9kQbz794mh++8y6Xz1/m5HNP4U5NJScvh7bGNopKd1BSVkxzYwu5hVlUHtjL9Ys3cKY7Kd9bStOdZmo/u8sbM/MIeh2rf/wi1RtBVBH0Rpn1lQ1GOsaZGppGrzeQW5RNy812Uj1ufDlern1yk7SMVAx6AwuzAar27wUFBvuGyC/IR2+IdUFNTkzhdrsxmUzAfcERt8r/EgMJNTQ0nnw0oaLxxPBl7PW3fof74mW7OdyWE6miKF+oXZBlHQkJOhISEnG53eTk5HLiqeO0t7XT2NjExfMXqb1Zy7d/99tYrdZYwaYks7dyLxfOXWBqYoqMDA95ebm03mtlR3EB+/ZXcfbT84wNjFN1qJJLZ65w7fOb7Dqwk9zCHBISE+hu6yEwt0h2gY/WW+1UHt1NijsZSZToaxtgcWaJssoSUhzJdDf1Eo0qlO4uYW15namxafZU7Yr5iShw82otNrud3Xt3PWCpLwgiYyOjXLl0ldmZudh52TzueDTqEVErf5affdX74l1TEDPR8/l8HDx0gCuXr5KWnkrpzhL21VTR3zdAS0Mre/btoae7l7vX6zl2+ijjIxN0N/dy4OlqDj9zkM67zRz7wXneLslmcnKR9Kw0FmYW6G7pZ25yHkmSSPOmkl3kp7OuG73ewK6anYz1jRMNK5TsLGakbwSdTkf+jnxGB8eIRhSKSoqQNwtsp6emKS0tve8mvC3982ULabU5PxoaTz6aUNF4oviyYuXhv7dHWLaKbrfzKOGiqCoGg5GKXbvYWbGTsdExvv/WW3z84cd8841vbpq9yZSVlXLj2g0a6ht55vTTVB+opre3j4a7TVQdqMTjbaf1XjvPvvY0J04d4+r569z4vJbSvcWk+1NxuB1ElQjhSJjPf3CBpZllPBkeZifnGOgYxpvtIacwm42VdYZ6RsjK8+NwOqi/3oBOp6OgpABJkmhtaGcpsMSLr76ALMv3j1GFC2cv0NLUgj3JTnXNPmw2GzabDbvdTkJiAjqdjlAwtOlAu8LKygrzc/Pcu3ePd956h3RPOiefOUmKIyV+fqr2VTE6Osq1y9dxuBw43U7yC/Job2lnR2kBB4/s5+yn5+lo7GTfwSpmpmaov97IoWcP8HuiDqNO5u6+UsZbBhloHSISjaI36Mgvy8WX58NkMtLXNsDq4hq7D1QgREX62gbx5/hxp7qpu9aAP8eP1WrlRmctKSnJeDLSkSSZwMIi0UiUtPQ0BFF8IJqiFc9qaHy90GpUNJ44HvftP/7YtqHe22tXHr5vq5bl4fu2Xv/B7QQSbTZsiYncvXOX4EaQ7JzsWNeJJBKNRGhqbCIpyY43M4O1tTVam9swmUwUFu+go7WDqdEpist3kJXvZ3pihr7OfmYm57An2TEY9KyvbNDR2ElwLYQs6ehu7iUxMYGqo5WsLa1x51I9Op2OA8f3s7G6QcPtJnaUFJKTm42qqFw9dxVflp+9+/bE2nU35/H09w1w/cp1du3ZxcuvvExOTg5paWmkpKRgNsdmBImCiE6nw2w2Y7fbcblc+Hw+KnZVkJCQQFdXN2Ojo5SVl8XOx6am8/p9dLS3MzI8SnFpEQ6Xg5bGFmamZ9mzbw8rK8t0tnYRiUQoqSimt6OPvuZOfvuHZ6h7ej+WV58i1eNCEERyCrMp21eM1WplfjJAf9sgE0NTZOX5SLInUX/tHmazmSMnD9FY28zSwhKHjx9kamyG7rZuKqsr8WZkIksy9XfqmZma4djxoyRYEpA2U2APX+cH6o7Q6lM0NJ5gHlujogkVjSeSnyVWfpo4eVQR7sPi5Yv3xSSN2+0mGAxSd7cOa4I15nwriKR50hgZHqGlqZXs3BzyCvOYn52nuaEZl9tJfmE+bS3tDPWN4M/OpKA0n4QEK+PDE/R19NPT1s9w7wiz0/NMDk+R7EjCleqk+mgVi/NL3L1Sj8lk4vipo9gSE6m9fAc1qnDsmaMYjUYGuocY6hvi2FNHsdlssaJZKRZVOfvZOQx6A6+8/go6ne6xi/T2hXzr/MiSTGpaKgaDnoZ7DaSnp2NPsseLlmVZwmIx09jQiNVqwef3YTabaW5oJqooVB+sJhqN0N7cwdrqOjXHqqm400Ruex//oTiP7u5hQhsRHK4UlhaW6WzoZqBziIWpADqdnvySfCRBpP1eJy63ixOnj9Pf2c9AzyD7DlSRlJTC5bNX8GX5OHrsCDpZx+LCIhc+v0D5znLKysvvFwxv63baSoc9fPzb0dI+GhpPFJpQ0fjq8dNqK7Y//mWEy8NdQ48SLlvP82dlMTExwb26ery+TGy2xM37/bS1tNDf109R8Q5yC3KZmZqhpbEFrz+D/II8hgaHaG/qZGMtSE5hDjvKC3GlOrElJ5Kdn0WiLYHGO838+X/478jK8zMxMsm9a43Yk+0cP3UMm83G6MA4Pe29VB2oinX6iDLXL93EYrFQfbAaWZTjEYSJ0Unqbtdx8PBBPB7PA1ODf9oi/bCYc7qctLa0Mjk5SXl5efxxVVVIdqQwNjZGZ3snO4oLSfOks7qyQmtTGwm2BMp3lZOQaKWzpZOZ0Un+1aeXGP3m84inj2E06AnMLTI2NE5wPUhqupvCkgJ2V+8iJz+b/o4BJoYnKSovouZINV0t3XS39lBSVkx5RTlnf3IOo8HAi6++gMlkRpZ0XDx3kbXVNV5+9RVMBuMDnT6Puvbbj/nhc6ChofHEoAkVja8uP0uwPLzdw6LlZ21z/777v+fl5dHR0UFLcys7inZgNBrR6/WkpqVSX1fP/PwChTsKyM7LZnJ8kpbGVvy5fnZVVqAoCj2dPXS1daOEo/hzfKRlpGFPtmNLtvP+dz/g+OmjjA2N03S7hVSPmyNPH8ZsNqNGVa6cu05Ssp3qQ/uQZZnZqXlaGpqpqqnCnereLPKNpX0unrtENBLh2VPPxGf3fJlFGviCsJNkiYaGRlLTUklKTooLFYDUVDcN9Q2srq6Sk5dDhtfD+PgErY2trCyvULazFK8/g+SPPqe4vYf/VLWT9YhCUnIyhSX5FFcU48+JpW3mZwJ0t/bQ0dRFOBThwLH9ZGSkc/XsDSZHpyjdWcL+Q/u5duE6gfkAL77yAk6nC0mUGB+doPb6LQ4ePkhOTvZD0RThgWjK9uPWoikaGk88mlDR+OrzZcTK9m2/rGi5//h94SJJEv6sLBobGunr66eouAhZkrHZbOh0Mg31DYiihDczg6ycLMbGxmhpaCXNk0pxWTHZ+VmEgmG6O3ro6ehhdGCM7vYeRgfH6GrpYmE2wNrKGr4cHzXHatDrdUiSRFNdCzMT0xw5eQhrQgKSKFFfW8/62jpHThyJWfRvpjhmpme4ce0GVdX78Pl88boS4f4v8QiS+oj/FFVBRSWqRFFVFYfTQWtLK9MzMxQX70BRoihqTKwYTAbC4RBNDU2kedKx2RPJLchBVVTamtvo7xsgO9vHqX96m47D1QwXFTAzNcPwwAj93YP0tvXS3zXA5NgUoWA4li4rymdvzV4WpheovXwLnU7HyedOUl5RSkdzJx1tnRw6cpCCwoK4GPns48/Q6/WcfuF0zDtmWzRlS6RsXcPH1aZoIkVD44lE81HR+Hqwvf34Sz/noW/TDw8nfNimf+t9XE4nL7/yMu+8/TaXL13h5NNPISKyp3IvExOT3LpxC3uSjZy8bJ5/8TQfvPdjLn1+maNPH8GT6eHQ8QOUlBfR3NjC6soqghiL2mT4MggFQ+yp2U3ujuxNwSQSiUTobushJz8Lh8sBgKqqDPYPkVeQh6STUNWYwBAUhd7uXlRVJa8gD0VVEJVYazGASKx7ShTFLxzvw+dv6zWDoSCSLDM+NkYkGgFBQFWVmGutorCnag+dHV1cvnCZX/uN15Elmar9lXi86Zw7c56Jv/xb5Mlpon/2R5xItKCoCqsrq8xMTjM/F8CaaMWV6sSaYCUSjjA1MU3tpVsE5gPkFeZz8Oh+zCYL3e3d1N2qp6CggN17diGKErIkc/vmHWZnZnnhpRfQ6/Tx9NfW3KQtHu760bxTNDS+2mgRFY2vJF82HfRTn/tQ6mN7/QqoqKpKUlISwY0N6uvq8fl82Gw2ALJzshgaHKalqYXs3BwSbAlk52YxPDRMS2MbNlsiKQ4HJrORTL+XrLws/NmZeLO8LAUWGewd4pu/93q8rkIUxVh0oqEDf64Pd6prs85EYLB/CFVVKSwq2JwyHEtxGIxGOlo7WF9bI68gP3YcbBmd3T8/j/sB4lGV7u5u3vvBuywGFqnevw+PN+MBkaKoCqIoYEmw0tzQjNlixuV2ApBoSyQ/P5eav/pbruZk8Uk0yvTEDIG5AOFQlESbnXRPKtFwhJGBURrvNlFXe4+hvmF0OpljTx1l7769hDbC3Lh8k6Z7zWRlZ/HMqZMY9EZ0so7WplauX71BWXkZ+w/sf0CkCNvqcr6MwZtWm6Kh8USiRVQ0vp48yi/lSz/3Ma63EPtWLsasbjly9Cjd3d2c+fQMv/P7v4Moisg6HS+9/CLf/e6bfPLhJ3zjjdexWhN49fVX+PjDn3Dl/FVCoRAFxQVfeN/CkgLe+ed3QREQJQHEzY4cWUQQQIkoCNuOy5/tp6m+heXlZWyJtpiLrKrgcDqorK7kTu0d8vLzKSgsQBS2HQ+PjyRsbbO8ssLF8xfpbO8gxZHC6Zefx+12EVUi8fOpqMqmaFHxZ/nweNO5U3uH3PwcdIZYl1HazTskLy2j/p9/QfLoGIsLiwwPjjwwqRpAkiVcqS4qq3PxeNJJ86QRiUS4e6OOtuY2JFmmZv8+9tVUx2puELl+5Tr1dQ3k5efx3KnnviBSHq5L+WkRFC3to6Hx1UMTKhpfKx61EP0s8fKoAYjbX8+g13Pq9Gm+/+b3uH71BoePHkIWZRJsibz88ou89dY7nP3sHKdfOoXBaOT5l09z5pOz1F69RXAjSOmuUpDuv19hyQ5CwRAjAyP48/yIsBkVAEmSiESiD+xfdn4WjXXN9Hf3U7Gn4oHHdu+tYLBvkPNnz+P1erFaLQ+kgB53rFElSntrOxfPXyQYClJzoJrdlXsQReGBKAoQFykQi0bsP1jDD99+j/q796g5WA2qivtv/pH53/wG/spd+Ct3xdJJm9OZFwOLrCyvkJSchCvVhV6nj12XqEJrUxv1d+4RDocoLi2h5kA1dpsdQRDZWFvn00/OMDI0wu7duzjx1AlkWUYW5c19+ekiRUv5aGh8PdCEisbXni9T1/K4ac1bNSt+v5+KXRXcvXOH/MK8uL9KuiedYyeOcvbMWWqv17LvQKxT5+lTT3HhrETd7XpWVlfYU7MbZbMWxGw24vVn0NHaiTcnI75foigiSiLBUJBwJIwoCCiSjNlqJsWVRGdHFyU7S1BUBVmUUaTY7fGnj/LO937I52c+58WXX4gVlqoK6iMW6oiqMjQ4xNUr15icnCQtPY3jJ4+RlJxERAmjRmOiZGufttI/cD8KY3fYyS3IofFeE/5sHzntXRj6Bun/l795IBUnSRL2JDv2JDsCAivLK4wMjjI1McX01Awz0zMo0Sj+7CwOHj6Iy+WMR0lmp2b46MOPWV9b59Tp5ygrL3ug5Xq7SHnc9Xzc50BDQ+OrhSZUNH5l+HkKcb9o1y9w/MQJenv7+OyTM/zO7307/tjOneVMTkxQd6ee1PRUvL4MRFHkyInDyDqZ5oZmZmdmOfrsEUAlokTJL8qju62H46ePxKMVUSUKIgQCATaC6+h0uljXjajgy/Fx90Ydw8PDZHgzUCUFiEUmEu2JVNZUUnvtJtevXaekrBS9rEOSdYhirINpeXmFwf4BujpjDrQJiQkcP3mM/B35CAKEo2EURblfl6Iq8agIEP87GAqytrpOujedjrYO3nv7Pf7dux9xsTAXNRLBqSgIgsDo8CgtTW2sr64RDocJBUNsrAcBkHUybreLsp1l5Obm4PP7HkjjtLe2c/7cBSxmC7/xW79JenpaXKQ8nO4BvlTKR0ND46uLJlQ0NDZ5WJzE79+cP2QwGDh48AA/+clPmJmZIcWREqsliSocO3GM5qYWxsfG8foygFiaZM++3TTda2JtZS3uS6KqCnnFuXz6/hkiSvQB4eTxpdPd1sPnH56j6tBeUhwpqJJMhj+dtiYTZz76nOPPHiUrOxsIsSVWynaWMDE2Qe2NW9y6efsLPipbJCcnc+joQYpKixBEYbM1+b44iUQiLC0vszC/QGBhgcWFRRbmAywtLrG2tk44HI4fG0BaQwvpM7P83XMnOKEqLC0uceXCVcZHx7EmWHE4HRj0BgwGA06Xk9S0VFxuV8zWX3xQeKwur3L58lW6O7vx+3288NILJCQkxAVK7H1/tkjRoikaGl8vNKGi8SvHzxNZ2Z7+AfD5fbGIwcgoTqcz1g0jiEhSrIU2Gn3wNcdHJwDYU7MHAYhupn9yCrMYHhhhdXkF2aiLb1+8ewd2h417tY2c+fFZincWU7KzCL1ez/HTx7j6+TXOfXKBA8c22FFUuPksPaqocvLUCRYXFpmanEFVFFQVlGgURVXQ6/X4/D5s9sR4akeJRokoEaLRKGMjY/T29DHQ18/KytqmoFKRdTL2JBt2hw2PNR2T2YTJZMRisWAymbjw6Xk+KC7ktX/zJ0iSxOVzV5ienGb/kf2UlpWg1+nZmvAsCgKSKH9BoKiKSsO9Rm5ev4mqqhw+coia/TXIUux/T9u33X79NJGiofGrgSZUNH5ledSk5sdFVWKPCSQlJZOQkMDY6BgVuyoQBZEomzUm0oOvp6gKg/2D6PQ60jypKGxGLxQFb7YXWZbp6eojvyQ3/pwo4PI4OXr6EC1322iub2Z0aJSaI/tITknm6HOHuXGhlivnr7K2usbuvbsBkFQZWZJJTEokOSU5Lg62oygKkWhsH8LRMKPDo3R39jDQP8Dq6hqSJOHJTGfHzh3YEhOw2KyYzKZHRmZEQaSprpm/HRnn8Jm3Y4JNFZgYnyTDl0HZzlKkba3XD4uULQO3sbFxzp+9wNzsHDk52Tz9zNPYk+wPpHm2zv3DAmVrP7bfPuoaa2hofLXRhIqGxmN4lGgRBIEMr5eRkeG4UdoWkiRturlu1nUoCoN9A3gy01FFlUgkSiQaIRQJ0d7Ujj3Zxmfvfc7Y8CiyTkbWyej0evz5mbEZOjUlpGa6abnTxucfnuPQyYOke1I5eHI/d67Vcbe2junJGQ4fP4wtMSFeZKuqKpIooaoPtl9DrA6mr6efu7fuMjMzgyzLZGR68GZnkJ6RhiBtdgVFIyiqSigSeiCiFDsHMeHx3f/yJk+/+BTJTjvhaIiV5SCLgUWKy4pQNmtVvmBdvyk+lpeXuXm9lvbWDmw2G6+89goFBfn3xc3/zyjK9udoaGh8tdGEiobGz4k300tbayuLgUWsNut9ISBANBITKpFohLHRcdbXN8jweYhGI4QjIUKREE13mmhv7sTlcbIws0BUVQiurhEJR1hfW6e/e4D8slyyC/2kpCWz/+kqbl+q49Jnl6k+UoU/x0/loT04XCk03W3hve+/y/7DNeTk56LKCpIqoygKkiTFu3AikQg93b001DUyNztLQmICNUeqyfRngCQQjUZYWVthaGCYhbkFwpEwoXCYSDhCNBJFEMDj8+DxezAZjXS1dNF8r4U//R//W4LhIIIoMjY6hqJEcbqdRDZ9WOJIMsLmeblTe5d7dfcAqKquZP/+/ZhMpvimP49I0dDQ+PqjCRUNjcfwqBSQqiokJycDMDs/h9VmBSAUDhEOhWIOs5uRls62TkRJwO1xEVWihEIhbl27zUDPIJm5GSS5k/jgXz5k9+Gd8ffaWFunvb6Ltvp2BnuGKNpZSFpmKlXHKqm/Ws/1CzcJhULkFuaSsyObtIw0bl+9y4XPL9HT1UvNoRqSkpJiRbELS8zPzxNYCDDQO0AgsERSkp1Dxw+Q4fcQVRXmZucYGhxheHCY2akZopu2+4IkIkoCsiwhyRKhYJjhwRGEqwLudDcXPrrE/uPVJLtsBCNBJFFmZW2VqBJlenoKlzvWarxlTicoCpIo0dfTx+3a2xQUFnD0+FGS7EkPRFG2p3vgZ4sULZqiofH1RxMqGhpfkq024omJcQBcLheqEvMd6e/tJxgM4cvORFEU5ufm6O3qpaA0H0ESWV5e5PLZa0xNTJFflou/0Mfk+CQLswFmpmcxJ5qIhCJEoxEK9+bh9KbQ29zPnSt1pLiSKdlbzO7DFdy73sTtq3eJRCIUlhRiTjBx4vRRejv6aa5r4Qdv/hC9Xk8kHL0/OVgUSHGmcOTkIbxZGUSjUfr6BqirrWcxsIiiRLEl28gtySHZmYSoE4lEo3F3WkEQkTfFysTwJG31HfR09OIvyORubT07K8vRSTKZ2RkM9w9z4/INPJ50Uhwpm88XkIiJvEAgAMDTz57EZDLHz+0XBcjPbj/WRIqGxq8GmlDR0Pg5GR0ZIyk5CavVQjQaW8y7Orswmoyke9OJKlHqbzcgyiI7ygoJLAQ4/+kFlpeWqagpw+V10dPeQ1/nADqDjo+/+ynJbjsQm9+c5LKTU+an4mgZMyOzDHaMcOPzm+w+tIuKg2U017ZRf7OBcChM2a4y9Do9uUU5eP0ZjI9OsDCzQHJKMknJSdiSEjFbzQjEhNbc7By3rt1mdGSMRLuVssoSnOkOFgOLDHQP0HyvlUgkjKKoX4goOdMd5JZkMzk6wc59ZeQW59DW2I6iKpTvKcWoN7L34B4+e/9zbt+8zclTT292TambLdAiy0srGAwG9PpYW/XDtSbbUz6g1aRoaGhoQkXjV5hHtSc/vDg/XEiqqiqjo6Pk5ObEvUc2Njbo6+2nqHQHgiAwMzNDX08/O8oLUJQo5z4+TygcoubEPix2M013m+lt78eaZMGZnkIkGiGjIB1ZiJQKYQAAIABJREFUJxMOhxntGef2uTky8tLJ3uEnKdVO680O7l6pp+JAOeXVJbTe6aC5rpX56QWqDlVis9kwmA3kFeYgFInIohxztlVVokqUYChIc10L7c3tCJJAeWUpzvQUBnqHuPjpJZYWl5FlCXemE7sjkXA0EjOg22R9ZZ2RnjG6W3poq+vgj/7XP6CwPB9BEmhv6gABdu4px2DQk1+SR3tjB+Nj42RkZKCICoqoIAErKytYLJYHzul2x9nt92kiRUNDAzShovErys8zvHD7trMzs2ysr+P1ZsTv6+7qJhqNkFeQi6Io1N+uR9ZJ7Cgt5O6tOtbX1jn03AEMZh23r9Ux0j9KRm46/uJM5mfmGegYIj0vLVbbEo3iyEhmoG2Y4c4RZkZmya/Io+xACa0327l3rRFhv0B5dQlj7gm6m3r55L0z7KmuIG9HHhD7Rx0hgizKBBYDDPUN0d7cwcrKKll5PgrKCujt7OHue3WEwiHsDhvFuwtRRIWRvjHGRsZjk6UFFUEUEEUBWSeTXe6j41+6cGY46WzqIjC3QNGuHUSjEdoa2hEFgfI95eQWZdPX2c/t67dJfd0dGyKoiEiKwtLyEtYE6/1zqyoIioAiKFqRrIaGxiPRhIrGrxyPEynboykPR1aUzfTF0GZbcnpGerw+pbOjE3uSHYfLwfT0DP29g5TvLmV9fZ3u9h6yC7NITErg5qVbjA6MkluaRXpuGqurK1jsJsb7Jmi62sLK4irRSBRPbirZ5ZmkeJIYbh+j5WYb/oJMSvcX0367k3s3GjGYDPjyMknPSKflThu3r91lcnSK/cdrQGdgeW6Be3eaGBseRVUhyWHn2P/L3nuHN5Lfd5pvBeRAEiQB5pxDN9k5p2nN9EijUZZseSXLQfbe8/h8frxe22f7bn0+39p3ftZn+7G9a1kn7TooWdLk1EHT05ndzdRMzZwzQYAASMSquj9AgKHZ0z3yKEwbLx88BFEFoFhVwO9Tn2/4ndyPxWbm0mtvs+xeJqfISXFNESteH33tffi8fnQGGavDQjQWIxqNoGkaMUXDvxJgtHeciYEpPv87n0YWZWZH5rlxoYVjzx5BUzW623sxWczUNdTSsKeO1hvtjI6MUVlZiSqqKGqMtcAqWVlZqJqGqKogpcRJihQp3p2UUEnxb4r34qTsxOTEBBarhfT09HjPFFVldnqWqroqNDQmJybRNI3ymjLu995HURSqGirxur1MjExSVltCcU0hA91D9HcMEgqFiEZieJdWcBZnE1oLMTEwg2SUcBZl03C8hvHuKcb7J8gpdtF4tJ67F9u53zGAMycbk9XI0acPM9I7QndbL+oFFZPZzNjgOHqDnsa9DeSX5GG1WVgLBnn7jXfwer3sPd6EZJC419LNwuwCBoueyr3lqCj4PH4kUUSvSUiyiChJuPRZXPrHUdKdaUwNTVF7oJr6I9Xcu9JL151u9hxtIrQWovPOPYpLCykqL6SrtYeBvgHKykuJqRKSJmG2mFnxrqyH1KRH7u/HIRX2SZHiySYlVFKkYGc3JdFFNoGmafFJAQsK0Ignmy4uLBCJRnDlOAGYnZnFYjVjsZiZHJvEkZWOwaTnzo37SLJEYVUhAf8qw90jpGfbcZWV0986iDXDTFFdHjElxsCdYUbujaM36UjPTqegOpflWQ/D3SM0HW2ksLKA4XsjLMwtkpefhyQqVDZUIMkSnbe7kCWZ6oYqGpsbkHQSiqqwFgxy5fxVlpc97D3WRCgc4valVgQRynaVYMuyMHhvmPnJBVRVRdGULTkqodUwU4OznP3F46x5gnRc6aaktpC8ShdT92eYys+mancFLRdb6Wrr5sCxAxSVFTDcP0owGEQn69A0DVeui96uPhRFQRIlBE1FekzBkgoNpUjxb5PUJz/FvwlUVX0sN2Wn3imJsI/H68Hv81NYVJhcNjc3D4Azx4mqqszNzJKdk83q2hqL825yC3NZ8fqYGpumsCIfSScw0DmIqmmU7irGkmHCWZzF7NgCESWKikZxYwGyQaL/zjBr/lVEnUhumYuF6SXcCx5yirOR9TID94ZQ1Nj6TaGsppTjTx/l6U+eZff+xqRICYfDXL14nYX5RZqP7CISi3L7SivWdAt7z+4mGgvTcqGVhelFnOWZ1J6qoOp4KaUHCyjdX0Dxnjy8cytYHRb8K36KdudizTYz0jNOwLeKOc1Eb+t9NFkjt8TFYN8wK15vvBQ6FmNkaISYEnefnDlOYrEY8/PzyXLvRFO6nXiUOEm5KSlSPPmkPuUpnnjeTaAkKncS9xNsd1OAZFgnN38jP2V2ZhaDwYDdbsPvD7C6uoYr18nEWHzdvMJc7t8bQJQkSmuK8bpXmJ9cpKiyAJPFiCCIuEqcLIwvJctyZb1Mxd5SEAQG744Si8bILXOhN+oY7RlHlERKa4tZXvAw3De2ZRududlYbdakuFpZ8fH2G5eZn1lgz+EmJEmk9Uobtgwr5Y3F3LvRQ3/HMGa7kZKGAtwzXjov9tB7ZYDhO+OMdU4yfHec+ZElKo+WEPCs0n97BEdBGtnFDmbH5sjIyyAWjdF9p4+y2hJUVaWva4D0zDSsdhtD/SPJGZrjzpPG7Mzc4x27h8y79DjHNkWKFE8GKaGS4onl3VyUzQIl8TewPmvw5se15CA7MTmJwWgkOzsruXxubg5XrgtBEJidjs+U7Mp1MTMxg9lixmQ1Mz02TUllESaTicHOYQxGPcXVBclOrDmlTpanPUz2ztBxvougL4TJZqJyTwnhYJSR9nFknUxJTSG+ZT/Lcx5KqorILc6hr/0+w32jO/6Pk2NTXHjxIoGVAAdP7sNkNdFy+Q6WNAslVYXcvdxBwLdKRVMp5nQzgx2jxCJRskoysedYMWUYkE0yc4OLWDJMRIIRsiscqJrK4J1RjDYjRpuRyf4p8itzWJxeZHHeTUFZHmMDY6yurlFSUcTszCwBfwBVU7HarFisVqanp+P7W90Qieq2fb/TMXvYcX4UiXPhvdxSpEjx00FKqKT4N8eDFT0bIgU2DWqbRIqiKoyPjlFQWADC+sCqKnjcHhyZGQB4l+NdVzMc6fi8PjKyMgivhVBVlcxsBwICfu8q2fnZ6PT6eP8QUcRZmIWqatx5rQPvnI+ZgTnCgRB2h43MnAz8ywE0FXKKXQiA3xNAFEWajjRisVqYGZ9L9hzZ3H6+6243FpuFp54/TX5JHkO9w8h6HftP72F8cBKdQceeM7swWgxMD8yQkZtO1ZFSsssyyC534Kx0YM+1sDy5Qv0zlSBqeGZWKNmbj96sY/L+NCV1BUTCEWSdjNlmYmpkitLqYhRFYXpyhoLiAjRNY2ZdxKmaitOVzdLi0sb+3qHC6j0f0x+B6EgJlxQpfjpIJdOmeOJ4VKhnp/ubRUp82dbB0r3kxuPxsO/A/uRjsViMmBJLTqgnydL6a2iYzCaCoSBWW7y52VogSJYgkJmdgXdxJdnQTBBE7t8ajK/jCxLwrDLYGndIRElE1stY08y4pz0YTQZ8ngBmiwW93kBamp1VX4CyqtL4+ptESiwWw+/zU9lQhdlqJhqL4nV7ychOR0DAs7RCbmk2sl5iZmQWURbJr3ER02LrIi0uzoauj5NRaCerIgNpSmRp2EM0HCWzKJ2ZnnnC0TCSTmLF48PusOKd92G0GpFkEa97hcrqCtA0/H5/ch/b7DamJqaTcyLtlEqrqiqiuFV4/aTZfF6lcmNSpPjxkRIqKZ4o3k+RknBTVE1laGgIDSgtK0nmpwRDQQAMBj2qpiLL8Y+TEothNJtYXl5Gp9dhtVpY8fgQBBFnvpP5mQXWAkF0RpnBtmEuf+sGz/3qh6hoLo13ko0p+L0Bpu7PMtU3TXZhNmpUYX5iieU5Dy0X7nLhO28TjUQBePuVKziyHTiyM3BkOch0OjAajUyNz5BblMfK8gqCLLAaWKOgooCleTeqqpDuTCcUDLM0s0xGfjqIGoujblaWfIgGCMciTHbMseeztShqDHOWEUZgedpLXlUOgiSwPOvFnGbCt+wns8rBwoSbYDCELc2Kd9mLJEkYTUYCK35UVUPTNGx2O9FolNXVVdLsaY8+ptpPXzM4dX3yxhQpUvzoSQmVFE8Mj9PIbfvfO4mUzSEJdT2pdnhomKzsLKx2a3J+n3AojKZp6NbnrZF18Y9TLBbDbDYRXAsCAo7sTBbmFxAFEWd+NsJdEe/CCqFgiJe/8iZPff4EtfurUdW4uyCJEo7sDCZ7ZihtLGHvqd3oZD19twcI+kOcfv4EsiRz5wdtLE4v0bivEd/yCp4lLx63l/GhSWanZnEvuLl+6SaapiFJEnqjno6b95D1MjElBqLG6uoaK24frspsgr4gswMLaKhEIhHmBpbQm3V4p/1EVqO4arOwZJpYmQ+QVwXmNBMBzyquQidzw4voTDo0NPweP9Z0G+6ZZVRVwWQxEfAHkvvcbrcBGj6fLylUVFUF8dFVPj9NoiVxzqQES4oUP1pSQiXFE8F7FSmPEiiJ36qqEgwGmZiYZN+BvUk3RVFjrK0FAS05wV7CUVEVFYvVjKZqxKIxslyZTIxOEIsopKenY0uzMtY7wQ9eeIdjzx3i0NP7t1QZqZqKd3GFaDBGRUM5Bp0BWdLFRUG+E52sQ0Qi4F2lrqmWfYf3JOfLEQUBQRBpu9XOyMAYz33uWdyLbu5cb6WnrYeS6mLu3elGDSoM3RtlYWqJSChM33r4SZJFzBkmJFnENxug5mwp1iwLKzN+gosh0nPtzC0vEfSEScuyszDsxmQ1IQgCoiYgCiKrvjXSMuzMjs4RDkWw2W0EvBtCxWa3AeBb8UEB6+EfKfm/iwCClDxOgiBuESiJ4/NuguVR1ULvlXd9r1RIKEWKHykpoZLiieXdQj0PC/Mk1lVVNZlD0dbWhqIqlJaVElOV5PODwTU0DQxGA6qmotPpgLjTYrVZQRBYWfbhynEiCiJD3cPU7a3GZrXy2j+9SVldKSc+fBRZkBAkYb3iSGNpxs1I5wQmk5GCknyMeiOzY3MoUZXsnCxkUcf9tn7QoKikEFmSkUQpOUiKgkgwEMJoMKKTdeTk5ZCZ5aC0upSznzjD2uoaBZX5pDlttFy6S2FdPhaHkZY3WomEo9hdVhbGF/HO+TFajOTVuAh5woS8UbIKM1mSvQQ9IZwF2SwJnmT1UjgUxWA0sBYI4nLFK6FW/atYrGYWZhaT+9+2PtfPysoKqqYh8WAvFVXTYD28spNY2X5Mf5hz4t3YLkw2P+9xREtKsKRI8f6REiopPvA8qiLj3UTKTmGe+Hoa0ViUmzdvcvPaTcorynDlurbkrXg9HgBs9vjA68zJRhAEpidnqd1VjdVmpb2lg7PPn6F2Vw09nb143V7e+M4FsnKzKCzPp+VCK5qmojPoMJqNaGj4ln1Y7Bbq9lVj0OmZ6J9ipGeUvIIcisuK6WvtZ3J4mur6KgqKC+IOy3pibqIXS1VdJe+8dYX+rkFqd1eRW5DL6NAY3iUvWa4sFqYWKazKx2q3MDs0R/3xGkrqi5jon0JAoLA+j1hUofvNQaKrMVRFw15iI7CwBppAuiudUCCCIIrIsowgCFhtVqLRGYxGA5qqIQgCkiwjyzoUZaPLrd6gx2gy4fWuPHgcHxH+eS+hn3+Nq7L9uTsJpEcJlpRYSZHi/SH1SUrxRPKoJm4PEymapqGoCrNzs/zj//hHrl+5TkVVBU8/+zSst82PKTE0TcW97MFgNGAwGtC0eKWPK8fF+Mg4er2eg0cPsLK8wkj/GHsP7aFxbwMv/tOraKrGf/zT/4Uzz51i77EmaptqyCvMxWQyIQkS9XvrOP7sEdSIRsv5NsZ6xykuL+bwqYP03Y2LlIbmOvYd2Ytep0cSZXSSDlmUkCQZSZIpLS+lvLqc3o4+Vjx+SsrifVzGByepbqwkHAzjmV+h8VA9sajCWPckhVV5FFTkEfKH8S+sklXgQNZLrMz6KajOISs/k+XxFeyZVjJzMgi4V7GmWYgGo4iCiNFkQNAErHYr0XA80ddkMiGIwgOOid1uw7cuVDT1wfDc9tDc1t42j27gt9M6iR45j3vb6XUf9diW5amS5hQp3hdSjkqKDzQ7DQYPG6Q2lm/0R0msnxAp0ViUWzdvceP6DQx6Ax/52EeoqCxPCpTEIKpqGsvuZdIz0re8T0lZMTeu3mLVv0pJWRH5Rfl03e0ivyiX1779BjqdzMFT+2m92snB0/vIdDqIKcqW7VucW6Ltcie+ZR/pmRkcOrGfLGcWd6+2MT+9wJ6DTTQ01SFJcYEiSfJG/kZMRZIlJFHk0LGDzE7P0XLlDmefO01FTTk9Hb3U7anBnp7GRP8ke59qory+lIF7Q2S40iipLyK30klUiRJVImTkpPH212+y97ld+Gb9qFGVguo8tKjGqjdIcXUhq941rHYLmqIhCGBLsxLwrCEgxMXLusuzWaykpaXhXlpOTk6oaiqSsLVQWdU0REFIuhOJENDDjvFO7NRA7t0ExGYXJPFcYZubslNY6KclwTdFiieRlFBJ8YHlUSJlp8kFN4uU7bko8wsLvP7Ka8zPzVNVU8Xpp05hMBkeECjx56i43W6KS4tQ1mdRVjWV4nWhMj46QU1jNYeOH+L733qBP/oP/5m56Tn+9O/+mKgS49rF61x66TKyTkbSSej0MgaDHkVRWZp3YzIbOXBiP8XlRWgq3L58B/fCMgePH6C2oQZJlJEEkdVAkOUFN4sLSyzOL7GyvEJ1fRVHTh7GarVy9NQRLrx2kfv3BqhpqOb+vX6mRqap3VXN7at38cx5qayvYHnOw0TvNLuy6jAbLUSVKOGoTFljKYM1Y7S/2oOrNJus/CyyXVlM9c0iSzJFFfl0XO4htyiH0GoYURCxp9lZnvUi62R0Oj2SKCWPl6qqqKKKLc3GyPAoMSWWnJyQxKETN36piT+SuR8//PnxOI3k1E0hqkQYDbaGcTa/6qMSfFM5KylS/OtJCZUUH0jeT5GScFGuX7uOwWDgw89/mIqqclR1I8yzWaComorf72dtdZX0jPSkSNE0FZvdRkZmBiMDI1TXV5GRkYZnyctg3xDPf/Y5IuEoeUW5PP/ZjzA6PI7P6ycUChIJR4iEI6hRlab9u6ioK0dVVKZHZhm5P8qqf5Wjp49QUV2BoMFg7zC9nX2EQ3FxoDcYcLqysdvsDPQOUVBQSGllCWXlpVTXVNLfM0BFdRmFpYVMDU9z8sPHycwaZbBzhF2H62g+upvrb9xkpGMcV0k2giwQjcXQVI09Z3bx0t+8icVmZs+pXSjBeIfa/JJcRE1CUzSynJkE/SF0ej0mk4lYJIZxvRGeIAgIbA3/WK3xMm/fio/MzCxEVUWNK5M44pZfqIhJdwV2Hvg3nxObRclOYZx3IyE2FG3DTVEVJSlcEm+dSPDd/JyHuSupnJUUKX54UkIlxRPH9hLk+GM7i5Th0REuvnkBt9tNWWUZZ86exmgyEo1FHhAnqqaytrbG/Z5+uju7ESWRvMJcYmpsy3s17K7n6g+ucvn8O3iWPbz18nl+7z//Du6lZW693YI1zUZDcx11jbXJ7dw8k/Di3CLdt3uZGptCVSEzy8GRk4fJL8hjZnKOtpZ2Ar4A+QX5VFZXkJPnwpGZiSAIxKIxXnvxdd65+A5+v5/de3ax79B+piamefuNd2g+2MTc1Bw3f9BC86HdtFy+zd3LHRSU5dGwv477nYMMtY+iqvHOtAlyS3OYGZpndTnIRN80BqORivoyhrvG0Ot0ZLuyudPbhjMnC1nWEQqGMVtMiIKAwWgAILgWxGQ0oWoqOXkuNA26uro5efIEqiYgqqCKIGpiMrEW4iJA09Sku7JZsGw97juLk53ylZLLdigt3iI2NpdFP8Tdedzy6ZRYSZHih0N4tynWgfc+6UaKFD9i3qubspNI8fn8XLp0kb6ePmx2G6fPnqKwuDDpjCTyRhKt5Odm5ujq7GZ4cBhFUXDl5bD3wB7yCnLWt0nb8t7dnd18679/m8sXrvCf/uwPOHn2OIqqMjo8Ssfde/F5gTQNo9kIghDvQyIKxGIKwdUgOr2OssoSKmsrcbqceJY83L3ZysLsIhmODA4dO0RxaSGyFK/42TwAxmIx3rl0hYG+AYrLizl26iher4dXX3wdURRoaK7n5tVbGMwGmo/sZqh/mOG+EXRGmcpdFUg6gZgSI6bG4m6IIBBaC/L3f/gPFFUVsOtoA40H6gh4V7l3I57zopN13G8f4MxHTpGbl8Ob37tAXn4uJ8+eYHnRy/mXL/DsR89RXlmeLKe++MYlRoZH+fgnP0ZlZRWiEO/DIogisiiv7xMxOeAnfj+srf67iZPN1VyPQkiGfHjo+2+4K1u3abM4eVjeSkqspEixI8LDFqQclRRPFDuFfLYsV1VmZ2f51je/TSQc5uCRg+zdvwdBFJKiRFnPSYlEIwz2D9HZ1snS4hKyTqaqrpLquprkRISxTTkNm4mGwlz5wTUOHTtALBpDU+MN4SqrKymvKGNyfIqlBTerq2tJ1yZxWZBfmEdxWTGqojA1OcPVe9eYGp/GZDJx8sxxahvr0Mv69fmChGQfkwQ6Scczzz6N0+nk+pXrvO71cfbDZ/joJ57jtRdfp6uth0PHD9Jy/Q7X3rpBaVUxJ545TuftTrpbetE0FUuaBQQNUYqLIL83QFl9KSM9Y/zsr38G32KAwa4RHFkZlNeUceW1a7hynbhynYBIaC2Mdb2xW2aWA1knMz42TmlFKaqqIggCp86ewrfi59WXXuOzP2smP78AUOPOiqAistVZSfCwYf5R4uTdnJXkawsiaJtCOaqKui1HZXvuzMN6vaSSbFOkeH9IOSopPnC8m6PyKDdlamqab3/r28iyxCc+/QkyHOnElBiKGot3nFVi+AJ+ujq66L7Xw9rqKhmOdGobaymrLEPWPTiF3vYByXf5BgX/8+/z/33hMzR+5CmuX76BJElkOTNx5jhx5TjJcmVhMpvWt1WLT3AYjREKhZmdnGF8dIL52XiTNKvNQlVNFc37mjAZTYiiiHvRzeTYJIqiARqqGg9ToWlUVFeQX5APwMjwCG++9iaCIPDsx8+hKCqvfP8VNDSOnD7I4P0hBu8PIsoyVY0V6A06JkYniUQjxGJRYjEFVVERJZHKxnL+7o+/htVupaqxHEe2gz1Hmlhe9NDV0sPJc8fJK8gltBrmje+d5+iZI1TXVCJJMjfevsnc1Bxf+OV/h15nSLoqwbUQL3znRWLRGJ//ws/icDjizevWnZWECBM2ORg75oC8izhJnhPqu4SA1iuMYJNzss1N2ezwbHdXflLOyuNWMKVI8QHgoY5KSqik+MDxYDXHgyIlsZ6iKsnBanp6mm9941voDXo+9dlPYrPbkiIlpiiseL203LpNf18/0WiUwuICanfVkZvvQlvvobK950cCYX1QMM0usOvnfo17RQVE/vtfIEoys9OzTIxNsjC3gHvBjbL+GgaDAUVRiMViG6+z/lHNzMqkuLSYsvJSnC4nkiQRi8YYGhimt6uXpQV3fOCUxGRXWlEUURWVaCzK4WOH2HdgH6qmsrS4yAvffZFYLMazHzsHgsbL33sVRVU4fOogoixx9+ZdZqdmsaZZKaooRNZLyPr4/EA6vR4lFqOvo597t7u4dekOv/p7v8TeY00ICLz98hUMJgNPPXcaWdKxOLvE1fPXeeZjHyI3LwdJkpmZmOXyW+/wzHNPU1pWiiRJyKKMJEkEVgJ8/zsvYjAY+NznP4vdbkcS5S2hoK3iYOfvs0T1VuJc0NaTnAP+AFPT03iWPYTDISKRCJFIlHA4PldTfkEeuXm5ZGZlYjQaHxQhO4gmccvfO4eCHkesbH7Ow/hR9GNJiZgUP4WkhEqKJ4Mf1k0JhoJ89StfRdVUPv25T2G1WZO9URRVYXFhgRe++yJra2tU1FRQ01BNekZaUuRoqkpM3TnMA/GBSL/ip/nnf4NgaSF9/+8fIep0W66w4zkoMZYWlliYW8TvC6yX8OrQ6XTIsozBYCA3L4f0jHQEIV4p4150098zwMD9QaLRKFnZWexqaqS2thaT2bRlEAyHw1w8f4n+vn7y8nM5+8xZbGlWFpfcvPgvL7AWDHLs5BEc2Rm89vKbrHi9OHOyadhTx1owxN2brfi8Kxv/twYQn/VYFEXK60q5/NpV1gJB/uOf/gYj90fputvL0acOUVCcjyTJzE3Oce3iTRqa69hzcA+yKKFqGi9+42XQNE6cOU55ZQWiKCCJMrIks7SwxEvffQWdrOPYyaM0NDZg0Bt2FAsPPTc0FVVRmJmdYXpqhpnpGWZnZljx+dC0+P8giAJ6vR6dTl4XYAormzrkpmekkZ2dTXVtNZVVlUhS3N3ZyeVJLNtJrLwXZyW5XBR/7E3iUoIlxU8RKaGS4sngYUJlJzclMXmgqqm8c/kK165e47M/82lyC/LWXZTYeqLsLC987yUQ4NmPPY0tzY6ixtZzVbQtYuVhc75I4Qj7/v3vgSTS9ZU/A7N50wAWFymbr7KTv8UNl2Cj0gRmp2cZGR5jbGSUgD+ALOuorK5g1+5d5Bfkx3uPJF9r6+db0zR6unt5+9LbKIrCoaMH2dW8i0DAzxuvvsnkxBSVNRXsO7yXgfuDtN9tJxAIkFeYS0NzHUaLiWBwjdVAgLW1EMG1IHqjHkdWOkaLkaV5N//hi7/Ll3/rF1iac+PKd3LkzCHEdWdHQKD1ehsjA2M07d/Frr27kEUJvy/AjR/cxL20TE19NUeOH8FgMCTdFd+Kj2tvX2dmapa0NDt79++lcXcjRoPxAcECWzva+nw+uru66e7qwePxoKFhtVrJycvBlePEmePEkelAkkS0bV9rfp+fpUU3S4tLLLuXWZhfZNW/itOVzdETxygpKUaSpKTLk2iwl3BX5PW/3w+x8pMiJVhS/BSQEiopngweJ+yTWCcR9nG73fz9V/6esopyPvztAbO/AAAgAElEQVTcORRVSYZ8JiYmefmFl5FlmXMfewaLzYKixojGoiiqwsTYJIN9g6iaik6vQ5Yl9AY9er0eZ66TLGcWQkxh32//CabpOVq//ueQkb6pcuXBq+/NSbACAgF/AI/Hi9fjZWlhifGxCULBELIsU1xSTEVVBVWVlRhNxq2D4aZBW9zU0yOB3+fnrTfeZHh4hLz8PE49dZK0jDRu3Wih5WYLael2Dhw9QLYri+57PXTc7SAYCmK1WcgpyCEtw056Zjr2NBuaoBGNRljx+Fjx+njpm6/QfquTD3/mHB/+9DOYLeZNIizuBN2+epexoQmaD+ymobkh/riq0d3eS09HL/Z0O089fZqc3NykuyKJElPjU3S03mN+dg6j0UTTnt0072nGarXGB39NIxwKEwqHmJudo6e7l/GxcVRVJb8wn9q6GgqKC7BYzA+UmCea8z1wXq3nGcUTYzWG+oe5e+sufl+AouJCjhw/SmFhwRZ3JSFY3m9n5SdFSqyk+AmTEiopngzeTahsd1M0TSWmxvjev3yP4eFhfuGXvoTJak66KaMjo7zy0qsYjAY+/PFzmMwmokqESCTMQP8g3e09eJa9GM1G9AYd4VCYaDRKLBpF0+LlxPsO7+FTL5zHebuTO1/7M8J5Ocnci/igJiNLcfcj8bjH7WGof5ipyWm8Hi+xaBSIlwGbzWZKSoupqKykpLQYg8GYdBJgIxdGQGA1sIrBYMBgMCTDRNuJKlF6urr5waW3CUciHDi4j+Z9zUxNTfHWG+fxrfhIz0ijoamBguJ8RoZGGLg/wOLiEpFwBI345IImk5FAYHV9P2uoisJr332Tsx89zZd+7QsPdH1N9DppeecO4yOT7D3cTN2u2uRAvjjv5sbbNwmvhWg+0EzzviZ0sn5L7sri3BKdbZ2MDo8iyzosFgvhcJhoJLrlvexpduob6qiqqcKWZtvSoC/hqK0GVllaWiIUDhONRIhEIkQjUVRNo6CoAEdmBpK0yQET4mGYvu77tN/pIBwKU11bzYeeOYvZZH4ssfKjEio/zGSL7+U9U4IlxU+IlFBJ8WTwXoSKosYYHh7mm9/4FsdPHGP/wX3EVIVoLMLw0BCvvPgq1jQb5z76NEazgWAwSE93L/fauwj4/Ngz0qjdVU1ecfyKPxEGEhAIh8LcvdbKsRcv8OzAKLe+8ieEayqQJBl5U4ggIVTWAkFGh8YYGhjC4/YiiiJ5+XlkZ2eRne0kM9NBZlbmhmsAWwSKoqrMz84zPR3PvZiZmiYUCgEgSRIGoxGT0YjRZKSsvIx9+/eh1+uTCab+QIAfXLhEX28f6Y50Tp89jTMnm/77A7Teucv8/AIGg57axloqa8oxmk14vR6WFpdYXFjC7/NjsZqxp9uxpduw2i1cuXiNv/nT/8bffusvSXOkPVB5k7h/+8pdpsamqK6vonFfPPdEFEWUqErrjTbGRyZwupycevoEmY4s5PUwS6IyaMWzQldnD0os3u3WZDRiNBoxGAzY7DZy83PXhdrW/jfRWJTx0XF6unoZHx1fLyWP56psD//Y02yUVpRSVlFKVnb2eoJy3OVRYypdHd203W4nJ9fFxz/1cew2+7r4XJ8IMpHQ/D6LlccVJY8zo/N2HidnJkWKHyMpoZLiyWBrm/St97e3y1fUGF/5u68QjUb54i9+EUGIh4OWPR6+/tWvk56RxrMfO4ekk4jFYrz6wqtMTkyRnZNFdWM1uQUuFFVZd2a2hgxEUaT8u2/R+Df/xB8/fYzQsf2cOHs8OXBtDGAyHXc66LjbiSiI5ObnUlNbQ1VNFVaLJZ73IG4MbrBJoAgCY6Nj3Ou4x+jIGIqiIACOzEwKCwtwupyoikowGCIcDhEMhgj4/UxNTWGxWjj7obNUVlUm94+qqQwPDnHh/EW8Xi9Ne5s4dPQgoigwMTFF291WRofjXWmzXFmcOHMca5olHjJRYvF9sH5f1TRiSpTf/dXfJ7cwl//pd39lS4glcQwAVEWlu7WHob5hzBYzlbXllNeUYzGbkSSZieFJWm+0IQgiew8207C7AYPOmHRXRHF7uEXY8voJEv1vFhYW6e+9z/2+fgKBVYxGA+XVZeTku5B1OkRZiIfxdDKxSJSJ0UnGRyaYn10AICM9nca9jVTXViFLOmRJQifpmRib5NIbl0jPSOdzP/cz8e0X5YeKlcTfsHPZcvJc2vTYo4TJD+Om7PQ+j/N4cnlKsKT48ZASKimeDB5HqCQGsCX3En/713/D6bOnad7bjLKePHvzxk2uXL7K57/0M5itZqJKhInxSV594TWaDzRR1VCRzGPZLFIUNV5GLAoiBZdvc/j//K/c+qNf5zW9ntGBMT7785/CaDAiSTL69VmN1ZjGN772TYqKizh59iSO9Iz4lXgiHLQtEVMURNaCIXq7e7nX0YnXu4LFYqauro6S0hIKCwsxm83J7diJqakpzr95ntm5WSorK3nq6bPYbNakuxIKh7jy9ju0trbhcDg48/RpXLlxUeZ2uxkeGuJuSxuxWJTDJw5SWlmGqilJsZIQBIqqcL+nn9/+8u/xx3/7h5RVlySdjO3HB2Bxdon+rgHc88vIskxRWSHVDdVkZWcSWgvRdrOT+ak5nC4nR04dJi8v/4Gw2fbmdpvfx+PxcPPqLQYHBgHILy6gvKqUvMIcNGFDyMSUGLFYjHA4DIDZYkZVVSLhCDPjs4wOjuFeXKaqppIjJw5hMsUFiU7WMTczzxsvvUF5ZQXPPf8RDDoDUlKcbnTT3chPevceK491zu8gTnaaFfph7NTJ91GC6YFlKbGS4kdPSqik+ODzsLBP4v5moaL/8q/gGxnh/zlxnF/48i+Qnp5GTFWQ2trIfebj/NXv/Aan//3PE41Fsb/4Gvq/+nuccwvIkkSgvIjhT51j8pljW0RKIu/F1TnAmd/5L7T/2r9j5ONnWZhd4Nr5G5x85gTFpcXoZB3y+sA2OznH+dcu8PwnnqekrBidpE86BAmRknALPF4vt663MNA/gKooFBYXsWdPM1XVVeh1+i0DyebBZyeHQVVVbrfc5so776AJcOrUSZr2NAEb/UaGBgd5683z+P1+mvc1se/gPmRZIqYoeL0eLrx5kanJKcoqSzl04hCSLG4RK1ElSkyJ8Vd//DdMTUzzv/7Zb3HnWivT4zPo9DJ6ox69SY/BaMBkNpJblEOaI43AyipTw1NMjkyBJtC4t56axhr0so7p8Vk6b98jHIpQU1fNgcP7sdnsW0qZN/dR0TSNYDBI2+027nV0g6BRv7ue6vpK9AYdMVVhfnaOrvYe3ItuwuEw4UgEdVOpebojnZLKYorLi7CYzWga3O/sp6ejF0dWJmfPncGR6UAn6dHJOno6e7h17Tanzpxk3/59yJKMbl2Ybs9XScwc/bAQ0EPP9fcgTnZKDn6YsNguWrZvS0qspPgJ8lChIv3hH/7huz3xXRemSPHjZLuoTuQZbHypJ/IPQHrlFTxT0/Tuaeb4iWPrg7OGr7eP7O++yMIXP0daWTGu//svKPgv/5WLVWX0/NqX8P/yz6JoKvV/+XXEtSAT9ZV0t/cgSAIGo5604UnO/u6f0/fZc/R+7hygYTabGOobRpJlCksKERHWy4cFBvuGcC8uc+L08aTYkNaFSuIWCoa5euUab71+nhWvl6am3Tz30ec4cuQIOa6cuKBZfz1J3CiLFQQBSZKS9xNN3yA+qBQWFlJbX8fS4hKtd+4yMjRCTm4OdrsdAYHMzEwadjUQWgvS0dbJ8OAwTpeTtLQ0jEYj1TVVCKJIz70+RodHKasoQ6fXJXM84gmrCuW15XzjK99mbmYeNCiuKsRsM6MJGqFgCJ/Xz8LMAqP94yzOLmK0GCiqKqC4spiAL8BQ7whLC0s4c7LJcmVRWVsBQH/fIP09/YiSiCMrcz1PKJ4jpChKvCT5Xg/nX7/A9NQ05dXlnD53ivziXBBgcmKS65dv0NrSzmogQGaOA7vDToYrg5wCFzmFLhwuB55lLyP9I/R3D+BeWkaQREqrSsh0ZjI6MEp/Tz+2NDvpjjRAwJXrYtm9TFdHNwVF+aSlxR8XNyU6IyQGfSF5fFhPTE4kKD+M7SIlLlC2itBEX5iHXWhuXq5pm99PS25H4jO0Rfi9y7ZtfZ0UKd53/o+HLUg5Kik+MDxuabKqaeh++cuM3blLy3/6A8595FzSCej5+j/wzG//AffOfx/TaoDKT3yR1z9ylldryvnEz3wMTVCJKlGK/vkFGv/qH/i/fvYjtOllNA3q7WZ+959fY+ZIE7d/80tb2rm3XL6Lz+PjE5//OHqdPumovPa9N5KdcBNX3Qk3RVOhs72TO7fuEIlEaWpu4tjxo9jt9m2dWLf2S3kvV7aJQa2nt5eL5y8SCPjZ3byb4yePYzAYku7KyPAwb77xFisrKzTva+bgkf0gCERjESYnJ3nxuy9TVlHKkdOHUJQYESVKNBYlHAnS193PN7/6HUb6Rvj9v/xtMnMziSoRFEVJOl3RSJTJ4WkmBqcIrYWw2CyUVpdQVFHIwuQife39GPQGDpzYR1FJEQadgTV/kLZbHcxNzeHIzCDb6SS4GmR1dY1VfyB53AuKCjhw5ABpGTaiSpSxkXHa77SzOL+EwaSnoq6c4ooiRFlAURXCkRDRSJRwKIKiKtjTbXjdPmbHZ5kemyUSjuLKzebY2aOgwq3Lt/EueWnau5tDxw6h1+lRYxovfuclNBV+7uc/T7o9HZ2kS5alb676etgEhu/GlgkWt4Q7H/xK3slp2Tnc8+D5s9WZezx3JeWspPgRkXJUUnzweZijkrhK3eyoRL/9L6zMzqL/xS+RlZ2Fpqkoqkrri6+w904b/l/9BTK++V30/cP8+YnDNB/aQ3ZONup6wuikK5PK775JSFGxfOFj5Egiv/Tfvs2wzcK3Pvk02QUuRCFxtSyiKSrjw5OUlhdjtpiRRQklqtBy/Q61dbUUFsV7cMQrWiRmZ2b53re/x9DAEMUlxXzyU59gd9PuZAv3RN5KvN/KhmOy+YpW2OSs7HTbfOXsdDrZ3dxELBajrbWNe51dZGSkk5mViYCAPT2NhsZ61oJrtLe1szC/SFV13NmwWC1EIhG67/WQW5CD0WyKh35iUW5cvkVvZx9VDZWM3B9FRaOsvphoLEooHMTn9eNeXGZ50UNWXiaF1flY7CYCvlUmh6eYGp2mqKKAkuoiluaWGOodIRKOkJPvilcwVZbiyM5kbnoev8+P3qDD4XBQUJRPWVU5TXt309jcgNFkwB/wc/GNS3Tc6UAQRRr21LHv6B5MFgOtLR3xSRfbe+hu62Wge5CR+6OM9I8yPTaDyWqkpKaYsupSLFYTo4PjjI9MUFhaQE19FdGIQl/3fURJJCcvF1knU1CYT3dHN0uLS9TU1aw3u4ufj8K6wxLf+0KyfHzj2DzsHN9wTxIiU9USZ/fGclWLJ3lrmoq2/qNoSvJzkVymqSS8ExDQ2BA78e2BzU6P9i5uy+bPYcpZSfEj4KGOSmr25BRPJJFIhKqRUarPnlv/EgY0+PlIJLmOYXQcnzMTRZIoKS+OCwJRRFBF3P5V5q0WqhEIOjM5+Sd/RyzXyV8eaCA2Mkn9gcaNJFhRxGQxIQgCwbVQshHb7PQUEO/TAQlhEb8avfL2VVRV5TM/8xkqyit2nD8GHrwKfpyr8QSCEJ/VN/Fck9HIM888za5du3j11Vd56YWX+MznPkNxSTGiIGI0mXjm3NPY7XauvHOF6amZZOlv874mWu+0MTs1hyPbAUB3ew+jQ2PUNlVTVleKziTzlT/5GoIIKirBYDAuLtcHWlEUySl1UVSVz65jdfi9qwzcHabl7TscPnuAg2f3MXQvHoKJRqIcPnkI9JBbmENhcf6WPiubwyMxNUZwLcgbL72Fd9lD86EmSqtLUDSF6Ylpbr1zm3A4RHZuNvZsG7IsI+tl9AYdkWiUicFJ7l5rZ6R/lMYD9eSUuLCkWbh9uZUbb9/i7EfP0HRoF9FIhLaWNiqqKnBkOEh3pHPw6EFuXr3F2OgYFRWVgIqgqYja9pmUNyY9fFQi7ObKtc3r7zT78wMuI1sr0xLri4IIm7fnIbM/b1l/2/0UKX5SpM7AFE8kkiwxVlRI37e/wfLVH+C+fJ7Fy2/yL5/6GLAx4EuSjCDAqn91y/MLSgoQRYFgMET5yz9AFwzz1584SxCBA8f3IstyUqSIgsjCzCKSJOHKdSa/2Gem59Dr9Dhd2cmupwBLi0vMz81z6NBBysrKgJ1nBU5UjDxMpCQ73T7klnhOUvSsv05ubg5f+OIXcDgcXHjrAqqqJhN6RUFkV9NuBEFgYXYhuV2aGr/6NhgNAASDQbraeygoKaB6VxWqppBfmkt6Zhrt1zvJzM2gpLaI6n2V7D7ZQNOpBjLy0pgYmOTGG7e53zmI3qSj4WgNiBo3L90m4A9Q3VxJZWM5o4Nj8YZwkXC8QZ+qEFNj8Ukc16c3SNxWA6tJkXL8meOU15YRiUVpa2nnnbeuIuslDj99iMYjdVQ3VVJUm09OqRNHXgY5xU72nmmiek8FK14f77x+jY5b99CbdTTsq2NxYZGejl5iaoxdBxrRNI3WltZkI7mahmpMZhN3b99NCorEVAuqqiZDX0CyCd3DUNWN0GUicXvzzN+JiiVVVVEUBUVRkjkoiqokb8nH1tdJbMfm2/ZtSpSWJ7flIfc3b2uKFD8uUo5Kig8M72XSNlnWEdXp8GRl4iwr3ShNzc1JrhMuLSbjdhuyouBxe8h0OtYHawGdouIKrNHlymL81AEuVxbT19FL3e5qCorzHxAN8zMLOHOy0en18W0VRGanZsnJz0Gn021qLy/Sfa8HWZapa6wHts4GvL1ZWHz5D9fVdPNV8YZYiQ8yRoOBc88+yzf+6Z9pudnC0eNH42EGUcRiNpGVmcXc7FzytYLBIAAmkxGA8ZEJVEWhsr4cVVVZDaxx50orjYfqufzyVXQGmZxyZ7xqSlFYCwQpqssnu9jBVP8MY33jzIzMUt5YSt2hGjqvdnPr0h2OPn2IsroSJEmiv3MITdU4cuYIRgMQI/mNlRg819bWuPDqJXwrPo4/c5wslwOv18v1H9xgacFNYXk+1U1VeL1eJrsnWQ2sshoIEFoLE1oLo6oqpbVF5JXlkO5qYqJ/mpGBUXwrfg49tR9XoZOe9l7yinJwuXIory1nsG+IXXt34cp2Icoijc0N3Llxh6mpKQoLixB3iIpscSzUDZfrwbyrDRdls4OSWG/zDNGb98PW19ja/E1EjPfgEYQtl6aJuyriFrdnJ2dlJzb/HylS/ChJnWUpnkh0cnxEW11dS4ZiIJ5vAfFW9L7nP4wUDPFU3yBej2/LzLil338LfTjCndoybl2+Q0vPELn5udQ31yWdFHm9sVs4GGbF66OgMD9ZnhpcDeJb8VFYVJDMYxEFgWg0yv3efmpqqzGZTEmnZaeOpvDoZMdHOSrbn5fYdoDS0lLqGxpoudmC17OSnH9IFETyCvKYnZ1DWH9+OBwPmRlNJgBGBsewp9tJc9iJRKPcvnyXWCTGiY8e5uDZvbz6P84zMTRNb8t9br5xl7uXOmh/p4vVwBoluwtpOFGD2W7iftsg7vkl6g/VEAwGuX35LsFQkLLaUhr21jIxNsm1i9eIhMPxPCMlFndUVIVlt5sLr1xkxePlxIeO4czNYmF+kbdevMCK10fz0V3U76tjbGiMq29cp6/tPhPDk/i8AQRJIM1px2Qz0tc+QNuVTkKhEOWNJdTurWZpbon+zkHq9lQj6yVartwlGotRs6sKURRpb2lLuhN1DbXo9QZa77RucUASomKrsNjIP9meJPswFyWRq6Ksu0qJpnvbb9FYNHlfUzfWST5H3dlh2TzlwHZnZWP7Ug5Kip8cKUclxQeWnSbiE+OWAZIc718RWncCEuubzetCBQjtbWLxl7/Ax7/+Dd42GrAW5RHTFDIuXKH8b/+R4S9+EuORPUTu3APg6JnD8fbv61efiUF/cXYJURAoKC5AFuM5FOPTEwgIFBcXJ8WIIIgM9vcTi0ZpampKlhkntm07DxMpj+uqbN4/2/dVYj89dfYpBgcHufDWeT75mU8mlxfk59PV2cXysgd7mo3g2oaj4vf5WZxbpL65BoD2Gx14l1fYfaSBgG8Nm8PG8pyHm6/cJr8qF4crDb1Vz/zoAvdbBklz2impL6LqQDlDbaMMdo5Qd6CW+oO19Lbcp/Wddo6cPUxZbSmyrKPrTjeXXr9M/e5a/N4AniUvSwtuIuEwoiRy8pkT5OTnsDA3zztvXkGn13HiqaPIBom2m52MDY7hcGVQtacC+4qf49+/QmXnCBbfGms2E+2lOfx1OModT4Dq3RUUlOez4s5lqGeETKeDxgMNtF3toKe9h70H91DdUElfZz9LC4vk5uWh0+uo31VPR2sHbrebrKxspG3HQtXiWSGbj+n2Cp7NAgU2J9Ouh32iUTxeLwsLCywuLLIwH/8NkOXMwulyxm/ObGw2W/KcEzUVJXEOJEJ5moYqbDgiIhvOStwpiW/ro/JVUq5Kih8HKaGS4glFQJZl3G530ilQRbDZrACseH2YC/NZ+IPfol1VqXz9AkWf/CUQYLWilL7//TeYfvYUteEwhSWFaJqK1WpNfjEn3I9YNMZQ3zBWq43s7CwkSQYERgZHsVgsZGZnJktURUGko62TrOws8gryt4SDgAfclAT/mgntdhIriSRbAJvNxsmTJzl//i2mp6bJL8hHFUVy83IBWJxfxJ5mIxQMISBgMBrovz8AQHF5EXNT80yNTVOzu4pMl4Pz37uErJfYc2YXXdd7+dCXTqI36VGUGFkFGcyNLTA7NE/31T72PrWbyuYy+u8M0986wPGPHKFufy19d/rp7xqgaf8uympK0MkyHbfucfXiDWRZxuHIoLiskIysDHLyc7DYLGiaxjvnr6Ez6Dj2ocPojDo679xjYmiC8royimsLMM8u8IX/7et4su18/8vnWHSm4VhY4UPfu85Xh2f5zXN7ud82iCiKVDaVs7qyyr2Wbs59+mkKSvO5f6+f+t111DTWMNQ3QldnDznrocTGpga6Orq419nFmafOxPNUBBVBjYdbEsdN09SNRFZ4IC9ks4OS+Hthbp7Wu6309PQRi0WT1TgZjgxy8l1oGiwuLDA8NERC++j0OhobG2jet4f09LT4sRc0RE1FE0SQZETWQ6nrm5MSKyl+WkkJlRRPDJsH4NhXv0LP+fMM377NincFe5odVVPJff45fmdujpzhUT66qw5JlLH8+q/wF5kZGExGPvqpjyBI8XbrOk1DkmSMBsP6oKEhiZs6wSoqVy9cw+fxc/bZM8iyDkmUGR0cZWZqhhOnT6CTdMkr276e+ywvuXn+488nG8Jtn+dn8/8C7++su4nX2OKsCAKNuxq5cP48U+tCBcBqsyIIAmura/H9uqkUPBQKIQgCZqsZ/6AfgMKKfDweL7FYjJrmShqP1zLcNcrt19s58sn98fcUwVmajS3bxv1rg8yNL1BcU0hhTR69NwZYWfaRV5TH/Pg8CzOLye0sqSom05mFiIjT5cSoNzwwn9CKx0twLUjz4d0YLSaisQgzE7Nk5WZS0VhGVInw9NdeRxMFvvZbnyJq0LHqX6XXKDP6mx/jt3//H/mPfZP85p4KpkZmKCwvIL88j/utg6z6AxSVFzIzPot70U1JaSnOnGzcS25UNR4ysVjMuHKcTE1MrZ+DWz2VzWJxe2hley5KIswzODhI6+27jI2PI8syNXXV5OS6yMjMwJGZgSjF3yMRQgqHwyy7l1leWmZ2Zpa2tnba2zuora1h34F9ZDuzQZQBFZRY0l2Jb9jGr51yVlLVPyl+kqTOvBQfaHacs2T96m7/gQMAtLa2Jl0Vq9XKocOHGB8bZ3xsElEUcWQ4OPfRc/hX/LzwrRfxulfijdkkCVmU0Mn69ZsOnZxolS5x/dJNFueWOHn2OCXlJUiiTDQcoeXabXLzctnV1IggxLvQqorKzeu3yC/Ip7q2+gE3JX5/q5vyfg0MDwsrJcuWTSYcmQ5mZ2aS6xsNRkRJSs7QvPEaArFoDFknrwuZIDqdjE6vw+8NoGkaFrs5HpL5zGE63u7GM+sB4qJCU1WMZj32LCtzYwsosRhmmwnQWFn2oWkqGdnprCyvEFxPdgVId6SR5XQgSeIDIkXTVBbnlgCNLFcmAP4VP35fgKzcTFRNRe9bpbxzmNtPNeMJhem53c/di50Mtg8zt+znxsl6qrrHKMmy41v2s+LxYUuPz4+0vOQhzWFD08C9uIymqdjSbKx4Vrbke7hyXSwuLhKNRh8I4STYngi7Uy5Kf38/X/n/2Xvv6DjS8073qarOCegG0AAaORKJBAGCOQ05mZODNNLIkmXLcb0+17au7967Puu7XvseH9tae+215ShpdxRmRhpp8nCG5JAzzEOAJAKRc2zk0A10rqr7RwNNAAQ5nCyN6znEQYeqQuHrYn0/vN/7vr9//Bd+9pOfMT07y74D+/iVX/86d9x1kE0VpbhSXfG+KXKMaCyCrMSIyhFEnUBqegplVZs4dM8dfOWXv0zl5ko6O7t45nvP8OILLzE1Nbmc6yInqpNkZW3eyuqclY3QqoA0Pm00oaLxuWCjyTgpKYmKikqaGpsJha73N9lWV4vL5eLksbcJBYMIgkhubg4PPHI/sWiMl3/yCm+9cpyxIS+iKCUEiyRI+Of9dDZ3cuyVE4yNeNl/aC+byjct+9BIvHe2nlhM5vDdh9DrDOiWO5Q2Xm4ksLjEHYfvWBNNgetLPivcrokckChfXv31fuOzURl0VlY23rHrVT6CIGA2mwmHwss/53rbsOiyUFFUlcBSAJMlXgnkn/eh00kYLAYUVSW7LIu8ymzOvngpPgGumgzT8lOJhqJMjs4gSAJmu5mFWR+KquB0JwMwMzmTiGStsPJ8fY+RifFJDCYjVpBTw+kAACAASURBVLsFVVWYGJsEVSU1I97sL2lsGkGFK0tBLp9sZsY7i6coHYPJwFifl/FMJ6IKm3Tx9vfewQnMdjOiJMSFq17CarcwNzOPoio4ku3EYjF8Pn/i3DI8mciyzPj49XFUVyfPro6crIuirHydOX2Gn73wM3R6HUcePsLXf+1r1NRtRW/ULRtlysvl2nGvJVmRl5No131XZCx2C7sP7OQrv/Jl6nbWMTIywrM/eI7h4eGE2ebKZ6KuJNOuEyurx1hLqNX4rNCWfjR+oXi/EuXVTc4UWWbnzh1cu9ZCW2sbtdtqEQURg97Aw488xA+//yNOHH2bBx97AEQdRUVFfO3XMrjWdI2mq828ffQkSclJlFaU4ptfYGhwmEXfIoIg4Ep1cfDOg5RXxhNKJUlioGeAvp5+duzajtudvtyFVkcwGKTh0hVKN5WQk5OzJpqyRkDcJJryQVuZ36z09WbJx4qikJWVRXNzE74FX3yZTBQxm00Eg6FlAbTsKaSCIssY9Hqk5YonizXuLry4EMCe7MCgM6AoMnpJz8End/O//+uPOfdCPeV7StBb9ACYjEYkvY7RrnGcLicGg4FZ7xyLcwH0kp5YVGaoexiX0xm3HNAZMKgitsUALpcTQVxrxBjrG6LEYcM2v0gkGibSOUSuTkeGrBCbD7DYNhi/PqYWqKkp5Ncu93C+LJuzeekMdI0QS7EDYDSZSE5x4J/1o5N0OJwOFmZ9iIKIM8XJ3PQcoiCSlJwEwPzcHGmpqSiqQkZmOgDeMS+5uXmIy3kqIvGk6dX5ICusRFHC4TCvvfoaXZ1dVFSVc+iuQ4iSuNw3JS5Q4uIiRigUZmJ8nAnvBOPjE6iqQkZmBu4MN+6MtLj/k3L92jIYDXFX8PISXnvxDV54/qc8/NhDFBUVEVPik8DKea5nJf9kddmyhsanjSZUNH7hWZmA1yeLioJApseDx5NF45VGqrdWxydxSUdGRgaH7zrMsTePcf70BfYc2A2iDqvZyrYd26iuraa7s4emK000nG9A0kl4sj1s215LbkEuNpt1ORISr6Do6+7n3RPvkpWVxfad2xMiRRAELpx9D1VROHDoYKLSZ3Vuys3KkVd+tw1/548heXF1Tk9WVjw3xev14khyAGA1WwiHQolEYIF4W35FVtDp9egkHeFgBFe6E50kEfAFcGU6427COkM8cuJJo7S2kGunO7h2umPD8zjzwoXrj1+5sOE2AJnA2E3eu3Plwbfi3xL1S99/fc12f9jQDQ3dAFRf6WXmL36F4R4v9q4xFAEWMlJwRlVGerwIgCvFydjAOKoKrlQnE8MThEJhkl3xqM/87Hzi2CaTiaRkB6Mja88yXvGztofK6r4oPr+f5599npnpaQ4ePkh1zRZUVGJyLLEssxRYpP69BkaGRpiamkaW4+3yk5LjuVf9vQOoqopOpyMtPY2sHA/VNdUYjHoUVUEn6rDarTz6hUd49cXXeOmnL/PI4w9TXFyMogogx0DSJZJ/YfmbcGOuzer/bxoanwaaUNH43LP/wH5+/NzzvPbK6zz0yIOJMs2tW6uZnprmyuUrTE/PcM+RuzGZTQkBUl5ZRlnFJubn5rFY43kXsKqRligSCAQ5c+oM/T0DZGVn8fBjD2E2xfuj6CQdly7W036tjZ27d+JOda8RKetZn0D7UUXKRtGnjaIqAO50N2azhb7ePjaVxXNoUlJTaGm5hiwrJCU5EASB2ek5HA4HQwNDhMNRbHYbU95pVEXAarMwNzEPipAwXgSo2FmG3WkjNSeV7NJ4lUxkKUpP0wCSIFJ3qIae5n58M4vsu3c3eknPpVOXcbmc7Dm8O54XJEjoBYmXfIs4U1yIooS63C4+HIrw5otvkpyazI79dUTkKMdfOY4K7DhUh6LKNJy5yjdeeZdcf4D/9vRhcgwSv/evR7G1DGGKKdzbNEDPlkIiDhtydHJ5yU5CRU04VhsM+rgdg6xitBvRG/QEAsE145idk01vdx+xWBRRL8Tb6a+a2FeWWFaWhALBAD95/sfMz83x2JOPkpOXk+hAG+97EmN0dIy3Xn8Lv3+R9Mw0qrZWxp2m3SnojXpURSEYCDLunWRyfJLJ8SnqLzYw0DfA3Q/cjcMeF56KqmAw6XnkiYd46YVXOHb0GJm/monVagWR663/lyM/8fNWN2yzvxFa9Y/GJ4VmSqjxC8dGjt/rDQrjTdbi77lcLkwmI5cuXWJpKUBRcVF80hCgsLAAh8NOc1MLHW0dpKamkpTsWE6YjU9QVosVnU6HKIqJCVgSJYb6hnjj5aPMzcyx98Be7rrnMEajMfF+45Umzr57loqqCu659554m/pbNncTNvy+mg86EdxsrFYbOa4Y5U1NTdHd1c32HXUggCAKtDS3kJGZjifbQ3NjM4qqUlZVRmtzG1arhZyCbLpau5AkkdziHPo6+1EUlZSMFFBVBEEkLSuFvIoc0nPdmCwmgr4Qfc2DmEwmag5UI4oSQ50jlG8tpWBTPoOdQwT8QQ7df5C09DRsNiuBxSCiJJFSVICUlIRstaDabMhWC0KSg5DJQEvPAEl5WZgy0tCnuWjuHiRs0OEszsVRmEmrO5md9W2U9no5jUBEELi3votDMz6SFYWf/t6TLOr0dDf2kpGTTnZ+Ft1NvThTkykoKWBidIq56XlqdtZg0BnobO3C4XBQWFyIJEqJ3KOOtg6ys7NIdjoRiee8rFyfKioCAoqq4Pf7+ekLP2VycpJHHn+Y3Pw8FFVOiJRYLEr9pQaOHz2BzqDnngfvZnNtFW5PGja7BUQhkRgr6kTsDiuZOZmUlpeQ7Eqmq62b7vYu0j1uzBZL4v+DTq8jMzODpqstBIJBikqK4tfisnniiqEikIgArjZUvJVpoWZWqPERuKkpoSZUNH7hWLlx3vDaBm7KKzdOT1YWsizTUF+PIAjk5uUmbsJudxpFxYX09vTRdLWJpqvNeEfHCQWC6PV6bDYbsajM9NQMI4OjdHX0cLWhkasNjbhcLh594mFKN5Vi0BvQSTpEUaL9Whsnj5+kZFMpjz76yPLr79+B9v2iKR90IriVqLs+0Vx3nW5ubsKT5cHlcmG1WWm4dBlRFCgoLmB6aprB/kHqdtcxNDjM5MQUW3dsYWZqlsG+Icq3liOrCn3tA8xPz2MwG7AsmzWKooQoCIx0j9HXNIDD6aD2QDUOp4O2S11IokTt3q2EfCFaGzoo21xKUWkRkiix5A9w4pWT9HX109fZRzAQwmgwYLVakEQREEhzp9LX3c/E2CSFmwqwOWyEQiF6O/pJTXdhddjQZ6fRuW8LGdPzPNrYS9XkHLZYjFC6i2f/6Jfwpzm5drGdaDjKtj1bERDobO6hcFMh7gw3o/2jRMJRNtdUIYkSPe29mM1mSkqLl72SBGx2O01XmhBFkaLiovj5qWvdiQH6Bwb48XM/xrfg44GHj5BfWLDs8C2jqDI+v483Xj3KtaZr5BflcfeRO7HZLQm/o6gSIxIJ4x314vP5MZqvl9CrqkJSsoOsvCwG+oZobW7DkWTH6XImxIrNbkOOxWhubCErO4vk5OSECFkdMVzt/rzytVqgaEJF42NEEyoany9uNQGvPF49CQuCQF5+Pr4FH/X19dhsNjIyMxCWb8JWm42qzZWkuVMxGI1MTU7R1dnFteZWGhuaqH+vno7WDgb7B5mbncNiNlO9tZp7j9xDUlJyQqBIokhPVw9vHj1GQUEBjz/xWCIas16kAIn2+rC+1f1Hj6asHGf9WK0WKolXVJWkpCTeu3QJUZLiUSdRxOv1Mjg4RM22alQV2ts68GR7sNosdLV1kZXrISPLTWdrN6oKlVs3IepFJkenGO0dY25qAYvZjMVqpvNKL97ecTJy06nZtwWzxcz06BxjvWNU1lWQnuHmWn07Skxl/117MRpN6HV6Lp+/SigQYs/B3cSiMoM9g3S1ddPX3Y8KpGemI0kSFpuFjpZOzGYzqe5UUjNSGe4fZmxonPziXERJImI10b+9giuP7OfiFw7hT0mi4lwLVx7aR9/gBN6BCap3VJGe5WbaO8vEyCRVtRXY7TYGOofQ6/WUlpcgiRJ9XX3odXpKyooTERVJkliYX6CttZ1x7zgZngxMJlN82YR4IvKFCxd46/U3sdutPPaFx/Fke1DUFVPBGMPDI/zsJy8xNzvHnoO7qdu9DYS4S/TS4hJ9vf00XW7mwpn36Grrpqezl662LhbmFkAAk9UEywaShcX5THinaGtuQ1UVPFkeBDEeNfFkeejt6qO/r5+qLVXodXqE5WtGFEQQrkdUrkdS1FWPNaGi8bGiCRWNzxe3G1VZWQJSVRVRECguKWZ8fJyG+gYsVgsZGRmJm6ukk0hLTaW4uJiabTVUbdlMRkYGVpuF4tISarbVsO/AXg7csZ+tNVvJyc1ZI1AEQWCgb4DXXn2dLE8WT37xSQwGw01Fyuoln9up8vmwk8DNxumGyJMg4B0bY9zrpbauFgGBWCxKW2sb+QX5pGem03S5EZ1eR8WWClqb24hEopRWlBBYCtDf2U9ecR4Z2W7ySnMxWgzMjM8y2jeOt3+cpfklSrcUU15bhtloQkTi2oU27A47Nbu2ElgI0tnUzeaaSrJzs9Hr9MxPzdN4qZma7VvZUrOZTWWlVFVvxul04l/w09XeQ15+Dna7HUeyg3HvJIO9QxSXFWMwGHClOulu7SEaieHJyUzYGcSX4SRm8rMovnAN28AEL4VjZBd4qNhahl4yMNQTX4Kq2bUVvc5AV0sXSclJFBYXIIoig72DKIpKWUXpqoldoLC4EJPJSFtrO82NzahAUnIS4XCEV19+lZbGFsoqynjosYex2a3XS5RVBe+Yl5d++jIGg577H7mP7LwsZEVhbm6Wk2+e4vzpiwz2DRAKhvDkZlJRXUZ2nodoNMbwwDD93QN0t/Xg9/lxZ6RhMBkpKi4gGAjR3tJBKBQiryAXQYh3bk5LS6X5ajOqCnn5+WsEyvWEb+G2l380oaLxEdCEisbnj/cTK6sjBivbiqJI6aZNjI2NcbnhMv39/aRnpOOwO65778T/YTaZSE93U1BYQE5ODq6UFMxmS1ycCNfFhyRKLC0uce7sed49dQa3O52nvvwUJpPpNkTKjYm1H1c0ZYXbXf4BmJufp72tjaqqKkxmExablcsNlwmHw5SVlzE+PkFfbx/FpSWIokBHayexaIzyLeX0dPTiHfLiSnNhs9twpjgpKM3H5rASCUeprKugoCQPOSoz2uel43IX4UCEHQfqkCMKl89cxWAwsP/wXswmM5OjU5w7eQGzycTh+w5h1JvQ63QYDAbS0tMoLMmns62Lwb5BMjwebDYrrlQnHdc6GeobJsWdijszjWg0Rm97L/2dAwQWg4SCYVDAaDAiyypXw2Eef+U0jZvyqHzgIEaDgWg4Smt9O+7MNApLCtBJOlout5KRlUl2bhY6ScfosJf5mTm21GxOfI7xHA/IzPJQXlHO7OwcTY1NNNQ30HQ1Xv59+J7D7N67C2E5x2SlXX4oFOKF519A0ks89NgD2JPsKIpCJBLmtZ++zsKCj/LNm9iyfQtbd1aTlevBkWTDnuwgK99DUXkhrjQniqoy0D3A0lKA7HwPgiiSW5BDNByl41onhcWFmC1mJFHCkeTAN++no7WDbdtrkaTreVQr16IoiKiwRqTcTJysiBkNjQ+BJlQ0Pp/cSqysXU+/LlZ0kkRlVRXO5GQ6O7pouFSP3+cnOyc7HgFZXUIsXn8siRIiAuLKzVwUCQZDnD93gaOvH2VifJIt1Zt56JGHsFgsaxIsbyZSVs53hVt12v04x+hmyz/Jyclcrm9AURQKigrQ6XQoskzj1Sbc6W4qKstobWlnqH+QA3ftJxaN0dbchm/ex7bdtYwOjtLb1sdw3wj+OR/RSIyUVBelVcUEF0N0NnbTcaWL2Yk5nClOandvJRqWuXzmClarlTuPHMJut9N6pY2G81dwpjg58vB9OOxJSJKIJOqWlygEDHoDOXnZ9HcP0N7STrIziaycbDKzMxnqH6KjpRNUlS3bqnClulhaCjAzOYt3aILR/jH62vsZ6BpiWIFSVeWuGR/DRw4giTqunm9m0bfE3sN7sFityFGZ9qYO8gvzyPBkJCp4ejv7SEtLI9mVnFhGjA+nitFkZFNZCYXFhdjtduwOO3fdeyf5hfkAqxqsySiqwjtvv8vI8AhHHr6PJGdSIrH2/JkLDA+OcMe9+8kvLcBkMaIo8X3kRGdZGQQVe5KdrDwPsWiM3o4+PDkerFYLAnHjwvaWDnR6HTm52YnrXK830NneSU5ubrxHDdcFykqeynqRcqsoiiZUND4kmlDR+PyyUcRgI7Gysgy08levOz2dmtoaFFmm6WoTjVebkOV43wq9Xo/RaFwTEVmJnqiKim/BR8N7Dbz+yuuMjY5RWVXF448/xpbqLRgNxjUCJX7TFxKiZ+U1eP/Gbh9XuefNhMr6JTK9Xs/s7BzXWq9Ru60GnU5HhieDnq4eujq6qN1WS0ZWBo2XG/HP+zlw1z7MFjOdrV3MTM5w8J79OFOSURWFqYlZvINehnqH6Wntwzs0jqpASUUR2/dtp6yylKGeETqaOsnK9nDnkcPo9QbOv32BgZ4hyqvKuOf+u3E47IiihF7So9Pp1nT2tdlslJaXMj42zrXGVkRRoGRTCaXlJQQDQTqudTE+MkFJRQkVW8riSbplhWR40nG6kkl2JVO3fxvRXdVs+87P8Bfm0qFA17UeqrdvIacgB50oEVgM0NvRR2l5Mc4UZ6Lp23D/CN1dveQX5GK2mEFljVgRBBGzxUxWtof8wnzMFsuqtvkyEO+yOzQwxOlTp9lSs5nS8lJiSpSYLDM8OMSFMxfZVFVKcXnRcjJtjJgiJwSKosrIy8c0Tc2x9ds/4v7n3uCLFxopeuVtHMOj+DYVIbqSmZ2c5fC//JDSt88w9/B9SKKE3Waj8XIT2eMTbLv3EYJf/iI4ndeFygYiRRMqGp8ANxUqwkY3+VXc8k0NjZ8XbseXZOVxoiW4ct0zZnp6muPHjtHX25eYxE0mM6lpKbhSUgiHQvh8Pnw+H0uLS4kQd0VlBfv378eV4gLWOiHHn28cRfkonWc/LOvHaP3YqMu5Et7xcf7tX/6Vg4cOsn3ndmRFxjs2xjP/+/uUlJZw1/13Un+pgdOnTlOxpZy63bWMjY5z7I1jyLLMlrrNZOdnIelF/L5FpiemmJ2ZJzXdRWpGKvMz80yMTjI6MIrft0RFdRm1O2uZ8k5x4d33UGWVvQf3UF5ZHl+KEEQWfYvIsowr2YXRFG/Zv9rcLxaLcfLEKdqvtZNfnM++O/Yi6SV6u3s5c/IM0ViM3IJssgtySE5xoDfor3vaqAqLvkUKvv0jKs5d5vcfvhOHx83hI3egkyQEQWR8ZILTx87ywOP3kZbhRrfsiB1YDPLaz97AaDTx2Bcfxmq1rc2DWXU9XC/5vd5VV1EUwuEwz//geRRV4YkvP7FsiikTCCzxwrM/Q5RE7n/sHlThehO4mBxDjsXo6Yxfr3nFOVi9Uzzw+3/JYkYqLb/6BK3hCLNnLvMbvcM4Zxe49L1v0R2JsumP/oqipCRGf/BtDDoDeknPay++jqu3n2/8z39m6upFKCiIC3NJQifq1lSprV+uvMGSQeulovHhuKnC1Rq+afy74YbOtSs3VEXBnZbGl59+mkAgwOTkBFOTU0xNTTE5OUV3ZzdmswmHw0FRUREOhwOHw0F2djYpqSnrqnXWTkZwa5Fy03P9DG/2mRkZFBYVcbnhCnU76hAFkUyPhz1793D2zFmKSgqp274N34KPxiuNTE1McejeO3jyS09w4s23uXz+CvXnGrBYzCS5kkh2JZOS4mJqdJqrF5oIBkJIoog7M5263XXkFebR3NBCW1M7KakuDt97J253KpKoQ1VULp2vp6XxWmJpxWK1kJTkwO5wkOnJoKq6CqPRxN333kVKagrnT5/nxYkp9hzcTUlpCemZ6Vy+dJn2lg56u/pRVQVHsoOUNBcmq4nRwTFmp2cxpCTzP2SFX5nzMfW1xxIiRRRFlhaXADBbzaiKQoxY3LzRauLQfQd565XjHH31Te5/5H5MRmOihf3qqISo3Pj5K6rCxXMXmZuf55EnH0LSichKDEVVOH/6AsGlAPc+ei86nY6oHAXi0bGxoTGa6pvxLfhRVRjpH+GPTlxEFQTe/tYfIlgspCnQODXHnxXl8a3n36D8L/6RyN/+KZIosrS0tOYzz83PZaTh6prX1id5a2h8VmhCReNzwc08gNZ3Yl0tVoDrvkBKvOW+zWrFkl9Afn5BYp/Vf7mv58aW9zcXKCs/f/35fVqsH6PVYyMKIgogivHIy46dO3ju2ee4evkqtXW1iIjs2rOL3p5eTp14h0edj3Ln3YfJ8GRw8thJXnr+Fep21fLoFx5mZHiMyYkJpqemmZmapWusG1mR0el1ZOVmk5OXRXZuNmazmemJKU68epLZqVkqN1eyZ/9ujCYjkiAx2D/Ie+cu4V9YZMvWzeTm5uBb8OP3+VmY9zE5Pkl3Zzd9Pf3cec9h7El26rbXkZGZwanjpzj+2gkKSgrYsXc7Bw8fZMee7Ux6J/B6J5icmMQ7PE4oFCIlLYVtu2rx5HnoLynk4J9/m5O/+TRhmy0xVqFgCBWVsZFx8opy0UkS6nKHY2eqk90Hd3L6xFle/snLlG8up7i0OO5ALQo3iBZFuP4ZjHsnaLraROXmCjIyM4gpMQC8o156u/rYsm0Lqe4UZDmW2Ke9uYOm+mZsDht779pNKBim+3Q9OVfbufzVh1HNJgRAlERqdlRz9sQFGg/tYtcLRzEGAtgcNgITM6jK9YB5Tm42I5/Qdaeh8VHRhIrG54YPKlZgVZRjtV5YfwxBWuPgu/bYa6OV6yMhH0akfJLRlFuJldXbFBcVUVJSwqm3T+FyucgvzMeoN/LgIw/y/I+e56fP/ZQHH3mAysp4/5O333qbc+9eoKO1i9odNZRXlmM0GREEgWg0wsKCD0eSHUVVmJmaob9rgPHRccZGxrHZbdz74D0UlRShE3VMeCe4eO4SU+NTpKS6ePyLj5GXn7emZBbikYWWlmu8e/Jdnn3mOXbt3cWWmipyc3P58le/xOX6KzS818DIwAhbd2ylvKqMvIICslfa1MdihCNhdHpdwkV44p4D+F54k/J//BHNf/y7ibHJzs9iZGCUc6fO09rYyubaKnILc5FUEXn5/d137KK1sZXTb5/h3KlzpHsyyMnNJjsvB7c7DUkSERSR4FKQqclpJicm6e3qw2AyUrdr26rlN5XpqWlUVMqrNt3wGep08dv2jv11ZKEStVux2ayIgC8/7tm0EglKWvYkmslwI6gq1qExJJ2OTYPDUHs4vi2gqlAXjX6cl5qGxseGlqOi8bnjVu7K6yfl9c9vFj3ZUADdRFC8n7HgraIon8aSz81yVdbn8IRCIZ555vtMT0/zpa88RXp6OqqqsrCwEDfRm5tl996dVG6uRNKJdHV2c+adM/h8/nikSoonnCY5k7DarMxMTTPunSAWiyEg4ExxUlRSRE3tVgxGA2OjXq7WNzI2PIbdYWf33t1UVlXEG+Ytl3fDWnGoqCp+v5+TJ07R09WNO93NobvvIDUtBUVVmZ2d4fSpM/T39mO1WSmtLKV4UxFmizmxxKIqCrHlKhpVUbB39LDzl/+AC9/5S+bLixJjo6oqQ33DNF9uwb+wiDMlmc3bqsjJy76eJA3MTs0xMjTK+Mg4s9NziKKIyWwiNTWF+TkfoWDcH0gQBJwuJ7v27SQnLweI56YoqsJ7596jpfEaX/m1L6OiEo1FErkpwWCQN37wMl8eGeeuMw20fPUhfjY5w5+9fIrTf/q7ePdvTwiVKe80p986yzdSnNz1l//MlR/+Pfq/+y7GsQmi3/s7dJIOnaRnYXaeq9/7Id94+fVEjsqKXcT6TspajorGJ8RNc1Q0oaLxueWDCJb3e32F27G7v2mk5DMWKCtsNC43EysLCwt877v/i5gc46kvfZFUdyqyLLMUWOLVl1+lr7cPg9HA5uoqttRsQafXMTo6xtzMLLOzs8zNzTE3O4/f78PpcuLJ8pCZlYkn24PNakVVVQb7Brlcf5WpiSlsNiu1dbVU11RjNpnXiBNREBE2GCd12eSvo6ODt4+fJBgMsrm6irqddZjMRhRVpbe7h6uXGxkeGgZBICcvm9KKEjKzMxGWu77GoyoqMSVG+Z/8D2x9g5z/t79ARU00ZQOQ5RiDvUO0Nraz6FvEYrWQV5RDXlEuKWmpayb2SCiCd3SCibEJ5mfmcaW6cKe7SXO7SU1LwWAw3PA5qKrCOydOMzo0wpNffSJR6bPi/5N56iLF//3fkCMx2n7va1wqzOba8XP8r+ffpPlXH6Pjq48iCHFTzP6ufhrOXeWPVKj83k84/+4LWH//v2H0+Qm+8Rx6nR69ZMA76uXKP/wr3/zB85pQ0fis0ISKxr9PbiVW4MMLlo34MAIFPpsb++2KFUVRmJic5NkfPksoHOKhhx+kuLQ48Zf/6Ogo7124SFdXN6IYd5yu3FyJ3WFHb9AlbiCyLCf6uSz6F+MiZnae9tZ25mZmcSQlUbdjG5VVlRgMBqTlqhpgjUC52ViunPOi38+ZM2dpaWpBkkSqa7dSs20rOoMORVGYnZ2htaWVtmvtLC0tYbVb4zklZYXo9LrE7yVNTnHgn77OUPXdtNz36yjKig+Psux+rKDICiODowz1DjMxNomiKCS7kskrzqWgOB+bzZowt4y3148/1okSwqqyd2BNzpSiKrz16jGCwRAPPXEkXoosxzB39FDx1/9GUls3zU/ey18LIuW7tzI+NoFvzsef1zeT3DfCW8/+Nao53tCtuaGF/sZ2vv3K2yyVFdP+T3+B+Zd+F3soTOiN55FECb3OQG93H+3f+T5/8IPnmGq6hJhfEO9eK+mQbj2+cAAAIABJREFURN3y2GtCReMTRRMqGv9+eT+xAh9OmNwOP48iBW4tVFY/XhErCz4fL/zkBcZGR9l3YB+79+5GVdXE5D09NU39e5e41tqGHIuhoqKTdFhtVixWC2azCb/fz+zMLNFolJV7Upo7jboddZSVb0In6W6IoPj9i1y9cpXO9k5UFWw2G3a7DavNRkqKi9y8XNxu9xqRpSoK0zMznDtzjo72DowmI7v27qRic8Wy4IgRiUbo6+mnuamZ0eEx9HodFVvLqdpaGW+kJseoePNbpKlXOXbg7wiL+sS+siKvGUNFVQgHw4wOjjHSP8b8zDySKJGdn0VpZbzqaLXrtrSms7GAIIroRN2asX/p+ZcxW8zcdeQw0swc+f/wPTwvvYX37v10/IdfIuB2ceyVE0yNTwFQXl3GjvQUDv32fyWQlU7Hbz1NMDeL3pdPcOfRd8iORGj6/v8klpuD/ku/hUtRCbz2LLrlBnptLR30/PB5/uD7zzLTVA/5+TeUJgPvK1Q0kaLxEdCEisa/b25HrMDHI1hut5Lns76pf1CxEo5EeOP1N7jW0kJefh4PPPwAFosl0QJeURX8Cz6Gh4fx+f34/YssLvpZWlwkEAhit9txpjhxuZykpqaSkpKC2XLj8g7A1NQ0DZcu09HegSAIFBYVYrVaWPQvsrQUwOdbIBgIIggCe/fvZfee3QiCkDiPleRYr3ecd0+9y+DgILv27mLbjto1giMmx/B6vZw+eZbpqSm++utPE11ealFiIQ6c+T8Ydu+kKe8x5ucXCCwFCAYDhEJhwsEwkUgUe7INV1oyZmv8dwkFQgx1DzPUM0IsGiMtI42K6nJy8rKXc0J0N42wrPDWa8eZGBjhN2JRtj7/CoGcLDr+8DeY31yWcEkeHRrl3WNnMJmNHLr/IDaHDcvULJu++xPc569gmF1gwWigf3MZkT/7TyieTGam5kj5rT8kx2zG9+L30esMSKLE8aPHiZ17j//43WeYaapHKIj7Ga3voQJrbR+0aIrGx4gmVDQ04PYFy5p9biFePkx58c/LzfyDNslTlnNBrl5t5Nhbb6E3GDhwcD+byjeh1+sT3W9Xi4WbHRfWuUWLIrFYjP7efpoamxkcGMRgMFBdvYW67XU4Xc41+ymqgt/v552T79B6rZX8wgIeePAIllWdXyGeTxKTZY6+dpT29nae+OLjpHvSl7u7xpBlmZgS450T79LX08dTv/wkETlKNBZFVmKkeC+ys/lv+OPQE7SNBBIRJHU5uRZBSIyL2WoiNT2FlHQX6R43eoOB0b4xBjoHiYSiJLuS2XNoN6mpLqTlJRXdsmBZESsr2N4+S9af/S3GQJDWX3+a2Ne/iLIsxFZKlRVVQY7JqEL8mlrJn4o3ogtw9MW3MJnNPPTEA9isNkRB4o2XjrLoW+QrX38aq8WGTpJYWgzyzHeeYfuO7Ry689CyOBES+SmSKMXHXVyd0KwJFY2PHU2oaGis5sMIlo/Kz+tN/INEVla2n5yc5KWXXmZifBy9Xk/JphKqNleRl5+XECyr7y03FXsqDA0O0dbaRldXN5FwGJvdxra6Ompqt2K1WNdsvjIxXj8nlabGJo4fO47RZOShhx8iOyc7sc3KxB4MhXjme88A8KWvPoWkk9ZU0hx99Sjzc/M8+OSRhFCJxiL4/T62nv4vLITh1cwvYXVYECQBUS+iN0iogop/fpGZiRnmphfwzfiJhqPo9DpKtxRTUJqPXtIzPjxJV3MPSkxhx77tFJYWoNfpbxArlsFRCv/qH3FevMLQVx7nO5npjPl8HLx7P3kFuYlOumvGYNXnJ4gi4WCYE6+fJLAY4KEvPIDT6UQvGRjsH+Lk0ZMcuvsOtlRvWRZLEufPXKDpShO/+du/SXJy8rKz9IplhO6m0ZTVn0fi+c/pNa7xC4EmVDQ0bsUnJVx+UW7ctytW4LpgkWWZ0dExmpqaaGttIxQK4khyUFJSgt1hx2wxY7XGc1RMRhOBYAC/P96wzefz4/f7GRocZGlxCYPRSFnZJiqrqsjLy13Vbv79x09RFSbGJ3jpxZeYm5tj34F97Ni5I7EUJMvxMuTBwSF+/NyPqdpSxf5D+xJRlWgsyk+f/xmiKHDXA4cJR8NE5Shzs7OceOMUzrCXb3lO8dqm/8CQOY+lwCKT3hmmvVPMzSxgthpJTkvC6U7GbDURXAzR3zrE7MQcySnJbN21BVeqEzmi0ni+ibmpBcqqSqnZWYPJaEQv6TEGQhT92/NkP/sSswd3M/DN3yKUm0UsGuPYa8eZGJ/k4F0HyC/OWyNMVvf3mZmZpaO5g/6eAVRV5Z4H7yY3LwdJjCcJv/Tcy+gNBp7+6pfQ6+NLPnJM5jv//F2Kiop45LFHboimfJBlH/jFud41fi7RhIqGxu3wcQiWX8Sb9QdZBoIb/ZLCkQhdXV20NLcwNDhINBpd5cy8ss/155IkYbPbyMjIpLKygqLiIvR6feL9211SW31OwVCQo68fpb2tnarNVdx35D4QSAgVRVU5+fZJLtdf5qHHHiQrx0NUjhKTY/zwez/EleZiz6HdhKMhJienePuNk4QjYbYf3Mbh2ddIm+3gm+P7mJmej3fa1UlYnVYWFxYJBcKoqFisZlzuZDJyM4iGo/S1DKDIUFxZSHn1JgySka7mbga6hnBnuLnjjl1UnjpP6b/8hEiqi97/67dZ2F2XSLYVBJFoJMpbrx1jwjsR955KdZGckowrxYkjycHszBwtjdcYGx5Dr9NTWl5CZXUlLpcLURQAgXfeepf+vgEe/8Jj5OblIgoCkqij+Wozp0+d4atf/ypZWVlroikryz43s4DQoikaHzOaUNHQ+KB8ENHyebhJ345YWf18dXM8Zd1f+ZFIfNkkEAiwuLhEKBjEZDbjsNuxOWxYrdZE7sOHPt8NzkuWZc6dPcfZM+d44MEjVFRVrBEqoXCQ73/vBxiMeh5/6jGicpRINMK//sN32FRZQvWOLfj8Pl567mVUFHbcUYdoELn0xnH+1n2cZ5fKuWSpwpHmwGI3EVViKIrMkn+JhWkf/uklfLN+5JhC+bZSUj0pDLYOMz0yS3qWm12Hd2A2mhkfmiTaeIr/8+J7mDsVOn7nG0x84SEkgyGRWBtfdolfV9FIlMbLTUxOTDIzNUs4HF7zu5stZio2l1NRVY5lOalXFETkqMzZd8/R3dHDnv272bFrR8IsMRgI8uwPnic5KYmvff1rCRPC1SJpdUky3FykwOfj/4DGZ4pmSqih8UH593bj/ah+SUDCM8lkNGIypt3UeuCDcCuvpRWuWyIIbKmu5uyZc0Rj0RvEjF6vx2qzJpJiASYnJonFYqS4U1BUhebLzYRDYQ4+sA+Tzch779Yz4YvyTukBvmo8z5RnL965ML3v9TE9NoPRZsSZmYQrM5mUbCcg0l3fS/vlLjabKiipLcLhctDXPMBA9yBbC5w8HX6NXPdVTm/NIfCffw8htwijLm7VIC2PcdwyIN7xVjJL7Nq3c3k8VAJLAWamZ1haDGB32MnMylgjMkRRZHZmjuNvHGd+boGdu3ewfef2hEiRYzIv/fQVYpEo99x3z7IwETYUKRoanzWaUNHQ0EhwK7EC1wXB6udr/IzWzWsit9vH5uaCZsXteu32Gy9JAYTDIQCMRuOa11eO4ff5Sc90x/dVFLyjXgDcGWkEFpfoausmrzgXe7Kd3q4+hvqGKSjP5Vqmm7qeK1S2vs7rnakIkogzK4nFhSUGWofobx0kyWUnNTuFrIpMeq8McO1CGzV3bMGdl4pvbJxtQ6/zhaUhxu3F/CDn93ilv49DEShYTvxdH6nYKCdEFEWMyUacyU7WIwgCAgJdHd28+/ZpDAYDjz35KPkFefEIjSiiKipvvHqU+dk5nvjiE3gyPYm8lJuN/+qfvxGaoNH4JNGEioaGxhpWR0dueG/VZLXRxLqRJJGkG4XGmn2WozA3vL5KvGwkVjY6DkA4FF8WMawTKivbLC4uUmQvTLw2NjJGsjMJk9nEteZryLJMSWURPp+fxotNOFwO7Cl2Lhy/zHgknb8p6eRUWT5BTzaqEO/JsuQPMu+dZ2Fykd7mAUwWE4U1+QxcHaT53DV+Y7eVb3oushhU+KfYQcTiIxh1JiRpkLERLwVFBfEkWfH67yuKwpoIibCqU+8KK4/DoTDDQyOMDI0wPDyCf8FPVo6H+x+8H4fdscrMUeD48WMMDQ5z5Mj9FBcVxyMp4touuTdb8ln/WEPj00ATKhoaGhtys+hK4n1hA+fldZGXFVYvE70fqwWKukHkJPF91bmt7uESDAVRVAWDQZ9o/LZS1ru4uIgsy1ht1riDshzDOzZOYUkBiqLQ1d5DuseNxW7h4hvvoqgqpVuLaTh9BVmR8RdvpdUY5E/Eelz+0wDEVJhSTDRkZfJiQSULvhj9jSMMt45weIudpwL1FM6HOO3aw0/86Yz1zXFo0xLGVBOpGalMjE7Gx2hdpZOwSqT4fX4mvJNEwhHkmEwsFkt8TU/NMOGdQFVVjEYDObk57Ny1k6rNlWsMHUVB4OK5i7S1drBv316qt1bfVKRoaPw8oQkVDQ2Nm3I7YgVu3sxtI8Fyy+hKogfLOlGyTpxs1KNl5fvc7CyoKnq9Lp5gu8qjZ2HBB6jYbHFDxOnJaSKRKOkeNyNDIwQWA1Rtq6C3o5+p8Skq6jYx2DlENBxl8/5ydBaJ7w2W8d/FQToCJv7zdCVh3xKV+nn+pGQAMRjm+ZRdbN2cyqOLjTwgzHPGWsD/05KMJdtFeU0hE2ONdFztZN/de0j3uGm93BYv0XYa1/gbKbIStw9o7cLvX4yPH8KyuBDQ6XTo9QYcSQ527N5Bfn4+GZnpieqp1Y7TAnC14Srnz19k8+Yq9u3ft0akrBYzK5/77UZTtGUfjU8aTahoaGjckvcTK/DBBMvNxMqtRMp6gbJenPjmF+jp7qGzq4vR4VGcKS7sSY41IkVRFUZHRlBVcKbE8ztmZmZQVZWUtBTarrWDAJ5cD13HurAn2cgq8ND0XjOZ+elYkywEw0Eau33055vJt0ZwpeUSVFTaZhZ4cy7MfscEvmA7j1q66ZUs/PK1YpIPHUCfOc7M+CwGk4G0rFTmpxYAMFtMAETCkTVjNjo8ysUzl/D7/OTn51FTV0tObjZ2uw293oBBb0gIjfVjvd6SYNw7zqmT7zA26qWkpIQjDxxBp9Ml9tlIpKw/5vrHidc0kaLxKaAJFQ0NjfflVnkra7a7hWC5HR+lm4mU9e35AWZnZujq7KarswuvN54Q63K5qN1eS932bSCo8SWfZZGiqgo93b2kpqVitVuRZRnfgg9BEDBbzfj9i/HSXhGCSyEsNjPhUJhYTMbqsAAQWgoRWAjikywYCPKNcD1/r9+G2WEkyyjglGTujPbxXUstb87bGfGPUxcIYTDpiUZiRKMxJOm68AsEgkC8vHhl7Nqa23nv3CVcLhePPvEIefl5y5EPIZEQu16UxMd4rdv00lKA82fO0dzUgsVi4YEHj1xf7hE2zklZf8z1n+ua1zSRovEpoQkVDQ2N22b15PRBl4RWi5VbLQFtJFJWBMrSUoCO1jba2trxjnlRUXGnu9mzfw+FRQWkpKYkzm1FoEBcAPkXFxkfG2f7rm2J4y8uLmKxmJb9cZYwW80ABBaXSHe6CSzGhYTRYoybGY6P8seFg2zVzxHAwBZ5nBJhkq/IrRTrfPSFjPzStQIK9nowmOPVR8GlEDqjDlVViYYjCKKIIqsoikooEIpX8Zjiib+CKNLR1oU73c0TTz2OxWRFFMVEWXH8sW6NKFnZb+V5KBSivbWds6fPEo1G2bFjO/sO7MNkMm0oUFZ/rtpyj8bPI5pQ0dDQ+FDcbpRlI9Z3tlVUNW58uIFIkRWZjo4OmpfNCmVFJjUtlb0H9lJSVozNZkvsE1s27LsemVETP6evuxdFVcgrzE+IH9+CH5sjvv/S4hJJLgexWIxIJIrJaiK0FEIQBBxWA/t99ewznqdLtdKiz6YqOoqIyv8buwBAI6l8K1bGUmga34QPR4oDQRCIhmWsFguCIBCLyAiCgKqqiKJAKBiOR1OWm9/55v3Mz86z/459q3JNrosJcSX6sUqghMNhvKNeRoZGGBwcYnIinlibl5/PPffeTWpa6g0CZf1x176uVfho/HyhCRUNDY3PhI1EyvooysLCAsfePEZvTy92h53a7bWUlpXgSnEllnNkJZZY4lnN+oqh3t4+rHYrya4kYnIsHmXx+UlLT0VVVZaWAmTleRLixGKxsDA/z17HNL878wwoMn8+UEh7WhnfFDvo1rnpF53cG+ngjw130C8mIVpErI4AC+OLZOZlopN0xEIxzKnm5U6xCjqdDgGQRB3hYBiLxZwQH4N9gwAUFReuKku+UWR4x7z09PQyMjzC+HLFjyRJeLI87N67m8KiIrKzs647H38IkXIztGiKxqeNJlQ0NDQ+EreTbAsbOyivb/S2IlKisSiX3rvEhXMXkBWFA4f2U11bjazIqKpCVI6u2l5Zc+z1P0dVVXwLPgYHhqjcXJEQQQDBQAiTxYQck1EVFQQBWVYQEHBHJ3k6+gY5Hi8Xbfs4qpZzwdeMXR+GFIiJBl6z7aBkYZpvRi/y++YHmR/3EwsrSCIIsoAkSQiqiMBK51cBJaogLZv+BfwBMjLTE5GSkcFR0jPSsNltN4yxKIgIwMXz73Hh/EUkUSIzM4Ndu3eRl5dLVnZWosnd+iZxNxMoa99b592jRVM0fk7QhIqGhsZH5nbFCsQjHWt7oFyPpqiqSk9vLyeOn2B2eobCkiL2H9yL3WFHVuR4Fc8qcbKyz43RFBW/z493zMvE+CTDgyOAyuaaqkQkRlFUdHqJWFRGp9fhzkhjbMjL1opMfsfTzoHZl+lOqua3m4oRwjmU1GRQXhOio7GLebuPVKfKf/K9QZq8gE6NkdVxlWtjVuxOG/mbc/H2TCIIIrnF2Yx0jmE0GklNT6WnaYB0TxrhUJRgIIg7wx3PW1FVZqZn2bJ184bLPKFQhLdef5OBgUEqKyu59757MBqNa6p/3k+grHxWq99bvf3Nnq/fV0Pj00QTKhoaGp8JGy35nDt7jtOnz5CcnMSjTzxKbkFOPIl1eXlHlmPElBiqqjI7M4t3bJxQOEQkHCYUDBGORAgFgkxPzRAMxhNh9Xo9aelpbN+zDZPFGD+WoiaawkUi8U62BQXZ2Bt/xF3nnmHO7uS/DOzFkXcPjpJxuq91k13sIbc0h0yHwpapq2QoId5czOa7kyXcpR/gP2aMMJp1H8keN0sLQWZH58gpzUIURWa8cxRXFhJaDBMJRcjOz2Z+eg4BgbQMN6IgMj8zjyIrZGSkx1vhr+qDEglF+NH3n2VpaYm77rmLum3blrdZ27DtkxIoq/fX0Pi00YSKhobGJ85Gjsvraahv4PTpM5SXl3HnvXciiCRESkyWkZUYgWCArvYuOto7491YUVHVeATFYDRgNBowGo14cjy4M9ykZ7hJdiUnJnNFuV7mrKoKeoOeSDiCc6Ker01+G9k+zQnr/QRqn2Bk9A1M7f3U7q9muGeYwcZOfnXTPLt95xm2Z/DNsXzqByPojAIXinfwRdPbPGX1clKXzXBbL2aLmcLyPAZbR9HpdBSUFTDaPYZO0pGVl0Vvaz86nZ6UVCeiIDI9OYMggDvDvWZcRFGk8WojvgUfX3r6KfILCtaIlMR2H2GZ52avrd9fQ+OzQBMqGhoanyrxsuG10ZSmxiaOHztBSUkRd99/N4IAMTmWECn9/f20NLXQ3ztATI6S7HRSt3sb2XlZGE1GJL100wlVRUFWFNRVE/nKz87Q+7kv/BJlF4cZLnqcf2xPZmlS5C6DkYrN5TRcuEzQF+LL1RIHp99EmRR5IfV+hjJqSMmLcagmjIICgsqbSzGenHmLt/05hPxhKupKEVUd06Oz5JXkYLfZmBqdxp2ZhtlkYn56HleaE71OjygITI5PYbVZ1+SnqKpCJBKh8UoT+YX55OTmXDeGJL7cdrtCYqP+KCto+SgaP89oQkVDQ+NTYeNutApDg0O88fpR8vJzuf/B+28QKefPnqP+YgNGk5HyzZsoLCnEmZKMSnwpSFkuYZYV+Ybji4KIKixXF60skagKkn+Rzf/f/80efRstlXlcvOefiSblkBFpouF8AzMTsxSXF7F47SwPdP4NBfo5LqQf5J9bzMz1BEnL6sKTn0FSWhKRSJjp8RmOTlnYLNm5J3iGgfRd5BTm0nqpHUmU2FRVytJ8gFAgTFVtLigC8zNzbKoqT/RAmZ6cwp2etm68JHp7+lgKLFGzrQZFVZD49ESFFk3R+HlAEyoaGhqfKBtV+6irEmFPnTyF1Wrl4UcfQpSk5XyUeNTl0sVL1F9soLSilN0HdsZ7pSgxYnIURVXj+SqKcsPPWIkQyMR7jYiCiKiqqEqUzFeOkf9330Wx62j82lP8/YwRz9kuDt/nYVNZKd3tPVw+9ha/XTTK46n1nF3K4dsLD1JaeYA7CnW0NrYz1DNE0+i1+LIT8d9DlASezajjT50nGM9O49jFDmbG56jaVo7D4eDSqQZMZhN5BTlMeadRFMjO9SQ6yarEq4TWjp2K1WqJJwf7fSiqiqgoKMv6YSWqsqJdbqu8WEuc1fgFQxMqGhoanwgbliMvL/usvN/d1c3o6Bh33XsnOr0uUdUjKzJX6i9z4dxFikqL2HvHbmLLibSyLLMUWKKjpYOJ8UkknYROr8Ng1GMwGjCbzGQXZGMyGeM9SNT4sk9yYzulf/VPmLyTDPzOL+P94sOgk9jb3sO5U+c5f/o99h+o43drIuR3vsbIrJ3vOL8Om+uYe/scp159F7cnjczcDMo2lzI1PoV/YZGYHMPlduJw2dHpdFzrnWdP/4u8ML2d2r1bKSjJY6BjiNnJebbt3orVaqP5UisWixlPVmaiGZvJZCQUjHezXW26mOFJx5XioulqM5u3bHnfqIqqKtdzUd5HbGhLPhq/CGhCRUND4xNn/bLPSjTl9LvxCp/Kyop407blBm4tTdd4950z5Bfmsf/OvchKPJKyuLhI85UWOls7CUci8eZtsRiRcIRIJIociyEIAob3/n/23js8jsM+132nbMMCC2CBXfQOkAAIgGAXexVJSVSxLTtyja1jJ46TOE69SU7OSZyb3Ny045zESWzHTU7kRG7qjWLvHQQIgui9975tyvljdhe7YJFk59hUPO/z4AEwMzsN+2C+/X7NSs26akrKi0ken6b8y98h8/h5+p98hJ6v/iVKigtREBCAlZUrWJxfQKt/heq5f8Bp0Wlf8xu8OpDMjetNpM/e4uDj+2lr6aC7vZv6CzcQRIGMHC+ZeZkE/H7GBybovNnF/OwC54PJfKVgll96wMlwSRE3Ltygv3uQgqI8VlSuRFM0hvtHWFFRhsVijSa9OhyOqFCJ3CNB05AliaqaKk6fOM3w8DDZWVmGixTjqrwd98pPuROmm2JyP2EKFRMTk58Ky3ud3Gq6xejoKA8feghJkgipITRN41ZTC8ePHCe/II89B3aj6RpzczNcv1rPrcZmFCVEbmEuFavLcaUkGiGgSOt8TWd2epb6yzdoOHGB8m98jx1XG5mqreTcs3/PYmmh0Wwt5jxSblzi0y/8PZa1I7w+U8no6l+krLiWTYUaHq+X08fPcuL1U2zZu5m1G2sZHhqhu72b3q4+hvtG0HQN2SKT5EoktyCXpOQkrtsS2T1+lN97y87olI/aDaupXF2BLMn0dPSiqRpFpYVx98NmtzI1MRUt1RYEATTjulaUl3Hh7AXOnDrDBz74fjRBR4aoWEEFYqJGIqAhQjjZNtZlMTF5r2EKFRMTk5+Y5SLkXpOSdV1DVVVOnTyNJz2d8spytHAibE9PD2+98RZZ2Znse2gfgghjQ2O8/KNXCAQCFJbms6J6BUnJieGeKmq0hBmMUIYrJZGPigJVrx5nUdP40o4NTOzezJb8LOzhcxMFEXl2joKvPkvOv79AsNZN/e9+i+uXOug+fwNFsFNRXU5ZeRkpaakcefUoR185TlJSItn5WZSsKGHd5rVMT85gs1uw2K2GsAhzvS+For6jPCjW0b//M+QW5BhhKFGkt6MXZ5ITT0Z6OBdHRNA1rDYriz4fwWAQrMZ5ypLxL1q2SKzduJbzp8/R0dFBUXGRcb26BuFtUEETlqqA7iZWItdvYvJewRQqJiYm/9dYLlgi+Sl9fX1MTU5y6PFDEJOzcuXiFRKcCRx89ACCJKBqChfPXkSURB790CM4Eh2omnKbSInsN6W5nfVf/i4pXf3c/MTjND++j8XWHrrrW8jKzWJl5QokVSfrB69T8k/PEPCmc/Prf8vCAxsA2LM/nyOvH+Xy+avcutHMmg21FK8o4v1PPUF7awe9Xb203+qgubEVu8NOaloKCYlOQsEAgWCQYCBIwB9kZmoGNX0zv+o6xjGvFX+4ZT5AKKQiAKqqIkqScY9USM9IQ7ke4o2X32Tvwb0kJNiN+6JpSJLEquoKbjbc5OUXXuaRxw9RUlIMogyqEhUr0ZJlKV6I3K2M2RQtJu8FBH3ZrI1l3HOliYmJCdzdUYlt9BbbP+Xo0aNcOH+BX/2NX0WWJRRNZXZ2hq/+89eoWVPNhs3rCSpBRoZGOPr1f+Xp3n5Kb7VhnZwhkJLE0AO1XP3QQfrQSc9KxzExxZpvPk/xkQt07t9C/aefJJiWEh7sJ/HW80dISHTyVFYGq770DWxjU3T/2icZ/eCjSBZbeLuIIyLQ39vP1YvXGB0eJTEpkdXrVlOystiYeBzw09vdR09HNxMTU/gWfcgWGYtFNr5bLaRnpFNetZJNdX+OJlq5tu73AaMJ2/DAMEdePcbqdTXUbqyN6yrb0drJhVMXSXIlse/gXrwZHgRBRBZlRFHEv+jntRffYGpqigMP7WdV1SokUUYUhOj8IFEQkSQp+rMQacUf05n27Sa3gZnkAAAgAElEQVQkmzkqJj8DhLuuMIWKiYnJT8q9hEokkTZWqHzzm99E13We+thT6JqGoqlcr6vjzdcP8/6nniA1LRVFU7jwnef4+P/6ClpxPq2f/Sgz2enY+4dY+U/PYusd5L8/uIXNAyM82dDKRH4WV3/jo0yXFwNEJw9bJAv9h8+y7dmXWd83RO8vHKLnsx+H5GQkSUYSZWRJinuAGw94gd7uPi6fv8zIyAgJTie5BTnk5ueQlZOFxWqJnzm0rKJJ0zUS5vrYfOJzXN3wRaa8tdH7c/roWfq6+nj0Fx7FlZwUPaYoiIwNj3HirVMoQYUtOzdTsaoiKjxkSUYJKrzxypsMDQyzc89ONmxcb1yDKEVLsSXRaIAni3Jcp9rl05gjx12OKVRMfgbcVahIf/Inf3KvF95zpYmJiQnEl9MC6OHPOMZ3PbqNDvj9Pg6/eZjKqlXkFeShaSqarnHm5BlUTWPT1o1ousbU1CSr/vtfkBpSuPIfX2YuP4tAgp2hBCvf9vl5qO4Wj7R1Uzgzz9fWV/KPFUU0T8/i9wdwp6ciiiLWQJDqZ17g4a89x3iCnfN/9jvMf+gQ2O1hFyXiVkjxboRoPOxT3amsqq7Em+ElGAjS191Pe3M7jfVNDA4M4ff50TWwWm3YbLawEBCQRAlJEFFsKSRebafkL/+dnic/gB4WAJ6MdFpvtTEzOU1hSUH4/mjo6DgTnZSUFTM2OsbNhibm5ubIyslCCodzREmkdGUp05PTXL9Wj6br5OXngjGjGYTYdvpGZVOk5X7kS0eP5tTE/hxh+e8mJj8Fvni3FWaOiomJyU+Vnp5edF2nsLAguszv89Pb20fNmuroQ7Lt7GV29w7Q9ksfRXPYQQkxPzvPiddOEQTGq8oovHqTw9/+cxJdDjYMjNLfOUDbzXZUf4j3Ly6y9hvPoyTYOfvF3+ArHX2sliXWho8ZcR9gyc2Yn5unp6sXu91Odk42KSkpIOiUlpZQWlqCoiqMDI3Q1dVNb3cv1y7UGW4KOg6Hg5S0FFLdqSSnukh0JZLqTqb94K/g/uovk/P8YfqefNgYhuiwUbW2iqvnr9F8s4WS8mJDRGjhMI1FYOeB7TRca+RmXRNjo+PsO7iHlNRUZElCEmX2PrSH08fOcOHsBZKSklhdWwMY/9Q1QTPyVaLt9mMTa3nbpNp305rfxOT/NqZQMTEx+aky0N+PJElk52RHl/X29qFpGsWlxdFlsxevIgKh8tLosivnrhEKKew4sI3+3AyKrt7EOT7FvDuR3MIccgtzmPnRMR7+8rMU+AI0fuJxuj5wENFuxzUxzcTYBBA/wE8UBURBpPlmM6dPnEHXlkI/iUmJ5ORmk5ufS35BPgnOBHLz8sjJzUHbtpmFxQXGxyYYHx1ndHSUifEJbjU2oyrGhGdvlocDj+2n7fOfpuQfvs3Ag9tQkpzoukZJRRE9XT2cP3WRusvXyczJICs3i4xsL85EJ6IgUrV2FWkeN+dPXuQH3/0Ru/bvpKS0OPqfe+uuLSzML3Dk8BEyMzPIyspCiUThJBlBE25LrL0TZlKtyf2MKVRMTEx+It5JaXLsNqFQCIvViizLKOGyYiUUAoymZxFUNTy7JyYMoaoqKe5kUtNSotVCumAIjYTxadZ960WKjl3kSEkeV//h19AyPFgkGUHX8fv8ZGVnRWfrLD2YBS6cuUB93Q0KCvPZvXc3mqYxPDhEf98g/b0DtDa3IYoiFavK2bBpPYmuJARNI8mZhDPBSV5+LqpqhLBCSpDpqRlOHz/DwsI8AINPHCDney9T8i//TtNvPh3t+7Jj/zZ6OnoZ7B+ir2eAzrYuADwZHtZuXkNaeireHA8HnniQs0fPceyNY4gPCxQVF6GJOhbZwp6Du3nuO9/n8BuH+fDHPozVYkXTBQRdQ9R/fFfFxOR+wRQqJiYmP3MiYQY9Jn9/zJ2CLgg4O7ph50YALBYL/jmje6urdxBdEFhMT6Hm31+n5j/eZGJFAf/7cx/m7PwCT3jcyGGR45tfJBgI4U5PNY4XFjeaonH0rWP0dPRQXVvNrj27kGWjiiYzI5O169ah6zoT4xPcaGikoa6BlqZWKqsrWLdxHc5EJ4KmGf1MAFSwyFbcaak4EhzMz88jCgKaJNHy27/Eus/9Ed2P72UmP8tILBZ0coqyyCrMQNU0ZqdmGRkYoeNWF2++cJgVVSuoWluJw+5gx/5tHH/9JG+9fpSDh/aTX5CPqAlIsszWXVs4+voxrl6+wqbNDyDoojETSNAQNCE6C0h6F6LEDP+Y3C+Y70ITE5OfKrp+9+TN2Jxcf0IC3ZUryH7uZcRwa3mL1UIoFELyByh74RiDG6uwLvgpO3ye07/zCd7469+iOy0Zu8Med4ypiWkA3OnuqIMQ8Ad47cXX6OnoYevOLezaszMqUqRwObBRaWMhIyOTfQ/u49Of/TQ1tTXcamzm3775LGdOnkVVVCRJRhblaHWOEK68ia2bnFi7ipGdG1n1pW+haRqKqhBSgiiaSkgJoaghEpOdlFQWs+vQdnKKsmmqb+KNH71Jf98Aoiyw48A2EpwODr96hIH+fkJKCFVTKCwuoKAon/PnLjI+Ph4z2FGLS3SOHWVwp2nWJib3I6ZQMTEx+bFZHvb5cYmEY2KViihKHHvqCQRVZd2v/HfSrzSQvuinrHuQXb/zVwi6zuXPf5y5gmye/8af0rtjPaIoEQwEcTjs0TJcURSZnpxBEkXcaanR4zXfbGVsZJz9j+xnzbo1iKLRgz7SQTYiOGJxuVzsP/Agn/z0JymvLKehroGXfvQywUDwtm0FQUANd9yNTIO++WufIO16E+mnL9PX3ceRl4/x1gtHOH/8Io1XG+lo6WB4cAhNV6nZtIpNe9ajKArHXjvO+VOXQICdB3dgs1t585UjjIyMoKgqOjrbdm8F4Ojho+Ew1NK91GImTGvLKrTu1UXYxOR+wBQqJiYmPxY/iUiJNVQiiaux+xRFI8l1Kt1N3XP/zEJJATV//CV+8//7J37lyFlmC7J56ytfxJftNUqCZTkqSvy+ADaHPTrsTxQMoeJKTcZitUYrfLo7usnIyqCkrDj62khIyDjHyO/xXwCpqakcfPgAhx57hJHhEV576bXosZYu0pg9pOk6umb0k5nPcNP0wYOs/Ouvc/HwWQL+ABa7zNTEFC2NbVw9W8epN87y2vcP093RS4onhe2PbKW4vIj25nZOHj6N1Saz86HtyBaZN148zOzMDKqm4Ehw8MC2TfT19tN0s8kod9biXZWoWPlPEpgmJj8NzBwVExOT/zTu9ek88kleFEUURY1bZ7PZAAgEAoiCiIpKgjOB+dl5QlmZtP7xbxFSgnS2d3Li8CnWb1tHfkY6oq6hCTpg5FNMjk0xNz1Hbn521BHRVY2xkXGKS8PzcQQB34KPifFJtu7YEhciinVTYkXLHa4GDZGylWVs2LSBi+cvooQUBCmcb6PB/Nw8jkgb/HAYZnHRxz+lJPJngSBPLyzS95EDaOiomkIoFMK34GdxYZGOxk4un75KrVJNQUkB5WvKcCYlcOPyTdpbOylbWcLuh3by+vNvcu1KHbv27kISNSqqymm83sitm7eorqk2JjCHE2bv1Fo/dlihmVhrcr9ivitNTEzeNe/kE/ndRIvFaiEUDMblTriSkwGYm5mLLvNmeJkYm4jbLq8onzRPGjfrmpbcl3DH1f6uAU6/eZbEpERKykuiomNsZBwlpJBfmGeIF1FksH8IQSDcKC3WPVlyU8AIEd3pK1bIuNPcACwsLsTdn7GRMTwZnuh9WJhb4NhrJ5jwBbjw8UfZc/gctinDDQkpIVRdwea0kupNoXZ7DclpLq6dvU5PRw+KqpJbko0r1UX95QZ8gQAJSQ6KSgtpa25nYX7eyEvRNPIK8+jvH8Dv98d1yo1g5qaYvNcwhYqJiclPFZvNhq7rhEKhqDBISkpEFEXmZmcBI7/D4/Xg8/lZnF9EFARDJAgCazbV4lvw0dHUiSCICAjcut7C5dNXcXvc7D20y+hDEhYUg33DyLJMZk5G9HhDA8M4HA7S0tOiYZ+lVvNLIiTypYQUVEVdmp8TMzcn0elEEAT8i77o/ifHJwmFFLxZ3qiTcvTVY8zPzbN57yZGn9jFVH4m6555CZ/Ph6KGUFQjqTakhNAFneotlSSnG2Klu70bVdOoWFPGwvwCt+pvoaoKK6pKURSFxhs30TQdTdcoKMpHVVQ62jsB0GNEZaxgMcM/Ju8VzNCPiYnJu+JuD7i4h2DMMMJYdF3DGg3zBBFl48EuyzIJCQnMzi45Kh5vOoIA46MT5BYazeFEQSAj20t2fja3GlrIK8ml7sJ1erv6KCwtYP2WtUjy0r81ARjoGSArNxOL1RpeJjDYP0ROXg6SJMWdnyiK3GhopL+3PyySFlhYWCAQCOJMdPL0pz8V7fUiCiKarpKYmAjAwvySozIyNAKAN9MDwM3rTczPLbB9/xaS3EmE1CBvPrWfj37xX3jWH2DbwBgbhydI9geZc9i4UZZLw6cPUbOlisbzTVw/34AgCBSVFpFdkEVLYwsrKstITk4mNz+b5hvNrFu/DotsISsnC1eyi5s3GqmurgKMCc2ivvS5VNP1aL5N5O9lhn1M7lfMd6aJick7QtO0dyVS4l4XE76xWixhRyUYt70r2cXszGx0u0gp8fjY+G3HW72+hlAwyCvPvUZ/9wDV66pYt3XNbTkYUxPTLC74yC/Miy6bnpphcWGRnLyI+Fl6zfDQMG+98RYD/QNomoY3w0tVdRWbtzzA4sIi58+ev+2B7nQ6AVhYWIzZzwjOxASciU5CoRAdLR3kFeWSnpFunMPEDM93D3KxIJM/PXeDFYEQX39kM1/4xQP8791rSO8d5WO/9xVSJmao3VaN2+Om/kIjo4NjVK4pR9N06i83AFBRU4HfH6C1uc3ISREEyleV09fbz8zMzB3/XiYm7yVMoWJiYnJP7iVQ4O4i5U5uiqZrqOHlke6skXVOZwKLi4vh33VkWcaVkszM1NLDNiJ4UtzJeLO9AGzevZGV1WV3HKQ3NjwGQFZuJmA4MhOjhvDJzMq8bfuW5lZk2cIn/9sv8pGPfZjHnniMvQ/uZfvO7VSuqqThesNtr4n0bPGHe70ATE5MkuZJRxAERgZHCAZDFK0oiq5vrm9BFEVyEuxIqkbzE9vRP7CD3AMbsX/sQb76ucdRNY3d//wikiyxbkctdoeNrpZunElOilYU0tvZh6IoeDM9pLpT6O7ojt67spVlAPR09952vu8GMzxkcj9ghn5MTEzuyjsVKMt/j4iU5W4KwODAIFarFbfbHZc/4fcHsNnt8QfR9bsOf9/90E5D+KjKbecS6agaChliyGa3RddFlllt1tv26ff5SXAmRKuQYklLc9OkKCiKEvcRTwjns8Qm/aqqisVi/HsNBozxAAlOR/Q8F+d95CQ4yL/VTc/qUrY/d5RbG1ei2CwAuEtzeLEkm081dXN03oeWnExCUgKBQABd10h0JRquVDCEYBdIcCYQCo8hAEgIh6dCwSCariGZn0lN3sOY714TE5N3zb3KkO9UVRJxUwD6+/qNgYRCZF/GA35hYYGEBEfcvtU7lNS+G1RFQZTEuFwURQkLFUu8UBEFkWAwiNV6u4ABsIdFlN/vv2M+R6xQ0dSl9vOR40mycQ6aruH3Bcjz+RF0nca969BFgY0vnYmWMVttFvqSnYg6JA+Oo+kaFqtMKBjel8XYlxIWXRaLJfqzcaz4Y5uYvJcxhYqJickdeSf5KJHflyfPRsJFy92URd8iY6Oj0cnJS91SNRYXFuMcFU3X0FQVSZJu2887LbFVQiqyHJ8wGxl2KC1bDkYfF9tdhErEZQkGg7etEwQhbk5R7JyciICQw0m+uqYTDASjjo4qy1x4bCs7fniatL6xaAO8iCMTUXRGWbfhmlgshvMSESKyLMWJEqNhnhh1j0xM3suYoR8TE5M4fpJ8FC2uFFaPc1I0XaOvtw9N18nKzQ53TTW2URQFv98XdVQUVYkuF0TB6K4a7u4aEUBa9OdYQaQZU4I142EdUhRkWUbTdaTwOSmKgiCAIArR85LC34OBYDQ5Vtc0iHFzLFYjCdjoTxJ/jwRBWDZTR0cM719RFAQELBYLqq4SDISMUuzcDHRBwNM/TnpnP0OlucwWZCOFc20KF4NowHyOF4tswW53oIZUREHCZrUiIKCGVARRRLZaouXTgiAgihKyLKOqWrSkOhZxWT7P3Sp+zKGEJvcDplAxMTGJ8m5clAjLRUpENERESkRQALS1tSMIApkZ3nBrd0OUzM7OoqoaNofRY0XTNRRFJRgKGtOHY/YV2e/M1AyT45NkFWQRmf4XlilRsRIKGaIg2k5eMMSPKEpR0SOJkuGACALBYABXsitcvht/nREHJhAIRFvTR++FQNycIk3TIDKhWdUQRSF8HjpBv9E/JuRKpG9tOWtePo11wce/funzUddFDoQ4eLOLujwvarILiyhjtVgQEIyBh5JsdN3VdGRRRpZkVHWpz4soGuEuNcZlEZZ12jVFiMl7BfOdamJiArx7kaLrMQ5H1OXQl5bHiBRd12lpaaHuWh3VNauQLTKqpka3abjeAALk5GWHt9fo7eklFArhyfRG3ZfIcfw+P6cOn+HCyUtcv3AdRVGir4u4Lbqu4UxyMj83h8/ni56305mAooSYn1+IC1sBuNPTGOgfCA/1i7/unu4eBFHAnZ4WXRYNQQnxk59dLhez00aptcfrAR1GB0fDnWxTcKW4aKpr4fjHH8G24MefnEjS9CKpk4sUNvXx6B98BV3TePmD+7DIFgRdZKB7CLfHjc1iZSjcxC7d60EAhvqHSfd6ok3upqemCQQCpHvSop10Iywfnmhicr9jvmNNTEzuyvJQz51yUYx1d3BRYkTKxOQEr778Kh5vOjt274gL3fh9Phrqb1BSVkxySnJ4uU7TjVs4HHZyCrKjwkPXNVRN5eq5ayzOL5JblEtHcxeXT18lpIRuEytZuRloms7wwEh0WZo3HV3XGR4YDp+zHn3NyvIVLCwscO7MOfx+vxFu0jRUReFm400KCwtwOhPiwk2aphlhmBih5830MjYyBjrkFuRgd9jpbO1GFAQsFivbHtyCLMkEv38Ev81CS2ke+/72u3zil/+CPX/5DK2yxP//qcfI2L0BSZRpvt6Kf8FP9dpVqIpGT3svxWVFOJ1OpidnmJmepbxiJYJgOC5d7V0ICKwoWxEVKXdyUEzRYvJewAz9mJiYvKt+Ge9EpETW67rOom+RF59/EYBDjz+CKEnRuTSqpnC9rh6/38+a9bXRZdPTM/T39FO1ZpWRo6LoUXHQ0dJJb1cfq9ZWsqKqlMRkJ41XbxLwB9i0awM2mw1jLqBISloyFpuFgd5BisuK0TUNd3oqkiwxPDxCWXlZ3LXlF+ZRWFTIpQuXuHzxMikpKXi8HpwJCczPzbN7z647tqQXhHhLJTMrgxv1jUxPTpOUkkjxyhJu1t9kYd6Hw2nH5Upi56YafuE7L/JMzQpeL8tHK8tHFEVsNisp6Sms3VKLLMkMdA7S09ZLRU05uQW5tN9sR1M1KmsqkUWJjtZOLBaZspWlyKKMKIp0dXSRmZVJkitp6fy4ey7K260zMflZYgoVE5Ofc94u5PN2/VGWJ8xGBIqma4yOjfLCD15gemaaR594lCRXUpxI8QcC1F2to6AonxR3CoqmoGk6txqb0HWNkvJi1HBiraoqTE1Ocf1CPZ4sD2WrStA0jbJVJVhsEvXnb3D2rfNs3bsZm8MQK4gSGdkZDPUPoWkqiFI4fJPK2MjYUuhK1BA0DVGSOPDIAYYHh5mcmGR8dJyx0THap6dxOBwUFBdGBVPkOjRdQxAFlJhwUaQD7ejIGEkpiVRWV9B2q41zR8+z+5EdSJLM7jfOoGR7Ub7wCQ7YZCxWGdkiI4pL1UhTY1M0Xr1Fdm4WazbWIgkSnc3dZOdkkZHhBQS623soKCogwZGAIIj4Fn0MD4+wY8f2uLCPmZ9i8l7FFComJj/H3Emk3GtmT6yLoseKk2UCRdVUmhqbOHL4CKIs8YEPvZ+snCyUcHM2I4lW5cb1BhYWF6ldtzq6PBD009zUQm5hLg6nwwjp6BrBUIhzxy4gyiIbtq+LHkvXNfKKc7HarFw5VcfJN06z4+A2EpwJAGRkexnoHmByYhKv14uEMUeotakdVVWRRC08C0dD08BqlSkoyqektDj6cA8Gg0birSQu5daERYqqqTHhI2O5K9mF3W5ndHiU0ooSEpOcbN+7laOvHefymWvsycuk7EdHOPk3/w/e7EwUTUXXtbhQzPzsPFdO15GUmMj2fduwWW30dw3iW/CxdecWLLKFwd4hgoEglasqEAURWZJo7+5DQKCsrCymCmhpiGKk4ke4g4AxMbkfMd+hJiY/p7zb9ujLRYqma4YDEiNSVE2ltbWVZ77xbV59+VVS3Cl85ONPkZGVgaIqqJqCqqkoqsro6Ajnzl4gNz+H9Ix0VE1BUVVuNTbj9/lZWbUi6qZomkb95QZmpmZYv20dNrs1rgJI03Q8WR427V7P3Ow8vZ19UdcnI8eLruuMDI1F81S8WV4URWEoJk9laX96TBm0UZUkSiKyRUZRlehX5FqGBodYXFzEkWCP7gd0snIz6ensJRgMIgoiuQW51G5cTV9XP9n/8+/oWreKqQ01SJKMRbJEv2RRpretjxOvnkZEZPfBnSQ6E1mYWeDq+Wu409IoKikiFFC4ePYySUkuCosKkSQZELh5owmXy4UnwxvnppiCxOS9iumomJiYRLmbm3InkbLcRZmanuKNV9+gp7uHlNQUDj5ygLLysjiXRdM0Mn/rDwj2D/K1XVuxWGR27NmOqinY6m+y4UOf4ZWnnyKjMBdPRjre146R/71XSGrr5oCqMprloS8rnY5Md/QcNc3YvyiIpGem4UiwMz0xEz13u8NGQmIC48NjUGP0R8nMyUSSJbq7esgryDMSYiNOg9GEBTQFTb/94R5xkhRVRVUVjh85jt1ho7q2OuoYaZpOdW0VHa0dtDa1UVFdjiiI1KyporZ3kPK+YX53Yy3KKyfIzMnA5/OxMLfAwtwCiwt+VFUlOy+LzTsfwJnoZGJkgnPHz2ORLRx8dD+SIHPkzcMEfAGeePJx7DYHkijR3dnDyPAIBw4eQBKlODcFjP4poii+IzfFDA+Z3C+YQsXE5OeQdxvyMZbdWaSomkpdXR0njp5AR2f3vl2sqlkFEA6LhHM6VIVgKMjw0Aih4VFsdht7Du7GnmBDUVWs4WP5/X7Wb6yh9O+/ScG/v8Stpz/Iv61eiSBJPGkReeBvv42rq48rTz8RPTdd19AANJHktGQmxycN8RI2jd0eN+OjE+HrkZBkiczsDHq7etB2bAZRNgQVSyEgRBGR+ITh2Pun6xqNN24yMjLKvgN7DMdFU6L3LN2bRlZuJjfrb7KycgWiJKKrKpuf+SE9H3uC3G0baG1q41Z9C1a7lcREJ+nedBKTkkj3plFYXEAgEODKmWt0tnbiSnax/+EHSU11c/rYGcaGxzjwyH5yc3ORRAlRELlw9iJut5ua2ppoP5WIm3KvCh/TbTG5nzGFiomJyT2JhFDiREtYpExPT/P6a6/T3dVNbn4u+w7sJcmVFO0sG+l9omoK4+PjvPX6UR6ZmCTTlchjHzyEKEooqiFm+vsGWA2UlJdQODxK8Xd+ROMXPsWRNRV0nrjA1r2buZXlRrNa2PDPz9G9pZbRlfm3nW9qWjLDfSMEA0HkBBlN10j3pjHQPcjC/AIpySkA5BXlcfHUJXo6eykpK4FwN1tFU8IPbplYOacvE3KDg0OcP3OBrJwsCksLoyIlcj2arlG9poo3XjpMR2sHZRVl5H/vVeRFH72f+Qg1dhtVqytRFBWr1RJ1hQRRRECgu62by+euEgqFWLO+lvUb12O1Wai/0kBnayebtmyivKICWTJESuutVibHJ3jsfY8jS3K0wVtEpLzTbrQmJvcbplAxMTGJY3nIJ9ZNWOoOq1N/vZ6jR46iaiq7H9zNqupKdF0P52+oUdchpIZoutHEmZNnkSSJrLxskoMhhgXBqJzRNebm5rh+5TqPAJVVK8l87iWUBDsdTzxI8yvHSHQlkpHjRdU1Wg7tpPZbL1B84nJUqAjRjqwCbo8bAYGZyVmczkREQcSTaVThjI9ORoVKSVkxbTfbOHn0NJ5ML66kpKhY0dBAU+KuO9IiPxgMcvXyNa5duoYz0ckD2zYSVIK3JRfrmpELk+ZJo/7aDVakp1L01Wdp+b3PoiY4EABJFJHC3WglRIL+IBNjk9xquMXw4AjeDC879mwn3ZOOJEl0t3dz9VIdKytXsmnzJmRJQhJl0OHCuYtkZGZQUVEedVOWExv2uRdm2MfkfsIUKiYmP2fcK+xzp5BP5PfYkM/ly5c58tZRcvNyePDggyQmOaPOSSTME1JDdHV0cen8ZcbHxsnJy2Hbnq0ktLWTcuwMG9c9aOwbUBWVPZGeJJKAs3eQhewMZn1+piamqN5QHe5VAprVwly2h+T+UexzPjIaWuh6oMZoUy+IJLqSEASB+Zl5xHyjAVqKOwVJEpkan4Jw6xRZlti5fycvf/9VXnjueTZs3sjKihXI4X+LurjU0G1+fp6B/kG6Orro6+kjEAhSurKEB7ZvRLbIhNRgtHtu5D7qus5g/yCKGmJ2Zpac//U1FgtzGHp4d/S+ioKIpmkM9g3R3tzOQM8AIGCz2di+ezuVVRVIkogkyvR29XLirZPk5OSw/+B+LLKMFG6ff/bUWeZm5zj48ENLuSnv0E0xnRWT+x1TqJiYmNyR2JBPrEhpbW3j6JFjlJQW88hjj6ATM0RQVdE0lfb2Di6dv8TY6BhJyUls37ON4hXFgI6u68ysq6blf3yBUEjhzPGzTIxPciAvi31/9ZXww14HAWQp0lV16T/5+j0AACAASURBVEEriiKCroMg4G3tYddffZvK8iIuffaDTJfkMzYwhiAIeDI9UWdBC6lomo7dYYvrLZKSmszDTxzk0rnLnDxykvprDazbtBZXUhKjw6OMDI8yPDzC3Owsug4Oh538onyKygrJzMlA17Ro+XTERdE0jb7ufm7UNTI5PokjwcGBLC8l3/gPLn/9r4xEXYwpyg11N2i91YZv0YcjwUH1mhoKigrwej3Y7FZjno+ic/H8JRqv3yQzK5PH3vcoNqstXI4sc7PhJlcuXWXN2jWUlpREE2iXi5R36qaYmNxvmELFxOTnnLdzUyLrNM3Iy3jphRfJyPBy8JGD6BjLxcEhUv/2H7AfOYE8OUm23Y63rJjBX3uajAfWIQhQ8od/jjw1TSjFhWKzMZPp4ejrx7D3D/LXz7/Jlb/+w/DxdebzsnBfb8IuiYiSyML8YvRcxGCIxKFxhmrLGdpYw4++8aes+8aPeOxX/4K2h7dTl5dBcmoy7vTUaEhobm4OQRCinVpj8WZ6efT9h+jt7uXy+Sscef1IdF1iUiJp6WmsrCzDk+khzeuG8EyjkBJCUQy3ZHxskomxcSYnppganyIQCOJKTmLDtvUUFeez9Qt/zND+HcxUl4Om4fcHOHPkHKPDo+QX5bOyYgX5hXlYLTZE0XCBZFFmoG+A08fOMDc3z+o1NWzbsRWHPcEYOijK9Hb3cOzIcYpLSth/YH+cSInlbqEc000xeS9gChUTE5PbiISHYrvOzkzP8MPv/xCb3cbj73sMWZZQVAWhu5vcx55iJs3N13ZsZibTw+ZMLxt/8DJrf//PqH/2H/Fle6MJuIqq4p+b57XnX2d8bJxHayvh+TfRwxOQFU2hf99Wir/3GsUvHsGZ5GRhbgEwymtXvHQCiz9Az74HAPBnpHP6Dz5N6+N7WP2lf+XPD5/jzGO7mdV0RIvhKCwuLCIg4HK5brtWXddAECkoKiCvII+J8QnmZufwZHhIcDqibomqqiiqQkgJMdA7QHdHD/09/fj9AXRdRxQFUtzJZOdnkZmbQW5BLqIoUnHi33BvbubYgd9G0zUmRic5c/QswUCInQ/uoGxlKZIoIwrGxGNREAkFQ5w5fZa25nbc7lR+4SMfJCc3F1mSo05Je0sbb7z+JukeD0+873EsFktc35SImxLb7C2y7l6Y+Skm9xumUDExMYmyvBw5gs/n4wff/yHBYIAPf/QpHM6EaCJsxh9+kYCi8MU92/AU5bP7wC4sFgtND+1mzcMfpfjPvkT93/+/+H0+5iamGB2bwLngwx8IsHnXZnJCQeN4MTU2U1UraPvwIar++bs8vmMDF/OzSRoYJefUZaq++UOaPvww05VlWMLnKQENiYl8a9dGHh2f5smjFwldbqTx87/IxNb1zM8uIgjgSnUZ83AEAWHZA1nTNRDAnZ5KSloyYIgmVVXD4qSfzvZu+rr78PsDWKwy2XlZpGWk4UpNIjnFhSgt7TOkhpCCQXKEM3QX7mE+LZnuplaunLtGYqKTg0/sx+v1LLv/Om0t7Vw8e5FgIMiGTevZuHljNNRjiAyBKxcvc+b0OfJyc3n/k+/HbrdH9/F2pchvh6Zpplgxua8whYqJyc8RyxNptTuEeW57ja7x6suvMj4+zvs/+D7c6e5oVQ8TEzhPnOGlB9ZTtraGjVs3ABhdZm0ygx86ROE/PsObz3yPQz0DJAWDJKS7SU9M4NAHH0IQBLSm1jset+nXf5HZ0gJqn3me/ScuIT77ElOFOVz67afpe2gHkYk4vtl5Olo6ab3ZTkZOJrZPPcnRYIiV33mBTb//14xvrKVlQzUJTmf4gX+7SIHbhyrqmkYgFKS5sZmGukYW5heQLRKZeZnkFGTjzUxHF5eqowJqAFGLn6dT1fsymiBwde1HabrSQNP1ZnLystmxbxsJTieariOE2/erqsbLL77B+Mg4GVmZ7Nu/h4zMTMMVCefaCILIiaMnuH7tOhWrKnj4kYeNa7pTuGdZAu27wRQrJvcTplAxMTGJQ1tWvTI+Nk5raxvbtm+loCAfJTLrRtfoev0IJbpO8rZNbN25JdoGX9M1QqEQjbpOka6TOjJOWkYa5eevoY1OAJC1+yORAwIwU5zPi+e+H3cu/Q/tom5NJedPXmJhbgFd1xHGpkh8/ghJyUmEQiHGhozk2aKSAjZuN6Yn63YHrb/+SXofO0DWF/+OL/z9M1zdtZnQgh8tOem2h3psabGuaaiaRldnN9fOX2N6eoa0DDc1G6vwZKajCRqapjI8MsLY0CiIArJFxmKzYLVZcTjs2BPsuNRZVvW9xtmypwkgMDszi47Opp0bkK2ykXgraEhhydXb08fYyBg79uxgdW0NsmQxRFVM47abDY1cv3addRvWsXffXqSYAYbw7nNOIr1bTEzuZ0yhYmLyc8K9ZvvcyVmJPLyvXb2GJElUra5emoejaUxMTNBwvZ59QH5RAZPhqh9VU5ibneXEkdNkt3QA8MDuB0h68TATqyuo//1fDu/fEEOuzj42/cHfwF3cHU+ml0c+8BCzM7PMTM8yNz3HzPQss9NzgM7qDaspWVlEgjMhLjcj4Avw6o1mxrdt4PGDuzj4wptYHvskPZ//b4y87yFE2XLbPdA1jbHRcS6cucjw4DBJyUls3bcZT3Y6/oCP/r5++rr7GO4fYXHRF06sXRJ2AoaLkZSSyJ+s6GDUmU+baxUWJUhxRRHd7T20NLVRu74GRVMRRBFd00CE3u4+bDYbq6oro0mx0f4wgsjoyBjHjhynoKiAPXv3xLXIj53lExv2+UlcEdNVMblfMIWKicnPKcvFyZ2qfXx+HzduNLKyfCUJDnv0Naqm8tYbR/Clp6ELAva2DtTdW9B1jd6ePk68dZJgIMgTKS50QcBfkIWua6h2G7PZ3rhjSHPzcecQTfqMnVFjFfF4PXiW5XTEPZTDIRKAyYlpTr55kmAgxL6Du/GUFlH38Q+R/YNXKPzSv5D1Hy/S/QefZ3b96rj70dbczunjZ7FYZdZtWUthWQFBJUTdpeu0NrYRDAURJYG0LDfFVYWkZqQAOj6fH78vgBpSCfgCWDvqWDl7g694PomghUARSHA58OZ4aWlsoaJ6BQ57giFSJMIlzX0UFBZEE2qNazLclEAgyCsvvoIjwcGjjz261Hl2WchnKWE2PuxjliWbvJcxhYqJicldabzRSCAQYO26NQDR6cPtbR0MDQyxa/9u5q7fIP3ZHzLw8Q9S39LCuZPncaW6eHDPZtY8/buMbV5LIMkJOujo9ww3xIqUt3sAx60Pb6/rOr2dfZw7cQ67w8GhJ/fj8aQb24ow8pEPMPnIAXK+/HVWPf2bTO55gMFf+zDTxZU0XLvBpXOXycjysmXPZkRZYGZ6htNHzzA+OkFWQSZZBRm43EmE1BDD/cM0XmnC5rDiTE4gKdVJktuFiMAntF4OT+bxUnMP1f5EilcWIYoCpZXFnH3rPO0tnayqqYy6MePDI/h8fvKL8qNOUyzHj55gfm6eD3/swzidzrh1sfczIvQ0XUcUhKgrEisAl9//e/09TFfF5H7AFComJj8H3Cvsc7ftdF3n6pVrZGVlkZWdhaoq0W3OnzlPaloqKytX0v/Hv0fZhz5Fycc+x4myQqoqStmel82KP/ob0KHxdz8Td4zbkj7D4RJi2r7f1qwsEtZYJmAinV2nxqfo7e6lp7OPuZk5vJke9j20F2diYtzrRVFAdyfT/z9/m7FfeIKy//GHVP3Gr3P+c7tp6PJSVFrKxm3r0ASN7vZuzp28iKarrNu+Bk9OOsMDw1y/2MBQ7zChUAjJIhEKhlA1FQBHgp3HsqdJTZzkxqrPkuzvpeFiIwszi9RsrCIl3UVqeirNN1pYUWGUJWu6Rk9XL6IgkJOfbdxjXYsmC7e3dXDrZhObt2wmOzsr7u8TKyQiguNeYgUIr9Pi7svy35e/J0yxYvKzxBQqJiYmd2RycpLJiQn27X8wbvnw0DBTk5PsPbAXURQJFuTS9KNvo/3eF/nMkdO4XjlCKDWZ0a3rqPvz32XBkxJNmF3OnSpT4nqAhIf0RXIwVEVlfm6O2dl5ZqZnmBybZGhgmGAgiCAIZOdmU7uulhXlZVitRg6KsEzYgPFgDqwsoeG730W48D1Kur7N32SJdK/4JfpFgcmxKc4cO0ey20XtlhqCoRDnjl5guH8EQYL0nDQ8uW4S3YmEgkFmpuaYnZxFm53jKVsj3xjIYTg1ROWmlfTc6qezpQtnspOyilKKKwq5erqOoYERCosKUFWFibEJXKnJ2Gw2NE2LJslqukZTYxMOh4MHtmyKLou7lnCOixgWIMvFSngj4zXvQLDcTaxEXm9i8tPGFComJv/FeaduynL8Pj8AruT4bq5+v7E8JTUl+qALZnp44dH9aIf2sf/RfeH+I8ZwwkiS7LU/+lxcb5aISJmpLOPFc9+PhnskUYoKFHQY6humq7WTiYkpFmYXYs5EIDHJSXFJMXkFOeTk5eBISAjv++2bm2kAos51ewVfn3ic395hofLGl8nteolvjlcjW2Q27d6AisLpt84yNzdPSXUR3vw0NEEjFAwy1DeMI9GG3WXB7krj0Fwnit/JS7M5cKGJDfvWULQqn8VZH83XW8gtyCYt040gCgz0DpCbn4MkSiSnJtN+qwNVVZDDLktEsHi9HjrbO1lc9JHsik8A1nXdKPEOi5VYIr/eyV0xXnvncJBZCWRyv2EKFRMTkzgiYiIYbsRmtVjjEm8D/oCx3GqNe10wGMSZGJ8/8XYsz0mJVLksLCzS0dxJV2sXi4s+HA4HObnZJK9MISU1hVR3CskpLux2x22iZKkT6z36iKjhB7IoMDE+iTUxieHK9zOUt4eMy//Ib0o/5EZRDS36Os5e62J6coaabatwpScSCAUYGxyjraGThVmjZNqVnkhlvo0dUj1fT9lPfo2bWxfaaLnezqoNFRRX5XP1WD097b2U15Tj9qQy1D8c7t2ik5qeiqIoTIxPkZmZES1ZBigsLuTCuYt0d3VTXVOFqEGkXUskL0eIESERofFO3ZU7Jdrey1kxXRWTnzamUDEx+S/Mj+umAAQCYaFiu12Q3Gl5wB8gNS319h2pKo7JGXwpSYiiEP10fyeRMj8zx9XzdQwPjiAKIrn5OWyuXElhcSEW2RKdgxMJBcWKkju5KIIgLuu2G27mJuqIuoiqa0yMTeDxpKPpOgFrMn/Xt4pcMZ1fdjVTcfWPWBwtJFS6kVRvCnOzMzTVtfAZ8SIPrzD6wSi6wEjQghrUuRJK5PCUQEahTGaRh8HOITxZaWTnZ+FKc9Hd1kvZqlK82ek0XWtlbnYet9tKmicNgLGRMbwZHvTwMEhd1/B4PTgTnXR0dFBdU3XbtQCIiEvOirEgjnu5K0tC5p2HgUyxYvLTxBQqJib/hXjHSbP36EgrCoaYCAWXHBVREFHDLe4DgQAgGG3bBR1d1BE0Yz6Nw25HkiSjJ0m40sY+PcXeRz/D4Zf/BV9aCpLAbUmzAPMz8xx59TiCLrBmfS3lq1bicrmMAX2SdJtAEQQB/6KfyYkpJscnmAh/n5qaRhAEJElClmUkSUIQBUrLSti0ZZPhYgjGQzioaMxMz1JQnI8oCPR19zM7M0fizh28mn6I2Te+ycfcN3jCPs5zLWs50hgkGArhrEygxWLjGddOBDXEZl8Tj/ibaFeSGWgdYmJwipptFcyMz9F2vZM0bxp5pTk0XWphZHAUT5YHaGWwfwi3202iy4nFamFsdBSojP6NNF1HEHQKCvNpa20nGAoiyxbEsIhQ0RBiXJTIPVVVI7lXE+JdFiJuS0S6RN0V49eIYDHDQCb3E6ZQMTF5D/OTOCbRfdxFtEScE0skKVUUEXUNJaQa03slKfrQRwdFURDDPUBk0RAroraUiyKJErK09C8ntqpnbHic00fOIkkSDz1+AHeaOzqoTxSFmJ9F5ucWaL3VSntLO9NTM9EQjzMxgfT0dHLzchFFCVVVUBQVRQkxNzfHlYtX8Xg9FJcWGyERUWd6chrQSfekA9Da1Eaiy0lOQTaXz16hfcpLaM1vUd79Kp/Sj7G5xM3rnt04lSkUdZE5KQG0AOuC/QxIyaxzLbBiYzFtV7oY7BihbE0xTeda6WzspnpTFXZHN30dAxTszSfB6WBkcJSqmlUIgkCax83YyHi0oZ4kSoZ7IQgUFBXQeOMm33/uB1RUlFNYXERKSgoAYsQlioiLGBGIHpPHQowTcgfBstxduZdYMV0Vk58mplAxMXmP8ZOKk3cy3wcg1Z2KIAiMjY5RVFwUfZ3Ha4QmBvoGyMnLAUCWZHJyc2htaqO6dhWyTUbWZaNFfFicxIV7YkI1bc3tXD5zleRkF/sO7SXNnXabi6KEFDrbOmlraWdkcBSA3PxcVtfW4Mnw4vF4SAgn0kJ8dYqmaSiqwr9969+or2tgxcqyqMCKnBvh+T+BQJDU1FREUWRxYRFXqotEj4fv3ajgRzMp/GbFCL87+wPG5WSmRCMf58nFy2Tqs3SJbiRdw5WehD3RTmAxQILLgcudiG/BhyiKuNxJ+BZ8CIKAK9XFwtxCtCNuVk4m1y83MD+/QLLLSKgVdQ1FhbzCPFavqaGrs5u3Dh9BEARSU1MpKi6ksKiQnNwcbDZjMOGdhEvEidI0LU6wiCyFg0yxYnK/YgoVE5P3CP8Z7snbIYpi9Dh5eXlIkkRPTy9FxUXGekGktKwUh8NBc1MLOXk5UXdi266tfP/ZH3DiyCn2Pbwn7JaICOFP7ZIkI4fLbgXRCE9cOXuVtlvt5BXksnP/TpyOhKhIkUQZAYHW5jbOn7pAKBQiPT2NrTu2UFFZQZIrKeqy3Ck8EclPESVjm5raGk4eP8X42AQp7hREQSQhwYGAQCBc4STLEqqqGiEplpJxdV1jSkjk+cwHODe7io+NvUyaMsuD89dZF+igTs6lVukniMzqQA9NAmiaHnNPjZ8lWcY/H0DTNewOGxMzk9FjFBQXUHepns62LlavrTH6pOhaVExs27WN7bu2MTM9S093L73dvTRcv8HVK9eQZUMoFhYVUFRURLrHgyYYuSioRhhuuWCJmCmmWDG53zGFionJfc5/pkB5p24KgNVqIycnh96eXoBoToQsy6wsX8GNhkZ27N6ObJHQBI309HS27NjM6RNnefG5l6nduJr8ojzkSMIrIpIkoyoqHS2d3KpvZmZ6htr1q1m3aS2yJBshnnCox7/o59Sx0/R295Gbl8v2XdvJyso0ypdjxElsCCkWo/IlnLwL1NTUcOHsRRobbrJjz3Z0XTTmA4kii4s+ozRakggpofB+hWiXWF3TEUTjGN32HG7ZC1jra+XRxasA1CoDNMg5DMvJfGr+NBvyEvnazApjP6KAEjTuu2yRUBSjcZ7NbsW36I8eIznFRWpaKp3tnaxeW4OmadGwlshSKxpXiovVa6pZvaYaRVEY6B+kr6efnu4eTh4/xcnjp0hOTmbzts2sWlWJKEqAFl8txDsXKyYmP2tMoWJicp/y4wiUdyNE3sn2BYUFnD51Gr/fj9VmjeapVNVUc72unvbWNiqqKqOuSk1tDQnOBC6du8yJN0/iTk9la1kxACF/gPorDbTcbCXgD+BOd/Pgw/soKikEiIoUUZBob+ng3Klz6Brs3LOT2rWrkSU5zkG5U+fa5RjLNTRE7A47K8pX0NzUzOatmxBlEVmWsdvt+Bd9AFgsFvyBQDhMJUSPI7AUipIlGUGU6Ld4yQmN8lrCGt60V6GF3YrziavZOXeEf8y6wsVZP1+z5jARMPZltVjRFB1JlLE7HIBOMBDEbjHCNoXFBdRfvcHC/DxJSS5EXUQLJzFH8kpUVUMlXNotCOTkGT1kHti2icWFRfp6emlsuMnrr7xOfV09u/fuIjs723BY9Hh3Rdd1IpXQdxIrkfeI6aqY/CwxhYqJyX3Gf0blzo/72uXHLiwq5NTJU/T09LJy5YrogyozM5OMzAzqrtRTvqoiOksHoKSshPyiPNqa27ly8Sqn/w977x0e133e+X5OmQ5gBh0Y9F4IgAQJgCTA3kUVSpRsy7Ys2/GNvY/jG3tT9u6mPGvvbuIkm8TJXfu5TnGXm7pkkSIl9k4AJEj03nvvZeaU+8eZGQAskp3Ekv6YL5/hlHPmnN8pD37fed/v+33PXOZJ4MRrp5myW0lMSaRg4wYSEt0Iwmq5sSRJeFY8XDpznp7uXhITE9h/eD8REREBEzhRFJHEVc3LWmv9h0HUwE9WNm3eREN9A81NLWwo2gCA3eFgcXHREAHLMrpqRBL8RMAgKAICIibZbKSTBBG3d5xZKZQ7oYWYBCuariOJEguCjb8ZL+TU0hxftfTy7fBmfkYGS9JOLBYzuqaDDg67HQEBz7IHIcwYf2pGCneqa+ls76ZwU0GABKj6ahXPe8FiM5Odl01WbhbNja3cuHqDn/3kZxQUFbJjZwUhISEBwoJfn6NyH1nx3wuieH8lUBBBfNCQvv71r7/X8vdcGEQQQfzHQdO0BzakW7eOrqH7/r3f8vf6dy/8XiOBVIfv8xCHg+rqW6iqSk5OdmBdQYCQ0BBqbt9hcWGRlLRUI1WC7otCCEREhZNXkIdD0yk88S5dn3iS8scPUlC0AafLFajkkSQRUZRYnF/k7TdOMTYyxq7dO9h7YC8Oh+M+krI22qGoKjqrXYYF3zL/QzfKXgJHHRLioK21jdmZWXLycwCd3p5exscmyC/KZ3hwiIG+QXI2ZDMxNsFQ/zDxyfEsLiwx1DuMrmo4o5yUzVQTrkwzborkyNxNZFFk0OZGkMwszS4x2D6MEuGmI3kHTR1TPBfVRdHsXbrnTAwt28nbmMvC7CJDvcNk5+fgCDGO02a309vVS2d7N/Pz86wsryBKIiazKdDbx1/Js/ahamrg/vH/i46JIm9DLoqiUF9bT93dWsKcYURERRhkxFcN5L/g/tf+//3nEPTAuVz7vP7+uf+zIIL4DfGNhy0IRlSCCOIjgPeLojw0AvLviKrAKkF5GCRJomDDBu7cucPS0hIWq8WIXqga6RkZlG0t5eaNSqJjoskvzEcWZRRN8UVYZASzSH5BLgBl5aV4IwxjM9Gn9/BHU6anpjn15mmWl1c4dvwJklKS13unrCEpoiAyMjLK+XMXGOgb8G3HR15EEZMs8/hTj5OammroVEQjqqL5ohJJyUnU3qkNkLLklGQ62zuZnZ4lIyeD+tpGejv7KCjOp6u9m/qqBjbv2oTi9dLZ2s1ozyB/nD7IlCmcHyY9T/ZcE4cmLlAy18APZ3N5q9uC1WolsyCDlupWFmYS0LcdY+fMVb6yfIbDael0ebbTObuAJIm4XGGBlgGCILBjbwW3KmvoaO2gub4ZAJvDTkxsNGaLabX/kWici5CwEBKTE3CFu4zzoK2KZmWzzPZd29hQmM/5Mxc58dZJNHTy8nJBlEFVApEVQRPWaVY0xHUpoCCC+LAQJCpBBPERx4PIyMMIyvsRj38LijYWUV1dTUtzC5uKNxn7EUQ0XWXHrh2MjY1z6fxlnOEuEhLdBkmRAJXAhAmGj4omrVrD+5dNjE9w4vWTCAg8/fGniI2LW0dSZEkO6FEW5xe5evUaDXWN2Ow2KnZUIMtSINqgKiqNjU1cvnCFtM+lrYseiYKAhkhiYiK3qm4xPjpOVEwkyWnJAPT3DJBTmEVkVCTN9a2kZqdQVFpI5eUqxvrHKd6+CXdqPMn1rzDnFfl/pveQGKdzdS6WV3q3cUhs5suxt3ksP5JzCUe50zfB7MQcm7YXYYuM4Ucdefx4yMx/KRjnkar/hl3fyIyrCJNpff+e6NhoHnniCOgwMz3D8OAwI0OjjI2O4fV60TQdXTPM4DRNxesxxL8Oh53ElCQSkxNISErEbrcGSEuoK5THnjzKW6+f5OSvTiKJItk52evIiqivF9hKa1I9D6oCCiKIDwpBohJEEB8i3iuS8usQlPciJmu3/ev8Kn7YWGLjYomKjqahviFAVMCY+HVR5Ojjj/Czn/yc0ydO87FPPkNIqOEvoosGSVj1TlklLf7nocFhTv3qFBaLhSefPkZEZKQvhbPWgVZEU1Wqq2uovFGJpumUbi2lvHw7Vqv1vpRDRGQEJ0+8TXtbOxlZGfcdjzshHoDBwUGiYiIJCwslIiKC/r5+8jfmsmlLEWfePkt/9wDZuZl0t/bQWNNMtDuK5EgLz4Z38AuhguGuBfpPVaHrOlaHlduZB1hKCmX/9AW+OPxjTk/H8056OalZKSgrKkM9w2TkFnKjuISEmSayq77D/3A009MbxmjyIZBXCYufGIRHhOMMd5KzIcfXF8i4Rmvvg9npWQb7BxnoHaSjrYPmhmZkWaZkewkFGzdgko0/87Isc/SJI7z1+kneevMETzwlkZmZAaKMqPncellPTh4WVQkSliA+SAQ1KkEE8SHhYcTArzO5973/M4Oc6IC+qktYp1cwfm3rgbWMRoP+h7EN/b4HvvXWK1iMd8srK9TdrSV/Qz5Wm9XoQ4PxPUmSSElJpq62jq7ObrJzshClNf125heI+f5PGfvCZ1Ad9sD+WxpbOHv6HGFhoTz1sSdxuYzUhbRGayKJErOzs7z4sxdpbW4lPSOd4888RV5ebiASsZao6LpOdHQ0jQ0N9A8MULixEHx+JJqvf45skmlqaMLr9ZKRnY6ma0xPT9PZ1kl+UR7OiDC6OroZGR4jMzeDiOhw2hraWVpY5intMjpQV/A8CWluRFEiLTeV/JJcomKjEKxhtNrzeKNumYPOIZ6xNyKaLFxqWmRhfpnyvdsJcTiYM0fz7ateopOS2XL6l6T87cvM5RWx4o5dczyr11vTVVRdRceIovivu6qpmMwmIqIiSEpPIn9jHu5EN0uLizTUNjIyNEJ8ohuzz11YNslkZKXT29VH3Z064t3xgfO+qlERQPC3N7hfqxJYL6hTCeI/Fg/VqASJShBBfAh4kog5jQAAIABJREFUL5LysPd+grKWnNxPSLQ17x78MEiJ8MCl9+3L9ys+LCyMqsoqnC4n7gT3OqKio2OxWoiKieLOrTsIgkBCkjtArKTFJaK/9wKjX3guQFQqr1dx82olMbExPH78UUJCQgL9eQIkxff6xJsnmZqa4snjx9i+oxy7zdjG2klxnecJOstLyzQ1NZGekY7dYQ+QFM1nT9/f18fIyChFxYW+7+k0NzYTHunCFRmOLEu0NbYBkJyejKqp6J23+bh4le+u7GVBchIeFU58YjzOcCfeZS+j/eP0tvTTcqeNcY8Vb8WzKKGxFHb/ilKlAXtqPmFZm5ElE821LYyNTBK99Siesidw9A+S+r+/j6Ozh7mCPNTQEP+VCFwDXTPGruoaqq6iqgq6rqFqCpqmomoqoGN32EjOSCHE4aC1sZW2ljaS05KxWi2AUYKdkZ1Od2cP9bX1FBYVYjKbDWs+0TC6W9+LSQiQkPcT1QaJShD/DgTFtEEE8VHBb0pS/Omdtd9bjYzc3xn418FvGrQ3md7/T0VyShJOl5PpqZn3XE/Xddpb2klOTebRJ4++7+Q2NzdPSmpKwB3Xj7Xph9WIkMbU1BRVlVXEx8cFuiKvJSmqpjI8MkJkVETgnMUnxBMWFkpjXRPJGclkZGcwODBE450mFEVl4+YCti3/jNvLudzul/B01yBJIla7FV3XmZudB8But5GclkRqVjKiKPH9SgWWD/B/ZY7z8YVXmKhp4eXlbTS0zpCdm0VScgIrskzLX34T++90k/rN/5fix55j8Aufou/zn0CzWQMkxaN4mZ2ZZXJ8ksmJSaYmp5mamMJitZCWnUpKejIWiyXgSJuWnYorysWZt85x4o23Ofb0E4SFhQJgsVo4fPQgv3zhJaoqq9izdw+aLiD4zoegCYiSGEj/PMhQL4ggPigEiUoQQXwE8OuSlHsJivYeROU3MeJaqzd4EOHxeLzogMlkfs/thIaFMDc39577GR0dY35unrLyskCZMaxqWe4dj9frfShRuteMbGVlhTdeewNBEHj82GMIohCwotc0g6xMTk4yOz3Lxs1Fxvc0DQTYsHEDVy9eZ2J0wjCq21OOKIo017WQv1xHlGeImh3f4ikplJHBEfq6+lhcWAJ0sjdkEeuOwelygi7QVNtCS20LjhA75Y8dYc4dx8X5EWKu/j1fVL/L1sxylnd9DN3XmVoQRJay0mn63rdwnbtM6l9/h5hXTtD5B19k9PBuOjt7uHrhGstLS+i6ETUKdYYQFh7G7PQMNy9VUn3tFinpyWTmZRAVE4UkSjjDw9hzZDfnTpzn5Jtv8/jxx3DY7YiqSFh4GBlZ6dy5fYfSslJCQkIRNQ0kcdW+/x4dStCtNogPA0GiEkQQHzH8OiTlXlHlvVEaf4RBVdUHRyzWzDWir5rjvcbi8awAYLGY3zNyExISwsR4b2CbD9p3d2c3oiiS4qu28Y/hYfB6PO9JkPwT6vz8Ai+/+BJjo2M8efwYIaEhq9EUH0nRdY2uzi50dJJTktb51uTkZ1N1vZrG2iZ2HtiBpEts37UNi6iwZ/RbvKUW0t03R0ioTmxsNMkpiQAoqsrM5AxjI+O013UyPjrB8tIKmbmZlJaXYLNaWV5e4fSVdkaGtvL0lkfYN/8W1q98gtFtj9L9ha8iyj6yhcbUvh1MVpQQ/+OXyPrG3xP2Lz/lTGEu9tx0ikoKCHWGEOoKQfRVUKmayvjIOJ0tnXS2d9PR0klkdAQV+ysIc4YSHuVi58EdXDx9iUtnL3H40cMogoIoimwuK6ajrZPKm1Xs3bcaVQk0MBQ0pAe41d577gPvg+XMQfwWECQqQQTxAeJBaZ8HRUXWkpSHERT/ttamPR60zXtJgGHDbniKCIKwrpvuw8brWfGg6zqiLPpKY33lsYF0ioKm60TFRFFf18DIyAiuCJexEdXobaNqCoqm0NHeQUx8LCazCVVV0UXdqDgRREAGUQRN8b0Gj8eDbPJ1E17Tr2YtxsbHePmXL7O4uMix40+QnJZimKDpRudk3TdeVVXoaO/EFe7E5rChqIpP46EjShKZuRk01jWxeesmrHYbOjrHI7swzdp4dzyPmSu3A9obi9WMI8TB7MwcXo8XQRAICQ3BnZRAWkYKyalJeBWVutsNNNc1o2k6+w/vJSoni3rtOBlt/4voH7yL8+06ev/0a8xt3QyaaBjmW6x0PPc0L9lsbH/1BN944zQDnr207CxhwRXq06P4hNa6TkR0OK6oYopKCxnoGaL+ViPn377Agcf2ERoaijsxjk2lG7lTdZfOji6ysjPRNI2IyAiyc7O4W3OXsrJSwsLCAtuVBClw3wWjKEF8mAgSlSCC+IDwbyUpa9M8fmKwlpwEvqc9mKio3JPaWSOURF9PXOD+KhpN11hYXEBHxyTLAZJiTPCrJEVVFZ9mQ6O5qYWS7Vt8A/AYT4qXqckpJsYnychysbC4gM1mQ9TFQK8gY5+iYUKmKWiaaJAJRfERNs1nie/btKrS2NDEpQuXAHjm2WeIjY25b2z+1wP9A0YZclEeiqagqmog0qLpGjkF2dTdqae2pp6S8i1YF0dJ63yF2uI/4ljsNubm5piZmmVmaoaZ6RnmZxfIyIomJj6auPhYQnwdnT3LHpprW2isa8az7CE9K42SbSVERkYEJv3ur/1PpM/P4v7O98n5na8ytX8XfX/8eywnxLPi8XDy1beZmZ4h5M++iklVyP27f2b3M79Hy+eeov2ZR1BMku9eWCWOoTNzfOzNc3zlWg3W6Vnm//VFpvduo+tLz5FXlEtPRw/XLl4jNTUZ2Wpcy5JtJbS3dlBdWc2+A/uM+0gKEpMgPjoIEpUggvgA8JuQlLWpngdFUQKaC11DVRQmp6aYnJhgbGycyckpRFEgJMRBSGio8RwSgis8HIvFqPoQ/fvyOZzep0XQWaf7mJuf58yZs9htNiKiItalU9aSlKbGZs6+cw7ZZMIV6QqQH9PSpLHf5QlwJBAZFU57aztdnd0UFOWzbcdWRFFC9v85EgmYkAmoJCS6qaqqpqWlBWeYC0mWkE0mZElidGSUmZkZYuNiOfrYI4S5wlBUxTg3gTJejcmpSa5dvk57azt2h52s3Ey8infNJG8IVq1WK2aLmcmJKQCymn7AdHge4/HliIKA0+UiLCwsYBK31hfGs+JhoGuA/t4Bejp70VSNxORESreXEBsXs+oNs/Zch0cw9Gd/xOSzT+P+i7+j8OinGPr8J7n9+H5mpmYo372dtJw05lSF6//618SdukDud35M6htnufPlT9G/fSP+Ynb74AiHf/+bLMRHU/1n/4lWDYbPXOVLrV1s/+wfUvWjv6e4bBPnT11kZHiM5JQkJCRcLheJSQn09vWh6TpiUDcbxEcMQaISRBC/ZbwfSfFjfQWPvm4SXUtQVE2loa6e6qpbjI9PoCiGM6mOTmhoCJqmsbCwuE5/IcsyKSnJZOdmk5mVidVqQ9NVRB9JUdEe2NivqamJM6fPsLyyzDMffxqL1YiY+MmApusoipfqyltcv3KdWHccB47uw2QyoWpGymfF5YA/gGVXCGaLiaPHjzA5MUVTXQt3b9eyuLjE7v27wASivsbDXVWQJJnHn3qM9tYO2ls7DHKkqqysrKB4FULDQtizfzdp6Wmomnpfmsfj9XC7+jbVN28BsLmsmPyifCRZ9JEsg6ComkZ3Zw+3btxmeXmZpLREItqvEzNwiZt7vg1rRL9Ivu7NwMzUDAP9Qwz0DjAyOIqug9VqJS8/l4JNBURFRa2SGZ8/zFoS6Ic3O4Ou7/8fQs5fJvEvv8X+l99keOMGXMcOrd4f6PQdrKCvfBOZL7zBtm98m7b4aF46uJ3Ujx+h9B9fQBcEzv3tH6PbbDi8Ko1N7fzrvnL+8H//C7nf/A6zf/NnAEyMT5CYnOArc9cIjwinpan1fXtNBRHEh4EgUQkiiA8Z6yIrazQpaz/zk5SRkRHePf0u/X39RMdGs6m4CFdkOOHhLlwR4UZ3Xt2YzBcXFpmfX2B+fp6RoVHaWttob+/AJJtIz0wnNy+XlNRkrFabUX6qrkZW5hbmOXv2PC1NzUTHRPP0x48TGR21jjypmoqiKJw/e4H6u/WkZ6Wzc/8OBEEI6FHA59gSZqSgFJ+2whXhonz3VkJCHdypuouieNl3aB9ms3mV2K0hK7n5OeT5ujSv1dP41/XrUdZGUXp6e7l49iKTE5OkZqSytaIMq92Coil4fakkTdcYHxun+tothgeGcUW42PfIHtzxMRQ+/V+Zrchh/ok0dE1nYmKCyfEppienmZqcYmpiGlVRAYHIqEiKS4tJSU0mLj4OWZLXEZOlpSVmp+eIiopCsvi6P6+NlKEhShKze3dQv30L2t9+h0///DVWhkdo/6+/x0ReeuCYvVYzdz/zBD+zWzj69iX+9HuvcrWhnYTqBmo+dwyvxYyoa8gmiciYCHpHxuh5+gjZ//RzQhQvVruV8bHxdfeY0+XE4/GwuLCI06dTeVjlTxBBfNAIEpUggvgQ8aCUT+C9PyWh6ywtL3Hl8hVuV9/GZDax//B+8gvyApNJIIqwZqK22q3YHHaiY6NJy0hj+85tDA0O0d7STntrB60trUiSRFxcHEnJSSSnJONOcNPd2cXZd87h8Xqo2FnO5tItiKIQGJM/arG8vMypE6fo6uiiaHMRW7YVo2oaiuo1SINP/4GPsCiqB69i6FX8jfUKNxcgSSLVN26jqRp7D+/FarEg6evTQJogIoq6v1vefRGptVGU+YV5rl66RnNDM46wEA4cPUBCcjyaruFVPCg+UjM3M0t9TQNtze2YzGa2VGwhMzcDURSJf/Nd9BmJ6k99hYa7jbTUtbC4sIQgCJgtZiKjIsnOyyYqOpLklCTCnM5AWkcURTweD6ODowz0DzLQN8jE+IRxOJJIdHQU7gQ38QnxxMbHYrNZA1VSmqahWSzUHNzDzwSBP56ZZcvn/4DhI3to+vJzzIeHgg6Vl2/Rv7hMyJ9+idpbDURcu4Og68ylJgTOiSCIuJPc1FXXM56SQI6u4+gdIiIynImxiXXnz+VyAjA9PR0gKkHztiA+KggSlSCC+C3ivdI+D+7lc3/Kp7W1ldOn3mFhfp78wnwqdpRjspgMt1RdQ1HV+3xV7t22/1dxbFwMcfFx7Nizg+HBIfr7Bunv7aeqsoqbN24ajQM1jXh3PIeOHAqYovkFqX5StLi0xGsvv87I0DDlu8vJLchGUVVUTcGreI2ohdfDzPQsy0Nd7AK6u3pwptmQZMkgKpqIKihkbcgEUaDqajXeEwqHjh7Eal09f5JkrK/70kK68OCok6apNDU2cen8ZTweL4VbCikqLkSQCBCU5eUlhgZH6GjuoLe7D9DJzMsgf1MeFosZVVOQFpbJ+s5POHtoJ7945yaKx0ucO44t27cQExuN0+VEEiVfN2cxMD7PipfmhmZ6unoZGxkD3bCsd7vjyd6xjcioSMZGxhgaHKa+toE7t+8COhW7K9hYvBERo1s1gGdlhcWwUDr/8EsMf+IJ0v/mO+x+5su0Pf8UP3XHMNg7SPG2TaRnpaGkJ9E5vwS1rczPLyEKgjE2UcSdFE9ddQNT49PGfSCKREVH0VTbjK6tOss6/URlapqU5F+vbDyIID4oBIlKEEF8yFj1+bifpPR09/Daq68TFRXJo8ceJS4u5j6xaEBr4a8E0lYFuP6JRkVFFEVUDF8VWZSJc8fjTkxgW3kZHo/C0MAgA/2DhIWFsbG4CFmS1xml+cnQ8soKJ948wcjQMHsP7yE5LTlAToYHR2hubGZsdJypiSkURSFcWuTzCXD94g3mLjfgTo4nJT2Z+MR4zGbD8CwjNw1RErl5qZJXX3yNQ0cPEBERGZi4dX80xRdd8Z83P5aWljh/9gJtzW1Ex0VTvrscZ3goiqbg8XhprG+is62TsZFxFEXBbDGRmZ9BZl4GNocVzef8Kooied97kXmbhZ+EOoiNcrGptJiY2CgkSUYW5XWRBlE0UjvDgyOcO32OxYUlYuNiKNtWRnJKIvFuN+Y1HjC5ubkAKIrC8NAwF89fovJaJVk52djttkD1k4CIoINn2YO+IZs73/s7Ik6fJ/Nb/8rvLyzxi4rNhCXHI/i6S8sbc9Fe+BWm2lakx/Yhir6uyWEhSJJISGcfuiCwlBSPY2DUMMdbWsFqsSIIIna7AwGB5eXl39JdHkQQ/3YEiUoQQXyIeK/uxzPTM7z22uu4nE6e/sTTmM2mVd8PX5pD0zVWPCsM9g/S29NHf98AJrNMZGQEEVERRMVEER7hQpLkgFDViE7oSKKErotogohskkhJSyYlLTlQPusnRKvRGh1FUTh14hS93b3s3LeT5LTkgB6lobaRG5dvIEgirggnaTmpOCPCiHNo0HiC4opNtPbP0987QFdbNyaTiaz8TDaVFiFJMimZyVhtFq5fvMmrv3id8l3byduQZ9ip+Ma+6reyGjUaHhzm3bfPMDs7R/HWTRRsKkDHSPMMD49w7cJ1xscmcEU6ychLJzImnKi4KCTJSLeseFcC5zysd4SMF09y/n98FboHkGSJ8CinUQ3jN0BDWlO9I1B7u5aqG9U4nU6OHT9GbFzsuqiG/5zDmk7SJpHEpEQeffwoP/rej6m8Vsm+Q3t910NjQ+EG6u7UUVtTT2n5FnRRZPTQLkYqthD+f37Il149RUddC7f+8+foDbFzp6GdprREdlTXc9rjRbcZuqP+3mHMXpWy67eYrChFDXcxeqsBh8OBI8QRSFWNTYwBEBERgSCKwUhKEB8pBIlKEEF8gHivtM/aaMrKygqvvPIqqqLwxLPPBEiKPw2ztLREfV09vd299Pf14/Ua0YDo2GhWVlaor20IlAdLskx8fBxl5aXExEUbeo97Jn4/YRFFEXQVXTBMvvS1aR9N5czps3S0dbBtx1ay8jLwKl6WPStcvXCV1sZWYhNiKNtdiiiLASJlWTbKkyOiwylMSGFDSR5T49P0dfTTcLeRyfEpyvdtw2GHGHc0jzx5mBsXb3Lp3GX6e/vZuXcnDl8zw7V+K5qmcavSqOhxOOw8dvwRImOiUDWFxcVFKq9X0dLQgtlqYfveMmKTYtE01adRUVG83oB9vt/UbNN3fs5gWSFj24tIt5pprW9jcnySqOgowBfd0TQQDQ+Xs2+fo6+7j8zsTA4ePojVZkUSDSIjS/IqMblX7yFICLpIREQEm7Zs4nb1bTYWFxEeGY4oiERGRZCdl01LQwsFG/Ox2C3IuozXZmPsj77I28cOEP8X36Hu6m16wp0kpyfRuX87Gb//v9j1n/+S5i9+ksWUBMTTl/mzc9eRBJH2//YVBARGBkdITkkOpKyAgLg2NjYmMEQ/yTLKqn89vUrQlTaI3waCRCWIIH5LeFjzwQett1Zzoaoqp06eYnRklGNPPY4rIjyQ3lE1lempKX71xluMjYwR5gojKy+TuIR44hPiMPkcXBVVYWZymsmJKSYnpuho6eS1F18nryCP0u0l2GyGCEQURP/8C7qGrht9ZxBFRNaTlEvnL9PU2MyWss3kb8wzrONnZzhz8hyjwyPkbcolb2Muqq7iVTzMz80zPDSKZ6iH40BTbSPOrHzsDhuu6DAiY4sIjw6nrqqeM786y+7Du3C5XJhtJvYd3UNrfTt3qu8yMjzKvkN7iY2LYWJ0itHhUYYGhxgZHsWzskJmTgblu7cjyTKqptDa3MqNK5UsLS6SkZvOhuI8BFlkfn6OibEJxkbGmJqYYWpiipUlD4lpCaTnp5HX0Y+7up7X/+W/o2oq6XlptDd1UHurnj2Hd6Hpmq9pn3HCmuqa6OnqoWJXBSWlW5Bl030kRRalddfaXwJumPMZDf+2l2+jqaGJKxev8uQzTwDGNSzbVkpbSzu1t+rZuqsUXdCQfOk4c1Y6I//yVyR29pAsCriT4/EKAhe/901yfvAqm//nt7FMzlBiMdG/uZBbf/41FHcc8zPzLC0t4U50B1JYoiAwNjqGw+EgNDR0XTQlGFkJ4qOAIFEJIogPCQ9K+2i6RnVlNQ0NjZTv2E5aRtq6Sp7BgUHeeuMEXo+HI08cJiHZHRDTarqGoinovnLmsHAnYeFO0rPSKNpcSE3lHRrrGunq6GJbxVay87KQJROohgYkMHEBmgaIYmC/N69XcvdOLUWbCthYuhFN0xjo7+fdk2fxKl4qDlQQnxTL2OgYzXUtjAyNMDs7h67rRFu8kAztTV1M1A8SmxBDek4aMfHRJGcm4Ai1U3XpFu++eYbdh3cTExuNIIjkbswhLiGOK+eucvL1twEBQTAmz/DIcNKz0khOSSQxJQlBEFjxLHP1wlWaGltwRTjZcaCcsPAQpqamuXm5ktGhscC5dIQ5iIiOQJAEerv66Gvr4pNnqrh1eDvT8ZFIqoLJLJORl05rXRsTYxPExMYGON3S0hK3q+6QmJzIpi0b79GtrI+irPWnCaStRHwOuxo2m53yiu2cPXOOro5uUjNSkXUZV7iLDQX51Nc1ULS5EFuIT2Esm1FVBdEskJ2btU7bpCS4afzz36dZEKi5eZfm+hY+8fzHCAkNQRZlRodGEQWR5JQkZFFG8hGq8bEJYmJjAv2DHlTxY5Rb39+OIYggftsIEpUggviA8F5pH//noyOjnD9/gazsTLZuK0Ndkw4aGhrhtRdfw+qwcfTYMcLCQ41eOWsIit8bxL89o+zVqD7ZuqOUzJx0bl6p5vy7F+jp6uXAI/swyWbQjIlIwyfCxSAriurl+tUb3K68TXZeNmUVZWi6yujICG+/cRp7iJ19j+7BHmpjsH+IsyfPIUoi4dEuEjMTcEWFEWNXoP5dtu4vobFnhv6OAYb7DM+SzeXFhMc4qTi0naqLtzjz1jkOPb6fmLgYRFUgIjqcR59+hKa6ZkRE3AluYuNjsFgsaJqvNBtDr/PuyTP0dPeyYWMe+cV5aLpGf98Al05fRhAhpyiTsEgn9jArJrPJZ/amk5GfSvKP3sI2v8jf2MwkVDdQuCUfgPTcVDqbOmm400j0oWjjHIs6jbVNeDwetlaUrYtM+OGf0JdXVmhtaaWpvonJqSkOHT4YENRqIkiIiJpG8eZi7tbUcuXiVdwJbsxWQ4Bbuq2E5sZmrl28zv4jxrUSNGW1nFnXjI7HSIHrLYgi87MLdLV1k5yaFCApoiDR29WH0+kkPDw8kNJRvCqTk1NkpGesK7EWH5a2CiKIDxjS17/+9fda/p4LgwgiiIfjXpdPfzM7/zPoa+zyjQm3srKSvr5+nv30s8iyHBDNqprCyV+9zYrHwzOfOo4jxG7oLFRlHUlZXFz0ERUdTVNB10Hwbx+ffXwGJpOJxtomxscmSEpNQpaN3yzrfknrOhcvXOLurbvk5Oewc98OEHzajNPnWFle4chTB7HaLSwuLnDu5AVks8yuoztwp8YTEu7AZDVhUpYpHrvEnfjdhMTFkJSVgCM0hNH+Ufq6+khIM6IqyWlJ9Hb2MTY8Tnp2mvFrH0Nj406Ix53kxulyIksyqmacLyOSoNLW3E5tTR1btm8mb2MuOhqTE5NcePsCVoeFisPlRMZFYrIZx2mUduuouoptYYFnv/salz/zCD1JcfS09iBKEpEx4ZhkE/OzC4wNj5NXlIsoGmmdjtYuvCsetu/cvlqqLIpIogQ6dHV2c/3KNc68c5b21g7MZjOyLHOn5i6SJJKUlGSsCyAYZCA6Noa7NXcZ6B8gJzcLSZIxm81Y7Tbq79TT3tZBZHQUISEOQ18iikiCiChKCIJglJYrGj0dvVw7fw10nT0HdhMaGoZJlulo6aThbgNl28pISExEloxx37xWyfDAEAcPHyQkJCRgVCeJEoLgM60L6FWENQTm/mhK0HsliH8HvvGwBcGIShBBfMhYq0/p7OgkMTEBq82K6jNWA2hrbWdwYJCdeyuwWCx4VQ+Kv6GeprG4vMSd6lqaapuQZYn0nHSy8jIIdYats8nXRBFZlNmwMQ+TyUTl1Spe++XrHH7sEJGRkYHIiqqrXD53mfraBgo2FrBt59YAMejq7GZoYIiSii2YLWY8ioeqq7dYXFik4vB2ZLOIV/GiqiqKpjA7MwvA3Nw83lCj31BschShrhAqz1Rz+9odtu4pwWw2U1RaQNWlW9y+UUPZjtIHnzBRXtcDaWFhgRuXbxAVG0VWfgaKprC4sMDF05fRBYGyPSXIZgnV14TQq3pQvApTE9OsLHn49DuVTMWG03igmFzJxNLCEh2NHaTlpCBaRJyRYfR19jM/N4/LFW6kWBQv4kMa95148wSd7V04QkLYVLyJDQUFxMXFomkaJ0+8zZVLV5iYmOSRo0cC5deaCEmJiRx59AhvvfEWZ06d5eAjB5AkmaKiQmw2K1cuXuPt19/GYrWQmJJISnoK7oQ4dE2ht7OXro4eBnoH0DUdpyuMA48cICo6ClEUGOwb4vrl6yQmJbK5ZHMgjTM3N0/N7TtsKNhAXFzcfdGUtXi/DspBIW0Qvy0EiUoQQXwIWKtPMf/ulxDGxxn8/j8xMjzCzj27ADDV3MV98DE6r53h2uXrhEe42NbRTdR//ytsrR2g6yxkpHJ733ZelyUW5xZIzUpFUbw01TXRWNuEOzme3A3ZxCe6kUQRUQMFBVmUySnIJjzSxYXTl3j9xTfYe3AP6ZnpaIrGxbOXaG1uY1PJJkq2bQmQFK9X4ebVm4Q6Q8nINvQzHc0ddHf0kLspF2dEKB7Fi0fxUN74A0o8TYHj/EzXP1Nny+FW2hEU7FhDLGQUptJyp4Outh4yctKJSYwiPTeN5voWIqMjyMrNQtMFBF1D00VDzOpzuvWTtKqrVXi9Xsp2lKADXq+XS+9eYWFhge37t2Kxm1lcXGSofxhvWw8H362kuGcY17KXebOMc8XLy187jldTkRBIyk6g5lItgz1DpGQk44xwous6E6MTOJ3OgLeMKEnr0niCIDI7M0ve6SYoAAAgAElEQVRHeyelZaXs3bcXk2wKRBlkWebYk08QFxvLhfMXmJme5snjT+JwOIzjEWFDfj4L8wucP3uexcVfcfTxRzBbzWRlZZGUlERXVzcdbR30dPfS3tJuRN00o2zcEWKnYGMBmVkZxMbHIPoiNr2dfZw9fY7IyAgeefwRJElCEiVkSebGlRtIosjO3TuNtNE96StxTTRlLYLalCA+SASJShBBfETQ1GhM6tk5Wb6qEN/nDU1MT03zByMjJL/yJoP/9+/S8Zd/wvTMDEs/+AX7v/0jvGUbGf7TrxAZa/TjmZ+fp7Whjc7WLs71XiQyOpIDR/disVqQWJ1k4txxPPmJY5w/fZ53TrzL5rLNzEzP0NXWxdaKMopLiteZyTXVNzM7PcueI7sRRZHpyWluXa8hKjaSrA3pLC0t0tLQTldLF7muKWoskbxlq+DPeZPXFjL5rFSPVjfH9fxnsVptJGclMT40RdPtZmLjY4mIcFGwJZ/5mQWqrlQTHhlBdEw062tnVnU+A32DtLV0sLGkCFe40xfdqWZsZJwtO4qJjIlgbn6Wy29fwz44xt+frWTMGcKPn97DUnocz//zW4iTsxz85xOMpLpZcscQFRdJSJiDzuYuktOTcIaHIUoik+OTZGRnGtEpRV1X3utHfW09giBQUrIFSZJW9Su+yV4SJcoryomMjOSNN97khR+/wNMfezrQvFBBoaysFJvdzjtvn+aln7/MY08+ijPcic1mJyc3m6ycTBRFYaBvgK7ObgRBIDUjhZi4aERRWpeaaW9p5/yZC8TFxvHE8SdwOOwBk7jR4VFamloo31GO0+kMpHju6/DMGv+XIEEJ4kNA8K4LIoiPCBobmoh3xxMeHr7u8/raBsoESP/5Kwz/l99n+EvP0yHLvHC1ildzM7jx7BMcvFFD5sRU4Dt2h51NZRs59uzjbNtVxvTkNBfeuYTA/RoCR4iDx44/Sk5+DjVVNXS1dVG+q5wtZVvWrbeyssLtyhrcifGBzrvXLtxAEAW27jJEpTfOV9FW305YeCiRMeGERUcSmZUNwPLmg1SSzmZpgJvvVjM3PY8gCBRt3YAoidRcu2sY0cky2/aUYbFauXLmKorHe9+YRUFEUVSuX7qBy+WkqLgQgK62brpae8jflEdyehKaplF54RYryyv8SfcgJpuFE3/7ZbyPl5O7sEz85Cx//58eR9V0Kr71EoJg6CxSspOZnZxlZnIGSZJwhjuZGFs9v6qmIUur9EkURXRNp6mhmYyMdELDQtct84/Z/5yXl8fzz38GXdN55aVXmJubD+g/BFGksGADH3v2YyhehZd/8Qq9Xb3IkoRJNiOLMmaTmbT0NPbs382uvTtJTk7GLFswy2ZMsglZkmmsbeL8uxdJTEzkqY8/hcNhRxJlo3QakSsXr+BwONi6beu6lI8RWXl4NCWIID5oBO/CIIL4iGBkeJiU1FRgfUnr0uIiFV09qA47E899HFEQ6enqRdd1jn/6ON6v/g6KzYr79OX7KjRMJhMZOekUbSlkbHiM+bmFdcv9k6csy+zav5O9B/ew/8j++0puAcZHJ1hZWWHDpg0IgsDS4hLjoxPkFeViD7HjWfEyOTZFTlEWpXu3YHXYWMuLREHAFhGO1SyysuRhpH8UAKvdSkZeGtMT06wsG6TEarOyZXsxC/OLjI+u7/Trx8z0DHOz80ZjQ1lCEEUGegdxhNjZUGxU7SzMLTA1Ps2mzCSyGru4+8h2FIsZyeNl/wvvcuOJCqzlhVwsy2VTzwjSlKGniUsyjM+mJ6YRRRFHiIPlpVV7ecXjxeSz//efw5HhERYWFsjbkBdwd30QSfHD7XbzsY9/jJVlDz/9yQuMj40HfFgEUSQ5KYnnPvtpnE4Xb71xgtMn36Wvpx/Vq2KSzUiijEkyY5JMxkM24Vny0NXezcnXT3Ht0nUyMjN48ulj2Ky2dSTl9MnTDAwMsWfvHmxWW4Ak+UnKWtwbTXlQVCVIaIL4bSKY+gkiiI8ApHfP8I2z5wz9gCQadUFr0j8h/YN4kxLRzSZQFUwmEwA2mxVFVVhKjMfe0w/4tAWsL4P2TyRms+mhYxAEgey87PWGX6KIphrbkWUjgiCtITdAQFQqm2RfxObBlR+xy8NsmKun05YKgMVqDkyCgujXcayJUvi26z/We+Ffd+0kaTKZ0PVVTxizxSjzjZmYRdB1JhMNAlL29k1EReXmExUADESGIQLR47NMRkeztLIMgoDFaoh/l5eWsdkNW3pREJmfWyAuLm51rILA8NAwAAkJqx2MjWWrE/y9JMDtdvP885/hl7/8JT/9yc849tQTpKalIvqs9CMiInn+s89x/fpNKm/cpK2lDV3XcYW7iIuPJTYuFl3XGRwYYmhoiPnZOd9xWzhweD8FRQUG+RFFJFFG1zROnzhFS0sbu/fsZuMmg5DKkrxufP5oSjDlE8RHAUGiEkQQHwGoOyr4/4oKyc7JZmv5VnRdQ2xoIOL53wVA13T0NREOk9mYkFVFNXiBroMggKpimZhC9/mp+AWS5pFxwheXCJ2dQ1xYRBJkJMmYvIxf8YIv3O8L+6Nj8kzjjXAhYGzLoc7iFBeRF8ewLougLuMSl7AuT2JdcSEpHiJNHmyeaRyeEKzKImlzbfzu/D8A8MzAL+i1JXPGUkyk3EWMxYvDO4ssStg9M0RKK4Roc1hWPMiSCdPiGC5xiVBhAcvyBJIuYJ2ZQ7NGoiMQsrBA+OISptExzM4wJF0hYnmFqakZrONTyIoHk6oStezB5IuUWBaWCB2bYsvJG1w9vgvVZPwJ9Cx5AAKGZ94VI7Jj92k6lhaXcblcAChehZXlFRyhhgh2NaIyitPpJCwsLHDeHxSF8Ee9NF1HEETi4uP53Oc/x0u/fIlXXnqFQ0cOUVhUiOgLeJvMZnbt3klZWQlDQ0MMDAwyNDhIf88ALU2tADgcdhIS3MSXxJOQmEB0TDQm2SB4/jSOrumceOsU7a3tHDiwn7KtZfele/zjW0v+3s+pNhhNCeK3jSBRCSKIDwH+PjoB2GzMxkYzEx2Flp5mCFgnJwOLZ+JjiTl/CdHjBUnAajEDAh6vF6sAtoFhJks3YpuaZfejv3Pf/vb7X/z0jd9soH8AhK2+3RsJ1P8C6n3v3cAUcM14/3QKoBJYDiDqRpWOiE7qUg9fW+rha7nA3A1YLQqCDOD2+fX7dwPVb67/7O+AOd/+AX78cmDRLv+LF1aP85k1Xz38nVdWX3//JB1l+cxHhBE7MoUGzMQZolbPsgcBAZvdhgCsLC3jCLEjCiKL84sABiFZ0w9neGgYt9vNvVjbkHBtam4tYXE6XXzms8/z6iuvcOrkKcbHx6nYUWF0l9YNczerzUZaejqpqakBgfP0zExgLKA/sLeQKIhMTk1x/swFuru6OXjoACWlJQ/UpMD6Hj9BBPFRQJCoBBHEhwz/lGIYmakB19FAWkQQ6CovI+fEaSJ/+jJjn/8kFqsVQRBQPSpJb55CXlpm9Og+PFERXHz7R4G0j3+SvHG5ktnpeY4cO4QsigHrdMOsTApMVi987wUQBD77hU/7IipOdFFC0zQW5ud5+RevULKthLSsFLyKwmu/fINYdzSFW/LxqApn3zqHI8xOycYEjjf8DQOOVE4lfxKLdw40hec6v8tfm45zp2GUXY+U+9IpIs13Wpkanebgsf3IkgmzJNPZ0k3T3Wae+tSTWMxWJMA6M4/2qwg0RDRV4Zc/fokNRfkUFG/Aqyi0NLVw60YNh57cj8ki41W8XDh1CbPVxFcv3cLZO8zL3/wyXrMvkhJmx7yywtGmHhqzktDCnZhEGcWjIokSjhAHikcFXcAREoIkySwvLiMIImFhYQi+SNTiwiJzs3O4S93r9Cn3dk2GVSLgN/vzEwSLxcLHP/EJTp86RXVlNbV36ti8pZjNJZtxOBwBwuJ3tAWIDI8IbNcfQQvcV6LI1NQUN67epLGhEZMs88jRI2zesjlwb9ybjrqXpASjKUF8FBAkKkEE8SEi8IdeEDCbzSz5BJtrJwWzyURXXCyTX/o8sX/9D+BZIXFjAXEzs8h/8Q+knr1M7+88y2JRPrKuo8TFrtOnzE7N0rPixRkfgxYXgyrJ6IKR9kEUDAM1QaSjtYOZ0BAEBAaRcKcVBGzadV1HlF3M6iEMzwsk2WNQNQWPLZLeSYUsSyQaGh5bJH29o4S6jFSLLppZsUezpEdiX5kGoL13nnkxFFzxrIgSIgID0yBYIvDaokA2o4sSXWOtzEtOCHOjyjKCKLPikhF9ehZd01mMCKfHq5ATE42qq+izM8yG2Ole8pCaFI9X9aLERTM8OsGbn3qU57/5rxz+x19y87lHmHFHkdTcS/G/vI4AnP70EUIkM7IkMTMxi9VmxWaxMTY0gSiKhIWGIosS05MzCAK4XC5kUUaWJLr7jDLhhAT3e5T2rtfurJ3kNU0zUi6yzNFHH2Xz5s1cu3aNmzduUl19iy0lmykpLcFut692vtY1kFZfS6wSo7nZOa5dvUZ9XQOSKLJ1axll28rWNR18WLonSFKC+KghSFSCCOIDgj9S4n++F5mZmVRWVrKwsGCYgPkm5KzcHK40tdLwhefJyM3G9aOfUf6P/8w2TaM/wsUPdm1npDCfzfNLOMIciJrA8opCT2cv7c3tjA6PYbaY2bJtC5JPNGlYvgtIooziUbh66RqtzW2EhDjwrHh589VfcfDIATKzMxF9ZMVqs5JfkE9jfROZOZk4I8MoLtnEudPnqbp6m9Idmynfs53rF2/Q3tAJKQZJGukdIzzGRVtth9F4WIOy3SXIkglZkqiramRueo7yvdswyUYlza1rNQwPjLB95zZkWUYWjQiQf8yariGKGiVlm7l+5SYNd5so2JRPamoK8YnxVF+7hY5OWnYqRSVF3Lh4k3caO6nev5VPNnaw669+SNjiCrM2C5VxkVz44tOkbinELJsY7htldGCcopICQKThViNhYaEkpSQBAs31LbjdbsKcYT6LeZG6u/WEh4eTkJgIrLeaN679/WkV/QFiZz9hiYuP5/jTTzM2NsbVK1eovFHJ7Vs1xMfHERUdRUREBNHR0URGRQIwOjLK+Pg4Y2PjjI+NMTw8ArpOcfEmKnZWGNb4DyEo947Lv87a+/a+ezlIUoL4ACHc24/kHrznwiCCCOLh0LT7yci9jQl1n8uppuuMjY3xT9/9Lrv37qa0rBRN11BVhYWlRX74vR8iSiKfeO7jCL7ePaqmsrC4QE11DbU19WiaSnxCHCaLiZ6uXhSvgtPlJDsvi+zcrIAwVBTEgFnZ6NAo589cZH52nrJtpZRs3YLH4+XUW6cZGhhka/lWNpduBp+gdnFpkZ//6BdYbBYee/pRVF3hdmUNt27comBLAblF2XhVL96Rbj5Z/yd8ZewJ+meMvjwR8jI/SD3Ljwq+gRYagyCIDHQNcuvqHXILs9m8rRiTZKLxTjONNY1sKt1E6faSAEnx96ZZS/RUTeXsqXN0tndy+PFDxLpjWFle5uw7F+jt6qGopJCcwmyWV5bp6+pjemaG2alZ5mbnmJ9dQFUVCko2kJqVjChKjA2Oc/tqDSFhoRx64iBdLV3craxj3yN7ycxMp69rgEtnLvPYk4+SkZmBSTYzOTbJiz97if3791GytdTXlVgKEEJ4cMTiQfCTl7X3jqbrjI6OUlVZxcjICGPjY3g9njXfWf0zbbFaiYmJJj4uni2lJYSHu3z7v5eIPFyP8n4kZe33ggjiPxAPbRQVjKgEEcRvCaIoPpCsPGg9NI2oqEji4uNpbmqmbGsZ6IbOwGa1cujIIV5+8WWqrlexfed2UBU0QcNmtbGtYhv5hXncrqyho60TTdPIys4kOy+L6NjogJW66ItICIKIgMDtyhpqqmsIDQnl6U8cx53gRhRFTCYzTz1zjHPvnufmtZvMzMyye98uRFHEbrOzc+9OTr11ioa7jRRsyqe4dBNTk9PU36rH6QolPjkeq8sJwN5Hd9M3rTA6OE5GnBXaz2K1WlkRZWan5rh7s474hDg2lW3EJJno7eijsaaR7PxsSrZteSBJEUUREdFnYy+y78BepienufjuJZ742ONY7VYOHNnL+TOXqK2uw+tV2FCcR3p2OoqvwaOm6+i+h+BrtNhwu5nOpk4ioiLYsb8c1avQeKeZxOQE0tJTEUWJupp6IiIjSE1P9Y1HoPZOHWazmYKNhets6B/Uffj9BKoBIrF2NU0jLjaWxx9/LDDumZkZxsZGGRszPGZiYqKJjo4mNDQ0sP9797VOYPs+BOVB7+/9bhBBfFAIEpUggvgA8bC0DxiTxoYNGzh75gzTU9M4fZO9LoikpadRtLGImlt3yMjKICYuZnWbuojLGc6eA3vYsXcHqqIgm4weMH49x9qQvoDA5fNXaGpoJjc3hz379wQ8QvzrmiQTR44ewelycfPaDRbm5nn0yUeRRJms7ExaMzOoqaohNS2FEKeDXXsrmJud48bFKvY/tocYX5dii9mKO8FJvDsey/IEtAOaQFtdB60N7djtdnYdqMBisrA4v8ytazXEJ8azc98OTJJpXYpKluR1KRX/hGyz23jk8SP/f3v3HRvnfed5/P2UmeGwib2LnVSjerOt3ixZsRwnjuPYibcEi/tj7w53uAMO1/7IYRcH7GHvgANuF4e93U1xnMSJHcuyY1uSZVlWL7YKSUkkRYqkSIpiFYumz/PcH1M0Q86QQ1mOR9L3BRAazvPMMw9HfPR89CvfH7/79TscPfQZe17YjdVqY/uuLZyy2bh++Tpej49VTy9HVRR8RvTYkImxCc4cO8fYyBiLli5k5boV2Gw2zn5+HtM0eXrz01gtVvp7Brg7cpede3Zi0Syoqorb5aH1eisrV64g1Z46bRDt1JaLyN+DWEK/G5FdQ1O7hVAUsrKyyMrKoi5Y9XcmsQJK5O9ErPORkCKSifaTn/xkpu0zbhRCzCxW16pJoCBZ6E8I/u8eyMzM4Py58+gWncrKShQC+6kolJSVcK35Gl2dXdTUVmGzpQTKqylK+Aaua/dv6KHZPHqwJULXdJwOJ8eOfE5byw2eeno9W3duxWazoqpa+DWhNV90TWd++XwyMjK4+MUlNFWlrLwMRVEpKS2i+cpVent6qayqJMWeQllFKR1tHdy41o57bIRNxgUuZW3HkpGFqmqYjkkW9R3kHxrT6O4ZpbKmgs27NpKenoHX4+P44RMopsLeF/eQag+Ue9c0Dfxw6YvL9Pb0gd/EnpqK1WoLF19TFRV7qp3snCyufNnI+Ng45RXlWCwWyivn4/f5ud7Uwq2OHgZuDzLUP8Td4TEmxya5dbOXi2cuY/oMNu3YwJLlS7BZbQz0DXHx3CWWr1zGwkUL0FSdk0dPgaKwa/dOLBYrmqpx8YtL9N7qZe8L3yIjLSP8dxH4HNXwZwmJrZcT+r0IPQ79fkR+Hypol+gXECzedj+IRlYdlpAiksR/i7dBgooQX6N4QSXyz8ANJbDNZkthZHiYSxcvUVBYQG5uYLAkCuiaRl5+Ho2XG7nWfJ3i4uJgq4uCGhEyIkOKpmnhdWguf3mFTz46wt3RMTZs3sBTz6wPT09WFCW8iN7946goQEFhAXdHR7l8qZHUVDuFxYVYLBZy8rK52niVtuttFBYVkp2TTUl5KW6Xm/GBXnbZmvj7i3aart2itbGVnpYWvpXewmnbU6zfuYPFyxZjT0lhfGSCIx8exe1ws/25bRQWFATXq7EwOjzKRwc+prOji4H+O7S1tHPpi0u0XGtlaGAIn88gvyAfRVHJzc1BURWuNV2n9WorukUnv6CA+RVl2Ow23A4XjnsuRofvMtB7h/6eO0yMTVBUXMiOvdsoKi5C03Rutfdw8tNT5OblsHXXFqwWK2eOn6X7Zjdbtm6mpLQUTdW4O3KXQx8dZsGCOlavCdYlUdVw90/oMw38HSde4TUcSKYElFBomUtIiQwrsQLKTN9HkpAi/gjiBhUZTCvE12zqOJXIrp9Yg2q9Xi9v/OINBgYHeO1Hr1JQUHB/mrBhcLu/nwP7DzA6Okp+fj5l5aWUV5ZTWFwY0U3gZ2J8gqHBIYYGh7l+tYXJiUlq6qrZuHkD2Tk509aiie4KUCLO0cTn83Jg//t0tHewbedWFjUswu/3MTAwyIfvf8T42DhPbVxL3eJ6DNOPOtHPMwdf5Rc1f83NQTc+r49cq5t/O/a/OLrjp3jt+SiqSk9nLyc/PYXVauHZ53dRWFSErmmoisa1puucOX6G1NQ0nn1uF0UlRYwMjdDfd4fbfX303w6srVNSWsL2Z7eRlZ2FYRjcvt3HyeOn6OnqIT0jnVXrV1JdV41h+sMDlA3DwO1yo2oaFqsFl9NFR2sHLdfamBybpLikmGeffxZd1/js4DF6bvWyZt1qNm7eGFwvR+G3v/odjkkHf/YXf868jMzwANqpi/rN1MUy9bl43YLxno9kRtTeiSdua8kMr5OQIv5I4g6mlaAixNdsptk/kY8jw8rk5CQ/++lP8Xp9/PD118iclxkVVhxOBxe/vETnzZv09vbh9/vRLTqlZaX4vF4GB4dwOV2EVgMuLCrimU1PM798fsxiZOGxFFMKhpmGET4/j9fLgXcP0NHRwfZd21m4ZEGgEJxjkkMfHqbzZie1C2p5ZvPTWD1DrP3gJc7sfQu3LQfDNLE6h9lw8FU+f/aX9E+odN64ybWmFvIL89m1dyeZwZu91+Xl2JHP6e68RU1tNTv37CQt9f6MpdCN0zRNmpuu8vnRz/F6vKx9ei2r1qxAUVV8Pi9dXd2cPnGagf4BsnOzqV9cj8WiY7FZsFptWG1WPG43LVdb6Gi7id9vUFJazOKli6iuq8Z5z8nhP3zC2N0xtu3YytIVy9BUDV3TOXf6PGdOnuHFl15k8aLFTF0vZ7aQkkjLSiLhJN5+iRw/oX0kpIg/HgkqQnxTZgsqoe8jp6aGpqT+/Gc/Jz0jndd+9Co2my0qrAQem7hcTnpu9dB5s5Nb3bfQNJ2CwnzyCvIpKMgnLz8Pm80Wfq9phb5CgSXG+i6h9wo99ni97H9nP52dnezcvYP6RfUYhoHP7+Xs6XNcOHMBv+FnaU0u/3rsf3Bg5d+RUlyF3Z7CePd1vnX+L/kvzj/l9njgJli3sI6NWzagWwLjUQb6Bjhy6Chet4eNWzayfOVytOANf+rCeaHP697kPY5++hkt11vIzctl+65tFBYVhFuCWltaOXPyLGN3x4JjgcyoLjmLxULdwjoWLV1Ifn5+YNp2/wAff3AITJO9+/ZSWVURHNirMjQwzFtvvsXCxQvZ98K+8KJ/enAqcqygMteQEkuiwWUmib63BBTxDZCgIsQ3aa6tKoHnTDo62vnNr39DQWEB+17YR1Z2VnjBwcjAEto/dIypYnXrqIoaDieOSQfd3d3c6r6FPdXO+vXrsdvt4fcBwu/l9njY/85+urq62LxtEw3LGwLdKaZBb08vTVeaGb91nZ/Y/ol/P/wD7vrtWCw6af4x/mfeb/nblH9Dft1yKqrKsdvtwZlJCk0Xmzl/+jzZOdns+dYeCosKg2Nv9IixH9Hr5URqbW3jyKEjTN6bpLqmmqUrGigtK8EkMP3Y6XTgdDpxuly4XS5cLjcAFZXl4VWWDcOg7foNThw9QXpGBvu+u4/8vLzwYGS/3+A3b/wal9vDj//iz0lPS4+5Zk7kANqHEVIizTWwzPU9JaSIb4gEFSG+aQ8aVq5du8YH73+Az+dl7bq1rH96PRaLJfyayFaPqceMFHnD8hsG3Z3ddHV20d3VzdDQMAAWXcfr8zEvM5MXXnyBktKSqCJ1kWHlwLvv0dFxk3VPrWHt0+vCYcVv+FEn79Dw++c4uO7/0TthcndkjPIcje9d+3dc2Pcu/tSCcE0XVVE5d+o8l7+4TP3Cerbv3IY9NTVuSJnpxutwOjh75hxXLl3B6XKSnZ3FkmUNLFxUT4o9BcM0w59tZAtWX08frS1tdNy4icftoXR+Cc+/8HxgjZ3g+xt+g/f3f0BnZxfff+Vlamtr5xRSpv4dJBsJKOIbJkFFiGSQSLVaYFo30MTEOJ8eOUpj4xXSM9LZvmM79Qvqpx1j6uNICgp9vX00NzXTer0Vp8uFxWKhrKyMyqoKyivKKS4upr+/nwPvHmB8fJwNmzaw/qn1KIoyrRXH6/Ny6OPDNF5pZN1Ta1i9fg2hCrbKZD+L395N43f+gDc1H8M0sDgGWb5/H5e+/R6+tMLwDf7ShUucPXWOhuUNbNuxFV23zBhSYnVRRf7cpmHg9rhpud7K5YuX6evrQ9d1CosLsVqtWKw6VqsVq9WK2+2mva2de/fuYbFaqamtZuGiRVRVV6Jr97tyfB4v7/7+PW733ua5vXtYvmL5rCFl6vkla0iRgCKShAQVIZJBvEq1iYQVgO7uLg59fIj+O/2UlZVRUVlBbn4eBfn5ZGVnhetsAHi9XiYmJpgYn6Cnp4fmpmbujt5Ft1ioq69j2bKllFeUo+v6tJuoy+Xi448OcrW5mYrKSr61by9paWlRYcVn+DEMPwc/OhQOK2ufXodh+FHv9bPgt7u4+r2DeFICU6x1xyANv3+Oxu/8AX9aYIbSlUuNnDx2igWL6nl2z664IUUBPG4PHq8Xj8uDy+3C4/KgWyxUBGumxPocTcOgv7+fy5euMDgwiNvjweNxB47l8aAoChVVFSxctCBQEt9iiepeMg2TK1eaOHPqDB63h30vPM/iJYunrZvzVULKTEEhkcrGD0LCiUhCElSESBazhZXIx1PXfgl1XXz5xRecP3+e0ZHR8L6arpOXl4tpwvj4OE6HI+r4FZUVNCxtYOHChdMG18ZimiZfXrzI4YOHsNqsvP4nr0fNPgp09ZgYhp+PP/yYpsZm1q5fw5qn1qA77lD31g6uvXwQX2oBpmmiOwZZ/PZurn7vIE5LFs1XrnLmxFlqaqvZ8/xuLBYramjnjk0AABRDSURBVLB+S+TA2dHhEfb//j3GxsZRCNYGiThPi9VKfX0ddQvqqa6uwmKxhMNarOAS+fP5DX/UFG0IznYyTVqvt3L82HHGggXkduzcTnFxcVQrSuB18UPK11k8bbYQI2FEPGIkqAiRLBIJKpHfRw6OjQwsAG63i6HBIQYGBhgcHGRgYABd18nIzCAjI4PMzEwyMjPIzc0lIyMDmFsXhGEGWiR++cab5OXl8uoPXwWF8HgUwzTxGz78fj+HD35C05UmlixbwrKKLJ754DWu/dmHeNOLAu871kfDG8/z64b/zrmWflwuNxVVFTz3/G6sFmt4TZ/Q2A5d0+nvH+C9t/ejaRpr168lPS2dlJQU7HY7KfYUHPccXL/eQmtLK06HA4vVSm1tDeUV5ZSWld4vmEfsVqupXE4XPbd6OHPqLHfu3KGgIJ+t27ZSU1sTLqIHU6Z0y8rDQjwMElSESCZzDSsQf2XdSLFm/MQyW2EwM+KmbpgGzU1XObD/PXY+u4sVq5ZHDZw1goN/fX4vR498xpWLjZRM3uE//+M7NB/8Gf66ZRiGgffKOdZ+9y/56x+/iLZ0DStWr6C0rAQtuGhiqLsnFAh8Hh//9A//jN1u5/s/eJmc3NzgIoXRAUFVAgsUdnV1c/3aNVpb2rh3bxKAFLud2toaauvrKC4uQtd1LBZLuGKs3+/nVvct2tvb6WjvYGRkFAXIzMxk87YtNDQsCZ/f1FaUyHOYS3ePBBUhYpLVk4VIJvFWVp66aGHk96GF6qJudFOr3pJgnYwYU3wjQ0/4vYI328VLFvH+ewe4d+9ezOMZpoGiKGzdsZW0tDSaPzoY2JCWH/45lcxCADJKqtmyb094/Rkj4n0gGJIUlbtjd/F4POzZu5vs7OwZq7rqmk5NdTU11dXsec7P6MgoPT09dHV10dZ6g+am5qjaKaqqolssgYDl9aLrOuWVFaxctZKioiLmz58fNXYnXkCJ3iYhRYivgwQVIb4hM4UVuN+aEvm9MuWGPu3G9xUGX4ZuwqHAErmCr8fjwTRNbMF6I/G0tbRx+uQZ6kqKA+cYcb62lBQAentv09/XT1FJUdRieYH3ur+/z+cDCA+UjTrXODN/ADRVIy8vj/z8AlasWIHf76e7u5vRkVG8Pi8ejwev14fP6wUCY3cqKitIsaVEHSdm7ZkEVh+WkCLEwyVBRYhv0P21eRIPLKHnYnXfaJqacPdPLIZhoCrKtC4ltztQHM1qtcV8TeCcTBovNTJvXibbd26Gv/rbqPPVgo9t9hROnzjDiy9/GwgMajUwwl04aqhbxucHQNdj/zMVGtQK07uywi1GSmDRxdqaWozq2XuyY7U0JRJOYn0f6/VCiLmTK0iIJDDTzSxel0fkjTqSEprSm+BXIjxuDwA2mzU8bsUIVsiFQGuI0+Gkt7eXypqK8BgQ0zTwGaHxLIEWkqUrlnC77zbtN9rxBRcIDFXbNSOO6/F6MU0zHFwSqcgaqLUSZwXg4LaZvoD7qyCratQYFAkpQnwzpEVFiEfA1NaVWNvibZ9NZBdPPE6XCxOwWC3hKb6hCrp+IzBNufNmYGG/iqoK/P5AKAnNCAqcXOB1VbVVZHb3cubEGQqKCkhPT4fQ26ugBFt1vD4PJiaapgVbZALjdTRFC59X5PiWqQHlq4aEWCFuttWPhRAPn1xhQiSJyP/Bx90nTivK1O0zfcUSr2Ul1HrSf7sfgLSM9ODzZlTLyuTkJCePnyIjM52c/JxwYPIFq9j6DV84DJkYrHtmDWNj47z39gFcLmeg1SW4r2ka+Pz+cD2UiYlxDNOMCEhmeN+ZPstEJdLSFOuzm/XvQlpThHgo5EoSIskkcoNLJHzM9tq5aG5qIr8gn/z8vPtdNEbgT6/Xy4cHPsTpcLLzuZ2BOitGoBXFNEMtLve7fvx+H0Xzi9j1/E7G7o5z8vPTwS4fA7/fjy8YaopLi7FYLbS2tIXPI6HunyndNXPt+pot3CUSUCSkCPHwyNUkRBKaOkZi1v0foBUl5k044v1CLSBDg0P09d1mScPi4Do/0a0pJ46doLe3j03bN5GdlxUeZwKhrp/QV2jQbaBCbFFpIQ0rF3O9+TptLTfCgSY0XkVRFKqqK7nRdgOfzzunkPIgn1G8zyrRUCgBRYivh1xVQiS5uYaWmMd4wNYXgEsXL6GqKgsXL5q27WrTVS5fvMKylUupXVAT7rYxgq0noWDjCxaGA/CbPnyGH7/fz7JVDeQW5HL80xOMj02Ei8eFWm2qa6txOp3c6r4V7v5JJLBE1jZJ9OeeS8iLep0EFCG+VnJ1CfEIeRg3xJluvlOnSft8PpqamqirqyUtLTWq26f/9m2OfvIZZfNLWf/MumDIMMPdOBAYo+J0Oum62Y3L6QQIhw3DNFBUlc07N+I3/Bw9/Fm44m2oOFt5ZWDBwRttN6LOa5aK2gl9Bl+l+yx8HAkoQnztZNaPEI+YyJvjw1hdd2o13Ejt7e04HU4ali+Net40TQ59dBi7PYUdz+1AVdWI9X8MlOB5XW28ytnOHrxuD2W6yi4Ir75sBH+MtPQ01m9ax6mjp2m7foOFSxYGfjbTQNN0yivm036jg127o88tUHNl7kHhYczSkYAixB+PXG1CPMIeRrfQTHp7e9E0jfLy+eFZN4ZpMDAwwMjwKKvXr8ZuT4mqp+Lz+2hvuwlA05dNFBTns2bDau5NBlZzdjqd98NKMNjU1FWRlpFGe1tH4D0iungKiwuZmJjA6XSE939QXyWkfN2ftRAiNrnihHhMTC1U9qA31MiqtH29feQXFISrw4a23WgNdMVUVleEQ4VhmAwPDnPgt+9z7tR5ADbt2sTmXZuoW1zHU5vXAnDy09O4XK6osGIC5VXz6enuweVyRgWfrJxsTNNkdGQ04hxnXwk50aJscV//ED5LIcRXJ1efEI+xeDfY2W7aoXEot2/3U1xSNC0Q3Gi7QUlZMSn2lPD+fsPP8aMncDicrN+0DoDcgpzwFOW8onwARkfucvTgMTxebzis+AwfFVXz8fv9dHZ0R83+ycnJBmBwaOjBP4cEZutIMBEiOcnVKISYRlFUhgaH8Ho8lJSURG0bGR5hZHiE6tqaqOdvdd1iaGCYNetXUV5ZHnWsyKCwdsNqhu4M8/mh4/h9fhQ1sD2/MJ+09DQ6b3RGVJtVyZyXia7rDA8Nf40/sRAiWUlQEeIxN9fWgVAp+r6+PgCKS4qjgkb7jXZAoaa2OmpRwMsXrpCRmU51fdW0YwUeB/YtrSjlqc3r6O/t58KpL+9v1zQqayroudWD1+uLOv/8gnwG+gemHeurkpYTIZKfXKVCiJg83sBChCkpKVHPu11uNE0jNS0VuH+zd7nc5ObnoVssUfurijJtQb+quipS7Ck4HY6o6cEZGRn4/X78fh9KRMhJsdnwer3TzjHeooyz7RN53kKI5CZXqhBPgIQr3Ebsl5GeAYDD4bi/XVGYlzUPv9+P417k8yoFhYFWD9M0o7puQiKDx+2eftxONzULa6OOMT4+gc1mI9WeGvWe4xMTZM7LjH/ecVZMTuTnFEIkN7lahRAxpQcXIJycmIx6Pjs7B4CxsfGoIFJcWoTT4cIx4cCTm8XnB9/AnZMVbDFRcOdkceQP/4wnN5v2lnZS7CnMrywLbweYHJtkXta88DFDrSOTE5NkZKR/peJsIRJShHi0SME3IZ5QUwu9KYoaXt8HID09HUVRmJycDOyrquA3mJeViaIoTIyNQWkRiqKgKipFJYHHg3eGqKyrQENjyd/8X3JPnMM6MoYnO5PBZ9bQ+MNv09fVR8PKBmwWW6BrKDigdmJ8nKLi4sDMG0UNFpILLHyYlpYeff5TAkesAPKwxrIIIb45ElSEeEKoqhq3km2s6rQZGYGulnvBLh5VUTEVlczMeei6ztjdCTQt8E+IaZrk5uZis9no773DkrRUGn74r3CVFnH9r/4DjvJSUm71Uv1/fsbmv/iPHHl+B4sbFqJp2v1WElNhcuIeWYuy0FQNTdVRFQWHy4WCQlpqajjQhLqR1BlWQBZCPB7kahZCTKMqChaLhYyMTHp7e8PBQFFVdE0jNzeXrs4uTMNAUVQ0VcNqsVJeOZ+2ljbS/uV/wuvzc+Jv/itjT6/GV1ZM36I6/u6VF/D6fPyLLxrJys5GV3W04Ffb9RsoKOQV5IVbUxRFZWR4BEVRyMzMnHKOsw+kFUI8+uSqFuIJMq27JFZrRMQ+q1atpONGOwMDA1EL+D2z8RlGhke4cO7LcDeNpmrs3vssW1Yso779JocX1vL7A4d591fv8fnh4+x/6326+oe4tnsr9a0dWCecaKqOrmkMDw5z9sQ5KqoqqKuvDdZeCXQpNV1uIi01jYrKinBrSiLdPkKIx4Nc3UKIsOhpxAqr16zGYrVy7sy5qFaVurpalixZzLnT57jWdBVN0wNhRdNYn5ONakL9yy+wZccmcnJzuN3TT92COr7/+svkbtuIYpqk9/ShaRoet48jH39Kenoaz+7dha5Z0DUNRVGZnJzkZkcny5YvRbdYomYThbp95jLjRwKNEI8eGaMihJgmNJ4lNTWN1atWcebMGTZu2hiekaOpGs8+txuHw8nRT45hS0mhurY6sC0YJlJT02hY1sDipYsBwgN1tdD4ElVHReXowaO4XR5eeuU7pKWmh7t8dE3nauNVFBSWrVgWtzUlRFGip0TLOBUhHg9yJQvxhJt6Y586zmPd+nVomsaFC1+EZ/goqorNYmXfi/soLi7m8Ief0NfTi6bp+GqqMRUF+42b6JqOVbeiqzoWzYqm6qTdvIWpKPirKvjy/EX6em6zbfsWiotL0DUNTdXQNR3TMGluvEp1TTU5OblxW1OklUSIx5tc4UKImAJjTxQyM+fR0LCUxiuNDA0ORYWVFJuN7778EtnZ2fzhvY9ovdaKkpPDvS0byP3l77B6fGiqhkW3oGkaVq+PvF/+jtEN6zlzrY2L5y+xZOkSlq5YFu7u0YPdSFcbr+K452DFqhVRrSkzDaKVVhQhHj9yVQvxhJmp3ki8VpXNWzaTak/lrV//lpHhkXCrhqbpZKSl8dIrL1FQUMAnB4/w8398g0Mv7sNwuyn9/o9JP3UBW/8g2qcnKPjOn+ByuPjfdbVcunCZBQvq2b5za3g6sq4FZgB13ezms0+PUVlVSV1t3bSQEqs1JTKkzDZIWAjx6FBM05xp+4wbhRCPplj1VEJ1VCLrqZimgWEYGKbJ0NAgv3zjTcDklVdfITsnG8M0MEwD0zDw+X00XmnianMzvb19ZIzeZffpcyzu7CLD4WTSnsLVqgq+ePF5itavpba+lnnBKceqer87Z6D/Dm+/9Q45ubm89sNXSUlJuV8AbsoA2tB4FpCgIsQjLu6oeAkqQjyB4hV+mxpWQgNgQ2FlcHCQN37xBpqm8tqPXiNzXiamaUYFFsM08Pp8DA8NMTQ4xODgIHfvjlFcUkRtfR3zgmv2TG29URWFwTuDvPP2u1gtFl7/09fJyMiQkCLEk0GCihAi2kytKpGPQ60qgedM+m/f5s03f4XVauEHr/1gWlgBwoEl9JoQ0zSmTYEO7G9y9ux5zp46S1paGj947RXy8vJmDCmQ2EwfCSlCPBIkqAghos3WqhL5eGpY6evt5c03f4Xf72PFqhWsW7+O1NTU8GsiA0usY4dbU1SVgTsDfPzhxwzcGWTJksXs2r2LtLS08H6RZfIjx6VIa4oQjxUJKkKI6ebSqhL5GsM0GRsb49hnx2hsvIKm66xdu4bVa1djt9vDLSzxjqsqKk6nk1MnTnHxy0vY7XZ2P7ebBQvqowbNSkgR4okhQUUIEVuiYQWmj1kBGBwc5MTx4zQ3N2OzpVBdU0V5RTnp6enMy5pHZmYmmqYxPjZOb28vPT099Pb0MTQ4CMCKlSvYsm0Ldrs9bkCB+N09Ux+Hn5OQIsSjRIKKECK+uXYDRb4mFFju9Pdz8uRJOju7cDjuBfcNbLPabHjcbgAsViulpSWUlZWxYMECCosKgdiDa2F6QIncd+rjSBJUhHikSFARQsxstpaVqd9PDSyB7SaGYTA+PsbY2BjjY+PcHRvj3uQkubm5lJaVkl+Qj65NX70jXkCJ3BbYLiFFiMeQBBUhxMwSaVWZ+v3UsSv395n+T0fkvlMLysH9gAJfLaRMfb0Q4pEgQUUIMbsHCSsQP7BEv+b+PyfxVjxOJKDE+j7eMYQQjwwJKkKIxMQLGjC3wDLbMWdbBTm8X4IhRQKKEI80CSpCiMTNFFZgekCJ9xzEDy8QuwsI4szikVYUIR5nElSEEHP3IIElkW2RZgwgCayGLCFFiMeCBBUhxIOZLaxA4qFkLiSkCPFEkaAihHhwiYQVeDiBJZGAAhJShHjMSFARQnw1iYaV8P4Poesn5v4SUIR4HElQEUI8HHMNLA+LBBQhHmsSVIQQD9/XHVoknAjxxJCgIoT4+j2M4CLhRIgnkgQVIcQf11xCi4QTIZ54ElSEEEIIkbTiBhX5b4wQQgghkpYEFSGEEEIkLQkqQgghhEhaElSEEEIIkbQkqAghhBAiaUlQEUIIIUTSkqAihBBCiKQlQUUIIYQQSUuCihBCCCGSlgQVIYQQQiQtCSpCCCGESFoSVIQQQgiRtCSoCCGEECJpSVARQgghRNKSoCKEEEKIpCVBRQghhBBJS4KKEEIIIZKWBBUhhBBCJC0JKkIIIYRIWhJUhBBCCJG0JKgIIYQQImlJUBFCCCFE0pKgIoQQQoikJUFFCCGEEElLgooQQgghkpYEFSGEEEIkLQkqQgghhEhaElSEEEIIkbQkqAghhBAiaUlQEUIIIUTSkqAihBBCiKQlQUUIIYQQSUufZbvyRzkLIYQQQogYpEVFCCGEEElLgooQQgghkpYEFSGEEEIkLQkqQgghhEhaElSEEEIIkbQkqAghhBAiaf1/c2N0LP7bIHsAAAAASUVORK5CYII=\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", - "text/plain": [ - "
" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "data_obj.draw_mol_comparison(refmol='lactate', mol='glycolate')" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Cluster the molecules and obtain a vector indicating cluster identity for each molecule. In this case Butina clustering is used on already pre-computed distances." - ] - }, - { - "cell_type": "code", - "execution_count": 34, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "[3, 2, 1, 0, 0, 0]" - ] - }, - "execution_count": 34, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "data_obj.cluster_butina()" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Other cluster methods..." - ] - }, - { - "cell_type": "code", - "execution_count": 35, - "metadata": {}, - "outputs": [], - "source": [ - "# here" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "### Plotting\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Use PCA to visualize the relationship between all molecules __based on molecule fingerprints__. \n", - "\n", - "Optional arguments include:\n", - "\n", - "include_labels: True or False\n", - "\n", - "color_categories: None or a list of numbers the same length as the data indicating which point belong to what group.\n", - "\n", - "No color but with labels" - ] - }, - { - "cell_type": "code", - "execution_count": 36, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 36, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", 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" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "data_obj.pca(color_categories=[3, 2, 1, 0, 0, 0])" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Use MDS to visualize the relationship between all molecules __based on pre-computed distances__. The options are same as for PCA. First with labels." - ] - }, - { - "cell_type": "code", - "execution_count": 38, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 38, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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zs+QcRmZmlpzDyMzMknMYmZlZcg4jMzNLzmFkZmbJOYzMzCw5h5GZmSXnMDIzs+QcRmZmlpzDyMzMknMYmZlZcg4jMzNLzmFkZmbJOYzMzCw5h5GZmSXnMDIzs+QcRmZmlpzDyMzMknMYmZlZcg4jMzNLzmFkZmbJOYzMzCw5h5GZmSXnMDIzs+QcRmZmllzSMJI0UtIySSskXVDL+o9Iuitb/2dJ3QtfpZmZ5VuyMJJUAtwIfB44BjhD0jE1mn0deDMijgSuBa4ubJVmZlYIKUdGfYAVEbEyIt4H7gRG12gzGrg1u30PMFSSClijmZkVQMow6gq8VO3+6mxZrW0iYiuwAfh4QaozM7OCSRlGtY1wYhfaIGmypHJJ5evWrWuW4szMrHBShtFq4JBq97sBa+pqI6kVsD/wRs0NRcT0iCiLiLKOHTvmqVwzM8uXlGH0FHCUpMMltQHGA7NqtJkFTMxujwXmRcSHRkZmZtaytUr1xBGxVdK3gdlACXBLRDwr6VKgPCJmAb8EbpO0gtyIaHyqes3MLH+ShRFARDwEPFRj2SXVbr8HnF7ouszMrLB8BgYzM0vOYWRmZsk5jMzMLDmHkZmZJecwMjOz5BoMI0ntJH2iluXH5ackMzPb29QbRpLGAf8L3CvpWUmfqbZ6Rj4LMzOzvUdDI6N/AU6IiF7A2eS+gPrlbJ3Pnm1mZs2ioS+9lkTEywAR8aSkwcCDkrpRywlLzczMdkVDI6O3qu8vyoJpELnrDH0qj3WZmdlepKGR0bnUmI6LiLckjQTG5a0qMzPbqzQ0MnoHOKiW5X2BJ5q/HDMz2xs1FEbXAW/VsnxTts7MzGy3NRRG3SPimZoLI6Ic6J6XiszMbK/TUBjtW8+60uYsxMzM9l4NhdFTkr5Zc6GkrwOL8lOSmZntbRo6mu77wG8lTeCD8CkD2gBfymdhZma296g3jCLiVeDE7MuuPbPFv4uIeXmvzMzM9hr1hpGkfYFvAUcCS4FfRsTWQhRmZmZ7j4b2Gd1KblpuKfB54P/nvSIzM9vrNLTP6JiIOBZA0i+BJ/NfkpmZ7W0aGhltqbrh6TkzM8uXhkZGx0vamN0WUJrdFxAR0S6v1ZmZ2V6hoaPpSgpViJmZ7b0avOy4mZlZvjmMzMwsOYeRmZkl5zAyM7PkHEZmZpZckjCSdICkOZKWZ7871NKml6T/kfSspGckfSVFrWZmln+pRkYXAI9FxFHAY9n9mt4FzoqITwEjgesktS9gjWZmViCpwmg0ufPekf0eU7NBRPwtIpZnt9cAa4GOBavQzMwKJlUYHRQRLwNkvzvV11hSH3LXUPp7HesnSyqXVL5u3bpmL9bMrBhUVFRw5pln7tY2JM2QdGQd63pJ+vSubLeh0wHtMklzgYNrWXVRE7fTGbgNmBgR22trExHTgekAZWVl0cRSzcysefQilyt/aeoD8xZGETGsrnWSXpXUOSJezsJmbR3t2gG/Ay6OiCfyVKqZWVHavHkzp59+Ou+//z7t27dn5MiRAPz5z3/mnnvuYdq0abz22mtMnjwZAEmXAYOBzcCXgcOAnwElwA0RcXvVtiX1Aq4HPgLMiogrgMnAx7MLsp6ZPbYHsAk4MyLerKvWVNN0s4CJ2e2JwP01G0hqA/wW+HVE3F3A2szMisLMmTM58cQTeeSRR+jQ4YODlj/72c+yaNEiIoJ7772XsWPHApQCR0REf2AosAH4MTABOAn4jqTW1Ta/DBgUEX2B4ZJKyc1QTYuICcApwIsRMQS4gdyFWuuUKoyuIlf8cmB4dh9JZZJuztqMAz4HTJK0JPvplaZcM7OWZ9WqVRx33HEA9Oq185/Pk046iYULF/LAAw8wevRogH2BP0HukgwREUCHiKiIiC3AKnbev3848JCkx4FP8uF9/58ExkuaT273zAH11ZokjCLi9YgYGhFHZb/fyJaXR8Q3stu3R0TriOhV7WdJinrNzFqiww8/nKVLlwLwzDPP7LRuwoQJXHvttey///587GMfA3gP6Fu1XpKA9ZK6ZyOiI9h5l8q5wNURMRBYQe7SQlvITelBbuT064gYFBEDgH+pr1afgcHMrEiNGTOGhQsXMmLECF555RUqKyt3rDv66KN58cUXGTduXNWiTcALkhZKmgfsD1wC3AEsAG7MRkhVfgfcIOm/gfezZU8AZ0r6KbndMd0lzcu29/n6alVuJFY8ysrKory8PHUZZmZ5N3NxJdNmL2PN+k10aV/K1BE9GNO7605ttm7dSqtWrTj33HM566yz6Nev3451I0eOZNasWbRp0wZJiyKirNB9qJK3o+nMzCx/Zi6u5ML7lrJpyzYAKtdv4sL7clNy1QNp1KhRvP322xx55JE7BdGoUaMYOnQobdq0KWzhdfDIyMysBep/1Twq12/60PKu7UtZeMGQJm8v9cjI+4zMzFqgNbUEUX3L93QOIzOzFqhL+9ImLd/TOYzMzFqgqSN6UNq6ZKdlpa1LmDqiR6KKdo8PYDAza4GqDlJo6Gi6lsJhZGbWQo3p3bXFhk9NnqYzM7PkHEZNVFFRwbx583b58bfcckuTHzNp0iRWrFixy89pZrancxg1UW1htH17rZdZqtWuhJGZWbFzGDXR9OnTue222xg6dCiDBw9m7NixXHnllYwfPx7InXpjyJDcF86OP/54zjjjDE444QSeeuopZs2axdKlSxk0aBBz5sxh7ty59O3bl759+zJ37lwABg0axPnnn0/fvn2ZPn36juf96U9/yoABA/jRj34EwK9+9SsGDRpEWVkZjz76KJAbQX3ve9/bqd2KFSs4+eSTGThwIJdddlnBXiczsyaJiKL6OeGEEyKffv/738dFF10Uq1atimOOOSa2bt0aERGnnHJKbNy4MR555JG4/PLLIyKiQ4cO8dZbb8Xq1atj1KhRERHRv3//Hdvq379/bNiwITZs2BD9+vWLiIiBAwfGggULYuvWrdGvX7/YvHlzTJw4Me67776IiOjTp09ERLzzzjsREbF+/foYPnx4RESt7caNGxcvvvhiRESMHz8+Xnrppfy9OGbWYgHlkfBvt4+m2w3HH388JSW54/y//OUvc//99zNv3jwuvvhiAI488kjatm1L27Zt2bBhw4ceL4l27doB7NgOQO/evSkpKeGwww5j7drcGdt79uwJQGlp7gtts2fP5vrrrycidrSprd2yZcv42te+BsD69euprKykW7duzfcimJk1A4dRE7Vu3Zpt23InJtxnnw9mOU877TQmTJjAli1bOOKII4DcFNk777zDhg0bdoRO7hIhOdu3b2fjxo0AO7YJ8PTTT9OnTx9eeOEFOnXq9KHHAVx55ZU8/vjjbN68mf79++9YXrNdjx49uO666+jcuTPbtm370Hozsz2Bw6iJevbsyYUXXsjKlStp3fqDK/C2a9eOfffdl2HDhu1Ydsghh3DOOeewYsUKfvaznwHQp08fxowZw5QpU7jkkks4+eSTiQguvfTSHY+7++67+f73v8/ZZ59d5xl1TznlFD73uc/Rp08f2rdvX2e9l19+Oeeccw6bN2+mdevW3HvvvbRt23Z3XwYzs2bls3bX0Jjrg9Tlq1/9Ktdccw2dO3cGYMCAASxYsKBJzz9o0CDmzp1Lq1b+nGBmhZP6rN3+i1dNY68PUpvJkyfTqVOnHUFkZmaN55FRNc19fRAzs5Yi9cjI3zOqptiuD2Jm1lI4jKoptuuDmJm1FA6jaort+iBmZi2FD2CoptiuD2Jm1lI4jGoopuuDmJm1FJ6mMzOz5BxGZmaWnMPIzMySSxJGkg6QNEfS8ux3h3ratpNUKemGQtZoZmaFk2pkdAHwWEQcBTyW3a/Lj4HHC1KVmZklkSqMRgO3ZrdvBcbU1kjSCcBBwKMFqsvMzBJIFUYHRcTLANnvTjUbSNoHuAaY2tDGJE2WVC6pfN26dc1erJmZ5VfevmckaS5wcC2rLmrkJs4DHoqIlxq6IFxETAemQ+5EqU2p08zM0stbGEXEsLrWSXpVUueIeFlSZ2BtLc36ASdJOg9oC7SR9HZE1Ld/yczMWqBUZ2CYBUwErsp+31+zQURMqLotaRJQ5iAyMytOqfYZXQUMl7QcGJ7dR1KZpJsT1WRmZon44npmZuaL65mZmTmMzMwsOYeRmZkl5zAyM7PkHEZmZpacw8jMzJJzGJmZWXIOIzMzS85hZGZmyTmMzMwsOYeRmZkl5zAyM7PkHEZmZpacw8jMzJJzGJmZWXIOIzMzS85hZGZmyTmMzMwsOYeRmZkl5zAyM7PkHEZmZpacw8jMzJJzGJkVufnz53PxxRc3uu3KlSvrXL9kyRL+8pe/NFdpZjs4jMxsB4eRpeIwMttLjBs3joEDB3LyySezceNGAH7+85/Tt29fBg8ezLJly5gxYwZTpkxhypQpLFmyhIEDB9K3b1+uuOIKAKZPn860adOYMGECEcG5557LkCFDGDVqFG+++WbK7lkL1yp1AWZWGDNmzOCjH/0oN998M3fddRejR4/m7rvvZuHChZSUlLB9+3YmTZrEgAEDGDZsGJs2bWL+/PlIYvDgwfzgBz9g8uTJbN26lW984xs88MADHHroofz85z/n4Ycf5qabbuLCCy9M3U1roRxGZnuBbdu2MXXqVJYuXcrGjRv50pe+xKpVq/j0pz9NSUkJAPvss/NEyapVq5gyZQrvvvsuy5YtY+3atTutf/7557nzzjuZPXs2W7dupV+/fgXrjxUfh5HZXmDJkiUcdNBB/OEPf+AXv/gFlZWVHHHEESxevJjt27ezzz77sH37dlq3bs22bduA3BTeD3/4QwYNGsSAAQOICFq3bs3mzZsB6NGjB2eddRZTpkwBYMuWLcn6Zy1fkn1Gkg6QNEfS8ux3hzraHSrpUUnPS3pOUvfCVmpWHD71qU+xYsUKRo4cyZNPPglAx44dOe200zjxxBMZPHgwy5cvZ9CgQVxxxRVceumljBo1im9/+9uMGzeONm3aANC3b19uv/12vvOd73DqqadSUVHBkCFDGDJkCA8//HDKLloLp4go/JNKPwHeiIirJF0AdIiIH9bSbj5weUTMkdQW2B4R79a37bKysigvL89L3WZ7mpmLK5k2exlr1m+iS/tSpo7owZjeXVOXZS2QpEURUZbq+VMdTTcauDW7fSswpmYDSccArSJiDkBEvN1QEJntTWYuruTC+5ZSuX4TAVSu38SF9y1l5uLK1KWZNVmqMDooIl4GyH53qqXN0cB6SfdJWixpmqSSglZptgebNnsZm7Zs22nZpi3bmDZ7WaKKzHZd3g5gkDQXOLiWVRc1chOtgJOA3sCLwF3AJOCXtTzXZGAywKGHHroL1Zq1PGvWb2rScrM9Wd7CKCKG1bVO0quSOkfEy5I6A2trabYaWBwRK7PHzAT6UksYRcR0YDrk9hk1R/1me7ou7UuprCV4urQvTVCN2e5JNU03C5iY3Z4I3F9Lm6eADpI6ZveHAM8VoDazFmHqiB6Utt555rq0dQlTR/RIVJHZrksVRlcBwyUtB4Zn95FUJulmgIjYBpwPPCZpKSDgF4nqNdvjjOndlSu/fCxd25cioGv7Uq788rE+ms5apCSHdueTD+02M2u6vfXQbjMzsx0cRmZmlpzDyMzMknMYmZlZcg4jMzNLzmFkZmbJOYzMzCw5h5GZmSVXdF96lbQOeAd4LXUtzexAiq9PUJz9cp9ajmLs16726bCI6Nhws/woujACkFSe8pvE+VCMfYLi7Jf71HIUY79aap88TWdmZsk5jMzMLLliDaPpqQvIg2LsExRnv9ynlqMY+9Ui+1SU+4zMzKxlKdaRkZmZtSAOIzMzS64owkjSAZLmSFqe/e5QR7tDJT0q6XlJz0nqXthKG6+xfcratpNUKemGQta4KxrTL0m9JP2PpGclPSPpKylqbYikkZKWSVoh6YJa1n9E0l3Z+j/vyf/eqjSiT/+U/d95RtJjkg5LUWdTNNSnau3GSgpJLeKw6Mb0S9K47P16VtIdha6xSSKixf8APwEuyG5fAFxdR7v5wPDsdlvgo6lr390+ZeuvB+4Abkhdd3P0CzgaOCq73QV4GWifuvYaNZYAfweOANoATwPH1GhzHnBTdns8cFfqupuhT4NN3P4SAAAEjklEQVSr/t8A5xZDn7J2+wF/AJ4AylLX3Uzv1VHAYqBDdr9T6rrr+ymKkREwGrg1u30rMKZmA0nHAK0iYg5ARLwdEe8WrsQma7BPAJJOAA4CHi1QXburwX5FxN8iYnl2ew2wFkj2zfA69AFWRMTKiHgfuJNc36qr3td7gKGSVMAam6rBPkXE76v9v3kC6FbgGpuqMe8TwI/JfVB6r5DF7YbG9OubwI0R8SZARKwtcI1NUixhdFBEvAyQ/e5US5ujgfWS7pO0WNI0SSUFrbJpGuyTpH2Aa4CpBa5tdzTmvdpBUh9yn/z+XoDamqIr8FK1+6uzZbW2iYitwAbg4wWpbtc0pk/VfR14OK8V7b4G+ySpN3BIRDxYyMJ2U2Peq6OBoyUtlPSEpJEFq24XtEpdQGNJmgscXMuqixq5iVbASUBv4EXgLmAS8MvmqG9XNEOfzgMeioiX9qQP3M3Qr6rtdAZuAyZGxPbmqK0Z1faC1/yeRGPa7EkaXa+kM4EyYGBeK9p99fYp+0B3Lbm/BS1JY96rVuSm6gaRG8H+UVLPiFif59p2SYsJo4gYVtc6Sa9K6hwRL2d/wGobjq4GFkfEyuwxM4G+JAyjZuhTP+AkSeeR2wfWRtLbEVHnTtpCaIZ+Iakd8Dvg4oh4Ik+l7o7VwCHV7ncD1tTRZrWkVsD+wBuFKW+XNKZPSBpG7oPFwIjYXKDadlVDfdoP6AnMzz7QHQzMknRqRJQXrMqma+y/vyciYguwStIycuH0VGFKbJpimaabBUzMbk8E7q+lzVNAB0lV+x6GAM8VoLZd1WCfImJCRBwaEd2B84Ffpw6iRmiwX5LaAL8l15+7C1hbUzwFHCXp8Kze8eT6Vl31vo4F5kW2J3kP1WCfsimt/wRO3dP3QWTq7VNEbIiIAyOie/b/6AlyfduTgwga9+9vJrkDTpB0ILlpu5UFrbIpUh9B0Rw/5ObhHwOWZ78PyJaXATdXazcceAZYCswA2qSufXf7VK39JFrG0XQN9gs4E9gCLKn20yt17bX05QvA38jtz7ooW3YpuT9mAPsCdwMrgCeBI1LX3Ax9mgu8Wu19mZW65t3tU42282kBR9M18r0S8O/kPnQvBcanrrm+H58OyMzMkiuWaTozM2vBHEZmZpacw8jMzJJzGJmZWXIOIzMzS85hZNZMJG2TtETSXyXdLemj2fKDJd0p6e/ZGZQfknR0tu4RSesltaRT0Zg1O4eRWfPZFBG9IqIn8D7wrezEqL8F5kfEJyLiGOBfyJ3cFmAa8LU05ZrtORxGZvnxR+BIct+A3xIRN1WtiIglEfHH7PZjwFtpSjTbcziMzJpZdh66z5P71ntPYFHaisz2fA4js+ZTKmkJUE7uzPDJTsJr1tK0mLN2m7UAmyKiV/UFkp4ld5JUM6uHR0Zm+TUP+Iikb1YtkPQZSXv6dYDMCsphZJZHkTsT8ZeA4dmh3c8C/0Z27RlJfyR3Zu+hklZLGpGsWLOEfNZuMzNLziMjMzNLzmFkZmbJOYzMzCw5h5GZmSXnMDIzs+QcRmZmlpzDyMzMkvs/kLwTRJZ0zz4AAAAASUVORK5CYII=\n", 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\n", 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" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "data_obj.mds(color_categories=[3, 2, 1, 0, 0, 0])" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Use t-SNE to visualize the relationship between all molecules __based on molecule fingerprints__. The options are same as for PCA. First with labels." - ] - }, - { - "cell_type": "code", - "execution_count": 40, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 40, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", 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" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "data_obj.tsne(include_labels=True)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Now with colors instead of labels." - ] - }, - { - "cell_type": "code", - "execution_count": 41, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 41, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", - "text/plain": [ - "
" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "data_obj.tsne(color_categories=[3, 2, 1, 0, 0, 0])" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Example usage" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "So let's say I'm interested in looking at EC 1.1.3.15. I might do something along these lines:" - ] - }, - { - "cell_type": "code", - "execution_count": 42, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['2 -hydroxyisocaproate',\n", - " '2-hydroxy octanoate',\n", - " '2-hydroxy palmitate',\n", - " '2-hydroxy-3-butynoate',\n", - " '2-hydroxy-3-heptynoate',\n", - " '2-hydroxy-3-hexynoate',\n", - " '2-hydroxy-3-methylvalerate',\n", - " '2-hydroxy-3-octynoate',\n", - " '2-hydroxy-3-pentynoate',\n", - " '2-hydroxy-4-methylmercaptobutyrate',\n", - " '2-hydroxy-4-methylthiobutanoic acid',\n", - " '2-hydroxy-beta-methylvalerate',\n", - " '2-hydroxybutanoate',\n", - " '2-hydroxybutyrate',\n", - " '2-hydroxycaproate',\n", - " '2-hydroxycaprylate',\n", - " '2-hydroxydecanoate',\n", - " '2-hydroxydodecanoate',\n", - " '2-hydroxyisocaproate',\n", - " '2-hydroxyisovalerate',\n", - " '2-hydroxyoctanoate',\n", - " '2-hydroxypalmitate',\n", - " '2-hydroxyphenyllactate',\n", - " '2-hydroxyvalerate',\n", - " '3-chlorolactate',\n", - " '3-indolelactate',\n", - " '3-methoxy-4-hydroxymandelate',\n", - " '4-chloromandelate',\n", - " '4-fluoromandelate',\n", - " '4-methoxymandelate',\n", - " '4-methylmandelate',\n", - " '4-nitromandelate',\n", - " '4-trifluoromethylmandelate',\n", - " 'alanine',\n", - " 'an (s)-2-hydroxy carboxylate',\n", - " 'beta-phenyllactate',\n", - " 'glycerate',\n", - " 'glycolate',\n", - " 'glyoxalate',\n", - " 'glyoxylate',\n", - " 'glyoxylate thiohemiacetals',\n", - " 'homoserine',\n", - " 'isoleucic acid',\n", - " 'isoleucine',\n", - " 'lactate',\n", - " 'leucine',\n", - " 'lysine',\n", - " 'mandelate',\n", - " 'methionine',\n", - " 'p-hydroxy-beta-phenyllactate',\n", - " 'p-hydroxymandelate',\n", - " 'phenylalanine',\n", - " 'phenyllactate',\n", - " 'thiol-glyoxylate adducts',\n", - " 'tryptophan',\n", - " 'tyrosine',\n", - " 'valic acid',\n", - " 'valine',\n", - " 'vinylglycolate']" - ] - }, - "execution_count": 42, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# first get all the substrates\n", - "mol_obj = brenda.BrendaMols(typeof='substrate') \n", - "my_ec_data = mol_obj.data_dict()['1.1.3.15']\n", - "\n", - "my_ec_data" - ] - }, - { - "cell_type": "code", - "execution_count": 43, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "{'2 -hydroxyisocaproate': 'CC(C)CC(O)C([O-])=O',\n", - " '2-hydroxy-3-butynoate': 'CCOC(=O)C(C#C)O',\n", - " '2-hydroxy-3-heptynoate': 'CCCC#CC(O)C([O-])=O',\n", - " '2-hydroxy-3-hexynoate': 'CCC#CC(O)C([O-])=O',\n", - " '2-hydroxy-3-methylvalerate': 'CCC(C)C(C(=O)O)O',\n", - " '2-hydroxy-3-octynoate': 'CCCCC#CC(O)C([O-])=O',\n", - " '2-hydroxy-3-pentynoate': 'CC#CC(O)C([O-])=O',\n", - " '2-hydroxy-4-methylmercaptobutyrate': 'CSCCC(O)C([O-])=O',\n", - " '2-hydroxy-4-methylthiobutanoic acid': 'CSCCC(C(=O)O)O',\n", - " '2-hydroxy-beta-methylvalerate': 'CCC(C)C(O)C([O-])=O',\n", - " '2-hydroxybutanoate': 'CCC(C(=O)[O-])O',\n", - " '2-hydroxybutyrate': 'CCC(C(=O)O)O',\n", - " '2-hydroxycaproate': 'CCCCC(C(=O)O)O',\n", - " '2-hydroxycaprylate': 'CCCCCCC(C(=O)O)O',\n", - " '2-hydroxydecanoate': 'CCCCCCCCC(C(=O)O)O',\n", - " '2-hydroxydodecanoate': 'CCCCCCCCCCC(C(=O)[O-])O',\n", - " '2-hydroxyisocaproate': 'CC(C)CC(C(=O)O)O',\n", - " '2-hydroxyisovalerate': 'CC(C)C(C(=O)O)O',\n", - " '2-hydroxyoctanoate': 'CCCCCCC(C(=O)O)O',\n", - " '2-hydroxypalmitate': 'CCCCCCCCCCCCCCC(C(=O)[O-])O',\n", - " '2-hydroxyphenyllactate': 'CC(O)(C([O-])=O)c1ccccc1O',\n", - " '2-hydroxyvalerate': 'CCCC(C(=O)O)O',\n", - " '3-chlorolactate': 'C(C(C(=O)O)O)Cl',\n", - " '3-indolelactate': 'OC(Cc1c[nH]c2ccccc12)C([O-])=O',\n", - " '3-methoxy-4-hydroxymandelate': 'COC1=C(C=CC(=C1)C(C(=O)O)O)O',\n", - " 'alanine': 'CC(C(=O)O)N',\n", - " 'beta-phenyllactate': 'C1=CC=C(C=C1)CC(C(=O)O)O',\n", - " 'glycerate': 'OCC(O)C([O-])=O',\n", - " 'glycolate': 'C(C(=O)O)O',\n", - " 'glyoxalate': 'C(=O)C(=O)O',\n", - " 'glyoxylate': 'C(=O)C(=O)O',\n", - " 'homoserine': 'C(CO)C(C(=O)O)N',\n", - " 'isoleucic acid': 'CCC(C)C(C(=O)O)O',\n", - " 'isoleucine': 'CCC(C)C(C(=O)O)N',\n", - " 'lactate': 'CC(C(=O)O)O',\n", - " 'leucine': 'CC(C)CC(C(=O)O)N',\n", - " 'lysine': 'C(CCN)CC(C(=O)O)N',\n", - " 'mandelate': 'C1=CC=C(C=C1)C(C(=O)[O-])O',\n", - " 'methionine': 'CSCCC(C(=O)O)N',\n", - " 'p-hydroxy-beta-phenyllactate': 'OC(Cc1ccc(O)cc1)C([O-])=O',\n", - " 'p-hydroxymandelate': 'C1=CC(=CC=C1C(C(=O)O)O)O',\n", - " 'phenylalanine': 'C1=CC=C(C=C1)CC(C(=O)O)N',\n", - " 'phenyllactate': 'CC(O)C(=O)Oc1ccccc1',\n", - " 'tryptophan': 'C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N',\n", - " 'tyrosine': 'C1=CC(=CC=C1CC(C(=O)O)N)O',\n", - " 'valine': 'CC(C)C(C(=O)O)N',\n", - " 'vinylglycolate': 'C=COC(=O)CO'}" - ] - }, - "execution_count": 43, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# need to get smiles for these substrates\n", - "chem_obj = cheminfo.NameToSmile(names=my_ec_data)\n", - "\n", - "# as you can see any \"strange\" substrates that did not give smiles have been excluded\n", - "chem_obj.data_dict()" - ] - }, - { - "cell_type": "code", - "execution_count": 44, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 44, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", - "text/plain": [ - "
" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "# now I make the data object to do the fun stuff\n", - "data_obj = cheminfo.SmileToData(names=chem_obj.names(),\n", - " smiles=chem_obj.smiles(), \n", - " descriptor='morgan3', \n", - " metric='tanimoto')\n", - "\n", - "# cluster them\n", - "clu = data_obj.cluster_butina()\n", - "\n", - "# use to cluster categories to color points in an MDS plot\n", - "data_obj.mds(include_labels=True, color_categories=clu)" - ] - }, - { - "cell_type": "code", - "execution_count": 45, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "{'min': 0.061224489795918366,\n", - " 'max': 1.0,\n", - " 'sum': 236.9613845008384,\n", - " 'median': 0.19047619047619047,\n", - " 'mean': 0.21920572109235745,\n", - " 'stdev': 0.12151247459320104}" - ] - }, - "execution_count": 45, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# that's a lot of different types of molecules in there, I wonder how similar they are on average\n", - "data_obj.global_similarity_stats()" - ] - }, - { - "cell_type": "code", - "execution_count": 46, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 46, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", - "text/plain": [ - "
" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], - "source": [ - "# I happen to know that EC 1.4.3.2 is also active on a range of substrates. \n", - "# I wonder if that EC class takes substrates that are on average more or less similar\n", - "\n", - "my_ec_data = mol_obj.data_dict()['1.4.3.2']\n", - "chem_obj = cheminfo.NameToSmile(names=my_ec_data)\n", - "data_obj = cheminfo.SmileToData(names=chem_obj.names(),\n", - " smiles=chem_obj.smiles(), \n", - " descriptor='morgan3', \n", - " metric='tanimoto')\n", - "\n", - "# cluster them\n", - "clu = data_obj.cluster_butina()\n", - "\n", - "# use to cluster categories to color points in an MDS plot\n", - "data_obj.mds(include_labels=True, color_categories=clu)" - ] - }, - { - "cell_type": "code", - "execution_count": 47, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "{'min': 0.021739130434782608,\n", - " 'max': 1.0,\n", - " 'sum': 1216.469725025713,\n", - " 'median': 0.2391304347826087,\n", - " 'mean': 0.255937244903369,\n", - " 'stdev': 0.12118952725373278}" - ] - }, - "execution_count": 47, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# seems like the mean similarity is a bit higher here, but on the whole I would say they are comparable\n", - "data_obj.global_similarity_stats()" - ] - }, - { - "cell_type": "code", - "execution_count": 48, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 48, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# what is orn? Don't know what that is really..\n", - "\n", - "data_obj.molecules('orn')\n", - "\n", - "# Aha, looks like ornithine! Who would have guessed..." - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.7.1" - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} From 867ff828381668433726f5c191faa4121e28ba51 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?David=20H=C3=B6gberg?= Date: Wed, 17 Apr 2019 13:23:35 +0200 Subject: [PATCH 4/4] add checkpoint that were in master --- .../package_usage-checkpoint.ipynb | 3761 +++++++++++++++++ 1 file changed, 3761 insertions(+) create mode 100644 code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb diff --git a/code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb b/code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb new file mode 100644 index 0000000..d4678a1 --- /dev/null +++ b/code/cheminfo/.ipynb_checkpoints/package_usage-checkpoint.ipynb @@ -0,0 +1,3761 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Usage of the \"brenda\" module for obtaining molecules from the BRENDA database" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "First create a molecule object that holds all the data. Here we use only molecules that are listed in the **\"Natural substrates\"** table of BRENDA" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "brenda.BrendaNaturalMols" + ] + }, + "execution_count": 1, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "import brenda\n", + "\n", + "# other valid values for typeof are 'product', 'substrates', 'products'\n", + "mol_obj = brenda.BrendaNaturalMols(typeof='substrate') \n", + "\n", + "type(mol_obj)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "You can equally well use molecules form the **\"Substrates\"** tabel in BRENDA" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "brenda.BrendaMols" + ] + }, + "execution_count": 2, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "mol_obj = brenda.BrendaMols(typeof='substrate') \n", + "\n", + "type(mol_obj)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of all unique molecules from all EC numbers" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['(((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-f(no2)-vmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid)',\n", + " '(((4-((4-dimethylamino)phenyl)azo)phenyl)sulfonyl)amino-(gamma-aminobutyric acid)-pqvl-pvmh-(5-(2-aminoethylamino)-1-naphthalenesulfonic acid)',\n", + " '((1s,3s)-3-(7-amino-2h-2,3,5,6-tetraazabenzo[cd]azulen-2-yl)cyclobutyl)methyl tetrahydrogen triphosphate',\n", + " '((7-methoxycoumarin-4-yl)acetyl)-ser-glu-val-asn-leu-asp-ala-glu-phe-lys(2,4-dinitrophenyl)',\n", + " '((7-methoxycoumarin-4-yl)acetyl)-ser-glu-val-asn-leu-asp-ala-glu-phe-lys(2,4-dinitrophenyl)-arg-arg-nh2',\n", + " '((7-methoxycoumarin-4-yl)acetyl-pro-leu-gly-leu-n-3-(2,4-dinitro-phenyl)-l-2,3-diaminopropionyl-ala-arg-nh2)',\n", + " '(([(1e)-phenylmethylidene]amino)oxy)acetic acid',\n", + " \"((e,e)-4,4'-dihydroxy-5,5'-dimethoxy-3,3'-bicinnamic acid l-arg-p-o-yl ester)\",\n", + " '((gp-4-hydroxy-l-proline)5gpk(7-methoxycoumarin-4-yl)acetyl)gpqglrgqk(2,4-dinitrophenyl)gvr((gp-4-hydroxy-l-proline)5-nh2)3',\n", + " '(+-)-11-hydroxy-delta9-tetrahydrocannabinol']" + ] + }, + "execution_count": 3, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "molecules = mol_obj.names()\n", + "\n", + "molecules[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of all EC numbers in the dataset" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['1.1.1.1',\n", + " '1.1.1.10',\n", + " '1.1.1.100',\n", + " '1.1.1.101',\n", + " '1.1.1.102',\n", + " '1.1.1.103',\n", + " '1.1.1.104',\n", + " '1.1.1.105',\n", + " '1.1.1.106',\n", + " '1.1.1.107']" + ] + }, + "execution_count": 4, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "ec_nums = mol_obj.ec()\n", + "\n", + "ec_nums[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a dictionary with EC number keys holding lists of molecule names" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "['1.1.1.1', '1.1.1.10', '1.1.1.100', '1.1.1.101', '1.1.1.102', '1.1.1.103', '1.1.1.104', '1.1.1.105', '1.1.1.106', '1.1.1.107']\n", + "\n", + "\n", + "['1,5-anhydro-d-fructose', '1,5-anhydro-d-glucitol', '1,5-anhydro-s-sorbitol', '1,6-anhydro-d-glucose', '1-beta-aurothioglucose', \"2,2'-azinobis(3-ethylbenzthiazolinesulfonic acid)\", '2,6-dichloroindophenol', '2,6-dimethyl-1,4-benzoquinone', '2-chloro-1,4-benzoquinone', '2-deoxy-2-fluoro-d-glucose', '2-deoxy-d-galactose', '2-deoxy-d-glucose', '2-keto-d-glucose', '2-methoxy-1,4-benzoquinone', '3-deoxy-3-fluoro-beta-d-glucose', '3-deoxy-d-glucose', '3-o-methyl-d-glucose', '5-thioglucose', '6-deoxy-d-glucose', 'allose', 'alpha-d-glucose', 'alpha-d-melibiose', 'arabinose', 'beta-d-galactose', 'cellobiose', 'ferricenium hexafluorophosphate', 'fructose', 'fucono-1,5-lactone', 'fucose', 'galactose', 'gentibiose', 'glucono-1,5-lactone', 'gluconolactone', 'glucose', 'idose', 'lactose', 'maltoheptaose', 'maltopentaose', 'maltose', 'maltotriose', 'mannoheptose', 'mannose', 'melibiose', 'methyl alpha-d-glucoside', 'methyl beta-d-glucoside', 'methyl-beta-d-glucoside', 'ribose', 'sorbose', 'sorbose d-allose', 'sucrose', 'tetrafluoro-1,4-benzoquinone', 'trehalose', 'wheat flour', 'xylose']\n" + ] + } + ], + "source": [ + "mol_data = mol_obj.data_dict()\n", + "\n", + "print(list(mol_data.keys())[:10])\n", + "\n", + "print('\\n')\n", + "\n", + "print(mol_data['1.1.3.10'])\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a data frame holding the EC number and substrate name data" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
\n", + "\n", + "\n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + "
ec_numbermolecule
01.1.1.1(1s,3s)-3-methylcyclohexanol
11.1.1.1(2e)-2-methylpent-2-enal
21.1.1.1(2e)-3,7-dimethylocta-2,6-dienal
31.1.1.1(2e)-but-2-en-1-ol
41.1.1.1(2e)-but-2-enal
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" + ], + "text/plain": [ + " ec_number molecule\n", + "0 1.1.1.1 (1s,3s)-3-methylcyclohexanol\n", + "1 1.1.1.1 (2e)-2-methylpent-2-enal\n", + "2 1.1.1.1 (2e)-3,7-dimethylocta-2,6-dienal\n", + "3 1.1.1.1 (2e)-but-2-en-1-ol\n", + "4 1.1.1.1 (2e)-but-2-enal" + ] + }, + "execution_count": 6, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "mol_data = mol_obj.data_frame()\n", + "\n", + "mol_data.head()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Usage of the \"cheminfo\" module for working with the molecules" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "First create a molecule object that holds all the data. Conversion from names to SMILES occurs automatically on creation of the object.\n", + "\n", + "The cheminfo module is dependent on the following cheminformatics packages:\n", + "\n", + "cirpy\n", + "\n", + "pubchempy\n", + "\n", + "rdkit" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### First let's look at name to SMILE conversion" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "The SMILES are fetched from saved data where possible, otherwise tries to get them from a server. The retest_none variable can be used to force the script to try to get SMILES for the molecule names that did not work in previous runs." + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "cheminfo.NameToSmile" + ] + }, + "execution_count": 7, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "import cheminfo\n", + "\n", + "mols = ['(S)-Lactate', 'Glycolate', 'Tryptophane', 'ATP', 'ADP', 'AMP']\n", + "\n", + "chem_obj = cheminfo.NameToSmile(names=mols, retest_none=False)\n", + "\n", + "type(chem_obj)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of molecule names" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp']" + ] + }, + "execution_count": 8, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "molecules = chem_obj.names()\n", + "\n", + "molecules[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of all the smiles" + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['CC(C(=O)O)O',\n", + " 'C(C(=O)O)O',\n", + " 'C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N',\n", + " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)OP(=O)(O)O)O)O',\n", + " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)O)O)O',\n", + " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)O)O)O']" + ] + }, + "execution_count": 9, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "smiles = chem_obj.smiles()\n", + "\n", + "smiles[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a dictionary of all data with metabolite names as keys and smiles as values" + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp']\n", + "\n", + "\n", + "CC(C(=O)O)O\n" + ] + } + ], + "source": [ + "smile_data = chem_obj.data_dict()\n", + "\n", + "print(list(smile_data.keys())[:10])\n", + "\n", + "print('\\n')\n", + "\n", + "print(smile_data['lactate'])" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a data frame with the molecule names and smiles data" + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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moleculesmile
0lactateCC(C(=O)O)O
1glycolateC(C(=O)O)O
2tryptophaneC1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N
3atpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...
4adpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...
\n", + "
" + ], + "text/plain": [ + " molecule smile\n", + "0 lactate CC(C(=O)O)O\n", + "1 glycolate C(C(=O)O)O\n", + "2 tryptophane C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N\n", + "3 atp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...\n", + "4 adp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(..." + ] + }, + "execution_count": 11, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "smile_data = chem_obj.data_frame()\n", + "\n", + "smile_data.head()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "**Note**\n", + "\n", + "Each of the four methods names(), smiles(), data_dict(), and data_frame() take the optional argument \"exclude_none\". By default this is set to False and all molecule names for which no SMILE could be obtained are excluded. If set to True, these will be included in the output." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Now let's look at getting interesting data out of the SMILES" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "First create a data object using molecule names and smiles as input." + ] + }, + { + "cell_type": "code", + "execution_count": 12, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "cheminfo.SmileToData" + ] + }, + "execution_count": 12, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj = cheminfo.SmileToData(names=chem_obj.names(),\n", + " smiles=chem_obj.smiles(), \n", + " descriptor='morgan3', \n", + " metric='tanimoto')\n", + "\n", + "type(data_obj)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Several different alortithms for calculating descriptors are available. A list of the available ones can easily be obtained." + ] + }, + { + "cell_type": "code", + "execution_count": 13, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['maccs', 'morgan3', 'morgan5', 'rdkit']" + ] + }, + "execution_count": 13, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.valid_descriptors()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Additionally several different metrics for comparing the molecules are available. A list of the available ones can easily be obtained." + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['asymmetric',\n", + " 'braunblanquet',\n", + " 'cosine',\n", + " 'dice',\n", + " 'kulczynski',\n", + " 'mcconnaughey',\n", + " 'rogotgoldberg',\n", + " 'russel',\n", + " 'sokal',\n", + " 'tanimoto']" + ] + }, + "execution_count": 14, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.valid_metrics()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "#### Obtaining basic properties for the molecules" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of the molecule names " + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp']" + ] + }, + "execution_count": 15, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "names = data_obj.names()\n", + "\n", + "names[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of the molecule smiles" + ] + }, + { + "cell_type": "code", + "execution_count": 16, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['CC(C(=O)O)O',\n", + " 'C(C(=O)O)O',\n", + " 'C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N',\n", + " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)OP(=O)(O)O)O)O',\n", + " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(=O)(O)O)O)O',\n", + " 'C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)O)O)O']" + ] + }, + "execution_count": 16, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "smiles = data_obj.smiles()\n", + "\n", + "smiles[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of the molecule objects obtained from the smiles" + ] + }, + { + "cell_type": "code", + "execution_count": 17, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "[, , , , , ]\n" + ] + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "mols = data_obj.molecules()\n", + "\n", + "print(mols[:10])\n", + "\n", + "for m in mols[:10]:\n", + " display(m)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a list of fingerprint objects for each of the molecules" + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 18, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "fingerp = data_obj.fingerprints()\n", + "\n", + "fingerp[0]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "It is also possible to get the fingerprints as bitstrings" + ] + }, + { + "cell_type": "code", + "execution_count": 19, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "'01000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000001000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000010000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000100000000000000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'" + ] + }, + "execution_count": 19, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "fingerp = data_obj.fingerprints_str()\n", + "\n", + "fingerp[0]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Or as a bit list if one prefers..." + ] + }, + { + "cell_type": "code", + "execution_count": 20, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "[0,\n", + " 1,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + " 0,\n", + 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427.0294149399998,\n", + " 347.06308441799985]" + ] + }, + "execution_count": 21, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "props = data_obj.property(property_type='molwt')\n", + "\n", + "props[:10]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "You can easiliy obtain a list of which properties that are available" + ] + }, + { + "cell_type": "code", + "execution_count": 22, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['molwt',\n", + " 'num_alirings',\n", + " 'num_arorings',\n", + " 'num_hbond_acceptors',\n", + " 'num_hbond_donors',\n", + " 'num_hetatom',\n", + " 'num_nhoh',\n", + " 'num_no',\n", + " 'num_rotbond',\n", + " 'tpsa']" + ] + }, + "execution_count": 22, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.valid_properties()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "These are a bit cryptic, so one can also get the explanation." + ] + }, + { + "cell_type": "code", + "execution_count": 23, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['\"molwt\": molecular weight',\n", + " '\"num_alirings\": number of aliphatic rings',\n", + " '\"num_arorings\": number of aromatic rings',\n", + " '\"num_hbond_acceptors\": number of hydrogen bond acceptors',\n", + " '\"num_hbond_donors\": number of hydrogen bond donors',\n", + " '\"num_hetatom\": number of hetero atoms',\n", + " '\"num_nhoh\": number of NH and OH groups',\n", + " '\"num_no\": number of N and O atoms',\n", + " '\"num_rotbond\": number of rotatable bonds',\n", + " '\"tpsa\": polar surface area']" + ] + }, + "execution_count": 23, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.explain_properties()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a dictionary containing a selection of chemical properties for each molecule" + ] + }, + { + "cell_type": "code", + "execution_count": 24, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "dict_keys(['lactate', 'glycolate', 'tryptophane', 'atp', 'adp', 'amp'])\n" + ] + }, + { + "data": { + "text/plain": [ + "{'smile': 'CC(C(=O)O)O',\n", + " 'molwt': 90.031694052,\n", + " 'num_alirings': 0,\n", + " 'num_arorings': 0,\n", + " 'num_hbond_acceptors': 2,\n", + " 'num_hbond_donors': 2,\n", + " 'num_hetatom': 3,\n", + " 'num_nhoh': 2,\n", + " 'num_no': 3,\n", + " 'num_rotbond': 1,\n", + " 'tpsa': 57.53}" + ] + }, + "execution_count": 24, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "prop_dict = data_obj.data_dict()\n", + "\n", + "print(prop_dict.keys())\n", + "\n", + "prop_dict['lactate']" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a data frame containing a selection of chemical properties for each molecule" + ] + }, + { + "cell_type": "code", + "execution_count": 25, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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moleculesmilemolwtnum_aliringsnum_aroringsnum_hbond_acceptorsnum_hbond_donorsnum_hetatomnum_nhohnum_nonum_rotbondtpsa
0lactateCC(C(=O)O)O90.0316940022323157.53
1glycolateC(C(=O)O)O76.0160440022323157.53
2tryptophaneC1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N204.0898780223444379.11
3atpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...506.99574512147218188279.13
4adpC1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(...427.02941512126177156232.60
\n", + "
" + ], + "text/plain": [ + " molecule smile molwt \\\n", + "0 lactate CC(C(=O)O)O 90.031694 \n", + "1 glycolate C(C(=O)O)O 76.016044 \n", + "2 tryptophane C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N 204.089878 \n", + "3 atp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(... 506.995745 \n", + "4 adp C1=NC2=C(C(=N1)N)N=CN2C3C(C(C(O3)COP(=O)(O)OP(... 427.029415 \n", + "\n", + " num_alirings num_arorings num_hbond_acceptors num_hbond_donors \\\n", + "0 0 0 2 2 \n", + "1 0 0 2 2 \n", + "2 0 2 2 3 \n", + "3 1 2 14 7 \n", + "4 1 2 12 6 \n", + "\n", + " num_hetatom num_nhoh num_no num_rotbond tpsa \n", + "0 3 2 3 1 57.53 \n", + "1 3 2 3 1 57.53 \n", + "2 4 4 4 3 79.11 \n", + "3 21 8 18 8 279.13 \n", + "4 17 7 15 6 232.60 " + ] + }, + "execution_count": 25, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "prop_data = data_obj.data_frame()\n", + "\n", + "prop_data.head()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a matrix of all pairwise similarities between molecules" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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lactateglycolatetryptophaneatpadpamp
lactate1.0000000.2500000.1250000.0375000.0389610.042857
glycolate0.2500001.0000000.1063830.0384620.0400000.044118
tryptophane0.1250000.1063831.0000000.0747660.0769230.082474
atp0.0375000.0384620.0747661.0000000.9054050.786667
adp0.0389610.0400000.0769230.9054051.0000000.819444
amp0.0428570.0441180.0824740.7866670.8194441.000000
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" + ], + "text/plain": [ + " lactate glycolate tryptophane atp adp amp\n", + "lactate 1.000000 0.250000 0.125000 0.037500 0.038961 0.042857\n", + "glycolate 0.250000 1.000000 0.106383 0.038462 0.040000 0.044118\n", + "tryptophane 0.125000 0.106383 1.000000 0.074766 0.076923 0.082474\n", + "atp 0.037500 0.038462 0.074766 1.000000 0.905405 0.786667\n", + "adp 0.038961 0.040000 0.076923 0.905405 1.000000 0.819444\n", + "amp 0.042857 0.044118 0.082474 0.786667 0.819444 1.000000" + ] + }, + "execution_count": 26, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.similarity()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a matrix of all pairwise distances between molecules" + ] + }, + { + "cell_type": "code", + "execution_count": 27, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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lactateglycolatetryptophaneatpadpamp
lactate0.0000000.7500000.8750000.9625000.9610390.957143
glycolate0.7500000.0000000.8936170.9615380.9600000.955882
tryptophane0.8750000.8936170.0000000.9252340.9230770.917526
atp0.9625000.9615380.9252340.0000000.0945950.213333
adp0.9610390.9600000.9230770.0945950.0000000.180556
amp0.9571430.9558820.9175260.2133330.1805560.000000
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" + ], + "text/plain": [ + " lactate glycolate tryptophane atp adp amp\n", + "lactate 0.000000 0.750000 0.875000 0.962500 0.961039 0.957143\n", + "glycolate 0.750000 0.000000 0.893617 0.961538 0.960000 0.955882\n", + "tryptophane 0.875000 0.893617 0.000000 0.925234 0.923077 0.917526\n", + "atp 0.962500 0.961538 0.925234 0.000000 0.094595 0.213333\n", + "adp 0.961039 0.960000 0.923077 0.094595 0.000000 0.180556\n", + "amp 0.957143 0.955882 0.917526 0.213333 0.180556 0.000000" + ] + }, + "execution_count": 27, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.distance()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get similarity statistics (minimum similarity, maximum similarity, etc.) for each molecule in the whole set. The diagonal (self-similarity) is ignored in these calculations. Molecules with a low max and a low sum might be considered outliers." + ] + }, + { + "cell_type": "code", + "execution_count": 28, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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minmaxsummedianmeanstdev
lactate0.0375000.2500000.4943180.0428570.0988640.092217
glycolate0.0384620.2500000.4789620.0441180.0957920.090777
tryptophane0.0747660.1250000.4655470.0824740.0931090.021822
atp0.0375000.9054051.8428000.0747660.3685600.438149
adp0.0389610.9054051.8807340.0769230.3761470.445211
amp0.0428570.8194441.7755600.0824740.3551120.409389
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" + ], + "text/plain": [ + " min max sum median mean stdev\n", + "lactate 0.037500 0.250000 0.494318 0.042857 0.098864 0.092217\n", + "glycolate 0.038462 0.250000 0.478962 0.044118 0.095792 0.090777\n", + "tryptophane 0.074766 0.125000 0.465547 0.082474 0.093109 0.021822\n", + "atp 0.037500 0.905405 1.842800 0.074766 0.368560 0.438149\n", + "adp 0.038961 0.905405 1.880734 0.076923 0.376147 0.445211\n", + "amp 0.042857 0.819444 1.775560 0.082474 0.355112 0.409389" + ] + }, + "execution_count": 28, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "sim_data = data_obj.molecule_similarity_stats()\n", + "\n", + "sim_data\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get similarity statistics for the entire set of molecules." + ] + }, + { + "cell_type": "code", + "execution_count": 29, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "{'min': 0.0375,\n", + " 'max': 0.9054054054054054,\n", + " 'sum': 3.468960521445852,\n", + " 'median': 0.07692307692307693,\n", + " 'mean': 0.2312640347630568,\n", + " 'stdev': 0.3190818179151157}" + ] + }, + "execution_count": 29, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "sim_data = data_obj.global_similarity_stats()\n", + "\n", + "sim_data" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get a subset of diverse molecules, chosen from the total set of molecules. It is possible to specify already selected molecules in the \"firstpicks\" argument." + ] + }, + { + "cell_type": "code", + "execution_count": 30, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['glycolate', 'atp', 'tryptophane']" + ] + }, + "execution_count": 30, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.diversity_pick(n=3, firstpicks=['glycolate'])" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Draw all molecules. These are aligned based on their maximum common substrucuture, which, in the case shown here, is not highlighted." + ] + }, + { + "cell_type": "code", + "execution_count": 31, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "" + ] + }, + "execution_count": 31, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.draw_structures()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Optionally one can also highlight the maximum common substrucuture setting the \"highlight_substructure\" to True" + ] + }, + { + "cell_type": "code", + "execution_count": 32, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "" + ] + }, + "execution_count": 32, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.draw_structures(highlight_substructure=True)" + ] + }, + { + "cell_type": "code", + "execution_count": 33, + "metadata": { + "scrolled": false + }, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "/home/martin/anaconda3/envs/py37/lib/python3.7/site-packages/matplotlib/pyplot.py:514: RuntimeWarning: More than 20 figures have been opened. Figures created through the pyplot interface (`matplotlib.pyplot.figure`) are retained until explicitly closed and may consume too much memory. (To control this warning, see the rcParam `figure.max_open_warning`).\n", + " max_open_warning, RuntimeWarning)\n" + ] + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "" + ] + }, + "execution_count": 33, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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y83JhzbEiNzcHuXm5yMrOhl6ng16vh06vA8dxgWXxAg9BECRp8fqwsroK+/Iy7Mt22O0rWF5expxNatQok5+fj9LyMtQ31KGmtiYiRQ4kVq8fMd0mp8rVlp8I6Sjok62a2whJSSWLIgoCRFHE6Mgonjx+goH+QbAch+Ydzdi1eydKSouDVTFRlh8h5qptspIr2qINIBgZP8HXPp8Pfb396GzvxNjIGACgsbkRR98+ioLCAlVhSSW78jrKCkDC8gZCorLRVT4bmTaPNb0sKKIoYmRkBB2vOtDT0wu32w2GYVBcUoyKygpUVlagtLwUer0+6j7F2x8geuHicrkxMzWNyckpzExNY3xsAi6XCzqdDnX1ddjWtA21dbXQarUJ1euHfxbvzjP29JtbFZTKvGtpM7QRYq0Ws7GyKLKg9PX24/f7v8M2Y4Mxy4i9+/diz97dyMrOCp0viphEnkdhmcY1Ng5X7yofGi+MSpytrq6i9UUrWp63wOfjQ4RFuYxkhSXZ7MpW6REUskwSljcFEpWNrPJZD0lJRlCUcjI2Po6erm70dPfCbrdDq9VhW9M2NDZtQ1kMMUnk+4r23cS9+2JZ8DyPsdEx9Hb3ob+3H06nE1qtFnUNddi9Zzeqqqs2tF5fmid6gR6+HLV5IqbfpJ4+0diIRrOJZlHCZXpkeAT37t7HxPgEcvNyceitQ2ja3hgYxyT8PIgmJ8ptjOz9Fv9cTvSYRcgtqx47TFhsOh1OtDxvCQhLQ2MDjh0/FldY1OL2TZIVgITlDeDNFpWtIinpanzI8zw6Ojrx7Mkz2GZsYDkONXU1aGxqRH2DlLWItY5o+xZvP5UkewEfHx1Hb08verp64XK5YLFasGv3buzcvQMWi2XN9fqAeqo8cvr0VgWprW8zWK9Gs2vNokyMT+DevfsYGRpBttmEo8eOYOeuHRHVO+GCoiYnoedJ/HhOJiuVWBd6f3wlIC2ysLxsaYXX48Xe/Xtx7MRxGI2GCFkBIuM8XFaU632dZSWwfJKW15E3V1ReF0lJpPGhw+FEy4sXaHnegtVVB3Lz83Dw0AE0NjdCp0teTmLJSLw6/mh1+kDsen1BENDX04f2Vx0YHR4FwzCoravF8ZPHUVRclHC9fsjnm9hrQm35G0kqwpnumFWbbtW+ghvXb6CrsxtZWVk4fPQw9uzbA45LTFDiyUnMxuQpPsNKddTkODGkJi3hwvLowSO0vmyD0WDEsRNvY8++vSGDyUXLrsSqCnoTZAUgYXnNIFFJer40NJ7dqLtSt9uNB388xPNnz8H7eFTXVuPAoQOorqmGfAgTaXgYr34/2n5FI1ohkkidPgDYl+1of9WB1hetcLlcaN7ejOOnjiMnR73nRCJp8vDtSqesqM0XTqaMo5LK4INrkRRlvHZ3deO3a9fh8Xpw+MhbOHj4ALTa2FU80QRFDFt++N8RveHSMIBh+LFnVGIxlrSoCYvNNou7t+5ibHQMRYWFOHP+LCoqK0hWEoSE5bXgzRSVrSopiVb1CDyPjvYO3Ll1Bw6HE807t+PwW4eQX5AfUYCryUksMVEffj/571N1RNiIRq6R6XHpfelvj8eLZ4+fouX5SwiCgD37duPo228jKzsrqTS5tPz17TWhNl84mz2OynpISiLtUVZXVnHz+g10dnShpLQEFy5dCMTqWgUlOL16DK931Y8cC7GkJZ6wMGAw0DeAu7fvwb5sx6HDB3HinZPSM4gSFJZY7VZed1kJrI+kZatCopLwPGmo8lnvAl8UBExPTePG9RsYH5tASWkJTp97F6WlJVEFRS1zEk1MEnkyczKoFVSMSiEvTRu9IaLD4cCjPx6hva0DGo0GR48dxcHDB2OmyZXvpVKvH7GtaWhkGzJvGgvxRI7RevTsSSTz19PVg1+v/gqX24Wjx47i8JHDkL9K5XJiCUo8OYkmJg6nAwtzC1ixr8DpdAYeSOh0uODxeMAyDFiOBcty4DgWLMciKysLJlM2ss0mmC0mmMwm6HS6mNWWbJiIhEtLIsLCMiy8Xi/u37mP1pdtKC4uxuU/vY+8/PwtLSvJTJdOSFq2FG+eqGxUNmU9JCVWge92uXD39l20vHgJo9GI46eOY+funQiv4llL48OIHkBrkBSZRBuwxqvTB4DFhUXcu30PgwNDKCwqxPn3LqC0tCSh6qBEu3imQ1bC54tFqoV4oscmHc+ZSiRmw+PV5/Xi9q07eP70OYqKi3Dh0gUUFhVGzaKsRVAEUXruz+jIKOZmpYcSzs/NY3XVAeVuMQwDnU4HY5YBOr0OoihC4KVG6DwvgOd9cDqcEAQxZB6j0YCikiIUlRShpLQYRcWF0Gg1qlnAaNKi/FxNWJSx3t/bj+u/3oAoiDhz7l3s3L0rMN1WlZVkp00XJCxbAhKVhOZJc5VPuiVlZmoaV374CXNzc9h3YB+OHj8Kg8EQUpAnIyiJtDmIFR/JjKMCRDZGVG9LEiktasIiiiIG+wdx68ZtOFYd2HdgL46fPAG9Xr+mev1o2xW+bcrtirfvicpKOOEFeqrCuFmSsry4hB9/uILxsXEcPHwAx0+dAMsyEctQxqpajKoJivy5j/fBNm3D8NAIRoZGYZuZASB9dzn+hxHm5FmRm5cLs9UMvV4HnV4XcayU+8cyLARBgNPpwqp9BSsrq1i1r2JhfgG26VksLixJ07EMCgoLUF1bjYamelhzLAAixZplWFVhUcuwhGdX7HY7rv38K8bHxrFz5w6cvXAOOp0uJMZJVpKDpCVjebNEJROqfNIpKQLP42VLK27euAmDXo+Ll99DdU113GqeZOv3w7chfJ+ifQ/RUK3XZyMlQTltso0Q3W43Hv7+EK0tbcjOzsa5i+dQ31AfV1ZCPtsAWVGbdyNIp6Qk02h2ZGgYP35/BR6vB+ffO4+m5qaoQq2MU7UYVROU+fl5tLd2oLe7F06nEwzDoLCoEFU1lSirKkNefh5Ylk24J1A8lDHgcrowOzMH25QNkxOTmJ6UntZcVFyEhsY61DfWIduUnZKwqGVXIAJPHj3FowePUFRUhI//8jFMJhPJyhohYck4SFTizrMBVT6p3JU6HQ78evVXdHf1oKa2BhcuXUC2KTuhLEq6GyBKFxURHo8HPq8PGq1GGv6eZVW7bgJRZEUla5JsI8Twi8DM9Ayu/3oDszOzaW+EGP53qiPZqs27XsTsWr6OkiKKIp48eox7d+7DmmPFBx99ENG4O5akxBIUURQxPDSM1pY2jA2PgWVZ1NRXo7KmCmUVpTAYDSHbryricR4HEI7asQ1v/7RiX8FQ3zAG+gYxZ5sHwzCoqqnEvoN7UVpeIs2jEJJwYYlWHRSeXRnoH8S1n67CaDTio08+QlFxcUbKSvhy40HCQvh5c0QlUyVFuaxEJWVqYhLff/cD7Mt2nDh1HAcOHwTDMEnV78vbkEwDRK/HC5vNBtvMLGZnZrGysgKX0wW3ywWX0w1e4BX7JxVqGq0GWq0WZosZuXk5yMnNQU5eDnJyrTCZTeA4TWCeaAIQqz5fel+9EJen8fl8+P3u73j5ohXlFeW4/OFlmM3mpGVFuS3rISvRlrFW4o68GuciHW2QtEQlxefz4Zcrv6CzoxPbmrbh/HvnodfrI+I1WlVPeJzK6/B6veh41YnWF61YWlxCVrYRTTua0byzCYYsg2JZYTEeJcOZahVaZDsrfwwqYmVxYQmDPYPoau+Cy+VBeWUZ9h/ej/KKUjB+wY4lLOHZlXBZmZmewY/fXYHX68UHf7qM2vo61fjearKSyvTrAUnLpkKiEnOeNIpKuiRlaGAQ3/3ze+gNenzw0QcoidKjRy2LEi99rly/3ABxcGAI46PjmLXNYnlpOTCdMSsLFosZBoMBeqMeer0ehiwDNBoNeJ6Hz+uDzyf9ej1eLC0uYWlhCU6nK1A46vU6lJaVorSiFBVVZcjNywXLBh9smEwDROl9VrU6SP68t7sX169dh1arw+UP30dVdfW6yIq8XiWpCIvachIlkS7j8QQlfDnRqkhixazb7cZ3X3+L4eERnDh1HIeOHFaV6mSyKDzPo6e7F08ePMXy0hIKSwqxc/dO1NRXg2EZ9fmE4LJj7YtaZiUWDBt+nNVigwlMx/t4dLf34FVLO5wOF4pLi7D/0H5U11aGCIsy5tWyK2pZxNWVVfz43RXMz87jwnvnsXP3rtdGVtY6Xzohadlw3gxR2WqSIk0nRnze3dmNKz9eQU5uDv7y2afISqCqJ14vCTHkcxHzc/MYGhzGYP8gbNM2CKIAk9mEgsIC5OXnIb8wD3mF+cj2Pwwu2TFUXE4XFheWsLS4BNv0LCbGJ2FfsoNhGGRlGVFWUYamHdtQXlkeKLiB+PX58v/xsiuLC4v48bsrWFpcwsl3TuDg4UPgwsRjI2VFuaxEiFb4J3scNkJSVlcd+PqLr2CbseHCpQvYvnN7UlU94XHK8zxGh8fw8PeHmLXNIq8gD28dO4yyijKIEKMKSricqGdWYld7qRHtyd7RusArMy0+H4++rj68etGO1RUHKqsrcPydY8jJtYbEa7TsSnicy6+9Hi9++uFnjI6M4szZd3Hg0MGMlZXwZScDCcsbBYlK1HnWICrpbJcif9b2shXXfvkVxSXF+Pgvf4Y+Rq+eaFmUaIIiCAJ6e/rw8vlLzM7MQoSIwqICVNVUo6q2Cjl51kBBFqu7crzvDVBLk7OwL9sxOT6JyfFpjA6Pwe1yw2q1oGlHI5p2NKa1AaLc0Pb6tRvo7+3Hnn17cPb82UCBvxVkZS1EOxfSLSlLS0v46j+/wrJ9GR98+AFq62tjxqtaVY8yizI3O4+7t+5ifHQcZqsFh44cQG1DbVxBiSYnguIcUdvn8H0NJ9ZxjpWlC8aTlGXheR497b14/vgFIDLYf3gf9uzfDa2/e3O07IpaVZC8DQIv4NrPv6Kvtw/vnjmNg4cPpSQriVRvbvZjJDZbWEhWNoTXX1QyMZuSbOPZp4+e4NbN26iqqcKHf/4TNFptSpIS3gjR6/Whs70TLc9fYmXZjpy8HOzYvR1VNVXINmWrVB+lJ10ORE+ZC7yAkcERdLX3YHJ8CizLoLqmGnsP7kZJWUnE3SaAiDtO+fNYDRBFUcSD+w/w9PEz1DfU4f0/XQ5071yrrIS/TlRWlMtLN4kKCrB2SbHZZvH1F1/B4/Hg40//jNLyspQkRRRFiKKItpY2/HHvATgNhwNv7UfTjiZwHKeYP7agqMmJKApwudyYm5nF0uIynA4nHKtOOB1Of7srtxQ3LAtOw0kNsFkWxmwjLFYzLDkWWKxmqWuzQR/4XiLaTUVp1BouLI4VBx7df4yRwVHk5ufh5OnjKKsoVc2uRKsKUsqKKIi4+tM19Pf2492zpyMyK4k2sE2XrITPo8ZapWMzpYWEZV0hUVGdJwlRWe92Kb/f+x1/3P8DDY0NeP+DS2A5LqlCPzCdIovidrnR8vwlXr18BafTiaKSIuw7uAcV1VI9eajwREpKtMaI0b4jIHohEjLibFjhaF+yo7ujB31d/XA6Xaipq8aho4dQUJgXVVhiZVfU2q20vWzDrRu3UVJSgo8//Thi+P10jbUirzfavqt+N2ss/OLFfqwsivR58pIyNTmFr/7rK7Aci08/+wT5hQVx41VNqEVRhH3Zjlu/3cboyCgqqitw6swJGIzGEEEJLCuKoCjlZHlxCTNTNsxM2WCbtmFpYVnec3AcC0OWEXqjHkajMTjgmyCA9/GB/x2rDqzYVwPnAMMwyDZno7SiBKUVJSgpLwn0eAPChDlMgtWEZWxoDA/vPcbqigO79u7EkeNvRWRX1OJcLcaVsnLm3LvYf/BAxstK+DpSZbOkhYRlXXi9RSWTsykJZVIeP8WtG7ewY9d2XHjvAsAwSd+ZBj+XCt2BvkHcv3MfK/YVVNZUYt/BPSgqKVbNnkRriBj+XcSr7lEjWuGn1mPC5/Who60Tbc9fwev1oWl7Iw4eOQCzxRS3Pl/+LFZV0ED/IK5euQqT2YRPP/805OGGsVLl8nqA1GVFuc8bRbwsijRN9KyfNH1kvE5OTOKr//oKOr0On/3tL7BYrQlJippQ9/X04/b12/DxPhw5/ha272qGKCrnFeIKiiCKcKw4MNQ/hMG+IczPLkAUReizwHeYAAAgAElEQVT0WhQU5SOvKA8FxQWw5lqh0XKBYxlX8HgBK/YVLC/asbqyirmZeUxPzEDw8eA4DsVlRSitLEV1XRUMRoNfIBTSHCYLgdj1v+/jebx41ILOti4UFhfi/KVzsFjNEbIiLS+03YqarPxy5SoG+gZw9sJZ7Nu/b8NkRTl/OBslLOlcTlLrJGFJJyQqEfOsYzYlXpWPsrAdHBjEN19+g/pt9fjgw8sJSUqsqp6lpWXcv30fQwNDyM3PxYnTx1BYXBSyjMCyowhKvOxKtO9JJuKiHefirpQWlmHhcrrQ9vwVOl91gWFY7D24BwcO7wPHcWvqLcEyLKanpvHdN99Dq9Hi088/RUFhQUxZCXk/jqyo7nsCGaZ0Eq1xaLx2GYlKytTkFL78zy+hN+jx+b98BpPZHBGvShmOJik8z+P3O3+gtaUV+YUFePfCO7BYLXGreZSC4vZ4MDIwisHeAUxNzEAQBOQV5KK6vhJFZcWw5JghQgzZr3htr9RQHlPex2N2Zh6To1OYnpjGyvIKNJwGlXWVaNrRgPyigogsS7QMi5xdGRkYxf1bv0PDaXD+/XOBqqBY7VaiycrPP/yMocFhXP7wMpqam7aMrISva61stLSQsKQFEpWQ6deQTYnWgDbZKh9BFDA3N4d//Ps/YLFa8Ne/fx63TUqs9LkgCGh90YbHDx5DEAUcOLwfu/btBMOwMQUlXk+JUOlKPhxiPX9Hfi+asNiX7Hj+6AUG+oZQUJiPdy+cRn5BnupYFGopciDYbkUpK/Nz8/j26+8g8AI+/fxTFJeEDpyl3IaIbU9BVqT5ohdk6ZCWWMcm2aoeaZ7IuJiZnsEX//EFtDot/vr3z5OSFOVyPG4Pfv3lNwwNDGHHnh04cvxwSJyqZVGUguLz+dDV3oP2lg64nC6YzNmorq9EVX0VTBZTyHkXmeGMXQ2mRrQLNMuwWF60Y6B7EMN9I/D5fCgoKkDjjgZU1VaB03CBLItSWNRkZWlhGTev3sLK8grePvU2du7eAZYN7cYcS1bkbeR9PL77+jvMTNvwyWcfR3TN3yxZCZ83Hls1y0LCsiZeX1HJ1GxKvCofh9OBf/z7P+B0OvH3//VfYLZYAstJVlKcTieu/fQbxkfHUF5VjuPvvA2T2Rw2f3RBiSYnavsniiK8Hi+8Xi9YjoVGqwHHBcdEAWJnFRIZzyRcWEYHpTtOr4/H0eNHsGvvjoixKJLp2skyLJaXlvH1F9/A6/Xi088+RWlZqWqBHr5t8joCnyVYFRT+PcQinrgkKoxqF+FUJcU2Y8MX//EFOA2Hz//ls5Sre1ZXVvHT9z/DNmPD26fexo7dzRAEMSFJ8Xq96Onqw6vnr+BwOFFcVoSd+7ajoDgfYth2hMpR6M1Eso+FCDmugTgLlWvey2O4fxR9nQNYta/AZDbhwNF9qKiuCJwf8YTF4/Xh7m/3MDE6ge27t+P4qWPQaLikZcXj8uCr//oaDocDf/v73wJZQ7VzLlEBjyYryu8g5L0ME5Z0LyvmekhWUoVEJTD9JmZT5Pd8vA/ffv0thgaH8Je/foqKygrIPRSU88VqkyJLysz0DK5d+RWrq6s4fvoYtjU3hNTxy9siF/bydkcTFHldbpcLtmkbZiZtsC/b4XA44Vx1wulwgeeDI9MCAMsy0Gg00Oq0MFvNyCvIRU5eDnILcmHNsUSMg6LWUwKIbB+iHEDL5XDh91t/YGxkAlU1lTh15iRM5uyUu3ayDAu7fQXffPENXE4XPv7Lx6iorEhIpKRlxpcVtdcy6zWUfrQMQbSqHiBSppWfC6KA2dlZfPGPLwAG+OvfP4c1JyewrmQkZW52Hj999xMcDgfevfguqmsr40oKz/sgiiJ6u/vw8mkrVuyrKCotxK79O1FYkh+M5Yj1iRFiosz2xPpulETPJijjTVHNCAbTEza0PmmDfcmOssoyHDi6D9Yca0LZFRHAi0cteNXSjrqGOrx74XTURrbRZEUW8a/+62uwDIu//fe/wWKxZJSsqC0jHlsty0LCkjQkKoHpNzmbIogC7t6+i0cPHuHs+TPYu39vypLS29WLW9dvQ6fX4dylsygsLogo+OX1xust4fX5MDU+jemJKUxOTGFhdhGCIIDlWJjM2TAYDTAaDTBmGWDINoLjOPA+Hj7eJ41O6/XB4/FiaWEJy4vLEAVpuzUaDQpLClFVW4mKmvLA81jUpEWtHl/+jGFZMGDQ/aoHj/94Aq1Oi7MXz6CyuiJqVVA0WQm8Zlisrq7in19+ixX7Cj765CNU16xtFNvA6wSFRfkdpEK8qotEBEVajvpIrjbbLL78jy8AiPj8Xz5HTl5uYL3JSMr42Dh+/v4qWI7FxQ/Oo6AoPyJWed4XkUVZWlrGgzuPMDUxhfzCPOw6sBNFpQUhGZTw7Imosl3KfRMEET6vD06HCx6XByIjguM4cBwLlpO6Kev0upC2T4Ak5IG/lRm7MGlhGQYQgP6uQbS3dEIUBDTvbsKu/Tug1epChEXDcqpVQe0tHXj64Bkqqytx/tI56PTapGXFZpvF1//1NawWKz7/+19hNBpUzzPlPqRbVsKXpUYq8b9VpIVkJSleT1FJZ7VPvGyKcn3JNKANvwAMDg7iy//8Env27sa5i+dC7/xEIURS5HWpScqLpy14cO8BikuLcfbSGRizDDHvTgPLDxMUu30FvZ296OuUugYzLIOCwnwUluSjqLQI+UV5YP2p63gpchmeF7C8sITF+SUszi1icmwKq/ZVcByH0soSVNdVo6yqFHq9NC5FaKEfu+EhACwtLOPOr3ewtLiMU2dOonln05pkxeV04Zuv/omlhSV89MlHqKmtSVhWpOUkll2J9l66UTtOEcKSoKR88Y//AsMykqTkppZJGR0exU/f/wyT2YT3PrwIkzk7EKu84FOt6hF4Hv09A3j8+1OIooj9R/aiuqEyQlCC6wkKivL88fq8mJ9ZwPSEDcuLy3A5XHCsOuB1e4P7r1LMcRoNzFYTcvKsMOeYYck1+3sNSc+skmJMUVUYEXtSnLmdbrQ968DowCjMFjNOnD2GvIK8qNkVDasJxHpvRy8e3H2E8spyXPzgQkqZlfHRcXz7zXeorKzEJ599Ao2iGgpIv6xIn6c+2OFmSQsJS0ZAogJsfjbF6XLi3/7Hv0HDafDf/re/g9NoAsuIV/ALimke3H+IlqctqGmowenz74Dj2ITq+QGpmocXeIyPTqKnvQfjoxMQRRGlFSWob65DUWmBqpiEXtgS+94Dg1KJIhbnlzA6MIqxoQk4Vx3QarVo3NmA5j3NMBqNANSFJVp2xef14fa1OxgfncShIwdx8Mj+wPODohXk8japyYrb5cY3X/0Ti/OLuPzhZTRsa0iLrATei1IQpquATFTA1QRFOZ38v216Bl/855dJS0rINKKAibEJ/PjtFZgtZlz++H3oDbq4kuJyOPHw3iMM9g+jsKQAR04dRla2MaKaJ5qgLC4sYWbChulxG+Zm5sDzPBgGMFvNMGTpoTPqYMw2wmDUQ2/US+On8AIEXgAvj6Nid2B50Q770gp8HklqOI0GRWUFqKgpR1FZITRarSKbwsQUltmpOTy59wxerw9HTh5GTX0VOE4TtSpIzrT0dvbhj9sPUNdQhzMX3w20WdGwGlVRkbYlVFY62jvx29XfcPjwIbxz5nRIXKfjaeLS9OkVlmjLjMdaz6f1FBaSlbi8fqKyFbMpV3++itaXrfjrf/sryspK41b5qPWYePLwKR7/8RjNu5px7J23wTBIuDGiIAqYnprBk/tPMT+3AL1Bh9rGWtQ31SHbZAzNvKiIifqdujRP1EIp7O5LFEXM2+bR1zmAscExaHU6NO9uRPOupsDIn+GFN6CeXREFEX/cfoC+7gFs39WMk+8eV1wcEpMV5YXF4/bg26+/g23Ghvfefw/bd26PKyuR+5iasCQzTSKZLdVjlaSksByLz/72WYSkyMuKVz05NTmNH775EVnZRlz++P2QrF80SbFNzeDWtbtwOhzYfXAXGndtk2JcFOHjfVEFhed9mBidQl/HAOZn5iFChMmSjfziPBSU5iO3MAcarSZQJRmrSkyG9cery+HC8uIKFqYXMDk6BY/LA41Wg5LKYlTUlKOgJD8gHUphkY+j9BkDj9ODh7efYM42h+17mrH30G5wnAYaThNTVjpeduLJH0/RuL0R75w9JQ00FyerIm1/UFbu3LqLl89f4uKlC9i1Z/emy0r4cmORatXoWqRjvYSFZCUmUYOF+9d//ddYM8b8cDOJI1jq80TxLvX3FQW5soBXmSYwVkNYNkX53sDAAG5ev4nDbx3Grt07FcIjQoSoWvBL++j/XBTw8kUrHtx7gG3bt+HkmRNJSYrD6cTj35/iye9PAQY4dOwADh8/iJLyImi0GvCiABEieIGHIPD+fRMhiLz0vij435HvosXA9gFi4LXyF2D82xFsdMwwDIzZRlTUVKCsqgyOlVX0dw2gr6sfgiAgNz8HLMeC8e+//C0xgX+kPxhI0lBdWwVRFPHqZQdmbXOoqa0Gy4UXoEzY36L8QloOw0CECI1Gg6btjZicmMSzJ89gzMpCSWlJ4HOGYQBRDH3tP0KR60Dge1B+Jip+mCiFuBjnJxqC/xiGT6OUZnm7lNPLfwPAzNQ0vvSPOLsWSbHN2PDjP3+ETq/H5U/elzIiiljlRT4iTgf7BnHz6h1odRq8c/EkKmsrJAkRpSygmqS43W4M9gzh6d3nGOoZBiBi26467DqyE3U7alBYVoCsbCPASPvNi7x/GdLyxMB+hL5m/PssQgSn5ZBtyUZ+aR6qtlUgrzAXEIHpsRmM9I9iamwGeqMOWSajdDaIgHxe+L88AACn1aCqrgJulxt9nf2Ysy2gtLLEH69i4IIsxzrDSOdBUak0DlJHawd8Ph8qq8pDjm9I7Cnek39FiKiqqsTU5BRevmhFWXkZLFZr4PPwmFbGpvQEbPVYj4zhyJiWvwW1WFeWFdHOhdClxJsufK7Y59l6zRtzuQnt7xvL/xvtgzdGVGLdhYYX7OHZlJBCXmUaef7A/4ELtfSew+nAN199g+zsbFz+8H2wLOsv0IJp9OD2SUsJL/i7Orpx5/odVNdV4/SFdxKWFIHn0dfdj9vX7mJ2ehZNuxtx7MxR5ObnQGQQEBRBEAKCIl8cBL8oSNsmQhDkwlzaP17gg+tRXMiCBZAA6XwMFRf5+zMaDaisq0RJRQlWllfQ3zWAkcFR5ORaYfRfXPzFZfDfMFkBw6CsogxZWUa0v+zA+OgEauproNGEdplOWFY4DZq2N8Fmm8WLp8/BcRzKysvARpEVZeEeT1hiSUsiAiOjFJJoAiPLSSAOw84XtSzgyPAIvvnqn+A0XEKSAv+3GB6rc7Pz+OGbH8FyLC5//H5ImxRRFOATfKE9ewQe7S3teHj3MXILcvDu++8g25wVjCtBns8fbwIPj9eD7rYePL7zFBPDkzBZsrHjQBN2HGqGtcDqrw4VFHIii470Px9Yv/Qb/lrqORd8LcWwdB5kmYwoKi9EVWMFTFYT5qbmMdQ9AtukDUazEcZsA0QxVFhEUQxkAssqS2A0GtDX2Y/RwTEUlxX5s4mhsiL6XzMASspL4HS40NHaAb3BgKKSwujxHXwzENscy6GurhYD/QNoa32Fuvo6GLOygvMmICuiqC7poTGrLhSxhEWOz2SlJVFxSebcijbveggLyUoEr5eopFLtE+1OVF1g1LMpoeNXqA+UppZNuXXzNkaGhvHxp3/2j74pKgp6/wnqLwjV2qWMDo/i2k+/orS8BOfePwuWZRKSFKfDgVvX7qCztQu5+Tk4ef4EquurpPkV9f3hgiJLVFBOJCmRT1q5sA8vNOTCXP6Vv4OgwEjiIkuL/F5WlhHV9VUoLCnE+PA4etp7IfA8CksKwbBMArICFBYVIC8/Fx1tnRgfnUR9Yx24OJkVuQAOlxWWZdHYtA3LS0t4/vQFPG43qvy9gZSykkh2JXy9iRTIqWRUlGKilj0JTBeWRZH/ftXahh++/xEmswmf/e0vsOZYA8cnmqSoxap92Y5vv/weIkRc/vgyLFZzZKwKfIikPPnjKV4+bUNlbQVOnD8GTsOGxCcv+KS49L+2Tc/i9+sPMDY0gYLSfOw9ugsNu+qQZTFCHvxQhHwe8MGsoBAUFGUch2dUAtmUkF/5/JdlW4oTkzUbFfXlMGYbMDNmw1DPMJbml5FTYIVWp4Vs23KGUM6u5BXkoqi0EMP9oxjsHUJZZamqrEgxIsVneXU5FuYW0N7aicKiQlhzLNHjO/hm4G+tVova+jp0vOpAT1c3mrc3+7cxMVmR40lNzNWyK7GEJT3SErrEZKQlE4SFZCWC10tU1rPaJ93ZlMXFRfzy8y/YvWcX9uzbo1iOQhTC7lCVVT52ux1Xvv0JJlM2Lv35PWg0XEKSYl9axrUfr2NhbgEHju3DgaP7pIaMfhEJb5SoFJRwORFEWWT4QDpcLviVd52Bu09GFjABgWIsTOjUhCXblIXaxlq4XG70tvdhZmoGJWUl0Oq0Id+PLAnKO04wQE5eDvLyc9He2oGZKRvqttWC47iQYxxemEeVFYZFQ2MDXE4nXjxvwfTUNKprqgO9PpLNrqitX626LFoBHS4ikdVs6jEbmD+KoPA+H27fvI27t++hvLIcH//lE2SbsoOiGiYpCMRupKS4XW58/82PcDgduPzxJeTmWVVjNdCuRODx5P4TdLR2YduOBrx16lBw2QpJCTwF2e3Gq+ftePGgBZxGgwMn9qJhZx30Rh14nlcVFKWchMdxSEZQ4BEu16GZwmBGRRYXWV4YFrDkmlHZUAGNRoPxwQkM940g25wFkyU7MG14e41sUzbKq8ow1DeMof5hVNZW+MUhKCsIxAIDlmFQWVuJ8eEx9Hb3oq6hDnq9LrA8ub1K+G/wLAMMej0qqyrR2tKGsdExbN+xPXCOJCsrIecBol3Mo4vEZkpLqlkWkpV1JaqobMnGtJvd2yeRnj7ye1d/uYa21lb8H//n/w6T2RQodKPV9ysLfx/vw3dffY/ZmVn8+fOPYM2TRgP18TxiScq8bQ6//XwTPq8Xpy6cQH5RfnD5YYKi3KfwIdBFUcTC3CLsS3asLK/CseLEin0FjhUnvB4vNFoNtFqN9L9OC41OA2uuFflFucjJz4HG36sJCI5BEdKgVdFLIaQxIcNiuH8ELx60QKPR4O3TR1BWWZZQl06WYdHfPYC7N+6jrqEW5y6dCTZ0DFlfYiPYMgyDly9ace/2PWRnZ+GDj/4UMYqtTLRnGqm9DsyTpkIq2nkcrdGoKAhwOp248sNPGBocwv6D+3Hy9EnpoqUS17EyKYA0iOFP3/+M0eExXPzTeZRXlqlKCs/zoZLS1oWm3Y3Y99ae0EwL7wvEpygKmJmy4fnvL7C8ZEdlQwWa9zX6My8CREHRHisgHmLINjudLizNLcG54oJjxQHnihOrK064nW6wrDR2ijSOCgdOwyLLnAVrvhnWfAuMJiO48BFp2bDYUTSkdTk8aP2jDUvzdtTvqMWO/c0hjW05Vv6bBcdyWJ5fxu2r95FtysL5D87AYDSGNLBVxi/LMLAvr+LHr68gvyAfH3x8GVqtJmSZao1rw3u59fX04ecff8GOndvx3uVLgf2L18MtVmPxxGM+doPSRB4psR4NcZNtQJvuBrfU0PY1a0ybbEZlvap9EsmmXP3lKvbs2Y2m7U1hc0Y2oA2/Q3384Al6OnvwzrlTKK0s9ctEMG2tJilT41P49acbYFkG775/WmqLEkNSlBkU+c5ydmYO/Z2DePGwFb3t/ZgYmcTczDw8bje0Oi2seRbkF+bCaDJAo9MADODz+eCwOzAxMoGR/lEMdA1iZsqG1ZVVaLQa6Aw6BNLmgVR48PuVMyzy95OTZ0V5dTmmxqfR094Lo9GA3IJc1XYr4ZmV/II86PU6vGpph8PhRFVNJaC4K4yomkH0zAoDBqVlpaiprUZfbz+eP30OrVaLEr+shNxhidHvLtcjdaxGePuV8PcASVLGxsbx7dffYmZmBucvnsNbb78ltZ2KIin+HVSVFF7gcffmPfR19+HkmROoa6gF/Bm3cKHm/X+/fPISr162ByRFVMSwUlJ43of+7kE8vv0EYBkcOLEPtU1VYFgExEdugxKaQeHhcjoxPjiB3pf96G7pxdTIDOam57Fqd4DhGGRbs5BTaEG2JQv6LD00Ok2g2mlxdhHTYzaM9U9gYmASC7NL8Li9MGYbwLBS5kHOfAariqTMiUbHoay2DD6PD0PdI5izzaOgJB9arb8qSL7r98ewMcuIgqJ89Hb2Y2bShqq6SjAs479gMyFxBTAwZhlgsVjQ/lJqXFtVXRkSA1GrgBS/efl5AMOg5XkLOI5DeUV5aAYlRmZFXkd4piN8mugxHzvrkd5MS3LVQpRd2VRen4zKenZLTiWbIv+tNm7K1Z+voq2tLaVsysTEJL794ls0NDXg1LmTAUmJdocqiAKG+4dx78Z9GE1ZOP3eSRizjAlIivR61b6Cge4hjA1NwLHikAZ+K8lHaVUxcgtyoc/SBZ5ZEitD5Xa5sWBbxNzMPBZtS1hetAOiiILifNQ216CkogScPN4Jq+h+HNLdMpgx4X0CHt15jKmxaew5tAs79+0Ex3ERmZXgXWcws/LiUQtanrVi38G9OHrireA6FHeeACLuPqX3QjMrAODxeHH92nX09fShflsDLl66GBjtUzkdEJpdkYl1B5bK3VlSmUJ/fLpcLty/ex8vnrfAYrXg0geXUFZeJk2jrPpQHdlVfUC3509e4MG9B9h7cC8OHzsUEqvh3ZB9gg+drZ14/PsT1G6rweGThwLVjOHVPT6fF6+ed6DnVS/yi/Nx4MReaLScvzFuaBbF5z8PfD4fJocnMTUyg/mZBUAUYTQbUVAudVE2mPTgNMFjH+07FEURzhUXluftsM+vYHnODpfDDU7DoaS6GOV1pTBZsoNdgEOyfcHsysTQNLqedUOr1+LQyf3IL8qXsh/+zzn/eCgcy2FyZAoPbj9GWUUpTp0/AZ1OF1imcgRb+e+Hdx+hu70XFy6fR11DjWp8q2VW5OlEUcS1n6+hp6sXF967gN17d0fEcrrHDooV5xuVaUkky7KZ2ZU3OLPy+mRU1rO3T7iXBaUjejYlWFWiyMSIAhYWFnD1l2vYu3dP0tkUt9uNH7+9Aq1WgwsfnPcLgvodqgiAF3n0dfXh/s3fkZufizPvn4beoEtIUtxuNzqed+Lp/ReYty0gp8CKhp312HNkJyrqymDJNYPTcWAYJtjN1X+7o9ZuQqPRwGTJRmFpASrrK1DdWAmdXofZyTkM941gfGgCAGDOMYFl2JAMiwyjaDHLcSwqairgWHWgp70PHpcHJRVSl+GQzIrijlOevbS8BC6nC69edkCj1aLE380zuJ7QLpyM4n25Xl95N8lxHBqbG2EwGNDa0opXrW3Q6nTIL8gP1PMr70jl3/CsitqdZvhnifwoUcukAH5B8R+bnu4efPvNdxgdGcX+QwfwwUeXkZObE9IeRY7NwDLDJEXeWjkG+3r6cfv6bdRtq8Px08ekz2J0Qx7o6ZdGW60ux5F33vKfO/5MS5ikPLrzBEO9w6iqr8C+t/eA07ARksILPn8Whcfk8BRe/vEKk8NTAICy2hLU7a1FVXM5cgqt0Bo0gP8aEN6rLaLdD0RodBxMOSbkleSivL4EuUVWCD4B0yPTGO+fxPKCHVqDFoYsfUiGRWrHIsWOJdeMgrICTI/OYLhnBNmWbJis2WDA+rsgB2PAkmNBVpYRvR19WF1xoKK6PBDn8v/SRUz6u7SiDJOjE+ju7EVtfS0MBn2gujLar7K9CsuwqGuow/T0DF48ewGr1YqCosK4mZVEsivKmI4W59EyLdEyIOnLtMTPsiSbAU1nduUNzqy8Po1pN6PaR1SZJl61z/179zE9PY0PP/oQWp02IAfy53JhKC9B2YD2+dMXGOgdwPnL52DNtYZU+QBiROFvm7Hh1tXbKCwpwun3TkKr04TU94dLCs/74ON9GBsax4ObD2GbtKGirhwHT+1HdUMlTDnZYDk2ePETgj0p5B9e5ENeyz+hDRClgjWvIBdV2ypgzjVjecGOkb5RjA9OINuahSxTFpQ9IwLHxv9dMgwDlmVQVlUGn8+H3o4++LxeFJcVh8gKG2I7wa7LFVXlWF5cwquWduTkSo1tlSgbCkaTFfmYy9OWlZeitq4G01MzePniJdpfdUAUReQXBkf1jSYtscRlLT+B6PSLifzr8/nQ29uLX366imdPn8NiteDDTz7C7j27/O2GQoU7fiYleIxnZ2bx0/c/o6C4IHpvNEUc2mZmcfPqLeQV5uPU+eP+Wg1/t2NBFhsBvM+HB7ceYWJkEtv3NaFxrzTom1JSJKHhIQgilheX8fKPNgz3jMKYbUDTgQbU7q6GtdAMjVY6HrzAB6qd5HNN2d0+elf74PegNWiRV5qHoqpCcBoO85PzmBiYgtPhgrXQ4u+hFoxl+TAYs/QorSnFgm0Bwz2jyC3MlaqQII+fEmw/kpufA5Zh0dvRB6PRgLyCPMhjqihjEGCg0XAoryxHd3s3pian0bS9MUIggmdE8D2lnLMsi22NDZicnMLzp89hNptRWFwUU1bk2FVbV7xu+KlIi5pUiGG/qmKzwcKSrNzEXNabKSskKvHeT6a3j1JylHeg8mcejwe/XPkF9fX12LVnl+JSEtnTJzybsupYxW8//YaK6grsO7QvsHxl4a98z+V24/qVG2BYFmcun/ZLSmgPi0DPHv9gbisrq3h2/zm6W3uQlZ2Fg6cOoKaxSupRpJgPctYEirvtsK7J8uvgBV15Vxn8vhiGQbYlG5V15cgryoVtchaD3cPgeR55hXnSHFKXnoj8nwgp7VtcVgyv14ue9r7gQFgMQu44IweFY1BZU4XpiSl0vOpCWXkpTLI+d3MAACAASURBVObskOXHlRUmeEGX7x6zsrOwc/cOlJeXYX5uHq0vW9Ha0gqfzwdjVhYM/ioh1cI4TFyiiUw0wmUk5BfSRXl8fAIP/3iIa79cQ3tbB8AyOH3mNM6cPwOzOTuwP8p4ktuJiCHHTr26Z3XVgR//+SPAMHj/o/eg1+siJcUvnLwoNdz97cp1MCyLs5dPQ6OQaXkwN5/Ag/f58PD2Y0yMTmLPWztR3VgFQAxIik8WFFGAx+NFT2svXj3uhM/rw7Y9dWjYVwdDttTN18f7IEm1smePUkqU3ZOl/VfGcXg3e+nQCdBoOVjyzSipKQYYYLJ/ErMTc7Dkm6W2WP4LJBu4eAOchkFxRTFmxm0YHRhHUXmhvzsyE6zSEKW2VgXFeZi3LaK/ZxAV1eXQG/SB9ipKIWfBQGfQwWQ2oaO1U3qWVnmJamyHnhqh7bA4lkNj0zZMT83g2dNnMJlNKCoujior8ntqF+ZwYUkky6J8P/qFPrFsSyxhiX7xT7+wkKykBIlK/PfTU+0jQkR7Wzu6urpx7sK5QNuU4KdizGzK4z+eYGJ8AmcvnYHeqEegkR5CG9CKkO4w/7j5O2ambDh14TjMOeaQO9NISREwZ5vD/V9/h31pBdv3NmH30V0wZukhiHwwSyLftYoq3ZP9P4HxKPzXx3hdlJXZpKxsIypqy+HxeDDYNQTbpA35xXnQ6qUGt2pVQfI3X1JeEqgG0hl0yC8Mu+MM/CP9wQBgORZVNVUY6h9Bb1cfauqqYfAP1x9ch7qsBBrYKmRFWRDl5OZgx67tqK6txurKClpbWtHyogVdHV1YXFr2P33a5B/kL/JHtSCKIzJKZLFwOB0YGR5FW9srXP/1Bp4+forZ2TnUN9ThxDsn8e7Z0ygqLoS8Onk+IDSLAv+xClSLqEiKx+3BlX9ewdLSEi5+eBG5ebkA1KsmBVGEl/fizrW7mJ+bx+mLJ2GymkKflCwEewI9vf8co0Nj2HV4ByobKv0CE5QUefn25RU8u92CmXEbSqoKseNIM8z5ZsiNw/mQjCIf0tU+UNUDZRWQ6P9cpbu98hwNZGSkuLIWmGHON8M2Nofx/glwGhbmXLMUs6LyAsiA0zAoKi/E+OAEJkemUFJZ5O96D0XbEAZgGJSWFWOwdwjTEzOobagGy3ERQi43IM/Jz8Hy4jK62rtRVV0ljcQLqFYDBco5NVlp3oZZ21zMUZkTya4ozyf5u4uVZYmVaYmXbYmVaUk+y5KYsJCsrBuvh6iks1tyoqKSSrXP1V+uwmAw4uSpE4G5gqlwQTFvUFQEkcfy8jKuX7uJhqYGbN/VjPBsivQ6WAD3dPSi7cUr7Dm0G7XbahTDjIsIH3JcEHhMjE7iwY1H0Oq1ePvcURRVFCKQ5RGFQBVPQFgUqX7pIiSVVXxYNZDajzw4lv+/EGkBpEK+sKwA5hwzxgYnMNw7CqNRD0uuBdFkRb77LK0sxdLCMnrb+5CblwOz1RzsIYFIWWFZFlqtFpXV5eju6MHI4Agamhqg1WoDha60jkhZkTMoSlkJqbP3H3uLxYLG5kbs3LMTeXl5cDqd6O7qxqvWV3j54iVGR8cwPT2DFfsKfDwPg14f0q4l0R+vz4vFpUXMTM9gaHAILc9bcO/Ofdy5fRedHZ2YGJ9AQWEBjh47iguXzqNpeyNycq1RBSUyixK8OKtJCs/z+PWn3zAxPoFz759DeWUZ4vVGe/GkBX1dfTh07CDKqssiMn7SPCLaX3Siv3MATXu2oX57XWBZweml17PTc3h+9yU8Hg92HmlGxbZyMBwjSQ3vC8mgBAYqlLffv68874NzxYXVxVW4nC54PV7p4YT+wQ8jJJuBIqZlaZG+J2O2AUWVhXDYHRjvn4J90Y6cQqtidOSgrOj0WuQV5WGkdwyz03Moqy4Bx3EBAWHAgGEArU4LS47ZX9XpQ2lFaYiQBxtcSvFdVlGGvu5+jI6MoXlHY6DhuzKu5b/D26so39vWtA2ztlk8f/ocPM+jorIiINnKjGAi2ZXw9cfKbMQSk7VKS7qFhWRl3YgqKluq10+6REXtfWXVTzJPSg4fO2Vqcgr//m//E2fPvov9B/cHREEMKZjVq31u/HoT3Z09+Nv/8jmMJmPgAhDee8In8JibncPP3/yCwtJCvHPxZEBq1HpPiKKA/q5BvHj4ApZcCw6/cwg6gzbs7je0F0Vw/8KzR+rjcqi1ele2ro/1lFm3w43WR6+wYFtEzbZq7Dq8ExpOg/AHvMm9I+TeQHeu3YN9cQXnPziDguKChHoCzUzO4OoPv6K4tBiX/3wJGo3iCbhhvSXk98IvDsoxKcL3Xdli3+12Y2xkHIP9A5iensHC/AJ8Pl+g0Mk2maDX62HQ66HT66D3/y+KIngfL3W9FaQ2Gy6XC8vLdjhWV0O+Y6PRiJKyUpSVlaK0rATFJcXQ6YKDgIXHutrIyfJxVQqK8lgrpeLOjbvoaOvAiXePo3lXc0iMBmRAkS0ZGRrBjZ9vonZbLY6cOhxSzaOM0aHeITy59wwV9WXY89bugJQEx12R4n+0fxwdT7ugz9Jh59FmGE1GxToje7PJ+7Vqd2B51g7HkgMry6tw2l0Q+GB2BPBfWOQuw2YDrEUW5BRZYM41hcRE8AGZwTiQsxfTQzYMd4zCkGXAnhO7YDZngwnErhSPGo6DbXIOL++3obCsEEdOH4JWowsZY0V+kGHr43b0d/Xj9MVTKK8qD4yvotYLaGJ0Er9duYG9B3bj7ZNHkUgvIDmeleMaiaKI2zduo+3lK1RWVeHyn95Htik7LWMHRbvgxurpEq1HTSrjtCT7ROf4PZES66GTjl5Bb0BvoKg2RqLiJ56oJDrI22/XfkNbaxv+7//n/wo0opXnjyUqS0tL+J//4//Djj07cOzU24Fpwgd343kePt6HH766ApfTiUufvAetXhNYjrJhos9/UejvGsSLBy0oLMvHgeP7wWrYmJISS1Dkz3gfD5aLHJMk2iBQ4QNjyX8HCkgR6G3rx2DXEKrqK7H36B5JSsJkRS7AWYaF2+nBrZ/vAKKI9z6+iKzsLNXunOGyMtAziDvX76GhsR5nLp4OCE1w+yJlRd6H0CfJhgqLclq170IQBNiX7Jibm8Pc7ByWlpbhdrvhcXvgdrsDfzMM4x+ALPir1+thtphhsZhhNpthtlhgsVpgtVoCxyBqvAvqchkS8yqSoox1URTx+METPH34FPsO78OhowdVJUUpF3b7Cn788gqyTEac+9MZsBwbkBj5Scg+gce8bQ43f7qD/KI8HH7nIMAiICZKURnqHkHn827kFFqx461GcFpNTEnhBR4ry6sY75nE/MQCRIhgNSyMZkPgV5+th+DjwfsEKaPiE+Dz8lhZWMXKgiSFOoMO+eW5yC/PRbY5Kxi7CmFRyvTKwiq6HvVCo9PgwLt7kWU0SjEpS4a/e/3E4BTan3Rh2+567NjXDI7VQMNxIdMyAnDzpzvwur344LNLMBiNfpmJlHGO0+Dh3Ufoau/Bh59+gNLykpCB4KRYjT8YnBy7He2duPXbLWi1Wpw5fwZNzU0hF/pY3fHXOuBhtItyuqQlncJCspI2ooqKJtoHbxLhWQIZIbbEKeYPVgH19/ejprYGer0+ahYifN2CKKCjvRMAsHf/nuD7QnD9cjYFAPp7B7A4t4C3z7wdHBZfcUesvMhMjU+j5dFLFJUV4ODJAwCLhCRFue0elwcLc0tYnF2EfWEFy/N2f2ZASlFr9Vro/L95JXkoLMuHRis9Q0TuDiqfXgIAgfeftKwA1v8ey7Bo2rsNDMtgoGMQhiwDmvc2AULYdKIA+ZXeqMOxs2/j5pVbeHjnEd65eArgAI6ReiyxgjS7vAWsIEBggbrGWjhWHXjy4BkYhsG7F94BFLIiCAJYloWA4HGTxp0QIF/zWVbqWs0yTOD4Mv71ytOribU11wprrhV1DXVRYyIZREUVhLzt4YQLTDxBUc4jS0pHWweePnyKbdu34eCRA1ElRY5RXuDx4PYD+Hgfjp05KvUiU1QHyfN4PR48vvsUeoMOB0/uC4lPUbH80b5xdD7vRmF5PpoPbQMYJkJS5L9FUcCq3YnRnnHMjc+D5VgU1xegoCIfGoMmpJ2PEPJdCIqLSSF8Hh+WZ1ewOLWEyf5pTA3MoLiuCOUNxdBoNIr4YhGIFgEw5Waj+Wgj2n/vQvvDLuw9uQs6jRY+3gcNp4GP///Ze+8gOfLszu+TmeWrunx3dbU3aKDRcA07AMZgzM6aWXK5w90ll9y7kxR3kniKOJ2OIemoCOmOFxehiPvjLoJ3lEIMnYJHkVyu4w53d7hmdmbHAZgBBrYBNNp77335TP2RpjKrsrobY1bHWTxEoboyf/lL9zPf33vf9x44JKhvq2N1aZ3h3hGSTbVEY1FkRfUFUtsgiJLEmSdP8Yu/fYsHdx5y8oluRKHYBwSjvalE+NMXTjExOsG7b13mK19/uTjByuWTnNGeNbCiKLLRF2VZpuvIYWpqqvn5T1/n1R+8ykDfAM9/5nlDu2Ju6/p71wFLqabV/JzNE7a57ZpBS2k7FsXd66lcf7FvmkVv96WARe/7pVKpHvO59wIi1vb14aTS9X3a5e8UR+WXTaTdLz9Fl+XlZd67+j6nTp+kNlmrWVXV0pW0Kfq+N157k+qaarqOd2kNX0ElqWo2f820k8vnePOnbxMI+jl94ZTJ/KQYBFrd5r+1scm7P7uCP+Dl3HNnkBySUd9eIEWWCyxML9Hz/gMG7g4xP7nAxsoGkkMiVhuhuj5GIBzA7VVV1rlcns31beYmFpganmFnK4XT5cDpdgDaoGbwTvRnVs5FidVESe+kGesfx+11E4qGLOV0G75+lNfnxeV2Mdg7hNPlJF4T25OvoqCQSCaQRJH7d3vZ3tqhudUavVa3C5s5LDpvBfO712z9CuZ7K5Yvta+Xxev4mD8G38T8T5FN16VyUPRfxVg4JbFU9HoUhcG+QX7x87eob6rnuc89iyBQEaQY/KkHA/Tee8ip8yepa0waJp/SNnrn2l3mpxc4c+kUgWAAMy9FJ8/Ozyxy9737RBNhus51anwRe5CSy2QZ7hlnpGeM9HaGRGs1Ld2NBKuDiJJg3FfB3K9Mnmy6p4+iyAiiagIKJ0PEG6PkMnkWx5dYnVvHG/KqbVsjbhktWmtDbq8Lj9/NzPAcuUyOWG0UlSerc1FU1+RodYSZ0TlWFlZpbK9HFCTM8VUEQcTv97GztcPo4BhNbY24PW6VJC4UozHrxFpRkgiFwzy4+xBFVqhvrLOMYuUeOiZyrem33lb9AT9HjnXhdLroudvDnVt3SKXSxKpjuN1uSzs3E25LeSxmvoZdv7ATO0Kuma9RqQ77evfPY9mLv/JRuCsfB2/lU8xX+XSQaR8FqFRSg8PuQOVR4qeU2vt7H/QyOjLKCy8+j0tLFmaZshQdumj/a6S8ibEJ7t25x7kLZ4nEIkbdOmDR46YoQH9vP6MDo1y49ISa8IwiwVafDBRU1fp7v7hGJp3h4otP4NI0PEWyY2WQsrq4yr1rDxjrn8DpdNB0sJ6Wzkbaj7dR315HOBEmGKsiXB0iloxS3RCntiVB/YEk4XgIWZZZmFpkZnSO+clFBCAQ9lMOWNC2mQlxIjXJatZXNhgbGCcUDeIPqsdaB3D1WFEQiMQjrK+uM9w3Ql1DEq/fa4YpRqAsY5LQBuVkfRJBELh/9wHb2ztlofZLByurt4MJkBiDsnnQUyyf0kH7k/qnXo9ccn4s4ERv52aAordh/VsfrO/cvMtbb7xNbTLBi7/2mX0lxVxfX+etn71DdW2c0xdO2rbRgiIzMzFDz/V7tHe10tTeaGmfOpjZ2tzm5tu38frdHHvyiBE6X1Fkw7NHBynb69s8eG+AjeUNappjtHY3EqxRPXBQzDF+CsazMWdWtnirGX1WJdQKkkAoEcQX9LA2v8HC2BJyQSYQ8RUzfBtNReW6+EM+FFlhZmQOh0siGA0W46xoYNrpdOD1eRkfmMTpdhKtjhjtGnT+iEC0OsJI3ygba5s0tzVpbdieWBuOhNjZ2qH33kNq62oJBgOWkcyOXFvJu02vv66hjoOHOtQAij33uXPrLlubW0TjUbwej3mUs5BuqQAsKgGXRwEte4GTRwUsZdv+MwUrn2Jy7a8eUCkHI6rYAxgzYVYp21qJn1JKxLty+SqCIHDh4nl1cDb2VwYqslLg6rvvkUqlePr5pxFEQVvhaWBIG0hRFLL5HG+/9i7BcBXHz6omooLmpVBQZKM+WVEYuD/I2OA43eePEUtEDddRMwgqBSkb65v0ftDH4L1hFFmh43g7B0+2E4wFcfvcxiBefCZKyQc8PjfxZJS6tlq8AS87WzvMjM6xurhGKBY0yKJmsGJ1nwRBFEjU17A0t8z44ATVtTF8fp8BNHQx290T9QkmR6aYHJui5UAzkkMqrjoFMzKyTirJuloUWeZBTy/pVJrG5gYDrOj3Wjr46d92gKVUy2KvbfnkPqqWoHyPOYqw7tlSLK9oba2oRcnn81x55yo3r9+kpb2FF79YGaSg1S8rqtfNWz99m9ROiudeehaHUyppb2obTaUyXP75VXxVPk49dcIABSooV8F5Npvhxtt3yGWzdD9zHKdLUu9F0Yi4JsCyNL1E3/UhFBQ6zrQSa4ggSKIGoKyebIZWxeTJVtSoqG/LpBgw2r0AuH0uovURCtkCC+NLrM5vUBX143Q7TO2q2JZD1UF21lPMjs4TjFbhC+iuw0VAHAgF2FzdZGpkmvqWJE6X00reFUTcLjWFxXDfCJFYmHAkXKZVMf9d15BkfHic0aExDh4+aHi4Wb1+tPZNEZibwYpFm6go+Hw+2jvaOXT4ELlcjgf3HnD75m3W1tbxeD2qG76dFsX8MPcALnbgu5InUak2cT8anGJd5YDl0bQrj8HKJyB/94HKoxJpKwEV++27A5XSFYa58+qSzWV57Wev0Xm4k9bWFgxIYhrMzUBCJ7xu72zz9htvc/joYZpbmihoqz3d7GNMIrLMUN8Qw/3DPPH0OapCVRqgMYc+V8uvrqxx/e0bJJtqOXj8gMWEJCtqIDcdBOkgZXxwkruXe0inMjR3NtJ19iDBaJU2MVjdV0GxTHx2H8khEQj7STRV4/F7mB9fZHpkFrfXRSCkBVwr0ayYf4uSSKK+htnJeaZGZ6lvSaq8F62MCkC04wCn00msOsZg7xBb65s0tTVpA729CaioMheoa0iSz+cNsFLfWIegaWDM77oSYNEnMTvQUjTJ2AOYj/NTqPBOzMCkIjgxJmlIp9K8/rM36H/Yz9HuozzzwtNlUWfN925O5fDgTi+DfYOcffosNbXVJi0fFm3KjSs3WVte4/wLZ3F53MX2aHJFvnetl+X5FY5eOExVOFDUiJijyMoyEwNTjNybwB/y0nG2DXfApWqQSgC5fu+yrFjASekzMUw/+l3qaEUDLJIkEqoJEgj5WJ1bZ2l6hVBNFU6XwwQa9HYnEK2NsDq/xtz4PImmGhxOyQRE1MjL0eook4NTbG5s0djagK5V0du5IAhEYxFmJueYmZjlwKF2RKncI01v2w6Hk0QyQW9PL2sra7R1tBoAHNgTrCjmbcZoprZrr89LW3srh490oigKDx88pOdODw8fPGRjYxNRFPEH/Eg2sYPsgIudmWhvoIHlXsx9brfjPgpgsQMrlQDLY7DyoeTvPlD55Pgp6la78+wHqOjl5+fmuX37DueeOEssFjV3bXSgYXBPjPMoDA+NMDQ4zMVnLuL1e/W9FGTZdGwBBbh2+ToOh0NVp1vAiVWz0nO9h82NTS688ASSQzLq0lerxZWwep7F2SXuX+slWhvhxNPHiCbCBlnUTKo1gxMozy9j/qc/H1EUCYT81DTG2VzdZmpoBlEUCcaqKOeoWH87nA7itTHGByfZ2U6RbKpFV28bR5hWkj6/D0mSGHo4TCAYIBwLl5mAKoGV+sY6A6xMjE1SW5fA4/VS+s7LVcY2KzmjzZR+ygHMx8JLka3Rgks/pe/JDpyAuhhYXlrhR6+8yvzsPOefPs+pc93aPitIsTP5LC0u8e7r71LfXM+JM8eM9lka2G1uZp77Nx5w6PgBks21hravYAIqC7OLDNwdovVwE7XNNQbAMZt8ZLnAzMgsY72TxOojHDjZguAQbEGKrJhjAVn5OLulgzDesdFni23U7XcTrgmyMr3K+uIm0YYIoqibF8ViO3ZIRGrCzIzMkcsViCdjCCbzjiAIOF0uBFFkcmiSmrpqPD6PVcsoiEiSRCBYxfDDYTxeN9WJaqNl6xFrzRpEn9+Hw+HgQU8vgUCAeE3M0nZLtStmsCKYwIo+GRttXWt3Ho+HltYWTpw8TiwaZWtriwEtdtCdW3eYmZlla3MLQRTw+ny2QQ9LzUR7AZf9gJbd+CyPClg+inZlt+s0l/koYOMxUFFl152/TPmkgEqpR05xEjaX21ujMjI8wtDQEE8/8yQej8c8XRsTgg5CzEDl7q27bGxscuHp88aKTQ9br4MLFIWt7W2uX7nBwa4OqpM16j4bs8/W1g63rt6m5VALtY01lkBcCgoo6spXH7y3N3e49c4dvAEvJ546quVGUTB7Z0CRj2NdjetXaTclW5+T0+WkuiFGejvD1PAMuWyOaCLMXmDF6/UACuMDE4SjIapCVVbNi2jVmsQTcRZmFxkdHKO5vUlVo2t7bSN16mYoQc0LFI1FGR4YVhMZOiRqEtWGOtx8P5Vs5CVv3fpPsU818GE+5vDvtufS/tlOwiXgRFEUNjY2ufruVd75xbuAwme/+FnaD7Ya2oe9QIqayuF1REnk0ueeRnToXk9Wkne+UODaWx+AACefPAEIFl5KQSmQz+e49c5dHC4Hh88dAvTzWE0+C9NLDN8ZJZQI0n68WXVrNq6r3LRpCWBYoq2sBAIt5k4Uoy3pHl+Sy4G3ysPi2DLZTI5wIqiWEAR0MCwg4HS7yGfzzI3NU90Qw+12GaZMAdXrJhQJMjk8TXonTUNLPXZaFX/Ax9LcErOTs7R3qloVsYJWBQFqkwnmZxcYeDhAW0cbHm8RAJnbsBms6D3YACulJk6sgEWSJGoSNRw+0kn3qRMkk0lEUWRudo6+h33cu3uP2zdvMzU1zcbGBggqcKmocVE7mQW0lPapvUDLXloW8+9SDstuYEWv81FMQZ+kZuVTplV5DFQqby8FLordVsux+uCmi6zI3L93n6XFJZ559hlTOb20PVCRlQLvvn2FmkQNHYcOYAAKheLf2rmGBoaZGp/izMVTuL2eimaf3tu9rCytcvqpbhxOh2W1arh7anVnMzluvH2bQr7AyWeO4XQ5MDySzBOT7q1ECTipsIrXB7hSwAIQr4tSyMtMD88CEKkOqTtswIo+AEdiYeamFpifXqCxvQFRlCz7dROQDkSqk9UMPRxhbWWN5rYmJFEqDsjGf+ofpSrwSDRMR2cHa6trPLjby9zMHMn6Wlxut+X9m0HLbqup0n9mXsduAKMS6DAm4H38q0QoN0/MW1tbXLt6nV+89iZLS8scPtbJc5+9RDQeKWpRUIwJX6/XDFJkReb9t99nbmaeS599hkAoYApkaCV5jw6OMdo/xvFzRwhFgxqJtQhUFBRGHo4xOzHHkXOdePxu4xxmk09qK0Xv+/14q7wcON0KImrcoF1AihmgyLKMXJDJpnLqZCTaD/bGuGMGLIoesVZ9i26fmvphcXwJl8+NL+gx5eQRNDOPgD8cYG5sgcxOhpqGalWrYuJZSZKEnJeZHJ6irjmJx+sxQLRaRkQSRXwBP8MPR3B7XFTXVpdxVQALKK+rT9L3YIC56TkOHu6wghM7sGIAE6ymIBvAUgpanE4n0ViEtgNtdJ/q5sjxI9QlkzhdLhYXFul72Mf9nvvc/OAW4+PjrK+vI8syPr/fNlJzqalo/xoSjHvS76MUsOxXu6Lf8X5MQf9/mIE+RWClIlB5HEfFJI/KgzHL4sIi8eq40Wn3isGiBnnbYGN9g2PdR9XzmyaWUk3PxPAEwVAVoUjIYo4xX3c6nWFscIK6liQ+v5d8oVBWrz6AK4pCz7UHbG9uc+Kpo7h97l1BinqsYjmvvt8uPgOoA6u+8pQVWYtFotB6tIlcNsfYwwmqwgGq62IUI61Y61HDPIgcPXuYa2/cYODeIF2nDiMiGfuRQdKyPYuAP+DjxNlj3H7/DiMDo3QcPqBFndD+t4mvIojFGCger5vPfOEFBvuGuHb5Gt/75vc5cryLw0c7CYZC5S/TptnsFetA5SJ9MrJbO9YJrSvLKwz0DfCgp5dCQeZg5wFOnTup5qaSlYqmHqAMpIwMjDDUP8yRk0eoro2bQIJiajtqEsEHtx4SjodJNteatBwYIHpna4fhB6NU18WJJMIUCnl1vw46FDXY4MDtYWRZpu1ks+EJZL5OO5Ci/95a3mJjcYvNxW3y2TyKoiBKIg6PA4dLwul2EKj2UxX3I4mSZl7TA+jYx8tItMXZXt1m/P4kgZAPf9CHKAOSHn9HxuV2UteWYGpwlvWVDSIxtS9LgogsK4iCTPPBRsb6Jxh6MKwGZ9TaOXocH0WgJllNvDbOw55+Dhw+gMvlQlDUti2hxxtRjLhBvoCPJy+d583X3uHaletcePq80WT1mCmV4gYJ5nhApki2drGD1BNbn0tVVRVVnVV0dHYAsLO9w+zMHNNTU0xNTvPelfc0gOOisbmRltYWWlpbiETCllgtxjWZ2ra5zxr3UlpesZpszeOVXtYc66U0Bos5boo+lhm/K4x9lWKtfJJxVj7t8VUeA5U9pBQw2K1SFUVhYXGRgwc7dj1WPb446M1MTgNQ31BfcfWryGrm2dmZOY52d3HsX/0RDX/7C5ZOdnH5j/+lZYAeHRgjl8vR0dWOrMhc+nd/zsHXrzF9tJ1X/vd/bDnH0L0RlmaWOHK4mc/eGqLjZj/x6SV8mykyXher8SCDR5q5iG+newAAIABJREFU9uxR1qNV6FE/Lfeim4NsJkZRNA10BmiTjZVeR3cbO5spej/o5/SzJ6gKV6mTANpYpwV6k3StSjxCQ1s9I32j1LfUE4mFLftV0KIN1oJIW2crU+PT3HrvNom6BMFQ1Z5gRT8tqINXR2c7yfparl25zp2bPdy52UNLWxOHjx6mriGJw+E0nn3pACMXPnpwp/1IpXZTKplMhvm5eSbGJhkfnWBzfQMEaO9o49S5UwRDqslCB7dQBAf6efRJwgxSNtY2eP+da8Rq4hw92WVoRvRjzJqV/nsDpFNpzjzdjSAImunSCoIGegaRZZmO421l9ejXND08x/rSBm0nWnB7nAaAMU9ipSBlZz3F8tQq6wubFHIFRFHEF/Pij4SR8zLZTI58pkA+k2drZYf1uU08QQ+JAzECEb+xapVl2RLEUNYDEgoiTcfqGXx/lKHbY3Rd7MDtcmttQw3GJioy9QeSzI0tMNo7TuTp4+oEI6hARFZkHC4Hje31TA5Nceh4B1XBIKKktTE04K/IHDnZxds/eYehh0N0nejSwIykgkhTu9Yz/rR1tDE/u0jP7fv4fD5OnD5uC1aEUnCgfdsBFnV/yZhQ2vBKNni8Hto72mjvUAMeptMZpqemmRyfZGx0jJGhYUBN9tnW3k7HwQPU1ddpk3BJEDjTz91ASylg0e/DDrCUgpfSQG92YMVcl90xRtmSuh/L/uUxUPkYZGtzi3QqTXWipmxf6SBrlvm5eTweN9FYxBi09WPMMjc9h6IoNLY07Hod40MTVNfGCUaqyupQ5KI2ZGtji5GH43xGgP/uj79PcHVL3SdA2uvGs5OhYXSehtF5nvrZTX728gXe/dyp4vWVTAhQ3vn0ga9UuwKyGiVTEjly/jC33rxD361BTj97Qq1HsomeqdV/qPsgC9OLPLzTx/nnz9lqVYrPWeTMk6d47W9e58aVmzz3hUtm25L2TKyDuigIJdsgUOXnhc8/x/bWDn33+xh4OMjo8Dgej4eGpjoisQjRaIRoPEbQFM7e/GyMMzziALVfEKIoCvlcnkwmQzqdYXtrmw1NW7exvsHmxibrq+vq6l2SqG+s5/jJozS1NOHz+yznquiKr8cZoQgs8rkc775xGUWAi8+pHCszMNHrkxWZTDrDwP1B6pqThKvDFhCht82tjS1mxuZoPtSohrbXzlm8JoVsJsdk/xSRZJhofRhKtDZmLZAuqc00IzcnAAjEfASq/fijXjVart3CQ1ZYn99kaXSV8dvT1B1OEEmG9gQrTo+TpmP1DN8cZ2F8ifoDSSQNXEjas5EcDho66hjrnWRjbYtQJIisqBFmdVjRcqiJiaFJxgcn6Tp1GFkRNK2LbGgO44kY1clq+u7109GlgyK1f+maHOO9add6/ulzpNNp3r9yHUEQOH7qmC1YASzaFf0+wQpYdMK9UcakadHFtgWbNrpcTlrbWmg/0AZcYm11jbHRccZHx7l7+w63btw0SLtt7W20tLbg9XnLtS0VQMujApbSSLpmwGIGK/r9Grf0CNqV3eSxVsVeHgOVj0E2NjZQUAhpq1I7sRsQ19c2CEfCJeRGpeyY5aUV1VMmYq3fPBmkU2k21zdpbDts7C/Wq1jqmxia5vzsEv/Tew+QCjLLiQhvfu0Z+k+0kXE7oFCgYWCKZ390jYP3x/m171zGt5Xix19+ouI92U3K5oHA2tFVsOLyOGjpambw9jDLsytU11cb5htdqyJKxfqdTgfNh5oY6hnWVOe7a1X8VX6OnT7KnWt36bvXz+HjnVatSll4b3uwAqo56fT5U3Sf7VYTDQ6NsjC3yNDAiFHG6XQQCofweD24XC7cbhcu7eOQHAbfwOzNoZsVDP6QrKj5bWQ190xBlpELaoLCfD5PPpcnny9QKOTJ5fJk0mp+IJUHYr1mp9NBMKTmBGpqaaK2rpbaZALJWcysWzqx2wEU9bcVECiyzJ0P7rI4v8RTLzxJoMpv5O8pevkUjx3pH6FQKNBxtN32PLIiMzE0hSAKNByoK75P8zkVmdmROQqFAo2H6g2QYtamlJp8spks43enER0iracbcLgdRTNQCTgzRIBQbYBA3MfMgwWme+co5GWiDSFExIp8AEWRCcT8BGMBFiaWqWtXY/To5h/dfFPdGGe8d5KFqUWC4QA6DNDNPx6fh3giztTYNIdPdhrb9eMRVIB+8EgHV16/yvT4DC0HmtVaBMnyXM2pI0RB5JkXngIF3rt8jXwhz6mzJ23BigHKtInTmLhN91umSLWZJEs1LrA7eAmGghzvPkb3qROk0xkmxycYGR5lfHScvod9iKJIa1sLR48fo7WtFUmSdg3n/6iAZTdz0MdlCtoLjDwGK+XyGKjsU3Zb3W5sbABQFawMVGyPW9+gJlmuhSmV9dV1qoJVltTtpbI4twRAtCYCWAEPmCYEWSbbO8Y//6APqSAz1V7HX/zBb5M25wxCYbQjyejvf5lf/4s3ufiLHp7/8U1G2mvpO9ZseRb7UXOatSsyoqVz1zTGmByYYvjBOLFkVD1GEi316MBFFESaDjQy0jvGUO8wZ58+bVyDnVZFlqH9cBuLc4vcvnaHcDREsiFZZgKyqo01O3wJb0UXSRJpbm2kubURQRDJZXOsra6xsrzK6soqm+ubZNIZtje3yWSzZDNZ8vl8xfdmJ6IgIEoSkqQljZMkRFHE4ZRwOBw4HA5cbjc+vx+3x43b7cbtceFyu3G7XfgDfqqCVYaHR+m7sgMmpX+bAYq+zwxeHtzt5f6dXto722hqayirx5wVPJfLMtQ7Qk1dtRoPpUSbIisy+XyOmbFZ4nUxnB6noU0BjL/lgszs6DyRRBi332UQZ0uvT7/HfKHAxL0ZcukcLSUgpew5mGZdfaCXHCL1R2uYfbjE3MACcl4m3hJRTTAVtCqSIBKpCzNxf5qN5U1C8aCqLdHNP4g4XA6CsSoWp5doP9JSZv4RFJm6liQ9799jaW6JRF3CuEfD/CNATV01/io/D+/10djaoHpa2WhVzCJJEpdefBrJIfHBezcp5AucOX+6BIFYn0OpdsV4TiW/S4FLqcYF7LUuZTwX7RpcLiftHe20d7QjCALzc/MMDQzR19vP8NAP8Pl8dB09wtFjR4jFY48EWMyZoivxVz4usGInnyRY+TTKY6DyEURH5RsbmwBUVQV2K26RQqHA1tYW7cF2U312K1uFtdV1wlGVxFnqtaQPsEsLavK1cDRU3ulNsrK4yld7hghkcmTdTr7/T14m63XrLgzWuhWFH339GVoGZ6ibXOKl779H79FG2+u1G3z0+yhTK5tNQKJI8+Em+m8MsjC1RG1TYm+tyoFGxgbG2dzYoioYqKhVEQFRdHDu6bO88eqbXPnF+3z+5c8SqPLvClZEnQRsM9CZRQQcTol4TcwmRkVxkMnn8yiam7giK4YHglpO9ThRs/FqHiIf04pIVgql7msl+0vNg+b2Z9XCmTkqPbfvc/vaHZraGjhzsZhvymzy0Y+RFYWRvlHSqTSnj3SX1al/z08ukk1nqW9NqtdiAhN6ufmJRXLZHInWasvxdtoUgLnBBbZWdqg7XIOnqug9ZK7fNomjeZsAdV3VzPULLIws4Qt78IW9iDbkb73ecCLI1MNZFqdWCMWDKqASxKL5RxKpro8x1DPG5vq2rfmnui6G5JCYHpuhOllta/6RRAedxw9x88otpsdnaGpr3FOrAmqfe/r5pxBFkVsf3CGfy3PuybM4HE7LRF5qGhFKgEApJ6Scw2bzgPahdSkFLroGpCZRQ02ihotPX2RsdIwH93q5deMmN65/QGNTIxefukhDY8OegGUv7crHDVY+LMH2w4KVT6NW5dN1N3vIfm3+jypbm5u4XS48Ws6LfR2ztYUsKwaJsZIU8gU2NzYJRWy8TUyysrhCNB4p4XiUz1JLY7O8OD4PwP2njrJevXu9siTy1udPAlA3vULL8Nyu5Y0zP8KzrqmP4w/6GHs4UaYJgvL31nRIBUvDD4tmF/OEZjlWlpGcEk++cAFZLvDOa+8aGg6Ll5Nsjb8hG/tUU4zd/rycLylf/BTkvPERRBAdApJDNLxKXB4nLo+aedrhdCA6VKCCgKX+j/Kxva5C3vjo96TIsmpu0u43b478amg+1O87N3q4fe0Oze1NXHzugpryQbZ6+ei/ATLpNP09AyTqa4gnYsb7LQUrE0OT+Kp8RGrCFhJt8f0qzI7O4wt6CcaqbDU+ZlmZXmNpYpVoQ4hw0trHHqVtggokEx0xnG4HcwOLBqemNBWFISJEakOszq1TyFvJybpEkhEEYHFqqex6FEVGckgkGhPMTMwadZRqxBRFpqWjmapQFT03eyymNvM7M5vH9N+CAE899ySHj3bSc+c+r3zrb5ibmS1778Z9ytZYM6Xl7NpbQUsqaf4UCnmjPv2TN7U9izu7fkxJ3QAtrS188Usv8Y9+7x/y1KUnWVle4dvf/Dbf/dZ3mZiYNNVn1QSan4HeborgVbHcb+n+UqBrXVjaLyDt3r2l3Cc0J30UD9b/HOVXCqh8UrK5uUmgqsqyIt1LNtZVc9FeQGV9bR1FUQiFqiqWkWWZtZV1IvGw7X5zHwr3jODVBr6BM4f2vE5Fkek90YqsrRja+2eM7R9GbI8TFJo6G9nZ3GFxerHicXqn9vo8NLTVMzk0SXonbSlXOmnqrqH+oJ8nLp1jbWWV9966VkJeViyDmT34UIzB3jrB501ZfPf3MYOF3T6l5yo/d+GRP+YJQQclZmBinnD0aygU8uQLeW68d4u7N3po6WjmiUtny8izVs2Kum3wwRCZbJbD3Qctg7z6rNWGubm+ydrSOnWttWX8D33AXV9aZ2djh2RbokyrWCrZVJbpvnkCUR+JA3ELB6yS6M+jkogOkZqDcTJbWdZmN/asL1oXQS4UWJlfK9unKKqrcrg6xOLMkvU6TEC9rqmWfC7P/MyCDcArlus6eZj11Q3GhsbLQVPpuS0TtcKFZ57gMy+9QDqT5Qffe5VfvPYmG+vr9m3XBC5sIyTvt/3bAJhS8FLaTi1lTR+P18OpM6f4L//r/4Knn32apaUlvv3Nb/Odv/o2E+MTFQGL/ixLAbMl8rZFw1jBRPoJg5VPCsj8XZNPpennl/1yc7k8bi1b8r6PyeYA1Q67m2QzWUB16zNL9F4/L33pv1WHbEXh86kMDqcDh0MyBnLXtnUSVxSF5GJx4JxvSuzrWrMeFyvxKuKLGyTmVvd1jJ3YqST1bfG6KJLLwcr8KonGGhAxzDmW8oqMhERrZwuTQ1NMjE5x8MgBi/mnktQ1Jjl+5hh3P7jHLb+P0xdOIlLikUTRg6CUUKuev4L3TuGjxUX5ZbbZSucqBdp6uZ2dFO+/c52p8SkOdnVw6kJ3kQS8C0jJpNMM9Q5T31xHKBrSVs7lZp+l2WUURSHRWGM7EcuKwsbKJgoKkUS47PpK72dzeQtZlqk9WI0gCsYkWvYc7Mw+Nh4dulTF/UguidRGxvb5ybJimCl9IZUflNpMG9coClaOWSgeZLxvikK+gCQ5DMKtXj5aE8HhdLA0u0RDsxrCQLKYHNTfja0N9PX0c/92r0qqlaxclVLPNvMzEwWRppYGkvVf5u6Nuzzoechw/zCHj3XSeaSTWDxmTx62aUJ25oaCUthfMDLFauYoFErMJRVcovW/JEni5Olujncfo+fOPW7duMV3v/VdDnS0c+n5ZwmHrXFZ9D5eag4q5a48qinow5qBdhNZeWwC+lQClV+2yBrx8tGOUTkLoliZIAumgbOEGCfmC3hW1o3fXoC0/QCqSz6XI6oBJIBUlXff17sd8BJf3MBfAn72I5U6mnm7IAhUhQNsrm0Z+w3XZKzPSJEVfFVeItURpkam6OhqBwQLqVYUsXBVZLUiDh49yM5Wir57/YiiwPHTx3A6tXgohoLROpiBFbR82IFDP3Y/8ijauY9DSq9LVhQ2N7bou9fHcP8whYLM6QsnOXikw2LakSuAAICh3hFyuTwdR9st2pRSgLE8v4yvyofbWyR062V12V7fweP3aITRXVagssLOWgqHU1IJt/vUpthtE21Ili6fk+xOds86BVHA5XGVlZUV2eC3ePxuUGBnM4XD6TT6uA5ARFEkHA+zvLBSco+yhTQuig6OnjrC1TfeY2RglAOd7Rauil6nKuUBDkVBxOl0cPbiWbqOd3Hnxl16ex5y/24vwWAVLW3NNLU2UddQt+vEt1vsoNLj9gNgKnoY2QSeKwUsJ04e5/bN21x/7zp/9v/8GafPnubc+XO4XC5rAErTs7DjrnwcYKVUPown0K+6PAYqH4MoHwK5yprpQawQutsoV7AS2nRZOtnFO//hX5Av5Nna2OTV7/6UkxeO09jeoNp0ZYVn/u2fceiND4xj8vlCaSiRfV6rjGAazBVFxpnNE9hMsRxVCcR2HXO31YNdZ66KBJganKaQLyC6TCtHWbHVmNS1JHnwQS/rK+tEqyP7uhcFhRNPHKdQKNB7t4/piRnOX3qCmkS1cb3maLq6iCVzY4G9wel+wMajaFL2inasy26D5H7qWllaoffuQyZGJkAQaD7QRNfxTgLBgC1IMccJMrQpmQxDD4dJNtYSigQt2hQomn0KhTyri2skGjXPlhJ+iv69tbaNL1gE1qVqfPO27fUUXk2jYXH9N6vpTcfNDyzjDjgJ15W7/5c+S5fPydbiTsVnZ9Z6OD0OMqmspgUsnZgUfFVqDJutzR2C0aBxvA7Mda3K4N0hUqkUfr/P4uasetCp95JsrCUSC/Pgdi+tHS1lHkCCaaK1AyugAgOf38uTz17k5NluJscnmRid5MG9h/TcuY/H46auIUmsOkYsHiNeU43f79ufxqRCMzePa7uBF1vQYqNlKe4SOX32NJ1dnVx++zLX3rtG7/1ennnuEoc6DyKZwIlhCtLJxibtiiV2DkUX5kcBKx+H2/KvulblUwlUShnpn7TIsqyRIcV9r4RlWbHk+qhcTgc0lTUvBQ3MOJy7v065ILNhMjV5N1Pkwv49r1UURXyaJmXH50EQRLpvjvDVb77Lmy+e4BefO0HWXW7C2k3FaTeZBiNVKLLC1vo2kWp7vo1Z6ppreXirn/HhScJaTBV1JWnvASTL6r2IosiZp07T0FLPzau3ee0Hr3Po6EGOnzmK2+UG4wiz2LzXwqO1sUrg4MPyfSpJ4RHSYhXyBdZW11ldWmV5aZnlpRVWFldxOB0cPNpBR9cBIyicGaCo3/YgRVFkhh8Ok81k6TjWbgUIJRqVjdVN8rkC4V1I3flcnvR2mnhDdNd7EQWRbC5LZjtLqLac02VZMYsi2VSWwXfHGX5vElEUOPRCG81n6rREf8X2ae6jLp+TQq5APlvA6S7vb+bJxON3s7G4WXGC8fo9CKLAzkZl4BOtiaCgsDy/grfFa4lSC0VgJAgCR052cfn1q7umjRDNE2nJBG3cAyoP7FDXIQ51HSKXzTE9Oc3E6CQL8wuMDI0Bqseax+MhGo8SjoQIhdVPOBKmKlhleW5mTYVZ7LQw+nFm4GKeqPXSFvOQrmUpASx+v5/PvfQ5jncf58033uJvf/gq/Q/b+ewXPq8lPDVpUGy0K2awAsWJvxJYsdzbHmDlUeVXWevyqQQqleTjBjDFvD4yDuHRHqU+wJtX5Wqns3Id9JWnpIEQwUYnIhd0MKOrREVkChhZhbVDCrkCk8EiMKmdWGAj3LrrdQqCiDOVJrqkumDPJVXNxY0Lh9jxufiN773PE1f7+dFvPsGts+3Fk5mkPLurdbsuVRFVO7OxsmkLVMw2fACny0mioYaZ8VmOnT5igDlZkdFdn0tFj38hCiK1DbV8/uUX6blxn757/UyNTdF97gSJuhp8Pp/1uEfknVcCHwW5QDaTJZNRY6zksjlyuRy5bE79nctRyBeQCzpZVv2uZMLQ3ZlFUUAQzdmhTW1FS+yWy+XI5fLksjny+TzZTJbN9U2DqOlyOYnEIxw7fZQDh9sM/pSd27H+LM2RbHWQks2ocVMS9TVEYmFDm2Lnfr88t4KiKLsC053NFAC+oK9snyCKFsCY3VbNn96gldNl7vuKrDB5d5aHr4/g9Do4+/VjZHdy9L0xwuStWbpebKemw97d3O1TgWw2lbUFKubzubwucpk8hYKMo6ztq+/N4/OQ2kpVrCcUCSI5HCwvrGgZlctF0bQkycYk0eooD+48pO1gK6KjZBVvdlE2aQ4rmj+04xxOiea2JlraW9R7z2ZZWVplZWmZleVVVpZWGeofJpMpmrnUbNAhItEwoUiYUKiKYChIOBLG57cujsomYFPXsYAd5LLyhrG2RMtSCliSdUm+/o3f5u7tu1x59yp//qf/Ly/9+ksWd+aPA6zsqkXeB19lLzDyYcDKp0Gr8isFVD6K7AZyREGk8IicAr3hVNLAGJ1EMw2Z3RxL6xElNQ18pTJ6fYIo0h8NknE5cGfzHLzRz1B3u6ppQMbsGax2BnXy6bo7iqhNVKOHtMFSEOjtbqOvq5Fn3rzP1775Lk+99YBXfusCU621JfUUZTcti9vrRhBFMum9OQC61LckmZ2YY2lhmdp6++B5hgocUwhwDaxITgenL56ksa2BDy7f4vIbVwEIhYPEa+NU18SJJ2JGdFnJIRlaGVmWyefyZLM5Mpk02UxOAyEZ0jtp0uk06VSG1E6KTDpLJp0mm8lqwKAceOhgRNQCvUmSZAR+q5jdV4vLIheKLqiKltXXyASuJsDF5XLidKru0A6nk6pggPrmOiLRMJFYGH+VX4uVoWtMdjeb2IEUgLHBcTLpDAePttv2GcXU0DbXtvBV+XB5XBRk+8B4ubRGPPcWtXaV+qMsqxOKZALHupcKwMrEGj0/6WdnJcWhZ1tpOVtvpFZIdsYZujzBje/cJ94aoeuzBwjWWGMjKbKe0VcDiIL6EQSxzIyrAwW5IBumzNL+4PG7yaQqt3dREgnHQqwtq3w0XYNi5qmo961ORkdOdvHua5cZfDhE59FDZZGYy6Mua9dVQbtSXlKNeJxIVpNIVpv2CqRTaTbWN1hf22B9dZ21tTWWl1YYGx63tCWfz0s0HqM6EScWjxKLxwiFg5aFhgEASjQue4X43w2wiKLIydMnaWhs4Cev/pTv/NV3uPj0RZ44/4QGQj5+sPJhyLW/ypqTSvIYqHwM4vV5WV0td0PcTXR1emonRVWwqKYWRQGT5yz+gLr62N7aJhqzX3X6A+oEs7WxrYImE8CxlAv6wOPiytE2nr81wJHL97j8GxdZi6n2cVUToxFRdZtsQebZn94GYK4uytgBLbKrPkm5nLz1uZPcPH+Il35wnf/h3/yAG+cP8rcvn2MzVFw5VUL0lhVTQXW7dTgqm7lKO3E8EUMURRZnFsuAijooWMGRwUMxgRVZUYgn4nz+5RdZXlxmaX6Z5YUVpsamGe4bqXDdgm3MF+0sgKrx8XjcuL0eAkEf0eoIbo8ab8flceF0OXC4nLhcThxOJ06nwwApH5c8Sl0FRbYNEFfJzdLOQyeXy9F/f5B4bYxoTdQw9ZjdSs2S2k7h9Vu1H6UmMj3kfyFXAaybQIs/rObwWZvfoC6aMLbvrKe5/1o/U/fnaD5dz4W/dxKXrzj8ybKMw+2g84U2mk/X8+C1Id7+vz6g9YkGOi+14fSqgGRzYQvJ5cAXqhwzSW+f2VQOySHhcFZuz4qisNec5K/yMTcxr4Eta6RhnaeiS219guraOL13HtLW0WrEdjLAugmsWMGeFbBAOWjZawL1eN14vNXU1FZbthcKBbY3t9nc2GJ1dY2VpRVWlla4c2PKCJ3g83mpa6ijoamO+sZ6AlWBsqCR6g/tah8BsOikW31TdU01v/2N3+LN19/kyjtXmJ6c5gtf/II2JluJ9ObntB+wossnCVZ+FbUqj4HKxyBer5fp6Zldy+gAQhefTyUG7uzsqI29At/BH/AjILC9uW1Tp4CsgMPpxB/ws6lFyC0XtZM4JAehaJC/OtTExf4JPNtpXv4Pr/CX//zrZDz2btK//u13qZtUYz385DcvWO7HPOlshnx8+x88y5VLR/jyt6/wv/xv3+KNL57mnRdOUCgZqEv5KYK2Ks3m1JWlw7UH10aREWURJJWXE0tEmZ9Z4IjcZfBUZIoThoWrYlrxWMKgC6rWIp6IGwOtoihsrm+ysrRKLpfTzDHFWA8C4HK7cLqcODWw4XI5cXvVsPaCZB8TxCx2JqJKmoVHEf3eCxXa1X5dJO2urxSgmKO8DveNqBmSnzqpcVjswZwOXlI7aeLJmG0ZXfT2kM8VjDZfKnr/khwSoUQV6/MbJDriFAoyfe8M0f/uKNGGEM/94/NU1RQBtH7t5kHcH/Vy7uvHWBxZ4f5PB5nqmaPrhQ6ajifZXk4RSlZV1HCZn2sulcXtdVUmiIoiKNjuN5s5/UG/ZhrM4fW5y0ygKmcF0PIQHT97nDf/9i3e+fllnvvCJZwOp8UFv1SzYolGawKJok173U3jUomHIogCgVCAQChAsrHW2J/P51lfXWd5aYWZqVmmJqYY7B9CEARCYTU/1aGug8Ti0TKGmFnTIori7oDFRrvidrv53Eufo6Gxgbd/8Q5/+ed/yVe+9hWisWiZKWg3sGJ5B4IVtDyKJ9Bj2V0eA5WPQXx+H+lU2pZHIAoiaBoKQRBBKRjHAOxsl9unDa2IIOLxenA4HGxvlQMVs1SFAmytq2XU88i2A2CkOsLQwgo/+m++xG/+++/RMDjNP/pf/5Q3f+sSAyfayLocyIUCLUOzXPrh+xy8NwbAW58/zcPuVo2UWhyQSlfIMy0J/s//+WW6Pxji1/76Kk+8+5C//a0nedDdimAiBNuSz/IyCMKesWWM8tq5q2tj9N7uZ2drh0CwxP5dspIoVc+aV0VFKZYPhKoI7BJsz3wd5nPq4fKhcm4d9bedCeij8ajUSamS9kFrEx/hHHYABWBxfoneW33U1tdoEWZNQfdEmhuCAAAgAElEQVRsnkGhUCCbzuLxeXa9Z4fTgSAI5HNWACeW3KcgqBTTeGOElek1Bi6PMnhtDEGAc187TrKzxhIGXjZNJObz69tq2uM8+3tRJm7N8uDngwxdHSfaEKLpRJ2t2cfcpgVRJLOTxeNzGzw0vV6Lhk9WEBy7g0a/5h20vbmNV+PI2IkOvGPVUc4+dZpr79zgg8s3eOKZc0gitmAFdgMfNjsKhT0n3IIJNNh5xhmARhKJxCNE4hEOdLYjILC6vMrM9Cwzk7M86HnAvTv3iVfH6Ojs4GDnAS1/VamqR7vaCoBlN+3K0eNHqUnU8IPv/5Bv/eW3ePmrL5OsS+4brNi5LlcCK5ZLfqxVeSR5DFT2EEGw5rCwm5y9Xi+yLJNOp/G43Vo5AZny/BeiIIAo4vV6EUWB7e3tivUCiJKEv8pvAJriECEUj0MmFAkxN7NguU5zSUEUEGVRjV6rwM22OpQ/+Hu89H98n9jcCl/996+gCJD2eXCls0jaSjznkHj95fO884Uzhouy3tbVZGo2DV8QuHOug4cn23j2p7f4nf/7Ncbbk/zo68+w2Bi3rIQsOXG0icjhchQnANMkYPzWtB/63zV11fTe7mdhZtECVEoHDFkLeGUGK+p9lD708lsqlb20I9aJWalcrkKQtY8ilQYwURTLPIIeNfhUpWvf3t7h+ts38PjddF88XuYaDJoWxaQOyeyoxFePr5T4WtSaiIJomE7kvAkgi0BBVsuKourVol1beivD2J0pdtZSHP3MQQ492Ybg0EP9K2WTiWwzSRht1CHSdq6RpmNJrn+vh4m7M8h5me6XjhCMBizcFHP7VBSFXDpPOB4y7gmshHddzPmd9O3m6/FXaebfjW3iiahxzZXyDQG0drSwvbnN/dsPCVQFOH76mMX93jBx7AuwWKWcy7aLmAIhlgIcOxf/cCxMOBam6/hhsuksI4OjDPYPc/Wd97h+5TqNLY10nz5OIpko98OrAFgqaVf0nEI1iRp++3d/i1e+9zd891vf5Ytfeon2Awc+FFgpPqPysfGxVuXDy2OgYhKdePeoEvCrhLvt7W08bveuxNviuST8fr9FU2I2D+laEYBgsIqNtY2yTq1raERRJBRWk59trG0SDFdZzExG3RSIxMMIosjy7Apj3Qf4kz/67zn+xk0O3OonPrWIbzNFxutiLR5i8GgzHzx3gtVoQIscqRIt9UF0L3Cec4u8/uUL3Hj6KC997wr/9F99kw+ePc7rL18gE/QX6xFUAKGTCvcy/ZSKP+jH5/eyOLtEW2dL2f7ShIhlSctKVtN7tYGy5GsVQEmlSd1cfre67ESWlT1j7xSwJzGXmhd1wnSpVFp12UdylcmkMrz3xvvkcznOv3ARl9tlaFN2k3RKBSpu7+5RnZ1Oh6GhMGsli0BD/Z3ZynLjx3cZ+mCM5MEaGrpqSbRVGxwXXbOp/rn3rGx+hoW8TLwpQv3hBDMPF/jJv3uTzmcOcPS5Q7g8ziKwEVTSei6lem95Ah7LPvW7CGwKeRm3WzJ+24nP7wWh3PxbSqg1tisyoBJrt7d2uHvjHqIkcbS7qwSsgB1gMerZD2C3W1xV1ALYlNE9FrVnYgYvDreDzmOH6Dx2iLXlNQb7hxnqH2J0eIz6xjpOnummvrEORSgBmrI9h6VMu2IyBQVDQb72O1/lh9//ET985Ud84de+QOfhzkcGK49Crn2sVdm/PAYqH1LMoCYaU23sy0vLxKK7x3owSyweY2nBmuvD7KKsd4ia2mqmJqZJpdI8+Fe/z91/+U/VCa6QN1aftQ2q7XdqZJquU50Igsi7/+M/4O3f//vqYCLn1WiZLhf1LUkmh6dJttYSCAW4+cUL3HjpCfS4GKW5ckQAWe8YelwDZd+r8Y14kG/93hdoHTzBF7/5Nr//B/+JX7x8gRvPnwRn0cyzMLWI2+MmHA090kpfEASi1VFLBE+7Tl86SJcCFr1MJdnLbFNqCjEfU1HbIqseO+l0hkwqQyqVMtyTZVlLFqj9LUmi4QUkORxIkoTL7cTlceP2uAwTiapls5p+RFPEOoO/YgbF5vt6hPgwO9s7XH39fXa2Upy9dIpguMrCS6lEogWMSKyqJ41oMUdZQbtAtDbC0vQKTYfrNaAmGiYGpSBz7+0+bv3sHuFEkJf+yfNE60KM3ZtibnCRfDZPTXusxAwraNen7D7YK7A4tsLy+BoOt4PWU010nG9lrn+RW6/eZ/TmBKe/eJy2U82WepanVhEEgUgihCgIZWYfnZeW2kpRXWfl6JRejyipkWPzNl59lWIF6c/tzJOnkQsyt6/dIZNO033uBDq2sQMslvN+SOVewaau0kVWab8za9DM5iUduASjQc5ePE332eMM9g5y784DXn3lxyRqazh5ppvmtiarJnSf2hWzKcjn8/Hy177Mj175ET959ScAZWBFv/b9ghVdPgpYeSyPgUqZaUcXXXuwH4lr+TAWF5c41Hlo30HfapMJxscmyGVV7wDj3CbPH1EQqWuo4+a128xNz9HS1oQoCBQUTZVfKHJZ6hqTTIxM0nWy0zgWUUYuWE1Lnd2HWJxZoveDPs48f4pK4Wp1LyA1TLdodP5SwFJJLEGzBJHxgw38yR9+g5OXH/Didy9z7s0efvqNFxg73kZ6J8vS7AqNHfUWNXip7b+ShGMhpsdmNC8Sb/mgog0IpQOGfp17ajL2ab4pBSb673wuz8baJpvrW2yuq9/bmztkUmkjn5Ndsr29QsCbeUiiKOLyuPB4PfgDPnwBH96AF3/Ar/7t92jcChNhUhTKAMJ+ZWdrh8s/f49MOsMTz51VvXxMmpTSfqWUsGAdDp0ka08eFkwan9qWGpZnllmZWyVWF9ELMHFvmsvfv04um+PJr56htbsJRVBdpZuP1eNwSSyNr5LP5KnvShpgRZfdtGfprQwzvfOkt7JEkiGSh2oM/lRDVx31nbX0Xxnh/b++Rf/VYS68fIaalmqQFRYnl4nUhvH6VdK82patmpXttR0UWSYYrTKZQ619RhdJkig8Qj4pXasiSSLnnz2Hy+Om924f8zMLtB1spfVAC26P23jO9mkE9uaj7FsK9m2s1PxTBAFWrYtq4gPJIdF1oouDRw4x3D9Mz617/PTV10jW1fL0808RjUWQTfXYaVd0LYcdWHG73XzpN7/ED7//Q37y6k9wOCQOdHQUwYpsnx+olGBrx1f5sPJYq/IYqHxkEQQBp9NJOBxiZXmlYjl9ojebZGpqEyiKwsL8AvWN9YbWAqwryngijtvjZm5qnpa2Ju28okaYLZp/WjqamZqYZn5mgUR9jdottYask3NlUcbjcdN1ppPbl+8yMTBJS2ezllMHbcWJFldFKQMrZl6KGbBUvG9TJxJFEQW4fekEfU908czfXOUb//Z7DJ1o40+6OxAEgeaOJtsVhW7/ryQ6F2B1ed2YHIoalHKwYjxDdgdbej1m2Utjki/k2VzbZHlhlZXFVZYXV9jZ2sHwxRRUc5U/4CMUr1K9hDxu3G4XLo8LySEhSRKCqK6mjRwwBVn1PJK177waPC6fzZNNqwHkMqks6VSalaVVpidminE/tOfvr/Ljr/ITCPoJBAP4qnz4/F58fp+2+tw9tcPOdorFmUUWZ5dYmFW1geefP0ckHrF9HuVaqOJvnXtipynQRe834eoQHr+HhYll4vUx1maXeeu7V5kemKP7hSOc+EwXkstRzA4MSBLUd9bidDmYHVpkc2mb6tYYwUQAp9uhtgubAVuRFZbGV1gYXUFyiLScqCdYUwQTBnlWcnLsucMcPNvOzR/38MM/eo2Os20cPNNGIVsg0VJtlDfux2T22VhRszDrWc8tfaWkrUtOx65xkizP2MbUeer8CaKxCAO9g9y4eotb1+7Q0FxP28FW6hqSlc19FUxk+yV82xJJFau5RwcxhqYPaxwTVYqalgIyoiRy6MhBDnS2MzIwyvWrN/jrb73C6XOn6D59XGvLxk2oNdhoV0p5KzLgcrn40m9+ie9/5xV+/KOf8NXf9lNXX2dcb2mcFcu97QICHmtVPrz8nQEqH5Y/8rFewy7ck2gsyupKeWZh3RNBNk2OopY1rzapprWfn9OACvY8FVEUqW9IMjs1A4KAiKitdtSupZt/kg1JvF4PE8OTJBtriy58ooysFK3yBQokG2uZbZxjtHeMREM13oDPFqxod27KoWG6uX28DnMHNHNSMl43b/zu89x54RTP/9lr/Js//SmvneukD8hRWZuiE2lLn3EwEkQURdaW1qhrqqWSmAeF/Q62lQiv+vH5Qp71lQ3mpxdZXlhmZXGVfD4PioLb6yYcD1HfmsQf9Kl8Gp/XkoDO/K2L9do0zY9DQHRIOCxJGn3GMzCLDszSqQyZ7Qw7Wztsb+6ws7XD5sYmCzMLxejIWioHj9+Dv8qPy+1CFEUcWsA5URTI5wsszS+zta4mjfT4PCTqa2g/3EowUsxTY/dcK4EVPeWDrlEpmmYweCi6SKJIbUuCodvD/Pwv3qb3Sh9t3S184198haqo3zAv6cRaUJunJELyQAJ/xMdM/zxzg4vMDS7gj/gIJ4L4Yl7ymTyZnSzZnRyZnSypjTTZVI5woor6zlocLofJZFMksevg2R/0cel3L3L0mU6u/vUNfvInb9B4uIEzIT+iZorTieNmzcrm6ha+gBrszvz+7N6lJIlqm9pDrJNh0eVYFARaDzbTdqiV1eVVRgbGGB8aZ2JkEqfLic/vxetTPz6/F4/XY7RRHejqkY4VPZigYg1SKGlmSTUIpYTb48br86h12ZCIdWJ38XoLFvCi8upKg69pY4MsG/s6Dh+gvrmea+9e4/rVDxgZHOHSC89QnYhbhyi5CFYMbQdFc5msKCVg5df57l99j1e+9wpf/8bXicVjUBIUzvycK5mAPowXUNn+X3Gtyt8ZoPKoUglU7IfoWir78fyJRKOMj40XO66mtt5tte7xeAiHQyzOLZadTzSZbADqGusYGRpTybKhgMX8I8sgCgoOp4OmtkYGHw6TTqVVUiMYWhUdiMiiGofkyOnDLM+v8uCDPk5f6jZWIWawov5pbLV0/P20c+tqUh+siqvK5USEf/38SZpCAX5/eJpL/+yPefd3XuTB8ycppgAoelOU1qWLJEkEI1WsLNprtSw2ZhPwsLguVwDCduTXVCrNwswCsxPzLM4tkc2q5ptguIqG1jpC8SChWEgNZqZY6zFzgezOUTmQ3G5SsGhBFO1e3V4nHp+bUHUxqJ9aAFLbadKpNDtbKXa2dkjvZEht7bC1sYUiKxp/pmAogmI1UZraG4gn41SFAsYEVokcbNluc0+SQwLB3vSjthFTAMKczOzoPLfevIcv6OUr/+zXqe+oNbhURT6FFayg9dVgrIrgxSp2tlKszqyzNrfBdN+8ds3qtQmCgMvrwBvwUH+wllCimKTQDFDUsmYPNNV8kGiq5umvPsHN1+4xNzLPN//1X/PM1y5y6NQBrXyxPQuKwPryBvFkzGL2MbdrwfRbckgU8nuZJ61t3DpZKoaJIxwNcfrCSbrPHmdmcob52UXSOylSO2k21jZI7aQ+ZBu0F0EQtGBwHvwBP+FoiHA0RDQeJRAMIAhmLbJ+jFgELiWgRb1XK2DxeN0897lnGR0e49q713nlO3/DyTPdnDl/2kq2NYEVXSqBFZ/Px29+7WW+/c3v8P3v/jW/+/e/oQXgfHRy7aN6AT2OWGuVTy1Q+bDyKJobc9naRIJ8vsDiwiI1iZp981Qamxrp7X1IPpdXV5gVzD+NrU1I77zPYO8gZ548DVpCLg0OGVqV9s52hvpGuH/zIWeeOgmyNmlpWcnMJiCvz8uxc13cvnKXO5fvceLJo4iSZAErYNWuiIJkgK/93KEVXBQHalUEBm4PMT+5iP/Zbv7T7/0Gp16/yXN//lNOvnadt/7hrzF72JqLSKhgwxcFkUR9DYP3h8ikM3i9VvMP2Hf0Sp4sZtEn3+2tbWan5pkZn2V5fgVZkfF4PSQaqtVIrIkITi05oz4xm7MBl0V01ctUmOh3uya7AUtWzNsKpgmwvD0Jgojb78Ib8BCpDhcn4F2er1WKIfp3u9bdFgWCIOCv8rO2tF6xDMBo7wSv/eWbbK1tc+ypLjw+Fx4tOaYOomWRymCFYlv1Bbz4DnqpPVBNaiPN9noKl8eJ0+PE5XPhsIlpYgYn5t9mkCIKIhuLm0z0TtN2rInP/1fPcevn9/jJf3yDngO9fOZ3niHRWGPEX1mcXiSbyRGrjZWZNUtBOajpMTye3VbcxUnPLkaQDlbU+lXAIkoCDS31ZTmEFEVRUz1oJhmdO6W/blEQQFDzSSlaeZX4LWvmyQL5fEFNJZFKk9pJqykldlKsr60zPVGMSOtwOIjEIyTqEtQ31RGrjqoA2DBZW0GLKFMRsMgiNLc1UVef5PqVD7h5/TYrS6s8++Il3B6XxRSkarhMZHqsRGSds1IVrOLLX/kNvv2X3+HHr/6Yr/zWV9Qx0gwKH5GP8mG1KrvJpx3ESH/4h3+42/5dd/6yZS9iYVl5u3jgtttLiZLFFZZSUkYp/dbKut1ubnxwg1g8RrIuCYqiqki10oIgWEirgnoCHE4nD3oeEImGicVjFPOzyJgoDUgOiY31TUYHx+g4fMAgIiqKYqnX7XGTy+UY7huhurbaCE8uaP9ZigtQFQzgC3gZG5hgbWmdeDJq1C0KonGc2ZNA0L7VjqEnwbP/iKa/1eOLIKXvxgBz4/O0dbXSdqQV0eFg/lAj9144TXRuhef/46tEpxZY7Ggir6USKJ5XuxbT3w6HxPjQJMFIFeFoMRuvmeSm7OOf/vxB4f9j7z2DJLnuA89fZnnvuqq9nTbT04OZAcZgBh4gQJAESYAEIYgSJYpauZU2LuIu4u7i7svFRdzFxn24L7erlbQSJYqUIJEEQAIgLGEHM8BgvJ/23le7qq4uX5n3ISuzsqqyunsoSqRAPiCnqtNV5rO/93dvK5FgcmSaa+dvcP38TZbmlhFNIq17mtl31176DvVQ3xLB5XNqkUYlSaIgF4rqiELR86Wg2JbIsvapPyYXQaYgqddJFKQ8klRAkkrH1a20Xy6pPaSC8oYaFMlaPVLW4ina4wjFzpISGJXUNsqq3ppYX1DyTDu+y/zT31PXfCrOkcmms8xPLtLa1YzJYtbqG8D68gav/M0bvP/iafYf38tX/9MT9NzZxebaFouTy/hCXmxOmyp3U//XkiiKyoBKOVwox0xY7RbcficOtx2r3aKsqWRYj0Wt3qmfosmESSz9nVhPMnJhAqfXyb7jPVhtNtr3trD/nr3MjS3y9nMfkNxM0rKnGYvFws2zQ9idDvbe2YNQVO2o6iT9b5tEE4IgMnRlhFAkSENLxPAZS+2h9F3/qea72qcZbfp1npTQ/2ZtXSizxaJFYBbNorLmldmk2FMVz7XaLMoSEU47TrcDj89DoC5ApDFMU1sjbXta6e7fQ+/+HpramwjUBXA4HSS3kkyNTTE2OMbo0BixjRggaOonta5C6fm0uqvrzJS6q9jztHe2YXfYuXH1BjNTs7S2t2KtWOG9MiBm6VZqPiq/5XK5cLtdXLpwGVEUaGltLeajrPWFat7q812VrpTyXTYol/LnKH+m6gi4ssG+Wu+zUzKKsPsLTv9nrQO/BhUoq5SVv7MbUBEEAZvdxrWr15Akib7+Pg1UlHsLaF2FrHbUyr9ut4vBG7dIpVL07u3RHQdBUA09lb/dXjc3rt7EZrcRaYwUBxmlI5aKjVmSZYLhIDNjMyzOLdHV21FqFMXzoax94/V7cHmcTI/OMje+gM1hxe1zl4BAzSOBqk5R0H/fppPXwEUUkSSZW2eHWJpdpufAHrr2dWASTZp4XbLbmTzSz+jdA/SeucG933sDsVBgua8NyWyqghX10+awMT06g1SQaO5oKivxnRqkOrCDTC6bZXpshuvnb3Dt/E2W56NY7FY6etsYONJP7x3divSkuOyAGlJfRi4CigIM1XBSAhNJKpDaShFf32R1aY2lmWVmx+eZHp5hZmSWyaEZpoZnmLw1zfjNSSYHZ5gdm2NufJGFqSWW5qJEF1aJb8TJpDIUCgUEk4AoCjqgUQFD3h5cih1uFbRQghalR60GFaN8lWSprI3JFZIjPahYbBZmR+ewO214g15AJp3O8N4LJ3nxL17GG/Tym//jV9l/zz4sVsX9OtDgZ2VhjeWZFUKNAcWGRK2pRVgpm11W1FW1vpQDr/GmgELpUzSp9a8ELqlYmuFz49idNgZO9GItxlJS7H4c9B/toWugncsfXOfDlz4mnUyTz+UZONKPx+fR7lPWTjRwESjkCwxfHaG5vYFwfV0ZnFcNjlqZyNpgqR+Qtis3zVG5WH5G/xWKcGy0GQG10SaKipeiP+Snvrmerr5OuvZ24vF7KOQLzE7NMT48wdjQGLlsDq/fi9li3hZYSnVK0CaBdZEQoXCIoZtDjA6N0tjUiMtdvgK3mn9an1tZZ4rHwpEw8ViMyxev0NzSjNfnK+W9LJedux04VpaPmu+lPrq8bIzK6ecFKj/rNf+K6degsvP+7UGlrPHrPvXnLi8tMzk5xdFjR7Rr9FIVI1AB2EpuMXRriH137NPcHyVt4CyBhc1hY3lhmdmpOXoHenQGWuVSFdEk4va6Gbk5islsJtygxmlQz6uGFY/PQ31rhPWVDWZGZomvbxII+7EU45yUdfRCdSOstakiVvXc1YV1rn10g/hanL47e+nc21E8r2QDoHbEmYCXoYePsNbWwF0//oCDr5wiFfKx0d5U7EjKZ8mCILAV32JxdonufXsqjG51HYMOSkpwkmN+eoHBq0NcPnOV+elFxZOqr40Dd++ne18nwUgAi81MQS4oZSnJGqCo0hOpeKwgSWVwUpAUT6ClmWWmhqcZvjTKxK0pFiYXic6tsLEao5DPY7Gasdgt2BxWnB47bp8Tb8iD2+/C5rQimhUpVz6bI7mZZHVhjeW5FeYnF5kammFuYoGNlTiZdAZBFDFbTZQApQQu5WCiQMu2kpZKaJH19dtYogLltimVkA9y0Zttma3NJA3t9Vz+8Cr/8P9+n/XlDZ76oyd4+On7cHgcpTYjy4gmgWDEz9LUMmsL6wQi/jJYUSQppfpdkqIoEhZRFMukgvr6YxJN2j5NgmJSYUUshxZBJJ3MMnR2DIvVwsCJPmwOe4XxrHJeIBzgyEOHcHkcnHzpY6KzK+wZ6CDUECqTpuh/V92SiSRTw9O0d7fiC/gMQL16Nl9d542Bxeg/NYKvEYhUthu9NHC7e5b9p4MWta6ZTCL+oJ+Wjmb69vcSigRJJtOMD00wfGOErcQWbq8Hi9Wi1d9KYDGSrvgCPlrbW5kYHufmtUECoQD+QEnaquZXGWiUDpTVk9b2VsZGxhi6NcTA/gGsVos2FuxWqqIvn1pAspNUpRZc1ALQ7dKvQeVfIf28QEVP0Pqzy46rKhiDc/Qdrv7cdDrNrZu36N3bqxhd7VL943A4uHblOm6Pm0hDpOw9hQqpis1hZ/D6ID6fj0BdwFCqAgIen5vYWozJkUlaOluw2a1a460FKzablaaORiw2C/MTi8yMzWG2mPH6PWWqH1UlpIKIflMhRpGQlDrcRGyLW+dHmBqcxuF0cODEfhrbGhBFoXTPInzoRewIAhtt9dx4/DiiBPf83Su0nb/FWmczyZCvXLcvKuU6Mz5HuLGuavZU6mCVlM8XmBmb5daVIS6fucbc1AKZdJaWzmbuODpA38EeQpEAFqtFm2VKsrQtoEhSSXqSy+eIzkUZuzHB4MURpoZnWFlcI5vN4avz0tAeoaGznta+Ztr3tdC0p4Fwax3BxgDBxgCBej/+iA9vnRtf2IO/3keoKUBdS5D69giNXQ00dzdS1xLEF/Iq6ieTyOb6JkszUeYnFpgbmye2ukk2oyyQJ5pEpV4aQItS7QRNPaQNaUbQIlRDS2WqNKDVZq1a+1P+zmay3LowxLsvnuTyqas89NT9PP0fnyTcXKero2rnrgCHxWrGG/KwNL3C8rSydILdZS+pK4svoEJJtepHLKmGdPW4XJpS2mckWdlaTzJyYRxRFNl/Tz9OtxOTyYQoKmohk2jS/hYFEZOoqEptDiu+oI83n3ub2bF52rpbcHvdOuNcQQcsIpsbCWYn5tjT36mtlF4+SSiXLpYPWOWDVy1pSPlWDfJq/S6TrshSxVmqLdb29wdBd75uGqfCi6DYLrV1tdHa2Uo+n2dydIrhGyNsrG7gD/mrgEX910i64nA56OrpYmF2nutXbuJ0OghH6srqZrUURNW7C1ofaTabaW5t5tLFS6yurNC7t0+x96GkAvp5SFV2ApPtgOR2weOXTP3z6QAVPRTs+vwasLIdqEAJipR7lJ9TOTPU1D9WG+fPX8Dv99Pc0rRr9Y/D6WB8ZIzo8goDB/ZpFcdIquLyuJiemGZuZp49e7swaQv9lRqXenYgHGBiaIK5qXma2pqwFN1Bt4MVURAJ1gVoaG8gvrbJzOgcU8MzxFZjisGv2VR0X1XDflfapCgdbD6XJ76eIDq3wsjVcSZuTJLP5ek90M3+Y/24PM4qQNHPFPXGnaIggtnM8v5uhh49Rnh8nnv/8gU80XWifR3kHTZNIuNw2pkania6uEJ9UxirrTo8ez6XZ2p0mnMnLzAzMYckSbR0NtN/aC8DR/qJNIexO22ggokKJJIEMiWbEANAKUh5NlZjjN2c5Nb5IRYmF8hksgQiPpr21NO1v522vmaCjX7cfhdWpxWTxaTVi0JBb69StFHRfk+3FW1UBEGJR2J32/CGPAQbAzTtaSTcWofTq6wnFV9TwGV2dJ742iaSLGN32nRqohKYlIx5S8BSmmVW138jaKngQV3rKZeuCIJAbHWDt3/4PpdOXSXSHOYP/49v0XNgjwawauUshxXFkNPmsFHXFGBtcYP58UXSiQxun0uTrqg2VCpAV0KLvsbUn0oAACAASURBVL4abSVgKVf7ZBIZJq5NMzs4j9Vmpf/uXlxeZ5UUpcwlWRBIbqa4eW6IQJ2fz3ztIe687yAjV8d4+e9fJ5PK0NHbhsVqqWpT85OLrC6vse/Q3rLj+vanfteacsWsXL9tJ1lUC65S/SPJctkZUsW1JbXP7kCoBCVUAYxWPwCrzUJTWxOdPR2IZhMzEzOM3BhBFJVo1IIoFOutHk8o69QEwGK10N27h9XoKtev3CRUFzSUrOi/6zc1X1wuF1arjcsXLxMMhQgVg30qbUDWJmplkpbblKpUw8PupSo/C3T8ewAVYYeB//ZEGP8G6XZjqdTyOjDaXzvaqFx9XDfLVM+VZZnvfud75PI5vvn7v1ta7EuWiuJ1STtfH3NCkmWuX73O22++w+e//DnaO9u0c1RvkXyhoF2/ML/Aaz96g57+bo7ed0QLcqUZYhZdX/NSgehilJNvncJiNXPf4/dhd1i1eyrnlkLll55VkRoUpALr0Q3Ny0Vda8Ris+ALeRWDOlWaYlY6463NJJsbCVKJ0qrQbp+Llj3NNLU3YLFZdAOFketyufdJ1f7iZ2Rkhnv+6nkCkwtc/q3PcePJh5CKarON6AaffHAeWZI59uAR6oqqr81YgsnhKabGZshlcwTDAfoP9REIBxAEoaxM9HkBinRAXx6lslf2FwoFFqYXmRqcJhFLIJpEQk0hIq11+Ou8Guyo9Ukfbt/I62e3UZGVvNF3dtWSA0EQ2YonWZ1bZWV2jXQqg9liJtxcR1t3M26/GzXMuz7ehd4bxcg9V/936Vlqx3rQp3Q6wwevnOKdF96jtbuFY48cZmVxlbbeVnoPdhvkc2lpB3WfXNyfy+WYG1tgZngeSZJoaA/T2FWPxWExzNMqry6DPqUy5LsoiKS30syPLLIyt4bJYqZpTwPNXQ1FeCi53htBSjaT59IHV5ELEkc/cxiX26W5Iw9fGeWlv3uVrXiSL/3O5znx6N2YzcXYLRK8+/L7eHxu7n3sRFm+l6Sc5W7/O5XFTmWjzyt9/mnHaqxbpU87xSiqtQgklOqssr9U7wRBJJVMcfnMFeanFwjWBTh2/1GCdUHNm0oPioKoB09BiceSl3j9x28Q24jz5ae/pNn8aOfpDKS1+xU9u9TzJEni+8/9gEwqze/9wbewWa2lZ9RH1a6QdFXGkqluS6Xyq/T+2S6/KtPtev/8EsVTqUlMv7KgYnRsJ1DRn1MZqEvV6168cJG33vwpv/ut39HclCVdB1sJK2rnm8vl+N7ffg+n28lTzzyp3TMv5Ysdcgko8lKeMx9+wo0rN3n8y48RbgxTKOTLYEj9W5IlVpZWOPnmh5gsZu5//F6cbgf5Qr4MVtR30fZVDNAAW4kkq0trrC6tsbkRV6KjFiTy+by2Ho3T7cTjdytbwIMv4MXuKC1NbwQn+u+1AEV/rbZPluk+eYFj3/4xeauFT/7oaeaOHwBBWcDtzLvn2Eok6d3fzeryGtHFFQRBoKm9gY7edvwhf4X0qlQ+Wn7o8sYI8CSpwPLcCmM3JkjEErh9Lho7G6hrCmKyiDrgNIaTysFXq2fbuE0bdURCVSeoztj0sKFIGDbXEkRnVlidX6NQkKhrDNGxt60Yyl3Qdc6iwT2E7cukojwrn12WZa6euc5L33kVWZb58je/wB3H9wFw8+IQMyOz7D3cR0tXU01YUf6uAGxJIpVMM3VrhuXZFaRCAU/QQ7DRT6gxiMWueskZt+taKZPMEF/ZZH05Rmw5jiAKNHU20NTdiE0XqK0SUNQ8EAWBdDLL1dM3yKazHH7oTgIhP5UrgssFmdNvneG1594kVB/i2T9+mu6BPSxOL3Hh1CVOPHKMhpZ6g/KsbFM/2+z4dpeIqDyn8thu03Z1yQjEVCnZ3NQ8l85cJpfNs+/gXvYfGlA8knYBK+lkmp88/yoIAk/9xpN4PO7bhpX5uQWe/+fnOXHvce65717ds6H9pvouuwUV9R217wbBMmvl3W72b5d+SWDl16Cym2PbzxzKpSpGoALKCsr/9f/7cw4fPcyDDz+ggYp6j1qgIkkSVy5d4YN3T/Lk175EY3NjlVRFUS/kkWSJTDbDj//5JQC+8PTnMZnEsgGxBCJKh74aXeWDNz7EZDZx32fvweVxVjxDbekKUOW5YZx/qs1O7RDQRnAC1YCi/240GOqDm5nTGQ7+4G32P/9Tlu7o5pM/foZYeyPZTJZzJy8QXVzF6XLQ1t1CW3crdoe9LKDVdpBSlge6fCpIBVYXVxm9Pk5sLY7T7aBjXxvBxgCKKLwcUCrjqejhRCoUyKZzbMW3SG2myeWK4JdXQLCQLyCIAhabGbPVjMVmwWpXNofHXgYV+s5S/Vu/KJ5+MJXyBebHl1gYWySfLxCsD9C5t51A2Kflu36mWrreWLpSWUaVaW5inhe//QozozM8+vTDPPCl+zSXUTWPLn54hdWlNfYd7aexrd4QVkplUS1dAWUNoujcKstzq2xtKJF0vSEPnqAHm9OK1aEYK1sdSgReWZbJ53Lks3nyOYlcJs/m2iYbyzGSm4pk0O60E2oM0NLTVBZJVj9AVUpRBEFkazPJ1dM3kPIFDt13kGA4UAUperuU5GaKn/zj63z4+kccvv9O2rtbMVvMPPbUI5q69ecFKv8SOFFtUVJbKTZjCdKpDNlMllwmRzaTJZvNgYDm4myxWDBbzNjsVnxBL25PKWCg8i667xX1TZ+3+jzPZnJcO3+dqdFpQpEQDzx2nyKp2gWsrK9u8NqPXscfCPClrzyBzW7FJJp3BBU1v0VB5I1X32B8dILf+4Pfw+fzlf2e+uxGUpXtJ2H/cqnKr0HllyD9LGH0d6v+uR1Q0V9fqf554fkXWZhf4I/+9A+VjtBoVm0AK5lMhr//m+9SFwnxxFNfQA2kpA6WhUKhDCzmZuZ4/aU32XtHH4dP3FX2O4p9Q/lKyGvRNT5480MEUeC+z96L21sNK8p7VwOL/lM2GOR3SpWNZzeBxXYClMpjttkl7v7OS3R+dIXBLz7ApW98kbTLoRjg1fnLmkFlsLXtIKVS1bMZTzB4YYjV5TVsDhsd/a1EWsJIFAwBpVJ6ksvniS3HiK3EScZTJONJ8rmCzti02DGbBG2tH1mWyWXy5LOlKK6qEajL58AddOMKuPAGFBuNshldWedYmhXqgWVpMsr8+CLZTI5gfYDu/Z14A55dS1e2g5VELMFrz73FmbfPcdf9B/ni73wef6hkH6CvQ7lslosfXmUtukb/Xb00dzUbl9E2wKI/nohvsTK/RnRuhWQ8Vd7GBQGzxUQ+l68y/BVNJrwhD4F6H4GIH2fRpkrNQ/U99bCgDoTq31uxLa6cvoGAwOEHD+ELlqIDG0GKPi/nJxd47r99n/HBSe559Djf+LOvY7NbqyClOu+3B5Xt4ESfb0ZwkkhssR5dZ2MtxsZqjNhanGwmW2XvZ7VasNgsRQAskM/lkSoWVLRYLfiCXvyhAL6Ql3BjHTarrfhu1SBcDYMl2JudnOPcqQvY7TYe/Ox9BEJBzCbzjrAyOzXHu6+/R0dXB5994lHN6Hm3UpVEIsF3v/09urq7+NKTX/o3l6p8CtU/nx5QgV9u9Q/A4K1BfvTij3n6ma/Suadz11IVgLMfn+Pj0x/z1We/oqxVYSBV0YPFh++eYujmMJ954hEamut3hpWVdT544ySSVGDg8ADt3a2a4XCldEX/bpXvXCtfKzv8ynV5YHs1QU3VUA2wyefyRBdWWJqPMjU6hc1m43f72jn+lz/EtbzOpW9+iaEv3EdBd/2/BFLmJua5cf4WgijQua+Nho56VLfeWpCiGMZKxFbiisplYZ1CvoBoErF7bNhdNuweGw6PHYfHjmDSGzuWJ0mSlZl/Nk8ulWdrI8XWxhbJeFrzvvEE3YTb6/DXe5X1erQBsVrKogcWuSCxNBVldmSefK5AR18bXQPtSge+je1KLVjJ5/Kcev1j3vj+20Sa6nj6D56kc29HWd6XvVtxXz6X48rH11mei9Kyp4mufZ1Y7dbbAhZ9/mmDryQVI6RmtC2byWGxqJKq4uzfasbpdSo2WEJ1vatWSZQDiiAIRGdXGLw4gsVq4fCDd+LxuarzrgJSysBcljnz3jluXrjF6K0JpEKBZ//wa9z90FFMptJaT8Yqgeo2Z6TmqsyfynKRZYnkVoqZiVnmJufZWFUiCAuigMevqHW9AQ9evwebQzEKV419K+9XKCjAkklmia/Hia3F2ViNkYgpyzWIJhNNbQ209bQRDAc0JwGjtZXK4VDJv421GB+9c4Z8Ls+Dj99PfWP9jrBiMpm5efUWn5w6x+G77+Lo8cO3rQI6e+YcZ06f4evf+DotLaX12mpJVWqBSnl9+pVV//waVHZ77Oeh/snlcvz3v/xrvF4Pz/72s4o6ZJdSlXQqzXPffQ6L1cJXf/MrmEymmrBSkPKkM2lefeE1EoktPvfkZ/EGvDvCSnwjzrlTF1heXCYQCnDoxEH8QW/Zs5S/l/EAsFPeGqUqyco2M/FacJJMJJmfXmR5PqqEspek4sxYmbXd8+hx6utDdL9xiru+8xLpgJeP//hpFu7cW/U+RkbEZdCiSbMkRq6NMn5rEn+dj/4jPVjsOsNkSTFergSUbDbP/Pgi0ekVMqkMoknA3+BTFsQLOLQQ57XyfMf8VIPkFSTS8QyJ9RRr8xvkUjksdgvh1hDhtjrsDmsZsNSCFVEQKOQkJm9MsTS9QqSljn1H+jCZTVWqoO1gZfDiMD/+u5+QTqb54jc+z7GHDxt2hJX1R3v/gsTwVcWlWzSLdA900tTVpOUXUNWOyvcZ2P3UmITsnMe1pUZlajVRZCuWZOz6BKuLa/jr/Bw8sV9zk6+Uoqj3qVZ1yFw8fZn5qUUOHruD1q4W3v7Ru7z83Ku07WnlG3/2dTp7O2qqV7dLu5Gg5PM5ZsfnmB6fYXV5DUmSCdQFaGiNUNcQwu11IZrK1zur6kd3WX8lWSK2Fmd+coGFqUXyuTwer4fW7hbaulqxFqVIlXWsss6Kgkg6leHDt06T2krtClZMJhMCAh++c5qJ0Qm+8uxXCEdCu1IBqc9QKBT49l/9Lc3NTTz19FcMpSpG6h+oLVX5FVb//GqDCuxe/QM/u/ePer7eqPbZr/8Gre2tO0pV1PtKssz42ASv/OgVjhy7iyMnjuyoAorF4vzkhVcRRZHPfvlRnG5nFRipNivq7xekApOjU1w5e5V0Ok1nbwf9d+7FarVUPZP6fkZ2HbXyrTLtZjawnVonEd9iYWaJ+anSzM7jd1PfVE99c4RQJIiMzJsvvE0oEuTuh44iyxLWRJKD//ga/S+/z42eNj783S9iPdhXNTtXIUV7V13+5nJ5rn1yg8WZJRrb6+k51AVFLyHFaLlaipLP51mcXmZ2aJ5cJoe3zk2gKYAv7AaxWpqj5q2R5EqfJLl8TY/KGZkoCsiSTGItyerMOpsrWwiCQLDRT0t/E3aHbVfAIgCLE8tM3JjG6/ew/0Q/DnV9nW1gZXkuysvfeZ3hq6M8/OQDPPr0w9pv7pSMoCURS3Dr4hCrS2vYnTZae1pobG/QYtsY5VkltCjHbl9daZTHletVqZ17ajPN+M1JlmejWKwW9uzrpK23RTdQVktRtL91x2VZ4tLpK8xPL7L/8D56Brq1Y/H1OD/49oucfus0f72nDdP//keYK9bp2S7tZINSyOeZGpth6OowqWQal9dFc0cTTe0NuDyun6sqWJ/U98vn8izNLTMzOsvGagyLxUL/nX20dbdhNhWX9ai076mAlUwqywdvfkg6md4WVsyiGVUFlE1n+dE//Rif38+Tz3wJk8l8W1KVMx99wtmPz/LN3/8mkUhYe6dfq39uO9UElX9XcVTUdLvxVIAqPer2+/VqnsooKioZbx9TJRwOc/XKNVZXVhi4YwBBEHSRVJQr9HEi9HFVfH4f8Y0Y165ep6OrHafTiRp7RfHFB31kCZvNSkNTPcM3R5gYmaStsxWr3aYr9dKaO+o1giDgD/ro6Gknn8szMTTJ1Og0uWwel8eJ3a6sEaQ1ItAFydJ9pzqGitFWGZfAaF0V/XmyLLOxGmd6dIbr529x6/IQ0YUVHC4H3f17uPPEQfYe6KO+OYLb49I6lEwqy8z4LO3dSkyKgtXM/JF9jN9/J9aX3ueNV0/xSSZLR287puICdFpYPrkaUjLpLBdOXmZlcYWugQ66BtprQkq+kEeSC6wtrTN0fpTo9AoOr53OO9uIdNRhc1mQkFDjryjAqUJoMYJtcY2gQkX8lIJUKIsYqt9fcn2WtQHI6rTia/ASaPIiCLC2sEF0agVBFHB4HSDIStwHWdbARKstSgXBG3Tj9rmUkP3Ty4Qag1htVrSYELr2kE6mef25n/L9P3+R+pYI/+F/+13uvPeAstAmpdnkdklfF9SYEza7jcb2BnwhL4nYFnPjC8yNL5DLZvH4XFgslvLBoFhPy+uoTnKh+16a7VYEeTOou6r9glJ3S8Hf0skMY1cnuHVhmEwyQ1d/BwdP7CfcWIfJZC5vF6bKQU8PiALZTI6z719geT7K/sMDZZAiiiJ2p53D997JiX3d3PvaSR75yfvIJhNrvR3IJkVNVatXNIIUSS4u+1DIMzM+w9mTF5gZn8Xjc3Po+AH67+wjVB/EYjUrdUuujimkthklAFx5ULiyqLUGm9r2VLhRVEpuWve0EGmJsLmxyeTwNMvzy3gDHmwOu9IT6WL+CAhl/aHFYqa5vZm56XnGhyZoamvE4XRUBYZTY1sJKAa/Ho+bG1dvYbPbqW8Ia3lVGQTQaAuHw1y9fIVUKk13b49hPdbHTVHHiOpYKtVxVrb7rubfzyumyi9BPJVPTxwVNf2yqH/011dKVc6dPcc7b7/LN373t2loathWqqJer0pVkskk//id53C6HHzl2adQV2rezl4luhzljZfexGQ28diXHsPtdVVJVtTf06uCACUQ0sUbLMwuAhBuDNPZ005DS70GU7XE6Dvlrz7VonxBEEmn0izPR5VtIUouo3gOBOsCNLc30dhWvVZHZUrEE7z1o3foP9RH34HeqlnglTPX+MHfvEhqK81T33yCow8fVmxMKuxSJFkim8lx4YNLxNc36T/aR11TQMszI0hJJVKMX5tifWkDq9NKc18D3ogH5JKqrlJ6IlXUARVECvmCshptXkIqSIiigMlu0taAMcrTSh14aQYokEvlmRtcYnNFcaFuv6MFt99VJl0xFxfAq5ypJuMpbnw8hCiK3PXAAVxelyZVkWU4/+5F3vrnd/EE3Dz1+1+k5449ZVKCynI3slvSp0q1gb5ura9uMDk0zeL0IjIykaYw4eY6wo0hTEUoqqnuMaijtfqRytml/vnzuQLRuRWWZ1dYW15DFEVau5vp6u/UXJYrJSjq90r1hfJbSjC4M++dJbWV5vC9d9La2VL1HGWzaVmm490z3PlXPyRvs3DpT7/O/IlDhiua14IUgPmpeW5cusVmLIE/6KX3QC+RpjBqpFj9uXoJipHa52dRCRvbaKiTI4GFqUUGrwyTzeTo7Gln76E+zQ1ZL12plJqkkmne/cn7mM1mHn/yMZwuZ+lc0WSoAnr71XdYWljmmd/+Gj6/77akKh9+cIorF6/wrT/8FsFAQHuPn1Wq8otQ//wyS1R+ZUAFfr7qH/05tWxVMpkM/+3P/4LW1hae/KoSG2U3cVXU3xkZGuG1V17n8LE7OXriaJUKyBBWoiu8+dKbCKLIo088UmWzUglHlcCS2EwwMTzJxMgkW4ktbHYbDS0NBOv8BMIBvH5PmZTpZxH1ghK+Pr4eJ7YeI7YaZ3V5jURccSW12W1EmsI0tjYQaQxjs9t2uBtl+X7qrY9IbCZ49KlHECogS5KUmDXv/+QkP3nudcKNYb72R0/S0dtelq+5fI5z711kYzXG/rv7CTUGNSlHSXpSgpTVhTVGLk0gSxKNPRHq2oJlkg+9ikcPKIVCgXQiw9ZaksR6kmQsRSEnVYGgmkwWEavTisVuxuay4o24sTqtNTtDfecqCBBfSjA/tEQhJ9HQFaGlrxFzUdRdC1bMoolUIs3VUzcwmUzc9eBBnG4nU4MzvPbdt9hYjfP4b36G448dUULGV6gzdoIU/XHDtmigWkhtpZgcnmZ+Uln2QBAgEFZipgQjAdxeF+g6+50mI0ZJHRBkWSa9lSa2usny7DIri2sgyzjcDhpb62nracHhcmrvUrJR2BlQAKLzK1z86AoAJx4+RigSKh6vVgko9yu9lymVYd8/vcre779O9EAvF/7j14l1lquDqoyKZYlcNsfF05eYn1nE7XWx95AinSxJhsttt4Aq1WhlPurb2O0kI1s0fT4VcgVGro8xPTqLzWblyAN3EYqEdoSV9ZUNTr5ximA4yCNfeAiLxVK0PzFWAW1tJnnp+y/T2NzIF578nPYM5grJmBGoJJNJ/u6/f4eBOwZ47PHHyn5Dfa9aE4rK964s51+h4G+fPlCBn59UZTf2Fj+rVOX0qdN8ePIUv/lbz9LS1mIYrVb72yC2yjtvvcvN6zd59HOfobtvz65gZXVllTdefot8Lsf9j95PY+v20hw9HKnn5PN5FucWmRieZHkxqrghymCxmgnUBfAFPNjsNqw2Kza7DZvdWlzhVFYkAYWCJhXIpDMkt1JsbW6RTKRIbiVJp9Ja7bJYLYQiQerqQ4Qb6vCH/FrMiN2kSqicGp3m4keXeeiJ+/EFfRVeIqW8im3E+ck/vM5Hb33CXfcf5Au//Ti+kAdJlhi7McHItTH6j/YRaalTgERnLKt+zxfyrMytMnxxHIfHRtehdiwOs2ZHVAKbQhmgJNa3WJ+Ls7maUCRHgNVhwe6zYbKIoLkmK59SQSKfyZNN5cinC+RSefIZxVXZ4bMTaPLiDrswW8yGnaK+k0WCxZEoq7PrhJqD7DnUri3GZwQr6rHkZorLJ6/j9riYuDnFrfPD3P3YER595iHcHjdQbUMAuk64hnH0blKZlEQ3EBakArHVGEtzUZbmlknEtorPAU6PE7fPjdPj0NYCMlvMiCYRs9msqWIUN9p8cSuQy+ZIJlJsbmyyFdsiEUuQzxUQBAG7w0Z9a72ijgp6dUtYVEtPyt7dAFA2ohsMXh0hurCCx+fmxCN3K2v+7AJQKpNzcYVDf/UDWk+eZ/jJR7j2zSfJet2GE658Ic+Zd88SXYjSd7CHPf0lmysw9oLTl0H5hKoaTnYLhdt5+Bnl2+b6Jpc/vkY2neP4w0cJ1e8MK7OT85z94BwHj9zBwJ0DZcfLbFGKf9+4fJOzH53ny09/kebW5ppSFeXa8vhE77z1LsODw/zJf/oT7Dabrt7XNqrdDaio5xrlm1H+7WZ/rfRrUPlXSL9o9Y/+vFpSlWw2y7f/+tuYLRZ+5/e+gclkui0VUDab5eUXX2ZhfoEvfuUJmlqadgUr8Xict199h7XVdQYO7eOOu/ZjMpsMpSvq8xoBiwpc8Y046yvrrEbXWF1eJR7bLK5Ls7u8FwSwOx243A6cbhcujwtfwIs/6MPpLsWogO07ZKMyqCyL2HqMt196j0MnDtDe3VYTVNT8mx2b44Vvv8T0yAyPfOUBjj12hDM/PUcg4ueOE/vKovyqKh/VZiQ6F2XowjhOn52ew50IZkGDFL2qRwGdPMl4iuWxFeLRBIJJwBmwFzcHJpvJsE7VSoWsxObSFptLW2RTeUwmEXfYSV1bALvHXmYLUQkroigQnVhncXSZhs4I7QMthp2wvmPPZwu8/p23uXl2iI69bTzxzc/S0FZfBia7AZVaKqHty7u2qlEPLqmtFGsr68TXN0nEt9jc2CS1ldLV09K5gqBAYKFQMOzpzBYzbp8Lr99bjLLswRf0lQaaGu9VLcYvNzheX9lg6OoIS3PL2B12evd3s6e/S3M7vp24KJUpfGWIu/7rP+JaXuXKt77KyBP3Ixc9B0EBu6tnrzM+NMHBu/fT3tOmtQnYHlIMz9nGI1C/v1baTvVjBCzZdJaz710gk8py/JGjVZIVk2guU1uaRDNn3j/L4swin3/6c/gDPkMVkPq9kC/ww++9SFNTI49/6bHbkqqo0Wq/8KUnGBjo197l563++TWoVKdPFajAv71UBWB4eIQXfvgCDz3yEEeOHa6Sqqj3qQUryWSSF/75BRKJBE8+8yShuuCuYCWTzXDm5CeMDI7i9Xs5/sDdhBvqDEFJe54KYDF6H+V5lWiemXRG2TJZ0qk0gqgYGyqzVhOiyYTVasXpdpTFf6iVdmpYhnYGFeAoyzIvP/cqrV0tHDi2v+L9qkFFXdfo8sfXePnvXyWbztE10MEXv/U4DpfdUOVTKORZWVhl8NwoTp+DnsMdNSGlIOVJJzMsjUbZWNxEMEGg1Ueg2VP0AKqGxlrvapRXsiyT3cqTWEqSiCaRJQi1+wh3BBH1cVSKwGIWzZoqaHF4hZXpNVr3NtHU3VAFKyZR6aBvnR3h5PMfYTKbaOlu4uB9++k71FPlAbQTqNSClJ1cbY1m5dvBC5QAJp/LK9K8ZJqCJjnJk88rUj81eqoaQ8VsMeN0O3C4HNrgpE+3E0VZHwdkYzXG4NURlmaXsNlt9Ax0093fhdli3hZObrdNyPkCXa9/yKG/fYFUwMuFP/1N5g/tVSSFt8a5eu46Pfv20H9XX5WrfiWk1JKibBdnKZfNE1+Pk8vkiosGCsqnIGC2mnH73OXqHrE8H2sBi1qnMqksZ987Ty6T4/gjxwiGg1rdK3ctVgAkncrw1o/fIVSnqIBMJlOZCqgkWVGkKpfOXubKhWs889tPE6oLVUlV1PZTCSqCIPC3f/V3ROrDZa7KlaCi1JN/G/XPr0HllyT9e5CqyLLM8z98gempKb71B9/C4/XsWgWk/lZsI8YP/+l5EGS+8htP4XK7tN/YDlYAZqZnOf3eR2zGN+kd6OGuu+9U1DQ7AEv5uxmLdmvl/25sAGDnAWqne5Y9Mp59bgAAIABJREFUiw76Tr5xinw+zwOfv29XoKKuqbQ8H+X5v3yJqeFpWvY087nf+Qz1bREtHo2q8onOrzB0bhS7x0bv0S4wYQgpuVyWhdFlVmc2kGUZf4uHYKsXwSTUlKbp37XWejS1FiKUCzKr4zE2l7awua009IVxB3RGs5WwAszeWGRjMU7XoQ7CLcGyzjs6vcr73z/N6vwa9375bo49dhdjVydZW9zgns8fw2qzlrng1gIVI3sNo/L/WUB1N7P4naBvp7QTYFWqLtR9+XyBxZklpkanWV1aw2q10Lu/h669nVWLGdb6vd0ko3Zg3kxwxz+8Qt+P3mHu7jt49YsP8ubNMRpb6jn8wJ0IglDWHtT71IKUSqkkKHmfSqRYW9kgthJjYyXGVjxZ9KIzrrsmixl/nZdA2I8/7MPj9xhKGfR5awgr754nl81x4pFjBIqwYjaV1JYqbIuCyPjQJJfPXOH4A8fo7u/eVqqSSWX44T+8SO/eHh78zP3F88xUqn+MYOXUydNcuXiFP/6zP8HldGigor3Hr0Flu/Tpck/Wp9t1U1ZdxgzvVbFf74asXSvLpe+6K/X3LvssuqI1NTZy8eJF4vE4vXt7lXvLss69rOS8XO4mVnLTbG5t5vqVG0xPztC7t0dzkyx/ZlDLWywORF6fh5593eTzeYZvjDA+PIHb48Yb8Bbd+/QzRKHKxVN/r9IMUyipFHRuy5qrsW7/dttOrn96d+XKfWrelOe78gzxjRgLM4v07NtTfIei06SsdwUvulFKkublcPWTG3hDHr78rc8zN7nA69/9KbG1OM17GjFZRGQgsbHJzTND2N12eo92IZpFCrKEpLkUF5AkZR2UiUuzxJY28TW4aRqI4Ak7QahW+anXqW6gBRVgK/6TpIJ2vTIgFfNGqwDgCjmwe2xsrSTZmI2TzxVweK2KTYbqoikUvwkC/oiHZDxNdGoVp9eB0+0gGUty8gcf8/4PPqK9v4Wv/Kcv0rm/HbPJhMPlYG5sAYvVrC1NoEJQdRnp6oSuk1Y+y8XhpcGqdj3Yzi1evbc2A66os7U2/TOa9GHU9ZtYLpkylbkr6/aJqj3FFsPXR7n88VXmJucxmUz07u/h6INHqW+ux2Q2Y9LV/+r827ltVPVNWuADJRWsZhaO7GfygcPUf3yFh/7xNXxmE8FnPotss5QBh1rv9Ooe1XXYCFIkqcDKwio3zg8yfHWM5bkoyUQKp8dBQ1uE9r2ttPQ009jZQGNHPQ0d9TS01ROI+BFNJjY3EizNRJmfWGRufJ5CPo/L59KWi1BdkHVBIXT7FDfkhpYIizNLTI/OEm4M4XA6y84RtX4VgnVBlhejTI/P0NnTodlyqb2lWqdEUcRqtZJMJBkZGqV/oA9rcXVkiudtVyYOh4Orl6/hD/hpaGjQ3PiN3JVruSkbuSOr51bur/W3mrZzXzZKv2AX5Zruyb9yoAK1Y6oYQ0zl2hi7i6ui3ks93263owSCu0R9fT3BULAYw0JQo3hog4cRrMiA2+0mHFF89men5+joasdqtRrCitrwKP5rMplobW+lqbWJ+Zl5Bq8PMTM+i9lixhfwYTKbdQ282GiF3cWlqBww9CDz89j0jdu4kVfAIZBJZ5ibmqepvQmbw8Z2oKLGqInOrzBxa5Leg93UNYfoP9JL5/52Ln94nZM/Oo1oEom0hbjxyRCyJNF3vFtZIbkIGwU1FookkUlmGD03SS6To2kgQqDVh2iCfKEEMwWpUFQrFVVLQEEuQpMkKW7NUkUsiiJQCUplVGbCQmkWrZah1WHB1+hGKkhszG+ytZbCU+9UOlp0+QeIJhF/xMPmyhbLkyvMjy7y9ndOIppNPPHHj3Hwwf1YbRat7O1OO7G1TdajMdp6WkrQQ3VHXgkC26lIymBlh4F6N3Cs1uHtwKQKbGrAigokesBWwUQUTciSTHRhlYmhKa6fv8nIjVE2Ywma2ho5dPwQB47uJ9xQh8Vs1q7dDkyM8lKt96V2Xg4slW1APZb2unjeauWK1czT47Mc/NG7ZLwuVjuakIVymxOjeELqfhVS0skU1z+5xdjNCSRJpr2vle47Oum+o5NIWwRfnU8xXLaZi4tnKgtA2pxWnF4nocYAzXsaqW+P4PK7kPIS8xOLLE4t4XDbcXocqJVZH6+nClasFuqbI8xPL7I4s0Rbd2upr9LKuVSXQuEgIzfHKOTzNLc1a72jKJSuUed5gYCfm1dvYbFYaG5tqi6bGvXT7XYzPDjMVmKL/oF+A7ik6nvl5PYXGU+lEoj+jdOnF1QqG+9uUi1QMTpmOHPZhVRFvZd+UG1samR8bILr16+zb98+xe1WVzEqYUVfadSn8Af81NXVce3KdUYGR2hubcbpclZVLqUxqFeiAYXL7aJ3Xw/+gJ/oUpThm4qERZZl/EE/FotFC4oF1dCiDgjqAFE+MBhDixHU3M5WCT1GsxI9rMiAaDIxNjiOP+TDF/RRC1Q0aQoy44MTJDdT9B/tQxBAkgp4gh4O3r8Pp8/J6VfOcvn968iyxN4Tvbh8jmKANrkoTVGAI5vJMX5hilw2T/tdzdh91mrPn0oPL1Uik5fIpbOkk1kyiSzpeJbUeoZsMocsyGCiCCalAUQDl+I/Sv1UZqXOoAOHx8bG3Ca5TB5XyKEMijpJmoCIIEJseZNLb15nZXqN+589zn1fPYYn4NHqg9rpA+QyeVbmV2ntacZcHHzVsqoaYMVKYCkX6av1ZbuBuyawbFPHjCR4euDeTspXgpDy/apkBQk21xMszCwxfG2Eq2evMzM+y2Zsk1A4SM9AD0fuvYuO7nYlIGEVnJTeT5WMGg1qlckIWvR9VKVUBZSYPJfOXEE80EPsT56hYBY58ncv0/nRFdbaG0nU+UvSk4oVwzVJS9GOa2FqkSunr5FMpNizv5N9x/rw13kxF1fBluRSe1IgR665mS0m3D4nkdYwwcYAG9EYs6PzbCVS+Ou8iuNBmXSlWMkrYMXn9zI1PI0oioTqg8X+qgR76tkOh4NEPMHsxCzd/d3FtZxE3XklALHb7SzOL7GytMLAgf6yY/o+uVgAZWrVtdVVJsYnOXr30bK2UDnhKpXdzp/bfd9u33b7a6Vfg8q/Uvp5qn+Mj92eVMWIkmVZxmQy0dbeypVLV5iemWbf/n2IJlNNWEHAEFaCoSBt7W0MDw5z49pNIpEwPr/PsCKrsKIXc5pEE8FQgN6BXuqb6olvxBm+OcLwjRHWV9eRZXC5XYbQogeXWgODfpZbNqhsMziA8TVqXhiBSyUI6lVnFquFkZujWO1W6psjGIFKQVa8PWQUg9ebF4bw1XlpaItQkArFc5ROO9Jaxx337WVqcIaJa9NsRGPUtQSxuqzIkhpRtkA+V2Di0jTJzTStBxqxeizIslRmS6R+L0gFCrLiSZTZzLI2GWdlZJ34whaJpRTJlTTJtTTpmAIricUUW0sp0vEshZwEIghmpZwlWZHAUOzY0ZQ8YHEoILExt4nZKuLw2tHOECC+tMmp584z/PE4rf2NtPY3sfd4d3F9H6GiM1f+zmVyrMyvEWmuw+60V5VzLaiohBT1uyRJrK/EmByZZvTGGDPjs8yOzynbxDxzk3MszS6zFl1nc32Trc0tMqm04jYMSiwYUTQEZH3d2k4FVClBUc/PZfJsxhKsLK4yNTrN8LURrl+4yeTwFMvzUQBaOpoZuLOfu04coqO7nbpwSGk/OripBSY7SY8qtzKpbQWsGIHKanSV8aFJeu/oxhPwsry3g8HPHsc7u8R9f/E8vrkllnrbyDptWntQQUOFlHwhz63zQ4zfmMDtd3HgngFCDQEEnTSvJIFR2pc+kvJ2myCA1W6hvj2MKIrMjy+wOLWEy+vA4bajdly1YMXtcZGIbzEzPkdzRyM2m007rgB5SVridLsYvTWGw2knXB8uQbiufqvfC/k8w4OjdPV04nSWAk0a1m9KKZvNMjQ4THdPNx6PuwpMan03+pQN9qnlWgkUn2ZQMf9bPsW/1yQIYpnBniiKmvGjKAglsXvFefqkXhMKhfj8E5/nRy/+mA/f/5CHPvMQgihqxrX6+4mCqHiFSMr6LhIgoszAGxrr+Y3feoZXfvwTXn3pde576F4GDuxTGpvuESRAYSEJJFE7JBb/aW1robm1idXoKoPXBpmemmVqbBqTSaS+qZ62zjYiTRE8XrdmHKca7EuyBELJk0d9blOFAdduDGtFk1i6Z0XS2+vKskTJ8FDUPiRJQhBExOI9TKKIP+gjvhZHFBQbku1SIrZFJpmhs7+96n3U7xsrMRq76jn4mf1cP3mLH/znl9h3fx8HH9uH2S5SKEjMXJ8jsZ6kaV8Eh9+uGeGqnkPqmkuK51CBxHKS+EKCTCKLIAo4I3bMThOCGUSziGgRMFlEClmJdDxLdjNHdjNHci2NgIAzZMPX5sLiUMLzA4hKUQOiUl8Ab4uL9GaWpZE1bG4b7oCL3FaeW++OMn5uhrY7mnjyf3kMq9XG4OlRlqZWaOtrVgyuheJ9JAlTcTE6h1tRZSYTKbxBr1Z+u0kqpGTSGRZnlonOR4kurpLP5RFEAX9RFUmZ1AiSiRSZhQy5bN7wvja7FZvDjt1uxWKzYLFYsFgtWK3Kp8lsKs5+BU3UL1OKoZLL5cnncuSyeVLJNMlEkuRWkkK+VHcsVjP+oJ+e/m6CdQH8dX5tMFJTmTFkhXFipXHj7bgfl/ULKPVc3xepxyrb0NLcMoIoEG4IafvSPg+n/uxZbn7uHu756xf5rT/5z1z46sOcf/IBJKupDFJkWWbw4jDzkwt09LfR1teKIKhwUm5YC7v3Wiu9WOlrW18zwXo/QxdHufrRTQbu3kukuU7pA5TuUDldEkGUMBXft+9gD8vzUW5dGuLIA4dBEhFNxWeQ1DKRCIT8BMNBRm6O0jvQi2gWkWQZsSil1Odte1c7H394lrHhcUJ1ddozytpkwDg1tTQBMD83T2Njg3KNJGlGtWWvLkm/aAPWfxfpUwEqlY11V9cYNOjtjm0LITq4qLyH0b369vZx9NgRzp09T1Nzk2JcK4rKAFMciCXE4qBsDCsAXp+Xp5/9Km+++iYfvneKjbUN7r7vWMkNuAJYRFFCxKTomlGAQv2NcCRM6JEQJySJ5YVlpiemmRyf5szJT4BiULZwiFA4SDAcJBAK4HI7yzraMoApy7xqmKmVDJusbqdazCqwKJ1MKY/0eR+oCzA+NFEOMRQMfzc6vwJAqCFY9vyajl6SmRmex+Fx0Lq3ida+RqYGZzn9wjlGzk9w6PF+PHVu1pfiRLpD+Oo95IuQUlLtKPcqSBLxpS02JuPks3lMDhP+Dg/2kBXRJFSI3pWBWrQJOOosOOoUT5FCpkBqJUdiIUVqPYO31YW30aWohqiGFVE0E+kLMHtpmfnrSwiCwMipKVwBJw/9wXEauyIocVNM+CJelidXaNxTj81SMiTUJ4fLDgIkN5PblqdaHqo0RR0I1lc2OPv+eTLpLE6Xk9bOFiJNYeqb67HqvGFK9yjVs3w+r7jEpxSX+HQqQzqVKn6myaQybG4kyGVzZDPZ2+obzGYTZosFh8OOz++lsaUBl9uJ2+vG7XHj8bl1M9yKZ6xws631/Gq6XY839R56YNHDir6P0vdJywtRAiE/Vputqg9b7Wrmpf/7T+n86Ar3/O0r7Hv7HCe/+XmGj+8r/q7M0OUR5sbnad/bStdAhyYpqYQUo4UOd2zvQinQnCpZc/tdHLx/gOsfDXLj7CDC8X7CjaEqWBEpAhVgc9ro2tfJ6LUxogtR6pvqlQlLMY/l4qRKliW6+/dw9uQ5FucWaW5r1mDHhNpnK43I7rTT0FTPxOgkR44fLoNxPdRUJq/Xi9frYX5unsNH7qo6d7trt0u/ylDzqQCVX0SqBUflnUU5rJQ6FIGHHn6IhfkF3njtDUJ1IUJ1oYprtocVteOy2+088eQTnD55mssXrzA3O89Djz1ApD5iKF1Rnr0cWEBp/KIgIgkSTS1NNDQ3cPTeo6yvrBFdXmFlaYVodIVbVwc1uw5BEHC6nLg9bpxuJx6vG4fTjs1ux16MWmt32LDZbFrnro+gbgiKgqka+gz+ULNelTCV8qgEF/6gn0K+wGYsgcdfipwqFVlFFEQKRXCJLqzg9ruxOWwUpPIZuyRLLM9GSSfS9BzpQhAEClKBxp56nvyfPsvgmVEuvnYN0STSdbSVUKu/3BBR67SL3hJjG2wuJLB6Lfj3+LB6LZTC7Ze7i5Y/h6y9s2gVcDfbsYcsxKe22JhKkIymCe/1Y3Eo9gJ6WBFkCdEkYnWaGfzpBFJBYv/neum6q02JfCuXZqfhjiBj56ZYnV2joSOiXCvogtEJJkxmEzaHjdRWurysKqLPGoXMX11e5ex7F7A7bJx44jjBUKAq2Nl27rpWixWrxYrHs/NgL8sShXyBbDZLoaAaKBdtlIrVzGw2YbFaMFvMmEzbd4m3KyExDM51m4ONCiHq++iBpbJvqUyZdIb11Q36DvTW/gFBYOyeA0zctZdDL33AZ//r8xx6rYl3vvUFzmayTI/MKGsZaZAilbVRo1hS6vNVHi//WVEHXSVgQVKC7e0/sZerp29y48wgh+7fTyAcqMgXWZOqAHT2tjM7NseNC7eoa6hDFM0ayIiUJCfN7U3YHXaGb4zQ3NZcghhJApNynjq16tyjSFXW19YJ1dVVAwdKnyNWxIhqbG5ibnau+Js7S80q4UWWpdsC2U97+tSAyi9CqnI7KqDKDsVsNvPkU0/y3b//Hs9//wV+6xtfx+NT4qvcLqyYzWbuf+h+Wtpaee+n7/HiP/+Yg3cd4Mjxw5jNxSKWSs9gBCwIpcFK/T1JlqiLhAmGQ/QN9AGQy+ZYX11nY22D+KZiK7AZTxBdWGZqdMowPwVBwGq1YLPblXD7Dht2ux2vz43H58XjdePxurXBShXDqknSoYqq2tHPIlVYKZWJcl4orBjWbaxuaKBSK21tJgk36cW75e+xtriueNJEvIqLsPo8JpG+E12YbCYGT41y64MxYkub9H+2G7vXUiZNkWWJ2MIWm4tbuBudeNsUvbfefkX9baOZqFa/VcM/JEw2gUCvm8xGntjEFkvX16nfHyiDFUwiW6tJRt+bYXU8RsO+OhxeO5HuoGKgq+apLAEmXH4nVoeV2MomDR2R0u/LEmKxLCRJwmI1k88Zq2FqzRiTiS0unLyEy+Pk3sdO4HQ6dTZK5ZBS6SGk3fu2BnolnobVtrv1osqurPEOu5WOGD3n7cykNUmDWMrzSmAxqif6viudVJaq8Pi2r/8AOYuJT55+iOsPHuTef3iT3/lf/4JwZyPZBw/RfrCryhawLP5KRUwmNW2n9lWPGQKLBGarmTvu7efS+9cZvDjCsUfvAsw1pSpms5meA91cO3Odteg64fo61BUOVLUlKG22bU8b44NjFPIFREu1+keFlpb2FuSTn7A4t0iorq6sDZTnhaxIuovlE6kPM3RriFQqjcvpKMuzn0Wa8quePjWg8suQtlMB6b+rg6zX5+WZZ7/GP/3DP/H8D57n69/4OnaHfUdYAUDSSUiQQBTZ091FU1MjH536iCsXrzI+OsFDjz5Ic2tTqdOsASzKMVE9BaAKWgBsNhuRxgiRxtIAptrXFAoFMukMqVSaVCqtiOHTadLpDJlUhnRaEdFvxbdYWVwhnS6fjbu9bhqaGujq6SBcX6fT+5c6QFWFU3zxMliBcrh0e13Y7DZWl9do727T7FQqbVYkSSKXyWG1l6s5SoAhE1/bxBMsBaZSPCSUzjmfz7O1tsXe+7twhZxcfu0m7/6Xj+k60ULnPS2IFqXzTcYzrI5v4PDb8Le7tftXuoKq6zxVptKgoBWcdszmNxPc62FtcJOV4Rj1dwRBhHymwNzZeeYuRAl1+Tjxhwdx+uxMn10ktrCJw+tAlHWzRElGNMk4vXaS8ZRWvpIgYqoYn2VJ3hU0qGqfQr7A2fcvIAgCxx8+VgUptQBlO5VKaf+/ngFgrZnt7YDI7c6O5YoBTe03oFTnqyS3RUivhAO9QXTlb1TGTgFIhHy8/j98jdf62/niD97jvzz3Nh9ms5x97DCFYqBCqaL9VEJKpb3KdsmVTHP85HX2XpuibimGYytNymVjtT7AyMEupIEOzl6dYGZ4jg6dDRnA4//lBe744DIzA528+H/9CfVNYW6aTMxNzhGurytT/xz/f/6GPW+eZvnQXhb/5z9k5MYIy4vLNLc2Gz0Wkizh9rixO2xEl1fK3rdWlG0Vsnx+PwAbGxtloLJT+peATK1rPw1w9KkClV+0VKXWeUb3Ua+rr6/n6Wee5vv//H1++P3neebZr9WEFSiXKKhEobdbcTgdPPzow/T29fLuT9/llRd/QntnG3ceOURDU4MhsGjSlKLRrSZlgSpJi/o+oJN6FGcqgihitlhweUqzN7lGeUiyTCadIR7bJB6LE9uIsb62wdTYFKODozhdTrp6Ouns7cTn86hXFf+tljIpzyWgTreKEyLq6oOsLq9pZYJBWWuLAtqshjPAZCJNNpXFE3QZvktseZN8roCv0YvDZ+P4Nw6xNBzl2hsjzFxepPuhNkLdHqKDa5isIv8/e+8dJMeV5/l90pR3XV1dXVXtPdBwDQ8C9CTIGY4fzuzszM6aW3e7odjb0z8KhSIUilXoD0VIipCJuNNK2rtYMzeO4zmGnsQQILxpAA3b3ntvymbqj6zMysyq6m6Q4MwsyR+i0FWZL1++fPnM931/5oVbA4ZrdDmQslkUXgOrmpOIIrJHJNjoZbFvjaWxVdKLWUbem8LhcbDnK61EW8IIgratva/Kw9LkCtWtVSgOBUERUITCoO4JelicWiadSuN2u4venShooKbURoOlNptTFIUrp6+xvrLOiZPHCQQDRhrzJnLm6+2RO7XvW6tWtisPqoJ5UBDyQcCTYlu1G++8DJtYbhwrV7atDF2VnMK7G2kufO1p/lgSeerbb3DwzSu8+s1nudfVApSySykPUsrd79CFXr78nXfxrqe0dIJA0uPEt5IksDxO0/1xHvvlRf7+0V28fHuY6vooXr/XYFXszyQ7ZKK1VUwMTbLn0G6cTkdetSMazgCoUBXTVO3TEzMk6hJl7VRUVKqiVRagoj3j5ga14XAeqMwvUFuTKJnmtxyz5F+VfKSAyochD0sFtJlxbX1DPV968Uv85Ec/4fvffYmvff33SoOVMoyCrgrSDmnsSn1jPV//o69z7Uo33Veu8ePv/5S6+loOHD1AbZ2VYTGLwaZIppVZnmnBVnbJXg+lBkup9AAqAR6PG4/HTSwe1W6jqmQyGYYHRui710dP9y1uXL1JdbyaE08fJxDQgYJiAW522xSzVFVHGBuaILmRxOl25usqZwEt6VQa0FwkS4GZ5bllAAKVfgNYmG1J5kY1tZAv7DFskKJtlTz+VwcZvDDGndcGcJyWqWj0U/9INYJsc3EvA1LKDe52wGKejFxhbWuEvl+NoWRV6k/EqOmqQnZoaihJ0NpMKO7XPI5mVqisCRfl7w5o7NLGSrIIqBjlVpRNJ2MziLl/o4/p8Rm6ju4lmtBUbJqbZzFIsQMU/R6bedMYxx/CynE74KfccwsIZNIZNkzGvfpH24HcNDkJmutsIBigOh6lorICIa/6MOev93szu1luzNHLb3CjZcq5lSfc1Og0G+sbtO9v4Xqikp5DbTz60zN87f/8EQOdDfzyG08yWxPJl08pC1I2A0THf32Lr3z714gqjDRGefULR+nb3YDicCBmc7TfHeP5H5+lbmCKf//GVTjQxpnuPvad2GPKpVgdVdOYYHJ4ipnJWRJ18YL3j0lkh7YL/OT4FF16uW1G//qvqmiEG1dvksmkcTlL9wW7VIQrEEWRubm5QknLeP58IlvLRw6oPGxW5X2VYZtgxVzWtrY2XvzKi/zohz/iu9/+Hl/7+tfw+jTK0OINZBu0LKog1awG0dQ0x44fpevAPnqu3+Tq5W5e/uHPiSVi7D+0j8bmxsKkgFgAPfpgk8/aDFosbAtsCV7054biwUKx9VlRUXA5nbTvaKW1o4WN9Q367vXRffkGv/jhLzn+5CM0Ntfn81OswC0PVnQVkP67IqKtbFaX1qh0F3uwCKJAKpkHKq7SHi7L8yvIThmP3100uKfW06zOrxNtDhfp8EVJpOFoAkdAZvDsGJPX58hlFBoercbhky12KXZ1T1Fd2QChfkzM17eiQHpNYeLsPIt9q/iq3VTtrCDeVYkgCobOXV9dukMuZJfMyvSaBaho707CE9AG5LXlDcLRCutz6TEeVI1RKaWaMf9dml/h/s1emjoaadnZjCiIRSDFzKKYAUopcFIKjHwQcLH1dbpdiEpyI8n62jpra+tsrG2wsb7B+voG62sbhjtzJpMpUT4hv7ePUIhVoqraPlNZzc7H6XISjUWJxiLUNdQSjoTL9vtSqh47w7iVlGMYVVVl8O4I3oCXqkQEFZWM28nbX3uSK0/u4+R33uJv/vt/5vyz+3nzi8dY9zjz121f3VM7PMuXv3caUYUbXU38y199CkXOb0GgKiiyxP09jfR11vPN//uX7LrSx99099MT8rHQVktlrNLqEm/qe9FEFQ6ng/HBCRJ1cYv6xyzViSj3e3rJZDK4nJoNk95PzFJVXYWiqszPLZBIFNiRzVQqkiQRDoeZm5vfsi4+ka3lIwdU3q88bBXQgxrXArS0tvCVr36FH/3gR3znW9/mq7//VS2QW951WROl7KBlVgVBQR3kdrs5cPgge/fv43bPba5cvMKrP38dj9fDjs4Odu7eQbgyXMSyWJ7b9N3CtlAavEDxZLsVA2MGLqKi4PN52bN/D00tTbzz+inefeM0G8cPsXNPhwWsbCahiiAAy4vLVMUj5FTF8PzR768bhDqcpbvD2vIG/pDPmGTMsjyzAkBFImQ8s8ULIquwNrtB4/EanH6JvrfHuPqP96k5HKFZvO4tAAAgAElEQVR6f4XhTqxLOQ8Ks9gHSCWjMNu9xEz3Mr64m86vN6BmYHl4nfRaBk9AMl1XoLR9EQ+rU2tG4C1zvg6X5gWTylPypSSXVQxvh822nh+4M4jDKbP30K5Nqe5CwLYCg1IKBG2207A9rS76buO5bI5cTvtouydnNTfmTIZsNme4NKdT6QIbkrezSm4kUXKK5RlEQcTjdeP1eQlHwtQ21OLzefH4PHi9Xtx51tDldhWxQFpbUVldWWV6YobpyWmmJ6e5NjxG96Ub7D/Sxe6uzvz9CmpPKKiAjXoq0xf0e+aypd3yS8nG6gbL88u072/DHFQOYKG6gu/97ZdoujXIZ771Nl3v3ea1F49z/vFdqLZXYW+/5rb9wk/PI2cVliq8fPtPnyErCXkPGpMtjqqCJPKDP/8U/3X/PxFcXOPP747yf+2bojJWWbZ/CIJArLaaqfEp2/2t0XujsSru3rjH4twisUSsbH2EKzWgvjA3TyweK7IdKgWCAMKRMAvzC2Xz/US2Lx9JoPJ+WJUt8/wA9irmtJsZ1wI0tzTz9T/4Oj946Yf8l3/5Nl/56ovEEjEjKJw+QYN10LJ8MQEWw51R1Dbb6jrQxe69uxkaHObWjR5uXLvBtcvdJGrj7Ni1g8bmRrxej9GpdaalqA7sTIpUrHopAjCFopnSlBYdtIiKQjAU4IUvfpp33zzNpbOXSaVSdB3ehx4ZxbDDL8GqeLwevD4PC3NLxnuwryI1zyih7GCuZHM43aW9RtJJbSt7h1vOR7PNX5Ovv9SqRvf7qjy4QjK7fq+JuXtLDL07yXTPIrUnKgk0ey2TgZlpMYs5CqmiKggILPSuMnV+CUESaHg2SqjFhySK5NIq6rBKeiWLy1/CMBMRh1vWoo5mc0jOYuNAoRBsuUhy2RzZTBa3t1Av5kizuqSSGSaGJ2ne0YjT5SrLpphBSil2xe4RlE6lWZxbZHlphVRSM9ROpQpG27lsjmw2q4GS/PcHEVmW8yDDQ8AfIBqN4vZogMTn9+L1+fD6PLg97nw5H5ytEfOu+KFQiFAoRPvONhRVYWMjycXTF7l64RpTE9M89swJXC5naRXwJjZaIhAI+BBFkZWl1TJlKB7X0mmNEfL6yxuBDnQ28B/+7pscPHWd53/0Hsfeus7Pvv4YvR01RWnt40JoYZWdPSMAnH5qDylPMZNpds9NeV2cP3mA535wmmPjczjHTOoU1XqNvkgKVPgZGxjXbKw8pfuuJ/98a6ulYwHp7IrXp3nnbawnS6dT8+ONPX+Ph4nkZMlrzLJVfJTtujg/LPldjNfykQQq71fejwpou/Yq5e5TCqzU1tXyh3/8TV763kt899vf5eTzz7F77y4LWNmaEi5hu5IXWZZpbWuhuaWJtbU17vTc4dbNW5x649eoqkp1LEpdYx2NTQ1Ux6utjdZUPUX1VYJJ2Q77YjA1JZgnHbA4HDJPPf8Ejncc3Lhyk3Q6zeFHDhaYFRtYQc0Z7ycSrWR+Zl6rl1yh3nU1jq7yKedqqyhK2cirmWQ2b9tSPJAoqkJqVVMrOfxyvjwCkY4QoSYfY5dnGHxjGl/MRfxEJe7K4u5YansIVVVJzWaYOrtMaj5D1YEAVftCRsh7AMkpIjlE0qsZoyxSPpaE7r0jObS9VHLpHJTQeqkqZQ0Gk2spBEHQAr+ZRJ9c9P19hu5rAfdadzYDxXYpW4EUrW2rzM/MMz0xzcLsAvOzCywvLVvsL5xOJ26PFr/H5/MiO2QcshaNVpZlJEmL/SJJ2m9ZlpFkEUmWcTmdRvRaLZqtE1ku7dXxsG0MxKKFjYjP6+XJ554gVhPj4pmL/PyHv+SJk48TrY5Y+j2Y1T2lbbREScQf9LO6vLqlXYouunF5OYZRF0USufD0PrqPtHPyZxf4y//9Z/R0NfHzr55gNqIZ1JcqU+u9CcR8s77eZY4EnR+zbBOloir07G/huR+cRgTahybJZnOIzuJ3oefhzrfLtdU13J7iQHcA7rw3zsb6Rv7a4gi1oNmzyLJc5KW4lbjdbpLJpMbm8a/f8+a3KR9ZoPJ+WZUHVQFtde+t7FXM383uh5FIhG/+0Td5+acv86tf/IrhoWGeff4ZY8txsypI+39rdqVwStftiAQCAQ4dPcTBIweZmZphaHCQocERrl3q5sqFq7jdLhI1CapiVcTi1VTHq63bnrONet6KfTHpfArAyipK3hznsadP4HQ5udndg8/nZVd+wzC76KtLBYVIdYSRwTGSG0lkp2wY1GrpRBwOrRuUC82ey20GVDI43OW70cZyCodb0sLg50z5S5A4EqFyR4DR92bp/cE4lZ1+qg4HEF0FGxC7ZNdzzF5aYen+BqF2D7Unwzh9jhLeMAJOv0xyJV22bDqLksuUVwsIZZBKMq8S8vi9eZBRrKLJ5XIM3R8mXleNP+gvSlMKpJjtUFQVRgdHuH39DnPT2iraF/ATiVbStrONSDRCKBzC5/Vq4fGNvMsYuj4AyHgYk0o52yyzlLLTAq0fdO7ZSXUsytuvneK1n73OgWP76dyzQ4tUbApbsJUEQn6WFjSD8FKMoigUAh9CAbDLju1NDxs+Ny9/4wnOPbGLz33vXf6b/+E7vPNcF29++gApVzHgi09o6pCMLDETq9g0uJnOJswmKsnKEnI2R8PyOt2LK1RWVxrpau6N8Fd//j8bv1VVJZPKIP/idD5+ioBzbcOSt9PpQJJEA6hsJm63i42NZL5MxbFUtMWMZLvGjZLLkclkLGOmkccHbGMfp6BwH1mg8mHJdlRAxddsH6xAAegEAgF+/xu/z3tnznLm9BkmJyb4/Jc+T1W0alN2BTYBLKbGbQYsAPGaONXxao48cpRkMsnw0DDDg8NMjk8y0D9oPE+4soJoLEqkqtKIqusxxQrYDnixACexGLSYAYux0tKU2Bw9cZiV5RW6L92gvrkh7w1UmlURRZFIVNs8bWF2iVhttGCnomqDtuzM7/yayxunCqK2v42goooibBIvJJ3M4K0oT5GnVzO4/HlwWaLtOAMyTc/HWBlfZ+LMPL3fnSR6KEjFLq+FzVByKos9a8xdXcUZlmn8YhWeqHPTwc7hl0kubJDLKCVXn5JD21wtmy4DVDZxwUzmI9K6vQVGxQ5EJoanSCfTtO5sKTAtglVNUgqkKDmFvvsD3L1xl9XlVQKhAMeeOEZDSwO+/OZw5VyWS4GRrSaE9zthbHeSKMUUlhOzyhMgEo3wha9+jnffOs3ls1dQFZXdXZ2FPr+J2lNX/4QqgowPT5DL5Qo7WYsKJk2l5qGV/51JZxAEQdvcbxuijz3TNZX8w99+js4bQ3z++2c4evYOL3/5GFeOtKGaPMB0V+QNrxNVFDatR8NwWxTY8LkILK0TTGdZWVy1ABUpm8O3WEK9lSwP1AVBwO31lFXpmMXtcZPKA5VS7aXU+OD2aH0jmUwWAZVP5MHkIw1UPgxWpZy8X+ParcCKJEk89vij1NfX8fLPfs63/ulbPP3s0+zbv89mtwIGu2L3DIIiwGL+Klr0OVpCr9dLx44OOnZoobeTGxtMTU0zPTnF5MQUYyNj3Lt937jM4/VQHY9SHasmnogRrY5avWg2qU79lJoHENrBAmAxDwE6WDn++DF+/N2fcuHdizz72act9ioY9SmgqBCuqkQUReZn5onVRi2rSlEQcbo01Y1OeReVL6dFtRTy4EUf31VVJZvKlmVUcpkc2VQOf7wYyNjbmC/upuXLMRbvrTF5fpGF22tUPxLEW+tkbTjF9Pll1KxK7NEQgVb3tnTITp+2a3J6LYPLpYOlwoQhOfJGtlnVCAqm78cjCiJqfqdkQbSpagSR5HoKh9OBy+0sipuiuyUP3B0iWOGnuiZq2KbYVT7Gdfnv0+PTvPf2OVLJFNFYlEPHD1HfVIecD21f5LK86f465evoQVaiD4WyLzOmbMdGy+128cynn+bt105x7WI3NfUJwpUVRfmJorYxpl0CFQFUVYu+7A8VYgHZVUF6m9SZRcmRVyVuugizq38Fbu9r4t6uek68dZ2vfOcMj73Tw4+/doLhZi1IpLDFZvfl2rZ+nSSJrC1Z7UpGdjXx0v/0lwiCiCzKCKLAWz86RaIhzsET+xEFkcf/t3+m7fWzlus8Hvc2GRX3+1L9ACQ3kgSDQcu535Qb/UdFPtJA5YPI+1EBfVhgRRAEmpqb+NM//zf84ue/5PVX3+De3fucfP5ZwpWaa6mdXYGCOqgUYFFMAKekWkgrgPHV6/PR2NRIY1NBp7y+vsbczBxzs3PMTM8yOTnJUP9w/vkEwpEKYvEYNbUJ6pvqrfE4SlStnWVRFNVmZ5NPJ4LP7+PA0QOcP32BsaFxahsKboO63j6XZ0hkWSYSrWRmYpbdBzsN5kQUVI1dkUTcHhdrZTbYk50Oi1pIu1bLQ5AEy+66hTQCoihZrsnZHlqfKFRFJbOWRXILhHf48Te5mbm6zOhr81p474xCpMtP5T4fYp4FURWV7IaC0yuU3E8HCnawou288d7z5Zbk4gEvm86i5HI486H47bKysEqgwjTp2VbGy3PLLM0tse/obqMeLKxKCbuUiZFJTr/xHsFQgKeef5JYTQxJ1LdVKACUUuDEPvBv5oW0mdjr6mHKVsblFjuz/F99MSKJIo8+eZzpyWnee+ccL3z5U0X2WdbwBAVWpao6H9xsfJpgRat2T5PHEDaw4sobnybXkngCHosdjG77BaUXgvqxnCxx6rkuLh/r4IWfnudv/9efcv7Rnbz0zcdZ82n5e9bTiKpQ5C1USiQE3HkmZsXl2DQ+jC6CKJRNZ05TSsVanPCTwGy/TfnIA5UPwwMIPhywAlbdpd3I1u/383tf+ypXr1zl3VPv8o//6Z84cuwwRx85WmS7UgqwQAmVkJag1FcraNEexvLT6/XhbfRR39gAaANtMplkanKaqYkpJiYm6L/fz+2bdzSXwUQ1TS1NNDY3UBGuKBig2m5jDLim0P6FQdg4ROeeHdztucfls5dJ1H02vxIrsCr6oC2KIvG6BDev3CS5kcLpchStJEPhEKuLq4ZKSBTz8UkEEa/fY6g6zCIIAi6Pi2w6azAGqqqi5CcQSRYRZc0Dx3yvnGmwFwSR7EaGO/8yys4/qkP2CkhOkeqjQYJtbsbfWqTuZARnhcMyoGY3FPq+PUX7NxO4/KXBhJLU0utgw66ayerxY0qAkY1V7Xk9fpNqJ8+IKDmFtaV1YruqS7IYoiAy1DuK7JBpbG0wri0uQ0HlMz48wek33yNcWcHJzz6Dx2u1fTEzKKXASalouIVybxKU7je8KrWoOWHb9lmqouDxuHnksWO8/do73Oq+zZ79u4w0et9QSqwA/AE/4UiIiZFJ2na1avcQrHZagGGnUhHR+ubS/AqegJUNLNh+bb6Pjy6rQQ8v/dFTnHliFzVjWkyRqYS2uHJkc0SnFpnO/y4HJEVBpGpiHjnvldfvdW1p6CsKItlMFodDa9vl3nM2k8Xj09WJxV5ruuRy2bJh88uJktPKK0nSw2HlPsbykQcq8OGpgB4WWAG2bWQriiKHDh+iY0cHp94+xbn3znPr5i2eOfkMre2txmqzJGApZcNi/2F+HNvzbQVcQMTj8dLU3ERTc1O+zDmmp6YZ7B+iv6+fc6fPc+70eYKhAPsO7GPn7h2WjRPNYgzchW2AraogWebYY0d49eXXudtzj11dnWDy6jGzKvGaam5ehtnJWWoaE/l8C3YqwXCAqYlpzUXZNq+5fS7mptaxGx0CONwO0hvlY43ILols6sFcY/XyuyudtHy1sKeSPaaFWQoshWCoZ7LJHKIkIDpKD5KZjawWiKyE6iq1mkZAwBfwGqoaXZbnNVuAUFXQKKsZVKSTacaHJmhqa8DhdJhURoKFTQGtb4wOjHHm7bNEqio5+ZlncHs9pjzLAxRBKAYsdlDyfpmVB0lXSsqOG/Y+9QD2Waqi0NLWxGBvEzeu3KS+uT6/vUSpTTm1nqIDl0R9gtvdd8ikM4bKz7yTuFY0zU7FF9S8ppbnl4k3FtrfVmKom81eh/lnHW+sZryxGlSF3o4EigCiCnuvDfBmIlwyL7N0XunV6kaA7kiQcJngjEZV5rSYOVsZBOeyOQPMbJXOVeaeZUFQ3iVeKuNBtl35Tbom/67KxwbmvV+/8IdliFe8PXz5AbWUB4U9j0AgwGc//1m++Yd/gNvt4Sc/+ik//P6PGB8d1/ITRWNwN69KzcG0BMFqk2DYEYhW7wv9I9g+en7mfIuuFyXiiQSPPPoI3/ijr/Onf/knPH3yKbw+L6ffOcO3//G7XLvcTSadKVxrm/i0yc1kMGk6X9dYR0NTPTev3GRjfaNInaD/rYxW4nK7mB6fMVxkzXUcrAyACusrG5bnBfD43KSTaW2n1bzqQbfdcHtdpJMZU9kEox4FQcThdpBNFa4z0tgisNqfzVz31nYilGQaSkk2mcPh0exUCvculC2TzCDJkgYm9HrPq3CSqykkh4TDXRjE9bKtzK8iCAIVkZDxbsxuyWMD4yg5hZadTUWePIXn0q4Z7B3izNtniVZHeO5zJ7cFUorarSgYH3P7lETZ2rYFzX7BfsxyXpKNj7ktP+hHlkrfp1yf0vpK8aaMlrT5ejz2+FEcDgfnT51HtdVnMZuk5V9bn0BVYXJsumh8sfcFWZIJVQZZnFsygcwybIdJhaeXWT9ufhZzG1quDHJnt8a0PfbOTTzJrAW4Fsqi5enaSHHsjasA3N3dxKzHhcOlA2Br3nob1EGCwwRUdAZX92QTBZFsNrelK7ogiORyOSS5mBnZbPzP5RenWzExv2sxS37XygMfE0blg8r7YVZKRqPdhFmxX2NnVoAidkUQBBoaG/g3f/YnXLl8hffOnOXb3/oO9fV1PPLocRoa64sYFk0KP8wsi33H1mIOetOfWzIuigKBYJC9XXvZvXcX46PjXLxwiXOnz3P14lX2HtjL/kNdRQyLRRWkFNf14eOH+Mn3fkb3xes88uSx/JYDOa0O0RglURSJ1cSYGp9CzW/ipgoFO5VgOB/BdmEFn83g0BvwIiCQTmZw+ZyYDWodbgdKRkHJaZ5Bdurd6XGwsVTwFlD1d4n53VoHaYuKq4wbox1w2tkUURDJpRTcAZdl4jfnlU3mcHqdJQ1pk2spvAEPoiQVXbc0t4w/5CtarYqCCCoM3R+hKhYhWBG0ACozaBEEkeH+Ec6dukB1opqTLzxdCAinT7w2sGzUjW1i3w7IV1UtVP3K2gpra+usr65poe/X10mn02TSGe2TyZBOp8lm8sHicgq5XJZcNmdpd/pkp4XGd+J2u3C5XbjcWiwXf8BPdUxz5/ead881EyhqsZ1YqZ3MLWOCCD6fl6MnDvPrt05z9+Y9du7psL6HEqxKuCqMx+tmemya+uZak6qotPonHA3T29NnY2Ds+drC99ujZpuYFfMzA7zyhSN03B4ltLjON/7zm/zzXz0PzoKaRm/fsgJf/YfXCC6ukZNEfvmpwzAwicseJM6mtslmciAIyA55czCRU5Bk2QRySqfN5XJIUon2vonoqh9Z+mSa/aDysarBD2KvshVYKSUPA6wARaogez6SJHH4yGG69ndxvfs6589d4KXvvkRtbQ0nHn/UAljMXkJmtRBYbVk222bedMFmPy3ARVFVC8gSRYm6hnpq62uZmpzi4vlLXDp3mcH+QT7zhRfw+ryYtwXQ8zfACgUcFY6E2bV3Jz3Xb9O5dyfBigCG66Y+uAoqtQ01DPcPszC7aGIDFBRVxB/w4XI5WZhZorYlYbFT0cPnry6s4vJVGu9CFBR8AQ8IAhvLSXxhj8VORRQUXF4Hak4lvZpF9knGdgjmbQ8sjJdhQC0WA0dzXZtWkqVASnY9Ry6Vw5mQLStDveyoKsnVDBXVgaK8c9kcG8sbxBqrCwBGt0/JKizPr1DfVlfEFgiiwMzoLOtrG+w9vNvC3tjZlPXVdS6evkR1PMqzLzxlASmWNmRiHozfNoAi2v6ur60zNzvP0uIi8/MLLMwtsDC/SCpVrKKTJQmX243T6cDpdOJwOAgGgsgOU5A4Uftrb//61gPpdNqIjruxts7i3AKrq6vGijoUChJLaEblre2tBW+4TQzK7cbkdjVQ245WBnoHuXaxm7qmWvz+Yhd93QNIL3eiLs7wwKjBIuhu+igF7x9BFBAVkUi8kt6bfUwOT1HfVlfob+Z89bKJFMWNsoMV8/sEGG+K8bOvPcqL33mXPd0D/Lv/5ce8+qVj9HU2oMgg5hTa7oxx8sfvUd+vRXd95Q+f5XY+kJvH58m//+Ldu6HgPq8HJCzFNGWzWTLpNK4Se4DZ7VWSGylcZaJTlxO9vTl0AGZrP5/snLx9+VgBlQ9TygGZ7YIVYNt2K1raYnbF6XRy6PAhuvZ3ceP6Tc6dPcdL332JqmgVXfv3sXPXTjwebXWnlljplAMtUIJcsQEX+8pJy8N8fWlvIkWBeCLB5774WQb7B3nll6/x4+/9hM986YXC/kOKaZCmNFjZf2Q/9+/2ceX8VZ5+4amSrEpNQwJJkhgdGKMyGrZEqZVEieq6aiaHJw3woLMm3oAXt9fFwtQy0foqVEFBEUVEVSQYDSLJEkuTyxpQEUSUvEeQKooEYgFm+udZGl0lurMC0Lx/jHJZBq/8StJ4r9Y619uDkF+9alUpYlf/iKLIyvgKkiwRjPksbIoOHDbmkqhZhWC1v0jtszK7ipJTCcftmxGKzEzOgaISr6+2qH30dz94bwi/30dNQ8ICwKxlFbh45jKCIPLYMydwOpy2+wgWtaWdRbEDFFVRmZqcZnRolKGBIebn5o0VttvtpjISpmNnO8FQEJ/Ph8/n1ULh+3y4XK4PZcLIZDJMTU4xOTnF5PgkYyPj3L/Ty3vvnmX33t3s3b8Hn19j7kqxDkXG5FjBChKcePI4P/neT7l05rKlzeti9gBSUGjvbGXg/iCD94do62yxsCrG93wbi0QricQiDNweItEUtwQ81PM1L7Cs/bQYrNhFURTOPdtF2uvii9/+NfWD0/zF//EyiiCQ9LpwbaSQ8h5SSY+TX/7xc9x8fC/Tb14jVBnEH/AV5WmURRCZn55HFEQqq8IFxk1/z/k/q4srKIpKZWVh8WH+q0sqlSKVShIKFVyMt9NmlpaW8fp8BYb4E3nf8rGrwQ+TVbEzILrYgYdeDuChsSt6XoIg4HA4OHBwP3v37eFWzy2uXe3mzdff4tTbp9jZuZOu/V3Ea+JGZ9sKtMDWwMV+oGjwtSRV8vcxsyzQ3NrCV37vy7z8k1/wk+//lE99/lPU1tVYBkG9XuxgxeV2sadrF5fPX2V5YZlAyI8oCORUrX5yOQWXy0VNQw2jg2PsPbzHUMXo9HesNspI3yiLc0sEI8E86NBATFWikvGBSVSbe6koiVRUh1icXiSxI1ZkiOtwSFTWVzAzME9gyYczKFtYFe1d2mxU8pOAHQia9f8FGwDTBn75T3otw8Z8ior6AJJTNs5r6TWwsDS5guyS8Vf6itQ+i9MrOFwOgpUBA+Do18+MzeH2uTWbHpusr2wwN73A7oOdBk2u52sGG8P9I0yOTXH4xCECgYAFlJQDKWYWRRQ01mp0aIy7t+4yOjJGOpVClEQStQmO7zpOLF5NZaQSb957yC4ftreP0+mirr6Ouvo6QGNfpqemuXr5Gt1XrnP96nVaO1rZf6iLSJXmPlyqz1gWK2ABE/6Aj32H9nHx7CUmxiaJJ6oLTCIUsSrhqkqqYlUM3BmkrbPFuI+ZVdEYGwVREWnf28q5Ny4w2jtG085GC6uymQqoFFixi95+rxzfyd19zRw7dZMd1weJTi3iXk+x4XMzFwvT29XCxWe6SAb9rC+tsbK0yo4D7UY+dsCgu+rPTS8QqgwabEYpWZhfBCAcqSh5Xn8Xy4taVN9QRchS9s2uAVhaXKIiFCqb9mFLOfZ1KxXVvwb52AEV+PBVQB+UXbGDFdiaXdHzAitg6drfxb6ufUxOTtJ97Tq3enq4eaOHysowbR3ttLQ2U1NbY1xrBy16/ha2xWTXYpS7qBJM19vUTQXPIytgURSF6niMr379RX7+k1/wix//gqeee4qOne0WNVDJwFmCyI7dO+i+fIPbN+5w7ImjGhgQVG1wF0RQczS1NTAyMML05AzReMSi/okmokiiyOzEPBXRkEX9E0lEGOkdZ2l2mWA0gCioeRsXhUhNBXPj86wtrOOPeK3qHxHC9SEWJ1eYH1gi0RUx6HtRtbIq+uSsmOrGXD/mNlJ4H3bDUpGVsVUkWSJU4y/JpmRSWdbmk1Q3RwwDQYOpUGB5doXq2iokSbKofXKZHIvTSzR01COJUpHaZ2xgHEmULC7JdjYllUxz9Xw30eoqdu7usDz3dkCKgMDI0CiXz11mZnoGr89La3sLjc0NNDQ0GGoVcxsu6fmzTYPBcsbKW+3aDVZGTBAgFo/x6c9+iuXHlrl2pZtbPbe5f6eXjs52nnj68YLNTwkG0a4GAs2MZdfeTm7fuM21C918+kvPG4EPc2rh2c2syo7dbZx56xwTI5Mk6uMF8FOCVamMhqmujTJ0d4TalhrDVqW4fgoqIL385i/2RY5d1v0eTn3uKKc+d9TEnIlF4Hq0dwJJkkg0xI228crfvMjrf/s1o80AKFmFhdlF2na1WPI799/+BZf+u79CEERkQWRxbgmH05Hf3sFmyGxqHyvLeS+3cGgTMFC8T9Xy8jI1NTW2dJvXxUcBVHwY8rEEKvDhg5Vy8n5UQfbrSrErlt82tkYQBBKJBPF4nKefeYrbt25z985dLl+8zIVzF7TBvrWFlrYWGhobjNDZqmLNX79HEdtiAy5m24oi2xYT2LADFn2kC1VU8OLvf5lfvfwKb77yFmuraxw4vN8KVihWAfl8Plo7mum918+Bo/txOGULq6KqCjV1NThdTsYGxojVRC3B31xOJ5WxSmYn5ujoajXAiCKIVCxlS0YAACAASURBVERDOBwyC1NLVFSHitQ/DoeD5akVAlV+zOofBZBliWhLmIlbM6xOJwnEPFqJJRlyWWNVKJviLZhbiL6JoFX1UxjEZVE23nt2I0cyz6Y4XE5jADV7ZyzPbCAA4USwiE1Znl1DzalU1oYtbIooiExPzIKqkmgoofZRYLR/nFhtNR6v23KdmU25duE6mXSG408eQ5ZkEzApD1IEg0EZ5cr5q0xPTRMMBXnq5JPs2LUDh1wcJ6YISNuAyQd1+dzqeju4hAJwCVVU8MTTj3P0+BGuXLrKlYtXmZma4bnPPEdlpLy6Uw8WZza2djgdHDxygHffPsPo4Bh1jTXWNHn2Q99OoqahFp/fS9/tAWoba0ChyFbFzKrs2NfOu6+8x/C9EVr3tBSxKsbu7CZmpdiIduux0vzuSoGU1Eaa6dEZ6lpqcLldRtswq2v07QFmZ+ZQFZVovMpmH1UAzQCLC0uEIxUYAQltLKVej0uLSwiCQMjGjhjttIxqa3Vl1WBhHuT59ft+IgX52AKVDyrbUQOVO78dsKLlsTW7Ag8GWFwuF137u+ja30UymWSgf4De+73cv3efG9dvIssSjU2NtLa30traaujRobSKSC9n4ZgVtJi7mwW02ACLPuDpA7zH4+XzX/4cb776lhF3pbW9tSxY0Y0Bd3ft5t7tXu7f6mX3wV2QywOi/H0kWaK+uZ6hviH2Ht2LJJkMCQWReG01Ny/dZm15HU/ArYdlQZZkKuNh5icXaNpdnx8ANSAjSxLheIjZ8XnimRyiLFqeUxVFQtUBlsZWWBhcxuV34PTJ6GBFEDLG+zEb2Ba1H1O9ykbEViE/sGsxMJYG1pAcMhV1IQOk6K6ykiiBAotjK/grfbj9bgsYEAWRhfEFHE6HydhYNO4xPTKLN+AlGA4WsSnTIzOkk2ka2+st1+ntUBQEJsemGeobZu/BPVRGKi1ux5uBlFQqxduvnmJ0aMQAKDt37zQCaZUCKFsBkw97IrB7wNmNyQVBa+MnHjtOfUMdr/7ydX78/Z9w8tPP0tjcsLltlq1dtO5o4ca1Hq6cv0pNfSJ/n+LtJMgbl7d1ttF98TpzU/OEoxUlbVUAFFEhUBEg0ZBg+P4osfpq/CF/EVgpPK8pirTe/EswtCXrS7S+Qyu4EOi9PgBA444GKzixvX9REJkam0GSJKpiVUbeZtAMoOYUFuYWadtRCIBn/mv+vji/iD8QsNiabPVMKysrKIpCKBgsSmsHZduV30W34d+UfHyfnA/+4rdD45VLU46OLjXAbjXI2u9T9NuWryAICIKAx+Ohc1cnn//i5/l3//7f8Y0/+DoHDx5kdmaW1371On//H/4fvvut73L+7Hlmpmcgv+q1u42KtoGlVLwWe7mMmBOmAUR3S9QnRofDyclPP0s8EePUG79meXmlbF3rA1GkKkJ9Yx23btzOxz2xqj5EQaB1Zwu5bI7h3uHCIJZXL9Q0JRBFgeHe0UK++etqW2rIpnPMjM4XsQDx1hgoMN0/a5poC88mSRLxzmpkh8xUzxzp9ZxRLj3OglYHgjYBi+Vjceh5A3n1jEAuqTB1Y4H0WpaqtgocTsnClOjPMTe0RC6dI9YWLWJTNlZTLE2vEGuKIklW0LCysMby3DL1bbWIomQBNwICfbcH8Qd9xGtjJdmUbDbLlbNXCYaC7Duwx9Z+CrS7HaSsra7x8x/+grGRMR576lG+8SdfZ/e+3Thkh6U9CaZnNNvv6B/9fKn2+LA/5vIUtet82za7adc31PONP/x9KipCvPLyq/Rcv1XoI/ZJWSx2JZfygQ9Xlla41X27KO6MhaEQRdp2aguQq+evg1o+b/36XQd24HQ56T5zk0wqbXtPhecw+pn5ucXSH8sYINrrqlBfgiDSd2OAmfFZ2ve24PF58tcW2oyZTUmuJxnrH6e+pRaHw2EDPIU6nRibIpfNUdtQY2l/5jEUNNuiibEJEjVxy/i5lcxMzwBQVR3VrvkYg4yHIR/72vuwwcpmacyD5lZlKgVWtgtYisBBCdAiyzKNTY08c/IZ/vq/+mv+7C/+lEcfe5R0JsO7p07zT//5n/l//+P/x+uvvM79e/dJZzIGaCkFXPQybwewmOtIMF8risiyg+deeA4QeOvVt7QYKPbVt2g1+Ow6vI90Ks29nvtFrrmCIFIVjRCpjjB4bxAQLOX2eDzUNCWYGJxEySqW+4SjFYQiQcZ7J4y89PNev5vqhgjzo0skV5Om6wRtkzRBxOVxUNcVR5Ikpm7OktnIgxWbGke/TgctOnDRPzo40cuQWswwfWMBVYHEniqC1T6jbLIkG5NIajXD4ugy4ZoQgbDPAghEQWSydwrZIVPTGi9iU0bvj+NwOaltqbXUlyAKzE8tsDy/TPvuViQ9UJpF5SRwu/suqytrHH3sCA6Hw0KzmydWsyzOL/LyD37O6vIqn/vSZ+g6qMXYsdzfPiGWASflwN7D/tj7gR24mPuFeZL2BwK8+LUXaWpu5N23T3Pu9PlCnxXM/bU0WKlrrKOlrYmb13pYXlop1G1RfxRxupzsP7qPlcVl+u4MWMtdQp3i8Xo49PgBMuks107fKAlWCqyFQCnAUgTcbODEWm+Ftj0xMMlI7xgNbXU0dDRYymj0abFwv/47Q4DKjr3tRv2Z+75eD8P9I7g9LhJ1iXwe1vaop1+YXSCZTFLXUGsBZnaxA7fpqWkEQSAarSqTfnuqx3Iqxo+bakj6u7/7u83Ob3ryoyKbhSbf9vVsfv1mabRGqxYds5fLOFYinfn6Qrryx/Tf5nuYj/l8PhoaGzhw8ABdXV1UVUXIZrP09vbSc/MWly9eZnxsnGwmo7l5ul2FsqiqJS9rOQvlNY4JWNJpoubPCbjdbgIBH91XbwAqtfW1RR1dEPJqJ7QNCyfHJxkeHKFzz05LWkVVENAGpr67/UTjVfgC3nwdqKgquDxOBu+N4PI4CUWCaNWjnZedMuMDk3j8bnxBr3YNgKriCXmYG19gZXaNSF1FiXeuIski3kovq9NrLE+sIYgCslNk5NIUDUcTSC7JcBwy16EVAIrkMirjl2cJ1fpZHlnH4ZWp2VuF2++yTSB6wDaJiVvTqKpA4/46HLLDUJ1IosTGaorxu5PUdiSIxMKasayoxRBJrqXpuz5AY0c91TV5tiV/ThIlblzoQVXh0KP7kSWHcU4QBCRRYnVlnXO/vkBLWzO7uzrzQeTyZTR9N7Mp01Oz/OonvwLg81/5PLV1Ncazmyd/Xe0lGnUlWurM3Ab1tJZjgvXYB/3obbl8+y/0d70v631QlmXaOlpJbaTovnod2SGTqE1Y2q+ab4d6X1JVBTX/rzoW5W7PXRbmFmjuaDaC0qmqanijCWj9xB/0szC3wFDvMA0tdYU9cTCFSTA6F7g9boIVAYZ7R5kamaaqJmLsLybky2V5VuM5i+tIT2uve/s7nJ9a5PbFu1QlIuw+2pmPFlwM0vR2lk5luHb2OrVNNTR3NJvOWdNlM1kunblCS3szdY11lrZqLBDy3+/f7WVidIInnn4cp9NpO18Ax/a+euXyNQRB4PCRQ5bjpdvC1n83+77Zsc2Ol5MHTf8Q5X8sd+IToJKX30WwUq5cDwOwPAhocbqcxONxOnd1cvTYURobG3C73YyPjdFz8xaXLl5moH+A9bV1AsEAbo/HACz2cpgHZ+uArRr3LwVWIlURlpeWuHHtJom6BIFgwEin6exV9KFVQAsIdefmXdw+N1XVVXm7nkL9+IN+eu/0kUqlqGuqy5dVAypuj4vpiRnmpxdoaKszyqKqKm6fm9nxWZZml4k3VxdqVlURJAG3z8304CyqouKPaN4EKiqohXcsOUS8ES/p1TTLk2usTW+wMLxMw5EYsksuTL76StVUX/qAm11XGL86gyvgJBj3k9gVweFyauBBkgygIQoCkiSzPLHK0vgKdZ1x/BU+E9DQGIqRW+MoWYX2g23Icj7YWZ69Gb49yvryBvuO78HpdBoARZREVuZXuHv9Pp1dO6iOVxvXCYJgfL9y9hprK2s89ekncefjlkj5slkG/TxIGR4c5bWfv4bH6+VLX/0CVVHNfde6ShcsKh6tnZnVJMXgxHzOOll8cLBCqb5kO6aaALxxXO/7pusamupZWFjg+tUbVEbCmj1P0eSh6t3LABQOpwNZkrhz8y7hygoqKiuMdi+YE+bvWRmtpO92H6ur69Q311ryNvcl/Ysv4CMSq2RsYJyxgQnC1RW4PYWAavo9Sj2ffSIvAikmkCCKIqtLa9w4cxN/yMf+x/dpqr5SIEUs9Im+W4PMT89z5InDuNwuw2tNz18URSRRZHRwnJGB0bx7vN8CTHTgrJfl6sVruFwu9h/qKvTJbbSX078+Q01Ngo4d7SXam/W7eQFibsf6+a2+m68tJQ8CPH7LdjBlgcrHiz/6kOWDqIFgc1VQOXXQg6iE7PcueWwT9ZA++egqon/71/+WP//LP+PJp54wOuc//P1/4gff+yFDg0OGTYv92e0qIcs50TzZWO1snnzmSSoqQrz5ypskk0lLvmZKHKCmroZYoppb126j5l07RdOg4HDItHQ0MzE8SWojabFVEQSR5h2NWlyQyYWCeiQ/0DXsrGdjNcn8xKKRryTJyKJMOBaiuqGK2aEFNhY3EARNnVNgL2QkScbrd1O7L07t3hi6kezMvSU2ZlPkUjlERUBAt2GREUWJ7LrCysQG07cWmbo+B0C4PkBsZwSHw1nYn8YYzLVy5VI5ZvsXCET8hBMhJFFGlgrgYGM5ycrMKonWOE6njHkySCezTA1PU9MUx+1xW1RFoiDSd3sQp9NJc3uj5Tr979LCMiMDo+zYswOfz1vSy8doi3mQ8vov3qAyUsmLX/sSFeEKS1s121rYVTwW1slmA7WZKsLen7b7KdXvytnAmMtkbu9mdUQhjcSzzz9DTU2Ct159m8mJKdMzm+q3xMTdua+TqmiES+9dIZ1X0ZRTAQVDAXbt72R8aJzRgTFrfZUBBZVVYY4/dwyH08GVd64xMTRpYiwK+yvpbVHKqx43+0imfZVUFcb6Jrj26xvITgcHHuvC6XBuClJEQSSbzjF0b4jaxhpj6waL3YyprQ31DRMI+InGqvL5WN+B/l5ymRxT41PUN9QbeWxHNtY3WFlepro6asnf/N7197ldeb8AYjtz0r8G+YRRMckHZVWMPLbBrLxfduVBGZb3y7IUHS/BtAiCgNfrpb6+XovXsm8fLpeT/r4Brl25xtDgIB6vx/DwMKuEdAZFK9/mzIr+BLIsE08kuHH1OkuLy7S2t1hWC6qqFFaZgoDb6+bOzTu4PW6qYlUmPkX73xfwce9WL7lcjnhd3MKq+AJeRgfGWJzVQuobBLeq4vV7mJ2YY258nuqG6rwxbEEF5Kv0sjS9zOzIPMGIH9nlMJ7P/JJEUcDpceCtcDN4foxwXYD1+RTL42ssjq6yPLbG6tQ6a9MbLI6ssjyxRnIpjSxLeCs9TN+dZ8fJFpxu86aCBSZEFCUyG1lGuydBhaauOlxuDWyIooQsyqgq9F0eRHbIdBxswSE7tYkjD0r7rw+yvrLB3kd243a7LWzK8vwKt6/epWNPG4m6hMGgmFevF969RCad4YmTj+F0OI34KwVWpcCQrK6s8qufvkq4soIvvPh5vD6vVk9lQIr2nouBrpl50tNYWZVyrIhV7Ctne38tt5pWKe5/9nZfjl3RrxVFicaWBvru9XH39j1aO1pxuZw2xlFTeZrZD0EQqIxUcOvGHVZX1mhsbTARKSbmJ/9/OFLBzOQM/XcHqYoV1KCFbIuZFafTSbwhzsLMIsP3x5ibnMftc+P2uo0J1cymiKJYUiVmZlhUFSaHpug5f4epkWkqqirY/+g+fAGvwQ5a2BgTSAGBK6evsb66wZEnDuPxeIz2Z25fkiiyMLtI98Ub7OrqJFEbt7VD6/f++/0M9Q/xyOOPaIEJ9cVakdpHtIChgf5B7t+9z4lHjxMKhYxy6/Vibjv2Y+a/VuBkB8ab/97qeDl50PQPWT5R/WxXflNgZat0pUCG/dx2AEu5vLYDTsznSoEWa95adNiGxgYOHjpIIBBkcGCAa1e7GRwYIB6P48/TrKUAi6HLRqfC83up6IN8vvRenxdBFLh+9QaRqkqDFi9ErQV9WA0E/UyOTzLYN8SO3R2WTqioCi6Xk9XVNQbuD9LU2oDD6TBsVRAEnG4Hg/eG8fg8BMN+VDU/eAgQDPsZ659gfXmNqtqIUYPawCwQrA6yMLHI/NgigSofDpcTY8LCPJGq5NI5+s+Nsv9LnYQSfrwhN+4KF26/CynvveP2OwnXBYm2VRKuD+LyOhk6P07r8XqcbmcRQBEEgdRKWgMpCLQeasQX9CGKgsaoiFoMk/G7kyzPrLLjSBu+oM8AG7Iks7qwTt/1fhp3NpBoSFhsU0RB5Np7NxCAo08cylPzVtuUybFpeq7e4sDRAyRq44i6SkrQ2BR9QtYmKoVXXn6NVDLFF178nKHa2wqk6PW4GUABKzjRZSsKv1y/Kw9QSql/itWcevs2AxZ7OxcELWBjXUMtt27eYnhgmI6d7ciybPQL3V5FVQs2Iqqq4PV7EYDbN+4QrAgSjoQN2xOzCkjQKoFEfYKxoXEG7w8Sr0vg8bq3BCuyLFPTnMDpcjI3Nc9I7yjjgxNk0xncHpcR68ToE/q7stVPNpNjdnyOm+dvMTE4iS/gY8+RXZqHj8edTyfm2ci8eki0tovh+yMM3B1i35G91DYkTIa6BZWPDuIvnrlMJp3h8WcfNYy6dRBjbpMCAqffPoPH6+GRE8cMA/btqH0uXrjM2uoqTz/7dJHqcTsAxf63+HsxS/IJUPkYysMCK9sBLFul+yCAxQ5arIPw1uCkOK/SrIp5dahPGolEnIOHDlJRUcGdO3e5cukq2WyWmtqa/G6lBcBit10p2KZoZTAP4ggCsXiMgf5BBvoG6NzbWUSLmgFOIOTn9o07uFwuovFoEasSCge5f6uXTDZLoj5hYVX8QR/TEzNMj05T31qHJImGYa3T5UCUJcb6JpCdDgIVvkInV1VEWSBUHWRubIHF8SWC1f58OG+zYWN+sE4r9J0dpuPRJjxBNy6/C2/IgzfsJlDlIxTzE4j68ATc2m6wokgurTB4foyW4/W43E7TZJ1X5yymGL0+ieyUaTvchDfoNUCKKGhGrOvz64zcGifRGqe2JWFiZCQERG5fuIcoSnQ9uhdZki1syuz4HP23B9l7eDdVsaoiNkUA3nvrHG63ixNPPWJcLwiCzYBWQJJEzp+5yFD/ECc/9axhLF0OpBiTkOk4WNUpdoCin7dMktks8/MLzM8vMD09w/j4BEODw/T39TMyPMLY+DhTk1NMTc8wNzfH8vIKKtr+QaJUsKmw22KZ+8tmgMXOrpQCKx6Ph2isiu4r3czOzNK2o62ovQt5MKGiGmAiGo8yMTJB371+mtuacRg7XQsWsAJoRrt1cQZ7hxkZGKW2qc5IvxlYEUWRcKSC+rZaAiE/6WSa8aEJRvvGmZ+aZ21ljZWFFTZWNkgntR2pU+tpZsZnGb4/St/NQc31eGwWt8fN7iM72bG/Pb/9hWh5zzqLYm8X89MLXHvvOrHaavYf3VeIpiwUXP919dfM5Cw3rvSw79BeauoSxe3QxKbMTs9x7dI1Dh87TCweKwlIJDN7ZBoL33r9LZqam+js3Gk5X4pVeRj2KeWObXa8nPyuApVPAr6VEVF8/5FrLfkI24tiu1U6vQFvtm9GqfKWinJrzq9Unma9prlMZY/b7m9MDKLI3n17aWtv4+233uH82Qvcu3OPk59+jsbGBgRRNILIldsfRBRFI/CVIIiIKMiyzBNPPc6PXvox16/c4NCxg5Z0epRNBYgn4tTU19DTfYuOXe0IolYn2h4/CoGgn5YdLfTd6aNjTzsenzsfOl9BVCV2H9zJmdfOMXhnmNY9TZij1da11jA/Nc/wrRGCkQAevwtVULSIs2g7t+441sads/fpuzBMTWc1oeogoqqgCIr2TIpgBG9D19erilaXgjVkuf4OxfygClrgNzNAEQWR5elVxm9P4/a6aDlUj9PtstikSJJMLpNj8PoI3qCXxs4647ie39TQDCuLq+x7ZDdOh9NyPSrc7b5PIOSnqc1qm6KvXvvvDLC8uMKTzz+BQ3ZYbFMsdhaCyGDfED3dPezdv5f2HW1bghRzWzTbHtjtTcztNpVKMTU5xfT0NDMzs0xPaeDD3GfyU/im/Uk/H6wIUhWJUBmppLGpkbr6OiMejj2iszmaszkgolFa/YutnetB4hoaG3nq2Sd56/V3uHj2EscePWq09/xl2KM0y5LMk889wU++91POvH2GZz/7TL48hR2W9c06QSQQCvDE84/x9q9OcfaNszz26UeRZckU3M2av95nFVHBITuoa6qlpjHB+voGE0OTTAxNMtY/QS6bK7noc3vdhCIB6ttqCVUGqYyGTWqj4jAGdhYFYHVxlUunLuMP+jj6+OEikFLoExpje+1iNz6fj869OywAwe6SLAoid3vu4HA4aM8DQ3ubFG3p9XY4OTnF+vo6La3N+XKXthF5mPYpHxU7lM3kE6Cyifw2wAqU3stGF/MkXnT9+wAsep66lAMt9jKVOl4OsHg8Hj7z2RfYvXsXr/zqFV76zkvs3beHZ557BofDURasiJii2SrWe9XW19La3sLVS9fo3L2zEAhKMIUcz2m/Dxzezy9+/Ev67vbRvru9sAeQKKIosOfALvrvDXDv+j32n9ivqSIEEVFQqYpFqWupZfDOEImmGG6fC0XVVCMAuw7v5MIbl7l/uY99T+xGEmVQsiiiiIxMIOhj16M7GLg2xMiNCdZqN0h0VGvMhqqQxRRCP7+iQxARBGt9q2phxxRtoMzl67zguYMKC2PLTN+fxVfhoWm/xrbog6uu7kFVGbo2Qi6r0HmsOW+smB/gRRElqzJ4a5hwtIJ4Q9wwoNWNgsf6x1ldWuPYk4fzHkKyRVefTWe4efUWsZoYDU11RQa0xjMIIqsrK5x6812isWoeefRYUdvU25UdpGxllAqQy+a4d/ced+/cY2hoyNigz+/3U10dpa29lUgkgs/vw+P24Ha7cXvchhuqoihkMhmy2SzZTJb19XXm5+eZn5tnfn6eubl5BvoHuXDuIm63i6aWJtra22lrbzWimJqjOZcCLPp2E/Z2bgcre/btZXpqhisXr1JTl6C+sX5LsBKqCHHssaO8+9YZ7ty4y66uTrQNmTWwIksy2VzWiCpbGa3kxDPHeff101x45yLHn9WYMEVREFQFUVBQVAElHx3XGDWk/LMpIn6fj9bOZlo7tYk6k8mQTqVJJdNkUhlUVSEYDuDyuCzvzXjXdobBHtcl326SG0kuvHMZh9PJY8+dwO1xF4MUU7sZ6htmYXaRE08dx+lwlo2KDNpuyf29A7TvaMftdpdsk+Wkv68fURBpam4qeibtebfHWJSLn/Ig8qAA5rfs8bOpfAJUtpDfNFjZTtrN2BXYHmCBzUHLB2FZygGWxqZG/uwv/ozTp09z4dxFlpaW+fJXv1QWrOj5W3aMBm1gFUUee+Ixhvr/C++9e5aTLzxrGbiNPUuARG2ceE2cG1d7aO5ozkdd1VgVRPD5vLR3tnK35z7NO5sJhgN5MALZHOw60Mnk6DQ3z9/m8FP7kSWJbE57Tpfbyc4jHVx/9yb3L/fRcbhVAyvkN0LMZfH5PXQ80sr4vUnG+yZZmVulZkeMQJUfWZQN0KO7FQOIqq1ebYOOzsJIooSIyMr0GrODC6TW04SiARr31SE7Cp5GGnUuIiIwcH2UlYV12g80E6oM5Q0PJSM4XN/1XnKZHJ0Hd+AwBVgTRIFsOsu9671URsPUNtWavG8KE0PPtdtk0hmOHD9YeJ4Sq2RVVXjr1XcQBIHnXzhpAAT7ytXOjmwFUpYWl7h2tZueGz0kUymCwQAHDh6guaWZWCyGz1fYFqJUOzaOSQVAChAOh6mtrbWkSaVTDA4M0nu/l97ePu7cuovb46Zr/z6OPnLUsm+WtS0LDwxWHn/qcSbHJ3nzlbd48RsvEgj4LeUvtaVEe2c7o0NjXLvQTWVVpRY52ARWdLCu96xEXZyjjx3h3KnznPrluxx54hCBkF8rE8XsimReOOUBi4Rk7DLucrpwOByWrThKiWUyN0Wd1f+aQerK4jIX3rlMLpvjyRcez9u+lQIp2veN9Q2unu8mEo3Q2tFctFu3+R6iIHL75m2ymSy79nSWZVNKGdGqqsq9O/eoravB5/WV9faxH3sQQFHKPuXjIJ/YqGxDHobNip7PduxWtpt2M/sV8/ly5S9ny2I/Vy4YXTl7llLxI/TfoijS3NxMOFzBpYuXGB+boGNnB5IsF9msYPIGMhvX6sdcbjeKonCj+yaJ2gTBUNCURtPd6waEoXCInu4eRFEkXhsv2AGg5VtZFWbg3gDz0/M0tjeanlZFkiU8PjeDd4dQFJWqeKVhqyIIAh6vG8khM9Y/QSaVIRyryA8oeZo/P9EEqwIEKv2szK0xOzzP6tyatnuxKHL3TB+7nmjPG8ba44SIRR8lq3Lv9AA1HTGmeudYHF/B6XZQ15kg0V6tAQyT4askaQaCA90jLE4t07S7ntrmhAFStAFXYm5sjqE7o7TuaqamscYSa0USJW5dvsvS3BKPPHUUn78Qj0XIn1+cX+bi6ct07OqgvbPNsAPQjRXNMVMuX7jCQO8Az37qWWrrajYFKeZJQa8T/bj2WyCVSnH612f41c9/xeTkFC1trZx8/iQnTz5LS2sL4XAYp1NnmDY3nC3uA6VFlmSqqqro6Ojg6NEj1NTVkk5pAdtu3byF1+ulKlpV1uvNbpdlDpxmt1kRRZG6xnp6bvQwPDDCjs4OJFky0pqNa/9/9t77uY0sy/P9ZMKTIEDCkAS9l/e2ZEql8lUq325mZ2Z3djZexPubXuxE7EzsG+EVUQAAIABJREFUbOxMT3dXu7IqeS9KdKL33nsLkkC+HxKZyAQShhSlcjwRIGGuz5v3fvOc7zmXyNwWBIGCkgIGewfpbOuiuLQIe4YdXY+05FoE3B43Ob4cBnsG6GnrwWa3y2c/aXgqyhxVcomCzEvSmuQUwnA0HlA8z0M0iTrCaWzwNa23j8kkMjU6zYNrjzGbzFx4+xweX05CkKLMnVvf3CG4GuSN9y+TkZGhlq91kVe+W1td5dpXNyirKOPo8SNx7U326u8bpP5pPRcuXSA3N1dtt3YuqWOjXnft/63zU5KBnB8ZPwV2ybTPLzsFVtSy0gArStp0Acv3CVpSARYtWAHIzc3dFliJily6P89PZ3snA/0D7DsYT6xVmuV0ZjI3N0dnaxcVNRVYbdYICVIu32QSsdvtdLZ24ciw4/F7dMRaV3YWwbUgfe0DuDxZZGY5EBBRXJbdnixCoTDD3aMEV9bJycuOtEUGK4Igky5tGVa8xR4sVjNLM8vMDM8xNTDDZN80hXsDZLplzxwdB0OMLuabqyFWZleZHZpnqHkUu9OOI8tB0d58ivYFyHRlyLFaVOKrTHJFgr7GIRWkyGf2iBogY2ZtcY1nD9rI9rg5eOaAPgKtycTM+CwtT9uoOVBFeXVZ1AVU9awQuHf9AVIozGtvv6pzR9YG0jKJJmamZ7h59TZ79u/hxKnjms0l+vQcnXeibsHXghSFLNvT1cPnv/8jA30DHD56hE8/+4QjR4+QnZ0d3SCU65BgbicDL+mkEwQBT04Oe/ftpay8jOHhYeqe1DPYP4A/148z4uKaikSeCKwgCNjtNny5PhrqGpmbnYtz0Y8kQ0t+NZlMFJYU0tXeTW9XH6UVpVhtVk30WDW5mivL7aSkooTZ6Tm6WrpYmF8ir8Ave8poibWCsvHqCaJa0KKCEs1c1s7pWJCiXHMVtJhEQqEwHY1dND1uxuV2cfHt87hzXElBislkpu5BA0N9w1x4/RyBgnwVmCjAWTvnBEHg4b3HTE1M8+4H78gehkJqbYrSxxvXbrCxvs67772r65t2HNL5r9MgxhGn4+elkWyHt7ILVH4ikmyj33ZZOwhYtOkSARZtmp0ELakAi7Y+5b0/158SrGgXce0CDtFF2JXtprGuEavFogs5LqvP5ZSSFMaX66W1qY3V5RVKK0pVbw2QtSrZHhcTY1MMdA1QWlWM2WKOuisj4M3LYXx4nJG+MQIlAcxWk+qyLEkSbp8LQRQY7h5lcWYJT35OzLk8AiLygu3MycRf6sPlyWJzI8TAs2EcmVZmRxeYHZlnbnSB+bElFqeWWZ5eZWZ4nrHOKaYHZlmcXGZ1YY3J/hlOXDlI+eFiMlwOHUARBPlp0RxxtexrGmJ2bD4hSAlthGi604JJFDl+6Sh2h03jISSbI2pv1mGzWzl9KXJeT2QzUTwrBnuH6Gzp5uS5k+qmYBSBVhDg6pfXkEJh3vvoXV1oct2mFgNStOp8eQOQY69889U33L1zD5fLzSeffcyx40d13IJYgJIIjCh1JAMlRveNUXkul4sjR47gcmVFvN6esrqyQlFxkcxfMYijogXlycCK2+3GbDbTWN+ESTRRUBSI60ssWLHZrASKAnQ0dzDQO0BZVRlmi1mnWYwFK2armZKKYsxmE73tfQz2DuP2uHFmRc04KijRaFi0m7O6yceMk/5a66PBRrUp8ufxoQke33jC+NAEJRXFnL18GkdmhuyOr4IbPUgRBJHBniEaHjey//BeDhzZHwNM9HF8REFkfm6O29fucPDIAfbsq0lrHih9nZud5/p31zl5+hRlZaUaLpb+GsdqBI34K7FzNfo+HnwkAhfbAR27QOUnJjsFVtSy0gQrSvqdAiy68hL0Jx3Qkg5gSaRdSQVWIOqqqcKVGBNQdk42kxOTtDS3UrO3GmskMJYiynubzcrG5gZtz9opKA6Q4cyMCa0v4PV76GjpYnVplcKyQk075NgqvjwvfR0DzE3NUVCajxhxWVaegtw+Fw6ng5GeUWbG5vDk52C2KOprIbopIG8m1gwr9kwbz260cebT4zicdsxWs2ynlyC8EWJ9dQMBcPmc+Es8FFTn4Svy0HK7kxPvH8HqsOo0KPIiLC/im+sheuoHmJ9YoPxACcVVhZhMZjUYlslkRpAEWh93sLKwyrGLh8n2uFVTjwJCOpq6mRyZ5Oxrp3Fnu5ADxkVNPuFQmLtX7+HOdnP24qkIwTbmyTWyMbQ9a6OtuZ1Lb1wiUBBQF3ujp1Zlnui9e+SxbG1p5Q//+TnT0zNcePUC73/wHu5sdwy3IR6gaCUWmKQr6YKW/Px8jhw9wsbGOnVP6+np7qGsvBSH5pgJPTBJDFaimkWBvEAe83PzNNQ1kpubS7YnO679sWAlI8NBbsBP27M2hgdGKK8qk02PqkkmqqESiB6c6Mv3kVeQy3D/CF2t3UyNT+PMcqqARb0uRDWAWk2L9voavVSAojEDmUQTq8ur1N1vpL2xE0dGBmcvn2bPQXl90GpRFG6Xot0zmUwszi1y85s7+PN8XHj9fCSPntStBUmiKHDruzusrQZ558o72GyJ+VJG2pQH9x8xOTHBBx9ckbVVgrHZJ/H/79fs8wMh0u4ClZ2WnQYrLxqwpAItiRZe4zqNv08GWNIFK7Mzs9TsqVFt+lr1eDITUF5eLk0Nz1hcWKSqplK9UbVaFQBfrpfOti4mx6eo3lsV0xGw2uSgb12t3bg9LrLcWdF6JLDaZGDR29ZPaDOEL9+DKApRzgoCma4M3D4XY33jTAxM4sxxkuF0IEmSutAJgqBuEBvrmzReb+XklaP4Cj148rPxBLLxFXnwl/jIK/PjL/GRnefG4XJgs9sIbYR5drOdw5f3Y3fYVBOPssibRBPzU4t01fYRXAlSeaScoqoClPN/zJGw/KIg0tc8wPjgBPuO76GgNICWgGsSTSzMLPHsUTNl1SXUHKiOM/mYRJHmulZGh8Z57a2LZLmyEkb7XFtd5eqX1wkUBnjlwlmdZkeIWfzVjUL3nbxZPH1Sx9Wvr5IfyOdXf/srqmuqI2TgqJknfn7KEhuEy0iMeCypYh0lAi1ms5nKykoKCgI0NTXR2NBEfkFAjVqaLlhR5qFSbnFpMYP9A7Q0tVJaVqKaKvRti859AXBmOfH4vbQ1tjI6PE5peQmmiGZFuQmMtCuOTAflNWXY7Q5GB0bpbuthcnQSq9WK0+2M25i1mhYteIkdU3V+RK6JJEnMTs3T1dJDw4NnrC6vcvDkAU5dOInTJZ+dlUyLIooii/NL3PjqFibRxNsfvIHd4YgDKbEgaWhgmKeP6jj9yilKy0oSgpTY6y0KIsHgOl9/8RXVNdUcOnxQp00xMvsk06b8jM0+sAtUXozsJFhRyntRgEWbNl3QslOAJV2wYrGYqX38BLfLRW5+bsIFXNGqqDc/qMTaZw3PKCouJMuVFbNpyMRak8mE3W6jpamVzMwMPH5PHLHWl+tlZHCUge5BSiqKsVjNKsiQJMjKdrK5uUlf+wDhsIQ3L0fthwJW7Bk2vAVepkdnGO0eIxQO48pxaiJcRgHL5tom9deaOfbGQawOhUwbb88XI147oknWlDRdb+XoGwewOWxRjYogEg5JDDQPMdQ2isPp4ODZvXgDHnWTV7x7zKKJoa5R+toGKKkupvpgpZ48azKxub7Jo+tPsFotnL18Wj2UUPldFESZQHu7loqaCvYe2qPT6sQSaG99d5v52Xne/+g9MjMzDTcuo6dWLXeloa6B69/doLqmik9/+RmZmZm6xdnoSRa05gm9bIdcmwjAJAIsADmeHPbs2UNXZyd1T+rIycmWibZpgBWjwzpNJhMlpSV0tLXT0dZBeVWFqgnQt1u5S+S/LrcLt8dNW1Mbg31DFJcVYYlwViI54sCKon3z5nqo2FuO3W5nYnSS3o4+ett6WV5cYWNjE5vNht1uM7wOiTQqkiQxPT5Dd2svDQ+b6G3vY3F+iaLyQl65fJZAUT4mk97Mo2hRdPNFFJkan+b6FzcRBIE3338dtyc7CUiR/wfX1vjyz9+Q5XLx2puX1HvU+KX39AF4eP8hQwNDXPngfTKdmXEARQUhz0Wi/cmbfWAXqLw42WmwopS5XcCyVdCyE1yWVIAlFqBoF2QtWCkoLGB4aIiGhgb27tuLI8NhyFdRFlGtCUgC/Ll+2lraGBsdZ++BvbqbL2rigWyPm7GRMXo6e6ncW4XZYtYRawVBNvF0tnYzNzVLUUURJlFU+SoCIr58D+vr6/S1DRAKhfDle9V+KE9FNpsFf7GP9bV1xnrHGe+fRBRNZGU7NW6PAuvBTeq+a+LYm4exR0KPGy3sgKqBCK2HaLjWwvE3DqsaFYCFySU6a3tYnluhuKaIvSersGc4VFOQEhTLLJoYH5iks6GHQHE+B07uw2KWAYyaDoGGe89YmF3k3Btnyc5xq78r/6WwxJ2r90AQuPzOpaQE2r6ePuoe1XHm3BmVBJpMtR4dzyhIaW58xnffXqOyqpKPPv0Yc0SlD3pTTzKAEgtMnleM7r3Y+0b5bHfY2X9gP8NDwzx+VItJNFFYVKjzCkrm9aYFKxJylNziEtkTqK+7j6o9lWqYff1GB1qwkp2TTW6+n47WDno6e/Hl+sjMyowDK9qxU/6azWa8uV4q91bg8XqQpDCjQ2MM9Q7T1dLDQPcgC3OLLMwtsDi3xPLCMqvLcnTa5cUVpsamGekfY6BrkJ7WXlrr2ujvGmBxfom8QC77ju7j+CvHKK0swRo5EVwLUKLzRlBNPYIgMNw3zO1v75KRmcE7H75FjjcnJUgRBPju6+vMz87zwSdXcLlcac9LQRBYXVnji798QXVNNcdPHE+pTUn2fyvalJ+g2Qd2gcqLlWSb+Y6UuwXAstV8+gV7e6AlGWDBAKAon43ASmlpKY0NjfT393Pg0AF5A47hqyQj1tpsNpoanpGTk4PXl/gcIF+uj5bGFlZXViktL9ERaxFkPos9w05Hcycmk4gvz6fjqwiCiD/gJRgM0t8+yOZmCH/Aq5qBFIKt2WTCV+DDG/CwsrjCaO84E4NTWKwWnO5MBEFkI7jB06uNnHzrCDaHTeeeHHXt1Lgpm0xsBDep/+4Zx986gtliZmpwht6Gfib6p3BkOjjwyh5yi/0ql0Q5A0ix5Y/1T9JR34Un18OxC4exRsixclA4GVj0tvXT3znA4VOHKC4rVM1GWpNPR3Mn/d2DXLh8Dn+uT0eg1Zp0NjY2+Pov35KTk83lt17TcRESqdZjeSktz1q4+vVVyivK+fizeJCin3eJAUqsGGlU0n0lOqgwGWAxm83s27+PhfkFah8/Ibi2RllF2ZbBinJ3ZWZmkhfIp6m+ieGhEaprqjCZTSnBSpYri4KSQga6B2htakMURfwBf4SfoiHHRrOpJh0QIkT2LApLC9l7aA+FpQW4s11I4TATo5OMD48zMTLByMAYw30jDHQPMdgzzNjQBHPTc4RCIWwOG748H/sO7eHEuWOUVpWQneOOzMeoe7IWoCgmTq3pp7O1m0e3H+P1e3j7wzdwZjlTghRRFKirbaC9uZ2Lr12gvLI8IUgxmpeCIHL3zj1Gh0f46JOPyMhwxAEU7VzUztNomtTalHQ+a+fyVmUnwPoOSUKgshvwbQdlp4LDxZUrpB8sLjafIunkTxahVleuaBxQzij6bWwkXW1flPfacctyZfHu++/y+9/9gXt37nHx0kU11L5ShxoCPC4oncD+g/tprGvi4d2HlFaU6DYzOXUIQRDxej0cOn6I+toGqvZU4g/4oxFrkYO1VdaUMzo0Rmt9O748Hzn+bAgTCRQnh9g/fOogAH3tAwDUHKlUA8KZTWa5jaFNXDkujlw4xOzELN3P+uiq72WwY4ScPDcWm1kdK5NoigQAM+nH0qRfgEyRPg21DbM8t0ooFCIrJ4vSvSX4Cjw6wqFqSopsMgMdw/Q29+PN83D84hE5xL0GpJhFM7OTc3Q0dlJYWkDVvgp1wVbKM4smFuYWefa0hdKKUsoqSuMi0Go3hYd3HhJcDfLBx1cwR856MlpUjVTrgiDS3trGN19+Q2lZKZ/84pO0QIp+biT/vF1JdI+pc04TBFEbANFsNnPlwytkZGTw6NFjRFHk0uuXjI+VIBoUDlG+70QhGvwwLEkUFhXwzpV3+OLPX/Ltl1d554O3dXWq6WOi1/r9Pj789Yfcu36Xukf1TIxNcO7yOTmisSYwnEkQESPHPoTDYBKUNUL2CgtLYbx+LzneHGoOVAMQ2txkY2ODjY1NNtY32FjfAMDhtOPIcOiC6SmiXYPiN3dB/V2ZH6FQiPonjbQ2tlJcWsyrb13EarWq+ZKBlKGBYeoe1VGzt4aDRw7qQIpRu7SmSIClpSUa6xvYf3Af3sgJ8UZzMrYfqSRem/KD0Xh8b7KrUdlheRGaFaXc7WhXtps/XS1LIpOQFPM5FW9FKUsQBLxeL0tLyzytfUpxcRHubHecCSgRsRbA7XbRUN+IzWpV3ZXDUjhSDxBxV/bn+enp6mGwf5iafdWasqKsldyAn8G+IQa6BykuL8JiVeJIREm+uQV+guuyZmVjYxNfflSzIihjGfGicGQ6yC/Lw+nOZH0lyPToLBODk4x0j5HjdxMOSWyuh9gIbrK5vilH+JRgfXWD+clFpodmGOuZoL9lmOGuUXLycsgr9VNzvJLSfSU43ZmYTdHYJ1otCoh0NfYy2DFEQVmAY+cPq27GWpCyHtzg8fUn2Ow2zr95DqvVonNllhdcgbvX7hPaCPH6e5d03JVYk8/YyBgPbj/k6Imj7NlXExczxcjLJ/oSGR4a5k9/+DMlJcV8+otPsESCtkFqkGKkRUm1YSjcoUSvVLGKknm8aec5QFl5GevrQWofP2Fzc1MmcqapWYl1W87OySYzM5P6pw0sLSxRVlEax4uIJEWrWTGbTZRWlpLhzKC9uYOejh48Pg9Ol1MXD0VrDorVsChzQkucNZlMWKxWrFYrjgxHxFPIic1mj4mZIkTmqlHgt6h3jqLNUH6bnZ7n9rd3GOwdpGZ/DRciJyLrtC4JQMriwhJf/fFr3NnZvP/Ruzrgq9fWJDZF3rl5h/GxcT7+9CMcGRm637VjHvvfSJsi6q5Pcu3JT9TsA7umn5crLwqsKGXvBGBJt4y0F2cDc1C6YCWWYCsIAiUlxXS0t9PR3sHBwwcxWyw6LyBl4TYi1rqy3UyOT9DW0sGefTWRU4ujorTVZBJxZ7tpbmxBkiTyi/L1uEeQ0+QG8uhq62ZseJzi8qKoWh2F2iIDmuB6kIGOIeZmFvDle7FYzAiIur4rwMXpdpJXkktRVQCbw0bj7WaKqgpYmF5iamSGqaFpJgenGe+bZKxngon+KebG51ldDGKxWsjIyqCrvpcr/+NtimsK5ei4WpKrqLflhzbDND9sY3J4iop95ew/uSdyonHkVOMISJHC8OR2HStLK5x74xVc7ixV06P8FwWBjuYuejv7OHfpDHmBvIQxUyRJ4tsvrmK1WHn7/bflMUkCArTaFEEQWVtb4w+//QMOh4Nf/c2vsDscmvlksAnEgBStJDL9xAKTVJIKuMTeX0aftfGEysrLWFtbpfbxE8LhECWl8WBFG09IC9BjwYo/148gCDRGAsKVVpRiMqU2A5lEE75cH0VlRQz2DdLS0MrC3AIerwebw66CEeXe0wIWHeEZ7WatMZWkeEUBStQbJ9bsowCUjfVNGh418uj2I5DgwhsXOHz8kN4DSANoYkHKyvIqX3z+FaHNEB/94gOcTqd6XZKBZ+28HBke4dq31zh67Aj7D+xPCFCMtCmxczb5+/RJtD9ysw/sApWXL4k28J0ufydAy04Blq2CFSNvoCiIMJGXl0ft4yesB9epqKxQF+S0iLV5fhrrGlleWaGiKhq9M9Zd2elysry0TNuzdgpLCshwZsR5AdkdNrK92XQ2dzE3M0dRWREmk6jzBFLAitVuYahrmNH+MVw5WTicdtQFW7lmit0fOXqmaBJ58FUtn/6/VyjdU0ReSS7+Ih/+Qi+egIec3Gxyi/2U7S+h7EAJhRX5ZLoyePxNHeevnJZBimLD1wR8U1yI19c2aLzTzOLsEvtP7qNyfxlmU1RLooAUEGh92s7Y4DjHzx2lsKQANfKnhpcyP7vI/RsPKS4r4uipI0ljprQ+a6WzrYvX3rxEbl40rHgiomKse/J331xlZHiUz375KR6fTFiOt/MnBylGAEULTp5XtgJYEnm9lVeUs7q6Qu2jJ0hSmOKSYh1YAdIGKwWFBVgtFhrqGhkfHae8slw1t+nbB6DZYJFjrVTvlU8M7unoobWpjeXFFbx+rxrNVgtYVI2KBrRoN2cteEkIThVNnOaaxIITMXJm1ED3ADe/uc3k6AR7DuzhtXcu4c/1J9Si6AC7KBBcW+eLP37F6tIKH332Af5cv76tmjmpXJtYU+Tm5iaf/+fnWKwWPv70IywRU1MisKL9n0qbkopEm+i7ZN8nk12gsivAiwcsujpegpYlGWAx6mu03OjnRN5AsSYgl8tFMLjG0yd1VFVVygebpUmstTscbG5u0pTCXVkA8gry6GrvZmhgmJq91QgmUecFBODMysSeYaezuYu1tTXyi/LVsrRgJcebja/Ay/jQJP2dg4iCiRy/O0KIFQEp+gQZASzra+vc//Ixr7x3mkxXJja7lQyng0xXJlnZTtweF5mujIgHRMRtOLjJw6+e8Mp7p3BkOtRFXa8qFxnuGqX5URvhzTDHLh6hsDSg3xgiIEUQRLqeddPT1kf1/ir2HKpRybMm0awu1JIEd67eBUnijfcuY7Pa4kw+yoazHgxy9ctrFBQVcObcGVVtnwikKPNA+b2ro5O7t+7xyrmzHDh4QLcRbAWk6OeosVZFey2Tbaqx81lfdmLAko7XW0VFBcvLy9Q+fgKSJGtWBGFbYCU/kE92tpvG+kb6ewcoryxXIwDr26aUpzUFmQkUBajeV0U4HKa7rZu2Z+0EV4N4fB7VlVl/LaKgRdU+xICXVNoUZQ6Lol6jsrm+QVdrFw9uPqS7rYccbw6X373Env17sFlt0YeABFoUk0kuLxhc56s/fc383Dzvf/I+hUUFavuNQYoReBa5feM2vT29fPLZx/j8fs0YaOdAYgKtkk6Zb7FzJfo+XkPyEzb7wC5Q+f7lRYMVpY6XpWVJBViSaVe2AlYCBQEaGxsZHxvnwKEDukBwWq1KbMRaCcjNz6W9tZ2hwWH2HdyruzG17spmswm3x01LQwvhcNjQBCQgg5BwKExncxdmsxlfvk/1FlLBCuBw2CmsKGRlcYX+zkHmphbw5uXIEWeJPr0qC3JwbZ17Xzzi/JUzODLsxG7c2oVfybMZ3OT+l485//4Z7A67qj1RnkaXZpdputfM2MAEvnwfx189TI43O7r4CtpYFCJ97f20N3RSWlnC0bOHMZstKORZJV6KSTTR0tDKQM8QF984H+flE30Clsu/f+s+UxPTcswUp3HMFP2TdbTfy8vL/OE/P8ef6+e9K+/K0YoxfmrdCkgxEi04SVeSgRajeyP2nkoEViorK1haWqL28RPMZovsupwErCQLte/P9ZObl0tzYwtdHd2Ulpdgd9h1/YyOJahgJVKGxWKhsKSQqr2VbAQ36GztoqWxjYmRCcJhicysTBn8oN+MdWafNLQqsRoVxfwzPTlD05MmHtx8yMjQKNk52Zw8d5LT50+SFTk3SRQENW5PIi2KIIgsLS7xxR++ZGF+gXeuvCN7+pE+SFHSDPQPcO3baxw/eZxjx48mBc+J/xt7+jyPNuUnYPaBXaDywxAjjcMLr+slAJadBCuxJiCz2YzNZufpk6fk5vrx+rxbclfOdGbS1NBEpjOT3DzZfh/rrixJYVzuLJaXZRNQXkGuSiRU9CphKYwA5AZyWZhbpLOlC1d2Fq4cl6aHSmqZ25JfnIcj085Q9wh97QNsrG3gdGfKQbk0gCW4us7dLx5y8YNzsnuyok7XgArtBmASRVULc/7K2Qi4kTf68KZEV2M37XVdiKLIoTP7qTlchc1uVxdVBaAoi+9wzwhNj5spLC3g1MUTmM1mDVcgCkRmpmZ4fKuW8upyjhw/ZHjAmwJWJicmuXfzPkeOH5G1VIKQljZFebr/4k9fMDc3xy9//UucWXJ04HTV6rHv5TRGT6c7a/pJBVjSBSsVlRXMzc5R+7iWzMxM8gP5CcGKAleMwIoE5OTkUFRSRFtzK63N7RQWFaigUakv2h5ls4xqV0RBxGqzUlxeLB/mabUyNTFFd3sPbU3tTI5PIoUlBJMJu8OujqkYc12N5nKsuWdtdY2xwVE6Wrt4+qCOloZWlhaWqdhTwYXL5zl8/BBerweFhyLqXJY10WoFRSMjf56ZmuGvf/iS9eAGH3z6PiVlJdE0mvkYvWbGGr61tTU+/93nZGZm8tEnH2KOEHchsYbvh6pN2W6eFywJgcque/L3IC/KjdmwLkHvJvki8se6IKt5U/TTKJ8o6F2WBUHg8JFDPH3ylJvXb1JRVSGTA9NwVwaorK6ksKiAR/ceURlZaNU+AYq7sgicvXCGsaEx7l67x4e/+gCTWYyWL4qyW6YIZ149xerKKrW3n3KS4xSUBuTCRDOwqbp/mkQorSrBm+eh61kPgz3DDPeOUlxdRNneYixWC+GwvMgqfVddmjEeO1NkbTGJZjWPKIpsBDcZ7BlmqHuEjfVNSqqLqDlcGVH3azYFUc8RmRiepOFhI/mFeZx+9WQEpMQDilAozMNbj3FkZHD6/Mlo3TFP0gqB9v6tB2Q6nZw8fULVAiUTrTalqbGJvt4+3nr7Tbxej1q+9n+iDSH2fSKA8iLEyD1faYOkccmX0yR20TeZTLz/wfusb2xw9ZvvMJvMHDh8QOe6TMQtWZm7cmFAWOFhiarrcqAgwC/+5pf86Xd/5A//8Tlnzp/h8LFD0Sf4sO6f6sKM0rZIO7OzszmIlsUaAAAgAElEQVR59gTHTh9lenKa3q4+erv6uH/zodxus4kcTzYev4ccbw4ZmQ7MZjNmiwWzSZQDKwKrK6usLK+ytrrGyvIKKyurTIxNsjC3AMianPyCPPYf2U9FdTl2m103voKon3PKGKvfiVESbH93Pze+vYnVZuWjX3+Cz+/VzSUtSEl2CKYkSXz71bcsLS7xt3/3N1htNs113wpISaDVS2GGSQZStqNN+QGafZLKLlD5niRRLJIXVp9mMj9PTJZEeZUbMA54xIAVURDiFnKl/ERli6LIa5cv8R///luaGpo4evxowjyiKMqLNSASBpOJC5cu8u//9u/U1zZw5vxpuU0hJb6FoAILi8XCq29d5K+/+4JHd2s5d/msGktCjp0C4XAk3dsXuPn1bRmsCCcoKMk3BCsi8vkqh88epHJ/BR1NnfS3DzDcM0pRZQGBsrwYjYIcs0KSwvKpxSmux+rSGqO944wOjENYIrfQR8WBctXMo6Q1Ainz0/PU3W0gx5vD2ddOq67KepAiv2+ue8bi/BJvXnkdu90eFzNFmQOiINLV3snk+CSvv31ZNTUYqdi1m4Iiqytr3L11l6KSIo4cO6KWre2zkcknNk3icUsNmNKVRPeu0Rzfajwhs9nMx598xO9/9we++vJrgKRgRRtnRQs8xMgHr9fDr//u11z/9jr3bz9goG+Qy29dkgOjRe4ZtV9EwArEARa5wZCbl4sv18fJV04wOzXD9NQMM1MzTE3O0NfZR0dzJ0BaGl27w44v10fNvmoCBQG8fo/ODAN6cKL9HwtQ1O8kqH1QS31tA3mBPN658jZZrqw4cGNk7gE9cAa4e+sOXR1dvP7GZQqLi3Rt0Eqy+ZM+gfbHBSJehuwCle9ZXjZggefTsiQDFJBAS5IErMQ+bYalcNzCLQgC5RXllJaWcP/eA/Yf3I/Vak1bq5Kb52fP3hoa6xrZf2ifGrUSootyOCTXn5efx9FTR3ny8CmFJQWUVpboAsEhymDMZrNx6Z2L3Pz6No9v1nLq0kkdWBGFMJshQBARpDCiFCbL7eTY+SNU7C2jvamL/vYBelv75ZOSgcWZJbI97gjDMX6cJUlifW2dxfklJgYnAai/1UhGVgYllYWU7SklMysjKUABWRuzMDtP7c2nODIcnH/jlciJr6J6IrKyUJtEE9MT07Q/66R6XxVFxYW6wFZaDwuAzc0NHt1/Ql4gjz379iSZSfr5oYCYB/cesB5c562331KPBUgNPuKfXCF+wU8EUrb7dJns3k0U/BCIm+/a99oyLRYLn/3iU37/uz/w5RdfIUmSHJgsDbCiDQonRQLHZWZm8t6H79HyrJVb12/x23/7T1576zXKK8vka6DV4qntiQcsJk1dYSmML9ePx+9V+ylJEgtz86ytBdnckIO+ra9vsLmxiSRJZGQ6cGRk4Mhw4MiwYzEbBH4zAKhGmok4gALMTs9y5/pdxkfH2X9oPxcvX1DjpCjzTLl+qUCKIIg0Nz7j8cNajh0/yonTJ3VtiQXPydq8Xfm5a1Ngl6Pyg5GXyV+JrXOrXJZUeYx4K7F9S8RXSUaszcnJofbxE6wWK0XFRWkFgVOIhT6/j6b6JtZW1yivKtctLFpircJDGR4Ypqezl4rqciw2q+oFpJACiRxwWFRWyPjoBN0t3bg9blzZWWq5otqWaNkANoeNwrICCksDZDgzWFpcpq2uA3umnZHeUUb7xxnpG2ViaIKpkWmmx2YY6R2lq6mHvtZ+xgcmmBqbYaBjkNc/fZVTl46TX5KHzW7TuCZHbPYxWhSTaGJybJJH12ux2qxceOscTlcmsW7IirZkc2OTG1/dwma3c+ntV9Vga8rvOjORIPL0cT1D/UO8e+UdXO7U56ZouQHz8/N889U3HDx8kMOHD6l55bFMbfJJZONPxEVJxySVjujuozSOl0jEW4l7H5lje/bUMDY2zuNHtTidTvLy89Q5qOea6L2BpJjflbmbl59LZXUlw4NDNNY1sbS4RF5+rs4rKJb3I49VDIdF4W+gvz6iIOJwOMh0ZuJyu8j2ZOP1e/Hn+cnN95PjycGZ5cRut8UdAKj1+tHN48ic0X6nePMo34c2Qjx58JQbV28RCoV47Y1LnDx7Uj1VWzsH5c/RvKLu+yhIGRoY5K9/+oLSslI++PgDHYjZrslnq9qUZHP0J8JNUWSXTPtjke8DsCj1budMoecBK/pfUxNrs1xZTIxP0tLczKEjh+RQ2TEeQNogcFoPIKvNyvp6kGeNzZRVlpKRkaFJoyfWIkBeQS5tTW1MT81QXl2mRj5R0xAl7BaUBJgcnaTLAKwI+j/RUgQBi81CttdNts/NjT/d5sP/+j6ZWRlYrBY5TktYYiO4werSGkgSntwcCssDVOwro6SqkNtf3Ofj//4BmVmZMW6Zgnpej26BFkSG+4Z5eruerOwsLr59gSyXMwpShKiHjxjZ+O7ffMjs9BxvvHcZdwR4qF4+MRvK0uIiN769SXVNNYePHdJtQMleSvuuX73O7Owsn3z6cUTDEwUY2v/axT12Q5W/i138jUHKi5BE9+5OgJWJiUkeP6rFZrNRUFigAyuJItgqfY8l2WZkONi7fy+SBM8an/GssQUpLOHP9WO2mA3HXfmvBSyxYFIBLlqAGs2X+BUFvHpvoFjAEgUnepAx0DvIV3/+mqGBIfYd2sd7H76rjlG03Hg+itpuMRZ8iMzNzPKf//E7st3Z/OLXn+n4bVsBzs8DUnZam6Jt1w9Qdsm0Pzb5sZiEUpmCkuc1NgElk4uXLtD5Pzt5/LCWS5dfVdugqMDVsmO5KqLIydOnaHnWysO7j7jyyfvRNJp6FXJiTk4Op86d5N7NB3S2dlGzvxpCUTW9wldBCmF32Ln49gVuf3OHRzcec+TsYcqqSzT1AzFnrCgSFsOR8PaQV+AnKycKcpKN6/zMgtoW3YYgCrrv1T4JIr1tvTQ/bSM34Ofsa6ex2W06kBJduOVFvLuth+H+EY6fPSZ7TMXY7WNV6Y/u1SIIAmfPn9E9nabDTZmcmKS9tZ2TZ07izHIm5abEfq+VdMw96YIUo40jnTma6N6N5a4YmT3j3kfMnxaLhU8/+4Q///HPXP/uBhvrG5w5dybh2UCAagrVclC0vBWLxcL5V8+x98Be7t+5x+MHtTxrbObU2ZPs2V8TR7ZVRPkonxeqMQ2pHdOvCSaDcUw6frHXUIzXlClpJscmefLoKYP9g3h9Xt5+/y0ChYG4+a+MpRgDHmJBivL96vIKf/jd55hNZj795Sc4MjJSgpRkffihyI/R7AO7QOUHLz8GwJIIrKTDV0lWnhFXxe/3s3ffXhrq6jnzymnsdrvKVVHqTMRVsdltnDh1gju37jI2Ok5efm60PlC9HUKRvHsP7mWgZ4D6h/UUlxVht9tQDmnT8lVAVMHKgxsPqbtfz3pwneoDlbLdn3iwgvId0UVT+3SaSsyqp1AEZIh6zYIeeIgMdA/S/LSNwtICTl88GXlq1oMUrVp7dWWVhseNFBQFOHB4n1qOom2JBRJzs7P0dvVy/PRxnFnOtPqgra/28RPMFjNnzpzWlWuUJ+67BGO2VZCSDokxNk2qwzt3EqyYzWY++uQjLH/9kju377K0tMTrb72OaARWDDyCtLwV+SsZ3Hu9Ht7/8H1GR0a5e+set67dpuFpA4ePHaZ6TxVWm1WOwhzhsGjbZghaAJHIoZrhrWlptaBEGZ/o2CkcH4nhgRHqntQzOjSCzW7n3KuvcOjoISxmi5pWC1CUsVfKFON+i6ZfmJ/nd//xe5aXlvnV3/ySHI8nLZCy0yafXW5KVH68Lf+ZiRrp8WXWuYWbIVHaVIu//jCu9Oo7feY06+sbtDxrSVhWbBvEiMng4JGDOBx26h7XqWaE2LYrC5lJNHHm1bOEQiFq7z3RebrElS3IYOXCm+cprSih+WkLzU9a40wvoihgNkV5HSZRexiabHoRxIjpxmTSmGLiY0/IefQ8FDFSplKf2WRiqGeIpkfPZBfkFCBFMfnU3n2KJMGZi6cjZwFpFl9R2w75+7rH9VgsFtXtdSvalKWlZTpa2zl0+CAOh2PHtCmx8rwgJVG+ZHmN7tv4+Bnx/Y17HylDcV1+5ZWz1Nc18Jc//oWNjQ3ZDKfjTxhrDsSYaydGuBqiKFJYVMgvfvMZH3x8BavVyu3rd/jXf/7f3PruFpMTk9H7RVOGWTTr5p0y95SXOodFIeFLSSPzVTR5NWXL51BJ9Hb28vl//JEv/vgFi/MLnL90jv/6P/6e4yePYzFb4uecGO2jIGjvw/ixAJienOL//tu/E1wL8pv/8huKiot3HKTsytZlV6PyI5Pvy605He1KupqV59WqBAL55OXn8aypmWMnjhnWrZhnYk07VquVI8cO8+DeI6Ymp+QAckp+4rUq2Tlujp06Su2Dp5RVDFJcUQwhJU4FqglI0ZuYLWbOXDqN1Wals6WL9fV1jp49HC1fbWBYVZfHeunEifxwqnvajmphxMg5PfFqcSSJZ49b6WnvIzfg58xrp1KCFEEQGewdYmRwlBNnj8scFs2CHg/SRBbm5unt6uPoiaNkODKSXle1+5pNtf5pPZIkceLkCf31S5TXYDNPZfJJBFJ2yhU01qMnVow83wBD02cqzYooily6LLsWf3f1Gr/9v7/lk08/kc+pEkVEtRpF6xFvCjLSrgBgMlFZXUlZRRkT4xM0NTTR0dZFc1Or7D23r4aC4gJyPDnRvhDbN4N1YJsPPevBdQb7B+nvHaC/t5/1jQ2ys91cfvsye/bWxJx6nFiDoi3XiI8iCgLDwyPyGT4WM7/++7/F7/clBClG7U0XpOxqU7Yuu0DlRyraifcyQEsiELIzZRvHVkkmR44c4Zuvv2F8bJz8QH6c+ccwAJ3MAuTIsaPUPWng6aM63r7ylmH5WrX5oeOH6Ovu58GdR/gDfmw2K7EmoFBIW7/A0TOHMVvNtDa0sbG+wcmLx9WNIepGGiYclnQLqk5dHxHtpqX8j19AtU/OAmsrazy5U8/0xAzV+6s4eGJ/5GC6KEgx6vPG+gZP79fh9XvZd2hPDCgQ4tyRAeqfNmAymzh87JDa/9gn20SysbFJY30jVTVVZGdnbzluipG8bJBiVGa6ARCTueoDOrCuLUMQBE6cPEFWVhZ//fNf+Zf/9a98/MlHFBQVGPNWjILDQXywNw1gCRQEyMvP4+Kli7S2tNLS1MKdm/eQJIlMZwZFxUUUFBdQWFQQZ+6LBS/pSjAYZHpqhunJKYYGhhkaHCYcDuNwOKisqaSyqkKOLBvjQqyMjTKm2u+V8TQCKEr63p5e/vz5X3A6nfz6v/wat9udFKQYkWcV+aGBlJ+C7AKVn4Cko6HYkXrSACvPq1VJRqrV5tl/YB/Xr12juamZ/ID+gMBY0KMFCCBzVQ4dOciTx0+ZmZ6Rnw51C3Yort4Lr5/nz//5F2rvPuHCm+dVYq223arOJLKWHDp+AKvNQv3DJhYXbnHi3FHcHnccWNG2XSkLTXuTLU5adbbcVoGZyVlqb9Wxsb7BqYsnKKkoNtys400+UPdQ5te8/r4cGM8ImGhleWmJrvYeDh05SGZmZkJQkMjs09zUzHpwnZOR+BRbkedZtF8ESIkt/3nBivybmBSs7Nm7hxxPDp///nP+7//5d15/87IaKC8RWFHnHqQGLKKII8PB0eNHOXr8KPNz8wwNDDI4MMRg/xDtrR0AWKwWXO4s3G437hw37mw3DocDs8WM2WSKRKiVt5u11TVWV9dYW1sjuLbG6soaM9MzTE9Ns7S0rPbd5XZx5NhhKirLyQvkxZlpEwEU3W9JtChKnpbmVr758hu8Pi+/+s2vyHRmbhmkJNLsaeV5Qcp25ceuTYFdoPKTke+DdPuixWiRVsRut1NdU0NraxuX37ysxnIwMv8YjcmR44epf1pPc1MLFy6d19eriVarqMs93hwOHz/M08d11ByswZ/rJVarojUBKZ/3HKgh05nJ0wcN3PzqDmcunSKvMFcHVrQEQu2TdLJFT7vQakHK/OwCD689xmq3cu7Ni+R4stW5kcrkMzM1S29nPwePHsDn9xgumnp+g0hLUyuAqk1JR7QbTmNDE4GCAEWFhXFjkK5s5Qk2Nv2LlETaFaN7NV2wAnrzDUBubi7/8N/+gb/8+a9c/eY7RoZHefOdN2T3fUhoCtIGbdOag6Ip9YAFIMeTgzvbzYHDB5EkicmJSUZHRpmfm2dudo6Z6Rn6evoMSbSJQhmYRJEcTw6FxYV4fV58fh8+nxenU6+l0V1n0fiabwWgbG5ucuP6LerrGigqKuLTX32K3W7fNkiJlWTk2e3Iz1WbArtA5ScnL9oktJNaFX2e9F2VlfgSFZXltDS3MD42TqAgkJb5R5GMjAxKykro7erl/KvnUvdHhINH99PS1EpzQwuvvXUxaR6tFJUW4vF7uP3NXR7eeMzJi8cpKAmoYCX6ZCiTC2VzUPyipDUB6RdB+f389AKPbtZitli4+PZ5Mp2ZuvFIRehrrmvBZrdx4Nh+Xd9VMBOz2EqSRHdnD8WlRTrVfyxBMZHMzS0wPTXF5TcuJ0yTTjCtFyHplJ+uKTRd7UrsPQCpo9gq+R0OB7/45Wfcv3ef27fuMD4+zvtX3iMvkGeoXQE9d0X7xgiwmAQN4NLMg/xAPrl5ubp+hUKbLCwssh4MsrGxyebmJhvrG2xubgJyyHyHw47dYcdus6sxc4zGLXa8tGNllC4RQNGmEwWBmekZ/vrnL5icmOT02dNcePWC6jGkzZeMOJuo/Nj2pQuWX4TJ56egTYFdoPKTlhdlEnoesKJL85ztKy8vB6Cvt49AQUBTtzHnRTXPiPIBg9U1VfR09TIxNkFeIE8fayISVl8rFouFvQf3UF/bwPz8Im53FuloVSQpjN1h4+I757n77X0e33rCifPHKCovJIzWPTkKWCDetVO3QCruyKIM2vo6Bmh+0oojw86Zy6dVkCJ74ERBSiJtyvzsPCODoxw9eQRbJLBVLDCJbcvk+ATLi8ucPXdG5QDEeedovH1ipbuzCwGBqupKuf8JNoPtyna0KVupV5s21VzfDliJzZcIrAAqyfbc+XMUFBTwxV+/5H//679x4uRxXrnwCrbIIXpqRPwYcxDEAxY5YfxbHWiROxHTJys5OTk8j2zbUyoFQAFoa2nj26+vYjab+exXn1FZVWkIgHcCpBjJyzL5/JRkd3R+4qK64e0wsn7ZN1bskxJAZmYmefl5DPYPJs9r4IIMUFZehskk0t3Zk7BO1Z0xsnHvO7gXs9lMS0OLYR4jUcqw221cePsc3lwvtXef0tvRr4l4G61Ta8pJ9FIktBHm6Z16mh43k1uQy2tXXiXHk632O3ZBT0Ruba5vxWKxUHOg2mAcBEOX5O6OHkxmE6XlpWmNgxhTd093L/5cP263O638RvK8G0Rs+7YryXg82voNN6kddF8WBIHyinL+x//zTxw/cYwntU/5l3/+F3q7e+XfNRu5AlTjyNzal2b90H6vdyM2qeUoL7PJpM+7hZfsvq8vT4ipM1Ub9WnlMlZXV/nmy2/54i9fkhfI57/903+jurra0NSzUyAlHV5KKvm5a1NgF6j8rOTHOHFT3aSlZaUMD4+wvr6eVnqtWG1WSkpL6OnqSfvIgowMBzX7qunp7GV5aSVp2tiNGWTS4fm3XiE34KfhYSM3v7zNzMgkAUCU9HmTiRAOEwAefveQ0YExDhzfz9nLp7Db7XL+BGpyXdsi3y/MLTDYO0TNgWqsNpnXkIpEGw6H6enqpbi0WM2TroiCSDAYZGR4mLKKspT2/mQeFgnr2OJc3yngnS5gicu3RbCi3VyNQLzdbuett9/i7//h77DZbPzut7/nL3/8C0uLS2rMFW1+I8BiVL4Yl0/U5TECCFt9GZe1NQCljKEoCITDYRrrm/hf//NfaG5u4ZXzr/Cbv/21CpD1/TDmoxiNdyzw3C5IeREmn5+a7I7Cz0x2Eqxs5yZK1+6cuhw5bVl5KaFQiKHBoW21saKqnMXFJSYnptKu+8Dh/QiSQGdrl27Ripo/EvNBREHAbDZz7o2zHH/lKGurQbq/e8gIkDG3lHbbQ/1jjABZC8uce+ssNQerDO38qcoSBJHOli7MZhP7Du0lketyrIyPTrCyskJlTWXKtEYyMjxCOBymtLQkYZpE/dnpxftFbAY7BVaSBUQ0AnhaMCEIAkXFRfzjP/0jF1+9QGdHF//8//0zd27dYW1tLSlgiQUMCUGCaAAiDLQaW3kZlaXtmxGAMAIoAMNDI/zbv/4frn5zFV+un//6j//Aq5dexWwyx42hVouSijQbfy12HqQ8j/wYH0qTyS5H5WcoPyR35kSSigyriN/vB2B2Zpby8rIt15NfkK/m92mOqk8mTpcTr9/D5PgkEM8rSCTa8TCZzJTVlFJYXkDfdw/gi9usLK+QLcR7fGglLIWZGZ+lvaETgEvvX0DI9+vSar18tJJosZwcmyKvIA+7w56yD4rMzswCyNweFDNT+kBTyZ+bm5siZXryvGafFyHK9Uh0DxjN8XTclyE5yTa2HLPZzPkL59m/fz93bt/hwb2HNNQ38sq5sxw+ehizWd4GpHCMZ5EmKJ1OcxDX0QQDsM0lJrGLe+L5HHv9F+YXuHPrDm2t7bjcLj785CP27dsbBSMGACW27u8bpOyafKKyC1R+prJTYOV5wMhOiDPTidlsYnFxMe631N5DIi6XCwGBxYVF+QaPJA+l6JPH76G7Iz2TkRgh70Y3l+jGY7FY2H9UPkunta6NY3vKsDvsCds9PjRB7e2nFGTKoCLD5WQ1Wd0pNvDQZoiF+QWKy4tS9kMriwuLmExmspzOuAU9GRdGzb+4jMlkVsFRMuLui5SXoVpPdo8kAiuQ2H05Nl8sWAHiiLaCIODxevjw4w85deYUN6/f5NrV6zx5/IRzF86zZ19NSsAif5biN+qEHU84JEklmfZPny6e3zU6Mkrt41o6OrowmUTOXTzP2bNnsFiiZwBFy0sNUOLzbA2kJJIXBVJ+qrILVH7G8lOIvSIIAi6Xi4WFRdUNM5UoEWqVg94ynRksLuiBjrzRxnv+KOLxemhbb2dxYQmnK9M4EeltUsp1CIVC1N1r4Ozrpw03sIHuIervN+D2uDl9ZA/8rz/p6gFjbUos6VL7eX52nnBY0oVETyaKan55aZmsLGdKLUoioLS0uIjLlWWYP91F+vvQkmxXUs0DMI63shWwAiTUrkAUsAQCAX7zt7+ht6eXG9dv8uVfv+T6tescPHSQg4cP4PP5onXGNVn/hRFwUfMafptaEmsgjOeKJEl0d3VT++gJQ8PD2G02Tp85xcmTJ1W3+XhtzNa0KLHtMmzL96xJMWrDT0V2gcqu/OjFmZXF4sJC2uljzTQutysOqKQSj88DwOz0bFKgkkzbFLsx1Rys5l5HP1/+9hvyC3Px5Xvx5ftwZNjpbuul6XEz/nwvpy+dxLq4rMurBsaLuKlq47Nog4XFfp6bmQcg25ue540khUEQWVpcJMuVlVYeI1lceL78yeT75gckkp0wBRmdEQSJTUHa+rRlCYJARWUFZeVl9Pf101DfQN2TOmof1VJUVMjho0eoqCpXydmg17Qo5Rpt2LFt244k5ngp/ZUYGx2jo72Tzs5O5ubmcbtdvP7GZQ4fORx1x94GQIn9nEqLEltWMtkFKduTXaCyKy+Ns/KixOXKoq+vb0t5tP3NcmUxMjSi+12SwkmPqFcivs5MzWzZbJKIz1JSVQylAXrb+xgdHKO/exBJkhCAYHCdsuoSTl48jslk2lJ9urrDYd2CNjszh9li3hJoCEth5ucWqazxp5FWMlzYF5eWKElCpP0py3ZMQcl4K7H5jLQryudYLaooipRXlFNWXsby8jLPmp5RX1fPF3/5AlEUKSoqpKKqguo91To38ljQokgi8LJd0dYhSRKjI6O0trbR2dHJ4uISoihSUlLMq5deZc/ePQk9xBIBlNi0ybQo8u/b16TsyvZlF6jsynPL981TsdvtBNeCaZl9tKKe/WOzsb6+TjgcJiyF0+qLyWzCarMSXAumTJsMBGp/EwSB3IAfX56HqfFpupq76W7tZW5mngxnBvuO7okDKakIx4mAgiLrwXVsdtuWiLAAG+vrWCzmOG1NuhJcC+qe1rWy3TJflqTSjKRbxovgrUD8GVGpzEFyXgGn08mZs2c4feY0w0PDdHd109XdzY1rN7lx7Sb5gTwqKioIFAbID+TjcDjUupV7byevmyRJzM7OMjg4xED/IAP9A6ysrGA2mygrK+PVS5eorKrQtWO7AMU479b5KMlAyq42ZfuyC1R2BXhxWpWXAWLW19exWONjeaTjNRSWwqysrGBLsGkmq3NtdQ2ny5k6cbptCYVpqWtloHuQ1ZU1TCaRmoNV5BXm8qyulUc3a7n47nlVra0tWxDEpOYfbTqtZDozGOwdJBQKYTanv9jZHHYVpIUlOTavJEmEIxwGkUiU3gQLqMViZnNzI+36vm8x2kSMPLK2WuZWwAqkNgUZ5U1lDgI9YBEEgeKSYoqKi7h0+RKzM7N0dHTQ1tbG/XsPVAK51+uhoLCAvEAe2dnZZLmycLlcKnHVSGIfJhQSdTAYZGZ6htmZWWZmZpiZmWV0ZISFiEnW6XRSUVFBaVkpVdWV0XhBBtfFKDqy7vNzAhSjMo3yJSp/u2kS5v2JgxTYBSq78iOXsBRmY2Njy0HHtLK6uqp7KktHFuflBTQzK5OwJMmmopTajejv2o1E2dyH+4Zpb+slrzCX/cf2klvox2KVF32H08H97x7y5E4dp1/b+knDibQUziwn4bDE6vIqWe7EG0ys2O12Vlej/kaxJqVUYjKb2NjYTDv9TstWNoZ0025H05IsTzKSLcRrV+RyEnNXtPXEcU00104LWkAmjp85e4YzZ88QDAYZGx1jeHiY4eFhurq6afHF6s4AACAASURBVGp8pmtfRmYGLlcWNpsdk0nEZDZjNptUbWAwuE4wuMZ6cJ21YJDgWpCVFTl4ooAMlLKz3RQUFHD2lRJKy0rJyclBSBLjx5CU/ZwARU6zC1J+CLILVHZFlR8rV2V9fR1rkqe4VLK6sobL7Uo7fVgKMz+/AJKEy63ndoTD4QhokQw3H+2Tb+xYdzV34w34OHv5VNxJs758L4dOHaDh4TNa69o5VRbQ/Z5Iq6LUmYj0mOnKQJIk5ucXcLqckYPqwohhCIuJF1GHw87aamqzVyKxmC1sbkQ1KlI4/L25KCeT7Wwi2wUsz6tdkcvZmjnI6LtkoMVut1NaVkppWWmkXInFhUXm5+dZWFhgfn4+8l4+lHBtLcTm5ibhUIjNzRCSJGGzWbHZbTgcGWRnZ2Oz2XBnZ+P1esjx5JCdnY3ZbE469gmDARrMoVQARTtO0TTpE2a/L5Dyc5JdoLIrP3rZWN8wNP1AepvF6soqeYHEgccU3ooUDqubwMKc7GWUyvQTBS4JtCma98HgOgeO7Y0DKQqpt6SqhLmZBTqbuymIpFHKFgUxAViJLqSyiUY2yRABIc4s2WNpaVEfFVffPhExHNYBF7vDzvTUdNK+JxwTKYzFamFj4/lMP0amrB+SbBWw7CRYketNbg6KbZvhd0lAi/Le5XZtCehvR5JGXU4DnCT67kVoURLVtZ00SfP/AIH9i5JdoLIrP0rRBlpbCwZxRk4LNtRihBObZTY3N1lbWyMjIyMmj6wRScQtmZ2eJSMzA5PZrIKFWG1K7AaimIi0bQqHw/S29wHgzfOQ489W6zeSgyf2s7SwxLPaVkAGN0q/jcCKPFaRE54NFmCbw47JLDI7NUtYCmNKsXgqYMfusLO8tCxfhy3wcBVNj8ViYT2m7bEiSdKWSb47KTv1tLsVntZ2461AvIYulXZFqU+RRGah2Hpi60p2jdI9QytVOVpJtkG/DICSKH+y+raTJmn+nxFIAXbP+tmVFyvbJdKmQz4FecGcmZ5OK2CZCiI0i+z46DiSJOHze6OakyR1h6Uwa2trDPUNUVhakGadYYxMPovzS9z++i7tjR0AHDi5TwZIEZASlsJxL0Q48eoxKvaVAfDoxhNWltfU9Eqdan5NXxUAJUW+D0tyALCCogADvUOEQiEd0JKSADyv38vGxiZTk1NpXeNYrZI7283c/Hxcuu/Te+xFihKxdyfSJjQ1iPHRgGPPC1Lyxx6ol6he5bu472PP+0m4oQtpv5L1KVE92vbFuhkbtdu43/FjpNRt3KddkPKy5efX4135UUnsxhX71Dg/P8/G5iY+v0+TJ/VTnLJxDg8NIxA98ydRG7Rmn/6eAUKhEOXV5QnTG3F9JM33/T2DXP/LDZbmlzh4cj8AVo35KtmGbbFYKN8r1726ssa9qw9YWVrV5dOZl8LJwVdZdSnBtSCjg6OJ+yNJOo+NQKE8XqPDo7o+S4o2SQeI4q+Hx+NhZXmZ5ZVkBwBE278V+SHzrHaKxGu04ar5DE0hxptxMsCSDLSkC16e92U0Jum0z6iPWwEoiUw9uyDl+5GfZ693JaF8nzdCMoCRaOOempRPPfZ6PLrv09XIDA+P4PF5DWN6JPLk6e3sxeV24fF7DM0+sfm1Jh+AyfEpnt6tI9ubzWsfXKSgNAqStHFcpMhmb/RS5Ni5w6wur3L32wcsLa6oZSRqv5FWJa8wD7vDRnd7b/S3BNdCaZ8zy4nLlcXYyFjKMTYSjzcHSZKYm51NO4/Sl5ehdXmRJMed1q4kOok5GWDZqpYlUTuMwMtW+mck6ZaZqr6EY7NFgKKUlaq9qWQXpGxffr4935UfvYSlcBSo+OJPPk6k2VAkFAoxPjpBQWFATa9EpDX22AmzsLDA2PAYZdWlcepqLTfFECSEwywtLfPwxiMcmXZOXTqO1W7TmHqiBFmd+cbgpfye7XVz+vIJgmtr3P32PksLy7r2xwKpuD6FwyBAWWUJI4MjrK2u6fqrmH9i+yJJYfIK8hgeHCWc6ECkJJKdI3NxZqZnomXqzFRb1KJsgQvxQ5GddJHeijkoWmZyLYvxJp8+GEkGOLYDcNJJl7zt2wMoz6tF2Uq6XTGW3dHble9VtqOm1xL0pqamyM52Y7VaE25usbwTZfMeGx1jc2OD/IL85Hk15ouejl4ASqtKU4IAOb+kai9WV1Z5cO0h4bDE6ddOYo64VMcCFB0nJaYtsVqFsBTG48/hzOWTbAQ3uPPNfRZmF5KCFa1WRZHS6lLC4TA9HYm1Kor5Ryk3UBggGAwyPTUTbXPE/GMk2na43C5MJhPT09vzHNqKpKtd+z5kq2DlecxBWwUs2jKTueC+LI1KIkkHnGwVoCjlpmpjOrITIOXnrE2BXaCyKz9yGRkZITcvT/2c3HykJ9L29fQjiCIFRYGYdMYakfX1ddqetZNXmKeeygroNn+tNkULUhbmF7j51W2WFpY4ceEomVmZurqU92EpsSYltn3azy6vi7NvnEQKh7n33UMWFxbjNEOJwEo4HCYrOwtfno/2Zx2ENkP6ugxItWEpTKAoH0EQGOgdMBjr5DwVURTx+ryMj42r6bV5o2ObXFPyQwYh6cpWN/Z0tCvPA1jSAS3puIXvtEbFqA3JTlpOeLBhGgBlp7QouyBlZ2R3BHblpUo6G0tC7USM9mVpcYm5uXkKC/XeN+nVIdHT1UNhcQF2u11n9tGlC0c39e6OHtZWVtl/ZL9OOxBbdyxImRyf4uaXd9hc3+SVN8/gy/fpN/JYMCGFkcJS8pckxdQXJisni7NvnEIKh3lw7TEryytxbtZGYEWRA8f2s7K8QkdLZxwYirYtOj6ZmRnk5vvp6ujZFmAoKi5kZHiE9TTiqfyQCbI7JTupXYH0AMt2QYu2/HTBw1Zkq+Vq2/siAcrLNvXsghRZdkdhV55bXhS5MRl5MiyFGRoaAqCgIGD4e7LNbXJykvm5ecoryxOWr/0+FArxrK4ZX56XvIJocLhkcVMA5mcXuHf1AVabhfPvvkK2Nzsh2VXSABRtG4xfClDRp89wZXDytWME14I8ulFLMBhMGRNGAVT+gA9fvo/WxlZCoVCkzKirsppew1upqCqXz2eZ1pt/0pHC4iI2NzcZHYl6G6U6WHKnCLUvg5C7HdmOduV5AAtsDbSkAi+xdW73lUrSbU+qvmnbmry+l6tFgV2QopXdkdiVH4Rshww5PDSMxWwmNy83JT9FMfso4KC7swdBECivKIumNdjQlY26p7OH5cUlDhw9AOiBSSKTz9rqGg+uP8JsMXPuzTNkZGbE80Y09Wlde1O9YtunAJywFCbbm83xC0dYnFvk8f/f3nt+x5Gld5q/iPQG3nsPggRY9K48q6qNTLdaas3IjTSaOTNn/4Q1n7Tn7Jc9Z7/tzB7tzJ7ZGa2kGbU0UrdU1V22u4qsIqvoCRIkCBLee5MJIG3EfoiMzIjIiDSwCdbvOQcEEHHjxo1IJO+T733vjS/uIhqN6q4t0xDQ8Vd6sL0VwujzMdMhJuN9bmlvBgCMPB/Vbbeapqw9f0NjAwRBwOTEpOVrt1OOegTmMIQFyK1jV86Xv7zsBLPzZDtXPnKSi6AcRsIsJUUP7wbZN7J1NLtNpJ2amkJdQ33yYWf5yM7I8xHUN9bD4/VYDnOon+4lScKje49RWlGKuqa65DbLhFNZQjwex+3rd7G1uYXzb55RZvfIqenF2k5fvSZJ1kdSMk1PtsplUWWlorYcJy/3Ynl+Gfe+eoBYPJZRVlSq66tQXFaMwUeDunYZ5UiNqnh9XtQ11GL4+QgkKZ6XXLjdLlTXVGNyYip5LWbkurrpUZz5k418O79cyucctchRWlLnNpeK3XzlSq5tzTe/JufzU1L2Fd4RciQJh8NYWFg0zU/J1lkuLS5jdWUVbR2taWXNckbGRsaxsbaBPk00RbvfOB1ZkiQ8vjuAuel59J47nhzuMc7oSUVBzAUlU0QlFYVJFxe13rqWWhw/14O5yTk8vPkIcSluOQyUOq+M7r4urK9uYGp8Wn8uk6nKkiyhtaMFa6vrWF5a0d2TXGhqbsLszAxCYf0DDgt1aOYw2Ims5CMs+UpLIXSk+bZnPwWFkrL/8K4QHYcdMjfrQAF9uyRZwszMrDJ80GC+jL26mJnZsM/Q4DMIooj2znZNeb2AJJNoJQn9d/pRUlaCxrbGZN3aSIRxyGfs+TieDwyjtasZzZ1N6W3TRD70kZX0aIu6pH7al0ZM9G3Qi1BLdxO6TnZganQKY0MTGSQrVWdTWxM8Pg+ePHiSNaoCAG0drRAEYHhoxPBapg//GM/d2NyAeDyO6akZ3b23ek3N2E2C9lFhJx1iPsfkmwib60qyuyGfFWvN2MkMpbzat4eCAlBSMsE7QwqSbJ+opyenIAgC6urr8vr0Lcsynj97gabmRrg8qeEY7Xm19Y2PTmBtZQ0nz/bBKpqi/KxIyvzMAu5//RBVdZXou3ACgiCkRVNkg2ikLe5mEBLTiEoigVYrPGaRGFmS0d7bhsr6Sjy5+wTrKxuWQ0DK/ZEgCEB3XxeWFpYxP7NgGlXR3gO3x436xnqM5DD8Y1yltz4xdDcxPpGsT1/ePNHZat/Lzm6EZSfSku8Mnv1cPn8/2r3fAphTfQUSpSpkeHfIgbGXn2onJidRU1MNl8sFIPf8hJmpGQQ2Aug81qnbni4sMuJSHAMPnsBfUoSG1gZlu0U0BQCCG0F8/fkt+Iq8OPfGaQDWkqKLNCQlIF1O1HMYl8/X5agYjktbl0UGTl46AbvLgXtf3kckEkmTFfWa1W1t3a1wul0YePhEd0+090s7ZNXW2YKNjQAWF5Y07cr+ejudTtQ31GFyYiLn15DsvLPcyXF7PfV4L9jNlOidLkq314ICMIqSK7xL5FAwPtU3F9RhiHg8jtmZGTQ0Nhj2m+enaId9ng0OweFwoLWtRbNf3wGrQw/zs/NYml/EiVd6IIpixmiKJMVx58t7gAxcfPs8bHZ7RknRRj+M05HNEmeNcpNaR0UjNhphMR7rdDpx6kofAoEgHt1+nCyffo+UbaIooutEB+am5rC0sKyPABmmKgNAS1sLRFHA8NBw2mtmjFIZaWpuwsL8ArYNDyjUDcXtQ0LtyxCR2a2w7OTY/Vg35SDOtxvR2I8l8CkpucM7RQoe4yfz2ZlZxGJxNDQ0WJbX5qeoxONxDD8fRmtHKxxOh+mwj/bnR/cH4Pa40drZqhsaMYumvHg6gqX5ZfSdPw5fkTerpKjn0C91n5q+G4vHEdoOYWMtgJWFVWysBhCPx5PXZhw60ifzmiyfLytL7XecaMPkyBSmRqd0x+vFS9nW0dMOu8OOJ4moivbajW1wuBxoaG7E8PNRy+Efq2nKjc2NkGUZExOpFW6zraeSC4edb3WQ7LYT3m1HvNt1U/Zr8bjdLum/H1EUgJKSL/bDbgA52uzlp1KrRFrjtonxCQiCgKbmxrzOPz01g3A4gvZO/SJv6TkYMgIbAcxMTKPvbC9sdhviUixt3RTlZxnbW1t4+mAQlbUVaGir1zxk0FxSjEKhRgtmxmfx5O4gtjdDiEVikKGJDsgy3D43KuvKUVlXCbc99R+dWp8IIHlVkgiIEkRBVM6Z2Nxxog1Lc8t4fOcJKmur4PV6lHIAkCwrQhQAu8OOtu5WvHgyjGAgCH+RHzZBiSzZEp9xJFmGLVF3S1sTJkYnsLy4jCp1bRsJyenjVtTU1sDhcGBmehbHj/dAkiVd56D9XZIk/iefgeR92sH70tghH9WI054sW79PUSL+7e4M3jWyL+zmP7lsx06MT6C6ugoejydRPnu4X5IljA6PwG63oaGpMbXdMOyjMjjwDBAEdBzryBhNkWUJ/bcfIxaN4ZWLfZDl9HwXtW4zSYlGo5gcngYAPO8fhizLqG6oREtPI7pOtaP34jGcfr0Px852wVvsxfToHB5c78etT+4CALa3tpUohSaKlIpWpD8FWhRFnLzUi1gsjke3UlOW1TamRVWOt0OWZbx4+iJ53YA+qVaNfjS1NEIQBIyOjOvOqQ7/WGGz2VBbV4OZ6emch26MCbV7PfPnqHbSKnsRCdirhwzuN3vZzv28VkrKzmFEhRwIu02kVaMOsVgM0zPTOH3mdFr9xgRO7bRkWZYxNjKOxuYmOBx2xKSY5bBPNBrF8OAwGprr4fF5dFNrjdGUpfklTAxPoquvA75iLyRJM6yhiaZokSQZkUgE40MTmHw+haL1IACg99JxiB11iZlC+g67pKoE1S1ViMfi2FgKIP5ckZsH1/pR8eoJ1DRVQ5KQ/OiRjK6okRWkoi3+Ih86+9ox9PA5Zidn0diiRKbMoipenxc1jTUYfjaK3jO9cDldkGQZopC6b6JggyRLcHlcqKmtxvjIOC5cPgeYfEIXk63TU1dfjzu37iASicCdSJBO1S8m/waEfVoB9WXFGJnaq7q0HITU7aco7beEUVB2D+8gOVLMTM8gFoujsdE8PwUwj2gsLS4hEAhaLvIGpIZ9xkfGEdoOoetEZ9qsGLW8JEuQ4hLu33wIj8+Dzt72tPVNzIZ8JEnGZnATtz69g+GBURRXFOPklRMAgJKKIshIzb4xfgGAzW5DWW0p2vqUZGC3z42BW8/w5PYzRMKRtIiINrKiFajW7mb4S/wYfDCEWCxmGVUBgM6edmxvbWN6fMY0qVYrVU2tjVheWkEwELRMojXLU6mtr4EkScmnKe8Gzh4yZ9/yLQwRjVyfkLxXT1Tebbv3E0rK3sC7SA6cfGb8GBMiJycmIQgCGjXDN7kwOjyWzGtJ1Z2+cBoADA4MoaikCDX1NcltyQRYTef84ukLbKwFcPL8Cdgd9mQ5bZ1GYVhfXcftz+4iFArjzJuv4OSVE/CX+hLHps8KyvQFACcu9aDleBPmJxdx+7N7WFtay0lWRFHEsVNdCG4EMf58XFdee72yLKGqrgpevxcvBvXDP9r7lpz9096cjF6l7nP2T9z19crCfbks/HbUOIjF0fJqTwEM5RzW+Q9yKIuSsnfwTpIjgyRLmJ6eQVVVJdxud14h54nxCVTXVMPjVfJarIZ9NjY2sDC3gPZj7clhBmOEQZIlxKIxDPYPoaquErVNNabRFF3bJRmB9QDuffEAEAWcv3oapZUluqnG2oiNel6rrySCjOZjDTj1Zh8gCLh/7REWZ5bSZEVtg/aaK2srUFZViuGno8lnAemvU05KTWtXCxZmF7AZ3NS11XhfSkpLUFpWgokx/YMGs+WpuD1ulJWXYX5+Pu01Mf6ez2yew575k6mzOmxxOQr5J3vBQV/nYYvoywjvJklymP+pmy1kll5Gxvz8PGpqU5GObBEZWZYQjoSxOL+IuvratLqNi7xNjE4Csozm1kZDe/QSMTo0ikg4gu6TncnZOZmiKdtbIdy/3g8IAs68cRIevyeZnKutOzmFV9LXk/aleWAiABSV+XDmrZPwFnvx5PYzbAW30pasV7+rbRIEAa09rdja3MLc5Jy+nGG12oaWBkiSjOmJGdPXSDttua6xDnMzc4jHY2mvRyZZqayqxPLiUt4JtSo7yYPaz/yKfDurw+zgjkribK4c1rVQUPYH3lWyYw56ZkQwEMTW1haqa2p027W5DqmOWE521Ivzi4hLEuoaag2dq0ZYEmUnRidQWl6K4tLitGEQtb5YPI4XT0dQVlWGiupyy2iK2q7Qdhh3v7iPaCSKU6/1wu1zayRFHykwCkqqrbJOasyOszttOHGxG7Is4/HXTxO5J+nDT9q2VtVWwOPzYHRwLDWMoxMu5XxFJX74inyYHJvS3ROzxd9q62sQjcawtLhsmqdiXE9FpbKyAmtra4hEIsiHoz5Dx0ghDQ8dBXkphLYe9uv1ssM7S/acve441KERdViguroqr+NnZ5RoQVVNdXKb2bTk0HYIC3OLaGptTAmBybDP/PQCNgOb6Ohps+jcNT/HJdy/3o/tzW2cfPUEfCW+tIXojMNQkibSopWTVJn0Jy6rbXV5nTh2rhOBtSCGH49qpMCwXL8mV6WluwnLiytYX1nXi4zm2gVBQENLPRZmFhDaDiXbob036s+1dTWQZRmzU7Oa+239N6FKZkVlBWRZxsrKStr+o8ZedVqF1AEeZKJrIZ7ftE0F9Pq8zPAOk31nr57xszC/AEEQUFVVmddxszOzKCsrhcfjzlhucnxKeSJzi5LYaTXsM/JsBC6PC7WN1bpyAHS5KZIsYeTpONZX1tF7oQdlVaW68yXlIU2G9ENBVom02rLaNlTUlaG+ow5TL2awOL2Udp1GSWtorYfNbsfI09G0stqoUn1LPSRJwuzUXHqdmvN7fV6UlZfqEmOVOjIP6VRUVgAAlheXLcvkupT+y0Yhd4h7MWPnsGb+7JRCfj1eRninyZFhcXERpWWlcDqdOR8jyzLmZudQm8hPUbaZ5W7ImJqYgtfnRXlluWV9W1vbmJueR3NHE0SbaBqZUQUktB3GyJMx1DRWo6qxUvc8HckgHKk69FKk26dLpDWXFXV/W28T/KU+PL33HNFIRBdV0bYRABxOBxra6jAzPotwOGx5/srqCjjdLss8Fe19qK2vwfzsfF5iUVJaArvdjqWllKjs9cyfvZLmw+IodpBHTUIycRTv/8sA7zg5NPKdmry2to6y0tLEsbl1OJubmwiFwqbykbbWysIyqmsqIQiCZX7K/MwCIAP1zXWGa0nvuCefKxGa9r5Wy/apAqEcm3nWj+6YpCDpn2mkyoooiug63YFYJIbpkdQQjLGN6tBRbVMN4lIcy/MrprN/lHbJqKqpSEY8jHkq2tezvLICkUgUwUDA8txGRFFEUXERAhsblmVy5TDXUjmIjowd5sHC+3248M6TI4EkS1hfX0dRcXHOx8iyhLXVNQBAaWlJsp60cpKE7e1tBDYCKK+qyJifsjCzCIfTgZLyYl2+h1JPqnOMxqKYGplBZV05vH6PaTRFKynaNmvPrZ5X+2V1rbopw5IEf6kXpdUlmBiaRjQa1UuRYcXc0vIS2Ox2LMws6K/ZcA9KyksQ3AgiEjZPeFWlpaS0CACwtrqW1uZMsuL3+xEMBE3L7XSK8stMISTevszw3hYGfAXIgbLTDiYSiSC0HUJJSUpUMn1qVs+zqopKeZnljB8AWF5QEjgrqsyHfdT1ThZmFlBdVwXAGHXQD6nMTy4gHAqjsaM+43n116GJoGQQE30CrWyQGr2AtBxrQjQSxexYKq9EG0lSfxZtIsqry7A4u5QuYJryZZVlyv1KRFXMcmQAZRgHAFZX1kz3a3NztBQXFyEQDB5qROSoQmnZG3gfCw++EuRIsL6+DgAozhJRMUYWVpdX4XA4UFTkNy2vdqDLi8sQBCFtiEhb18ZaAKHtEKrqMifzyrKM8aEp+Ip9KK8pS6vLqpPOhjGR1my/ru2ShOIKP0orSzAxNGX5AEb158q6CmwFt7AZ2LSsv6xCGXpbXV7L2FaP1wOny4m11fXMF2XAX1SEzWCQEZNdwo42f3jPChe+KuRIENhQch2KS/SiosvnMOnEV1ZWUFZWmjWpc3FhESWlxbA7bEp9JnUtzCrDIpW1FYlzmkcT1pbXsbGygabOhuTqtuaJs8bhGvP6jIJimgxs6Ni1ddR31CK8HcHKvH42jWRYPVcVsIWZ9JlCKm6PGx6fByuLK5Zl1OnMpWUlWFtZtSynlNW3wV/kRzwex+amuSzthIOUnkLr6BgdyA7vT+HDV4cUHGaSsLm5BUCZ+ppL+eRxwU0UFRfpy0vp0hIIBFFUmjlas74agMvtgtef3gZtO5bnlU68pikxfTlrR2mdd7Kz1Vb111deUwZBELC+vGHZFkmW4Cvywu60I7getJQmACgqKcJmcMt02EuLz+/DVuJ1A3ITBnUK+fbWdtayVu0j5lBaUvBeHC34KpFDx7h8vhnRqJK86XS68qo7FArD5c5+TGg7BLfbfJ0VtYPd3tqGx5t5LRYACG5swu11w+F05N2RGvNDrLB6VpHZcaJNhNvnxlZgO628sX0en8dUErTy43K7kou+ZcLlciIUyr7KrLbN6tTzfFenNauLWPNt66gP+7lKZHfYD7sBhORCJBIFADidjpyPkWUZ4VAILpe5qKSkQEYkFIHboy9n7PS2N7fh9XsMx6bP+Amub8KfWIE2vU07y09RzqmcQ0wMJ6XtT0xLTpWXICY+i3iLPNgKZo9SuDwuhLbD1m2QJLhcToQtZv3o6nK5EAmHlWE38yan1e10mYuKJEtHar2No4RZx33Uc4QoIy8XfDXJkSAaiUAQBNjtubt1NBpDPJ7q/KwIh8KQZMkyoqIS2g5ljahIcQmbG5vwlfjS9x3ip32v34Pt4LbpsJeKLMnweN3Y3swsNC6PG9FIFPFYPGM5p8sJSZYRi6Y/nNDymEREJRcRIvvHUYpAGNta6O0l+cNXlBwJIpEIXC5nMjk1p2MSq6xaLZ2vfkIPhZRyxoiKoPkEH4vFEA5F4E6IitWn+63gFmRJhr84fZaResxO/yMVBcEymmJWr7aN3iIPpLiEcIYhG0EU4PK4EAlHIMXNpUoURbjcqkxYR14AwJmIZIXzGMZJRVT0dTOacriYycBhCEEhtIEcPBz6IUeCWCwGWx7RFACIRpXhIrsj83CROszgyDCsFAknhp5cJjIjSxBEAYgD21uKCHj87uQ+Y/nDyKNwJSQsvBWBryg92qPidCn3IBKJWg6zqVGPaGI4zgqHww5BAGJZyqmIoghH4rXKVjcpDPIVBeOQEkWD5AJFhRw6uXTeNpsN8XjmoQazY4Ds4+3qcFI8QxTBblfqisUyD2OoEYFoeGcdrSiIiem9OxMawSLyEIso7bY77brohDFSEY8p51SvN1UuFclR70E2cYwlhoZshroyoUZy8pVSFavrPwjY6WaH94jsBP7VkIIhU3hftNkg5SkqdofS2WXLkXAky1nLhcPpSEQHMtflcivDU5HEbJf9GrIQ35NP7wAAIABJREFUMsiGGamIUOboUjQahSgIGeVCvZ9GmTGiiqUqjFadlG6ILZ6o25a73BBCXm4oKqTgMOt47XZb8hN6LuWVY5ROORbTC4goCoZyiqhEMwiNIAhwOh0ZhyREQYTT7QQEIKyZOZPtU2SwxI//7f/4UwSKPYZzipYRgkCxB3/2v/9x2jFKO9LzWKLhKCAIcFpM1VbvYTwah93pgM0m6rZrUZNo1SGgZO5NWnQmIR2O3KMjclxJ9s01aZq5K4S8/HDohxwooijuaOqjTbQlHuynn7WiDpGIoghIytJpIiRAO1wTjSnnNRnaEQUlL0KAoJQTREhyXPkOCaIgQJ0oY3c4EhEHEXFZgigKkOKp4RoAsNvscDqdaUIjCKLSLvVfEYl13iRIoohAWTEEWYI7sIUr1wbQ82gclQvr8G6Gse11YbG6BE/7mnHzzRPY8rshC0CwrCg561cUxbQoi7pNFETEIlE43c6kpCn7Uz+rRCOxtFwdtV71ezwehyAIyUiJ2T0FtMNI1v/NGKUqGo0qdecxXJQNDjcQcrShqJAjgZqzEIvFksMCikRYT7cVRRE2m5iMlGiFQpUNpW4bBEHIGC0RBBEOTURFTZRNSosgIg4l0uD2urG9FUrIjhK2lCxWn9Vex5lvnuO3/upzeLeUaIwkCAh5nPAFQygKbKN9eA5XP3mAf/iDN3H/UnfyGo11mUUZwtuR5LCPVmiMchOLRJMJrVbRnGgkmhgKS81CMjtnLBZLCpNxvyCYz9hQh4scdkfaMYyeEPLthKJCjgR+nzJTZWtrC8VFRVlKKwiCCJ/fj0AgkLGcaLOhqNiPwEZQ+V0QEJcVCYjHpWR0pbSsBPOzC8oUaTkhPoinzfwpqyrF5ItJRMIR2J3KW0yJJAFIRmtSURVJlnD5i8f4rf/vlxBlYKqlCh/96DKGjtUjbrdBjMXR+Wwa3//ZLTSPLeAP/tOncIWiuHX1pO5atdEJbTRFiktYW9pAXWutZSKtIAqQZRnrqwFU11WlTaXWDu8EN4LwW8wcEsRU9CUYDMLn9+UlHMGg8hp4felDWro6GCUh5FsD3+3k0Mi0Jgig74yKEnKiPpww10/X5eVlWFtNPelXtIgmlFeUY3VpxXSfSmVNBba3QqZPF9Z25I3t9ZAkGXMT8yaddPo1N0ws4Qd//QVEGRg43Y5//7/8czw72QLZ6VDugdOBod5m/Lv/8Xfw6HQbRBn40d9cR93EYloei2gSqVieXUE8HkdNU5WmjGYIKHH8VmAb4VAYVYmHLhrbrNa7trKB0vLS1JBQUmb017axFkCx4flJ2V63zaByb4uLMj93KRtWf1uHOSuIELIz+K4lRwL1wYKqqORKaVkp1tc2dLktZjNmyivLEAgEETUk7AqayEJVbSUEAViaX9ZEHIS0ukrKSlBSXoyZ0VnIspyMbIiaDl1MCIYoivjO39+APRbHeqkPf/tvvwvJbkvrUEVRBBx2/O2/fg8bJV7YYxK+97NvNOcW0iRMTERZ5sYX4PG6UVZZlnHYZ3l+BQIEVCRExXQIKRTG9tY2SstLLO+5etzG+gZKS0sty5kRDG5CFMXkwycFRk4I+dbD/wXIvrMXn2KTEZVAIK/Oq7SsFLFoTPcUXyB95k95ZTkgA2sra2mzWNRP58WlJXC5XFheWAWgkRhNVENI1NvY0YjNjS0E1gKWURxREFGyuomuR6MAgK/fPY2wx5U8nxot0X6FfR7cePcUAKCnfwylq0GdpGiHfADluUMrC6to6KiHKArJaIr2GtU2ryyswuN1o6jIn5ZAq37fWN1Q7ldFmeEe6b+HtkOIRMK6iEouqwpvBoPw+nyWZfNZmZgQ8nJAUSF7zl4nPQqCAJfLBZfLmRwayHRubb5GaZnyyX99fcNyiXlREFFeUQ5AERVlm364Q6lXQFVtJZbmlnTbjcMooiCioaUONrsdU8MziWtIRVW07WsbnIKYCPY8O9+lqUOw/Hp6pkM5nwy0D82mElYNkiIKAqZezMBut6OpoyFNrHSyAgHLCyuorK1MJMmqSbB6qVldWYMgCCgtL01LpNUKZDCR71NcUmw6HKW2T3tfREFEMLgJv99nKLd//00xQZeQwofvUpIk3wTF/fhP3mpNDgAoKS3Fyspq2nbj0EqyLlFEWZnyyX9pYTFZr1mEw1/sh8frwdz0vC4hVPtdFEXU1Fdja3MLK0trukiKMaridDrR0FqHufF5bKxu6ORAKytVM8sAgKjDhuW6ytQzTATzLwBYrq9ELDF9t2ZuNVmfdrhHFAQszaxgbmIBjR31cLpcplKlRlOW5lYQCUVQXV9lGk1RpWVhdhE+vxfeRHKzWX6KIIhYWlSuq7LSmO+SGvIyY31tPRk9y4bxb2Uv80/y/dtmci8h+wffXaQgyKWTqaurw9zcnC7fJFtCblFxMUrLSjEzPWt5PjVa0tregumJ6eR6Kuo+7XlaO1vhcjrxYmA4Y1QFAI6d6oLb68bAN08hxeOmsuLdVJ4NFPK6IYtCSjgsHrwmCiIEuw3bPmXhNm8wpJMltZ1bgW08vTuE0vISdJ7s0A35aIVKbe/wkxF4fG40tTYodZnM9omEI5ibnkdze3PaPm37AGB6YhpFxcXJ3CJjOTPC4TDW1tZQU1OdVlZ3jjykgAJByNGH72Jy4Oy0o6mtrcX21jbW19eVfTl+6m1orMfc9JxJ3fpE2NaOFsRjccxMziS2pQ//OF1OtB1rw+zELLaCWxmjKi6XC69c7sP2ZggDtweTC93pZEWzDIxWcrR5KWobtMM7ZsepQymxqITHXw/CbrfjlVf7lDVJNJJijCqtrwSwPL+CjuPtsNntGgHRX//0xCxkSUZLW1PasI/2Z0mSMDc7i4amemUYSRRzyi1ZWlwCAFRVVyfuIf97IoRQVMghky0ioqW2rhYAMDc7n7UT00ZMGhrrEQqFsby0nLb4mFYuahtq4fF6MDY8YTr8o7a163gnAGBkcCxjVEUQBVTVVOL4mWNYmFrEwK0nyfVXVGEIFSuzWzxbIYhyavaO9suYUGuTBbgTi8KF/J7kUI/SVgFP7zxDaCuEU6/2wevzmkqKMZridDnR1tWitF+T6yJopGVydAr+Ih8qa5RpztphH+39WllcQTgcQXNLk6VMmuWnqKJSnah/p+TzN0UIKXwoKuRA2G3+gCAIqK6ugs1mw8L8gmn92k4PSHT6ooiGxkYIgoDpqZlkeW0nrP4uiiLaOlowMzGTXCo/KQ4aIfEX+9Hc3ojRoTGEQ9F0CTAIQXtPG3rOdGNhagkDt54Cspwst9ygdMr2aBxVc6uKiIg2aJNn7aINdtGWrLNqbgX2xDTq5cZqjcQIGHsyjpW5VRw73Y3yqvKskrIV3Mbc5DzauluSeSxaKVPvZyQSxfzMPJrbmmHT3WPtsFMi8jI5AwEC6hsbdK9RtvyUxcUleDwe+P1+3THav4HdwDVUCDma8J1LdoX1J+ad/2lZJdTabDZU11RhZmpaVzZ7nkoRSkpLMDU+ldbZGafqtnW1IxaLYcIQVTF24MdPnYAUl/D47kCyMxcMeSBaMeg83oHjZ3qwMLWEe9ceIrytLLE/2dsGOdGk4/de6Id3jJEU0QabaEPP3ecAAFkAJk+0QBRFbAdCePjlY4w/m0RTRyOaOxuzSoogiBjqV87ZcVzNY0nJmTY5d2J4ErIMtHQoURdBIyva6JYoiJiamEJldSU8Hndy2CeXv4e52TlU11TDJuqf82N27F4k0u7mb5QQcnDwnUp0HGbyoVVno21Te3sHpqdnsGlYFyXtGENdXd2dmByfQjAQ1M2q0Z5bFETU1FWjqroSj+4NIJ5IgNVGF9RypeUlOH7qOCaGJzD+YjJtCMhMEDqOt+H0lZMIrG3i64/vYOL5JIIVJRg53QUAOPfRbbi3oylhMPlyh6K48PFdAMDw6S6s+r14du85bn16D8G1TfSc6UbvhR7YbObRHa2kzE3MY2Z8Fj2vdMHn8+oebKiNfEiSjMFHz1BVU4mq6gpDFCU13CUIIlZXVjE/N4+uY13mgiGmcmm0BINBLC4sorm5STm/xd/hQSTSUmAIKSz4jiSHgn4mS24hfUEQ0H2sC7IsY/jFC9POTDtMo0ZARFHEib4TAIChp88NdaZySwDlKc1nL51BMBDEyLPRtKiK2l5REHHidA9q6qrRf6sfG6sBvRhYyEpjWwNe//5llFaW4vnDYVz/p5v4q9NdiNlEFK0G8MP/62ewxWXYRHtaropNAn745/+IorUg4jYRf3PxOG5+eBuzY/No6W7Cm7/xKlqPNSeGjjJLSmgrjEd3BlBWWYruvm79/UpGVpTfR4fGsLW5jZNnT0JI5KNooynajn3o6RBE0Ybuni79ayKIaXKiPc/46AQAoK29Tbdf+9rnwmHkp3BmESH7C99h5MDYixyB6upqlJQU48XQC912s0/pWkpKS9DY1ICnA4NKeZPF39TjG5obUFNbjUf3HienKqdHVQTY7XZcfusSHA4nvvniNuIx4xRkc1nxF/lx4a2zuHj1PCrrKnEzFMGfv6Ik6HbdGcQf/M//N2qu9yOyvo14RAJiEhpuDeL3/6f/gGO3nwEA/v0rHfh8eQNl1WV4/dcu4/jZbrjcqRwTregYJUWKSbhz7S4gyTj/+jnY7fa0IR/1nsbjEgYePEVVTSUamuoyRlNkScaLZ8NobW+Bz+fLebYPAIyOjMLv96OqOnsi7U4iHsxPIeTowqcnk4JEFERIspT8riIIAo4dO4a7d+8hHA7D5XJBTDyBWHe8KCpPJgYgQgISUZWPfv4xpqdm0NBYn+zwlCcZS5DiiU5QBM5dPouf//RDvBgcRs/JY8o5BFkxexHJpyp7/V5cfvsSvvjwGh583Y/zb5yFiMTTkQEoB2p+ByCJEuyiHdV1VaisrUAoFMbw6Tn8n2VF+FfXH6JpYgH/6t/9PeIANp12+KJx2BJrx2w67PiLd85i6I1TuFxdirKK1LN00labNc5CEpQVaB/cfIjAWgCX37mEktLitFk+2pybF0+eI7QdwpvfeQM20ZYxmjI1MYXQdgjHe3vSXkvtonHGBfri8TjGx8bR03MseQ7tsbrX1FCvet35wuEdQo4OFBWybxglIxcEQYRscowoisl1SLq6u3Dr1m2Mjoyh5/ixtONFpIsLALR3tsPtduHZwDM0NjWkZCZRVhRSQlHXWIf6xjo8vj+AzmMdsNmVTlZCon4hpSO1DTXoO9uL/ruPUFZZhs4T7RpJQpqsqPdFEiWIkgivx4PW7hZI3S34j797FSc/voXO/heoXFiFdzuMLa8Li5UlGDtzDIM/fA2hEj86TIZR1O9mggIAAgQ8vf8Uc1MLeOVCH+ob65KSYhdtOkkRBQGRcARP+wfR2NyA2rrqpJiYRVNEQcSzgWfw+rxobmnOOYlWFERMTk8hGomivbM97XqU1zT/4RwOxxDy8kBRIWlopSCn8jsQEuN5REGApFlx1gpBENDQ2ACf34dnTweToqJ0bFLGOlwuF070ncD9uw9w5sJplJWnHqynjaqo2y68eh7/9Hcf4PaNO7jy9mWIEpRzQEy0HUlZOXH6OFaX1/DozmOEtkI4cbZHJz6qrECNFKnnFSRIsgQbbJAlGWJ9DQb+5W9gwOIaJFmCzUJStIKifk9FWWQ8/OYRJoen0dHTjs7jHRklBRBw8/NvIMVlnL18Jm3IRxtNEQURiwuLmByfwoXLF9JX0jWJpmgZeDQAp8uJ1tZW0+vKlb3IT2GkhZDCg+9KcqDkEqbXrvSq+y6mvvf19mL4xQg2N7cyJtWmOmulEzt38RycTidu3bidXDVVOwNI27lX11Tj1LlXMPxsBBMjE5qIQirhVK3bJtpw5epldJ/owosnw/jy45sIh8Kw2+ywicqX3WZL5q3YRLsud0UURNhsNgiiAJvNptuu/bJrck9sNlvaMep+bf2SJOHOtfuYGp7BiVM9OHP5FOx2B2yJ9VmMkiIIIp49fo656Xmcu3IW5eVlpkM+ydwUWcatG3fg9Xpx+uypnKIp6vm2Nrfx7NkQevt64XQ6s872Mf5N5PP3tB8wckPI/sN3GTlUdvIfvSAI6HulD5IkYfDJU319WZJqPR4Pzp4/jdHhMczN6JfVN66DAgCnzr+Cmtpq3Pz8G6yvbqTNAtLKisNux7lXz+LSWxexsbKBzz+4juX5FYMwiWnCok18TYpGQkJUEdF+qdvTjknIiVqf3WbDxsoGrv/iK8xPL+DUpVfQe/YExOSCcqKppKwsreLRnUdoaWtGT2931iGf6clpzE3P4tylc3A4HZrXQh9NMeNR/2PIcQlnzp7RHad9rXMhn2gKoyaEHC34jiX7Sj6dQj6dTVVVFerr6/H40UDyIYXGc5lFVURRxKmzp+Hz+XDzy6+VcoYIgXYpfIfdgXd+7SocTge++PgaYpGYrlM3yoooiGjrasW7P7gKp9OBLz++gecDw8kIgzbSYRZhMc7YUUVE+6WLwmiOS24XBUAGntwdxPWPbkCKSXjt3SvoOtGha6eZpMSiMdz85dfw+n248tYliLrojpCWQAvIuH3zDkpKS3Gi73jGaIpx9WBJktD/sB8tbS2oqCi3TKJN/zvJkvfC9VMIeangO5OYku9/9vn8J78Xwz8A0HeyD4sLi1haWDJ0cuZRFbWTdrvduPzaZczPLmBseCw5BGS8HrVj9fv9uPq9t7G5EcRXv7oJJJ/HYy0rZRVleO8H76KhpR6P7w7gy49uYHlhNaOw2G025WdNpEX90q9Qa0+PxGjqWJ5fwefvX8fI4Bjau1vxnR+9i/rmes3S/OaSAgDfXLuNra1tvPHua3C73aaSor03L4aGsbq8isuvXoTD4Uhen1luipGR4VFsBoI4feaU7r6nXq/0h0Ka/Y1kgsM+hBx9+E4jh85Oh3+On+iB0+HA7Vt3UnVliKpoOd7bg8rKClz//Etsb2+nymqiKtoOub6hDhdfv4ip8Sncun47J1lxuV147d1XceG189gKbuPLj7/Crz64hpnx2eTDCY3DNbpIi+ZLlRjtPu02KS5jbmIBX//yNm5+eguCIODN77+Oc6+dSzzDRzPUZLPDbrPr2i/LMr7+/BtMj8/g/JWzqKmt1uXkmElKJBzGrRt3UFVdhfaudmRD/1oIuPPNHRSXFKOzszPnaIp5vZqnYGf5W2LUhJCjh+3P/uzPMu3PuJO83Mg5zMLRlYd5eUEQTPbpf1fPpZTVl1GP132XZdjtdoTDYTx48BDdx7rg8/sAWU6WAYREq2TIspz8hC5ASQitqa1B//1+rC6vofNYR1o+hPJr6pjK6kpIkoSnjwYR2g6hoaUBAtRjlJ/UoQ8B6hONBZRVlqH9WBt8Pi+W51cwOjSGieFJhENR2Ow2eLwe3XAOAN3vSUFI3AsxsfKsLMtYml/G80fDePB1P6ZGpyHFZfSc7MaFN8+jqKQIaqKvKNoMycNKPTabDVJcwpeffoWZiVmcv3IOfad7k88VspIUQQC++PQ6VpZW8Ru/9WvwF/kzRlNSya/KPRkfm8Cdb+7gjbdeR319vW64KPk6aSJdxsiasZxxm/KzWVTNfHhxJwKz24ckEkJ0/K9WOzg9mewZopD7NGWr9VLyKSMIAi5duYSHDx7iy2tf4kc//lFaO9R1VSAibcp1TW0NXnvrdVz71TUMPBxA3+m+5NoqQGohOHUNFJsInL98DrIso//eI8iSjItvXEh0zoAkK1OsU+dLTV92u9zoOtGF9mPtmJuex9DAc4wMjuD5wHOIooiyylJUVJejvKocbo8LgijCZrfBbrfBZrchGokhuBFEcGMz8T2ItZV1hLfDsDvsaGxtQHN7EyprK2G32ZL3ITmEpptOLCRFIhqO4ouPv8TK4jJefesKuk50ZR3uEUUBTx8/w9jwGK68fhlV1VWWkqJFG035+quvUVRchJOvnDSNpmSTgMNeaZbDPoQcHBQVYkm+66lkrCuLxGRbU0U9Pvk9Ud7j8eDi5Yv44vNrmJmaQX1jPWRJSnR4+nVVjKvVSrKMV06fxMTYOG5cv4nahlpUVFYkzweYy8qFK+ch2kQ8uP0QG+sbePM7b8DlcenXWQHUBVQgSFJCuETABjQ016OusRbhUBiLc4tYWljG4twiXgyMQJJfwDqQpeyw2WzwF/tRXVuF+uZ61DfXwm6369qdTVAAILwdxq9+cQ2B9Q28+d4baO1szUlSVpZX8fX1r9Hc0owz589knIpsXIUWACbGJzA7M4vvfPe9tHYb/ya0+0zLcNiHkJceIUt4P7/YP3npyFdUMsmI2T5txER7Lq1gqGUk4/dE+XA4jP/w5/8RpaUl+L0/+j1laEhSFlJT65HlxO9Sqg45sX9zcxP/9S/+GxxOO378+78Du8MOKXl8opwkG46T8GJoGF/+8ks4XU689d03UV5VnvW8smaf8TqikQjWVtYQCUcRj8URjUURi8YQi8dht9tRVOyHv8QHr89rKgdaOQGQJijqPlEQsbq8jq8++wrb29t4+7tvoaG5ISdJiUXj+OlPfoZIJIp//oe/C5/fl9OQjzaa8nf/7W+xtraOf/s//Bs4nM5kW43RlFzWTrESFbOIi5Wo7ERgGFEhZM+xDKNSVEhGdhJRyUdWjEM7ZrKikxkLWbl75x4+/uhj/PaPf4SOrg7IGiGRZFknO6qEpLbJmBibwE//+8/Q2d2Bd753NVl3NllZXFzCZz//Jba2tnDu8ll0nehMEyXjubXXZJQW4z3IBeNKsMp3NX9DLwrxeByD/UN4fP8xXG43rn7/bVTVVOYkKbIMfPbhLzE+Mo4f/s4P0NjcmHWWjzaBVhBEjI6M4ad/9w949713cPb82bQVbrNJiu6aMkRT9lNUKCmE7AuWosKhH5KRvRz+MWMvclUA4NTpV/Dg3n18+vFnaGxuhMvlSsqK+owetQ7tEJC6rbm1GZdfvYybX92E3W7Hm+++YZ6vAuie21NVVYkf/rPfxLVPr+PWl7cxPTGN81fOoai0CKKEtNwV0aYOgSn31SYobRAFJa9EkmWItsSwU6ahsgzDIGaRFUEQsTi/iNvX72B9dR0tHS24+MZF+LxefeTFQlIAATe+uKHkpbxxxVJSjG3UDj2Fw2F89vGnKK8oxyunX9nRTJ+d5qZw2IeQowtn/ZCs5Dv7x3yWT6Iu0+2pbeqMnlQ9+jJWM4BEUURNTQ3u3L6DaCSKto62xOwbdd4P9L8bZgHJAGrrayHLMh7e78f25hZa2lpMZgIJabOB7A472rra4PF58OLpCzx9NIjNwCYqqirgdDmTHxPUoQ91Bo8oioCQEgq14xc0P1t9qbNntLOABEFZtVZIzPRR90XCETz45gHufnUPNpsNr7/7Ok6fPwWnw5GaAWSzpY4xSIogiLh/+wH67/fjzLnTuHjloqWkmD0dWUhsu/ara5icmMRv//hHKCsv19yT1GwgIFs0RUieRyWXaApn+xBS8HDWDykM8pkZpCWXqEp9Qz3OnT+Lu3fuoed4D+ob65PnVBNrjbOAREFMJtfCZsOlVy9BloE7t+5AEEW8/vZrusgKkJ5gq0ZKek+eQGt7C/rv9mNwYAhjL8bQ2dOJk2f74Pa6E0m+iUiJYIMky7AlrksfRdF3nsaIltnQg9nQSGA9gGePn2H0+TjisRiOnTyGsxfPwOl0JgUFSH92j1qfKikP7/bj3jf30HOiB1feuJImKak2pD90UC0zMT6Bh/cf4vzF82hoaNC1mdEUQkgmmKNCcmIvc1WyJdUaz5dPrkooFMJ/+n/+X9gddvzxn/4L2O32ZL6IWpdZvopavyTLiMfjuHH9Ju7duYe+U7147a1XdefIlrcCAIFAAA9uP8TQU2X6cWtnC1o7W1FdVwVRFHU5NNprtLofVhg7bwHA7PQchh4PYXpiBqLdhrbOVvSd6kVZRZnpMI/yu6iTDHW45/aNO+i/14/OY5147/vv6p4xpM9/MU+eFQQRkUgEf/mf/xKiIOJf/us/gdPlSp4z1wRa7bUeVm6K2fkIIXsGk2nJ7iiEpFptOclMWhLHvHjxAn/7N3+HV1+7glffUCRjZ7JyA/fu3NfJinoerawo22RDgq6yf2N9Aw/v9GNseAyRSBQujwst7c1obm9Gda1eWqzuWfpUbf37ORKOYGF2AXPT85iZmkVgIwiP14Njvd04dqJbs6BcKoKi1KMVBW0+inI9N7/4GoMDg+g71Yc3rr6e9kwkQC8pyTpFfb2//OSX6H/Qj9/7w99Dc0tzspz6PR9JMV5/NlHJJCMUFUIKCooK2T0HOVXZeL58pivLsoz3//F9DAw8we/+3u+ipbXZNIKRi6x8de0r3L/7AE0tjbj63avwej2QZVlX3iq6kqxblhCLxjA1PonRF2OYGJtCLBaDKAqorKlCWXkpSspLUF5ZhpKyEjgcDp28qMTjcWxvbWMzuIWtzS2sr65jbnYBywvLkCQJdrsdtfU1aOtsQ2tHCxwO5UnGuQgKgORQTyQcwSc//xSzU7M4d/EsLr12yXS4JxdJefL4CT76+Ue4cOkCrr57NVlO+934rKWdTEc2ljPWlev2TFBSCNlXKCpk9xRaVEVbh9naKn/5X/4SG8EA/uRP/xjFJcVpU5bVurTHmsnKQP8Arn9+HU63E+987x00NjUkZSVVn+Y4C2FRv0ejUUyNTWF+bgGL84tYXV5DNBpNJhrbRFFJbrUrS9zbbDZEY1Fsb27rk4AFARVVFahvrENdYy1qampgs6ur0qbLifa7maAAwPrKOj764BMEA0G8/d5bON7bkz48ZEicVfcZJWV2ZhY/+a8/QVNTE378z34H9kTyrr4dexNNyUdSsu2zPIaiQsh+QlEhu2e/RQXY2yGgleUV/MV//gv4i4vwB//i9+F0OnckKwCwML+AD9//EKurazh/8SzOXjqb7GTNoivKdv0aKdrz6NobjyOlFP97AAAS+klEQVQYCGJleRXrq+sIhyOIx+PKVyyOWCwOu90GX5EPPn/iy+eFr8gHV2LBNBWzKb/GyIQ+DyWRqCzJ6L//CPdu3YPb7cb3fuO7qGuoS4++5CgpwUAAf/Vf/houlwt/9Cd/CK/Pl7OkmLVZPWfy5wOOppidkxCyp1BUyN5w0LJiPF8uQ0Da44ZfDOPv/va/o72jDT/87R+mJbIaE3WtVq8FlETdL375BQafPENdfS3e/f478Bf506Ir2mOVtqQLi9n1W90n4zCQYNFhmnX0QGZBEQURiwtLuPbZNawsraC9qx1vvP06fH6fqaRo12oxJs6q2yORCH7y1z/BxvoG/uhP/giVVZXJ8x+2pGTbZ3kMJYWQ/YaiQvaGQoyqaOsxy1e5d/cePv7oE5y/cA5vv/u2sj1PWVHPLUkSBp8M4vPPvoAMGecunEXf6d7kM2vMhEVXt0FaTK83xxk/WqyHStLlRN0ejcZw//Z9PLzXD6/XgzffeQPtne1pQz3K8blJiizL+OAfP8Dw8+HEKsGd+nZokmfV4437za+DokLISw5FhewdR1FWPvv0M9y+dQdvvvUGLl65qGzfoawAwMrKCm5cu4HhFyPw+324eOUCOns6dcNBZm3SR4tS15EtX8eMbB20KifasqKgLKM/MjSCu7fuIbARwPG+47jyxmV4PV5dHZmGepT60yXl888+x8P7D/H2O2/hwqWL+vJ7nJeSyz3IZ5/lMZQUQg4CigrZOw5CVICdDwFpf1aPi8fj+Pn7P8fjxwN48+03cfHyBeXYLLKi1pEWGUlEV6Ynp/HV9a8wP7eA8opyXHrtAppbm9PabTXEYyUuO8FMTIBU5yzFJTx7OoQHdx4gGAiioqoSr731Kpqbm3TlrKIoahmjYAiCCMgyPvnwEww8foLzF8/j7XfeTs4U0pfduaRojzMra7xe03tEUSGkUKGokL3lsKMqyjH5y8oH//QBBgae4K2rb+HCpfPKsVmmLmvrMIuuxONxvBgaxs0vb2B9fQMlpcU43tuD7uPd8Pq8yUcC6KNC1rkpuS72ppJp7RBRUKYbDz55hof3+7EV3ERNXQ3OXzqH1rZWnUykPyPIfKhHrVctL0sSfvHBhxgaHEqsXfNaXpKiL0NJIeRbCkWF7C07fVDhQQ4BaX/Wysr7//g+njx5ijfefD353BqrlWKthoL0+5Sy0WgUz589x8CjAcxMz0IQgNb2VvT0HkNjcyNsNpvuuUlW4pJpm0q2GS3hcBhjI+MYGx7D5MQU4vE4Ghrrce7iWTQ1N+UsKGqdplEUKDOW3v/Z+xgZHsVbV9/ExcuXdOXykRRtvdp2aI8zK5ftnmTblwmKCiEHBkWF7D2HEVUxnjfXfBXtcfF4HL/44Bd49OgxXjl1Eu9+V1kaPhdZ0dZjJSySJGF1ZRVPHg/g6cAzbG1tweF0oK6+FnUNdahvrEdVdWVaJ7ibp1THYjGsra5jcX4RYyNjmJqchiRJ8Pt9aOtsw7GeY6itqwFgPsSjbE8XFP1+/XGxaBQ/+4d/xNTEFN79zrs4c+6M/rgCkZRc9pseQ0kh5CChqJC9pxCiKsox+cuKJEm4fu1L3PjqBtra2/CD3/pNOF3KmiR7KSzxeBzjo+OYGJvA9NQ0lpdXAAAOpwM1NdUoKStBSVkJSktLUFpWCn+R37KDlGUZ4XAYW5vb2NraQmAjgIW5BSzML2B1eRXxRHuKS4rR3tGGzu5O1NRWm0ZPgJ0LiigICAQCeP9nH2Budg6/9hu/ht6TvRZDOXsrKcayZnXlsy8TFBVCDhSKCtkf9jqqYrV/P2RFlmU8fPAQH3/0CUpKivGjH/8I5RXlyr4dyoq+TPowTzAYxMz0DGamZhTBWFlFOBzRXYvDaYco2mCzibDZ7bCJImKxGLY2t5IyouJ0OlBTW4uq6kpU11ShqroKxSXFsIm2ZBkzOQGsBUVbzkxSxsfG8Yv3P0Q0GsWv/+DX0X2s2yIpdneSYmyvsaxZXfnsywQlhZADh6JC9oeDiqoAu5cV7c9aWZmanMI//P1PEYtF8eu/+evo6OpQ9pnO2MksLNptsslxxrKyLGN7ewtrq+tYW13DZjCIUCisrEgbjyVXqLXZbPD6vPB6vcp3nwfFRcUoKS3RrUsCmCTXmsiJtlyugiLLMm59fRs3vryB8vJy/PB3fojKykrLoR6z+ow/71ZSjPXlsy8TFBVCDhyKCtk/jrqsAMD62jr+4e9/itnZWfSd7MXVd6/C5XYp9VhEV7TnMB1espqGbHjP7SY3xYhZB2smJ8p2Me0Yq9k321vb+PDnH2F0ZBQn+k7gO9/7Dtwut8lxlBRCyI6gqJD9Yz9ExWp/tuRa5bidyUo0GsWNL2/gm29uwe1x4zvffQ+d3crKqrJJxCRXYTFuN72GzO/DnDF2+BmnLucgKAAwMTaBjz78GJubm3j3O+/i1OlTyaGlTEM9aefboaSYXYexvnz2ZYOiQsihQFEh+8tRlhXt8bIsY25uDr/44EPMz8/jWE833nnvHfj8PmV/huGgjOfKMhU537VTrMi+Wm3u4rAZ2MTnv/oczwaHUFZeht/84W+ivr7e4vjCkZRc9lseR0kh5LCgqJD95zCHgMzOv1NZAZTpvre+uYUvr38Fh9OB115/FSdPnUw+02enwmLWTrMyO8WsgzZ2vtmkIR6P4/7dB7j51U3IkHH5ymVcuHQBToczrQ6zoR7jOSgphJAcoKiQ/Wc3uRaHKSva342JrsvLy/jko08wNjaOkpJivP7m6+g50ZPsoM2GhDKd1+p69ipPxTxHxTrfQ5e/AgGjI6P44lfXsLyygq6uTlx97yrKSstM68onipLpvFbtPsi8FKs2EEIODIoKORgOcggI2J2sGOu1HKqRJIyNjuGLz69hbm4OVdVVeOvtN9HS1pJVWIznt2zzPkZU0vNUDP8fyMCzwWe49c1tLC4uobS0BO+89w66urpM6803imJsAyWFEGICRYUcHIUuK8ZjMj13xygsg08Hcf3adaysrKKuvhYnXzmJ7p5uuN3KDBg57byZ25HpGnaCdQdvkANBRCQSweP+x7h79x7W1zdQUVGBi5cvoLe3FzabdbIsYC0o6cdklqS9kpRc9lseR0khpBCgqJCDY7+GgDLt30tZMf5uHA6Kx+Pof/gI9+/ew8LiIux2G7qPHUPvK71oTjxHB8guLVbt2i1pEZPkdhGSJGFyYhKDT5/h+dBzhMJhNDQ24OKlC+jq6koN51gICrCzKIpZuwpBUqzaQQg5cCgq5GA5irJirDtTdEWW5cQMoXk86u/Hk4EnCIXC8Pv9ONF3Ah2d7ahvqLeUlkzXsVdoO+/FhUU8fjyAp08GsbW1BafDgY6uDpw7dw4NjQ2mxwA7i6Iox1FSCCF5QVEhB0+hyopy/M6iK2b1ybKsPDl56DmePh3EyPAI4vE4/H4/uro70dndiYbGhuSMIcBcXNLbaF0mW+e8vb2NyYkpTExMYnx8HKsrq7DZRLR3dKC39wTaO9rhcDhM68oUQTGWz1dQzOozO86q/nz3ZzyWkkJIIUFRIQfPbmeyHKasmNWfi7AAQCgUwvCLYQw9G8LIyAii0RhsNhsqqypRV1eL6tpq1NbWoqKyIpkLoqsnz/sWjkSwsryC5eVlLC8tY2pyCnNz85BlGU6HAy2tLWhta0XP8R54vV4AVkm3uQuK2e9HSVKs2kIIOTQoKuRwOCxZAQ5OWMzqVd9X0WgUY6NjyoMIZ2cxPzeHUCgMQBEDv98Pf5EPRUVF8Pl98Pv9sNvtEG02iKIAURRhE22IxWMIh8IIhULY3g4pT1He2sLK8gqCwaBSHwTYbDbU1dWipbUFLa0tqKuvg81ms+zUs8kJcPCCYnaOfPdng5JCSMFBUSGHx34OAWUrs1NZMTt2J8Ki1CPrfl5dXcXc7ByWlpYRCGwgEAgiEAgkH0iYCVEU4XK74HG74fF4UFZehorKSlRUlKOisgIlJSUQRTFjR26UE7Ve3e85LLRmvhgbJYUQsiMoKuRwOQqyotSzszVP8lnELdN7LhqNIhaLQZIkSHFJ+S5JEEURTrcTTqcz+ZydXDETEyC36InVtp1GUcyOzXaufPZng5JCSMFCUSGHy34PAWUrY7VOyU6jK1bns5yCnMP1Z3kvZsVKSLRYddQ7FRSl3O4lJVcBoagQ8tJCUSGHz14sE1+IwpLpnBkfDbBHy+ZbkalTturwrXNZ9kdQMp1zp+Usj6ekEFLIUFRIYXDUZEWpK7/VZHfy3KL9ZidLz+e6ym1y+z5Jym4FBaCkEHIEoKiQwqEQZAXYf2HJpQ25lsmVvYhOHISgZGtDPmWy1kFJIeQoQFEhhUWhywqQv7Bkqy+X9uwX2Tr8zFGP/AQle30HM9QDUFIIOUJQVEjhcVCykku5nQiLUu/OpSVVx8FHVICdyQmwc0FR6qWkEEJMoaiQwuSoyAqwc2HJtf79JptEAPsnKErdlBRCiCUUFVK4HKSs5Fp2pxGW1Dlyf+vstcDkIg0qmcQEyN7hF5qgAJQUQo4oFBVS2OzVVN2DFBYg93bnIy77STYxSZY7QEHJt2zGeigphBxVKCqk8ClUWQFyi3rk2/6DkJdcxQTIrZPPNVpDSSGE5AlFhRwN9nIRtMMSFmCvhrOs3375CEgmcu3cC1lQAEoKIS8BFBVydDgsWcmnfL55Jfu9Cm2u5Nuh74eg7KR8xrooKYS8DFBUyNFirzv2/RIWYHfJsPslMLvpvPNLxj08QQEoKYS8RFBUyNHjsGVlp8cc9jTkfMlHTICdywYlhRCSAYoKOZrsR8Rhpwus7fS4QhOXfMVEhYJCCNlHKCrk6LJfwyMHLSwqBykuO5USLYUiKAAlhZCXGIoKOfoUUnRlr463IleZ2QsRMWO3kkFJIYTkCUWFvBwUWnRlr+s4TPZk6fr9EidKCiEvOxQV8vKw31N990o4Cl1c9myhtX2SE4CCQsi3CIoKefk4KsJyUPVasW9Rjn0UFICSQsi3DIoKeTk5iIXUDlIsdnqu/ZaGgz4XJYWQbx0UFfJyc1Arvxb6cM5+cVAiREEh5FsLRYW8/Bz0MvUvu7QcZJQGoKQQ8i2HokK+PRzGc3VeFmk5aDkBKCiEEAAUFfJt5LAfBFjo8nIYUqI7PwWFEJKCokK+nRy2rGg5THE5bCnRQkEhhJhAUSHfbgpJWMzYK4kpJCExg5JCCLGAokIIUPjC8rJCQSGEZIGiQogWCsvBQEEhhOQIRYUQMygs+wMFhRCSJxQVQrJBadkdlBNCyC6gqBCSKxSW/KCgEEL2AIoKIflCYckMBYUQsodQVAjZDZQWBcoJIWSfoKgQspd8W8SFYkIIOSAoKoTsJy+LuFBMCCGHBEWFkIPkqIgLxYQQUiBQVAg5bA5bXiglhJAChqJCSKGzW5GhiBBCjjAUFUIIIYQULJaiwo9ghBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWCgqhBBCCClYKCqEEEIIKVgoKoQQQggpWOxZ9gsH0gpCCCGEEBMYUSGEEEJIwUJRIYQQQkjBQlEhhBBCSMFCUSGEEEJIwUJRIYQQQkjBQlEhhBBCSMHy/wNMLqgUpF0d+QAAAABJRU5ErkJggg==\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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6HuD3+ymxl3Dw8AFa97XFZ702Q1iErAjSIETlYeFhlZS17HkGg0E6Ojq41X4L54wLg9FA2/429h/cnyQnibebJDlJt7uyRLN/jkrksmxv1ImsPJJh+W8pNegVRWF0ZJRb7R309fYhIdHU3MThI4eorqlJGsLNFvLr7a7slKysdfu1Ckq262zWXFWuXZRU2XYvumlvv0nHzQ48Xg82m42DRw6xt7UFvV6/oVpeSxbkUtdrqeVQKER3Vze3b91hYmICvU7PntY9HD12FJvdlnT9VPFO/Fk+yooQlbxFiMrDwHbOpWyXpCQKiqIodN7t5Jd//Ip70U1ZRRkHDx2kec9uNBpN1u5JpkBfeZKt9a/vZzxXSuosiGplkKYG/cL8Anc67nC74w5L/iWqqqs4/dwpKiork6633u5KPspKuuuvR0pS2QlJWa2L4vf7+e3Sb9y43o4sy9Q3NnD4yCFq6yJCulW1nOvrmUstp6vjFdtIKiYnJum4eZvurm4URWH/wf08/czTmMympOtmquVcxXu9dbyepUwhK3mJEJWHge3qpmxUUrIFe6YuyvDQMD/9+DOTE5OUlpdy6swpqmuqkm83ZY8zXaAnS1HmFvpmvEHmephw6rlWEi8Lh8Lcu9vF1ctX8Xg8tLa28sypp1csCW1VyCfeR+rjzbR9pue83WzV0OxGZDscDnPz5k1+u3AZn9/H3rZWTjx1gqKigrS3l1rLmcRkK2s5Wx3D8u8/m4CrJBVer5drl6/Rces2Wq2W4yeOc/SJoyuOFlqtlnPtEmarYyErjyRCVPKdR0lSEoPd6XTxy8//oLenD7PVwslTz9KytzntXmemUF++n9X3iNPVc66vbfqOQ+ZzTKQGaragDwaCXL92g/bf2wE4fPQwx088gdG0tr3Sh2UpaKNsRFJymUdZaxdFDofpvt/DhV8v4HK6qK6t5tSZU5SWOZK320Atr5xX2Z5aTlczmeRbJalwOV1c/PUSD/oeUFhQwNPPPk3rvra0S5ur1XHyfW2+rGzFvIoQlS1DiEo+87BJSi57n+FQiKtXrnHxwkU0Gg1HnzjGkWOH0Gq16w71tHMCGfZQN30vVJUY5isHYzNJS2rQuxc9XPr1Et33uzEajDz3whn2tO7dkpBPvN/Ex5LuOaXbPpXtkJXN7KKkXme9sj03N8fXX33D8OAwxXYbJ08/S0NjfUbZzrWOk+4nyxLQdtRyLgKeWssjQyNc/PUSU5NT1NXV8eK5sxQVFSdtu1bx3m5ZEV2VvEKISj6zHlHZ6FzKVkmKIkdO0vbl+a+YmpyiqbmJ588+j8lsjG+TTVBWk5N0gZ6pVS7LMn6fH5/PCyyHooQEkoTBoEdv0Cec6TN7yCV9rUoJ2jUKi3PayU/f/8z4+DhNTbt44aUXsFoL4tuuZynoYZeVfJMUORym/Xo7//jHL6hUKp49/Sz79rehUqnSCkrsPnMVbSXNcmamTmEoGMLr9RIOhSLXRYlfX6PRYDKZ0Gg18e23q5YlJG7fusPFXy4AcOrMKQ4ePrQu8c5VVtazlLnZsiJEZUsQopLPbLaorLWbslZJyRTsoWCQK5ev8tul3zDoDTz34nM0tzRHwzu3Pc9cQz3282AoyKxzlpnpGaYmp1mcX8Dr9eH1ePH7l9K2zxNRq1SYzCbMFjMmswmL1UJpmYOyilLMFvMKiUkXotmCPquwKNB+/SaXL15GrVHz3PNnaNu/b9NDPvHxJz6G+PdrlJXU294oq0n3TkiKc2aGb776lpHhEeoa6jj78lmsVkt8m/XKdjY5WVpaitexy+nE6/bi9Xhxuz0sRc8mmw2dTosxeqp9s8WMrcRGicNOaXkpBkPk0OLUQdnUr9PVcjZhSewU/vjdjwwODFJbW8OLL79IsW356CAhK4IcEKKSrzwqkuKcmeHzT79ganKKlr0tPPfCcxii545IDfbVBCWbnIRCIUaGRxjqH2Z6agrntItQOAxEgrqgqACjyRT/kEGjMdI1QZIg6cPcIh9o6PV48Xp8eNwevF4vnkUP4XDk/kwmI6XlpZSWOaipq6Gk1J5RXBKDPldhif1sfnaeH779gdHRMRobG3nx3Fms1oK8l5XU218ruSxpbPfQrBwOc/336/zyj1/RaDScfu40rftaASXpNnIVlHS1HPuZ1+tlsH+IifEJpiammHXNIsuR7UxmEyazMSLR5ohEG0161Gr18tJf9P+hYCjyOVXRf16vD/eiG/fi8udgWQssOEodVFZXUtdQi7XAEr2JNLIiqXKW79TuSuedTn75+VcUWeG5s89x4OCB6PWWb2c7ZEWIykOJEJV85FGRlN7uHr74/DxqlZqz587StLtpRRclU2s8U6gnyonP62NwYIih6L9gMIhGo8FR5ojsNZaWYC8ppqCwIGluIJfXLBGVpCIUCjPrdDE9NcPM5AwzU07m5+YBCWuhlfrGOuoa6igrL0UbbbUnSku6PdNcQ/5W+y0u/fobOr2O1954ldq6uuj11h7y6bZJfKyJtxv/PkPw5nrOmdT7Ssda5i22SlIy1bHP6+Wr81/T29PLrqZGnn/pBczRQ3CzyfZqgpJ4vYX5BQb6B+jvG2BidIKwLKPX6ykpteMoc+AoK6HEYY9/htRGannJv4Rz2snMtBPXjIvpyRnci25AwlFWQm1DLXV1tdgddtTqZRFYj3wnirfH7eH7r79naGiY/Qf28/zZ59BqdVsuK6Kr8tAjRCUf2WpR2WpJURSFq5ev8svPv+AodfD6W69TUGCNX55LsGcK9WAoSF/vA7rudDE6MgqA0Wikpr6GuoZayqvKks69kvr8lTSvbbazfKY9c2c0hHxeHyODoww+GGR8JPJhcjq9nrqGWtr2t+Ioc2QM+lyFJfa9yznLV59/xdzcHCdPneTY8WMrloK2UlZSr5/uOltNxnPhbKGkTE1M8unHnzE/P8+p505x6MghsnVR1iLbHo+He3fv0d3Vy6zLhaJAUXEhdY111O+qw2YvXiHYicO8K16HVZYzM9WyoigszC0y1D/EYP8QziknABarhea9zext24PZYkalkjLKd6YloRWdQgUuX7rCtSvXqK6u5o0/vI7ZYknbJRSyIogiRCXfyMduylokJRQK8c2X33D3zl1a9rbw4rkX0WjU8ctTJSU12DOt28/OztJ5p5Puez14vV4sFgu79+6muq4ae0lyoKcLcznlsWZ6ndZy2GK886FSEQgEmBiZZHhwmMEHQwQDQewldvbu38vu5ib0hsjnuKwmLKkhn9hdCQaCfPf19/T19tGyp4WXzr2IXm9YV8gnXrZRWUm93lawE5Jy9/Ydvvn6W/R6Pa+9+RpV1VWrdgRXk21FURgbG+duxx0e9A4QDocoryinvrGO6rpqrIWWtI9lLbWc7jmnq+tMtez1+hgfHudBTz/jI+MA1NTX0tq2h+q66vjfc6yWswlLJvHuud/L919/j8ls4q23/0BpWVn8caxHVnKp4dVkRYhK3iJEJd/YTFHZCkmJXSdduHvcHj75+yeMjozy9LNPcfypE8RKJSYpaw32qakprl66xtDAEJIkUVNfw562PVTWVCTfdkqgp4b5iq7SOl7n1T7OPhaKwVCIgZ5B7t3pYs41h06nY/ee3Rw6djA+eJkp5FO7K6l7pBISv1+9zm8Xf8Nus/PmH9/AZrc/srKSq6DA5klKOBzmpx9+4sbvN6iuqeLVN17LeHRaakcwtYsSu/1QKERX531utd9i1jmLTq9lV3MTLW3NFNuKV0g65FbL66ljSF/LqXUsqVQszi/S09VLz71e/D4/FquFQ8cOsae1BY1GvaLDshbxnp6c5otPzxNYWuKV119hd3Nz/P43S1bEvMojgRCVfGK7uym5Skri14kBnxicC/MLfPD+BywsLvDKa+doat6dHNoZJCVdsMty5LNSrvx2le573ej0Olr3t9LS1ozRZFzZeUkT6OnCPPn5rK2EVwReQpAmfp8U9pLE9OQ09+90M9A3iEqt4uCRAxw8fBCdPvIpyonCki7kM+2RjgyN8PX5b1AUhbfe/gPVNTVbJitpn3+WAN4MYcn2qcBbKSlLS0t89vFn9D/o58ixwzx7+iQqlRS/PJeOYKpsDw0Oc+nXS7hmXNhKbOzdt5eGpnq0Om3WWs7eVdmcWk76naep5di2sqIwMjjK3Zt3mZ6codhu48TTT1BbX5t2SShX8fZ6vJz/9EsmJyd5+dxL7DuwP375RmRlK5aAhKjsGEJU8om1ispmSUpke2XlNlmWfBIvm52d5YP3P8Dn8/H2n96morIibYs83d5narAv+Zdov3GTm9dvIodl2g62cvDowYyhnk5OUsUk23PLldSQSt1jyxSqscsXF93cuNzO4IMhzGYTR588RsveZtRq1ZpCPnGPdHF+kU///hmLC4u8+sarNLek3yNNvO3IdTdHVlJvIx1rkZZschJjPYcfJ36dTVI8bg8ffvAh01PTnH3pBdoO7NuQbLucs1z69TeGBgaxWC088dQx6nbVIUnSytqP1nI6OUknJZtVy+ne0DPNO8Xke7B/iBu/3WBxwU1VbRUnnj5OiaMkLiyZOoWZxDscCvPFJ18wNDTM2Rdf4NCRw/HHs5qsZKthsQT0yCBEJV/IhwHatQ7Pxjop//2f/00wGOSdP71NaXlZRknJtPcZC/b+vgF++elXPG43DU0NHHvyKJYCS0ZBSb8nKic9H1mWmXXNsji/iMftjRym6fHh83hZWlqKP9/Im7eEJIFOr8NkMWE2mzBGDwUtKCzAbDVn3JOTEqQkNVwTuyyTE9P8/tt1nFNO7A47T596iorKihUhn6m7krpHuuRb4otPv2B8fIIXX34x6bDPfJGVzWC1LgpsTFLmZmf5218+ZNG9yOtvvk7Droa0kpJJtmPbKYqCz+fj8sUrdN65h1ar5sCRg7QdaEWlViXXfUr3JJ2cyIoSv89gIIjLNYvX7cW96Mbr8UXOqeL1IodlYrEcO8xeo9VgNBkih+ObDJhMkXq2OWzo9ZFTBKT7/afWcmr9qCSJcDjM/c4eOq7fJhgIsnffXk48fXzFLFaqeKdbCpIkFXJY5svPv6L/QT8vvvwiBw8djN5nZll5WJaAhKhsGCEq+cJWdlO2YnhWVmQ8Hi/v/+f/4PF6+PM//YmSUse6JMXv83Phl4t03e3C7rDz1MknKasoS7jucrCnE5REOfF5vUxNTDEz5WR6cgbXtItQ7KydioJarcZgMmAwGeJnn1UUJX4uFVlRCPgDkRPD+fzx5ywhYTAaKCmzU1JWQmm5gyJb0fIHr6lUWYM+KaSB/r5Bblxpx+fxcfDIAY6eOJp0WHOmkM+0R3r+sy8ZHBjkzHOnOXb8ieh9r19WUr9ebW4l9XY2k62WlJnpGf72178RCAR4+09vU15RvuaOYOx2hweH+fG7n3C7Pezd18LhY4fRGXRZOyiZRNu9uMjk+BTTkzNMT0wz55qPPwZFUdDqtJjMJgwmAyq1KpLm8Y6bRDAQjJyB2esjkHBiOAmJgqIC7KV2HKV27KU2imzFSR2KpFpLIwsxYQkEgrRfu8n9O90UFBXw3ItnKCsvSyve2bqEkqRCkRW++PQ8gwODvPb6q+xp3Zt0/+m6POuVFdFVeagQopIP5MMAbaa5lEwB7/V5+ev//BWX08U7f36biqrKrJKSbmhWURRGR8b44ZsfWVxY4ODRAxw6dghJJa1JUJb8fob6h+nvHWBybApFUZAkKLQVUlJqp9hRTGFxIQajHq1OG2+9r/oah+V4B2ZhbgHn9CzOKSeeRQ+SJKHWaKiuraSuqY7K6nLU6mRpSQ361JAPhkJcu/g7Pfd6sTvsnDl7Om0LPZc9UkVW+Pr81/T29PH0M0/x1DNPxw9f3ozOSuw+E9lKYcn2N7GZZ5udHJ/gww8+QlEU3n3vHeyOknXJ9tJSgCuXrtDR3kFBUQFnXjyNo9SRVbbTCcr83BwPevoZ6B1kcd4NKGg0GmylNkpK7RTZizBbTRiMBrQ67Yrnn4lQKITft4R7wc3szCyu6Tmc0y6CgYjAmC1mahtradhdR1FxYUr3ThWX70zCMjE+xYUfL+Lz+Dj8xGGOPHE4PmybS5cwUbo/+ehTJicmeeuPf6BhV2PW7k6m8TanAAAgAElEQVTs9mBj8yqiq5LXCFHJBx6WbkrsZ4FggL+9/zfGxsf4wx/fpK6hPmObPJOkhEIhrv52jfbf2zFbLZw5e5LS8uxdlERBCYZCjA6N0t/Tz+jQOKFQCGuBmZrGGsoqyyi0F8TDIb2EZX6zyzRXEQs5n9eHa2qW6QknIwMjBANBDEYD9U11NO6up8hWlBDAqwvL8OAol37+jWAgyLEnj3Lg8IG0Ib+arKDAD9/+QOfde5x48gTPnno2raysNpiYeNl6ZSX19nJlvYISuXxtnZSJ8Qk+eP8DtDot7773LkXFReuSlInxSX745gdmXbO0HWjl2JPHUGlWLvNkkm2fz8/gg0H6uh8wPTGDJEmUVToory7HXmqj0Fa44jlnq+V0r0+635uiKHgXvcxMORkdHGdydApQKLIVUb+rjvqmWsyWyFFqibWcro4hsjR19eI1HnT3U1rm4MxLZyguLl5VvFPrOLgU5KO//Z051xzvvvcOVdXVaTuUse8jz09KepzLzzNZVnZqsFaIyoYQopIPbJaorNZN2Ywln7Ac5vzn57l39x6vvH6Olr174reRq6S4F9189dnXTE5O0tzazJPPHkelVucsKA/uP+B2+x08bi96g46ahmpqd9VSZC+MP9bk2YGUrtGKgczMr39S6KXZA1NkmanRKQZ7hxkfmQQU7A47+460UVldjkqlThvykLxXuuTzc+XCNYb6h6moquCFl5/HYjWnDfjY40oX8hISP37/E3c67nD8xHFOnj65YVlJ/Tp9oGcWlo2S7o04k6Tk2kmJSYpOr+PP//wnrAUFa5YUWZZp/72dyxevYjQZOPXCs1RWV+Us2+5FD3fa79B7/wGhUIiCIit1u2qpa6rFYDKsGNRNfC3S1XKudQwkdDeW38D9viVGB8YYfjCMa2YWtVpNw+4GWg/uwVpgWSHfmcR74MEQl3+5ghyWOfPiaRqbGtcsK36fn7+9/yGBQIB//td/jgjPGoZr19NVSd0u3eu22s+zIWRl3QhR2Wl2upuy2gBt6lzKpYuXuPjLRZ45+TRPPHk8fhupkhK7j9Rwd864+Pzjz/H5fJw+e4r6xvqcgj0YCtJ7/wF32u/gXvRgd9jYe6CFsuoykJLfRGL3nRrmiY8tl9czRvr17uVZkdjPg0sBRvrH6L7bg8/jo6S0hP1H26ioyiwsiSEvAX09/Vz55SoGg56XXn8JR6ljzSGfq6zEnkeqrCQ+r0yykvhaJL9WmycsuXQK0nVRYHMlJZ1sB4NBfvz2J3ru99DQ1MAzZ55Gp9PFrxeSQ5kFxe3hTvtderp6URSFhqY6GlrqKbQVIklSyt9M8mB44nNZay1n+v0l1nL8dPcLHh509dPfPQBAQ3M9bYfasMbkOUsta1RqvF4fP3/zCzNTM5x45jgHjxxccx3Pueb4218+xGw288//+k8YDMassrLdS0Ciq7JtCFHZaR6GbkrsZ4ODg/z1f/7KntYWzr16DoWVkkL8ZyslZWJ8kvOfnEeR4NzrL2IrsaeVlJAcjn8dlsP0dffTcb2DxQU3doeNtsN7Ka0sRSH1PpLlJPnxxH6+/NxjQ7axPwNJkpLerBNJ7qxIK8JvOXgjRzAM9Q1z/3Y3Po8PR7mDA0f3UV5ZljXkNSoNKknC5Zzlh69+IhgIcvbcC0nnqliPrDx78hmefPqp6OPMrbMSeZ7rk5XlbdcnLbkISmS7tUvKzMwMf/mvv6DRatYtKT6fj68++5qx0TGOPXmM/Yf3oaCsKtsej4fbNzvpvtuNLIdp2F3PngMtGC3GNIc5KyvkZMXfakIth+Xw8nNWQEFJ6sDFSK3jxJ/F6ityWaSm/F4/PXd66e8eQJIkdrU0su9IG0ajAUlSoVFrMoq3HApz4effGHowxKGjB3niqSfih+PnWsejw6N8/OEntLW1cu61V6KPd+VwbS5dldhzjN3G8usguip5jhCVnWQrh2jXM0CbTVI8Xg//8f/9B2qVmn/9t39Bo9WuGvCJwT0yPMqXn3yJzqjnlTdfxlpgXSEp4XA4Kdjdbje//XKFkcFRiu1F7DvSSllVWUZBSScnoWCY2Zk55mbn8Xm8kcM5o4d1Jh4JkVjveqM+cniy1YTZYsJkNVFQVEBBkTUqM4lykrB2nhL0sqww1DvE/Y4e/D4/DbvrOfLkYQwG/aoh7/f5+eHLn5hzzfHsc8+wt23vumTlmy+/5X7XfZ5/4TmOHDsafawbk5V03+d6vpRUecnlZGXphkXXIylzc3O8/5//gyzLvPcv71FYlH0mJZ2kzM/N88XH55mfX+D02WdpaGrM2hEMh0OE5TAPega4dvEawWCQul11tB5swWQ1xyU/Uy0nPj6vx8+8c47FRTeeBQ9etxePO1LTqc8bQKVWYzQbIp+2bIkcmmy2migps0c+OZxUOVlZy3Fh8fi4f7uHgZ4hDEY9Tzx7jJq6qrTirVZrluVBUbh84So9nb20Hmjl2dPPrFlWrly6wtXL13j9jdfY07o3XkPp5lVEV+WRRIjKTpLP3ZTUuZTPP/2CnvvdvPcvf6asvHzV4dnE4O7v6+eb899iLbDy8psvYTKZkkI4HA4l7X3K4TB9PQ+4dvF3QqEQB47tp2lvIwoQCoeyhnpYDrM472ZqbJrJsSmcUy7CwRAKCpJKFQ9ug8mA3qiPt9ohsheqyApLvqWIzCx6WfIty4zeqMNRUUJppYOScjtGo3GFtMSCdvlnEWHp7uim+04fRpOBE6eeoLK6YkXIa1TqJFkJBYP88v1FxobH1r1HqsgKX33xNX29fZx75WX2HdifFPSQu6wkXp76dYy1nOBtNVYTlNTvs0nK4sIi7//3+/j9fv78T3+KH90TuzyXmZSJ8Um+/PRLwuEwZ199nrKK8lU7gl6vl8u/XmWofxibo5jjzx7FUmjNSVBCoRDOqVkmxyaZGp9h3jmHEo1etUaNyWrCaDJishhRq9XIyEjRcwEBBIMhfB4fPo8fn8dHcCkUf60KbVbs5XZKKxzYHMVotdqMtZwoLIuzC/x+oZ352fkk8Y7JSaJ4x38GXL/Szt2bnTS1NHHm7Gm0Ws2KOlar1GlrGAU+/MtHuFwu/vd/+1eKirLPq6STlbV0VYSo5B1CVHaKh6mb0tHRwVdffMUzJ5/mxFMnlkM1R0n56vNvsDvsvPz6WXR6fVZJ8Xg8XPn1GoMPBrE7bDxxMnLSt8RgD8nhFaHu9Xjp7x5ksHcIn8cHgMlqwlZWTElFCYXFVrT6yKHJia/Xaod2hkNh/N4l5l0LzEy4cE26CCwFUUkShfZCqhsrqWmoRqfTJYR68p5prHMyNzPH9YvtLM4v0rRnF4eOH8RgMGTdI1VkmSsXrtHb1UdLawunnj+5ZlmRwzKff/IFw0PDvPraK+xta900WUn3fYz1Skum38lqXZTIddOfcfb9/3oft8fNu++9k1W0Iz9bWcfDQyN8+emXGIxGXn79LAVFhat2BPv7Brj861UCgQD7j7TR3NYEkpRVtmU5zMzkDA/uDzI5OkkwEAQJih3F2MuKKXYUY7aa0ejU66hlGfeCB9ekC+eki7mZeRQZ1GoVpdUOGprrsZUWo1apk2o5VVgUGe533Of+7R7MFjMnTh2nomp5WVMdXcJMXdK8ffMuNy6309jUyAvnnl9xZJtarc5Yw4vzi/zPf75PWVkp7773bvRvZH1LQOvpqmQTEiErW44QlZ1iu4Zo1zJAm26P1Oly8h//6z8oLy/jnffeAUlaISkQWSNPF+7nPzlPsd3Gq2+di+z1ZZCUcDjE+Og4v/xwkSX/Eq2H9rJn/26IhnFk2+RgD4WDOKdd9N3rZ2xwDFlRKKmwU1btwF5qw2g2xh9L7Hknv8EpSa9D1jCKfd6LLOOZ8zAzOcvUyDSLc250Oi01u6ppaKnDZDGlBLsUDe7l7sq99i56O/uwWC08deYEpeWOtEtBiXuk7dducfvGHZr3NnP6hVOrHr6c7vwUn/79M8bHxnntjddo2dOyooUe+zrx/5D+iKDUbdJ9nwlJUq36pppILl0USC8pXq+Xv/73X5ibn+edPy2f7yd2eS6SMjQwxJeffYW1sIBX3nwJg9GYVbaX/Ev89stl+nsHKC4p4sTJJ7AUZpftUCjI8IMR+u71Mzc7j1anobymDHu5DZujGLV2+RPI0x6iLKeP5Ng26WZT5JDM3Mw8MxMuxgcjUlRQZKW+pY6ahqp4lyWTsMw557l+4QbuBQ8t+5o5cuJQpGaj0hvvkCTIyt2Oe/x+6TotrS2cfuFUXLo1Ks2qNXz/XjfffvVtfOZqM5aAdmJWRYjKmskoKup///d/z3bFrBcKVmcVEVy5fQY3XK2bkng/qV+ldlMSt40EosInH3+K1+Pl7T+/jS562u3oIgmKosSHCJX49SM/m52d5bOPPsdiNfPqW6+g02sJy5klpb93gJ+/+xWDSc+pl56lpqGKsCJHBSgcX4KS5TBhOcz4yDjXfr1BV0dkYLWmqZr9T7ZR11SDpciCSqMiLMf2XMPRvV2FcHR+IBx9o4gsFy1vl/oPlsUoOqeI3qjHVlpEVWMFjgo7gUCI4Qcj9N8fYGF2AaM5sqwEChKq6Osdeb0kSaKsqpSyylLGhsfpvtuDyWqi2FYUf/3iARndXpKk6FKRRGfHPbxeHzV1NUgpf74qlSpeJ7GwVoj8lavUapp2NzE6PMqt9luUlZVSVFwc3UaJJIGigLRca4kdldgZfGPPIVYFidsoCf9lGkpOrcRMyIocv63Un8W/TzOXkVjTfr+fD97/AKfLxR/feYuqmuq0khJ7TOkkZXRklPOffElhUSGvvnUOvcGQVVIW5hf47osfmBybZN+RNo49cxS9UZ+wbZhw9PqhcIilJT9dt7v5/dd2hvtH0Bq0NO9vYv+JVkqrHJisRlARuV60TsPx5SUlqZbDcmhF/Srxx7pcy4oSPSpOAqPFSEmFjZqmSkwWA/OuRYb7RhjsGSYYDFJos6JSSZHaV2K/OwUJCaPZSN3uOoKBIL33+pibnaeypiLyRpw4oB6vFRVl5Q4UFO513EOtVlNeUY4kLddaUs0tFx8SUOIoYc41x62bHTTt3oXJbI7/fcRqN3EgPvXrdP9XEr9WlBU1n0imms5e6ytJvR/BqvzfmS4QorKFbGY3ZaXArAzyyG0oK7ZREv6fGvoKCndu3+H6td95/uzz1NbVpD3KJ92Sz1JgiS/+fp6lpSVee/tVTGYjsqxEwzP5+uFwiPud3Vz6+TI2RzFnzp3CbDFFgliOhG84ep1QOITH7eb3i+10tnchqaB5fxP7TrTiqChBrVUTTgjp5EBPCPp4d2ZZUjL9k+VwfBlMlsPEglqW5bi0OKpKqGqIHII8MTzFYM8Qfq+fwpJCNBp12pA3WYzUNNbgmp6l+24PkkrCUVYC0VhPlJVYyFdUlhGWZTo77iGHw1RWVyXJSkxOYm8OQJKsqDUadu/eTX//AB03b1NZVUFBYeGyrEQDP/Z9rA5WhHuKrKQTk9ylJVafctJ10l2WWNfL58tJLynBYJCPPviIqakp3nzrTWrr6zJKSqZly+mpaT776AvMFjOvv/0aOr2ORElJvB1ZkZmenOa7L37A7/PzzAtP0bC7DqTIXFWqbIfCIUb6R/jtxyuMj0xiKy2m7dhemg82UVBkRUFZUcsxyU6UkFgtr1bHSbUsL0tL5P+RArEWWaneVYG9tJglf4Ch3hFGB8YwmA2YC0zxbRUlcqZ+RVFQSRIVNRVodRp67vbimnFRWVsZHfxOEAZIquO52Xm67nRRWl5KQUFBWkFIqufov5qaau7cvsvU5CRt+9qSrhP7F6u5mFwn/my5HlfWdbavYzWdrpZzrfFEhKisiYyiIpZ+tpCdHKLNdYDW5/Px//4//4vCwgL+6V/eWyEpAGE5MpwXCoeX9zDlMN9//QM9XT289MaLVNdWIctKdG8veS0/LIfpuHGb9is3Ka8u4+nnn0StViVJiqwohMMhQqEQfff66Lx1H1mWaWprpGFPXUSylOQjJCJSlHzExJI/gHfRg2fRi9ftw+f24fP6ib+LR7+QpOhRP1YjJqsZc4ERozkyrAjLreLEQdj495IKORzmwd1BhnpH0Ot07D3SQk1jddK6v0atji/1yLJC+8V2RgbGaGxp5NjTR9FptSvW+hOXgWJHUSSenyJxeSlT+zz2OP0+Px/99e94PB7efe9dKioq0s6sJH6fbikI0rex19oKz8SKJR85fbcwdXYlFArx8YcfM9A/wGtvvsru6KdKp9ZvttmqWdcsH3/wCSq1ijfeeT0izwl1njqTMjwwxD++u4BWp+Hki89QWFwQr+PUpZ652TluXulgenyGQlsBrcf2UGCzosgrazkUDic99nA4THApiHvBjXvBi3chUs/hcBiUhNdCUSIfSmgxYrQYMBeYI1+bDAkikHAEW9KcVGSpZ35mgXvX7+Ne8FJeVUrrsb1YrOaEWkuuu5EHo9y4dBNbiY3TL5/EaDTE6za2DBT7PhwK8eXHX7PkW+Kt996iqKgw53mVztud/PDdj0nD4amzVuudVRHLP3mJmFHZCbZKVDIN0a52pE+6Adqvv/qGjpu3+Jf/43+jtKyUXAZoQ3KIW+0dXPjpAkdPHOXQEwfi0hATldhREWE5zLVLv9N56x51u2o59uwRVCopraRMT87Qfvkm864FSqsc7D3SjMFsQJGVyIm10ghKWA4z71xganSaqdEZfG5ffKlKAvQmPQaTPnqyuNjSDKAoLPkC+L2RT1aOBJ2EucCEo6qEkio7Zqs5GoYrpSUWtu55N/dv9DDvWsReamPfE3spLC7MEPJqum520dXRTWVNJc88/1TSkG1qyKMoXPjxEgN9g5x8/iR72/YkBftqa/0qScXi4iIf/uUjgoEgb//pj1RUVq5bViBz8K41wDPWeppZlNTtY52Uzz7+jL7ePl5+5SVa97dFr5O7pLgX3fz9rx8TCAR4453XI9KRRVK67nRx5cI1CosLePbs0xhNhrSS4l9a4n7HfXru9iGpJPYc2k1VY+Vyxy5FUGJfBwJBnONOpkammZ2ejx9Wr6Cg0agxWAyo1bFlv4SjfgIhfG4f4VDkOUuShEajxl5ho6TChq3chkariddyorTEahNFYbh3lL67A0hINB9oYteeBjQaTVS2o7UZnTGZHJni6j9+x1po5cy5U1it1ox1vLjg5vxHX1JUVMib776JTqfNOq8SE3wJiQ//8iFzs/P82//1f2Iym5MGazdzVkUcAZQXCFHZCdYiKtvVTYlcHgnMkZER/ue/3ufwkUOcef50TpISW8//+G+fUlNXzYuvnQWUeOAmnqkzGA5y+R+Xud/Zw+7WJg6dOBDZNkVSQqEg3Xd7uXP9DnqDntaje3BUlSS128NyKC4oshw5Z8rk8BRTo9MR2ZCgsKSAQrsVo9WIwaRDZ9KjUqtWvGaJhENhfG4f3kU/Pref+ZkF3LMeAKxFZhxVDhzVydKSKiwSEpNDU/R09BEKhmk9sofGPfWoVeposCfvkQ71DnPzcgdFtqLIEpjZnLGzIodlfvrmH0yMTvDia2dp3NWwpuFagMX5Rf7+t49ZWlriD398k9q6ulVlJfXrdC3szQrgTB2U+OUpdez3+fjko08YHh7h+bPPceDwwej1cpMUiHzY5scffMrC/Dyv/fFVSkrtKzqCibJ989pNbv1+m4rqMp48cwKNVp1Wtmddc1z9xzUW5hapbqyi+eAutHptWtkOyyECgQDTozNMjU4zM+4iHA6jM2ixlRVF6tgS6fpp9Nk/ZFNRFIJLQXxuPz63D/e8D9fELKGlECq1CltpEY6qEhxVJSukJVFYlnxLdN/sZXrMSUmpjcPPHsRsNqeVFdeUi99+vIper+eF156joLAgqY5jNaxRqRkaGOGnr39mT9seTr9wKm13UKPSrKhf54yLv/zXX9i3fx8vnXtJdFUebcQw7Xaz1m5KpiHa1J9nGqJdbTYltm1iG/2Tv38Ciszrf3gdjUaTsPXyAG3s2kp0zdzv9/Pph59jMBp4+c2XUKtVyXMp8VkRmfarN7l76x6tB/dw4Il9pJOUYCDA7xeu03O3l7KaUo4/dwxzoSneHo8PDkaDfWZyhjuXO+nvHGBxzo2l2Ez17gqaDjVSVleCxWZBb9ah0WmShmiThScc/6egoNVrMVoNFNgtlNVGxERv0uF1+5kYmmK0b5xF1yJGqwGtQRt74eNDsQAFxQVUNZbjXfQy0D2EZ8FDSaU9MvgaXeuPza0U2YuwOWz03XvA+MgENQ3VaDQaEmdWEvcQ6xprGRseo+vOfSpqKrFYzEk1kG0wUZIk9AY9u5ub6O97wK32DuwlNmx2e8aZlZXr/OnvK1ZPax0ajC0/JtZj7PaStlOWZ1ZiguFZdPPhBx8xPj7BudfO0XZgX/S6ibMoSlpJifwGFIKhIOc//YrpqWleev1FyitLlyVYCSdJiqzI3L5xm5vXOmhorufE6eMZly1HBke59MNlFEXh6KnD1LfUEjt/Tzg6OxWbQQkElujr7Of25U4mhqcIBIOUVpdQ31pDfVsNtopizEVm9CYdqGKvdXT2JU0dy4qMpAKdUYep0IStrIiKhjIKS6yoNSrmZhaYHJpirH8cRZYxF5ogelRQbEAVFNTayFFIZquJob5RRvvHsJfb0Bl0gJQ0t2K2mimvKqP/fj+jg2PU7qpJruN4TUFxcRGyLHPv9j0Ki4uwl9iSftfxj6hIqV+T2UQoGOLmjZs07GrAEv3wxFxnVbLNp2zXUK2YU8kZMUy73WzW0T65DtHGfpooMrG5jtRtZUVmYGCAK5evcub5M1RWVeTUTVFQuPTrJUaGRjj3xktYCy0rAj523cEHg1z+9QoNzfUceepQ/LbCcjge7kt+P7/9dJnRoXGaDzTRdnQPiqTE9z5lJUwoHBkwnHPOcftKJw/u9qOgUN9Wx+4jDThq7BgLjCAp8QHC2H3Egj32hhhOOIIi+V/igLGCSqPCXGSitLaEspoStHoN06NORnrHcC+4sRSaUOs0sRc8GniRI27KqkvRqNUMdA/hmprFUVWCVqOJBnx0uA8JS4EZu8NGb2cfzmkXNQ010bBODnkAtUpNXWMtfT0P6O/pp6m5CW3s/qOsJisGvYHdzbsZHhqm/Xo7RpMxcp6RxOtHJyhThxIzDctmkpbV/iVVc5q/k1RBiX3tcjr54P2/MTc3xxtvvcHult3xQdHEOk+s3cTfa0xWL/x8kb7uXk69cJL6XbXJS4lKON4RDCtheu/1cuXCNeqbanni2aNIEhk7gu2/tVNQXMiJF45hKTInzGgty3YgGGCwe4hbl24zM+GiuKyIpkMNNLTVUlRagNaoRSGy5LQs2OGkWs5cx8mf2oykoDNqKXQURqTFYWXJu8TYwCQTg1OoVGAqNMbrZFm8FaxFVkoqbEwMTTHUN4rNUYzBpI/KQHTuBQmDyYC91E5vZx8L84vUNlQDUrRrIaFCih6lo6K8sozR4TH6e/tpaW1Bo4nNgyV/BEDqcG15RTm3b93B5/PR3NK8LCDK6kcA5cNQrRCVnBGist2sRVTWsuyTKCq5HJKcrpuioPDdN98RDAQ49+rLSCopazcltsc2OTnJz9/9gz379rBn3x5AiR+KHAv4sCKzsLDA9+d/xFpo5ZmzTxF5k1DiJ8AKKzJej4eLP1xmZnKG/cfbaGipi95GRFJie5/uhUXu/t7F/Zs9BAMh6vbW0HK0CUuRCZnlpaBEOZGj9yFHxSXx0ORsR0oQkzKWO1RqrQqrzUpprR2QmBqeYfTBOEteP+ZCM6po2MZee0lSUVRShKXQxHDvKGODk5RU2NAb9CtkxVxgxmwx09PZi8ftobquinQhD6DTaimvKqfr9n0mxifZ1bwrfp4MIN4+T9rTjO7+xrbS6XQ079mNc3qGG7+3oygyNbU1CY8+c3cloTo2tKeZ7e8ik6AosszE2Dh/+8uHBINB3vnzO9TU1qxc4kw5V4rCyrPOdt65x5WLV9h3eB8HjuxbMZAd6wiG5BCjQ6P88v0FSisdPP38k8TqOFG2g8EAN690cP92NxU15Rw9eRCVNtJFSZTtYCjESP8oty7dYXJ4EovNwp5jTVTuKkdr0MQlI1bLMfGPSUk4nFsdK4oclWc5oZYjr6XeqKWkyk5RSQGeBQ9j/ZNMDc+g1asxWo1EjllffmPXGXSUVTuYGplisGeEApsVs9UUlxVJInpkmwmNRkPvvT7UGg2OshJiRwrFjgSSoks5JaV2OjvuEQwEqamrSVoWidfwckEhAVqtDp/Pz53bd2ht24veYIjXW7auSqqYLNdx+sOkSVPbm9FVEaKSM0JUtpu1iMpWL/ukdlOmp6f56cefOX7iCWpqq1ftpkSEJMyXn32FLMu89NqLqFRS2iWfQDDAD+d/xOf3c+bcKfQGffxNQpbDhOQw7kU3v357kYW5BQ4/c4jK+vKInITD8Ra5LCuMDY3T/msHnkUPNc1VtBzbRYHdikz0TSA11JXInmgoFMS76MM1NcvMqIvxwWmcYy6coy6c47O4xmZxjs+yOOchsBSMhJxGFQ/0mLSgKPGgV6lUFJZYcdSUIIdlJodmmBiYxGDSRc6BwfIeHiiYC8zYy2yMDYwz/GCUopKiyFAvEomyUmgrRKVS0dvZRzgsU15VFg95BZL2SE0mI5YCC50d9/D7/dTW1UY6OSnLRUQeTVpZ0Wg07G7Zjdvtof36TaYmJ6mtq0Oj1aZdCorVUDphWc/hmqnEXvN0ggIgh8PcvHGTzz/7Ar1Bz7vvvYuj1LGqpKT9sMyxCb7+4lsqayo5ffYUkkTGc/7MTM3ww5c/YimwcPrlk5F6T5HtpSU/l3+6ynD/CLv2NtD2xF5kSU6aRwmFw3g9Xm5e7GCoZxiDWU/zsSZqmivR6DXxQ/IjhzIHk0VbDhNYCrDocjMz7mJyaJqZMVU/lnQAACAASURBVBfOsVlmRp04x1zMjLmYm57H5/ETCoWRNKpIVzJB4hNrGYgIS7UdS5GFBeciY/0T+Dx+iksLQbXcXVFJEhqthsq6cpwTTgbuD2EyG7EWW1bIir3UzsLsAn1d/TgqHFgspricJNamxWyODBvfvU91bRUW6/IyZtJMFMviAmC327jVfguAhsaGjF2VdN2U5RrNfgh+4s8zfb/az9MhzqeSM0JUtpOtmk/JddkndfgwtZvy808/43K6eO2N19Bos8+mxLopHTdvc+/OPU4+fzI6eBibCYieByL6/eVfrzA8OMzTzz2FzWGLh3rsPBB+v59fv7mAx+3h+JknKKmwRQdwlbikBIMh7t3oovtWL5ZCM/ufacVeUYyMnHSulURBcc+5Ge0dZ6hrlMHOUSYHpnCNz+GZ8yCHw4SCIQJLAYJLQQL+IEu+APPTC7jGZ5kcnGZqYIb56QX8Hj8anQa1Th0/YVdi0Ks1KopLCyiptDM/s8BI3zhL/gBFJQUrQl5v1FNe7WBydJqh3hFspcVpZaWkvAS/z09vZx96ox67w5a8J0qs26HCZi8mHJbp7OjEaDZR4ijJ3MpmOcDjR2cTeQNo2NWAwWCg41YHnXc6sdvtFBUXJXdSIsWzosOSSVpS/5MkKUlE0v0Xr+cUQVFkGc+im88/+4Lrv9+grq6OP7z9BwqLCpPqPDbvspqkuBfdfPrR5+j0Ol75w8toNOqM5/xZXFjkm8+/RaVW89xrp+PnVYlJSkgOEwwGuPj9ZabGJ9n/RBuNrfVJHcGYpEyMTHDj11v4PD52H9pF44E69EbdcrckQbZDUTGZHnUy2jPOUNcIw12jTA9HajOwFCQUiNZxIEgoGCIUCOGZ9zA7Oc/MqIuJvimcIy7mnYugKJGZKlX0fDkpwmI06ymtdQASE/1TTI85KbBb0Rp0SZmj1kRkZW5mnsGeYQqKrZgLTCvkoKy6nPGhMQb7hqnbVYdWq824BNTb1cf46AQtrS0kfkp5YmcwWtCoJBUGvYH5+Xnu3+vmwKGD0VmYZEFJkpSErkpiva51+UfMqWwrQlS2k+2YT8m27JOpmwIwOzfLN199y4FDB9jd3ASwIqhTuylut5uvPv+a8spyjj/9RLTFTFI3RQG67/fQfrWdvQf3srt1V7zLEgviQDDAxe9+Y252nuOnj1JcWhS/39hyj2fRy+//aGdqdJqa3VU0H92FRqcmFP102liwK4rMUiDA5OAUDzoGGekewz3vQW/SUeCwYKsuonyXg/LmUhx1Nuw1xdhqirDXFGOvLaakthhHnY0ChwVjgQGNVk3AF2B2Yp7JwWkWnIuAEhlmlFYGvVanoaTGjiIrjD+YwDnuotBegFYfCef4HqlOG5GVkYis2MttmEzG+DJQLMDKq8uZd87T3dmLrcSGtcCcvO5OLOwkKqormJlycu/2PcoqyykotCb9jtPNq6yQFUlFeUU5u5p2MdA/wI3fb+Dz+aisqkStVq9c+kkQllhtrdZZyVTX6eQFInKCoqDIMj3dvfz9w7/jdDk5/dxpzrxwBp1et0JS4reXRVICgQBffHwet9vNK2+dw2pdOVsVW7b0Ly3x7Wff4vcv8fyrZzBbTfEB1pi0B0NBLv1wmemJaQ4+eYDqxsqkOlYUmUAwyL0bXdy/1YvRbODAM/sodFhQFCU+pJso2wtzboa7Rui7NYBrbJZQMIzRaqCoogBHvY3K5jLKGksoqU2o45oi7DVFlNTZsFUVYbGZMVgi9eqZ8zAz6mJ6aIYlXwCdQYtap1kpLBIUllgosFmZHnUy9mASnUGLpSg6tBrVZJVKTXlNKa5JF0M9w9jLbJjMsTqO1JdWo6G03MGDrn6c007qm2qjtZa8BKRVa7AUmLl3uwudQU95RVm8JtPOqkS/Lyoupv1GOxq1KtpNTF76if+tJP7drHH5R8yp7ChCVLaTzRCVjcynJIpK6rkofrv0G2Nj47z55uvRPcVY9yRzN+XypSuMj01w7s2X0Rl0CYcNLw/Qerxefjj/AzaHjSdPH4+/SSS2ym9e6WBkYJQjzxzEUekgdsr7WLjPuea59tN1/P4l2o63UN5YljB/sjzAGAgEGLw3Qu+Nflzjs6h1asoaS6htq8RWXYTFZkJv0aLWqeJDholDtYkdJo1OjcGqx2I3Y6sqpriyAK1OzaLLjXPExcywi3Ao8qaRtGcaDcEih5UCWwHTI04mBiYxF5owWIzx11wlSag1moisDE8z2j9GeW1p5MMNiQ3PSqhVKipqKpgcmaK/Z5Dahhp0el18LxSWw04tqaiuq2awf4jerh7qdzVgMOhJJBdZUVAwm83sO7CPQDDIrfZbdN7pxGAwUGQrju/dphOW1cQlly5KTEzi/4CxsTG+++Y7Ll+6TGFxIW+/+za7mnYRG/JcXp5bXVJil//07c8MDQ3x/MvPUVFVnnF4NiSHuPTjRSbGJjn98rMUlxTFazdS85EzzV6/2M7o4BgHTuyjqqEiumy0XMc+n5/2C7eYGJ6kqrGClmO70eijsh3tLsZqemZilge3BhjuGsXr9lFUVkDVnnLKmx0UlRdgKjKgNWqQ1NLyGWtTjppSFAWVWkJn1GIqNFJYVoC9uhhLsZFwSGZ2bI7JwRncs270Rh0ag3aFsBjNekqq7HjmPIz0jSMBBXZLVBSWZaWsJiLdYwPjVDZUoNVokFDFh2v1Rj1Gs5Hezj6MJiN2R/GKJSBJUlFUVMj05AwDvf207m+LfhZQpJZSZ1Vi35vNZmamZ+jrecCRY0dQx5aGEronqZISq9tlsVht+UfMqewgQlS2k80YpE2Vl/WeOyXxTTkUDnH+iy+pra1h/8HoYZ3xe1sWleW9VQWf38f3X/1AQ1MDe9r2EDkCIdJNibxhRLopVy5cZXpymtMvn4x85okcjq+zy4rM6NAYt67epnFPHfUt9ZFh2fjJtMJxSVEkOPTsPix2S8Jpw8PxvU/n5CxdV3qYm5qnoNRKTWsl5U0OjIUGUMVOoZ+4JBCOvyHFO0cZ/oGCpJYwF5mwVf//7L13kCRpet73S1PemzbV3o03O7M7O7Pe3t4dcAfCUYQICmKIoiQoBAEhhEJEUCIjBIQkBkBKIQmCIoggKIEASPg7AIc93O3d7d6amd3Z2fE9M9097b2p7vIujf5IU5lV1TO7e8e73VW/ETk1nZmVrt58v+d7XhcnGAtSrzbYWTbiAnwhL76AtznYO4x8MpNgbzPPyv01gtGAWYrcEAuspHuTLN9fZXtth8xwj2GcTSOv60ZRr56+bmbvzbG1vs3IxDCC0DmDQpYl+ob6mJqcYWlxmYnDE0hya12IB4MVy4CLosjwyDAjo8MsLy9z49oNrl+9TrlcIRqL4g/493X9tAKXj7SYUq1VuX3rNt/4+je5+PYlCsUSzzz/DK988RVCoaCtpW3xKOgPBSkfXL7K9Q+u8/iT5zh68mgLa+hOp7936x63rt3m1GOnGDk07GIEreDZezenuHdrmsOnJhg5MtwGtsvlCpe/8wH53QKHz47Tf6gPBL2FEVSoVWtMX51l+d4Kmq7TO97N4IkMsd4osk+ywY8z06c11X7/RQUBZL9MrDtCcsBodpjbKrC5sIOqqnZ6so6OiKETkiyS7k9Sr9RZmV0HHeJdUQxexdBDUZJIdsVZnF6mlC+TGe7FaD7ZjFeJJ+NkN7Mszi0xemQMWXZ0QDb1ThJFwtEw925PEQgF6entNt8VB2Cx/u8ALV6vj1s3b9HV1UUqnbJ1+mHuH+f78MNw/xzEqXwoOQAqPyj5QcSnfFy3z9S9KW7evMULLz5PPBFnvyBa3TyHpqtcvXKNxflFnn/lOfxBP2A1/GuyKdtb21x64xKHThxi9NCIo9aD4fIplUq8/c2LBCMBzj59Bmdci6opFAol3n/9CiBw9rlT+EK+NpCiNBrcv7nA/K1FZJ/E2GPDpAcTSD7JvIcmQDEawlngpiWt09qnZTEmmM0Zu46ON+ghkYkRSYXJ7xTZmjdo9FA8iGhVCDUttOyRSPcnye8UWZ1dJxwLmUG2hoiCUc8kkgizMLVoGPmhXnOrYM9IvT4vkWiY6ckZGo0GfQO9Ltrc6QLy+32ku9Pcvj5JNrvL2MQYli1spdGNs5ifLmalSZmHw2FOP3KKgYF+arUak7du88GVD1hdWUWUJILBILJHbgMtD3MBOcV6voqqsLa2znvvXubrf/03TN2dwuf3c+GpJ/jCj36ewaEB+1hOFsVZVdlyURrsXztImbs/x+uvvcHYoTGeePaCrbtOt5Cl99tb27zxje/S09/LuafP2udxMoIrC8tceecqfUO9HHvsKO6UfJVKpcqVN65SzJc4+cRRkpmEiz2xOoFvrmxz990ZyoUyvRM9jJ4ewB/ztgFtS4+b71ITgO+ny5YeO3VZtMB3f5xGXWFrcZvdjRzBaACPT8YMrDKYCVEk2ZugXmmwOruO1+8lHA/Z2iIKAv6AH1mWWJhawuf3EktFXUBBFEUSqTjTk/dRVZW+wUxHViUcDrK6tMbayirHTh6321eAu66KM24lHo9x5/YdCvkCx08e/57cPwdxKp84OQAqPyj5JMWntLp9vvOt11GUBi9/7iUjSaW5Z0e3T0Np8M1XX6O7t5tHHnsEqxaEk03RdJ3Xv/EG9UadZ156ElESXWyKoqlc/Pa7FPIFnnjpcTx+r3kcg+WoVatcfv0DatU6jzxzoiNI2dvKcfvSPXJbObpH0oycHjBTOjU7jdlp2G0jrms0qg2KeyVq5ZqxVOrUK3Xq1ToGgwJWjRib3XIYex0dj18m2RdD12F7KUt2dRd/0Isv6HVRz6IoksokyG3lWZ1dJ5oIE3C4gQQBQpEQHq+HhakldE0n3ZtyGFMzEygRo1FrMD05QzwVJxoLtxl684hE41G8Xi+TNybRdZ2+/r6W0uCdwYqdDWSe19IEAYFoLMrho4c5+chJfD4fi/ML3Lxxi8vvXWbq7hQbm5tUKlVkWcbr87rO1wm8aLrRU2ppcYnbNye5+M4lvvXN73D92nU2NjcZnxjn5c+/zNPPPkUm02vX12gFKNY64/qbdVJaC7oZwGOHr/3510ikErzypc/ZWWrG9va4lNf+8lsgCLz4xecQJbEtLmU3u8fbr71DOBri3PPnEAQz+Nusd1Kv17ny3Wvk9wocP3+EWHcMq/aJpcfVSpXpq7OsTK3hC3sZPzdCtCuEhtVlWe2ox7quoygKlUKVaqlKtVKnVqpRK9eplWsoiooo4Xre9m9s6TI6gigQ64oQiAXJbeTZWthG1TVC8WBTF0xdTvTEKOfKrN5fJxwLEowGbeZPECCWipHP5lmeXaVnsBu/3+dyAfmDAWqVKrP35hkY6ccf8HdkVbx+L1OT08STCVLpBNDOqlgvj/W9RkNh8tYkx08eJ+D3m3rbOfPnQe4fZ5zKg9w/+wHwA6DyfZd9gYq834YD+eTIfmWztX1AkdOdZBn43F6Oubk5nnjifHO06nCeZhAt3Ll9h3KpxEuff6HNpWR9zt2fY2N1w2hz7/eZLIZuA4Xp29NsrG5y6vxxApGgi7pWlAYfvHWDcqHMqaeOE4w2t6smUFq6t8LivRW8AQ+HL4wTjPltgGLR49bxVFWlWqxR2itTylWo5KrUy3XXc2h9Yt6ATDAeIBD1EUoG8QY8aI7y27quowlGenL3eJJoV4jVOxtMvz9L11CaoeP9SGYGApKMKIscuTDO3Usz3Lx4h9NPHyfZnUTUjQwYQdfoH++jmC8xffs+sVSUgeF+NE0E0dgu6honzx1nZ3OHd797mUQybpQnFzQ0RERNQzPtt6gJHD11hOxOlquXr5JKJZk4Mo6tARpmdVwdzVwrYriPNE0D0XI9acY6S3c0CAQCXHjyPI9fOMfqyhprq2usLq8azNz1m4BhfP1+P36/n0AggD8YQBJFqtUalUqFarVKpVJBM5vuiaJIV3cXp06fJNOfYWhokECwCeacutuaVm/pqPG3sxO4m0kpl8u8+hevInlkPvelzyHJVvVkB6CxirppKpdev0g+X+ClL72A1+9tdt02dbhSrXLx2+8iSRLnnn8MQTSPZR6z0Whw5bvX2NvZ48T5oyR7E6ia4nD3aOxu7HLvg/toikrfkR7Sg0l0wVF9WXOwm7pGo96gvFehsFuivFehkq+ia/q+eixKIoGoj2DMjz/mIxQLIMoimlli3qnHoaSf8QvDrE9tsT6zQX6rwKHHxiDoQxYBVUGSZCYeHeXuuzNMXp7C4/WQ6E4gi8YzFgSRE+ePcumbV7j61nWe/ZGnEDwimi7YOnz87DGW51f54NJVXvqRF9BEEUEXEQUrgF9kaHSISCzCjQ9uMH5oDNksEyAi2r+n1FKy/tiJY7x78V1u3bjJ088+4+rf84MUTdc+cjn9A/l4cgBUfoiyX3zKfuuhs2upNT6lk9yZvIOu65w0S453cvs4RdVUrn9wg55MD739vebM1j2rVTWNK+9eJZ6KM3503OX713WNYrHMrQ8m6R3sZnB80J7JWrPQySv3yG5mOfb4YaLpiONajEHIAimpvjgDxzMg4OqXYoEURVUobBdZn9miWqyh6zqSRyQQ8xPpCeILe0EwZpea6dpC16mVGtTydQpbRfZW8yAI+EJeusYShJJGJ+VWQ++P+hh7fIjN2R22Frdp1BUmzoygWG+SBVbOT3D30hS3Lt7h3EtnCDrqRUiizJGzExRzJa5fvEUiFScUDgGyAUY0Y0A5//w5vv1X3+XiG+/yypdfQhMN863pAqIGmgiabqy78OwF8nt5Xn/tu0RjUbp7ux4KVgx9Aqz+KFhN7dyABaCvP8PAYD9cMEDfzvYOa6trlIolG5RUyhWKhYIRfBz0E49H8Qd68Pv9BINBurq7yPT14vV6XXq0HzhxbnMCFOd+rSBFURS+8dffpFAo8uWf/hKhUKC9qJsFyHWN+3fvM3d/nkcef4R0T8qlfxZwv/rONUqFIk++cgFfwGfHV1m1fG5cmmR3a49jjx023D0mSLGOs7W6zd33ZwiEfAyfHzXA8D5gu1ausXF/h9x63r4vb9hDNBMmEPUhSGacEoBgPA+lqlDJ16jma5Tmy4DRYDM5GCM5FEP2yO2ARRIZONFLtCvM8uQa996b4ciFcQj4kUUMsCGKHD43xuQ7U9x+9y6Pv/IoYiCAoGmIgobH5+Xk40e5+tZNZu/Oc+TkITRNtHXY4/Ny/Mwxbly+ydrKBv2DfcY2XUDC0DFZkDh19iTvvH6RtZU1Bob6wQTRlivIKF5nVH4GiEYjDI8MM3n7Dk898zS0ABUngLDepU+CfJKu5dMmB0DlMyqts9G52Tl6e3uIxWIPBUK6rrGxvsneXo7nX3oWQRCMwlHgmpEuL65QyBV4+sUnEQRQ1aaR13SNezfuomkaJx47ZlPS1ix0c22bpfvLDB7up3sgbTR/UxX7c31xg6WpVdIDCQZP9LlSP50NECuFCuvT2xS2i8gBmZ7DKbxRL7LPoI+dAZit4o/5oM8YeBsVhWquTm61wPKNdYKJAF3jSUKxgD3gi4goqoIoivQe6kL2yWxMbzF3a5HRU0Mo1oElGY9P4vD5CW6/dZdbl+7w6AuPIHpF28iLoszJC8e49I33uf7uLS68eM4ECAJoCiATjIQ4c/4U77/9AVOTMxw9eQREEHQR0AywImiAiCQKvPjFF/mrP/kaf/0Xr/Kln/gSXd2pB4IV455MsAIPBizmMSxJppKku9L76tGD5EHApHX7gwCKta+1vwVSlheXee7l5+juSXcEKbqpn6VSicsXr5Du6eLY6SPNWBLH/isLKyzNLXP49ASJdMLdtFDXmL07z/rSOqMnhukeTNvl9a3+P9nNXe5dmSEY9jPx+AiYjEQrSKnX6mwtZNle2EVHI9YXIZj044t4sSbt++myL+Ih1GWwUqqiUS82KGyU2J7fZW8tT3o0Saw33Aa8AcJdQYbPDDL/wSKz1xc5fG6sOSpIMrJX4si5cW6+dZepqzOcfOKY69ypTJJ0b5L7k3OMHB7G73OzKiOHh7hz/R7Td2boG+g1WUWDFUQysvJGJ0Z47+3LTN2dZmCo3wYahnvSqRe6oZuCyPjEGN/+5nfYze6SNoNqrWf0UVgOTdd/aIzMgXx4OYB330f5qIG0Pyip1Wosr6wwPDK87z5Onz/A1N0pJElidGK0o9tH03WmJqfw+330j/S3symFEnNTCwyND+IPBlpo7Tq337tDMBxg5Niwi93RdY29nRz3r88TSQQZOJ5xBfpaIKVarbFyZ52ZSwsU98qkxxIMPdZLuCeExy/ZAZtGAKNVkr/zoukqkl8g3Btg4GwPydEolUKVhSsrrExuUCtXjVmy1qTyFU0hORgjPZJie3mHpXur9gBoAS5fwMP4mVEKuRIzN+bM86n29fiDfg6dGmVzdYvluRVz5qi7BsLB8QG6+7q5dvkGud0910xf090MgT/g4wt/6xUkUeRrX/kaW5s7bYGjxm/t7gnTbCPgYLTM38Quyw4t5+sclPxRl07HdbU2MK8F2lmUTiBldmaWJ597gsPHJh4AUgyXzzvfeQeloXD+2XNYGUQul0+lwgcXrxFNRBg/NmbrgAW2s9u7TF2foas/xeChvjawnd8rcPfyDD6/l7Fzwy6QoqhGfEtDabC1tMP0xXk257YJpf0Mn8uQGovjj3nRBUN/ncuDdBlRwxfzkD4cp/dUGsEjsHZ3k/krKxSypaZbywGSAjEv/ccy5LfzLNxeRrN6FFl6HPbSf6iXzZVtNpY2Xc9UUVVGTwxTr9WZuztn67ClT4IoMnJoiNXFNSqliivo2frtJElkeHSI+fvz1OuNDramnWUbHBpER2d+bs5+F/QW+9sao+f8fJjs524/kB+OHACVT6l8lPiUpcUlNE1jeHjIHtT2+w6AqqpM35theHQIj9foFux0++iaRqlYYnF+ibHDo2agovu4925OATBxcswxSBgGZermfSrlKkfPHUYUcQwOOsV8kbvvTePxyYydHQaTFbGMu65r7G3nmXpnluzyHtG+CMPnMkT7w+joNu3uNuhW/xZ138UuTIdKOBOg/9FuIpkQufUCs+8ukV3NmRkcZhaHaczTo3ES/XE2ZjdZub9ur7e678a6wmRGu1mZW2NrZbtt4Owf7yOWinL7yl3K5Yo7XsEcMB996gyiKPD265dQFMVxDN0GR2CwXJFYhC/8+OcfCFac2TPOgWA/wNIKWvYFLh9zcZ7bFYPiACjWANfq6rECTZ0g5cTp47a+Oq9Tt+9J4+7NuywvrnD2iTNmc812l8+Ny7eoVWs88sQpG2RYlWcb9To3L07i9Xs5fPaQmSnXBFqlQonJi/cQJYHxc8NIHqlNj8ulCvcvL7AyuY7kExk400P3kRSiV9xXj9UH6LC1WPt5IxKZ02lSh+IodYWlq2usT22jKI0m8Db1NdobomskxdbSNmuzGy491nSdzFgP4ViQmRtzNOp117OyGhjO3pmnVqu1gc6RQ0NomsrMvVmXnXHq7ujhUer1OkvzS00d0Jy2zG2jYvEY8XicxYXFdiPYwaa1Sicg8qCJ5n7H+7DA50C+NzkAKp8waVX8D4vsH/TCzM/N45Fl+vr7XMd1zrKd6xcXFqlUKkyYlWttd4/jHPfuTIGuM3Fswn0dmkahUGBuap6hiUGCIXegZH4vz+L0Ev2jvUQSYZxsSr1W5867U2i6xsS5EZAF25hZRm97Jcv81WUkr8jwuX66xuOIHtF1P63gxJod6ppZbKtlsdZrumaDFiSdxEiYvrNdeMMe1u9ssTmbdXW1VVUj+6n3UJpod4TVe2tsLm1jFQ+zjPzAkT5C0SD3rs5Qq1RdRh4ETjx+FFVRuPne7Y6DuD/o57GnzrC7vcuNK7dcDFNzMGkCl4eCFb0JVloBS0eGpQW0dAIu38vS2g3Yzn7pAFDc16nTaDT2BSntz8i4152dLFcufUBmMMOhY+OuWb71ub68xvz0AhPHx4gmom5WRteY/OAepWKJY48fRvaILrBdKVaYvHgPHZ3D50eR/R4Xk6HrGvlsgfvvLVAt1ckc76b/kW58EV8bq2OBpg+jx9a25jMy7jfc5afvbBeRvhC7KzmWb66jNNpjvdKjCaLdUVam1smu79nf13QNBJ2Rk0PUqw3m7yy1Ae6Jk6PU6w1mO7AqwUiI7r5uZu7edzwHJ5DUyfT3EggGmJ6acdkzFyvSMhkaHhliaXEZ1QzUPpDPrhwAlR+SfL+Q+MOAjKZrLMwvMDg0aPfH2HdfE7RM3ZvG6/UyODzgmr1an4qqMj05Q99ghlAk5B4QdI071w025dCJMVc2A8Ddq1NIssTIieEWcKFx5/IU1XKNiUdH8Qa9Jiuh2IZvc2GHpVtrBGN+Bs9kkAOiPWg6Z5+WgW0HIZ2LZSk28HDvr+k6sl+k+3iSUE+AnYVdVie3XMGPmqahCzr9J3oJp0Is3Fpmd9Nt5AURJs6OojRU7l2ZaTPywUiAseMjrC2ts7q41mbodV0jM5Rh9NAId2/eZWNtw+E2aXcBdQQrG9sdwUondqUVsLSBFs1MpW0BLx9naQUlTmBigJj238wCWPV6nW+++hqzM7M88WwTpDivv6m3ZoaO0uCt195C9shcePZxh8unGVtVrze48s41wtEQh06NN49nHnt9eYPl2RWGjgwQTYZtV4+ma6iKwuR7UzQaKofPjdl6bLEpmqazt5ln7soSoiQw9GiGSHfQxcg4wbYFUD6MHlvbOumxIEJyNEpqLE5xp8zi1VWUhtJ8vpqRCj5wvIdA1MfcjUXKubIL5IXiQbqH0izfX6VUKNnPDCAcD9Pdn2b2zkIbqwIwfmSESrnC2tJ6R/ePKIqMToywNL9EpVJtszmdbN7Q8BD1ep211bU2m9fJrh3Ip1cOgMqnSD7OC1etVtnZydI/0P/gY1tpj7rO8uIKw6NDbcDGMgDbGilwnwAAIABJREFUm9uUSiVGJkbajqMqKsvzywyM9uML+lxGPrebZ2c9y/CRAWSPZIMMTTfSN/c29xg42kc4EbQHFisuZW9zj7WpDSJdIfpOdSPKggukOGeftmHXVIrZMtn5HDuze+zO5dmZzZGdzZGdy1HcKpszS6sfUXMQcLIUCDqp8RiJ4Sj5zQIb0zsoSsMcfIyBFkFn4GQGb8DD4u1l1IbiMvL+sI+ho/1sr2fZWc/aRt4CJcNHBglHg9y9OmW7d1yAQtc5/fhJgqEgl954j3q97rrn1pm0C6xIEl/9k7/k+pWbxiDWAbA4y7F3GgBVEzC6QIQZA/S9LJ0Ylv0GYfv6NI31tQ3+7A//3GZSTj7SBCmtx3E+m5tXbpLdyXLhufNmBWWHzpj6PT05TblY5vSFE2bVVcdzUBTuXZ0hFA0yfHTQpcOqprI4tUwxV2LskUECUb/r2Jqmk88WWLi+jC/sZeBsBm9QbgaHdwDbFuColersLubZmcuxO1dgZzbHzn1jya0WadQaBsNnfs8Jvq1YE13XiGSC9BxLUSnUWLvTBN22HoswdHoAQYCV6fVmdpN5DwOHDVZ2ZWbV/axNHW40Gqwtb7hsgq5r9Az0IHtklhZWOtge4z6Hx4ZQVaPLdad9Wv+2bNr6WnP/1jiVBx2juf6j1b76XuQANH08Ocj6+QyK82XY3tpGR6eru2vf/Z2sTC6Xp1QqkenLNGc0Dn+/rmksL60gCAK9A73N2bY5gKytrNOoN+gbzjSvxzTkSzNLIAhkRjJtbMrC3WW8AS9dg8m2waVaqrJ4axVv0EPmWJcZYNg07s4BW1UVGnWF4maZ4kaFRkUBQbdLagN2erKug+QRCXb5CPcEkX0Soiga1UAFDVEX0QXRSAsWRGIDYbSGxu5KDtkvkx6KgyTb2TCyJJM50s3C1WXW5zbpP2w0qzMyIAR6hrtYn99k9tY8yZ4EotCsrQIih06Pc/Wtm4bL4dg4dqonIOoakizx6FNnePMbb3Pjyi3OPfkoiLSlLBtiZFZEYhG+/NM/yjuvX+TiW5e4Pz3Lsy89484IAldGj5VCqfFwo/q9zHQ6DRzts2c39d+oN3jv0mVuXruJP+Dn81/6HMNjw7TWSXGDFNPls7nDjQ9uMTwxQv9Qn111tgkGNcrlKvduTtMz0E2iK9nGpizNLlMqljj11HEj083hGisXK6xMr5LojRHtithMi8VaVItVFq4vI/skMie7kTzCvnqs6RpKo0Fxu0Jps0I1V8csSNx8JmatPk3T2VsoEkh5ifQE8YRkJElC1dVm4TQNFEAUdPwJD8mRGNn5HL5FL+nhhJFWr5spw16Z5ECcrbkdirkuIomI8RwFEdknkeyNs764ydjJEbvcv6BrRJMR/EEf64sbjIwP4UxVliSZ7kwXa8traJrarKmiGdk/AMl0ElEUWF/dYHR8pGOaslPjfH4foXCI7a0tE2y0Z/wclK7/bMgBUPkMSSfDv7W1BUAqlTT3eXD9lNVlY8bTkzF6b3SKT1lZXCXVlWzrZqvrGkvzK3g8MumepO2+AGg0GqwsrNE9kEb2SjSUhotNKewWGDo5YNSGcAw6jbrC/LVldF2n72QPutCciTspfkVTqRVq7C0XKe9U0DQdb1gmMR7Gl/CgC629k3Rqew3Km1UKq2UKq2X8MS+h3gDBhB9RFJs1RywAoEFsOIRSV9m+n8Xjk0lkoiaQMIx8OBkk2hNh7f4Gib44wXCz548swsDhDDPX5llf2CAzYpTQFwUjITjZmyDZnWDq5n0GRvoJBIMGAMEYpAVBJN2bYuzIKFO3pxgeHaCrt9uoBmwZagdYEQUJXdPwB/28/KMvsXB/gUtvvsdX/vArnH70NI9dOIssy+1wxFzRWvOhE3DR9I9X9Gq/2W1rZWdnZtDSwjJvfuct8rkcx04d4/EnH8Pj8bZl91j7O0GKqqq888ZFvH4vjz1xxg0KHAG0tz+4jaIoHDt7xHVMTTey1WZuzRFPx+zO306X59ytBXRg8GhfG9iuVWrMXV1E13UGT/cheYR99bhRaZBbKVLcKqM2NCSfSHQwiD/tRfKIbc+uXlQob1Up79QobVbxhT0Eu/2Eu81aQK16jEg446dWrLM9Z/SwinVHUDQ7wZ7UYJydpV3WZjYIPxZCERQEUUTUBbqH0myvZtlc3mJgbMBOudd1kZ6BbpZnVqjVavj9RqqyVRi/d6CH1cU19rI50t3N1Hbj/kVkj0y6O83G2sa+uqVpml1PBSCVTrG1tb2vjnXSzQ+rs7qu2dWgP8r3DuT7LwdP/VMoH4aqtAz+9tY2Pq+XaDS67+DQ/I7G+to6Pp+XRDLR4bxGl+SdrR36B/vsdTZYUTXWltbpHew1B8/mbHR9aQOlrtA32utifGw2xe8hPdDOpqzeXadaqtJ/ohfZL7moesvQK5pKYb3I2o1tKrtVgt1+uk/FSR2P4k3K6EIz+NNZK8MTk4gdCtF1Okqoz0+9rLB9N8fuvFG0zOkGsa5JB1KH4ngjHjbubVEt1dqAX+9ENzo6S3eaKcvWoJnuTxGKhZi/s4imun3wug5Hzk7QqDe4e2PKptSdA5mm65x89Dj+YIBLb16m0XC7gFrdVpYbSEdnZGKEn/q7P8HY4VGuvn+NP/mDP+Pe5BSNer1jLIjS4tqxXAuti+rINLFLz7csrft0PE6HeBVVU1lfW+e1r7/G177yNQQBvvxTP8ozLzxlgBTXs2l19zSf3e2rt9nZyvL4U4/i8XnaXD6arpHd2mFuep6xIyOEzAJ9TjZl7u4CtWqNsZMjQFMHNV1nZy3LzlqWzESP2d6heWxV1Vi6vUat2mDgVAY54NZji9lRNJVytsLq9S0K6yUjzfholK7TMUIZP4KM7YJzPkspKBAZDpA+HSE6HEDTNHZnC+xM5ajX666YKpceT8TwBmXW7m5RrzbTgjVNQ5AFUoMJ9jZylPJlQz/Naw4nQwTCftbmm6nKlnQPpFE1I47HaTd0XaO7rwtd11lZWnWBNKd09aTZ2txCUZqgqQ28Ov5Od6XJ7mQ/lkvlYfF9B/LJkQOg8n2ST6rvcWtzi3R318ObxZnXv7a6Tm+m110szfFCry4aRiYz2Nt2jI21TRr1Bpmh3jYDtDizRDASJJ6O2cfUNI29zRyF3QKZiV5XZX9d18jvlNhZ3SM5GCeY8LvYHQsUqJpGdi7P9vQenrBMz5kkseEQUqA582wO4p0BnuAVCfX5DcDS46OwVmbrzh6NqtIRrAiCTs/RJLqAy89v7evxS/SMpclt5slt5l3n0tEZPjZApVRlZXbVNaMHiMTCDIz3sTi9xF42574H8zeSPBKPPXWGQq7Au9+97Dh/J7Ci2WBF0zW8fi/PvPQ0X/ixVxAEge988w1+73f+LW+/cZGtzS2s7r42WGkBMFYcxYPiTlSzRohzeVisiqK6z1MsFblx/SZ/+u/+jD/7wz9nfnaBR849wk/8zI/Tk+k1g3k7x6O0gpTlhWWuvX+d4fEho+aPk8kwn6mqady4fAuv12MH0DqPWy1XmLu7QFd/ui1bTVUU7t+cxx/20zOSbnv+2eVd8ttFuseS+KPeZlxRy/lzy0U2JrOIskD36QSJ8QieqNwslvgQPRZlkUC3j9SJCNGhAJXdGtu3cyi1dtANIIjQdSSJpmhs3s+2DdypoSSSLLF2f9P1PAXBcGPmdvIUc8Xm+6xrxFMx/AEf60sbNtC2JBAMEE/FWVtqj0EBAwj1ZHpQVY3N9S3Xtv0mWemuNIqisLe796H2//chP8hz/f9VDlw/nwHZ70XRdI2dbJZDhyY6bm+Ver1BdmeXsUNj+55jbWUdv99HMp10zSg1TWNteR1ZlujKpLG6kWi6UXMlt5Nn/NSYnWVhbVubMzq0dg2mXEGEAJuz23h8Ml0jSbvZorU9UmnwIx+s8eidLAN7NRKKRsEvsXQzy1vDIf70RJQ9v2B/Bx4OJkVRJDocxBOWyM1X2L63R/eJBJLcpM+N0t86klciNRZje2qP3HqRZL9R8VfQBDRBIzmYZHc1z8r0OrGeGKLQjFWJpSPEuqIs3lumf7zPFaui6QITJ8fZWNrizrV7PPnSeVr7AGmI9PR1c+LscW59cJtoLMLpc6eb8Srmv4JLL9w9gvoGM/z4z/wYm2ub3L09xeTNSW5eu0UsHmNwqJ9UV4pkOkkymcDj9bgocKc+AB+bDm+CMJ18Ls/Odpbsdpb1tXUjlkHXSKVTPPnck0wcGcfrdTMozmO0sijWut3tLN/95ptE4zHOP3vO5eZxApaVhRW2N3Z45MJJJFl2DOrG8eanFlEUlYmTo233sbm0Ra1c4/D5CcNlqDWvsVFXWZvZJJQIkBiI2V3DW10++bUiu/M5gikfsdGQWR6/9V4frsfRqsrfuVPk2cUKg7t1ojWN3DtbrKT9XBqN8JXTSYpBrx0XJQck4gMR9pYK/FeTW3z+9ia3RxL86n/+FLIskxyKszWXpV6pIYeC5u+l8YvfusGF96a5c3WWP/yf/4Ht3tHR6epLs75oZKZJYhNkC4JIb38P07dmUBQFWTKGHyP+RUMUJLp6jVi67c1t+gfNKrUd5tO6roEg2i7tnZ0dV4XaNl3TDsrXf5rlAKh8gqQVcDyMmnzYdlVVqZQrhKPhh5zXMICFfB4dnVg81tymuWdve7s54qmE2WnVfZy9bI5oIookNWNQAPa2c+i6TrzLYlOas8ncdp5EJmaXyrZmotVKjWK2SGo4jiAJjk6yGs/f3OAX/maOSM2on6ACJZ9ErKqSXKvwyFqFn7ua5X95Ns2rh8O2YX/Y89I0QBTxJb3EBYHdmRK78wWSY1E7ZsUa7EVdIJj241mR2V3OEesNIwhiMyBRFEkNxVm9u0lpt0Q0FTG+K4gIukbfWA933p1ma3mLzHDG9vNrmojHKzF6ZIipG/fZ2cqS7k4jItnPzCiSJ3D45ASFfJFbVycJR8KMHRlzgRXRiu9oCbB1ruvp66Gnr4d69QLzswsszC4ydXea+o1Ju/tsNBYhkUwQCgUJhoL4A34CwQCBgB/Z40GSRERRMj+N1gWqphkVTlWD9VJVlWqlSrVSoVI2GhVWKlVyezl2d3ZpNBrmNQrEE3FOnT3F6PgIiXTCZgNVRwxFK0Cx9Moa3AFKhSLfevU7SB6Z57/wDJIsmSm7bjCjahqT1+4SigTpH+trY1OURoPl2VW6+lL4w35X00JV01ib2yAYDRBJhbA6iluyu7qH0lDpH024UqENfTPOU87VyM7m8Me9JCYiAG3Btdb+D9LjH50u8d+/lSVaN/ZXBSh6RJJ1ja61CmfWKvzslW3+t5f6+dbxFEhGRlO4J8jeUoGG6f7RzXNpgkY0HWFrdof8dhF/0G/rsGgGwCoNxb42UdAAiVgqyvL9VYr5Iolk0nWNsbjhgs7v5fF2e+0mhZYYOiVRKBRtMOL8zaWWv8MRw7YVi6WOz+SjygGg+WTKAVD5DEvJfHnD4QcDFUsK+QJgNP3qxNJoqsre7h5jh9tnlbqus5fN0W9m9NjrNZ3s9i6SLBKOhVyDTW6ngNJQiHdFXVUqAXZXc2i6TqQn7DLYX7yyyi+8eh8RuBnx8L8OR5h6tgfNJyI0VB5bKvJfXNri5GaN/+m1TQJ1lT8+1ow32E9EKw3V3MWb8BDK+CiuVfCGZcLdQSMwUbd67IhIokisL8z29B7l3QqRtORiVWI9Udant9hc2iacDNusiagLRNMR/GE/yzOr9Az1uLora7rAwEQ/8/cWmboxTerlpItVQTP68IgCPPbkWarlCu++9T7BcJDe/l4QQXL06WnNBjLWuQGL1+/l8PFDHD5+CAGBQr7I7k6W7M4e2Z0su9ldVlfWqFVr35csCkmSCAYDhCNhDh09RCIVJ5lOkUjEkT3mTFvXgGbH4FZXpBOgWOst4NJoNPj211+nWq3xuS+/SCAUcAXmOpmVlfkV8rt5zj51GiuVxmJTANYWN6hX6wxM9NkMogVkCtkCxVyJ4ZOD0OJ2U1WVrYUdAjE/gajfbGLYAoLqKpt3dxC9InETpDgZmVZQ47x/p/wHk0X+6Vt7iMDttJf/63ycS/0BNI9EZa7Eo/dL/OOdOqd26vyTV5cINjT+6mwPICL5JPwxL437Sttx/REfslcmt50nPdhkLCyGU1UM157VL0fTdMIxg3nJ7xWIJeJAM/g1Eo+Y2/KugFrncSORsG2LrHvfN/PH50MQBUrFYvMYmlG6/0A+O3IAVD5j4qSF8yZDEolEPtR386ZxiETd+1sGslQs02g0iMYibbPSUqFIo94gFo82r8XcntvJE45H7CandnzKVg4ECKfCru/ousbeep5A1I8v6EU1GyKOrRX4+W/MIgLf7gvxnw2FiR+L4/NLxuxd1HlnKMCl/n7+2avrvDxf5lfe2uFGl4c7Kdlt4HXdGJJaBl0RsxmfphHq99MoqezOFfGFvYhhk1UxQYDFqkgLIjuLOSLpsHlo49nIkkysN0p2bY/Bow1Ev9BkVQSdzGgP87cWyWcLJNNxe1aqaSKyLDFydJjpGzPsbO6Q7umyWRUsUIWILMKF58/zxtff5M3X3uGVH3uJeDJupjXbPZId3ZatzIXOgAUM0BaOhghHQwyODrpcO6qqUq3WqJYNRkRVFFRNR1M1I75F1UDXESUj1dtiWSRZwufzEQgGCQT8SLK4L+DpFGTp/LsTQLF1x4x3efNbb5Hd3uW5zz9NPBV3ARPnOTRNZfLaHULREJnh3jY2RdVUFqYWCUaDxNJRkzFpujxX59YRJZFkJo4VD2QdY3c9T61Sp3+8x+XCAROMaCobd7OoDZXukwlESbBBinM/63qte2x9Nse2G/zjdwyQ8q1hP7/8SgpNkoznq2n4h4K8VVT5sS4//3q1yotzRX7pO6vcyYSYyxhVd0PpAJpiHbdZT0cURELJIIWdkr3O6VLUdZ1SoUw8YTAlEhCKGq6r/F7BvmbLbRmJhhEEgfyeO3bLuC8RCcP+5PPu7fuJKIqEQiEK+TyarrvYmU7S1P8D+TTJwS/2Q5AfVPBVLpcDIBqL7ruPu4ZKDlmWCQQDHfe1AtZiiaZryHbvZI1zxZLuc6mqSn43TyzVfg17mznCibA9g7YGkWqxRqVQJd4bNdcbA8PPvT6HV9XZCnn4xYEwgUyQQMLXlhXQEOCfvJhmMyjh1eAXLrsD7QA+P1flj76yzdn1mn2O1nsSBIHEeAhBwsgEMkt1NwdGHUEUiPVHKO9WKOcrbb9taiCOpmpkV3fbrqFrIIUoCazcX6U1QFLTNQbG+/D6vEzdnGnLAHLOzD1emadeegJREnjjG29SLpXtgdEZYOsssW4Fydp9jsygV2d5dnvWb/aFUTQFXdAJBP0k0gn6BjMMjg4yMj7E2OERJo6Oc+TEIY6cPMyhY+OMHxllZGKYobFB+of6SPekCEUCiLJgB4g6F+d5bKDgKA2va1a592ZJ+baqwprK+xc/YGl+hUefPENmMOOOS7FBhsmmLKyS281z5NQElv/Ryabsbu2S3y0wONHXrmd1hZ3VLOn+JJJHcm3TdZ3thR18QS+RVMjxuzYBfmm7QiVXJTkaRQ62ft8Nqlp11Cm/9H4erwYbQZF/9EIcxRytbT2WBOLjIeoNjf/2SJStkIxX1flP324GtYbSAVenYqdEUiHqtTqVQtVxgc3/5ncKrv0lSSIcC5HLtoMNQRIIR8I2iOkk4WiYYr7Y9rz3k2gsagObg8DWz6YcAJXPsORzxssbje4PVJxSyBeIRML7znRzewYYiTuAiiV72RyCANFEE1wA5HcLaJpOLOn+jtJQKOwViaXb2Z69jTygE+kO2cYqla9ybsYY7P9gOErZLxMfav+uZZyLPpF/e8JgOJ5brNJVaLj2ezfj5XqXh9/9qx1+49u79BbdIMQS0SMS6Q9Syzeo5RsdjWe4J4goCeyttBvfYDRAKBZgZ7kdqMgeiZ6hLrZWtqlVa66ZvLFdZuToEFtr22xv7DRdHo59rIEvGA7w1MtPUqlU+eZffIvVpbUORcSarglnVoriyvJplsZ3ghfnsl+fme91cZ9DtUGJXW6/Q+qz817K5TLffe1t7t66x6ETExw6PtERpDSDaVXuXLtLOBaid6inw7PVWJhexOP10GNud7p9tpaMjK+uoXRLGrpGca9EKVchORizA2Odomoquwt5vCEPoW5jYqBp7t+/kzR1wGA9uosKzy4ZYPv3T4QoecWOeuwJyQS6fKzv1fnjU0bpgSdn86TyBviQPBKS1w2WLLGAVn6rA/AQBfK7zfXWeaPxiGu9U8KxMLm99u/Y54uEqdcb1Gr1jt9vlWgsatu6A/lsygFQ+ZTIx0l/rtXreGQZj8fT+ZgtBqJWq+Pz++y/W4P2ahUjPsG5j72tWsPr87aV3a9VaoBOIOR3HbNWqYOuE4gE2q6lUqzi8Xvw+JrHOrmQs5X16zEvgZgPUXYXv2q9n2+PGr5yEThnMieWgd/zi/za0zF+6ifTpCoqf/1Hm/z8+zn8SmsKtE4g7UEQoJZrgh3dQclLskgwGaC8V3WlvWomCxLtjlDKl6lVG80B1tyna7ALVdXYXsu6nrtVLG9wfADZ62FmctbFqgBt7oxkOsELP/IcoiTy7b/+Du+9eZlatdbGrrQ2uHOnMndISd6n2/T3c2k/fjvT4mRZ3L1sNOZmFvjqH/0VS/NLnD53kjPnTz8ApBjPz2JTDp0w2BQnSNB0I4h2a3WbroE0oiS0uaT2tnP4gj5CsWZRP0tKu0btkWhPE0w740yUmkq9ohDpDdrxHp2kE5viBMuPr9Xt9+K1ofb30vkO+xNedE3ntYzxzonAI0vN2A7JI9rHt54XgMfvQZIlu9aKU0RR7LjeF/BRr9U7Anu/39jWen2WeH3GfdRrtbZtncTn81GrfzhQcyCfTjmIUfkMi9JoID2kEaFTVFVBkjvPqjRdM1IKZbljxo/SaNggxWlUrawAy71jSaNuGDePtyV2BFDqigukAAxtGYHBdUlgShII+vZPlwXDAM7FZeoieDUY31M6Gs2ppIf/5EeSfG6xxn93Kc/fvlfmnz8R4xvjIZsKF0QBOSBRK9btc9lxKoLxvLxhD8XtCkpdRfK7rz2cMAay4m6JQMA9mASjfnwBL9ur2/SPmtk/UnNWLMkyo2asysbKJr0DveAorY8GkllcTwQSqTif+/GXuP3BJNO3Z1hbXuf8s4+TGehFFEVn1Ip5DjMQ0iw+Z/nvVUcV2k6BiT8Iir1T3xY3MNWplCtcfvt9FueWSKTjPPHcC0TjEROY6R1BiqbrNBp1brx/i3A0RN+wURPIrtNjgsHt9SxKQ6Wrz532amX75LYLxLojDlDVjE8p7lXwBj0mwGmvtls1mQxvyAocbi9q1jo56fTMJ3aN96gmwVy8+f454zCMHj5G+XuAGZ9IXRLwqjpD2WYDQEEyFP7oUp5/9euvm+pvZlw1jHL8kucSgiDgrxjvgiAIKA0jk8qyHJquIXtkdM1oaeFpsUGSR6bRaJhVZtt1SzZtkFUfyAh01/d1TcmyhKp8bx2UjfiWg1L7n1Q5ACqfYbGARUeD32Gd0lAIhNpnh87trYCjuU3tuK1uznTkFh9+vdYw17c3PlRqCp6AmwUKVwzAU/DLaDp4/M3jtRl0i+0QBPI+kXRFI159wMAqCLw27OfNAT//8a0iv/bGLj97u8SvP53kXo8x+/SEZarbRpXPTs0a/REvANVCDZ/f1wxG1DV8YS+CKFDYKZDKxF1pyrIok+pLsjG/idJQEL3N7B8reHbk8BCrc2vcen+SdG8Kr8dnAxMN7NoqFvwQRZFT504yMNLP5beu8PrX32B4bIixI2P09vcY6ZeOwUxzEKuabhh8l9FWHw5KPmqA4kcFOq0xPIVcnoXZRe7cvEe9XueRc6c4fPIQguCO7+gEUnRd497NacqFMk+8/DgIggNsNFmT9eUNZK9slMt3ZPsAVIoVlHqDaLJzRl0lVyEQ99vX0MZO5uuIkoAnKKPqTbdjp333Y1MAYjXj75xXNALD9WZvm1bAInqNsb5R1yj4JFJlhVjFBBkCiGZsi0fTSRT3YSha2BNBEFAb7dlC1juiNBTwtW6T7MrPncTK8FE6HLeTyLIHRTEnIgdg4zMpB0DlMyyKouLxyAii2AZWRFG0S7hboqoqstSZUREF0QY+naTRaODxtm9TlWa8he6YpasNwzjLLX5xURBp1BQCcXdAr2BROKZxkx2sReu9iKJoZJ98RKnLAr9zNsZfHg7z31zO8wd/tsZXj0b4rSeSVMIy5c0aalVH7jA2+SJeBKCarxFr6f8oSiLBWMB2B7RKKpNg9f462+s79A01K/5qmo4oASKcOHeM977zPvdvz3LkkSNGmo5o1JWwa6s4wApAIp3glb/1MrevTXL/ziwLs4v4/F4GRgYZGh2kO9Nl/J66m00BUFvGkNaCb61iAZzvh+xXJ6SYLzJ/f4HFuSWy20bMT1dvmnNPPUrUTHttBSjW8ZwgJb9X4N7NKfpHMnRl0nZjQMAOolUVha3VbdKZlN38r3mvRv0fHZ1Qohkoa0m92qBRU0hF/fveY63YwBv2IggCIkYjTJvNegCIs5prBhoaFY/YRjI448tawaMoSYheEaWqNt8nmqBUMIHKtb4Iv/rzTyKJErIkI4kyi9dX0RWdE88cwSN7+bnffZPzl6ZANOxMq1gTk05gQ5ZlrJYJHrndLW2xwFbw+sPEYmAURUHyej/Udw7k0yUHQOVTIlbFy48iitJAkvb/iUVBdBlFRVFdrh9jcGoai0Zjf6CiKAqSyY6Iju8p5ndEUUR1XL9SN11CXhmE5lk0VUNTNDwtAKZgMizhmoqog7eFcREFd7yKIIigqURrZoq0T3R1UG4Vp4HfCXv4H15M8Ycnovyjd7J85fcW+ZdnEvwfOjRKDXzhduMqSiLekJdqobNeis6wAAAgAElEQVRfPZwIsjVnpKLKDreWpmmE42G8Pg9bKwZQsYtnmfckCSKJ7jiZ4V6mJ2fpH+0jHI00i8ABGOw+TZ7FTLUWRU4+eoLjZ46xvrzByvwK8zPz3L97H5/fSyKVIBKLEo6ECEVChMIh/AEfHo8H2SPbs1s+IgPyUUXXdZSGgqIoNOoNSsUypWKJUqFEbi9Pfi9PzgzOTHUlOXP+NAPDfY6ePC2pyi11RyyQoqoq19+7gSBgNB50FDR0xqdkt3Zp1Bp09afN63PHp+R3Cni8HvwhH5rmHlDLuQoAgVhnoKJpOrVig0imM3spCCLNlpg43Iwi/rrCP7xW5O/eKfGln+5iz2fobayuIZiMghOgCIKRHm6BEdkvoVVVwuZ7kfc331kLqOiajmh/T0QUBSSPRLVcbQM/hutHdTFwoiDadkRV2t83STZSpzVV6wiAna4f63wPqt1j2ThFUfF9TJxy4Pb5ZMsBUPkhSOug+sMUQRDBmg3rD2uJ/qCgv/bZnEo7VW2BH4umFTBSVUXneowBVhRENMF4Tktpw6j7VJ2xikJFcJzHdlcYXYit+xnbU/Gaj3k26TXPv//9tRrhWz0+/v5P9fHlmTK/+M42P6no/HOvzPWekGt/69MTkGlUO9PVgWgAHZ1quYbPZ7pudAHMASLZmyC7toeqashyM0bFWTvlyCOH2Vrd5sa7t3jyc08Yg6zogCYusGKssP4niiJ9QxkGRvpRFIX15Q3WltbJ7ebY3pyjUW90fDaCICB7ZGPwMH8vQcD4vyDsFzbQJpYW6LoOuo7xYbAeSkPZlwETBIFwJEQkFmFkYoih0UECjo7UigMkdKo5Ynw2KyEvzi6xsbLJ8UeP4Av4m4HNLd/ZWttBEEWS3XHX9VjnKBcrhOJBl5vFEqvCqzfote/c0Hvz+hQNdJB8khH/o2odn70xOTG7+Oo6X5op88vv5qjIAr/yfJxsUGI2YYBmnwpjOZXZhFsn244piIyX6nhNymwx3WQuH/RuGJs66EeH41vHMo6nt223Kr9a73r7tQqu7Q8T+7p1fd/7PpBPtxwAlc+weL1e6vUPFzkPRvR8/QHR816fj3p9x/7bABIioqDj83mpVtvP5fP7UBQVTVVtqyYKIj4zqLRRVZADkrleQJIlPD4PtXLddZ7bo0kjHgP4fLbKn5YUfElvRyMvCgKIIi/NG64WDXi/98NNtZqGtjkTffVIlG9lgvzMa+v8i3e3uL5S5jdfHGC5u8UHpDfp81axXFwWk9QqsVSUjcUtSoUyMat4liDa7h9N1/AFvBx79Ci33rvN3L05xo6O2S6gVrBi/NfNrgAYcZUGaOkbyiCKRqBivd6gXChRKpap1WqoimoACEVFURSD3jczpnSwwUYn0fcBvDbAwRxcBAFRNIrbWeyN7DGy1ILhAMFwiEDQ31bS3MmauM/bDlCs9ZqmUSqVufHeLRJdcUaPjjS3WbEhWnP/ve09oskwkiyhqO7fTNN1lJqCP+x2+zSb/TWZiU7jpugRESUBpfrhXBsnN2v8ytu7jO02+L8fi/J7x4M0zMDX9zI++714eaHKfLIZEOJkKwRBRECgXmrwRTN7TQOuD0bs/TST/egU4NqoKjaLKQqi/S5rmo7XpDGcIMHK6vH6m++ddR4rPs3roD+c3200DNDs+ZBuHMtm+TtkIx7IZ0MOgMpnTJwuIp/PZ2fXfBjxeL0dgYrBumj4/T5qJhgRBcEVx+AP+F21EYx9RHymoapX63iDTUNipSvXKjW8wZDt+hEFEV/IR63kvo6dmJ8rE0ken8nyc2slvpqtQNJh6AwqwR6kQnWN//CWUdfkzSE/G2HZGLb3YbIeNhMrqDq/MRDitWd7+eWrWf71797lq2e7+TdP91MOyQZoUzV7kGodqK2gYaVuZDJILZUBIklj0Mvt5InGw4BoMylW4CyCSP9IhvWlDe5cvUdXpotIzHABOYNrLZ+BKBqxJoIgNrN7WuJRLCZDlkViyVhbvZsHycN6J30YeVjsC+wPSFz7tGQDOffTzEJw1y5eQ1VVzjx5CisdufUYmq6hKiq5bJ6hw4NtoMeSeq2Ox9v5WdmMgabTiXMSBAE5INOoKO3fc+hwV0nhv764w5emS/z5kRC/9IUutgLu694IS7w56OP5pRp/73aJf3ciQsXnjt+y3BpqTSNYU/mPFoyU5EtjUbYjXiTccV5OsG20ahBpVBpEkh3qFmm6/Y47pVEz7q0jiKnX8Tjdita1mtfZMG2Q19u5rEKr1Os1ZNnTdrxOcsC4fDrl4Ff7DIvX66W2Ty2Dzvt77JlQpxfa5/ehKmpbo0IAX8BPvdbeB8ZvAZKqeVzTiPuDPgQEmzmxXD0A/rCPeqWOgGD7yQVB5PdfGKUhCvTWVf7Hd9bwaCaV7MxsEERkXeDXvrVFd1mlIcJvPZ5wuWk6Lc57ttgU+/+CiFYzWILt7gD/9MvD/PLfOcQjSwV+91/e5MeurCNqehuj4ryuhzEqvqAPn9/L3vb+7eo13WCPTp0/jiiKXL900yxd34zPcDIERpn21gq1+xdPUzXlIy0Pq7XyoOXjnnO/89pF6jTVjEVR7PvXdI2F6QXWljc4dvYwwXCo7Vk52ZTdnT10TSeWitjrnJ+qYjRblDsEjxu6bDEq7UHKlm55AjJqVW3bDuBX4R9c2eOrv7/EQEHlZ38qw6++0MVOUOqou795LkZDhJ6yxj97fRdZ1V06bJ1DLyj877NFuisqDVHgd54xOnfb2V/mzMNqLGmt1zWderWBL+htu1ZN0/H4PW3sTb1ax+MxwEPrd+pmzaVOIgoidXNy5TUZFed9dAK2jbqC7+MGpxzIp0IOgMonSD4q2n/YbNTrM9Jkm51p9zuvYVg7MTCiY+D1BUzQ0aEQk+XiURXVNJKCvV4QBNtvb53PF/QjCNCoNdxGThQJhPxoDQ1Ncfuc7/dF+O3PjwPw8kaZ3/z9u1xYKODRDH+4B4EnF8v8zp8u89KcUXfl/zkT415PwAYcD1oEc7EMozPATqmqSB4R2WOwJzeHYvyXf/8E/+qFQX7urSV+87evcn6zhCiJ7QOTGVwoYAUetv9ugiAQTUXImeXInSxCa8Cnz+/j+LmjZLeyXPr2u1QrVaMQnNas49EJsKiqYm/TdYNl+L4tH7US7ffpvK77aQEnmnmPM5MzXL10nXRviuFDwx1BijMteXdrDx06tn2A/WsDWfVmRMmKmRDcYMHxf1/Ai1JTEHTBBukC8OJskT/6/Xn+9q0cv/pyD//wJ/u41xMwwYPYUY/vdvv59SeNarMvzVf4N1/d4JnlKl7N0GFZF7iwWOL//ZtVvrhrTAz+zxf7uW92/DZ0XbR7/Rie02YgrVJX7WsWTIZGsONINPymG9f53tdqdXwBX4fgW9EAFn7/vvbOmiz5fPtnTVnXLIoitZoR99X6OxzIZ0cOXD+fYBEE8UPR6/sF5wb8RqBctVLFE3l4B2Wfz7dvd1xREG0fcKVcxef32oO6rmsEQwEEBKqVGv5Q03BZ6ytmxoBuBtmKoog/4KdSrNnH1wWjkFkgbFx3OV8llPTbsztdFHn1/AA71Qa/9OYiR9fL/Maf3Dfa2fskQjUV2RzTi16R3348wS9c3GF8T+FfPJlkKfJgargVoFiDgoBAo6TiCRivi2UIdUni1bO9vHWim7/39gq/9e4yby3n+eOhFDtdbppckiREWbTTsjsZ6VgqyvZKlmq5RiDkTs92un8AMkO96LrOrfcmeeOv3+TMk6fpynTZMSvQnIWoejO7QlPbZ/kPkg8T9P1xXECa/uHO/2Gus9M16rpGrVrj6qUbrC2u0zvQw9mnHnlgFVhL9rZzhKJBPF5Px2Mr5m/o7O8jmu41AFGSEQRQ6yqekGzrr6priIKALhgZYujC/8fee0dJcp7nvb8KnXOcnGd2dnYXG7FYYAEQJBIzlUhKVKREypKv5HMUzr2+/sO2ro99jn0sHVu+9pVtUaIoSqRFUswEiEBkgFhgc54ce/J0zqHq/lFd1dU9M7sLJpD0vHt6u6eruqv6q7e+7/ne93mfj0quguyWGd4s8c+eX+LgSp7P3h3ms8eCFGSMxfwUVTXSujtNUP7hLh85m8S/eCXOoY0y/983V6kJkLGKuMuKcV9kZIE/f6yHZw6Fkevnpfm9YFqUUDCAuyiIFAplTeTN2biv9T5CVcDusJnuHe0z5WLJiHK0Vh4VC0Xsdnt9f6EpmgqaGKRYJ3GbrXUCoFvpFhEa47N3CF7udL89+9HaHlD5Adn3Uj78wzZffTHCZCqF5zZARRRFPF4PxWKJUqmklRQbnav27A/4tZVPE2mCIX+TdoY/qFVHJDaTdLk7UAWtisdqs+LyOElspOgb7aGm6ABAJdDmZ21xHZQ+REFAqefoPUEXstVCcjmFJ+Q0CJ+KoLEwXjvdyxOofHg+xWOlKj3JEu5ijYxdYtFv47v9br540EPKIfNyv5s/fGWDr3x+kc8e8fNXJ/zkrbtVRDQAiva31oEW42WqhSr+Eb9pJisY7VZwyPyPB3r5nzWVf72a5c//y8t864FBvvHwKBWnlmdXasot0wUAzvpyArlMHofLsQ2cQGNQFgWRroFOPD43F797hde/8wZ9I72MHd+PzVqfXYomf1Sbxb9updXRarcDKzulAm9nonjr77wTTZFdz0dViM0tc/nNa1TLVcaOjjIw1l8vTzeXLDdHU/QoSz5TwF3XR9npnrZYNfBRrZNC9cod/bydPgeCIJDZyuEMOhorbtf9VxBE3CGHlg6cSvGHG3k+cGmD50b9/NLHR1hzW7TjqnqEQytXrjfcrr/7if1evjvg5heupnlgIU9vsoKnVCNtl5izS3zHZeHbD3ZQ7fY2gEgdJBSTxW26Srql1tNIkog36NkROOrvGykkRSEVz9A33NsUkdW3pZMZ2sai275HnwCkUxm8Pk9T+ulWgDWVShGNNn/fj5KLssd7+eHbHlD5CTRRELaR+1pNEAQCAS0cnEwk6Onuapr17WTBUBCARDxJW3t0W8flD/iRZYmtzTj9w731c9E6YK/fg2yRiW/E6ervMLapgki4I8TiTMyYDWqaKjXCnUGWZ1fJxLN4wm5AS4tIFplwT5DVmXWqpRqiVStT1qMqsgzOYx38d1Xlr5wy0YNBVEFtWrOmVqshAotBO3/wwS5Oz+f4o5c3+NB4hv/3viDfGvVoSp5NbdbcKerRlPRiDqvLijviNDpTwdQxC4JIdjPDlsvKv//1u7lnMcXHn7zBQ+eX+OL7DvH63YPGeih25+6VCQZQSecJtzdk2xVV0WTzJdPfgKiIeINeHnzvaSYuTzF7c5715Q0G9w/gD/sJhPxNBEOF2raBw2y7AQ6tKqhMtVKlUqlqeif1h1LTU0qa5LuqaDELoV7RI4gCoqi9lmQJi0XWyp0tMharFYvFsq3KRCsz39lPdzt/VVXJZfPE1xMsL6ywurhGIOzn8COH8PjMkvoNoKLu8Htr1RqFfIFoT2QbP0g3i82CIIraelVN5y1QQxM784TcpDeyRIdDdQHCmuG/Sq2GTRT53VyVT5xbYTlg5w8/NsqlDg2cCqpiEGuN4+vH4NbALe2w8OmTIT5zT8Twz/xGieRshkCPl0AdpJi5KYIgklrJ8q+OdPL39w9q18dI4wik1zN4wx5kq8X43Bc/8Th/eu8Y6wubvCPUKOEWBFFbRbxWIxD219ulEZ3JpnMotRqhSKjpHmq0oUgymcQXMH/nDlV9ersoCqlkipF9I7dsl53sTojce/bjYXtA5afIWlNAHq82K8lksoY6rSgIKNTXfKmXieizVn+9c0glNKACDd0THWAEQ0Him3EtXKsqRuWPLMkEw0ESm0ktuqRqnwMItQWZm1ggk8jiCXi01I8gEIwGsVhkNpfjeMLupvRPtCfM2swG8eUk0YFQU1RFFMHuttM2Gmbl+gaJuTTBQZ8564Eq1k+s/vfr/R5+qdvJR64k+T9f3uKjV9L86YMRrnQ0UizbSbUCiekMtZJCeDigKXu2RFP0fXNbBRxeBxa7hcv72/jn+9p49+sL/MrXLvPoa7N8+pED3ACs9kYlQ2tHKVtlrHYLmWSWnUyPsBhpHFVBVDQwMHp0hPaeNq6+eZ1r565r5ydJ+IJeAiE/bp/bAA6GxoWgKQRXKhUq5SrVcoVKpUqlVKFUKlEpVSiXylQqlToA2R3IfC+mD0AaaLFgtVmxWC3Y7DYsVq1M2WKVka0WLBYLgiho56FqxGVFVSgVyiQ3kyS2kkZFmsUis//oPgbHBmhI6jeDDtVEQDZHU5LxNIqi4A3sHoEUBAGbw0q5WKlPGpq3i4KIv81LaiNDOVcx0j/UK7BOTG/yyaencBcq/IfRIF+KOoiGHUiiaPivwnawor1/a2sijYsipUyF1FwWh9+Or8dt+K85mlIrVcltFYn0BwyOlQ4iiukSlVKVYHugcYx6Gie1mcYX8mrq1yZ+SnIzhYBAKBLcBkQSWxpZPBAyfZ9pH1VVyaSy9PR27xipaE3N5HI57Xr5tvOJvt9IR+v9uRc5eftsD6j8FJskSbjdbjLpWy+Brou+eX1eJEk0yox14COKArquVjgaZuLGZNPgpEdIgpEgE1cnqFarUF87RFFFIm1hBAQS6yk8AY8RhZFlmVBHkM3VOIOqYKR/RFXE7rbji3hIxFJE+sP1z9RD6IAoKPjavBQzZRKLKWxuK66oowFWRG0QkiQJUa2n5Swi/3AsxFP7ffzu65t86stLPLPPw389HWHTY2v6PQCZ5TyFzRKBPi/OoKOpk5cl2ejQ1YpKMVOmfSjS4NPIIs88NMIbd/fzC09d508+8yr3tft4/tggxV3C95Ik4Ql4yCQyt7xeuhqtuSpDEAV8IS/3v+deysUKyc0kqXiaxEaS+amF2y7apqIaGiYWmwWL1YLL58Rv89VBhMXQOTEesgyidp0FURuodBCkKFqES4+0KIpqaLMY0ZiqQqVS1cBQqUK5XKFcLpPL5qiWqwZA2lGTxVT26/a6iXSECEQCdVDmMq7hTlGRVpBitnRc8/2dSnHNZnNYKRe0KJkOsBVVMdJAvqgXQVgms5Ej7A6ACO0bWX79yRscnd7ia6e6+fz93SSqNdQLq2zeTNJ2V1BrxwZVBF1NWaS+VIKwMx9NtwbnBJSKQmIqg8VuIbo/VE/nCk2EXEmUSK5kEASBUHegiUQrCCKp9Yw2QWn31/fXQEm1VCWfLhgLOprJval4CqvNitvrauKnCIJIKp5GlmX8AV9TZESP1GQzWarVKv56NPh2FT+ZtHaveD07E593a6M9+8myPaDyU2hmvozX6yGduvXAB1pHIUkSXq+XZCK5yz4iwUiQyuUK2VQWt9eFIqh1/oNApC3EzctafjoQ9tWjIyp2hx1fyEt8LU7/WA+K2iDhRroirC6sk45n8YRciILaiKr0hUmeTZNZz+Btczc6LQWQZKhViQwGKGXLxGfSWOwydp+VKhpY0Tt1BQ2w6B1+1i3zp49289UjYf7whRW+9NlZ/vZkhM+fCFG2aPvl10tkFgu4oy58PZ5dQYo2s8whIOCNeprKmgGyHgd//9FT/GNfhI8/fYV/+2ff4tl3H+HFx45QtUlNJEQAT8BNfDVRr4xoEAT19A+iaTFBE19FH3wFUcBqtxDtjhDtjhjtVSqWDDVYVdHLeLU0hWyxIFukbZofO+mMmO1WJFpJEoDb61rcataqqipqTa3L6le1iIQk1AmYGiDSozGtg09V2V4GrrZUTxnAxfQ7UvEMdqcdm916C80dAavDSnIj1fgddYANCqogYrPbcAecJNcy9HZ4+LnnxnnPa7OcH4nwz37vPlaCdhRFwa7U6DgQJnZ5nc3xFJF9PkRZRlCVxvpcQgN06z68e3vWSa5ViE9mUKsq0cNBLFYNpEii3FTyjwLp1RzeiBub04YsavomkigjIJBay+ALe7DYrEiiZICOxKYGboJtwSZgI9bBiD/sN87FfI0Tmwn8QX/jPmkh0qZTWjTRH2jWqNkpRSSKIrlMDkEQ8PnqvJuWScCt1j4yX88fle2Rdb832wMqb5Pdbma042d2IOzerjIoFAoxPTNzx98fjoZZWV5pOk8zobajsx1BEFheWmHfgWH0KgZFEIl2tCFJEisLK4SigTogUVBUkbbuKOOXJslnCthdduMz4fYgdoeNpYllDty3rymq4ov6cHmdrE5u4Ao4kK0yVeoDkILGV0GmYyzC0qVVVq9u4W5z4u9xI1llQ1hNrHNX9A5ft+mog9//yADvnErz+y+t8qFrCf7L6Ta+IogUkiUcfjuRkQCyJDVmoaZOXhQEaqUaW3NJXAEnDo+9MbMUhSaC4WXgDx85yK/73fzcl9/gvlfH+eZH7ufq3cNNvAuXTyNxFnIFY7A0p3t0U+uVPK0+JCo7d4TWHUS5wBRlULXUzq3AyDbgcgsS7bbz2m2QaCHVqi37CZIGDGWbvONgBRoAqe3CadntvFpBilbGrZJP53H7ti80qPu/bt6Ah/WFDfKZIk6PHUVt3NN6VCXaFeTIt6/wB09dJ+u18e9//SSXhkLUlFqdh6IJybmDLtr2hVifjBO7sEl42Ic9YGtKZTYa5NbkZkEVKCbKJBey1MoK0dEQTq99R/+VRJHV8S2Uqkq0P9SU8hEFkeRqhkqxQmSsG1mUmravzq9jd9rwBrxNn8ll8+RSOQZG+pv8XxREqpUq8Y04++8abfoMNADLxto6oigQDAebPtv0G01/b21taUDF3wA22/xkDxz8xNveFfwxs1vdlG/lc7q1tbeRy+bIZpp5D+aOy2w9PT3ksnmSieS26IAgiPj8PgJBP4uzS9tmLzablc6eDpZmY6hq8zn1j/QiSxILE0uN2ZcoYrHI9I/1kU3kSG1mmzowiyQzeKwfVYW5CzFDV0XvbPXZoc1upfd4F8FuH7n1Aotn19gcT1DNVrW1aUQRqR4FkUW5+SFZeHlfkI99dJgv9Xr4l0/H+Myrq5wOOGg/FEaWdwcpAgJrE3EEBLoOtBvnLbQ8F/Nlcsk80Z4Il44N8B/+9Ud5/cExfunT3+F3/+NX6FjYMNrJ7tAARSm/+9IHOw6yLa9v96gqVaom8TRdTE1Vm0XYqrXajo9KtbJNiK1SKxuP3bZte79a2fUYu53Xbr/hTh67tZ9uhXwBm2NnUGe+F8NdIURJYmNRW1KidVAdndnkP3/hTf5oeoO/6A/yB5+4j2v72hqplbp/6CDY3+ml53g7slVi7Xqc9WtxSokyAqLhv2YfbvVloSqQjRVZvRhnczKFKIp0HI7giTi3+a+2KrJEfCFNdi1HZCCIO+BqioygwMrkKm6fi0h3uCmFk0vlSW9l6BnpRjYJuomCyPLcCqIo0jPYtS3tsxZbR1FUegd6t6V9dFtZWiUcCeF0OOttbtrPVOKs29rqOsFQCIvlzlRs9+wn0/YiKj+htlvljzlSIwgCbW1tAKyurjI8MlyfoSlNnzXPFrv7ugFYXlrBH/Bv46mIgkjfYB8Xz16iWChis1lRBNVI5fSP9LE4t8T68jqRjnC9U1ZxOBx0DXayNBNj6NAAkkUyoiqdA+0sTS2xcH2RIw8dNAmAVHF5HAwf62f8zWkWrsToO9qDqGcVaoAoA1UsFoiOhPF1eUjG0qRWs+Q2t7C6LbijDiSrhCgLIIEoCQiSSDlbJh8vUUgUqZZq/JnXxpfe2cW/iOX4uyfneHI5z2ce6iXl3A5SRFEkuZihkCzSOdaG3WVrbDeFwQESsYSW5+/SFHIrVoFn33eC8w8c5L1ffp3f+zef59yDh/jOhx+gWq8KKuZLGiehBQwqilrn/tSroEwlrHcaodstSrLTSsK773vnaSCz1dgh3WP6jeaIillrRRR01dQdlgEwtcGd2rZ1gRTVWLnZ7rTvnvapE1wtNgvBdj9bsTi9Y13a8UWR0GaWn/nKGxy7tMALp4f54m/ez9mLC4g31hk62atFRQWDzo4CyBJUa+Dw2Ok70UViKUViMcX6jQSI4PDbsPttOIM2EARqlVp9lfEqSlUlHy+S3yqiqirOgIPoiBtHwIYoNkCELMlNvpteyxGfS+Lv8NIxHNUATD3lIwoim4sJKsUqw8cGNZKvCXgvTa0gW2S6Bzub/F1VVWKzy0Q7ozidzuYIjSgSm1/G4bQTjoaM9jKDnFpVYX11ncPH79rmFztdW1VVWV9bp2+gf/t1uo0v7PR930vkZY/v8qOxPaDyA7QfRy2VaFsUQRDYWNtgeGR41/10rQafz4fH4ya2GOPAXWPA9vRP70APF89eYmVxlf7h3qb0T2dPFza7jcWZJdq6ok3pn6H9AyxMLrE0s8zAWK/BVZEliYGDA1x9/Trri1tEeoKogmKkgLwRLwN39TJzeZ6V8VU692sEPjNYEQRNGEt02bGN2Aj2+8is50nG0iRmM0Zqo9VEUcDht+Hss+MI2LHYLPwp8MRyjv/jmTk+/d8v8PkHe/nmPd0okmQohJazFTZnE3ijHoJd/iaQYiYWqkB8OYk/6qsrdTZATDrg5guffJw3HznK+z/3An/wz/+aF3/mNOdFTTiv1XRwYgYr+vW5E6CwW+rG/P72AbyRGiqXypTyJYqFEoVckVKhRLWiLVqolSlrA6iqqoiSNvBpz1ppstVuxeawYnPacDodWB1Wg4itz5QVU8dv5u/UjPNqvKeXMBupM1V5SwOHGaSABg7h1iXkxrkJAm29UTZjWyTWUrQHnLzrqUs8/MwlZgai/Lv/6/0stmmLS/Yd6mbq3Cxr01t07IsgSzLVWnUbWFEUAUFQCfX68Xd5KKRKZDdzZLcKFOJpEjPs7MOSgL/Tg7fDVV+xuZlU2wqwS+kK6+NbuAJOeg52IYmSIXUvCiJqDdZnNvBHfAQi/qbISLlYYWs5Tu9IN1artcnX4xsJSvkS3Se6tp1jrVpjLbZK/3B/E4CChp2PGe0AACAASURBVH7K6soaiqrQ2d3ZtH1Xfko2Rz6fp6Oj/Y6v+53ut1fx8+Nle0Dlp9R00GS1WgmHQ6ytrd3R5yRJoru3h5mp6cb31HQ1TK1MORKN4HQ6iM3HGNjXX1/BuJ7KkSX6hnqZvjlDpVJDkkSDVOv1e2nrjrA0GaN/tEfrFOsAJ9oVxh/2MX99gUCbF9EiIpv6hnBPiFK+RGxqFavDSqQ/hKjPpBVBq+xRFQRBgVoVi8VKsMuKv8NDtajpf9QqNWpVTZpfqSpYnDIOv72JI6J37hM9Pv74t47y8JUNPv7cLO+9sMpfv3uE86NRamWF5WtrSFaJngMdWCRLE0jRZ6WCKJJcSVIt1Wjrb+ha6B2tPngsDnXwl//ylzny3Rs8/oWXOaQofLZcRTnaAJY6J0U3HazAnanHtvJJdkt/KIpCtVojk0iTTeXIJnNkkllymbxROaQPlqIoaiRcUVv1WgclgiBQrVQp6dL+NaVe8dPMIxEFAbvLjsvnxO1z4/a58AW9WO1WmsTZ9HYTRQOMNKvtNgaS22nF3KpdCrkCgLGy9+0sEPVjd9gYe+4Kv3Nlnqos8Te/9S4uH+pGQUVQaogK+KM+Ir1hNhe2cHjs+Ds8yJLGoWr1XVFV6oBFxB2UcAed1JQalXyVXCIPgoAkiwiS9izKIrJNMrRoWsGJ3s66v1XyVWJX1rC5bPQf7UGWGiBFErX00vy1RZSaSv/BnnqaSDael2ZXEATo3dfdFE2RJInV+TWsVitdfZ1N4EYQRDZWN6lUavT0d2NWozVK/QWR1dgqkijR2dlp8hEzYBGa7oH1tXUA2trqUgotxNwfNyLtnn3vtgdU3kbbjVB7K6Lt90Ko7ejoYHJqShNcM47RrKdiFnfr7evhxrUbrMRW6Ojq2Jb+kUSJvqE+Jq5PaouPWWW01Xk10DG4b4DJ61PMTcwxcnCoOaoyNshrS2dYmFiib3+jAkhGZuzEKG88e46Js9OM3bsP6gAHSXPTzn0dlPJl1qY3UWsqkYEQsiijCErTDBVJNkCMIgiITgkrtjuKOggtHeNLx7t442AbH35lgf/7C1e52OXj33b7qLlsDBzrwWqz7gpSqqUqy+OrODwOAlH/to5Wv9aiKIIgcumBQ4yf3M/If/s6f/zEGywsbvDsrz5GoruhuqmYogb6IGsemHcjuN4qalIulUltpYmvxUlspAwdF1VVsdhknF4n7X0RrA4tImKxW7A5Na2TnY62UzsLgkitWqNUKFMqlCgVylQKZQrZIplkls3YliEUZ7VZjNm8P+rH5XYa3ysIYkNjxBRR2g24NLX1bdpJX+fKYtvOd9AGtHppvFbcQ9fCGp987Sbdqwm+/tBBzv7cPVRkUSPKKgqyiFGB1rO/k1KuTOz6CrlUnvbhiAYuRA0cmqMrkiQagEVRVWRJRPZYsLsbAMrsB63t3DhfTIBYpJgqsXR1FVESGTjWjc1mQxQFw2clSWZjfpPEcorufZ14/J6m9E0pX2Z5dpX2njZcbrcGcuocmVKhzMrCGr1DPZqIX0vaZ2F6AYvVQntXh6lNRRO4EFiYXaCts02r4hIbMv066Gm15ZjGh4lEI9u2Na75j08k5MfpXH7SbA+o/ATYbkCkladiAAqhmacyMDjA5ctXWFtZ04CHsnNVhiY/ojA4PIjVamX8+gSd3Z3GdnP658ChMW5cucnUzWkOHB0zxN9EUSQcCdHZ28nklUn6hnuR63wUUVCJdkTp7Otg9vo80e4oDqPzreL2Ohk7Ocq1168zfm6a/SeH0UXpdLAycKQPSZZYn9sks5mlYzSKw2ffcYaq/X6lAVqU7bMnvf2ayH0tJOKKw87nHt7HFwIufvu7c3z5tTmeONnLN+xWCnWQonf2euer1hSmz81RqyqMndLy/OaOW4+mtF6DqsPG3xwZ5KXDg/zezUV++5//T849fpJXPvwQ5fqA3TpI7TTo7gRM9PdVVSWdyLAR2yS+niCTyKDUtVi8QQ89o514/G6cXgdWu9WIoOht1Vwps3tV0E5mc1qwORtAQG/rWrVGPlMkl8yRSWRJbqRYW9xAX2MmEPETbA8Sbg8iyVITN0fHp+ZhoPVM9JTZTqaft8VqQVXVbStct95/7mSOR7/4Msdevc650/v5N+84wGyuyP50AW/IDYhGxY4OVmRZZvhEP7HJVdbnNsknCnQf6MDhs6EIynbfFcQm34Vm/xXU7f5jbk+zyrJSUVib3SK1ksbmtDFwtAe7y95UzSZJMsmVJLGbq4Q6gvSOdhnvy6KEKEpMXZpEEARGDg81pXwEUWDq6gyoMHpo2PBxHZgX80UWZ5fYf2jUWJqjNZqyvrpOMpnk6N1Hbpn20X+jKIjMzszR3dNtrLJ8q8/8MGwvHfSjM+lP/uRPbrX9lhv3bLu9VZXOXdU+t73f+Nt8jNZXqulZ38/tcfPGmTdxuhz09vVCna9h2tPE4VARJYl0Ks3E+ASHjhxElmXTwA+qqoXH11fXWZhdZOzQfi1UT2MQ8wW8jF+bRFUU2rqiGm9BEFBVCIR9LEwvsbVWl9sXBO08VBW314nFbiE2tUKpUCbcETQ3LqIo4It6sLtspDaybM5vUcqXcfmcdYXMuuhY/Z82szM9i6LxEPRVYkVRy5vXX0tGKaaAJEoUUiWWLq+wVqhw4d4Blo718p6zC/zMCxOUHDYWu4NG3l0QtVVwZy8tkk3kGD05jD/s3RGkmP/W2lY797kbi8idITZ+/kEWR3s48ew5Tn/1FVLAxlCnBoRu909V6j7RWMsmuZliYTLG+PkJ5m8ukNhMYXNYiXSH6R3tYvjwAG29EXxhLzaXFUESjZJlTbitZqy6rFfkmFdiVlX1tg+lfl6NVY9Vo3TcZrfi8jsJdwbpGGon3BXE6Xag1BQSa0nWFtdZmoqRTeWoKQp2p5a2a4oQCZpHC8Y9odZ9c/d/utWqNZamY4Q6Qri8jaoT7T5SEStV7n/yLL/4X7+GIop8/vc/wJmHD+PoCbO1kmB9YZNghx+LVUZTawPBdF0FQcAbduMKOEmupdhajKOq4PI70ZWCRVHc0XeBbX6r+bPU4tOaz0qihKAKJGNpYtfXKGXKRHqD9N3Vjd1l07YL9QoiSSIfzzNzcQFfyMvoPcNYLNZ6lZGmr7Qys87y7Cr7j+4j3B7Woj714+TTea6+eYOhsQF6B3vrpNx6OkmSGL88ztZ6gvsfvh+H3YZY366fqyAIXHzzMpl0lnc9+k4NzBgEXqGemmpwuwRBIJVK89orr3HsxDG6u7tNS1uYlJfrf5tTrtp7zVEnvW11u1N+yk5ChLeyt7r//4b2/+y2YQ+o/ICt0bHdmf0wgYp+LrIsszC/wPr6BkePHTGAinbj1GW+dD6iqqACToeDK5eu4vF4iLQ1QqvaoKABC7vDzs1r47h9boLhoIZg6t9ls1vJZXLMTs7RM9SLzWY1OnxJlnG6HczenEdRFELtAa0MU9B+m9vvBlSWp1dRair+iLfekTc6IIfXQaQ3BIJAfDnJ1lISVVFx+pxIkmR0VnrHb54BNnFF9Bml2CAT6nLn2c08a5ObbM4lsFgkBo71EuoKkoh4eOneQQp2C7/w7Wvce3GRtTYf8bAXURBYnlhjK5Zk4FAfbT3hXSMp5k5Vn2HWagqz1+eJdIUJRPykon4uPXKCktPG/X/3DFeeOcvkYCeBaEOCvPnaqIYvKKpCNp1jfnyBG+cmWJhYJJ1I4/a76d7Xxb7jQ3QOtuMNebA7baio1FStIkyLljQDE0WtGVLzqmretwFi7uShKJqPNSI0quEb+nlDfc2cgJtwV5jOoXZ8YU1QL76aYG1hncXJGOlkFlESsTmtdSDcEEnTgUgraNnNBGB+fIFAxI/XpEyrKgr7zk3wsf/0ZXqmYjzxq4/w7V95F5n6PqIkEmgLsL6wQXwlSbg7iCRp6QwdrDSut4jdYSPYFaBSqrC1ECe5kkapqdidNm2pgNv4bsNfGsCkdXs+UWDpygrp9RyeoJuBo72EuwNYLLIBMCRR0tYsypSYPDuL0+3kwH37sFltBkiRJZlCpsSNN8cJd4QZPboPiywbKR9BFLj6xg0qpQqnHjqpEWz17xZElJrKmRffpLuvm30HRozjSmK97FqUqFSqvPzcKwyPDjOyb9gAXDoQM98n+uPm9ZvMzc7z8KMP43Q6mwBJK1Axv97p+Vavd/r7du/v6l97QOV2titQ2Uv9vM12Kz6K2czh51vxVHZL/wwND/Hcd54nlUrh8/l2TP/o3yOi0NbRRjgS5sbVGxw8fGBHUm1nTyfBcJAbl28ytG+wzlFRtWyNIHLXiUPMzyxy88JNTjx4HJ08Kwoqnb0d9O/rZW58gXB7CH/Ui6Jq4l4AA2P9VMo1lqZiyFaZruG6VLdaDxcrCqJFpHu0k0hPiKXxZTbm4mwtJHCFnHhCbrwRN5JFKweF5t8r1VVT9XbUZ1TlQoXkcprEcopquYbNYaVzpI1QTxCLtVGtoMoiLz0wyvkTQ3zw6av80V88x6XDvfz1qWHWFuN0DETpGIjuGknRj9nQjdF+l5520FVpRUFEleDCY3dz/vAQL3/9VZ7+d5/lwN37ee+vPEog2li8Tf+NlXKV9cV1ludWScXTCAIEowH69ncTaPfXUxxKXdpe1xhRG5EJpaE5oqqNUvaGBL32XKvVqFW1tYJqVYVapUa1WgNFRZQlRFlEkkUsVtkg2+om1qt3msqRxTonCVCNa9ZoP0/IjTfsZeBQH+l4hq3lBFsrcTZim1htVtp7o7T3teH1u9FvD23dqVtXR+kzaKlODC4Xy8b9E1lc59G/fZqe8SVe+8ApXnv/KUo2C6iKBiLqqUmny86BU6NcefU6E2/OMHbvSJ0TI7YIt2nVbFarhaEj/YQ6AqzNb7I5F2djdgtP2EWwO4A74EAQhR19V1Aa/BPjWxWVfLJAdjNHZiNHpVjF5rQyeKwTX9RjAAdzelIUBMr5MlPn5rDarBy8bxSbzd4EUgRV5OabE1htVg6dPIBFNqc4BZLrKTaWNzl04gB2h70p5SNLMlPjU1QqVcYO78dMotWvB8Ds5CzVapUDB8ca/tE0oRCa7iM97RMKhQgGmwF7U9rox4gT8uN0Lj+JtgdUfkztTgHMnaykDDA8Mszzz73A9OQ0x+8+ftv9BUHg4F0HePG5l1hbXSfa1qhaUUUFFG02dNfRQ7z47EvEFmJ09nZqJEC0DsXtdjF6aB/XL16nd6iHcEeoDka0Yxw8Psbm2hZX37jOPY/cjdUhU61hgJV9h4eolCos3FiilCvRe6Abqb5NETTSIoDosjN0bIC2vgibsTjJ9RSZ9VWWbwo4vDYcHjsWuwVREhAtWqmsJItUyzXKhTKlfIVyoUw5r70WRRFPxE2oy6+Bnfqyxea8v97ZlzwWvvzhU3z39H4+8PlX+bO/fI5/PNTDxUePUNVnujuke/TvM4MUQRDJpjRJcKvdui3kLLQFeOiffIjR957iib99iv/0x/+NBz5wHw/9zAPY7FbK5TJzNxdYmFhCURRcHidDh/qJ9kSQbVq7qaq22jGwK0BppFIaSrXVcoVcOk8+XSCbypFPF8hnisZ6Pq3W+p6+kJ/DY8fpdeD0u3B6Nal6faYpqqIBXBR9QFNrWqm6qg9cSh20ePCFvfQf6iG1nmZ9aZOl6WUWJ2MEIn5GDg/iCewOWJrPVQerAlablWwqhz1b4MEvvsDxZ85y49QYf/Eff4dUxKdNBrS965U6ogFWfCEvI8eGGT87wcSb0wwe6cfqsCCqguGvukqyUr9v/VEf/qiPQr7IxsIWW7E4CxeXQBRweO1Y7RasTitWh4zFbtFUeKs1lKpWSVWrKhQzJbKJHLWKgiiJuIMuOke8BDsDTZo+ZoAiCiKJ1RTz15aQBJGD9+3H7rCbOCkioiAxeXGKfLbA8Xcc1YCIoFcHSag1lWvnbuB0OxkaGzJptWg+rtYUxq9NEW2P0NYebeKmmEm049cnCIVDRNoid0SiLRaKLC4uceLEMeM3tfpaq7WmfZq23UavZc/efhNuk6b43pZF/d/c3qqWym6A5JZy5k0kxu0kx6bn+mDyt3/zWUqlIh//5MeNNI15sNLJkfpgVSyW+PRffpr2znbe88F3a0TDmqYEWqsrh1arFb70uS+jKDU++JEPgKDW+Qs1qrUqlUqZb3/1GQr5Ag9/8J3YHFaqtYbqaSqe4pVnvovFKnPy4RPIVpFqTUsjVGtVqtUq09dmWRhfxOKwMHx0EE/QZZxjVamhGlGBeiqiViOXzpNaT5PazFDKlYxIxY46FLKEzWnF5rRid9sIdQWMVY7Nwm1GZ2fq7EVBJJfMM3dtiXwqz7srNX7/4hy2So0nfuE0F0/tg3qO/XYgpZArcuHFy0iyyMlHjm8jCTb7gsr4+Um+9dmnKZfKnHrsBJIsUSqWae+N0jXUgcvnQhCEZvBhiqDoPmO+5uboSblQYms1QWIlRXorY/iTJEs4vXbsHhsWmwVBFgzwJ8kSCKoWYdEH1IpWmlzKlSmkixTzJWNdIZvTSqDdT6Ddh8vvQhK3g8HG381Ceq0AsFKqsBHbYnEiRrVco6O/naGDffVy5+3luzvZ7JVpDn3zdT4xsUimLcgzv/FuFvb3GG3XfJ81gJy5HVfn1pi+Og+qSvdoJ219kfp90WjbVp8FLVJVrVVJrWfIJLIUMyWK+SKV+uKHu6WJLXYLnqALb0SLOMkWuek3tgKUWkVh4XqM+EoSj9/F6N0juDzOOmdFqvO0ZGavzrE4tczQgUFG7hoyqnx0P75y5jor8yvc9/ApOns6DZCjR1NuXLrJ1fPXefT9D9PTq/FINFVdwVDZjc0v8/QTz/DOR9/JwUMHWjhiDVKuJMrG9btw9gIvvfAyv/Ybv0pHR4ep1LmR+tH3/WHxU94qkXYvonJHtmtubA+o/JDsrYCV7wWomI9hjqjsBFb0/a5cvsI3v/EtPvJLH6Gvv9fUWe4MVBRV5fVXX+fMd9/go7/yEQIhv7G9plS1FXGVKovzizz59ac4evcRDh4/oHW4Sq2+j0IinuCprz6D1+/hgXffj0rjO6q1GltrW3z3uTM43A7ufucxRFloAiuqqrC1kWD83ATZdJ72gTb6xroQRKEuqa5u6/z1dtFn/NVqQ0dFT1XIFg2gSBap0bnt0FE1BsvGPqKgldvGJtdYn9vAarcycFcfwXY/VgUefP4qj37zTdY7g3zjYw+xPNTZRJxtBSn5bIFLr1ylVq1x/B2H8QZuvxqsoipsrcV5+nPPcfP8JN6gh/f+2qOMHhtuHhRNPtB0vXeIoJRLZbaW42wtJwxwYnPZ8Ee8OHx2nF47kk2iSeekCUDv3mXo5cG1ak0bhDMl0ptZsvE8qqpxNILtAYJdAZxeRxMYBJq0N1pTavr1EQURpaqwMB4jNrOCJEkMHuija6jDiMaZBw3z9e6/MsMjn3kK21aaT431MvtzD9A10tP0G833dSuwM4PBfK7A1KVZ4qtx3H4XA3f14fQ5jM+Y02hN96oJtBjv1RStrDtf0jRrLA1QKMriNvBlbi9zu4iCSHI9zdyVRZSqQvdoFz3DncgWi7GPDiCWJpeZuTZH73APY8dHDV6KTpBdml7myhvXOHB0PwePNQCGvqxFMVvg2195lp7+Lh567B0m+X/JACwg8K2vPEEhV+Bjv/FL2Ky2Jv6NnoJqWu5Dhb/51GfweNz88q/+cotfiE0gZcc22QMqP862K1DZI9P+kOyHQagV6tUxrcfQK270T5k/aybVBoNBLl28TDabYf+B/aCayYXNpFr9ZSAU5Oqlq+TzeYZGBo0ZunZcLTDj9XlJJBJM3Jikf7gfm91W/24RULHZrLi9biauTVKpVOjo6ahHdLTj2512PAE3cxPzbC5vEe2KYLHKBsFWEATsDhvtfe0otRrLM6tsLSew2q043M15cWOFV4RGVYEoIMsystWifcblwOGyY3fYkGW5mYwoNaooZElqmuHpzwgCqdU0U+fnSG9maB9oY/TkMF6/JuQlyBaWRro4++BB2pfjfPDvXyC0kSI21EXVaa93xtr5CoJAMVfk4stXUGoKJx46ijfQIHLuZoVCkfHzk0xdmSEQDXD/+09RLpZ49h9eIL6WpGOwHavd0gRIagaIU7cB0lKpzOJEjMnzM8RXEqiCSrg7QPf+TtqHIrhCTqxOGVFuRGhqSn3QrYPB2m0ItYqiaO4pgGyTcfgc+Nu9hHsD2JxWKqUq8ZUkG/ObZBNZbA4rst1i+LJg+k8n36raktAIJucVJZFge4BIV5B8tkhsZoW1pU2cbjtOtxPV5PcqKsLVWX7200/yji+/xLUHD/OVP/wwZ21W5idjWKwyvpAXvXJIJ2fq36FX9ejH1raDbJGJdodxep1sxuKszq1Rq9Rw+1zIFrk+UApGqkMAY6A1nusgTJI0VV+nx4ndacNmt2G1Wg3fleqCbI2qtUb1mr4uUDFXZvHGMrGJFRxuBwfv209bd8SIgkiSVoIsCSLzNxaZv7FIZ18HB0+ObQMp6XiG869cor0ryrH7jhqCcPp2SRA58/JZivki73rPu7DbbI17TFfAFSVWY6tcOneJe++/l47OjiZisH5vtD5mZ2a5fPEyD73rISKRSBPn5U6rfRp96XYAsUekfVttr+rnR21vBajoneCdvX9n1T/mkkx9X0mSKBZLXL50hQOHxnA4HLctVZYtFkrFEtevXmdk37AGQozj6xVAEG2PcPPaOInNOIP7Bre1hT/gpVQuM3V9Go/Pra26Wq8eEgQBl8eFN+hhYWqJ5bkVQm0hbA4LAqKxjyiKBNsC+MM+EmtJVufX2VzaAlXA7XMjy/I2EKCDltZqCaPqQd9H1MLV5uqJps5VFKmVa6zNbTJ7aYGNpS3sThtjJ/fRMdCmiVzp1Qz6zN5pZ/zYMOPHhjly5iaPfvFlEARWBjtA1mb3hWyRCy9dBlXl+ENH8fjd9esnmjreZh/YXN7i4itXyCSz9O7r5uCpMYJtfvYfH2Hk6BBXvnud57/0MqDS3h/VRMVMURStikdL3ZXKZZYmlpk+P0dqM42/zUvf4W46hqO4gy5Eq1gHMzWtKqhOwNXKiutVQfXv0rbrFUI7P/RyZx0waQM9ODx10NKjlfcm1zKszW+QS+awOk2ApQ5MdMBi7v6FFqRttVuJ9oTxBDwk1pPEppaplCv4w34EQSPNfudLL/Hbn/oWFYvME//qN7hx/yEUm4Vod5h8psDC5BKyLOEL+ZoGTITm6hEdaBhgqe4HLo+T9r42KuUqK3PrrM6uUcyWsNo08TwzyG6UHO/ss7pP3spnZZN4myAIZLZyLFyPsXgjRrlQoWekm/13D+NwOpD0KEgdaKDCxPlplmdW6Rrs5K57DmwDKdVSlTdeOI/VauH0o/dht9uNCYIRjZmNcfPKBMfuOUpPX7dR3SOagIgkSrzy/Csoisojjz9s3LtNJdc7kGhf+M6LKDWFx9/9eHN1kAmsNNKrO1f5mKMpzdU+Ownoff9AZS+acse2B1R+1Paj0FMxl0KrpvfMURXzTFBVVYKBAGfPnkMQRPoH+m9Zqqy/DEVCXLpwmWKhyODwwLaoCghYLDJWq5XrV27g9rgJhAPoZyLWj93WEWVtZZ2Z8Vk6ezuxOWzbwEq0K8Ly/ApLUzE8AQ8er0s7rzoAAa3ConOwA0/ATSFXZG1+g9W5NSqlGrJFm32KLZ2jsEMn3whXS00zUvM2paqQ2coSm1hl7soima0MvpBWeTJ01wBOj9OYxeodZqM8WvuOXMDD5XccJtEe5P6vf5eTz10gFfQwLghcP3MTgOMPHdXAm2lWaL7OevRg8vI04xencLgdHH3wLqLdkXpHqHEgPH43hx88SDDq59VvnOHcc5fwBD0E2nyGZolGqFWITa0weW6G1EYab8RN/9Fewj0BJKtolCPrAEVR9ChMzQAmBiipA5fG9++soSLUIyG6z5qBiwFaRAGn30moJ4BskUiuplif36KQLuD0O5EtkuGXdwJWBEHA4bbT0d+OUlOITS2zubzF8swK/+vPv0xqM0XlE+8l/lvvo+DRtVO06x/pCpPL5FmcjKHUVFxeV+P4LREW/b2dAIski4TaA7T1REEQ2FyOsza/QWI1BSpYrFZkq2wMzmZ+xvfis5VSleRKktlLi6zNrYMi0Lu/m/13jxLqCNa5JloURZYsSKJIpVzj2us32FpNsO/wMPuPjmCRrcZ+kighIHLh1UtkUzlOP3ov/oC2DpBsAinVcpWXn30Vf8DPfQ+dQqpXCZnLkQVBZHV5jQtvXuCe+07S2dVpABEdnJkfkqS1eXwrzksvvMQ9p07S19d3S+0U/dmconmrZck/qLTPXjTljm1XoLLHUfkh2g+DpwLfP6n261/9OtPT0/z2P/1t7Hb7HXFVXn7hFc6fPc/PfvhDtHe1G2RaM7FWUWp88yvfYmNtg8c/9BiBcIBaTeOQ6HyVTCbD0197FlVVeeDx+3B5XfVZvkbSrdZq5HN5zrzwJqmtNP37exk62F+XGleN/bTfop1bOpFmaSrGemyLaqWqVT74XXiCbrxBN06fE1FudGS7SekrNYVirkQ2mSObyJFJ5ChkCwgIyFaZtr4o7X1RnPUBrYmzIrbmwJs5KKANWmo6z12ff453v3yZG0EPf3XvQfwfuh+313VL/wDIZXK89uQZOvvbGTk2jN7/tZI79chJqVji9W+f48yT5+gcbOOhj54m1BmgUq0xVU/x+KIeOkbasHvsTRyfhh+YfMLEdVFVbQ2fUrFMpVShWq5RLdWolquoNQXJKiFbJeNZtslN0vTbw/JC02Clt5uqKGwtJNmYjyOJIsN3D+AOuDXSpyDekrfSKqonCiLXztzgqb9/jlK+xKMffSenHr9b43rskB7Q75kbZ8dZmV9FEASiXRF693XjC/ma78MWDov5mujb9fcqZY30G6gx8wAAIABJREFUuzyzQrq+XIFskfEEXbh9mt86vXfos4pCIVMkm8iRjmfJJrKU6+Rbd8BN52A7ke6wlsZs8VOd+JrcSHHjzXGqlRqH7jlA90AnuhicUF8aQlBFLp+5yvL8CkfvPczI2HDTd8iSjKqovPzMq2yubfG+n3sP4UjIADDm9YRUReVrX/w65VKFX/6Nj2GzaZVfsigbAG2naMozTz3Lzes3+d1/+js4Xc4dSbS346Zo7+2W9tnjp7zNtkemfTvsR1H9Yz7OnZJqV1dX+fRf/Q0PvuMBTp0+1ULo26UCqFTic5/5PAjw4V/+eU2ttoVYq6gKmWyGr3/xG6iKwnt//j3YHLZtYCW+Fef5J1+kWqlw78OnCEYDTWBFUVTKlRLXzt9gbnwet8/NvqPDBKN+qnVQZD5HHbCUS2Xi6wnSW2mSmykyqRyqokWMRFFEsojIFhmLVUa2yJoGSLlKtVylWqlSq9aMgUG2yhrQCXi155AHuT6zM1edQDM40Z6FJnACkEvnWJpaZmV+DVVR2edy8MmrMxy9MMmlR+/mlY8+TGEHsGK+9stzK1x74wb3Pn4Sp9fRNCiaQYruEzr4TG2leOGLrzJxbpoD940S6PBTyhfp3t9JtD+kXZt6NdetAIqqqpQLFTJbWdIbWfLJgrFGlMGXErW0iFJr4VcBNpcVV9CBO+zE6dN0QlqrqloBi76OUjlfYeb8IkqlxtCxfnxRH6I+uN0BWMkmczz3hZe5duYmfaM97L97hNPvObVtYGse0Bqv89k8SzPLxGaWqZar+MI+eoa7iHSFNQB6h6DFXCWk+UWe1GaKZDxNJq4t/mi0WZ3rIls1nxVlCaVW00BhRfNZpdo4rtVhxRfy4g168Ie9OL1Oo7S+VbNHEEQq5SrzNxaIzazi9ro4cvoQvoDXtF6V1r7Vao2Lr1xiY3WLg8fGOHB0bBtIEQWBC2cuMXl9mgfedZrh0aFtIEUHKhfPXuTcmfO854PvYXhkqCm91QpU9NRWOp3m05/6DEeOHOaxxx/dpsfygybRtl7/O3l/N9sDKndse0Dl7bAfNVDR9r2zqMoXv/AllpeX+e3f/SRWq/WOoirzs/N89R+/xpHjh7nvwXu1WbWiUK1LqesRj/X1Db715SfwB3089oFHjZJlM1hJp9K88NRLZNIZTj5wgs7+TmOwNAOf2HyMq+duUMgWCHeEGL5rAJfPaWw3n6v+u/UBoVatkYqnySazlItlqpUq5VJF6+TLWuRFtspIFhmrzYLFKmO1W/EG3dhddlpDx7cCJk3v1/dTaiobsU1W59eIrycQRZHO/g569/UYEZSum/M88jdP4l+L89pHH+b8YydRdKGZlut//exN1pfWeeCD92npN2W75omZPNvMS6kye22R7/zdSxQyRQ6/a4wT7zsCJs6IGaSYI1eVYoV4LEV6I0sxW0RVVSx2WSPYuixIVgnJImir+Mp12f2aQrVco1ZWqJVr1Eo18oki+WQRVE1czR1y4m1z4Q65jFSZOfzfClhq5SpzF2OUsmX6D/cQ7g7dEqxIkkytXOWNpy7w+hNv0jXUyeO/+jD5VJ7Y9Arv+Jn7sbSU8rZeW7OJorYq9PLcKvPji+SzeewuO539HXT0tWF32bfdn3cSaTG/XylXSG1lyGfylEtlA0hX6mBaqvusAbitMnaXHW9QUxfeCUS3AmhFUVmaiLEwuYSqqPQMd7P/yEi9+qcZWFSKVd548SzZZJbjp48xsK+/ifCqg5SZiTnOvnqeg0cOcPK+EzuWIguCSCqR4qtf+DpDw4M89t5Hm451q2jKC8+9xOULl/jk73wCn8+3F0356bQ9oPJ22A8KqOy07XbpH/M+O0VVFhcW+bvP/j0PP/oujt99/I6iKoqq8p2nvsO1q9f5uY/+LNH2SFMKSK2nblRVYXpymu98+3mGR4e496FTKAbJsgFW8oUCLz/zChurGxy6+yBDY4PGfvrxq7Ua1UqFmfE5Jq9NUymX6ehrZ+jgADantQmwmH/jbgNCa9vdynbrvJrJeM0DA6pAYj3B6sI6G8ub1Ko1HC4HXQOddA91YnfY2GaKwqEXLvLg554hZ7PwuYePU/2Fd9Y3Nc7/tW+fweGyc/j+g/VtCq3RlJ1AiqIq5FI5rp0Zp1qqIohw6fnr2JxW7vmZY3SOthntbb6e5WKFjbkt4kspVFXB7rXhDNpxBh1YnZZtbb7tZ6nbBdZqVYVSqkxuq0AhUaRWVXH4bEQHg7gCztuCFbWmsHB5hWw8R/doJ+1DUSz6QGgCK6IgMXl+hhe/+BqCKPDoLz3E/rtHEEWJ+EqCa6/f4Pg7j+IP+4xj7BRNMa+43HzJFDZXtliYXCK+ngBVE3xr722jrTtqCOzBDvehst0Xzfft9+urOwFoUdTUrFfn1pi9sUClWKG9N8q+wyO4ve5GG4uNFEw2leONF85Sq1Q59dA9dPS07whSttbjPP/Ei3T0dPDIe96FJMsGSNEBiyBopcXf+MdvkM8W+MVf+0Vcrob0vV7WvBNIKeSLfOp//BX7x/bxvve/by+a8tNre+XJb4eZya53vP/3Saq901Jlr9fL4sIi01MzHDtxFFGS6rTWxt56dYNxHKCru4ub12+yMLfA/oOjBtGt9bQCwQAqKtcuX8dqtRLtiBoic3rZsizL9A70kE5lmLo+RbVSIdrZphHvTCRbUZQIRoP0DHWiqirLMyssTi2RzxSwWGQcLm31ZK2cWSPdNi16hmAQa/WKg1ZJ8Z0ekmh+3aiukCRzKaiEqkJqI83iZIyb5ydYnlmlVCjR3tPG2PFRRo+OEGoLYLVatxEFhXpnvjHYyZXHTpK5Noft2bP85+kY3UOduL0uVBVKpRJTV2bo6GsjGAkY1Vn61TX+b6niqik10ltprr8+gSAI7LtnkO6xDkZPD1NIF3n9K+fZmN8i2O1DtmuLT1YqFTZmt1i6ukIuWcDb5qLzYAR/lweb11YvUdargGpaWXL9n14JZF53SDUBSUEE2SHhDjvxdrqRbRK5zQKJpTT5dBGLU+O0GP6umkiQgCCK+Ns9VApV1uc3Uao1vGFPg8gqimwsbvGtv3yWSy9d5eTjx/jQP3kPbT0N1VOL1cLSZAynx4k/3FLNw3aQshPBUxRF3F63BkAHNWJ4JplleXaFhakl0vE0KCo2hw2LpbEcggGkRBF9EUJRbF3TpyUVcpuHztfZzU/L+TKxmVUmzk+xtrCOL+Dl6P13MTg2iN1u1+4Nqfm+SG4kOfP8WURB5MHHTtNWvy/1SJV+PxVyRZ7/9ku43C4ee98jWGxW494xgGP9/K5cuMLU+DQPP/Yu2jvbW1I+O9wX9cebZ94ktrjE+z/4AWNdn9ZKH/35VtGU75dEu9O+t7M9Iu1bsr2qn7fLflDVP60gprVs9U5KlfVnXQPC5XJx4cJFHA4HHZ0d23RVdipXFiUJf9DPpfOXKRYK9A30tdyMdaEMoKOznfhWguuXb2Cz2Yi2bwcroijSO9BNqVxh6vo0W2tbhKIhTVrdVO0j1EPI0Y5IPU1UYz22SWxmhZW5VUqFMja7FbvDplXdGKClMTC0VlDoIKap0693wq0VFea/VQUyiRzrixvM31xk4uIUK3OrFLJ5wu1Bhu8a5NDJA3T0tOF0OYzO+ladsSAIKFYL8QcPM/vAYSYuT/ONzzxJMV+ke7ibfCrPyvwqAwf6cbjstwUqRtqmUuHqKzcQLRL7Tw1hd9uoqQqiKNCxL0rf0S6WJ9c4943LlIsVbF4bC5dipDeyOEN2Og5E8La7QBLQK4H0lZINgGJE1PSzoGnBQtBX1tarf+qRAkHA7rHhaXciWSSy63mSsQyo4PDb9BKe7WBFEAm0e6lVFdbnt7A5bTi9DvKZAq/84xme/1+v0jXSwc/+3vsYOtyPaALToqjxlNYXNwCIdkeaAcgOIKVxz+08oFqsFgKRAL3DPbT3RJFlmeRGipX5NRYmllhfWqeQLWgpM4sFi9XaiBi1gJemEuWWCp/dfHUnP61VFFbn15m6PMvU5RlSWyl8AS8HTowxemQEt9u9DaCI9RLl6WszXHnjOk6Xk4fe+yD+oB9dHbZBipXIZXI8/+SLqAq8+wOP4qpHZnRRNzNwWl9d48XvvMLA0ACnTt+zAw9p52hKLpfnqSeeYmBwgBMnju+qm/JWSpK/V+2UvWjKD932qn7eLnur6R/40XNVFhcW+M1P/CYen+eOU0CvvvQaZ984ywMPnebQ0UM78lW02XmZ555+gbnpOe46dogjJw83pYHM6rPTE7NcOHORcrnM/rv2MXxoGFEUdiTtAlSrFVaX1liajbEe26CmKFgsMoGoH2/Agy/oxR1wYbFamhRTb5Via25flWqlSiFXJJvMkY6nScczZNNZ485w+1yE2oLGQ7ZYmr7jrXRurSH/8UtTfO2vv0kuk+eB95+mXCpx4p3HCER824jEjdRbtSntM3djgcWJZQ4+MIrdbd2W3tHbNDa+wtmvXaGQKdK+L8LYI0M4A7Z62+/sB7qPNJ33bfzdLImvPTeIx4IisDWTIrOeJ9jtpW0kbMzGW7kTGhgVmH5jgXKxgiAIXHz6KoF2P+/46H10DbYb6YnWCiBJlHnj6XN4g14O3rO/KfVjBio7cxzu7Hqqqko2lWVteYP/n733eo4ku9I8fy5CawWtVQJIrXVprVhsks1qNnu6Z8bmaW3/h1nbl7V9mLe1fVgb0eyhaLJJVrEES4sUlVoDSAAJrbUGQrvvg4d7eAggRVWxqjg4ZlWIcL9+/fp1T79ffOc75yxML7A4t0w6pZVxsDtseINePAE33qAXl8eJxWbJWdge9BkF7d/y+ooWqba8sMLq4iprK+ugas9nRW055bXluNxOw72jX4v5uhdmFrhzuZO1lXVqGqrZf3wfdrstB0zoAtrFuUW++PAckijy9EtPES4JF4AUHaisr63x1u/exmq18aM3fojT6SyaJj8fpAC8/eY7DA0O8U//4R8JhcM549buzcNpU+DRMtHeb1/R9ttA5WFtU/ppuyjhN2y6b/ibMEEoXg226DiE3KrK+rief/45/uv/91/56MOP+OGPf6i9ZJTcF6UoiGglkUEBRBROnD7OwsIC589cwB/wU1Vbpb3IkEkpKcRM4UKLxcozLzzFuS/Oc+dGB9FojKOnD2s1XdIpFLTFRFEVmnY0UlZZxvWLN7h7q4exoQn2H99LsCSImBmPJGIsmqIgUlVXRWVtBbFYjNnJOabHZ1maW2JmfM4Yv8Nl1yh4m4w1k53WYpVBF6QqmvhTURRSyRSxjRjR9RixjRipZDYSyGK14A14KKmM4A/58Id82By2ghfYltSxKKBukWYetLkXBJHWfS00/Zf/nS8/uMT7v/4Ei1UmVBYiENld/DgzUFUUYtE4kwPTBMv9OD12UplyA/o5dECpqgreMje1+ytYnFhhpm+Otbk12p9vIlDjM+mFUoXiXSUXAOd/LpiTtHbf0igZ0CKCmtYWElEk1ORDkAQWRpcRZJHShhB6b4IikKkIiKCICIKKisLtT7oQBIFTPzlCy6FGZIsFRVWRBG0eRBEQsqyKomoVpmXZrHMwi6YLQYooPCRYEcAX8OEL+GAnJFNJVhZXWZ5fZnlhhaX55ZxnVBDA7rRhdzpwuLQaSqIkmtgSAUEUSCY0QXginiCRCQ2PrkVJZ6KvZIuMP+SjtKqUipoyPH5PUXCiX5soiKSSSTpvdDHSN4bb4+L08ycpqywzWJQs+6GBiemJGc5/cgGHw84zLz+NL+DL0aSYQUoqleTDdz9GUVReeu1Fw3WzGUgxW9+9fvrv9fPYE48RDAYL5v5B3SpbsSkPatsg5du1bUblL2DfZVYF4OqVq3z04ce88trLtLa35tYZMf2a1o8xhyz/269/z/LyMn/z09fxB/2YCxeamRVFSXPt8nWuX75BdV0Vp546qUWIZOoC5Ycbj41McPX8NdbX1qlrqqFpVxOuTP6SXHZHyWFZ9G2JeILF+SWW55dZWVwlEUsQz7zcE4mE7oHKcZnpqfYdLjt2pw2Hy4HT5cDhcuDxe3C6HQU6BvOxxWyzF1zBfSzC+JivcX56nv/5X37H+OAEu4628/zPnsIb9BiMii5Q1liSNIqi0H97kMmhGXY91orVIeewKXpUTzqdJroeo//KMCoqNfu16KvuzwYYvjpOaVuYpidqsHktuexNzjOioKQVkhspUrE0SlpFtktIVgHZLhfVA+SIIfMWQgGBuXtLrM1sUNIcIlwTMBYy3bWxPhfl+jsdTA/MUbmjjEh1iH3P7sKWcavodWL0hdZccA8Ezr11kdqWKhp3N+RU/YUsUCmM7hI3vdfF7vNm/4b1e51MJFleWGFjLcrG+gbR9RjR9SixjRjxWNwAH/kmW2StqrLVis1hw+ly4At58QW8uL3ujO6pcJ61+ddZC4FUKs344AQ9t++RjCdp3tlE+/42rJnonyyQyM77yMAoF7+4jD/g4+kXn8Tj9WbvXR5IAZWP3vuEseFxXv7BS9TW1+TpUjZnU+LxBL/4b7/A6XTyD//4cyMiyXhmHlBAq23bFtF+T2w76ufbtm8qVBkePQJIb59Op/nlv/yShcVF/uN/+g/YHfYHcgEBLC+v8K+//C2yLPE3b/wQq81qijzJBSuqqnDnVgeXzl0mXBLmsedOY7MXD41Op1PEE0nuXLvDva4+FEWhvLqMpp2NhEpCOREtuUCqMFdF/q99VVVJJpLo2VJFKasLyLeHBSAP+kLLv4/GmE1RPtnxKsTjcT79wxmCZQGufX6T4Z5RTr1yjJMvH0G2WQqAysbqBtc/vU24OkhNe6XGiGQqTevuuVQ6TSIW597lIVLJFDX7yrG4LEbem5XpVbo+7GdpbIWaI+VUHylFsAioihYRtDa1QWw1QSqWIhVXCvRYKqoWTmuXkB0SzrAdR8BWIFzdDKzMdC+wsRCnvDVMoMKn/UKPpen+vJ++i8NU7yznwCu7sVqs9F4coLKlnKqWciNc2ZznQ3f/yJKMklY5//YlmnY3UN9Wm+P+yGdTchiIIrqVr3LP77s9nWH79LIFiqqF02c0N1sBpmKMkK67ScaTDPWOMNAzRDKeJBQJsu/4PkLhQAFAMZej6O28x81LtyktL+GpF5/EbrcXgJRsdWWBy19e4fb1Ozz25Gl279v9wCBFEEQ++uAjOm938vN/9/eUV1bkPCvadRUClXw9kbZ9K23KNxOSXOxc2/ZAtg1Uvm37S4Uq55/rQVmVmZkZ/vm//4LmlmZeevVFTXhrAhB6H8X0KhPjE/zxt38kUhrhpddfzEkGVwys9PX2c+aTs1q9kCdPUFpZsmkeF1VVWF+P0tt1j767fcRjcYKRAM3tTZRWlxoaFv2aCkNBHzw8OX9e7/eCKvaL7GGsaL4NVckBK/o1qarKB7/9hPrWWmrbqum62s17//IR6VSaZ954grYjzRqblWGneq71MTc+x54ndyJZRMPtY85Vk0qm6b04QGwjTu3+Cixu2ZR3JW0wLtO9c9z7dBQlrVB3sgzRJrI2EwXA4pSQ7CIWu4xoF5DtEoIkkI6lSUQzDEtMIbmRJp1UsDhlgg0e7F5bZg5Ni1fe4ogqMHt3gehSnMrdZSwMLdP9WT8Or539r+ykoqnU0K2M3J5gdW6dPU+1Y7NZjWJ7xYBKIpbk0vvXaDvYQlVjZVGgshVIKWDTvsJzcD/X7cM8k0XdVKZxry6tMdA9yOjgOKqiUl5dRsvOZiJl4WwUXH4+GlEkEUtw+dxVxofHqamv4fTTp7BmmKv8EGR9Dnu6ejn76Tl27d3F40899sAgBWB0ZIzf/+vvOXz0ME88+fgjhyNr27bZlO+RbQOV74J9l1kVgHNnz3H2zDleePF5du3dVdQFZHzPAyvdd3v48L0PKSsv5YXXnsdq3ZpZmZ2d47MPPmdpcYkdO3ew/+heJFnaErDEE0kGegfo7bjH2uoaskWmtLKEsuoyyipLkS1SDmgpds3a9X69j/VmuTbyLf+8+eAp/76oSm4yts/eOkuwJEDb4R2a6y0W48L7l/nizS8pqQ7z7N89TqQ2gqKkufjnq/hLfNTtqTZYlHy3z9TALOM9U1TvKccZtBtMVr4rSVUVEokkw+cnGLs2i8UpU74/SKQ9gGgVjDGazfw8aqnwVaLzCVbHN1CTKr5qN+5yh1EXaTOwIiLS+/EQUz3zqGmV9meaaThYnalArP2ClyWJjaUYfVeGaDxQT6QimM2KalT1lQ2gsrKwxu0zHew5uYuSykiWCSji8tH1HVsxFY/yLBR7Hr6Kmc+bHZPA4twSk6NTTI1Os766jiiJ1DbW0rKrCa/PsymDon8fHRrjyrmrJBNJDh47yM697UZostnVYwYpnbe7uHDmIjW1Nbz8+kv3TeqmjT8b5fOrf/4lVpuNf/dP/4Atw9qYr+urCmjz2+XOWZG53QYqfynbFtP+NZkoiFsyLmYBrygIBljRxbf68cbfTPvjJ44zPjbOxx99TGlZKZHSCKqiZP6hKihkj88X17a27UBA4KM/f8hbv3ubV3/4Mg6XA1EVjQVPEBREVUBRREpKSnj9b1/j6qVrdN7qYmJ0nBNPniBcGkJUQBRAUQUEVUQUtOPtNpG2XTtobmtiemKGkcFRxofHGRscR5REImVhSipK8If8eP3uTLRPRoRLFgDogty/tGWymWfvnWKK8sDQiea2MZnL68xJsS5bZE69cow9J3fy8W8/53/8n79h14k2Dr+4n1QihdvvLOhL/5xKppkZmsMddOIOObPRWnmJ4lRVIa0orEysgSRQeTjMxnyc4bPTrM/FqDwWRnIWirrNAFlEAQEcYQs2v4eV4ShLI2tEl+KEGr1YHBaUjGQ2o8EGRBLLMfo+G2W2dwFvhYedzzYSqQ+jCpo7RJT0ys4CDq+WFXZjJQoVmegjqfiCsbGqsUFOUxHCgnu1CUgp0K0UBQgPZqJ0/zYPYvqYFEVhbWWd1aVV5mcWmBqdJhaNIYoi4bIwO3Y1U1lbidPpMACDPm4zQAFIJVJcv3iTwXuDhMIhTj59klAoWODqMYMUQYArF65x69otGh4w8yxkQYqqwp/ffo94IsFPfvoTbHZ7dq7yXD7mbfez+4GULY/dBinfCdtmVP6C9k2KauHRagDpn/W26+vr/I//9s+IosA//NM/YLPbNtWr6OcwMyvDg8O8+6f3cDjsvPLDl/H6vUbo8mbsyvjYBGc+Ocva6hotbc3sOrATu3NrnYx+Lal0mtmZOcaHxhkbHmd9dV3TSgjg9rjwh/x4/F5NIGu3YXPYcDjtWKyWh8pxo0cEpVKZ2kAprTaQYtIQaMwPmXwu2vmsdmtBbpzNWJ5815XuBtI/d17tYmJ4itOvnkBPfW9mQMb7J/jwV58zMzpLeX0pT/zsJN6wh3Q6laNPSSspZkfmGe2apGZfOXafrSibks64i+YHl1geW8UWsBJocIMIq1MbjJydJjqXoOyQn9AeH6IkmK4nz2Vhpt2B2HySleENJItEya4AFptsMCtKUmX8yixjV6YJ1PlofbqOxeFVZItE3aEqQwchSRKyKbdH74VBbA4bO440ZrZnBbVmRmWgY5jJgWkef/0Usizl6Cr0BdVckA/IWZC168nVq6RTWpRVPBYnFo2hKhlRrh61I4lIkqhlbZVlLBYZySIZjNKDWjqdJrYRIxbVzpOIJ1hdXmNpfpnlxWXSmdo/sixRVllKZW0FFdXlWG3WAnCi/c1lUBRFYah/hI5rHUQ3Yuzav5N9h/ZikS2bApTMU825z7+kt6uX9l3tPP70Yw8FUgRB5NwXZ7ly6SovvfIiu/bsNsa5lS7F/HebTfne27br57ti37ZWxdxuMxfQ+Ng4v/rlr6mtq+H1H72eo1fR+9oKrExNTPH2m++gqiovv/4i4ZLwfcFKLB7j6oVrdHf2IAgCO3a20L6vPUdsu9m5zSGz0Y0o87MLLMwvsjS/xOL8EuurWoVaM2CQJEmrmmtKliVIIgKaiDGdTmeExgpKOr1pBEZxy03MZ7PbCJUGqW2qIVIWzuaNLaKnyQcr5pwnQz3D3L3ew+lXTyBbpaLgIplOcfYPX3L909vY3XZO/egoNTsrSBttNQDS82U/qXSK+sPVWXeQSZuihyIvT68x27OAq9SBr85l3EOAtJJmoXeFiS/nESSB8uNBPHXZyCgjG615ARGzC2RyPc383RVsHiuRNj+iKDLfvczIuWkkm0TTk9WUNIc0fcXkBnMDSzQcrsLhdRgARddGyJLEWNcUq7Nr7HtmFxbJsilQ6brYS3wjztHnDhn6Fb26cE4Kf7EwQ6x2DQKx9RijA2NMDE+xsb5hAAT9nhfaJqJsUUCUJCRJzP7NJH3LAmA9fF4ropnTqwCyLOMP+QmEfARDQXxBH16fB0mW8+Y8F5zo+3Q2Y2RghDvXO1lbXiVUEubY6SNESiNbsiiiKJBOKXz24ecMDwxz8OhBjhw/fN+EbuZzC4JI370+3v7j2+zbv5fnXnw+b7z316WYn7NvC6QUO9+2PZRtA5Xvin1brIrWXi1osxlYuXrlKh9/9AmnHzvFkeNHtOMeAqwsLi7y5u/eIhqN8vwrz1FVU1kAVvSxmBfo5aVlrl+5QV9PP5Ik0rqrlbY9rRozsYVmRh9Dsdop8bj263N9bYNYNJb5RRojmUxmF4N0JrOqomZ+/WpZO/XPsiwjWzRwI1u0onByEaADEI/GiWd+8W5EY0TXNpgcmyaZSOB0O6ltrKamqQaH017IouQXWzSxKjOTs1z9/Dr7H9uLP+IrABc6c9Lx5V3WV9eJrsW49tEtyhtKOPrDg/hK3KSVFGtL6/RcGKC0JYy/wpMV12bqNOnh5RsrUSZuz2J1yYRavSBQADYBkok0M9cXmb25gqvMRtkJP/agteDZzK+LJAoC0bkEy4MbyDaJhd5VYktxqo+VUnWwFFnOAg3I8CtVAAAgAElEQVQ1rTJyeQpfqZuK9rIcJkXXqSyMLjPWPcnep3bicjk3BSpXP7qJN+Bhz4ldRfUpZjYlF6SoTI5MMdo/zuzUHKhQUh7BG/DicDqwOzJ5UBx2LRuuquY8X0paIZVKkUwmSSW1GlapZFoDo+m0EeGTzkT7aHlUNFZGyLAydrtNY+ucdhwOOw6nE5vDVrCQa/Obu3Dng5PMXWFsaIzbV++wsrRCIBxk/+F9VNdVbapF0fsWRYF4PMHH737C9OQ0J584yd79ewpZKBNIyR6b7W9xcYlf/eKXBINB/u7v3zAy92b7eDSQkj8fDyOgvd++ou23QcpXtW2NynfFvs4EcMW0KlslgdP1KuY2m+lVDh46yPjYOGfPnCMQDNC8ozknGZwoCCiImlQlc5xZsxIIBPjJz37CW79/i3fffI8Dh/dx8OhB7QVFVreigJEcTgH8gQBPPvsEew/u5caVG3Te6uLunW7qm+poamskGAlqC4uiaRMABDWjnZGy8yGY5thht+Ow2/H5fTnzsRVbBY8GKgFUf75eQ2NGJkYmGegdovt2Lz0d92hsbaB9f6tWAIeMRsU0F/prTxEVSGNUXF5bXsMf8Wn3jMy9yOAyUdB+7XsCbvY+uZPW402c/8Nl/vB/v0vriSb2PtfG8swqgiDgL/NsOg+qqrA4tIIki4RafAhi8XIQiqoiSFB6OIB/h4vpS0v0/dsUgXYXJQd9SPbsoqiqWiI7LQmbtk2yi6yOb7A2HiXc5qPt9VpsLiuCoD9nGnMkW2TcYSerc1mNjq5T0c3u0SKJ4utxXC5nwVhFQSSd0vLGlNWUFuzPTzpmBilzU3PcvtzBxloUp8tJ295Wahqr8XjdxX/J5y1yXyUyaKsFsEDMm5OzJh8YZl0ksWiMwXuD9HcPsLq8ii/g54nnH6e2obYAoOjHmlkUQRCZHJ/k84++ILoR45kXn6GltTnPVXN/JiW6EeVPf3gLSZR47fVXC0DKg9hmc3s/4PB1synb9s3ZNlD5HthW4tmHEdaarRigyQcrL778IisrK7zzp3f54Y9ep66h7qHAitfj5id/92O++PQM1y7fYGx0nGdfeEar1pppC9ofSSIjtFVRgGAwwNPPP8W+g/N03O5koHeAvp5+/EE/zW1NNDTXI1vljNiXHNCiXUshayTkzYOobq4NUFQ1ZxG8n+Xeg6y4EUDKvKRrG2qorq9ibWWNzpvd3OvsJ51KsfvwrkwtJrEArGAClE6XE7vDphW8o3LTsZgBhTfk4bn/8Dij9ya58Psr/PH/ep+qneV4I24ki0Q6nc4Zq+HWSaSJLsXxVjqRLKKhDcpx3eW5E60emepnwvgnokx/uUTfv04ROeQl0OYyGAodrKQSKeZvrzJzfQlHxEZ4p49Imx/ZIRnAWb8PuvTF4pRJz6RRUgqKRUESctWoxYBU/iK2urQOaJWOzftzFmSTNgVgfmaBy19cw+VycvSJw1TWVGRzmWTcIuY+irm6zPbQv9S30LAUuDKKMCp6GwGYGp+mv2eA0aFRFEWltLyE/Uf209BUnwUVWwAU0Mp1Xb98nZtXbuL1+/ibn75IaVlJIetyH5ASi8X4w+/+wMryCj/+6Y/xBwJFdCffjC5lK9t2+Xz3bLso4bdgD1tV2TjmASsr5xcs3Ky6st7O3HdWP6EiSRItO1oYHBjk+rXrVFZW4vNnqs2SrcYM+d+z/cuSRENTA/6An7sd3XTe6cLr8xAMB40wQwHzMWS2af/wHU4HdfW1tO1uxe1xszi/SF93H3fvdDM/PU88nsBut2Nz2BFFCRGdwtcXm+KF33QdgPm7/h9gOmbz/wSyhdHM29GLKYoiCIXhlDablYqaMpR0mntdA6CqlJRHTOUFVVQ1M5/GxGj3ZGl+mcW5ZWpbajSgKWCABp2FmBiYwmK3ECjzG0UDXQEnTUfqsDotdJ25x+LEMv4yL86AwwAeWuFAzZW0NrvB2kKUYJ0XLNmCgtnazNr/c91tCioqVo+Md4cDyS4yd30Vd7UD2SEZxRJXBqMMvz9DdC5B1eNhKk+ESG0opKJpPGXOnMXJXChQSaqsz0Xxlrq1FPMmFwICJGNpFieWCVcHtYgzY1EUjM+zY/OszK3Qsq8Zq8WCVuxSayOZCkfqeUVWFle5/OkVHC4Hjz1/ilAkmBHAZit16+cQTOfK70/7Lpra6s+IdP/nTBByKnab/8svSphTG0nUAOHE6CS9Hb1cPX+N3q57xKIxdrS3cPrJk+w5sJtwOJQR/JoKIGbGlv2sXd/G2gYfvvMRfT19tO5s5aVXXyAQ8Bv3SWdRJDE7J/p9MreJx+O8+W9vMjc3xw//5nXqGuofGqTktMkDc7nvoYcDi49S8Xi7SvLXYpsWJdxmVP4K7EFcQI8asuxwOPjbN37Cb375G/74+z/yk5/+hPLK8k2ZFe0E5LAlevhyRUU577/7AR/9+RNGhkY58dhxbHabwa7o59bOryAioSjaNofdyc7d7bTtamVudp7eu72Mj0xw7cJ1rn55DZfbRXlVGaXlpQTDAdw+t/Zyz9Ho5L3M1MKXle5C2sqyc53bLsugmPoSpCzzIOrttMjZPYd2k0gk6bnTh2yx0LyzMevy2YRV8Yd9TI5MEduIYXVYc/alDfGqBizMLiHQnoGWo/VsLG8wN7rAmX++TFlzhPbnmnD4rTnPy+pcFItd1kKPTaC3GJuSOyfaZ0EU8Le68DU7ETITEptLMHVhiehsksh+L5G9PmSrFu1jD1pZHYuSiCaxOTV9ix5irAEyEdkmowLJeK6g1DATGDeb+dfu8vwKLq9Lq/VEEdbBxKasr2xw+bMrWG1WTj57AofTkVlwc1mUzaJpdNuK9cjZfp9f8pu6OAzxskpsI87SwiJzM/NMTkwzPzOPoihYrVbKK8s41FhHXUMtFoucuV6xCEDIFQ4LgvZj4l73Pb48cxEBePalZ3NcPcVYFL1P89wIgkgymeRPf/wTM9MzvPLaKzQ0NT4iSPluuHy22ZRv3raByrdkj6JVuZ+b56vaZmDF5XLxkzf+lt/86tf822//jTd+9gaR0khRsGLOs6JkcrDoYMXv9/HjN37ExfMXuXr5GkMDQxw4coCde9qRZVljffTLM8agAxbNJSQJIiUlEUpKIiiqwuryKqOjY0yMTjA6OEp/z0CGDRLx+n0EQn4CwQAOtwOX24XL7cThdICqkp+bS1EVEIontzAvzJLpZZYDBqXc+6PfXlHPEaKDFlHbJwhw8Ph+UskUndfvYrFaqGuuyQErSjr78kyTJhjRirOtLK4QdmgVaxVBBDVtnFfIY6lyrkNRURSV1lNN7HmxlRvvdvHZ/3OB+qNVNJ6qQbBoobbx5QSuMgeSKJFSCoGBGexuZYIkkIqmmbu6zFLPOr5GJ9VPh7G6c8W29oAGVOJLWaBi9JG5ftkuIQDJWLHxaNesM3zFxisIAqsLa5RVRwzAoR+b/ze2Eefip5cRBIGTzx7H7XblgJRCHUYuQMnXh5j7z7+uYraVuyeVTLOxts762job61GWl5ZZXFhmaX6RWCxusDWhSIg9B3ZTUVVBaVnElHo/lzXMGa+QdfHogGVyYopLZy8xOzNLaXkpz774DH6/PzvvOWCkuGhW7y+VSvHOm+8wMTbBS6+8yI62HQXzsxlI2Wzuvi6Xz7Z9d20bqPyV2NfBqpj7yQcrXq+Hn77xU371y1/xr7/5LX/7059QUlZSFKyAvtBmTqxk8YcswYnTJ2je0cyXZy9w4exFOm51cuL0Meoa63LEttrgtHGYNSzGNkHE5/fh8/to39WGoigsLiyyML/Iwuw8C/OLTI9PM9A7mDtXooDL7cLhcmJ32LHZrdj0aAqHHZvNitVmw2qVsdltWsSP6QWYM88ZYKPPpWSeSwO4mOY9A0Oy+2SOnj5MKpni1qXb2B02yqpKDbAiCqrBqgiigM/vRZJlFmeXKaksMVgUURBQTK6CYhWaRUEkFU8jCGCxy3jCbk7+/CDjPVN0vN/L6K0pWp6sxVliR1VVnCF7QR8PY2paZbFrnbnrq1h9MnWvRXCWFlabBpAdEhaHRGwxgbdCEw0LeYuObNXcEOlEcbCuX7OkR8kIuVqT9ZUN0qk0vpA/OyemfCg6m5JMJLn02VXSqTSnnzuO1+ctACn5ETRmgFJsgd1sYQUtN0oqkdKKZsbjxGJaPhbtv4QWqRaNEYvFWFtdJxFP5LBGsizjD/qpbagjGAoQCAUIhYPYbNaceRSFXNC0WfI6HaCsLK9w+fwVBvoGcHncPPX8U7S27cjRmWTnIPdY89zo25V0mvf+9C7DQ8M898JztO/a+cBMSm6bRwcp22zK99O2gcq3aF83q/JNgxWf38cbf/cGv/n1b/jNr36ToW0bDLCima6XKBTZanu1xbq0tIQf/Og1hgaGOHfmPB+8+xFlFaUcPX5EKzFvAiyGSwhNdKuqWZbFDFpEQSESiRCJRFB2ZHUT8Vic9cwv0LWVNdbW1llbXSO6vsHK4gqxaIx4PG7oePI1P5Io4nA5cbocON1OnC4nLrcLr89LKBLEarUY7IzOyujzmuMOQ2NSRAO2acwTsszxJ4/y2XtnuHb+Bk+98jgOl4O0qmiLhyKiZl6iqqQSKgkyP7mAulc1FkZznherw0p8I55ZNFTUzNykwXBrKab2pc1hwvV+Bi6P0v3xIDa3FU+5C1HOLuLpDGOjM2RbZfYVBZGVkQ1mLqyQTiiUHvfhb3Ft6ZIBtGram7A0oqil4VdVNRs6nHd8PJo0rt9s+uK5OL0MQKDEX8AmmBfMG5dus7G6walnj+MPBUzXlavDMLMoxQCKsVCqKssLSyzMLRJd1yolr69tsLGhfU7EE6ax5s6RxWLBZrfhcDjwuD2UlZfjdrtwebRn0O1248zocSAX3G21yBcDJ/r29bV1Om520nG7E1EUOHLiCPsO7MVms+XO2RYsSv45o+sbvP3W20yMT/LMs0+zd//erxWkPIhtg5Tvr20Dle+hfZtgJRAM8Pc//3v+8Ps/8sffv8mp0yc5cvwIgijmpNsHCnUr2kbTMq1Q11BHTV0Nnbc7ufjlJd76/duEIyH27N9DY0sDkiQZLiHj2kwsSz5oAQzgoruhZKeMy+lCiRSGDRufFYXoRpR4NEY8niAe0//GiUZjbGxEWV9dZ2FmkbH1MVKZaBlBEAgEA4RLQ5SURSgpL8XptCMKuaDFYFrEfJeQBlYsFisnnjzKB29+TOf1bg6d3p8Fe6S1F3SGVSmtijAzMUt0bQO722HcO1FQUUURj9fF0sxyURAsW7X8MLr7RBc4qpJI3ZEqSttD3P1wgKk7cyQ2kjQ9VYnFc//XhH5vYosJps4vE52KE9zjJrjXjcW2+fHmxUZJqFh9ktFfvqUT2nNqsWf7010VgiASW4shWeRNzzc/uYA34MHpduQurKbPs1NzTI1O036glUh5xFh4BSF3gS7GohguurTC3PQ8c9NzzM/MMzs9SzKR1Hx9aAJxl9uFz+elvKIMp9OJzW7DZteYPJvNpuVIcdiRLbnXks8yFZurzZmczcEJwPzsAndu3qH/3gCqorCjfQfHTx7D5XZtClCMbZuwKACz0zO89cc/EYvGePX11zRW5hFASu41bg16t10+f122DVS+Zfs686oYfT4AWMlt/5BuIJ+Xn/3873j/vfc5d/Y8c3NzPPfic1gsFgOsFHMFFWNXJEE7/+59u2nd2Up3Zzc3b9zi0w8/4+K5S+zau5PWXa04nQ5NIJrHsphBC2SBC4BirqWTAS96G/36jP2CgsfjwePx5ByTb6qiJYaLRmMszi8yNTnN7NQsQ/eG6e26B0BNfQ0797VpGXkVhXzgprt9suyKBlbcXg87djXTceMuzTsb8AV9RVmV0soS7tDFzPgcda21qIJo1MoBcPqcqIpCdC2G3W3Lew4ErHYryVgqw47kXqPdZaP12TpEi8Dq1DpX//tdKg+XUH4wZKKHNrfoTJKNiTg1r4VwltoK9m/2y1VVVdLJNKIlf9HNLkg6uDIDFbPF1uK4vA6jEKE5j0cqkWJlcZXG9rps3yaRkiAKCAj03LyHw+Wgub0x0ybX5WMGKfnun0Q8yb2uPno6e0jENPeML+invrme0rJSwqVhvB4PkqyDsTxx9wOGMt9Ps5HfJh+Y5OxXYXhghI5bHUyMTWCxWtm5p529+/bgD/gfCqCY+9XnrKe7hw/e+xCH08HP/uFnlJaVfu1MyrbL56/ftoHK99S2YlUe6Pg8gPSwYMVqtfLqD14lUhLhzBdnWVhY5Id/8zpur1s7bhNXkLbT2GX8EVGwWa3s3rebXXt3MTw4zM3rt7h84QpXL12loqqChqYGautrcLldBaAFyAEukHUTaaeUstVqzQBFb5sHYvRrN7fRGmrbXG4Jl9tFVW2VlrFXUVicX2RwYJjujh5GBkcoryxn5/52SssimZdxlmERM/OQD1ZadjbTd3eArhs9nHz2GIpayKo4XA4CIR9zE/PUtdYai4iqKiiCqCWGEwRiq3GcHjuKKGrFIUUVURWxOiwkY8mc50FbWBTSKkhWCZvLSuSJAMlokv7Px5nuWKD2dCnehmwiNVGLJUdRMNgrb7WDSRaxeawFC0CxRcd43lJaAJNskwoWMp31SMVTBtAyh7pq900lthonUuOmmM1PLSIgEK4IF3X7iILI1Og0ywsrHDi5F1m2ZMFOvi4lz9UT24jT09FLX3cf6WSaqtoqWnY2U1ZehtVmzVt4M4t8vttrC6Bhnqd8KzjODL42YSVURWVsZJyhwSGG+oeIRmN4PG5OPHacnbt2apF49wEo5j6LsSgCcO7MeS5fvExlVSU/+OEPcpiZRwUpBdf/LYCUbfvL2zZQ+Q7Yo7IqX6cLSDvm4cCKIAgcP3GccCTCO2+9zS/++V945bWXqamt2dQVBOQAFnNkkLZJC4epa6ijrqGOudk5eu720td7jzOfngWgrKKU+kZtv8/vy+oadJeK+dpNYMPMumSHoLMvDw9ijHNIIoKoEC6NaJEW+3fR3dFL5+0uPn7nEyIlYQ6eOEg4E7FDphJ1MbBitdlo27uDm5dvMzs1T6gkkJO9V82ct6yqlLu3eknGE0jWXFeI26dFqETXYghCALNORRVEbA4bGytRgyFQVTV7X1UV2SJrepGUSrglQKDOw9i1Gfo/msAVsVH9WAn2cDacWcyAFbPlJ0HTbbNkYKmk9jxJ1oxQUyxcKNPxNKIoFrh2REEkFdNqM7k8zhwhrd7/wtQSDpcdb8BT4PYRRK2uTs+te3j9Hmoaqk3sSaEuRf+cTCa5ffkO/b2DoKrUNdax+8AuAqFAnkspF5w8qKum2H5jW17I2paMiiCSiCcYH5tgsH+Q4cEREvE4FquV2voamnc0U99QhyzJBfcoZ/xFAIr5u74/Ho3x4fsf0d/Xz569e3j6uaexWqxFrvXh3D3msZiP22wOturnq9g2m/KXt22g8h2x7yNYAQ1oNDc38fN//Dlv/uFNfvvr33Ho8EFOPnayuCvIlMJfFMSi7AroCzeEI2HCkTAnTh9nbnaO/r4B+u/1c+HsJb48cxGvz0t1bRVVNZVUVldis9kMtkUfX8FcFGFKHgbEmAFM/vwgidjsInsP7aF9Txv3uvu4ff0OH7/zCY89e5rKmooM21QcrIiiSFNrE/e6+um81sXjL50CNdN/hlURBZFIZYTu2/eYnZinor5cAzCCCKq2mLt9LpbnVqjaUV7wXNjcNlKjKRLRFLJdRBG0e5E2XYvNbSW6GCNQ50WyylQdKSHc5mP43BRd/zpMuM1H+bEgskMDN1nwev9fxPkgBSC2GEcQwObKLmj5YcCx1QQWhyWb/EzI6lPWF9YQEHAHXHnAQkBJKyzNLFNRX2ZaHHPPPzE4yfrqBkefPISUt2Dn61JEUSQZT/LFh2eZn1mgqbWRXft24gv48lig4gDlfhqS7DxtDUaKHmOAalWrKj46xujwGFOT06iqit1uo7GpnsbmRqpqqgwAYe7/UQGKKAgM9A/y0fsfEY1FefrZp9l/cD+SKOW1LwQbm4GUB43weRTbZlO+P7YNVP4XtK8LrJiPjUQi/OO//0e++PwLrl29zuDgEC+/8hIlZSVaO5MrSPt/Ibti2m2K5smAB0EgUhIhUhLhyLHDLC0tMTI0wsjQCPe6++i6cxdBQGuTYTZKSiMEgoHsy7AIeIH8cOPiICYfwJjBizEXefNssVpo39NGXUMNH7zzMV988AWnnj5JTUNNUbCSTmtza7FaaN/XxpVzV5kam6G0MlLAqngDHjw+N5PD01Q1VmguIpP7J1IRor9ziEQ0icUu5bh/AqU+xu9OsDy9Qqg2mw9DEbLun2C1j/E702zMRXFE7IiCiN1jo+n5Kkp2Bxj+Yoqu/zlM2eEg4d1ezXMlZtkPQRBzFxkxd8HJWXTTsD4dwxG0YXNac9gUY2zJNNGlGJG6UI7bR7+Hi1PL2JxWnB4H+TY3oSU9K6spNZgOM+OhKir3OvoJRgJUVJcXsCn5upR4NM5nfz7DyvIKjz17irqG2pzCfWaAUujqKL4gb+ayyW9XbJuaqRo+NzvHzPQss9OzzEzPEovFAIiUhDlwaD/VtVWUV5RjkS2FY8kDJ/nzn9umEKAkEgnOfn6WWzdvEykp4cc//TElpSX3dfUUzMMjgpS/lMtnm035dmwbqHyH7C/FqsDXA1aAHFeQ1Wrl2eeepbGxkT+/9z7/8xe/5OSpExw+djj7krsPYMlJmpbHsuigRZQkgsEgwWCQfQf2kUwmmZqcZmRohKnJSe5199F5uwtVVZFliVA4RCAYwBfwEQj68Qf8RikA7dy5AEa/Tv36tEnIY1OK6V8McJU7t063ixd/8DyfvPcpZz8+z9HTSZraGgvAiiKIhguooaWenju9dF3vorTycUQh4/bJsCqSKFFVX0HXjR7WVzdwuBwGqyIKKiXVEQY6h1mcWqK0PpLj/nE47bgCLpanV4nUBTPhzWntHBn3jzNox+6xsTS6ijPsAFGEtOae8Va4aP/bOua6lxj7cpa5jmWqn4zgqcyCBON+i8UXG32ORUFkbSaKmlbxV3lM281p9EVWZlcB8Jd5yTclqbC2uE5FQymiJBW4fWZG53F6HPjDvgw7kgVKgigw0jNKbCPOwVP7ETMp6fVj83UpG2sbfP7+GWLROE+98ASV1RUFIOV+CdW067q/liT/u6qqxOMJlhYXWZxfYmlxkaXFZeZm59nY2Mj0JRAKBWlorKeqpoqa2mqcTmfBeXLu0RbgJLddIUABmJqY4r13/szy8jJHjh3h5OmTD+TqyZmPTQBK/vi2Qcr/mrYNVL5j9n0CK+bPZldQQ2MD//4//hMff/gx586ep7f3Ho8/+VgR7QrkAxbYgmWhELQA2KxWqmuqqK6pArQEWktLy8xOzzAzPcPszCxjI+P03O019CySJOL1efH6vfj9fvwBH76An0DAr2WuNYaQPyfZazfPqKgjsEykkWK+DsDusPP8a8/x6fufcfHMJeLxODv3teeClYzWQ3cB7T64i/OffsnY0ARVdRWZRTabrbaivoLuW71MD89Q116L2ZxuJ96Am/mJRcobSlEFBSUTcSWIIsHyAKNdY8TXk1icEoqggJoV1UqiRKjOb7AqrhKnEXWkoCBJEpG2AP4GD5PX5goWPaOuUn5ki2lhEgVtPGtTURwBG3aPLVebYlro12c3sLtt2FzWArfP8swKqBCqCBa4fRLRBMtzKzTsrDOigcyLYzql0Nc1SGlFhNJyMwOQXVT1PleWVvn8/TMoaYVnXn6KUj3hYR5IMfdfDKBsyqpkPieTKVZXVlhaXGZ5aSnzV/svFosb7S0WC4GAn5raakpKI5SWlREKh7BaCxkT/Vqy53o4cJLbTjt2bXWNSxcucfvWHbw+L3/7s59SV5t9Dr+qqyd/nF8HSNm276dtA5XvoP2lQpbh6wUr5uOdTievvf4azS3NfP7Z5/z217+jtq6Wx594zHAHFQUsGQ0LFAEs2Wb5H01J1ABJIhQKEgoFaW1vNa4nHouztLTE/Nw8i4uLLC8us7S4xPjIOKlUNgW90+UkGAoQjoQJhYOEImECQX/2hVtEtGtoa0yAJau30cxqtfL0S09x9pNz3Lh0k2Qiyb4jezOZfTVGw9CrCCrV9VUEw0G6b3ZTVVthsCp6tlqXy0m4NMzE8BT1O/Oif1QIV4bo7xgiEU0g2cwLv0KwzM9Y9wTLUyuUNIYMUS1gsCrukDPDqqzjjjhzEvspGTBlc1ipOVFmzEPSdNW6NsG4R3mLkyiKrE5uoKZUgjU+Y5E3AEWG2UjFUkRX4pQ1RgrcPqIgsjSzgt1lx+V3FbAps+MLCEBFbVkOmyIKmoh2uGuIZDxJ2/4dxvyZ2RQdgCzMLXLmg7NIsszzrz1DMBTcFKSYmYdiAMU8D/FYgtnpWRbmF1iYW2Budo6lxaWclINut4tAIEBTSxOBQIBA0E8oFMLtceeAgAcFJvlt8107+WPMByixWIzrV65z9co1FFVl34H9nHrsJE6Hs8ixX93Vk3/8Zteb318x22ZTvp+2DVT+imwrVmWr/Q8LViAbjgoUdQWBxq60tbfR1NzEzRs3+fL8BX7xP/6F9p3tPP7EY7g8Wqr0BwYs+V82AS1mtgVAlLSQYIfTgcPpoLyiPOf6FEXRfsEuLbM4v8Ds7Bzzc/PcuXnHyPjq9rhoaGqgsblBKx2QB1ryx5Ffo0gftkW28Pizj2GRZTpudBIMBzTNipqrV9GSw0nsPriLMx+cZbB3mMa2+owWJcuqVDVUcOPL2yzOLOGP+HPdP1URBjqGmR1boLypRGNqMnNqc9rwRbwsTiwTqg1qLjdBG4GuVSHDqkx0zLA0ukag1kMKk/tOKMyNI5uEk5stSPrzkYqmWZuM4gw6sHltxoKfrwtZHl9DEET85V5kSc5hU1KxFKBg1CEAACAASURBVGvz61Q0lRkVjw2xLgLTwzP4I35cHlcBm5KIJRnoHqayrpxg2MTGmMKPRUEgmUhx/tMLyBYLz736DD6fd0uQksMaFQEo0fUog/2DDPYPMTk+qQFEQcDjcROKhGhqaSQUDuH3ay5Kmy0/F06RBbog3Pn+wCT/uPuBBkVR6LjVwflzXxKNxWhta+XUYycJBUNFji/OhGyDlG17FNsGKt9R+yZcQFvtfxiwkt/+fuyKxWLh8JHD7Nq9i0sXLnH16lV6e3rYvWc3Bw4fIBDQ0pQXAyzapyJuofwvmwCGbNPcLTp40ccZCAbx+f3U1mWp61QqydLiEtNTMwz0DdB5u5PbN+7g9rioa6yjtX0H4Uh4y/OLpirI5kinY48fY2FhkYtnLhMuieBw2tBdQKha9IyIQnlVGWWVZfTc7qWmsQpJlnJYlYracrpv9DJ4d4SDpYEcUa3T7SRcEWJiYIrSujCChMGKiIJCZUsZXed7meqdprK9DFmSSaW1RHBIMqRTeMJufGUbLI+tkU6k8dd5ECQRCTGTzC7LruhzqT0HwqYLoiAIROcTLA6sIEoioSa/seBLopzjbomtxFmeWCVUE8DmtBWwKRODM1q23rqSQjZlYoHYeoyWfc0FC7UgCgx0DqIqKjv3t+UAEzNQAoFrF24QW4/y/A+eeyCQks+iiIJIPB7n3t0+BvoGmJmaQVVVgqEgB48epLK6kkgkjN1uN8aXnavNWZLs9Tx4qHJ+H/n78tkT0MotdHZ0cfXyVRaXlqiqruLJp56goqKioJ+HBSj54/2ugZRt+26Y9J//83/eav+WO7ftm7XN6p7czwRBKKhX8yD7tZeMmvNdEARjHMb3Iu2z+9Tin1UVi8VCXX0d7e3txOMJOu50cv3qdRbm5/H7/QaVLQha7V/9MzmfhaJtRFEEIe+7eb+Q+z3/+Gwf2e+SJONwOikpLWFH2w727N1NKBwkEU/S39tPx60u5ufnCYaCuNyunLHm/gUwXQfaC7isspSejh7mZuapb6nLfUmbPrp9bu513kO2WIiUhTL3QzXmQkVlpG+MUGkQu9MOqMY9s7ttjPdNIskSvrAP446pKrJNRk0rzI7M4/Q5sDmt2nNhPAIqAuAM2lFRWZ5YY30uisNjRbbJ2nxnWhqMWlJh8vo8FQfDyDbZmFfjOUirLA2ssTK2js1jo6Q9iM1hNVgMSTJllUVg/M4MslWmZlcFsixnxK4CoiiRjqcZ6RyntDpCSXUEUZSQJAkpE33Ue60Pq81K24GWDADSjpNEiUQsye2LHdQ2VlPbVKO5m0QpM14p434SGBkYo/PmXfYe2ktTS8MDgRT9PIIgkE6muXOjg0/e/4ThgWHsdju79u7k9FOnOXriKFXVVQT8fiwWi3Hu/Gcy57v5+S3SXsr7XrwP83fRdGz2M2iu0utXb/Du2+/R3d2D3+/j6Wef5sknn8Dr9Rr33dw3mWfb+CxkP5ufE+3fQv6+7x5I2WZT/qL2f2y2Y5tR+Q7bV9GqfF3MSrFxbOYKyu93M3eQP+DnpZdf5NTpU1y/eo0b12/QfbeHmtoa9h/YR11DHRaLJXu+nOEUZ1ogj20psiFfGEuROch3G2F6UTldLlrb22htbyMWjXL75m1uXLvF7/r/jeYdTRw8egCf35c/zJzQYuM74Pf7OXrqCGc/Pc/d292GuFYR1BwXUCgSpLy6nL6uPhpb6xGl3Aig2qZq+jr6Gbw7zL7Tu3NYFW/AS7g8yMTANCW1EURZuy96BFB5YykLU0uMd0/RfKxeu9dmF5AIMjKR+iDOoIPpu3NM3pnHV+XGV+UGk24FzLk4pByACBBbTrDYv0IqoeCv9RKo9iKZxLO6W0d3v8wPLZOMpqg7UI1szbp8JFHOsimCQEVLeQGbMj+5xMbKBruO7UTMc0cJosBg1xACAq17WoqyKQDrqxtc+/IGJWUl7NrfntPHViBFEESUtMLdO3e5ee0WsWiM2vpajpw4TKQkkuN+Ms+ZNm8PpisxH5+zrcAFtDl7UfQcCMzOzNLR0UnH7Q4SyST19XUcPXZUE8Pn3dPNGJT8c38TLEqxfh92/5bHboOU74xtMyrfcTMzGo907NfArBQbh5lZyT/GzKjkn8fMsNhsNurq69h/YD9Op4OB/kFu37rNjWvXmZ9bQJIkPF4PkqQteqhZhiafaSlgW4owJmaGZ7M+CtrkXE/2syTLVFZX0b6rFUEQ6O7qoeNmB6ura1RUab/+1cx4s3MEqqpXZ1ZRUQmEAywvLtHT2UtlTSUOp11vnQOY3F439zr7kC0y4TxWRRQF0kqakb4xIhVhbHYbOqsiCgIOj4OJ/kkEUcAf8WHUh1ZVEAXsbhtzwwsoaQVP2G3cH1EQM/OhLWAWuwVPqZNUIs3KxBqx5QQWm4xklREk7Ze7klIZvzpD1aFSrDYNbKbW06xOxVgaXEWySJTtDOMrdWdZlAwToi/4siQRX0sx3TNHsNJPpC6ELMpGG0mUSEZTjHVOUFoboaQqXMCm3LvejyzLtB1sRZZkZEkyzpWIJrh9qZPaphpqm2ozAEMyNC6SKIGqcu6TL4nHEjz7ylM4HA4EUTSYlq1ASn9PPx+88yGDfYOUV5TzzAtPc+DwfjxuTx6jIRYwHrmMyVZMSCFTUqyN9tzlMiVi3n5REJmfX+DWjVt8/NGnXLx4ienpGVpaW3j51Vc4euwIfr/fYGvM/2Z0y3fzfNMsSn6/j7J/y2O3Qcq3YduMyvfZvsvMCvDQ7IreF2gMi91u5+ixoxw6fIjRkVHu3u2mt7uHrs4u7HYbLTtaaN7RTE1tDVImhWyunkUX9Jr86iYxrjHeohOQ930LrUuOziUzfqfTxcnTJ9m7fy/XLl/jzq07TI5P8sKrzxMIBnI6MTMrhsBWhBNPnGBmapZzn57nxb95HlmSAC3dvc6qRErCVFRX0NfVT31rPVKGVUFUUFSR+pZaBroGGbw7zJ4TO9H/aafSKbwBL6U1JUwOTFNaG8nU01E1HQrgC/soqQ0zPTyLt8SD02839CqyKGfuWQoUBYvVSkVbCe6Qk+neeaa7FkAAi1PG5rIYYHZlbANUlfhqEiUjSPaWuQg1+BAl8+Ke1XRImRwmahqme+aw2iyUt5Qgi7LRXhJlBAQmeqcQJZHqHZW5RQgFkcWZFdaW1mg/3JrJYqst+rIoa9oUE5uSHUOugLbzVjfzMwuceuoEXq9Zl7I5SFEUlQtfnKe7s5uS0hKeeeEZI2TeLOTNsk6FrMKWOVWK6lO2ZkzMfecfs7i4SG/PPbrv9jA7O4sgCFTXVHPk6GGaW5qN/CubMSiF1/DV2JyvE6Rs21+XCff5tf5oP+W37RuxrxKyfL8Chpvt36zicv5YlLznKP+4/P4Lvpv6U1WVdDrN0NAQ3V3d9PT0kEgksTvsNDc30byjmdq62hzQ8iDXc78x3m9c5n36sXqferuJ8Qn+/Pb7pNMpXnj1ecoqyoz9iqr9p6qKFg2kf1YVxscmeP+tD2hoqefY40dRFYWUkkZVFVLpFKqqMDs7z4dvfUzDjjp2H95pbE+l06SVFN23e+i+dY9Dj+/HX+I1tqfTKdZW17ny8XXsHjttx5pBgLSSJp1OkVJSJJMpus73kojGaThUg9VlQTHOrRpjT6dTxjWnUyk2VmJEl2LEVuLE1hLEVxOMXp2i5mg5Dr8Vm8eKw2fH7rEi22WT0DQ/jDejEVIFJjtnWV/YoHZfFYESn8Gy6GBjYWKJkY5xatqqqGmpRBJlJEk2Io5ufHYHQRU48eJRLLIVWZIybSTWlzc49/4FGlvr2Xd0L7IkZ/qVkDKup4XZRT5773Pqmuo5/dQJY7sh+M1xUWkgJZVM88n7nzI2PMb+w/s5euKIwQABRnv92rVtW+cyMbc1vj8CMDEft7CwQG/PPXp7epmZmQWgoqKc9p3t7NixA7fHvcl5vjmAkt/fZsdt1v+jttn02G025duywgdD37ENVL5f9m2AFdhkUS8KEL4+wKIdr5JKpRgcHKLnbjf37t0jHk9gt9uoraulpraGqpoqgsGg8TJ9VOByv/HqY7sfYFlaWuSdP77LysoKTz3/JI3Njdpifx+wcun8ZW5fv8OTLzxOZW2lAQrSSgpFUUgraa6cv0bf3T6efOVxvAEPqXSKtJIilU6TSMb54t1zqKrKsecOoUJmX4q0kmZyZIquyz1UNpVTtaNc26ekM6AoRXQtSvfFPlKpFNW7K3AFHCaAks4bu2Jcsz5+gI2FKGf/3+uc/t8OYPdmw2qLLWxmgCIIIkpSZbJrhvXFKJXtZZRUhwpASmw9Qe/FfrxBDzuP7UCUJGRJRhK1v2O9kwzdHWHfqT2UVpYYIEXORBNd+uQqG6tRnn39SRwOZwZ0aLoXWZJR0mk+ePNjBARe+fHL2G1aEjpZlA02xczwiKJAdCPGB29/yML8Ik88/Rhtu9oMN0wxFuVBk63lbze3z+7fHJSAlvNkbHSM0dExhodGmJubAzRw0trWSktLi6GrehhwUqz9I7E7m4CCb8Pds9V4tu0vYpsClW3Xz/9C9iBuICi+qG/mCoL81PP3dweZz1HgvjG9KPQKzRaLhZaWZpqbm0ilUgwNDdPb08vw0DA93b0AeDweamprqK6uorSijHA4lOsLL3rZhayQ+QVpzhWjdVJ4WDa9mZ4FTsTvD/CjN37Eu2++y0fvfcL6Yxvs2b87J99IMTfQgaP7GRse4/K5q7xWWZaZi1wX0J5DuxkZGOXWpducfuEUWWGsikW2sOfILi58fJnBuyM07Kw1hLUA5TVlLM0sMd43gSfkxhfWUtanAFEVcbgd7DjWRP/1IYZujFHWFCFYnSm0J4GgCFq9IFVBEBQt94uigCAhqNo55EwlZ1mWjWq8uuULKHWAApBYSzLeMY2SVKjZXUGoIlAAUlQVhm+NIskSTfsbDJCig4boWpyRnlHKqksorSwxsSCagHZyaIrF2SUOnNiLzW4vEo4s0HFLK0nw7CtPGyAl3+VjBinLiyu8/6cPiMVivPTai9TW1+SAlM1YlHyA8iD5TMzH527LttnYiDI5McHk5BQjwyNMTk4ZpSSqqqrZs3c3O3bswOvzFl3U7wdO8s9X7PsDszwPwaIUO8/D7r+fbYOU765tA5XvmX3VrLX3AytbtckHHVuNqVjeFfOx+QDFvC1fxwK5oKW5uYmmJo2lWFpcYnh4hJHhYQYHB+ns6ATAZrNSXlFBRUU5ZRVllFeU43BkU+Pna1wyZ8n7tgloEbNjMsZstBFAFHG5XPzgxz/gw/c+5PwXX5KIxzl07NCWYMUiWzjxxHHe/cOfuX3tDvuP7suJAlIEEYfdxp7Du7hy9irjg+NU1usFCRVApqQ8QmV9BUPdw5RVl+D06tesuYma9jayNL9C/81B9jzWjmgRs3qVdAqn28GOo40M3Rll6t4M0dUYlW1lyKJICo3ZERGNZ0QQNIZFzMyHno1WF6bqz4L5WdGfB33u1mbWmejWwpAbDtXg9rtyxbWijCCKjHdOEFuL03Z8Bw6n3bRfCy3uu9WDKEns2NeMmAE5eoRQOqVw92YvwUiAuua6HMCh/11ZWqWno5eG5nrKK8tytSimz7otLizyzh/eQxREfvDjH2gp9TcBKQ8DUO6r5dCfOUVhbnaOiYlJJicnmZiYZHFh0ei3sqKCEyeOU1NbQ0VlJrz7AcBJ/rjM59xq21cBKJsdv9m5H6XNlsdvg5TvtG0Dle+hfZtgBR6dXdGPhbzMsfdhWYr1r0cdBENBgqEg+/bvRVVVFhcXGR8bZ2JikvHxcS58edEQeAaDgQxoqaCmtrrAXbSZONfMtGwFWMzsipKJanrx1Rf55INPuHLxGl6fj5a25qJgRc80W15RTktbM3dvd9PQ0oAv4M1mrRW1WkBNOxoZ6B7kztVOSqtKESURRBlIoagiOw+2MjMxy91rvRx6cp/BuiiCiM1qZdexNq5+cpO+G4O0HWvJDiQDVqw2Kw37anF47Uz0TpPYGKV6dzkWu4wiZNxXioIkSAbDot0TBVH8/9l7r9g48n3P71PVuZlzM1OiGBSGylmaUZYmnjn3xHvtCxi24ftgwy8LGOuHBS6MNRxe/GBgvcCufXfv3T3hnjThzBlJM8rSKFOBkhgk5pxz6G6yyg/d1ayurupEUrG+AEGy6p+qulj/D3/h/18Kfl7WYFCwflqtKIjIksxwxxijnROkZLqp2FqC3WkPrEMiiCHIEESRyYEpRrrHKK4qIjs/YOVR4lJEUWS4e5TJkSk27azF6XahXmzNYrHw/FEzfq+frSfeCwXtqgNoBaD+5gPsNhu79u8Is8Ys71+0DDUL8/Oc/fo7RNHCj3/2I7KysxKClFiAogcnXq+X7q5u+nr76B8YZKCvH//iIgBut5uSkmLq6uoCcF7owW63G07g8cCJemzRjsULKEZ9rMSKEm+ZqPVNSHntZYLKG6rXEVaMxpUssOgd075UtOCSk5NDdnY279W9B4DP56M/+B9nb28vHe2dPHvSCATAZUP1BqprqinwFOhCS0Q2EeHAot49etnKIIZgxWq1cuzUMWZnZ7n8/WXS0lNDAbbh92jZBbTnwG662ru4efkWZz4/FRzLsgvIIovsOLCd77++yNP6Z2zd+x5IhFxALpeLzTtqeXizgY6mLsprS1FnAaVlpFG9fQNN91t4Xt/Ohm0VIIIoBydkSQIrFFcV4Up10v64m5YbbWSVZJJVlIErzRHYxDB4fwRpOZ3ZKi6GPnOLaA37DEP3cFFiYnCKsd5JfHN+couzKKotwGa3hbtWgpAxOThN55Me0nPSKKstCgXPKu4j35yf1sdtZOZmUFJZHGZJEUSBqdEpOp/3UF5VFlgqXwzfT0gURNpaOhgaGGHvod243W7VDsiRLh9JWuL7by/inV/gRz/5LG5I0VpRYgGKKIjMzc3T+qKVluYWurq6WFqSsFhE8vPz2bptK4VFhRQVF5GRodoNPE6riXos2mcxnmPGFpCVW1GM+kymTNT6JqS8ETJB5Q3WasAKRA+ijRW3AvquIIgMjE0UWNT9Rkx2Bu6hQJvLL0qHIxB0qyyNr7iL2ts7aGlp4d6d+9y5dZeMjHSqaqqprqmisKgQQRAMrSxRN06UiIAVm83GmU/O8Ltf/Y5z33zHT37540B2hYELyOlysu/9fVw+f4WnD5+xefumCBdQXn4utVuqaXzcRFFZIXmFuWEuoLLKUoYHRmh90k5GdgaZ+elIshiKGymq8LDo8/OioR2/10/N7spgoGggZsWKlUVpkezCbNxpbgY6hhjpGWO8ZwJnupOsogwyCtKwWpetLEAoE8sSXJdE+YxkWWZucoHxngmmh2eRJJmUDDfFWz1ketJDE73aiiIKAiNdY3Q39pGamcrGPdXYrPYQpFgtVpAEnt5uQrRYqNu3JWyHZIvFgrwk8/DWE5wuB3W7tui6fOZn5nl45zGeIg/Vm6qiunwEAW5cvsnQwBCnPjqFp8gTFVL0XD16MSjqyX1h3ktLcwstzS309PQiSRIZGels37GdDRs2UFRcFL4g4grBxKgN47ZXZkExaiOe8SRaJmp9E1LeGJlZP2+BVmOn5VjWlXjKxJvKvNye/uNl2E6ixw36VT/zc3NzvHj+gubmZjraO1laWqLAU8D27duo2VQTmhDUmUShHZNV7agzX9TZQYHjgXKjI6P8869+R1p6Kp//7EdYbVbdTKAlKZClc/HcZTrbOvjorz4kIzsjIgvI5/Nx9ovz+Lw+jn12BIs1YNFRsoD8Ph9Xz95gYX6BvSd24XDbQynLShZRX0cfTfdf4Ex1sGlfNaJNDI050J8yPhm/189o7xjD3aPMT88jWEXc6U5sThs2lxW7y8bS4hLn/u+rHP+7g4gWEd+8D/+CH++MH++cD4tVJKswk+ySTFIyXGFWBTUcWASRvueD9LcOkV2QSc2uDdhstnBIQeBFfStDPaNsP1xHflF+mDXFYrHQVN9Ce3Mnh07tp7C4MCzLRwz2c+XsNcZHJ/n0Zx+F1kxRsny0qchPHz/j9vXb7N67iz0H9sQNKUZWFPUEPzQwxIP6hzQ1NrEkSWRlZ1FTU01NTU2Yxe9lg4l6vJHlE+s3WlvR+k+2nGF9E1JeR5npyW+7XhasxFPOCDRg9aAl2jiSBZeFhQUanzVx//59RoZHcLqcbHlvC1u314VtnKjtR52mqxw3gpW21nb+/MWfWVdZwcmPToTGpU0DlmWJubk5/vCrP+J0u/jwx6cBOQgiS6E1TYaGRvj+q4sUl3vY9f4uloLpylJwfZXJ8Qmunb1JSpqLnUe2IQd3PFbDynD/SMAqYRXZtK8aZ4oj2EYwfTo4PiWVeUlaYnZijpGeMean5/HN+/H7/AD4F/w0Xmul9nAlNocNQRSwu2w4Uxyk56WS6cnAYg23aABhVhRk6HrSy0jvOIUV+ax/ryK4F44YghRBEBloG+RFQzuVm9ZR9d4GlOX1lVVsxwbHuX3xHhs2rmfr3rpQGrMS3yIKIq2NbTy4/Yh97++ldlN1yIJiFS0Rqci93b2c+/o8lRsqOf3JqTDrSOh6EoSUxcVFnjc/5+GDR/T3D2C32di4eRPbtm+loCBxOEkUTKKdiw4UbyaggAkpr7FMUHkX9KbDSqBd40duraFFDgGHTE93D/X362lubkGWZTZt3sThDw6FFsSSVSCiHnc8sHL/zn2uX73Brr072bVvZ2iNlUVpMWJ9ldYXbVz49iJ1O9/jvZ1bdBeCe3T/CQ33G9h7ZDeFZZ4ggASsKpIs0dvZy72r9eQW5lB3YHMIQNSwMjk+xePrT5AkierdlaRlpYaNW2tdUe6Bcv1+vx/fvJ+JwSnO/T+X+eh/PEZmflpoY0K9FVcVOAn8HLBMSIsSbQ+7mByZpqymiLKa0uAWCmIocFYQRMb7x3l2p4W8oly2H9qKxSKGIEUQBeQluP7tTSwWkWOfHg2kGgvhC7vNTs9x/ovv8BR7OHbmCFarLcxtpHZFTU1M8uXv/0x6eho//tnnOJyOCGtKvJAiCoGYnsanjVy/ep2ZmVmycrLZsWM7m7Zswu1yR9wrRWsNJ8oY9esYziNJA0qssSRTLmY7Jqi8rjJ8wMy9ft4irWRfIHUbsfYIiqfc8l4g+nsJqff8MTwXpZ7eXkR6Y9LuhaLdc0g9BvWx9Ix0ajfWUrd1KwjQ8KiBRw8e4nQ6A2Z4UQztPaTsD6TsBUTwdwTC9vtRRl3gKWBqcorHDxvwFHvIyEjX7KOklIaMrHSmpqZpetJMSXkxrhR3YI+e5X2Qyc7LZqB3gK7WbkoqirE7bKF9fmQZUtNTsDvstDd1Mj+7QEFxLsq+SIEdkgXsTju5xTmM9o/S1zqAz7tIakYKFqsluN9RcF8atHvKiKHgVIfTjtVq4cnlJnaeqcOV5kIUl/fnCWXRWCzBOuHHx/omaK3vZGF2gcqt6yjZUBzcv8cSytSxiFYmhiZ5dreFzOwMdhzehtW27O4RLSIWwULD7WdMjIxz4Ph+0tJTg+NY3hkZWeaHi7fwe/2c+OgYTodTNRZBtSx/YM+ls1+fZ8m/yI9+8llop2w9SFGeIy2khO6fIDA2Ns6Xf/ySh/UPyc3L48zHZzh6/CglJSUhV6PSd+TfU0DqfX7UWv5c9NdbMTqn3Q8ovJ7+cfU49KTd18doPPHIhJR3QoZ7/Zig8pZpNWAl1E4cBrWVAEtYfZ0xrwa0RAOXeKDFbrezbt06Nm/exODQEPX36hkcGKC0rDSw+Z9qo0SCI9GDldBmh8HzJWUltD1vpfV5K9Ubq8KCIwP9B9OiAU9RAS+aX9Dd2cOG2srwl60QKJvvyeN5YysjgyOUVpaqJgAZAZGMnHQEUaCjuYvZ6Tk8xXkgaGDFbiOvNA9ZkhnoGGKgcwhREEnNSEG0LFsLBCGQbaOFFlEUWfQt8fhSI3XHN+NwOQLlglCy/LMKXiwWZsZnaX3QyXDXKCkZKWzcXU1eUU4QKhQLR8BtM9o/xrM7zaSmp7Dzg+04nPawmBSraKXzeQ9tje1s2lZDeWV5ZFyKKNL4qJmOF13sPbyXwiJPxIaDyjowoiBy54e7dLV3ceqjk7rBs3rZPVpICX5UNDxq4Ks/fY13wcvpD09z7OQxcrJzNC4kvQ03A9IDAyMAUR/XnhOinAvUjXLOAJK0bUdTIlaUeGEmajtRgMrUayMTVN4lvWxYUcrGAyzJWFkizkc5l6y1RW93Z/XvTqeTzVs2k5Li5uGDhzQ0PCE7O4scZQVcleVED1YCx5dhxWK1UlDo4fGDx0yMT1JZXRn5Ig0O1Wq1kpWTybPHjSzMeympKAnZUxTwsTtspGWk0vLkOXMzcxSXF4fGr8BKdn4WolWks7mL6clpPKX5oetT3BFWi4XsgmxyS7JZmPXS3z7IaN8YNpsVd5o7bDVXLbSIgsiSd4mHF5+y/fgWnC7HsitFx6LinfHS0dBNT3MfFotIZd16KusqcKW4QtaWwKaCFqyiheHeURrvtpCRlc6uIztwuhxhkCIKIqOD4zy+1YCnxMOO/duXd1RWlRkbmeDOtbus21DBtl11IVeQRVRl+QTH29fTyw9XbrJlayBWSYlLCQOQ0HNkDCnehQW++eob7t+rp6S0hJ//8ueUlJUsZ0bpWFAU6YGBHpxEA5NAm9EBIxqcqMdhpHgBxbSimDKQCSrvmlYTVlYTWNRlYllZ4oGWRMElFrTEApbCwkJqamvo6Oik/l49brcLT6EnAlYC3/VhRTmWkpqCKIo8fthAamoqeQV5ofqBFGdQKqamp7K4uEhjQxNZWZlkZGciIoRgRZZlMjLTQYAXz1oByC/KV41JRpYhJy8Lm9NKR1M3U+MzFJTkYbFakGXVRIWAzW4jvzSPjNx0pkamGOwaZqB9iIUZL4Ig4nQ7Q1YWtWXB71vkwYUGtp+oC5QRAynRyiS3MONlAKeXBAAAIABJREFUuGuUrqc99L0YwL+wSFltCTU7q0jPTg+5eRRAsQStKgOdwzTXvyArN4udH2zH5XIGAcYaHIfI7NQ8dy/dIzU9lf3H9mK32yOCZ6VFiSvnrmK3Ozh25gPstuUyosWighABn9fLt1+dJz09jVMfncJms0Y8W2ELxxlAyvTUFL/7ze8ZHBzk6PGjnDh9ApfLFfqsw9OVl0FBCwax4CTy7yR+q0ksOIllPVltQFkt64cJKW+UDEHFXEflLdZK11kJa0uIveZKouW1++rotqOzTkpkX6oF2XTBRr8f9QQRa+8h9RotOTk5/Jd/+1/w9Zd/5vvzF5iamubwB4cQRDG09sryaq3LC+MpK9Iqy+0DbN+1na7Obm5c+QFPUQGZWZmhcajXV5EFkZ17d9DfO8DNq7fJyc/FneqKWLV287ZNzM7M0fSoGXeKi7INpaHF4KwWWFyCypr1WC1WHt1q4M6Feur2b8ad7kKSRJAWQ2vCiLJAbkEOWccyGR8eZ7B7mJG+UYZ7R7FYLWTlZ+DOcAViU5xW7A47QnDROBZlvNNevPM+/N5FvHNexgYmWJhdQBBEMnLSKK4sIqcoG4fTEQKeiCX2ZYEXDR30tvaRU5DNtkN1qsDYQOCsKIj4Fxa5e/k+Nrud/cf3BUFAszePIHD35gPmZuY589lJnE5n2F4+akuJgMC1SzfwLfj47Mef4HDYg5Yn/eBZ9XOjhpSRoWH++Ps/sbS4xM9+8TPKyssiyirPVehYEsvXK4oduBobAOKZ3GP1s9xfYqCwWlYUMCHlbZKZ9fOOaLWABeKHlWTKR8vsCWszjutJJoMo3t2dlUyd77/7nvr7D9i0eRNnPj4dWNxMle2jt8Owko6sZNRMT03z63/6NSmpKXz+8x9hsVgMU5YnJib402++ICsnm5OfHg+1q6QsS5KEz+/n2nfXGegdYP/xvYHF4IKZQErasixLDPUPU3/9IX7/IrU7qvGU5yHL6iylQHvKOJWU6PGhCUb6xhjpG8Xr9Sk3FADfgo973z1i54k67E47ELQSiAIZuenkFGaTU5SD3WELTZqh+AwxHCrmZ7003m1mZmKW8uoyarZuwGq1hkGKVbSyuLjEre/vMj8zx+HTh8jND+66HIwzsQZjVDpbu7l99S51O99jx+5tUVORm540cuPKTQ59cIhtO7caQkrg+patKersnp6ubr7801c4HA5++rOfkFeQnxCkrBagrBacxOonvM9XByhgQsobKjPr513XarmClLaScQfFUydWLItumwbXFa97SM81FOECUv2uZPKIosj69euxWi3cu3uPifEJNlRtCLwkdWJWgg6YiOBau8NORmYGjx48ZmlxkdKK5WBYrQvI6XTgSnHx7HEjyOAp8YTiVAgWEwQoKiuir7uftqZ2cgtycae6EVSuKAERd6qLoopCJsYm6WzpYm5qjlxPNlabFQExMHIhCBAE4lhE0YIr1UVOYRalVcWUVBZSUJpPTmEWmXkZ2J12mu4+58AneyitLqG4qoiKjWWs21SOpzyf9Kw07DbbcsyIGIwHUWJSgrAy2DXM01uNLC1K1O3fwrraMqxWW8g1pECKtCRz9/J9psen2XN0N56igjBIUYJnpyam+eHiTXLzczlwZB+W4AZ9apePIASyfcbHxrlw9iKlZaUcOnIwzP2hjHX52dCHlN7uHv70hy/IzMjgF3/9C7Jzc0J1tAGziqJBip47JJ5MnWgulFhunXj6iew3cbeNCSmmgjJjVEytLqwo7SUCLInWednQEgtYtLCi/FxSWoLdbufunXtMTkyxoXpDKH1ZnbocLV4lKyeb+bl5Hj9sIL8gj8ysTMOU5eycLGZnZ3n2uDEUr6INrhVFgZKKYro7emhrbie/KB9XiisEKwggIGK1WSiqKMRqtdD9oof+zkHcqS7caa7lCSrYtRpYhGDAqcVqweFy4E51kZ6VhivFxe2z9znxiw/ILsjC5XbicNhVUKIE4FpU2T/LAax+r5/m+hd0t/SSnZfFriPbycnLCgW3KoBjES1Ikkz9tQeMDY+z69BOytaVoqxTogCFVbTg8/m5cvYaACc+Pobb7V6GFEGdihywhn371TkEBD798Sc666UsBx9r41IUcOnv6+ePv/8TmRmZ/OKvf05aRjoQaUHRi0XRTvTRAEWrVwUnRuNcizpR2zMze950maBiKqBYE/qK2kwCWNYSWoyuM1Fg0bOuaGGluDiw5se9u/eQZYmy8rIwK0qg3cjg2oACPRSXFNHR1kFzUwvVtVXY7XbN+Ai1UVRSRH9vP81PWyguKwpbX0UJrrXZrJRUlNDd1kN7SwfZuVmkpKUghK2hEphoc/KzyS3KYbhvhK7nPYz2j+FwOkhNd4cBS2iiQwhN9Oo4EL/Xz81v73Lgo72hYNqwjB8FNhRLShA8vHNe2p900lT/goUZLzXbqtiyeyMOp3N5HRXLclvSosy9q/WMDI6x8+B21lVVhCBFSUO2ioEg4RsXbjI5PsXRM0fIyc0OXy9Fs0T+zeu36O3q5czHp0PBzbHiUgTVPRgfn+D3v/09qSmp/PyXPyM1PS1sQtbCipEVJV5AiTdTZy3h5FUDCphWlLdEJqiYCtdqw4rSZqLAoq632tAS0Xaci8tp2zayrqjbFQSB4pJi5ubmuHfnHllZWeTl5xnCyvLvwT4B0WKhsMhDw8MGRkfHqKrZEPFCV67BIoqUlJfQ1tJK+4sO1letw2a3h2BFSTe22awUlxfT29VHa2Mb7hQ3mTkZoetQFoUDcLmdlFWW4Ep1MTY4RndrL8O9IzgcdlIzUghbcVUQVNYRMQQuPq+fH/5yh4Mf78XldoYmJVEDK4HVZgNZQK0N7TTXP2duep7SDSVsP1BHQXH+ssVCZUURxQDU3Lpwh+mJGXYd3MG66khIUSw0D28/oqutm/3v76VifXnEeinqsXV3dnP7+h3qdtSxdXtdVEgJ3T9x+bzX6+WP//wHFv2L/OJvfk5mcNuFZCAl/Dk1BhQjxWtdeFlwoq672jIh5a2RCSqmIrUWsKK0mwywJFM3GWgxsrLoWViiWVf04lYq1lXQ29PDg/oHVFRUBJbcV61gqxevEnIFAO4UN3aHnccPGnC7XOR78kPntfEqdpuN/OICmhqaGOgborJqvWoiWB673W6jvLKM0eExnj99ATLkenKDthd1WrKIIEBGdjqlVSWkpLkZGxqnu7WPwa4hfAu+gKvH6Qhf/wNCbh3/wiLXv7nF4U8O4Epxhbl7lNVlvfM+hrpH6Gjs4vnjNuZn5imvLmXbwTqKyjzYHfag1SXciiIIIlNjU9y6eIclv8SB4/soqSjWhRSLaKGtpZ2G+0/ZXLeRuh3vhYJnw9ZLCZb1Lixw9uvzZGRkcOrDkyGQMvrSxqXIssxfvvqGgf5B/uqnP6awqCh0f9Tfk4EUraLts7MWlhNlXMlCxloBCpiQ8pbJBBVT+loLV1BE2ysAlrWAllgWFq11JR5YUbuBKjdU0tTYxLOnjWzctBG7Y3kFW0KtRa5cq7iA8vLzGBwY5FlDI+XrynG5XYbxKi63k/TMdJ4+esbM9Ayl60pDABKY5AL1rFYLpevLmJ+b4/mzVuamZyksKwyDJCVuJQAVIulZ6ZRuKCE1PZXZ6VkGuofobe+nt7WP2ak5pKUlrNbggmzB4FTvvJfr39zk/U8P4nK7QA5sVDg7OUdvWz8vHrfR9qSdscFxQKCssoStB96jsKwwsDuyxs2jWFEsooWhviHuXq7H7rBz+NTBsOweJSZFAY+h/iFuXrpNYWkRh44eCFsjJXy9lMBEd/H8ZSbHJ/n0x5+Qlp4W1ZqiF5dy68YtGh4/4fiJY9RurA3Vh+QgJRErSqLWk0T0OgPKWrVt6pXJEFTM9GRTIa1mCrNu+wmmNa9GG/GkO8e7o7O6LUnnZ3Xq8tDQEP/0H/+JwsJCfvrLn4bSltWbGEZNWZ6e5jf/9FscTjt/9YsfY7VZw1KWZVWasSRLPLj3kPu36tmyfTNbd9eF+pJkObT5oCxLLEkSTx8+4/G9BrLzsthzZDdOl0PTf/jGiEqfvgUfI4NjDPYMMtQ3jM/rR3lFWKwW7E47krTE1//hLB/+zUlEi4jP6wu9RQRRIDM3g/yiPPKKcklNT42Y0JV1UUK/CwG3UltTO00Pm8nKzWb/0T24U9xhlhY1pExNTHPhzxdxp6bw0Y9O43A5w4NnNXEpTx494c6Nuxw+coi6OFw+amuKIIi0t3Xw5R++YPOWzZz56HQIhJSykDikqJXMTsVGbcWjlWbhrHYWT0T7phXlbZUheZoLvpkKSbu42aq3r3qBJQstibaRyKJy2usWBSEMVsIWbxOWF3VTflYW2BMEgfz8fM58eIavv/oz16/e4P0jhwPuBml53IIgIqquQxSCi7whkZaWxqkPT/LlH7/ixpUfOHLyg9CCcRD4JgpysDxs27mVmakZnjx4ijvFTdWmDYhSsKRoBRaRJLCIsGX7ZtIy0rh95Q4XvrzI5p2bKd9QiogYao/gQnMSYBFERFlCdIkUlXsoKvewtLjEzOQMUxPTLMx7mZ+bx7vgY2JkAgCn20V2XiYOlwOH047D7SAzJzO4fopmEheXYzjUKb6iIDI7Pcvj208YGxqnpKKEXYd3YLPZw4N4VZCyML/AtfPXsVitnPzoWExIGRke4e7N+6yrXMfmus2qz3657fBnItzlMzU1xblvzpKXl8uJU8cRLZawsoFr0cvQSR5S1gJQVgMu1hpQwISUd1UmqJiK0FoDC7xaaIkGLKsJK5u3bKa3t5c7t+5QXFxEZVWlatwBa4cCK4jh91sUBMrXlbNrz07u3r5HSVkJG2oql1e3lSVEUViGCREOfLCfudk5bl+7g2gRqaxZrwsrIhLl68vIzM7gzrV7PLz5iN6OPrbv34o71RUYvywhChKSLCBJMghi4FjQuiLaRLJys8gIBubKUuAeTY5N8tV/+As7DtSRlpUW8TmF7qMKTpTvaosFskxbYzvNj1uwWK3sPLidiqpyQrsgB8sri7kJgsjCvJeL31zG5/Nz8pNjoYwbBVIElRVEFEQWF/1cPHeZlBQ3R058EIpL0Y5Xz+UDIEky3379LUvSEp9+/mnAxYcWPCLXSVkrSHlb4QRMQHnXZX76pgz1sl4O6v+kV9pGPO0Iqkkxoh1R77/oyDRRdb96bQTKCRw7fozCwkLOfnuOmemZwPoqBu2q3QmK9uzfQ2FRIZcvXGF8bDys38B//MuTts1q4/iHxykpLeLWldu0tbRHLhEfWv1VICMzg2MfH2HngR1MjE5w4auLtDa1h7cviFgtllA/FtEa2ghQFAKruYaycoITvXLtoWOiEPpSjoXVVa0Ia7VYmBqf4vq5mzQ+aKawtJDTPz7B+uCy/1bREhiDxRoBKZf+cpmFeS/HPzxCXn6eLqQsf4Zw7eINZqdnOXHmBG63O6bLR3vv79y6Q19vH2c+PE12dnbY8xABO68RpKzm39vLkAkppswnwFRU6U3ca9ZXArARTzuxFAtYwtuMDSt6fVqtVj757GP8Ph/fnfsukOUTMWmKEROYAhNWq5UzH5/GZrXy3V8usLi4uJx+qwMrVquF4x8dp6ikkJuXb9HxvEOV7WKJgBWLaKFq0wZOf36SfE8+j+80cPmbawz0DAaDWa1RgUUI/qyMxyIGjLTKMatoDftSl1PXtVosLMzN8+hWA9fP3cS74GPvkd3sP7oXl9ut6+pRIMLn9XH52yvMzy1w/KOjFBQWhFw8akhRw9ezhkbanrexe/8uikuKwiBF93lQ9QswMDDAnZt32LRlIzW1NRoANY5L0ZbRPkt6z5pRG0rdRJa1f9MAxYQUU2CCiqk49bJfGqsBLYkAi279GLBi1Ke6riAENjE8cvQIrS/aaHzapBlf+Cqkevc4PSOdkx+eZGx0jJtXb6Jev0NrgREFEbvdzomPjuMpKuCHy7fobu8JgxUljTe0iqsgkpqeyvunD7P/g31ISxK3L9/l0jdXGewdMgYWUQj8rAEX5Z4qvytfShk1nIiigG/Bx+PbT7n41VV6O/pZX72OU58fp2x9WWjNEyNI8fv8XD57ldmZOY59eARPYUGYFUkPUsZGRrl1/Q5lFeXs2LVd93kw2nAQAkvVfH/2e1xuF8dPHA9BSqxnTQ9oY0FKtL+7txVQwLSimAqXGaNiKiG9jPiViD5VL8hk4lmU+rF2ctaLXdHGrahjVhKJV9mxcwdNjU1cvHCR8ooyUlJTQpsXioKAhP4uy2IwlqW8opydu3dw7859PMWFVNVs0IxzOV5FhACsfHycc1+d5/qF6xw9cwRPiScsZiUQgyIhSBKiHLiuiqpyStYV0/mik6cPG7l16Q5ZuVlUb9mAp6QAgtdmEZbjfUTL8r21WsTQd6sqsFTv85ibmeNFYzudLV0IgsC66go21tXgTk0J3RctoCjHBUFkaXGJq+evMzUxzdEzH1BY5IkJKUpcisvl4vjpY2FxKdFcPmq33P279xgeGuazzz/D6XSGXZORNSWeSV4PUvSUCKCsVC8TTsAEFFP6MkHFVFJ6FcACK4OWWMBiFGybDKxE9C2KnPnoDP/w//4HLl24xCc/+iSiTrQsIESRfQf30dfbz9WL18gvyCMjMyM8C0iVqSMCToeTU5+c5NsvznLp3BUOHt1P2fqyEKxIqAN5CeX8WK1WKmsrKa8sp/15O88eNXH78l1sdhsFRXkUFBeQV5iLw+mIABcx6PoxskSMj0ww0DPIYO8Q0xPTCIJARVU5NXXVgcXxWAaUUDsaK4ooiizML3D1/HXGRyf44ORhSkqLI3ZD1kKKIMCNyzeZnprms7/6lJSUyLiUiM9NA0kTExPcvHGTyg3rqa6pisvlE09cSjzWOm0dI62G9eRVyIQUU0YyQcXUivSqgAXis5QkU0/PupIorOhZVXJzczl46ABXr1yjuraa6ppqZEkKjkcKtScKItosIAjEu5z+6BS/+U+/4bu/fM+Pf/E5FoslKqy4XC7O/Og0339zgavfXWfnvh3U1tUEEUUfVkTBgiTLWG0BYKnYUMFA7wDdnT0M9AzS3d6HIEBWbhaZ2enYHXYcLidOl4OF+QUAxocnmZ2aw7fgY2Hey9zsHCP9I/h8/sC9KMihYnc5JRUlpKS6Q/dUCyjK/VBDyvTkDFfOXWN+bp4PTh6mfF1ZGJgYqaWxhRfNL9i9bzdFJUX6z0YUlw8IXPzuIoIgcOLUiWUgScLCEQs49CbtmHVMQDH1lsoEFVOrovC0zVdjZUkGWFYCK/G2r4aVvfv20tTUzIXvLlJaVorL5Qq5gLT96rmA0tLTOHH6OF9/8Q0/XL3J4aOHItdX0cCK2+3mzOdnuPb9Ve7fqmd6eppdB3YuA5IGVmDZuoIIol2kuLyYorJCZFlmdHiM/p4BBnoG6e3sx7vgQ1nVbX4uACr3rtXjcgfdIhYRl8tJYVkhhSUe8osLsNttwXuk3QdnOcZH6+oRRZGRgRGufncDURQ49ekJ8gvywiDFyOUzOTHBD1dvUVxazM49O0Irm+q5fLSfuTKO5qYWOts7OX7iGOnp6QlbU4yfk9gun2QWbktEJqSYep1lgoqpVderdgslAiyJwkp43cRdQBaLhY8+/pD/+A//yK0btzh64qhq7OFWFW0boiCAKLKucj07dm2n/t4DyirKKF9XFvM6rVYLH5x8H3dqCk8ePsXv87P/yD5dWIFwVxCh4wHgys3PITc/h/d2bA6sWrsksbDgZW52nsG+Ic7+/jz7ju6hoCgfp8uJ1WYNX09EE0Cs3D+IBBTlnCiKDPUPc+XcNVLTUjh65ggZGelxQYosS1z+7io2q40Tp49jtVp110tRpGdNWVxc4sqlKxR4Cti2Y1vE+GMpXpdPshN3sqDxqgAFTEgxFb/MJ8XUmknJWHjZL6REMxQSKhslE8goxkFdTxAEPB4PW7fV8aD+IRMTExFrqxgFcaq17+Be8vLzuHLhKvPzC1FTlkMTucXCngO72LF3O+3PO7h5+RYyGteK8hWWFSSEHbdYlrN5RCEQ05KamkJ+QS5FJQUA5OXnkJGZjsNhxxK0VFhFS2BfHiE8RTlkzQhb8yUwHoslkKE03D/ClXPXSE9P49SnJ+KGFFEUeHT/MaPDo7x/7DApwUBd9ecTjzXlYf1D5mZmOXr8aODerJI1JR6tlcvHhBRTb4rMp8XUS9GrgJZEgCXaf9cRZeO4hlj9Hjx0CFEUuHn9lm4dvf/qQ+AgilitNk6cPoZ3YYGrF68iy3JcsCKIItt21rF9zzban3dw6dvLeL2+MFhRr8KqQIkesGihJdBneDCtHpRo4cRqUdZcsYSPIXg97S0dXD57NQQpbrc7JqQoGh4cpv7uQ6pqqqisqtR1+UTe4/Dn1O9f5N6de1Ssq6C0tCTudGSjz3X5+MpdPsnARqIgv9oyIcVUojKfGFMvXS8bWuJ9MScCK+H1EreqpKWlsn3nDp49fcbIyEhcK9Zqj+Xl57PvwD7aX3TwvOm57riNYGX7rq0c+GAfQ/1D/OWPZxkbHY+wZmitK7rAoraGqD7TsPVTglYR9ZfVYkUNGhGAIorISzK3r93l9tW75BfmcerTE7hSjCFFe88laYnL318jJcXNoSMHwyAl8v4ar0D76MEjFuYXOHjogOFnu1bWlGhKFlJepUxIMZWMzKfG1CvVywaWZMtETGKrYFXZv38fdruNm9dv6taJZlVRtG3nVgqLPVy//AMz0zNhVhWjMSmwUru5hjM/OgPAuS/O86K5bRmqVBO3Gka0wKJuU1SNTQ9G1eWUPtRxKEo9gLmZeb7780Vam9rYsn0zJz46htPl1LSjAToh3OVz//YDJscn+OD4+6H1TrRlde+Pasw+n4/7d+9Tsa6CouKisHLxaK2sKa8aOJKRCSmmkpX55Jh6LfSyrCwrgZXodaJbVULlVNfndrvZuWsnzU0tDA8NJ2VVsVisnDxzAhmZKxeuRlyH1qqiliCKFHjy+Oynn1BQVMDNK7e4f/shAgqAhMOKevyRFhYtNGisLppJWg0o2kDaybEpzn3xHdNT0xw5/T47924PxYVo2zJy+QwNDtPwoIGNWzZSXlEesqbofR5G1hSAJ4+fMD83z76D+0L9Gel1n4jfRLgxZQpMUDH1GmqtoSXZF/ZKrCqRlpHApLl7z25sNisP7j+I2YZ6HGowyMjIYO/+PXR39tDT1aMLNUo7gg44uN0uTn58go1bann26Bn1dx4p2cbhLhk1UGiARSkrKpCDEAYxWqCJCKINjnl8dJxL314OZEd9fjqU0aR170Rz+QgC3L5xF5fbzb6DeyPOR7OmhEug4fETCosKKS0piSindfsYt2PKlKmVyPyLMvVaa62gJdZkspZWFbVcLhcbN22k8VkjCwsLEX0b/aevliCIvLd1C+kZ6dy8fgtZleKstqpo21FcQBC4z/sO76V2cw3PHj3jwreX8c57w65LCzlGMSna3/W+1HVFQURA4EVTG+e/vIAoipz45BiZWZmBtsJSlpfjUtTXonb5dHf2MNDbz47d23E6nTGtKdpjigYHBxkbGWXzlk0RdRPVq3b7vGp4et2tTaZeb5lPj6k3RqsNLMnASjJWFW176qBagB07d+D3L/LsyTND9482dkI5rxyzWq3sPbCH0eExnjc9jyhr5AJSYCVgORE48MF+Dh49wPDgMN/88SxDfUMhOIjICgrBgSqGRed+aANp1YAiCiJ+v5+bl29z59pdCory+fgnH5IVB6ToWUdkWebuzXukZ2Sw+b1wwDCypmhjgZSfG580YrFaqNlYExqLkfSeg1cNB6ZMvS0y/5JMvXFaTWB5HbIzPB4PRcWFPKh/GGYNidae3mRbU1tNgSefWzdu4/P6QmWNgCsy1iMARlW1G/jkrz7Cbrfz/V8u0VD/JBS3oq4f7fqEKJYw9ZgmxqY498X3dLZ2sW13Hcc+PILb7Q61EV4ncqG4sPOiQEtjC2MjY+zevwuLxRLVmhJNkiTT1NhE5YZK3C637jUE7kN8e/SYMmUqeZmgYuqN1atYTA6iW1WScf8AbNu+nfGxcbo6u6L2pzvxqyw0h44cYnZ2jvt36g3vjd4kr/09KyeLj35yhooN5Ty8+4gLf7nE/Ny84fXpBc1q29Seb2vp4NwX5/H5fJz85Bjv7diCRQzsuGy0Vomey0eRz+fj7s37eIo8bKiujHqNgWPGLpj2tnbm5+fZvGVzzHYSOf+qlMyu46va/yvYC8zU26PX86/KlKkEtFJgiWW9WE0ZtVe7sQaHw05zU0vU7J/I9sLPewoLqKmt5tmTZywuLoadM4pVCZ3XxGw47A4OHTvIvg/2MTQwzLkvvmNsZCwCVgzTfA3gRZIk7t98wK0rt8nz5PLJTz6koKhg2UqhgZR4rCkAbc/bmZ+bZ/+hfSHgMbpW9fj11NHegdPppGJdue55U4nLhBVTycoEFVNvjd6kgD1tnIrVaqW4pJjurm7jOjruHr0yNZtq8Pn8dHd2h47pZ8fou2/UuxhbRAvVm6o48/lpZFnm/FcX6GrvDsvgUcYSjwXJ5/Vz+exVmp+0sLGuluMfHcXldsV1zXrL1od+FwU6WjtIy0gn35MfPJZYkKq63eHBYfLy85Y/p9fo2UrWOvKqrSqmTCWr1+evz5SpVVCy1pVErSrRszJ0YiLimCBLy8oYGxtjdmZ2RWMqLinC6XTS2tJm4CqKblXRHhcFkZy8bD7+6Udk5WRy7bvrNNQ/CSzbL2hjVwTN9+VMn6nJGc59+R1DA8Ps+2Avu/bviFjJVc/lY2RNUX8GXq+X3p5+1leuC4sbiSc+Rc/iMzw8Qn5+XkTdZJSIC/Btl2lVMZWMzL8gU2+lXrZ1ZTX6KysrRUCgS8eqEtMSoOrfYrGwfsM6Oto78fv9UdtJZBJ1uV2c+uQE66rW8fheA9cv/oDWNfKXAAAgAElEQVTf7zd0T6nb7uvu59yX5/H7fBz/+BhVtcsxJNFcPrGklOnu6EFaWqKissKwTPgxY5fa5MQUi4t+8vLzX9uYk2T1OlhVTFgxlaisr3oApkytlURRTOilKAriqr/IBUFEjrPNAk8BNpuVvt5eamurV9TvhupKnj1ppLuzm4r1FQnXFwUBKZiBpJbFauHg0f1kZmfw4M5Dutu7yfPkUVhSSFFpYajcon+RrvZuBnoHGegdYHpymszsTD44fZj09LSVXJquOto6caW48RQWrBguhoaGASgoyF+NoSHLUsJWlVh1JFlK+jqVZ/xVQpgkSW+Uq9bUq5UJKqbeaiUKK4btrAHERPQhihQWFjLQPxCzXKxrKiktwel00tHWGQKVWNcQ7zUKgsCWbZvJK8ilq6OH/u5+Htx+yIPbD3lvxxYALp+7yqJ/EavNSkFhPtWbqqisXY/NZovoMx7FihHp6ephfdX6VUkXHh0ZQRAEsnOyVwQE8SrZSXulY3vVwKI8wyawmIolE1RMmVLpZQBJNKWkptLf35dQHT3rhyiKpGekMzc3t6LxRLsfeZ488jx5sG87c7NzXDp7hUf3GwCYmpjm5KfHKF1XisUSmYGz0jGptbS0hM/nIzUtdVXaV9ayWe1xK5J0Ynv0xxHbErMaIPU6AIsJK6aiyXw6TL31WquXYLJBktEmBJfLyfz8QrJDCpPT6cC74E1qHEZljTJv3Cludh/azcJcYOzl60up2FARMdnHM0EnKsW1ZrWuzv9dVqsFWZaTssS9CshdrT4lWXplkG7GrZiKJhNUTL0Teh3/Y9OmKAM4HA68Xi+EZbokN7nbHXYWooDKaiu/IJf3dgZcP8r3l6FFf2C9GK1bSa2EoCy4Bot2HZq1lNFEHW9802oChgkrpl43vX5vb1Om1kjxwkq01VXj7itJuHA4nciyjHdh2aqiF9Qaj5xOJz6vMajEMyEpZZTvsmoyUdeXZBlJlqnaGMjmsTvsBu0ldy16Y1Lk9QYymxSLit51aY9FG4fVGgCVpcWl0DF5hdYVLXAkch8SgZXVtq68bGiRJMkEFlMRMkHF1Dul19GyIqsmLafDARDaSTke6U16kizhCLp+lPZjTTpa8FgrqdsOm8ylcCjSO6cnxfJhserHlCRy3YF2AsCzuBRpUYkAN+XersLkGq0NWZYSBpY3GVpMWDGl1uv31jZl6g1VohCU7Ms43np+vz9i8tZOdvFOfhFj0IEan9fHkwdPARgZHF0Tt0WkZUTC6QzA3fzcXHxWoij3T5Il0oJBuaOjY3GPK9oYFcVjVYn12Sb6ea02YLxMYDFhxZQiE1RMvXOKByheVQbEQtBV43Q6E6qn91IfHxsnIzMzZsqukeXCyO0T4fKRJF40tfL1P/+ZlqcvALjy3TUufXuZkaER3ck1EYuNUVmlXXeKG7fbzXBw/ZPwMrJuHaPfAQoLA+vB9PX2B/tPfsKMbc1Ze1hRxvEmAovpCjIFJqiYMvVaybuwgCAI2O36MR6JaHJ8kozM9IjjkrR6bp2h/iHOfXGe21fvkJqexpEzhwF4b8dmRofHOPvFea59f4OJsfGoFgUjGIrH/SMIAtm52YwMjoS3n+QE53Q5ycnJob8vPE08VpxKPP3FbWWKA1ZWAixvWqaQCSvvtkxQMfVO6lXGqkR7sXu9XhwOR4QVJHKSj2xDXWZxcZHpqWkyMzPjDC7Vj08xAghZlrlx+RbffX2BhXkvB47t4+Snx8jKyQKgauMGfvTLT3lvxxb6e/r55g9n6e7oiZhgk42FCR+vRF5+LuPjE6EMoGQCatWTYWFxIX29fREWGXU72jiVaONTK97A2njBZyXuu9UCjZcBLCasvLsyQcWUqQS01i6h+YX5UMxFMlImi8mJKWRZJjM7M+y4WhFuEIOMHj21v+igrbmNmvdq+OTnH1JRWR4BVxabhS07NvHZLz8lMzuDuzfu4/P6IvqWNMG+Ri4m5ZxeNk1OXi6yLDMyMhofpEhaWAi/9qKiQrxeL8PD4VaaWJIM7mEyLiClvUSA5VVDy1oDi+kKejdlgoqpd1axrCrxQMlq74w7Pzcfik+JZvUAYzeCJEuMBifYrCCoKOW1bp9oVgYjcOjt6ef2tbtk52WzfU9d2EJrei4bu8PG7kO7WJif58I3l5ibnY8YvxGs6I1R73heQS6yDH09veFlJCmpOJXi0hIAOto7DMcVdjwOy5AWsPQsKysFFnXbrxJaXgawmHp3ZIKKqXdar1u68sTkJOkZGXGXN5rYujq7cTgd5OTm6NSJnGyNwEALKR2tnVw+e4XUtFQ+OHUodP9iTUw5edm8f/IQk5NTnPvyPOOjE4H2Y7iB1OBjlNYMgZ2dCzz5tLa0GZbRv3Z9909mZgaeQg9PnzyL6dqJOJeAZSrRQGMFWF42tCSrtQQWE1beHb1eb2lTpoKSJSn09a5IkiSmJifJylq2gkSLozA6JssyPV09FJcWIxM9YyasnSggAPCiuZXrF34gOzeb4x8fweV2GZaVVROqMr6isiJOfnoMSZI5//X39Pf0644llgtIC1VK/crqSsZGxxgdGdGxPskJu382bdnE6MgIfcFNImNZdtRAYzSJxuOCC5Qztq6o+0hksl4JtKzUymLCiqmVyAQVU69UaiAxghOjMqsFMa+DVUWSJWamZ1hakkhLS0u4vqyaRMZGxpibnaOsvDTUtv5kGDnxGFlTnj1q5Obl23hKPBz98H0cwTiakMUjOGkafSbK+YysDE5/foKUVDeXzl6hraU9NP5Ae/G7gLS/r6usQEDghcqqovStVTT3j1K+prYai8XCs4an4WV1ACqaYo1bbzzLZeMHlpcNLS+rXsx2TVh56/Xq39Cm3imtNmi8TZaX8fFxgDCLCsSX8aM+19XZDUBxaXH4OSnSqgDGcRfKzy+aW7l/6wFl68t4/+RBbDZb2KQTbZ8avYnQ6XJy/OOj5HnyuHXtDqMjY2HXqYWVyJ/lSJiVJZxuJ0WlxbS1tIYsKMm4f0LjdDqpqq6iqbEJn9+vW0bbppFVJV5YiQUsiUBLMu6hRMDldQIWE1bebpmgYmrN9bJgYi36eJkLv4VAJTsrZllZE7OhVndnN1nZWbhT3VHq6gVyRlpTZqZnuHeznvyifA4c3YvFYgmHBtX9Vk906glPbyK02W0cOLoPh8POD5duBjZiJBJW1GMJHI+c8NXHKqvWMTk5zUBfv851J+f+WVhY4Hnz87Dz0awqicBKosASqBcftCj9r3Vcy0qAZTVlwsrbKxNUTK2ZXpWlI5l+X5X7Rz2pjY2OYbNaSUtLi+s/cIh8Ofu8Pvp6+ymriO72CZ2LMlH7F/3cuPgDyLD30C5EUdSFFKNJLdaKsg6ng73v72F6cpqbV26zJC2FndeOJx6rStn6Mux2G41Pm8Pq6QFJPO6fsvJScnJyuHP7Lks6Lkn1uMKzeoxhJd7PNh5YSARalLEkAy1xtZ0EsKy2dcVMX347ZYKKqVXX6+KKWasxrJWVZWRkhOycbMMl76O5WJSXfVdnN9LSEuXrKzR15SixKpHWFEmWeHyvgaGBEfYc3k1axjI8qSeDCLdUMHg39F01kYZZSYJj8RQXsHV3Hd3tPTTUP4kYV+C7cVaS8rtyzG63s6F6A23P2wz3/tGzqhhulIjM3v17GBke5nnLc936Rm1HC66N17oSaCc+C4fRvTYsnwC0JGJlSRZYVlMmrLxdMkHF1KrpdQEUtRIZ08u0qui9SMfGxsjOyU6+TVmivbUdp8tJgSc/arlYE3hfTz9PHj5jw8ZKyteX6o5bm1oc1+SoAyzVm6tYX72OJ/XP6GjtCGtb6wKKZVUBqNlczeLiEi2Nz8P7lhJbU0W51uraarKys7j1w20Wl5aCfRu7gOK1fhlZV6JN2okBw9pCS+z+EwMWE1ZMGckEFVMr1usIKFqtZHwvI07F5/MxOTkVBirR1hXRkyRJdHV0U1peCkLsF78sRca5yJLE7OwsP1y6SUZ2Bjv2bdPtVw0S+uNcDmbVS20NryOz68AOcvKzuXXlDqMjo2F9aPuPNsHLskR2bjaewgIanzQmHVQbdk6AAwf3Mzw0RMPjhoh2jMYYuAY5Ztqy0dgSgZbVtLbECy1rASxr4Qoy9ebLBBVTSetNABS14hnrq4pVGR8LBNJmZ4VbVPQmAqNA2qGBIbwLC6H4lFBZg2wfRerJQZZlbly6ic/n5/Dxg1it1jCXj3pM2oldMhiXUV/qSVO0CBw6fgCb3cbV89dZWFhQ1dEPrFXO6X2utVtqmJiYojuYAaVWrKBaI6tKaVkJN67eYGZmNnQt2jEZWVa0sGJkXYkFLYmAS7wBuStdYC4RYIlXq21dMfVmywQVU0npTQIUtdZi3KuxjL5RanI0BVwZy9fT09WDIAiUlJXolpdVk53efZAliaanzQz0DrBz/w7SM5fXc4kFKXpji5ZxomddcbocHDpxgNmZORrqn4YsJPp1jCd1WZYoX1+Oy+Wk8UljeJ0YQbXRYlWOnTiGz+fj3NnzocDaRGElFrCor83QhRTFUqVVMuBiWGYVgOVVWFdMq8qbLxNUTCWkN82KoqdY49ezqqy1+2dqahqA9Iz0iHOxXtbKC723t4/s3JzQXkGxpA2i9fv9PLrXQEFRARtqKyP6jgYp8fznrS2jByvZuVlU1q6n5WkLk+OToX6jWVWUY+r2rFYr1Rur6WjrYnp6Oj7XTwyrSlZOFh8cfZ/21jbu370f0U48sBJoO3K14XigJR6r2GrEuMSCltUClnhlwoopE1RMxa03HVDUSgZWws6vIrhIssT01BQOuz1uyNBqcXGRgb5BCos8YfEa8fYvSxItz17g83rZuqsOkMMgZLmsPqRoFes/eTWsqF1BAFu2b8RqtVJ/62EoZVk5rx+bEjmhyrJE9aZqAJpVqcpK39GCaqNZi7Zu30plVSXXr16nt7cvst8osBLNuqIeWzQQWE1wSQRadM/FASzRlKh1ZaUyYeXNlQkqpuLS2wQpil6na5qamiItPWBNMXKlRNPw4DBLi4sUlRRp6i2nJUebGBYXF3n66BmeYg+5BbkR/Rqtjhu5z1D8k6LRYmhOl5MtOzbT191PX7f+fkBaC4r6mHI8PSONkrJimp42sbS0pHv9EUG+MawqMjKnzpwkJTWFb776htm5+YjxJ7LsvwIsyUCLevwrBZdY0JIssKymdcWElXdXJqiYiqrX3dUjS/EtdGVcP/5ri8eKkmww7tTUNOnp0ff4ifai7u3pQxAECos9MftSsn3U7b1oamVhfp4t2zdHnazU4zBalTZm/wZgoO6jsnY96Zlp1N98gH/RH3Y+XqsKQM3mGmZm5uhs79QZR2JWFWWsTqeTTz77mJmZGc7rxKtAJKzoWVeShZZEXEXxxLloFdUSFsUttBJgMWHFVDSZoGLKUK8SUGRJjuvLqGxifelf58vMAFJbVJJRf28/2TnZCbuOJFlCWlri2eMm8j355Bfmh44rMgpo1TuvPhZrMgy1qZnoJVnGYhHZsW8bU5PTtDa1GfYTbSKWZYnS8hJSU1NoetIUfs3RgnsNrCrqsp5CD4feP0jr8xecP/sdXp9vuW15OWYlGrCoj0WDFiN4Uca6UniJdi4eaDEak55MWDGVjExQMaWrV7P0fXKgsRptxb0onMqqsppxKj6vD2dwR+JoMkpNHh8bJycvJ6m+R4ZGmZmeZn3N+rDjRrEp6nPRFkwLK68zEUazrAB4igvILcih6Ukzi0uLEe3FE1QriiLVG6vo6e7VDarVpirHa1WRZIkdu3awZ98enjY84be/+i1jwcwtdXllTLGARX3cGO7WBl6MzkX2nziw6CkWrMQDIqsBK6beHJmgYipCLxNSVhNOYvURu1zkdcdrVVlJivLS0hJLS0vYbLa46yipyZIs4fP6mJmZTSi1Wa3Otk5EUaSkvDgqeGgna+25ZP4jNox9CU58tVuqmZ6coaezN1TeaCE8I/dPZXUlkiTzoulFeJ0ErSoR14/MwcMH+NFffcbkxCS/+sdf0fqiTbc9MAaWeMElXnhJNN4lHktLeJ/x7+1k1OdquIJWCiumVeXNkQkqpsL0siBlreHEqM/XUb6g28But4eOxbvJHMDo2BjIMhlZmaGJRb3Qm3b9FHWchyzLdLV1U1RaiN1hD/YtGVpT4l9ZVY74MqoTAgGdWI+iskJS01JoamjWn6h1gmrVfciyRHpmOp7CApobW0IWFL1JWTse9bVHsxStr1zP3/ztX5OWnsYXf/yCG9d/CMGC7kRvEPeVaGxJtHLRwCXW+jbxWln0YGO1rSuxZMLKuyETVEyF9DIg5VUASiL9x2NVidf9IxpsLqiV3xcIFrXZly0q8dYFmAiuapuZoEVFkiWGB4aZnZmlbF1ZQnXjDZwN788YVozKi6JIzZZqhgdGGB4ciau+HrzUbqllcmKS3u6e8DY0qcpGVhXteW3GUmZWJr/4m5+zcVMtN2/c5Nf/+bd0dHRGAIueSyhecIk3xiSemBftPdBCS6y+wtvWB5aI64liXTGSCSumwAQVU0GtNaS8akDRKtp4VnovtGATyy3k8wcsKjabPWo5I42PTyCIIukZ0bOG9NTV3oUgCpSUF0ecixVEq3c89hL6BvdcBwAUrauuwG638fzp81DZRN0/5evLcDicPGsID6rV1teORz1mIxeQcsxms3Hqw1OcPHOCyclJfv/b3/Orf/o1DY+fhKxmy+M0trTofelfa+IAs3x9iUOLXtth41+BdcWEFVPRZH3VAzD16rWWkPI6wYmeZElGECOtF7IkIaiAQxTFmC8zQRDjtjSo21tpUO787BxutxuLxZLwC3tkaJSc/Bys9vjjY4wUr7tKkuWQxUiSJd3rVx+3Wi2UVJTQ19WHLMsIOtYmo3YgMAlarVaqajfQ2NDIwvwCTpczrLy6XXVbkiQFPqvgmGVZQhDEUJnQZyiKoXu/5b0t1G6s5WnDUx7cf8i5b89x8ftLVNVUUVZWSnFJEZmZmQiCYPh5aa8l2t+o+jnVa0/dlvq8clwNK+p7q742dV299pbbkoLtqMvIERZC5b6qpVdX3U+sv5N4yph6M2WCyjuuNxFSYo1ZSDCtOBlYEQUx7CUdDyAYlbNZA5CwqFovJBH5/YvY7Mn9KU9PTeMJrr0Sb4BkvOVWQ8okl1+YR/vzDsZGx8nJ1WzcqPmcluuGT6JVNRt48ugJL1pesGXrluVyqklTPdmFoCQGrOi1YbVa2bp9K3Xb6ujr7eNpw1NePH/BsydPAXCnpFBUVEhRcRF5+Xnk5GSTlpYWBktGihdiBA1gaOvHCy3xAks4+EkRsBKoEw5CesHq2rpGfay2jMZj6tXLBJV3WG8KpCQ6Tm35eMDFCFZehqy2wJ+h378Yo6S+/H5/QhlDihb9i8zPzpOWnhpX+WhZMnqK/h9ypFVFCwZq5XnykGWZ4YHhMFAxmrz04CUrN4vsnGyeNz0PgUo8Fh2ja4sFKxCYzItLiikuKebEaYnRkVH6+vrp7xugv7ePF8+XM5EsFiuZWZlkZWWSmZVJRmYG6ekZZGVlkp6ehtVqDWtbT2GwYPB3oAco0aAlXmBJxrqy2rBiWlXeTpmg8o5qrSBlddZAWd2xqduLBi16sBKvVUWreFxFihTIWPT7Y7arp2RBZXp6BoDUOEElEamtLkaTTiJKTUshJdXN0MAwtVtqAH2XgtFxZQxVNVXc/uE242PjZGVn6bp/4rGqhJ3TwApETuYACJCXn0defh5bt9UBMDc7x+joKOPjE0yMjTM+Ps7Y6Bhtbe1IS8v7HAmCQEpqKpmZmWTnZJGVlUVWdhZZ2dlkZWbo9xdU6Fp0wCUatCQCLIlaV7Swom7PqJ5R+4mejybTqvJ6ygSVd1CvK6S8nKyj4H95Bi+jeGBFTwpcaONUREGIcIuoQUQQhBBk+BeTt6i43e6E681MBUAlLcbS/clIPcGsFFIU5XnyGOwbDAKFfplYk1Rl9Xru3rxLS9Nz9h7Ys1xPZ4IysvQYwQoQASwQPgFrQcLpdlKaUkppWWnYcVmWmZmZYXJikqnJKSYnJ5mcmGR8fILmxmYWFhZC4GC12sgvyKfAU4DHU0BuXi7ZOdlYLJbg86fv+tECvBZatL9HA5Z4rCvJxq2YsGLKBJV3TK8jpLyaVXCNgSWWGyheq4pa0QJtBUHAbrfhXVhAEMWE78fSkoRoSfzFOh/cUM/ljm/Zfa2VKFHLz0qVm59DZ2sX87PzuFPdcQOQetJyp7gpKSvmRfML9uzfDYI2LiXSqhI4HhtWlL4U6UFL6FyMAFiAlNQUUlJTwjaaVNqcn5sPWF/GxhgZHmFwYIiGR4+pvxewylmsVjweD6VlJRSXFFNUXITdbo8Al1jQogceesASzR1k5AoyYcVUvDJBxdSK9KYBitEYtMCihZV4rCrxyGhyT8/IYHJiMmZ9QRARkUAUkaTA+gJOpwOf1xezrlbKAm8+rw9XilsXpvQsQolotawpAE5XYIsBr9eHOzXSgqQ3MekdW1e1nq7vrzA4MISnsEA3xiRqmypYAUIBtor0oCVQTgxrI17pQY3D5cDj8uApWt6EUpIkJsYmGBkeYWhwiJ6eXu7cuhMar8fjYV3lemo21pCVlRkTWoyARc8lFM0dFM0VFG+Q7Wq4D029uTJB5R3S6sd+JDeBrcY45KX4+hYs8QXI6oFINFjRi0HRun9ixamoz2dlZTI+PhF1jEaQ43Q6mZiYDLzcpfjXlHAE9xbyLnjjKh+PZmZmQz+vdGLRTnC24Mq9fl/iUKZus3xdGRaLhdaWVjyFBRFltFYVrQsItFaEcMuAURBxrM/F6L//eKFGFEWyc7PJzs2memM1AF6vl8G+QXp6eunu6ubGtevcuHYdT6GHmtoaqmurSU9P14UWI2DRi2Exsq7EAyuB8/EF2UbcG9Oq8k7IBJV3RG86pMQLJrHqRQOXeGBFT7FcIPFYJbIys+ho79Ddp0UURBCNJyyXy8VA/2D4eABY0i2vyOkKuHwW5r0JWU6M3FiP7jTwb/+3fwfAn3/7LT/7r38SsoJopZ6UjCYS7XF7cK0Xny8yjVv/sws/pkyOdrudsooy2p63sf/wPkRL+LooepOTEawAYdYV9bUZu/oMgCRJN1o0F5PD4aBsXVlw5eH9TE1N8aK5leamZq5cusKVS1coLStj156drFu/DouOCyceYIkXVtTjjWUl0X4WZibQuysTVEwlrGQgJRlASRZO4mnTCFhiuXhiWVUU6U3m6mPagNrMrEz8/kVmZ2ZJSXEHywhIxF5EzulysrAwHwE5oiiAFIAW5YokEUQpcMTtcoEgGLqNjMYb1ocg0tvVx3/6N7+m4f5TTn1+gryiPL793TnuXLnHX//dz9h/bJ/uIm16/QXGrX//1a4q7YSVqFuusno97a3t9PcOUFxaFLk2iU6sihpW1OONdHtog6cjM5BWS4LB5xLoN/L5TE9PZ8fu7ezYvZ2J8QmeNz+n4VEDf/r9n8jNzWXPvj1U11ZHBOLqAUvkfdF3BcWKW4kWs6LVy15jxbSqvB4yQeUd0GpaU14GpKwFoBj1oQcsEf+JxxGvonYRhJnQo7iI1MrMDOzTMzY+TkqKO6FAVafLiSTJeL3esI0NY8nhdCAIQiioVj0+tQVHbW1RrkcQRGanZ/jDP37J2T+eZ9veOv7Pf/hf8RQHXClHPjzMuT9+z//3f/0j331xkb/9H/6G9TXrIiaiWJOLurziqvLrWFQSVUlpCTabjdbnrRSXBoJVtVaVaLACOu4Lw0yftXmetbExWumeUR1Mz0hn977d7Ni9g+amFurv1POXP/+F61evsWPXTuq21WGz2XSBZTWsK/HAymrFq5hWlTdbJqi85XqTIOVlAIpRn1pgiQUriuJdL8XItaLUzy/IB2Cgr5+ystKE7lt2dhYAoyNjFKqCK2OOKRjT0N87wNbddboWHD2rirQkcenbK/zm3/2O9Mw0/uX//i/YvHNTWNsOh51Pfvkh758+wD//+z/w9//9v+bQqQP84r/9KVk5maH21P0oY9KeUzQ/txBo26nvTkpEVpuV0vJSOts6kY8eghgGn2iTrPYaILFg2URlZLkJK6MDMVrriwJlgiCwafNGNm6qpb2tnfq79Vy+eJn6e/c5fOQDamqrEQQhBCzxWldeNqyslQvItKq8epl3/y3Wq8yqMdpMTbfskpwUpCgbC8bzFc8Y9K5B25/eOe3kqnzX+69PfUz90kxNTSUnJ5vent6o4xQFMZD5IwiIYuBnT6EHAYGhgaGEX6hl60oZHR5jfnY+ajll4nj2sJH/+e/+Ff/53/6Gn/5XP+b/+Pf/mvd2bdGdAERBIDM7k//uf/pv+F/+zb9ioHuAf/G3/5Kvfv0NS/7o8TNqKfdsKpgVlZGVHjamZLWuspy5uTm6O7tDx5SJXAENw52VZeNdhNVfK5FRG+qNA/W+AuOTI76041KuQZKl0C7SFesq+Okvf8pPf/lTnC4X33z1Z377q98yMDAQAiP1tcuSFHEsdE616aF2k0O9n/U2glRfczx6menypl6eLH//938f7XzUk6Zec62iyTkRa0oigEICQ5SlYHnlKxGp6hnGSyjn1ZYT7SZ4qvrq48oLWSb8OwTqy7L8/7N33oFxVPfafmZ2pVXvvdiSLcuSe8cFjMHGYMCO6RBIQku7N53kS7kp3MBNcpPc9EYCJNTQqwGDG7YBg3GXJUtuci/qvWvm+2N3dqfvrIob+5KNd2fOnDlzZrTn2V85R9VkWVNO+fV5+nQN1QermTFrBoKqlCAI3h/8gu/L39dQ2Xdet9tN1Z4qJFmiqHi05pIE5UBURgMhsCUqOorK3ZXExceRmpHqb5UgCP7zgUzNqVr++su/89RDz3DR/Fl853++SenkEkSXC+VmCILgvVaTm5OclsylSy4hIyedV/l9BMYAACAASURBVJ5cwZrX15GemUp2fjai6ALMgE/bz0erj1F3up5ps6fgcrk098H7i1/UfNa3Sf8+KTmRfZX7aWxoorh0jOG+qu+v8l72/af/rN6mlTyI10DrCECC8vJed6CEoKpX6RPlGmRZJj4hngmTJhCfEM++qn1s37qdlpZWsrKyiIiM0PSj+m9EVtWn7z/ZpJz+PZrtxr8xbR+b97ldPJT1fbKX1WKYYQ2p/ttqRxhULlCdLZdPSJASyvmH0isUDFqCwIr/vWq7+otY/WWtHjiUwcJqcOjq6qKiYg9jiscQGxuj+cL2D4kmoAIyp06e5uTxk0yeNtlfxl9ORnWMb7sPnDxRkRw6eJj21nZGFRf6zhnApO6ubp7/14v85ie/JzEpke/+/NssWDLfH98S+ALXLmanXJ/XAhQAiRGj8lm07DI6O7p4/M9PU7GzksIxBSQmJ1qCguCzHu2vPEB/Xx/jJ48PbLeBE8V1p9+uvHe5vG2r3F1Jbn6uf4Ze9T0xve+qnjTbdrb/U0OIFbygAhdtee1gnpmVyfhJE5Akid27drN7125SUlNITknWPsOqv4fBwoq2T82BEVUJ/bZgMDJQWAmDyrDLElTCrp+wbHW2ICUUt81gZHUOfRvV12blAjKTWSaLlfsnLy8PgJMnToacxZKZlUF7ewdtvvV7nEoURApGjaTmVC09XYHsH1mW2fDOe/zHLV9j/dsb+fYD3+Qnv/svRozKRxTEgNVDDLi5lJfZtanlifJw89038rsnf0VCYjzfvfe/ePT3j9Ha3GpiTQnU0drUSkKS0e2jWYvJYaozgCTJjC0txhPlYcfWnaZuA7XLQe3K8O9Xu090LydlztTL4PYxcRN5r9FbRu0SioyMYP6CS7j9c58mPiGeV158hTWr1tDT26txBwEaV5D6X6X/9H1q1ue2AcJn0QU0nHFHYdkrbFG5ADVU1pShhhQnrp6BWk+8X27mpnBHv4TMrCt2lhXZaFkZjFVFlmU8Hg9lu8ro7+9jbOlYn9VD1pRXB316vTreDS6Xi/Jd5SSnJPkDc/3lbNw/XquKh6ryvciyTG5+Dnsr9vHzH/yKVa+t4YY7lvPNn3yN/MI8L4gQuD2a61QN4H6Lhs0LICYuhrmXz2bC1HGseW0dLz72Mp5oD0VjR/njb8ALQ20tbezaupvCogIyczItrSRO3qv/dbtdSLLEnrJK0jPTSUpO8vW26te+jdk/2C93GfOH2Wy+nKGU3sqi3mawoOisLIqFTP18gje7bNyEcfT29bFj6w4OVR9iZOFIPB6PqSsoVMuKtty56QIKW1WGVWHXzydKQ/Ul6LAax5AStJ4QwMgAJralNS/LLxszd5ANrJiZpM1iVTRf/HJgj7Jf/aXZ2NhAVWUV02dO9w3WyjkC7hgz9090TBT79u6jubmFknFjQ3P/RHvoaOtg59Yy3n5tNX//7cNMmTmZH/7qB0ybPQXR5yJR3EwB144WVtSwFkzqa0vPSmPR0oUkJCfw7CMv8O7KDeTk55CVm+W32JTv2ENDTT1zF8zxx0io3T7a90YosXMrpWekcejgEQ4dOETxuGLcbrfu3gUG86EeqJQg1qF86duoAWILaPE/m2pgUe9T3ePCUQWkZaRTXlZO2c4y0tO9gDcYWDFzAdnBylC4gAZyL8OxKsOqMKh8UnSmrSlDASlOrShaOBmMgkBLEFgZrFVF/atVXUaWvTEdu3aVkZubQ0pqisGqYgUqAF1d3eypqGTsuLFERkZqIMjOqtLT08uGNe/x3OMv0N3Vzf/84b+55sYlRMVEoR+oAv2nDICorjHQP04sKoA/hkUUBYrGjuKKZQtpqm/i4d/+k/17DlBUWoTH4+HD9ZsZUZjP6LGjNCCijkNRw4rdNkMZUSQtI43dO3bT29PLyMIRxnutXLkNEJgpGIj4y8mSBiYG85+TduqfKifAopQFSE5JpnhsMdXVh9i+dTvRMTFkZmU6hhW9tUoDhSbllBbYWbnCVpXzXmFQ+STobLh8gllvHEFK0FMogDIcsgAWO1ixcAE5saoEc/8kJCawbcs2ZFmmqLhIAyqCEMj+UaR2/8TFx7JrexnRMdGaFXf9UKOzqkiyxHvrPuCH37ifqt1VXH/bckaOHsHY8WOIT4z3tVnrBtBea+BaNBYVB/dKAZTAZ+97j8fDlFmTuXjRPHZs3skjv/8XR6qPERMTzfwr5xPjm/bfypqi/GsWSGv3b1xcLF1d3VSUVZCTn0N8fCCw1mpAc2LdUMsORpT9vb29tLW10draSnt7B+1t7bS1tdHW2kZbWxu9fb0IouB/Fi1BxQG4qJ895Rg9sKjvr/458ER5GD9hHLW1dWzbsg1BgNy8PO8cLoOEFTOrina7MxdQMBgJW1XOKVmCihDETDu8jtSwhlRDstjfEMalDBZSQp2Hwq6+YOv1+MsZpmbX/WpTTQynDuJUyinbJJOgQk0goyp4UTMHhSTx+quvc+DgQb78lS95Z0iVlDJyoLwUCJKUZNn3y13ixWdfor29nVs/ewuyLGuCKb31e7cd2Luf3//iT+zaXsZtd93CzZ+7EXeEm9eeW0F/fz9XX3clEZ4IX9tlZF1wpDbI1Hr+Czvp50ExCzx+f/UH/PXX/6C/v5/Pf+Nurrh2IW6XW9PXmuBeQTDsU/8r6D6Lqvvb29vHC0+9iDsigutvXU5khPksv8EmFbOSLMu0tLTQ3NRCS7Pv1dRCR0cHnZ1ddHZ00NvrbNZdl8tFdEw0MTHRxCfEk5aeRlpGKqnpaURHR9u2Vx8IDYEB27K/xED/6vtQlmVWvb2ayvJKpk6fwmULL/evGeSvx/J+CIa26Muo26G0wf9eF3RuNndR8NmPQ88pCU8ANyyy/JIOg8oFonPN5WMHKUMFKIPJCLIDF9OJ2tSuHxNY0YMK4IcJUE+Cpc22MEy+JUlU7qnklZdf5cZbbmRkwQhTUFHXr4aV8rJy1ryzlmuvu5q8EXn+Mkq5xvom/v6nh3nl2Ve59Ir5/Md9XyQ9K913Dpma0zW8+cpKUtNSWHDlfP/6OnqwUl+jsn0g0ve1ei6Vnu4e1r75Ls2NLUR6Inj2n8+TnZfNl+/7AhOmTfCX0/4rBIUUzT6NS0/kyKEjrHztbVLTUxk/cRxFxUX+PnAqWZZpbWmlrq6epoZGGuobaWxopKmxif4+70R3MjIul4uExARiY2OIjokmKjoKT1QUUVFReDyRCKKIIICg+v7u7u72QU2n99XZRXNjE62qbK+EhHjSMtIYWZjPiMKRREV5zK9dvU1ngVKXMYMVpb/UwLHh3Y1s37KdSVMmsWjxogHDimjSVuV8ge1DBythUDlnFAaVC11n0ppyNiFlONKVraDFzrriBFYGalXp6enhL3/6K9k5WSy/Yblu9k97q0pvbw9P/vMpoqKjuP7W6/xWlb6+Pl54+kUe+sPfycrJ5hvf/xqTp08MQIwKnqoPHGLDmo3Ex8dx+ZIFRMdG+/cp7VVfl/paFQW7j1aAAipIeWs9TQ1NXHrFJeSNzKW1uZUnHnqaN156i0uvuITPf/1eMrLSB2xN8Z5XCyoAVRVV7NpeRmN9I+4IN6OKRlE6voQs3/IE/f399Pb20dfbS3d3N81NzTQ1NNPY2EBjQxPNTc309fb5642NjyU5OYmklCSSkpNISEwgMSmB6JgYgwthoGm1XZ1d1NXWU19bT2N9I6dOnqa9rR1REMjOzWZUUQEjR40kzufSMusfb3+Ijqwr+vRxxZX3/ob32bJ5KzNmTmf+ZZcOGlacgIr6OH05/bVaKQwr54TCoHKh60yBynBBytkAFL3MgMUJrOhBRb3NqVVFXUaSJNa/u4EPN33IvV+8h4TEBFv3j79OH6zsKd/DqpWrWbRkIUXFo/lg4yZ+/eD/0djQyJe/+SWuXr4kEOOgnmtD1aYTx0+w5q11RERGsHDJZSQkxfv3KccpsgMWO+m/6JXBoqe7h3UrN9BY3+iHFPVAcujAYf7667+zp6ySW++8mVs+dxMxMdGafrcb6KxARV1GlmVqT9dSWVHFgb0H6e3pISIigr7+fsu/gbiEeJKSE32vJFJSk0lKScLj8fj6xhizYqahWV1ZoK62nkP7D3Ho4CFamlsRBIH8kXlMmzWVzKwMoxvMMDdOAFhCgZV317zLzu27uOTSS5g1e5a/nBpWzjUXUBhUzgmFQeVC1rliTRkOSAktZiZ42WCxKqHAynBZVSRJoqWllb/95W9MmzGNSy+b7wcVbx32VpX+/j6eefI5Tp8+zd49e3l/wwd8+nO3cfd/3EVsXIwPlGTVcaq2qdpUV1vHqjfWIEkSCxbPJyMr3Q9LiqyAJRSpB4nurh7efdsHKYsuJq8gTztQKf2MwAfvbuJv//d3+vv7+dI3v8BlV17qm9LfmdsHjKCiLwve1ZoP7q+mrraOiIgI7yvS7fs3koSEeBKTEnBHaNd41YMJGPvIdC2fIQAV9TXKskxTYwsH9x2kcncV3d3d5OblMG3WVLJzswJLGJgASzBXkBWsrHxjJVV79rJ0+VKKxxZrYGUwLiCnVhV9WX19dv3lVGFQGXKFQeVC1rluTRkIpDhrz+AeT9s4FYtf2vp9TmFlIFaVV156hepDh/jyf34Jl9vl2KrS0tzC/z74S1569mWmTJ/M/b/4Cfkj8zTuJaew0tzczOoVa2hrb2fC5HGMm1yK6FLF4ZhYWAL7jNusBwSBwwePsOX9rfT19jJfByn6wU1539Pdw4tPvcwT/3iKMaVFfO27/0nJ+BJD2VBARV/eTFbP7UDgRL9/qEFF/bmvt5/K8krKtu+ms7OLrOxMZsyeRm5+rgY2zKwrTmBFKSNJEi8++yJ1tfXc/OmbycrKQlRnaA2DCyhsVTnvZfmFHE5PPs91RjN9bKD2TELKkK39E5hOJXh6MuYpyeq0ZavUV6t5VfxzVvjK+hKY/anKsbGxbN+2g4TEBDKzMv2pykrasDpVWUZGkvp54dmX+Mrnv0pDfSPLrl9K6YRSZl98EREREaorUadk+9qKKpVTUD5DVFQUI4tG0tbSRmX5Xqr3HcLtdnvXehHV86KYzJeiXJdgnD9FEAJrANXXNrD5vc3s2bmHpJQkLl+ygKycrEA/mgxayr6ICDeTpk1gyfKr2LdnP3/4xZ84faqWcRNLiImN8Z9LkX4wsk4zVd8js1mPtZIkWfPnoU5F9j4DgTr0acr6z+D7u5blgb8EjHX6AngzsjIoneDtn6OHj1K+aw9NjU3k5GXjdrt0z0ng+VVvU+6tMt+Kkr6s9KkgCIwuGk1VZRV7du+hdFwpEZERgT7X/U0ESx+3mlvF6r3VvR3qVOVwmvKQKpyefKHqXLCmDMTlMxBIOWtxKiYBl4btFvEqZi4gp1aV/v5+Hv/XE7S1tXLvF+9FdJmnKgNs/vBjfvqjBzhy+Ahf/dZXuOWOm2msb+C5fz9PYVEhi65aiCAIhiwgxQJgZVlR2gZw8vhJPt60lbqaOqJjohk7bgwFRQXExEWbBIXa36uuzi5qT9Wyt2Ifp0+cJjIykglTxzNuUmngV7yNC8BsrR9REKko28MffvEnDh04zJ1f+iw333GTf4DU1wXWFhUnCmY9sbOcGKwskr7s4J51Q+q3RV/29fWxe0c52z/eQUxsLJddMd/WuqKPWwlmWWmob+CZJ59lxMgRLL9huSa49lyzqgzEomJ2zrAGrLDr50LVYEHlbLh8QoWUoZwlV5Hdon8DgZVgLiAnsSpmqcrVB6t59pnnuHzRZUydPtUQq3L82DF+9tOf88Zrb3LLHbfw9W9/1b9ejSRJfPzhZja9/xELr7yMMSVjDMAUKqz0S/2cOnGasu27OXH0BADRMVGkZaSRnpFGelYacYm+ydL8s7JCf18f9bX1nD5ZS82pGlqaWgCIiY2hdGIpY0qLiIyMMNwX08wUC0jxS4ZVb67hL//3N6Kjo/jad7/C3Evn4hID1gIYWkgZCKCon1c9mNi5f5R9oWSy6DOi1PtFQaS2po4NqzfS3NTCxCkTmDV3BhG+eWQGAyuiKLJty3Y2rNvA4qsWM3HyxKAuoMHEqoTdP+e1wqByIepctqacKUgZij6wghZDnIpDWBlqq8q/n/o3tXV1fOFLn8cd4UaWJNrb2/nrn//Gn//wF6ZNn8qPH/gRxSXFpoG1Lz//KrW1tVx383JSUpMNMTPBYAUwAIskS7Q0t3Li6AlqTtVQe7qW1pY2W/cgQKQnkvTMNDKyM8jIyiA1PQW3yi0F1vEVTlZMVr/v7OjiyUee5ulH/820WVP5+ve+RuHogkDZEEEl1PgT0xWELeAklDgVdR12wB2KJUoURPp6+/h401YqyvaQkprC4msWkZScGICOEGBFH1z74nMvUXOqhs/e/VkSExMNsHImrSphUDlnFQaVC1Fn25oynJByJgBFL7Mv/eGAlVAzgI4fP8ETjz3BxZfMY9acWbz60iv89CcP4na7+eF//5Arl1zhi1ExT1dubWnh2aefx+12c/2ty4mKinIEK8p7/zYdrKj3A3R2dlFzqoa2ljZV/AqAgMslkuxL17X6YrcCjlABRT8wnTpxmj//+i+8u3o9N952PZ//qjflOxSF4uYxs6A4ARQroLE7r93AamU9CWwznxzv2OHjrF+zAQGRq5Yt9qcym8GKPsBWP4Otsr+1tY2nHnuKzMwMbrr1ZscuILt05bD754JTGFQuNJ1v1pShgpThABS99MDiBFaCuYAGY1WRJIkXnn+Rjz/azM4duygvL+cb3/o693zxbiJ9c3SYpSsr9UmSxMkTJ3j5+VfIyMrg2uuuQfS5o0KFFXBuFQhVRktKaIAC9oGz2zZv57c//z01p2r44tc/z/Kbl/lXSrZTsPlPnFpRzPrKDk6s+lNdjz4WRS2ztG5935lNkicKIs1Nzby9YjVdHV1ccfVCRhTkhwQrZi6g3bt2s/rtNSxcvIgpUycPqVVlKCeAC1tVzprCWT8XnAYZbHemrSlmzBsKpPizIOykZAM5fVl9yesXHdNnAKk+GzKBrLKAZO3qyqFkANXW1PLwQw/z1BNPM2p0IS++9gILFy8kwjfIBnI6jIu0KfXFxcURnxDHjm27aGhoYFRRof/LVZtRobQ70HYlw8N/LYIqm4fAe8wyf0J4gfJLXJUFonMzqK9PP2BZ7VOUm5/D8puXkZAYz0O//wdvv/4OIwpHkJufYyirKHgsigrsVO8h8MxKcmCZRqWcunygnD4bSHk6dC9NFpJg+XhD4BkSvA32ZwMFnr3ACsmBbRAdHU3h6AKOHz1B+c4KMrMziE8IzGqrPK/q50Kd+YPqPip1ZmRmcOrEKSrKK5g4eRKRERGarB+rhQudZADJaP9GLTP2TPfjeN9QHhOWQZZZP2FQOV81SFBxZCuzO4dzHjG1poQMKVZSw0mosoMWX5qnaUoy6vcmZRRYUY73b9evSquGCxn1arUg09vby5//+Bc+95k7cbncfOVrXyEtPY3x48d5XRcaoFLBjXoAUS5RlklLT8cT5WFnEFgJXJN2kNADix206F/62yNalFPARAsvRlgJtMMIKJrPoq4uUaR0QgnLb17G6VOn+fWDvyV9/SYyR+QRnZetaaPTgFk7V486picYoCjl9UDS399HW0sbjfVNdHZ00N3TTX+/BILakmBK4gZo0QOLsl15fpR9AJGRkRSOLuDwoaPs2V1J7ohcYn0p396+16acq7f505Z15TIy09mxdQcgM6JgZGCfbJ2m7HR1ZWtQMX62W1U5DCpnTZagEnb9nKcajAtksFk0g3X5DAmkDFeqsmnGjzEWxfBe5wICrxtoIJPA9UsSK99ayfe++z062ju4/8H7ufGmG+jp6eHRhx9FEATuvOdOQ7qyvw6VCyiwTfa7l3Zs28GGdRspGD2SxVdf4XcDKW1RH+dtq2xop/qz/r1ads+pVSComTXEzsVjtt9poOzhg4dJ+uxXWNDQRM29t3PyC59Biot17O5x4uqxDkw2utDa29o5dvgYdafraGttp621jc6OLvTf08rgLbpE4uJjyczJJDMng8zsDDxRHsv+cjKdvRK7onzu7OjijZffoq+nj2U3XuOdQ0flBrIKrrVyAa18YyX79x7gni/eQ4Jv7SGrWBU1YOr36a9NfX3qY/RlAmXD7p9zTOEYlQtJ51MQ7WBAZSghRak/2BT6wJDBil1grVW6cuWeSr797e+wccNGvv6Nr/HN+75JTGyMIV159pyLmDd/nu/atHOrKPVZwYosS+zcvosN6zaSmZ3B4quvIDYuNkgKtXbQVepUZAYqTmJWQglqdJK94QRQBEE0PJcJ6z9gxM//gKutnWP3fZnapVeC6p6bXfdQQIoky7Q2t3L00FGOHjpG7ek6ZFkmJjaa+IQ4omNjiI2PJTYuxvscSBI9PT30dHfT19tPT3cPzY0t1Jyq9S+EmJSSSE5+NkUlo4lPDICAug+tprS3gpW25jbeePktb0D2bdcRHR2tgQZ1vIr6XOosIH9gbUsrjz3yOBMnT2TR4kWDjlUJZ/9cMAqDyoWkswkqZxVShmFafVtwMQTR2sOK0ywgs8Da+oZ6HvjpAzz0t4dYumwp//M/DzKiYKRpYO0br79BeXkFn7nzDtLS0yxXV1bOYRZcC7C3ai9r3lmLy+Vi8TVXkJObrTlGqROM1hX1PvV+tZwG11oNCk5/BQ90GnzQtlvo7SPjqRfJ+dMjdBXkc/gH36BtyoSgcGbn7rEClH5J4tjh4+zetpv6ugYAklOTyCvIJXdEDglJCT63h7M+7O+XaKxr4PTJGmpO1lJ7uh5ZkhlRmMf4qeNITk02WCFCgRVREKk9XccbL79JTl4uS5YtxuVya6wq3noDsGJnVVm3+l3KdpZx5713kZqSbNuOUKwqZzP7Jwwqg5bll3E4RuV81DDHp9iCUAixKfqNwwUp8hDEqZj6mPWxK1YxK/73Rn95sMDa3t5eHvr7Q9x84800Njby2BOPcd993yIxKdEfIOiPPfHVn5uXy66dZRw5fIRJkyZ6v9xNptc3C671xpV4/f6paamMGl3AoYOHKNteBkBWTpZh9VxtXIp58Gxgv/0U+mYv77Gi6XZRMMasgDH2RJG6HicKlJXBJdI+ZQJ1N15L1IFDFDz4W6IOHaVtUin9cbGqh8IZpKDcNx2kNDY0sf7tDVTs2kNEhJtxU0qZefEMSiaOJT0rnajoKNQPtGVQreolCALRsTGkZ6UzakwBo8YUgABHDh6havc+GusaSU5LJtITGbheArFD+vgUdeyIsi0uLpbomBjKd5bjEkWyc7NM+1LTp94dmu2yLJORmc6uHWV0dnZSNKbINFbF6fT6VtvUsVr6fXbblPsWatxJOE5l0LKMUQmDyvmoQYCKI4tDiEG0jtORdcWGDFKGQlbA4hBWDMF9QQJrBUFg7dq1XH/99axYsYIHHnyAP/3lTxQWFoJJYK1Sv4yM2+0mKTmZrR9vpbOzk1GjR+mARgs4drASExNDSelYWlpaKNuxm6NHjpKTl0N0dLTtAGEHLbbwYgMreiixAhPt4GMOMqFLZSmKjqbx0nk0Xn4xqW+tZcRvHwJZpm38WGR/ppUcFFK0c894rWG7d1Tw3toP6O3rY+bc6cy4eDrpWen+lZe1mUTGbCEn/4GAO8JNZm4mo0tG4Y5wc2j/YfaW7wUZ0rPSvH3nuz9+WNGBiXJP1dvS0lNpamiiqmIvY0qK8ERF+aHCX4eqPjNwEQQBj8dDe1s7lRV7mDJtChEREZpnxgxSzNbM0j+bskkb1PfYCLbWz0wYVM64wqByoWjQ84g4GdctQMVyTZ8BWlOM4OIcUoZsYUKTNgWDFdMvQjNo0cGKsr26upp777mHH/34x9x22208//zzzJ3rneLdKl1ZQRAvZEBqago93T1s3bqNxMREMjLT/XASaHJwWBEEAZfLxegxo0hOTqKqoopd28tobW0jJS2VKN9ApL4ucxAxG5icQYoGVkTrfVZWF0VmoGP1knUPj3ogBe+fQG9aKnXLl9BRmE/uw0+T9fTL9GSm0z4q3wt6SnlfCjJYQ0prSxtr3lxH9b5D5BXkcumVF5OeleZbYkA2BRQ1nAC++CLZ9qVcm/Kf2+32WlmKC+lo72BvxX5aW9rIzc/xPpMYYUXbP8b+zshKZ09ZJS3NLYwuHqV7DpxZVQRBIDo6il07ykhKTiIrK8sUTsyePbt/7d47+ex0n5n0FpywQlYYVC4YnWNun6G0phiubaDT6vf75lwJ8rKMTzGzrqhhZYAuoNaWFn764APc8ZnPMCI/n1defpk77rgDj8ejGWD0dVi5gEaMHMGxo8fYuWMHo0ePJjYuVtM2O1gJbA+0MS09jZLSsfT29VFVUcXuHbtpb+8gJTXFACzqQcUILdbw4gRWzIBE3XYrIAlFZrCiBxVfQTpGj6Tm5mUIPT0U/OovJH+whdaxo+hNS/H/vShggepfJfW4qbGZVSvW0N3ZzewFs5gwbTzuCLc/VkgdP6QGFNDCSaCsnRMIDbgoacgRERHkjszF5RLYW76PUydOk5OfjTvCjepp8V6yoX8E/0rdgiD4n9c9uyvJzMogITEwv4rSt+r3puACxMXHsb9qPw0NDUyYNCFQxsT9o65LfY7AucJpyheAwqBywWi4508Jde6U4bSmOAQj/z4FUJwqGLQMAFYMX5yyd+B44sknueHmm6g+eJBHHn6Y+++/n7S0tMAXsm4SOOVL3c4FJIoihaMKqSjfQ+WeSsZPGO9dKdgBrPhBQ1VGlmUiPR4KCkdSMq6E3r4+KssrKfMBS1RUFHHxcZoYFjNosdoWCqyAcyBxYkkxQokZrBhBxQ8fLpHWGZM5vWwx8eVVFP38j3hO19EysYS+KI+/T5V/lee5rraO1SvWggALr1lARna6tz4TSDEDlECZAIgo7TIfZAPQ4n+uVK6bjKwMEpISOFB59LWl9AAAIABJREFUgMMHj5KRnUFUTJSqn3x9A7r+ww8rAOkZaVTvP8TRw8conVCCKLrs+1+ZV0X1EkWR3t4eyssqKCktISYmRvPc2Ll/9M+xsl/pAf/7QcSphEHljMsSVMJZP+eZhnv+lMFm+zjJ9HEUmxLq1Pr9g3SJAYLLIvtEDzGajB+T+VNUWUAfbf6Ib37nPvbt38eP/uuH/MeXv4wnKkpbzuHqyoBpFtDJkyd56omnyMnN5aZbbvT+itZlAhmOlUzmS5EDg6SyvaW5hS2bt1BZUUVffz/xCfGMLhrFqKJCMrIyEATBX16twU6nr5Y6A0OWZbq6umlpaqa5uYWO9nb6evvo7e2jt7eXnp4e+vr6SE5JZmTBCDKzMzWDR7A0aqdzx8Tu2M3oX/yZmMNHqf7CHRy/dRn9bpcmbuX0qRrWvrmOCE8kly+5lPjEeP8909Ypa9qg32/Vbif9Bd7nELRZM/W1Dby/+gP6+yXmXzGPrNysQKaOr7+ULBx/Zo8gaD4fP3KCt1es4qK5M5k6c6rl9Pr6DCB1qnJHRwePPvRPps+czoLLLtWcV3l/PqUphzN/BiVLyguDynmmcwlUBpqSbPw8cEgZCkDRywxYNLBiAirqMoIocPzEcX74kx/z7PPPcffn7uK/f3I/6enpjtOVrdYB8m/TwcrOHTt5682VTJo8kcVXLdb8qreDFWW/Fawox3R3dXNg/wEO7D/I0cNHvdASH0dufi6paSmkZaSRmpaKx7f2kBm8OJUsy7S3tdPS0uoHkpamFlpaWmhpbqWnu9twjMvtJjIygojISNwuF42NTciSRHRMNCMLR1IwuoC8/FxcLpf/mhUNBFQkWULu6yPzjTUU/v5h+mJj2HffF6mdNx1Zkujt7eW151aAILDomsuIiYsJCin6Pte3TSlvJ8OaN/r5U1SDfEd7B++tep/2tk6uvuEq4uJjNbBiBgx6WHlnxWrqauq5/e5biYiINEwC5yRV+bWXXqe+rp57vngPLtU8Kvo5VcKgcsErDCoXgoZ7/pRQJ3lzAirDaU0ZDkhRNFBY6eru4nd/+gO/+s2vmTFtOr/+5a+ZMmnykKyu7N2mm9RNtX/9uvVs2vQhc+bOZs7Fc7ymcgtY8W/TWXKCAQtAZ2cn1QcPcXDfQU6frqG9vd1fJiExgeTkJKKio7wvjwdPVBSeKI/XDeGbeVfql+iXvBOWdbR30NHRQUd7J50dHbS3d9Df16fp3/iEeBKTEkhMTCQxKYGExAQSEhOJi4slIjLCYHLv7u7mSPURqg8e4kj1EXp7e0nPSGfZjUv9CxGaTn3vAFTUVhNJlnG1dzDikX8z4okXqb9oKlXfuId3j59kT1kVVyxdSHpWmuY+2UGK+ay/9n9nVvPFaAZrHyyAdqDvbOvgrZfeIS0zjcuvXoBLdPnrVMOKFaicOHaKla+9zeWLF1BcWmwJKv46dVYVURQp27mbNe+s4a577yItLTXo5G9DPZ9KGFTOGYVB5ULQ2QKV4XT7DCekBLveYLPU6mHFzgWEIPDya6/w/R//FwC/eOBnXH/ddT5/evAZa82sKsq/Vi4gZb9/ErH+ft584y3KdpUxa/ZMLp5/sSNYMTuvE2BR1NraSl1tHbU1ddTV1tHU1ER3VzednV30qYDDSlFRUcTExhATE+37N4aExAQvmCQlauJiQpHy3dbX18e+yn28u3o9pRNKmX/5JZprNb3uEEBF+ew5epwxv32E9A0f8fa4InbeuoyJi+YGjpNMLFemVhZtmcD1OP/7N7MumFlXREHkYOVBtnywjZnzZlA8fozBqgJYwoqAwAtPvUxcXCzLbrw2ACBBrCqamWpb2/jn3//JgssXMHPWDH9bg7l/RM01ms+8q5S16hv98U63WykMKoOS5Rdy8DXOw7ogNGTzjYRQ31CccyB1OF/LKFDODFrkfkkDK7JkHnS7a3cZ3/nBd9m6fRvf+eZ9fOOrX9fMQ6I/Xu6X/bAS2Cd5v/x98SqiIPoHLPWU76IgIMmybpu3rCAIXH3NEtxuF5s//Ji+3j4WLFyAIHrXBPJ+6foGQbzHK8fqz6vU7//CV08nrxovZVkiPj6e+Ph4CkcVeverBtS+vj66u7rp6upCELyp0KIo4nK5kAWZyMhIvztG0UBmBTWL4VD63+12UzqhlOamFrZv2U52bjZjxhZp+thw3aJgvyihCdR35mWz45ffZ+9v/sF1qzZy+a8eoqq1jcNLLwPVNYYCKaYz/tr8YPEvMql6diRZ9j033vsr+65TOV/h2EKOHjrG9s07ycrLIiExHu+T4vt/m/shCAIl44v5eNNWmhqaSE5NsSxruA5fexITE0hNTaX6YLUfVEI53nyfbHCDhXX+Kox/YZ0xBbWmOK3HxpoyUDhyGgOjLldbU8tX7/sG8y6fT15OLrs+3sH3vv1doqOjNWWtfgn7U1uVcib9ofnVKJr8WlSZv5VfsIuvXMzMmTPYtnU7a95Z4818MJjLvb9q9b+ARdUvZ0H18v66Vv2aFZXzaV/+tvhekRGRxMfHk56eTlpaGolJicQnxBMTG0NsTCwR7ghN+YFAiv6c+nqULJFZc2eSk5fDhrUbaKhvMPSvVb1m7/VSAOPwgcN8FBfDa7/5Efu+8GlK/vok8+/8fyRvKTMtb7bNClIkSQoa+6MvY2bBUZcFb//MmDcdAZmP39tCECu7QWNKxuASRfaUVzoqr3ZfKiooHMmxY8fpMok/GqwGEy8V1rmhMKiEde7IiZVmGCAl1ON7enr449/+zKSLprFj5w5Wv7GSR/72D3JzcoLW44cSq8nzMAYLgjEYUrPNBFYuX3Q5c+bMZueOXbz5+lv09/ebwoppPTpgUcqogcUMWtTlzF7+Ng7Ty9CPuu0ul4srliwiMjKStW+vG5YBrHznHpKSkxhRXMjhG65k3Qt/oX7aeOZ+/QFm/NeviTlZ4y9rnt1jfC708KG4n8xe+rrV9athRZ9RFBsfy5RZkzl1/DRHq4/6j/OnTUvq88iaz1HRHkYUjmDvnv2WkKOc06rPC0YV0t/Xx/GjxwPt1l3z+aAwFA2Pwq6fsIDBx78Mh0IBj6FybZm5d9QuoLfXrOJ7P/4BzS0t/Ppn/8ttN92C6Hb5jpU0gbXq+tTmdu1+yeea8ZXTuYDAzC0hgi8+IuCiUbkxfMdeetmlRHoiWf/uBjo7O7l22TVERUf53UCSz7Wj1AOBXy6KO8j7IbBNE/uA7pmx8M8HfrkP7e8i/a9yNZSoBzZ138TGxTJ3/lxWv7Wag/sOUqRyAanLDUSdHR001DUwacZERNF7X3riYyj/5t0cWraQ8b//Fws//S323nYNlbcvQ/JEWmb36IOozcqYyd3cSsmbG8ndXEbC8RoiW9vpiYulNS+DExdN5sDSy+hJjPOfQ5IC8HvD829x38oN7F/zPnue/aOtBWnsj35J1muraJ4xmfLH/kDeyDyqDxyiob6e1LQ0X4N9z2IQ9xF452UBqKurY3TRqKDXORhZ/S2Gde4qfLfCGhKFEug34HNYWFPORPxNVVUV199+M7feeTvLrl7Kro+2cvstt/mgIcQ5X3RWFTtIdJKCqbdWQGDwmTN3DlctuZJjR4/xr0ce4+jhowiiMZNDXZegs1LoLSx6K4s6gFH/0hw/iJeZrKw2+r5Q9x/AmLFFpGWksXnTx6bBvk4HMb31o+ZULTIymTmZ2nKSRGthPpt+8wM+euAb5K3ZxJW338eId97zAae5y8cOUmSfhUJ5ARSu3cwNd/6QaY++TObu/XiaW+mL9uBpaSVj936mPPIi197x/xi5epNJ2rOE4lHs6e6lraXNUR8oysr2XvOpE6dDOg681xkVHUVcXBz1PpecFZSF6pYarM4XS86FrrBFJSxb2bkobI8bZLbPQAJih1KKhaOpuZlf/PaX/O3Rf3D14qvYtnEzhQUFNseFblUxlLMJrFUU2CcYLCsQsIhIksSUqVPIys7i9Vdf57lnnmfW7JnMvXiuN6BVUv/aDQyYVvX5pb99ZtejDsZ1KKt5QuyyKdQDutK/6kBjb73qQGGBORfP5vWXVlBZUcWESeMt+tgYUGunmpM1uFwuklOTDftkWUICTs2bzsmZEyl6/i2m/e4xil5exdav3E5dSaGm3fosLHU9ZipesZ45f/w3gixTN2YE2z/3KU5OLYHISIS+PnJ27mXyP18hraqaOT/7O+6OLqo/tdBgVfGdhX2VB5g6a7I2qFYCSVTaoT1/fKI37ujUiVOMnzTecZ+pA2JTUlOor6tzfKyZwtaSC1PhOxpWyBouOBhuqX99BlN/fz+PPvkvJs+bwdoN7/LK0y/w9MOP20KK4XyOYm6CW1UUmaWXerebTyuvLpOVlcVn7/wskyZP4qNNm3nmqWdobGz0W1c0x/isIdpgWgsri2FCMHOLi531Q9tuo1XGylLjP8bE8mJmYVH/mzcij9z8XLZt3kZvT6+h3EB0+kQNaRlpuNwu23JyhJuqW6/hzSd+SXNhHld85UFm/+/DRNc12h9n8eym7D/KRX99DkGWOTxnMm/8/nscnzUBKcLtjQ1xuzk+fRxv//H7HJk3FUGWmf6np0jYV21aX6THQ/XeQ47iLWTww19WdianToZuUVGUlp5KfV2DwWoStmqEFQaVsM4LDXZyN/WXfDBYeW/T+1yy5HLu//mD/PA73+eDd9az4OL5xjrVIKJ6bztxnn8ODvu5aZQ6nMzCqcgsuFZdh8fjYcnVV3Hd9ctpamjiyX89ybYt2wyBtnpgUeo2C4hV6g8GLubZOPYgYwc1VuBiBiyBYwJtEwSB6RdNp7Ojk6NHjmn2m/WvVRsU9fT00ljfSGZOhqGclbpTEtnynXt4568/Jv5EDUs/+33GP/0GogqcnGjaY6/h6u2jPTWRjd/5HJLL3Iolu1xs+n9305GahKu3j0mPvqTd73sko2Oi6Ozo5MTRk47bIMsSGVnptLW20dbqzG2k/ztMSU2lr6+XxqamoMfqISoMMxe2wqAS1gUv04noTKwrh48e4TNfvIult13PxbPnsn3DZj7/ubv9M5nCwIFpIIHBjqwsOqtKMFgRBIGS0hLuuucucnNzWbt6HY8/+jgHDxw0WFfsgMUqi0c5l12cyUCyeILBix2wWMFKTm42MbGx7N+7376PzaBQ54rq6uhElmXiE+Js6zIbUBuLC1j1u++z6Tt3Ufz6uyy964fkv7cNSer3lzGkKvs+x9Q2kvdxOQB7li2gNzbatLyi3rgY9i5fCEDOh7uIrvHFhKietUhPJIIg0FDXYHsteqWkpSDL0NRobxmyUkJCAgDtbe1BSgYUBpRPhsKgEtZ5q6Az7Tpw9ciyRHtHOw/86mdMXzCb1rZWNr2znl/+9OekJBtjDYaijXqrSjD3TzCrSiiwopRNTErkpltu4sabb0SWZV56/mVeev4l6uvrgwKLFbSoy5sBR6gBs6FYZALHGIFF3Sf6/igaO5rDvin29fu9ZZzF2PjdFSHH5Ej+444smMlr/3yQA4vncskvHmHxd39LUrUqXVc3F4okS2TuqkLwbT80Z5LtORQYOTpvqveUskz6rkrD34ggCMTExdDW4hwYAKKivYttdnZ0GdKlA9cgaWZY1hzvW4W6exjmUgnr/FY4mPY80bmYPnwuy0ksiizLPPfKi/zkZz8lOiqaJx76J1ctXKyZUdZqNlrT/ZIMvvd2QbW2bQqSrqxPpVWnLFsF16oDFjWz0IoiY8YUUVhYwLat23hv43s89sjjTJw0gUlTJpGZlelvkz71Vw0D6vRmbf9qA1rNpEkjdhgwa5aGbAyiFfyDoXK96tl8lXrGjB3Dru1lHNxfzVjfWjXBfqUPNo3ZLvajP8rDrs8sZf+V85j28Ass+/KDVF19MRuXX847H+wAwBMVgSfKgyfKQ/6H3onk+iLcNOdlaH55WgWWNudn0h/hxtXbR8LhE4b9KWVV/HavN34l8lf/CMxrLvj/D7eJ1SMmJgbwrgWlvlYlRRnsnwVlQcvurqEBlVBmp7Wb5Tass68wqIT1idSW7dv47v3/ReXeSr779W/z5Xu+SGRk5Blvh920+sEUCqyANvNFPU+L2+1m5qyZjBs/jvffe5+yXWXs3LGL7JwsJk6eSElpib9vgkGLd5sXEKwCZvWwYCU7iFHPMaMurwYWpV2SLBtgRemHjMx0EhMT2Fe5j9LxJYYMIrO5WkwtBcoxCBpIMpO6763UkZHChu/fS+WyBcz6y7Pc/p8/wz1lLOVL5tHe00N3Vw/NjS1Ip+oB6I6LtpzHxqQB9MTFEN3YgsckDVns6yehzwcb7Z2G/VaK9EQiCgKdnV2Oj1FLAZXhmJ02rPNbYVAJ6xOlU6dPcf8vHuTZl1/g9ptu5d8PP0ZGekZIKY36NYCCljebRM5BGmUo6cqKrGAFMFhjlMHfO4ALxMXFsfjKxVwy/xIqyivYtm0777y1ivVr1zO2tITisWPIH5HvT2tW6lQkqawZeqkHbtsU7SAQo57UTmm7urzd+khmlhWX6KK4tJgtH22lrbWNmNgYQ13+zwSx1JlkJOllWq9NnTXji/jbtz5HwuOvctfuA1x/spYPv3ADx+dPByBn3xHYe5i+3n7DsQNN062bOo6/33sLZdvKufXum4iIiES/kvK4H/8f2a+v0p1PIComms72DsN2J9aKSI8XhofKohKKwtaUc1thUDlPpCwsF5Yz6X8NS5LE7/76R379x98ycdwE1r3+NlMmTj7j7bJz/yhWFTO3kV5WLiBtGXtYAQzWFUEQiI6OZvqM6UybPo3jx46zffsO9pRXsGvHLqKioxhdNIoxxWMoKCzwBxrrLS2K7OAlUMYeYszgRQ8sgB/ilP1mfaLtH29fjC0p5uMPt7Cvaj+Tp00ywkSQ+VREQcTt8vZDX58RGALl7C0tesuYolMnathWXEDifZ9h2rOruOL+v3F8eikb7vsMUloSANGdXd7VIh0AtCBDZJsXJrrj40z7PDrGG5Tb1dFFRKJzS6MnMpKenh7/Z30QtR08ud1uRFGkt7fHskwoCi9KeOEoDCphfSIkiiLHThznj7/8LdcvXY5+ZePBKJQ4laDHW+wzm1pfkZULyLvPGlbU7/XWFUV5+Xnk5efR23sl1dXVVFXu5cC+/ZSXVeDxRJKXn0dObg45uTlk52RrwEWpXy/DxGohWGDM4l70SweY9omFVUUURJKSk8jOyaKyvJIp0yf7g1btrCiiICKJIPoCQ+PiY4mIiKCxvhEoNJQ3gyanIJVbkMOx6uMcqmlCuvc6qpbMY9xr79IXF0tDdjoAkf0SycdraR6RbVqP0j8ACUdO4ur1zsjbUpBjem4FNhQrh1P19fXhjojQnNfQHlE0v+e+NY3UWXZhhQVhUAnrE6Tf/M8vz3YTNLJz/9hBjp0LKBisKOfVx63431sAS0REBMXFxRQXF9Pf30/1oUPsq9rLsaPHOLD/IOBd9C8jM53snGzSM9JJT08nNS2VCN/AZQcvyvn91+gg7sV09tkQYEWt8RPGsfqdtZw8cZKs7CxLl4wgiN55Wg2z2IokpyZTX2tM6XUSk2JnbcnKyyQxJYHKnVWkZiTTHBPFoRsW0XeqnmpRZAHe9M0RH+ykzAcqdpaL/Pe3AyALArWTSkzLdHd1I7pEIiIjbNutV09PL55Iz4BcKcpyBmFQCUuv8BMR1nkrr6UhuCn9XJCTjB/ANKhWb1VRS+8CAntYUe9XH294r4sBUaBFlmVcLhdFo0dTNHo0AG3tbZw4foJjx45z4thxdu3YFXCBCJCcnExaepr3lZZKaloqycnJmlgX5fx6mbmO9NBicGup2m4FK5p+EkRGjxnNhnc3UlleRU5ujtFqJQog2ceTpKansLdinyrTxRxqlP41gxdzy4tA8cQxfLx+K6teWWc4ZndhLpOqj1P62rtULr3UP5eKmSLaOyl+ZQ0AJy6aRGdGCgLGYOXurm48Hk9IlkdZlunr7Q0ZbhT1+aw8ikXGicKxJZ8MhUElrJAVDBCG5ZwucUCTrekHM6v9Z1umAbcOrCqabYOAFTBaV5TzgBFYIDCvR1xsnN/aAtDX30djYyN1tXXU1tRSW1tLXU0t+/fuR5ZlZGRcLpHk5BSvBSY7m6zsLDIyM3CZgJi6Pcp1eLcFAS+d5UkNK+hcQBGRERSXFFNZUcW8S+f6rUBOgmi97RFJS09jT38lbc1tJCQnGMp5rTESoL1PVhYadcxNzohsLl+2gMa6RlxuFxERbty+14GZ4xl/3/8RW9/M/F89xroffRHZre0/URQR+vuZ+7+PElPfRL/bRfndN+jaF3jf1dmNJyq420cgEHsi9XvnTolwCBr6v72+fi+oeHTHm8GIHqzCwHJhKwwqYdlKcAkDWphQDzPGz/bBwU5hyHE51WB2tuHEqXXF/NgAvJi5gMxcFnawAkaLhPIerINWvccboQXA7XKTnpZOelo6paWl/jp6e3tpqG+gtraO+vo66mrrOHr4GBXlewBwuUSyc3IoKBhJ6fhSkpKSHGUXmbm1rGDFul9ESseXsHtXOfsq9zNh8niQzOJpFNTwtUUMuLRS01MAqK2p04CKKIggGudP0Z8fJG1auWq/S3SRkBRPQlI8ejUnJ/Lxl25i9p+eYcSmnVzzjf9lx53LOTm1BNkt4pJlsrbsZvI/XyWt0uum2/afn6axuMALSiYw3N3VTXRMtHe/LuPHCyaGQ+jp9sW1hGBRUd9XZc2lYGsl2els/22HNTwKg0pY54ZEwbCC8lBrIF9iZkChT00eKHRYyc79YyUzWNFYGjTuEHuLhHef+Wd1XUp93jr06deBe6nU4Yn0kJ2dTXZ2tr8+WZZpa23j5MmTHD9+gqNHjvD+ex/w3sb3GVkwgokTJzJm7BjcbrcBWtTAYubOsYoxsXIBZWRmkJWVyc7tuxg3sVTbt4AoSrbZP4nJiSQmJlC97xBjSooACQnzbCy9VUWfSm1uETPeC0WVyy6jJyaa2X9+hrS9h1n0g98jiQK9sTFEtHci+uroiY1m69fu4MiVl+japIr9kWQaG5oonTDW8lrN1NToXaMnIcloTbKT8jy1+tYIio+PP2csJOdKOz7pCoNKWMDg05/PRDyIlfvnbLiihkrB5lMxn+HWaFUBc2uKwWoSgnUFjMCi3qbU59+umSzNGlw09QmQmJhIfEI8xWO9rqOW5hZ2l+2mbFcZK15/g6hVUYwbX8r0mdMNVhYnsGLlAtL3h0t0MXXmVN56fSUH9h1kzNgiU6uK/jqU7B9EF0WlRWz9cBtNjc0G64f3XLp0a5P7Zwcr+nuh1qEr5nLyokmMWbGevM27STh+moi2DnoSYmnNzeTErIns/9Tl9CTGI/r6SbOAo2/W2e7uHqR+idyRuZbXbaa6Wu/kc2npaSEdp1xTs28xwsSkRMtyQ5GtF7a6nH8S9F8gOp2f3/4XqAYDEk4Gcqv6zVw/dmvYWJUxftadz6xO/TEWcSrDASpWFoygFhXVZzVkCJrtqveCsYzaomJdh3HSM/Wgqh9g9fPKqKXPODGDTrMB224QD5bpYvfdI8kSsixz+PBhynaWsbdqHwgyc+bOYeZFMw2BuNrrljXXoF/rxlu35C+rbJdliX6pn6f+9TRR0VFcd/Ny37o0kvYYSfZ/9u/zpSm3d3Tw/BMvUFw6hulzpvrP4S8r6c7t22baXt9xofSpIrMVpBVLmgI6CqiIqv2CILJx9fs01Tdx3aeX4/LtF1Tl3KLXNeNyuf3xKaIgsu6dddScquWOu2/3uohE0T/Zm3oOFSU9WTlOacP6dRvZtWMXX//WV3H5ziFo2if6QcXJquJmaz7pywTKWsSCDQBq7JaCCMtWlhQa7tGwzpj0A7ohUNSBC8VqRlhBFIbcBXM2FUpckH5SLbP3oPsSNwQjCoayxhWKjasaK9usAh7tFh0UBMH/MhwriLhEFwUFBSz91FK+8KXPU1RUxHsb3uexRx/n6JGjmudHNBmgDIsziuoBLzA4q9vmEl1MmDSBUydPU1db5x9Eg01WJvgG39iYGAoKR3JwXzX9usnfAoO3aNhm2l7fYK6/b05eSn3BIEXdZ4Ig0tPdw8ljpxhRmG95X5Tr1auutj6oNUUNKXo1NTWRmJToP6/V/Q1VZxIcwpAyPAr36idEQz2IO6lvKM7pJEZkOM7p1Jpi0DDAktpyoLYcaVJ7Bwgr+sFqoMCi3m470VeI0KLUF58Qz6eu+xQ33nwD/X19PPP0s6x8cyXd6llQHcCK/trUbVM+l4wfS4TbTUXZHovrEDSWBH3dpZNK6Onu4cDeat9+48CsBKn6r9EGVpTtZvfCTHpAsYMUUdUOgJPHTiFLMiNHj/QH0TpRT08PzU3NpGU6d/vo625qbCIlOWnAx4d14Sp8p8MKKqeL5Q2J79fhQD9csGJ3rNk5z1UrjlNYgeDWFeUYK2AJBi2hWlvMoEWpZ9ToUdz9+buZPeciKnbv4cnHn6KtrT0Qs2MDK+prNSunlI2JjqG4pJiqiiraWtscWVUC7hGBzKxMsnKy2LW1jA7fujd6V4dyLqewogYONbSYvdTHqPtO2W8GKYLgXbG7YsceEhLjScsIAIc620cUBF32j/ffE8dOICCQ7ZssT+/2sZLSlp6eHpoaG0lJS7V9dtXH2JYJIZYlDDznvsJ36DySk+nYz+X6vecI4v5xcIzT84Ry3HC4js5Ef1pZVfQaCKw4BRal/qEAF+P5jMDiifRw6YJLueW2m+ls7+DZZ56jrbXNFFb0bdBfq5U7bPqsaQBs3bzNpE2iwaqi15z5FyH1S2zasNkfpKrpCxNYUfeDIJhbbNTQYnZ/zABFfZ1moKbAS+XuKlqaW5k+Z7omNsWJ9lXuIyY2huxc4xT+6nOYt9kLOpIkkZ+fZ3mOYIG04SDZC1fhOxvWgDVs7h8zd0+ILiD1cXoIUW9zCiiOrCnDkKbsf282qu3pAAAgAElEQVTh/tHLygVk9tkMVqyAxcol5ARcTNtpsT+YlUV9fP6IfG68+UY62tp55t/PmsKKXbyKxhWis6okJSUxfuJ4KisqaWps0lhV7K5HsaokpyQzffY0Thw9wf7KA6YuIKPbTUQPU+p2m8cIGcFFX84KUtTtaWttp2LHHkYWjiBfl+0TzJrS093N0UPHKBpb5ChGwwzujh07juhykZPrXXtoqOJTwrowFH4CwhpSOfKhD8CqYlmXA1hRn3dA1pkQznE2ZJcN5gRWnACL91jzX/HqegZrbQnWDj2s5Obl+mHl2X8/R7uJG8guXsVgrVCdb8ZFM3C53Hz84RZDe/VWFeM1CZROKCEnL4etH26npbnVv109UKtjY/SxJPqgWDNoMXvpj/HDn/q8KkgRRZHtm3YgCALTfJlKAegK/uwf3HcQWZYpLhkzILcPwNEjR8nJziIyMrRFEENVKFaXMCCdOwrfiU+QBhW74TBOZcjO69CqAl6QGC6YsMsyCqmeoba2OLSqQHBYAYuUzSDAMhBoUc4fzDJh1w49rIwYMYIbbrqBttZWL6y0dwSFFaVedZvV2wVBJDY2hslTJ7F/7wHq6+o1Vhh9m9VuGsEPGAIXXzYPURTZtP4j/2QPmngV/8Cu1KH0bWCfWSaPozgV1XH6eBd1mRNHTnLsyHEmTp9IfHycweVjZ00RRYG9VftJSUuxzPgJ5vbp6uri9KnT5OXnW0Kk/p4Frsc+PiWchXNhKHwXw9IoVOuGqUtmqKwqIcAKDC2w2NVl2oYhtBINRMHm2HEKK6EAi7cea2BR1xmqe8gKWAL1al1BI0eO5IabbqC1pYXnn3merq4u25gVO6uKuu3TZ0wjOiqK9zd84J/3RTNY6+673gUUFx/LrHkzqT1dy/bNO/3xKhpYEMwCaXXAooMWRy+NpSUAKGorS1d7Fx+/v5WklCRKJ4zVQIqZy0ev+roGak/VUlxSbLCmmMnU7XP0OLIsM2JkvreMRazScChsNTk/FL5LYTnWcFtVQoGV4QKWYMc6gZSg5zgDmULmlhAjrDi1rih1BgOWwUJLsO121pWCggKW33AdDfUNrHzzbZPZcI0uILO5VZTzAHiiPMy+eDYnjp6ksrzSxBVl7gJSw0rR2NGUTihhT1klH27c7I89MoMVtXVFKaOPPbF1p+jK6LOF1NfW2tTKqhVr6e3p5ZLL5xLhjjCpxwhiamvKx5u24ImKomS8cbr9AMxZwK+vPRXle4iLjSXPJJDWKUicC4G0YevN8Cncs+eZzvQv9YFqIFYV7zZnsGJ1vGa/DzpsrSMOyjg9X6CcbjAbIjDRW02CzfTrBFasttm6biwCXgP1OYcWs7Y4aaMVrIweNYpLL5vP/r372bZl24BcQHqryoSJ48nLz+WDjZsM6cqBOsyzgARRxCWKXHTxLCbPmMSBqoOsfnMdPV09AWuFevAPAixm0GJmOTFLZ1ZbWmpO1vLO62vo7+9n8dKFpKal+turvzYzlw/A8aMnOHroKFNnTCEmOsbWmmI1yVtXZzfVB6spGVeC2+VWlQ/u9jFTsGcurPNT4Tv3CdOALRuDrDOUcqYaIKxoyuqgJNRA3FDada5oMLAC9sCi1G+fFj2weBZT14+JdSVQT6D+WbNmMaa4iPXrNnDi+AlLWNFs07k21IG1giBw+eLLAIF3V683dQGp69OnFSuwMm3mVOYvuoSGugbeeuUdmhqaNFYL08wkFbAY41iML32fmgXTHtxbzbsrNxAXG8uS5YtJz0j3t1NvjTEDF+85YPMHHxOfEM+kKRMN99XKmiLqtu3duxe5X2Lc+HH+Nuhl5fYJZm0ZjIUj7BI6txS+G2GFpFDcP0NqVQFbWBkud4pt3Q7abozFMab5DqWcrgflNC5EkVNgGQpoCdamYLAiCAJXXX0V8fFxrHh1BZ2dnabxKlZZQGaBtYmJicy5eDbHjhw3uIDM4lXMYEUUBEaPGcVVn1qMLMmsfHUVx4+e0FhCDNYVNWhYgIslmOgARZZlyraV8+H6zWRmZ7B42SISEhIQRNEWUgzXJAoc3FdNXU0ds+bMxO1222b6mFlTlDKVFVWkpKaQmZlp2Dfcbp8wjJw/Ct+psIZEg7GqDAWsKPUMFbAErSuUNp9lhfrL0u4LPBiwKOcLds5gwBKsTcFgJTYmlmXLl9He3sFbK94KGq9irCdg6VDgYNLkieSNyOODjR/S3NSsscKoYcUPJxawkpGZwbU3XE1iUgLrVq5ny6ZtdLZ3mgKLAVrMQMQ2iNZbR0tzG++v2cTubbsZPXYUC5dcRlRUlG7WWXNI0cel9Pb0snnTFtIz0r1BtD5I0d9DfaaP3prS2trGyeMnKCkd6w2OtrGmOMn2sVPY7XN+y3X//ffb7bfdGdbZkSAIYL/qtYPjB34OQbQ43mSb94tGNm6TTcqZbjOt1PuyuAb1FOxOrhV8YKI+xkqi79yG402+ZE0zovRf6EE+Gywwujrl4HUo2/SDtSAIyBadY7dP2W92b83KmJ1bX0a/16x+fZvUn9XnUK4/ISEBT1QkW7dsQxBhxMgRIMv+45TzCoI3F0fZhuq90gJZlhEEkdy8HPbs3kP1gUOMKRlDRESEv7z/GAFA0NThb5f3f0RERjC6eDSdHZ3s33OAyt3e6foTEuKJjolWXZ/xeRbMtmleov997ek6tn6wla0fbKW9tZ0pMyczY/Y0XG633wIC+CFJAQYrSJFlmQ1r36PmVA1XLLmCpKREf1v1rjB1e0TVNqXMpvc/5PSp01x19VVeaFJZxNTl7f5Vv7dLS7b6mzDTQCwt4UDaIdF/W+0Q7JZax9FXfFhnQ05N/NbHB7+1duewWt3XrF79UvW2ZU232Vyrg+sYMlm6nhxCigO3j6GMSw8uTs9lLCfZ9KNkcY+C7VPL6j47bYP3XM6eH3WbNO/VM/jKMrIss+L1N6gor2D5DZ9idNFo//OkHCfJsv8ckiz565BkSbVdRpK8n48fO8GrL75KVk4WV39qCS6XC0mSvMf6ysuyhCTJ2s+qcwTaINPW0sbuneXsq9xPb28veSNzGT12FDl52YgmcVRmfaTZ39/PyWOnqNhZQe3pOqKiohg7vpix44uJjo0BjJYJv4VJ5wJSQ4YoClRV7GXj2veYOXsmMy6abury0VtTAqATOGdnRxeP/P0RxpYUc/U1V5vEEanARudm0+7XxhX535tkZ6llH5AbBpWzJMtfiGFQOU81WFDx1nF2YcXq/NbbzxKw2LqbLGI6gsSmgPHL03yZgKEDFRg4rDjZr8gJsARvS/BnKBisKN9tvb29PPnEUzQ3N/O5uz5LfEK8BlaUc9nBilJGgZWK3XtY885axk0s5ZLLLkYQBEtY0dajhSQ1sHR0dFBVvpfK8io6OzoRRZHklCTSs9JJz0wjLSOVyMhIJGSfUVFAQKCtrZ36mnrqauqoq6mnqaEZWZKIS4ijdGIJo8eOItLjAewBRdluBSkN9Y28+txrZOVkce3ya3CbWGUEDZAYZ+FVyry34T22fLSFu+69i9TUFIvzB3f7OAEVJ65Ep/ssjwmDylAoDCoXos4nqwqcAVhRNFTQEiz92SGkmG1zYk2BgYOKXfsGAytOyygajJVlKGGlrr6Ox//5OFnZ2dx4yw2IoogsqcEhACv+bZIOOnSw8t6G99m+ZQcXzZvF1BlTNMfYwYq6rXrrCkB/fz8njp3k9MnT1Jyqoa6mnr6+PnUnmPZXRGQEqemppGemk5GdTnZetu0gr8Si6Pdr53bxPltdnd28+vzr9PX1cfOnbyQuPk7lctG6fBRrimGOGN/nrq4eHv37IxSOKmTZp5baWlOU+sz3D8yaou8HJ9uDKQwqQyLLL1y31Y6wwgLvYGcFB4JLMIUVQRRMQUMQRMNAY1nWcrv3C8EWWNQDdyjQMsB5UrT7nAULOzrPICbYG6hEQQwKIsqXuRNgUQYJO2BRvuT1wKIMPmpg0T9D6vZq3osikiT5Y1fSUtNYuGghb725ks0fbmb23NmaY0RBQPLFoYi+axNFESTve+92L6x464Z5l8ylva2dj97fjNvtZuKUCf5jFEmAKPo2SKJ/l/oJknwfRN/1i243+SPzyB+ZhyRL9Pf301jfRH1tPf19ffTLEsgysuwFsajoKNIy00hMSjCkWSvXqO9TCLh51GXMIKWvt5+3V6yis6ODZdcvHRCkqO/fjm076OnuYc6c2egVijXlXFEYUoZfYVA5j2UHEc6ON4eBkOoIEVZCaYddHY6vfYjTlocCUpxaU4ZLyiBuud8BrCjlYGiBxaxdCkSo6xoIrEyaPInq6mo+eG8T2TnZjCwYiSxJBlhR12MHKwCLrlxIb28v76//gJ7ubqbNmqY5RhS8cCLLknfg91GJf5vqWZBUj4UoBZBGdItkZKaTkZnuqL/N0oP9fRck3kPt6hEEke7ubt55fRX1NXUsvmYx2bnZBkjx12eS5aN/39rayrYtWykaM5r0jHTbZQ7sNBzWlLDOXYXv2CdcwzEBnG1dFl8S1u4L6zRhZf6HM5EWbHceqzaeSfgwk+2qykHTh63nVBlMWSfzsZifw951ZjYoast7M1CWXL2E5JRkXn91BU1NTSHNr2LWFrc7giXXXsXY0mI+/nArG9ZuRJIk09Rl9Vwrmm0mL+V5c7lc6Cd1c4su02NEQfTt05ZX/52YnkvQZvYokNLe1s6KF9+gtqaORUsWMXrMKFNIsQqeVe6nuty7a96lv7+fBZcvMPTt+WhNCevMKHznwxq0rFwUloARIqwE2+fdP/TA4gSE7ADLdPsAY1PsNFCrmBOT9dkAFqt5WAYCK/o5VjweDzfeeAPIMq+8+Co9PT26QE7t/Cr6bBXNlPa+7W53BFdctYiZF81gz+5KVq54h77ePss5TRQYMAUFG2jRAof5zLTmZR0AigqiBEGkraWN1198g7aWNpYsvYoxY4tsIcXsnui379+3n/179zPv4nkkJyc7mjfFTFbWFCcKB9GenwoH014AOhNBtcHOYxVYa1e/nRvArk2hDMyh9E0ooDMQqAoF0KzhbyCQZ39dwVKG/eVCCKIN9RirZ8GsbfogW/WxToNrqw9W89yzzzOmuIily5d63UMWwbVKXVZpy0r9siyxe1c5765ZT3JqEouuWkRKarJ/vyHjxx+0K2u2212TnSSdK0mRdZZMwM2j3nfq+ClWr1yLLElcu/waMrMzg0KKVVyKAkRdXV08/ujjREdH89k7P4PbN//MQKwpw+X2CYPKWVc46+dC1plKVQ52rjMJK072D5eGG1LAHFQGYtkJdhw4BxV/+RCB5VyFlY8++oh1a95l7iVzmDtvrun8Kuq6ncLK4UNHWLVyNb09PcyaN4uJkyf405e19ZsDi77dTtO9rWQGJ2AEFFmS2bp5Gzu37CQhKYGrrr2K1LQU0xRk7/HOIAVg9cpVlO+u4PbPfJqs7CyLQF5zSNGWsbamnOlsnzCkDLnCoHKh61ywqsCZhxWnZQYrZ7E8wwcp3vLDAyow/LDi9JgzCSuyLPP6ayuoKK/g2k9dS0npWFtYUactq8voU5cB2tvbWPvOOqoPHiInP5tLL59Pom8W12DA4i1jDi0DkRmcgNa9VVdbx8a171F7upbSCaVcfOk8Ij2RmuNDhRTlHAf3H+TVl17lotmzmL9gvkVKtNEyEramfOIUBpULXeeKVQUGBisweGAJpZwTDcWq0EMFKd5j/n979/4dZX3gcfyThASCGZKAIYDcFFAQFJCmVbtQatli69aue+xa2z37z9Ub7vb0rG7V3dUKrK4gBZSqFMP9GkLIddIkkszsDw+TzOW53+Y7M+/XOT1I5vl+n2dymJl3v8/MM8FP+7iNKxc0VqTqB0vUWLl3754OvXlIt24N6KWX/1EbH94YeGWlcFt5rORyczr71Vl9cvRTzc3NaXffbj256wm1trWW3I/yYLG7/7nQ70Nyfl9Pc1Oz7t2b1ekTp/XlqTNasmSx9j23T5sf3TR/e/Gf5R9BLvmZQ6SM3B3WG6+9qe7ubr362187XniumqspXrc5jiFU4kao1Ls4QsWax9xY8RobdUzQT+l4BoLLk19aqyl+xhcLEytSMsGSVqxMT0/r9dfe0NjoqF5+5WWteWhN6Fgp3rZwKmgyO6kjHx/Vhf6LWrykTTt27tCOndvV3t5ecixOx+r2u/Di9Ibjqalpnf3LWX195mtNT01r6/atembv0/PHZPvR5aJVlOK5nSJlampab732pmbvzeq3//obdXZ1OcztHSnl94XVlLpEqDQCk1ZVpORixWt80nyFQYyRYo1JJ1Sk8LEixf/+laRipfw7gbLZrF7/3euamp7WK795RT09D/qKlcJcbrFS+PmtmwM6eeKkLl24rJZFLdq2/THt3LNLmUxHxTGV/17Cnv4pfxHOjmf15ekzOvfNOc3NzmnDwxv0VN9urX5odcn2dqso1s/tP4JcPiaXy+kP//4H3bh+Q6+8+s9au26dw/yVn/JJ85SPn9ttxxAqSSBUGoFpqypS+FiR/P+/yLSiJWqgeM0RZjXF93EFfGJNM1a8xqQVK6Mjo3rtd69Lkn79L6+oq6srUKwU/90tWIbvDuvkiVPqP9evXD6ntevWasPDG7T+4fVatizjcN/Ch8pkdlLXrlzT5UtXdPXSVTU1N2vLY5u1a88urXhw+fx2xX+6BUrJ9jaRIkmHPzqsL059oed/flBP7HzSYR/O70uxm7P4OMrHFaSxmmK3X8SCUGkU9RYrUrBl77ijJcjpoCQixRqXfqhI0WJFind1Ja1YGRwc1Buvv6nFbW361au/SixWJCk7kdUXp7/UxfMXNTY6rrzyWr5iuTY+vF6r1qzWgz0rtPSBpSWfGPJjZmZGd4eGde3KNV2/el1Dg0OSpKUdD+ixrY/qiV071JHp8I6CEJHS3NSkz499rk+Ofqo9fXv03IHnSrYp3T75Uz7lcwW5zXEMkZIUQqVRpB0qfvfpFit+9xf2PH1S71GZHxchUKRokeJnfr/z2KnXWLF7v4q1bV63bg3o0FuH1NLSon96+SX1ruoNHCvFP3MKluLbhoeHdfniFV25dEU3b9zU3P1t2tpa1dXVpc7uTnV2dWrRIutbT6wr7Vp/Tk/PaHx0XGNjYxobHdfM9LS1TXOzVq9ZpfUb12v9xnVa8eAKtTS3lPxu4goUyXqVOfZ/x/TZp8e0ddtj+odf/qLko82lY6Kd8ikfW75t+Zx2WE0xDqHSSOo5VqTo15WIi1egSNEixRoffTXFzzxuosaKFCxY4o4Vp29cdouVoaEhvf3W25qZmdGLL704/71AlXMEW10pHmMXLJI0Mz2jwcFBDd8d1ujImEZGRjQ2MqbxiQnZPV83NTUpsyyjZcsy6uzqVGfXMnV2dWnN2tVqX9Jesm35i7NboBTf7idSjh4+qpMnTmn7ju16/oXnK74g0aRI8XO74zhCJSmESqOp1VgJvM+Uo8VPnMxvm3Ck+NlH0PmcxBErUrLBEnesTIxP6NChtzUyPKLnf35Q27Zvs27zubpSPKfdR4+Lj6/82O3u373Ze9Z2+YXrwOSVV2trq1paWiq2t3shrvgUUHNlDNhfvdYlJPJ5ffjfH+mrM19p91O79JOfHoh1JaX42MrHOm1fPl+Q29wQKYkiVBpNXKFizZV+rATdr5RctASJE8nnqZgYIsXvvoLO6aQRY2V6elq//7ff69q169r/3H7t6Xtq/nL7pXNU7sftdFD58bhFi9N99cP2BdwmTsq3bbZdaSl7o21Tk+bm5vTBe/+lc2fP6QdPf1979++ruJLtwvzOkVK5LaspDYhQaUTVWFUJst+kgmV+XIgn96BRUjLW72kYH184GPdqit85vZgUK35CxRpvHyte11ixts9rdnZW777zrs799Vtte3yrDhw8oMWLF/s6FVRym49gKT9et/vlV/mLq9uXO7oFSvG2zU1NmsxO6o/vvKfr169r74/26ulnny7ZvlqRUj5fkNvcECmJI1QaUbVWVYLs22+shDmGtMQZKNZ88a+mBJnXS73GSvHfy2Mln8/r+LHjOnL4qLq6OvXCiy9o1epV1u0+Vlec5i4/Btv74/4c7cnuG4ad4kTyDhRJunrlqj744weanp7RwZ8d1OM7Hi8ZY2qk+LnddgyRkgZCpVHVQqxItRksgU67VDlSgsztR1yxIvkPlqRipXxup1iRpGtXr+md/3hXk5OT+rt9P1TfD/pKTgWVjPezkuNxvZS4Tmc6XaF2/u8OEVEeDrlcTp998pk+P35C3d3devGlF9WzssclPJKJFLv7ZHe/gt7uOI5QSQOh0sjqMVYW5k/3n2jgVQyfgWLNnVykBJnfr0aIlfJ58vm8pqam9P577+vbc/3asHGD/v75A+q6f3n48tUVt31WrObYHm88v2O7F+jKU0Lu0TA2Nqb3//MD3bxxU0/ufFI/PvBjtbW1ub5ptnw/fiKleJ92x2m3vd2cQW5zQ6SkhlBpZHGGijVfmKBINlgW9lO9C75VjI15FWVhezNCpSDtU0FBYkUK9wbbiv+2ORV05ssz+vB/PlQul9eevj36/tN9WrJkie3qSvl+vfZtd9xR2b3g+omF7777Tic/P6kTn/9Zzc3N+unPDmrb41s9V1HK9xkmUuyOO81Isds/EkOoNLpaixUpWrDY79/mGhQRQsRJEqsoC9ubFSkFJsdKUisrkjQxPqEjR47o66++0ZL2JXrmh89o564n1dLS4hgsXvu32z4uXh9ZLo6EXC6nb746q0//91NNTk5q6+PbtG//XnV2dtZUpPi53XEckZImQgW1GStS/MGSlCCBIqUXKWH2FUYtx0r5OLdvMrYLloGBAf3po4919cpVrVixXM/ufVZbHt2i5ubmin/zbqssTsfvNN6O14uy/Xs7ij6mrCZduXxFRw4f1Z3BO1rz0Brtf26/Hlr7UKRAqRwTLFKcjz2ZSHE6BiSGUIHFhFiJchymRUvQOJkfl2KkhNlfWPUaK+V/t4uVfD6v8+cv6PCfPtbdu8Pq7u7SU317tOOJ7WptbXUNFqfjcbs/frh93L48DPK5vM799ZxO/vmUbg/cVmdXp/b+aJ+2bnvM8dL71j6CraLYHVfYSLGbO+jtjuOIlLQRKrDEHSrWnOnGyvz4KkVL2DiRwgVDHKen0goVKf032cb5nhW7cUFXV3K5nPq/7dexY8d06+aA2pe2a+fundq9e5ce6HjA2tbntyNH/Whygd1HlK2fN2tqakpnvvyLTp86rWx2UsuXL9eevqe044kdamttq9i+wClQyrerxUhxOg4kilDBApNixRobz/EkFS5RwmR+jpBPerUWKQWmxIoU/Aq2dmP8rq5YYxdWWG5cv6Hjx4/rfP8FNTc3a/2G9Xpk8yPavHmTMssy1nYOv6u436dS/KI9NTWly5cu68L5i7pw/oLuzc5qw8b1+l7f97Rp06bSCKkIDeewiHKqp3wup3FO+wp6u+tYIqUaCBWUSiJWrHmrHyy2c3tETBwx4jh3FSMlyv6jqrVYseaIZ3XFGrsw1/DwsE6f/kLnv+3XyMioJGnV6l5t3rJZ69avU8/KHrW1WasXSTwOcrmchu8O69KlS7p48bJuXL+hXC6npUuXasuWzdq9Z7d6e3tLxgQJlPLtg66i2M1nN85p/qC3u44lUqqFUEElE2PFGp9csKQpSiDE+WmkaoWKVP+xYvt3l2DJ5/O6M3RH5789r/7+ft26OSDJioDu5d3qXbVSvb29WvHgCnV1dymTyWjRokXWWB+/y1wup6m/TWl0bFSDA4O6c2dIg4ODGhoa0uzsnCSpp6dHmzY/oi1btmj1mtWVARIhUOzHpxspfrdxHEuoVAuhAnumxoo1R20GS9QwqJdIKajHWLHbT5BgKchms7p586ZuD9zW7du3dXtgUBMTE9b2959+ly5dqmXLMspkMmq5Hy1NTVZANDU16buZ75TNZpXNZjU5+beS/ba3t2tlb49WrlyplSt7tW7dWnV2dVYch/3HlqMFijUHkQLfCBU4S/SUS0wXYDM9WuIKgriv62JCqBSk+YmgoLEieb9vxW6s/Sd3vC/c5vS8m8vnlM1OavjuXY2NjWtifFwTExMaH5/QxMSE8rnc/AXnCv9rbWtTJpNRR8cD6ujoUEemQ5lMRr29verIdFQEh+T8Ym67rUeg2P3M6yPQdvO6jXXab5htHMca9FhpUIQK3NVCrCzMZ0a0xBkBiVx4zsAn3lqLFWueeILFaX5rPu/HSNA31/p50bYLE8n7KrZOP/MTKE7zO4132neYbVzHG/h4aTCECrwlHQBJfS9PWuGS1At/o0RKQS3GijVX8NNBbsfg9XvwEy9BOEVJgdMLtZ9Aseb3Ps3jtB/3670QKQ2CUIG3tF7w0/oiwbD3J60X+SQCZWFus594TYkVKf7VFbd9uh1L3N/t40eQOHH6eVKrKG7HEXQb1/GGP1YaCKECf+otVkzVyJFSYMpVbKXoqyuuc4SIFrd9h+X1ghwkTiT/geK272pHikSoGIRQQTAESzKSDBRr/tp60q2FWJH8r664zeMZJgl9EaGTsNcicX4fif9VFLd5/Byb320856ixx0udI1QQXNpvWq3XaEk6Tkr3VXtPvCbFihTP6orXXH6Ow+82fvh9UQ8aJ9aY+FZR3I4h6Daec9TgY6XOESoIpxqfsKmXYCFQ/Es7Vry2Dbq6sjBnuGjxOp4khPmW5YWxzv+2k1xFCbKd6xw1/nipU4QKwqvmx4FrLVrSjJPS/db+E2/aF4bzs10SweI1b+k86a6oSOkHijUvkQJCBRGZcO0Sk6OlWoFi7bt+nnhrLVakaMHiZ/6keUWEFD5Q/MxPpOA+QgXxMCFYCqoZLtUMk2L1FCkF1YgVP9tGCRZrfv//XpOKFz9RUuAWJ1J6gRJ0W9d56vDxUkcIFcTHpFgpl0S8mJa78VAAAASESURBVBIlxeoxUIqZGitS9GCx9mPmU6tXnEjRA8XaD5GCCoQK4mVyrNS7eo+UYrUcLFKw4087XvxEyfy2Pv7NESiIiFBBMgiWdDVSpBRUK1b8bu/7jbER7kfYiAkSIxVjff5b83s6qRqRIhEqNYRQQXKIleQ1YqAUMz1WpGDvK6nG5fL9CPKinkSghNneda4Gf9zUGEIFySNYktHokVIQ94t7UsEihXszrEnf9eMk2JtxqxcoEpFSgwgVpIdgiQeBUqnasRJmTNRP8ES9z3G8YCcZKGHHuM7HY6cWESpIH8ESDoHiLomVhzSCRar+NVP8ChImBQQKIiJUUD0Eiz8Ein9JnSYJeyXYKFeQNSFewoSJFD404g4UiUipA4QKqo9gcUakBGdarEQdW5B0uISNkmJRQoNIgQNCBeYgWBYQKNGZGCxxjDeRaYEiESl1hFCBeRo1WIiT+CX5iZlGD5aogZFUoEhESp0hVGC2RogWAiVZSX+8N67gMD1cYrsibIKBIhEpdYhQQe2ol2ghTKqjVoIl6Tn9SOT9IgQKwiFUUJtqLVqIEzOkcfG0NOMiyr6SDoc090Ok1DVCBfXBtHAhTMyV5pVeTT+dk6TUQojHWr0jVFC/0ooXoqQ2ESzxSytOJAKlgRAqgFQZNcRHY6jG9+jUW7SkGSfz++Tx2UgIFQCo5rcW11q4VCNM5vdNoDQiQgUACqoZLMVMiZdqRkkxAqWhESoAUMyUWLGTZMCYEiXliJSGR6gAgB2Tg6URECi4j1ABADcES7oIFJQhVADAD4IlWQQKHBAqABAU0RIfAgUeCBUACItgCYc4QQCECgBERbD4Q6AgBEIFAOJCsNgjUBABoQIASWj0aCFOEBNCBQDSUO/hQpggIYQKAFRDrYcLYYKUECoAUG21Ei3ECaqAUAEAU1UzYIgSGIJQAYBaFTZkiBDUEEIFAAAYyzFUyG0AAGAsQgUAABiLUAEAAMYiVAAAgLEIFQAAYCxCBQAAGItQAQAAxiJUAACAsQgVAABgLEIFAAAYi1ABAADGIlQAAICxCBUAAGAsQgUAABiLUAEAAMYiVAAAgLEIFQAAYCxCBQAAGItQAQAAxiJUAACAsQgVAABgLEIFAAAYi1ABAADGIlQAAICxCBUAAGAsQgUAABiLUAEAAMYiVAAAgLEIFQAAYCxCBQAAGItQAQAAxiJUAACAsQgVAABgLEIFAAAYi1ABAADGIlQAAICxCBUAAGAsQgUAABiLUAEAAMYiVAAAgLEIFQAAYCxCBQAAGItQAQAAxiJUAACAsQgVAABgLEIFAAAYi1ABAADGIlQAAICxCBUAAGAsQgUAABiLUAEAAMYiVAAAgLEIFQAAYCxCBQAAGItQAQAAxiJUAACAsQgVAABgLEIFAAAYi1ABAADGIlQAAICxCBUAAGAsQgUAABiLUAEAAMYiVAAAgLEIFQAAYCxCBQAAGItQAQAAxiJUAACAsRZ53N6UylEAAADYYEUFAAAYi1ABAADGIlQAAICxCBUAAGAsQgUAABiLUAEAAMb6f5RCxkoMX480AAAAAElFTkSuQmCC\n", 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\n", 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\n", 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BXWhadC8fXdXQVI2p8UmSU5KxOxzxYGKYJrq+ck3J5ORoE69/bm5T4WOtmUA/r14VCSxC/HxIUBHiU+vh5eZVNXqZ2+3GiNTwH39nP0eOhfn3vxNkYkwnPWM74+Maw0PDKIqK0+kEoK+7j/m5BRRV5X/49x1cPJtPYCGZ4vIiJsYmUfg2wUAKmTnfoqSiGDW2x4+iqETCEcaGxikqLYieQ2z4Zym4iDPWI7McXpKSkoBoUEm0PIV59fDPimNWDQFJYBHis0GW0Bdii1AUlcR9RLt79uP3u3nlR/DKj5ZXps0BTnD46LfJzc9DiYUdTde4dfM2R04dYtsOP8efGuH8u7lkZGVw6vPPEI5ECAZ7OP/mfp7+0rn4z1NVlZGBUSwLikqK4jsqW6ZFOBzB6XKuqAQ5XU50TWfeP7/px2VZZuyxPWyjZfZ/1mQZfyH+ZUhQEeJT6DvfiQYSM5ZLVCW6yd++fRaBxQAA/9vvBiiv+D2+8avfJDc3h4gZwTJNXn75x3S2D3D85DEOH13iVncTH54t4VbzbXYf2IXb6+K//PFdQkZTbK2TDEzL4he+2c9v/kIN3e0ZVNTMxPtUBnqHcLldZOVmxUPD4mK0WdbpdGKaJpqqxc7cwpvkZXZuDtOyUE0TUzFRUaNVitj7vgqYqBALA8thZbmKkhhOftaVlY2CUGJlRUKLED8b8i9LiE+R1W+Ga72JLh9TVFSEgkJfbx9KbDhGUVWqq6tYWAgwNDiMqqroqs7eA3vQVI2m602oioam6dg1Gzbdjk23o6sa+YVLHD45zKsvVWHTbGiqhhGJMDIwQlFpUWwmUPTnhBajzbwOZ7SSkzik4/G6mZudi2+caBiReFPtekNAy7OAEmcCbXb4J/HYzX5sdPt1f44MCQnxMyFBRYgtJHGIxOv1UlhUxM3rN1lcXIz1lahUVlaQlJTM+fc/xIgYaJpOakoqew/sobOti3def5fAfBBN09E0DV3V4oHlxa/3cOHdPKYmvGiazq0bdzBNk6raCnRVQ4nNAtJtNgDCodCK8zNNk/zCfIaHh+nu7n6w6WE8nDwIK0A8rCzfdvmyxCbbRwkdibdf/bHiPDe4/WYCixDikyNBRYhPufWqKqqi8LnPfY5gMMCli5fiVRWny8WzX/w8M9MzvPnqm5iGgaKoHDryBMdPHWdseJyXv/tjrpy7RmAusCKw7Nq3QGXtHK99v4SJ4Qna7rZTu72G3NyceEgBSEr24nDYmYwtAmfFAgnA7n27SU1N4f13zhIOhzAt68Fy+gnTlVeHldUNtmsFjESbCSQbHb9so0rLeiSsCPHJ0f7gD/5go+s3vFII8S9vrXVHLCwURYl/BgvLsvB4vSzMz9PU2ER1dTVuT3QBuJSUFDxeLw03G5kYn6SiqhxV1cjNzaGqthLTNGm738a92y34Z+dxuVxMT04z0DdIaGmSH7+0G7fnOySnODj9hVNouh6v2CiKiqZqDPQNEAwEqa2rfTD0BOi6ji/dR1NDE1gWRcVFKEqsrTc2kUlBiX9tYaFA9BhFiS39v/w4o0es/fFAdOjI2tTH6vt98D0Jz+/a369+nda7TgjxkP+y3hUSVIT4lFkvqCR+TnyDzcvPp7GxifGxMbbVbYsHmpzsbNxeNw03GpianKaiqhwUBafTSVFJITXbagCFjtYO7t9tpau9h+GBYdyeflpuP0lWjoevfbMItzcafpaDxPL9T45PMdA3wM59O+OVluXQkZySzML8Ao0NTSSnJJOZlRk988Q3dyv2WOPhZfmxKw8e5SaCh2Ga60aZtT6Wh5oeBBdIDC1W7L/l81z9/erXSsKKEJsiQUWIrWK5qvDQZetUVXSbDZuuc/PmTbKys0jPSI/dCLKzs3C6XDTcuMnM1Ew0rKCgKgo2u42i4kKq66rJzM5g594dHDi8n70Hd6FpNj54ewdf//VJFMVacQ6WZaIAgYUFujp6KKssxeG0RzcmJHqMaZkUFRcyMjRCU2MzGVmZpKVFNzc0rWiYiYeuWGBZ/j4eDxJCy8Nh40EFZflS0zLWHQ5K/FgORMv3nxhcEkNL7Cw+MrBIWBFiUySoCLGVbKaqEq1uRK/Lyc2lrbWNe3dbqK6pji/0pigKOTnZ2O0OGm42MDM9Q0Xlg7BiYWG320nzpeLxerDZdBRUSsoDfOevCimtCFBSFoy/SS//Z1omiqbSereVzrZOTMsiPT0dRSUeWBRVobS8lN6uXpoampmf95Obl4uma4CyorqiJJRV4r0rCaEoMaaYlrHiXAzLiAYXLAzT2Ljxdt37X1nFWQ6CK4Phg9dBwooQj0yCihBbyVpVlcSAkjgEZFkWqqpSXFJCc3Mzrfdbqdteh023xY/PzcvBZrPTcLOB6alpyipKowu6xe5LVdT4z1MUsNstpqd0zr+XybMvjDwISaYJlgWWhdPpILcgl9mZOe7faaX9fhu6TSclLQUlFgg0TaOyuoJIJMLt5jvcuX0Ht9tFRmZ6wgN7UE1Z/rQcKpZD0fLjNxJCynIoWZ5JlNiku2ZvCsqKY5bvP3oK6wUW1h0OkrAixCORoCLEVrPe8E/i18tVFcuy8LjdFBQUcvPGDfr6+qjdVoumafHj8/JycTic3LzRwNjIGOWVZei6LT4MszqsFBQv8Bd/XMqhY1NkZC1FQwrRoRsLMCwTl8dFeVUZufk5jI2M0XLnPj1dvXiSPCSnJGMRDSuFxQWUlBczMjTCrcbbjI2NUlBYgN1uf6h3JV5dIWGIRgHDNOLfJ866iVdTYpUV0zTiIWR1FWg59KwVWqKXQzQtPWjsXQ4rsDKgSM+KEI9EgooQW81GvSorv7bix6akpOBLT+f6tetMTk5RVV0Vb3RVFIXc3BySk1NobGikv7ef8sqy2Iye2H0tFzYsk6Rkg442Fy13kjjx1CimZWEkhgIz1hOChcvroqy6jJTUFAZ6B7h3+x4jwyP40tNwupxYmLjdbmrqarA77Ny5dZd7d+6RmpZGmi/1wQNMqK6sVQmBtYOJlfDZsBJ2RLasNfpTzBWVGmVlSmG5Ifijwsp6DbYSVIRY07pBRfmILdY/ev91IcTPzVrrdazevA8e7EIcXUzN4tq1q7z7zrvs2LmDZ77wDEB8if2IadDR3s5rr7xOUoqX57/6PC63k4gZwTCM+GfDjNBww8n/9Gv7+LO/+wmV2xz0d/cxNTVDemYaaRlp2Oy2+LksByLTsOho6eBucwtmxODA4f1s370dXbOhaxo2zc7M1AwfvHOOqclptu+s4+TpkzidTjRVj69+u0xJWK33QVXHZGF+gZ7ePvp6e+nv62fePx8NCbFQoaoqNpuNkrISqqorKSgsiK0/o8aHvZZX830w9VqJH/Mg4MWOVR98n/h4N1o9WAgRt26Cl6AixKfcxw0r58+d48KFCxw9dpQjx47EezoMI4JhGvT29vHKj17B4/Xwy9/8xXhACRshIrGgYhgRnjseoKzqLQ4eDzHvn4+dT7Ty4XQ5cTgdOF1OcgqyKSorxO12o6kaoaUQ1y/cZLh/mPyifI6dPILPl46mRheYU1G5ea2BWw23SU5JZueuHWTnZJORkUFycjJqbP8gBfD7/YyMjDI2OsboyCgTExPMzs5iWRYOh4P8gjxS0lIwTSthTRWTwEKA3p4+IrENFPML8sjLy6O6tobU1JQVoUXT9HUDy1phJTGgrA4rElSEeIgEFSG2so3CynpBxbJMfvCDH9LX18dv/4+/haZpK6oqhhnhvXfeo+Xuff71b3+LsBEmYkQwzAjhSJh7d+5xp/keDdcauHqhnt/4X36d6u2VpOdmMDE6ztjoBMGFIEuLSyz455mb8UdnGRVkU1pRQmFJIXabje72Xprrb6OgsPfgHnbs2Y7T7sKm29BVndHhUS6du8z01ExsiEXFbreTkZGBzW5jfGycxeBifEgozZdGekY6mVkZ5BXkk5mVEX/8a60wGw6F6enuZaB3gNHhUWZn5rDZbRx4Yj/7DuzD6XCixhaxUxU1HlgSw4qmRvd3XQ4rq6sqq78GCStCrLJuUJHdk4XYopZ3VF7+rCjRXYhVNborsYnKgQP7aWttpbW1jW3balEVFQMz2pOiqCwuLuFyu1bcr2la9HT3cuHsJVLTU3nul79Ey51WFhcXySnKIWyESctKJTnDuyIUzM34GegaZKB7kMHeIRxOBxU15ezYu52svExu1d+h/nI9nW1dnH7mJFlZ2ViaSWZOJr/wjRcJh8LMTs8xOz3D5MQUU5PTBAIBikuLycnNISMzg/SMNDRdX7EvkGE+vOnhyicKSsqLKasoRVVV/HN+rl2q59KFy9y9fY8nTx2norISdDBja8aYsc0cl3d8VmPPb/T5MVHVlfsurcWM7QwthNiYVFSE2CIeZQjoQVXF4q//6q9wupx8/ZtfXzH8Y1oWL333JULhEC987cvxisrs3Cw/+O4PsdltfO75pzAVkx/94yv89Adv8su/+TWG+ocwTBPDWF5gLdpUmpmfQUlVEWkZacxO+BnsHmS4d5T0LB+HTj5BWloao/1jNFxtwoyYHD1xmNrtteiaDU3TsOt2NFWLVy/gQVVCVZT4XkCJlRPTNJkYn6C7s5s5vz/+PGiqhqIo2Gw2SitKSc/wAUSHnGLDNsODw1w6f5mZqVlKy0s5dfok6RnRoanlDRh1VUdRFPR4lUWGgIT4mNatqMisHyG2iLX+6EicBbR6bZXl2SeGEaG5qZmKygrcHnd8oTPTMrlefx1vkoeyytJYI22Yc+99yPjIGCefOYHDbWcpvEQ4EuLtH7+HaZpU7qggNSOZpDQvyelJpKQn4U5yMdI/Qk9bH6ODo7iSXJTVlZCSlkxvRz9d97txeVzkl+RRVlnC9MQ09263MDszS25BDrpmi886Wp7JtDyTh1hAMcwHw1IDfQM0NTZz/v1z3KhvoL9vgHm/n4mJCaYmJpkYH2d8bJzB/gHu3LpLb08PhmWQlOSN/bq08CR5qa2rxely0Hqvjdu3bpOdk0VKagqgoPJgjZkHU6cT/jdhO4H1pizLdGUh4mTWjxBb3Xo79q6uqqzuVQkEFvizP/0zttVt48wzZ1Y01P7Fn/0lxWXFHDt1hHAkTNv9Nt554122762jZlc1s7MzXPrgMkMDw7TdaWNhPsjv/PG/IxReYikcIrS4xNJiiFAohCfZw9jAGIOdwwT8QZwuJ5XbK8gtzOHWlTv4p+epqKngwNF9OGwO2u90cqfxLmmpqZx59imysrJjuzjH+kESqhGKojA2Osa9Oy20t7YTCARRVYXcglwKivMpKMrD6XbFe3CWLS4u0t3eQ3tLB7MzczgdDsoqy9i9fzepqanoWrSCsxhY5M1X38I/N8/zLzxPeXlZvLKiaXq0f2VVc62uaSuGf9abBSRVFSEAaaYVYuvbbFCB1cM/Jv/w9//A4tIi3/jVb8SGfUzm5ub4yz//Kw4eOcDOvTtYCi/xT3/3EigWTz//FFPTU7z3xlkW5heo2lWBw2Pn93/zDzn5/DGcXieLwSCmacX36XG47BRU5JFbks3CTJDBjmFmxmep3llJxbZyelr66Gnto7isiCOnDuNyuJgen+HKuWtYpsXeA3tIS/ORmpZCUnISdrudUChEd3s3LXdbGRsZRVEUikqLKCorILcwN94gvLS4hN/vByW6Ym10d2YFm03H4XRgWRbTEzN03u9ioHsAu9PB5549Q05eDjbNjqZpGGGD13/0BovBRf7Vt75JSnLKmmElOhykrttYK9OVhViTNNMKsdWpqrpuWPkowcVFPB53/HvTsujq7gYsiooKMU2T3u5eZmdmOXTyCRaXlnj3tfcJRUIcPnMQV7KLlub7ZOVl0narg+NfPkyK5kV32LA7bFiWyWDnCPcb2+i+30txdSFV+8rovt1LS3MrJhY1O6qwO2y03eoEFI6ePkJaZiqnnz3JhXcvceXC1VhvSXSoxeFwRIejIhHSfGkcOHqA0opibHYd07JYCi/R091DZ1s3/T39RCLhaEPtqmbavMJcqrZXkZWbyf5je6jdVc35ty/y+o/f4KnPn6a4rAibZcdms/HU50/z45d+zNl3z/KlL38J1aZiWgqKZaJasWZay0QFUKLTp61Yo+1yY7MQ4tEUSL+HAAAgAElEQVRIUBFCsDC/QFZ25orLerp6cHs8+DJ9hCIhbjXexul2UlhawOXzlwkGFzn+hSPY3TYa65voaulm9/EdvPO9syRneUGHoD/I7MwsS8ElssvTySxNY7hjjNbGdnrv91O+vYR0M437Ta2oqkJVXSUoCm3NHViWybHTR3F6nHzhxWcwIyZLC0sEA0H8c/P45+ZRFKiqqSQzOxPDMjAMg+GRUTrut9Pd0UMgEMTu0CmqKCAtIxXDNIgYRmxFWosF/wLdbb309w7gy/BRu7OawtJCTn/xSS6+e5l3fvouR08eZtuObQB4UzzsfWIv9Zevc//efeq210WrJ6aJqZgophKdBaSo0V2X15jZI4FFiEcjQUWIzzjTNAkEFvB6vSsu6+3ppbisGAuLifEJBvuH2HNwJ5Njk7S3dFJeU4Lb6+Lqh/X0dvaRX56HZldI9iXx2t++TUFNXnzWD6rCYNcwKVnJFNTkYEVguGOclhttVO4ux2em0tLYiqaqVG6rxKbbaGlo5eJ7lzj+9DFUp4rNbsPtdpOpZjz0GCJGmOnpWeqvXKe3sxdUyCvIYWf5DrJyMggsBpmbmUNDRTNVUBQUFJJ8SRTXFDPQNUB3aw8X379MUnIS+47s5fgzR7l2vp6LH1xiYSHAwUMHUBWVul3b6Onq4YP3z1FYXEhqSiqq8qCqYsZCi5YQRqyE6ctCiEcjQUWILWKzwz7WqqGPQCCAaZq43Z74tN6hwUEWFxcpKi4EoLnhFrpNo7y6nDdffQuny07FtnKufnCNwf4hKneWEVgI0NbcRdmOYm5fauHQV/biTnVhd0Vn7Ix0jzHaPc7s+CzZJdmU7y6i/94QHbe6qdxdhorKvYZWbDYHlbXl2G12bl+/y/m3L3DymROoLhXViDxUjQgGgzTfvM39O/dBge37tlFWXYpm0xgbHePqhXr6uwaIGJEVzcTLsvIyqdpZybEvHGZyZJr2Wx1cePciB4/t5/DpwzRfu0VTfROhYIgTp4+jaRqnnj7Jy9/9Ee+9/T4vvPiV6Gq6xKY+K1q0amKZoGibWi9F1lQRYn0SVITYAh6lkXb5+OVGWv9cdH0Rr9cTv763pxdFUSgsKiS0FKKzrZOKmnKGB4eZHJ/iwIl93G1qYWRwjLoD21gKL9Hd2ktuaTZ7K3fQeauH4e4xao9WMDU6w/TwDFll6STnlDLWNcFo9xjzk/NsP1pLd3M/HU3dHHx6L6qicef6XdIz0yisyMdmt9N0uZmGq00cOXkI0zKJmJH4eS7MB3jn1XeY9y9QWlVC3Z5a7A4bgWCQGxdu0tHSiaopFJTn48tJje9VhBWdGjw/u0BPax/Db4xQvbOKqh0VHMo+SOPFZq5+WI/L42Lfkd243C7u3WohJy+bbXV1eJO9HDh6gKsfXqOrs4vq6mos08RUifeqRJ9zCzVh+rEM+wjx6CSoCPFzsl642Mxf1h+3aXYtQyPDAGRmZkbfbC2LsbFxUtNSsTtsDPUOETEM8gpz6enuRbdpZOVlcvn8FfJL88gvzeX8GxdwJ7ko2V5IKBKi7kQ1Te/fIRIJE1oMYVkQ8AcoO1BEXk02qdkp9DYNMtgxTOnOQprP3mO0f5ya/ZVcf7eR9judZGZlkV+Sy/TEDF1tXdTuqMLhcIFhEQ5HCIWWuH65gcVAkKefe4rUjBQMI8LgwDDXPqzH7/dTWlNM2bZS0Kz4RoqhSDj+2FOzU8guyaS1sZ2WpvvMTM6w99ge9hzbxYU3LnHzSgOZOZnU7alluH+Yphu3qKqpQlUV6nZs49bN2zQ3NlNZVRmtpvBgddqNhn8ksAixeRJUhPgX8CjB4pMKIetVU1YbGR7G4XSSnJocXUANmJyYJD3Dh2mZjI2MAuBLT6P+yg18mT6mJ6cILYXIystgenI6unrr9iJCoTC9bQOElkIsBULMjM1RfbQMFIvuxgGG2kfJq87G43OTkp3ESM8Y+ZW5JPk8jPWPU7G9jPyyXPrbhpiZniEjI52K2lJ623r56Q/fQo3tt7NMt2mc/PyT+DLTCEdCtLd2cu3DepxuJ4fPHCTZl0QgGOTWpdtMjU9jWkZ0enJsF2W7w07Vrgqq9pbjTXXTdaeX829c4IlTB6jeXUXjpWba77VTt6uO2l01XD1XT2dHJ9XVNViqRe32ahrqm5ianCIzMyveVKvFZvwkvqYytCPExyNBRYifoU+y8vFJWL1+CsDQ0DA5OTnxFVKXlhaZmZmhsqYCgJGRUbxJHmx2G9OT01TWlTM8OAqKRUpmCncb76EoCul5Plqb2hnuGcHrc1O2t4jp4Vk8GS5M0yQ1P5mJ3im86W5SM1NIzU9mZmSOiaFJUnNTGLg7xNy0n7yyHAY7hui414XveBpur5snTh0gHIzgdDhxOp3oNh1NV/Eme3E4HUSMCN2dvVz7sB5fZhr7TuzGUizGhsdpuNxEYCFIRl5adDE704iv4js7Ocf1D25Ss7+SnNJsvKle7l1r5caHDRx75jDp2encbrhLUVkReUW5eJO9NN1opryiHE3TqKmroeF6E01NzZw589SKqcrLfSom6orhHyHEo5GIL8QnxDTNhz7+xc9h1Q7By19bazSRAiyFlhgfGyMnJzt+7NTUNKZp4kuPVlRGhkbIzM5kfHQC0zTIyM5gbGiMVF8qNl1npHeU7IJMFGByaJrs0iyqDlaw6+ltTA3MMDMwh67p5FVl4fQ4GL4/DoZCSnoyLo+L6cEZsvLSUTWNicFJXG43BeUFDPcMsxhYAiC/KI/KugrKqkspKiskrzCXzJzM+IaJAz2DXD1XT3qmj0OnDqLpGh13u7h69joAI33/lX/6bz9kbOC3qNpbTvW+Cqr3VeDLeYFzL1+k8fwwPff7SPYlUbu/mrnpOTrvdlO3r4ZwOMydm3dQFNi2u5bJ8SkG+gaxLBOP10N5RRn3bt8jFAo98mslhPhoElSE+Gf6OKEkMVCs9/Fx7m+t71csmZ9QTTEtk+GRYQzDIDs3O96fMj4+Dlik+tKYm52LrrGSk8nY6DgASalepidmyMrLYmxwnEjYoKAsn9G+CSzLIr8sB13VSPJ5SclK4uy3L9P4+l06Lveiqhpzowv0NPajGApZRen4pwNgKqRnpzE+OImqqJTXlAHQ09q7Ymn6tVZ6nRib5NIHV/BlpHH0zGF0m87Ni420NN0nOz+Tw587gM1hQ7eFufTTE8zPuuLPj2aLDtH4ctPouttDe3MnGbk+cotz6LjXhWEalNeU0dXew+T4FCXlxXiSPDTdaIo/pzt272BpaYn7La2P9JoJITZHhn6E+Jg2G04+7l/OH+d2q2+zel+f5cuW36ibGpvQdI3c/Nx45WVsZBRdt5GSkkxffy8WFimpKUxPT6PpOnabHcuysDts8edAt+nRJeMVNdZHAuGFCAszAZxeJ6FAmOnhORamFgjMLdJ9s4+rLzdic+jodp2RzlEUVHRdx+vxkOpLZW56Hv/cApZFfEn6tYwMjmAaJsc+dxRVg/mFeQa6hyiuKqJqVwURMwyWRem2LmYnk7j02jM8/Y0frbiPsp0lDLX7Ge4ZoWZPNRU7ShnpG2NydJLybSV03e9hfGSCnNwcSsqLabvbjmGY2DTIzcvB5XYxPDTMnj27H/k1i7920scixJokqAjxMXxUSHmUkPFJzQBJ/JmJASV63cMhZXZ2lrt37rFj53ZcTicR04g2z46Nk57hQ1FgaTE69GKz69gddoxIBN2m43Q5mJ9doHx7KaqqMjE0SW5xLp13upkYmCKnPJMPX7pKer6PZ3/7NKgQDoe5f7kDy4LqA+VEAgb3LrZhmRYp6Sl03+nDCBtcffcG0xMzBPwBzr9xgW//0XdISasgMP9ddu73kZtvkp4ZJC0jiC8jwFB/EgouHI7oTs6z03MAZOSmY2FhmhaLwSUC8xa1B3/Ih6/8R7KKvos3dYTJkRQguqlheo6PqeEZ/LN+0nxpaJrKvH8Bm8OGpqksLCwA4HQ7MQyDxeAiTrsTC4ukJC/z8/PR6cimuWGtWmb8CPFoJKgI8Yg+bkjZKLx8VLDZ6I1tvSrKg+sfDimmaXLz+k0Mw2Dvgb3xaophGIyPjVFWWY5pmSwuLmJZYLPbsdltAIRDYZJTk5mb8WN32snI9jE2OEFRbQHZxdkMdgzRUt/KaPcEv/h7z2Gz2zAti747gxiLJlVPlJGcmkSARbwpHmoOVOGw27HpNg6e2k9BYT6NF2+xMBvg8KlD+KfnGBsMc/3ifXIL9jIz6aWrLZmJMSeT405CSycAeO37S6RlBLA7xwmF9hEMuknLmseTMsvEMISWDCzeItn3ea6/8yI1B/4z06M58efGm+bGsixmJmbxpftweV0s+AMoioLT7SSwEMS0TNyxPZECCwGSk5MB8CZ5mffPr3hNNNaa+YOsUCvEI5KgIsQmbRRQ1goa64WPtZpa15L4hraZCs3qKkr0dtaKgLJ8/Zx/joaGBiqryklOTortgRNhZmaaYHARX0YahmmwuLSEZVnodh17LKiEQmFS0lKYaOtCQSG3KIexa7cJ+pfYtq+a6bFprrx+nYrdJQy1jZFVnA7A7LCfgqpc0rN82HQb/f3D2B12cgtz6Gruxul0kpWTSSQcYWp0ipodNeTmZVNQmM+O3Rqf/7IdTW2P7aMTHcoyTZM3fnSVyXEXlXUnGB+1c+vGNKNDOqMDubQ2e5me8LAwF90e4OJPzqGoBkbYRuG/amBmrDf+XLs8LuxOO/7paOBwe10sLixGv/a4CQaCqIoab+ANBILx59nj8TAyNLri9TBjlRVrg5k/q6srMvwjxMMkqAjxER4loHxkdeORmm6jx272jWujYZ7l6yzLYiG4wMs/eJlwJMy+g/sIG2FM08QwIwwPj2BaJr70NCJGhMXFRcDCpmnodh3LgnAoRHJqMpFwhPBSmLyiPG5fv8vk8CQ5Jdk0fnCbXce3s/1oDcM9o/TdHsSyLBwOByOdEwSmllAVlfGBCap2lmO3OZgZ95NTkIPL6WKoawQFldKKEmy6HU3V0DUdTdXQNB1VUaNTgE0TU1HQ9XkKixfZf3icUCSMYbxH3T44cGovYSNEf9cA/9+ffAGHq4Snf/l9Lr1xhM7b1Vz5yVfJKvxrAOy6jq7bSE1PwT89j65peJO8DI4PoyoaHq+bmYlZFEXF6/WgoBBYCMRDhjfJy+LiIqFQCN3pWvH/h0cd5pGwIsRKElSE2MBmQ8pa/SGrb78cID7GSWzusIS1UVZMTzajGwNGjAjNzc1cOHeBQDDAs899gbRYIDFMg/l5Pw03G9B0leS0FAwzwsT4BJpNQ9FUHA47AIH5AKm+FECh8143tXurycrNor9tiMtvXUPTNZ77tc+DBsVVhcxMzDE5NIXNoXHxtXra6jtYmAsSDoVpPHcbVX01OoSUk86N9xtYDC6Slu6jpamVqZxpMrOz0FSNjKx0HB4nqqJgWmp0t2LLRFUUFuaDYCnomo4RiS7qZhkmuqpjhA1U1SK0OIemX2ffqRZaG/4velvLUNUDAGiqjq7qYEIkFEFVNDRNwzItLNNC1/XY5QoOuwOAcDg6HVlV1PhwUDAYxJ0QVIQQ/3wSVIR4RBtVUdYbfkm8bqP7Wuuvb8PaXF+DlTi8kxBQTMuks7OTc+9/wNj4OHn5eXzphS+SkZWBYUaIGAYjw8O88dqbzM8vcPx0dPbM5OQUXe1dbNtZg2EZpPhS0G0aw4Mj7D60i/KaUjpaOlFU2HNkN9/7mx9y9/p9nv+1Z1n0h1B1sDvtZGZnkJ7ho7e1P7qkfW0JJVVFFFTkc/tyC0PdQ2RkpRMJGXS2dGMZFv5ZP9//7z9kanyKpaUQ8G1U7TTZOREKiiAje4mMzEXSs5bAep7ernPUXxzgwLFC9h/dx7m3ztNwoZkDJ/dSWllCUkoSk2MROpu7MSyD7MK3mRrbR0/LCwDomo3Bjm5mJ+bYcXA7mqYx2j9Gdl4WDoeT2ek5fBlpqIrKQiDat+Lxej525SOx0iLNtUJsTIKKEOvYzDDNWmuVPLhuZUDZzJL2y5evfuPazNvYWsM8/nk/b7/5Fm2t7aSkpvDF55+ltLw0vpR8JBLmVtMtLpy/hMvl5LkXv4gvw0fEMGi80QgKVO+IbrinqCqZuZmMDI6iKAp7n9iNYRh03utmqG+Ypou3OPTUAcLBMM0X76wIZoqqYJkWBSV5VO4oZ2khTOuNDpbmFzn57Alsuo27N1t46kunOPnMCdxuNwF/kEtnrzA2PIbT0cf01N8zNeHGiOQQWiqnsz2daxftjI+VMTP1FG/+SEXTDXzpi7g8LxKJ9FF/fonyOjsebwaqpnLmqycJRcLU7u3kL//Ts9jsEcwQLMwG6GnpI7coh5KqIvyT8ywGlti5rwgzYjA7NUfRniIUVWVhPgAoJMUaaaNPdrT/RPmEVqCV4R8hHpCgIsQjWCtsbDQVePk4c40gs2x5OffENzlzVX/KR/3VnXj/y1WU+/fv886b77C4tMiR40fYvW8XKGBaBhHDYHExyPvvnKW9tZ2CkgKePHMC3aZjmBFmZmdoa2mnsrYiul5KbFZQbn4OAz0D+OfmcXuc7D2yB7fXxV/+4d+QmZvO1/7Ni5hmhGAgSGAhGN3zJxgiEomQW5RNOBTh3vU25ibn8Hg9PHHyIIsLS9y92UJhSSHHTx/B4XDS19HPjSsN2G02nn/xS5SUlaAoKsMDw1y9eJapyZfJzc/hiaMHSE1PZXZmgX/87+cJh7Moqz7K+JiD+7cj9PeoTJ3P4d/87lWy8icIRzzYzQjlNQtU7+7GlzXLl7/1GlfeacDldrH78E5smo3h3hFsNhuFpYXMTvnBgqzszGhFZX4BRVFISU5GUZRYtevh11AI8cmQoCLEKmuFic0GlNXhJLG6sW5PS6xakWg5lBim8WCIQFm/wrMcdkzLZCGwwPvvvM+9u/fIyMrg+V94Hl96dBaPEYlgWiZDQ8O899Z7TE9Ps+fAHrbv2YaFyWIoOgW3ob4Bw4xQub2CsBEmYkSwLJOMnPToirb9w5RWF6MoCrfq72CaFrsP7eLKO1fZ+cR2bA473iQdvBYWsBRcor25m+mJadxeN/uORodkWhpb6brfTUV1BUdOHgJT4dr56/R19VNQlM/JM0+SnJyCqkYDQUlpCSUlJdy5dZf6K/X89Mdv8uLXv0paWhLPPFfD+2+dJSvH4NiZSkLhEFfOXaWrvQeV3ThsOSiKimZGpw0/9UIjf/uHX6a06tuElyIcOfMEbpcHBRgZGKOgJB+nw8HA5CCKopCdmxUNKv4FNE2Lz/5JfP4Tw2Tia64CJiokTFH+qOEfqaoIESVBRYgEHyekrDfLJvGNyrTM2BL16zTXxnYtBlAVBSP+tYoBKLFl5DcSCoe4d+ceFz68QCAQ4MDhA+w9sAcUCEfCGGaEocEhGm820dHegdPl5KlnT5GVm0UoEiISCTM6MkZXWxftrZ2UlBdhc2gshZfij0nVo8vYjw6PUlpdzJ2Ge7zx/bf53T/6HXILc7j6QT3XzzdEnw8sFB4Mibi9bg4e309xeTHTY9PcON/IxMgEdbvq2H94L3NTc1y9cJ35GT+Hjj7Bnv170DQ1tipt9EPToiFj995dlJQW89Lff48LZy/y9LNPUVFZTld7F83Xb+N0OimuKOLwk4cIBha5de02ve29JPuSUTUFm00nNWWEpJQj3PzwEM99005WTja6pjHYM4IRNimrKEXTdMZHJkhJTcHldscadxdITklCUx+sk7IcVCyir7nyERUwyzIfCitCiLVJUBEi5uOGlPUCimmZGJEIXV3dTExM4PfPMT+/wLzfj98/TzgcxuV24XF7cHvceDxuvElesrKyyM7NxulwYmBE36gtE4O1m20DCwGampppaGhkYX6e7Jxsnn3+C2RmZ2KYBkuhRdpa22lqaGJkeARd16neXsX23XVYqkV3Vxc9XX309/RH1wpRVXKLcqjaWRkPKQDTU7NcOXsVwzTIL8lnZnqWv/4//pbnv/FFandVoygqZ54/zeT4FAAKCooSDSm6ppPqS6W/e4ALb17CPzuP2+PmieNPUFldzu0b92i724bH4+ELX36WktIiNFWP7+8DoKnaigpEmi+N00+f4v13PuD1H73JM186w4lTJwiHI9RfuEFPRy/7juzl1DNPcrfpLh2tXcxNDxIOh2Ovo0VxxQ9pvf1rVNYuYdMs+joGuNfYQnqmj/yifKZGpxgbHmffE3vQVT3eo+L1ela8Bimp0RVux0ZHSU5Kip+jYirxBqOVVRX1obAiVRUh1qZYG0+Z/JjzKYX49NkoqDxqSPH7/TQ1NtLUdAv/3BwW0SmuHo8bj9eLx+tG13UCgQCBhQCBQJBAIIARiQCgqhqZWRnk5eVTUJhPqi8Nm6aj22xoWnRdkfn5eRobGmm5ex/DiFBUUsTuvbsoKCoALCKGweTkBG/99G1GR0bxJidRs6OK0opiZufmaL55i76ePpYWl1A1lez8bHIKs8jOz0a3aSuej5GBEa5/eBPNpnPo1EHS0lP5b//5zwksBPhP//fvoWlafEEzVYlWQUzTJDAfwD8zz/T4FN3tvYRCYdIzfNTtqqW0soyJ4QmuXqgnMB9g285tHDp6ELfLg6qoWJbFYN8QnW2d9HT3kpqWyq49O6muqULT9djzbdLb28dbr7+FqqqcefY0qelp3Lt9j/rL11kKL1G3q5aaHdVYioVhGoTCoegaMOEwkbDG//qtr/PcL53H6foes9Oz5ORnc+j4QdxeD++9dpZIKMJXf+UFnA4Hmqbz/b/7IcVlxTz19Glsug1N1bFMk7/9i/+Hffv3cuqpU7HqT3Ttl8RNFRP3LFprg8XVX8cvk7Aitr51G7ykoiIEH11NWX3sWiHFNE16e3tpuHmTttZ2DNOgsLiQEyePkVeQh82uY5irAk/izBgUlpaWGB0ZZ2RomJHhUW7fuk1jQ0P0WkV5qFnTptvYtn0bu/bsJCUtJX5OkUiYe3fucf7sh1iKxYkzxyksK8A/P8/VS/W03m0FVSG/OJes/EzSc3yYpsnYyDht99pYmA8QCARYCoRYDC4SXAiSlpHKwSf34fF6eOfH79N2t4M//JvfR1VVFheC+GfnmZuZZ2F2nrmZOeZm5jFNEyW2WWFRaSHbdtaSlZPF2OAYl89eZbB3kDRfGs88+zT5BQVoqsZg/yBd7d30dPYSCi3hcDqprq5idHSMD949x9WL16jbsY3tO+vwJHkpKSnha7/8C/zkx6/xxitv8eSZE+zYtYOSsmKuXLzK3cYWerv6qdlehcvjxO604/a48Xo8BAOL7Nh7nte/V8tXvmFw4swxCksLsek2utp6mJ2a5cTTJ7Db7SiqimVG10pJTkpeER5sNhu5+bn09fVH9/tRYn0nlhpfoRYeVFWWw8paQ0BSWRFiJamoCMHmqynrhZRAMMBbb75Ny917OJwOarfXUrd9G8mpSZiWhWFE4sdbsaXfE+8bHvwlvfyGpCjRKb1TE1MszAeitzNMTNMgEjHQdZ2KygpcblfsfKI/JxAMcPbdD+hs6yQ7P5tjp46gagrNTbe51XCbUGiJkqpiKurKCQaDDPUNMjw4ysToJIYRwbIsNE3D4XbgcDlwuZ14U7yU15Si6RpD3SP8n//hT/jSr3weX6YP/+w8RsRAQUFVVdweD2m+VHzpPlLTU8lI95HqSyMYWKS7rZuu9i4WA0u43W6276pjz/49OOwOuju7abjWyNTkNA6ng4rKcqpraigqLsRms0UrLP1DNDU00tHRCUBVTSUnTp3A4bAzOzfH6z/5KaPDI1Rtq2LPgV3YnQ76enq5dO4yM7OzWKaJhYVlRXd8tiyThQUvr/7Tn/O//9ElDh6ZASASNnjt+z8lOTmJZ7/6BWyajqbpzM/O88P/n733DI4jQc80n8ws7x0K3ntLkARJ0JPdbEO2m2lN9xiNpDmZ0EqKVUixt3cbe6fV6DbidrV32l3tyoVGexpp50bSjNqz2d0ku5sWNAAI770hXKFQKJRB2cz7UYUiyGZzZjbifqi7nohiVWVWopCVBeabn3m/H77F6WdO0djUkIpuial1XXe6uXvrLr/1z38TvcGAareTriA8NrLy4Fh/tgYpG1nJ8iUjG1HJkuVn4fNESubxLpGysrrCW2++zeaGj8PHD9PS2oykkkjKSeKJOAk5dfKPJ+IEgkG2Njfxb24Ri8Uwmk0YjXpMZhNanS5ToLnT5SIKIjanDafbmTnJwcMGcPFEquYiKSdYWFjg0oXLBEMh9rfvo76llumpGTqudBAIBskryqW2pRrPmodL714mEAgiy0n0Zj15ZW4ceXbMNhOSWspc7afqRATicoxQIMH3/vCvaTrYQDyZIJFMUFReiM1hw+m0Y3M6MOr16bSHCkkQmZmYpedOH57VdSRRorishIbGWkrKS9GoNCzMLdJ5qwuf14fD6eD5F56jtq4WjUbzmf0tLy+jvLwM3+Ymvd09dHffY23Vw4svv4DVbuHV177KzWs36e8bYGp8mpZ9zTS01PP6L7yG3+8nGAgSCAYJBoOEAiGSySR1TTWEtpa48ON6Dh+7C8DQwDDR7QhtZ09njomsyASDIRRFwWgyZCImCTmVrisoykeWZWZmZqhvqEdWBEgmkEURlah6bGRld73KjmTNFtdmyfIw2YhKli89j0ZTHi2gfbQuJSknMiJlanqKt994G0kSOfvSWfIK8jJur0k5werqKl13ullbW2PLv0UiXYOSuqpP39LdMVqtBpPZRH5RPhVV5eTl5yGKEipJyggGlZS6ttidAhIFkU2/nzs37zA+Oo7JYuLEmRPYnVbudfbQeasTi91C84FGYvEY9273sLHuw+Iwk1fqRm81EImE8Xu3CPi2kAGjRY/erMPisKBLCyhRFHn7L99nfmKRl3/xBZZmljh48gAl5UWZmTxqlQZV+lYGWpIAACAASURBVF5QBO5c72Juag67005NbTW1DbVYLBZUoooN7wa3r99haXEZu8POocMHqW+oR6VSfbaeY0ewpCMKOx1Uc3PznH/nPPF4nOOnjlHXWIsCrHs83Lh+k5nJGUwWM4eOHaC4tDh1bOREevsHXVnTkwZ+/fVj/OWPb5Bf5OONH7xJYXEBp549mRaIAoIo4vNu8u6PzlNTV81Tz51+aA6RIiv88G/+Djmp8LWv/xy5ubmZAmAhLVaeFFnZLT4z0bVsVCXLl4fPjahkhUqWLz2fJ1SelPJJJBP09vTy4YcfYbNbeeXVlzEYDSTlBPFEnDXPGndu3mVyYhJJraKgKA+DUY/eZMBoNmI06lGpVekuoCDBYIjt4DbBrSAry6sosoLBYKCsopSKqnIKigpThZvp9tydE1g8Fqens4f+3gFkRaaxpTHliSLAjU9vMD4yTmFZIRX15fR3D7A4t4hGr6aospAN7wYbHh8BfyA1G0dR0OhSE5Ij4cgDAWXQYXNakBMKF75/kX/2b3+ZovJC7nzUjcVu4fgzR1BLGtQqNWqVBrWkJrod4+bHHfg3tjhwuI29bXtRq1JRllgkRtftbkaHx9Dr9bQfOcSe1j2o1eqHT97pE/zu/X30OCmyTDAQ5Pz595mbnaOmrpqTT51Eo1WTSCaZm53j6idX2fBu4M53U1JWTEFJAVabJdNKvCNa/tVv7SUnN8K5r77JnRudvPDqOXJyXRmxtNMi3tfVz727vRw50c6efXtQiSpEUUQSJfw+P++88R6iKPL6N17D5XIhCCIqUfqZxEpWqGT5EpIVKlmyPI6fJpqy29BtJ5py/dp1rl69RklpMedeOoekEknKCTweD7dv3WFsZAxREqlvrqOupQ5REkgk4gQCQbzrXrweL9FoFIvNjMVuxe6wolZrEEWRZDzJ/fkl7s8tsby4QjKZRCVKWGxWbDYbVpsVq81KPB5noGeAeCxOVV0lrW2t6I06goEAlz/4hJXlFer31JGQE/R3D4CgUFJbTFJJMtY/TlJOYnGZ0Jo0qDQiChDZjiJKAiaHkXA4QiIYJxKKsjy1Rt/VIU6+eoTjLx5Bq9Yy1T/DypyHc68/h0FvQK3SoFVr8Xk2uf3pHURB4vSzJymvqEAlSSgyDPeP0NvVhyzL7N23h/bDhzEYDelW5AfiJJlIsuH14VlbY21tDe/6Bk6ng6aWJvLy8lL1O7siIolkgru373L92nWMJiMnTp+gtLwEUIjGYvTe62V0ZBTPqgcFBZPZSHFZCe68HCKRCMFgkN7OHP72e1/nm9/5l+QVirz46rnMd2G3YFIUhSsXrzI/s8i5V56juLQkE+2SRAmf18c7b7yHRqPh9W+8hsPhyERWdmpWUl1Sn1+vsvNeu+93kxUrWb6AZIVKliyP46cVKrujKT09PZx/733q6ms58/wZEBTiiRj3unu4+ulVAGoba2lqTbm99vcNsrS4xLpnne3wdsocTEid/OLxGIqSqkmxWC3YnTbKqkopKC5IpXkUWFvysOHZIBgIE9oKEggEScaTCIJAYXEBB48cxOGyk5ATeNbWuXzhY8LhMG3H9rG0sMTY8AT5JW7yK/IY6h7Gs7qO2W5Ea9ISDATx+7bYDm2nIgzpYlNBFLDkmHCX5GBxmHn3P31EMp5k39N72HuyGbPRzNZ6iIGOYY49c5iikkI0ah2e++t0XuvCbrfz7AvP4HA6UEsaFmYWuNvRSSgYpqq6kuMnj+N0OlFJqkzEIRzeZqBvgLHRMTa8GyiKgiAIqDUaHA4HG14viUSCHLebpuZGGpsa0ev1GbO1hJzg/sIiF97/gI2NDfIL8zl6/AjuvJxMobHf72dmepbZ6Vnm5+dJJBKkNlfQ6fX8w9/+79Q33eN3f28bh8OW7uB5+P/PHSF14c0PCAbDfOW1lPOvJKrS+yPg8/h4983z6PQ6Xv/ma9ht9p9ZrDypZTkrVLJ8AckKlSxZHuV/RKTMzs7ydz/8ewqK8vnKq6+AANF4lI6bt7h18xbFpUUcPtGOWqdiZmqWjmsdbPkDWOxmLHYzJpsJq8OCxWZGEAUCW0F8Gz4CvgBbmwE21/3EonFsdgs1TdVUVlei0WgyV+uSpEq1MW9HScQT2J2pib7xRJyBnkF6OnuR1BLtpw4y0jfC7MwcFXVlCGqRoXvDyCRx5FlZXfIQDoZRG9So9RIakwpJl/IDSSQSbG9F8K34URLgnffhW/Lz3K+dZmVyDYvdwv6Te9Cqddz+oIvKugr2tbeiUWm5cv46apWac189i9VkQSWp6b59j6G+Ydy5bk6eOklZeWkqgiKKSKKK9VUPPT29jI2MI8syZWVlFBcX4c51k5ubh91uQxAEtre3GRsZo6+vn6Wl+4iiSE1tDSdPncRitaAoCgk5QSIep6+3j46O2wSDAaqqKzl05CBWu41kMpEpbt6ORPCur6PRatAZdIiiwH/9v6f5h+//a87f+G/ojarPbVHfsdJ//60PkESJF796DrvDkREfKkmFZ3Wd99+6gNli4rVvvIbVYv2pxUo2qpLlS0hWqGTJ8ig/q1CJRCP86Z/8KVqdjm9863UktUQimaCvt5eLH16mui41ryYaj3Lr+m0GewcxWk3sa2/BlmMnEttmY92HZ3WN9ZUNIpEoNpcFq9OCI8eOTqdDUESWF5aZHp4h4A9htprZe7CVkvJiNGrNZ1IkoiASjUT55MMrrC6tUFhWyN72Vu7dusf01CxNbfVseH2MD03gyLNisBkY65tApZMorM0jEovg8/jwr28R3oqgpNunLflmXOVWVoa89Lw7RPm+YmoOVmGxm5nrv09RRQFNBxoYvjWGkoQzLz9FLBTn6vvXOXyyncbmBvQaPdPjs3RcvcWevXs4efoEWo0uU4AqJxWuX7lOf98AWo2Glj0t7N+/H1eO66EOp93snMDXVlfp7++nq7sbSZL42us/R0FBQUasKHLqeHXe7aLzzl1kWeGVr71MTm4OiiKTkBMkk8mUe3C6+FlRZLYCUb7+3Df49d/9Ds+98mymhuXR78jO5+/3bXHp3csIArSfaKe6pgqVpM60La8ur3LhnQ9xOBy8/o3XMJlMGcG5eyyAKIiZYwsPzOCyUZUsXyI+V6hI3/3ud5+04RNXZsnyT5lHRbrCg8F+mSW77PC7u7sZHRnj5a++hMVmQVaSbPpTIX53fg5PPX+aYDDIxfcvMTk2SXVjFQdOtLE4v0hvVx/3bvUwMTzByv1VorEYILM0v8zC9CKTw9Pcn13C7/PjLs6hqrECm9OGZ8XD1Og0SwtLxOMJjCYDkkpK/14KXo+Xi+9dZsu/RfupQzTta2B1ZY17d3qobanBZDPQc7uXgoo8XMVOBu+OYLTpcVfmMNY1wdqCh4AviKgTsOQasBaZEdUiG4ubeBf9TN6YpfJwGTllTnxLfvJrcpBjMr5VP8XVBcS243iXNqhurCS6HWNhepHaxhrsdjtqSU1f9yCKAi+/+hJqlRqVJKFWqVFkhbf/8S0mxyc5cOggr73+GnX1dRiMhociDDsmdzs3MX1vMBqpqKykvr6OifEJuru6cbvdOJyOjG+JSqWiqLiQ+qYGxsfGmRifpHlPU7re5JFjraSKpiU1+Na9nH/jfcqry1icXWB+doGZyVmW768giAIavSa9rYJWp6GotICVpTWG+4fZWN8gvzAPtVoNAlgsFnLz3Az0DLC4sEhNXU2mIHqnc2vHfybzbNf+KiiZ1+1+vPP9zU5rzvIF4g8+b0VWqGT5UvI4g7cdoaJkAolK2klWIZFM8M5b7+B0OTl8tD01iVhO8tGFj/B6vTz74jOEw2HefeNdPOvrHDjWRnltGbev3maobwRZSeIqcFJUXUhVSwXF1QXYcm2U1RdjdpnQm3TEYwlW768xPzGPIAnkFbsprS5Bp9fhW99kdnKO0YFxPKsekskEmxubXLt0HVGUOH32BDl5LqKxGFcvXkNSSTQdaODm5VuIKomS+iLuXetD0ogU1LgZ7ZxA0gjk1efgqDBjcGlBBUF/CEkvoHNqmbq6gCJD+eEibAUmfIt+5KSCI9eG9/4mZrsJvV7H+v0N8opSk4UXZ5aoqq3EZrMhInLn+l0qqiuorKpM+apIqTqOG9c6GB8d58WXX+Tw4faMZ8qOi+1OGuRRobLDznO93kBDQwOzM7N03u3EbDGTm5f70DBEjUaNK8dJz71eRFGiqLgQ0m3hKDvRs1TUzONZZ6hvmM6ObuLxGJFojK1NP6FQiNXlVSZGJ5kanWJrK4CkktAZdGh1WsprUmZ44yMTjA+Pp4qkbVZAwWaz4XA56L83QCCwRVV1VSoylBYaO/sN8NC/Ao/d791khUqWLxCfK1Syhm9ZsvBkgzdZkRkaHsbv93P6zOlMhGV8PHWVfvDIAXR6LW/8wwW2tyM8fe40WqOGTz74lJWlVapbqiiuKcC/6Wdpfpnp8Rk21nwkk0l0Rh12twVngZPaikqSMZnxnkkGOodYWVxlz6FmCiryKK0uYTuwzfLCGksz9+lYWEIURFxuJyeePYFOryUpJxnpH2HT56f9dBuDPcMEgyGaDtXRe3MABZnSxmJGOsdBVHDX5hDYDLA54yfgDRKPJVIncEUhtp0gGohReiSf1UkP2/5tjDkG1ubXyS1zIakE1hbWqG6uRlZk/L4ADocKRUmdYAHWPRvE4wlKSooBMi2501Mz9HTdo3XfXpqbmz9TpwE8VFj65AMnYzaZ+PYvfJs333iDDy98SDAQpP1IeyZVoggiZWVl1NXXce/uPeob6jCYUpEbRVQQFZEkqfbsW1dvYbVbefrcaTxr6/zO7/92ZqZQNBZnaWGJual5xkcmGRsax2Q2sffgHkoqSqhtrqawpIA71zq5dOFjTj+fpLq6GohRWl7KvoN76b5zj/yCfPbt3weiClGWkYXU8EJRevz+PmnCctZaP8uXgWxEJcuXks9L++yOpqTM2ECWk7z3znvo9DpOPX2KpCwTDoV4+413sFgtnDxzgiufXGN+dp5jZ46gN+i4eP4yGxub7DnUxHY4RN+dAcb7J/CsrIOgkFPswllgT832WfSwMrfG4uR9wqFtyuqLMVlNLM8sszi9hE6nxWI3ozfoyM13U9VQRX5hLg63k32H9qLVaVEUmcnxaXrv9pFXlIfVYWWga5DSmmJWFlcJ+oPU7K9kom+KWCyGq9TGbN8iW54AsUgMjUWNOd+IvcTMtj/K4p01chptFB/MRavXEFgOY3YaiQViIIPJasK/GqCisYyV2TWMBgM2u5X7s8tU1VVitVqZHpvBu+blxNPH0WlTtSnh0DbvvJGKTH3l1a+kREragwTIpHd2Hu/waBpoJ3Wz06asUqmoq69ny79FZ2cngiBQUlqCgJA215PJzc+lv7cPn89HVU0ViiKTTCZJKimRMjw0wsjAKAeOtdHYWs9f/fFfc+hkG2abmaQioyhJjBYDBaX5VNSVY7GZ2dzwMzY0TjAYIiffhd6go7yqjNWlVUYHR3G47FhtqWLgouJCvB4vfb39lJQUY7VadqW0Hh9V2T1OYef7mY2qZPmCkk39ZMmym59WqMiKzPT0DHdu3ebU6VPk5OYgyzJXP73GwvwCZ19+jvuL97l98w5NexvIyc/hwlsfEovFOHhyP9MTM8yMz2KyGimsyqe8uZSimnwktUg8kaCwJo+88hxMNiOCKLCx4mNpehl3cQ7lDWVsbQSYm1hka3OLvKK8lGurKKI3GnC67IjpqcXD/aN0d9zDleuitb2Fjk9uozNoceTZmR2bo7yphMXpJYJbIQrr8lgcXUJtVJPflIO1xIjeqUVjSs2+mby0iLnAgM6mJuKLk1NlJ7GtsL0RwZZvYWslRH6pG/9aAKvTSjySJBmXyclzsTS7Qk19FRarlb7OAaxWK817mlCli0fff/s8kUg0U1iaKhoVHoqmCMLDbbqPOxHvFis7x1IQBKprqvBv+em824kzx4XL5cwURqs1qbqR3nt95BfkY7aYkOVUMW04vM3F8xexuxzsP9SKyWpkbHCMual59h5uSRn5JePplF8iVX9iM1NaWUwikWBieIr7c/fJLcpDp9dSUl7M8sIKo0NjFBTlYzKZEASB0vISpsdnGB8do7GlKWVyt1OXslOr8lC6i8/UqmSFSpYvKJ8rVLIxwyxZfgLzc/OIokhtfS2KLJNMJhgeGqaqtgqX28XQwDAWm5k9bXsY6BkkFo1x4uwxYrEoy/PLVDVX0nKsibyyHARJYaJviu5Pexm+O0r/jSFCoTAWt4my5mL2nG5CZ9Ix2j2OKAnsOd5MZVMZywuraZO21HydzLwhWSaRTDLSN0puQS7HzhwmHosTCUeoaqxkc92PWqsmvywP//oW+eVuBATkpExhQy46k+ahE930p0sAVD1fhL3CTCKSIBaOY8k1kkwkMdj0oCgZIREJR9HqNMSjcZSkgiA8SPH4N/243K5M2iIUCLK0tEz7kXbsDkfmPR/ubHk4ivIkMmkicXe6SOLcuXOYzWYmxyc+8/rqmmoA/P6tTAoPYLBvkEgkStuRfSTTzsMvvH6W6xdvMjE2zcfnr/D2D97jyofX6O8aYGlhme1ImLgco661mkOn2wgEglx69zJerxdRJXLi+eNoNGpuXLlBIhknKSdQq9U89dxpgsEQw0NDmeO4g/zI85+Gx9VbZcnyRSIrVLJkeYTMbJ/0lbrXu47NbkelSpV0LS8tE41GKKsoJRKJsHR/mdLyEoKhINPjM5RWl2Iw6RnpHUVn1FFSXUhSTvDD//gif/hrf0zH+8/iLLRT3FhI0B/ixps6/stv/CV+nwZBUihvKSEWjzM5OIWiJCmpLaagPI/xoUlWltY+0za9urxKNBqlorYURIFYNAqARqshmZRRqVWkXc3SE4NTjyW19NB+r41ssDq8QfW5IiS1iKh6THvwzmeUfiAIAsmknGrVTs8xklQq4vE4yXgSo9EApMTIyvIKAgLFxUWZZZmfu1usfE7NxU4dy+O2272NJEm4XC58Pl8mWrOzjd/vB8Bms2ZeH4lEGeofprisCLvDlkoJyUmKKwqxOCz84E/+X7b8fvJL84hGIowOjHPzcgfv/d0Frly4zurKGo5cO+1Pt5FIJLj83iesrq6hUks0tzXjWVtnfHScRDJJQk7gzsvB7rQzMjSSFibKZ6ZqKz+jWMmS5YtMVqhkyfIT8Ho3sDvsQOqKd3pqGkEUKSouZH5mHllOUlhawOTIJIlEgqr6cuZnFtjwblLRUEYwFKL3Rj8+zyaiFGVl9pfIKa3DVWSn9mgVOrMWgOHbo/g3ttAY1eSUOLk/vYJvw088EaOqpQK9UUfPzV7C4W2ScoJkMmXnPz+9iCRJ5BSkPELisTgKCmqNCjmRRJKkVOQlkSTgC7I2t87Gkp/xG9MMXBin740x7v4/g4yenyVvjwNjjj6142kxsjtLlkmZ7Uq3yLKMJKXcWgHUGjWR7ZRY0ht0mW1XlldRq9Xk5uZmlu1EX+Dx0ZTHiZOd5Y++djcOpwOfb/Mzy30bqWU2uy1zPIf6h4lEIjTtbSIhJwmFQnTfuseHb1+mrLqE+elF2p85RENbLe3PHOT0V46z51gzpbUlhIIhbl66zf3F+xgsBg4/cwBBErh28RrBcIjCsnzsTht3b3URjUYyIrOmvprlpRXWPesp7xpZ/kxB945QVh5ZniXLl42sUMnypeNnCZUrisKmz4fDbs8sm56eIb8gH61Oy9zsPBqNFqfLwfT4DO68HAwmA6N9Y5gsRlz5Tu5e7sa76sNkM1JcN47FtcHdCy8iKzJqjUReZQ4AsUiCoZtjbK75Ka4tQKWRmOidyhSL7jncTDQSpf/OIEo6/SLLMnNTC5itZuYnF+i+2cv1ix2M9Izx4796i49+/DGX//FT/sNv/lfuXOjig//2Cbff7mZtZh3PzAaJaBKTy0hhqxuNUYWAmBksKKWnNqsl9QPBIKpAEBAEKWVvr1IhKKkohpyUEUj5l0QiO0LFkIl2LC+vkJvnfkic/P+F3W4nsr3N9vb2Q8s3NzdRa9ToDbqUOVw8wWDvIAVF+ThyUtt88OaHjA9NUFJRxLf/+TdQa9R0X79HMh0RESRw5NqobCrjwNP70erVdF7pZmlhGZ1RT9vxvWyHI3Tf7AYUWg/uIRgIMtA3iCynoidVNZUgwPDQ8BP3I5vWyZIl256cJcsT2dzcJJFIZGoqAoEA6551Dh9rR5Zl5mfnKS0vxrexyZZ/i71HWlmYXiToD9FypInZ0TnisQT7TrawvmwgtAVHX3mT9/7iNzA5vkf1QQVJSv0ZNhyuZmG4n9mBefae3kNZQwkT3euM3lNhNpUT9jvwe9sZ7FS49kElsUgOy4sS26G9wF4EUcBmt6I3pubf5JfkkVfkRmfSU72ngtGeMaoPVJJIxpgenKP+VBVxOUY0HiWeiGG0GBh8f4La0+WIagGdRkYlbaNRaQARUZRQp6381ZIKMe2wqsipfZCTStq3REMgnXbR61MRlUQiwfraOm0H2oCHW25lRUb6vPbbz2nN3R1deFyaxJ4WlhsbPvLyczOv2/BuYLVaM3U5I0MjbG9vc2L/MRRZpudOL9vbUU6eO47FbiYaj3L87BEu/N1HhMPbWOxGTHYzeSVu9AYdaq1E2+m93LvWT9e1HjgGpZWpVuWxgQnmpheoqC6nqKSQgXsDNDY1YrPaMJqMlJSWMDoyxvGTx1NutTyIWP2PfCZZsnxRyQqVLFmegNfrBcDlcgKwurIKQEFhAcFAiMh2hPzCfFaWUsuLy4q48WkHeqOe/OI8BruGcOY6sDoe1ES4SzoxWY8ycuM3QPkx0WgdAP2fvErA90289/X0XSliO+AgFtXR8T5odVGszhB2VwhFnkarneHQyQD+jVGW5jo4fOq3OHTqIJJKYmp0iq6Oexw9c5ihvmF8Gz5qmitZml0mvLmN2WVCFCXC3ggmdyrNIwoipc1FjH0yy9rQBkV78wktbyKJElqdjrA3gkqUICEiCVKqQ0UQUWs0xKMJNE4NyYScso5XqYhHYwAYjEYAAlsBkslkpgtHSgdzZVnO+IfsHgCoKHImpbPbtv6nxWQ2ARAKhR4qUPVv+nE47Zn3Hh+ZwJ3nJicvh60tP5Nj01TVV+DMcRCNR5EVGVe+k63NAH7vJslkgsXZJSYHpyivL6W0pgS1RkXbqVa6r/XRe6uf/OICqhorWV5YZah3mIrqcvYcbOGDNz5icnySfW37UBSFqppKPr30KR7POoX5BT/1vmXJ8mUjK1SyZHkCOwW0OyF4rUabfp5Eo0md5JPJJFqdFgSBeCyO3qAjEU8gCiJGi5FQKJRpO0UQsNjNhIMVJON2br19Aq0xCIB/PRe1ZhFbziB1B4awu0LMDN6mttXI3sPlaNVagr4QHRfv0HqohfrmOkDFYJeTieFJbn96h/ZThyivKWd8cJK+OwM0tNVz49JNFieWadhXy0DXMBqdBqfbzsLQMmaPEaNDh86qQa1TU3OknImOWVSSmlg4TnFjAUajgeV+D45cO5vLW5jtJmKhOCqVCrPFRCwSw5nrIOANYTKnRFAingSEVEswoDekPqtHUzGP4/NMzB4XSfi8otNQMASA0WDY9VqFwFaA0oqSTMfUxvoGdc21QKqGRlEUCksLMoXKAX8Az7KH2j3V3J9d5n/6199ma3OLqcEZJvqnuD+9zP6TrRhMBioby+i9PsDa8holZUXkFbmZGp4lHotjs1tTDsNeX+Z3tqYLesOh0EP7t1u8ZcmSJVujkiXLE9kRJvF4PPVcm3oejURTQwQFgch2BLMpdQW/Hd7GarOSiCeIx2JYbGbCW6G00BGAVAutSq3BXTJDYfUYz/3KnwHw7Hf+hqq9/5HqfT9i3+k+nHk9GMxz5Bc/mH8zMzqLRquhrLosVT+iUnHwWBvtJw/iWfVy+d2P2Q5GOHj8AOFgGN+aj6r6ChamFtHp9FTUlbM278HhtlNcVcjwtTFmehYZuzHDbOciNpeFSDCKf2mLqrYybC4bcz1LCIhYHGbikQQltUV4lzdxF+YQ9ocRBZHc/FzCwTAmiwkxLdiA1Myb9OemVqszAgJ+cvrmcfy07btbgQAAZrM5sywcChNPxDPLfBs+krKM1WFFVmRWVzyoVBJ2pz3TNjzaP44oiJz95jNM9E+xPLeM3qSjqb2e1uPNRLYjzI7NISsyNpcVSSWxsrCCrMhY7VZkOYlvw4esKNgcNrzrqQidLMvo9FoUBYKBYKZwdjfZzp8sWVJkhUqWLE9ArUkNoIvFUqkMnV6HgEAkEkUURTRaLdFIDIPJmBIt4SgmqwkQCG2FsDosyDJEgrF0ugT86zlEw0ZOfePHLE9XszjSknozRSHgDWLLsSEKIlveICpJhcOder4dirC8sEp5TRl6nS7j6CoKIjX1NTz38jPIskLXjW7yC/OoqqtkemSG0ooS3PluRrrHKCjJJ78kj/sTK9hdNuKRJGpRRVl9CTq9nuD6Nu5SF0HvNipBxVz3fZAFGtpr8a8GsNjMaNVakvEkhWUF+Ne30On1WG0WwsEw5nTKJRGPo1arHnJWNRj1bAW2Urv6mInEqccPTtg/6US9e/3udm1ZkfFvbiIIAkaTMfNzN/2pjh+TxYysyGxsbABgd6Q6gDzLazhcdgSRdLRlk+W5ZUpqiimsyKdubzU33r+dnjAtY8ux4ipwsrqwRjKZAEEgp8DFyuIqiUQSq9OKgoJ3fSP1eoeVzQ1/JjpnSEd7wuGfHGXKipYsX2ayQiVLliegUqW8RnY8QnYiKrFYHEEQ0et1RCNRzGZTSsBsR7DbrIiCwHYwhtPlRBJFosEIoiggCCKeuQosDh9ltffZc6KDvitnANhaCyEgklfkRqvWEtgIYnfZMOiMqFVqFiYWUUkq6ppqkSQVakmNaudelMjPz6OtfT+bXj/L86vsb9+HXq9nqGuEpsbF6AAAIABJREFUw6cOYbaYGbozSkNrPU63k5n+eSqbyhi+NUFxRSGtx5toP3eAZ37pJN4FH6PXZzBZTew71YKoSMS2E5TXl7C5uoVOpyOvMBff+iY5eU6SiSTxWByTJSVUorE4ao16l+eLjNFkYmsrQFJOZiIjSTmZWb8jAORH/EQ+7wZpgfKYzphAIIDRZALhgSgKbKWiLBZLKqKy4U0V/FptVmKxGD7vJu58N4IgEvAHGesbQ6PVUNVYgSSqOPHyUfpuDLC1EcwMVywsKyAeS7Cx4kclSeQV5RKPJdja2MJkNqLVavF7/QiCiN1pJ5FIsOUPIIoiWq0WjUadSg0+1n33yS3YWbJ8Wch++7Nk+RxEQUi36AokEqmak51228h2JGVlbzCwHd5GrzOg1WkJbYUwWy2o1Wo2vX6sNgtqjYbp4Xmi4VRUZWW2nKLKBbRqLSe+chlRTJ1IJ3tE7C4beYW5REMJwlvb5BbkolapCflDLE4vUVpRjNVqRS2pd7URq1CrNEiSipr6Gpw5Tno7+5DjCu3HD7HlCzAxMMXh06lBfQO3hmnYU0teYS5GU8px9uLfXGHs9jQLA/dZHlvDkWcj4Amw/+Qe9HoDy5OrWKxmXDlOfCub5JfkkogmiYaj5OS5CIciABhNqShBMpFAEIVMO66syBiMBnwbPmLxGLKiZHxgdkYVJORERrDsiJXdt93sXpYyTHsQTZEVGZ/PhyUdOdn5mZubfkDBmC7w9W34sFjNqNQqvJ4NQMHpdhIOhfm9f/YH9HT0U15ThlarRRRE8ovzUIBLf38FSVQhCCKuPCdarQbv0jqSqCK3KBdREPEsr6eiYS4Hft8WoiDgcDgQBIHNjQf+LlabDX/a7yXjJ5MdMpgly0Nk/yKyZHmE3VevhrQwCQSC6XUC7lw3i/MLiOlBc6sra4TDYYpLipibXkBOKFTVVbIwtYB3xUfb0b2oJIniyt+juvl3mB50U1C+iEpQEfbNcfrnzqE3LiAn6mg51EQ8nKD/xiBGg5GKmjI21nzc+bgbvV7HnrY9qFVqlCTMTc7hXfOl24Ml1Co1Wo2WU08fR0Tk4juXUalUtOxrZmFqkZ6bfbS0NSMqAn03h7DZbZz56lO0P3MAz4IXnVZHeDOCXqfn6IvtLE2vMtE1Q+/Hg8TCcWpba5jonUEURSrrKwn6gwiCiCPHiUatTgu6lOmbI8dBcCvI6upaRozU1tcQCoW4fuU6STmREhfpaEoy+SCy8pBYSd+Az4iW3QJlt0jZ2tpicfE+hcWFDx3XcCiESqVOFT6nj+VOm/JOG3UkHOEv/vCvsDmsVNRVsLywipJUUFD4+z95g5KqIr75219DFERUkkQkuE0iLmO0mlLpuo2tTJRGQCAcDGMwGpAkFduhMCBk5v4Igsh2eDuTAsqSJcvjyXb9ZMnyBCRJwmKxsJW2Xgeorq7i2rXrBINBmpqb6LrbzfjwOHvbWpmZnKH3Ti/7D+/Ds7pOT0cvJ84e48wrT7G0uMTE4DzrS6Vsev6U6+/0oaBgMBWyHSrm9Cs6dFodXZ/2IEkSR59pJxqOce9aHza7jdNnT2KxWAgHI1y/eINAOoUgiRIWqwWX24XT5aCiupxXv/4VLl24zI3LHbS0NfPMi2e4dfU2w10jlFYXE97eZmFygdmxeWwOK1u+AKIicuy5dgKBEAsTi5jtZvquDnLsxcOU1pTgW/Ox5Q3QfLAJq92CZ8GLSqXCZreiVqWESnArJeiqaivp7x5guH+I/PxcZFmmoDifpj1N3Ou+R3llORUVFciKgLDTfkyq42Xn8kmEXS3KTy423REpsiwzPDSMLMvUN9anhVAqYhMKh9Ab9Glho6DT69gObyMKInaHHb3BwMV3L9N3t59//71/S1yOc/3iDUZ7xlleXGF+YoF/+Z9+B026QFgQRGaG59Fo1FTWliNJEvPji2h1WoorigkFwoSDYQr2FSAKIqsra6jVaty5bkRBJBFPEAqFcDidmWjKjnB6UnQl66GS5ctG9hufJcsTEAQRu93+0NyY6ppqBARmpmax2qyUlpUwNjyO0+Wipa2Fmck51pY9HH/6KKKoovP6PSRRorC4kOKKsyiKitb2BA176zh85hB5RS+i1UdRMcm9a/0ICBx/5ijIAt3Xe7HarTz94lNYLBb83i0uv/cx0UiUZ188w9mXnufA4TZcOS48qx66bnfzzo/eZWPdxys/9wp1DbUM3htienSGZ184Q01DDXMTi0SCUQ6fPMTeg63k5+dRXFHEtfc6uHOxm6GOUSKBKO1n2lhZWKNxfwMaSc3syAKFpQWU15SiljQE/cFMakulUmEwGggFw8iKgkqjorK6gqmJ6fSylDg4fOwQdoedDy98RDgcTk0jTqeAds+72R1ZebQuBR62ld8tUhRFYWBgkNw8Nw67/UF0RpYJh8IY0m3SkGqZjkZjJBJJBEFAEgUuvfsxv/4//wr5xfnkF+VT01hN351B3vr+e/z8b38dZ44DENj0bKVake+vU1FflhI9oQieZQ+VdRVo1Rq8qxsIgkhhUT6iILK27CE3340kpeqeAoFAOvqSKubNCpAsWR5P9i8jS5afgM1uS9c3pHA4HdgddqYmpxFFkYbmBsLBMPfnF9nb1orT5aTzRjc6vZ4jJw8R8AW48t51xnonGOuxU1DqZf/RampbanDlOBm8Y8ZiG2OocxCtRsvxZ48iiSruXunGZDLy1NnTmIxGVhZW+eTCFbQaLS9/7SUqKispryzjwKEDnHvpLL/0K7/Iz//St3DYnXzy4afc7ejkxOnjHDlxhLVlD5fe+xin08nTZ0+TjMv03BpgfdlLTp6b13/1VdZXvBSVFnHgxH6e+epTnPv6cxhNBq68fZ3+20PoDTr2tDcjianZQZsbfiwOC8lkgoScxGDS4/f7ScoJ4ok4lQ2VxGIxhgaHiMajxBIxEOH0s6cIhUJ89MFHxBPxjFhJ/ZzEQwW2CTmRqV1JFd8m0mmjBzUtiWQiI1ImJiZYXV2loaH+QbFuettgKIRWp82IGoMh5eC7Hd4mGony3j9eoLi8mP1H9qdt/gWq6qvovdVPWXUpja0NrC54uHu5i+6rPQQ2g9S31lLbXIta0rA0vYwoSFTVVSJJKtaWPFisFmwOO4lEks0NP4VFhUiShCSqCG6lhYrVgrArcvLo7KPdc4+yZPkykk39ZMnyCI9eue+eG6PRahAEgYqKcu519xCLxaioKMdoNjEyNEZBSQHHnzrKOz9+j+6Oexw80cbxM8eYGJlgdnyO7htaNNo+RrrHiGxH8CyvMzV0kryiOY6eOUxBcQFBf5Cbl26j1xs488LTWC0WJoYn6b3bjzvXzXMvPIPZbEm5wIqqzBU6gNPl5NVvfJXO2130dPWysrTCyTMneO1br3Hz6g167/ZhsVk48dRR7t9fZnFugYmBSZLJJHlFuVy9cIOjz7QzPTJLwL9FXnEu1y90cOYrpzh05kDGwM2zvE50O4orz5FqL04m0Bp0rN1fIxKNolHLGEw63Pk5DPYNUtNYg1FvQFFkLHYL+w/t425HJzl37nLgYBtatRZZUBAVGSV9QlYUJZMKkflsZ89uu3mAxcVFzr97HpfLSX1zA0k5mRIxacESDoXJcTszwiVjQhfe5m+/9wNkWeHg0f14VjxU1JQhiyp++Od/j8lipHl/I5++ew1ZkTFZjOw9vJeSysJ0ykskFo2li51LsFqtiIisr3qprKlAI6lZXl5FEKCwsACVmGrbDgXDCAjYrFZEIWUI+KCd+6cXJdni2yxfdLJCJUuWNJ9nJGYyPbBj12hTviqlZaV0dnaxtrJGfmEe9Y11dN7uJOAP4nK72HdwL123urDYzNTvqaOgNJ/tcJjrH7VQ1fARS3MriKJIQUkh4WATp851UFJeyvLCMt3Xe9BqtZx58SmMBiO3Pr3Dwuwi5ZVlPP3s0+j1OgRBRFBSxaCqdAfKDmoJjp84TllpKRc/vMT5N96nYU8Dz73wLHOz89y81sHVizdo3NvAuVfPEY1GWF5cRq1W8+O/fpM9B1uwOS3k5udQ11LDH/+bP8dd6MbldmVEXDyamtA8N7mAM9eBwWDAmWtndmKOS+9d4vDpw9htVmqaq7j20U3e+vu3OPP8U+Tl5yOLCvUtdawsrXD9ynUW5uY59fRpclwuVJIKWUgLkEeGF+5+vHvS8MrSMjdvdDA1OYXeaOCFV15AlARiiVimKHdleYVgMIjVbk0V7ioyZosFULj8wce8/8YF/vP3/4ihviFG+kYpKiuk49Pb3Pr0Lv/nX/wBOqMWz6oXo9lAToEr5V+TFgjh4DYdH99BkRUa9jSgVWvp7xwkmUhSXlmOKEoM9Q6j0+nJL8hHEFJ1RfOz8xiNRkwmU3rg4+MnRWfJ8mUnK1SyfOn5SU6nO1f1O1fwoiCSm5cadOdZ81BQVEBjcwNdd7oZGx6j7fB+9uxrxufzMXhvCL1eT1lNKduKHc+Ki+e/aqWo9GUEUcCzaiS4ZcRmG6Pj4gDrq15cbhcnnj2OnFT4+PynBPxB2o8eonV/Kxq1hmQ8yd2O24wOjaVM5KSUQ60oSahVKkrLS2k/eojyinK+/UvfpuNGB/19AyzMLnDqzEle//nXuHn1JkM9w8xNzbOvvZWK6gqKy4u5feUuiqxw+uxJ4ok4siJz+oXjXDl/nUOnDpBMf1YFZXnE4wlGekb5+N2rtBxsori8kLYTe+m7PcCHb33E/sN7qaip4OTZ49y52sm7b7zPiaePUVNXgySqOP38KSaGJ+i63c0Pvv8D9u5v5fCRw+j16flDu6Irgig+bAyXTLK0tETn3S7Gx8bRarUcPn6YltZm1Go18UQs0+IcjUS4cfUGarWK6rrqTN2K1WZBEAW+/2d/w6/+9i9T11iLzW7l4wuf8N///O+49O5lfuE3vkVZdRmyLOPOy810F+18D7weH7c+vo2Cwplzp8nLz2V1YZXRgTEamuopKy9lcmSK1eVVnn7uafQ6PSpJwu/zMzM9y9FjRxF3RcR2kxq7kE37ZMkiffe7333S+ieuzJLlnxqPMwdTUB66J32flGVAwePxMDoySuveVgyGVPpCVIkMDQ6DolBZXYlGo8br8TI9OUVtYx2iSqSwuBDPmpfRwVF83k3Gh90MdNfzzV+9g8GgI5mQufyOmpnxPFw5f4IkSuzZ30L78UP4PD6ufnQdFHj+peepa6hDrVLjXfXywbsfsnx/habmRqpqKiksLCQ3101OjguD0cD42ARDfUNA6neorqkiPz+fmakZBvoGERE4fOIwObku7i8sMTY4js/rw+3OwWwz84/ff5MXXjuLpJIQxZSJ2Y++9waN++uxuWxAKiVjc1pxF+XgXfUyPTpDMBCmtLqE4spCvGs+JoYnCW4FKa0qobKmDM/qOsP9wySSSfIKU34j7jw39Q11xGMxBnqHGB4aRqPRoFar0Gi1qakDPDB+86yt0dXZxUcfXKTzbhdbgS3aDrZx9sWzFJcUpbxblCSJZBJZTrKx4eXtN95hbc3DsZNHcOe5MzUq8USc//zv/gtqjZr/9f/4F6hUavQmPe7cHP7mz/4Ws8VEUWkh2+EIVqslVXy7HWX1/hpzEwsM94wyPjiOwWTimZeexp3rZm5ynjvX7uLKcfH02adJRJNc/uATiouLOH7qGGqVBlGU6LrTjcezzksvvYhOp3/IZVgQUvUxu9unH+0G2s3OuixZ/onzB5+3IhtRyZJlF7sdT3fY6UbZebxzRZ2b52Z5eSWzfM++FiYnp7h66Rqnnz+JWqXi9HMn6e/uZ2RglHt3Baz2CT74xwuo1CoUWaHnzrfIL1rg5HMnKC4tRi2p6L83yOC9IXJyc3j23BmsVhuKonDvdg999/qxWMz83NdfpaSkJO3n8eDPWBBEfBs+rl29zp2OOwz2D3Lk+BGqa6v49ne+zfUr1+nvGWRuZp4TZ47z2re+xkDvAPc67/HBmx9RXluGKIp0XL7FibPHQU6Qk5fDgRP7ufTWJ/zK//KLD30GBpOeA6f3MTUyw/TwLGsrHlrbm2k71cr08CyTQ1Osr3k5crqdI2fa6bszQE9nL74NH6efOYlBb0StVXP01FFqG+vouNrBpQ8vpbpwJAmr1YrdbsdsMbOytIzHs44oipSUlnDwyEHKK8oyDrjxZDxdVJv6/aanZrj84ccIApx9+Tnyi/JThbhpE7q//cv/zvqal+deeZblxRVKK0sRBZHzb1wgkUzyb//495mfW2RmYpaZ8dlMO7OiKKg1anJyXZRXlVPdUI1Wo6bndh8Tw5MUlRZx5rmn0Gl0fPzJJ4iCwOlnTqOS1EjpgY3DgyM0NjRgSdeniOLnp3yeFE3J1qdk+TKQjahk+VKhPOLHsbvWIf2KXYZiqRPe+vo6IyOjtLS2oNfrSCoyspLE5/MxPjZB054GRElEZ9Ch1qgZ6B0gkUiQV5gHAuQV5FLXUsf1j9spr97i5LMRjGYjzhwHg/e+wtHTEY6eVtjy+bl9vZPpsWmq66o4c/ZpTCYzvo1NLp6/zMz0LE0tjbz0lZdwOh2ZOglRlJDSJzpBEDAY9NTX11FcUsz9+0v09fQxPztPUUkRDc0NuPPcTE1MMdA7RDKZoHlvM1UNVYRDYSaGJ0nKSe5c7+T5V59N7aucxOIy86PvvUnbqX1odOpMp04sESMhJzA7jNhzbawtrjE9OkM8kaC8rhRHrp2luSUmhifR6NU0tNah1WoZGxpnfnaRgqJ81NqUB4vRaKS+qZ7i0mIKCgtwOp1IKolAYIv7i/fRGfQcONTG088+RWNLAw6nHUSBZDKZ+n3kBIlknFg8RuftTq5cvoLFZuH5l5/D5rSl2qDlVOdQb3cv/+73/pDf/w//G9vhCLKiUFxeROetLv7kD/+cP/ij36OmoZqi0kJq6qvQaDRoNBqqaitpPbiHg0fbqKmrpqCoAJIK1y7eYGF2kdb9ezh15hR6vZ75mXn6uvo5fPwwlZWVqCQJSZQY7BtidnqGsy+exWqxplujpYwJnJguqt1J++yOmDwaPclGU7J8gchGVLJk+YwN+yO1KQ8biD2IoIRCoZTAEcjUN8hyyhJeVmS8Xi85uTnIikxtYw0L8/P03xugsq4CvUGXfh+BqVEXv/a7C1Q3VAGQSAj8+3/l4ju/OcnK/RWufHAVlVrNkRPtNLQ0oJLUbPm3OP/GebRaLS9/5UUqq6tS1v7pzhFJVKVObI+56i4tLeXbv/jzDA4Mce3KNX70wx/z7e/8PBWVFbh/IYcb124y0DNIJBLlyMl2jj91jMraClQaNb13+7n16V3aTrSSlBOUVBVTXlfGp+9e46lXj7O6tI531YsoCRgsBgxWPRabmdaTjUz2zzA2MM7CzCI1LdXsf6qVkc4x7l7vYsPrY9+hvZhsJu5e6eStf3ib9uPt1DfWoZLUqCQJl9tJbr77M0XCu6MH8UQcJd2irCgKke0Ic3NzzEzNMDczTyQSpbKmgiMn2xFVIvFkLGP+tnI/yu//i+/x6je/wv4j+1ld9eBZ9eD1bvB//Zs/4pu//HVa2lKDIiVEjCYTrQdaH/psRUFEkRUWphe429FFMp7kzPNPUV1bgyRJeFe93LzSQW5eLvv270uLFBXhUJjuu90Ul5aQn5+f6fTZnfJ59H0e9/jRzyNLli8yWaGS5UvB/8feewbHmd93np8ndM4NoJFzBkgkgjnMkJODZiSNomXv+dZSab23vltv7e3arrq62/Ldi12v17Vl69Z3tuXTSrbkoBmNZkYTyWEGSJAgciJiIzS6ETunJ9yLBjDkaEaW7L2qK7M/rC420EDjeZ5+uv/f5xe+v0+qTfm0n3tQpGiaxu1bt/EV5wzE1L0oi6IqDNy+g8PpoKCo4MAGPpNJsx4I4i3yYrFZYO+5NoNGdrbMNLZtH/ytlQU3mYxEdf0Gl9+5hdvr5sXPPY/ZakESJXRN58oH15BlA1/86hdwuz2fKFIk6eG38ccXtI7Ow1RUVfCdP/sOfdf7eOq5J7FabZx/6nFSyRSB1fWDRdJX6qPlcDM1jdVcfPPSnlBRWV9Zp76tlg9fv4ou5Gp0DGYDqqKQmkvn9lMQsNgtuAud1LRXsLYQZPD6PdxeF00dDVgdFmbGZ9jd3uX0hVM8/sI57vUNc/XiVfwLfs5eOIPD7tg79jK6pB+Y7AGoD7yEmq4Ri8WZn51jfm6BVf8qWUXBbDZSUVNBRXU55VXlqKioivpR5EzV+O3fKCKZ+CP+u3++w/CdYTbWQ/Sc6OY//q//ibKKMr729a/+1HHcv59Opljxr7LiXyOwEkDJKhT6injsiXP4iosQBZFV/xofvHMRm9XKiy+/iMloQpZklKzCG6+9iaZpPP3MUx9FxD7mm/JgNOXTXtO8SMnzKJEXKnkeSR7qIPmY6yl8FF0ZuH2H7e0dPvvKy+joB9GUsdExNjc2efK5J0DgwIRs8PY9kolkzllW3x/IpzMx7MDtTVJYnARyi9PMhJfK2ijj9/pJpzI8/cJTmK2WnDeKKDN0Z4jN4AbPvPgMbrfn4Kp8X6QIQCadIZEIE43GiEdjxONx6hvqKS7OdSUhyQi6htfj4diJY9y8fpNDHYcoLitG1mVKy0uYm50jmUgimyRQYXtzm+5jnfzwuz/CP7fMzs4u4/fGkSQBk8VEOpXm9MvHyWQzKIqCqiskIgkS0RTxSILVhTUCgkBpXTG+6kKCCxsMXL5LVWMVrUeamB6a5b3XP+D0hZOcevI4SzPLTNyb5G//4oecPX+ahqZGNPGjDisV9aPXStNY9q8wOT7J4twiiqpid9ppbG+gsqYy5xy7F/nKKGmyWYVoJEpkN0IsFuP6B22srXTxyq/8Lj95bYvwTpjahmqmxqaZHJnkj3/wLQRRIBFLkownScYTxKJxEokE2xs7bIY2AbDabDQ2N1JTW0VVbTVG2UgsGqPvej+Lc0sUFhXyuS+8jMvpzgkPRN596122t3d45YuvUFJc8lA78kF3zycYv+XJ86iTFyp58uyxH03ZL8YMR8Jcv3qNmtpq6upqD6IpyVSKvuv9FJf6qKmrRtVVNE1ne2ubseFx6ppqKSj0HogUXdd47ft/jiT/AYLwlYO/NzlipbxqGf/8MkdOHKHIV3iwaG2ENhm6M0JLewstLc0HV9n7IuX+9AwX37tEOp3J1TY8sB99N/t58TMv0NLagrhvPi3JnDhxnImxCa58eJUvf+1LCIJIWXk5AgKboU3Kqkr37m9R11xL94lO3vjBT/CVF+GrKKL5SCOCSeDGm7fw1RUSWt7I1XzoKpIsYrQaMVtMuMudpBMZFqb8WCxmatqrUZIKizNLJGIJDp9qY+rOfT78yRV6T/fQ1NpEaUUpd67f5f23LzE4MExjcwNWiw2z2YTRlLPoX11e4/7UfWKxGCaTmaa2Ruqa63B7nOhAVs0SCgaZn1tkZ2uH3e1d4rHEgeiM7Jbz3uu/yakL36GgaAuT2URxeSPRcDV/9oc/5rf+j99AEOBHf/k6iXjyoOtGQMBsNuPyuOg93ktNXRWFviIkUUKWZLKZLHf67zIyOIJsMHD67Cl6enuwmC0HKaL33n6X+flFnnnmGRobGn5KpOzXpcBPm73lBUueR528UMnzj56fVZvyszxULl38kKyicP6Jx1H37NsVVeFW3y1isRhPPncBVVf3bOAV7vQPgAiHj7STVbMoqgLkojOC0M+Jx3rIqllELdeKevW9z1Jdf5pjZwppOdyEpusIuoaaTnP5vQ+x2aycfuzUT23X3OwcP3njbUpKS2hpbcXldOJ0OnE4HIiSyOuvvc7rr73O9vY2J06eOPg9g8HAY+fP8aPXXmd0eJS2w20UFHmRZIn1tXVKKouJRWMkE0nchW6eeeUp/v2//X2e/Px5Gjq7SWdSuIocxCMJpgbu03KiHoPNQCwaIxVPk0lm2N1OkUlmMVoMeKtdJLZSTN+9j7vQRUl9EevzG6SSKbpPdjI/vsTta3fY2dzl2OmjnH/hMaZH7xNYXmeg785BcfB+j7IgCFRWV3D01BHKq8sBHUVTCUfCzM3MMzs9x/bWDqIoYHfZcXqdlNWU4nDZMVvc/N7vfJkT51f5579jQRTPIIoi6aSRf/bKCcqrvJSUL/Luj9/HarNy/OwxXC4nDqcDh9OB2WTZ687ZS70JIqqqMjk5yZ3+QZKJJG2HWjl97jROh/NAUGbSad547Q2WV1a5cOE8R3p7fi6RIgqf7p+ST/vkedTIC5U8jyz7ImU/nfNgNGVxaYnxsXGOnzyG0+06ECkbm5vcuztIQ3M9Xp+XrJIlq2ZYmvczd3+elo4WBFkgnU0f1LhoqsbS3Cyv/PfPk1UyiIJIPJ0lm52kur6F4+deRkNH0RREQeDOrUHC4SgvvfIiJlNuNo2gaUiiRCi0wZuvv4Wv2McXvvQKVqvtgQU9x1d+6Su8/ZN3uHblGulUmnPnzx081tjUSFV1FX03+mloakCSJQqLCgkGQuiaRmg9hKZpeArcKLqC3WkjshMhFokxeGOYeDRGVVs5O8FctCK5mUIXNQQJZLuEyWNEU1WiwTirMwFcRU6KGjxsLYWJRxPUtlQRmA0xcGWQk08eY3Nlm9mpOcLbEc4/9xhtXS109nYgIqKrOtmsQiadIZPJ4C3wYLVZ0bVcK7J/wc/k+BRry2uoqoq3yEvn8cOU1ZQgGwwHww4B/uJbp0ilDHztf7hCKptFlmQkUeJP/+Ao7gIbv/ob41y/NExpeQmPPX0Om812MJ5AFnMfk/siRc2q9Pf3Mz15HyWrUFZexsuff4nSstKDdnFBEIlGIvz4tTfZ2d7hpZc+w6HDhz5RpOyTN3fLk+eTyQuVPP+o+XmLaIEDkaJqKh+89z52u53eY0cOhEw8HueNV3+MJEv0nOghq2RJphLcunGb8ZFxHC4HDe11ZNXswaA+AP+cn3QqTWV9BVk7M4ijAAAgAElEQVQliyTJTI/PIMsipRUmZKOcMzTTNBRBJRyOYHfYKS0vRdsTKPuE1oMoSpbnXngWk8n0ifshyzIvfuYFIpEICwuLDwkVHWhsamBxYYFUKonFbsm5vio5oba04MdoMmB32bhx+SatPS0M949hchgxWGSajzdQ2ubj1f/wFovjK7jL7aRTaTKZLLryUeu3u8KJucDOrj9MKp6mqq2c4MwWK/MBmnsbmLu7xFDfCKefOom30MPorQk+fPsKF55/HJsVDLIRg8mA0WzE5rAePG8mm2HFv8K920NshDYxWYzUt9VRWVuB1Wklshvm/uQsmUwGRVXRdY35yUNcerOFf/qv/wTBkCWdFVA1hYErzdz4oIbf/eO32NnYAXTOPHkKo8mIrmkPjWzdFxa727tcfOcSuzth2g610dLWQlVVBbJkOBAhkiixurLGG6+/ia5pfPFLX6C2rvZTRcqnOdDmoyl58uTIC5U8jxQf9005MHh7oNNnZHiE9fUgzz7/NJIsk1UyZJUMb7/5NuFwmGdeehqT2cj6eoAP37vM9tY2Da31HDrShoZOVskQi8bY2dklshOm79IAhSUFGC0yWTWDpmvMTsxSWV9JMpVkYmSKrt6O3PweUaTIV8Dq0irJZBKb1Yama0h727ovThRFOdheURAfGuAHHNRXmPZmEz1IJBxBFCVsdhuKprARDFHbVIuSVVhZWqWippzQ+ibhnQhnnj7BcN8IG6ubPPlPHmNrY5OFUT/uEiexnRi1Z0rJqCZUFBAF0HTCK3E2lrawes0UtXjYmoswd2+R8sZSNud3WJlfo6q9jIXhZSaGpug62kH3qQ4Grw9z5d2rnH/+8YNt3V/MdV0nsLrO8MAIm6EtzDYzPSe7qKgtJ51N45/3s3htiVBg40BwarpOMu6l772v0nDoz1lefJVksoC2Iy0omSq+85/P8OVv9lFatYHFWsLc1Dyr/lXqm+qBh23tBQGmx6fpu3YLs9nMZ195mera6gM32f0oigAM3xvhyodXcbtdvPLFVygqKnoolfP3FSl58jyq5IVKnkeeBw3eMpkMVy5fpaS0mObW5gPTt8uXrrK06OfchTP4SnwMDw3Td7UP2Shz7pmzFJYUEFhdY+zeJNubWyQSyQNL/rmJOUxmE7ev3qH9SCsWi5XZyTmaDzVSWl3K5MgkDS31OJ0isibtDf/TWV8LUt9QB+wLKgmz2QxAMpX6O/crk05jdzg+2s89Uba7G8bpciCKIrtbu2SzWQqLvCz7V8hms5TXlDEyOIbBZEAVNMpqS1lbCLC+HGR2eB7RJFB7rILB1yeYviYjGPS9cQM5ZLOEudBAJBglk8hQ2uxjZyFKYD5IQamH9aUg7kIXRZVe5icXMFtMtHe20XHiEMP9o1x660MKCgtAA0VRyWQypJIpIrtRrDZLTqDUV7Czvc2t67fxz/vJZLJY7GbqD9VQXFWMwSSRVXT+9H//ZaqbN/mVf7NKcKmeubF5PnzzJiM3f4WG9iVOPzuEqhlwep0YzUYW5paobaw9eN0lJARBZPD2PYYGhqmqqeKZ55/B4XAcFNPuR1E2Q5t88P5FAmvr1DfU89LLn8Fuyw20/CSBAp+c7vlUh9p8NCXPI0peqOT5R8vflfZ5sCV5/37fzT6i0SgvvvwCOqCoCkP3hhm+N8zh7kM0tDYwPjrOjcs3Ka0sofdMD4IkMDI4yujdMYxmA94SL5UuKzaHFYfLzr2bwzQcqsM/v0JwLUTP6S7mphY4cq6H5o4GAv4Ao4OjnDh7DEWUcRW6QID1wDq19TWoqoooiGi6nktLoJNKpfYWUvGhqMqDpFIpPN5c95GufRRB2t3ZxeF0oukawfUQOjreQi93Bu7mOmwMEsHVINXNlcyOzdHQVcvFv1rm3sVRihsLkawC63MhrF4z2XSW4jYP6XQaXdXRNZ1EKE00mMVabCK7rbA6HqK4vpCwP0ZsN4HVZWF+ZJEj57vQNYHpoftYTFYa2xoQgMnBaeLRJBaLGaPRiCxL2B02GlrrqGmoQdVVRu6MMDU6DYKOr8JHaW0xNqeV1cU1hvtH0HSNqXtfYHXBy2e/8TuszCVwFTo5+lQ3P/wvJwhvO+k58xv4FyqorqvGKBsoqyrFP7dCOpVGsn700RjeDTN0Z5j6pnqee/FZjAbTQSRFFERUReX6jRsMDQ5jsVh46eVcPcr+zwD/IJGSFyh5HnXyQiXPI8dDXT8PGLzthne53X+b1rYWyspKyapZVlfXuHzxcq7b5GQv/kU/Vy5exVfm49SFE8TiMa6/e4PAyjolVT7aj7aBqB90AmVSaQL+dV755ks4PA7Gb09y8fXL7G6FKa8pxWQ1UVlfwezUHE3tjRQUFGAymHB7XawHAg+IlFydjGyQ0HWdRDKR225VAUl+aJ/2F7tUOo3BIO0VleYKhVVNZXd3h4bm3BThUDCEJMnYHDZWFlcorypldmoeURJQVIVUIoW3zENRRQHbgV2qOkpZmw9i9ZrxtXhZuhXA7DPkzNlEAAGj20AmliUWSOEqs6PFIXR/i8IKD7FQElu5BTWtMX13lt7zXSwKK4zdmcBgNNDQXEdtYy0G2YDJYEYUhNwU5L39W19dZ+D6XaKRKOW1pTR1NJJR08xOzOOfXSadSmO2mdndbGGs78scOvlbrC3dY20pt+AbTc8yefclvvQb3yKbTDJ4fRhJlKiqraKsupSF6UX8i8s0tzYdzHjqu9qPJEucPnfqofSaKIoszC9y8b2LxOMJuro6OX/hPBaL5WNpuH9YJCVPnked/DsjzyOD9gkRlAcfu9V3C03XOfPYmYOi2kvvX8Jms3L+6cdJpZN88M5F7C47py+cZHt7m3d/9B7BQIhDx9o4fLyd3e1dVpdWWZhZZGZslmvv3MwtWhKYHUZ6zncgGSUMJgMTQ1OkMknq2mpB0Ll3e2hvZo1KYXEh62tBItEIqqbszbNRMFnMSJLE6NAIiWQcTddRVQVd0w5u6XSKd99+h0Q8jsPlfKibKRQMkUqlcbkdqKpKKBjCW+hhYz1EJpOhtLIE//wKpVUlrC0FKCj1srsVprGnjq3VbfwTq3grXJjduRSUZBTZXYqhJBUycYV0OEN8PYmlyIjJLRMNJHDX2jDaDcR3kngrXOyshyltLCYeibO5tk3b8Ra8Pjejt8dJpzIH9SXKXkHyvkjbDG3mJkoDJ584Tsfxw2xtbnH1rRvMTczj8NrpON1O+8njjN36Xzjy5DWe/adpjj3fTc8THdjcVVx59Zu0n3iN1t4A3Y91YHNamLw3jaJmcRU4MFlMrC0HDqJQ0XCUFX9uho/dYd+LouTccrc2tnj91dexmM388q98jeeefw6LxfIzi2Yhn+7Jk+cXJf8uyPPI8mBqKJVKMTIySlNzE06HA03XmZ2ZJRQMceTEEQxGA3duDZJMJjl57hihYIj3f3yRrKJw6qljlFT5GLh2l6tvX+f25buM3hpjeug+M8Nz2F02hm+OMjN6P+evks1SXlfK9uY2k0PTSEaBhvY6VpfWWFtZQ1EVGlvrUVWV4cFhFFVF2XO+lSSJp55/ivX1IP/lD/+Ymzducu/eEBOTkywsLuL3+/nud77HvcEheo720NndcdBaragKt2/dRjbI1DfXk1WyBNdDFPkK2QhtoetgsVvIZjJY7TZSiTQOj51kPElJrY/i2iI2lrYpqHGT3EliMEtUnvCRCKZxtVjwtFnxHLKCqJOOZrCWGdF1jXQsg8VrIp3MYnGb0HWQDRIIEIvEEARoOFyHqqis+tdyHVAPzFRSVYVUKknfh7cwmgyceeYk3mI39ydm6b80gCiL9F7opu1YEyaHib/6z88gyRE6L3yXVCaFqikIBoGpgd/G5g7h8P4BO9u7qJpCWV0p0UiM7c1tVE3D4bYT2Y0cnBupZK4WyFPg+anz5+7AXWRZ5iu//FUqKysfmtuTFyl58vy3I5/6yfNIsx9tGBoaIp1O09PbvXcFr9Lfdwun20ljcwMbGyFGh0apa6pFNhm4+qPrmKwmes91oegKN97vYzO4RXVLJY5CG0ggyALBPw3R0FVLQYWH+fFFdrbC+O8vU9deS0m1j9mJOYrLi6hsrGDp/jJ3++7hK/Vhc9ioaahicnSKrp5OXC7XXhpIobauhqeff4rhwRFuXLtx4J66j8Vi4eVXXqK2rvYjLxddI7y7m5v23NGGyWRidXUVRVHw+rzM3Z/DYreQSqbRdZ39fwi5jhuzzURJfREjFydJJdLEd5MYXAbc5Xb8N4OE5xM46y0ggGwXSUeyWCuNiAaBVDiDp8x6ENXRdZ1kLInJZiIWzjnHOjx2LHYLKwur1DXV5LZZ1BCBdDrNwI1BotEoZ546hWyUWPGvMXZnnKLyApp7GtBQ2d0Jc/v9MGtzzbSe/DojVxcRZRGby0po6ZdYuV/Hl/7t/8biqMrEwDRHn+ihoMwDQzrLC6sU+oqw2C0El4Joe5Gc1F7Rstn8USu4IIgkEgmmp+/T3dWJzWr7VJHySW6zeZGSJ88vRl6o5Hkk+FkOtJqmcWfgDpWVFZSUlpBVsszNzREKBjl34SyarnHzWq5OoaP3MFc+uIKqKvSePU5WyXD9/ZtEIhFajzbhKXWTyaZJppKkU1lW5wIceaqD8pYSzA4jC2PLrMwG6D7fSU17JVvBHYb6R3jsubO0dDczdGOE2clZ2jvaae9qY3HWz9DgMKfPnUYScws9mkJdQx0NTQ1oqko2o5BMpkgmEqRTacoqyrDZbCh7hmf6Xipl4PZd0HUOdx9GURUCa+uATkGhl/7r/XgK3ETDEXRdR9PVXHGurqPrOkaLEckgUdZaTGI3iaZomF0WBAk8rXZCtyOYCmUMNhmDUyYdTqFldAwOA+loFsmSW3izKQWDWSIRSeLw2gkHoqiKimAWKKsuYWFqiXgsgdMpo2oai3NLjN4dzzm/9rTgKXIRCUe4e20Qm8tGa28zqq6wMr/Gj//kSwT9L9D5+A/pecZMeLuM+G6cuXtPMXvn16nt/HeYbGtUH6pgfnCJxcklmg434C32EFha59CRDDa7hXQmQzqVxmKykk5nADDutXnvC46hu0PomkZPb8/BefTzus1+/P6D5AVKnjw/TV6o5HnkmZ6aJhKOcOGJC7k6D12n/8YtHE4nTa1NzM/P419cpud4J8sLy6wtr9NxrJ10Js3192+SyaTpPttJLBrlxk9ukUwkUVWFdCpDbCfOTijM6LVJmnrrKa3zoSoqQX+Q0spiWo40MnJ9nKmRGTqPHsbr8zA2OEFdYx0Oh4OahiomRifp6OlAdkmIqogu5opLc1b8MiaLCZMlV4C7T1bNAjkRpusasXiMsdExGprrMVlMZJUs64F1jGYjgiQQjUSprK8gGokhSiJKVkEURVRVQxLF3HRkHTqfbiMRjyMKIg6PDVVU0NOgxFQW/noDAMkkIoiQXMtitBrQMjomg4l0NEt4NYrJZCIdz1DdWM3uaoTwZhS300tlXTmLU34C/nUUn8rE3Ul2t8O4C92cOH8Ud4GbdDrN7ct3EUSBnrNdgM704CzLcyvIRgOSIcNk//MceeYqRZUGnEWlXP+bbwLgKb7K7GCS9tMtFFUU4J9epbSihJKqYiZuT7OzsYvdlWvnjoZjuF0elEzuOJrNloNjq2QVRkfGaGhswFtQsGet/8kC4+NzeyAvUvLk+UXJC5U8jxSfFFm5e3cQl9tNbX0tuq6x7F8mGAzy2BPnEESB/hu3cLod1DTU8Dd/8beUlPvwlRXx9qvvIsgCx544wvbWDuO3J7F5bHjLXOiCztrCOkaLgdaTjfgnVhm7PoHRYsJV5MRV5GJ8YIoTT/VSVlfK4vQS1Q1VtPW0cPO9W4zdG+f4mWMHUZU3f/gmL3z2RQoKvIh67sr9QcHyafup6zqZTIYPP7hMOp2itaOZrJIlo6QJrK1RUORlM7SJpuu4C1wEAgFsDivJWBKLzUIqnsZsNZOOZxEFEbvLxm4ojMFkwGQ2MfLmEuH5OI0vl2MtMqPGNdLRLBsTu4iSgChKxHeSrA1tkI5lWBlaB0AQBUY/nAIEVqbXqGmqxlPoYXHGxvpyHG9hjEIfnHjsOGU1JejkCqAnh6aJR+Mceawbq83C7St3CSwHqGquYDvkwmi+T3THxZ13X+Lk579D36u/DEKuq6vmcCXLE8ME5oPUHKomvjPFzPAcJy4c475hjnV/kNaOFgQE4rEEkEs7gYDRZDzo5JmamCadStN7rPehY/7gFOSPk+/oyZPn709eqOR55NnY2KChsf4ggrC5sYmu69Q11JHNZtne3Kazt4Od7V2yGYWmQ00sL66SzSqcfvI4BovM8K1RzHYL7aeaUTWVtJJmfnSR4hof3jI3FoeZsWtTrM0FKan10dxbz+D7IwRXNqhtr2J9KcjqwhqdRzuoqq9kZvw+jS0NFBYVcuaJU9z8sI+//u5f09DcQNeRTgqLChC0j2oi9tmvAQnvhvEv+VleWiGwGiCTydJzvBu70048Faf/ah/hcISWjmbW14Pouo67wA2CkKtJsZpJJ1N4Sl2klzJY7RZkWWZ9OoSzyMHWyg63vztGKpqi+2stGN05J1fdobObjOEstlHQ4CIeTFNQ7qHqcBmBsQ2KqgrZXY0gCTJ2u43lmTVcHifR3RjL91dYnMmgaf8OXf81AN74fhpvYQJPYRx3QZxEvBhYpdxfQjSyS2TbjLvQQ217NcPXBQRR5/RnX+ONP/517N5VZu+c4vQX/ytXv/913EVO1gwyakbDZDbiKnCSjmeQZAnZIKOqKvtWNIKY6+yJxxKYLSaMhlzqRxRF1lZXcbpcVFZUHMxZejitIzwUHcmnfPLk+YeRFyp5HjkebE1WFIVEIo7dYT/4XiQcxiAbMBqNBNY30dFxuh1sb24D4PI6uTdwD6fHidVuZXt3h+2NHSqby0HIzZHRNY3g4ga+2iI0XcNgM+D0OZi4OUPPUx2IBhGbx0ZodYP69lq8Pg9rSwHae1pp6WxifXmdu333uPD845RVl/HyV19idnyWmclZZqdnqayupO1wKwDpVJpUMkUymSQRTxIMBIlEogA4XXZqG2uoqquitLyE7e0tLr7zIZsbW7R1tlLdUM2lty/h8jiQZBGj0UAmnaGg2MvsxDwOpx0BiO0mqO+sYerOfQSDwNpEkEwyQ83RcpIbGaKBLLoGuqaRSSh4q9xkwipaSqe2p5x4MInBaMDusBGTk3SeOsTSxAqdJw9x9tnTmI1mZsfmmR2f55nPJbhz5V8RXDPQ1v0U4R07WxtmtjcsbAVr2NpoZXK4hFjYCvwTBDHLpR/GyKZlBFHDVdSG1Rmm70df4+TnvoerMASApmqoiopszH3sZdLZnIGerpPNZDFZcgZ2wIEDcDwWx27/yF0WILC2TllZ2U+dVx+PpggfE5GfRl6k5Mnzs8kLlTyPJPtGb7FYDOBgMdJ0jUg0it1hRxCEA3Hi9riZvT+HxWZGNhjY2dqloq4MTdcILAXQNY2iioKDwtWskiXk36LtbBOqmhtOWFjpxea2YrGb0HUNb6kb/8QqiViCovJCpgdn2d0O4ysuoqWrhbGBcZYXl6lrqMNkNtJ1vIuOIx1MjU8zOTKFf9H/kLGYJEmYrWY8BW5aOpspryjF5vhov2bvz3Hjw5vomsa5p85QVlVKJpthY32DirrKnKAyymTSGbxFHgQBkvEUniIPmytbHDrXQmAhyI0f3sbmsdL70mF2NyNoaAiygCAKCCK4i43oGsR2I5Q2FyOLErHNOBUNZeyshnF7nYiCQDaVpe5YDbIso6k6SzPLVFSX4/Y4OfZYHZfeuIzFYuDY2faDIY8zYzMM3x7lic8/TlYVuX15hfmpLNWtx7nx5lkSMSuJiBNRVNE1keKaedRsrr5EzebmIxlMuY+9bDqD1ZubxqypOdffdCqNIAhYrLlhjfFYnIKCwoNjnIjHiUQi9B7tRdjv8hE/PZryIHnX2Tx5/n7khUqeRxJRFEHTiO5FHhx7M3FEQSQWjR18vbO9gyiION1OdrfDeAo8RHcjaKqeW8wRWF8K4SnyYLVbSWfTiIJAZCNOJpmhpNaHJElouo6z0EHLiQbSySwgUFhawPLkGhurm1Q1VDEzNEdgeR1fcRG1TdX47/u5d2uYssoyLGYrqqogyTJtna20tDezEdrAYDBiNpswW8yIsviQXb6mayQzyZwfy8Aw48OTeIs8nHr8BDZHblu3NrdJpdN4Cl2ompqb76Pmft/ldRHeDFNRX8ZI/zizgwv0v3EXh9dO9eEKimuKKWsuJatmDsQYwG4gwtpkCF9VAUXFBSwOruLyuLA77ewsR6g7UsPmyg42m42KygoMkpGV+6uoikZ7ZysG2UhxsY+6pjpmJ+Zobm/AaDEhCCI2uw1RFFEyCla7meLyJFvBSQ4ds3F/qIV41MzL/+x7ZJUMb/xfv8bAm1/h2PNv5TZME5BEEYvZjEEyoGY0rFYralZHFAWsFjPZjIIoiFitFgQEErEktbWOg5k+wfUQAgKlZaUPn0+fEE35WY8fnIN58uT5O8m/U/I8cjy4iERjUQSEh1I/0WgMp8uJKIrs7Ozi8rgRBZHIbgSv18P2xg6CAAW+AuLRBMlYkrKaUmRRQhYlDLKR0SuTCILA2nQQCQmjZMAgyZTVlpCOpYltJ7A7bLmU0vouZrOZwuIC1v25ehFRFOk63kksGmNiaCJn2qapqKqSu6Hg9XlweGwYLDJZPUssESUQCDB7f5ahe8PcuNrHW6++xV9++wcMD45Q1VDJ6SdPIJslkpkk6WyKtZU1VE3DVehCURUkQ+7YZFK59E94K4KvrBg1q/LWn71PTVsVX/pXL2M2m1kaXCEWTBIPpogFkkRX44SXYmzN7eL1ualqqiQ4tYXJYKLtWDNby2E8hR68BV4im1Fqm2owmy3ois7C9CKl5cUUl5ZgkAwYZCPdx7oQRZGRO+OI5CYUOxwOBEFASatIoozdYUMUJbJJFVEUEAUJo2zAZDDx+CtvsTbbyPJkR+6F3euSstlsyEIuimO1WtBVHVGQci3daQVRlHICJqOgKCoul2tvGrVIMBBCkmVKS0oO6lP2ER+4n/v60z9e8yIlT56fn3xEJc8jxf7cnH32HUj3B8ipgKaqewWSAqqiIokimqYjkFtgVEVFQEAWZTRFz9UiICBJMoa9uTRnPnsck9nI1b/uY+zaFOe+dJKSmlx0RRRENEVDkmQsNjPJaBpRFCgqLeT+8CxqVgUj+EqLqKyrZHxoktD6BhVVFYiiiCDmFkRVVYlFYkTCESLhKPFYfM8DRUPXQZQE3B4X5bWlFJf5KCorJKNlIGcNQnAtyPDACHaXDYNJQtUUHC4HCDB+d5K61lrmJud59wcf0PfuADWtVbkp0bMh6g/VsTi5RGA6lGvp3psULYgCTqcTV6GTxYEVBEGgoaOOlfEAakqlormCsZtTmE1m6pvrWJld5f7oHAICXb1dGGQDkigjCgIej4eOnsMM3xkmGo5y4rHjeL0eTEYT00MznHjyGEW+IoxGI0PXRskkX0EQBIyyCUmU8ZWF6Xqsj3sXzwMQmA1iNBpxup3Mj/mRJZmCogI2VjaRJBGX283i1DIutxODwcjaYgBRFCgsKjwQJQtzC5SXlWIwGg+EyIPdPp8kQPIdP3ny/MPIC5U8jwQfFyj7FBUWAbnOH2+BF0EU8RX72NzYBKC8opyla0voqk5JeQkr/jVOnD/GvdtDrPoDVDWW4ysrYm58kYKyAiSDhCzJuDwuzn/pDMef7eH667f5m9/7MU1H6nEUOCgs8VJaWQw6hDejlFbnrs5NZiMIAtlMFmy51E3PyU7sdhtTI9NsrG8CAqAfuMfKBhmH046r0EV5XSkmiwmjyYAugKqpZNIZ0okUq6urzM/Ok4gnSSfTpJNpspksTo+TI4/1kFVz9Rs2l5XDR9sYvjWKZJRJJzPceLuf3se7ee6Xn2JlfpWl6WV21sMUlHixOMy5uUjq/qwh2AnusrW8i9fnxWQ0sDyxhtFopL6lltWZNUxmE0dOdTPSN0ZkO0p5VTknzh7D5XYjCjnBJwoisijRe/wI3gIP/dduc/Xd6zz90hOcffIMl965zOCNYXrPdXP+hccYuH6HnY0wgmhAUEUkCWLRDC09P2DkWi9gIBXP0Hv+MKGlTUL+DZoON+LyuBjtm6CmoQYlo7K9scPJcyeQRZnJ0SncbndOIAoiaytr7O7scvbsmY9EyicIk09rUT44F/PRlDx5fiHyQiXPI01BYQGiKLK5sUlzSzMAxcU+7gzcRdN0qqor6bsusL4WoLqumhtXbiIJEoW+QpZm/FQ3VNB57BCX3rjC3Og8rUdz7cmyqCEKAg6Pk+d+9Um6z3fw5v/9DvcH5znxfC+aqhPfjaEqKsXlRUiijGw0AJDNKAfbJ8syrV3NtHa2IOxNElYVBU1TUdGRJIFIOEJoLcT6aoiN4AbpVBpd/5hnjKBjMpsw75nDOQrsWG1WquorkYwCWTVzsPhW1JeTTKZ447tvszizxPNffQYEGPjgHr6KQjpPdrAZ2GTNH2BnPZwTTbqOIAjIBhmL1YK3wMvOxi5pPUNdSw12m4O58XncHjetnS2M3Z5EV3XOPXmGusY6jLKRrKIyN7PAZmiT9s52SkqLkYCGxnpcbhc/ee0drn1wgwsvPM6JM0fpv3abkVvjHDraxuPPnaO08g2mh2e49qaKIOY6unRd5+kvfxZ3oZuymloyqTTLM6s5z5quFkb7x5Flmc7eDkZujWKzWWlqbWRna4fN0BaPnT+HLMlIkszY8DhWq5Xm1pbcId2f45OPpuTJ8/8peaGS55HGaDDg8XjY3Nw68MMoKSlB0zR2t3fxFRdjNBlZW13nUFc7fVf7CfgDHO45xKW3P2R5bpXy+jKaDjUwOTxDWU0ER+FHnTb7rdAGSab1WDMGg8y9y1k0vhQAACAASURBVKNM9s/QdfYwBoOBopIiREHEYjIhIKBkPypM3RcbopiLpIgCKKLO+mqQlcUVgoGNvZSPhsliwlviwWI3IxkkJJOI0WRENsiIsoTBIO09V65bRRJldFElk00ftNLuR576P7jNysIqRx/voaG9jqLSApburxBYCrC+FMLutNJ8qAHEXHpMUdTcAMGsytb6NpGNKKXlJfhKfKwvBwktLlJWUUppRSnD/aPYHXYee+ocRb4iUokUkxNT3J+eQ8koGIwGlhdWaT/cSs+JHgwGI75iHxeefpz3377I7SsDnHriJMlEkuG7o2yFtjjU20Z7VyulFSUEAyESsQQOjx1XgQOLzYooiKwvBxkfmqS0soTuk11EtiKsL4c41N2OruoE1zY4cqwbq9nC8K1RTEYjrYda9vxU4izML3Ds2FFkWT7o9vko/ZMTLZ9kl58nT55/GHmhkueRRRRFNE3DV1xMILB28P3i0hIEBDY2NvEWeiivKCe4FuTs+dMU+QpZ9a9x/oXHKa8sY2Z0loraclo7W1hbWmfm3hxltSUYLAZMVgNGsxElq7I4voyvtIius4d5/KVz3Hirn0s/vEJRaSFHTndTVVeJyWRBFEUy6cxPpQ8UTWV3O4x/zs/i7BLJRBJJlvAUu6hoLMPsMBLeiRJaDREKhshkMmQyGdSsmquvEQVsDgt2tx2n14G7wIXL40QUc6kqSZQRRYFUTOD7f/g91pYC/M+/9z+xEdhkdnQOo9FI98kODh9tJ7AUYGnWz/z4EsCBSZokSxiMMm6Pm4IiD6G1Te6PzGF32DhysptENMnkvWnKKko59+RZUokUNy/1s+ZfQxRE6hrr6Og+jMfr5k7/IJOjkywt+Dlx9gRVtZXUNdRx8mycvqv9jA1O0HP8CL5SH7euDzBw+S7lNWW09bRSWFSAoqqomoKqqWRTWbY2dpgYmKbQV8TJ8yfIJhUGr4/g8Xo43H2Iof5hTEYT7R3tKBmVxblF2g+1Y7PYkCSZmYlRdE2ns6vzoSLan+VG+2nnXJ48eX4x8kIlzyPDg3UqgiAeRDt8xT6mJieJRmPY7TYKvAWYTCYW5xdpaWumsqqKhflFAitB6urrGbg1wPbGDr0ne3nzb99i4PJduk93cvTMEW5ducP8+OLBVGbI2dgbDQa6T3VgMVtQ0iq1TTWcfV4htLLBv/+Xf8C5509z4vwxREHk7vV7zE8u4C3yUlDkxVXgYn5qgdnJOQRBoKi8kNaqJlwFTtYDQfxzywRXQ2iahsEsY7abMBoNmCQjkiwhygKqohEPx1lbDrAyv4ooiJitZlp7mykqLUQSFdJxJ7//L9/BYEzyr3/vX1BYUkBpVQlKRmVycJrZ0bmcwPG6aGpvRJSknB+NqqIqueGIqUSazfUtlqZXcLgcHD97FEmUmZ9aILIbpaP7MIe6DzE1Ms3M2Awms5nuI10c7u7AbrcdRHXOP/E4be1tXLl4lQ/f/ZDi0mKOnT5KR1cHsXCMsZFxsuksXcc7ePmLn2Hk3ijjQxMEltexO+1YbGai4SjxWCJX/CzkinzPPX2ajcAWowNjmI0mLjx3nt3NCCuLa7R3tOF0OBm4cQc06OrpRJJk0GF6aoby8vKHZvs85Dgrij8VTclHVfLk+W+DoO9fDn0yP/PBPHn+/8x+R89D39M/8hjZFxI7Ozt864++Rfvhdp5+9mlUTeX69etcu3KNz3zuRXwlPn7wvR8QjcV49qWnee8n75NIxHnqpScJBUPcuNyHqiq097ZRXltKJpMmvBshFo2RSqYQZQmn24FskFmYXGRlYQ10nar6KjqPH2Jx2s+f/6fvshXaprWzmbqWWsoqy9je2CaTyRzUgNQ219BwqA5RFvAvLDNye4xEIoFskCgo92KwymyHtknGU2SVXBuzrunomo5slCms9OIqdqBlIRPJEFrcJJtS6Dx7CFGo4/u/9w1kQx+/+m+GKCk3H3Tg6JpOwB8gshMjvBUhshtBU/eP7UctuYIAFosZp9tFeVUZ6WSGpblFMmkFj9dNz7EuNBXu3R4ik8rQ0t7CiTPHsVltyJL80zUfgoiiKoyNjHP39iDxWIz2rna6ezu5c/suw4MjIEDzoSYqaysQRYGJ0Sm2NrZIp9NY7RbsDhs2hw2Xx4XZYmb0zhiBlXV8xT5OnT9JNpXh8rvX8Ho9vPj5F1icXaL/2i26jnRx/sJ5DLKB0aExrn54lc99/nO0tLYg7UWhPj4p+ecRKvmISp48n4rwqQ/khUqef8x8XKw8KFQgZ6evaRrvvPMud+4M8Gvf+DVcbheZbIZv/+m3ySpZvvIrXyYSifCD7/0As8XMmSdO8earP0EXdLqOdeApcnPjwz4CqwEsVjNltWXIBhmjScZgMiDJEv65FfyzywBU1pfTfKgp1wqswd2bQ6wsrBKLxLjxQR9Gk5Ff/61v0tHbxs5OmO3QFiarCW+xG0VVmRm/z+idMaxOC2UNJWSyGZZnV9gJ7YIERpsBTdfQyEUSBFEgFU2RSSoYzTJFVYX4qouQBJm5gUUSOw1MD/wR5fWrfPl//GvsNhnDnheJJMrIkrT3v4wkSqBDNBwnmUiiKRpmiwkRAUXVSKfSrK8EWfMHEASorKmkraMNi9nM7Zt32FzfxFdczLkLZyguKT5Y8GPRGKHgJsHAOvF4gqbmRhoa60EQ0DSNdCrF9avXGRsZx+V2cfbJswjAnVt3WFxYQlVV3AVu6hprqKitQNdzZn6JeJJEIkEilmBuegF0nc7eDprbm1hZXOXuzUEcTgef+fxnWF9d58r7V6lrrOPFl17EaDCQTSv8129/l7KyMr74lS9ikAwHLeafJFR+1lyfvEjJk+dnkhcqeR5Nfh6hArAbDvN//tG3aGhq4IXPvICu68wvLvD97/0lvceOcPz0cebn5nn91depqK6gs7eDy+9fJhgM4Svz0X28kxX/CkvzfjaCGyiqwkdvrZyBW1V9JY3t9ThcDgRBJBGN0//hbSLhGB29h2hqb2Tkzhg//M5r3J84hdvzdX7794P4yrbJqhmyisL43Qlmxu/jLnbhKLDhv79CeDeCZBCwFVhJJpKk0xkUNfvQvstGCbPLRHwzQTqSxWA0UlTpRcg+zuW//C18VRf58m9+gMttx2QwYTZaMBlMGCQjoiAQ3YmjpBQymSyZZIZ0Kk06lSYRSxKPJnKFKoKQs583W2hub6SiqoLN0Bb+hWU2Q1tYrRaOnz7OocPtKFmFuZl5lpeWCa6HSCVTABgNRowmI/F4HKfTSUdXB22HWjGZjWi6zuL8Ihffu0g0GuVw92G6j3WRTCS5P3Ofman7bIY2D1q39Qf2X5QlSspKOHH2GOGdMMMDI4R3IvhKfDz74tPsbO/y/lsXKS8v4+VXXsZsMmGQjVx6/0MmRif41a//KiW+kr+3SIG8UMmT5+8gL1TyPJr8Xekf+CiqcvHiJW7evME3vvkNXO6cpfybP36T8fFxvvRLX8Rb6OHunXtcvnSZrt5Ouno7GBse49bN22QVhbaOFlo6WtBQSSYSJJNpkskkmXQGt9eF1W5F13UiuxGCqyGmRmYQBDh94SQl5cUA7Gzt8s5r7+Ep7OXSWy8wP9PGU58d59kv9TE+2M/K4iq+6iJi0RjB1RBGmwF7oZXIToTt9R10UUe2Sjn32gf2PR3LoKkazhI7nmInyc0Mq+PnWBn/D7SdeQ278z/i8jg48ng3NqsNi9GC2WhBV2C4b5TN9W0kUUQSJSRZxmq1YrVacLqcBzeLxQLoRMMx/PN+Nje2c0Z2Ph+NTQ20d7SRiCeZGp1iemoGJavg9XooKy+ntKyE0rJSioqKEASB+bl57t0dZtnvR5ZlWtpb6D7ShdPlIJlMcfXyVcZGx7HbbVTVVlFeVUZxSTHhSJil+SUkg4TZYsJms2Kz27DYrITWQ9zpH2QjsIHb4+boiV4amhvYDm3z5o/ewuPx8MqXXsFmsyKJMlub2/zguz+g91gvTzz5RM4UUBSRRfkhkQI/PYAwH03Jk+cXJi9U8jya/CJCJRyJ8K0//CPaD7fz7PPPoqoqkViEP/+TbyMbDXz2Cy9jsZp5750PGBsd48Tp4zS1NxBPJOm71sfczBwWqxmXx4nBbMJizc3gsVgsxGIxtjd3CAVCJOJJAHwlRZx6/AQOl3NvmKGGruu8+r0fUVxWzPHHjjLY7+X/+cMjbIVkGg9/m3MvzhBYWWFrY5vKtnLisRj+mRVUXcFRbCMeTZBJpVF0BU3XECURQRKQjSKqqpMIpXLtyvq/4P6136S08XdpOXmJ4spCFodW8JX7OHK2C4vJgkEw0v/+AJlkls5jh6msqsLhsGOxWDFIMvFYkoB/jbWVAOGdCIl4cs9qPleg3NDUQH1DHW6Pm5WlFYbuDhNYXUeWZZpbmujs7qSsvOyh6MTHCQVD3L17j6mJSXRdp7u3m+7eboxGmbm5eYYHh1n2L6MoCpIsUVJeQkVVOaqqEY/Fc2mfeIJkPMnOzi5Wm5Ujx7ppaW/BZDCxEdzg7R+/g9li4Ytf/QJOhxNZktFUjR/+1atEIlG+8c2vY7PaHmrr3t/WfMrn/2XvPYPkuO+8v093Tw67E3ZmZzbnhA0AFsAiEGAGKBIkRep4ujvf6a7Kpat7/OKqzmWXy698z9Xjx+Vy2X7KV889+Xmk86NAiZJMURRJAEQmiLzYiMXmnOPM7MQOfjEzm7gAQUkngVR/tho70z093f3vGfy/+4s6Or8xdKGi8/vLw9w/Wx9nxcpHH53h5o0bvHDyBfbu34uiKoyNjfHOj97BaDTyyusv4/Lk8vOf/YLRkVFsdhuN+xqora9hcnKans5uIuEI6+tRotHotmPbbFa8fi+FxQUUFAexO+wImUlMU9NCRdU0Ln54iXAozKk3Xkg3Dlxa49/8byIDPX+Oy7tCYeX/zr7nVonFY/TfG8Tpt+MuzWG8Z4q1hRBGp4SsyKRSKdBAVTTkuIKrzIEl18zwmX/G6vhfsu+Nf4HdcYbQTITWU3tZHF5hZWqV57/xNHarg+WZVbo+7eWpF45SVlGK2WjGZLQgItLT3ktPRy8CAm6Pm/ygH4/Hg8frIT8/H2eOk/XwOv33+7nf8yDT6NHB3v37aG5pwm63b1olMhO78JAJXVNV1kJrXLpwmb77fVitVg4eOUhDYz2iKBCLx5manGJ0eJTh4RHCa6F0ATpRxG63YbVbsdvtBIL57GluxGw2EQ6F6Wrvprf7Pk6nkzff+joeT7r4H5rA++++z/DwCG+88XXqG+o3REpaqGzWo9EDaHV0fmPoQkXn95dHWVWyj7NCRVVVfvzjdxjo7+f066eprUtXmp2bm+MnP/4J6+tRXnzpecqryhkdGeX6tRtMTU1htVpo2tdEbUM1ksGAosqoqko0FiMWjWG2mtMN8HY5l/Q5aJlS9DK3rt3mQW8/b/7Z10nKSQYeDHLj0k2aj57gnf+4l/57L1DRfIcc79/hLl4jv9bLaM8E3ef+Z8Jzf0DpsX9Nfuu/JiFnOjlPHmLo3e/j21tLKvJ3hMdfwlf75wRr+vGVeJnqnKfuYBWkRGb653j2jRPkOHIZ6hhhcXqZ1//kNBaTFavZysr8Krc+uUMkFKG2voZDRw7icrk3snY0VWNseJy+3gdMjk+gaVBaWkpTSyM1tTUYDMZNa4QgImwRAJDuXyTLMmazedv9yd6v6ckpLl64yMTEJC63i0OHD1JUUoTFmn69oqqsra5hMEpYLJaNHkTZ95+dmaX9zj1Gh8YQRZG6+lqefvZpbJmicMl4ko8+OMPI8CinXjrF/tZ920TKo1w+ukjR0fm1eKhQ0euo6HzlyRZ227ZuR+8fQRDJzilvvvkG3/ve9/nle7/EZrNRXFJMMBDkz/7iW7z70/+PD37xIW1H2zjYdoCy8lLGRse5deMWt67dpv3WPRxOBza7FavNis1uw2azIIgiqZScmYhTKLKC1Waldk8tkiRuiBSAHFcuqqKSTCRBgqW5JQxGAx6/Slnt/0FVy0fcOPOnjHS9Q+OzP0cW/i1Lk8sYrRKCFGfixrcQnP8GzRxCMojE19KBqmsj/4Acq6P69T/CSD+r0wlyAw4QNFYWVvF4PWiaRjKRRLNrLMwu4QvkIUkG5JTMrVt3GB0Yw+XK5eXXX6asvASjZEJVVcaHJxgeGmF8ZIxkMoXT6eTwkcM0Njfhdrs3LCeCKCIgsLi4yPDgMIuLS5summiUWDSKIAgUlxTTsKeB2rpazGYzEhKaplFUXMx/82d/ysDAAJfOX+LsB+fQ0HC5XQQLggQLAgSCAeSUymJokXgsTjwT+Ds4MMTM9Axms5mDbQfZ17qX3JxcBEFEAAYeDHD+44sk4glOnjrJgYOt2wRK+nOzeyqyjo7OPx26RUXn94LHtapkXxuLxfjud77L6toaf/Jnf4zP50tP4qkkH7z/AT3dPRQWF1C3p56yijJMJgPTUzPc7+0jEg4TCodZj0SIrkc36qAAG3/hIwhoqoozN4fDxw5SWFqEqikoiszoyDjn3j/H868+R47Hyc9//D4Gk4i3wM29Tzspbyqh82YvGi/TeeXbJGMCxXv/L9bmjhJdzUFOBjDar2Ir+h9AgMTqy0SG38ZgHySn8jWc/iUCDXksdobI8eZgwICgCFTsKWesY5IjJw/hdORw6+xdWo/so7CkiE/P3kBOKjTva6LtyCEsFitT49MM9Q8xOTaFpqpYrTYqqyqoqauhoqISQyZDRsgIxenJaYYGhxgaGGJ1dRVBEHC5XDicDux2Bw6HHZvNBhr03e9jaWkJURKpqKigrqGO6ppqJEnaGEtZkZmammJyYpLJiQmmpqaJxdLxP9nMnywCArmuXPa37mNP0x7MZsuGeAqHwpw7+zHDQyMUFBTwtVdeIhAIfK5ISa/TrSk6Or8hdNePjs7jBtZmX7u6tsZ3v/MdZFnhD//oLfJ8eWiahqIq3L55i1u3brO2toYkSZSWl1JbV0NpRSkIm8dSFJlYNIaiKukqsaKIZJAQBIHJiSmuXrjK8tIyBcUFHH6qDVuOlaXFJX7yg59x5OlD5AW9vP3dd6hqrGR6YprIegSTzcDs1ByFewL0Xh9haeZbTPd9G40YFucIhcf+I4Pv/z2lXz+BgML4hz9DiRbh29eKs2SK6HSKvDIXEkbiCwkClfmsjoeoP1jLeFe6v4+WEhjqGOGlb5xk9P44s5PzvPz6KYqKixFUkRtXbzL0YAiH00F1TTXVNdWUlZVlXEBp94iiqPTd72N8dJzx0XHi8TiSwUB5RTk1NTVUVVXidDo/M8mnqwZrzM3O0d3dRU9PL+FwCJPJTG19LS17mwkGgxuCRd0SiLy4sMjc7CyCKGCxWDBZzNisViwWC2azeVtROQ3ouNfJ1UtX0FSNE0+foPVg62Yvnx1BvlvdPdn3yKILFR2dXxtdqOjo7CZU4NFiZW5+nu/91+8Ri0U5dvwpDh46kOlirKKoCtOTU/T23qev7wHrkQhWm5W8PC8urxuv14PLnYvH68FssWw7h2yWj6qqdN7r4sa1mwiSwKtvvoLBbOAf/90/UtNUQ2FZAT//0Xs0tzVy8+ptCiuDDD8YIcfvYD26zvL8MuWHiui4sMzQ9e+Ripbga3iX6HIJGEIklusxOieIzR0kr6UCV20cZUVDiwsUNuSz0LdKYW0By6OrVDaWMzu4wIHj+1idCxNdjfG1b5zkzE/OU11byYnnT2A1WWm/cY+ee70cPHKQI0ePYDaZNwq3SaJEKpniXnsHd27fJR6L43Q6KK8op7q6msrKSkwm02YA7UNcJ1lxoGoaqqoyNjZKV2c3fX19JJMJSktLOXz0MMUlxenYmC2iZevv3QiHwvR09dDV2U0oFKKsrIyXvnYKj9ezLV7mYSLlM1k9ukjR0flNoMeo6OjsFquybXsmbiXbB0gURfL9fr79l9/mg19+wJWLlxkaHOTlV17G5XYhCiLFJSUUFhfx3PPPMjw0zIMHD1hcXKKvu49UKrXhfnA4HASC+fjz/eQH8/H58zAa0/EdrQdaKSwu5Kdv/4wz75/j5TdeIlgUZGZiloa9dRiNRtaW17A77CRjSWwOG3JSweawsjCjIkoSDk8Ym+suuFeJr5axPtcAmgln2Rm8jf/I6C++h4CAyWYktpTCbDehyWnXh6ilXSOo6TGwOW2Mdk1QWFLIyuIqmqJSUl6KQTQQWg3T3dHLnqYGjh47gtFg3EjZFYCOux1cu3adRDxBZWUFx44fo7CwMF2DZBdxsltKcvZeAaCmr6+yopLy8gpe+tpLtN9t5/r167z9g7fJ8/koKi6ioCBIIBjA4/Gku2Br24WCpmmMDI9wr72D4aEhVFWlvLKCF0++QF1d3Ubn7K3ntzNo9mGfmYeeu46Ozm8EXajo/N6zNbB2N7HidDh4660/oKurmw8//JDv/ufv8vSzT7OvdR+Clp4UDSYDtXV11NbVpS0likIoFGJhYZGlpSVmZ2aZnZllaGAYDQ1BECgqKuJrr76EyWwkkB/ga6+9xLs/fpehviGKS4q5/skNUgkZX34eK4ur5LqdLC+v4Mx1MDc7T2FBAFRIRBLYXTZURcVoC9P0xl/T9dP/k7Xx42gpJ5KUyXyRRIwWiVA0Tk6RmVRMRpIkFFnL/FaQJAlBE0gmUvgCXhZnljAYJAIFfgTg5tVbmE1mjjx1GCnj5jFIBhLROB99mM6Wqago55nnnqGwoHBjTLdO/hvj/hgT+rbXqCoWs5kjRw7TeqCVzo5O7t+/z/2e+3TcvYeGhtlsIRDIR9M0YvE4yUSCeCJBIh5H0zTsdgeHjxyhZW8LHo97V3Gy9bi7xaPsfPzQ89XR0fmNoAsVHR0+K1YAsraX7NzT3NxEeXkZv3jvfc6dOUf7nXbKKysoryinqLgQScrU19BEEA14PF48Hu82N8R6ZJ3p6WkmJye5deMWv3zvA15/8zUMkkRZaSn+gJ+xkXGOnDjCzWu3mJ2axe31MDM9S2l1MdMTM3iCLlIjSRy56W7D0bU4Tq8dAdCUtCDJb3yXyGwz6zMHiEw8A4DJYUJLJhA0sOSYSWQsK6lYCluOleR6CkeunfBKBEGA/IJ87lxuxxfwYzaZmRqfYXpymhPPncBhdyAKAgbJwOjwGGc/OkcqmdzIlslaUB5HADwukrTZ8dpiNnPgQCsHDrSiqirzCwvMTM8wPT3N3NwckiThdrkwmcxYLGYsFgt+v38jRXrzvm+36HyeQNnt+c59dXR0frPoQkXn94JHuXw+j23WFaeTP/rjb9LZ2UV3dzf37rZz++YtREmkuLiY4tISfL48XG4XLpdrowZHVqw4nU6qa6qpqqrE58vj/fd+yZlfnuGl0y8hSQYqqyq5/sl1LFYLzhwnc1Pz5BflI2gCZosVARGzyYIoSoiaiCPXQTIs4yvNRxRFNEXDarLicK+iJNwEmt9hruNbANhzbYgJGYNkJNeTw+z0Es48O4m1FL6gi+hKnEBhPqGlMA6nA4NkILwWoX5PPZoKNz+5hSfPS3NLE4IgIssKn1y6RNe9Lvz5+bz2+qv4/f5tImU3C8pOkfJ5Kb4708iBjfuRJZCfTyA/n3379mb2eXR43aMsO7pI0dF5stCFis5Xli8qTnbWVtn6fKtYUVWVlpZmWlqaSSSTTExMMDw0xMjwCFcuXd7YXxAECgoLqKisYE/jHpxO52bQpwh79uwhFotz/tx5rl7+hKeePkZ1TTU3rt1kfGic0rIS+voeUL2nOn18RUUSJQQ1bcmIrsVx+1zMjM+hpQRMZhOxiMr6bALiM6BJ5Pi/xzyvoAGOXDux1VUsVjMmyYSWApvVRnxxFbPZQiQVI9ftYmZoluKyIhZnlhAFiaKSQvp7+lmPRDn18imMBiOSKPKTH/6U+bkFDrUd4tlnn8VoNG6bsHdaUbLjuHV8H/e+wOMJFkjf94fFvmy85y7C4vPOTRcpOjq/G3ShovOV4texnOzGTrECm64gVVUxm0xUVVZSUVEBQDweZ3FhgeXlZRYXFxkaHubKpSt8eu06Tx0/xoGDB9IWB01EFVQOHjpIaC3E7Vu3KSoqpLSihMKiArrudfHMyWfo6eplenwanz+PyeEpPHluJoenyHXlMtk/TVljMUuzywzdHOXQa/8P82PzrIzGkFNrgEJiRaT+hf2Y7UbUKKTCMv6yPKY6F7BaLShxBYPRiJKQ02m5iMgpheKyYga7h/F43Thycrj04VXKKkopLilCEERmpmeZm53n+Refp62tbaNh32dqjzyGK+WL3IssO+9Jlt2Ey8PYzf30RQQK6CJFR+e3gf4t0/lKkC1//+uyNT31YeuErFtD3FzSxc0EbFYrJSUlNLe08Nzzz/Ptb3+bv/pnf0V5WRmXzl/iO//pO0xOTG5kmYiCyLPPPUt+fj4fnzlPdD3G0eNHiUXjrCwuU1NXQ3/PAE37GkkmUrjcbtAEzBYLJpOJoY5RKupLsdltLI4sU1xbSMuzDex9sRaLc4XCmgPUHavEbDITX02RX+YjuhjHKBko31NCZDlKfpGP0GKE0upi5icX8HjdmM1mQith6pvqmBiaIJlIceBQKwbRgEGSuN/dh8lkprm5KX0dn1Nm/vPG9nGWR+238948zrLbe33eZ2Hbdl2k6Oj8VtC/aTpfan5TAmUnnzc5wmcnxd2EiygI+H1+/vCb3+Stb/4hiqzyw+/9kPffe59oNIokSpiMJl574zVUVeXMB2cpKiqitKyUe7c7aD20H4NkYGp0mtr6ambGZ6ioLiO0HKK2qRqXO5exnikCRX5cXheTPbMMXh9j5OYkojjD2B0YvDJGdClOsMJPdCmOQTLSeLSepclVrDYbgiZgNJpwezzEInFqm2oYG5jAarVQVVvF+Mg43jwPBYUFCIJIMikzNDBIfX0tZotlm+jaKlK2CoKdGTOfJwIedU922/+LCJ7HfY9dz2HLHwX2yQAAIABJREFUPdbR0fntoH/bdL50ZMXJP4VA2XacRxQN220y2/nX+tZJTRJF6mpr+cu/+kueOnGc/r5+vvOfvks009smz5vH8y88z/TkNA96H3Dk2GHi8QTjIxPsbd3LxOgkRWXFmM0WYusJ8vx5DPeO0dzWREFpkOmhORw5DvYcqsNf6MNX5MPpWcNir6JsTwnlTaWsL8QwSkYaj9SxOL5CPJyksCzI2nyYiroyZkZnyclx4s/3MTM+Q3V9FZqisTC7SGV1RVqQiCLDA0OkUjJNLU2PJTYeJ633V+VxxMVval9dnOjo/G7Qv3k6Xxq+iDjJllX/dZbH4WGT3GfcCxnBYjaZePrpp/nzv/hzUskkZz48u2GRaGppIhAIcOfWXQoK0kG4ne2d7GlqwOF0cP/effYebGZpbpmikkKMBiN3L3VQWlFCTWMVy1MrzI0s4sv34vV5yHGHkBP5mCQTS6MrGZFSz9L4Kisza1Q1VhAPJ7DZbPjy8wgth6ltqmFieApBEKlvqmdidBIQqKyuzFyrwP2e+3i9XgoKCjau7UnhV3Ulfe77PkHXqKPz+4b+7dN54nkcgfKriIzfJA+bAHcVLIJAsKCAE888zWD/APd77iMIApIocfjIYdZW1+i618Wx40dRZIXb1+9w9MQRVpfXCK2E8ef7GLo/woGj+8nJcdJxrRtNhuZDjWgyjHRPMNo5QTI2zuqck5nBBUwmM/UH65i8P8vKzBrVTek+O6GlMNWNlQx0juBwOCgtL2HkwShlFaW4cl2MDo7h9brx+/2IgkgkEmV6aoaGPfWI0ma12d3SkbPrd3v80HHcYoV6ElwsT8I56Oj8vqN/A3WeaB5XoHze9l/XcvJFeFSQJ2yKlba2NopLSjh75hzr6+uIgkhdfR1VVVVcu3odm83OocNtDD4YQhIM7D+0n5H+UYIFQaxWK7cv36H5QBMNLXXMjs0xOTjN/qN7eebV4zz96lM0H3ZhMJTw3JtP03iggZGOMVIxmf3HW8jzeRnqGsUX9KEkNaLhKAePtzI9NosiqzTtb2Q9ss787AI19bVpISUZGBseQxAEqqqrHn79OzoMP9aYPUIQ/LZFy5MiknR0dNLo30SdJ5bHESkPW/9FRMivKloeK/hylwBcYCPg9pXTr2SCaM9kYlkkXjz1IpIocuHsBdqOHKKgsIArF65SXVNFdV01/T0D7GluIM/v5+bF28gJmWPPH8VoMNJ+tZP2C510f3KfxekuVhcddF7uoffmAxwOB4efO8jaQpjOT3rJyXVSXVfFWP84VXVVBAuCDPQMUlAUJBAIMDowhiSJ1NbVbLh9RodHyM3NxefzZawowoY1Zbdr3+3xttd8QUGwm8Xl1xEUT5oFR0dH57Po30qdJ5JHiZTdRMVuYkPT1MdaPu99duNh9TY+L6UWtosVX14ezzzzDEODQ3R3dSMIAi6XixPPnGB8dJzhgWFOv/4yFrOFcx+c5+jxowQLg3Td6ebA4f20tDYzMz5Hx/UuavbU0vb0QQpKCvAF8ggWKSiyDbs9QFV9BfX76ui52cfs2Dw1TVUcP3mU/s5BHE4H+w41M9gzSCKepPXwfgRgsH+YwqJCcnJzEAWRZDLJxPgkVdWViJl2AU8KDxMwn7fo6Og8+ejfVJ0nikfFo+wUEDtFxU4BsjU76FGLosi7ipdHiZZf1W20m8BpaztEcUkJH589TyQSQRRE9rfup6CwgMsXriBJBl79+mni0RiXzl7ixZdfICc3h6sfX8PlcfG1N0/h9rjpvtXNxOAkefle/AV+qhrMAHjyGxEEkfYrHUiixLEX22jYV8+DzgHWI+sceKoVWZbp6+6ntKKYPH8e87MLhNfCVNdVb5znxPgksiJTXlmBtuMe7RR8u43Xruv/iTO3dHR0vvzoQkXnieGLChTgocJEVhRUTXv8ZUfK805ry6MEy6/CVquKIAicfvU0iqpw/tz5jTTgUy+dJJlKcePaTYIFAZ594Vlmpmfpvz/A1157idzcHK5duM789ALPv/IMbScOEV6L0HWzh45Pu+i5cxPJEOXmuRlGH4xRVlPKU187gtfvJRqOMjYwTmVtBb5AHqODEyiyQsuBZgAmxiYRBCirKNk456mJKQySgcKiwscag8d2veliRUdH5xHoJfR1nggeJVJ2e75NRKhbBYX2me2PdXw2u/xm308UN7v1ZoWFqqmfsYrs7Lq8FVEQH2vC9ng8tB06xLVr11hcXMTr9eLL99PU1EhnZycH2g5Qv6eewf5Butt7qG2o5bW3XuWj987QeaebYHGAytoKisuLWI+tE4vFSCbj3DwfpaDsIIefc5DjdqJqKoIgEloJoWlQWp0WIqqiIAjgyHEAIEkSmqYhiOnxUEUVi81KSk6RSqUwGgwImpruFL1zLFUVUfzVOiTr6Ojo7ET/n0TnieXzRMpWC0jWMrJhXdllkVUZWZV33ba5n7YhdnZaWB52Xl+U3WJVREHg4KGDCIJAT3fPRpDq4SNtoMG92+0YJInDx9pIJZP0dvZiNJg49swRJEni9iftiIKIyWTCYbfjcufiyfOSF4gjaIW4ve5M+nB6Ca9FEEURlzs3XUlWktC09DVrqordYQMgFo1tnLc3zwPA0uLiQ69tZ9finZawh+73Wyjgp6Oj8+VEFyo6v3MeZ4LaTaSk13++QFE1FVmRt7iFdhcrjxIsW4+99Xx2O8edPKp+yFarg8PhpKKigr7evg2h4nK7qWuop7e7l2QiRX4gQE1dDT0dPSRiCXJyc2k7epCFmXnGBsYRM2nEkpiucWJzDDE1Oo8oChgkCUk0IIoCkbUIDqcDUUof35AJjlVkBQCbzQrAemR94/y8Xi8ACwufFSrZsft10cWKjo7OTnShovM75fNcPjvjUbL7bBUoSsZKkrWWyIqMoijbF3XHsmN7Vrxk30NR5W2CJStydgu23XneX6RWy87JvaGhgbW1NSYnJtPbVZXWA/tJplJ0dXahqiqtbfuRZZn2O/dQNZXKukryC/O5c6OdcHidlJwkJadQVJmVxe/Q3/X3pOQUiVSChBwnkUqwuryGzWklJSdJpBKogoqiKsQTcVJKCqPVhKIqrIVCpJT0+9nsVgwGifn5+cwYZgSful3oZcdr6zjtHJ/P+0z8ttok6OjoPPnoQkXnd8Zuk9DWiWxnwOzG5LVDoHxGnKjKhptHVmVSchJFkbctKTm57TVZ8bLT4rJVsGw9588TLI+87l3ibLLPq2qqMBgM9N3v23idP99PYVEhHXc70DQNl9tFeVU597vuE1uPoqoKB4+1oigydz69mxFjMkk5ReuJMDmeB+nYkswST8QJrYVIphJE41FScgpVU1BUlch6hJScxGA2oqgKqysryEp6PBVNweVxszC/kLlmLZMxpX3mGrde025j9EVq1+iiRUfn9xtdqOg80ezm6tnq4sm6dDRN27CIZMVIJBJmYmKCB/39TE1PE4lGkFVlY9kpXrKCRctYBLYKlt2sK1vPL31uj2Et2M1lpG4KIbPZjM1uIxrbjA3RNBWfL49YPI6qpsWU3WHLWIKUdICslC5drygysiIjK2mxkuOxs7q0lraKKGnrSVJO4va7mJ6Y5ebFO8QSUZweJwgan168QWR9HVGCHFcOvd19xOJRFEUhJacoKi5ganKKufn5jfsgq/JDrSq7jdFuY/JFMoR0waKj8/uFnvWj8zvhYdaUXR8/RKRsEyiKTG93DyMjo6wsr7C8vEw8Hkdj8699TdOwWq243W5c7lyqqquorqlGEARUQUPUVDRBRBU3g05VVd2Q8yLpmBJV0zayg7KZQVtjTR5n0t0pwLLIskw4FMblcm17r7m5efLyvCCkr2NseBxfwIfFZiGRStB+4x4pOUXD/noUVd5w12iohFZCfPzuJQrKAuSX+rHaLDQerWdmZI6+u/3cvSaw/2gL+55q4e6Ve3xy/lOee/kZWtqauPzhFTrudNJ29BCiKtDQ0kBHexc3rl3n9Gun0wG6qoomap8ZKwRp1zF6WJbUo7KndrI1M0tHR+erjS5UdJ4IdhMpWXdPet3DRcrw8DAXP77A/PwCdocdl8dFZU0lbreLnNwcbHYboVCI0FqI1ZVV1lbXGB0Zo6e7l0AgwNHjRygrL8MgGQEVUQV1Y8L9rFgh/arPiBV4vJTcRwWdrq2uoaoqLlfuxjgoqsLCwgKV1ZUALC4usry8wqGMu2d+dp7h/hGq9lRidaSFy9L8Mn2dDxgfmEhn8ygKA11DDHQP4iv0UVJVSF6xh/JEKUPdIxiMIs0Hm6jfX0vv7T56O++zp6WBovIiOu50UF1Xhdebh9lkprFlDx13Olk4ukgwP4CqCaiaujFW2QDdxxV0v65g0cWKjs5XG12o6PzW+bzy+J9dt7tImZmd4cLHFxgdGSUnN4eXX3uZ8soyNDR2xpV4fd5tYkJVVQYeDHDj2g1++uOfUlRczLHjRykpKdnVugJsc5SKfFaswOPXb9lZ+yV7fcsrywDk5OZsbFtdWSWZSODze1E1lYEHgwgCFFcUk5RT3Lx6E5PFRFVDBQvzi3Tf7WF2chbRIFC9v5JPPrhBQVUAh8fO1PAM8xPzzIzNkuvJoe5ANYVVQYYfjCIZJPbsa2B+aoGOW53kF/hpbG1genyG65/c5KXTJ1FUiaZ9jXR1dHPj2g1Ov/YKgiCiKDJIBkREZEXGIBk2xihzwelx26EphF3qzIg7LC9b1z1sLHWxoqPz1UUXKjpPJBvBs7uIlEQiwdkzZ+nq7MJoMnLi2eM07W1CQ0PVlI0gT9iZNZQWLoKQjueoqq2koqqc3u773L3Vztvff5vKqkpOfe0UdrsdVdAwkLGuqJn9t7S42W0i3oooio/IatpemC57nsvLK6iaRq4rd6O0/+zcHKqq4cnzIMsygw8GyQ/6MBglerofsLiwxL6jLYTXw1z+8AoaGmUNJfhKvGiCii3HyvTYDLWBSoK1fvIrfSxPLzM9OMedS/doeaqRRCLOQM8QBqOButYaPj1zk2sXrvPS6y9S11RN770+hodGqK6uxmg00tBYT9e9btqOHiLfn48oCLCLWEFLF8h72Dh9nnB5XNGiu4J0dL66SH/7t3/7qO2P3Kij80V5VGzKzmwYTctGmGhoaOlsHlnmnR+/Q/+Dflr27+X0a68QLApubFdUFVlJbaYZZ7KAVFXdFixLpriZIAr4Az72NDVgNJrp6e5hoL+f0rJSLFYzmaCQDXGzEfIibP2lAQJa5pFGWgxp2RTqLes3Fk0F0q4rLfNbVVVuXr9BOBzi6FNHUDUNWUlx9/YdlhYXaXvqEOPjE3Te66RhXwOCJHDxo8vkeHKobqrg2sfXicXiHHh+L3avjbW1ECM9owx1jrIeWie0GmZtZQ1FkcnxO3H5c1iYWGJ+coGyxhJUWWV8YBKr3UxRWSGjD8YQRIG6pjpmJmaZGJmguqEKo8FEni+P3q77TE9OU1tbi8FoSI9RZqwEhPQYsCnIBLJicXOsNu5zZkkPc3prdv/sT/Ye7Hy+FU3bfb2Ojs4Tzz9/2AZdqOj8VtktlXWrHMmu2c2aoigKv3jvfQb6+3nh1AscbDsAIhtpyooik0jFmZudZ2hgiI72Dq5/cp1PL3/K4MAQc7NzhMMRVE3FaDaAkBEKmoZkkAgU5lNUXMT9nj56unsoKAjizHGk4yq2TIDCdpWSnjQzj7ZIlW2CZOeyVaBomeudnJjk/IUL7N23l5KyElRNZWFxgbMfnaOmoYaS8mIunrtIUk7Sengf5z+6wPr6Om3PHqDnXi8To1PU7q8ikYpz/24/Ax2DrK2EWF+L4nDbcBfmsDy3wuLUMrPDc4TX1skvz2N5bo2l6SUqWsqQ4zLjA1OU1hajyAoTw1OUVpUQLAww0DuEnJIpKSvGZDLi8/vo6ehhcnKSmroaJEnaJla2irqt93j7WG2Klqy42xQbm4JlY98tIkQXKzo6Xyl0oaLzZPAwofIwa0ralZO2Nlw8f5G77e0cO36Uvftb0rVT1HQq7vp6hI/Pnufch+fo6uhidGSM9UgEt8dFYXEByVSKqckphgeH6evuo+NOJ6FQCH/Qnw70RENAwOG0U1FVzvDACB3tneS6XXjzPI8UK9vtPtqOyZgNMbL1Z6tA0TSNubk53v7B2zjsdk5+7UUkgwFVUzj30TnW1tY4+cqLzM7OcvPT2zS3NjE3N09/bz8th5sJR0J03u4mUJ7P/NQ8A91DxGIxPMUuCuuCTA3MsL4WpbAxH0+5C0eeDckkEV6KsLoQIliTx+pciOWZFcqby1idW2Nxdpk9rXVMDU+zHl6ntrEGOaUw0DtAsCiAw5mDy+0iz5dHR3sX01Mz1NRVbzRZ3GpZyd5zVVNB2GI5y8QS7WaVyn4GdgoWXazo6Hxl0YWKzpPBTqGyddLKvGKbNSXr0rl18xaXL19h795mjh4/linGlq4oOzU1xbs/eTc9WTZU0dDSQOvh/exv20tZdRnBwnzKqsqob66jsrYCf8CP0WSk//4AQ/1DeLwu7A472SnSarVSXVvF9NQMHXfvIUkSwYJAOhUXYdOSknEhARuCJfsDoGRE1k6RsrVWC8Dqyio/+P4PEQR464//AJvDjqapTExMcOnCZfYdbKGwpJCLZy+RSMTZ19bCpbOXcfvcFJYH+OTj61idVjQU5qbmKakvpKAhn/XwOiOdY6zMrrK+GkMVFBbGl4itxzHZjTiDDiJL64QWIxTU+Fmbj7A6v0ZJbSFzYwsIAuQX+BkbmCDP76W8uoyJkSmmJ2eobahBEiW8Xi9ut5uue53MzMxSU7spVgRB2BYflBV32Wytz4i8XUTLxr4ZwbLVHfQwS0sWXajo6Hyp0IWKzpPBTqGyc6LKvia7VtEUent6+eX7H1BVU8XJl14ENFJKClmRuXPzDmc+PIPRaOTUayeprq8m1+3EYBBR1IyYyRR30zQNo9FArieXgpICgoVBJkbG6e7oJZFMkB8MIGVSa00mE9W1Vawur9HR3kE4FKa0rBRBTFtW0LQtcSqbLovskrWU7FyyIkVR0yImHA7zg+/9gEQyzjf+8Bu43LmoWlqA/fK9X6IoCs+feo65uTmuf3KTlgNNjI+OMTM9Q+uxvdy4fItUKokn6GZ8cILCmiCCEfrvDLE4tYjJbsRoN7I6vUb9qQqQNBKRJKG5CKG5ME6/nWQsRXhpneL6AkLzEeLrCfKCXqZHZimvKyW8EmFxdpHq+io8eR76uwcQRZFgYRBBFPH58sjJyeXenXsszC9SWV2RDiTOjJOqKhu/1S3WM1VVN2KFsuJl07qmbYtpyQYfZ2NYdgqW3cTKdjeSjo7OE44uVHSeDLYKla2ZHNmQ041qpqTdPgsLC7z9wx9RWFjA62+8CqKArKT72Hz4yzO032mnrLyUk6++iMPpQFZTmSqzCrFEnMEHg/R19ZFIpbDYzRnXQ3oCtdttVNZVkkwkud/Vx8ToBGUVZRiN6WQ4SZKoqqkEBDraOxgaGsbv9+HMydl4D7RNV86jFkWRUVVlo/S+osgM9A/y3rvvEQ5HePOtr5Pnz9voRdTf94A7t9o5fKINr9/L5QtXiEbXaTnYzJULn1BaVcrKygpT49NUNpbT3zmAKz+XSDjCRP8UokkgUJuHzWNhsnuGpfFVTA4j9nwr7jInjnwbqqwSml3HXeQkGZFZX4lS0lDI4sQKnnw3qqyyOL1Mw/46xgcnkQwGauoqWQ9HGbg/SFlVKTarDUmU8Of7sFgt3Ltzj7HRMVbX1kilkhiMBoxGY0aEZMXJdvGy1fWXNaNkRQtsD1jOfoZ2CpbdLC1bP3O6WNHReeJ5qFDR05N1fmt8XgPCzeeb1pWbN28CGqe//iqiJG5YIu7cbufB/QccONxKS2vzZryKnGJ6epb+3n5Gh0dJJWUkg0hfbz8Gg0RhaSFlVaUEiwIYDUYEQeTg0VaKSgq5fPYqH/z8A06/cRqbzZbOCpIEDh05SKAgwKWPL/P9//oDmpqbOPH0cWx2O9kCcbtdR/aa10KhdLXcpeV0sbalZZYWl4jFY7jdbl5781V8+T7kTDpyPJ7g4vnLeH0eqmuriMWjjI2MUd1QxfjoOIqiUFlfwdmfnyVQ7CcSjqChkV+aR/uVTvIr83CVOAmHwgzeGkOyiGiKRiqZYrpzDoffhqfChafSSXI9xepcmIK6fGa6Fkkmkji9NubG56ndV8XAnRE0UcNf6KOvs4/ahmpaDjUxPT7DrWu3een0KWRVQlRFGprrESWR7o4ebn6avm8g4MxxEgwG8Pn9BIL5+Pw+nA4nCko69kdVEAXhM3VrNE1DFdI1UkRB3LV2zc4ictn78JkicnqtFR2dLy26UNF5ItitUFo4Eqa7q4c9jXuwWS3IGZEyPzfHJ5c/oayylH0H9qatKGraQnH7+h1Wl1cQDSLF5cWUVZfiyXMxP7vA2NA4E6OTjA6OYjKb2Ne2l+r6KjRNJVgU4MSLT3Hxo8ucP3OBU6+cBOPmuZSUFvMn3/pjbt+4w7279xgcGKR+T326sFkmJiNbNyW0FiIcTlfCjUTWUVQlc43pEv4er4eK6goCwXxq62sRRSGTuZS2KF27eo1IJMILLz+PisrI8BiyIlNSXsL1K9dx57kIhdaIJxJUFeXRcaMLT76LuckFBFHAV+olmogy1jFFKpki2JzHyKeT5JTYiEUShGfWia7E8ZbnYg9aWOpfIxFPYHGamB2dp6S2iMmeWTQ0RIPI9Ng09c31fPrRTXraezl8vI365jq623sYHR2jsqISWZARBZHahhrq9tSiyhpLi0sszC8wNzPPzMws/Q/6M6MpYHfYyc/Pp7SshMbmRixmy7ZCe0JGVOxWGXhrTZasWFF5vEq2Ojo6Xz50oaLzO+Fh1oettN9pR5Zl9h/cv9HsTlEULl+8islk5OnnT6Bo6cZ8Y6PjXPjoIjkuJ4dOHCJYko/BIGUaCaq4fS5y83JoPtjI/OwiAz2D3Lh8M92xuK4KgGBRgNYj+7l97Q7XP7nB0eNHtp2P0Wji6Ikj1DXUcPnCVbo6uhAQNlKcsy4Gm81GTm4OgUx6szPHicvtwu1xpS01W91fqkraC5J2ES3ML3CvvYOGxnq8Pg8pOcVw/xAWqwWDSWJhfpE9rfWMD08gGSTQIB6LU1QXpOdWH+5gLoomM9o5QTQUw9/gwegUEY0i8UgCW4ERk1siPBpjvn+ZvGo3ollgaXwVX4mXpcE1NEFFFAXmpxZxB1zMjs+zt62F4opCBvqGaGiup7qxkpGBEc68d5aGxkmOPHUYq82GqGWsH5JIftBPftBPY8seREEkEU+wuLDIwsISy4tLzM/NMzw0xPVrN2jZ38K+fXtxOBy7VgbeWmxva88ltlhKtlpSdKuKjs5XB12o6DxRZCfxRDLBnTt3qayqxOv1blSaHRkaYXJ8kmNPH8FkMiGrMstLK1w4cxGXx8WLrz4HIqTk5IZI2ezsqyGKAoFCP/6Aj+sXb3Dr6h1EUaSqrgpVU6ltrCG8FqGrvQu3x8Wepob0pKeJKKoMGHB53Hz9rdcRBWGb20HLCJZ0tstm+f7sNlVTSaQSmevcLso0TWN9Pcr5Mxc2rD2KKjM1OcXI8CiN+/YwPjKedvEU+rl3q4NgSYDp8RmMJiOphIyqKPiL85jsnya8uE5+TR4Or5WF8WUko0hsJYmt0IzZbsDWZGWxZ43wdJScAgehsXWMZgMms5HlyVU8QRdL08vsOVTP8tQK89MLVDdVMTs+T+fdbp569iinvn6S3nv36et9wOjQGK1t+2loasBgkBDUTRfOhmCQIC+Qh7/AvxEzMjczT/utdq5ducbtm7dpamnkwMED5OTkIAoikiZtCBZguysoW/FWVRHFzaq2umVFR+erhR5Mq/NbYae1ZFtX40wgbTbbx/TtvyTx9//ApcICTr10EmeuE01TEW/fpeX50/QdbaPt9Ek0NGzvvEvB//h3vHXpU1660U7g6i1ko4G1yhI0IBwOM9A7gMubiyCKG0cVRZGC0gKWF5fp7xnE5XHhcrsQESguLWJpYYnezvsEggFycnM2Kq1uZqOo6WZ/metSFCXjukln7KR/p11S2TTqdByNsvFcURXWQiFGR0bpuHuPC2cvEAqFOP7sMbw+L4lkgnMfnAM0jj1/lFvXbmOzW7HYLYwOjlLdWEl/1yD5JX7mJhcwWIyIRpHJB9N4S9x4S12E5iPM9y8Rmo+QisrY3BZsuRYMkgGDyUhkNkaO30EqooAs4PLnsjYTobAmyMpsiLxgHpGVddCgoqYcTYWR/jGKywpx5jgpLimipKKUlaUV7nf1MTo8iqooafdXJEwsFiMlp9KZPYK25dplFFXFZrdRVVNJaUUJsViM3q773Lt7D5PZRJ4/LxM/K3wmy2p7zb3MvwKfCa7VA2t1dL406MG0Ol8uotEYubm5FJcUo2jpGI+1tTUKgMbmPUiSRP6//Ffk/efv87MDzVj/l7/Bne/Fe+4KLf/yH7APjtL1V39E1+1uxobGSaRS7NlXB2RjHFQkSeTIc4e5/MFV7t3spLS8BEQJBHj6xeP88mcfcfHcJb75p28hWkRETURF3fyrfSOdWtzI7smmJquaSiwWZykTPBtdjxKPJ0gmkyQSSZKJOOFQhPXIOpDOMKqsqaShpR63x0VSTnDp/BUW5hc5/uJTKIrM0uIye/bVs7q8CoDZZkZRVHLcOYwPTeApcBFZXkeSJPylXhRBJh5KkoykSK0rpNZjhCeieIpzkSQDDpeBZSGElgK7y0oymsRRaWdlIoTJbMJgkIiFYviCeawspI9ZvaeSyeEpbly5zcnXXkAQRHJyHTz38rOMD09w5/pdrlz8ZNd7arfbcHlcePI8ePO8eL0eXB4XBoMRR66DEy8cp/XQfq5d/pSPz55nYnyCF069gM1qS/cNApAMkNW8W3tFClLGtbPdsqJbWHR0vvz+AA5pAAAgAElEQVToQkXniURVFRxORzrhNGO1iMXiADhznJjbO8n/9//IJ3/yJh+6c/mTgy2so7L6rTdJGUQa/9V/YfBgIxMjk2hoDPQMUlpZhCPHse04BoOBsppS7l3vILQawuP1IGgqJpOJI08f5qN3z3DnZjtHjh/ebLQHG+IJQEEhEU8wOTnJ5MQUy4tLLC0us74eJWspQkgfy2Q2YTQZMZlMeHxuahtr8OX78OS5kaR0EEZKTnHr2m0G7g/QfKCJotICVlbW0DQNu8O2cWyzzYwgQCIWx+XNJbwcoayliMWZReYGF8ktdjDTu8BE+yyWXDOiQWDyxgJqAiqPF5EIy4iiiMNrZ653CbffhRJPT+x2px00EEQBi9XC4vQysiJjt9jZe7iZm5du09vRS3Nrc3ocgaKyAgpLg0TXYyQTCZIpmUQsTiKRIB6Ls7YSYnV5lcmJSVQ1bdlwOOzsPdBCTUMNJoMJi93CC688T9fdbm7fuMPiwiKnX38Fvz9/86btECtiJl5FzBaA2yUTSEdH58uLLlR0nkgURcVisWw8VzWNaDQKgMVqxfX2Oyh2G1f3N2NfWECSJBQlPXuNfP1F6v7d98l95yOoLuXZV57m8odX6bjZxZHn2hDFTauKCASLA3Tc6GBsZByXx42UOV6gIJ+quko62ztJJZPkunJxuVzkuHLIyckhGo0yPjrBxNgEU5NTpFIyoiTiducSKAqQ63KS684lx52DxWZJ1w3ZJYg4fX0KqpwWID0d9+m6101tQzUNLXUoqkI4FELTNCx2K9F4NG25kVVsDhvroXU8+W4WOhYxm80EyvzcOdfJ/I+WcPrsHPnWPqxuM5JNZGl8mYFz43z67zvxV3nIDToxGAxoskZOnpNENIlkkLBYzWha2kVmsZrRVI1EPIHVbKWgtIDi8iI67/QgGQw4c5zYrDZMZiNmizldO0UwIpkkjBYJu5oOIK7aUwmk3S/RcJTV5TX6ewa4cv4qHe1dtB7aR3VtNQbJSNP+PfgDPi6cucT3/98f8tyLz9Lc3Lw5YJIhbeFS1XTcSvZu7hJcu9OqogfV6uh8udCFis4TSVlfH3/x3/01hr/+m424kkAqHVBrtVkwj4yRKC5gJbKOy+3atq9qMhIO+rGPTlF88ijHPr5OvLyQT/pHmZ2co6AkuO31docdr8/L5OgULa0taQuOCJqqcvDIAWLrMYYHR0kk4ptl4LfE2LjcLmoaaigoCuAL+hEy/WxUTSWZTLC0sEx8NpaulKukC51pWjqmwmA0IElpS4vBaGBxZpFbn96mtKKUvYf3brxPJBwB0kXqIpEwAEpKxelysLayRkFFEAGB+zcHuHWmnfW1KMUNQQ692YIipONiUnISX5kX/3+bx9itGfovjrAyEcZoMCGKEi5fDrMPFrE5bUiSAQEBySCR680BYGF6EVdueqxb2ppYWVzl7vX2jAjIxn1kuyVvbzSpaRoGgwGPz01efh7+oI+8oI+nS/KZHp+lp72X8x9doKu9mwOHWymvKMcX8PHGN1/nwpmLnPngLKvLq5x45kS6lYGqIiNjEA0PESJss6roYkVH58uLLlR0nkAERktK6P+f/nva2tpQtHQJ/J4f/Jjn/u+/x2Qyk54YBUJrIaoCVQiiiKiKGEQJTTKQjCfQRJH9pUWUfu8X/M3QOEcqS/gwKSN8+y0MkpSe8DIZJMXlxXTc6iIaWSfXlZ6MBVHEYrXw0munEAQRRZYJrYZYW03XSDEYDRSVFOHMdSCrciagVmV5aYXJiSmmJqaYnZojlUxuS2HedqVbAjuzTfwChfkcfGp/Jsso7coIhyMAmKxmjCYjgiAgyylyXbnMTS2Qisv0XO9jZWGVg6f2UbGvhAd3BlmbipBflUdKTmE0GEmmkkTmo4iqyJ5na4hHknR99IBcfw5NR+tJrcvkBb0YM/VhTAYTbq8bZ66D6dF0jx8Ak9nEyTeeJ5lIkUrKpBIp4vE4sWgMOZXK5hCnM6MkEVVRWF1aY3F+kak70+msHVEkWBSg5WATz5w+wfToDL337vPhzz9i74G9HDp6EJPZzKnXTnLjyk1u3riF1Wqh7chhIP2flyqoCKqwzaoi6sGyOjpfKXShovNbIVsMbeN5xiS/8zVkSqwnDRLJ4hLUygoUVUZTVdac6fgSAUhVlGG7dRchkcRoNCIKaZGiaipSXCF3YZl7dZUkPS7O/4d/gf1GB8H/8CP+9kcfMN3Zz/ifv8HMkb2ZNFcBf9CPgMDC7CJut2fXyc5oNOH15eHO82ykG6uaiqzKJFNJHvQ8oOteN2urITRNxWq3UlASIC/oxWKzpsvGC2lTikD6L345JSPLMpqqocjppnwl5SWogoqqbI5PPBpDMkiIooDZYkYQBMIrESwWC/fvPuCjt89RUB6k7kANLScasHtshBbDzI8vkoormCxGYtEoa4sRlJRMrjeX8r0lJMLp8VsYXeJH/+vPCZTnU1pdQnJdRhIlTCYjRslIQUkBI32jqIpKJpQGBLBYzVisZoCNRpGqqpKSU0TX14nHEkQjMeLxOJ4CFxVNpaiKyupSiOW5ZSaGJpkan6bxwB7qG2spLCuk82Yn7bfb0dA4dPQgRsnEkROHSSaSXL54lfxggLKysvQpiJkg58xnaasLSJK2u310q4qOzpcTXajoPHkIAiaTmampqXTFV0FEQcWf7wdgeWkJ4fVX8PyX7/H65Aw/t5pp3NuAZEqXci/+yYdYUjI36ip48PMLWO0Wousx1OMHOPSNU5zuG6btn/89sTwPw390mqlXnmV8aHyj0d5uWSLZ6qcbj7P9ezSN+bkFPr38KfNzC3h8bpoPNeILeLE4rETX15memGVlZRlEAVFMu1MkgwGrzYLT5UQS0wJEFEQk0YAqpN002fMQBBF3npuhB8MsL67gcueSF8jjwx+f5UFXPyaziQNP76P1mX1MjU3Te70fp8eOr8iH1WplZmyO8OI6oiTg/f/Ze+/gRu/0zvPzBmSQAEkEkiAIMLMZmx3IJjsHtUK3sjQey/Z4nPZsn713V3btbl1dXd3V7vmqvOvzbZ3D7TrNnGYkzUgajaSR1Oqc2YFs5pxzJsFMpPe9P0Ci2a3uGc1d1UxL835ULJDAC+ANaP2+eML3cSeT4LCSkmpnYXyRkc5xXB4nOSVZ9NYPMNI1xo//7hNyyrLx5XrJzM5EJ+vYWNvAZDbFTOa473ejbBb2RqNRxofGGeobYnpylmAwGPeViQ2ZjkWTRBESkxNxuB2kuJKpyt5LZ0M3DbcaGRsao+pQJWVVpSiKQsPdRpxuB1k5WYiCyIFjB5ienObKpat4v+WNfS6iMUdcQREQJfEL10wrqtXQ+OqjCRWNJwJBEB+w0TebTZsFqmFEKWap7vNlAtDXO0DCay8y+wff4sR33mZldicjSXaKKopJPncF/99+h/5vvUrx777O0pVbzM3M4fGmUbKnhIREK+2nj9H737yB/+OL5H/nfQr/y9tEcv1YTx0jITEhtj/bZs5sZ7tIWVtbp+52Pd3tMbFQeXA3ab401tfXGOofYWRghOmJmdjU4E3Dua3Uz1bKJ8FmxeNPx5vtwWK1IIlRZElCEbes+UVEQSHN6wYERgfHGBuCM++eZXpimuJdRfz6H71O6712BjuHKajIIxgMMtg9xEDTMAaznqwCH5YkC2srqyzNL7M4tsRExzQCMQM2SRKZHw1QXlPCa3/4Ep9+5yyNN1qYHZ2loDiPvOI8ArMBnG4noijFz4WiRJmbnmOod4TRwTGCwSA6gw6nJwW9UY9sENEb9egMegQRVpZWmJ9ZYHF2ia7WbgRVwGQxUXGgHEdaMl2NPXz+wVkqqnZSvKeI+dkFrpy/hj3ZTkpyCgadgb3Ve7h07gptrW2UlJbcb0V+KKqCsG0/tRZlDY2vNMLDOfOH+KkPamj8PDxs+rY99bNlka8oCvLv/yvWh4f53w/U8Orrr5KVnUVEiSDW1eN86jR/+a//kBf+/E9RVQXrez9G+r/+AcfoGJIks5qfxeivvcDYc0eIRmOmYrGUy/333wr3i4KIGFUI/8M7lH58Hl9gialnjjL2W6+yVpT/wOK2PX0QiYTp6ezj9s07BDeC5BXnsqMsn/mFBRrvNjM5NkkkEsFkNeLOcOHMSEFnlAmFwkQiEaKRKKqishxYYWp4hsBsAFEScbgcZOZ68fozMBj0SKIcr+WQRInP3j3L1bPXGR0Y48SLx3jqpWPUXb+HIEDlkd003G5mdmqWdH8a6TmpLAWWGewaIjAXa21WVAVREklMsmJzJGJJsDDeP8ny/DI5pdnkFGUz3j9BT1M//vxMOu91c+2zm+ysLiPFlcKBE9Xk7MghEo4w2DtIT1sfK0sriJJIqtdNaqYLu8vG6uoa8zPzBOYDLM4vshxYYX11A6NFj91lJ8llx55iY2Vhld7mASKhCEW7CnF73HTWdxOYWWRXdQWZPi+XP7mKPcnOC68+j8VsRS/r+ejdjwluBPn2738bi8mCTtIhSfJmZEpEFmUEQYzXIW2/fo8SLFr6R0PjieCxxWWaUNH4hbJdrDxKqGxtEwyF+E//8T+ya88uDh85HI9idHR28uEHH/L8y8/j9WUQjoQIBAJ8/ztv4c/1c/DYAcLRULywVVEV1G0W+kC8/kQUREKhMD9+5yNSU1284naS+b0fkXK5lsXKCiZ++xssHKyCbQvZRnCDG5du0NPdh9OVwu79uzEnmGhv6aDhdiOSTiLNl4rL60BnkBkbGme0f5xIJIykl5B1EgaTAb1BhyXRgiMthfXVDWZGZpkZnWV9NYjZbCKvOJfsAj8Gg5FIKMpP3vmMT975jBRXMn/4b/+Aop07UFWFhbkFrnx+HUmWqDyyh/6ufvo6B4hGI1jtVlIz3RjMOkIbYfRmPaqqsLa8xurSGnOTC4SDYYori0j3uulp7mekd5Q0bypVRyrR6/SMDY7zz3/1XUa7h/jzXTswvP4sHf3DBDdC2FNs+PMzcWc4QRSYnZ6h7V4Hs5Nz8SnXRosBi82M3qRjKbBCYDqAElWQdTqSnDZcHgez4wsEZhbx5WZSureY9jtdzE3OcfDEAXSynluX7lBUuoMjxw9j0BmYm57n4/c/oeZANQcOHkAn6dDJ+rhQ2UqhiZuDIreLFU2oaGg8sTxWqGgW+hq/ULYL4y2bc2Cb3flWLYPI0OAg01PT7Ny1M75tYmICDfcaCQWD5BXkAgIGg55wKEx7SztmswmH0xFbsEQRSRARtxawzciEvPntW4kqNNxuZHZqlkMnDmEozGP+1FPMnjqBaXSCzP/8D7g+PociySx43EREgY/f+4SJ8UnKdpdSeXAvskHmxsWbtDd14Pa42HtkF8luO70d/dy70cjEyCSiJKAzyKytr7O8uML81Dyzk/NMDk8zNTKN05OC0+PAm+fF4U5mdWmN4b4RhnpGGe4d5u//4r8yMTLJ7/0Pv71pDCdjTbRisVpiU4jT3Qx0DTA9NkN+cS47dhZitphYXVpjYnCCmfE5VgKrjPVPxCI400sE12K+MDtrytDJMu13O5kZnyO/OI89B3ZjNBhjaR4VjCYjOXMBTveP8PLVOpR0F2kvHqWwvIAEuxUVaK1rpaG2mVAohK/Qi7cgHX+xF7ffSVRVWJpfJtFpJaPEgzXZgiSLLM0tMzkyg8OTjM2RyGjfOPOT85TvKyUwu8hA1xCFZQUY9Hq627pJSk4iKSWZJHsSC3MLdHf2UFJajMFgvD//Z2uStRC73frZ/nl72EJfs9TX0HgieKyFvhZR0fiF8rj0z9bt9qhKfX09n3zyCc89f4ri4qL4t/Qrl65Qe7OWfTVV7KqsIKoorK2t8unHnzEyPILRZCQrN4vsvCxSnMmoqPHIyvraOgvzAWamZmlv6SC0EaKguICDR/c/+M1bFJACSzh+8GOS/uktFpaW+e9feQ691cKzL50kzZtKRIkyPDjExc8uk1eSS25JNjPTM9Rdu0dgIYAzw0FalhuL3UwkGiaixNqsBUEgGlEJTAcYaBlCb9Sz++hOTEYTOlmPXtbRUd/D+//1x6wur/LSt17gudeewWgw0NncQ1dzF9FoFJs9kezCbLLz/CwuLHHjUi2rK6sYjHpSUmPFqgajnoW5BVaWVrDYLJgsJgwGA6qqsLK0ylDPECtLa5jMJsr2luDL8RENRxgbnGCge5DAfABZlhElESkY5k8VhfIffspCTiZ3/ujXmMpJY2pihuuf3yDNn4q/OBNEleXlZUb6RhkfmCS4HgQRopEoskHGleUgNdOJrNMx3DLK3NgCpQeKEVWR7ro+cnZkU1iaz7VPbpJTkEPVgSoufnwJk8nMa998Bb3OQGBukR//4ENOvfAcJSUl6HWGzUhKTIhu/f5wRGX77RZaREVD44lAi6hoPBk8ykdk+xC57YZh7tRU+vv66WzvpKy8FJ2sAyAjw8PCwgIN9xpYCiyTle1Dp9eTk5+Nw+UgFAzR291HZ1snA72DLAeW6Wztov7WPZrqmunvGWBqfJq09FSOPXOMktLi2MImbfqqiFJsf0xGVnaXMf7Nl7mpk3nrwjXu3LzL2soabo+bBLuV6xdugCiw9+AuxkfHuX72JlE1SlFlAZ7cVJCgr32Auak5NtbXUUVAVBFEFVOCEavdwljfBCuLK7gzXKwurvDhP3/KZ2+dJS3TzYmXj/H0KyeQ5VgUKM2TRkFxHol2G8uLKwx0D9LfNYAkSuyqriDNk0o0qjA3Nc/40DjjQxOsLq0hiRLzU/OMDUwwNjjBxPAkc5PzJCQmUlFZzu7qXURCEfraB2i42cTEyCQWq4XSXSVUH65CliXGxqdJeeMFhp8/gr1nkL1/8xbW6XnOLiyxIUuUHyhhdXWV1roOOu91Mz81j9luwpOfSkZxGkarnrXldWaGZpgemiMcieD2OwjMLDE3MU9WcSZKRGW0bwJPVjpKVGVieJL84jxEQWSwexB/jo8EqxWzyUzzvWYSEhPIzs6OR1NEQQThfponPkjyocjKw59BDQ2NXzpaREXjyeDhiAr89KjKxOQk//SP/0hRcRHPnnoWVVWJKBGUaJQbN2q5fu0aqWmpPPv805jMZqLRCBElwsbGBr1dfXR3dTM1MUWiPTE2DC8lmRRnbCieyWyO78PjCmfvF/mqvPP//ID5uXl6Onu4de0OBcV5ONIcPPPaUzjTHZz94DyCLLDzUCmKEGVhfoG22x0sB1ZQUFE262Z0Bh1Wu4Uktx2Xz8Hs8DyDzcOsrwTpvNtDms/NS793msXpZdaX13nq5WMYdEZ0kg6DzvCAUd3ipg39QG/M4yQtIxWPz4M1MQFBgOWlZaYnp1lZXsVsMWO2GLEkWDBbLMiyzGJgkYnRSSZHp1AUBb1eh9fvJb8oD4crJSYdVYWpyWnOfXSBA8drcHtdhCMhEtu6Kfur75AyMsXFZ/bR8upBrl2sY319nWSPnaS0RByhEM9+0kBJ+xi2tRBLFgN1Wcn8fZaTgbUwJouRzGIv/fWDpGelUVCWy72LLXgy08gpzKbuUiP7Dlfhz/Lx2btnKa8o5eCRQ+hkHR+/9xP0egNv/OavxwtqZVFGkqQHCmqBze4pLaKiofEE89hvDFp7ssYvlIeN3x54bLPVdHurstvtprq6mhs3blBUXITP74stNBLU7N9HckoSZz45w7tvvc/zL58mKSUptiiZRMp2llJSXhyP4jz2fR+3UCn3b9bWlllaXKb60D6+/cffoqe7h//8v/0NtZdu0981QEFZHkaLgcqn9iDpJEZ6Rum81wUiFFblYbQbWZpfZHlhhfXlIGuLawRaFgkHQwTXQrTc6CASjnLwxX0cefEgRr2R0NoQcxNz8a8LgiDGRcpWsajT7SItLZ3K/ZV0t/fQ3d5NfW1D/BB0eh22JBsWk5ngeoil+SWCwSChYDg+7NFitbCjtBCvLwNXmiseuQLiKTO3y4UkSczPzpOWmYooiEzlePmz41UcHhzjWzeb2XO9iaVCL4svV2Gw6TGPT/Nnf/UZo3qJf5fnYsRqoNAi84etk/xzfyf/9jequNs/x8L4Au5sJ1OD06RmuEjPSmW8f4rCskIsCWYGugcoLCrA40unp6uPfQeq0ck6nKlOejp6CYfD6KT7+6yhofH1Qkv9aPzCeVz6B7bP0Llf9Jjh9dLR0UFvTy/lO8vjE4wFQcDpcOD1Z9LV0UVLUwsGo4GEBCtGowmBmIW7tJnK2boVRTFeUCuJUjxN8PDPVlGmqqoM9Q8x0DfInurdGIx65mbmWN/Y4Nd+9zVC4TBXz9xgqCdmGjc3Pc9IzwgJyVaKqvMxJZpQUZENEuZEE0mpm5GU0QVuf3yPzlu9VBwrZceefCLBKC6PA7PFTGgtwszELFl5PkwmMzpZh07WIYmxEQFD/cNsrAaJRqIY9Aa8Pi9lFaUUlewg0+fF6XZisVqIhMJsrG2g1+mw2Ww4XU68mR6ycrPYU72HvdV78Gf7sSfZEVQhlmaSYudGEsSYFb4kMTo4ysZ6kOz8LKKKQldLN2PD4zheOMilnbks943yJ62DFI7N0WrS8fyb17GvBfmDk8WEKrwsSQLti+v8JMXCG8MBCuZXqa3IZHZkHqc3hUhQYX5igfyyHKZHZlGV2GDI0YFxfNk+7DYb/d0DuNwuHI4UZEmmu72HtPQ0nA7HAwW18esnivHPipb60dB4onls6keLqGg8UTwqqiLLMqdOneZ7b77J+z98n1defwVZjn10FREy0j385m//Bh9+8BFXL17j8oUrpDhS8Pl9eH0ZuNPcqApsbGzEogmhEKFQiOBGcPO+EMGNDTY2giQmJrB3397YIrdpjy8KIouBJQQBklOSiSphhvqGSEiwUlhWwMT4BFb7KYwWA5+/d56ZiVlyiv0ceW0/BpORcCT0wDFurGxQ/1kzHTd7cHpTKKzKpeaFvQiKSP3ZJqZHZ0lxpqAzxKIEoVAk1mq7KaAioTAXP7vC4vzi/boMYguxyWTEYrVgTbBiTbCSkuTAl+nDYDQQDIUIh0KEQmHCoTChYIjutl7WV9dZW11jZXWVUDCEPcnG0ZNHSHGmEBUiCKJINBolNT2VztbOuPX86OA4DncKKe4Umu600nGwnNk/eI5jb1/g3//d50jA+/vz8O3PQ1GjJDgtJGfamO6f5a3URP6ka4rsN6pYmV1lZniO/PIcOmp7WZxfJtXrZnJkipJdxfS09DE5NknpzlL0eh1jI2MUFOSTnpGOJEuMjY6xo7DwF/kx1dDQ+AWiCRWNXziPSv9sn/2zXayIIqAoZPoyeeGlF/n4w494560f8No3XsVkMsUcSQUFuz2J3/rWbzI5OcnAwCCDA4M0NzbTUN/wyGGAD6PTyej1erpXV0GFmoPVRKLE00xJdjsCAitLK5gTTch6HQjEIzVGk5H9J/eRluXm3I8usji/xD/+L9/DX5RJxfFS0gvcRKMKrVe7uHemhcQUKy/+66fZWA6yurQO3E/Q6o16REFkaWEJSZSw2RPjM4kUReXa+RssB5Y5/uxR7PYkwsEw62vrrK6usb6yzsrKKmvLq0yNTREOhx84zq2IlYCAIIpYLGbMFgsOpwOvz4vJZKK9tYNPPviU/YdryC3IjdvkezMzaG/uYG5qAUdqEmaLmdXVlVgtiE5GUGA5NZl3/vgU9r/+Ef+mZZhTdwfYSE3kYqUPAGOCAXeuk772aUQgbX6VTpOeaDiKwRKbGaSqKjqDDlVR0el08ftEUUSSZVQldgySFOvw+VnXVkND46uNJlQ0fil8WbGytS2KQllpKQaDgR+99z5vf+9tnnv+OVJTUxGJRRUUQSTd4yEtLY191VWEQiGGh0eYmpxGliX0Bj06nYzBaECv12M0GjEajRiMBiRJIhqNcvHcRerv3iPFkULBjtikYJQITrcTQRCYn13AnGjCZDQRCoVjqSVZIhqJLeaSJJHiSub464dYWl7m9uf1fPT3Z9Ab9UQjESRZYt9LuyisykWSJHrrB2PdRoJIcCMWeTFsDvkLzAawJSei1+s3W2wF7ly7y9TENIePHyQ3LzeeCnrYQwRiYiQYDLK8tEIoGESvj9nZ6/U6dDodsizH0x7bC5rLKso4f+Y8Ny7dZHJsin0Hq5BlmfSMdPQ6PRMjEzjTUkhItDI7NYMoiBhMBhYXNgWXIDDgsAFwe28WL55p5dkL7bz7VCGXKtJRVXVb1dy2tIsmODQ0NB6BJlQ0nmi2UkBbwqYgP59ff+MN3n33Xd78zpv4/X6qqqvwZnrjqRFFUBBUBZNJJj8vj/y8POBBJ9wtlG2LoyiInDh5gkBgkUvnLmOz23GlOlFVkeSUZCRJZmF+nsycDAxGA5FQGGXzW380el+oQKxw1+Vx8PS3jlH9wm7e/T8+Zml2iW/8Ty9gNBnu76uiIuli/wwjGxEEwGQ2oiqwNL9MTmFWvIC2taGdwd4hdlftoqCoAEmUkUQ5Xm+zvrbB9OQ0kUgUWRIRJQlJFBElGUmSiUYVomsbrK9ubJ5bsFqtJNoS0Mm6+LnQJeh56ZUXuXu7jju1d5iZnuHIySPYkhJI86QyMTbJTrGMhMQEwuEokXAYo9HATDAcN9abdiSiAIt2C//+z57hP/zFx3imV2K1IwjkrIVQgFlHAsL8eizCE28nju0bgCgK/JRmAA0NjV8BNKGi8Uvj50kBbRcrfr+PP/nTP6G+vp47t+/wg7d/QGpaKvuq95Gbl3tfBKgKSPdbjaXYuLp4t0vsPYg/jhCbDfPiSy/y/Te/z2cff8brv/4aZqsZA5CcksTC3CKSKGM2mWID8SIKer0eJaqil2ORClGUkAQ53oliT7Jz4o3DvPvXH2IyGJFlXTyVIyixzhydrCMaVhFFCbPFzPryOoqi4nS7kEWJoe4hOho7KSwuoGLvTiRRZnlpmdnJWWamZpmamGYxsLi5wAsPFIj+rGJRQRBISEjAlmTDbreRlZb5FVAAACAASURBVJNFRmYG+2r2keZJ5fNPzvKT93/Cq2+8QmZWJiNDo6wurW2mpASCa2FMJhNKWIkfd9hmpT49icPXu5FUgYDdzEenKzAICpIS5pujARpzXIRsViRxDkESkDdt8HWynkgkuim05HhBtLxp4CZt1uXEWpDvf27EbUIndp8mcDQ0vg5oQkXjl8r/V7FiMhqpqamhsrKS5qYmamtr+fGPfozJbMLr9eLN9JLpyyQ5OTmeDolHVKQH25G3RIyqKIgCWCxmXnn1Zb7/vbf45MNPefWbLyMIIk6nk8GBQQTAbLEgCAIba7GUiqqoRCMqBr0RSRRZXVojyWUHYlGhjOw0VEVlcWqF9KzU2BurEAkpWBMM6GQ9GytBRFHCarEy3j+BKIg43U7mZxaor20k05fBgSM16CQdXW1d1F69FRM2JjOeDA9l5SWkeTxYLZZYXY6ioigKqnq/NXv7Qq4oCstLy8zPzxMIBFiYX6CzvYuWplZOPvsU+YV5+Hx+Xv7GS3z/X96it7sPX7afWvEWEyOTONJSEEWRpYVlrNbY+QithdFbjBjNJv66NIv/+3obz55p5NKxElzrCgljczz/43oE4M1Tu9DLBlAEZFmHpMaiMTpZRxQFWZRinVvilsusFOsVj3fzCCiq+gVB8rBPiiBoPikaGl9lNKGi8UTyOLEC22YEKgp6nY5du3ezs6KCzo4Oenp6GRoapLurG1VVsVgtZGRkYLFYMJlNmEz3f9ypboxG4wPRly3R4nK5eO70c3zw/gdcv3KTI8cPkV9YQGdHF13tPXj9GRgNBtoa29lRXkhbYzvdTd0UVhTgSnPS1zJIaCNEVrEfQYhgtSbgynAwMzyHLy+Wpupt7CcaipLuT2NlfpWJgSkysjxIosRg1zDuNBcJCVauXLuGNcHK4ZOH0en0rK1tcLe2nnRPOsefOobT5Yrbxt9vzRUfGL74s9ga2hgKBfngvQ+4dO4yTpcLW1IijhQH/mw/rQ2tFJUWxopqmzp4LvdpXG4XnY1dVB7dg8FgpKOui11HysjZkUXD/DI/8jj4Rv8ku2/3cuRiKws6mZuuRP7y1X3Y8r0ExhdZX9wgtzSLgZZh9Do9DpeTex0NuNJczIzPIgoirlQXCzPzBIMhUlNTkUSJ2elZIuEILpcbId79pKGh8XVD81HR+KUjCMIjOze2+6ts+WBsH1643RtDFEUcTieFhYXsrdxLSWkJbrc7Zkw2NcX42ASDAwMM9A/Q1dlFW2sb9+obWAwEsFgtJCYkPlCIigApycmEIxEa6htwuV34s32MDo/S39tP+a5SEAU6W7vIzPYi62V62ntJzXCTU5RFKBhisHuE5fllnOkOZFlifGCChckAKakpjPVOMjM6S1ZhJm6vm5ab7VgsJqqO7mGkd4zZ8Tn2HalkYy1Id2sflTV78HjSkSWZW1dvsbiwyAuvPo/D4UQn6+J1KqIYq0uRRAlRkrZFI8Sf+iMIAiICkiThy/LT3trOYP8ghUWFyLKMPclGc0MzsqyjZGcJrU2thEJhdu3bSU9HL4vzi+yoKKCvc4DlhRUy8zz4vA6+9cPL/GOxn/+5PIvvFHg4f6iImVN7Sd7hI7oRoae+n2R3Egk2K5OD05TuLSG0GmR2Yp59h6vobe3DZDSxt2YPbQ3trC6v8tQzJ9Dr9LQ1tzM9Nc0zzz6N0WCKdWBJW1450iOHEm6/3f4509DQ+KWj+ahoPNk8zrF2u5391t/boyux527eEktniJKM0+EkJcVBxa5d8e0ikTDr6+usr62zvLJMZ0cXrW2ttLa04nA4KNtZxo6iHZjNZkRVJEKEg4cO0NnRSUNdA1k5Wew/tJ8fvPVDWpraKN1ZSmdbJw23mzj63CFGBkZputXC/pP72FlVTmJSAs23W7n+cS1JLjvB9TAD7cO4vS70Bj2+/EzyyvJoutGCGlXZfXAXEjKDnUN4fOm4U13UXryD2WImryAPQRSZHJuiv2eAqpoqUpJTkCVpW32GiCxKKKrKyvIqK8srLC0tsby8TCgUxmw2Y7VasVjMGE1GLBYLFosldu7U+0XI9kQbz794mh++8y6Xz1/m5HNP4U5NJScvh7bGNopKd1BSVkxzYwu5hVlUHtjL9Ys3cKY7Kd9bStOdZmo/u8sbM/MIeh2rf/wi1RtBVBH0Rpn1lQ1GOsaZGppGrzeQW5RNy812Uj1ufDlern1yk7SMVAx6AwuzAar27wUFBvuGyC/IR2+IdUFNTkzhdrsxmUzAfcERt8r/EgMJNTQ0nnw0oaLxxPBl7PW3fof74mW7OdyWE6miKF+oXZBlHQkJOhISEnG53eTk5HLiqeO0t7XT2NjExfMXqb1Zy7d/99tYrdZYwaYks7dyLxfOXWBqYoqMDA95ebm03mtlR3EB+/ZXcfbT84wNjFN1qJJLZ65w7fOb7Dqwk9zCHBISE+hu6yEwt0h2gY/WW+1UHt1NijsZSZToaxtgcWaJssoSUhzJdDf1Eo0qlO4uYW15namxafZU7Yr5iShw82otNrud3Xt3PWCpLwgiYyOjXLl0ldmZudh52TzueDTqEVErf5affdX74l1TEDPR8/l8HDx0gCuXr5KWnkrpzhL21VTR3zdAS0Mre/btoae7l7vX6zl2+ijjIxN0N/dy4OlqDj9zkM67zRz7wXneLslmcnKR9Kw0FmYW6G7pZ25yHkmSSPOmkl3kp7OuG73ewK6anYz1jRMNK5TsLGakbwSdTkf+jnxGB8eIRhSKSoqQNwtsp6emKS0tve8mvC3982ULabU5PxoaTz6aUNF4oviyYuXhv7dHWLaKbrfzKOGiqCoGg5GKXbvYWbGTsdExvv/WW3z84cd8841vbpq9yZSVlXLj2g0a6ht55vTTVB+opre3j4a7TVQdqMTjbaf1XjvPvvY0J04d4+r569z4vJbSvcWk+1NxuB1ElQjhSJjPf3CBpZllPBkeZifnGOgYxpvtIacwm42VdYZ6RsjK8+NwOqi/3oBOp6OgpABJkmhtaGcpsMSLr76ALMv3j1GFC2cv0NLUgj3JTnXNPmw2GzabDbvdTkJiAjqdjlAwtOlAu8LKygrzc/Pcu3ePd956h3RPOiefOUmKIyV+fqr2VTE6Osq1y9dxuBw43U7yC/Job2lnR2kBB4/s5+yn5+lo7GTfwSpmpmaov97IoWcP8HuiDqNO5u6+UsZbBhloHSISjaI36Mgvy8WX58NkMtLXNsDq4hq7D1QgREX62gbx5/hxp7qpu9aAP8eP1WrlRmctKSnJeDLSkSSZwMIi0UiUtPQ0BFF8IJqiFc9qaHy90GpUNJ44HvftP/7YtqHe22tXHr5vq5bl4fu2Xv/B7QQSbTZsiYncvXOX4EaQ7JzsWNeJJBKNRGhqbCIpyY43M4O1tTVam9swmUwUFu+go7WDqdEpist3kJXvZ3pihr7OfmYm57An2TEY9KyvbNDR2ElwLYQs6ehu7iUxMYGqo5WsLa1x51I9Op2OA8f3s7G6QcPtJnaUFJKTm42qqFw9dxVflp+9+/bE2nU35/H09w1w/cp1du3ZxcuvvExOTg5paWmkpKRgNsdmBImCiE6nw2w2Y7fbcblc+Hw+KnZVkJCQQFdXN2Ojo5SVl8XOx6am8/p9dLS3MzI8SnFpEQ6Xg5bGFmamZ9mzbw8rK8t0tnYRiUQoqSimt6OPvuZOfvuHZ6h7ej+WV58i1eNCEERyCrMp21eM1WplfjJAf9sgE0NTZOX5SLInUX/tHmazmSMnD9FY28zSwhKHjx9kamyG7rZuKqsr8WZkIksy9XfqmZma4djxoyRYEpA2U2APX+cH6o7Q6lM0NJ5gHlujogkVjSeSnyVWfpo4eVQR7sPi5Yv3xSSN2+0mGAxSd7cOa4I15nwriKR50hgZHqGlqZXs3BzyCvOYn52nuaEZl9tJfmE+bS3tDPWN4M/OpKA0n4QEK+PDE/R19NPT1s9w7wiz0/NMDk+R7EjCleqk+mgVi/NL3L1Sj8lk4vipo9gSE6m9fAc1qnDsmaMYjUYGuocY6hvi2FNHsdlssaJZKRZVOfvZOQx6A6+8/go6ne6xi/T2hXzr/MiSTGpaKgaDnoZ7DaSnp2NPsseLlmVZwmIx09jQiNVqwef3YTabaW5oJqooVB+sJhqN0N7cwdrqOjXHqqm400Ruex//oTiP7u5hQhsRHK4UlhaW6WzoZqBziIWpADqdnvySfCRBpP1eJy63ixOnj9Pf2c9AzyD7DlSRlJTC5bNX8GX5OHrsCDpZx+LCIhc+v0D5znLKysvvFwxv63baSoc9fPzb0dI+GhpPFJpQ0fjq8dNqK7Y//mWEy8NdQ48SLlvP82dlMTExwb26ery+TGy2xM37/bS1tNDf109R8Q5yC3KZmZqhpbEFrz+D/II8hgaHaG/qZGMtSE5hDjvKC3GlOrElJ5Kdn0WiLYHGO838+X/478jK8zMxMsm9a43Yk+0cP3UMm83G6MA4Pe29VB2oinX6iDLXL93EYrFQfbAaWZTjEYSJ0Unqbtdx8PBBPB7PA1ODf9oi/bCYc7qctLa0Mjk5SXl5efxxVVVIdqQwNjZGZ3snO4oLSfOks7qyQmtTGwm2BMp3lZOQaKWzpZOZ0Un+1aeXGP3m84inj2E06AnMLTI2NE5wPUhqupvCkgJ2V+8iJz+b/o4BJoYnKSovouZINV0t3XS39lBSVkx5RTlnf3IOo8HAi6++gMlkRpZ0XDx3kbXVNV5+9RVMBuMDnT6Puvbbj/nhc6ChofHEoAkVja8uP0uwPLzdw6LlZ21z/777v+fl5dHR0UFLcys7inZgNBrR6/WkpqVSX1fP/PwChTsKyM7LZnJ8kpbGVvy5fnZVVqAoCj2dPXS1daOEo/hzfKRlpGFPtmNLtvP+dz/g+OmjjA2N03S7hVSPmyNPH8ZsNqNGVa6cu05Ssp3qQ/uQZZnZqXlaGpqpqqnCnereLPKNpX0unrtENBLh2VPPxGf3fJlFGviCsJNkiYaGRlLTUklKTooLFYDUVDcN9Q2srq6Sk5dDhtfD+PgErY2trCyvULazFK8/g+SPPqe4vYf/VLWT9YhCUnIyhSX5FFcU48+JpW3mZwJ0t/bQ0dRFOBThwLH9ZGSkc/XsDSZHpyjdWcL+Q/u5duE6gfkAL77yAk6nC0mUGB+doPb6LQ4ePkhOTvZD0RThgWjK9uPWoikaGk88mlDR+OrzZcTK9m2/rGi5//h94SJJEv6sLBobGunr66eouAhZkrHZbOh0Mg31DYiihDczg6ycLMbGxmhpaCXNk0pxWTHZ+VmEgmG6O3ro6ehhdGCM7vYeRgfH6GrpYmE2wNrKGr4cHzXHatDrdUiSRFNdCzMT0xw5eQhrQgKSKFFfW8/62jpHThyJWfRvpjhmpme4ce0GVdX78Pl88boS4f4v8QiS+oj/FFVBRSWqRFFVFYfTQWtLK9MzMxQX70BRoihqTKwYTAbC4RBNDU2kedKx2RPJLchBVVTamtvo7xsgO9vHqX96m47D1QwXFTAzNcPwwAj93YP0tvXS3zXA5NgUoWA4li4rymdvzV4WpheovXwLnU7HyedOUl5RSkdzJx1tnRw6cpCCwoK4GPns48/Q6/WcfuF0zDtmWzRlS6RsXcPH1aZoIkVD44lE81HR+Hqwvf34Sz/noW/TDw8nfNimf+t9XE4nL7/yMu+8/TaXL13h5NNPISKyp3IvExOT3LpxC3uSjZy8bJ5/8TQfvPdjLn1+maNPH8GT6eHQ8QOUlBfR3NjC6soqghiL2mT4MggFQ+yp2U3ujuxNwSQSiUTobushJz8Lh8sBgKqqDPYPkVeQh6STUNWYwBAUhd7uXlRVJa8gD0VVEJVYazGASKx7ShTFLxzvw+dv6zWDoSCSLDM+NkYkGgFBQFWVmGutorCnag+dHV1cvnCZX/uN15Elmar9lXi86Zw7c56Jv/xb5Mlpon/2R5xItKCoCqsrq8xMTjM/F8CaaMWV6sSaYCUSjjA1MU3tpVsE5gPkFeZz8Oh+zCYL3e3d1N2qp6CggN17diGKErIkc/vmHWZnZnnhpRfQ6/Tx9NfW3KQtHu760bxTNDS+2mgRFY2vJF82HfRTn/tQ6mN7/QqoqKpKUlISwY0N6uvq8fl82Gw2ALJzshgaHKalqYXs3BwSbAlk52YxPDRMS2MbNlsiKQ4HJrORTL+XrLws/NmZeLO8LAUWGewd4pu/93q8rkIUxVh0oqEDf64Pd6prs85EYLB/CFVVKSwq2JwyHEtxGIxGOlo7WF9bI68gP3YcbBmd3T8/j/sB4lGV7u5u3vvBuywGFqnevw+PN+MBkaKoCqIoYEmw0tzQjNlixuV2ApBoSyQ/P5eav/pbruZk8Uk0yvTEDIG5AOFQlESbnXRPKtFwhJGBURrvNlFXe4+hvmF0OpljTx1l7769hDbC3Lh8k6Z7zWRlZ/HMqZMY9EZ0so7WplauX71BWXkZ+w/sf0CkCNvqcr6MwZtWm6Kh8USiRVQ0vp48yi/lSz/3Ma63EPtWLsasbjly9Cjd3d2c+fQMv/P7v4Moisg6HS+9/CLf/e6bfPLhJ3zjjdexWhN49fVX+PjDn3Dl/FVCoRAFxQVfeN/CkgLe+ed3QREQJQHEzY4cWUQQQIkoCNuOy5/tp6m+heXlZWyJtpiLrKrgcDqorK7kTu0d8vLzKSgsQBS2HQ+PjyRsbbO8ssLF8xfpbO8gxZHC6Zefx+12EVUi8fOpqMqmaFHxZ/nweNO5U3uH3PwcdIZYl1HazTskLy2j/p9/QfLoGIsLiwwPjjwwqRpAkiVcqS4qq3PxeNJJ86QRiUS4e6OOtuY2JFmmZv8+9tVUx2puELl+5Tr1dQ3k5efx3KnnviBSHq5L+WkRFC3to6Hx1UMTKhpfKx61EP0s8fKoAYjbX8+g13Pq9Gm+/+b3uH71BoePHkIWZRJsibz88ou89dY7nP3sHKdfOoXBaOT5l09z5pOz1F69RXAjSOmuUpDuv19hyQ5CwRAjAyP48/yIsBkVAEmSiESiD+xfdn4WjXXN9Hf3U7Gn4oHHdu+tYLBvkPNnz+P1erFaLQ+kgB53rFElSntrOxfPXyQYClJzoJrdlXsQReGBKAoQFykQi0bsP1jDD99+j/q796g5WA2qivtv/pH53/wG/spd+Ct3xdJJm9OZFwOLrCyvkJSchCvVhV6nj12XqEJrUxv1d+4RDocoLi2h5kA1dpsdQRDZWFvn00/OMDI0wu7duzjx1AlkWUYW5c19+ekiRUv5aGh8PdCEisbXni9T1/K4ac1bNSt+v5+KXRXcvXOH/MK8uL9KuiedYyeOcvbMWWqv17LvQKxT5+lTT3HhrETd7XpWVlfYU7MbZbMWxGw24vVn0NHaiTcnI75foigiSiLBUJBwJIwoCCiSjNlqJsWVRGdHFyU7S1BUBVmUUaTY7fGnj/LO937I52c+58WXX4gVlqoK6iMW6oiqMjQ4xNUr15icnCQtPY3jJ4+RlJxERAmjRmOiZGufttI/cD8KY3fYyS3IofFeE/5sHzntXRj6Bun/l795IBUnSRL2JDv2JDsCAivLK4wMjjI1McX01Awz0zMo0Sj+7CwOHj6Iy+WMR0lmp2b46MOPWV9b59Tp5ygrL3ug5Xq7SHnc9Xzc50BDQ+OrhSZUNH5l+HkKcb9o1y9w/MQJenv7+OyTM/zO7307/tjOneVMTkxQd6ee1PRUvL4MRFHkyInDyDqZ5oZmZmdmOfrsEUAlokTJL8qju62H46ePxKMVUSUKIgQCATaC6+h0uljXjajgy/Fx90Ydw8PDZHgzUCUFiEUmEu2JVNZUUnvtJtevXaekrBS9rEOSdYhirINpeXmFwf4BujpjDrQJiQkcP3mM/B35CAKEo2EURblfl6Iq8agIEP87GAqytrpOujedjrYO3nv7Pf7dux9xsTAXNRLBqSgIgsDo8CgtTW2sr64RDocJBUNsrAcBkHUybreLsp1l5Obm4PP7HkjjtLe2c/7cBSxmC7/xW79JenpaXKQ8nO4BvlTKR0ND46uLJlQ0NDZ5WJzE79+cP2QwGDh48AA/+clPmJmZIcWREqsliSocO3GM5qYWxsfG8foygFiaZM++3TTda2JtZS3uS6KqCnnFuXz6/hkiSvQB4eTxpdPd1sPnH56j6tBeUhwpqJJMhj+dtiYTZz76nOPPHiUrOxsIsSVWynaWMDE2Qe2NW9y6efsLPipbJCcnc+joQYpKixBEYbM1+b44iUQiLC0vszC/QGBhgcWFRRbmAywtLrG2tk44HI4fG0BaQwvpM7P83XMnOKEqLC0uceXCVcZHx7EmWHE4HRj0BgwGA06Xk9S0VFxuV8zWX3xQeKwur3L58lW6O7vx+3288NILJCQkxAVK7H1/tkjRoikaGl8vNKGi8SvHzxNZ2Z7+AfD5fbGIwcgoTqcz1g0jiEhSrIU2Gn3wNcdHJwDYU7MHAYhupn9yCrMYHhhhdXkF2aiLb1+8ewd2h417tY2c+fFZincWU7KzCL1ez/HTx7j6+TXOfXKBA8c22FFUuPksPaqocvLUCRYXFpmanEFVFFQVlGgURVXQ6/X4/D5s9sR4akeJRokoEaLRKGMjY/T29DHQ18/KytqmoFKRdTL2JBt2hw2PNR2T2YTJZMRisWAymbjw6Xk+KC7ktX/zJ0iSxOVzV5ienGb/kf2UlpWg1+nZmvAsCgKSKH9BoKiKSsO9Rm5ev4mqqhw+coia/TXIUux/T9u33X79NJGiofGrgSZUNH5ledSk5sdFVWKPCSQlJZOQkMDY6BgVuyoQBZEomzUm0oOvp6gKg/2D6PQ60jypKGxGLxQFb7YXWZbp6eojvyQ3/pwo4PI4OXr6EC1322iub2Z0aJSaI/tITknm6HOHuXGhlivnr7K2usbuvbsBkFQZWZJJTEokOSU5Lg62oygKkWhsH8LRMKPDo3R39jDQP8Dq6hqSJOHJTGfHzh3YEhOw2KyYzKZHRmZEQaSprpm/HRnn8Jm3Y4JNFZgYnyTDl0HZzlKkba3XD4uULQO3sbFxzp+9wNzsHDk52Tz9zNPYk+wPpHm2zv3DAmVrP7bfPuoaa2hofLXRhIqGxmN4lGgRBIEMr5eRkeG4UdoWkiRturlu1nUoCoN9A3gy01FFlUgkSiQaIRQJ0d7Ujj3Zxmfvfc7Y8CiyTkbWyej0evz5mbEZOjUlpGa6abnTxucfnuPQyYOke1I5eHI/d67Vcbe2junJGQ4fP4wtMSFeZKuqKpIooaoPtl9DrA6mr6efu7fuMjMzgyzLZGR68GZnkJ6RhiBtdgVFIyiqSigSeiCiFDsHMeHx3f/yJk+/+BTJTjvhaIiV5SCLgUWKy4pQNmtVvmBdvyk+lpeXuXm9lvbWDmw2G6+89goFBfn3xc3/zyjK9udoaGh8tdGEiobGz4k300tbayuLgUWsNut9ISBANBITKpFohLHRcdbXN8jweYhGI4QjIUKREE13mmhv7sTlcbIws0BUVQiurhEJR1hfW6e/e4D8slyyC/2kpCWz/+kqbl+q49Jnl6k+UoU/x0/loT04XCk03W3hve+/y/7DNeTk56LKCpIqoygKkiTFu3AikQg93b001DUyNztLQmICNUeqyfRngCQQjUZYWVthaGCYhbkFwpEwoXCYSDhCNBJFEMDj8+DxezAZjXS1dNF8r4U//R//W4LhIIIoMjY6hqJEcbqdRDZ9WOJIMsLmeblTe5d7dfcAqKquZP/+/ZhMpvimP49I0dDQ+PqjCRUNjcfwqBSQqiokJycDMDs/h9VmBSAUDhEOhWIOs5uRls62TkRJwO1xEVWihEIhbl27zUDPIJm5GSS5k/jgXz5k9+Gd8ffaWFunvb6Ltvp2BnuGKNpZSFpmKlXHKqm/Ws/1CzcJhULkFuaSsyObtIw0bl+9y4XPL9HT1UvNoRqSkpJiRbELS8zPzxNYCDDQO0AgsERSkp1Dxw+Q4fcQVRXmZucYGhxheHCY2akZopu2+4IkIkoCsiwhyRKhYJjhwRGEqwLudDcXPrrE/uPVJLtsBCNBJFFmZW2VqBJlenoKlzvWarxlTicoCpIo0dfTx+3a2xQUFnD0+FGS7EkPRFG2p3vgZ4sULZqiofH1RxMqGhpfkq024omJcQBcLheqEvMd6e/tJxgM4cvORFEU5ufm6O3qpaA0H0ESWV5e5PLZa0xNTJFflou/0Mfk+CQLswFmpmcxJ5qIhCJEoxEK9+bh9KbQ29zPnSt1pLiSKdlbzO7DFdy73sTtq3eJRCIUlhRiTjBx4vRRejv6aa5r4Qdv/hC9Xk8kHL0/OVgUSHGmcOTkIbxZGUSjUfr6BqirrWcxsIiiRLEl28gtySHZmYSoE4lEo3F3WkEQkTfFysTwJG31HfR09OIvyORubT07K8vRSTKZ2RkM9w9z4/INPJ50Uhwpm88XkIiJvEAgAMDTz57EZDLHz+0XBcjPbj/WRIqGxq8GmlDR0Pg5GR0ZIyk5CavVQjQaW8y7Orswmoyke9OJKlHqbzcgyiI7ygoJLAQ4/+kFlpeWqagpw+V10dPeQ1/nADqDjo+/+ynJbjsQm9+c5LKTU+an4mgZMyOzDHaMcOPzm+w+tIuKg2U017ZRf7OBcChM2a4y9Do9uUU5eP0ZjI9OsDCzQHJKMknJSdiSEjFbzQjEhNbc7By3rt1mdGSMRLuVssoSnOkOFgOLDHQP0HyvlUgkjKKoX4goOdMd5JZkMzk6wc59ZeQW59DW2I6iKpTvKcWoN7L34B4+e/9zbt+8zclTT292TambLdAiy0srGAwG9PpYW/XDtSbbUz6g1aRoaGhoQkXjV5hHtSc/vDg/XEiqqiqjo6Pk5ObEvUc2Njbo6+2nqHQHgiAwMzNDX08/O8oLUJQo5z4+TygcoubEPix2M013m+lt78eaZMGZnkIkGiGjIB1ZiJQKYQAAIABJREFUJxMOhxntGef2uTky8tLJ3uEnKdVO680O7l6pp+JAOeXVJbTe6aC5rpX56QWqDlVis9kwmA3kFeYgFInIohxztlVVokqUYChIc10L7c3tCJJAeWUpzvQUBnqHuPjpJZYWl5FlCXemE7sjkXA0EjOg22R9ZZ2RnjG6W3poq+vgj/7XP6CwPB9BEmhv6gABdu4px2DQk1+SR3tjB+Nj42RkZKCICoqoIAErKytYLJYHzul2x9nt92kiRUNDAzShovErys8zvHD7trMzs2ysr+P1ZsTv6+7qJhqNkFeQi6Io1N+uR9ZJ7Cgt5O6tOtbX1jn03AEMZh23r9Ux0j9KRm46/uJM5mfmGegYIj0vLVbbEo3iyEhmoG2Y4c4RZkZmya/Io+xACa0327l3rRFhv0B5dQlj7gm6m3r55L0z7KmuIG9HHhD7Rx0hgizKBBYDDPUN0d7cwcrKKll5PgrKCujt7OHue3WEwiHsDhvFuwtRRIWRvjHGRsZjk6UFFUEUEEUBWSeTXe6j41+6cGY46WzqIjC3QNGuHUSjEdoa2hEFgfI95eQWZdPX2c/t67dJfd0dGyKoiEiKwtLyEtYE6/1zqyoIioAiKFqRrIaGxiPRhIrGrxyPEynboykPR1aUzfTF0GZbcnpGerw+pbOjE3uSHYfLwfT0DP29g5TvLmV9fZ3u9h6yC7NITErg5qVbjA6MkluaRXpuGqurK1jsJsb7Jmi62sLK4irRSBRPbirZ5ZmkeJIYbh+j5WYb/oJMSvcX0367k3s3GjGYDPjyMknPSKflThu3r91lcnSK/cdrQGdgeW6Be3eaGBseRVUhyWHn2P/L3ntHt5Xfd9rPLehgJ8EG9t4kqox6H1lTPMVtXJK1kzjF2XOy2bxvirPJnvdNsj4b7+ZNPXGydpx4s07sceLJjKd4NCojjcpIlESJYu8V7AQBEiQBAre8f6AQpEhJ44zLyPjMuSMQuLj34l4Avwef37ccfQxbkpXzb1xg3j1PTqGDoupCFryLdN3pYtHrw2CSsafbCCkKoVAQXddRVB3fwhJDnSOM9rr4mS9+AlmUmRyc5t2zTRx66gC6ptN+pxOLzUptfQ31O2tpfvcOQ4PDVFRUoIkaqqawsrRMZmYmmq4jahpI/344SbgpCSX0aCsBKgn9VOm9OCmbaWx0FJvdRmpqarhmiqYxOT5JZW0lOjpjo2Pouk5ZdSndnd2oqkplfQVet5fRwTFKa4opqi6gt72fnpY+AoEAoaCCd24BR1EWgZUAo70TSGYJR2EW9YerGWl3MdIzSk5RNg0H67h17g7dLb04crKw2M0cPLWfwc5B2m93op3VsFitDPeNYDQZadhVT35xHvYkGyt+PxfefAev18uuw41IJonWpnZmJmcw2YxU7CpDQ2XR40MSRYy6hCSLiJJEtjGT898cItWRgqvfRc2eKuoOVNF6qZO2m+3sPNhIYCXA3ZutFJUUUFhWQFtzB71dvZSWlaBoEpIuYbVZWfAuRKbUpAee74QSSiihBKgklBCbuynRKrJR6boebgrodKITDjadnZkhGAqSneMAYHJiEpvdis1mZWx4jPTMVEwWIzff7UaSJQoqC1jyLTPQPkhqVjLZpWX0NPdhT7NSWJuHoir03hxgsHUEo8VAalYqzqpc5ic9DLQP0niwgYIKJwOtg8xMzZKXn4ckqlTUlyPJEndvtCFLMlX1lTTsqEcySKiayorfz6Uzl5mf97DrUCOB1QA3zjcjiFC6rZikTBt9rQNMj82gaRqqrq6LUQksr+Lqm+Tk5w+z4vHTcqmd4poC8iqycXVP4MrPonJ7OU3nmmm73c6eQ3soLHUy0DOE3+/HIBvQdZ3s3Gw627pQVRVJlBB0DekhgSUxNZRQQj+dSnzyE/qpkKZpD+WmbFY7JTrt4/F68C36KCgsiD02NTUNgCPHgaZpTE1MkpWTxfLKCrPTbnILclnwLuIaHqegPB/JINB7tw9N1ynZVoQtzYKjKJPJ4RmCaggNnaIGJ7JJoufmACu+ZUSDSG5pNjPjc7hnPOQUZSEbZXpb+1E1JbKolFaXcPjUQU597CTbH2uIQcrq6iqXz11lZnqWHQe2EVRC3LjUjD3Vxq6T2wkpqzSdbWZmfBZHWQY1x8qpPFxCyV4nJY85KdqZh3dqAXu6Dd+Cj8LtudizrAx2jLC0uIw1xUJncze6rJNbnE1f1wALXm84FVpRGOwfRFHD7pMjx4GiKExPT8fSvaNF6TbTg+AkMe2TUEKPvhKf8oQeed0PUKKZO9HbUW10U4DYtE5u/lp8yuTEJCaTieTkJHy+JZaXV8jOdTA6HF43ryCX7tZeREmipLoIr3uB6bFZCiucWGxmBEEku9jBzMhcLC1XNsqU7yoBQaDv1hBKSCG3NBuj2cBQxwiiJFJSU8T8jIeBruF1x+jIzcKeZI/B1cLCIhfevMj0xAw79zciSSLNl26TlGanrKGI1nc76GkZwJpsprjeiXvCy91zHXRe6mXg5gjDd8cYuDXC9OAcFQeLWfIs03NjkHRnCllF6UwOT5GWl4YSUmi/2UVpTTGaptHV1ktqRgr25CT6ewZjHZrDzpPO5MTUw127LfouPcy1TSihhB4NJUAloUdW93NR4gEl+jcQ6Rocf78eG2RHx8Ywmc1kZWXGHp+amiI7NxtBEJgcD3dKzs7NZmJ0AqvNisVuZXx4nOKKQiwWC313BzCZjRRVOWOVWHNKHMyPexjrnKDlTBv+xQCWJAsVO4tZ9YcYvDOCbJApri5gcd7H/JSH4spCcoty6LrTzUDX0KavcWzYxdlXzrG0sMTeo7ux2C00XbyJLcVGcWUBty62sLS4THljCdZUK30tQyjBEJnFGSTn2LGkmZAtMlN9s9jSLAT9QbLK09F0jb6bQ5iTzJiTzIz1uMivyGF2fJbZaTfO0jyGe4dZXl6huLyQyYlJlnxLaLqGPcmOzW5nfHw8fL61NUjUNpz7za7ZVtc5oYQSenSVAJWEfup0b0bPGqTAGuDEQ4qqqYwMDeMscIIQGVg1FY/bQ3pGGgDe+XDV1bT0VBa9i6RlprG6EkDTNDKy0hEQ8HmXycrPwmA0huuHiCKOgkw0TefmGy14pxaZ6J1idSlAcnoSGTlp+OaX0DXIKcpGAHyeJURRpPFAAza7jYmRqVjNkfjy82232rEl2Xj8uePkF+fR3zmAbDTw2PGdjPSNYTAZ2HliG2abifHeCdJyU6k8UEJWaRpZZek4KtJJzrUxP7ZA3RMVIOp4JhYo3pWP0WpgrHuc4lonwdUgskHGmmTBNeiipKoIVVUZH5vAWeRE13UmIhCn6RqO7CzmZufWzvcmGVbv27WOXssfcEkooYR+/EoE0yb0yOlBUz2b3Y6HlPBj6wdL95wbj8fD7j2Pxe5TFAVFVWIN9SRZimxDx2K14A/4sSeFi5utLPnJFAQystLwzi7ECpoJgkj39b7wOot+ljzL9DWHHRJREpGNMvYUK+5xD2aLiUXPElabDaPRREpKMsuLS5RWloTXj4MURVHwLfqoqK/EarcSUkJ43V7SslIREPDMLZBbkoVslJgYnESURfKrs1F0JQJpYTjrvzpCWkEymeVpSC6RuQEPodUQGYWpTHRMsxpaRTJILHgWSU63451exGw3I8kiXvcCFVXloOv4fL7YOU5KTsI1Oh7ribRZKK2maYjievC6n35YUBG/3UQ8TEIJ/XiUAJWEHim9n5ASdVM0XaO/vx8dKCktjsWn+AN+AEwmI5quIcvhj5OqKJitFubn5zEYDdjtNhY8iwiCiCPfwfTEDCtLfgxmmb7bA1x88V2e+cKHKN9REq4kq6j4vEu4uidxdY2TVZCFFlKZHp1jfspD09lbnP2XC4SCIQAuvHaJ9Kx00rPSSM9MJ8ORjtlsxjUyQW5hHgvzCwiywPLSCs5yJ3PTbjRNJdWRSsC/ytzEPGn5qSDqzA65WZhbRDTBqhJkrGWKnZ+sQdUUrJlmGIT5cS95lTkIksD8pBdrioXFeR8ZlenMjLrx+wMkpdjxznuRJAmzxczSgg9N09F1naTkZEKhEMvLy6Qkpzz4muo/GcXgou+PBLAklNCPVglQSeiR0cMUctv492aQEj8loUWCagf6B8jMysSebI/191kNrKLrOoZI3xrZEP44KYqC1WrBv+IHBNKzMpiZnkEURBz5WQi3RLwzCwT8AV792mke/5kj1DxWhaaF3QVJlEjPSmOsY4KShmJ2HduOQTbSdaMXvy/A8eeOIEsyN9++zez4HA27G1icX8Az58Xj9jLSP8akaxL3jJur56+h6zqSJGE0G2m51opslFFUBUSd5eUVFtyLZFdk4V/0M9k7g45GMBhkqncOo9WAd9xHcDlEdk0mtgwLC9NL5FWCNcXCkmeZ7AIHUwOzGCwGdHR8Hh/2FDvuSQ+apmKxWVjyLcXOeXJyEqCzuLgYAxVN00B8cJbPTwK0JFyWhBL60SoBKgk9EnqvkPIgQIn+q2kafr+f0dExdu/ZFXNTVE1hZcUP6LEGe1FHRVM1bHYruqajhBQyszMYHRpFCaqkpqaSlGJnuHOUt19+h0PP7GPfqcfWZRlpuoZ3doGQX6G8vgyTwYQsGcJQkO/AIBsQkVjyLlPbWMPu/Ttj/XJEQUAQRG5fv8Ng7zDPfOop3LNubl5tpuN2B8VVRbTebEfzq/S3DjHjmiMYWKUrMv0kySLWNAuSLLI4uUT1yRLsmTYWJnz4ZwOk5iYzNT+H37NKSmYyMwNuLHYLgiAg6gKiILK8uEJKWjKTw9OsBoIkJSex5F0DlaTkJAAWFxbBSWT6R4q9dhFAkGLXSRDEdYDyg8LKgzKI4vWw20+4LAkl9MNXAlQSemR1v6meraZ5outqmhaLobh9+zaqplJSWoKiqbHn+/0r6DqYzCY0XcNgMABhp8WeZAdBYGF+kewcB6Ig0t8+QO2uKpLsdt74p9OU1pZw5OmDyIKEIAmRjCOduQk3g3dHsVjMOIvzMRvNTA5PoYY0snIykUUD3bd7QIfC4gJkSUYSpdhgKQoi/qUAZpMZg2wgJy+HjMx0SqpKOPnRE6wsr+CsyCfFkUTT+VsU1OZjSzfT9GYzwdUQydl2ZkZm8U75MNvM5FVnE/CsEvCGyCzIYE724vcEcDizmBM8seyl1UAIk9nEypIfh8OBIAgs+5ax2a3MTMzGzn9SpNfPwsICmq4jcW8tFU3XQdPWAcBGWIlqI1S8FyDZSptt437wkgCWhBL64SkBKgl94PWgQMr7Qcpm0zzh9XRCSohr165x7co1yspLyc7NXhe34vV4AEhKDg+8jpwsBEFgfGySmm1V2JPs3Glq4eRzJ6jZVk3H3U68bi9v/stZMnMzKSjLp+lsM7quYTAZMFvN6Ogszi9iS7ZRu7sKk8HIaI+LwY4h8pw5FJUW0dXcw9jAOFV1lTiLnGGHJRKYG63FUllbwTtvXaKnrY+a7ZXkOnMZ6h/GO+clMzuTGdcsBZX52JNtTPZPUXe4muK6QkZ7XAgIFNTloYRU2k/3EVpW0FSd5OIklmZWQBdIzU4lsBREEEVkWUYQBOxJdkKhCcxmE7qmIwgCkiwjywZUda3KrdFkxGyx4PUu3HsdN5n+iboqD3N9H6SHWXcrIIk+90HAkoCVhBJ6f5X4RCX0SOpBRdy2ghRd11E1lcmpSb75j9/k6qWrlFeWc+qpUxApm6+oCrqu4Z73YDKbMJlN6Ho40yc7J5uRwRGMRiN7D+5hYX6BwZ5hdu3bScOuel75p9fRNZ3f/vJ/5sQzx9h1qJGaxmryCnKxWCxIgkTdrloOP3UALajTdOY2w50jFJUVsf/YXrpuhSGlfkctuw/swmgwIokyBsmALEpIkowkyZSUlVBWVUZnSxcLHh/FpeE6LiN9Y1Q1VLDqX8UzvUDDvjqUkMpw+xgFlXk4y/MI+FbxzSyT6UxHNkosTPpwVuWQmZ/B/MgCyRl2MnLSWHIvY0+xEfKHEAURs8WEoAvYk+0owXAcj8ViQRCFexyT5OQkFiOgomv3Ts9tnJrbKpX5Yd4H8cv78ZwHbSuR2pxQQu+vEo5KQh9obTYgbDaIbFXELbp+FFJCSojr167z7tV3MRlNfPj5D1NeURYDlOggquk68+55UtNS1+2nuLSIdy9fZ9m3THFpIfmF+bTdaiO/MJc3vvMmBoPM3mOP0Xz5LnuP7ybDkY6iquuOb3ZqjtsX77I4v0hqRhr7jjxGpiOTW5dvMz0+w869jdQ31iJJYUCRJHltSkTRkGQJSRTZd2gvk+NTNF26yclnjlNeXUZHSye1O6tJTk1htGeMXY83UlZXQm9rP2nZKRTXFZJb4SCkhgipQdJyUrjwjWvsemYbi5M+tJCGsyoPPaSz7PVTVFXAsncFe7INXdURBEhKseObX0FACMNLxOWJh5Xk5GTm3Z5Yc0JN15CE9YnKmq7HHKLoNYzGq8CDnY+tdL+icnBvSvRW+/tJCOxNKKGfBiVAJaEPrB4EKZs1F4yHlI2xKNMzM3z/tTeYnpqmsrqS448fw2Qx3QMo4edouN1uikoKUSNdlDVdoygCKiNDo1Q3VLHv8D7+7cWX+aPf/O9MjU/x5a9+iZCqcOXcVc5/7yKyQUYySBiMMiaTEVXVmJt2Y7Ga2XPkMYrKCtE1uHHxJu6ZefYe3kNNfTWSKCMJIstLfuZn3MzOzDE7PcfC/AJVdZUcOLofu93OwWMHOPvGObpbe6mur6K7tQfX4Dg126q4cfkWnikvFXXlzE95GO0cZ1tmLVazjZAaYjUkU9pQQl/1MHde7yC7JIvM/EyysjNxdU0iSzKF5fm0XOwgtzCHwPIqoiCSnJLM/KQX2SBjMBiRRCl2vTRNQxM1klKSGBocRtXWmhMSvXTi2j8aIsTFf8RPA90PSDaDkYd3Oe6dvokHJOCeWJnNgCUxDZRQQu+PEqCS0AdS7yekRF2Uq1euYjKZePq5pymvLEPT1qZ54gFF0zV8Ph8ry8ukpqXGIEXXNZKSk0jLSGOwd5CqukrS0lLwzHnp6+rnuU8+Q3A1RF5hLs998sMMDYyw6PURCPgJrgYJrgbRQhqNj22jvLYMTdUYH5xksHuIZd8yB48foLyqHEGHvs4BOu92sRoIw4HRZMKRnUVyUjK9nf04nQWUVBRTWlZCVXUFPR29lFeVUlBSgGtgnKNPHyYjc4i+u4Ns21/LjoPbufrmNQZbRsguzkKQBUKKgq7p7Dyxje995TS2JCs7j21D9Ycr1OYX5yLqErqqk+nIwO8LYDAasVgsKEEFc6QQniAICKyf/rEnhdO8FxYWyUjPQNQ0tDCZhLURVsIXPXzfQ4z9m78/Hr7iraaq69yc+H1u5ups6bokgmwTSujfrQSoJPTIaWMKcvi+zSFlYGiQc6fP4na7Ka0o5cTJ45gtZkJK8B440XSNlZUVujt6aL/bjiiJ5BXkomjKun3Vb6/j8tuXuXjmHTzzHt569Qy/99+/iHtunusXmrCnJFG/o5bahprYccZ3Ep6dmqX9RieuYReaBhmZ6Rw4up98Zx4TY1PcbrrD0uIS+c58KqrKycnLJj0jA0EQUEIKb7zyfd459w4+n4/tO7exe99juEbHufDmO+zY28iUa4prbzexY992mi7e4NbFFpyledQ/Vkv33T767wyhaeHKtFHlluQw0T/N8ryf0a5xTGYz5XWlDLQNYzQYyMrO4mbnbRw5mciyAf9KAKvNgigImMwmAPwrfixmC5qukZuXg65De1s7R44cRtMFRA00EURdjAXWwlognUY4WPhhnZF4MNnosGzlxsSDhhYfwrfB1YGtgSXhriSU0Psr4X4t1oH3r+lGQgm9T3qvbspmkLK46OP8+XN0dXSRlJzE8ZPHKCgqiDkj0biRaCn5qYkp2u62M9A3gKqqZOflsGvPTvKcOZFj0tftu/1uOy/+7+9w8ewl/t8/+a8cPXkYVdMYGhii5VZruC+QrmO2mkEQwnVIRAFFUfEv+zEYDZRWFFNRU4Ej24FnzsOta83MTM6Slp7GvkP7KCopQJbCGT/xg6CiKLxz/hK9Xb0UlRVx6NhBvF4Pr7/yfURRoH5HHdcuX8dkNbHjwHb6ewYY6BrEYJap2FaOZBBQVAVFU8JuiCAQWPHzd3/wfyisdLLtYD0Ne2pZ8i7T+m445sUgG+i+08uJDx8jNy+H0y+dJS8/l6MnjzA/6+XMq2d56tknKasoi6VTn3njHMNDw3zihY9TUlqKKITrsERjbsLnRIwN/NHMpnjFux4bHRN9k/fExtubKR40oreF2DGE9xc938Im6268vW7bCVhJKKGtJGz1QMJRSeiR0mZTPuse1zQmJyd58dvfIbi6yt4De9n12E4EUYhBiRqJSQmGgvT19HP39l3mZueQDTKVtRVU1VbHGhEqcWm38QoFVrn09hX2HdqDElLQtXBBuIqqCsrKSxkbcTE342Z5eSXm2kR/FuQX5FFUWoSmqrjGJrjcegXXyDgWi4WjJw5T01CLUTZG+gUJsTomURkkA088dQqHw8HVS1f5vneRk0+f4NmPPsMbr3yfttsd7Du8l6arN7ny1ruUVBZx5InD3L1xl/amTnRdw5ZiA0FHlMIQ5PMuUVpXwmDHMJ/59RdYnF2ir22Q9Mw0yqpLufTGFbJzHWTnOgCRwMoqSSnJAKRnpiHLMiMjo5SUl4Qr8IoSx08e5eXvevneK6/ymZ/9NNnZOYAGqgKSjMiasyJGi76xHg4eBk7WQcrDuDGbsMRmrs5mMTMJZyWhhN5/JRyVhD5wup+j8iA3xeUa5zsvfgdZlvjoJz5KWnoqiqqgakq44qyqsLjko62ljfbWDlaWl0lLT6WmoYbSilJkw70t9DYOSosX38X5n36fv//sCzR8+HGuXnwXSZLIdGTgyHGQneMgMzsTi9USOVY93OAwpBAIrDI5NsHI0CjTk+EiafYkG5XVlezY3YjFbEEURdyzbsaGx1BVHdDRtPA0FbpOeVU5+c58AAYHBjn9xmkEQeCpjzyJqmq89m+voaNz4Phe+rr76evuQ5RlKhvKMZoMjA6NEQwFUZQQiqKiqRqiJFLRUMZXv/QP2JPtVDaUkZ6Vzs4DjczPemhr6uDok4fJc+YSWF7lzZfOcOjEQSqry5Ekmatvv8v0+DSf/aX/gNFgirkqK0t+XvrOvyFJEj/z2c+QnJQcLl4niOEaLWL4t9RGdyWqdVM1m0FKXF2cjetspTUXZb17Eg+E8TVrNrorD3JWEqCSUEKbaktHJQEqCX3gtBFUNoOU6HqqpsYgZXx8nBe/9SJGk5GPf/JjJCUnxSBFUVUWvF6art+gp6uHUChEQZGTmm215OZno0dqqGys+RGVEBl8LJMzbPvZX6O10Enwf/8FoiQzOT7J6PAYM1MzuGfcqJFtmEwmVFVFUZS17UQ+qhmZGRSVFFFaVoIj24EkSSghhf7eATrbOpmbcYcHb0mMVaUVRRFN1QgpIfYf2sfuPbvRdI252Vle/u4rKIrCU88/CYLOqy+9jqqp7D+2F1GWuHXtFpOuSewpdgrLC5CNErIx3B/IYDSiKgpdLT203mjj+vmbfOH3fpFdhxoRELjw6iVMFhOPP3McWTIwOznH5TNXeeL5D5Gbl4MkyUyMTHDxzCWeevYJikqKkSQJWZSRJAnPrIdXXnqVtLRUXvjUC1isFiRRjk0FCbH2AGvTQQ96b2wEk9h7Q7t/DZQYiGyAk3hoWbtvbTpoK1j5UUwBbQbuCRhK6AOoBKgk9GjoB3VT/AE/X//a19F0jU986uPYk+yx2iiqpjI7M8PL332FlZUVyqvLqa6vIjUtJQY5uqahaJtP80B4QDIu+Njxc7+Bv6SArj//I0SDYd3AFY5BUZibmWNmahbf4lIkhdeAwWBAlmVMJhO5eTmkpqUiCOFMGfesm56OXnq7+wiFQmRmZbKtsYGamhosVsu6wXB1dZVzZ87T09VDXn4uJ584SVKKndk5N6/868us+P0cOnqA9Kw03nj1NAteL46cLOp31rLiD3DrWjOL3oW1160DhLsei6JIWW0JF9+4zMqSn9/+8m8w2D1E261ODj6+D2dRPpIkMzk2xdVz16jfWcfOPTuQRQlN03n5W99DEASOPn6E0rJSRFFAEmVkScY14uLN197Cbrfz+IdOUFFZsa7a7kZgiUpYV2dlDU7iwURVVSYmJvAuLKIqSsQpUmLTdg5HFo5sBzabLbLNOLdkC1DaGDdzP1jZeHvd++YhgeL9KiCXAJiEfoKVAJWEHg1tBSqbuSnR5oGarvHOxUtcuXyFT376E+Q68yIuihIJlJ3k5Ze+BwI89fwpklKSUTUlEquir4OVrXrMSKtBdv/q74Ek0va1PwGrNW4QC0OKIIj3/NJeG9yEte3pMDk+yeDAMMODQyz5lpBlAxVV5Wzbvo18Z3649siGAM+odF2no72TC+cvoKoq+w7uZduObSwt+Xjz9dOMjbqoqC5n9/5d9Hb3cefWHZaWlsgryKV+Ry1mmwW/f4XlpSVWVgL4V/wYzUbSM1Mx28zMTbv5zc/9Lr/8W7/A3JSb7HwHB07sQ4w4OwICt642M9Q7wo4922nY2YAsSiwu+Hj3wjXm5zzUNtSw/9B+zGYTghCe4pmdmePy+cvMuz2UlJVw9NgRshxZ4QDbuOmg+5aw1zU0VWVmeobhkRFGR0ZxjbkIBoPoEeDa6jsvLS2V3Lw88vJzqaiswG63bwlK8cDy74WV+PfButfyQ65um4CWhH7ClACVhB4NPcy0T3Sd6LSP2+3m7772d5SWl/H0M0+iampsymd0dIxXX34VWZZ58vknsCXZUDWFkBJC1VRGh8fo6+pD0zUMRgOyLGE0GTEajThyHWQ6MhEUld2/88dYxqdo/safQVpqLL4iCieSJMUGtfggWAGBJd8SHo8Xr8fL3MwcI8M7M1X1AAAgAElEQVSjBPwBZFmmqLiI8spyKisqMFvMm/7aj97eOKXhW/Tx1punGRgYJC8/j2OPHyUlLYXr7zbRdK2JlNRk9hzcQ1Z2Ju2tHbTcasEf8GNPspHjzCElLZnUjFSSU5LQBZ1QKMiCZ5EF7yLf+/Zr3Ll+l6dfeJKnP/EEVps1DsLCwaY3rzQz3D/Kzr2N1DXWIQoCuqrTerudzrtdpGekceLUcRzZ2TF3RUCgo7WTOzfuoKgq9Q31HDp88B5oiEqIG2xnp2e4e/cuXR3drPhX0HWd9Iw08guc5BfkkZ6ejixLCJIYjpGRJVRFZWpyiumpaWamZ5ianMa/soLZbOHYiaPU1tfGoFAWpS1hRYrE0myElYcFFQiDw4+j9H4CWBL6CVECVBJ6NHQ/UNnopui6hqIpvPSvLzEwMMAv/OLPY7FbY27K0OAQr33vdUxmE09/5EksVgshNUgwuEpvTx/tdzrwzHsxW80YTQZWA6uEQiGUUAhdD6cT796/k4+/fAbHjbvc/Ic/YTUvJxZ7ER3AZEmKuQaSJOFxe+jvGcA1No7X40UJhYBwGrDVaqW4pIjyigqKS4owmczrBufowCwgsLy0jMlkwmQyxaaJNiqkhuhoa+ft8xdYDQbZs3c3O3bvwOVy8dabZ1hcWCQ1LYX6xnqcRfkM9g/S293L7OwcwdWwCyEIAhaLmaWl5ch51tFUlTe+e5qTzx7n53/ts+uyb6IgpWka19+5weigi10HdlLbUB2DjZnJWd69cJ3QapA9h/bQsL0BgyzHpoKCq0Fu32ihvbUdo9HInr17qKyqwGa1Y7GYY4NrMBikt7uXttZ2xsfHESWJsvJSSkqLyS/Ix2qzblqw7573VSQgWkBg3u3h0oXLTE1MUlRSzMlTJ0lNTYnFzUTTp6OwIsfSqdcH2L5XV+XHqQSsJPQToASoJPRo6L2AiqopDAwM8O1vvcjhI4d4bO9uFE0lpAQZ6O/ntVdex56SxJPPnsJsNeH3++lo76T1ThtLiz6S01Ko2VZFXlEuoijEpoEEBFYDq9y60syhV87yVO8Q17/2x6xGMlzkuAEtCiorS36G+ofp7+3H4/YiiiJ5+XlkZWWSleUgIyOdjMyMmHMArAMUVdOYnpxmfHyCifEJJlzjBAIBACRJwmQ2YzGbMVvMlJaVsvux3RiNxlh7AN/SEm+fPU9XZxep6akcP3kcR04WPd29NN+8xfT0DCaTkZqGGiqqyzBbLXi9HuZm55idmcO36MNmt5KcmkxSahL2ZBuXzl3hK1/+X/zNi39JSnrKPZk2AJqqcePyLVzDLqrqq9i2qx6jMZxaHQqq3Lx0k/GxCQqLCjh68gh2exKyJMWAZdG7SNPVGwwPjsRqugiCgNlsxmw241/xEwwGycjIoLahluqaKkwW06ZwEoMsbb0LF6/4mjSdrV00vXsDQRA4fPQQ2xu3Y5ANsWmo+HovP2pYeS/NGd/r/hLQktCPSQlQSejR0LpBcEM66sZy+aqm8LWvfo1QKMTnPv85BCE8HTTv8fCNr3+D1LQUnnr+SSSDhKIovP7y64yNusjKyaSqoYpcZzaqpkacGXXdvkVRpOy7b9HwlX/iS6cOETj0GEdOHo51MI51MhZlWm620HLrLqIgkpufS3VNNZXVldhttvCvdHGTLBJBBEFgeGiY1pbWcF8cVUUA0jMyKChw4sh2oKkafn+A1dUAfn+AJZ8Pl8uFzW7j5IdOUlFZETs/mq4x0NfP2TPn8Hq9NO5qZN/BvYiiwOioi9u3mhkaCFelzczO5MiJw9hTbOH6MqoSPgeR25quo6ghfvcLv09uQS7/8Xd/5R7HIuqyaKpG2802BnqGsNltVNSWUVpVhs1iQRQlBrqHaGlqwWyxcPDofsorysO9jOIyg9wzbha8i4SCIVZXgwQDQQKBAAajgeqaavLycyMxKOsBRdEUNE1jdmYWt3ueYDAYc8ZCoRAAzsJ8HLkODLJhXSyRLMn4fEtcPn8Z1+g4JaXFPPfR5zCbzLGpoCisxE/txcerbFYQ7gcBlffaNfp+etj9J4AloR+xEqCS0KOhhwGV6AA5557jb/76Kxw/eZwdu3agRoJnr717jUsXL/MzP/9prHYrITXI6MgYr7/8Bjv2NFJZXx6LY4mHFFULpxGLgojz4g32/7e/5fof/TpvGI0M9Q7zyZ/7OGaTGUmSMUa6GmuKzrf+4dsUFhVy9ORR0lPTwoNcdDpowy9xURBZ8QfobO+kteUuXu8CNpuV2tpaikuKKSgowGq1xo5jM7lcLs6cPsPk1CQVFRU8fuokSUn2mLsSWA1w6cI7NDffJj09nROnjpOdG4Yyt9vNQH8/t5puoygh9h/ZS0lFKZquxmAlWhBP1VS6O3r4nV/+Pb70N39AaVUxmh5Oj954fQBmJmbpbu3FM+vBYDBQXF5EdUMVqWmp+Lw+bl5uZmF+gfKqcg4dO4jValvnrkiiFAO78Otf/70WBZRoAPXy8go9nT10dXbhnnOj6+EYpuh3niiJMYfFaDRSUOykpLSEgqICTCZTLG5GEiW62ru5cuEqVTWVfPjZD2OQDetgJZYifh9Yea+uyoPg5L1U2P1BHocErCT0I1UCVBL64GuraZ/o7XhQMf7yr7A4OMj/PHKYX/jlXyA1NQVFU5Fu3yb3iY/wV1/8DY7/6s8RUkIkv/IGxr/6OxxTM8iSxFJZIQMff5KxJw6tg5Ro3Ev23V5OfPFPufNr/4HBj5xkZnKGK2fe5egTRygqKcIgG5BFGYNsYHJsijNvnOW5jz5HcWkRBik87SGJUgxSolMJHq+X61eb6O3pRVNVCooK2blzB5VVlRgNxg1pufGDXiQmJO6zrGkaN5pucOmdd9AFOHbsKI07GwFiwNLf18dbp8/g8/nYsbuR3Xt3I8sSiqri9Xo4e/ocrjEXpRUl7DuyD0kW18FKSA2hqAp/9aWv4Bod57/8yW9x80oz4yMTGE0GDGYjRrMBs8WM2WomrzCH5LRkFj0+xvrHmBieAgF27mukrKoMWZTp6+ins6Ubm93G408eJz/feQ+sbHUedF0jpIYYHhyms72LocFhNE0lIyuDiqoysvIcyJIYDqY1hIFHCSmMuyYYHRplYnSS1cAqBoOBhh317N67C1kyxJydtjttNF29yWN7d3Pk2JE1eIpM90WDa9eCqO+fBbTZ3xvf1+/lsQdpyxTp95iNlFBCPyRtCSrSH/zBH9zvifd9MKGEfpTaCNU6G6uNRtJPAem11/C4xuncuYPDRw5FBmedxc4usr77CjOf+xQppUVk/4+/wPmnf8u5ylI6fu3n8f3SZ1B1jbq//Abiip/Rugra73QgSAIms5GUgTFO/u6f0fXJJ+n81JOAjtVqob9rAEmWKSguQESIZIoI9HX1456d58jxwzHYkCKgEl0C/lUuX7rCW98/w4LXS2Pjdp559hkOHDhATnZOGGgi25PEtSBOQRCQJCl2O1r0DcIDTEFBATV1tczNztF88xaD/YPk5OaQnJyMgEBGRgb12+oJrPhpuX2Xgb4BHNkOUlJSMJvNVFVXIogiHa1dDA0MUVpeisFoiJxjPeJgqJTVlPGtr32HqYlp0KGosgCL3YqORsAfYMGzwMzEDIPdw8xNz2FJMlNcVUhBWQEL8wv0dw7gW/SRnecgJz+HvIJcXMMuOlu7AZ2s7CxACF9vHRDiU9L1iEuiMTY2xluvn+FOcwuBQICq2koOHNlH/c66cBl/o4wgAkIk0FpV0NGxJ9vJL8qnsr6C3PwcQkqI7rYe3HNu8ovykCUZBMjJzSEQCHD3dis2uwVHtmMteyvSIToGJpH/x6efx/8b/x7e+N9m0nRty8f0yHmIXzbuJ35fmx3DZuuHt731Ywkl9D7rD7d6IAEqCX1gtBWorH2Br4GK+OqrzI2MsvyR56iorIjFLvS/c5nys2+z+utfwDLmouh3/pDTT53gzM4Gdj17ilBqEu5tVQRNBuq+/q+8pii0uT0M940iDbv43J//H1yHd3HnP356LbZEFPC6F3HPuKluqEaW5ViMw52mFlJSk2nYXr+WDSRKSFK4CNrt5ju88eobjLsmaNzRyEc//lFq62qx2+1rmT4b6qVE05u3GkDig04tZjP19fVkZGXS093DrRs3WV5eJt+ZjyyHXZ/yinLy8nPp7+vnTnMLiqLgLMhDkmRy83LIdebQ2tKOf8VPQYkTdB014l4pSpDhwREmXJN03eniU1/4OIWVhaTnpOJwZpFXkkthRT4FZfmIBpHp8VlG+sLuhSRLVDSUIckSg91DjI9OkOFIJz0znbKqUpaXVuhq62ZqYoo8Zy5GoxGEcMZTfD0Uz7yHC+cucu3yNTQ09h7aw8HjB8ktyMFoNhIMhns29XT2MNA3RG9XH13t3XS0dNDV1oPf78dqtyAbJOxJNgqLCzCajHS19+AacZFflIfJaAIBikuKmJmeobWlneycbNLS04gCScyZEIjBS/R6ROHhflAQryiYxMPLZkASbp+gxc5HdAnv4t51o8ewEVq2gpjo5y4BLAn9CJQAlYQ++NoKVKJfvvGgEvrOv7IwOYnx8z9PZlYmuq6hahrNr7zGrpu38X3hF0j79ncx9gzwZ0f2s2PfTrJystAiAaNj2RlUfPc0AVXD9tnnyZFEfvF/fYeBJBsvfuwUWc5sxBgQiOiqxsjAGCVlRVhtVmRRQg2pNF29SU1tDQWFzgi8hF2UyYlJXvrOS/T39lNUXMTHPv5Rtjdux2w2r4tzCP9iX3NM4gcLIc5Z2WyJ/2XtcDjYvqMRRVG43Xyb1rttpKWlkpGZgYBAcmoK9Q11rPhXuHP7DjPTs1RWlQNgs9sIBoO0t3aQ58zDbDWHp36UEO9evE7n3S4q6ysY7B5CQ6e0roiQEiKw6se34MM962F+bp6s/AwKqvKx2MwszPtwDY4zMTpNxbYy8gpzcA1NMNA9iMVmJj0rnaLSQpKTk+nt6qe3s5elpWVmp+fwer34Fhfx+/20NN/l7TMX8C36aNzTyLGTR0nPSkNHR1FC9HT1cf70Bfq6+vB6FvCvrKAoCpIsYrVbEESBwd5Betp7WfAukJyWjNFsJMORQUZWBr3d/fR3D5DnzMVqtSKKIqVlpYwOj9HR2k5xaQl2u21LV0UUxLhB/sGwstE5WQ8nbAolmq7fgyTRz8t6eBGIB5boZ+i9AEsCVhL6IWpLUEl0T07okVQwGKRycIiqk09GBgdAh58LBmPrmIZGWHRkoEoSxWVFYSAQRQRNxO1bZtpuowoBvyODo3/8VZRcB3+5px5lcIy6PQ1rQZOiiMVmQRAE/CuBWCG2yXEXoOMsdAJRsAgPYpcuXEbTNF749AuUl5VvWukU1rso0W08rAQh3N03+lyL2cwTT5xi27ZtvP7663zv5e/xwqdeoKi4CFEQMVssPPHkKZKTk7n0ziXGXRPk5uciCAI7djfSfPM2E64J0rJSAWi/08FQ/zA1jVWU1pZgsMh87Y//AUES0NFYWQkXXSPqckkieaU5FFTm05hfh8+9TNetXq6fa+LAE/s58MQ+Wq+3c/3SDWRZprS8hMLyAjKzM7hxpZm+7j6UkBI5j2uvs6auml17d2K2WMI1cjSF5aVlrl58l5HBEdKy0jm87yDZeVmosayltViPBa+Pwe5BRvpHGR1yUbu9hvrGWhz5WZx69nEunL7EuTfP8/HPfAxRFDDIRp5+7kn+5Z+/y/Wr13j+Y8+H09Yj2xQ0Ia7jsx4rgBcf7/GgWJN1XaDXBZBv3S06Xqq+yXslsp1o1+foeyR6PBsbPCa6Pyf0k6IEqCT0SEqSJYYLCwj89V+Sk5+LFhmczv3pX/Kz33kp9gUtSTKCAMu+ZcwWU+z5zmInoijg9wcoe/VtDP5V/uIzH8Y/Ps3Bw7uQZTkGKaIgMjMxiyRJZOc6Yl/wE+NTGA1GHNlZ6+pzzM3OMT01zcmTj1NaWgqwfuogovhgTLh34HlQ1oama7HnRIFF0zRyc3P47Oc+y99//eucfessn//lzyOJEmigCyLbGrdz+dJlZiZnyC/IR9REdC08nWAyh8+R3++n7U4HzmInVdsqWQ0FcJbkkpqRwp0rLZz4xBGyTBmYrEZMlvCUzVjfOMPdo4wNjFNcVUBhRQF1+6u5e6mNprdvcvDUPnYe2s6ti3e49k4TFquF3LwcrElWPvTMCQyyEQA1qLGy4iew4sdsMZMVOb9RSBkdGuXS21cI+P1s37ON8tqycDZSpBqxuiHV3GwzUrurmrKaEjpbemhrbmN+bp5jpw5jS7Gx/+ge3n7zHZqu3eDQ0UMIgoLFZqGmrpq2u+0sLi6SlpqOqGkQySSKnn9pwzXS467JZnoQoGwEk/s2WIy7LUSgKbLh8OMbgOVhYSWhhH7USrwLE/rA6L38kpNlAyGDAU9mBlppCWpkUXJzYuuslhRhn5xCVlU8bk94H5FsDYOqkb20wqjJyLVje/jGf/4cXRPT1G6vwlmUf89gMz0xgyMnC4PRGNvOpGuSnPwcDAbDuhoa7a0dyLJMbUMdsD7Acqu+MeuaGwr373cTv634OBchDpbMJhNPPvUUXo+XpmtNcfE2IjarhcyMTKYmp2Lb8vv9AFgsZgBGBkfRVJWKujI0TWN5aYUbl5pp2FfLxMgUBpNMXlk2KdnJGG0GVF2hqMFJ7aEKrKlm+tsGufrmdRa8C1TuLmfBu0DzlTuousrOI40YTUYunb2Cx+NFiWQaKZH0cLPVRHpmKnmFueFpHj2clRVSQ7Tcustbr5/FaDRw6vkPUVFXjqZreObn6e3qo625nZtXbnH57BXOvnqet14+y+jgGCElhGyW2HFgG/WP1eEacdF6u52QEiIrN4vKmnI67nYyMzMTyy6rqqtEUzXuNN9ZV1QONoeMB5XH3wxStOjUTnxBw7h9Peyy/vlrx7PWbXrrIngb9eMo85/QT7cSoJLQIymDHDYLl5dX1vXEsdkjHXJFkcXnnkbyB3i8qw+vZ3FdH5eSf3sL42qQmzWlXL94k6aOfnLzc6nbURsb8OVIYbdV/yoL3kWcBfmx4l/+ZT+LC4sUFDpjcSyiIBAKheju7KG6pgqLxRJzWh7U3A42T22937LZ8+JhpaSkhLr6epquNeH1LMQyWERBJM+Zx+TkVCzOYnU1PGVmtlgAGOwbJjk1mZT0ZIKhEDcu3kIJKhx59gB7T+7i9X88w+jAOJ1N3Vw/fYub51poeaedQGCVsh1F1OyvQDbJdDR1oyghyhqKmR6foe1mO4IMjx3bia7rXDx9iaWl5bgmkWtTN9FF0RSCSpBr71zn1vVmiksLOfX8SZJS7aiaSl9XP6dfPkvz1dt0tHThGplgZSWAyWxCQ+PGOze5ebmZlWU/qqZQVFFAflEebbfbmRyfQlEV6nfVYzQZabrSREgJOzcpqSmUVZRy985dlpeXAe5pXLkRDqL3bbbAGjxEASW6fvxrjd1WlbX1I12i4/9WNpyneGCJ3/79YOX9LDSXUEI/qBKgktAHVpu5CuFBX0CSJQACEScgur7VGgEVYHVXI7O/9Fk+crmJbd97E/voJDbXJCXffJnqr3yTgc99DPOHjhBcDYEOB0/sx2Q0Y5QN4UJfkRoas5NziIKAs8iJLIZrbkyNTyMgUFRUFIMRQRDp6+lHCYVobGxclxmy2WvZClLei6Oy1bmKnqfHTz6OKEmcfevMumBlZ34+q4FV5ufDTpN/Zc1R8S36mJ2apbisEIA777bgnV+gYX89yz4/SelJzE95uPbqDRbnfaQ6UiioziMUCNJ1rZe+24PIJpma/RXYU6103ujFnGSmsNLJaL+Lwa5hbEk29h1/jIDfz6Wzl1ldXY21MIAwEOiRAVYJKbx9+iJd7d3Ubq/hwIn9SHK42nDTpRvcvHKLdEc6J547xgsf2suXxmf56rdP89U//yf+7sUz/H7fKKtdg1x84xITo1OAzva9DdiSbFy7cJ2VpWWMJiMNu+qZcE0yOjwWO0+79+4KByjfur0BRuKOdYvpnHjFuxvxDoqqbYCNCJCoqoqu66iaGluiRfiii67rsXWj0BIFnXhgiT+uh4WVhKuS0I9SCVBJ6BGVgCzLuN3utVoXokhSkh2ABe8ikiQz819/i7d/7tOUt3Sw/WO/yK5P/ArZ56/S9f/8BgO//nlqGmp49oUP88wnnsZut8fgxCAbMchGdBX6uwaw25PIyspEkmRAYLBvCJvNRkZWRqyZnSiItNy+S2ZWJnnO/HtKqm90U6L69/SJ2ey58QCUlJTE0aNHGRwcZNw1HjtPuXm5AMxOzwIQ8AcQEDCZTYwNuwAoKitkyjWNa3ic6u2VZGan03a9A9kosfPENiYGp6g9UEnp9iJyy7KpO1JFbrkDz/QCbVe60XWdqsfKMVmNdDZ1U1xbSFZ+Ft13ellc8JGamcreo3vwur103e2OHfM6INA0bl1vZmx4jL2H9rBzTyM64cG1pekuQ33DVG+r5ODJfeSuBPjYb/x/pI1McP7/+gz//NXf49xv/izFSyt85UIzecEQTRdvMjM5i2SQ2HtsD0pIoeVWG7quUV5VSkpqMi0378Smf9Iy0iitKOPO7Zawo6FrWw7yG6Eg3v2IPh6FlOhz7wGUCJAokXicqMO0cdm4ThRaNO1ehyW63wSsJPSTqgSoJPTIKH4AVr7+NTr+55cZ6B9gwbsQG6Rzn3uGL/7+b3NhYCjsvIgytl//Ff7is5/kv3zxP/Fu02laX/xb5p57AoNsxGa1kZmZQUZmGDgMshGDZIgEn+pcPnuFRY+PQ8cOIMsGJFFmuH+YCdcEu/fuxiAZYm5KV0c383NuDhw8ECsIt7HPz8bX8n43s9ssYLdhWwMCAi7XeOx+e5IdQRBYWV4JZw/FpYIHAgEEQcBqt+Jb8AFQUJ7P4oIPRVEorSvm2CcOYk22cOP7d8IDoqYhSAI55dmU7SomGFhl1uVGMkrkluawGgjiX/ZTXl+Cjo57ei5cBdiZTXJaMu5Zd9gF2DCoA4yPjpNfkEdVfWXs+HVdZ3RojPzCPOp21gKw76+/hS4KvPrffpWxbeUsZqXgaijjlT/8FZBE/u/OIQxGmaHeEQCSU+1k5WXinnGHA2MlCWeRE/fcPKqqxvZVUVlOMBhkZnp63bmNH8g3iw+JrbfFNE88oEQdmhiYKAqzMzN0d3XR09PDrNtNaEM/JlVV0LVon6Y1YNk4LbSZ47NZNlECVhL6cSmR9ZPQB1piJFth3X2R7JbH9uzhxo0bNDc3c+LxE4iCiN1uZ9/+fbxz8R1GhscoKHKSnpbOk88+yasvvcbLL77CiSePk5qRgqBriJoQ28e62ANN5/L5q8xOzXH05GGKy4qRRJnQapCmKzfIzctlW2MDghCuQqupGteuXiffmU9VTdU9bkr49no35f3KuNjsHIVjVcIDjcViIT0jncmJidj6ZpMZUZJiHZrXjkVACSnIBjkCMn4MBhmD0YDPu4Su69iSrYiSwNEX9vPKX5+mZn85yY6ksFugadhSLViSzEwOTZNdmIktxYKu6yzO+ygoTUU2yLhnPVTUhAfM5NQk3FPzsWOPz0ZZXl7B6wn3B4o+pusaczNzBPwBcgty0HQdecFH/q1Obnz2aYImOXYNAYJGmdYn97P/22coO7mH3tFJAv4AVquV1PRUpl294dL6NgOp6Smoqsq820tOjglN18jOzUbXdVxj4+Tn54fjVAQNSZDWHe/GjJ+NcSvRdeMDcqOA4g/4uXunhcnJKdxzbtzz86iKsvZ8dAyygYzMDLIcWWTnZFPfUB8pPiggaqCJa8ciCuHPSPSnqghoiPekUicyfxL6SVDiHZjQI6HNvkxTUlKora3jbksrgcBafZNdu3eSnp7O22fOE/D7EQSRwsICPvz8Uyghhe/966u89epZJkYnY1VkZVFCEiR8Xh89rT2cefUcE65JDh8/SFVNVaQXjUTTlZsoisqJDx3HIBuRI111W5pbWFla5tiJY+vcFFib8olqs/TVLfu0RMrmxy8POj+buSr5+U4mJ9ayfARBwGKxsBpYjewnWhAMQhFQ0XSdleUVzNZwJpDPu4gkSxitRjRdx1mdT1Gdkysv34i5KtGCZplFGawsrOCdW8RsNyGIAgueRUAnNTOZ+dn5mKOQkpqMf8WP3+9fG8QjA/rkxCQA2XmOdTA2PjIeLnvvzA7DzvgMgq7jcWajazq6tuZQaLrGnDMLQdepMxvRNI2xoTE0XSM1MxVd15l3e9B0nbTM9LDjMzcX25fNZiM1NRWXy7UOPqLHuVHxDgrcH1JUTaWttY2//+rfc/Htd5gYn8Bmt9G4cxunnj7Fp372k3zyZ17g5KnHqWmoQTbI9PX2cfats/zjP/wjQ4OD4Qabkf5MuhY/7aOvmwqKj1nZeFz3fT0JVyWhH7ISjkpCHyhF3ZKtFF/kTFNV9u7dQ3t7G50dnezctRNREDEajDz3/LP88ze/xbk3z/PMRz8MokxZWRmf+6Uc2u+2c/dOK+fffJuU1P+fvfcOjyO/znTfCo3OjZxzjgRIMOfM4WRKEzWyRmPrWmsFW/bK6XrX195drS0/8pWttWQr2BorazgzmhyYc0QgCBAgcs4ZDaARuqtq/+iABgiCQ40mqt7n4aDRXd1d/euaqg/nfOecUHIKcnCOT9DZ0cWUcwpBEIiIimDn3p3kF+YBIEkS7c3ttDa3sWHTemJiYgPD9GZmZii/WklObjbJycmLoimLBMRtoikriZSV7l+6TitFnxITE6muvo5zwokj1IEqipjNJmZmZn0CyDdTSANVUQgxeNNfczNzWKwWJFFmasKFI8xBiByCqioYJAM7H93Mj/72MJdeqiB/cxaSyfsXvt1uRdOgp74Pi9lKSIiB0d5xpjNdhBiN9LcNMNw3gtVqA0FgdmaWruZO0k0mLFFR3tQbMFvfSvS8mwRAGxpDVb3pD4RyiXAAACAASURBVNfNVjLNZsKmZ1FVD2antyrHND1D6PAEm599lWv3baUlIQpbuAPZt8aOMAf2UDvDfSPkFuYSERmOIAiMDY+RkpKMI9SOJEmBcnY/CYnxdLR3LuqhImoLUYnAerMgRJcKAb8w80dR+vr6OHHsBN1d3cTFx/HAJx4gJjY6IC6CXyM6NoocLQdREALRnVPHTvPC4RfJL8hn955dWG02QA1EV7z74/3+RWlJpEdv7KbzIUIXKjofefwXYP/PgFgRBOITEkhISKSqsoqS1SXek68kExcXx559ezj69lEunr3Elh2bQZSxmq2s3bCWktISmhqauV55nfKL5UiyREJSAmvXl5KSnoLNZvVFQrwNvlqb2jhz/AyJiYms37g+IFIEQeDS+StoqsqO3TsDlT7B3pTblSP7P9uyn/k3cBHxrxNAYmIiAH19fThCHQBYzRbmZmcDRmABbwt2VVGRDQZkSWZuZp7wmDBkScLldBERF4bsMxurmkp0QjS56zKpPlVH9am6Zffj+M/OBm6//bPjgdsnXjmzaLuyX75B75LnbvXfePa5Rffv9d/4zk8X3b/rW78I3M6+UM1nHt5B/id2E94ziCYITCZEEzkxxUD3kNeHYzFjs9sYGxlHFEQMsoHwiDBGhxcLlfjEOOpvNjA2OkZUVCQSC2JRFBcfn/5vbmmkwi9S5ubnOH3qNNcqrmEymdh/cD8FRfnesQCKZ+VqHd/xkpicyBOfeZzKq5VUll+jrbWNAwf3k5Ob4+2aGyRWJEEK7EuwkPLu+/LN4HR03k90oaLzsWf7ju0c/uVzvP7qGzz48APeC4Yosnp1CcNDw1RWVDI8PMKB+/ZjMpsCAiS/MI+8glzGx8axWC2BvzoDERFRxOWa4dypc7Q1t5OYlMhDn3gQs8nbH0WWZK5eLuPmjTo2bt5ITFTMIpGylKUG2ncrUpaLPi0XVQGIiY3BbLbQ2tJKbp7XQxMZFUlNzQ0URSU01IEgCIwOj+FwOOhs72Ruzo3dYWe4fxhNFbDarYwNToDqnR4tS97TS+GmfGxhNmJSokjIigVgenyGtupOTBYTa7atouZiHaIgsWX/Jnpb+2iv72THgW1ERkcx0j9M2flrbN+xkdfCwoiIjAj0yTl97Cyjw6Pcd+ggIaYQFEXF5ZrmjZffwmq1sGXvJjQBPJ55Nv3v7+Lo6OP1//9PmG/v48n/9QNyXPNYESl+8yKda/NRwhwobhWD7BVigiCChk+keTFbzMzNzQV+1zSVxCSv0OtobycqKnKRT2U5seJnaYO42blZnj/8At2dXZSsKWHzts0YjSEB82ugSkf13741PeMVzyKiKLB+83qy87I5ceQEr778Gnv27aF07ZpFYkXUbu9XWY7lRIveWl/nvUQfSqjzkWPpcEK4dUCht8ma97GIiAhMJiNXr15letpFZlam92QuQEZGOg6HnerrNdTX1RMVFUVomANJkgOpGavF6jUlimLgAiyJEp2tnbz5yluMjYyxdcdW9h3Yg9FoDDxeVXmd82fOU1BUwIF7DiCJ0h2auwnL/gzmbi8Gt1ur4EGO/iGGQ0NDNDU2sX7DOu+UYlGgprqGuPhYEpISqK6qRtU08oryqK2uw2q1kJSeRGNtE5IkkpqVTGt9G4qiEhUfCZqGIIhExUeQWpBMTHI0JosJ5/AUHbXd2ENtrN1Zgss5w0jfGGu2FBMZE0F9RSPJ6UmUblqDw+HgZlU9RqORnQd3YY2LRQh1oNlsqDYr9qQEKm824ZIkkoryUCwmtFA7ckQY1xvbUGwWIjJScFvMDBZlk/nmWRKqm5nYUIgSYuBA5U1yK+oxTs1w8v/7fUbcGjev1ZOWnUZicjzueTe1126SlZdJXEIcsijR1tQOQEFRvvc7FUSsViv1dQ143G5y8/MWeufgXVv/QD//2vu9OsFDBufn5zl8+Hl6u3u494GDrNuwDkFkSY8U1Tc4U0HRlEVek+CJ0hr+Pi4aZrOJvMJ8RoaHqaq8TlJyEg6H3TdEkUXDFFcabhk8rHC5Y1MfWKjzLtGnJ+t8fPCf+G+5b5lpyv6TZ0JiIoqiUF5WhiAIpKSmBNIwMTHRZGZl0NLcyvVr17l+rZq+nn5mXTMYDAZsNhset8Lw0AjdHT001jdzrbyKa+VVREREcOiRh8jJzSHEEIIsyYiixM0bdZw8dpLs3BwOHXrYd/+dO9DeKZpytxeDlUTdwoVnYep0dfV1EhITiIiIwGqzUn61AlEUSM9KZ3homI62DtZtXkdnRxeDA0Os3lDMyNAoHa2d5K/OR9FU2m62Mz48TogpBItvWKMoSoiCQEddFx113UTGRbBmezEms4naKw04Qu2sWldER0MXY0NjbNmzBavVyuT4FDUVtZSsLSYxKRFRkpAlQ+AiaraYUTwKN2/Uk5CUgNVuBQ1CI0JxTjhprGsmLiEGq93KvN1K2661hHb0surwUeJuNGOcnsUVHcaRv/8Kk5ERXDpxBUk2sGXXBgyGEEYGR+lq66aktIjQsDBEQaSloQ1JFMkrzAsIFUmUGB+foK2ljXUb1iFLEgjBvWuEBSHh+woX0jYas3OzvHD4BXq6ezh4/z3k5OV6m735/Cj++USK6kHRFObm5+ho76SmqoaOjk4QwGw1e2cfaxpoLBItkiiSmpZGS3MLDTcbyM3PwWg0LTqmBITAvgnB/w0IlpVFtC5UdN4l+vRknd8+gj0YoiCwa/dupqamuXD+Alab1etZwedZiY/ns7/7NM3NzXR2dtHZ0cmFcxfRNG/Z57x7YeqyIcRAVGQk27ZvZe2GtYFZPn7x0dTQxLGjJ0jPyODQoYeRpOUjKcH76d3HlaMlv05o/U7m42AyMzMxhITQ1NRMekY6IYYQ0jPSaGttZ+feHWRlZ1F/s4GhgWHyC/M4c+IsY8PjrNlQQvcLPbTUtVFcWojRaKCptoWaC3XYwm2k5iYTFu2gvryRoZ5hUrOSyC3NwSCH0NXYjWdOIX9bHiIiXc3dJKYkEhUVSYhs4PrNFowhRvIKc33VV75Il7iwfus2ltLW0sals1d46LH7kSSv0XbTjk0M9Q9x9Ww5Bw7tQ5Zl3PFxlP/557jqu4hnvHmG0u8eBpOJusp6XFMz7Dq4A5PZjCzJTIxOIIoikdFR3u9K9A1oNEiL1k7VNJJTkqi5XkNPdzdpaWne1IrgW3tt4fsNFiiwkO7p7ekNiBR/Q7lgkTI2Nkpbazvtre10d3WjKAqS7E0tXa+8jslkIi0jlbTMdBKTEwgxhIBKIO1kCJG598F7ef7nL/DGq2/y+JOPIcuGW4YpLsedhinq6LyX6EJF5yPJnfwXwcZaf78QSRS5/4H7cbmmOXbkGJqmecWK7wRsNJkoKCigoKAAVVOZcDrp7uymr68Xi9VKRGQEUVGROEIdgaoTWFxe3N7azptvvEVSYiKffOQTXhFzG5Fyt1U+vymWmo/9+yLLMhnp6XR3dnmjIIjk5GTT2NDI0MAwqemphMgGutq7KFlXzOXzV2iua2Hjrg3k5GfTXN9MZl46+cV5pOWm0d7cQfONFuquNCBJAh5FoXBdAclZSRhkGfe8h67GHhKS40hMSqSrqQvVo1G0upAQ2YB7TqG7rZvcglysViuyKGOQDQEPkR/JJLNt5zaOvH6E+huNFJbke3vmmAV27t/JWy+9xbUr1WzcsQ5REPCoC8dO5327yH31NNnfeY7nU+IpKMknPikeWZQQBJGxkXHCwkIxmowL/Ud8Rm1YaJUvqCqJyYkIgkBbaxvJKcles4fiCcyZCqw/C+s+OzfLi8//it7uHu574F6ycrMXNX3TNG/Dt8qySi6cv4imqtgcdnILc0lOTSI+IQ6PotDZ3kVHWwctTa3crG3AZDKy7969pKSmgLoQ7QiPCGfP/t0cfesY586eZ/ee3cCC78TvVbndMaibanU+CPTUj85HljulgPw/Azl2TUMURXJyc+nt7aWivIK2tjZi42Jx2B2BVJA/Am42mYiNjSE9I53k5GQiIiMxmy3eNI6wID4kUWJ6apoL5y9y5tQ5YmJieeJTT2Ayme4oUpZedP2fYSnvxqj4TtM/AGPj49ysq6OoqAiT2YTFZqWivIK5uTny8vPo7x+gtaWVrJxsRFHw+TI85Bfn01zfQl9nHxHREdjsNsIiwkjPTcMeasfjVihaX0BKRjLuWTedTd00VDShKhobd69nbGiCuop64hJiKVlbjGde4fyxC8zPudl1YAc2iw2Dr/OvQTbc0jsmIiKc4aFh6mrq0DSIi49DFEXsDhuaBvU3Gqivrsc5PsmUcxpVUTEYDMy7FSqmZ3ngpWM0lxax6r7d3veRJGamZ6m6cp2klETSMlKRfO/V0tCKoigUFBUs+n5lWaavp5fWljZSUpOx2e2+9Ve99VKaCgIBf8r4xDhvv/E2nR2d3PvAQXLzcxd1pFU1BVXTqLtRx5mTZ8nITufAffsp3biG5NRE7A47gigiiAJhEaGkZaZSUJxPbFwsQ4Mj1NfWk1uQvWR6t0B0TDSu6RmuX7tOcckqjEZjUBVaUJoHFv6fYHHaR0/96LwH6B4VnY8nK4mVxQbABbEiSxKFRUWEh4XRUN9I+dUyJp2TJCUnERISsriEWFy4LYkSIgKiP5UjiszMzHLxwiXeeuMtBvoHKS5ZxYMPP4jFYvHOBfL3H7mNSPHvr5/bDVr8Ta/RcmJO0zTCwsKoKCtHVVXSM9ORZRlVUai6dp2Y2BgKCvOorblJZ1sHO/Ztx+P2UFddh3PcydrNpfR09NBS10pXazfOUSfuOQ+RUeFkFWTicrqov9bkneUz6iQmPpbSzasZGRjnRnktsXEx7Dywg/k5hdNvnWVmepb99+8jISERgyz7murJAV/Ion+iSFpGGrMzs9youkF3RzcxsTFYrVbiE+OIjo1ibm6e0eExutt76GrtprGumea6FvpkiVxNY0f/EP0P7kXyVftcOHmRWdccu+/Z6RWdkvf7dE27aG1qo6CoAIPB4Jsl5fNCJSXQUN9IRVklnR2daJrq9bb4+5RoGt3dPZw+cYpjR44zPjbOzj07KVxV5JtRtOBFUTWN0dFRXn/lDeLiYzlw/34MJoMvLeRvWKeAzziraAqiKBIaFkpcYhw3qmrxeDykpCUHTL1+46zdbqO2po6YmBiiY2IQfY8HixXvcbm8TyXYWBt8nOnovAtuK1SElfKSwIoP6uh8GLjtRNplSjcD/SZUb5nn3Nwc586epexqGbLBwLr1a0lITCAyKhKbzbbsRV5RFCYmJqi5XkNFeQWKolC4qoht27YSHhG+qJGbEPSX7HK9Uu6U8vlNlXwuXaPlSmQ1TcWjKLz6yqvU3azji1/+AiEhIczOz/LjZ3/M9PQ0n/7sU/T29/Grw78iNT2FXffs4EZ1LRfOXMRsNbNlzyYG+gbo7e5loG8Q17TLZ/AE0DBbzaRlp5KWlYrZYuLaxet0tXWTmZPBxu0bGB8e5/zJSxgkmYMPHSQuLg5JkpiecjHtnMI978YzrzA7O8vc3Dxmi5lVJd5W8f6USVNjE2dPnsflmqawpIDV61YjySIe1YOieJ87OjLK2MgYLtcMWXkZhE1OsfPRL3L9a3/K8O4tNNe3cOnsFTbt2EhBUT6iIAQqwcZHJnjp8Mvs2reLQl9UxS+eBEFkbnaWm7X11Nc2MD4+ToghhOycLOITE6mtucFg/yAms4mi4iJWl67GbrcHjkt/GbKiKrjdbl587kXGxsZ49FOPYLaafQZbDUX1BL674InSxqER0r77E8LPXUEeHsNpMuLat4PRr34JJSEeSZJI/rO/QR6b4GubN5Kekcb9Dz6ALEoYq28QvvsexmsqETMybjF938nwrZcn67xLbqt0daGi87HgTmIl+HawWPHerzE8PMyxo0dpbWkNRBlMJjNR0ZFEREYyNzuL0+nE6XQyPTUdKDctKCxg+/btRERGALdOKL5dFOXddJ79dbmTWPEbOPv6+/n37/+Anbt3sn7jehRVoa+3lx//6Cdk52Sz7969lF0t5+ypsxQU57Nucym9Pf0cffMoiqJQvG4VSWmJyCESk85JhgaGGBsZJzI2ksiYCEaHxhjoHqCnoxfX9AylG1dTUFJA040mrpfXEB4Rxj0P3ENkZASSKNNU38y5k+fQfP1M/EZaUZRQVYXwiHD2HdhLbEJcoL/I9Mw0F89doq66DqvDxtadm4lPivdFKvzt/LVFYjbjez8j/o0TnPrRP/PSy0eIiIzg4MMHkETv6AVvmk9GQODwT54nMjqSex886Ou3IixO8YkiAtDfN0hDXT2NDU3Mz88TGRnJmrVryC/IIyQk5JbvIbih24WzFyi7Us7++/aRnpkWEFpeIbMgVPyDGkO6eyn97J8wmxhH5x/+HmPRkZT95/M8ca2GmGkXzc8/i5KaHBAq//nEI/R29/IHX/ovyJKMsfoGkXvuZbymEtLTkEV52eq0lSrTdLGi8y64rVDRzbQ6vzXc0rnWf1JVVWKio/nUU0/hcrkYHBxgaHCIoaEhBgeHaGpowmw24XA4yMzMxOFw4HA4SEpKIjIqctEJe6lAgZVFym339QM84cfHxZGRmUlFeSXrNqxDFETiExLYsnUL58+dJzM7g3Xr1+KccFJVWcXQwBC779nFo08+wvG3T1BxsZKyC+WYzSbCIsMIDQ8lPDycga5BKs5VMjc3jyzLxCfFk1+US0x8LJdOX6a7vZvM7Ax27N2BxWxGEmTKLpZzvbKa5JQkNm7ZhMVswmKxYjQaMRgMdHZ0cuLoSV48/BLFa4rZtGUDssGAzWJn7/49ZOdmc+rYaY68dpTE5ARiE+KIjo0kKjoKgywGiRaR5icPEfviWwh/9220vCy27t6MtOR70DQVDUhKTaKhrpHZ2RlCjMZFKShBEBBV7++x8THExsewdecWnBOTREdHB1IkHsWz6LWDG7p1dXZTUVZJXkEOmdkZt2wbbIT2ViKp5Pzdt0EQqPnBN8BiQRZEjA/dw99FR/HNX71O4t/+A53PfjvwGimpKTQ3NjMyPEp8XNy7NnTrIkXnvUIXKjofC25Xhru0E2iwWAEW5gKp3koOm9WKJS2dtLT0wHOWG3nv59aW97cXKP73X7p/7xdL1+iWKikIVEht2LiBX/7il1yruEbpulJERDZt2URLcwunjp/mUPgh9u7fQ1xCHCePnuTl515l7cZSDj32ED3dvQz0DzAyNMzI8ChNvc0oqoIhxEBqeiop6ckkpiRiDDHS29nDkZeOMD3lYsuOLawuLUaWDExOTHL+9AV6u/tYVbKKPft2Ifu6xQavWWZmJkm/l8SFcxe5VnmNtuY2tuzYQlZ2BqIYQlpqKk89/SRlV8ppaWyh4nIFGhqiIBKXGIc91M78/DxDA4NMjDtpXVPI756+xOij9xMWFgoQqNoJPo5S0pOpra7l1PEzrC4tITo2ytsrRvONVRA1VEFdqJIRIDQ8FI/qCRwjS48dv0hRFIUTR45jd9jYtmvbyt+p7zuUJ5xEXCyn/cvPoJpNgTb9xWtW0VjXyKX1q9n19inECefCZ0hNBqC7q5v4uLg7Hj96ebLOB4UuVHQ+NtytWIGgKEfwOXjpawjSLVNxF15rcbRy6V+Vv45IeS//Ml1JrARvk5WZSXZ2NqdOnCIiIoK0jDSMBiMPPPwAz/38OV785Ys88PD9FBYWEBsXw4kjJ7h49hINtQ0UlhSSX5CH0WxCEATc7nmczknsDhuKqjI0METjjSb6uvsZ7B8iLDyUhx/ZS1JyMqqiUl1Zw7Wr15Akmf337GVVSXEgWiGJ8i1rbjFb2H9gH7l5uZw8doIjbxyhJjGB7bu2ER0ThSCIbNu+lS3bNjM1PUVfTx893b20NLcyMjTs7Z4bE0VWThYxhw4yNzzG/iNnaNi24Zb1869VdHwUhSUF3LxRT2tTKxGR4eQU5JKTm+1tcqeKt0ZZBG9rezVwzN16TKmqyqRzkokJJzv2bMcQYlixv0nIwBAeg4y5qw9B03Blpi06rgwhBuyhdgajoxA0DWNbJwDW0+cpLt3GP7g9SN/+PqIkIqh6pl/nw4nuUdH52LFSg7OlF+Wlv98uerKsALqNoLjTYMGVoijvR/j8dl6VpR6e2dlZfvzjnzA8PMyTn36C2NhYNE1jYmKC537xHCNjo2zeupHCVYVIskhjQxMXzl5gYsKJqiqIkrcCxRHmwGqzMjw0zEDfAIqiIAaJg1UlRYiiSENdI1XlVUxPucjNy2HHnh3esvGAP0Radu38EQ9NVfEoHqqra7hw9gKuGRf5BXls2rYJk9kU8K94VA+aL3IxPz+PKIuAFqiksdTWU/zkH3D9p9/GWZQTeB8tyNPkF0tzs3O0NbfT3NjK8OAwkiSRkpZCfmEeyanJSJIY8HUs9bIE9n/JZ2ptbuH1V97kE48/TFxCXMCXovp6qqiaCrMzJPzoMEnf/ykdf/AZJtaVsObTX6b2n/8HY/t2BBlhRX72w5+z3znFg9/7ES2v/IyonxzG0NtP+9/8v/zq8K/YvmM7BQX5hDQ0Efo7v4uztgrS0nQzrc77je5R0fntwX/CvF10BViU8gjmdhJHkhZSRXcKgd82UvIBC5TbvrewuAGc38NjMpl44onHefaH/8mvnn+JJ558nKiYKEJDQ/n005/mtVde4+LZS5RfqWBVSRHFa4rJ+f0curu7GRkaYWxszPtvdIzu9m7CI8MpWVNCYlIiCUnxmE1mFEWhoc5bzjs9OU1CYjz3PXAfaelLLpTCgqH1tkjebUrXrCEvL5dLF69wraKS5sZm1m1cT0lpMaKv9FjTVO/cJlkOXPwFQUXUBGaLChg8dJDMr/8L13/6bVS0RSLFKxp8bxkik1WQRVZBFmOj47Q2tNLW1EZbSxvhEWGsWr2KrNwsTEZjYI1lSQ50rBUFEZY0URsYGERDIzIq8tZoiqYRcfQ0qd/4DoKq0fi1v2DkwE7EiQk0QcDS0sHYvoXN5+fnmZmZIX5sHE0QcPvSPZrZhDM2muHwMNSsDJSMdNSp6Xd9LOnovBfoQkXnY8tK7eOXCpY73e9nJZHy6wgU/36+n6zU1XepWLHb7TzxqSf4xc9+wU9+/FMefOgBsnKysFqsPP7k4/T09HD18hUqyiq5VlFFfmEehasKiS2MxRAiB0KyiqIgCAKqqjIx4WSwd4jRkVHqam8y5ZwkLj6eg/feQ1p6mq/3zIJAmZ2bo7amlqmpae+fXBqBIXxmi4XVq0uwO+yBz6KKYLXa2Lt3N6vXFHP61Fkunr/I9WtVrC5dTcGqAiRZCvg4NFELKFTF9713feXzlP7TI2S88k80PfhHQQLFb75dGpXSsDksrN5QTPH6VXS2dHGzpp7Tx89w9VIZRcWFFKwqwGazBtbZ72UJ7j/idrupu1FHQmL8LWkf880mkv/3P2GtqaPn93+HvmeeRDEavNOOw8IY27qehOdeZfCZT3l9KoLI9NQ0Ro9K4fGzTO7aihYeDr73c8+7ERAwm0zexnHcehwGV/zo6HxQ6KkfnY8972TWze2EybvlwyZS/Cy3Jrcr5VZV7ziBF55/gd6eHrbt2MbmrZu96RPfZN+R4WGuXinjxo1aFI8HDQ1ZkrHarFisFkwmI07nJKMjoyiKB3+UNyEhng2bN5KRmX6LQJmednHl8hVuVN/A41EIMRgQRBFJ8jfRA9e0C0EQyCvIZ+eundjttkWpLL+oaG/v4PKly3S0d2AIMbBm7WpK15cCWiAV5FE8i/qUZL76NcKVMi7e8yyD4y46WjrwKAqqqvjm72homkpYeBhRcZHYHXbvXCdfJEgABnuHuHmjgb6uPmRZJiklifyifDKz0gOpGb+PBaDscjnlVyp46JEHSUpOBEAcHiX2m98h8vArjN6/j66vfgF3XAyqL6zj/7zGzh6KPv0F5pIT6fnjzzOXnsr45UqS/vm7JM276Xj5J6ipaSR89b8hjY1z+W/+ijdefZPPPvM0cQnxGKtuELZ7P87aKsT0jBUHZ+qlyTrvAXofFZ3fbt7pYL7fhGB5p5U8H/SJ/W7Fytz8PG++8SY3ampITUvl/ofux2KxBObdqJrKlHOSzs5OJqemmJycYmpykunpKVzTM9gddsIjw4mMiiQ6KoqIyAhMJnPg/fwCZWZ2lvKrFVSWV6BpUFhUyPoN64jzVaYEr+/Y2BhlZWVUXbuOJEns3beHgsICb/RmSQRE1TR6e3u4dOEyLc0tHHrsEPEJsYEGa36h4lEUFNWDpsyx9ujnqA0p5Ns3o3F7PHg7HIOGgCB6I0QetxtN0zCZTUTHRhEdH01SSiKhYaEBA/DUxBStjW10t/fgmnKRmp7C1p1bCQ1zIIkyA32DXD5/mcH+QdIy07jvoXvB7SbyJ4eJ/efvMpeWQvdff5WpNatu+W4Wvk8N08AgCd95ltCzl5BHRpkym6lNS8HxnW8gpaUhiiJx//WvkEfHef73nuZG9Q2+8KUvYLfbCamqJnTXfibrriOkpd+VPwU++ONZ5yOPLlR0dOCdC5ZFz1lBvHyU+03cbZM8f7rl2rUqjh45giEkhB07t5Obn4vBsJCmCBYIt3tdWLx2gigyODBIbU0ttTW1zLvdFBYVsmPHdsLCwxZtv1x6bnR0jDdee52uri6yc7I5eN9BTCbTsmJlfn6O7//bD4hLiOXgAwcDBltFUXAr8wGhMjPjov/4f/LE7It8Q/gsWdv3YDAagpqyqSiqinPcyVDfECODo4wOj+GamkGSRPKL8ylYnYcpxIgkyb6KJZGm2maqK2sQESlZW8zEmJP2lnasVhubtm3EEWpHe/ktdr30OvLkNP1/8YeMHbofglJ2y31HwWsjIHDsreO0t3bw4KH7vSk1yVsxJYky7jk3//69H5Kfn8d9D97na+4mLDubShcqOu8TulDR0Qnm1xEs75YP64n8biIr/u0HBwd55ZVX6e/rw2AwZU9tEwAAIABJREFUkJ2bTdGqIu+0Xh/B55blxJ4oiMzOznKzrp7q69UM9PcjSRJ5+Xls3rKZ2NjYRdv6CfYJLY4oqFy+fJmzZ84SERnJY088itVqDaSngsXKuTNnuXzpCp9+5insDltAqHhUD26Pm/6Bfk6+fYqJsTH+Nr0cY1gkV1b9MW7PPB5VweNxMzHuZGJ0HKvDgi3U7rvQC8xMzVB/vYnejj6sditrN68hJS0FSZQwyCHIosSMa47KS5V0tXdjMIRQun61t51+dy/Sl/+SjJY2zm1ah/g//4rIzNTl1/R2/itRpPxKBeWXK9i6Ywul69YsEimiKFJ2uYJL5y/yu597hlhfszd/2mqpSAlec12o6LyH6EJFR2cl3ivh8lE5eb9TsQIL4kBRFHp6erl+/Tp1tXXMzs5gdzjIzs7CZrdhtpixWn0eFaOJqakpnE4nExMTOCecOCcn6erswuN2ExMby+rVJRQWFWI2m1cs370d/v1qbmnhxRde9BmBH8dms90SWZlwTvCDf/t3CosL2LpzK4pPoLiVeWpr6jh/+gKyQWbzrg2kWKfZeeGrvJb2Ra45HQz0DjA0OMzczJx33IKmIYfIRMZFEB0XTUx8FHaHg5HBEW5crcM1NUNyWhKlm0sJCw1FlmQMkgFJknGOT2Kz2gjXBJK++yNifnyY66nJ1H7+aaqnXbimplm/aT2l69d4TdArRPc0TWN8bJzqyhrqbtwkvzCPfffs8wmQBZGiKio//N6zxMXH8egTj951NGXpbfjoHOc6H2p0oaKj8074TQiWj+JJ+27SQHDrvKR5t5vGxkZqrtfQ0dmBe34+aDIzQc/z3mexWAkNCyUhIZ7ikmLi4uICPUaCuZtuqIF90lQ6Ozt57peHsVgsPPHk49hD7YuEiltx88Zrb9Dc1MJnP/cZRIOI2+NmfGKcnz37c6Jioti6ZxNSiITLNU3Uya+T5unkq13bCbGaCYtyEB4dhj3cxvjIBEP9I4wOjDI3O4+AQERMOCUbi7A7HHQ2dtJ0oxVJktiyexNpGWkY5BAMsgFZVUl5+W1SvvNT3NGRvLxnO1cddp7+fz4DKpw9eY6mxmYSkxLYvW8XjlDHLceXpmn09vRyrbyK9rYOZFmmoKiA7bu2eQ3IQYZdURCpra7l+NETPP7UE6SneauslhMpgJ720Xk/0YWKjs7dcjei5eNwon4nYiX496Vpl4XHNdxuN1NTk7imXUy7ppmdmcVsMRMaGkZoqCMwkG85ft1W7cFCBaCru4vnfnGYeF/kYKlQaWxo5NWXXuPQYw8TEx+N2+Om7HIZly9e4cHHH8BiMzHvmefk26cZ72rjO6knuRJ/P/XxWwK9V+bn50AExeffmZmaZbR/lPb6LtA0Nu/fSGRUBMqcQuWF6zhHJzl46AAxcTHEjDew5m//Hrlmlvb/+od0P3SQn//keUrXl7Jp60ZvFRQCDTcbOXvqnLecWBAwmoyYzSZMZjMms4mxkTHGx8YxmU2UrCmhZM0qLBbLogGCsq9/zNTkJL/86S+x2e08/czTSKJ0S8oHuKtoCnw8jn+dDxy94ZuOzt3y23byfbfzkgKoKsaQEIwRkYSHR/z6+yMsf9663TiDpSQmJpKcnMRE0HybYKanvQ3ObDZroNS6vq6R2PgY7KE25t1ztDa20t3eTeHaYqocNjZ3v05DRBFDoy5ab7bT3zWIxW4iOimKmKQobA4biVnxRCVGUnGqirIz5Wy7Zyt2u52Nu9dx4pUzdFVc5GBCE/GDV+n75C66v/Y0Snw6zqFRVFUlNj420FtFFCXyC/NJSk6io72TWZeLmZlZZmdmcblcTE1MEhrqYP3GtWTnZmM0mhYiH+KCyBAEkbnZWV56/mXcbg8H77vXVw6+sMZLRcrC9/DhLLHX+e1BFyo6OjoBVhIrcGtH32DBsvAaQbd9P3+THiBREG4RK7cbfSBJEqqqLPvY0OAwRqMRq93bhK2/tx/nxASbV29EU1Wmp6cpv1RJRHQ4qTkp3HBHk9l1kuSrP+XF1kREWSQ+PQbn2CRNNS001bQQFhVKXEosccmxFGzMpepsDWVny9myfxM2SeTz6T1sm7vK4HQOpzf/I/PhWRjkEIyaysTEJAB2u933ORf6q4SHhxEeHrbiBO5gYQKLhcf42Dhvvv4WTqeTx594nIT4+EXbi0Hb+lkusvV+DtHU0fGjCxUdHZ1FvJMRBMDCZOAglhMu4B1BsNIU6ttxtwLnlhJoSbrtawwODhIZHeHtuaKo1NfVIxtkktKT8KgKZRcqcLs9rNlSwsjQCBUXrtEym8TfpVZxpagILSUTQfLu49TkNIPdQ4z0jHGzooHOxk5Kd64me0069eVNmMte5QnrDTyigX8e2Ui3UsxeayIGVUHyGX2dE040NOx22+LPIAiL0jhLBYkfYYnYEAWv6Kwsv8aFcxeQZZmHP3GI1LTUgCfFv92dfCnLvV/wvujovJfoQkVHR2dZVhpBALeZvLzCCILblRUvZfkKpJUjKEsHK/pfRxJFPB7PLeXJqqoyPDhMYXGB12syN09rUxsZ2ekYDAYa65voauuiYHUusixz9XQ5Kirqqm00ay7+bOYEjs6XAVAQGJfs1ESncyxrMyOjM9RfbabmUh0PbIzmjwtvEq+OclLbwOCqx5k09dFX1cjQwDAJiQmB/Z2anMJisWAIMQTWazmREuwlWVj3BXHiZ3h4hCNvHaG/b4CcnBwOHNyP3W6/o0jR0fmwoQsVHR2d2/JOxAqs3MxtJdFypyhLsEC5nTgJvh28r5pPkCjKrROyR4ZHUBQPkVGRALQ0teJ2e8jMzWR+fp7yi+VERIWTU5TN+RMXcc972LBvLSZbCCem9vGFtu/QNGPlT5tzEVHYEDPPV2NvYETh1Zi9rC+NZ8/AGQ70DlMTVsJf9mylpdnFrtQp0nJSab3ZTm3VzUVCZXpyGpsvmrI0krHUb7KcMPFPkXa5XFRVVHHl8lVMJhMPH3qI/IJ8JElaeL2g9NBSkaJHU3Q+bOhCRUdHZ0XuJFZg5UjKnQY9BrO0esjP0oqeW26r/kqkhee0trVSV3eTrJysRdEUgMHBITQNomOifL8PYjSGEB0bRXd3DzMzs5RsKkZDo6+7n+SsJOyhNuY8s4yHhNPptpNknCZ14ypGx6Z5taaddWEJbBRbGJ9wsEcpoy3UzhdbSki+735iowSau64wOjROTGwM8clxjAyMLfrsE+MTxCXELYgScXHkZLlp0n5mXDM0NTbRUN9Id1c3qqpSWFTI3n17sNkWi5+l1T3+9wJdpOh8ONGFio6Ozh0JvjC9kwgLvLPJ1P4pzUvxCwptuajJkujJch1wR0ZGeOVXrxAeEc6Be/YFRIq/9f3AwACSLBEaHoqmabimXZitFgRBYMY1A4DVZmV2ZhZVUbHarb731JhxzTIwI5FiV/mcdomfZR5gfGQcy2wTNuMsm6aqeTFiH8cGQ2md6iRmZt7rOxE05mbn0DQVQRQWjRjwuD1MTU0TFnHruIDgdI8oCEiSjKZpjI2O0d7WTktTC52dXWiaRkREBBs3baSgMD/Q2Xdp/5PgKArcvUjR0Xm/0YWKjo7OXbGS2XbRdiukhe5m+OOdBMrSKMvMzAwvvvArRFHkE488jCHEsEikAAwNDBIRGYEoiiiqwtTUFBarGU1VcU1No2kaZouJ0dERNDQsVu/cIJvbyfaul1hvH2dGMJIz00bqTDdfSKwkTZ2gS7Hzb3FPohrMGK0TaGi4Jl3eoX/GEOZmZr07KgiL1m9iwukTGuFB67SQ3hEEkbmZWbq6euhs76CjvZPJyUkEICIyki1bN5Ofn090TDSSKN3yHSyNoMCtAiV4+6W3g9GjKTrvN7pQ0dHR+bW4G8FyN2kfv6jw3l74GSxQljXPKgrDQ8OcPH6S8bExHn/yMewO+y0iRVEUhgaHyMjKCLyva9pFbII3AjEzM4skihhNRqanXAgI2K0G1g+eZt3ACZrnbVx1R7HeOoKIxhdHvKbaitkI/mdrBjlJIRgEAYvVgoDArGsOUfQ2apufcyMIIpIoEuwPnhibACAsPAzBZ6ANXuO2ljZef+V1FFXFbDKRlpZGesYW0tLSiIiMCKxz8E9YKkJuNczqIkXno4AuVHR0dN4V78TDcjuWtuJfKlKWEyiBzriqiss1w/DwEJ0dXdTfrGd0dBRRFLnn3nuIS4gLDCQMfo+JiQlmZ+eIionyVgNpGi7XDDabDUEUcU3PYLZakESRmalZNtsG+FznvyCg8mbMQ3z7+BD/o6CLTrOFbkMMW53lfDvmCeqmTIzerGe4a4SUnGRCHEYkSWTONY8kypgtJjzzHu8AQFFEQAtU9EyOTyKKAmFhCxEVv4hob+vk1ZdfJSYmhgP3HCAhIWHBGLtML5Tg53ofWzmK4n/+crd1dD4M6EJFR0fnXXM3YmW5acze+5cXKcECRVEUerq6aW5upq21jeHhETRNQxAEEpIS2F26i6zsLCxWyyKRE/y+Q4ODaJoWqPjxeBTQNETJe7HXVBVN1XBMdvK086ckxnRTFXGAmsS9dPeOIAojuOc9zFsNnIreS9pcL88Mv8bnhvYiiiJTYy5kUWJ+1o0kyaBqyKIMmoCmakiSjKJogYnGoiAyNjqOI9SBwSAvqvJBg6NvHyUqMpLHnnwMq8W6bD+VpSke7/23CpRbt7m9YFmKHk3R+aDQhYqOjs4HjrrEEBssUhRVoaGhgfq6m7S1tTM7O4soiiQlJ7G1IJeo6CgioyKxWq0BMeJRPIHXW2rWHR0bByA03AGAwSATGRVJf28/xWuLKMiIYcfgYXZd/hEdkRv4k+oCZNIoSTMTHR/FqvWFuPvqUcac/O78s0R6RjFoCgVTjZhzV5OWl4JBDqGpvg0BkYy8DNxzbsaHxykoyUcSRIb6hoiJj0GSZARgoG+A9Iz0W3qc9HT34JqaZu/e3YGp0v5Jx/5t3okPJfjxwGO6SNH5iKALFR0dnd8Iv04KaHHfE/UWkTI7N8uRt49Qd6MOi8VMZnYmaempJKcmYzAYFkVnFHVBnKw0D2hsZBST2YjJZAo8PyE5gbrr1cQ1vMDGhh/RazbzLfch0kufJNpTRc21WtLz07A4zBRlhLFuboYwzzivDSbwn4MbeDJ9gq9kdPEfmZ9EkYxMjk0x0DFIen4ajjA7bXUdgEBqVhpTTheuqRkSSxMQBRHnxCRzs/MkJCYszPjx/WxsaEI2yGRkZiwrLO7WLOt/3lJ0kaLzYUYXKjo6Ou8pyxlpF5cdL1TvBIuU/oF+Xn7pFcZHx9i4ZRMbNq0DwStu1CBh4u80+06ZGJ/AEeYI+FMASm1DfNL+IhH1Gq3FX+D4WAIV564QPjJBQUk+LQ0tNJZd5/dyx1g9cIIBawqvRX+G1mQbxah020KQWv4Pm8avcjVmN83XWzFbzOSuygEFOpq6SEiOJzw8lLb6DgRBIDHFK1QG+4YQBEhM8jZ/8wsLVVVpbmwmMysTo8kU2P/gqEvw9ndjll3pvuD30dH5MKALFR0dnfeN5Zq0wRLhoqpUVVVx/NhxTEYjn3z8kyQlJ6JqKh7F44u8aIFtgyt6VsJ/UR4bGyPBJwpCnB0klH8TW+9ljroLaE/9FEXpG8mNn+FaWTWNN5rYvHsDnyo2sKH3RbQukTcSH2EkbSseVSVG9QS8M+cTHuBA12HOTKcxNT7F6s3FWC1WOho7UeYVClfnI0kyg31DhIaFEhoWhigIDPQNYrVacIQ6Fu1vV2cXLpeL3Lwcb88VKajKSlz4PNqS+Uqqqr4jkaGbZnU+KuhCRUdH5wMjuHTYf8E/euQolZXXSE1N4Z777sFsMS0SKR7FOw05+HnaCqkefzpF1VRmpmeYnJwiMkQm44+fwSzXMHnfDuofPMyltyqY7higcAOYTGbyC3MZrznD+nO/Imqum8qkA/yg1sZo1zRxPdWkZCYTERvG/Jyb8YEx3uq3kD4fypbxt2iK2UV6dhozUzO01XcQEx9DXEI8iltheGCY3PycQHfZwf5B4hPikSRpkXhobWlDlmXSM9ID+w8gCdKi3xf61WiLUj/vBj2aovNhQhcqOjo67wvBfpJlBw+qKmVXy7hWWcW69WvZvnNbQIgEixQt6L6pySlv1Y8oIIjeChpJlhbNtQHvhVfTNE4dPcm2ugYe/fEvITSE/q/+EcO7nwagdIPGm6+8yZljZ9m/cxVPGk4TF3WES8NpvJ7zZ8SvKuVA7jTV12ppbWilv2sATQMNb5WQKIm8ELeF/+Z4jemCRNomZrh08iqSKLJuy1oMkoG6iptoqkZOQQ6yKKHMK0xPuYiJjbllPex2O263mwnnJJER4Uj4IyjaLVGTpVGVO6GnfHQ+SuhCRUdH5wNhaTRleHiYM6fPkJWdyfad29DgFpGiqB7cHjcNdQ1UlF1jYnwcTdPQWBxRSUxKJCc/h/TMNIxGI6qiMvb8qzz1zX8jZnaWoT/9MiNPPQLywikwNS2Fbds2YCr/d0re+DvmwzO4tvNbHL3aR3tZK/G9LlatK2L95rWsXldMd0cPzgknbrebqLhIIqLDkSSJ9sZJ1rX8kp+3bMRkNrPr3p2EhYUy7Zymqa6FnIIcoqKjkCSZ0aERBAHCfa3zg8nJy+Hi+YvU19Wzddtm77wicbHIeC+jKjo6HxZ0oaKjo/OesVwH2eVQFIXXX30D2WBg3/69aCxEXvwiZX5+jprqG1SWVTI1NUVkdBRbdmwCQcCjKN5tVZX5OTetzW2cPHoKg0FmdUQY9x47S8n5K1RsXsfE//k6akRwYzUBNI3Q3vM81v1NlFAnPx/bRL1Syu6QDA7cv4prFVVcL6/myMvHsNmtJKcnk5KRRHpWmrdh3MwMUxOTOCcmed5ZzB/OnOdg9DCmfZ/zNpITRK5fvYzRaGTtxtJAmmdibBwBgaioqECKyo/NbiUpOYm62lq2bN0EwsKaiogrelHeqU9lKXo0RefDiC5UdHR0fiO8k8qbpT1N/NGUixcu0t/fzwMP34/Zag50lPVW96hUVVZx9XIZMy4XsfGxbNuzlcTkBDQNn0dl8euWblzDcGsnkf/6Q9YfPUNzQix//zuPse0rnyckLBQRcLvdTE5MktrTQMKP/gFDaT9DhU8zVPQMsb0jVL99gtdefI0tOzazbsM68gvzaGtpo7W5ncYbTdysrsdiNeN2e5idnQ28tygInEreyhOm65wxG1AFkfqaRvp6+tmwZT1WiyUwv2dsdByDwYDNbvP6bAS/90ZERCU3L4fjR0/Q09NDQmIiMqD6tIRfrBD43VvlExxVuduUkI7OhxFdqOjo6LzvBHehHRgY4OL5i+QX5JOTk72o5b2mqVy5dJUrF68QnxRH6fq9xMRH+6ItWkCkLIrYaBoxb55k7Te/hxYSQss3/xfX05IocdgDlTXVVTXUnr7AvrOXSK2pxbMmipa/Psx8ZDqappKcauGJTz/GsbeOc+7kefp7+1m3aR1FxavIL8pnenqajtYOujt7CDGGYAu1YbfbCA1zYLVbkQUV5cwfktH0PD8dzKOtuZ3U9BQKVuUhBJUXj4+OExoehobXdxKIqigekGTSM9MQRZHrVdeJT4jHo4KoqWiCCJK8rFgBUBHBF1XxixVVU/VKH52PJLpQ0dHReV9ZGnmpunYdSZbZu3+P9/GglvmTzknKLpeRnZvF7gO7UFSvT2WpSFEUD4IoYqttIPPr38Ha1EbXf/kM/Z95FIwmMgQRUfSKgMmxccR/+QF/faWCMauFbx26n5HiIkoH3OSEa8iSjKqpOBwOHn70Ia5eKqPyaiVN9c0kpSaRkpZCcloSRcVFFKwq8O6HurgvjKZpnIs4xN7Wf2Nm5CHWbtjK6vWrF002BjCajPT39tNY30hOnrfnCv5NFA+SQSa3IIea6hsA7Nm/B2OICVBB8aCKIrIoLxYrQX6V24kVXbTofJQQVirrA1Z8UEdHR8fPspU8Szwqft9JsJH2e9/9Pja7jU8+9gkUxYOqaSiqB4/i4cyps7SePsuXR8eIOH8FeXQUT3gYYzs20fWFzzIbG4WieJAHh8n4l2eJe+M4/Q8eoP0rn8MdFRHo3ioIIrIk4bhyjej//vcYBocZ+NMvMfPZT9HW3kXl1WsMDw1jc9goXbeG/MJ8DAZDYJ/HxsepqaqhpakF54QTBIiJjyU1LRmjyejzj2g+MaBw80YD/T39/HnsWRxRMbTu+vqyTdo8bg/H3zxOf+8AW3dtpai4MDDrRxAEZFFG06DschkVVytIS0vjoU8+hDHEiCRKgRJnWZQDrfWDP7MY1G5/oTHcCrN+dI+KzgfHbV3gulDR0dH5jXAnoRI8hNAvVJxTTr71zW+xfed21m9aj6J4UFQFj+LBNePipa//E3/yyxcgK53er3weV0oCcnsXyd/6PqbuPq79xz8SdfICqT/4OVPZ6TT/+ReZLMwJeDT8aRZL7yBp3/hXwk6d5+L6Us7t28kDv/fpwEVdFCU62joov1pBX08fRmMIOXk5FK4qICom2ltZ5OvXMjQ4RHNzC23NbQwPDaOhBfq4+KuPQkKMbNiyjuLEEEqOPsPN7f+IM27dorURg8TKyaOn6GzvZOOWDZSuL10kVvz72HCzkVPHTpGYlMShRx7GbDIHxIp3wKH4jsTKnSYl62JF5wNCFyo6OjrvLXcrVBTVQ319PS8+/yJP/c5TxCXGLRIq5VfLKPjKX5A1PU39yVdwG2UUX4kyLhfr9z2BODeHO9RO4x9/jqF7doHvwu5Hnpkl7YfPkfij53FuLKXuy5/jR+evsG3nVlavXe29yIuy7+IueFv39w5wo+YGzY0teDweIqMiKSjKJzc/J9DK3u+fmZycZN49790vRQU0PIoHq92K0WhE01Qyf/iXhP7iCuWvvQUhxlsqoERBRFEUzhw/S2tzK6vXlrBhy4aACBFFMXC7qbGFE0dOEBMbw6OPPYLFYrmtWPFGWcRFrfX1qIrOh5jbChXdo6Kjo/OeslJpcldXF5IsExcft/g5qkrDhSs82tHF4J9+GcFqAc/8wuNmE6NFOcRcKOfqr/4dd3z0kjdViX/zJOnf+g8Uq4WGb30N566t3KisRhREMrMzg6Ip3ou5IIgIAiQlJ5GUnMT8PjeN9Q3cqK7l3OnznD9zgejYaFJTU0hKSSQuIR6HI/SWDrl+waZqKirQ9dBXcHz3aWJefIP+Jw8Bi6ufFE0FAbbv3YpskKgsq2J2Zo7NOzZhMMhImhwoN87MTkcS93H0reM894vDPPL4J3HYHSCC4O+p4jPYqoKKiNdYezdVQL9uabOOznuFLlR0dHQ+MHp7eomPj0OWZTxB04+7u7oxd3UhaBpzmenLPvdYajK/c6Gc9tMXSfzUw4H7HTU3yf6Hf8XS0U3HHzxN/1OfQDSakUWB1qZW4hLisNltwIJvIzgl4r9IW8xmVq9Zzeo1qxkcGKSxsYmujk4qyiopu1KOI9TB2vVryCvMRxJERJ9YEXyRGXxaxB2dSPdXv0TSN7/H0L178Tisi2ceBd3esH09hhAD1ZU19Pf3s3XnZuITEhBFAUnznq5TMlK476F7efv1I7zw3Is8/uRj2Gzez4Pk3UZEXGgGx+IqIP976mZanY8K+pGqo6PzgeHxKBiNxmXvD3CbTqueeTdAwPRqHBym4L9/gzXP/AmTuZlcfeVZep5+FCHE+/rTU9OMjYyRmp4S8H7A4qnDfn+H5EubSKKEJErExsWxfcd2nvrMp/nSH32RBx66H6vFyqnjZ3jr1bfRVDWQeglOv/gZevRB5uOiSf7XZxemRPuqlbxpIwW3x42qqpSsL2bXge24pqd59cXXOX3iNNPTLhTVw7zHm2ZKSI7nvgcPMjY2xqsvv4bHb0JWPIvKu/8ve+8dJ8dd3/8/p2y92+u9N93ppFNvVrGaZcm2bFnuNmAw34SEGJIA+fIlIfkmQJJfvhASkgAhAUI1GBe5yUXFVu/SSae7k3S9N13vW2fm98fszu1ekWVDsBzmqcc+9nZmdmY+M/PQ57XvOhuz1bIxMbmVMYWKiYnJfwu/zgQoigJ9cXFogoCtvlFfJkRmr8R396ACUmEeuf/1K27b/fvYe/oo/8V3afjrz+NPjI/YZ2d7JwA5eTlhx4mM2QgPQJVDMSKCiCxKwc8CToeT0gUL+MiTT7B121baWtt49cXX8Ho8SJKsx7wIkYGwSBKtf/E5Up99CUdjC1qwim4oFTugBlCUAAFVf6XnZnDvozspXjiP2iu1PPfM81ypukogoK/3B/ykZaWx+Y6NdLR3cPL4ST1tW9OC+w26oQyXVPBY6uyWnBn37iaK95mY/LYwhYqJicmvzW96YhNFkUmHncE1K0n4+XMIbnfkereHjZeuUJWTSbLNQsarB7j21T+j4of/yPj8wpn7E0TaWztwOJ0kJiUaggSCbh9xWpZMMO1XkmQkSUYQIz/LooQsyaxYuYL77r+P/r4B9vzqZcZHxyOybsKtKmOrlzG4dQP5X/8uqqri9fuor62nvqae/t4+vH4f/oA/aGUJIIiwfM1SdjywnWhXFEffOcaJoyf04F1Vt8QUlhQyf2EJ58+ep6W5JSJeRp2j+aOJyYcNM0bFxMTkA2V6jxuYsnTUfv4zrP7MFyh48o/o/Nwf4g6lJ//L97HYbZQ//XEKFpZw+uUfIMq6C2h6arIg6J2Tuzq6ycvPizieGOYCComUjrYOPF4vrmgXzignUVFRWK3WiO+pIogqgEpxSTFOp4NXXnqVF559kZ277yExKWHGmFRNpfnPPs2K+z5O4LnXeFVVGB0a0a0g6B2gY2JdxMXHkpaRRkFJPqIoEhsfw527tlFx9jJXKq8iW2TWrl9LQAggiiLrN62jp/s6+97Yz5Of/BgxrlhEVQVpKh4Fgr9KBWnGeYW2MWNWTG5VTKFiYmLya3GjtOT3ixDMVJzISKPxtWdJ+tcc1P5jAAAgAElEQVT/IO+LX0EemCr4VvPNv6YoNRFNVWcVKeEM9g/g9XjJysmacsmEbSMGxcyBfQeprroCgoCAYIgTWZZITk7hgYcewBUMxA0XK5lZmTz6xCPseeElXn7hFR567AFi42ONa6Gqeh2WgTgXh25bTtn3fsbe33uM27dvwBHlYHBgkOGBIUaGRrne3UtzQysNdY3cvm09UVFRACxds4RAIMDl8kqcTidLli0hIASwyBZ23HMnLz33Cvvf2M/Djz2MqgkImoqoRV6HqWq1ob5ApkAxufUxhYqJicn75r26FqZvL0liZOBsEGeUExCYmJhALS2m6//9NYqiBGM5FCPuQtTUoGCY2q8QFncSerW1tCMIAjl5OTMqxIbqizQ1NFFddYWVq1dStmgRnkk3k5OTTE5OMj42zsWLFzn09jvc/8D9008XQRBJTk7mvvvv5Zc//yW91/sMoRJifGKCfa/swzO/kNuqavi0P0BjdhqqqhIV4yQzLwMATdNoa2yn/ORFDr15hK07NxPl1MXKyvUrmBib4MLZcornFyNFSyiKQnxiPCtWL+fsqXMMDQ+TEJ+gXxMRo7z+exUkZpqyya2C+RSamJi8L36d+IdQ5onVZsPn80asEwSRhMQELFYLfb39M74risKsk24ojiRcoITiUNpa2klNS8XpdBjHEMNcOX6/nyOHjpCYmMjGzRtJTU2hoLCAskVlrF6zmq3btrJu/Tpqa2ppbmqe2r9xvKAlJ/hutVojYkQmJyd565V9jI2Os+7eO2j43P9i3o+ex9I/aBS4C8WmqKpCVn4GazavYmhomHfeOMzE5ITeUVpVWLxqEV6Pl6qKKkO0qZpKwbxCQKOxvmGquN4cadAmJh8mTKFiYmLynrmRSJltQpyeEhvCZrXi9fpmLBcEgaSkJPr7dKEyVZhtmjUkTDCEtgt/B5gYH2egb4D8ovyItGRjv4JI+blyRkdGuWPHNiyyJaKmSuh129rbSExM5J2D76AoygyxJAgiXq8uusJTrjVNpepSNSPDI2y9ZzMp6cl0bt/AWF4mJf/5rC5S1AABVYl4JWUksXrzSoYGhyLESmx8DNl5WVRfvoLb40ZRA2iaRkxsNPEJ8TTUNxj3IZT9M9t9mOuemJjcaphCxcTE5D3xXkTKbKJFDZs4bXY7Xq9n1n0lp+hC5V3afMxJSMg0N7YAUFhUYKwLd2kMD49w7uw55peWkJubM303BrIss/2u7QwNDXHm9Bl9P2EiCcAXFF0Wq9VYFggEqL1aQ05+NmkZegVeVYDKzz1F7htHSDxZzspv/ojdj36Bx7f/Pg888nlWf/NHOHr7Sc1I5rYtqxkeHObwm0fweDyomkbZ8jK8Xi9XLl/R9xe8J3kF+XR2dDExMRFx7u9VWJqY3EqYQsXExOSmUNUbp7vOJVLCe/xMx2bTLSrqLL/0k1OS8Xl9jIyM3tRkOps1BaClsZXEpERi4yJjRkJuoWOHjyKKIps2b4rc3yzxGXn5eSxYuIAzp88yODg4Y33IomK1WYxlTQ3NeDxeShYUR55XWhIXcjPY9Ff/gnquim+tLuPPPrKT72xZjVxVz11P/y1RPf2kZ6Wx7o61DA2OcPl8JQCJyQnk5GVx5fJVfL4pi1RBUT6qqtLc3HKjS2Vi8qHCFComJiY35GYEyvRYiLlESqhrsuGWUDUURQ+m1cKLkakq8Ql6wbbRkdH3fe6KonC95zo5edmzrp+YmKChvpGVq1biinEZy2dLmQ6x5Y4taKpKdWW1sSwkjvx+vVquNcyi0trURrQrmvTMtIjrVFV+hSivD0nVqLjjNgbXLUXJy6A2J42/uH05iqqx+t+eASA9K438eXk01DTqDRFVlQVLFuLxeGhv7TD2mZKagt1up6uja87zV9+nhcrE5IPCFComJiZz8m4Bszfl6gkTKdPp7e0jKSkp7PtT2/j9eu+fUIn89xO86/fr8RsOh2PW9ZOTeiG5pOREY9lsMSzhuFwu7A47bs9Ml1XITRUudAJ+Pw6nw1gWGqPWN0hpVy89K8u499A5ViwpYdXtK1i/bS1eSeLMuqVknKtGHh0HIDY+BlXV8AVbB0RF65lAXs+URUoQBGx2G4GA/2YvkYnJLY8pVExMTN4XNxIpWjB9eGqdZiyf2kbj+vXrpKalzCpwvB5dRNhs1hnrbhYlEEBAQLYEm/VNEx3+4KRvs9mMDJ7ZCM8kEgURu82Oz+udZcvI7B/QY1QkaWahtdieXkSg6Z6NqJLAwuf3AyBbZCxWCx1xLgRNw9VxHZiy0viCAskSHFMgaMUJXUNJElEU1bScmPyPwRQqJiYms/J+g2YjBIo6c3nI7TM8NIzb7SY1LTViH6F3j8eLpmnY7PY5j/tu+P1+NDTkkFVm2vc9wUnfZrNFuJ7eDZvdhtc3M1tpNgKBgCGUQigBBb9XFxiaxcLVx+5hyTN7iW3R+xE5ohz4PLoQ0oKaxxKMewlZVGRZNvYfjihKM5aZmHyYMQu+mZiYRPDrCpTIxnfajJoeofoiPT09aJpGckqy0aBPC65TNRWPx4OGhsUqGw329P1rYY321BkCB0KVZlV8fl1MyLKMqqoRlg1NU/EEewjZHfaIfYiIRqG02bBYrHjDXD9T56bH2wjoadAKCoGAijPKoltsVL3mitfjozs2Bk0QiG3tIraumYH5BYwX5CAJAlHRUST3DKAJAp6sdERRt+KIoojiV/R+Q5KMKIoEgqnSoRRuWZbRVC2iTkxkFd7I+BuzMq3JrY4pVExMTAzmEinvR6CE1k0XEqHg3Pr6egRRIDExYYbw0DSVsbFxJElElMSIarTh78Y5BI8tiOKU2BBEAn4FTQNREoLno4scQVURJQmv14uGhiS9t/8KLRaZSfdkMCB4bmEnivq5h3dSFgURr9vLpN1GS1kxxS/swzI2wb4f/z1y8DwcqsqWilq61yxGiY9DFiUsFhkBAUVRp7o6yxY0RQtrhCggSRKKEggrejclTARBnPVvE5NbGfNJNTExAd67SAmPQwkPmA1ZRmbr5KsoCoqisH/ffiorq1iyZBGSLAW/p2+jaSpj4+Ncu3KN3PzcGdaUyNgX1bDGqJpmiIbQMWNi9b48vdd7ZxmHbs0BaGpsCtvXVKG0kKgKfwUCAbq6uklMjGw8qGkqDqcT0CvRhkhOSaK7s8ewckiSTFJyIvEJcfxrcT7y2DgT0Q46jl+kbu8Ren7wAp/60UvIkkjF5z+JLEpIkkxLQ7vecyglGVEQ6O3uRVECJKckI4lSUHgIDA0OERcfP+M+mpYTkw8r5pNrYmIyJzdTG0UNFwpzCBRdgGh4vB72vLiHSxcvsWbNKjbfsXmGy0fVNM6eOkcg4Gf1ulXG8unWmUiREpb+HCZWbA4bicmJtLd0TJ1vmMBKz0wnKSmRiksVN11Yrquzi8nJSYrmFc1YFxsbA8BIWEr1/AUleL0e2prbjYBdi9XKlh2bWO/x4ZZlLqUk8fCzr/MX3/oxn3j1Hcbzsjjxk6/jy0pHkmTGRyZormuiuLSYuNgYJEmmsbYZq9VGUXGh4fYZHBjE4/GQlZUVERz8fkSK2efH5FbBdP2YmJjcVOrvjWqjhJbP5uYJWUQmJibY88Ieerp72LptC4uXLYkUM0EBMTAwyJWqakrLSomNiyWgBIJCZnoNlsjMllAnYFXTEFXVqBibnZvF5fJKJt2TRDujI8YsSgJlSxZx9J2jdHX3kJmRjqgGOyMHOypPp662DlEUySvIC7PA6NuFisqNDI+Qm5eNKqhk5WQRFR1FQ20juYU5aIJ+nomSxPqTF7j2x59g+OG7OB52rJBIkADFr3Li4EmsNhtLVy5BEEUC/gDNjc3ML52P1Wo1ehd1dXYjIJCVnTljXyYmH1bMJ9jE5Hecd3P5zFXALdyKoqgBY7uAEphy86h6x+OBwQGe+ekz9Pb2svP+nSxetmRKdAQne705n8LpE6cQRJEVq5fr+wqKFHUOkTJXQG1IRGTlZKBpGh1tncExaBHbzS8twWKRuXzp8ozxT38pqkJdXR3ZOVlYLRZDpITGYnfYsVgsjI6MGMeQJZni+cV0tHUyMjRqWDqKfvgcvuREeh7ZiSxZkIMBshbZiiTK+kuQOHPkDBPjk2y7ayuxsbHIokxrYzuqolK6cD6yKBsdoHu6uol2uYiPi4+ITwk1aBQFwdg2tNzE5FbHfEpNTH6HmU2kzDnxTxMp0908IYGiaZohUCYmxrl04SLP/OQZ3B43Dz36IPmFeXoTPiVgNOTTOwOrtLe2UV/XwOJli7A77DMCaAFDpDTWNXHsneNGCflIYTVlnUhKScJut9PW0jZjPKqmYbFamL9gPrXXahgfn5gRqxL+6urqYnBoiMKiwhkiRb+WGq7YGEaGR4LH0M9j4eIF2O02Du8/gnvCTXRrJ1nPvUb9Fz+NZLXpwbKSBYtk0f+WLUiixOXzVXR3XGfd5rVkZmciibqYaahtICExgYzMDARBRBIlJFGiq7OHrKxMREmatZHjXJiCxeRWxnT9mJj8jvJeKr1qxkQcWQZf/6xGuHgUVaGtpZXKyirqausJBPykpqWy457thivH2GcwYFXTVK5dreHwwcPExMaweOkiAursLh9V02ioaeT44RNoQaGxcu1y/VzEqUlX1TQkAAEystPpbOs0AmTDuyhrmsqipYu5Wn2NF59/kYcffZjo6CjEaZfn6pWrHDzwNjablfzC/BkiJXRuAgJ+vz9CFEVFR3HHXVt587V9vPTsK/zlkVMMbFrL2JrlyJoGYlhqtCAyNjrGqcOn6OnuZcHiUhaWLUCWLIiiQPnZS/Rf72fTHZuClhhdlFRXXmFibJx58+bNaU0JxxQnJh8WTKFiYmJiED65hrt75urVExIoAIqqcOnSJc6cOsPIyAhWm5XShfNZUFaq10pBQ1EDJH/uz5EGh+j48b+jBS0xp0+cYeCNA3z7uZe58OavwKLXQYl/bT+pz7yIs64RgInCPMo33cYJJUB6ZhpRriiuVV4jMyed9Mz0iPMWBVEPrJVEMrIyaKpvpr+/n9SUqQJzoTTlhMR4dj14H3tffp0f//DHLF+5HCUQYHR0jLHRMUZHRxkbGyMjM5O7770LZ5RDd3epkW6xsdExent7Wb121Yxrm5mdwSMfeYje//wp6dU1fPPppyjuHSQ+KZ7x0TGGh4YZGx1nZGiElsZWBEFg87ZNFJcWY5FlBEGktrqWyxcus3DRQpYsXYIsSUiizPjoOMePHCc3L5eyRWVzWlPC3T43woxrMbmVMIWKicnvIHO5fKb/Pb0M/mwiRdVUrvf2cuCt/XR2dJKemcG6DWvJL8pHkqTg9kqE9UR3DwWYdE9y4M2DdLR2sHlePgBWuxWvppL5je+S9rPnafvMU9T87Rd1QfSrV9nwvZ/BuhV4PvkoqqrQ3dHNqSNn2PnwPdiDpfCnjysjKw2AzvYuUlNS9X0JU+OSBMjOyeb+h+7n0MFDnDpxCkmWiXG5cMW4yM7JIjUtlcVLF4NAhBUl3DLU3NSEpmnk5ucY1hvQRZMKxEc52XD4JHUP3ku3w0HDy/uAyIBdh8NBVk4W625fS2xcTNAaItLW3MbJY6cpLCpk651bsch6HIsoiOx/8wCyJHP3zruDqcpTdVvezZpiWlZMbnVMoWJiYnJDwmNSwpdpmobX5+XUyVOcO3MOq9XK9rvvpGRBSZgbKBAhUEL1STT0Pj/7Xj/A+Ng4G7ZuYFGwi7KiqtgvVZHxX7+g+Uufpf1jD6CpKvU1DRyPjeah7RvZte8IZ67VM1pWwtrNt3Fw79tcOlvB2o1rZh1DtCuauPhYOto6WLp8iV55VlMRNRXQrTcqkJmVwUc+/gQ+nw+n04kkShEZTKqmgsYMgRK6Ns2NLUTHRBOfGB9mhZqyuqT8cg/ShJvJL/0xj1osdHV20d83QGxcLDGxMcTGxeBw2COCXTVVo/JSFeVny8lIT+fu++7GarEY8Srnzpynp7uHnfftJCE+QRcpQbEWbj0xrSkmH1ZMoWJiYhLBdJfP9BTgkNhoam5i/1v7GRocorRsARs3bcBis6CoStClo8yIZfH5fAwPj+Dv7OG5Z57H7nRwzwN3k5qWjFp51Thu4usHUJwOuh7fBUBjXRMnDp8iLT0V20cfIHD0DOkHjjNaVkJaeirzF82nprKGvMI8snIyI8YTsipkZmVQX9uAqqh63m9oTEH3T0isCKLegVjTNCPrKHRe+jgihVf42FpbWylZUKIHB08L3JUHBsn4zo9o/fLnUKOc2ESB/MI88gvzjO1C1pPQefd093D80AmGh0YomlfEHdu36qX0BRFZkunr7efMqTOUlM5nYdlCQ6SIEfsR5hQfpjXF5MOAKVRMTH7HuJHbZzaXT+hzuMunpqaGV15+ldjYGB567CEyszP0lOQwC0ooZdntdlNfU09zUyudHR082dnFmrpGvtPShigK8O0f6t6PsGPbW9rxZKWjyBI+r5cTh0+SnJrE1ru3IMoi7qx0olo7sIxNEH/hMkvXr6SxponL5ZVk5WQa5eTD3UBZOZlcq66hr7efzKwMY7xSqPaKIESMWwkTJqHrNr2/UCAQoLO9k6bGZpobm/H5fGTnZQbjVyJdOhn/8gM8+Tn079oRsTzcehISDoqicOrUaaorrhAbG8OuB++jsLDAEDKyJDM8PMreV/bidEaxfcedRu+fuVw+ZkqyyYcVU6iYmJjMSrjLJ1ykdLR3sPe1vaSlpfLgow8iSkKESFGUAH7FT0d7J1errtLU0EQgECAm1kVxaTEZV2oZj3HR+JX/PXUsNJz1zSz40/9LQFVA09AEQU8TVjUURSUnPxvZIgfdL/r62OpaFv3ffyI+N5OTZSXk3r7aECkhQhOzK1g1dnJ8ImKcuuUImMXqMJflpK2lncaGRlqbW/F4PEiSTFZ2JivWriA1I82wJoEuEJzX6knZ8zpXn/n3iONMt6CIokhPVw9H3znG8NAIS5cvZd3ta3HYHREBsn29/by651VUTeORRx8mOip6zlTk92JNMd0+JrciplAxMfkd592sKaF1qqoyMDDAiy/uwRXtYtcDuwyRQmcnSf/0bZyHjiH1DzDudDCSncHwhtXMW76EeaXzWPXP38Ny/Az++FgCXg/j2XqAa/SVWlY+/jRV//pV/fiqymRuJrEXq9C8XsMSoAQtQZI/gKOzh8FVSxhYv5I93/4aWV//d/7u5X10ixLNT6egJMTNKCGvx34IuIMdk2eMUZ0tgFgXKT6vj+amZhobmmhrbsPn92G1WsnOyyY3P5v0rHRkixw8z0DE9RQ1yPv6t+i7ZyujSxYggm5JCkMURCYmJjl74iyN9U24Ylw8+MgD5OblIAQtKCErSVdHJ6++9BpWm5UnnniMlOSUGe6e8OJuoc+h45iYfNgwhYqJickMwift0IQ7Pj7O8796HoDdD9+P3WEjoAQQWlrI2vU4E2kp/OTOTTTLMsWyxL3Hz7DmpTepevhe3ImxehCtEd+huzcAPWaEKSGiaArdOzaR9ctXyHh+L61P3I+GZmyX9fzryG4PvfdsZXLczdvVdTgeuQ+pMJfSf/4Ba3Z9ktanP871xx9AsMrGJO1wOnWhMumJHKumRlS+DBduHo+Hyxcrqaqowu1243A6yJ+XR05+DqkZKUZWk6aq+AP+GddRFARyD/yAmNXVnN/9l0YcjIhkWFMCvgCXL1VSdakKQRBZs3Y1K1evwBaMRQmJEEmUaG5sZu9rrxMXG8djjz9GbFzsDHdP6Lg3EimmNcXkw4QpVExMTAympyOH8Hg87HnhJSYmJnjksYeJjYszYlDSvvxV/KrCVzevR4iOYstdW0hOSaLx00+y7J6Pkve336L6O39nZPto6O6kQNDyoGjBAnBMHXt0cSmtTz5E0b/+CMkfIH1knNiePvJ+8iL5//5TWj/5GCMLijnx2gFURWXLjs144mOpePa7pO19m7xvfZ+MF16n9Ut/wujGtYiigCTKOBwOPJ5IoTI13imBMj42TkX5Za5WXcXr85Kdl82CxaWkpqegMlW5NuAPRFSynS4AJM1PsnKYrqK7cScnIgVFUUABWYLamnrOn7qAe9JNyYIS1q1fS1x8vOG6CokQQRC5Un2Vg/vfJjU1hUcefYTo6OhZxcX0VOSbRVVVU6yY3JKYQsXE5HeI6YG06ixunhnf0VTeeuMturu7uf/BXaSmpxol74XBQZxHTvDabatIyMliy/bNWO0WAoqCYrfS9ei95H33pzA8HBQoUy+v24PFakELBZ2qoePpnxu+8CkmSgrJfO41vnatHl6ErqQEfrJlLaejnaj/9SsUVWXz9k0kJMYbIqH/gXsY3r6FrO8/Q8ln/4LR9avp/PLn8OXnYbVa8Xg8RtXW6dfBH/Bz+sQZqiqqUVWF/KI8Fi1bTFxCDAFVj70JuYPGx8bo6epFQ0WSRGSLjGyxIFtkXNHRSLJEbsMLqIJAzfo/ADVoQRJFZFGm+nItp4+dJjU9lbvvu4uMzAwkUf8vOWRtCYmUE0ePc+FcOTl5uTz40AM47A7j3KdbU8K5mXRkE5NbHVOomJiYRBCekqxqKoMDg1y7VsO69WspLCwgEEy9VTWV68dOUqBpSEsXcteuHWjoacmKGkBRAowX5CBoGpd//hK2pjZWXa3HL+m5wds2PYoggBT8FT82L48DF17XY0uC53L93m1cv3cbE2MTVJyvQJREZNlCiaTHbSQkJVAwL39abIaIEBtD5xefZuDx3WR//duU7nyCyq0b8eXnkL60DJjp/nB73Ozbu5/2tnaKFxSzZPliolxRKGoAf8CHL+Cnt6eXttZ2utr0+idaqOdRWNE2AYEoVxTbN8ynsHEPFYv/GK8mIAdbB8iAKqh0dXThjHZy/8O7sFqsM+5DyLrR0tTChXPlLF6ymDt33InVYp01DVkfkxDx3fdz702rismthilUTEx+R7hRb5/ZLCshN1D5hXJEUWTx0sVThc5UlbGxUS6cucA6YP7C+QwLoCrBbspKgKHhYTrKK1kETExOYrFZaS3I4fXHdxoTc31NI8VeL3/48gEjHkZUI3v2ALhiotl450Zganm4OAl9DgWphgSLkpdHw7e/TucPfs6qn/yS/+/UOQZzshleutiopaJqKqOjY7zx8hsMDQ2z8Y6NFJUUGgXrAgE/ly9VUXmxErfbg6ZpJKYksGDZfJLTkhAlEY/Pi+IPoCp64O21y7Vknv8enfEZtCYsxxp0c4Vjs1sJ+BWjQm6IcNeNz+fn4P6DJCYlzSpSQsxWffb9YooVk1sNU6iYmPyOMl2czJbt4/F6qKqqprikGKfTYXxHURUO7nuHAVcUmiDgbGxmQNmAogbweD1UlF+msrySe+ub0QSBpU/uJuXbP8Vit5K7c4uxf2nRPNqeeRUAt3v22JHpqcaRQaPBd1GYtR5Jf98Ahw8cZjAQoPcfv8bOji5Sv/FvJDzzPD1/8yUm16yg93ovb766D7/fzz3330VaZqphFZoYH+foO8dpa2kjLSuNxfmZJGUkI8ui0YBRVVWsmgVNUw2BVBYzyrprHXyxaROicpZVG1Zht9lAthrnaLXrbqjZBGRoDCeOHmVyYpLdD+5GluUZImU2l89sVWlNTD7MmELFxMRkTq5UX8Hj8bB8xTIgWJVVU2ltbqW1uZV1d2xirOoqSb/YQ+eTj9A5MMCh/YcYHRujKCudnS+8Tt/a5QTiYwz3SHh9kZT0FJJuWwovH+DE4dOszEjF6XTOOA9hRiGzmdYTmKpFoigK5ecuUnGhAmeUk10P3Etefh4jwPjue0n65++S95FP0bN+BftKMpFSC9i5+35i4l0owRooXR1dHD5whMnJSVasW07evBwUTcXn99Ld1UNrQxvdHd3YHDZc8S7iEmKJT4onJtbJbe0vUp92O3bXSmqr6hkaGOb2betJTEpEFARUTcVikdE0FY/bjVW2IolSxJjb29qprKhk5eqVZGRmvOfU4pBwmo3wxo2zrjetKia3EKZQMTH5HeBGbp+5ttM0jfILF0lLSyMjMwM1GAyqaRqnTpwmJjaGsiUL6fib/8O8Rz/JvE98lpMlBSQkJbA7L5sVz76CgED1Fz815/FEUSQ+JRGAybEJDu59hx27dxDldOopuZI0q0CZbj0Jn1S7O7s5ceQUgwODzF9QwsbNG7HZbVMHTUig92t/yYVVy1jyj3/H59vO0/X1pxiMteMNWkkqLl7m/KkLOKId3LlrG664aEZGR6i7Wk9LfQvjYxMIkkBKejJut5u2xnaaapoQBIE7468TldzNG4V/QKEzjvjkeC6dvMz+V99m54M7iE9IQFQC2Bx6mf7JSTfR0S6j95CqiQR8Xg7uf5u4+Dg23L5evzeaishM8RASJKHquuEiI1yszCZOZstUCn8WTLFicitgChUTE5NZGRoaor+vjzvu3BaRJdPX109fbx+b7tiEJEn4crO4+tJPkP/qH/jEW4eJ9Xjxx8fSu34Fl/7+i7hTEozy+Ddi6eolHLxST0tDC4uWlOm1QGYRKaHMmHCBMtQ/RF1tPQ21DYyPTxAVFcV9D9xHQWH+jOOIgkBAVXmjqZULT3+BJ+aLZNT/Jymtb9C+5GnOefM5d/I82fnZrFq/HEEWaKht5Oyxc/gCPhKS4ylYmE9KZhKirFtvAkqA8dFxfIODfHL0OD/vzaPycguLVy8iKS2BjXev5/DeY1ytrGHtpttQNVUXKmiMjY6RlJykd3QO0tXZzdDQEPfv3oXFYok4f1VVIRjDExIas4kV0IVguAULZoqTG1lXTLFicitgChUTk//h3Kw1ZTqeYMxITLD0vLF80g1oxMXHTaX1pqey79FdtN+2jEc+9iA+xY+i6CX1QyLl0l99dtY4mLEFxbxx9mXqj5xFkmUKivKNPj3hIiXcuiKKIhPjE9Rd08XJ0OAwgiiQl5/Hhk3FFBTmY02LFKAAACAASURBVLNZ53Z9KCqKopJXWMD4ojLqSu8k/uovyD3/DQRfDJ3xt7PojnUoqsLAQD/njp/HFe9i6dpFyHbZqCHjD/iNv21RNrZPVBOwR1ORuJaWmhaSM5NIz0zH5rSSnptOc0Mry9YsRXSIxCXGA9DT3UN+UFCpmoqgqsTFxQLgnqPmy40IiRXgN2JdMcWKyQeNKVRMTEwiCKUm+/w+AKwWS0TgrdfrBcBmm0qp1WMtPNjt9ohCcXMxXUCMDo/R0tjKwqULiYqKAphVpMiSzPDQMJfLK6mvqUdVNTKzM1m+chlFxUU4nVPfnXt8Kn6/XkXWatOtFZpkpaf0o5zxF5Fy/tt8wbGHropBqgsf4/SRCyBorNywDNEq4ld8BAIBWhraaK5pwRUfTUZBGtlRPlYMnOLl7I+Q58ynp3uAy6eriL83DtEhkluURXtTO80NLZSWzcciSSQkxtPV0WVkUoXiVFwx0djtdq73XNcbJ87i8gkJi+lWldA9fDexEr6PuT4by02xYvIBYgoVE5P/wbxfawqA1xsUKjbrtOUhoWKLWO7xeLA77DPTZBUF28AQ7jgXhPW4Cc9eqbpYjSxbWLS0LMKaEnL3iILIYP8QFRcqaGlqRZIkFi4uY/nKZcTHx0UG1IozS8ZHZDipEPAHEAQBi8WipzFrCpqmcb66A49wF9bbiyiu/g+2HPssfe559Kx5GKvDgtfvZah/iPU1P+VPHG2QDQFNoLfdCqJIjSWNWlsusgClK0u4cPgi1ReusnLDCmITY3DFxdBwrZGSBcWookZqZiq11XV4PT4sUVYjTkUQJFJSkrnecx3Q+x+pweFIgmQIh9nECmC4gfTr8N5dQaZYMbmVMJ86E5P/QaiqGvGac7sbxIyEhIbfFxQqVmvExKULFQGHY6qjryCIeD0+HA4HQrDyaqiLsX1olO33fYqokQkkSUaS5IjS8GPDY3Q0d7BgcSlOp9P4viTKiKKA4lc5+Mbb7PnVS3R1dLFy9Qo++QdPccedW0hISEASZb1pnzjVvE8S9R4/oZc4Tcj4fD4EAazWKbHV1dFNf28/ZUsXMpEwn9cLvsj3+5dzX0Irn+7/Hhm95Vy9cJWTB86i+APUSln8W9Gf8e3cP6LCNo902c31YS8n3zhNR2MncYmx5M/PpaOpi56OHgRBIL84h6GBIQb7hwBIz0xDVVW6u3oi7omqaSSnptDf14/P748o06+oitEzSVVVAoruegoEXVCh+i9asOaNoirBbC0t4rkIrZ/teZjr+fh1hK+JyfvFtKiYmHyI+U1MHHNNSr6gULEEi7MJooioqfh9fgRBQJIlQEMV9F/gPq8XWdaFgiaoSJKMoKnIQXeGEAyO1f/WRYymalw8exmL1UrZkoVIkjRDpOzbe4C+3l7WbVjLkqVLcDodYcG1M+uJzFb4LNR2MCS3lIASHJvFOLdr1ddwOOwUlhSioXLuxHncQglJaz7Bwu632NLwY1Im43i14HZSElOQtUkmLS5UwcoqSze9JLEqfpIoTxQ1F+tJTEmgYGEeQ9dHqDp7hezcLLILsrl2qY6m2iZS01JJSdM7H3d3dlFYVBARUJucmkxACdDU2MT8+SVApGUlPAMo9ByozG71CC0x2i9Os7AIQatM6FqGngvTsmJyK2A+bSYmHzJuxmJyw+/fRAYOQFx8HIIg0NfbGzFhJaekANDZ1hGRJpyVk0VzQwuT45ORdU+Ck5osSkjBlyxKiKLE2RPn6ensYfW6lURFRyEHLSFTImU/fb293L3zblatWTVDpISsJ5IoIQqCvl8jrkU2/tYziATDwuJyuQCBiYkJY2wet5f4hHhkWRdW4+MTZOZmIjldXMq6jz9q3YQWHc9fW14jw9uJFEzX3t57gCT/AH5RRhY08styAQ33pAdJksjITcfj9qAoKlarBVdMNJMTk/p1k0XiE+MNC0vo/qiqSm5eDimpKbz1+lu0trYZ981oiBhhQVGMHkqKokRYWsJfISuK0SIhzLoy2/Nxs8+Kicl/J6ZQMTH5kPDriJObJfyXcnZ2NpIk0dbaNrVeECksKsTpdHLtaq2xTBRF1m64DUGA/XsP4vcFjPRiSQg22gsTL16vjzNHz9Fc18KK1csoXVRqiBRZklD8Km++uo++3j7u3nk3RcVFyJIUXK+7ekICJSROJElGEHVhFBIpoWXhggV0EWaxWOjr7TfGJssygUBkqfuQcUZVVPoDDp6LvpeXi/4Qp3+c7Ilmbus7xoKRKmqc88jwXkfWApR5mwCNUPufUGE6LXjvZFnG7586TlxCHAMDgzPuhcUic/+Du4iJdfHKnlfo7OyaEhzqlCso9AoXLtNFS/h2gCFWQu6g0LIQpkAxuZUwhYqJyS3Ob1KgvJcJyGq1kZmZSVtbOzDlEpAkiZLSEpoamvB5fUG3i0BsbCxbt29hdGSMPb94meqKq7qbIDjZS4KMpsLVyzW89qu9NNc3s2TFYpauWmq4bsJFykB//6wiZSobSDAsNn5/gI62Di6VX+LooaNc7+kNEyeiIWBCYkWWZJKSEhnsHzAsNBaLTCCgTLmnwpKXAkFXkShJdEUX0BQzHwGNTf2HcOCjZLKBemch52OX88TYfr6RV0lqoE/fT1D8qcEu0bJFihBE8QlxTE5M4va4DVEREhJOp5PdD+/G4XSw54U9nDh+kpaWVrw+r25JUQKGaAkXLtNFi2GFm2Zd0Z+J2cXKjZ4ZM1bF5LeJGaNiYnKL8n4mg/f6S/jdts/Ny+X4seO43W5sdpsRp1K2qIxL5Zeor61n4eKFelyKqDGveB6uGBfnTp/n4tlLVF++wm15OawFmuubONXYyuSkm5z8HFbetpyExIQIkeL3B9j36gEG+vvZsXPHrCJFEiU0TaO+toFrV6/R19vH2Ni4cc6iKFJ+4SLLly9jw8YN2O32WcealJxEfX2DERciyzJqsMNxSHyFjqspKgKC3hQwWBn3uiOTFHcnJ5I2cSphLaqgW3ZOWBazavhVPjf2LFXda3hVXGK4yCRRwmK14vNMGEIrLl6vmTI0OExUZtSM+xMdHc0DD+/mwFsHOH3qNGj6uaZnZJCdk0VuXi7pGel6DFBYnImCihCWGSQKoi5WwuJYRMIyhIKxJ+ExKzeKVzFjVUx+W5hCxcTkFuOmy93/Gub5m83qyMvP49jRY7S1tVNSUmxMWKmpqaSnp3OpvILSslJ9EgvOWSmpKdy9awc9Xdc5f/YCleWVAFw8W4GrMIctd20mPSN9RsVZRVF5+81DhkgpLi42MorCK9ROjE2w7639tLa2ERcbS1ZWFqlpqSQnJ5OSmoLFYuH40eNcuniJuro67r3vXrJysowxiYKIKmikpKZSVVmN2+3B4bBhsVhQFGXKRRSMaxEFAVRdAElGRpNAsqebCUsstUmrkUQHErqbZ8KexNe7FlGXk8KD7uN80V3BL+ILQNOQRBmb1cqYMmaMKSExEUEQGBkcJiszM+JeiIKACkTHRPPw4w/j9Xjp7Oyiq7OLjrYOTp08xckTJ3G5XMwrmUdeXi4ZmRnY7Q59rKH0ZZEZggUjKNcUKya3NqZQMTG5RbgZgfJu4uT9ipfZTP4AmRmZ2B0O6mpqKSkpNn6pS6LI+tvX8+LzL3Ls0DG23LkFVFAFFVnS/1tJy0jlvgd2MpB3BX76PBu33k7yysWGpSK8saCqahw5cJTuji623bXNEClSKDg2KFiGh4Z56YWX8Lg93Ll9G8uXLw+ui8z0uXPHnSxcVMbeV17j7YPv8NTvfcKYsEOxIgkJemXYoYFBHFnpRLuicU96mJz0YLXLRLui6e64zuKVi4hyRWGzWak8e4V57kKitRFETWXCEsMn677F+eRNXEjeyOiYj+YrrUiiyGDCPF6MX4Ht1B4eSbgItV+nsvjjjAyNYrUGrVOCQEyMC0HQg3enT/qqpiES7FitqVhsFvIKcskryAXA6/HS3NRMXU09l8ovUX6+HEEQyMhIZ+PmjWRmZaIKWoRgAT1j6GbFionJB430la985Ubrb7jSxMTkN8O7iRRVU43uw7MtD/17r+gCRQv7HOxwHPwsCAJjo2NcvXKVpcuWIssyCPr34uLjUBWFS+UVOBx2UtNS9ZTjYCBpSDzEiiJpP34Wzxc+jRbtCga5ioiiZKQsH3vnOM0NzWzaupFFi8uClWgFXaiIemZP3/Ve9jy3B1XTePwjj1NSUmKIlNB7+CsmJgZV1bhSXc2ChQuwO+zBc9ODSC0WmfPnLpCQlEB6Rjp2p43Kiirsdjup6SlEuaK4VnkVURLJyEojKy+LkZFR2moa+KiznHFrPC+VfYlBWzLLug+xsPsYl6710TBqoXRZKTn52TTXtHC6wctg2W7SXRJL639GRqALW8laYjLykCQZWbJw6XwF2dlZZGZnGtct5H7SgvdDC96f8JcoiSQmJVI8fx5LVywhOycbV4yLjo5OLl64yPjEBBmZ6UiSpN9TTTP2LxAUd2FvoWunBbcTgvcz9J3wv8OfmenLTEzeB1+da4UpVExMbgHC62dMZ9ZgxjmEy5TwuNnX7OcRJl1wOp2Ul5cTGxdLenp6aENUTSM7J4ve3j4qLl4mPSON2LhYCE1mmj7ZShOTpP7ol1z/Xx9Fc0UblpKQSDl59BS11+pYu2Ety1cuD2bsCMFaKrrlpaujk5deeBmrzcoTH32C1JTUqQndKB43NbGGiIlxcf7seZxRTrKyswyhAiBbZKorqxFFgcJ5hdjtNtpa27nec53Ssvm4YqIYHhqhoaaB3MIcolxRZOVlsEWsJMHdwWca19HR0U9lZ4AX2+OxyQK/n1LHlmw/UsESesag4nQVOQXZLFy5jMHkZextdjJPbeXOyf1YFQ8TiQvRJBuXL1wmMyvTECqCYMiIGeJktpeqKgiCgCsmhqycLBaUlaIEAlRWXObqlWvEJ8QFLUiCPv6QEJlFrMCU2Avdy3CBMpsoMYWKyW+AOYWKadczMfkAuVFGT3g66VzLQnUxwquMTt/3Tce8zLFdaloqScnJXKm+ErFcDE5md+3cQUJiAvvfPMDIyEhY6fspl42+vRjxEhA4e+ocV6uvsWLVclatWWlk8whhdVL6+wZ46cWXccXE8LEnP0ZSYlKESJlOeBxFTEwMmVmZ1NbUTbuOmjG2vt4+Y3lJaQkjQyP09w4gSTKr169CkiQunq5AFESilEk2jB+luvgJMubNQ/GpSILIkvWrmbjzaV5Z/jXczhR2VX2D5VU/JD1GYtX6lVhkC+5xN1XtXt7J+wyVa/+WhJ6zrNj3JKlNbyBpyqzXfvr91YJVZ6e/wivSKkoASRJZt3EdDz32EDarlZdffIXXXt3L5MREMC05PPtHm3Hv1VmWmZh8UJgWFROTD4gbCZRwq0C4ewcirSaqqs74da2oempruN3EqJkRspjM8quc4HaRdhb9k8frpepy5ZQLJXROmoYkSeTm5VJdVU1LYzPF84sRpSmxIE26Sf6vZ+j7vSdRopwAuCfdnD99gapLVZQtKWPDpvWEmg+Gfs2LoojX42XP8y8hSxIfffKjuGJcYb/2iXiffp1C19jj8VBVVU3JghLswf5E+rVQGBocor6unsVLFyNKIjGxMVRWVOH3B8gryEWWJSRZpra6ltj4WG7vfRkNqCp5iszcDIoWFFJYWkhCUjwW2Ypmc9GdsorD7RZWKFd4NO4aFruTyYT5VF2sYWx0jM13bkJLzKev8H6wOMn9xXe4860KevNKiFu22BhPuBUjNDZFUyJcfeE1U4xX2HMSHR1FadkCZFmiuvIKDQ0NlJQUY7FaEREMS4ooiLO6gMKvdeh8TPePyX8TpkXFxORW4kYiZa7PRlXR8H4+YQJE1bRghdKZv8Ijf5ErM74XLmIijhV8LVi4AICGhoZZzzs2LpZ77ruLoaFhLl6ouOHYNU3jlRdf40rlFcqWlHH7lg0zJrmQVeTC+XJGR0e5b/d9REVHRewj/DrOuG7B66NpGglJiQB0dXYZ24asT0kpSQD09w8AegPG0kWlNNY30tzQiiTJLFxUSlJqMt0n3iSr8zD7nXehqWCRrThsTuxWO1bZhm/ST0djJ2cPX+B0i8pz6X/M1YWfYl7r66w79Fli205SUlxEjCtGbxMg2+mf/xjHHv0WtamZ3PN3/0T2H38JW9f1iPs/3fqhaRoet4e+3n6am1ro7u4hoAT0SrSqiqIowXus11MRRYEVq1dw/0P3MTI8whuvv4kaXB+qvTKbVSX8WTAx+SAxs35MTH7LvFeRYhTmCvvelGXk/VUTfa+/UCyWd/+vIis7i/j4OIYGh+bcRhRE+vv7GR0eYfO2TUYNFpjq5hvOxPg40dHRZIal7d6I8GukaRoej4e39x8k2hVFfl5ecMKfEjkxsTFoGoyPjQF6a4CVq1fQ29PLkYNHWe9fS0FJPnfv2s6Cg69ydqKIN873IVx4g7TMVFKz0hgZGqGno4fxsQkEQSAq2smSFYtZtGIRrT4/r9XKLBs8yGfjjzFiGaNjvAB/fCGCIDLQN8jrp6qJ3v0Y0tcWk/eNb1O09X76P/1J+j/9FJrDgaqpjI2OcfbUOQYHBhkdGcXj8UTENSUmJzJ/YQnz5s/Tm0hqU+63gBpAFmXSMtJZv3EdRw8do76unuKSYhBBQk9DlgRpqt8Pwb5AZvqxyS2AKVRMTG4BblakTBcoN+rL8l5qXITHdcwmeHw+PxpTDQrnItrlCk76OrO5AzraOhAEgdz83Fn3ES5YAgHFaBw4F6FxThcpmqbx5htvMjwywqOPP4LdadddW2FxPlHRuitqPFgwThAE7HY7d++6i/1vHOD4oZMoisI6VztpWi9N9/6Qe0cVWhpaaWtu4/LZy8gWmZT0VBYuXUhmVjqxcbF6Bdu2Lk4dOUPA5ydl7R9SMS+Rwurvs3j/U/QXP0Jlym72HTiFw2Hn/od2IcXG0vrMf+I6eIS0v/sm8c+/TPef/ykVC+Zz6OARlECA1IxU8pLziI6OItoVjTPKyeDAEFerr3Ls0AnOnDhLUXEhpWXzSUlLNQQLgCzKlJaVUl15hSOHjpKbn4vd5kBUVZBEw6oS7rabup4z66qYmPy2MIWKicktxs2IFHWaUJlupQn92lYUZfbYgbC5RgzrnDvXufh8XgCsVssNLTfRrmh6r/dOZZPMQntbBwmJCRGunLkmP38goKdEvwvTRQrAuXPnqK2tY/OWjWRkps/YXtVUrFYrNruNsdGxiPU2m4277tvBgTcOcuHoCR7LeJ2O+R8DVxoZUSppaWmsWb+a8bFx7E47kiQZ4wj4/Vw4WU7d1XoSEhPYun0LSclJIAq0bPoGMdcvknzqH9j4zy/gTFkEX/sWsbF6dVpRlBjbvoXxTeuJ++FPSfvSV1kQH0fH/XdT+nsfxRXrCrr/NOM+JKclUbygiN7rvdRdbaCupoFrV2rZvO12ShaUgCgjalOWlQ2bN/Dqi69Sfq6cdRvWoWoCwrTCbhB8RATpXa+9icl/N6ZQMTH5LTKb22c2q0i4SJlLoEz1Z9Hm3A/MFAGiIKIoepaJIAgRJdXnOl+f16cHzlqksJ4ymnEeeuaJRmpaKlWXq+jq7iYpWY8NIViWXlEDeLweOju6WLSkjIASMErvq0Joogz+l6T7HvD5vMgWXRyJKkbBMn3gM8cWGnd7eztHDh1h3rxClq1YFmFJCT9fVVWJinIyNjZmxGqEkCSRbXffQWDvMSYnA/ykJo4CqRVntIOo6CgcTgdx8XG4J910dXbT29NLX08fA32DaJrGshXLWLFmOVarRS/FL8oIgsCZ63bOdO7gD9JPsfpoA4GP/SG9X/kLJteuNoY+7PHwQmIikx97hKeu1fNHP/g5A30DtH/+D/AlJsx4TjQ0klOTSU5NZs2GVRzaf4Sj75xAtlgoKi5CVVVDTGVmZVA0r5DzZy+waMki4mLj9Hsq6O6fm8G0rJj8NjGFionJb4n3K1LC3TyhiTZcnBjfU2cXKgrTXDuhPi+CaEz2IeECke4aLShGJiYn0NCwyLIhUhQ1EDHpK0oAu8OKpqnUXK3httvXBE/Ap78F/HS0d+oN+QQNr9ejZ5+E3BMSoAYIFys+rxdZllFUBURmipVZrmVrcwtvvP4m0a5o7tixLeK6qaFgYnUqsFiySIyOjRrXIPyaOjx9LA6c4s2Uj3C9aZT2g8cirpPdYcc96Qb0Zo3JKcksWlpGYXFhsADeVI2Xro4urlXX0FjfRFFxCcKfPE3TxCTJ//YfZH/0U4xv30rvl/+M3ugoXnj2RVRVY/Oju/EXFVBXUUXm336TxTseo/PTT9H15EOowbih8PO19w5Q9L2fsfbYGaSBQcZ+/Cxjm9cz8qU/QcvKDMaiiGzYtJ5fND/L8WMn2HnvTqNx5PR6PuGVak1MPihMoWJi8lvgvYiUcFfPbFaUkHhQNRUlEGBwaIjBgQH6+voZHBxCFIVgDINLf4+OJi4+HlswNTfUuE4LdhWe8es4zFKhaipj4+O8/fY7OB0OEpISps5rmkipuVbL2/vfwWK1Ep8Yb0z8FvegflzPAE5XCq6YKC6er6C68ipLVyxh2coliKL+S14TQxOl/l9TRlYmFy9c5OyZs9y2di2gW1ZCGI33VJW6mlrOn7tAd1c30TEudu66B4tV1rNhjCwm/VwB/AE/Rw8do7uzm0VLF0Vc55A4zK78HuNJi0jZ9Hs8cbuPifFJxsfGmRgfZ3xsAvekm/iEOFLTU0hOTUGW5Yg6MoFAgNprdVRdqmJoaBib1cbqtatZt/42XRDa7Qx89cuMfuwxkr7yD+TfcR++3fdCYgK7Pv4oyanJaJrGxKJSan71feL37ifrm/9O8vOv0vJ/nmZg81rUYDqyra2TJZ/4HN7MdBr+4cuMpqdy9ke/4pHyy8x/6Cka9vwUNSdbT1uOcVFUUkh7a/t7eYxNTD4QhBtVxGS20pUmJibviXcTKaHPs1lSpltRQhaBK1XVXDhfTn//AIGAH9DN/y5XNKqqMjExGfHrWJZlcnNzKJ5fTNG8oqmmdcHqsABC2K/m0LJr167x9v638Xg9PPzoQ2RkZaJpqjH5K6pCIOCn/Hw5p46fJjU9lW0779Ab/Km6IJDHuln9/OOceeRZvM4kNE3jencvVyuv0dHaydKVS1l120pkWdYb/gUr10qiLlbe2X+Iupo6klOSKS4uJjU1heSUZGJjY/F6vVRXXaHiYgUjwyPExsWydPkSFixagCRJEQIlZEXxBXw01DZw7vR5RoZHWLpyCStuWxEsHT91X2LrTjCv/M+5cvdPcccVRtyv8CJ2Ee/BUv7uCTdXKq9SXXkFr8dLaloqy1Yspai4CIvFMntckKbhePswMV/+GoHhEXr//E/xfuQhNEGYut6KAhMTZPzXL8j40bOMLiuj8UufYaIgh7Knv0x0XRPn3/gZOJ2Igsjh/UcZbO/kH36xB/eCEtp+/B09NVqSKT93kbOnzvKnX/hTHDZ7sCKwfv6y8bdegG964b7wd+OZMa0uJr8ecwa2mRYVE5MPmAjLSlhMSviykEi5fv06B/cfpKO9g+TUZJYuW0xcYjzx8XHEJcRjs+muF0VRmJyYZHx8gvHxca5391JfV09DQyMW2UJBUQHzS+eTm5eD3e7QOwQrU5aVsYlx3nnnMLXXakhOSeahRx8kMTkpQjzpIiXAkUNHqaqoIr8on43bbkcQBBQ1QCAoVAQ0iNFdUAFVt7KkpKeQmp7C6WNnuXT+Emgaq9auAhlk9FgOMZhpsnX7FrKys7h86TJnTp0xrovNZkNVNfx+H5lZWWzcspH8gjwQpoJldVGlGG6e5qYWTp84w2D/AInJiezYtZ2snExAQ1HCTTUKhU//DeMbFuB+Qhcps03U4Q0RvR4vHa0dtDS10dzUDJpGQWEBy1YuIysryyhiF0IMi2hWVRUEcN+5lctpKbj//pvs+n//im/PXjr/+n8ztqh06tQcNlo/8xQ9D9xF7j/9Jyse/hQdj+0i4dQFWj77FKrDDsFnKjMnnebGFlp3303RD55BHBlFjYtDUFViYqLRNI3hoSFsqakzAmqnC5F3a1JodlI2+e/CFComJh8gs7l8jM/aVDEut8fNieMnuHjhIharhTt23MGCslJDwBhujbD4C7vTjiPKSXJqMvmF+ay9/Ta6u7ppqG2goa6Ruto6JEkiLS2N7JxscnJzyMjMoKWpmXcOHMLn97H+9nUs///Ze+/wuO77Tvc9ZSo6Bh0geiVBgB0kwV7Vu61i2UnsTZzdZDe7uc9NNjc3WSfZ3SfJjfdmN9mbHhdJtmVbjaIoUiRFiaTYSZCoJEBUAiB6xwwwc+ac+8eZGcygUJQtiZT9e59nHpw5/ZyZg99nvnX9WmRZCp2T5tcwDLPi6+F3DtPe2k7FmgrWblyNX9fR/L7Qr3/d0ANxJ6D5vfg0M14l+Ou9ausGDEPnyqUakGBDIKA0iCyZDQnLykspr1iBXzOryQ4ODDI0OIyu66ysXElaWupcHIoeaUXx6xq9Pb2cOXWW3p5eYuJi2LFvG/lF+RgGaAEXVfhAnPLGOxjjCje/+UfouhHq8jxfpIyNjtHVcYvOtk76AoXaoqKdVK6qYPWa1cQnxIcG7/n1YiIKqQXGd92vozocnFi7mtQ/+E+Uff9HFH7p64w+9gC3fvc38SclmlYOYDYjjet/9Uf0XrpG/LkrSIbBdF723PlJMpnLzPozndHRFBkGtvYufGsSkWWZ+IQEJElifHyC1NTUBfddILhfEEJFIPgMuZPbZ/FmgwtdPs3NzRw5/B7TU1MsX7mc6i2bsdgsoSq0QYvBnfYdHHhS01JIS09jy44t9PXepvtWL91d3Vy8cJHz586jyAq6rpOekc6+B/bhSkqcy/AJs1K4PR7e+Omb9N/uY/P2zZSWF6P5/fh1DZ/mQ9M1fD4v4+OTzPa1sw3o7LxFbK4DRVHwwHUJSwAAIABJREFU6/6QW2HdlnVofp3LF65gYLCuah2GqqMbKqpi/osyjMBgr0ikpKaQkpoScX3z41CCYmXKPcXZ0+doqG3A4XSwefsmCkoKUBQltM38+2WZ9rDs//1Hun7763iS05AMM4JXlnV0YHx0guamZrrauxgfm0CSJJKSk1i3cR0FBfmkpaeFuj7PFydyeKq4pISsZ0FZIEsyqsWCJMFMXDz9f/4thr/yDOl/+v9Qvv/L3P7m1+j9lWfxWy2hbSbWVWJYreT+w8tI8lwvJTDr2rhcCYy0B2JRwo4fHx8PwNjoWMQ2S3EnawoI14/gs0MIFYHgHhMqi7+ISOns6OSN198kKcnFw48/TFpaSkR8yFxAa1gmkD4XgBscfPz4kWUZP2ZdlWCl0oysTDZu3oDXq3G7p5ee7l5iY2OpXF2BqqgR2TJBMTQzO8s7B96h/3YfO/fvIDsvOyRO+m8P0NTQxNDgMKPDI/h8GgmKm1/NhDMnzjCtNpCZm0Fufg6pGalm8KnuZ/2WNRjoXD5/BY97hi07qrGG1XnTpYCQUNSQhSYcSZIjRJtP81F7tZaL5y4xMztL+aoVVK6tRLUoaLqG7veHsqSCadbBe5X399/HFx9LzzMPm+4QgJAVxODQW4eY8cyStSyTytUV5BcUmJaTYDPFsIaKQTEW/llIshyWoRU4B+ZiXKKcZn2ZocFBMrMy8JYvp+2H/0TMO0fJ+PO/JvnHB+j4vd9iZM+20D5nc5dhSBJRrV2M750TR7IkExcfT3TnGTPWJTc7dE52ux1ZlvF4PBH3UggOwf2GECoCwT3kTn1UxsfGeeONN4mPi+PpZ5/GarWg+bWITBvd0Jn1ztLb3UtX5y26b/Vgsaq4XIkkJiWSlJJEQmK86Wox5lwQhmGgyAqGIaNLMqpFIScvm5y87NAv53ArBZgDuqZpHH7nMF0dXWzdtZXsvOxQPEpDbSPnTp1DUmTiEmLJLc4lNiGG9Cgdmt5h1aZKbtyaoL2lg5tNrTicDopXFFO+qgxVtbCuei12h53Gq41MT0+z94E92O3mvVAVNRTzgrLIvy1jTrS1tbZz5tQZRoZHyFyWybpN64hPjEU3dHyaNyRMzGvSQ6LBD0R13ybz5dep/Zs/Q1dk05oCIavKYP8A05PT7HlgN2UrygKNFFVkSUIJBAJHBKEuFaisBMrWExQtc5lYKakpZOdkc/nCFZavWI5qUdBlmclH9tG4czMp//wyhf/5vzJVsZy2P/pdPHnL0OPjGa1eT/qrb9H/q8+hO+zIkozP56WvtZ1t1xqY3FGNkZAQilgcGx3D0A1cLlfo/Bb2XJKEcBHcc4RQEQg+R+7k9gm3pszOzvLaa6/j1zQee+6ZkEgJumE8Hg/1dfV0dXTRfasbn8+HLMskpyabmTC1DaH0YEVVSU9PY8Pm9aSkJaNLcki0BAutBQWLLMtg+DEkPWSlCLl9dD/HjhyntaWVjVuqKCorwKf5mPHO8tEHH9Hc2ExqZgobtq9HVuWQkLLNmOnJrtREKpflskJbwXDfMF2tt7h28RoTY+Ns2LoBq8XCyrXlOBx2rpy7yqG3DrH/kf1EBTouR4iVRfB4PHx44iQ3Gs1Ox3sf3kPGsgzAQNO1UMyMpvmYmppiqH+Y6Wk3OQXZ2B02JEmm6Nv/xNDmtQxWVSLrfmTDACWQ0i3JtLa0oagKufm5ACFBIi1iRTE7EktMjE/Q0d7B6OgYFRUrSUmJdFvpgfow5udhoMiwdftWXvn+D7h88TIbqzeaWULoSA4n/b/9bxh86iGyvv13KJo/JCzb//A/svLF32L5N/4T3b/zG3jzljH24Tn+w+sHsagqnX/6BwChDJ7hQCPGlJRkc/48186dXD0ihkXweSKEikDwGbFU88HF1gvP9PH7/Rw+dJiB/gEef/JR4hMTQu4dv+5nbHSUt986yGD/ILHxsRSVFZKWmU56ZhoWixoKeB0fGWNkeJSR4VFab7Txxo/fpKy8jPWb1uFwmKaKUKE1AEPHMAJpqLKMTKRIOXniFE2N11m7YQ3LK8vQ/H7GJ8Y5duh9Bvr6KVtVSlllKX7Dj0/zmtlGvQN4+zp5Crhef534wjLsTjtJGYmkZCZzs6GNpqs38Lg9VO+pxmmHwuWFOKKcnDtxjrdff5sHH3uQuLhYIFKshA+Wvd29HD18jMnJKVZvWEXl2goMzGq4fr/G8PAIHW2dDPT1M9g/hMcz19Tv8rkr5JfksVvTSDp7hZM/+huz1krAciPrkul60v2032wjOzcbqy2y59FcYTezhH5Xxy1udd2is6OTsbFxABRZpubSFUrLSqneWk1iYuLcdyBwKbKhoyOTlp5G2fIyrl2pZWXlSpxRZjq5IRugg5aeRsdf/QmGoSPr5nV4c5bR8JN/IevvvkPB7/8p6sgoeQ4HN4ry8f3NX6BnZqCEiajBgUEUVSU5OXnBd1IIEcH9hBAqAsE9YjG3j27oXLpwiYaGRjZv2UReQV5EJk9vTy8H33oHn9fLA4/tJzM7IxSXoRs6mq5hBNKZYxPiiE2II78oj4o1K6m5cJXGukbaW9vZWF1FcVkRqmIBvzkABs3+MqDrQKCQmmHonD97gWtXa6lYVU7l+kp0Xaenu5ujh47j03xU76kmfVkqgwODXK+7Qf/tfiYmJjEMgySbD7KhpaGVkdpu0rPTKCjLJzk1icIVedjsVq6er+X9d06w84HtxMTILMvNxPHQTk6+d5K3fnqAhx5/kOTk5IgUWL/hx+/3c+ncJWouXSU6NoZHnn6YlNSkUGCv1+vlyoUa6q7W4/drRMdGk5KRTGJyIq6kBBRV5UZ9M+2NzRS+fpTTm9fQE+MgwTDM0v+Kim6YLqCB20NMT7vJK8xb8jO9fbuPQwfeYXJyCpvVSk5uLhuqNpCXl4fNbuPSxUtcuniZG9dvsLx8BdXVm4mLj5v7Tkhm7wBDkqneVs3N5ptcOHuB3ft3m+cT0A8qc1VppUD8jmxI+LMy6Pxvf4gsyYyNjPGTV35K9fbNrM7MQJFVVEUJWX+GBodJcrlQA3VdgunTi4mU+anZAsHnifKtb33rTsvvuFAgECzNwnLk890+Rmg9A9ANP/39/bzx+psUFhWwa/fOQDyFH7/u5/btPl5/9TWsdisPP/EwyWnJAWuM3wwQDQbXGjoGBn4jWBLeQFEUluVkkpWTyUDfEI11jYwOj5FbkB0a+MPjE4JTmt/HmdNnuXT+EsVlxWzevhkDnf6+fg6+fgi7086uh3bgSkngdk8fxw++z+TkJHGJsWQVZFK0soDlKzJYPXCS3rXPMCtZ6e3so6O5g+H+YRKTE0lKSyQ+MZ6O5k66O3vIL85FUVRiY2PIys6itbmNpvrrpKalgixh6Eao0+/BNw/R3NRMyfIS9j60h5jYqJBwc3vcHHz9EO2tHeQW5rB9/1ZKVhaTnp1OYlICdqcDi81CenY6expukn2tiT/ftJqG6204o80qvDKSOYAjcb3uOsNDo+zcsz1UtC0YOKsqKkODQ/z4Bz/GZrPx2BOP8cCDD1C+spz0jHSioqKwWq3k5uWyevVq/Lqf+tp6Ll28hMPpICMjAwMDJPPeS5KEzWZj1jtL3bV6XEkuXEkuMExBGXzJsoyEFBIaiqyEps+cPMvY2Bh79u82uyTLMnJguV/zc/rkR2RnZ1NUUoQiK6F9mtNyRHxK8Lsx/284iza/FAjunj9ZaoGwqAgE95C5xoLm38bGRgzDYN8D+8x//AZhrpeTqFYLTz37BBarWfk1GMhqBNxHbrcbWZFRAsGa88vkJyQl8uAT+2isvc7lczUcOXiU3Q/swmF3gG7GL+gEA0gNTn5wirqaOkqWl7BlZ7UpgPw6Z0+fR1VV9j66C8WiMD09xZkTZ7E5bVTv24SsSvj8XvMcZscAsNgtFFXmk7c8m9sd/dysb+f00TPseHgbKZlJrN+2lnMnLtBYe53KtRVIkkycK459j+zhvbeP8fbrB5FlacGv+m27t1G2ojRUu8UwdGa8sxx95xijo6Ns37eV9GVpgUBkP5p/Ls7FMHSsY5OseeUAV//d8+zYXc1HR89Qd7mevKJc8z7IMrohm32BFBnFEtm4L2htaKhrBODFr71ITExMSMQECZ53VFQUe/fuZePGjRw69C7Hjx4nKjqa4uIi8zsRjFmRoWpjFT23ejl88AjVWzdRsaYSyZBNF1Ew0DdoCTNMgeLz+jj5/inabrazsXojMdGxc5YUyRRVJ058wOzMLCsrV961NUUguFcIoSIQ3GPC41PaWtvIysrE7rDjDxRWA2hpvklvTy9bd1Zjs9nw+b1ogeBQQ9dxz3i4eqmWptomVFUhvySforICYuJikQMixY+OLptdfFdUlmGxWLjw0UXeePVN9j+yD5fLFRIrfsPPqfdPUV/bQHllORu3VmFgpk93tHdyu+c266rXYrVZ8WpeLn50Gfe0m+p9G1GtMj7NFwpenZycBGB6ahpvtA0kyCxMJzo+mksnamisaaJiw0qS0hPJyE6n8WoTBUV5xCckYOg6sQmxPPHso/T3DmLoBrpuoPk0NE0jPiGOotKikEjx6xqaX+Pk0ZP03e5ny85NZGRn4Ne1kHsssn+SwervvMZkRjIt+zZjVVWKVxZx/oML9HT1kp27zMzKkcHutDM768Xn9Zll6OU5waLrOjduNFNYWEBUtJleHBIQ0kKxAhATE8NTTz3JKy+/wjsHDhL9/LNkZGaY+wuIlShnFF967hkOHXyX0yfPcO1qHXn5ueTm55KWkYaiKMiGjnfWS1tbO+032+ls78Tv19m8ZRPrN66PSJtWFZWuzltcq7nGug3ryMnJiSxiJ8lLCpOlSueDSGkWfLYIoSIQ3APC41Osv/5NpKEhev/1H+jv62frjm0AWGqukbH3EdrOHOPMqbMkJMazsbWDpP/y5ziaW8EwmC7I5cquTbypKrgnp8ktykXTfDTVNdFY20RGdjqlK4pJz8pAkWVkHTQ0VFmlpLyYBFc8Hxw5yZs/foude3eQX5iPrul8ePwkzddbWLVuFes2rg2JFJ9P49zpc8TExVBQbMbPtN5opaO1k9LKEuJcsXg1H17NS3Xjd1jrbQpd51fa/oF6ZymXcvej4SQuKYaswnRar7eTkpVMRmYGZWtKGbh9inOnLrD7oV2hQdNqt5FblINFsaIqyqL3MhhsfO7UOdpa21lTtYqs/GWhgFpN92PtG6Dsu2+Qcf4a9tFJZqPsOCam+eC//FsMySzxn56Vit1pp7mhmayczFAmljOQfTQ1NWVaoMK41XUL9/Q0pWVmqfsFPYDCBvdQvAdgs9r40pe/xEvfe4nXX3uDr7z4AgmJCeb1BMSK3WbnsSceo621las112ioa+RaTS1Wq4Wc3Bw0v0ZnRxeaTyM6JpryypWUlhaTnpm+oK6L1+vj6OGjJCYmsn3H9ghrSjgiLVlwPyGEikBwn9DUaA7qxSVFYQXBoKmhibHRMX63v5/s1w7Q++9/ndb//n8xNj6O5zs/Yvfffg/fhkr6/vC3caWa/XimpqZobmihrbmd97s+xJXsYs9DO7HZbShhPWbSMtJ44tnHOXHkBO+9c5Q1G9YwPjZOe0s7VdUbWL1udUQxuab660yMTbDjge1mCfmRMS6fqSEp1UVReQEej5vmxpu03WinNG6UGquLt+2b+WP5bd6YLOBXlDr0xinOlT2HLMkUrSxguG+MuvMNJD2SRFRUFOVrV1B3oZ7WG22UlZcxHz2Q5RIsax/OjYZmGuuuU7ayjOUVZaHeQj6vj6mrDTzzx/+LgZgovr2unG6njd8/cZFUp52qv3mFdwuzmclMQ1Zk8kvyabraxMT4JK5Adk4wTdrj9iw4bnNTM3a7nfyCvIgGhbCwdH6QYPp3THQMzz3/HN/9zvd47Sev8cJXX8DpNI8VFCuqAoVFRRQUFjAzO0NXRxdtrW20tbUjSRIVlSspLC4gIzNzgSUnPG361ImTTE+7efGrX8FmtUW4fOYXqAs/ZxFEK7iXiG+fQHCf0NjQRHpGOgkJCRHz62sb2CBB/g9fo+/3/gN93/wararKyx9d5PXSAs499xh7z9VQODwa2sYZ5WTVhkoef+5RNm7bwNjIGB+8dxJpkQalUdFRPPLUw5QsL6HmYg3tLe1s3raZtRvWRqw3OzvLlQs1ZGSlk5WdiWEYnPngHJIsUbVtA5Ikcf6DS9yobSE2PobElARiU1wklZQA4Fm7l/NGHqvp4uL7Ncx6ZlEtKis3LMc95aa59iYAecW5pKSncPVCLe4p94LzlWVpUZEyODDEudPnyVyWwbpNa0LzvbNejrx1jMq/+ld8fj9/9fReJratZV9qEsum3Pz+no34ND8b//YHoW3yS/KQZZmWxpuheY6AUHFPu+dEiCzj8/loablJUVEhFquZtryY2yd0/pIUEgNSQBwkJiby5We/xNTUFG+89gZer3dOPMhmUTlVVlBkBYfdSXFJMQ889AC/+Vvf5Jv/7jfYuXsny5Zlo8gKqqJGvJSAm6qzrYP6+kaqNm6IaJK4mMtnsdiaJa9HWF4EnzHiGyYQ3Cf09/WRk5sLRFYy9bjdVLd34o9yMvzil5Elmc72LgzD4KmvPIXvd76O5rCTceRUZC8ZwGKxUFCST8XalQz2DTI1OR2xPDjwqKrKtt1b2bl3B7sf2M2qtZULsjiGBoaZnZ1lxaoVSJKEx+1haGCYsopSnNFOvLMawwMjlFYWs37nWhxRjojG7Yos43QlYrMoTE9MM9w3bA7SKQmkZKbQ32029ZMkiZXryvF5fQz0D971/etq70L362zfszVi8BwaGMYYHGF17wBdzz3Elif3sGZ1GfvffJ+m5x9CX1HIoaIcMi7UY5tyI0kyDqedxKQERsPEnxLYp6ZF1nEZ6BvAO+ulqKR4yXNbrNfPfMGybFk2jz/xBP19/bz0vZe51XXLFB6yGhIscsDiEczMMUXIYsLEFCeKrIBucObUGd56821SU1PZunXrApEScU7y4hYggeBeIVw/AsF9gHL0GH9y/H0URUFRZDNxOcz9E93di29ZFobVAn4Ni8VshONw2NH8Gp6sdJyd3QCh7rrh1W+Dg481vIHOPCRJorisOHLgkmV0v7kf1WL+u1DCxA2ArJjvLVY1YLFZPE01daaPFZP1tNiWmediN60PwRgKRVUC76WQSFJVJUK03YngtUnzrC12h5308Ukkw2AqLwuAsteOIfv9ND77AJyuYTAtCckwiOnuZzwuDlmSmZ31kRQbExrM3dMeJEkiNjYuYv+3e/uQJImsrMzQ9YT/nS9Sgp9FMOMrOF83DMrKyrC/8DwH3z7Iqz98ldKyUrbv3EFMTLRZnVbSQ2X95bDvh26EC6C5+9Xd3cN7h48yOjJKRcVKdu3ZZaZWzxMpC9ORF7p8hDVFcK8QQkUguA/wb6nm7ypWUlxSTNXmKrPiaEMDiV/7dQCzdkjYr3GL1YJhGPg1v6kLDMPsjOv3YxseNeuMBLJ9JEnC2j9EgttDzMQk8rQbRVLNVNvAL+/wzBBT6BhYvGP4EuORMPcVpY0TJ7tR3YPYZ2TwzxAve7DPjGCfjUf1+3BZvTi8Y0R5o7FrbvImW/j1qb8G4JmeH9HlyOawUYFL7SHZ5iPKN4EqK8T4J4ixSji8Y9h0KzPTEyQqM8QyjW1mGEVSsUgStvFpDHsCSMqCexjv9hA/7Ubq6cfudOA3zCDaRPcsMbOz5n2bnCaqb4jS145S+9VH0C0WpiamcDhs5k4Ct9gwDDxuDw7nXNDs1OQUADGx0WGuHYm+230kJiaaTf7mxacsJVLmT+u6jixJ6IZBXl4+3/zNb3Lu7DnOnDlDS8tNqrdUs3bdGrOJo2Gmm6OEBeiGi1JJZmZmhpMfnORqzTXi4+N47vlnycvPi0hBDnf3CJEiuJ8RQkUguAcEAylDOBxMpCYznpyEnp9nBrCOjIQWj6enknLiJLLXB4qE3WYFJLw+H3YJHD19jKyvxDE6wfaHv77geLuDE6+89clO9HeB2Lm3O11A/Y+gPvA+AxgFzpjvn8rG7O5XP7eNbARcJRjkejr5fTqhFOg7B32BlYLHuPRmaLtfywQa3oaGeef0bWBy4amuAr4M8P2fLFj2aOBv1V/+S2he1f96hVubVuOZ9pA95cGQJNyZaWZ6tk/Dr/lxRkcFXC4S05PTyLJETEwMEPwMDfr7+skvKFiysd9izP/8Q4N+wEpitdrYtn07KytWcvzYcU5+8CG1V6+RX5hPYmIiLpeLRFdiKOjWMz3D0OAgw8PDDA0N03qzFff0NFVVG9iybUukiFrE0nMnd48QKYJ7jRAqAsE9JjisqYqKX/ebJn5DDw0akiTRvnkDJe8cwfXKTxn8teex2e1IkoTf62fZgcOonhkGHtqFNymRD9/9XsjtExxkzp26wMTYFA88vg81EJxpxjgoYdVMZV7+l5dBkviVb3wlYFGJw5AVdF1nemqKn/7oNdZtXEdeUQ4+TeONV98iNSOZlWuX4/VrHD/4PlGxTtZVZvJUw1/SE5XL4eznsfkmQdd4se3v+TP/I9xoH2fnY9tQAjEVZ4+dJz4hjg1b1qGqVvq6+qg5V8tDT+4nPj4BRZFRUbCPT2DsTlrUonL79m2OvHOM7Xu2kpKehN+vh6wqB39yiH/7wTmyxic4/rd/jD/Qq2dcAqtPo/rsNW5XVWAkJqJKElOzM8iSTEx0NKqsIskyU5PTOJ1OrFZryF01OTGFx+0hMyM94n6HT8+3pkjzhMJ8wRJuXUlISOTpZ56mra2NkydPUnutDp/XG1rf7nCg6zqzMzOheQ6ng7T0dLZt30pGRkboXD7OFSV9jAVFILhXCKEiENxDQr9MJQmr1YrHYw444QOF1WKhPS2VkW/+Gql/8dfgnSWrspy08QnU//bX5B4/RdfXn8NdsRzVMNDSUiPiUyZGJ+ic9RGXnoKeloJfUTECgZjIEsjm+9bmVsZjopGQ6EUhI688VEPEMAxkNZ4JI5q+KYllzhSzl47DRdeIRpHNhY6O1+HiVtcA0bFmNVpDtjLrTMZjuHAGKtS29XrwRiXhcyajSTKa18eAW8We5sLrSAbVQs/4bSYMJ3J8Fv7oKCRZxS+rzMRnocqL/9uy2KxMRDtpnfaQlJYWqJ9itheQcjL53+sr+Nbbxyn7P/+S4w9ux5ObgaWtm/9y9CyyLFH7u98IZc2MDPYgSxIxsbFm8KqkMDYyRlxcXKDMvIosSXR39SBJEpmZmQvSgc3PcWkxECR8nmHoEWIFQEemoKCQ/Px8DMNgYmKCwaEhhoeGGB42OyC7klwkJSWRlJxEdFR0hFVn0RoudylShGAR3A8IoSIQfE4ELSXBv/MpLCzkwoULTE9PExUVZYoIoKi0hNNNzTR842sUlBYT/70fsPl//iMbdZ3uxHi+s20T/SuXs2bKQ1RsFLIuMTOr0dnWxc3rNxnoG8Rqs7J241oUxcwgUWQVWTYHXM2r8dHJMzRfbyE6OgrvrI+3XjvA3gf2UlRSGCrXbnfYWV6+nMb6JgpLColzxbJ63SreP3KCix9dYf2WNWzesYlzJ8/T2tQBOTA+OsHtjn4SkuPpvNYCNjPotWTjaiyqBQy4fKYGSZIoLS9GVVT6ewdpabxJ6YpSnE5HyNqjKIEMmEXcDpIkkZCQwIqVK2ioa0BVFdZUrQ51ht65fwc3stL5p+I8Nh98n2d++DYx7hkm7DY6V5Vx8vd+A196Cqok453xcu1CLSlpKaSnp6IoKre7+xkZGmHX3p1hpfElaq9eIyk5mZS01NB5zJ3TJx/kgy6h8IDbcMEiSRAfn0BcXByFBQV3vc8gi8XKLFUrZSmRItw+gs8bIVQEgntEcFDy/fM/ohsGqwYHOX/+PI0NjazfsB59zRr6hntY7XFz7V++y7H33sf14pcZf+qRUBXWafc03ks13Kqpp7Otk/TMNCw2C53tZqXSuPg4NmxeT3FpEc4oZyhgVlFMd8/A7QFOHPuQqYkpNm6qYl3VWrxeH4cPHuHou+8xMT7OmvVrQoPW5m2b6Gzv5PQHH/HI0w9TUJzP+Ng4l89dJi4+hpKVxex8aAe+gU6oe4+/G6uiu6MBA4NEdRZyoXrPZvzRyUiSTHPtTYb6R6jauo6k5CS8Hi/nP7xIgiuRTVuqQq4hNXC+sixHlK6PQIFtO7eiGzq1NXVMT7up3rEJRVFwOpxUrq3Ev2oFY4/t5SxmEThN07AHAmkVScbw61w4fQld19m2awsWixVZUrhy4QpxcXGUrigNWVP6evsZHhrhwYcfNNN9wwb8+ZlTwc87uHwpwl1+5rbhC8PEraREtF5Yivnp6osJlMXOSYgUwf2EECoCwWdE0IR/N+uh6yQluUhLT+d603U2VG0Aw6yn4rDb2ffAPn76459y8exFNm3dBH4NXdJx2B1srN7I8pVlXLlQQ2tLG7quU1RcSHFZEcmpychyMO1XRpbN7B4JiSsXaqi5VENMdAxPP/sUGZkZyLKMxWLlyWce5/2jJzh/5jzjY+Ns321WonU6nGzduZXDBw/TcK2R8lXLWb1+FaMjY9Rdqic2Lob07HTscWZ07M6HttE9rjNwe5DCVDu0HDN7FalW+nsGaK5voaA4j4LSAmRJ5tKZGnS/zq59O7DZ7SGR0nurj+HBYbNBo6ajaVpIiK2rWhsaQC0WCzt37yA2JobzZy/gmfawY/82FIuCrAdqlsgyhq6j2sN69Rg6U+NTfHTiLCNDo2zcWoUrOQlFVmlraWN4cJh9D+7FZrGZHYslmZvNLaiqhZKS4kVL0f8sNUmCAmGu4eASogWzCNadvl+LW57uLEjuJKKESBHcK4RQEQg+R5Zy+4A5iKxYsYLjx44xNjpGXLxZr8OQZPLy86iorKDm8lUKigpISUuZ26chEx+XwI49O9iycwt+TUO1qOi6EargGv5rXkLi1ImOt+5WAAAfSklEQVTTNDVcp7S0hB27d+BwOiKKj1kUCw889ABx8fGcP3OOqckpHnnyERRZpai4kObCAmou1pCbl0N0XBTbdlYzNTHJuQ8vsvuRHaQ4zH8tNqud9Iw40tJTsc0MQwsYGtSer6e9pZPExESqtq7HoljoaO6kv7uPTds24Up2hURKf+8Ahw8chkChM6vFisVqQVEVWm7cZHZ2lu27tiMZMugaqqqyYdMGoqKj+eD4h7z75nvse2QPzigHUrDTtBxpjbh54ybnT11EVRX2P7KX3PxcFFlF9/u5fO4KaelplJSVBCw8pnXnZnMrBYX52B2OkLXnbhv73c33BCJr4SwVfHs33E02jxApgvsV5Vvf+tadlt9xoUAguDPGIuZ5AwNJkkJ/wcAwDAwgNjaGixcuolpUcnNzkTDXk5HIyMqgqaGJzo5OCgrzsNnsZnm1QIG0YHdcVVEDAZ/mgBqsbKoqKh63hw+Pn6Tlxk02bqpix54d2GxWZFkJbRO0DKiKyrLsZcTExFBz5SqKLJOVnYUkyWRkptFQ20hPdw+5ebnYHXaycrNoa27nZtNNZsdH2Kpf4mr8TiwxCciygj49wfLb7/F316LoG5qmrLyE6p2bcNgdjI9OcPbEeTKWZbJ5+0asqg1VUZhxz3L0nWM4HA5+9Rtfo3pbNVWb1rN2/RpWr12Fpmlcu3INn9dH1rJM5FBNGInk1GRSUlO43tBEa3Mb7mkPsx4vs54ZNJ8GhoR72sPFjy5Rd6WBlLRkHn7iYdLT01EVs/LrlfNX6bnVy/6H9pGQkIgScD11d3ZTX1vPlm1bSUlJCVhZpCVeS7t8gpaY4Mv8Fsyx2PzFjkHE8oXnstgx589bCiFSBJ8Tf7LUAiFUBILPkKWESvhfczAxl9lsdkaGh7lac5WU1BRcLpe5QAJVUUhKTqLuWh1NDddJT08PWF2ksLLqUoRIURQFWZYxdINrV2o59u5xxkbHqd5WzcbNVaH0ZEmSUJRIsWK6iCAlNYWx0VGuXa3D6XSQmp6KxWIhMSmBxrpGWq63kJqWSkJiPBnZGXhnvYz397DXVs//V+OkvrGL67XN9Nxo5uGYG1yK3sLm/XsoLCnEZrXS393Ph0dOEeV0sv+RvTgdUaiKwvjoBIfefBev18cjjz+EKykpIBTUkOUiJyeHmZlZrtXU0nyjBVdiAvGJCUiBexKfEE9OXjaDA0O0NrfS1d5Fa0sbzY03aaq7TnNjC+4pN6vXr2bHnu04nQ5UxYIiKZw/fYG6a/WsrChnzbo1oWPPeGZ46/UDREVFsWfvHiyqJRTzE97YL+giCjI/E2exeisfJ1gWWzZ/+WKEC6LF5i+FECmCz5ElhYq02D/SMD4+WksgENyR+XEE4eb84LRh6Gb8hWHg8/l46fsvMTA4wAsvPk9KSspcmrCuc7uvjwNvHmB0dJTk5GSysjPJzs0mNT01LFvEz+TEJEODQwwNDnO98QZTk1MUFOWzZVs1CYmJYdkrLHBXhAdh6oaBpvk48ObbtLW2sXPPDsrKy/D7NQYGBjn09rtMjE9QtWU9xcuL0Q0/8mQfm488z/cL/isdQ178mkaidZbfGf02J3Z/B58jGSnQ9O/C6Yu4khLZ/+g+YmJiQ+6eo4eOY7VaeOzJx0hNSw2Jr/ldiQFudd3i2HvHGR4epqikiI2bNxAbH4eu6xiBwOOZ2Rnc027c0248nhncHjeGrpNflI/dbg/tU9d1Trz3Aa0tbaxZt5qtO7aiBrKlMOC1V19neGiYF3/lRdJS05AkKbQ8vPtwuFD5eVJ+l3IV/jzczTkIkSL4nFlSMQuhIhB8xiwW8PhxYmVqaorvfuc7+HwaX/nqC8TGxUaIFbfHTc2Vq3S0t9PT04vf70e1qGRmZaL5fAwODjHjmUGSzF/bqWlpbN66iWXZyyLiKYDIwTXcAhAIOg2en9fn48AbB2hra2PX3l2UrigxC8G5pzj67jHa29opLClk87ZNWL1DrD/4NOceepVZWyK6YWD1DFN95HlO7n2J7jGdthtttLa0sywni937d2G3O1AUhY6bHXxw9EMSEhJ49MlHSUxMCGUrqYFCdfORJbNK78XzFzh39jx+v5+c3BxWra0ka1kmRuBzMIy565kvAHxeHx1tndRfq2egb5AtO7awbv2aQCq3Gdtz/MhxGuobeeKpJygrK5tzk8lqmCiRPjWRshg/i3D5JMcVAkVwjxBCRSC4V3ycUAm+DwZJBsXKwMAA3/vu94iOieaFF5/HZrNFiBVz2mBmxkP3rW462jvMjruKSkpqMkkpyaSkJJOUnITNZgsda0GPl6BgkRcOqMFjBae9Ph9vvvYmHR0d7N63i5LlpljR/D4unLvIxbMX8et+Vua7+PcTf8mBVX+LPT0Ph9PBWGcTj176Lf5g6kX6pxUsFgul5aVsrK5CVRVAovZyHZfOXyYrK5OHH3+Y6KioBSJFnudCmX9PJyYnuVZzlWtXa3G73SS6EqlcXUFufg5qoCFf0N2h6zrdXd1cb7pBe2s7mk8jNjaG6m3VlJSVRBz3Ws1VThz7gM3Vm9m+Y3tIpCzm8gFC5x3O/VxATQgUwT1GCBWB4F7ySa0q5jyDtrZWfvTDH5GSmsKjjz1KfEJ8qOFguGAJrh/cx3wWLfolySFx4p5y09XVxa2uWzicDqqqqnA4HKHjAKFjzXq9vPnam3R2drJt51bKK8vx+zV0Q6e3p5e6a/VM3LrOt2z/wv8x/BxjfgeqqhKtj/PtpB/zP5y/S2rJKnJys7FYLciyhF/TOfX+adputlNSVsyefXuw22yhwV4OxaYsLqyCzBdVN5pucOXyFfr7+82AZcMIpGBbsFot+DSNGY8Hm81GUUkxpctLyMrKQlHmUrolSeZWRxdvvP4WBQX5PP3M06ZA+RiREtx+7r7fv0JAiBTBfYAQKgLBveZnFStNTU0cfPsgmuZj/Yb1VG2qwmKxhLYJt3rM32c44QOlX9fp6uiis6OTrs4uhobMUuwWVcWnacTFxvLYE4+RkZkR4SoJFysH3niLtrZ2Nmxcx/pNG0Jixa/7kaf6KX/9QY5s+Cd6p2BsZIxsl4WnG/4jVx57E58jOVTTBQOOvnOMW5232LR1E+vWr0NRlIiYlHCREhQofs2Pz+cLNeZbcB/1ufL/3d09DPT34/X6mJ2dwev14vX6ACgozCc3P9fsTCxFCg3d7+fM6bNcvnSFpKQkvvq1F80Gf5+ySJnfSfnzQggUwX2EECoCwf3AncRKuMCY7waanJzg/eMnqKurJTomml27d1FcUrxgH/Onw5GQ6O3ppaG+gebrzXhmZrBYLGRlZZGbl0N2Tjbp6en09fVx4I0DTExMUL21mqqNVUiStMCK49N8vHf4KHW1dWzYuI61VesA09ojTfWx/Kf7qXvyHXzOZHRDx+IepPLNR7n6+FtoUamhmi4n3z/F9YbrbN+9ncpVFYEy/1IoNiQoCCbGJ+i73U/f7T56enoZGhzCMAxy83KpqFhJYVEhqqouek/DLS13qugabm0aGBjk0MF3GR4aZtXqVezavRNHoGZKcJ2lgmeDy8P/Lnq8uxAKn7ZwEeJEcJ8ihIpAcD+w1KBzN2IFoKurk/cOv0dffx9ZWVnk5ObgSk4iJTmZ+IR4M301sK7P52NycpLJiUm6u7tpqG9gbHQM1WKhqLiIioqVZOdkR1gSgszMzHD43SM0NjSQk5vLw48+RFRUVIRY0XQ/uu7nyLvvhcTK+k0b0HU/8nQfJT/eS+MzR/DazRRr1T1I+esPUvfkO/ijzAyl8x+d58qlq2yoWsemLZsDwiRSpMx6Znntx68xODSMhITNaiU9I53MrEwAGhsamRifwGa3U1paQnnFSjIC3YzvdH/DMXQ9ZKkxdIPzZ89z9sw5nE4nDz70AEXFRQARVhTz/eLVZz9OpPy8YuFuxYsQJYIvEEKoCAT3Cx8nVsKnw8WKOd9A13WuXL7MxYsXGR0ZDa2rqCpJSS4MAyYmJvC43RH7z8nNoXxlOaWlpQuCaxfDMAyu1NRw9Mh7WG1Wvvq1r0ZkH5muHiMgVo5QV1vP+qp1rNu4DtXdT9Gru2n60hE0ZwqGYaC6B1n+0/00PnMEtxLH1SvXuHKhhvKKFezYvR1VtQSKtcmhdF9N8/Paq68xPDTMjl07yM7OJjk5ORQjAqalqKOjk7raWm7caEbz+bA7HGRnLyM7J5tl2ctwuVwRIm4+E+MTdHd309PTQ0d7J6MjI6woX8He/XuJckZF3Kf5VpTgvPn3UvTLEQg+EUKoCAT3C3cjVMLfhwfHhgsWgNnZGYYGhxgYGGBwcJCBgQFUVSUmNoaYmBhiY2OJiY3B5XIRExMDfLKgTt3Q6evr4+WXXiEpycXzX3keJELxKLph4Nc1/H4/R48co762nhUVK6jIiWfzwRdo+tVD+KLTzOOO91L+0iO8VPqnXGoewOvzUVRSyN4H9oQya4IVYVVFBQMOHjhE+802nnj6CUpKShb01JlvufDMeGi+0UxHRwddnV1MTExgGAbOKCdJSUnIimIWblMUFFXFr2n09vYyOTEJgNVmIyMjndVrVrN8+fKIfYdbUeDjmw0uWolWiBSBYCmWFCqi149A8DmzVLPC+X2Agu/De7wEtw0OljabncysLDKzskLr3A0f1yQvfD8pqSnsf2A/B958i6s111i1pnLBepIksWvvDiQZamvqGPmon83/DNq+PihOQ9d13Dc74H9A1zdqyKqsYvX61aSmpcxLMTZQJFOQXbtyjdaWm+zeuyvkevk4HHYHlZWVVFZWYhgGY2NjdHV20dHZwfjYOD6vD4+mofv9aJoGwLJly8jMyiR7WTYpqSkRNWbC79V8gRK57IuThiwQfNEQQkUguAd8UrEC5qAYFCsh5le95W6b3i388RIeZBo6VmDAXb6ijLffOsD09PSi+zMFlcSO3TuIioqi4d0j5n6iUvAHzlGOTQYgPruQ6of2zFXRDbqu5g3uExMT2Gw2Vq9ZvcQ1LF5Vd+4aIDHRRWKii8pVlQuW34mlqvTeKR5lqffztxUIBJ8MIVQEgnvEncQKzA3g4e/DB8gFogUWCJdPdD7BImhGsAeRHLKYeL1eDMPAZrPecR8tN1o4+9E5CjPSAjtVQsscUdEAdHZ0UzwwRHJKUkTxNfNYgWMG0pB1/c7e5yVFwXwhJil3zPa507aLWVAWO7Zo7CcQfDaIp0cguIeEB4UuWDavsmnwfXjMxPyXoqhzxch+hpd5nIXWltnZWQCsVtuCZeFxM3VX64iLi2X3vl2R64RZiax2G2dOnYkIbNXnBQ0DKLKMX/cDRNSJmX+/QnVMwl7h9zb4UhUFVVEi1gvOC3/N3y78/t7pc1mMO32+AoHg7hBPkEBwH3CnwWzRoMx5oiWcxQTMnV53g3fWC4DNZg1l/eiBCrlgWkM8bg89PT3kFuSgBOqZGIaOpgcLwZkxIeWVK+i51UNHRwea3wzEDVbbNcL2K8kSfk0LuY4WEzOL3q+PEQfzhdnH3b/Qdovcb2FFEQg+e8STJBB8Abjjr/Y7iJa74W7EimdmBgOwWC0h60awgq5fN9OUO9rb8ft1cvJy8PtNURLMCPL7/WiB7fKL8oiOiebMybNMT0+bokc3K9oGp42AUDEwAnVk7lwH5U7X9vMKt6XurRApAsHng3iaBIL7hLtxE3ycIAkXLUu9FmMpsRK0nvTd7gMgKiY6MN+IsKxMTU3x0akzxMRGk5icGBIUWkBk+HVtLpNIMlhfvY6x0THe+ukBZmY8ptUlVPJeR/P7cTgdGIbB0OAgumFEuH+WvP4l4kk+CR93vz72MxAiRSD4VBFPlEBwn3E3A93diI+P2/aT0FBfT3JKMsnJSXMumoDlw+fzcejAITxuD3se3GPWWQnGlhhBi8uc68fv18jMyWDvw3sYGx3nzKlzAZePHrC8mKImNz8XSZK4cf1G6DyCvXuCouaTWFjuRsT9vFYrIVIEgk8f8VQJBPchHxdHsWD9n2PwnX/cIEELyNDgEL29t1lRvjzQ5yfSmnL6w9P09PSydddWEpLiQ3EmEHT9BF9B940ZHJuWlUr5quU01Tdxs7k1JGiC8So2m42sZZlcb7qBHnALLcadukV/UjH3Se5f+D0TQbMCwWeHeLIEgvucT2Mg/HniWK7WXEWWZUqXly1Y1ljfyLWaWipWr6SwpCDkttED1pOgsNHChIbf0NB0M26lYm05ruRETr1/msmJqVCMStBqU1hSyNjYGH19fWH7+/ma9H1SQbfkfoQ4EQg+F8RTJhB8gfg0BsY7DcjzM2o0TaO+vp6iokKiopwRbp++27c5cewDspZlUrV5Q0BkGCE3DpgxKh6Ph66OLmY8HmBObJiZPTJb92xB82ucOPpBqDR/kPyCfBRFoflGc0QdlI9p/fEzXftd70MIFIHgc0UUfBMIvmCED5J320X3jvuT5CWtFK2trXjcHsorV0bMNwyD9949isNhZ/eDu5FlOaz/j44UOK/GukbOd3Tjm/WSpcrshVD3ZT1wGdEx0WzYsp6zH5yj5UYrpctLQu4fq81KVnYWN5tb2bFzZ8Q56LqOrASL4RkLC7V9glTiu0GIE4Hg3iCePIHgC8xnHR/R09ODoihkZy8LZd3ohs7AwAAjw6OsrVqLw2GPqKei+TVaW9oBqL9ST0p6Muuq1zI9ZXZz9ng8c2IlIGwKi/NxRjtpbWkzjxHm4klLT2VsbIzZ2ZlPHED78yLiTwSCe494+gSCXxCWqjT7SQl3sfT29JKckoIaKOAWXHaz+SYAufk5cxk4usHw4DAHfvw2F85cBGDr3q1s27uVouVFbNy2HoCP3j/LzMxMhFgxgJz8bLo7b4UECZjCJyExAV3XGR0dW+Rc70603I015dO6fwKB4NNFPIkCwS8wdyrPfyeCcSi3b/eRnpG2QBDcbLlJRlY6doc9tL5f93PqxGncbg9VWzcA4EpJDKUoJ6WZTQlHR8Y4ceRDvD5fSKxoukZO3jL8fj8dbV0R2T+JrkQABgcHQ8f/tKwqQpQIBPc/4ukUCAQLkCSZocEhfF4vGRkZEctGhkcYGR4hv7AgYv6tzlsMDQyzrmoN2bnZEfsKF0brq9cy1D/MyfdO4df8SLK5PDk1majoKNpvtkd0Ro6Lj0NRFIaHhj7VaxTiRCD4YiCeVIHgF5xPOiAHg1J7e3sBSM9IjxAarTdbAYmCwvyIBonXLtUSExtNfnHegn2Z0+a6mTmZVG1dT19PH5fOXJlbrijk5OfQ3dWNz6eF5iuKQlKyi4G+gQX7Woz5FWk/jUwfgUBw7xBPsEAgWBSvz2xEaLfbI+bPzsyiKArOKCcwJ4RmZmZxJSehWiwR68uStKC5X35xPnaHHY/bHVHDJDY2JtAbSEMKEzkOuyNCvITv62dBWFMEgi8O4mkVCH4JuOsKt2HrxUTHAOB2u+eWSxJx8XH4/X7c0+HzZVJSkxnoG8AwjAjXTZBw4XG7u49ZzywFpYUR+5gYn8Bms+F0OCOOOTk5SUxszNLnPS81+W6vUSAQ3P+IJ1YgECxKdKAB4dTkVMT8hAQzuHV8fCJCiKRnpuFxz+CedON1xXPyyEvMJsYHLCYSs4nxHH/nX/G6Emi90YrdYWdZblZoOcDk+BRx8XGhfQYtMZOTU8TERP9cXaIFAsEXE1HwTSD4JWV+oTdJkiP65kRHRyNJElNTU+a6sgx+nbj4WCRJYnJ8HDLTkCQJWZJJyzCnB/uHyC3KQUFhxV/8Pa7TF7COjONNiGVw8zrqvvI4vZ29lK8ux2axma6hQEDt1OQkaenpZiaOZGbjaJofTdNwOqMiz3+eZWQxS4kQNQLBFx8hVASCXxJkWV6yku1i1WljYmIBmA64eGRJxpBkYmPjUFWV8bFJFMX8F2IYBi6XC5vNRl9PPyuinJR/5beZyUzj+p/9Hu7sTOy3esj/2++y7d/8Z44/spvl5aUoijJnJTEkpianiS+LR5EVFFlFliQ8M14kJKKczpCgCbqRzGkhUASCX2TE0ywQCBYgSxIWi4WYmFh6enpCwkCSZVRFweVy0dnRiaHrSJKMIitYLVayc5fRcqOFqN/6A3yan9N/8X8zvmktWlY6vWVF/O9nH8OnafzG5TriExJQZRUl8Gq5fhMJiaSUpJA1RZJkRoaHkSSJ2NjYeee48N/XYqJFIBB8sRFPtUDwS8QCd8li1oiwddasWU3bzVYGBgYiugxv3rKZkeERLl24EnLTKLLC/of2sX1VBcWt7RwtLeT1A0d54wdvcfLoKd589W06+4Zo2r+D4uY2rJMeFFlFVRSGB4c5f/oCOXk5FBUXBmqvmC6lhtoGopxR5OTmhKwpd+P2EQgEvxiIp1sgEISITCOWWLtuLRarlQvnLkRYVYqKClmxYjkXzl6gqb4RRVFNsaIoVCUmIBtQ/KXH2L57K4muRG5391FUUsSXv/olXDu3IBkG0d29KIqCd1bj+OH3iY6OYt9De1EVC6qiIEkyU1NTtLd1UFG5EtViicgmCrp9RMaPQPCLjYhREQgECwjGszidUaxds4Zz586xZeuWUEaOIivse3A/breHE8c+xGa3k1+Yby4LiAmnM4ryinKWr1wOEArUVYLxJbKKjMyJIyeYnfHy9LNPEuWMDrl8VEWlsa4RCYmKVRVLWlOCSFJkSrSIUxEIfjEQT7JA8EvO/IF9fpzHhqoNKIrCpUuXQxk+kixjs1h59IlHSU9P5+ihY/R296AoKlpBPoYk4bjZjqqoWFUrqqxiUawoskpU+y0MScKfl8OVizX0dt9m567tpKdnoCoKiqygKiqGbtBQ10h+QT6Jia4lrSnCSiIQ/GIjnnCBQLAoZuyJRGxsHOXlK6mrrWNocChCrNhtNp760tMkJCTwzlvv0tzUjJSYyPT2alwv/wSrV0ORFSyqBUVRsPo0kl7+CaPVVZxraqHm4lVWrFzBylUVIXePGnAjNdY14p52s2rNqghryp2CaIUVRSD4xUM81QLBLxl3qjeylFVl2/ZtOB1OXv3hjxkZHglZNRRFJSYqiqeffZqUlBSOHTnO9/75Jd574lH02Vkyv/x1os9cwtY3iPL+aVKe/Boz7hn+Z1EhVy9do6SkmF17doTSkVXFzADqbO/ig/c/JDcvl6LCogUiZTFrSrhI+bggYYFA8MVBMgzjTsvvuFAgEHwxWayeSrCOSng9FcPQ0XUd3TAYGhrk5ZdeAQyeff5ZEhIT0A0d3dAxdB3Nr1FXW09jQwM9Pb3EjI6x/+wFlnd0EuP2MOWw05iXw+UnHiGtaj2FxYXEBVKOZXnOnTPQ189PX32NRJeLF77yPHa7fa4A3LwA2mA8CwihIhB8wVkyKl4IFYHgl5ClCr/NFyvBANigWBkcHOSl77+Eosi88OILxMbFYhhGhGDRDR2fpjE8NMTQ4BCDg4OMjY2TnpFGYXERcXEBcTLPeiNLEoP9g7z20zewWix89Ve+SkxMjBApAsEvB0KoCASCSO5kVQmfDlpVzHkGfbdv88orP8BqtfDcC88tECtASLAEtwliGPqCFGhzfYPz5y9y/sx5oqKieO6FZ0lKSrqjSIG7y/QRIkUg+EIghIpAIIjk46wq4dPzxUpvTw+vvPID/H6NVWtWsaFqA06nM7RNuGBZbN8ha4osM9A/wOFDhxnoH2TFiuXs3b+XqKio0HrhZfLD41KENUUg+IVCCBWBQLCQT2JVCd9GNwzGx8f58IMPqaurRVFV1q9fx9r1a3E4HCELy1L7lSUZj8fDmdNnqLlyFYfDwf4H91NSUhwRNCtEikDwS4MQKgKBYHHuVqzAwpgVgMHBQU6fOkVDQwM2m538gjyyc7KJjo4mLj6O2NhYFEVhYnyCnp4euru76enuZWhwEIBVq1exfed2HA7HkgIFlnb3zJ8OzRMiRSD4IiGEikAgWJpP6gYK3yYoWPr7+vjoo4/o6OjE7Z4OrGsus9pseGdnAbBYrWRmZpCVlUVJSQmpaanA4sG1sFCghK87fzocIVQEgi8UQqgIBII783GWlfnv5wsWc7mBrutMTIwzPj7OxPgEY+PjTE9N4XK5yMzKJDklGfX/b+8OlhOEwSiM/p32/Z+5i84IBSIB0bnAOTtMYFwxn0HN93z3jlagjMf+xkUKXJBQAZ7rWVWZHk+/uzLMmd86xnOnfyhXNQRK1WuRMj0fOAWhAqzbEytV7WD5f85wO2nteNwTKEvHrWsApyFUgD6t0KjaFixr11zbBfkxrzNSBAqcmlAB+j2Llap5oLReq2rHS9XyI6Cqxq94rKLAlQkVYLs9wdIzNvY0QDp2QxYpcAlCBdhnLVaq+qNkC5ECtyJUgP16YqXqmGDpCZQqkQIXI1SA1/TGymP+AY9+FucLFLgioQIcY2uwHEWgwKUJFeB4744WcQK3IVSA9zsiXMQJ3JJQAT5rS7SIE7g9oQIAxGqGio8xAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxBIqAEAsoQIAxPpZGf/6yLsAAFhgRQUAiCVUAIBYQgUAiCVUAIBYQgUAiCVUAIBYv84mXyBgnakTAAAAAElFTkSuQmCC\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "data_obj.draw_mol_comparison(refmol='lactate', mol='glycolate')" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Cluster the molecules and obtain a vector indicating cluster identity for each molecule. In this case Butina clustering is used on already pre-computed distances." + ] + }, + { + "cell_type": "code", + "execution_count": 34, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "[3, 2, 1, 0, 0, 0]" + ] + }, + "execution_count": 34, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "data_obj.cluster_butina()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Other cluster methods..." + ] + }, + { + "cell_type": "code", + "execution_count": 35, + "metadata": {}, + "outputs": [], + "source": [ + "# here" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Plotting\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Use PCA to visualize the relationship between all molecules __based on molecule fingerprints__. \n", + "\n", + "Optional arguments include:\n", + "\n", + "include_labels: True or False\n", + "\n", + "color_categories: None or a list of numbers the same length as the data indicating which point belong to what group.\n", + "\n", + "No color but with labels" + ] + }, + { + "cell_type": "code", + "execution_count": 36, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 36, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", 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First with labels." + ] + }, + { + "cell_type": "code", + "execution_count": 38, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 38, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", 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\n", 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" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "data_obj.mds(color_categories=[3, 2, 1, 0, 0, 0])" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Use t-SNE to visualize the relationship between all molecules __based on molecule fingerprints__. The options are same as for PCA. First with labels." + ] + }, + { + "cell_type": "code", + "execution_count": 40, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 40, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "data_obj.tsne(include_labels=True)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Now with colors instead of labels." + ] + }, + { + "cell_type": "code", + "execution_count": 41, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 41, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "data_obj.tsne(color_categories=[3, 2, 1, 0, 0, 0])" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Example usage" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "So let's say I'm interested in looking at EC 1.1.3.15. I might do something along these lines:" + ] + }, + { + "cell_type": "code", + "execution_count": 42, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['2 -hydroxyisocaproate',\n", + " '2-hydroxy octanoate',\n", + " '2-hydroxy palmitate',\n", + " '2-hydroxy-3-butynoate',\n", + " '2-hydroxy-3-heptynoate',\n", + " '2-hydroxy-3-hexynoate',\n", + " '2-hydroxy-3-methylvalerate',\n", + " '2-hydroxy-3-octynoate',\n", + " '2-hydroxy-3-pentynoate',\n", + " '2-hydroxy-4-methylmercaptobutyrate',\n", + " '2-hydroxy-4-methylthiobutanoic acid',\n", + " '2-hydroxy-beta-methylvalerate',\n", + " '2-hydroxybutanoate',\n", + " '2-hydroxybutyrate',\n", + " '2-hydroxycaproate',\n", + " '2-hydroxycaprylate',\n", + " '2-hydroxydecanoate',\n", + " '2-hydroxydodecanoate',\n", + " '2-hydroxyisocaproate',\n", + " '2-hydroxyisovalerate',\n", + " '2-hydroxyoctanoate',\n", + " '2-hydroxypalmitate',\n", + " '2-hydroxyphenyllactate',\n", + " '2-hydroxyvalerate',\n", + " '3-chlorolactate',\n", + " '3-indolelactate',\n", + " '3-methoxy-4-hydroxymandelate',\n", + " '4-chloromandelate',\n", + " '4-fluoromandelate',\n", + " '4-methoxymandelate',\n", + " '4-methylmandelate',\n", + " '4-nitromandelate',\n", + " '4-trifluoromethylmandelate',\n", + " 'alanine',\n", + " 'an (s)-2-hydroxy carboxylate',\n", + " 'beta-phenyllactate',\n", + " 'glycerate',\n", + " 'glycolate',\n", + " 'glyoxalate',\n", + " 'glyoxylate',\n", + " 'glyoxylate thiohemiacetals',\n", + " 'homoserine',\n", + " 'isoleucic acid',\n", + " 'isoleucine',\n", + " 'lactate',\n", + " 'leucine',\n", + " 'lysine',\n", + " 'mandelate',\n", + " 'methionine',\n", + " 'p-hydroxy-beta-phenyllactate',\n", + " 'p-hydroxymandelate',\n", + " 'phenylalanine',\n", + " 'phenyllactate',\n", + " 'thiol-glyoxylate adducts',\n", + " 'tryptophan',\n", + " 'tyrosine',\n", + " 'valic acid',\n", + " 'valine',\n", + " 'vinylglycolate']" + ] + }, + "execution_count": 42, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# first get all the substrates\n", + "mol_obj = brenda.BrendaMols(typeof='substrate') \n", + "my_ec_data = mol_obj.data_dict()['1.1.3.15']\n", + "\n", + "my_ec_data" + ] + }, + { + "cell_type": "code", + "execution_count": 43, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "{'2 -hydroxyisocaproate': 'CC(C)CC(O)C([O-])=O',\n", + " '2-hydroxy-3-butynoate': 'CCOC(=O)C(C#C)O',\n", + " '2-hydroxy-3-heptynoate': 'CCCC#CC(O)C([O-])=O',\n", + " '2-hydroxy-3-hexynoate': 'CCC#CC(O)C([O-])=O',\n", + " '2-hydroxy-3-methylvalerate': 'CCC(C)C(C(=O)O)O',\n", + " '2-hydroxy-3-octynoate': 'CCCCC#CC(O)C([O-])=O',\n", + " '2-hydroxy-3-pentynoate': 'CC#CC(O)C([O-])=O',\n", + " '2-hydroxy-4-methylmercaptobutyrate': 'CSCCC(O)C([O-])=O',\n", + " '2-hydroxy-4-methylthiobutanoic acid': 'CSCCC(C(=O)O)O',\n", + " '2-hydroxy-beta-methylvalerate': 'CCC(C)C(O)C([O-])=O',\n", + " '2-hydroxybutanoate': 'CCC(C(=O)[O-])O',\n", + " '2-hydroxybutyrate': 'CCC(C(=O)O)O',\n", + " '2-hydroxycaproate': 'CCCCC(C(=O)O)O',\n", + " '2-hydroxycaprylate': 'CCCCCCC(C(=O)O)O',\n", + " '2-hydroxydecanoate': 'CCCCCCCCC(C(=O)O)O',\n", + " '2-hydroxydodecanoate': 'CCCCCCCCCCC(C(=O)[O-])O',\n", + " '2-hydroxyisocaproate': 'CC(C)CC(C(=O)O)O',\n", + " '2-hydroxyisovalerate': 'CC(C)C(C(=O)O)O',\n", + " '2-hydroxyoctanoate': 'CCCCCCC(C(=O)O)O',\n", + " '2-hydroxypalmitate': 'CCCCCCCCCCCCCCC(C(=O)[O-])O',\n", + " '2-hydroxyphenyllactate': 'CC(O)(C([O-])=O)c1ccccc1O',\n", + " '2-hydroxyvalerate': 'CCCC(C(=O)O)O',\n", + " '3-chlorolactate': 'C(C(C(=O)O)O)Cl',\n", + " '3-indolelactate': 'OC(Cc1c[nH]c2ccccc12)C([O-])=O',\n", + " '3-methoxy-4-hydroxymandelate': 'COC1=C(C=CC(=C1)C(C(=O)O)O)O',\n", + " 'alanine': 'CC(C(=O)O)N',\n", + " 'beta-phenyllactate': 'C1=CC=C(C=C1)CC(C(=O)O)O',\n", + " 'glycerate': 'OCC(O)C([O-])=O',\n", + " 'glycolate': 'C(C(=O)O)O',\n", + " 'glyoxalate': 'C(=O)C(=O)O',\n", + " 'glyoxylate': 'C(=O)C(=O)O',\n", + " 'homoserine': 'C(CO)C(C(=O)O)N',\n", + " 'isoleucic acid': 'CCC(C)C(C(=O)O)O',\n", + " 'isoleucine': 'CCC(C)C(C(=O)O)N',\n", + " 'lactate': 'CC(C(=O)O)O',\n", + " 'leucine': 'CC(C)CC(C(=O)O)N',\n", + " 'lysine': 'C(CCN)CC(C(=O)O)N',\n", + " 'mandelate': 'C1=CC=C(C=C1)C(C(=O)[O-])O',\n", + " 'methionine': 'CSCCC(C(=O)O)N',\n", + " 'p-hydroxy-beta-phenyllactate': 'OC(Cc1ccc(O)cc1)C([O-])=O',\n", + " 'p-hydroxymandelate': 'C1=CC(=CC=C1C(C(=O)O)O)O',\n", + " 'phenylalanine': 'C1=CC=C(C=C1)CC(C(=O)O)N',\n", + " 'phenyllactate': 'CC(O)C(=O)Oc1ccccc1',\n", + " 'tryptophan': 'C1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N',\n", + " 'tyrosine': 'C1=CC(=CC=C1CC(C(=O)O)N)O',\n", + " 'valine': 'CC(C)C(C(=O)O)N',\n", + " 'vinylglycolate': 'C=COC(=O)CO'}" + ] + }, + "execution_count": 43, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# need to get smiles for these substrates\n", + "chem_obj = cheminfo.NameToSmile(names=my_ec_data)\n", + "\n", + "# as you can see any \"strange\" substrates that did not give smiles have been excluded\n", + "chem_obj.data_dict()" + ] + }, + { + "cell_type": "code", + "execution_count": 44, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 44, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "# now I make the data object to do the fun stuff\n", + "data_obj = cheminfo.SmileToData(names=chem_obj.names(),\n", + " smiles=chem_obj.smiles(), \n", + " descriptor='morgan3', \n", + " metric='tanimoto')\n", + "\n", + "# cluster them\n", + "clu = data_obj.cluster_butina()\n", + "\n", + "# use to cluster categories to color points in an MDS plot\n", + "data_obj.mds(include_labels=True, color_categories=clu)" + ] + }, + { + "cell_type": "code", + "execution_count": 45, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "{'min': 0.061224489795918366,\n", + " 'max': 1.0,\n", + " 'sum': 236.9613845008384,\n", + " 'median': 0.19047619047619047,\n", + " 'mean': 0.21920572109235745,\n", + " 'stdev': 0.12151247459320104}" + ] + }, + "execution_count": 45, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# that's a lot of different types of molecules in there, I wonder how similar they are on average\n", + "data_obj.global_similarity_stats()" + ] + }, + { + "cell_type": "code", + "execution_count": 46, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 46, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "# I happen to know that EC 1.4.3.2 is also active on a range of substrates. \n", + "# I wonder if that EC class takes substrates that are on average more or less similar\n", + "\n", + "my_ec_data = mol_obj.data_dict()['1.4.3.2']\n", + "chem_obj = cheminfo.NameToSmile(names=my_ec_data)\n", + "data_obj = cheminfo.SmileToData(names=chem_obj.names(),\n", + " smiles=chem_obj.smiles(), \n", + " descriptor='morgan3', \n", + " metric='tanimoto')\n", + "\n", + "# cluster them\n", + "clu = data_obj.cluster_butina()\n", + "\n", + "# use to cluster categories to color points in an MDS plot\n", + "data_obj.mds(include_labels=True, color_categories=clu)" + ] + }, + { + "cell_type": "code", + "execution_count": 47, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "{'min': 0.021739130434782608,\n", + " 'max': 1.0,\n", + " 'sum': 1216.469725025713,\n", + " 'median': 0.2391304347826087,\n", + " 'mean': 0.255937244903369,\n", + " 'stdev': 0.12118952725373278}" + ] + }, + "execution_count": 47, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# seems like the mean similarity is a bit higher here, but on the whole I would say they are comparable\n", + "data_obj.global_similarity_stats()" + ] + }, + { + "cell_type": "code", + "execution_count": 48, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 48, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# what is orn? Don't know what that is really..\n", + "\n", + "data_obj.molecules('orn')\n", + "\n", + "# Aha, looks like ornithine! Who would have guessed..." + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.7.1" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +}